diff options
Diffstat (limited to 'addon/doxmlparser/doxmlparser')
-rw-r--r-- | addon/doxmlparser/doxmlparser/__init__.py | 2 | ||||
-rw-r--r-- | addon/doxmlparser/doxmlparser/compound.py | 22358 | ||||
-rw-r--r-- | addon/doxmlparser/doxmlparser/index.py | 1621 |
3 files changed, 23981 insertions, 0 deletions
diff --git a/addon/doxmlparser/doxmlparser/__init__.py b/addon/doxmlparser/doxmlparser/__init__.py new file mode 100644 index 0000000..31a275f --- /dev/null +++ b/addon/doxmlparser/doxmlparser/__init__.py @@ -0,0 +1,2 @@ +from .index import * +from .compound import * diff --git a/addon/doxmlparser/doxmlparser/compound.py b/addon/doxmlparser/doxmlparser/compound.py new file mode 100644 index 0000000..d15e04e --- /dev/null +++ b/addon/doxmlparser/doxmlparser/compound.py @@ -0,0 +1,22358 @@ +#!/usr/bin/env python +# -*- coding: utf-8 -*- + +# +# Generated by generateDS.py. +# Python 3.9.0 (default, Oct 27 2020, 14:15:17) [Clang 12.0.0 (clang-1200.0.32.21)] +# +# Command line options: +# ('--no-dates', '') +# ('--no-versions', '') +# ('-f', '') +# ('-o', '/Users/dimitri/doxygen.git/addon/doxmlparser/doxmlparser/compound.py') +# +# Command line arguments: +# /Users/dimitri/doxygen.git/templates/xml/compound.xsd +# +# Command line: +# /usr/local/bin/generateDS --no-dates --no-versions -f -o "/Users/dimitri/doxygen.git/addon/doxmlparser/doxmlparser/compound.py" /Users/dimitri/doxygen.git/templates/xml/compound.xsd +# +# Current working directory (os.getcwd()): +# doxmlparser +# + +import sys +try: + ModulenotfoundExp_ = ModuleNotFoundError +except NameError: + ModulenotfoundExp_ = ImportError +from six.moves import zip_longest +import os +import re as re_ +import base64 +import datetime as datetime_ +import decimal as decimal_ +try: + from lxml import etree as etree_ +except ModulenotfoundExp_ : + from xml.etree import ElementTree as etree_ + + +Validate_simpletypes_ = True +SaveElementTreeNode = True +if sys.version_info.major == 2: + BaseStrType_ = basestring +else: + BaseStrType_ = str + + +def parsexml_(infile, parser=None, **kwargs): + if parser is None: + # Use the lxml ElementTree compatible parser so that, e.g., + # we ignore comments. + try: + parser = etree_.ETCompatXMLParser() + except AttributeError: + # fallback to xml.etree + parser = etree_.XMLParser() + try: + if isinstance(infile, os.PathLike): + infile = os.path.join(infile) + except AttributeError: + pass + doc = etree_.parse(infile, parser=parser, **kwargs) + return doc + +def parsexmlstring_(instring, parser=None, **kwargs): + if parser is None: + # Use the lxml ElementTree compatible parser so that, e.g., + # we ignore comments. + try: + parser = etree_.ETCompatXMLParser() + except AttributeError: + # fallback to xml.etree + parser = etree_.XMLParser() + element = etree_.fromstring(instring, parser=parser, **kwargs) + return element + +# +# Namespace prefix definition table (and other attributes, too) +# +# The module generatedsnamespaces, if it is importable, must contain +# a dictionary named GeneratedsNamespaceDefs. This Python dictionary +# should map element type names (strings) to XML schema namespace prefix +# definitions. The export method for any class for which there is +# a namespace prefix definition, will export that definition in the +# XML representation of that element. See the export method of +# any generated element type class for an example of the use of this +# table. +# A sample table is: +# +# # File: generatedsnamespaces.py +# +# GenerateDSNamespaceDefs = { +# "ElementtypeA": "http://www.xxx.com/namespaceA", +# "ElementtypeB": "http://www.xxx.com/namespaceB", +# } +# +# Additionally, the generatedsnamespaces module can contain a python +# dictionary named GenerateDSNamespaceTypePrefixes that associates element +# types with the namespace prefixes that are to be added to the +# "xsi:type" attribute value. See the exportAttributes method of +# any generated element type and the generation of "xsi:type" for an +# example of the use of this table. +# An example table: +# +# # File: generatedsnamespaces.py +# +# GenerateDSNamespaceTypePrefixes = { +# "ElementtypeC": "aaa:", +# "ElementtypeD": "bbb:", +# } +# + +try: + from generatedsnamespaces import GenerateDSNamespaceDefs as GenerateDSNamespaceDefs_ +except ModulenotfoundExp_ : + GenerateDSNamespaceDefs_ = {} +try: + from generatedsnamespaces import GenerateDSNamespaceTypePrefixes as GenerateDSNamespaceTypePrefixes_ +except ModulenotfoundExp_ : + GenerateDSNamespaceTypePrefixes_ = {} + +# +# You can replace the following class definition by defining an +# importable module named "generatedscollector" containing a class +# named "GdsCollector". See the default class definition below for +# clues about the possible content of that class. +# +try: + from generatedscollector import GdsCollector as GdsCollector_ +except ModulenotfoundExp_ : + + class GdsCollector_(object): + + def __init__(self, messages=None): + if messages is None: + self.messages = [] + else: + self.messages = messages + + def add_message(self, msg): + self.messages.append(msg) + + def get_messages(self): + return self.messages + + def clear_messages(self): + self.messages = [] + + def print_messages(self): + for msg in self.messages: + print("Warning: {}".format(msg)) + + def write_messages(self, outstream): + for msg in self.messages: + outstream.write("Warning: {}\n".format(msg)) + + +# +# The super-class for enum types +# + +try: + from enum import Enum +except ModulenotfoundExp_ : + Enum = object + +# +# The root super-class for element type classes +# +# Calls to the methods in these classes are generated by generateDS.py. +# You can replace these methods by re-implementing the following class +# in a module named generatedssuper.py. + +try: + from generatedssuper import GeneratedsSuper +except ModulenotfoundExp_ as exp: + + class GeneratedsSuper(object): + __hash__ = object.__hash__ + tzoff_pattern = re_.compile(r'(\+|-)((0\d|1[0-3]):[0-5]\d|14:00)$') + class _FixedOffsetTZ(datetime_.tzinfo): + def __init__(self, offset, name): + self.__offset = datetime_.timedelta(minutes=offset) + self.__name = name + def utcoffset(self, dt): + return self.__offset + def tzname(self, dt): + return self.__name + def dst(self, dt): + return None + def gds_format_string(self, input_data, input_name=''): + return input_data + def gds_parse_string(self, input_data, node=None, input_name=''): + return input_data + def gds_validate_string(self, input_data, node=None, input_name=''): + if not input_data: + return '' + else: + return input_data + def gds_format_base64(self, input_data, input_name=''): + return base64.b64encode(input_data) + def gds_validate_base64(self, input_data, node=None, input_name=''): + return input_data + def gds_format_integer(self, input_data, input_name=''): + return '%d' % input_data + def gds_parse_integer(self, input_data, node=None, input_name=''): + try: + ival = int(input_data) + except (TypeError, ValueError) as exp: + raise_parse_error(node, 'Requires integer value: %s' % exp) + return ival + def gds_validate_integer(self, input_data, node=None, input_name=''): + try: + value = int(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires integer value') + return value + def gds_format_integer_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_integer_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + int(value) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires sequence of integer values') + return values + def gds_format_float(self, input_data, input_name=''): + return ('%.15f' % input_data).rstrip('0') + def gds_parse_float(self, input_data, node=None, input_name=''): + try: + fval_ = float(input_data) + except (TypeError, ValueError) as exp: + raise_parse_error(node, 'Requires float or double value: %s' % exp) + return fval_ + def gds_validate_float(self, input_data, node=None, input_name=''): + try: + value = float(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires float value') + return value + def gds_format_float_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_float_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + float(value) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires sequence of float values') + return values + def gds_format_decimal(self, input_data, input_name=''): + return_value = '%s' % input_data + if '.' in return_value: + return_value = return_value.rstrip('0') + if return_value.endswith('.'): + return_value = return_value.rstrip('.') + return return_value + def gds_parse_decimal(self, input_data, node=None, input_name=''): + try: + decimal_value = decimal_.Decimal(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires decimal value') + return decimal_value + def gds_validate_decimal(self, input_data, node=None, input_name=''): + try: + value = decimal_.Decimal(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires decimal value') + return value + def gds_format_decimal_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return ' '.join([self.gds_format_decimal(item) for item in input_data]) + def gds_validate_decimal_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + decimal_.Decimal(value) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires sequence of decimal values') + return values + def gds_format_double(self, input_data, input_name=''): + return '%s' % input_data + def gds_parse_double(self, input_data, node=None, input_name=''): + try: + fval_ = float(input_data) + except (TypeError, ValueError) as exp: + raise_parse_error(node, 'Requires double or float value: %s' % exp) + return fval_ + def gds_validate_double(self, input_data, node=None, input_name=''): + try: + value = float(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires double or float value') + return value + def gds_format_double_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_double_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + float(value) + except (TypeError, ValueError): + raise_parse_error( + node, 'Requires sequence of double or float values') + return values + def gds_format_boolean(self, input_data, input_name=''): + return ('%s' % input_data).lower() + def gds_parse_boolean(self, input_data, node=None, input_name=''): + if input_data in ('true', '1'): + bval = True + elif input_data in ('false', '0'): + bval = False + else: + raise_parse_error(node, 'Requires boolean value') + return bval + def gds_validate_boolean(self, input_data, node=None, input_name=''): + if input_data not in (True, 1, False, 0, ): + raise_parse_error( + node, + 'Requires boolean value ' + '(one of True, 1, False, 0)') + return input_data + def gds_format_boolean_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_boolean_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + if value not in (True, 1, False, 0, ): + raise_parse_error( + node, + 'Requires sequence of boolean values ' + '(one of True, 1, False, 0)') + return values + def gds_validate_datetime(self, input_data, node=None, input_name=''): + return input_data + def gds_format_datetime(self, input_data, input_name=''): + if input_data.microsecond == 0: + _svalue = '%04d-%02d-%02dT%02d:%02d:%02d' % ( + input_data.year, + input_data.month, + input_data.day, + input_data.hour, + input_data.minute, + input_data.second, + ) + else: + _svalue = '%04d-%02d-%02dT%02d:%02d:%02d.%s' % ( + input_data.year, + input_data.month, + input_data.day, + input_data.hour, + input_data.minute, + input_data.second, + ('%f' % (float(input_data.microsecond) / 1000000))[2:], + ) + if input_data.tzinfo is not None: + tzoff = input_data.tzinfo.utcoffset(input_data) + if tzoff is not None: + total_seconds = tzoff.seconds + (86400 * tzoff.days) + if total_seconds == 0: + _svalue += 'Z' + else: + if total_seconds < 0: + _svalue += '-' + total_seconds *= -1 + else: + _svalue += '+' + hours = total_seconds // 3600 + minutes = (total_seconds - (hours * 3600)) // 60 + _svalue += '{0:02d}:{1:02d}'.format(hours, minutes) + return _svalue + @classmethod + def gds_parse_datetime(cls, input_data): + tz = None + if input_data[-1] == 'Z': + tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') + input_data = input_data[:-1] + else: + results = GeneratedsSuper.tzoff_pattern.search(input_data) + if results is not None: + tzoff_parts = results.group(2).split(':') + tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) + if results.group(1) == '-': + tzoff *= -1 + tz = GeneratedsSuper._FixedOffsetTZ( + tzoff, results.group(0)) + input_data = input_data[:-6] + time_parts = input_data.split('.') + if len(time_parts) > 1: + micro_seconds = int(float('0.' + time_parts[1]) * 1000000) + input_data = '%s.%s' % ( + time_parts[0], "{}".format(micro_seconds).rjust(6, "0"), ) + dt = datetime_.datetime.strptime( + input_data, '%Y-%m-%dT%H:%M:%S.%f') + else: + dt = datetime_.datetime.strptime( + input_data, '%Y-%m-%dT%H:%M:%S') + dt = dt.replace(tzinfo=tz) + return dt + def gds_validate_date(self, input_data, node=None, input_name=''): + return input_data + def gds_format_date(self, input_data, input_name=''): + _svalue = '%04d-%02d-%02d' % ( + input_data.year, + input_data.month, + input_data.day, + ) + try: + if input_data.tzinfo is not None: + tzoff = input_data.tzinfo.utcoffset(input_data) + if tzoff is not None: + total_seconds = tzoff.seconds + (86400 * tzoff.days) + if total_seconds == 0: + _svalue += 'Z' + else: + if total_seconds < 0: + _svalue += '-' + total_seconds *= -1 + else: + _svalue += '+' + hours = total_seconds // 3600 + minutes = (total_seconds - (hours * 3600)) // 60 + _svalue += '{0:02d}:{1:02d}'.format( + hours, minutes) + except AttributeError: + pass + return _svalue + @classmethod + def gds_parse_date(cls, input_data): + tz = None + if input_data[-1] == 'Z': + tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') + input_data = input_data[:-1] + else: + results = GeneratedsSuper.tzoff_pattern.search(input_data) + if results is not None: + tzoff_parts = results.group(2).split(':') + tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) + if results.group(1) == '-': + tzoff *= -1 + tz = GeneratedsSuper._FixedOffsetTZ( + tzoff, results.group(0)) + input_data = input_data[:-6] + dt = datetime_.datetime.strptime(input_data, '%Y-%m-%d') + dt = dt.replace(tzinfo=tz) + return dt.date() + def gds_validate_time(self, input_data, node=None, input_name=''): + return input_data + def gds_format_time(self, input_data, input_name=''): + if input_data.microsecond == 0: + _svalue = '%02d:%02d:%02d' % ( + input_data.hour, + input_data.minute, + input_data.second, + ) + else: + _svalue = '%02d:%02d:%02d.%s' % ( + input_data.hour, + input_data.minute, + input_data.second, + ('%f' % (float(input_data.microsecond) / 1000000))[2:], + ) + if input_data.tzinfo is not None: + tzoff = input_data.tzinfo.utcoffset(input_data) + if tzoff is not None: + total_seconds = tzoff.seconds + (86400 * tzoff.days) + if total_seconds == 0: + _svalue += 'Z' + else: + if total_seconds < 0: + _svalue += '-' + total_seconds *= -1 + else: + _svalue += '+' + hours = total_seconds // 3600 + minutes = (total_seconds - (hours * 3600)) // 60 + _svalue += '{0:02d}:{1:02d}'.format(hours, minutes) + return _svalue + def gds_validate_simple_patterns(self, patterns, target): + # pat is a list of lists of strings/patterns. + # The target value must match at least one of the patterns + # in order for the test to succeed. + found1 = True + for patterns1 in patterns: + found2 = False + for patterns2 in patterns1: + mo = re_.search(patterns2, target) + if mo is not None and len(mo.group(0)) == len(target): + found2 = True + break + if not found2: + found1 = False + break + return found1 + @classmethod + def gds_parse_time(cls, input_data): + tz = None + if input_data[-1] == 'Z': + tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') + input_data = input_data[:-1] + else: + results = GeneratedsSuper.tzoff_pattern.search(input_data) + if results is not None: + tzoff_parts = results.group(2).split(':') + tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) + if results.group(1) == '-': + tzoff *= -1 + tz = GeneratedsSuper._FixedOffsetTZ( + tzoff, results.group(0)) + input_data = input_data[:-6] + if len(input_data.split('.')) > 1: + dt = datetime_.datetime.strptime(input_data, '%H:%M:%S.%f') + else: + dt = datetime_.datetime.strptime(input_data, '%H:%M:%S') + dt = dt.replace(tzinfo=tz) + return dt.time() + def gds_check_cardinality_( + self, value, input_name, + min_occurs=0, max_occurs=1, required=None): + if value is None: + length = 0 + elif isinstance(value, list): + length = len(value) + else: + length = 1 + if required is not None : + if required and length < 1: + self.gds_collector_.add_message( + "Required value {}{} is missing".format( + input_name, self.gds_get_node_lineno_())) + if length < min_occurs: + self.gds_collector_.add_message( + "Number of values for {}{} is below " + "the minimum allowed, " + "expected at least {}, found {}".format( + input_name, self.gds_get_node_lineno_(), + min_occurs, length)) + elif length > max_occurs: + self.gds_collector_.add_message( + "Number of values for {}{} is above " + "the maximum allowed, " + "expected at most {}, found {}".format( + input_name, self.gds_get_node_lineno_(), + max_occurs, length)) + def gds_validate_builtin_ST_( + self, validator, value, input_name, + min_occurs=None, max_occurs=None, required=None): + if value is not None: + try: + validator(value, input_name=input_name) + except GDSParseError as parse_error: + self.gds_collector_.add_message(str(parse_error)) + def gds_validate_defined_ST_( + self, validator, value, input_name, + min_occurs=None, max_occurs=None, required=None): + if value is not None: + try: + validator(value) + except GDSParseError as parse_error: + self.gds_collector_.add_message(str(parse_error)) + def gds_str_lower(self, instring): + return instring.lower() + def get_path_(self, node): + path_list = [] + self.get_path_list_(node, path_list) + path_list.reverse() + path = '/'.join(path_list) + return path + Tag_strip_pattern_ = re_.compile(r'\{.*\}') + def get_path_list_(self, node, path_list): + if node is None: + return + tag = GeneratedsSuper.Tag_strip_pattern_.sub('', node.tag) + if tag: + path_list.append(tag) + self.get_path_list_(node.getparent(), path_list) + def get_class_obj_(self, node, default_class=None): + class_obj1 = default_class + if 'xsi' in node.nsmap: + classname = node.get('{%s}type' % node.nsmap['xsi']) + if classname is not None: + names = classname.split(':') + if len(names) == 2: + classname = names[1] + class_obj2 = globals().get(classname) + if class_obj2 is not None: + class_obj1 = class_obj2 + return class_obj1 + def gds_build_any(self, node, type_name=None): + # provide default value in case option --disable-xml is used. + content = "" + content = etree_.tostring(node, encoding="unicode") + return content + @classmethod + def gds_reverse_node_mapping(cls, mapping): + return dict(((v, k) for k, v in mapping.items())) + @staticmethod + def gds_encode(instring): + if sys.version_info.major == 2: + if ExternalEncoding: + encoding = ExternalEncoding + else: + encoding = 'utf-8' + return instring.encode(encoding) + else: + return instring + @staticmethod + def convert_unicode(instring): + if isinstance(instring, str): + result = quote_xml(instring) + elif sys.version_info.major == 2 and isinstance(instring, unicode): + result = quote_xml(instring).encode('utf8') + else: + result = GeneratedsSuper.gds_encode(str(instring)) + return result + def __eq__(self, other): + def excl_select_objs_(obj): + return (obj[0] != 'parent_object_' and + obj[0] != 'gds_collector_') + if type(self) != type(other): + return False + return all(x == y for x, y in zip_longest( + filter(excl_select_objs_, self.__dict__.items()), + filter(excl_select_objs_, other.__dict__.items()))) + def __ne__(self, other): + return not self.__eq__(other) + # Django ETL transform hooks. + def gds_djo_etl_transform(self): + pass + def gds_djo_etl_transform_db_obj(self, dbobj): + pass + # SQLAlchemy ETL transform hooks. + def gds_sqa_etl_transform(self): + return 0, None + def gds_sqa_etl_transform_db_obj(self, dbobj): + pass + def gds_get_node_lineno_(self): + if (hasattr(self, "gds_elementtree_node_") and + self.gds_elementtree_node_ is not None): + return ' near line {}'.format( + self.gds_elementtree_node_.sourceline) + else: + return "" + + + def getSubclassFromModule_(module, class_): + '''Get the subclass of a class from a specific module.''' + name = class_.__name__ + 'Sub' + if hasattr(module, name): + return getattr(module, name) + else: + return None + + +# +# If you have installed IPython you can uncomment and use the following. +# IPython is available from http://ipython.scipy.org/. +# + +## from IPython.Shell import IPShellEmbed +## args = '' +## ipshell = IPShellEmbed(args, +## banner = 'Dropping into IPython', +## exit_msg = 'Leaving Interpreter, back to program.') + +# Then use the following line where and when you want to drop into the +# IPython shell: +# ipshell('<some message> -- Entering ipshell.\nHit Ctrl-D to exit') + +# +# Globals +# + +ExternalEncoding = '' +# Set this to false in order to deactivate during export, the use of +# name space prefixes captured from the input document. +UseCapturedNS_ = True +CapturedNsmap_ = {} +Tag_pattern_ = re_.compile(r'({.*})?(.*)') +String_cleanup_pat_ = re_.compile(r"[\n\r\s]+") +Namespace_extract_pat_ = re_.compile(r'{(.*)}(.*)') +CDATA_pattern_ = re_.compile(r"<!\[CDATA\[.*?\]\]>", re_.DOTALL) + +# Change this to redirect the generated superclass module to use a +# specific subclass module. +CurrentSubclassModule_ = None + +# +# Support/utility functions. +# + + +def showIndent(outfile, level, pretty_print=True): + if pretty_print: + for idx in range(level): + outfile.write(' ') + + +def quote_xml(inStr): + "Escape markup chars, but do not modify CDATA sections." + if not inStr: + return '' + s1 = (isinstance(inStr, BaseStrType_) and inStr or '%s' % inStr) + s2 = '' + pos = 0 + matchobjects = CDATA_pattern_.finditer(s1) + for mo in matchobjects: + s3 = s1[pos:mo.start()] + s2 += quote_xml_aux(s3) + s2 += s1[mo.start():mo.end()] + pos = mo.end() + s3 = s1[pos:] + s2 += quote_xml_aux(s3) + return s2 + + +def quote_xml_aux(inStr): + s1 = inStr.replace('&', '&') + s1 = s1.replace('<', '<') + s1 = s1.replace('>', '>') + return s1 + + +def quote_attrib(inStr): + s1 = (isinstance(inStr, BaseStrType_) and inStr or '%s' % inStr) + s1 = s1.replace('&', '&') + s1 = s1.replace('<', '<') + s1 = s1.replace('>', '>') + if '"' in s1: + if "'" in s1: + s1 = '"%s"' % s1.replace('"', """) + else: + s1 = "'%s'" % s1 + else: + s1 = '"%s"' % s1 + return s1 + + +def quote_python(inStr): + s1 = inStr + if s1.find("'") == -1: + if s1.find('\n') == -1: + return "'%s'" % s1 + else: + return "'''%s'''" % s1 + else: + if s1.find('"') != -1: + s1 = s1.replace('"', '\\"') + if s1.find('\n') == -1: + return '"%s"' % s1 + else: + return '"""%s"""' % s1 + + +def get_all_text_(node): + if node.text is not None: + text = node.text + else: + text = '' + for child in node: + if child.tail is not None: + text += child.tail + return text + + +def find_attr_value_(attr_name, node): + attrs = node.attrib + attr_parts = attr_name.split(':') + value = None + if len(attr_parts) == 1: + value = attrs.get(attr_name) + elif len(attr_parts) == 2: + prefix, name = attr_parts + if prefix == 'xml': + namespace = 'http://www.w3.org/XML/1998/namespace' + else: + namespace = node.nsmap.get(prefix) + if namespace is not None: + value = attrs.get('{%s}%s' % (namespace, name, )) + return value + + +def encode_str_2_3(instr): + return instr + + +class GDSParseError(Exception): + pass + + +def raise_parse_error(node, msg): + if node is not None: + msg = '%s (element %s/line %d)' % (msg, node.tag, node.sourceline, ) + raise GDSParseError(msg) + + +class MixedContainer: + # Constants for category: + CategoryNone = 0 + CategoryText = 1 + CategorySimple = 2 + CategoryComplex = 3 + # Constants for content_type: + TypeNone = 0 + TypeText = 1 + TypeString = 2 + TypeInteger = 3 + TypeFloat = 4 + TypeDecimal = 5 + TypeDouble = 6 + TypeBoolean = 7 + TypeBase64 = 8 + def __init__(self, category, content_type, name, value): + self.category = category + self.content_type = content_type + self.name = name + self.value = value + def getCategory(self): + return self.category + def getContenttype(self, content_type): + return self.content_type + def getValue(self): + return self.value + def getName(self): + return self.name + def export(self, outfile, level, name, namespace, + pretty_print=True): + if self.category == MixedContainer.CategoryText: + # Prevent exporting empty content as empty lines. + if self.value.strip(): + outfile.write(self.value) + elif self.category == MixedContainer.CategorySimple: + self.exportSimple(outfile, level, name) + else: # category == MixedContainer.CategoryComplex + self.value.export( + outfile, level, namespace, name_=name, + pretty_print=pretty_print) + def exportSimple(self, outfile, level, name): + if self.content_type == MixedContainer.TypeString: + outfile.write('<%s>%s</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeInteger or \ + self.content_type == MixedContainer.TypeBoolean: + outfile.write('<%s>%d</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeFloat or \ + self.content_type == MixedContainer.TypeDecimal: + outfile.write('<%s>%f</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeDouble: + outfile.write('<%s>%g</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeBase64: + outfile.write('<%s>%s</%s>' % ( + self.name, + base64.b64encode(self.value), + self.name)) + def to_etree(self, element, mapping_=None, nsmap_=None): + if self.category == MixedContainer.CategoryText: + # Prevent exporting empty content as empty lines. + if self.value.strip(): + if len(element) > 0: + if element[-1].tail is None: + element[-1].tail = self.value + else: + element[-1].tail += self.value + else: + if element.text is None: + element.text = self.value + else: + element.text += self.value + elif self.category == MixedContainer.CategorySimple: + subelement = etree_.SubElement( + element, '%s' % self.name) + subelement.text = self.to_etree_simple() + else: # category == MixedContainer.CategoryComplex + self.value.to_etree(element) + def to_etree_simple(self, mapping_=None, nsmap_=None): + if self.content_type == MixedContainer.TypeString: + text = self.value + elif (self.content_type == MixedContainer.TypeInteger or + self.content_type == MixedContainer.TypeBoolean): + text = '%d' % self.value + elif (self.content_type == MixedContainer.TypeFloat or + self.content_type == MixedContainer.TypeDecimal): + text = '%f' % self.value + elif self.content_type == MixedContainer.TypeDouble: + text = '%g' % self.value + elif self.content_type == MixedContainer.TypeBase64: + text = '%s' % base64.b64encode(self.value) + return text + def exportLiteral(self, outfile, level, name): + if self.category == MixedContainer.CategoryText: + showIndent(outfile, level) + outfile.write( + 'model_.MixedContainer(%d, %d, "%s", "%s"),\n' % ( + self.category, self.content_type, + self.name, self.value)) + elif self.category == MixedContainer.CategorySimple: + showIndent(outfile, level) + outfile.write( + 'model_.MixedContainer(%d, %d, "%s", "%s"),\n' % ( + self.category, self.content_type, + self.name, self.value)) + else: # category == MixedContainer.CategoryComplex + showIndent(outfile, level) + outfile.write( + 'model_.MixedContainer(%d, %d, "%s",\n' % ( + self.category, self.content_type, self.name,)) + self.value.exportLiteral(outfile, level + 1) + showIndent(outfile, level) + outfile.write(')\n') + + +class MemberSpec_(object): + def __init__(self, name='', data_type='', container=0, + optional=0, child_attrs=None, choice=None): + self.name = name + self.data_type = data_type + self.container = container + self.child_attrs = child_attrs + self.choice = choice + self.optional = optional + def set_name(self, name): self.name = name + def get_name(self): return self.name + def set_data_type(self, data_type): self.data_type = data_type + def get_data_type_chain(self): return self.data_type + def get_data_type(self): + if isinstance(self.data_type, list): + if len(self.data_type) > 0: + return self.data_type[-1] + else: + return 'xs:string' + else: + return self.data_type + def set_container(self, container): self.container = container + def get_container(self): return self.container + def set_child_attrs(self, child_attrs): self.child_attrs = child_attrs + def get_child_attrs(self): return self.child_attrs + def set_choice(self, choice): self.choice = choice + def get_choice(self): return self.choice + def set_optional(self, optional): self.optional = optional + def get_optional(self): return self.optional + + +def _cast(typ, value): + if typ is None or value is None: + return value + return typ(value) + +# +# Data representation classes. +# + + +class DoxAccessor(str, Enum): + RETAIN='retain' + COPY='copy' + ASSIGN='assign' + WEAK='weak' + STRONG='strong' + UNRETAINED='unretained' + + +class DoxAlign(str, Enum): + LEFT='left' + RIGHT='right' + CENTER='center' + + +class DoxBool(str, Enum): + YES='yes' + NO='no' + + +class DoxCompoundKind(str, Enum): + CLASS='class' + STRUCT='struct' + UNION='union' + INTERFACE='interface' + PROTOCOL='protocol' + CATEGORY='category' + EXCEPTION='exception' + SERVICE='service' + SINGLETON='singleton' + MODULE='module' + TYPE='type' + FILE='file' + NAMESPACE='namespace' + GROUP='group' + PAGE='page' + EXAMPLE='example' + DIR='dir' + + +class DoxGraphRelation(str, Enum): + INCLUDE='include' + USAGE='usage' + TEMPLATEINSTANCE='template-instance' + PUBLICINHERITANCE='public-inheritance' + PROTECTEDINHERITANCE='protected-inheritance' + PRIVATEINHERITANCE='private-inheritance' + TYPECONSTRAINT='type-constraint' + + +class DoxHighlightClass(str, Enum): + COMMENT='comment' + NORMAL='normal' + PREPROCESSOR='preprocessor' + KEYWORD='keyword' + KEYWORDTYPE='keywordtype' + KEYWORDFLOW='keywordflow' + STRINGLITERAL='stringliteral' + CHARLITERAL='charliteral' + VHDLKEYWORD='vhdlkeyword' + VHDLLOGIC='vhdllogic' + VHDLCHAR='vhdlchar' + VHDLDIGIT='vhdldigit' + + +class DoxImageKind(str, Enum): + HTML='html' + LATEX='latex' + DOCBOOK='docbook' + RTF='rtf' + + +class DoxLanguage(str, Enum): + UNKNOWN='Unknown' + IDL='IDL' + JAVA='Java' + C='C#' + D='D' + PHP='PHP' + OBJECTIVEC='Objective-C' + C_1='C++' + JAVA_SCRIPT='JavaScript' + PYTHON='Python' + FORTRAN='Fortran' + VHDL='VHDL' + XML='XML' + SQL='SQL' + MARKDOWN='Markdown' + + +class DoxMemberKind(str, Enum): + DEFINE='define' + PROPERTY='property' + EVENT='event' + VARIABLE='variable' + TYPEDEF='typedef' + ENUM='enum' + FUNCTION='function' + SIGNAL='signal' + PROTOTYPE='prototype' + FRIEND='friend' + DCOP='dcop' + SLOT='slot' + INTERFACE='interface' + SERVICE='service' + + +class DoxParamDir(str, Enum): + IN='in' + OUT='out' + INOUT='inout' + + +class DoxParamListKind(str, Enum): + PARAM='param' + RETVAL='retval' + EXCEPTION='exception' + TEMPLATEPARAM='templateparam' + + +class DoxProtectionKind(str, Enum): + PUBLIC='public' + PROTECTED='protected' + PRIVATE='private' + PACKAGE='package' + + +class DoxRefKind(str, Enum): + COMPOUND='compound' + MEMBER='member' + + +class DoxRefQualifierKind(str, Enum): + LVALUE='lvalue' + RVALUE='rvalue' + + +class DoxSectionKind(str, Enum): + USERDEFINED='user-defined' + PUBLICTYPE='public-type' + PUBLICFUNC='public-func' + PUBLICATTRIB='public-attrib' + PUBLICSLOT='public-slot' + SIGNAL='signal' + DCOPFUNC='dcop-func' + PROPERTY='property' + EVENT='event' + PUBLICSTATICFUNC='public-static-func' + PUBLICSTATICATTRIB='public-static-attrib' + PROTECTEDTYPE='protected-type' + PROTECTEDFUNC='protected-func' + PROTECTEDATTRIB='protected-attrib' + PROTECTEDSLOT='protected-slot' + PROTECTEDSTATICFUNC='protected-static-func' + PROTECTEDSTATICATTRIB='protected-static-attrib' + PACKAGETYPE='package-type' + PACKAGEFUNC='package-func' + PACKAGEATTRIB='package-attrib' + PACKAGESTATICFUNC='package-static-func' + PACKAGESTATICATTRIB='package-static-attrib' + PRIVATETYPE='private-type' + PRIVATEFUNC='private-func' + PRIVATEATTRIB='private-attrib' + PRIVATESLOT='private-slot' + PRIVATESTATICFUNC='private-static-func' + PRIVATESTATICATTRIB='private-static-attrib' + FRIEND='friend' + RELATED='related' + DEFINE='define' + PROTOTYPE='prototype' + TYPEDEF='typedef' + ENUM='enum' + FUNC='func' + VAR='var' + + +class DoxSimpleSectKind(str, Enum): + SEE='see' + RETURN='return' + AUTHOR='author' + AUTHORS='authors' + VERSION='version' + SINCE='since' + DATE='date' + NOTE='note' + WARNING='warning' + PRE='pre' + POST='post' + COPYRIGHT='copyright' + INVARIANT='invariant' + REMARK='remark' + ATTENTION='attention' + PAR='par' + RCS='rcs' + + +class DoxVerticalAlign(str, Enum): + BOTTOM='bottom' + TOP='top' + MIDDLE='middle' + + +class DoxVirtualKind(str, Enum): + NONVIRTUAL='non-virtual' + VIRTUAL='virtual' + PUREVIRTUAL='pure-virtual' + + +class DoxygenType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, version=None, lang=None, compounddef=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.version = _cast(None, version) + self.version_nsprefix_ = None + self.lang = _cast(None, lang) + self.lang_nsprefix_ = None + if compounddef is None: + self.compounddef = [] + else: + self.compounddef = compounddef + self.compounddef_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, DoxygenType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if DoxygenType.subclass: + return DoxygenType.subclass(*args_, **kwargs_) + else: + return DoxygenType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_compounddef(self): + return self.compounddef + def set_compounddef(self, compounddef): + self.compounddef = compounddef + def add_compounddef(self, value): + self.compounddef.append(value) + def insert_compounddef_at(self, index, value): + self.compounddef.insert(index, value) + def replace_compounddef_at(self, index, value): + self.compounddef[index] = value + def get_version(self): + return self.version + def set_version(self, version): + self.version = version + def get_lang(self): + return self.lang + def set_lang(self, lang): + self.lang = lang + def validate_DoxVersionNumber(self, value): + # Validate type DoxVersionNumber, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + if not self.gds_validate_simple_patterns( + self.validate_DoxVersionNumber_patterns_, value): + self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_DoxVersionNumber_patterns_, )) + validate_DoxVersionNumber_patterns_ = [['^(\\d+\\.\\d+.*)$']] + def hasContent_(self): + if ( + self.compounddef + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='DoxygenType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('DoxygenType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'DoxygenType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DoxygenType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DoxygenType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DoxygenType'): + if self.version is not None and 'version' not in already_processed: + already_processed.add('version') + outfile.write(' version=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.version), input_name='version')), )) + if self.lang is not None and 'lang' not in already_processed: + already_processed.add('lang') + outfile.write(' xml:lang=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.lang), input_name='lang')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='DoxygenType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for compounddef_ in self.compounddef: + namespaceprefix_ = self.compounddef_nsprefix_ + ':' if (UseCapturedNS_ and self.compounddef_nsprefix_) else '' + compounddef_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='compounddef', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('version', node) + if value is not None and 'version' not in already_processed: + already_processed.add('version') + self.version = value + self.validate_DoxVersionNumber(self.version) # validate type DoxVersionNumber + value = find_attr_value_('lang', node) + if value is not None and 'lang' not in already_processed: + already_processed.add('lang') + self.lang = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'compounddef': + obj_ = compounddefType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.compounddef.append(obj_) + obj_.original_tagname_ = 'compounddef' +# end class DoxygenType + + +class compounddefType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, kind=None, language=None, prot=None, final=None, inline=None, sealed=None, abstract=None, compoundname=None, title=None, basecompoundref=None, derivedcompoundref=None, includes=None, includedby=None, incdepgraph=None, invincdepgraph=None, innerdir=None, innerfile=None, innerclass=None, innernamespace=None, innerpage=None, innergroup=None, templateparamlist=None, sectiondef=None, tableofcontents=None, briefdescription=None, detaileddescription=None, inheritancegraph=None, collaborationgraph=None, programlisting=None, location=None, listofallmembers=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + self.language = _cast(None, language) + self.language_nsprefix_ = None + self.prot = _cast(None, prot) + self.prot_nsprefix_ = None + self.final = _cast(None, final) + self.final_nsprefix_ = None + self.inline = _cast(None, inline) + self.inline_nsprefix_ = None + self.sealed = _cast(None, sealed) + self.sealed_nsprefix_ = None + self.abstract = _cast(None, abstract) + self.abstract_nsprefix_ = None + self.compoundname = compoundname + self.compoundname_nsprefix_ = None + self.title = title + self.title_nsprefix_ = None + if basecompoundref is None: + self.basecompoundref = [] + else: + self.basecompoundref = basecompoundref + self.basecompoundref_nsprefix_ = None + if derivedcompoundref is None: + self.derivedcompoundref = [] + else: + self.derivedcompoundref = derivedcompoundref + self.derivedcompoundref_nsprefix_ = None + if includes is None: + self.includes = [] + else: + self.includes = includes + self.includes_nsprefix_ = None + if includedby is None: + self.includedby = [] + else: + self.includedby = includedby + self.includedby_nsprefix_ = None + self.incdepgraph = incdepgraph + self.incdepgraph_nsprefix_ = None + self.invincdepgraph = invincdepgraph + self.invincdepgraph_nsprefix_ = None + if innerdir is None: + self.innerdir = [] + else: + self.innerdir = innerdir + self.innerdir_nsprefix_ = None + if innerfile is None: + self.innerfile = [] + else: + self.innerfile = innerfile + self.innerfile_nsprefix_ = None + if innerclass is None: + self.innerclass = [] + else: + self.innerclass = innerclass + self.innerclass_nsprefix_ = None + if innernamespace is None: + self.innernamespace = [] + else: + self.innernamespace = innernamespace + self.innernamespace_nsprefix_ = None + if innerpage is None: + self.innerpage = [] + else: + self.innerpage = innerpage + self.innerpage_nsprefix_ = None + if innergroup is None: + self.innergroup = [] + else: + self.innergroup = innergroup + self.innergroup_nsprefix_ = None + self.templateparamlist = templateparamlist + self.templateparamlist_nsprefix_ = None + if sectiondef is None: + self.sectiondef = [] + else: + self.sectiondef = sectiondef + self.sectiondef_nsprefix_ = None + self.tableofcontents = tableofcontents + self.tableofcontents_nsprefix_ = None + self.briefdescription = briefdescription + self.briefdescription_nsprefix_ = None + self.detaileddescription = detaileddescription + self.detaileddescription_nsprefix_ = None + self.inheritancegraph = inheritancegraph + self.inheritancegraph_nsprefix_ = None + self.collaborationgraph = collaborationgraph + self.collaborationgraph_nsprefix_ = None + self.programlisting = programlisting + self.programlisting_nsprefix_ = None + self.location = location + self.location_nsprefix_ = None + self.listofallmembers = listofallmembers + self.listofallmembers_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, compounddefType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if compounddefType.subclass: + return compounddefType.subclass(*args_, **kwargs_) + else: + return compounddefType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_compoundname(self): + return self.compoundname + def set_compoundname(self, compoundname): + self.compoundname = compoundname + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_basecompoundref(self): + return self.basecompoundref + def set_basecompoundref(self, basecompoundref): + self.basecompoundref = basecompoundref + def add_basecompoundref(self, value): + self.basecompoundref.append(value) + def insert_basecompoundref_at(self, index, value): + self.basecompoundref.insert(index, value) + def replace_basecompoundref_at(self, index, value): + self.basecompoundref[index] = value + def get_derivedcompoundref(self): + return self.derivedcompoundref + def set_derivedcompoundref(self, derivedcompoundref): + self.derivedcompoundref = derivedcompoundref + def add_derivedcompoundref(self, value): + self.derivedcompoundref.append(value) + def insert_derivedcompoundref_at(self, index, value): + self.derivedcompoundref.insert(index, value) + def replace_derivedcompoundref_at(self, index, value): + self.derivedcompoundref[index] = value + def get_includes(self): + return self.includes + def set_includes(self, includes): + self.includes = includes + def add_includes(self, value): + self.includes.append(value) + def insert_includes_at(self, index, value): + self.includes.insert(index, value) + def replace_includes_at(self, index, value): + self.includes[index] = value + def get_includedby(self): + return self.includedby + def set_includedby(self, includedby): + self.includedby = includedby + def add_includedby(self, value): + self.includedby.append(value) + def insert_includedby_at(self, index, value): + self.includedby.insert(index, value) + def replace_includedby_at(self, index, value): + self.includedby[index] = value + def get_incdepgraph(self): + return self.incdepgraph + def set_incdepgraph(self, incdepgraph): + self.incdepgraph = incdepgraph + def get_invincdepgraph(self): + return self.invincdepgraph + def set_invincdepgraph(self, invincdepgraph): + self.invincdepgraph = invincdepgraph + def get_innerdir(self): + return self.innerdir + def set_innerdir(self, innerdir): + self.innerdir = innerdir + def add_innerdir(self, value): + self.innerdir.append(value) + def insert_innerdir_at(self, index, value): + self.innerdir.insert(index, value) + def replace_innerdir_at(self, index, value): + self.innerdir[index] = value + def get_innerfile(self): + return self.innerfile + def set_innerfile(self, innerfile): + self.innerfile = innerfile + def add_innerfile(self, value): + self.innerfile.append(value) + def insert_innerfile_at(self, index, value): + self.innerfile.insert(index, value) + def replace_innerfile_at(self, index, value): + self.innerfile[index] = value + def get_innerclass(self): + return self.innerclass + def set_innerclass(self, innerclass): + self.innerclass = innerclass + def add_innerclass(self, value): + self.innerclass.append(value) + def insert_innerclass_at(self, index, value): + self.innerclass.insert(index, value) + def replace_innerclass_at(self, index, value): + self.innerclass[index] = value + def get_innernamespace(self): + return self.innernamespace + def set_innernamespace(self, innernamespace): + self.innernamespace = innernamespace + def add_innernamespace(self, value): + self.innernamespace.append(value) + def insert_innernamespace_at(self, index, value): + self.innernamespace.insert(index, value) + def replace_innernamespace_at(self, index, value): + self.innernamespace[index] = value + def get_innerpage(self): + return self.innerpage + def set_innerpage(self, innerpage): + self.innerpage = innerpage + def add_innerpage(self, value): + self.innerpage.append(value) + def insert_innerpage_at(self, index, value): + self.innerpage.insert(index, value) + def replace_innerpage_at(self, index, value): + self.innerpage[index] = value + def get_innergroup(self): + return self.innergroup + def set_innergroup(self, innergroup): + self.innergroup = innergroup + def add_innergroup(self, value): + self.innergroup.append(value) + def insert_innergroup_at(self, index, value): + self.innergroup.insert(index, value) + def replace_innergroup_at(self, index, value): + self.innergroup[index] = value + def get_templateparamlist(self): + return self.templateparamlist + def set_templateparamlist(self, templateparamlist): + self.templateparamlist = templateparamlist + def get_sectiondef(self): + return self.sectiondef + def set_sectiondef(self, sectiondef): + self.sectiondef = sectiondef + def add_sectiondef(self, value): + self.sectiondef.append(value) + def insert_sectiondef_at(self, index, value): + self.sectiondef.insert(index, value) + def replace_sectiondef_at(self, index, value): + self.sectiondef[index] = value + def get_tableofcontents(self): + return self.tableofcontents + def set_tableofcontents(self, tableofcontents): + self.tableofcontents = tableofcontents + def get_briefdescription(self): + return self.briefdescription + def set_briefdescription(self, briefdescription): + self.briefdescription = briefdescription + def get_detaileddescription(self): + return self.detaileddescription + def set_detaileddescription(self, detaileddescription): + self.detaileddescription = detaileddescription + def get_inheritancegraph(self): + return self.inheritancegraph + def set_inheritancegraph(self, inheritancegraph): + self.inheritancegraph = inheritancegraph + def get_collaborationgraph(self): + return self.collaborationgraph + def set_collaborationgraph(self, collaborationgraph): + self.collaborationgraph = collaborationgraph + def get_programlisting(self): + return self.programlisting + def set_programlisting(self, programlisting): + self.programlisting = programlisting + def get_location(self): + return self.location + def set_location(self, location): + self.location = location + def get_listofallmembers(self): + return self.listofallmembers + def set_listofallmembers(self, listofallmembers): + self.listofallmembers = listofallmembers + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def get_language(self): + return self.language + def set_language(self, language): + self.language = language + def get_prot(self): + return self.prot + def set_prot(self, prot): + self.prot = prot + def get_final(self): + return self.final + def set_final(self, final): + self.final = final + def get_inline(self): + return self.inline + def set_inline(self, inline): + self.inline = inline + def get_sealed(self): + return self.sealed + def set_sealed(self, sealed): + self.sealed = sealed + def get_abstract(self): + return self.abstract + def set_abstract(self, abstract): + self.abstract = abstract + def validate_DoxCompoundKind(self, value): + # Validate type DoxCompoundKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['class', 'struct', 'union', 'interface', 'protocol', 'category', 'exception', 'service', 'singleton', 'module', 'type', 'file', 'namespace', 'group', 'page', 'example', 'dir'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxCompoundKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxLanguage(self, value): + # Validate type DoxLanguage, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['Unknown', 'IDL', 'Java', 'C#', 'D', 'PHP', 'Objective-C', 'C++', 'JavaScript', 'Python', 'Fortran', 'VHDL', 'XML', 'SQL', 'Markdown'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxLanguage' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxProtectionKind(self, value): + # Validate type DoxProtectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['public', 'protected', 'private', 'package'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxProtectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.compoundname is not None or + self.title is not None or + self.basecompoundref or + self.derivedcompoundref or + self.includes or + self.includedby or + self.incdepgraph is not None or + self.invincdepgraph is not None or + self.innerdir or + self.innerfile or + self.innerclass or + self.innernamespace or + self.innerpage or + self.innergroup or + self.templateparamlist is not None or + self.sectiondef or + self.tableofcontents is not None or + self.briefdescription is not None or + self.detaileddescription is not None or + self.inheritancegraph is not None or + self.collaborationgraph is not None or + self.programlisting is not None or + self.location is not None or + self.listofallmembers is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='compounddefType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('compounddefType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'compounddefType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='compounddefType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='compounddefType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='compounddefType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + if self.language is not None and 'language' not in already_processed: + already_processed.add('language') + outfile.write(' language=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.language), input_name='language')), )) + if self.prot is not None and 'prot' not in already_processed: + already_processed.add('prot') + outfile.write(' prot=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.prot), input_name='prot')), )) + if self.final is not None and 'final' not in already_processed: + already_processed.add('final') + outfile.write(' final=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.final), input_name='final')), )) + if self.inline is not None and 'inline' not in already_processed: + already_processed.add('inline') + outfile.write(' inline=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.inline), input_name='inline')), )) + if self.sealed is not None and 'sealed' not in already_processed: + already_processed.add('sealed') + outfile.write(' sealed=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.sealed), input_name='sealed')), )) + if self.abstract is not None and 'abstract' not in already_processed: + already_processed.add('abstract') + outfile.write(' abstract=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.abstract), input_name='abstract')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='compounddefType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.compoundname is not None: + namespaceprefix_ = self.compoundname_nsprefix_ + ':' if (UseCapturedNS_ and self.compoundname_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%scompoundname>%s</%scompoundname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.compoundname), input_name='compoundname')), namespaceprefix_ , eol_)) + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%stitle>%s</%stitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.title), input_name='title')), namespaceprefix_ , eol_)) + for basecompoundref_ in self.basecompoundref: + namespaceprefix_ = self.basecompoundref_nsprefix_ + ':' if (UseCapturedNS_ and self.basecompoundref_nsprefix_) else '' + basecompoundref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='basecompoundref', pretty_print=pretty_print) + for derivedcompoundref_ in self.derivedcompoundref: + namespaceprefix_ = self.derivedcompoundref_nsprefix_ + ':' if (UseCapturedNS_ and self.derivedcompoundref_nsprefix_) else '' + derivedcompoundref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='derivedcompoundref', pretty_print=pretty_print) + for includes_ in self.includes: + namespaceprefix_ = self.includes_nsprefix_ + ':' if (UseCapturedNS_ and self.includes_nsprefix_) else '' + includes_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='includes', pretty_print=pretty_print) + for includedby_ in self.includedby: + namespaceprefix_ = self.includedby_nsprefix_ + ':' if (UseCapturedNS_ and self.includedby_nsprefix_) else '' + includedby_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='includedby', pretty_print=pretty_print) + if self.incdepgraph is not None: + namespaceprefix_ = self.incdepgraph_nsprefix_ + ':' if (UseCapturedNS_ and self.incdepgraph_nsprefix_) else '' + self.incdepgraph.export(outfile, level, namespaceprefix_, namespacedef_='', name_='incdepgraph', pretty_print=pretty_print) + if self.invincdepgraph is not None: + namespaceprefix_ = self.invincdepgraph_nsprefix_ + ':' if (UseCapturedNS_ and self.invincdepgraph_nsprefix_) else '' + self.invincdepgraph.export(outfile, level, namespaceprefix_, namespacedef_='', name_='invincdepgraph', pretty_print=pretty_print) + for innerdir_ in self.innerdir: + namespaceprefix_ = self.innerdir_nsprefix_ + ':' if (UseCapturedNS_ and self.innerdir_nsprefix_) else '' + innerdir_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='innerdir', pretty_print=pretty_print) + for innerfile_ in self.innerfile: + namespaceprefix_ = self.innerfile_nsprefix_ + ':' if (UseCapturedNS_ and self.innerfile_nsprefix_) else '' + innerfile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='innerfile', pretty_print=pretty_print) + for innerclass_ in self.innerclass: + namespaceprefix_ = self.innerclass_nsprefix_ + ':' if (UseCapturedNS_ and self.innerclass_nsprefix_) else '' + innerclass_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='innerclass', pretty_print=pretty_print) + for innernamespace_ in self.innernamespace: + namespaceprefix_ = self.innernamespace_nsprefix_ + ':' if (UseCapturedNS_ and self.innernamespace_nsprefix_) else '' + innernamespace_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='innernamespace', pretty_print=pretty_print) + for innerpage_ in self.innerpage: + namespaceprefix_ = self.innerpage_nsprefix_ + ':' if (UseCapturedNS_ and self.innerpage_nsprefix_) else '' + innerpage_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='innerpage', pretty_print=pretty_print) + for innergroup_ in self.innergroup: + namespaceprefix_ = self.innergroup_nsprefix_ + ':' if (UseCapturedNS_ and self.innergroup_nsprefix_) else '' + innergroup_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='innergroup', pretty_print=pretty_print) + if self.templateparamlist is not None: + namespaceprefix_ = self.templateparamlist_nsprefix_ + ':' if (UseCapturedNS_ and self.templateparamlist_nsprefix_) else '' + self.templateparamlist.export(outfile, level, namespaceprefix_, namespacedef_='', name_='templateparamlist', pretty_print=pretty_print) + for sectiondef_ in self.sectiondef: + namespaceprefix_ = self.sectiondef_nsprefix_ + ':' if (UseCapturedNS_ and self.sectiondef_nsprefix_) else '' + sectiondef_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sectiondef', pretty_print=pretty_print) + if self.tableofcontents is not None: + namespaceprefix_ = self.tableofcontents_nsprefix_ + ':' if (UseCapturedNS_ and self.tableofcontents_nsprefix_) else '' + self.tableofcontents.export(outfile, level, namespaceprefix_, namespacedef_='', name_='tableofcontents', pretty_print=pretty_print) + if self.briefdescription is not None: + namespaceprefix_ = self.briefdescription_nsprefix_ + ':' if (UseCapturedNS_ and self.briefdescription_nsprefix_) else '' + self.briefdescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='briefdescription', pretty_print=pretty_print) + if self.detaileddescription is not None: + namespaceprefix_ = self.detaileddescription_nsprefix_ + ':' if (UseCapturedNS_ and self.detaileddescription_nsprefix_) else '' + self.detaileddescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='detaileddescription', pretty_print=pretty_print) + if self.inheritancegraph is not None: + namespaceprefix_ = self.inheritancegraph_nsprefix_ + ':' if (UseCapturedNS_ and self.inheritancegraph_nsprefix_) else '' + self.inheritancegraph.export(outfile, level, namespaceprefix_, namespacedef_='', name_='inheritancegraph', pretty_print=pretty_print) + if self.collaborationgraph is not None: + namespaceprefix_ = self.collaborationgraph_nsprefix_ + ':' if (UseCapturedNS_ and self.collaborationgraph_nsprefix_) else '' + self.collaborationgraph.export(outfile, level, namespaceprefix_, namespacedef_='', name_='collaborationgraph', pretty_print=pretty_print) + if self.programlisting is not None: + namespaceprefix_ = self.programlisting_nsprefix_ + ':' if (UseCapturedNS_ and self.programlisting_nsprefix_) else '' + self.programlisting.export(outfile, level, namespaceprefix_, namespacedef_='', name_='programlisting', pretty_print=pretty_print) + if self.location is not None: + namespaceprefix_ = self.location_nsprefix_ + ':' if (UseCapturedNS_ and self.location_nsprefix_) else '' + self.location.export(outfile, level, namespaceprefix_, namespacedef_='', name_='location', pretty_print=pretty_print) + if self.listofallmembers is not None: + namespaceprefix_ = self.listofallmembers_nsprefix_ + ':' if (UseCapturedNS_ and self.listofallmembers_nsprefix_) else '' + self.listofallmembers.export(outfile, level, namespaceprefix_, namespacedef_='', name_='listofallmembers', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_DoxCompoundKind(self.kind) # validate type DoxCompoundKind + value = find_attr_value_('language', node) + if value is not None and 'language' not in already_processed: + already_processed.add('language') + self.language = value + self.validate_DoxLanguage(self.language) # validate type DoxLanguage + value = find_attr_value_('prot', node) + if value is not None and 'prot' not in already_processed: + already_processed.add('prot') + self.prot = value + self.validate_DoxProtectionKind(self.prot) # validate type DoxProtectionKind + value = find_attr_value_('final', node) + if value is not None and 'final' not in already_processed: + already_processed.add('final') + self.final = value + self.validate_DoxBool(self.final) # validate type DoxBool + value = find_attr_value_('inline', node) + if value is not None and 'inline' not in already_processed: + already_processed.add('inline') + self.inline = value + self.validate_DoxBool(self.inline) # validate type DoxBool + value = find_attr_value_('sealed', node) + if value is not None and 'sealed' not in already_processed: + already_processed.add('sealed') + self.sealed = value + self.validate_DoxBool(self.sealed) # validate type DoxBool + value = find_attr_value_('abstract', node) + if value is not None and 'abstract' not in already_processed: + already_processed.add('abstract') + self.abstract = value + self.validate_DoxBool(self.abstract) # validate type DoxBool + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'compoundname': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'compoundname') + value_ = self.gds_validate_string(value_, node, 'compoundname') + self.compoundname = value_ + self.compoundname_nsprefix_ = child_.prefix + elif nodeName_ == 'title': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'title') + value_ = self.gds_validate_string(value_, node, 'title') + self.title = value_ + self.title_nsprefix_ = child_.prefix + elif nodeName_ == 'basecompoundref': + obj_ = compoundRefType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.basecompoundref.append(obj_) + obj_.original_tagname_ = 'basecompoundref' + elif nodeName_ == 'derivedcompoundref': + obj_ = compoundRefType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.derivedcompoundref.append(obj_) + obj_.original_tagname_ = 'derivedcompoundref' + elif nodeName_ == 'includes': + obj_ = incType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.includes.append(obj_) + obj_.original_tagname_ = 'includes' + elif nodeName_ == 'includedby': + obj_ = incType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.includedby.append(obj_) + obj_.original_tagname_ = 'includedby' + elif nodeName_ == 'incdepgraph': + obj_ = graphType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.incdepgraph = obj_ + obj_.original_tagname_ = 'incdepgraph' + elif nodeName_ == 'invincdepgraph': + obj_ = graphType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.invincdepgraph = obj_ + obj_.original_tagname_ = 'invincdepgraph' + elif nodeName_ == 'innerdir': + obj_ = refType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.innerdir.append(obj_) + obj_.original_tagname_ = 'innerdir' + elif nodeName_ == 'innerfile': + obj_ = refType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.innerfile.append(obj_) + obj_.original_tagname_ = 'innerfile' + elif nodeName_ == 'innerclass': + obj_ = refType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.innerclass.append(obj_) + obj_.original_tagname_ = 'innerclass' + elif nodeName_ == 'innernamespace': + obj_ = refType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.innernamespace.append(obj_) + obj_.original_tagname_ = 'innernamespace' + elif nodeName_ == 'innerpage': + obj_ = refType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.innerpage.append(obj_) + obj_.original_tagname_ = 'innerpage' + elif nodeName_ == 'innergroup': + obj_ = refType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.innergroup.append(obj_) + obj_.original_tagname_ = 'innergroup' + elif nodeName_ == 'templateparamlist': + obj_ = templateparamlistType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.templateparamlist = obj_ + obj_.original_tagname_ = 'templateparamlist' + elif nodeName_ == 'sectiondef': + obj_ = sectiondefType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.sectiondef.append(obj_) + obj_.original_tagname_ = 'sectiondef' + elif nodeName_ == 'tableofcontents': + obj_ = tableofcontentsType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.tableofcontents = obj_ + obj_.original_tagname_ = 'tableofcontents' + elif nodeName_ == 'briefdescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.briefdescription = obj_ + obj_.original_tagname_ = 'briefdescription' + elif nodeName_ == 'detaileddescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.detaileddescription = obj_ + obj_.original_tagname_ = 'detaileddescription' + elif nodeName_ == 'inheritancegraph': + obj_ = graphType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.inheritancegraph = obj_ + obj_.original_tagname_ = 'inheritancegraph' + elif nodeName_ == 'collaborationgraph': + obj_ = graphType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.collaborationgraph = obj_ + obj_.original_tagname_ = 'collaborationgraph' + elif nodeName_ == 'programlisting': + obj_ = listingType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.programlisting = obj_ + obj_.original_tagname_ = 'programlisting' + elif nodeName_ == 'location': + obj_ = locationType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.location = obj_ + obj_.original_tagname_ = 'location' + elif nodeName_ == 'listofallmembers': + obj_ = listofallmembersType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.listofallmembers = obj_ + obj_.original_tagname_ = 'listofallmembers' +# end class compounddefType + + +class listofallmembersType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, member=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if member is None: + self.member = [] + else: + self.member = member + self.member_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, listofallmembersType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if listofallmembersType.subclass: + return listofallmembersType.subclass(*args_, **kwargs_) + else: + return listofallmembersType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_member(self): + return self.member + def set_member(self, member): + self.member = member + def add_member(self, value): + self.member.append(value) + def insert_member_at(self, index, value): + self.member.insert(index, value) + def replace_member_at(self, index, value): + self.member[index] = value + def hasContent_(self): + if ( + self.member + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='listofallmembersType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('listofallmembersType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'listofallmembersType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='listofallmembersType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='listofallmembersType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='listofallmembersType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='listofallmembersType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for member_ in self.member: + namespaceprefix_ = self.member_nsprefix_ + ':' if (UseCapturedNS_ and self.member_nsprefix_) else '' + member_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='member', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'member': + obj_ = memberRefType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.member.append(obj_) + obj_.original_tagname_ = 'member' +# end class listofallmembersType + + +class memberRefType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, prot=None, virt=None, ambiguityscope=None, scope=None, name=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.prot = _cast(None, prot) + self.prot_nsprefix_ = None + self.virt = _cast(None, virt) + self.virt_nsprefix_ = None + self.ambiguityscope = _cast(None, ambiguityscope) + self.ambiguityscope_nsprefix_ = None + self.scope = scope + self.scope_nsprefix_ = None + self.name = name + self.name_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, memberRefType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if memberRefType.subclass: + return memberRefType.subclass(*args_, **kwargs_) + else: + return memberRefType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_scope(self): + return self.scope + def set_scope(self, scope): + self.scope = scope + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_prot(self): + return self.prot + def set_prot(self, prot): + self.prot = prot + def get_virt(self): + return self.virt + def set_virt(self, virt): + self.virt = virt + def get_ambiguityscope(self): + return self.ambiguityscope + def set_ambiguityscope(self, ambiguityscope): + self.ambiguityscope = ambiguityscope + def validate_DoxProtectionKind(self, value): + # Validate type DoxProtectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['public', 'protected', 'private', 'package'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxProtectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxVirtualKind(self, value): + # Validate type DoxVirtualKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['non-virtual', 'virtual', 'pure-virtual'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxVirtualKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.scope is not None or + self.name is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='memberRefType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('memberRefType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'memberRefType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='memberRefType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='memberRefType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='memberRefType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.prot is not None and 'prot' not in already_processed: + already_processed.add('prot') + outfile.write(' prot=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.prot), input_name='prot')), )) + if self.virt is not None and 'virt' not in already_processed: + already_processed.add('virt') + outfile.write(' virt=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.virt), input_name='virt')), )) + if self.ambiguityscope is not None and 'ambiguityscope' not in already_processed: + already_processed.add('ambiguityscope') + outfile.write(' ambiguityscope=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.ambiguityscope), input_name='ambiguityscope')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='memberRefType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.scope is not None: + namespaceprefix_ = self.scope_nsprefix_ + ':' if (UseCapturedNS_ and self.scope_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sscope>%s</%sscope>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.scope), input_name='scope')), namespaceprefix_ , eol_)) + if self.name is not None: + namespaceprefix_ = self.name_nsprefix_ + ':' if (UseCapturedNS_ and self.name_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sname>%s</%sname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.name), input_name='name')), namespaceprefix_ , eol_)) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('prot', node) + if value is not None and 'prot' not in already_processed: + already_processed.add('prot') + self.prot = value + self.validate_DoxProtectionKind(self.prot) # validate type DoxProtectionKind + value = find_attr_value_('virt', node) + if value is not None and 'virt' not in already_processed: + already_processed.add('virt') + self.virt = value + self.validate_DoxVirtualKind(self.virt) # validate type DoxVirtualKind + value = find_attr_value_('ambiguityscope', node) + if value is not None and 'ambiguityscope' not in already_processed: + already_processed.add('ambiguityscope') + self.ambiguityscope = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'scope': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'scope') + value_ = self.gds_validate_string(value_, node, 'scope') + self.scope = value_ + self.scope_nsprefix_ = child_.prefix + elif nodeName_ == 'name': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'name') + value_ = self.gds_validate_string(value_, node, 'name') + self.name = value_ + self.name_nsprefix_ = child_.prefix +# end class memberRefType + + +class scope(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, scope) + if subclass is not None: + return subclass(*args_, **kwargs_) + if scope.subclass: + return scope.subclass(*args_, **kwargs_) + else: + return scope(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='scope', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('scope') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'scope': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='scope') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='scope', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='scope'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='scope', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class scope + + +class name(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, name) + if subclass is not None: + return subclass(*args_, **kwargs_) + if name.subclass: + return name.subclass(*args_, **kwargs_) + else: + return name(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='name', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('name') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'name': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='name') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='name', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='name'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='name', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class name + + +class docHtmlOnlyType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, block=None, valueOf_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.block = _cast(None, block) + self.block_nsprefix_ = None + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docHtmlOnlyType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docHtmlOnlyType.subclass: + return docHtmlOnlyType.subclass(*args_, **kwargs_) + else: + return docHtmlOnlyType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_block(self): + return self.block + def set_block(self, block): + self.block = block + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docHtmlOnlyType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docHtmlOnlyType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docHtmlOnlyType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docHtmlOnlyType') + if self.hasContent_(): + outfile.write('>') + outfile.write(self.convert_unicode(self.valueOf_)) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docHtmlOnlyType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docHtmlOnlyType'): + if self.block is not None and 'block' not in already_processed: + already_processed.add('block') + outfile.write(' block=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.block), input_name='block')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docHtmlOnlyType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('block', node) + if value is not None and 'block' not in already_processed: + already_processed.add('block') + self.block = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class docHtmlOnlyType + + +class compoundRefType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, prot=None, virt=None, valueOf_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.prot = _cast(None, prot) + self.prot_nsprefix_ = None + self.virt = _cast(None, virt) + self.virt_nsprefix_ = None + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, compoundRefType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if compoundRefType.subclass: + return compoundRefType.subclass(*args_, **kwargs_) + else: + return compoundRefType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_prot(self): + return self.prot + def set_prot(self, prot): + self.prot = prot + def get_virt(self): + return self.virt + def set_virt(self, virt): + self.virt = virt + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxProtectionKind(self, value): + # Validate type DoxProtectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['public', 'protected', 'private', 'package'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxProtectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxVirtualKind(self, value): + # Validate type DoxVirtualKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['non-virtual', 'virtual', 'pure-virtual'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxVirtualKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='compoundRefType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('compoundRefType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'compoundRefType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='compoundRefType') + if self.hasContent_(): + outfile.write('>') + outfile.write(self.convert_unicode(self.valueOf_)) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='compoundRefType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='compoundRefType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.prot is not None and 'prot' not in already_processed: + already_processed.add('prot') + outfile.write(' prot=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.prot), input_name='prot')), )) + if self.virt is not None and 'virt' not in already_processed: + already_processed.add('virt') + outfile.write(' virt=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.virt), input_name='virt')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='compoundRefType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('prot', node) + if value is not None and 'prot' not in already_processed: + already_processed.add('prot') + self.prot = value + self.validate_DoxProtectionKind(self.prot) # validate type DoxProtectionKind + value = find_attr_value_('virt', node) + if value is not None and 'virt' not in already_processed: + already_processed.add('virt') + self.virt = value + self.validate_DoxVirtualKind(self.virt) # validate type DoxVirtualKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class compoundRefType + + +class reimplementType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, valueOf_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, reimplementType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if reimplementType.subclass: + return reimplementType.subclass(*args_, **kwargs_) + else: + return reimplementType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='reimplementType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('reimplementType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'reimplementType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='reimplementType') + if self.hasContent_(): + outfile.write('>') + outfile.write(self.convert_unicode(self.valueOf_)) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='reimplementType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='reimplementType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='reimplementType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class reimplementType + + +class incType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, local=None, valueOf_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.local = _cast(None, local) + self.local_nsprefix_ = None + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, incType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if incType.subclass: + return incType.subclass(*args_, **kwargs_) + else: + return incType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_local(self): + return self.local + def set_local(self, local): + self.local = local + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='incType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('incType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'incType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='incType') + if self.hasContent_(): + outfile.write('>') + outfile.write(self.convert_unicode(self.valueOf_)) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='incType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='incType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.local is not None and 'local' not in already_processed: + already_processed.add('local') + outfile.write(' local=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.local), input_name='local')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='incType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('local', node) + if value is not None and 'local' not in already_processed: + already_processed.add('local') + self.local = value + self.validate_DoxBool(self.local) # validate type DoxBool + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class incType + + +class refType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, prot=None, inline=None, valueOf_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.prot = _cast(None, prot) + self.prot_nsprefix_ = None + self.inline = _cast(None, inline) + self.inline_nsprefix_ = None + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, refType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if refType.subclass: + return refType.subclass(*args_, **kwargs_) + else: + return refType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_prot(self): + return self.prot + def set_prot(self, prot): + self.prot = prot + def get_inline(self): + return self.inline + def set_inline(self, inline): + self.inline = inline + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxProtectionKind(self, value): + # Validate type DoxProtectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['public', 'protected', 'private', 'package'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxProtectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='refType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('refType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'refType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='refType') + if self.hasContent_(): + outfile.write('>') + outfile.write(self.convert_unicode(self.valueOf_)) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='refType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='refType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.prot is not None and 'prot' not in already_processed: + already_processed.add('prot') + outfile.write(' prot=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.prot), input_name='prot')), )) + if self.inline is not None and 'inline' not in already_processed: + already_processed.add('inline') + outfile.write(' inline=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.inline), input_name='inline')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='refType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('prot', node) + if value is not None and 'prot' not in already_processed: + already_processed.add('prot') + self.prot = value + self.validate_DoxProtectionKind(self.prot) # validate type DoxProtectionKind + value = find_attr_value_('inline', node) + if value is not None and 'inline' not in already_processed: + already_processed.add('inline') + self.inline = value + self.validate_DoxBool(self.inline) # validate type DoxBool + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class refType + + +class refTextType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, kindref=None, external=None, tooltip=None, valueOf_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.kindref = _cast(None, kindref) + self.kindref_nsprefix_ = None + self.external = _cast(None, external) + self.external_nsprefix_ = None + self.tooltip = _cast(None, tooltip) + self.tooltip_nsprefix_ = None + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, refTextType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if refTextType.subclass: + return refTextType.subclass(*args_, **kwargs_) + else: + return refTextType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_kindref(self): + return self.kindref + def set_kindref(self, kindref): + self.kindref = kindref + def get_external(self): + return self.external + def set_external(self, external): + self.external = external + def get_tooltip(self): + return self.tooltip + def set_tooltip(self, tooltip): + self.tooltip = tooltip + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxRefKind(self, value): + # Validate type DoxRefKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['compound', 'member'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxRefKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='refTextType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('refTextType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'refTextType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='refTextType') + if self.hasContent_(): + outfile.write('>') + outfile.write(self.convert_unicode(self.valueOf_)) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='refTextType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='refTextType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.kindref is not None and 'kindref' not in already_processed: + already_processed.add('kindref') + outfile.write(' kindref=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kindref), input_name='kindref')), )) + if self.external is not None and 'external' not in already_processed: + already_processed.add('external') + outfile.write(' external=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.external), input_name='external')), )) + if self.tooltip is not None and 'tooltip' not in already_processed: + already_processed.add('tooltip') + outfile.write(' tooltip=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.tooltip), input_name='tooltip')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='refTextType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('kindref', node) + if value is not None and 'kindref' not in already_processed: + already_processed.add('kindref') + self.kindref = value + self.validate_DoxRefKind(self.kindref) # validate type DoxRefKind + value = find_attr_value_('external', node) + if value is not None and 'external' not in already_processed: + already_processed.add('external') + self.external = value + value = find_attr_value_('tooltip', node) + if value is not None and 'tooltip' not in already_processed: + already_processed.add('tooltip') + self.tooltip = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class refTextType + + +class sectiondefType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, kind=None, header=None, description=None, memberdef=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + self.header = header + self.header_nsprefix_ = None + self.description = description + self.description_nsprefix_ = None + if memberdef is None: + self.memberdef = [] + else: + self.memberdef = memberdef + self.memberdef_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, sectiondefType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if sectiondefType.subclass: + return sectiondefType.subclass(*args_, **kwargs_) + else: + return sectiondefType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_header(self): + return self.header + def set_header(self, header): + self.header = header + def get_description(self): + return self.description + def set_description(self, description): + self.description = description + def get_memberdef(self): + return self.memberdef + def set_memberdef(self, memberdef): + self.memberdef = memberdef + def add_memberdef(self, value): + self.memberdef.append(value) + def insert_memberdef_at(self, index, value): + self.memberdef.insert(index, value) + def replace_memberdef_at(self, index, value): + self.memberdef[index] = value + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def validate_DoxSectionKind(self, value): + # Validate type DoxSectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['user-defined', 'public-type', 'public-func', 'public-attrib', 'public-slot', 'signal', 'dcop-func', 'property', 'event', 'public-static-func', 'public-static-attrib', 'protected-type', 'protected-func', 'protected-attrib', 'protected-slot', 'protected-static-func', 'protected-static-attrib', 'package-type', 'package-func', 'package-attrib', 'package-static-func', 'package-static-attrib', 'private-type', 'private-func', 'private-attrib', 'private-slot', 'private-static-func', 'private-static-attrib', 'friend', 'related', 'define', 'prototype', 'typedef', 'enum', 'func', 'var'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxSectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.header is not None or + self.description is not None or + self.memberdef + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='sectiondefType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('sectiondefType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'sectiondefType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='sectiondefType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='sectiondefType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='sectiondefType'): + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='sectiondefType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.header is not None: + namespaceprefix_ = self.header_nsprefix_ + ':' if (UseCapturedNS_ and self.header_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sheader>%s</%sheader>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.header), input_name='header')), namespaceprefix_ , eol_)) + if self.description is not None: + namespaceprefix_ = self.description_nsprefix_ + ':' if (UseCapturedNS_ and self.description_nsprefix_) else '' + self.description.export(outfile, level, namespaceprefix_, namespacedef_='', name_='description', pretty_print=pretty_print) + for memberdef_ in self.memberdef: + namespaceprefix_ = self.memberdef_nsprefix_ + ':' if (UseCapturedNS_ and self.memberdef_nsprefix_) else '' + memberdef_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='memberdef', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_DoxSectionKind(self.kind) # validate type DoxSectionKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'header': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'header') + value_ = self.gds_validate_string(value_, node, 'header') + self.header = value_ + self.header_nsprefix_ = child_.prefix + elif nodeName_ == 'description': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.description = obj_ + obj_.original_tagname_ = 'description' + elif nodeName_ == 'memberdef': + obj_ = memberdefType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.memberdef.append(obj_) + obj_.original_tagname_ = 'memberdef' +# end class sectiondefType + + +class memberdefType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, kind=None, id=None, prot=None, static=None, strong=None, const=None, explicit=None, inline=None, refqual=None, virt=None, volatile=None, mutable=None, noexcept=None, constexpr=None, readable=None, writable=None, initonly=None, settable=None, privatesettable=None, protectedsettable=None, gettable=None, privategettable=None, protectedgettable=None, final=None, sealed=None, new=None, add=None, remove=None, raise_=None, optional=None, required=None, accessor=None, attribute=None, property=None, readonly=None, bound=None, removable=None, constrained=None, transient=None, maybevoid=None, maybedefault=None, maybeambiguous=None, templateparamlist=None, type_=None, definition=None, argsstring=None, name=None, read=None, write=None, bitfield=None, reimplements=None, reimplementedby=None, param=None, enumvalue=None, initializer=None, exceptions=None, briefdescription=None, detaileddescription=None, inbodydescription=None, location=None, references=None, referencedby=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.prot = _cast(None, prot) + self.prot_nsprefix_ = None + self.static = _cast(None, static) + self.static_nsprefix_ = None + self.strong = _cast(None, strong) + self.strong_nsprefix_ = None + self.const = _cast(None, const) + self.const_nsprefix_ = None + self.explicit = _cast(None, explicit) + self.explicit_nsprefix_ = None + self.inline = _cast(None, inline) + self.inline_nsprefix_ = None + self.refqual = _cast(None, refqual) + self.refqual_nsprefix_ = None + self.virt = _cast(None, virt) + self.virt_nsprefix_ = None + self.volatile = _cast(None, volatile) + self.volatile_nsprefix_ = None + self.mutable = _cast(None, mutable) + self.mutable_nsprefix_ = None + self.noexcept = _cast(None, noexcept) + self.noexcept_nsprefix_ = None + self.constexpr = _cast(None, constexpr) + self.constexpr_nsprefix_ = None + self.readable = _cast(None, readable) + self.readable_nsprefix_ = None + self.writable = _cast(None, writable) + self.writable_nsprefix_ = None + self.initonly = _cast(None, initonly) + self.initonly_nsprefix_ = None + self.settable = _cast(None, settable) + self.settable_nsprefix_ = None + self.privatesettable = _cast(None, privatesettable) + self.privatesettable_nsprefix_ = None + self.protectedsettable = _cast(None, protectedsettable) + self.protectedsettable_nsprefix_ = None + self.gettable = _cast(None, gettable) + self.gettable_nsprefix_ = None + self.privategettable = _cast(None, privategettable) + self.privategettable_nsprefix_ = None + self.protectedgettable = _cast(None, protectedgettable) + self.protectedgettable_nsprefix_ = None + self.final = _cast(None, final) + self.final_nsprefix_ = None + self.sealed = _cast(None, sealed) + self.sealed_nsprefix_ = None + self.new = _cast(None, new) + self.new_nsprefix_ = None + self.add = _cast(None, add) + self.add_nsprefix_ = None + self.remove = _cast(None, remove) + self.remove_nsprefix_ = None + self.raise_ = _cast(None, raise_) + self.raise__nsprefix_ = None + self.optional = _cast(None, optional) + self.optional_nsprefix_ = None + self.required = _cast(None, required) + self.required_nsprefix_ = None + self.accessor = _cast(None, accessor) + self.accessor_nsprefix_ = None + self.attribute = _cast(None, attribute) + self.attribute_nsprefix_ = None + self.property = _cast(None, property) + self.property_nsprefix_ = None + self.readonly = _cast(None, readonly) + self.readonly_nsprefix_ = None + self.bound = _cast(None, bound) + self.bound_nsprefix_ = None + self.removable = _cast(None, removable) + self.removable_nsprefix_ = None + self.constrained = _cast(None, constrained) + self.constrained_nsprefix_ = None + self.transient = _cast(None, transient) + self.transient_nsprefix_ = None + self.maybevoid = _cast(None, maybevoid) + self.maybevoid_nsprefix_ = None + self.maybedefault = _cast(None, maybedefault) + self.maybedefault_nsprefix_ = None + self.maybeambiguous = _cast(None, maybeambiguous) + self.maybeambiguous_nsprefix_ = None + self.templateparamlist = templateparamlist + self.templateparamlist_nsprefix_ = None + self.type_ = type_ + self.type__nsprefix_ = None + self.definition = definition + self.definition_nsprefix_ = None + self.argsstring = argsstring + self.argsstring_nsprefix_ = None + self.name = name + self.name_nsprefix_ = None + self.read = read + self.read_nsprefix_ = None + self.write = write + self.write_nsprefix_ = None + self.bitfield = bitfield + self.bitfield_nsprefix_ = None + if reimplements is None: + self.reimplements = [] + else: + self.reimplements = reimplements + self.reimplements_nsprefix_ = None + if reimplementedby is None: + self.reimplementedby = [] + else: + self.reimplementedby = reimplementedby + self.reimplementedby_nsprefix_ = None + if param is None: + self.param = [] + else: + self.param = param + self.param_nsprefix_ = None + if enumvalue is None: + self.enumvalue = [] + else: + self.enumvalue = enumvalue + self.enumvalue_nsprefix_ = None + self.initializer = initializer + self.initializer_nsprefix_ = None + self.exceptions = exceptions + self.exceptions_nsprefix_ = None + self.briefdescription = briefdescription + self.briefdescription_nsprefix_ = None + self.detaileddescription = detaileddescription + self.detaileddescription_nsprefix_ = None + self.inbodydescription = inbodydescription + self.inbodydescription_nsprefix_ = None + self.location = location + self.location_nsprefix_ = None + if references is None: + self.references = [] + else: + self.references = references + self.references_nsprefix_ = None + if referencedby is None: + self.referencedby = [] + else: + self.referencedby = referencedby + self.referencedby_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, memberdefType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if memberdefType.subclass: + return memberdefType.subclass(*args_, **kwargs_) + else: + return memberdefType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_templateparamlist(self): + return self.templateparamlist + def set_templateparamlist(self, templateparamlist): + self.templateparamlist = templateparamlist + def get_type(self): + return self.type_ + def set_type(self, type_): + self.type_ = type_ + def get_definition(self): + return self.definition + def set_definition(self, definition): + self.definition = definition + def get_argsstring(self): + return self.argsstring + def set_argsstring(self, argsstring): + self.argsstring = argsstring + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_read(self): + return self.read + def set_read(self, read): + self.read = read + def get_write(self): + return self.write + def set_write(self, write): + self.write = write + def get_bitfield(self): + return self.bitfield + def set_bitfield(self, bitfield): + self.bitfield = bitfield + def get_reimplements(self): + return self.reimplements + def set_reimplements(self, reimplements): + self.reimplements = reimplements + def add_reimplements(self, value): + self.reimplements.append(value) + def insert_reimplements_at(self, index, value): + self.reimplements.insert(index, value) + def replace_reimplements_at(self, index, value): + self.reimplements[index] = value + def get_reimplementedby(self): + return self.reimplementedby + def set_reimplementedby(self, reimplementedby): + self.reimplementedby = reimplementedby + def add_reimplementedby(self, value): + self.reimplementedby.append(value) + def insert_reimplementedby_at(self, index, value): + self.reimplementedby.insert(index, value) + def replace_reimplementedby_at(self, index, value): + self.reimplementedby[index] = value + def get_param(self): + return self.param + def set_param(self, param): + self.param = param + def add_param(self, value): + self.param.append(value) + def insert_param_at(self, index, value): + self.param.insert(index, value) + def replace_param_at(self, index, value): + self.param[index] = value + def get_enumvalue(self): + return self.enumvalue + def set_enumvalue(self, enumvalue): + self.enumvalue = enumvalue + def add_enumvalue(self, value): + self.enumvalue.append(value) + def insert_enumvalue_at(self, index, value): + self.enumvalue.insert(index, value) + def replace_enumvalue_at(self, index, value): + self.enumvalue[index] = value + def get_initializer(self): + return self.initializer + def set_initializer(self, initializer): + self.initializer = initializer + def get_exceptions(self): + return self.exceptions + def set_exceptions(self, exceptions): + self.exceptions = exceptions + def get_briefdescription(self): + return self.briefdescription + def set_briefdescription(self, briefdescription): + self.briefdescription = briefdescription + def get_detaileddescription(self): + return self.detaileddescription + def set_detaileddescription(self, detaileddescription): + self.detaileddescription = detaileddescription + def get_inbodydescription(self): + return self.inbodydescription + def set_inbodydescription(self, inbodydescription): + self.inbodydescription = inbodydescription + def get_location(self): + return self.location + def set_location(self, location): + self.location = location + def get_references(self): + return self.references + def set_references(self, references): + self.references = references + def add_references(self, value): + self.references.append(value) + def insert_references_at(self, index, value): + self.references.insert(index, value) + def replace_references_at(self, index, value): + self.references[index] = value + def get_referencedby(self): + return self.referencedby + def set_referencedby(self, referencedby): + self.referencedby = referencedby + def add_referencedby(self, value): + self.referencedby.append(value) + def insert_referencedby_at(self, index, value): + self.referencedby.insert(index, value) + def replace_referencedby_at(self, index, value): + self.referencedby[index] = value + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_prot(self): + return self.prot + def set_prot(self, prot): + self.prot = prot + def get_static(self): + return self.static + def set_static(self, static): + self.static = static + def get_strong(self): + return self.strong + def set_strong(self, strong): + self.strong = strong + def get_const(self): + return self.const + def set_const(self, const): + self.const = const + def get_explicit(self): + return self.explicit + def set_explicit(self, explicit): + self.explicit = explicit + def get_inline(self): + return self.inline + def set_inline(self, inline): + self.inline = inline + def get_refqual(self): + return self.refqual + def set_refqual(self, refqual): + self.refqual = refqual + def get_virt(self): + return self.virt + def set_virt(self, virt): + self.virt = virt + def get_volatile(self): + return self.volatile + def set_volatile(self, volatile): + self.volatile = volatile + def get_mutable(self): + return self.mutable + def set_mutable(self, mutable): + self.mutable = mutable + def get_noexcept(self): + return self.noexcept + def set_noexcept(self, noexcept): + self.noexcept = noexcept + def get_constexpr(self): + return self.constexpr + def set_constexpr(self, constexpr): + self.constexpr = constexpr + def get_readable(self): + return self.readable + def set_readable(self, readable): + self.readable = readable + def get_writable(self): + return self.writable + def set_writable(self, writable): + self.writable = writable + def get_initonly(self): + return self.initonly + def set_initonly(self, initonly): + self.initonly = initonly + def get_settable(self): + return self.settable + def set_settable(self, settable): + self.settable = settable + def get_privatesettable(self): + return self.privatesettable + def set_privatesettable(self, privatesettable): + self.privatesettable = privatesettable + def get_protectedsettable(self): + return self.protectedsettable + def set_protectedsettable(self, protectedsettable): + self.protectedsettable = protectedsettable + def get_gettable(self): + return self.gettable + def set_gettable(self, gettable): + self.gettable = gettable + def get_privategettable(self): + return self.privategettable + def set_privategettable(self, privategettable): + self.privategettable = privategettable + def get_protectedgettable(self): + return self.protectedgettable + def set_protectedgettable(self, protectedgettable): + self.protectedgettable = protectedgettable + def get_final(self): + return self.final + def set_final(self, final): + self.final = final + def get_sealed(self): + return self.sealed + def set_sealed(self, sealed): + self.sealed = sealed + def get_new(self): + return self.new + def set_new(self, new): + self.new = new + def get_add(self): + return self.add + def set_add(self, add): + self.add = add + def get_remove(self): + return self.remove + def set_remove(self, remove): + self.remove = remove + def get_raise(self): + return self.raise_ + def set_raise(self, raise_): + self.raise_ = raise_ + def get_optional(self): + return self.optional + def set_optional(self, optional): + self.optional = optional + def get_required(self): + return self.required + def set_required(self, required): + self.required = required + def get_accessor(self): + return self.accessor + def set_accessor(self, accessor): + self.accessor = accessor + def get_attribute(self): + return self.attribute + def set_attribute(self, attribute): + self.attribute = attribute + def get_property(self): + return self.property + def set_property(self, property): + self.property = property + def get_readonly(self): + return self.readonly + def set_readonly(self, readonly): + self.readonly = readonly + def get_bound(self): + return self.bound + def set_bound(self, bound): + self.bound = bound + def get_removable(self): + return self.removable + def set_removable(self, removable): + self.removable = removable + def get_constrained(self): + return self.constrained + def set_constrained(self, constrained): + self.constrained = constrained + def get_transient(self): + return self.transient + def set_transient(self, transient): + self.transient = transient + def get_maybevoid(self): + return self.maybevoid + def set_maybevoid(self, maybevoid): + self.maybevoid = maybevoid + def get_maybedefault(self): + return self.maybedefault + def set_maybedefault(self, maybedefault): + self.maybedefault = maybedefault + def get_maybeambiguous(self): + return self.maybeambiguous + def set_maybeambiguous(self, maybeambiguous): + self.maybeambiguous = maybeambiguous + def validate_DoxMemberKind(self, value): + # Validate type DoxMemberKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['define', 'property', 'event', 'variable', 'typedef', 'enum', 'function', 'signal', 'prototype', 'friend', 'dcop', 'slot', 'interface', 'service'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxMemberKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxProtectionKind(self, value): + # Validate type DoxProtectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['public', 'protected', 'private', 'package'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxProtectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxRefQualifierKind(self, value): + # Validate type DoxRefQualifierKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['lvalue', 'rvalue'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxRefQualifierKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxVirtualKind(self, value): + # Validate type DoxVirtualKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['non-virtual', 'virtual', 'pure-virtual'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxVirtualKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxAccessor(self, value): + # Validate type DoxAccessor, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['retain', 'copy', 'assign', 'weak', 'strong', 'unretained'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxAccessor' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.templateparamlist is not None or + self.type_ is not None or + self.definition is not None or + self.argsstring is not None or + self.name is not None or + self.read is not None or + self.write is not None or + self.bitfield is not None or + self.reimplements or + self.reimplementedby or + self.param or + self.enumvalue or + self.initializer is not None or + self.exceptions is not None or + self.briefdescription is not None or + self.detaileddescription is not None or + self.inbodydescription is not None or + self.location is not None or + self.references or + self.referencedby + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='memberdefType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('memberdefType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'memberdefType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='memberdefType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='memberdefType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='memberdefType'): + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + if self.prot is not None and 'prot' not in already_processed: + already_processed.add('prot') + outfile.write(' prot=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.prot), input_name='prot')), )) + if self.static is not None and 'static' not in already_processed: + already_processed.add('static') + outfile.write(' static=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.static), input_name='static')), )) + if self.strong is not None and 'strong' not in already_processed: + already_processed.add('strong') + outfile.write(' strong=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.strong), input_name='strong')), )) + if self.const is not None and 'const' not in already_processed: + already_processed.add('const') + outfile.write(' const=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.const), input_name='const')), )) + if self.explicit is not None and 'explicit' not in already_processed: + already_processed.add('explicit') + outfile.write(' explicit=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.explicit), input_name='explicit')), )) + if self.inline is not None and 'inline' not in already_processed: + already_processed.add('inline') + outfile.write(' inline=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.inline), input_name='inline')), )) + if self.refqual is not None and 'refqual' not in already_processed: + already_processed.add('refqual') + outfile.write(' refqual=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refqual), input_name='refqual')), )) + if self.virt is not None and 'virt' not in already_processed: + already_processed.add('virt') + outfile.write(' virt=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.virt), input_name='virt')), )) + if self.volatile is not None and 'volatile' not in already_processed: + already_processed.add('volatile') + outfile.write(' volatile=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.volatile), input_name='volatile')), )) + if self.mutable is not None and 'mutable' not in already_processed: + already_processed.add('mutable') + outfile.write(' mutable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.mutable), input_name='mutable')), )) + if self.noexcept is not None and 'noexcept' not in already_processed: + already_processed.add('noexcept') + outfile.write(' noexcept=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.noexcept), input_name='noexcept')), )) + if self.constexpr is not None and 'constexpr' not in already_processed: + already_processed.add('constexpr') + outfile.write(' constexpr=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.constexpr), input_name='constexpr')), )) + if self.readable is not None and 'readable' not in already_processed: + already_processed.add('readable') + outfile.write(' readable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.readable), input_name='readable')), )) + if self.writable is not None and 'writable' not in already_processed: + already_processed.add('writable') + outfile.write(' writable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.writable), input_name='writable')), )) + if self.initonly is not None and 'initonly' not in already_processed: + already_processed.add('initonly') + outfile.write(' initonly=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.initonly), input_name='initonly')), )) + if self.settable is not None and 'settable' not in already_processed: + already_processed.add('settable') + outfile.write(' settable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.settable), input_name='settable')), )) + if self.privatesettable is not None and 'privatesettable' not in already_processed: + already_processed.add('privatesettable') + outfile.write(' privatesettable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.privatesettable), input_name='privatesettable')), )) + if self.protectedsettable is not None and 'protectedsettable' not in already_processed: + already_processed.add('protectedsettable') + outfile.write(' protectedsettable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.protectedsettable), input_name='protectedsettable')), )) + if self.gettable is not None and 'gettable' not in already_processed: + already_processed.add('gettable') + outfile.write(' gettable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.gettable), input_name='gettable')), )) + if self.privategettable is not None and 'privategettable' not in already_processed: + already_processed.add('privategettable') + outfile.write(' privategettable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.privategettable), input_name='privategettable')), )) + if self.protectedgettable is not None and 'protectedgettable' not in already_processed: + already_processed.add('protectedgettable') + outfile.write(' protectedgettable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.protectedgettable), input_name='protectedgettable')), )) + if self.final is not None and 'final' not in already_processed: + already_processed.add('final') + outfile.write(' final=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.final), input_name='final')), )) + if self.sealed is not None and 'sealed' not in already_processed: + already_processed.add('sealed') + outfile.write(' sealed=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.sealed), input_name='sealed')), )) + if self.new is not None and 'new' not in already_processed: + already_processed.add('new') + outfile.write(' new=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.new), input_name='new')), )) + if self.add is not None and 'add' not in already_processed: + already_processed.add('add') + outfile.write(' add=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.add), input_name='add')), )) + if self.remove is not None and 'remove' not in already_processed: + already_processed.add('remove') + outfile.write(' remove=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.remove), input_name='remove')), )) + if self.raise_ is not None and 'raise_' not in already_processed: + already_processed.add('raise_') + outfile.write(' raise=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.raise_), input_name='raise')), )) + if self.optional is not None and 'optional' not in already_processed: + already_processed.add('optional') + outfile.write(' optional=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.optional), input_name='optional')), )) + if self.required is not None and 'required' not in already_processed: + already_processed.add('required') + outfile.write(' required=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.required), input_name='required')), )) + if self.accessor is not None and 'accessor' not in already_processed: + already_processed.add('accessor') + outfile.write(' accessor=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.accessor), input_name='accessor')), )) + if self.attribute is not None and 'attribute' not in already_processed: + already_processed.add('attribute') + outfile.write(' attribute=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.attribute), input_name='attribute')), )) + if self.property is not None and 'property' not in already_processed: + already_processed.add('property') + outfile.write(' property=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.property), input_name='property')), )) + if self.readonly is not None and 'readonly' not in already_processed: + already_processed.add('readonly') + outfile.write(' readonly=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.readonly), input_name='readonly')), )) + if self.bound is not None and 'bound' not in already_processed: + already_processed.add('bound') + outfile.write(' bound=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.bound), input_name='bound')), )) + if self.removable is not None and 'removable' not in already_processed: + already_processed.add('removable') + outfile.write(' removable=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.removable), input_name='removable')), )) + if self.constrained is not None and 'constrained' not in already_processed: + already_processed.add('constrained') + outfile.write(' constrained=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.constrained), input_name='constrained')), )) + if self.transient is not None and 'transient' not in already_processed: + already_processed.add('transient') + outfile.write(' transient=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.transient), input_name='transient')), )) + if self.maybevoid is not None and 'maybevoid' not in already_processed: + already_processed.add('maybevoid') + outfile.write(' maybevoid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.maybevoid), input_name='maybevoid')), )) + if self.maybedefault is not None and 'maybedefault' not in already_processed: + already_processed.add('maybedefault') + outfile.write(' maybedefault=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.maybedefault), input_name='maybedefault')), )) + if self.maybeambiguous is not None and 'maybeambiguous' not in already_processed: + already_processed.add('maybeambiguous') + outfile.write(' maybeambiguous=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.maybeambiguous), input_name='maybeambiguous')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='memberdefType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.templateparamlist is not None: + namespaceprefix_ = self.templateparamlist_nsprefix_ + ':' if (UseCapturedNS_ and self.templateparamlist_nsprefix_) else '' + self.templateparamlist.export(outfile, level, namespaceprefix_, namespacedef_='', name_='templateparamlist', pretty_print=pretty_print) + if self.type_ is not None: + namespaceprefix_ = self.type__nsprefix_ + ':' if (UseCapturedNS_ and self.type__nsprefix_) else '' + self.type_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='type', pretty_print=pretty_print) + if self.definition is not None: + namespaceprefix_ = self.definition_nsprefix_ + ':' if (UseCapturedNS_ and self.definition_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdefinition>%s</%sdefinition>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.definition), input_name='definition')), namespaceprefix_ , eol_)) + if self.argsstring is not None: + namespaceprefix_ = self.argsstring_nsprefix_ + ':' if (UseCapturedNS_ and self.argsstring_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sargsstring>%s</%sargsstring>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.argsstring), input_name='argsstring')), namespaceprefix_ , eol_)) + if self.name is not None: + namespaceprefix_ = self.name_nsprefix_ + ':' if (UseCapturedNS_ and self.name_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sname>%s</%sname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.name), input_name='name')), namespaceprefix_ , eol_)) + if self.read is not None: + namespaceprefix_ = self.read_nsprefix_ + ':' if (UseCapturedNS_ and self.read_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sread>%s</%sread>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.read), input_name='read')), namespaceprefix_ , eol_)) + if self.write is not None: + namespaceprefix_ = self.write_nsprefix_ + ':' if (UseCapturedNS_ and self.write_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%swrite>%s</%swrite>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.write), input_name='write')), namespaceprefix_ , eol_)) + if self.bitfield is not None: + namespaceprefix_ = self.bitfield_nsprefix_ + ':' if (UseCapturedNS_ and self.bitfield_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sbitfield>%s</%sbitfield>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.bitfield), input_name='bitfield')), namespaceprefix_ , eol_)) + for reimplements_ in self.reimplements: + namespaceprefix_ = self.reimplements_nsprefix_ + ':' if (UseCapturedNS_ and self.reimplements_nsprefix_) else '' + reimplements_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='reimplements', pretty_print=pretty_print) + for reimplementedby_ in self.reimplementedby: + namespaceprefix_ = self.reimplementedby_nsprefix_ + ':' if (UseCapturedNS_ and self.reimplementedby_nsprefix_) else '' + reimplementedby_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='reimplementedby', pretty_print=pretty_print) + for param_ in self.param: + namespaceprefix_ = self.param_nsprefix_ + ':' if (UseCapturedNS_ and self.param_nsprefix_) else '' + param_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='param', pretty_print=pretty_print) + for enumvalue_ in self.enumvalue: + namespaceprefix_ = self.enumvalue_nsprefix_ + ':' if (UseCapturedNS_ and self.enumvalue_nsprefix_) else '' + enumvalue_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='enumvalue', pretty_print=pretty_print) + if self.initializer is not None: + namespaceprefix_ = self.initializer_nsprefix_ + ':' if (UseCapturedNS_ and self.initializer_nsprefix_) else '' + self.initializer.export(outfile, level, namespaceprefix_, namespacedef_='', name_='initializer', pretty_print=pretty_print) + if self.exceptions is not None: + namespaceprefix_ = self.exceptions_nsprefix_ + ':' if (UseCapturedNS_ and self.exceptions_nsprefix_) else '' + self.exceptions.export(outfile, level, namespaceprefix_, namespacedef_='', name_='exceptions', pretty_print=pretty_print) + if self.briefdescription is not None: + namespaceprefix_ = self.briefdescription_nsprefix_ + ':' if (UseCapturedNS_ and self.briefdescription_nsprefix_) else '' + self.briefdescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='briefdescription', pretty_print=pretty_print) + if self.detaileddescription is not None: + namespaceprefix_ = self.detaileddescription_nsprefix_ + ':' if (UseCapturedNS_ and self.detaileddescription_nsprefix_) else '' + self.detaileddescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='detaileddescription', pretty_print=pretty_print) + if self.inbodydescription is not None: + namespaceprefix_ = self.inbodydescription_nsprefix_ + ':' if (UseCapturedNS_ and self.inbodydescription_nsprefix_) else '' + self.inbodydescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='inbodydescription', pretty_print=pretty_print) + if self.location is not None: + namespaceprefix_ = self.location_nsprefix_ + ':' if (UseCapturedNS_ and self.location_nsprefix_) else '' + self.location.export(outfile, level, namespaceprefix_, namespacedef_='', name_='location', pretty_print=pretty_print) + for references_ in self.references: + namespaceprefix_ = self.references_nsprefix_ + ':' if (UseCapturedNS_ and self.references_nsprefix_) else '' + references_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='references', pretty_print=pretty_print) + for referencedby_ in self.referencedby: + namespaceprefix_ = self.referencedby_nsprefix_ + ':' if (UseCapturedNS_ and self.referencedby_nsprefix_) else '' + referencedby_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='referencedby', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_DoxMemberKind(self.kind) # validate type DoxMemberKind + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + value = find_attr_value_('prot', node) + if value is not None and 'prot' not in already_processed: + already_processed.add('prot') + self.prot = value + self.validate_DoxProtectionKind(self.prot) # validate type DoxProtectionKind + value = find_attr_value_('static', node) + if value is not None and 'static' not in already_processed: + already_processed.add('static') + self.static = value + self.validate_DoxBool(self.static) # validate type DoxBool + value = find_attr_value_('strong', node) + if value is not None and 'strong' not in already_processed: + already_processed.add('strong') + self.strong = value + self.validate_DoxBool(self.strong) # validate type DoxBool + value = find_attr_value_('const', node) + if value is not None and 'const' not in already_processed: + already_processed.add('const') + self.const = value + self.validate_DoxBool(self.const) # validate type DoxBool + value = find_attr_value_('explicit', node) + if value is not None and 'explicit' not in already_processed: + already_processed.add('explicit') + self.explicit = value + self.validate_DoxBool(self.explicit) # validate type DoxBool + value = find_attr_value_('inline', node) + if value is not None and 'inline' not in already_processed: + already_processed.add('inline') + self.inline = value + self.validate_DoxBool(self.inline) # validate type DoxBool + value = find_attr_value_('refqual', node) + if value is not None and 'refqual' not in already_processed: + already_processed.add('refqual') + self.refqual = value + self.validate_DoxRefQualifierKind(self.refqual) # validate type DoxRefQualifierKind + value = find_attr_value_('virt', node) + if value is not None and 'virt' not in already_processed: + already_processed.add('virt') + self.virt = value + self.validate_DoxVirtualKind(self.virt) # validate type DoxVirtualKind + value = find_attr_value_('volatile', node) + if value is not None and 'volatile' not in already_processed: + already_processed.add('volatile') + self.volatile = value + self.validate_DoxBool(self.volatile) # validate type DoxBool + value = find_attr_value_('mutable', node) + if value is not None and 'mutable' not in already_processed: + already_processed.add('mutable') + self.mutable = value + self.validate_DoxBool(self.mutable) # validate type DoxBool + value = find_attr_value_('noexcept', node) + if value is not None and 'noexcept' not in already_processed: + already_processed.add('noexcept') + self.noexcept = value + self.validate_DoxBool(self.noexcept) # validate type DoxBool + value = find_attr_value_('constexpr', node) + if value is not None and 'constexpr' not in already_processed: + already_processed.add('constexpr') + self.constexpr = value + self.validate_DoxBool(self.constexpr) # validate type DoxBool + value = find_attr_value_('readable', node) + if value is not None and 'readable' not in already_processed: + already_processed.add('readable') + self.readable = value + self.validate_DoxBool(self.readable) # validate type DoxBool + value = find_attr_value_('writable', node) + if value is not None and 'writable' not in already_processed: + already_processed.add('writable') + self.writable = value + self.validate_DoxBool(self.writable) # validate type DoxBool + value = find_attr_value_('initonly', node) + if value is not None and 'initonly' not in already_processed: + already_processed.add('initonly') + self.initonly = value + self.validate_DoxBool(self.initonly) # validate type DoxBool + value = find_attr_value_('settable', node) + if value is not None and 'settable' not in already_processed: + already_processed.add('settable') + self.settable = value + self.validate_DoxBool(self.settable) # validate type DoxBool + value = find_attr_value_('privatesettable', node) + if value is not None and 'privatesettable' not in already_processed: + already_processed.add('privatesettable') + self.privatesettable = value + self.validate_DoxBool(self.privatesettable) # validate type DoxBool + value = find_attr_value_('protectedsettable', node) + if value is not None and 'protectedsettable' not in already_processed: + already_processed.add('protectedsettable') + self.protectedsettable = value + self.validate_DoxBool(self.protectedsettable) # validate type DoxBool + value = find_attr_value_('gettable', node) + if value is not None and 'gettable' not in already_processed: + already_processed.add('gettable') + self.gettable = value + self.validate_DoxBool(self.gettable) # validate type DoxBool + value = find_attr_value_('privategettable', node) + if value is not None and 'privategettable' not in already_processed: + already_processed.add('privategettable') + self.privategettable = value + self.validate_DoxBool(self.privategettable) # validate type DoxBool + value = find_attr_value_('protectedgettable', node) + if value is not None and 'protectedgettable' not in already_processed: + already_processed.add('protectedgettable') + self.protectedgettable = value + self.validate_DoxBool(self.protectedgettable) # validate type DoxBool + value = find_attr_value_('final', node) + if value is not None and 'final' not in already_processed: + already_processed.add('final') + self.final = value + self.validate_DoxBool(self.final) # validate type DoxBool + value = find_attr_value_('sealed', node) + if value is not None and 'sealed' not in already_processed: + already_processed.add('sealed') + self.sealed = value + self.validate_DoxBool(self.sealed) # validate type DoxBool + value = find_attr_value_('new', node) + if value is not None and 'new' not in already_processed: + already_processed.add('new') + self.new = value + self.validate_DoxBool(self.new) # validate type DoxBool + value = find_attr_value_('add', node) + if value is not None and 'add' not in already_processed: + already_processed.add('add') + self.add = value + self.validate_DoxBool(self.add) # validate type DoxBool + value = find_attr_value_('remove', node) + if value is not None and 'remove' not in already_processed: + already_processed.add('remove') + self.remove = value + self.validate_DoxBool(self.remove) # validate type DoxBool + value = find_attr_value_('raise', node) + if value is not None and 'raise' not in already_processed: + already_processed.add('raise') + self.raise_ = value + self.validate_DoxBool(self.raise_) # validate type DoxBool + value = find_attr_value_('optional', node) + if value is not None and 'optional' not in already_processed: + already_processed.add('optional') + self.optional = value + self.validate_DoxBool(self.optional) # validate type DoxBool + value = find_attr_value_('required', node) + if value is not None and 'required' not in already_processed: + already_processed.add('required') + self.required = value + self.validate_DoxBool(self.required) # validate type DoxBool + value = find_attr_value_('accessor', node) + if value is not None and 'accessor' not in already_processed: + already_processed.add('accessor') + self.accessor = value + self.validate_DoxAccessor(self.accessor) # validate type DoxAccessor + value = find_attr_value_('attribute', node) + if value is not None and 'attribute' not in already_processed: + already_processed.add('attribute') + self.attribute = value + self.validate_DoxBool(self.attribute) # validate type DoxBool + value = find_attr_value_('property', node) + if value is not None and 'property' not in already_processed: + already_processed.add('property') + self.property = value + self.validate_DoxBool(self.property) # validate type DoxBool + value = find_attr_value_('readonly', node) + if value is not None and 'readonly' not in already_processed: + already_processed.add('readonly') + self.readonly = value + self.validate_DoxBool(self.readonly) # validate type DoxBool + value = find_attr_value_('bound', node) + if value is not None and 'bound' not in already_processed: + already_processed.add('bound') + self.bound = value + self.validate_DoxBool(self.bound) # validate type DoxBool + value = find_attr_value_('removable', node) + if value is not None and 'removable' not in already_processed: + already_processed.add('removable') + self.removable = value + self.validate_DoxBool(self.removable) # validate type DoxBool + value = find_attr_value_('constrained', node) + if value is not None and 'constrained' not in already_processed: + already_processed.add('constrained') + self.constrained = value + self.validate_DoxBool(self.constrained) # validate type DoxBool + value = find_attr_value_('transient', node) + if value is not None and 'transient' not in already_processed: + already_processed.add('transient') + self.transient = value + self.validate_DoxBool(self.transient) # validate type DoxBool + value = find_attr_value_('maybevoid', node) + if value is not None and 'maybevoid' not in already_processed: + already_processed.add('maybevoid') + self.maybevoid = value + self.validate_DoxBool(self.maybevoid) # validate type DoxBool + value = find_attr_value_('maybedefault', node) + if value is not None and 'maybedefault' not in already_processed: + already_processed.add('maybedefault') + self.maybedefault = value + self.validate_DoxBool(self.maybedefault) # validate type DoxBool + value = find_attr_value_('maybeambiguous', node) + if value is not None and 'maybeambiguous' not in already_processed: + already_processed.add('maybeambiguous') + self.maybeambiguous = value + self.validate_DoxBool(self.maybeambiguous) # validate type DoxBool + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'templateparamlist': + obj_ = templateparamlistType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.templateparamlist = obj_ + obj_.original_tagname_ = 'templateparamlist' + elif nodeName_ == 'type': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.type_ = obj_ + obj_.original_tagname_ = 'type' + elif nodeName_ == 'definition': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'definition') + value_ = self.gds_validate_string(value_, node, 'definition') + self.definition = value_ + self.definition_nsprefix_ = child_.prefix + elif nodeName_ == 'argsstring': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'argsstring') + value_ = self.gds_validate_string(value_, node, 'argsstring') + self.argsstring = value_ + self.argsstring_nsprefix_ = child_.prefix + elif nodeName_ == 'name': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'name') + value_ = self.gds_validate_string(value_, node, 'name') + self.name = value_ + self.name_nsprefix_ = child_.prefix + elif nodeName_ == 'read': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'read') + value_ = self.gds_validate_string(value_, node, 'read') + self.read = value_ + self.read_nsprefix_ = child_.prefix + elif nodeName_ == 'write': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'write') + value_ = self.gds_validate_string(value_, node, 'write') + self.write = value_ + self.write_nsprefix_ = child_.prefix + elif nodeName_ == 'bitfield': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'bitfield') + value_ = self.gds_validate_string(value_, node, 'bitfield') + self.bitfield = value_ + self.bitfield_nsprefix_ = child_.prefix + elif nodeName_ == 'reimplements': + obj_ = reimplementType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.reimplements.append(obj_) + obj_.original_tagname_ = 'reimplements' + elif nodeName_ == 'reimplementedby': + obj_ = reimplementType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.reimplementedby.append(obj_) + obj_.original_tagname_ = 'reimplementedby' + elif nodeName_ == 'param': + obj_ = paramType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.param.append(obj_) + obj_.original_tagname_ = 'param' + elif nodeName_ == 'enumvalue': + obj_ = enumvalueType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.enumvalue.append(obj_) + obj_.original_tagname_ = 'enumvalue' + elif nodeName_ == 'initializer': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.initializer = obj_ + obj_.original_tagname_ = 'initializer' + elif nodeName_ == 'exceptions': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.exceptions = obj_ + obj_.original_tagname_ = 'exceptions' + elif nodeName_ == 'briefdescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.briefdescription = obj_ + obj_.original_tagname_ = 'briefdescription' + elif nodeName_ == 'detaileddescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.detaileddescription = obj_ + obj_.original_tagname_ = 'detaileddescription' + elif nodeName_ == 'inbodydescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.inbodydescription = obj_ + obj_.original_tagname_ = 'inbodydescription' + elif nodeName_ == 'location': + obj_ = locationType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.location = obj_ + obj_.original_tagname_ = 'location' + elif nodeName_ == 'references': + obj_ = referenceType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.references.append(obj_) + obj_.original_tagname_ = 'references' + elif nodeName_ == 'referencedby': + obj_ = referenceType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.referencedby.append(obj_) + obj_.original_tagname_ = 'referencedby' +# end class memberdefType + + +class definition(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, definition) + if subclass is not None: + return subclass(*args_, **kwargs_) + if definition.subclass: + return definition.subclass(*args_, **kwargs_) + else: + return definition(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='definition', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('definition') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'definition': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='definition') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='definition', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='definition'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='definition', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class definition + + +class argsstring(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, argsstring) + if subclass is not None: + return subclass(*args_, **kwargs_) + if argsstring.subclass: + return argsstring.subclass(*args_, **kwargs_) + else: + return argsstring(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='argsstring', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('argsstring') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'argsstring': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='argsstring') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='argsstring', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='argsstring'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='argsstring', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class argsstring + + +class read(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, read) + if subclass is not None: + return subclass(*args_, **kwargs_) + if read.subclass: + return read.subclass(*args_, **kwargs_) + else: + return read(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='read', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('read') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'read': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='read') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='read', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='read'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='read', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class read + + +class write(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, write) + if subclass is not None: + return subclass(*args_, **kwargs_) + if write.subclass: + return write.subclass(*args_, **kwargs_) + else: + return write(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='write', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('write') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'write': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='write') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='write', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='write'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='write', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class write + + +class bitfield(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, bitfield) + if subclass is not None: + return subclass(*args_, **kwargs_) + if bitfield.subclass: + return bitfield.subclass(*args_, **kwargs_) + else: + return bitfield(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='bitfield', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('bitfield') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'bitfield': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='bitfield') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='bitfield', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='bitfield'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='bitfield', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class bitfield + + +class descriptionType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, title=None, para=None, internal=None, sect1=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.title = title + self.title_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if internal is None: + self.internal = [] + else: + self.internal = internal + self.internal_nsprefix_ = None + if sect1 is None: + self.sect1 = [] + else: + self.sect1 = sect1 + self.sect1_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, descriptionType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if descriptionType.subclass: + return descriptionType.subclass(*args_, **kwargs_) + else: + return descriptionType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_internal(self): + return self.internal + def set_internal(self, internal): + self.internal = internal + def add_internal(self, value): + self.internal.append(value) + def insert_internal_at(self, index, value): + self.internal.insert(index, value) + def replace_internal_at(self, index, value): + self.internal[index] = value + def get_sect1(self): + return self.sect1 + def set_sect1(self, sect1): + self.sect1 = sect1 + def add_sect1(self, value): + self.sect1.append(value) + def insert_sect1_at(self, index, value): + self.sect1.insert(index, value) + def replace_sect1_at(self, index, value): + self.sect1[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.title is not None or + self.para or + self.internal or + self.sect1 or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='descriptionType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('descriptionType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'descriptionType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='descriptionType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='descriptionType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='descriptionType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='descriptionType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%stitle>%s</%stitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.title), input_name='title')), namespaceprefix_ , eol_)) + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for internal_ in self.internal: + namespaceprefix_ = self.internal_nsprefix_ + ':' if (UseCapturedNS_ and self.internal_nsprefix_) else '' + internal_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='internal', pretty_print=pretty_print) + for sect1_ in self.sect1: + namespaceprefix_ = self.sect1_nsprefix_ + ':' if (UseCapturedNS_ and self.sect1_nsprefix_) else '' + sect1_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect1', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'title' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'title') + valuestr_ = self.gds_validate_string(valuestr_, node, 'title') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'title', valuestr_) + self.content_.append(obj_) + self.title_nsprefix_ = child_.prefix + elif nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'internal': + obj_ = docInternalType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'internal', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_internal'): + self.add_internal(obj_.value) + elif hasattr(self, 'set_internal'): + self.set_internal(obj_.value) + elif nodeName_ == 'sect1': + obj_ = docSect1Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect1', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect1'): + self.add_sect1(obj_.value) + elif hasattr(self, 'set_sect1'): + self.set_sect1(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class descriptionType + + +class enumvalueType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, prot=None, name=None, initializer=None, briefdescription=None, detaileddescription=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.prot = _cast(None, prot) + self.prot_nsprefix_ = None + self.name = name + self.name_nsprefix_ = None + self.initializer = initializer + self.initializer_nsprefix_ = None + self.briefdescription = briefdescription + self.briefdescription_nsprefix_ = None + self.detaileddescription = detaileddescription + self.detaileddescription_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, enumvalueType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if enumvalueType.subclass: + return enumvalueType.subclass(*args_, **kwargs_) + else: + return enumvalueType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_initializer(self): + return self.initializer + def set_initializer(self, initializer): + self.initializer = initializer + def get_briefdescription(self): + return self.briefdescription + def set_briefdescription(self, briefdescription): + self.briefdescription = briefdescription + def get_detaileddescription(self): + return self.detaileddescription + def set_detaileddescription(self, detaileddescription): + self.detaileddescription = detaileddescription + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_prot(self): + return self.prot + def set_prot(self, prot): + self.prot = prot + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxProtectionKind(self, value): + # Validate type DoxProtectionKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['public', 'protected', 'private', 'package'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxProtectionKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.name is not None or + self.initializer is not None or + self.briefdescription is not None or + self.detaileddescription is not None or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='enumvalueType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('enumvalueType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'enumvalueType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='enumvalueType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='enumvalueType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='enumvalueType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + if self.prot is not None and 'prot' not in already_processed: + already_processed.add('prot') + outfile.write(' prot=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.prot), input_name='prot')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='enumvalueType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.name is not None: + namespaceprefix_ = self.name_nsprefix_ + ':' if (UseCapturedNS_ and self.name_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sname>%s</%sname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.name), input_name='name')), namespaceprefix_ , eol_)) + if self.initializer is not None: + namespaceprefix_ = self.initializer_nsprefix_ + ':' if (UseCapturedNS_ and self.initializer_nsprefix_) else '' + self.initializer.export(outfile, level, namespaceprefix_, namespacedef_='', name_='initializer', pretty_print=pretty_print) + if self.briefdescription is not None: + namespaceprefix_ = self.briefdescription_nsprefix_ + ':' if (UseCapturedNS_ and self.briefdescription_nsprefix_) else '' + self.briefdescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='briefdescription', pretty_print=pretty_print) + if self.detaileddescription is not None: + namespaceprefix_ = self.detaileddescription_nsprefix_ + ':' if (UseCapturedNS_ and self.detaileddescription_nsprefix_) else '' + self.detaileddescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='detaileddescription', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + value = find_attr_value_('prot', node) + if value is not None and 'prot' not in already_processed: + already_processed.add('prot') + self.prot = value + self.validate_DoxProtectionKind(self.prot) # validate type DoxProtectionKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'name' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'name') + valuestr_ = self.gds_validate_string(valuestr_, node, 'name') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'name', valuestr_) + self.content_.append(obj_) + self.name_nsprefix_ = child_.prefix + elif nodeName_ == 'initializer': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'initializer', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_initializer'): + self.add_initializer(obj_.value) + elif hasattr(self, 'set_initializer'): + self.set_initializer(obj_.value) + elif nodeName_ == 'briefdescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'briefdescription', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_briefdescription'): + self.add_briefdescription(obj_.value) + elif hasattr(self, 'set_briefdescription'): + self.set_briefdescription(obj_.value) + elif nodeName_ == 'detaileddescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'detaileddescription', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_detaileddescription'): + self.add_detaileddescription(obj_.value) + elif hasattr(self, 'set_detaileddescription'): + self.set_detaileddescription(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class enumvalueType + + +class templateparamlistType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, param=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if param is None: + self.param = [] + else: + self.param = param + self.param_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, templateparamlistType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if templateparamlistType.subclass: + return templateparamlistType.subclass(*args_, **kwargs_) + else: + return templateparamlistType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_param(self): + return self.param + def set_param(self, param): + self.param = param + def add_param(self, value): + self.param.append(value) + def insert_param_at(self, index, value): + self.param.insert(index, value) + def replace_param_at(self, index, value): + self.param[index] = value + def hasContent_(self): + if ( + self.param + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='templateparamlistType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('templateparamlistType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'templateparamlistType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='templateparamlistType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='templateparamlistType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='templateparamlistType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='templateparamlistType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for param_ in self.param: + namespaceprefix_ = self.param_nsprefix_ + ':' if (UseCapturedNS_ and self.param_nsprefix_) else '' + param_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='param', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'param': + obj_ = paramType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.param.append(obj_) + obj_.original_tagname_ = 'param' +# end class templateparamlistType + + +class paramType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, attributes=None, type_=None, declname=None, defname=None, array=None, defval=None, typeconstraint=None, briefdescription=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.attributes = attributes + self.attributes_nsprefix_ = None + self.type_ = type_ + self.type__nsprefix_ = None + self.declname = declname + self.declname_nsprefix_ = None + self.defname = defname + self.defname_nsprefix_ = None + self.array = array + self.array_nsprefix_ = None + self.defval = defval + self.defval_nsprefix_ = None + self.typeconstraint = typeconstraint + self.typeconstraint_nsprefix_ = None + self.briefdescription = briefdescription + self.briefdescription_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, paramType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if paramType.subclass: + return paramType.subclass(*args_, **kwargs_) + else: + return paramType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_attributes(self): + return self.attributes + def set_attributes(self, attributes): + self.attributes = attributes + def get_type(self): + return self.type_ + def set_type(self, type_): + self.type_ = type_ + def get_declname(self): + return self.declname + def set_declname(self, declname): + self.declname = declname + def get_defname(self): + return self.defname + def set_defname(self, defname): + self.defname = defname + def get_array(self): + return self.array + def set_array(self, array): + self.array = array + def get_defval(self): + return self.defval + def set_defval(self, defval): + self.defval = defval + def get_typeconstraint(self): + return self.typeconstraint + def set_typeconstraint(self, typeconstraint): + self.typeconstraint = typeconstraint + def get_briefdescription(self): + return self.briefdescription + def set_briefdescription(self, briefdescription): + self.briefdescription = briefdescription + def hasContent_(self): + if ( + self.attributes is not None or + self.type_ is not None or + self.declname is not None or + self.defname is not None or + self.array is not None or + self.defval is not None or + self.typeconstraint is not None or + self.briefdescription is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='paramType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('paramType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'paramType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='paramType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='paramType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='paramType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='paramType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.attributes is not None: + namespaceprefix_ = self.attributes_nsprefix_ + ':' if (UseCapturedNS_ and self.attributes_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sattributes>%s</%sattributes>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.attributes), input_name='attributes')), namespaceprefix_ , eol_)) + if self.type_ is not None: + namespaceprefix_ = self.type__nsprefix_ + ':' if (UseCapturedNS_ and self.type__nsprefix_) else '' + self.type_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='type', pretty_print=pretty_print) + if self.declname is not None: + namespaceprefix_ = self.declname_nsprefix_ + ':' if (UseCapturedNS_ and self.declname_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdeclname>%s</%sdeclname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.declname), input_name='declname')), namespaceprefix_ , eol_)) + if self.defname is not None: + namespaceprefix_ = self.defname_nsprefix_ + ':' if (UseCapturedNS_ and self.defname_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdefname>%s</%sdefname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.defname), input_name='defname')), namespaceprefix_ , eol_)) + if self.array is not None: + namespaceprefix_ = self.array_nsprefix_ + ':' if (UseCapturedNS_ and self.array_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sarray>%s</%sarray>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.array), input_name='array')), namespaceprefix_ , eol_)) + if self.defval is not None: + namespaceprefix_ = self.defval_nsprefix_ + ':' if (UseCapturedNS_ and self.defval_nsprefix_) else '' + self.defval.export(outfile, level, namespaceprefix_, namespacedef_='', name_='defval', pretty_print=pretty_print) + if self.typeconstraint is not None: + namespaceprefix_ = self.typeconstraint_nsprefix_ + ':' if (UseCapturedNS_ and self.typeconstraint_nsprefix_) else '' + self.typeconstraint.export(outfile, level, namespaceprefix_, namespacedef_='', name_='typeconstraint', pretty_print=pretty_print) + if self.briefdescription is not None: + namespaceprefix_ = self.briefdescription_nsprefix_ + ':' if (UseCapturedNS_ and self.briefdescription_nsprefix_) else '' + self.briefdescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='briefdescription', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'attributes': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'attributes') + value_ = self.gds_validate_string(value_, node, 'attributes') + self.attributes = value_ + self.attributes_nsprefix_ = child_.prefix + elif nodeName_ == 'type': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.type_ = obj_ + obj_.original_tagname_ = 'type' + elif nodeName_ == 'declname': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'declname') + value_ = self.gds_validate_string(value_, node, 'declname') + self.declname = value_ + self.declname_nsprefix_ = child_.prefix + elif nodeName_ == 'defname': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'defname') + value_ = self.gds_validate_string(value_, node, 'defname') + self.defname = value_ + self.defname_nsprefix_ = child_.prefix + elif nodeName_ == 'array': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'array') + value_ = self.gds_validate_string(value_, node, 'array') + self.array = value_ + self.array_nsprefix_ = child_.prefix + elif nodeName_ == 'defval': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.defval = obj_ + obj_.original_tagname_ = 'defval' + elif nodeName_ == 'typeconstraint': + obj_ = linkedTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.typeconstraint = obj_ + obj_.original_tagname_ = 'typeconstraint' + elif nodeName_ == 'briefdescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.briefdescription = obj_ + obj_.original_tagname_ = 'briefdescription' +# end class paramType + + +class attributes(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, attributes) + if subclass is not None: + return subclass(*args_, **kwargs_) + if attributes.subclass: + return attributes.subclass(*args_, **kwargs_) + else: + return attributes(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='attributes', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('attributes') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'attributes': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='attributes') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='attributes', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='attributes'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='attributes', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class attributes + + +class declname(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, declname) + if subclass is not None: + return subclass(*args_, **kwargs_) + if declname.subclass: + return declname.subclass(*args_, **kwargs_) + else: + return declname(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='declname', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('declname') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'declname': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='declname') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='declname', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='declname'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='declname', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class declname + + +class defname(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, defname) + if subclass is not None: + return subclass(*args_, **kwargs_) + if defname.subclass: + return defname.subclass(*args_, **kwargs_) + else: + return defname(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='defname', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('defname') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'defname': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='defname') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='defname', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='defname'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='defname', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class defname + + +class array(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, array) + if subclass is not None: + return subclass(*args_, **kwargs_) + if array.subclass: + return array.subclass(*args_, **kwargs_) + else: + return array(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='array', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('array') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'array': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='array') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='array', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='array'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='array', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class array + + +class linkedTextType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, ref=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, linkedTextType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if linkedTextType.subclass: + return linkedTextType.subclass(*args_, **kwargs_) + else: + return linkedTextType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ref or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='linkedTextType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('linkedTextType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'linkedTextType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='linkedTextType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='linkedTextType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='linkedTextType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='linkedTextType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ref': + obj_ = refTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class linkedTextType + + +class graphType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, node=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if node is None: + self.node = [] + else: + self.node = node + self.node_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, graphType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if graphType.subclass: + return graphType.subclass(*args_, **kwargs_) + else: + return graphType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_node(self): + return self.node + def set_node(self, node): + self.node = node + def add_node(self, value): + self.node.append(value) + def insert_node_at(self, index, value): + self.node.insert(index, value) + def replace_node_at(self, index, value): + self.node[index] = value + def hasContent_(self): + if ( + self.node + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='graphType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('graphType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'graphType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='graphType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='graphType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='graphType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='graphType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for node_ in self.node: + namespaceprefix_ = self.node_nsprefix_ + ':' if (UseCapturedNS_ and self.node_nsprefix_) else '' + node_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='node', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'node': + obj_ = nodeType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.node.append(obj_) + obj_.original_tagname_ = 'node' +# end class graphType + + +class nodeType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, label=None, link=None, childnode=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.label = label + self.label_nsprefix_ = None + self.link = link + self.link_nsprefix_ = None + if childnode is None: + self.childnode = [] + else: + self.childnode = childnode + self.childnode_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, nodeType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if nodeType.subclass: + return nodeType.subclass(*args_, **kwargs_) + else: + return nodeType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_label(self): + return self.label + def set_label(self, label): + self.label = label + def get_link(self): + return self.link + def set_link(self, link): + self.link = link + def get_childnode(self): + return self.childnode + def set_childnode(self, childnode): + self.childnode = childnode + def add_childnode(self, value): + self.childnode.append(value) + def insert_childnode_at(self, index, value): + self.childnode.insert(index, value) + def replace_childnode_at(self, index, value): + self.childnode[index] = value + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def hasContent_(self): + if ( + self.label is not None or + self.link is not None or + self.childnode + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='nodeType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('nodeType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'nodeType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='nodeType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='nodeType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='nodeType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='nodeType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.label is not None: + namespaceprefix_ = self.label_nsprefix_ + ':' if (UseCapturedNS_ and self.label_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slabel>%s</%slabel>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.label), input_name='label')), namespaceprefix_ , eol_)) + if self.link is not None: + namespaceprefix_ = self.link_nsprefix_ + ':' if (UseCapturedNS_ and self.link_nsprefix_) else '' + self.link.export(outfile, level, namespaceprefix_, namespacedef_='', name_='link', pretty_print=pretty_print) + for childnode_ in self.childnode: + namespaceprefix_ = self.childnode_nsprefix_ + ':' if (UseCapturedNS_ and self.childnode_nsprefix_) else '' + childnode_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='childnode', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'label': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'label') + value_ = self.gds_validate_string(value_, node, 'label') + self.label = value_ + self.label_nsprefix_ = child_.prefix + elif nodeName_ == 'link': + obj_ = linkType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.link = obj_ + obj_.original_tagname_ = 'link' + elif nodeName_ == 'childnode': + obj_ = childnodeType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.childnode.append(obj_) + obj_.original_tagname_ = 'childnode' +# end class nodeType + + +class label(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, label) + if subclass is not None: + return subclass(*args_, **kwargs_) + if label.subclass: + return label.subclass(*args_, **kwargs_) + else: + return label(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='label', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('label') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'label': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='label') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='label', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='label'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='label', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class label + + +class childnodeType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, relation=None, edgelabel=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.relation = _cast(None, relation) + self.relation_nsprefix_ = None + if edgelabel is None: + self.edgelabel = [] + else: + self.edgelabel = edgelabel + self.edgelabel_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, childnodeType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if childnodeType.subclass: + return childnodeType.subclass(*args_, **kwargs_) + else: + return childnodeType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_edgelabel(self): + return self.edgelabel + def set_edgelabel(self, edgelabel): + self.edgelabel = edgelabel + def add_edgelabel(self, value): + self.edgelabel.append(value) + def insert_edgelabel_at(self, index, value): + self.edgelabel.insert(index, value) + def replace_edgelabel_at(self, index, value): + self.edgelabel[index] = value + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_relation(self): + return self.relation + def set_relation(self, relation): + self.relation = relation + def validate_DoxGraphRelation(self, value): + # Validate type DoxGraphRelation, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['include', 'usage', 'template-instance', 'public-inheritance', 'protected-inheritance', 'private-inheritance', 'type-constraint'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxGraphRelation' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.edgelabel + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='childnodeType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('childnodeType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'childnodeType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='childnodeType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='childnodeType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='childnodeType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.relation is not None and 'relation' not in already_processed: + already_processed.add('relation') + outfile.write(' relation=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.relation), input_name='relation')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='childnodeType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for edgelabel_ in self.edgelabel: + namespaceprefix_ = self.edgelabel_nsprefix_ + ':' if (UseCapturedNS_ and self.edgelabel_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sedgelabel>%s</%sedgelabel>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(edgelabel_), input_name='edgelabel')), namespaceprefix_ , eol_)) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('relation', node) + if value is not None and 'relation' not in already_processed: + already_processed.add('relation') + self.relation = value + self.validate_DoxGraphRelation(self.relation) # validate type DoxGraphRelation + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'edgelabel': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'edgelabel') + value_ = self.gds_validate_string(value_, node, 'edgelabel') + self.edgelabel.append(value_) + self.edgelabel_nsprefix_ = child_.prefix +# end class childnodeType + + +class edgelabel(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, edgelabel) + if subclass is not None: + return subclass(*args_, **kwargs_) + if edgelabel.subclass: + return edgelabel.subclass(*args_, **kwargs_) + else: + return edgelabel(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='edgelabel', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('edgelabel') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'edgelabel': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='edgelabel') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='edgelabel', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='edgelabel'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='edgelabel', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class edgelabel + + +class linkType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, external=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.external = _cast(None, external) + self.external_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, linkType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if linkType.subclass: + return linkType.subclass(*args_, **kwargs_) + else: + return linkType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_external(self): + return self.external + def set_external(self, external): + self.external = external + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='linkType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('linkType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'linkType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='linkType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='linkType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='linkType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.external is not None and 'external' not in already_processed: + already_processed.add('external') + outfile.write(' external=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.external), input_name='external')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='linkType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('external', node) + if value is not None and 'external' not in already_processed: + already_processed.add('external') + self.external = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class linkType + + +class listingType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, filename=None, codeline=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.filename = _cast(None, filename) + self.filename_nsprefix_ = None + if codeline is None: + self.codeline = [] + else: + self.codeline = codeline + self.codeline_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, listingType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if listingType.subclass: + return listingType.subclass(*args_, **kwargs_) + else: + return listingType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_codeline(self): + return self.codeline + def set_codeline(self, codeline): + self.codeline = codeline + def add_codeline(self, value): + self.codeline.append(value) + def insert_codeline_at(self, index, value): + self.codeline.insert(index, value) + def replace_codeline_at(self, index, value): + self.codeline[index] = value + def get_filename(self): + return self.filename + def set_filename(self, filename): + self.filename = filename + def hasContent_(self): + if ( + self.codeline + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='listingType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('listingType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'listingType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='listingType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='listingType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='listingType'): + if self.filename is not None and 'filename' not in already_processed: + already_processed.add('filename') + outfile.write(' filename=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.filename), input_name='filename')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='listingType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for codeline_ in self.codeline: + namespaceprefix_ = self.codeline_nsprefix_ + ':' if (UseCapturedNS_ and self.codeline_nsprefix_) else '' + codeline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='codeline', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('filename', node) + if value is not None and 'filename' not in already_processed: + already_processed.add('filename') + self.filename = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'codeline': + obj_ = codelineType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.codeline.append(obj_) + obj_.original_tagname_ = 'codeline' +# end class listingType + + +class codelineType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, lineno=None, refid=None, refkind=None, external=None, highlight=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.lineno = _cast(int, lineno) + self.lineno_nsprefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.refkind = _cast(None, refkind) + self.refkind_nsprefix_ = None + self.external = _cast(None, external) + self.external_nsprefix_ = None + if highlight is None: + self.highlight = [] + else: + self.highlight = highlight + self.highlight_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, codelineType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if codelineType.subclass: + return codelineType.subclass(*args_, **kwargs_) + else: + return codelineType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_highlight(self): + return self.highlight + def set_highlight(self, highlight): + self.highlight = highlight + def add_highlight(self, value): + self.highlight.append(value) + def insert_highlight_at(self, index, value): + self.highlight.insert(index, value) + def replace_highlight_at(self, index, value): + self.highlight[index] = value + def get_lineno(self): + return self.lineno + def set_lineno(self, lineno): + self.lineno = lineno + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_refkind(self): + return self.refkind + def set_refkind(self, refkind): + self.refkind = refkind + def get_external(self): + return self.external + def set_external(self, external): + self.external = external + def validate_DoxRefKind(self, value): + # Validate type DoxRefKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['compound', 'member'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxRefKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.highlight + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='codelineType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('codelineType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'codelineType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='codelineType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='codelineType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='codelineType'): + if self.lineno is not None and 'lineno' not in already_processed: + already_processed.add('lineno') + outfile.write(' lineno="%s"' % self.gds_format_integer(self.lineno, input_name='lineno')) + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.refkind is not None and 'refkind' not in already_processed: + already_processed.add('refkind') + outfile.write(' refkind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refkind), input_name='refkind')), )) + if self.external is not None and 'external' not in already_processed: + already_processed.add('external') + outfile.write(' external=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.external), input_name='external')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='codelineType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for highlight_ in self.highlight: + namespaceprefix_ = self.highlight_nsprefix_ + ':' if (UseCapturedNS_ and self.highlight_nsprefix_) else '' + highlight_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='highlight', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('lineno', node) + if value is not None and 'lineno' not in already_processed: + already_processed.add('lineno') + self.lineno = self.gds_parse_integer(value, node, 'lineno') + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('refkind', node) + if value is not None and 'refkind' not in already_processed: + already_processed.add('refkind') + self.refkind = value + self.validate_DoxRefKind(self.refkind) # validate type DoxRefKind + value = find_attr_value_('external', node) + if value is not None and 'external' not in already_processed: + already_processed.add('external') + self.external = value + self.validate_DoxBool(self.external) # validate type DoxBool + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'highlight': + obj_ = highlightType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.highlight.append(obj_) + obj_.original_tagname_ = 'highlight' +# end class codelineType + + +class highlightType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, class_=None, sp=None, ref=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.class_ = _cast(None, class_) + self.class__nsprefix_ = None + if sp is None: + self.sp = [] + else: + self.sp = sp + self.sp_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, highlightType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if highlightType.subclass: + return highlightType.subclass(*args_, **kwargs_) + else: + return highlightType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_sp(self): + return self.sp + def set_sp(self, sp): + self.sp = sp + def add_sp(self, value): + self.sp.append(value) + def insert_sp_at(self, index, value): + self.sp.insert(index, value) + def replace_sp_at(self, index, value): + self.sp[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_class(self): + return self.class_ + def set_class(self, class_): + self.class_ = class_ + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxHighlightClass(self, value): + # Validate type DoxHighlightClass, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['comment', 'normal', 'preprocessor', 'keyword', 'keywordtype', 'keywordflow', 'stringliteral', 'charliteral', 'vhdlkeyword', 'vhdllogic', 'vhdlchar', 'vhdldigit'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxHighlightClass' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.sp or + self.ref or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='highlightType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('highlightType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'highlightType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='highlightType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='highlightType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='highlightType'): + if self.class_ is not None and 'class_' not in already_processed: + already_processed.add('class_') + outfile.write(' class=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.class_), input_name='class')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='highlightType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for sp_ in self.sp: + namespaceprefix_ = self.sp_nsprefix_ + ':' if (UseCapturedNS_ and self.sp_nsprefix_) else '' + sp_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sp', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('class', node) + if value is not None and 'class' not in already_processed: + already_processed.add('class') + self.class_ = value + self.validate_DoxHighlightClass(self.class_) # validate type DoxHighlightClass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'sp': + obj_ = spType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sp', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sp'): + self.add_sp(obj_.value) + elif hasattr(self, 'set_sp'): + self.set_sp(obj_.value) + elif nodeName_ == 'ref': + obj_ = refTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class highlightType + + +class spType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, value=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.value = _cast(int, value) + self.value_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, spType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if spType.subclass: + return spType.subclass(*args_, **kwargs_) + else: + return spType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_value(self): + return self.value + def set_value(self, value): + self.value = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='spType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('spType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'spType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='spType') + outfile.write('>') + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_, pretty_print=pretty_print) + outfile.write(self.convert_unicode(self.valueOf_)) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='spType'): + if self.value is not None and 'value' not in already_processed: + already_processed.add('value') + outfile.write(' value="%s"' % self.gds_format_integer(self.value, input_name='value')) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='spType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('value', node) + if value is not None and 'value' not in already_processed: + already_processed.add('value') + self.value = self.gds_parse_integer(value, node, 'value') + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) + pass +# end class spType + + +class referenceType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, compoundref=None, startline=None, endline=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.compoundref = _cast(None, compoundref) + self.compoundref_nsprefix_ = None + self.startline = _cast(int, startline) + self.startline_nsprefix_ = None + self.endline = _cast(int, endline) + self.endline_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, referenceType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if referenceType.subclass: + return referenceType.subclass(*args_, **kwargs_) + else: + return referenceType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_compoundref(self): + return self.compoundref + def set_compoundref(self, compoundref): + self.compoundref = compoundref + def get_startline(self): + return self.startline + def set_startline(self, startline): + self.startline = startline + def get_endline(self): + return self.endline + def set_endline(self, endline): + self.endline = endline + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='referenceType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('referenceType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'referenceType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='referenceType') + outfile.write('>') + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_, pretty_print=pretty_print) + outfile.write(self.convert_unicode(self.valueOf_)) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='referenceType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.compoundref is not None and 'compoundref' not in already_processed: + already_processed.add('compoundref') + outfile.write(' compoundref=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.compoundref), input_name='compoundref')), )) + if self.startline is not None and 'startline' not in already_processed: + already_processed.add('startline') + outfile.write(' startline="%s"' % self.gds_format_integer(self.startline, input_name='startline')) + if self.endline is not None and 'endline' not in already_processed: + already_processed.add('endline') + outfile.write(' endline="%s"' % self.gds_format_integer(self.endline, input_name='endline')) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='referenceType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('compoundref', node) + if value is not None and 'compoundref' not in already_processed: + already_processed.add('compoundref') + self.compoundref = value + value = find_attr_value_('startline', node) + if value is not None and 'startline' not in already_processed: + already_processed.add('startline') + self.startline = self.gds_parse_integer(value, node, 'startline') + value = find_attr_value_('endline', node) + if value is not None and 'endline' not in already_processed: + already_processed.add('endline') + self.endline = self.gds_parse_integer(value, node, 'endline') + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) + pass +# end class referenceType + + +class locationType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, file=None, line=None, column=None, declfile=None, declline=None, declcolumn=None, bodyfile=None, bodystart=None, bodyend=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.file = _cast(None, file) + self.file_nsprefix_ = None + self.line = _cast(int, line) + self.line_nsprefix_ = None + self.column = _cast(int, column) + self.column_nsprefix_ = None + self.declfile = _cast(None, declfile) + self.declfile_nsprefix_ = None + self.declline = _cast(int, declline) + self.declline_nsprefix_ = None + self.declcolumn = _cast(int, declcolumn) + self.declcolumn_nsprefix_ = None + self.bodyfile = _cast(None, bodyfile) + self.bodyfile_nsprefix_ = None + self.bodystart = _cast(int, bodystart) + self.bodystart_nsprefix_ = None + self.bodyend = _cast(int, bodyend) + self.bodyend_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, locationType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if locationType.subclass: + return locationType.subclass(*args_, **kwargs_) + else: + return locationType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_file(self): + return self.file + def set_file(self, file): + self.file = file + def get_line(self): + return self.line + def set_line(self, line): + self.line = line + def get_column(self): + return self.column + def set_column(self, column): + self.column = column + def get_declfile(self): + return self.declfile + def set_declfile(self, declfile): + self.declfile = declfile + def get_declline(self): + return self.declline + def set_declline(self, declline): + self.declline = declline + def get_declcolumn(self): + return self.declcolumn + def set_declcolumn(self, declcolumn): + self.declcolumn = declcolumn + def get_bodyfile(self): + return self.bodyfile + def set_bodyfile(self, bodyfile): + self.bodyfile = bodyfile + def get_bodystart(self): + return self.bodystart + def set_bodystart(self, bodystart): + self.bodystart = bodystart + def get_bodyend(self): + return self.bodyend + def set_bodyend(self, bodyend): + self.bodyend = bodyend + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='locationType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('locationType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'locationType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='locationType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='locationType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='locationType'): + if self.file is not None and 'file' not in already_processed: + already_processed.add('file') + outfile.write(' file=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.file), input_name='file')), )) + if self.line is not None and 'line' not in already_processed: + already_processed.add('line') + outfile.write(' line="%s"' % self.gds_format_integer(self.line, input_name='line')) + if self.column is not None and 'column' not in already_processed: + already_processed.add('column') + outfile.write(' column="%s"' % self.gds_format_integer(self.column, input_name='column')) + if self.declfile is not None and 'declfile' not in already_processed: + already_processed.add('declfile') + outfile.write(' declfile=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.declfile), input_name='declfile')), )) + if self.declline is not None and 'declline' not in already_processed: + already_processed.add('declline') + outfile.write(' declline="%s"' % self.gds_format_integer(self.declline, input_name='declline')) + if self.declcolumn is not None and 'declcolumn' not in already_processed: + already_processed.add('declcolumn') + outfile.write(' declcolumn="%s"' % self.gds_format_integer(self.declcolumn, input_name='declcolumn')) + if self.bodyfile is not None and 'bodyfile' not in already_processed: + already_processed.add('bodyfile') + outfile.write(' bodyfile=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.bodyfile), input_name='bodyfile')), )) + if self.bodystart is not None and 'bodystart' not in already_processed: + already_processed.add('bodystart') + outfile.write(' bodystart="%s"' % self.gds_format_integer(self.bodystart, input_name='bodystart')) + if self.bodyend is not None and 'bodyend' not in already_processed: + already_processed.add('bodyend') + outfile.write(' bodyend="%s"' % self.gds_format_integer(self.bodyend, input_name='bodyend')) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='locationType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('file', node) + if value is not None and 'file' not in already_processed: + already_processed.add('file') + self.file = value + value = find_attr_value_('line', node) + if value is not None and 'line' not in already_processed: + already_processed.add('line') + self.line = self.gds_parse_integer(value, node, 'line') + value = find_attr_value_('column', node) + if value is not None and 'column' not in already_processed: + already_processed.add('column') + self.column = self.gds_parse_integer(value, node, 'column') + value = find_attr_value_('declfile', node) + if value is not None and 'declfile' not in already_processed: + already_processed.add('declfile') + self.declfile = value + value = find_attr_value_('declline', node) + if value is not None and 'declline' not in already_processed: + already_processed.add('declline') + self.declline = self.gds_parse_integer(value, node, 'declline') + value = find_attr_value_('declcolumn', node) + if value is not None and 'declcolumn' not in already_processed: + already_processed.add('declcolumn') + self.declcolumn = self.gds_parse_integer(value, node, 'declcolumn') + value = find_attr_value_('bodyfile', node) + if value is not None and 'bodyfile' not in already_processed: + already_processed.add('bodyfile') + self.bodyfile = value + value = find_attr_value_('bodystart', node) + if value is not None and 'bodystart' not in already_processed: + already_processed.add('bodystart') + self.bodystart = self.gds_parse_integer(value, node, 'bodystart') + value = find_attr_value_('bodyend', node) + if value is not None and 'bodyend' not in already_processed: + already_processed.add('bodyend') + self.bodyend = self.gds_parse_integer(value, node, 'bodyend') + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class locationType + + +class docSect1Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, title=None, para=None, internal=None, sect2=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.title = title + self.title_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if internal is None: + self.internal = [] + else: + self.internal = internal + self.internal_nsprefix_ = None + if sect2 is None: + self.sect2 = [] + else: + self.sect2 = sect2 + self.sect2_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docSect1Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docSect1Type.subclass: + return docSect1Type.subclass(*args_, **kwargs_) + else: + return docSect1Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_internal(self): + return self.internal + def set_internal(self, internal): + self.internal = internal + def add_internal(self, value): + self.internal.append(value) + def insert_internal_at(self, index, value): + self.internal.insert(index, value) + def replace_internal_at(self, index, value): + self.internal[index] = value + def get_sect2(self): + return self.sect2 + def set_sect2(self, sect2): + self.sect2 = sect2 + def add_sect2(self, value): + self.sect2.append(value) + def insert_sect2_at(self, index, value): + self.sect2.insert(index, value) + def replace_sect2_at(self, index, value): + self.sect2[index] = value + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.title is not None or + self.para or + self.internal or + self.sect2 or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect1Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docSect1Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docSect1Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docSect1Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docSect1Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docSect1Type'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect1Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%stitle>%s</%stitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.title), input_name='title')), namespaceprefix_ , eol_)) + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for internal_ in self.internal: + namespaceprefix_ = self.internal_nsprefix_ + ':' if (UseCapturedNS_ and self.internal_nsprefix_) else '' + internal_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='internal', pretty_print=pretty_print) + for sect2_ in self.sect2: + namespaceprefix_ = self.sect2_nsprefix_ + ':' if (UseCapturedNS_ and self.sect2_nsprefix_) else '' + sect2_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect2', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'title' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'title') + valuestr_ = self.gds_validate_string(valuestr_, node, 'title') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'title', valuestr_) + self.content_.append(obj_) + self.title_nsprefix_ = child_.prefix + elif nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'internal': + obj_ = docInternalS1Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'internal', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_internal'): + self.add_internal(obj_.value) + elif hasattr(self, 'set_internal'): + self.set_internal(obj_.value) + elif nodeName_ == 'sect2': + obj_ = docSect2Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect2', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect2'): + self.add_sect2(obj_.value) + elif hasattr(self, 'set_sect2'): + self.set_sect2(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docSect1Type + + +class docSect2Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, title=None, para=None, sect3=None, internal=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.title = title + self.title_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect3 is None: + self.sect3 = [] + else: + self.sect3 = sect3 + self.sect3_nsprefix_ = None + if internal is None: + self.internal = [] + else: + self.internal = internal + self.internal_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docSect2Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docSect2Type.subclass: + return docSect2Type.subclass(*args_, **kwargs_) + else: + return docSect2Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect3(self): + return self.sect3 + def set_sect3(self, sect3): + self.sect3 = sect3 + def add_sect3(self, value): + self.sect3.append(value) + def insert_sect3_at(self, index, value): + self.sect3.insert(index, value) + def replace_sect3_at(self, index, value): + self.sect3[index] = value + def get_internal(self): + return self.internal + def set_internal(self, internal): + self.internal = internal + def add_internal(self, value): + self.internal.append(value) + def insert_internal_at(self, index, value): + self.internal.insert(index, value) + def replace_internal_at(self, index, value): + self.internal[index] = value + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.title is not None or + self.para or + self.sect3 or + self.internal or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect2Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docSect2Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docSect2Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docSect2Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docSect2Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docSect2Type'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect2Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%stitle>%s</%stitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.title), input_name='title')), namespaceprefix_ , eol_)) + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect3_ in self.sect3: + namespaceprefix_ = self.sect3_nsprefix_ + ':' if (UseCapturedNS_ and self.sect3_nsprefix_) else '' + sect3_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect3', pretty_print=pretty_print) + for internal_ in self.internal: + namespaceprefix_ = self.internal_nsprefix_ + ':' if (UseCapturedNS_ and self.internal_nsprefix_) else '' + internal_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='internal', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'title' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'title') + valuestr_ = self.gds_validate_string(valuestr_, node, 'title') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'title', valuestr_) + self.content_.append(obj_) + self.title_nsprefix_ = child_.prefix + elif nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'sect3': + obj_ = docSect3Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect3', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect3'): + self.add_sect3(obj_.value) + elif hasattr(self, 'set_sect3'): + self.set_sect3(obj_.value) + elif nodeName_ == 'internal': + obj_ = docInternalS2Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'internal', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_internal'): + self.add_internal(obj_.value) + elif hasattr(self, 'set_internal'): + self.set_internal(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docSect2Type + + +class docSect3Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, title=None, para=None, sect4=None, internal=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.title = title + self.title_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect4 is None: + self.sect4 = [] + else: + self.sect4 = sect4 + self.sect4_nsprefix_ = None + if internal is None: + self.internal = [] + else: + self.internal = internal + self.internal_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docSect3Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docSect3Type.subclass: + return docSect3Type.subclass(*args_, **kwargs_) + else: + return docSect3Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect4(self): + return self.sect4 + def set_sect4(self, sect4): + self.sect4 = sect4 + def add_sect4(self, value): + self.sect4.append(value) + def insert_sect4_at(self, index, value): + self.sect4.insert(index, value) + def replace_sect4_at(self, index, value): + self.sect4[index] = value + def get_internal(self): + return self.internal + def set_internal(self, internal): + self.internal = internal + def add_internal(self, value): + self.internal.append(value) + def insert_internal_at(self, index, value): + self.internal.insert(index, value) + def replace_internal_at(self, index, value): + self.internal[index] = value + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.title is not None or + self.para or + self.sect4 or + self.internal or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect3Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docSect3Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docSect3Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docSect3Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docSect3Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docSect3Type'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect3Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%stitle>%s</%stitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.title), input_name='title')), namespaceprefix_ , eol_)) + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect4_ in self.sect4: + namespaceprefix_ = self.sect4_nsprefix_ + ':' if (UseCapturedNS_ and self.sect4_nsprefix_) else '' + sect4_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect4', pretty_print=pretty_print) + for internal_ in self.internal: + namespaceprefix_ = self.internal_nsprefix_ + ':' if (UseCapturedNS_ and self.internal_nsprefix_) else '' + internal_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='internal', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'title' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'title') + valuestr_ = self.gds_validate_string(valuestr_, node, 'title') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'title', valuestr_) + self.content_.append(obj_) + self.title_nsprefix_ = child_.prefix + elif nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'sect4': + obj_ = docSect4Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect4', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect4'): + self.add_sect4(obj_.value) + elif hasattr(self, 'set_sect4'): + self.set_sect4(obj_.value) + elif nodeName_ == 'internal': + obj_ = docInternalS3Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'internal', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_internal'): + self.add_internal(obj_.value) + elif hasattr(self, 'set_internal'): + self.set_internal(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docSect3Type + + +class docSect4Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, title=None, para=None, internal=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.title = title + self.title_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if internal is None: + self.internal = [] + else: + self.internal = internal + self.internal_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docSect4Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docSect4Type.subclass: + return docSect4Type.subclass(*args_, **kwargs_) + else: + return docSect4Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_internal(self): + return self.internal + def set_internal(self, internal): + self.internal = internal + def add_internal(self, value): + self.internal.append(value) + def insert_internal_at(self, index, value): + self.internal.insert(index, value) + def replace_internal_at(self, index, value): + self.internal[index] = value + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.title is not None or + self.para or + self.internal or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect4Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docSect4Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docSect4Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docSect4Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docSect4Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docSect4Type'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSect4Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%stitle>%s</%stitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.title), input_name='title')), namespaceprefix_ , eol_)) + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for internal_ in self.internal: + namespaceprefix_ = self.internal_nsprefix_ + ':' if (UseCapturedNS_ and self.internal_nsprefix_) else '' + internal_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='internal', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'title' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'title') + valuestr_ = self.gds_validate_string(valuestr_, node, 'title') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'title', valuestr_) + self.content_.append(obj_) + self.title_nsprefix_ = child_.prefix + elif nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'internal': + obj_ = docInternalS4Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'internal', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_internal'): + self.add_internal(obj_.value) + elif hasattr(self, 'set_internal'): + self.set_internal(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docSect4Type + + +class docInternalType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, sect1=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect1 is None: + self.sect1 = [] + else: + self.sect1 = sect1 + self.sect1_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docInternalType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docInternalType.subclass: + return docInternalType.subclass(*args_, **kwargs_) + else: + return docInternalType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect1(self): + return self.sect1 + def set_sect1(self, sect1): + self.sect1 = sect1 + def add_sect1(self, value): + self.sect1.append(value) + def insert_sect1_at(self, index, value): + self.sect1.insert(index, value) + def replace_sect1_at(self, index, value): + self.sect1[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.para or + self.sect1 or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docInternalType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docInternalType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docInternalType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docInternalType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docInternalType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect1_ in self.sect1: + namespaceprefix_ = self.sect1_nsprefix_ + ':' if (UseCapturedNS_ and self.sect1_nsprefix_) else '' + sect1_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect1', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'sect1': + obj_ = docSect1Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect1', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect1'): + self.add_sect1(obj_.value) + elif hasattr(self, 'set_sect1'): + self.set_sect1(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docInternalType + + +class docInternalS1Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, sect2=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect2 is None: + self.sect2 = [] + else: + self.sect2 = sect2 + self.sect2_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docInternalS1Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docInternalS1Type.subclass: + return docInternalS1Type.subclass(*args_, **kwargs_) + else: + return docInternalS1Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect2(self): + return self.sect2 + def set_sect2(self, sect2): + self.sect2 = sect2 + def add_sect2(self, value): + self.sect2.append(value) + def insert_sect2_at(self, index, value): + self.sect2.insert(index, value) + def replace_sect2_at(self, index, value): + self.sect2[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.para or + self.sect2 or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS1Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docInternalS1Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docInternalS1Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docInternalS1Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docInternalS1Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docInternalS1Type'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS1Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect2_ in self.sect2: + namespaceprefix_ = self.sect2_nsprefix_ + ':' if (UseCapturedNS_ and self.sect2_nsprefix_) else '' + sect2_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect2', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'sect2': + obj_ = docSect2Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect2', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect2'): + self.add_sect2(obj_.value) + elif hasattr(self, 'set_sect2'): + self.set_sect2(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docInternalS1Type + + +class docInternalS2Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, sect3=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect3 is None: + self.sect3 = [] + else: + self.sect3 = sect3 + self.sect3_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docInternalS2Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docInternalS2Type.subclass: + return docInternalS2Type.subclass(*args_, **kwargs_) + else: + return docInternalS2Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect3(self): + return self.sect3 + def set_sect3(self, sect3): + self.sect3 = sect3 + def add_sect3(self, value): + self.sect3.append(value) + def insert_sect3_at(self, index, value): + self.sect3.insert(index, value) + def replace_sect3_at(self, index, value): + self.sect3[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.para or + self.sect3 or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS2Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docInternalS2Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docInternalS2Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docInternalS2Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docInternalS2Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docInternalS2Type'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS2Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect3_ in self.sect3: + namespaceprefix_ = self.sect3_nsprefix_ + ':' if (UseCapturedNS_ and self.sect3_nsprefix_) else '' + sect3_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect3', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'sect3': + obj_ = docSect3Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect3', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect3'): + self.add_sect3(obj_.value) + elif hasattr(self, 'set_sect3'): + self.set_sect3(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docInternalS2Type + + +class docInternalS3Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, sect3=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect3 is None: + self.sect3 = [] + else: + self.sect3 = sect3 + self.sect3_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docInternalS3Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docInternalS3Type.subclass: + return docInternalS3Type.subclass(*args_, **kwargs_) + else: + return docInternalS3Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect3(self): + return self.sect3 + def set_sect3(self, sect3): + self.sect3 = sect3 + def add_sect3(self, value): + self.sect3.append(value) + def insert_sect3_at(self, index, value): + self.sect3.insert(index, value) + def replace_sect3_at(self, index, value): + self.sect3[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.para or + self.sect3 or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS3Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docInternalS3Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docInternalS3Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docInternalS3Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docInternalS3Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docInternalS3Type'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS3Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect3_ in self.sect3: + namespaceprefix_ = self.sect3_nsprefix_ + ':' if (UseCapturedNS_ and self.sect3_nsprefix_) else '' + sect3_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect3', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + elif nodeName_ == 'sect3': + obj_ = docSect4Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'sect3', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_sect3'): + self.add_sect3(obj_.value) + elif hasattr(self, 'set_sect3'): + self.set_sect3(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docInternalS3Type + + +class docInternalS4Type(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docInternalS4Type) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docInternalS4Type.subclass: + return docInternalS4Type.subclass(*args_, **kwargs_) + else: + return docInternalS4Type(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.para or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS4Type', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docInternalS4Type') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docInternalS4Type': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docInternalS4Type') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docInternalS4Type', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docInternalS4Type'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docInternalS4Type', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'para', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_para'): + self.add_para(obj_.value) + elif hasattr(self, 'set_para'): + self.set_para(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docInternalS4Type + + +class docTitleType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docTitleType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docTitleType.subclass: + return docTitleType.subclass(*args_, **kwargs_) + else: + return docTitleType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTitleType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docTitleType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docTitleType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docTitleType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docTitleType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docTitleType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTitleType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docTitleType + + +class docParaType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, hruler=None, preformatted=None, programlisting=None, verbatim=None, indexentry=None, orderedlist=None, itemizedlist=None, simplesect=None, title=None, variablelist=None, table=None, heading=None, dotfile=None, mscfile=None, diafile=None, toclist=None, language=None, parameterlist=None, xrefsect=None, copydoc=None, blockquote=None, parblock=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + if hruler is None: + self.hruler = [] + else: + self.hruler = hruler + self.hruler_nsprefix_ = None + if preformatted is None: + self.preformatted = [] + else: + self.preformatted = preformatted + self.preformatted_nsprefix_ = None + if programlisting is None: + self.programlisting = [] + else: + self.programlisting = programlisting + self.programlisting_nsprefix_ = None + if verbatim is None: + self.verbatim = [] + else: + self.verbatim = verbatim + self.verbatim_nsprefix_ = None + if indexentry is None: + self.indexentry = [] + else: + self.indexentry = indexentry + self.indexentry_nsprefix_ = None + if orderedlist is None: + self.orderedlist = [] + else: + self.orderedlist = orderedlist + self.orderedlist_nsprefix_ = None + if itemizedlist is None: + self.itemizedlist = [] + else: + self.itemizedlist = itemizedlist + self.itemizedlist_nsprefix_ = None + if simplesect is None: + self.simplesect = [] + else: + self.simplesect = simplesect + self.simplesect_nsprefix_ = None + if title is None: + self.title = [] + else: + self.title = title + self.title_nsprefix_ = None + if variablelist is None: + self.variablelist = [] + else: + self.variablelist = variablelist + self.variablelist_nsprefix_ = None + if table is None: + self.table = [] + else: + self.table = table + self.table_nsprefix_ = None + if heading is None: + self.heading = [] + else: + self.heading = heading + self.heading_nsprefix_ = None + if dotfile is None: + self.dotfile = [] + else: + self.dotfile = dotfile + self.dotfile_nsprefix_ = None + if mscfile is None: + self.mscfile = [] + else: + self.mscfile = mscfile + self.mscfile_nsprefix_ = None + if diafile is None: + self.diafile = [] + else: + self.diafile = diafile + self.diafile_nsprefix_ = None + if toclist is None: + self.toclist = [] + else: + self.toclist = toclist + self.toclist_nsprefix_ = None + if language is None: + self.language = [] + else: + self.language = language + self.language_nsprefix_ = None + if parameterlist is None: + self.parameterlist = [] + else: + self.parameterlist = parameterlist + self.parameterlist_nsprefix_ = None + if xrefsect is None: + self.xrefsect = [] + else: + self.xrefsect = xrefsect + self.xrefsect_nsprefix_ = None + if copydoc is None: + self.copydoc = [] + else: + self.copydoc = copydoc + self.copydoc_nsprefix_ = None + if blockquote is None: + self.blockquote = [] + else: + self.blockquote = blockquote + self.blockquote_nsprefix_ = None + if parblock is None: + self.parblock = [] + else: + self.parblock = parblock + self.parblock_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParaType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParaType.subclass: + return docParaType.subclass(*args_, **kwargs_) + else: + return docParaType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_hruler(self): + return self.hruler + def set_hruler(self, hruler): + self.hruler = hruler + def add_hruler(self, value): + self.hruler.append(value) + def insert_hruler_at(self, index, value): + self.hruler.insert(index, value) + def replace_hruler_at(self, index, value): + self.hruler[index] = value + def get_preformatted(self): + return self.preformatted + def set_preformatted(self, preformatted): + self.preformatted = preformatted + def add_preformatted(self, value): + self.preformatted.append(value) + def insert_preformatted_at(self, index, value): + self.preformatted.insert(index, value) + def replace_preformatted_at(self, index, value): + self.preformatted[index] = value + def get_programlisting(self): + return self.programlisting + def set_programlisting(self, programlisting): + self.programlisting = programlisting + def add_programlisting(self, value): + self.programlisting.append(value) + def insert_programlisting_at(self, index, value): + self.programlisting.insert(index, value) + def replace_programlisting_at(self, index, value): + self.programlisting[index] = value + def get_verbatim(self): + return self.verbatim + def set_verbatim(self, verbatim): + self.verbatim = verbatim + def add_verbatim(self, value): + self.verbatim.append(value) + def insert_verbatim_at(self, index, value): + self.verbatim.insert(index, value) + def replace_verbatim_at(self, index, value): + self.verbatim[index] = value + def get_indexentry(self): + return self.indexentry + def set_indexentry(self, indexentry): + self.indexentry = indexentry + def add_indexentry(self, value): + self.indexentry.append(value) + def insert_indexentry_at(self, index, value): + self.indexentry.insert(index, value) + def replace_indexentry_at(self, index, value): + self.indexentry[index] = value + def get_orderedlist(self): + return self.orderedlist + def set_orderedlist(self, orderedlist): + self.orderedlist = orderedlist + def add_orderedlist(self, value): + self.orderedlist.append(value) + def insert_orderedlist_at(self, index, value): + self.orderedlist.insert(index, value) + def replace_orderedlist_at(self, index, value): + self.orderedlist[index] = value + def get_itemizedlist(self): + return self.itemizedlist + def set_itemizedlist(self, itemizedlist): + self.itemizedlist = itemizedlist + def add_itemizedlist(self, value): + self.itemizedlist.append(value) + def insert_itemizedlist_at(self, index, value): + self.itemizedlist.insert(index, value) + def replace_itemizedlist_at(self, index, value): + self.itemizedlist[index] = value + def get_simplesect(self): + return self.simplesect + def set_simplesect(self, simplesect): + self.simplesect = simplesect + def add_simplesect(self, value): + self.simplesect.append(value) + def insert_simplesect_at(self, index, value): + self.simplesect.insert(index, value) + def replace_simplesect_at(self, index, value): + self.simplesect[index] = value + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def add_title(self, value): + self.title.append(value) + def insert_title_at(self, index, value): + self.title.insert(index, value) + def replace_title_at(self, index, value): + self.title[index] = value + def get_variablelist(self): + return self.variablelist + def set_variablelist(self, variablelist): + self.variablelist = variablelist + def add_variablelist(self, value): + self.variablelist.append(value) + def insert_variablelist_at(self, index, value): + self.variablelist.insert(index, value) + def replace_variablelist_at(self, index, value): + self.variablelist[index] = value + def get_table(self): + return self.table + def set_table(self, table): + self.table = table + def add_table(self, value): + self.table.append(value) + def insert_table_at(self, index, value): + self.table.insert(index, value) + def replace_table_at(self, index, value): + self.table[index] = value + def get_heading(self): + return self.heading + def set_heading(self, heading): + self.heading = heading + def add_heading(self, value): + self.heading.append(value) + def insert_heading_at(self, index, value): + self.heading.insert(index, value) + def replace_heading_at(self, index, value): + self.heading[index] = value + def get_dotfile(self): + return self.dotfile + def set_dotfile(self, dotfile): + self.dotfile = dotfile + def add_dotfile(self, value): + self.dotfile.append(value) + def insert_dotfile_at(self, index, value): + self.dotfile.insert(index, value) + def replace_dotfile_at(self, index, value): + self.dotfile[index] = value + def get_mscfile(self): + return self.mscfile + def set_mscfile(self, mscfile): + self.mscfile = mscfile + def add_mscfile(self, value): + self.mscfile.append(value) + def insert_mscfile_at(self, index, value): + self.mscfile.insert(index, value) + def replace_mscfile_at(self, index, value): + self.mscfile[index] = value + def get_diafile(self): + return self.diafile + def set_diafile(self, diafile): + self.diafile = diafile + def add_diafile(self, value): + self.diafile.append(value) + def insert_diafile_at(self, index, value): + self.diafile.insert(index, value) + def replace_diafile_at(self, index, value): + self.diafile[index] = value + def get_toclist(self): + return self.toclist + def set_toclist(self, toclist): + self.toclist = toclist + def add_toclist(self, value): + self.toclist.append(value) + def insert_toclist_at(self, index, value): + self.toclist.insert(index, value) + def replace_toclist_at(self, index, value): + self.toclist[index] = value + def get_language(self): + return self.language + def set_language(self, language): + self.language = language + def add_language(self, value): + self.language.append(value) + def insert_language_at(self, index, value): + self.language.insert(index, value) + def replace_language_at(self, index, value): + self.language[index] = value + def get_parameterlist(self): + return self.parameterlist + def set_parameterlist(self, parameterlist): + self.parameterlist = parameterlist + def add_parameterlist(self, value): + self.parameterlist.append(value) + def insert_parameterlist_at(self, index, value): + self.parameterlist.insert(index, value) + def replace_parameterlist_at(self, index, value): + self.parameterlist[index] = value + def get_xrefsect(self): + return self.xrefsect + def set_xrefsect(self, xrefsect): + self.xrefsect = xrefsect + def add_xrefsect(self, value): + self.xrefsect.append(value) + def insert_xrefsect_at(self, index, value): + self.xrefsect.insert(index, value) + def replace_xrefsect_at(self, index, value): + self.xrefsect[index] = value + def get_copydoc(self): + return self.copydoc + def set_copydoc(self, copydoc): + self.copydoc = copydoc + def add_copydoc(self, value): + self.copydoc.append(value) + def insert_copydoc_at(self, index, value): + self.copydoc.insert(index, value) + def replace_copydoc_at(self, index, value): + self.copydoc[index] = value + def get_blockquote(self): + return self.blockquote + def set_blockquote(self, blockquote): + self.blockquote = blockquote + def add_blockquote(self, value): + self.blockquote.append(value) + def insert_blockquote_at(self, index, value): + self.blockquote.insert(index, value) + def replace_blockquote_at(self, index, value): + self.blockquote[index] = value + def get_parblock(self): + return self.parblock + def set_parblock(self, parblock): + self.parblock = parblock + def add_parblock(self, value): + self.parblock.append(value) + def insert_parblock_at(self, index, value): + self.parblock.insert(index, value) + def replace_parblock_at(self, index, value): + self.parblock[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + self.hruler or + self.preformatted or + self.programlisting or + self.verbatim or + self.indexentry or + self.orderedlist or + self.itemizedlist or + self.simplesect or + self.title or + self.variablelist or + self.table or + self.heading or + self.dotfile or + self.mscfile or + self.diafile or + self.toclist or + self.language or + self.parameterlist or + self.xrefsect or + self.copydoc or + self.blockquote or + self.parblock or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParaType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParaType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParaType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParaType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParaType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParaType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParaType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + for hruler_ in self.hruler: + namespaceprefix_ = self.hruler_nsprefix_ + ':' if (UseCapturedNS_ and self.hruler_nsprefix_) else '' + hruler_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='hruler', pretty_print=pretty_print) + for preformatted_ in self.preformatted: + namespaceprefix_ = self.preformatted_nsprefix_ + ':' if (UseCapturedNS_ and self.preformatted_nsprefix_) else '' + preformatted_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='preformatted', pretty_print=pretty_print) + for programlisting_ in self.programlisting: + namespaceprefix_ = self.programlisting_nsprefix_ + ':' if (UseCapturedNS_ and self.programlisting_nsprefix_) else '' + programlisting_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='programlisting', pretty_print=pretty_print) + for verbatim_ in self.verbatim: + namespaceprefix_ = self.verbatim_nsprefix_ + ':' if (UseCapturedNS_ and self.verbatim_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sverbatim>%s</%sverbatim>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(verbatim_), input_name='verbatim')), namespaceprefix_ , eol_)) + for indexentry_ in self.indexentry: + namespaceprefix_ = self.indexentry_nsprefix_ + ':' if (UseCapturedNS_ and self.indexentry_nsprefix_) else '' + indexentry_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='indexentry', pretty_print=pretty_print) + for orderedlist_ in self.orderedlist: + namespaceprefix_ = self.orderedlist_nsprefix_ + ':' if (UseCapturedNS_ and self.orderedlist_nsprefix_) else '' + orderedlist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='orderedlist', pretty_print=pretty_print) + for itemizedlist_ in self.itemizedlist: + namespaceprefix_ = self.itemizedlist_nsprefix_ + ':' if (UseCapturedNS_ and self.itemizedlist_nsprefix_) else '' + itemizedlist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='itemizedlist', pretty_print=pretty_print) + for simplesect_ in self.simplesect: + namespaceprefix_ = self.simplesect_nsprefix_ + ':' if (UseCapturedNS_ and self.simplesect_nsprefix_) else '' + simplesect_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='simplesect', pretty_print=pretty_print) + for title_ in self.title: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + title_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='title', pretty_print=pretty_print) + for variablelist_ in self.variablelist: + namespaceprefix_ = self.variablelist_nsprefix_ + ':' if (UseCapturedNS_ and self.variablelist_nsprefix_) else '' + variablelist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='variablelist', pretty_print=pretty_print) + for table_ in self.table: + namespaceprefix_ = self.table_nsprefix_ + ':' if (UseCapturedNS_ and self.table_nsprefix_) else '' + table_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='table', pretty_print=pretty_print) + for heading_ in self.heading: + namespaceprefix_ = self.heading_nsprefix_ + ':' if (UseCapturedNS_ and self.heading_nsprefix_) else '' + heading_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='heading', pretty_print=pretty_print) + for dotfile_ in self.dotfile: + namespaceprefix_ = self.dotfile_nsprefix_ + ':' if (UseCapturedNS_ and self.dotfile_nsprefix_) else '' + dotfile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dotfile', pretty_print=pretty_print) + for mscfile_ in self.mscfile: + namespaceprefix_ = self.mscfile_nsprefix_ + ':' if (UseCapturedNS_ and self.mscfile_nsprefix_) else '' + mscfile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='mscfile', pretty_print=pretty_print) + for diafile_ in self.diafile: + namespaceprefix_ = self.diafile_nsprefix_ + ':' if (UseCapturedNS_ and self.diafile_nsprefix_) else '' + diafile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='diafile', pretty_print=pretty_print) + for toclist_ in self.toclist: + namespaceprefix_ = self.toclist_nsprefix_ + ':' if (UseCapturedNS_ and self.toclist_nsprefix_) else '' + toclist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='toclist', pretty_print=pretty_print) + for language_ in self.language: + namespaceprefix_ = self.language_nsprefix_ + ':' if (UseCapturedNS_ and self.language_nsprefix_) else '' + language_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='language', pretty_print=pretty_print) + for parameterlist_ in self.parameterlist: + namespaceprefix_ = self.parameterlist_nsprefix_ + ':' if (UseCapturedNS_ and self.parameterlist_nsprefix_) else '' + parameterlist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parameterlist', pretty_print=pretty_print) + for xrefsect_ in self.xrefsect: + namespaceprefix_ = self.xrefsect_nsprefix_ + ':' if (UseCapturedNS_ and self.xrefsect_nsprefix_) else '' + xrefsect_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='xrefsect', pretty_print=pretty_print) + for copydoc_ in self.copydoc: + namespaceprefix_ = self.copydoc_nsprefix_ + ':' if (UseCapturedNS_ and self.copydoc_nsprefix_) else '' + copydoc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='copydoc', pretty_print=pretty_print) + for blockquote_ in self.blockquote: + namespaceprefix_ = self.blockquote_nsprefix_ + ':' if (UseCapturedNS_ and self.blockquote_nsprefix_) else '' + blockquote_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='blockquote', pretty_print=pretty_print) + for parblock_ in self.parblock: + namespaceprefix_ = self.parblock_nsprefix_ + ':' if (UseCapturedNS_ and self.parblock_nsprefix_) else '' + parblock_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parblock', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + elif nodeName_ == 'hruler': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'hruler', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_hruler'): + self.add_hruler(obj_.value) + elif hasattr(self, 'set_hruler'): + self.set_hruler(obj_.value) + elif nodeName_ == 'preformatted': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'preformatted', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_preformatted'): + self.add_preformatted(obj_.value) + elif hasattr(self, 'set_preformatted'): + self.set_preformatted(obj_.value) + elif nodeName_ == 'programlisting': + obj_ = listingType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'programlisting', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_programlisting'): + self.add_programlisting(obj_.value) + elif hasattr(self, 'set_programlisting'): + self.set_programlisting(obj_.value) + elif nodeName_ == 'verbatim' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'verbatim') + valuestr_ = self.gds_validate_string(valuestr_, node, 'verbatim') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'verbatim', valuestr_) + self.content_.append(obj_) + self.verbatim_nsprefix_ = child_.prefix + elif nodeName_ == 'indexentry': + obj_ = docIndexEntryType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'indexentry', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_indexentry'): + self.add_indexentry(obj_.value) + elif hasattr(self, 'set_indexentry'): + self.set_indexentry(obj_.value) + elif nodeName_ == 'orderedlist': + obj_ = docListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'orderedlist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_orderedlist'): + self.add_orderedlist(obj_.value) + elif hasattr(self, 'set_orderedlist'): + self.set_orderedlist(obj_.value) + elif nodeName_ == 'itemizedlist': + obj_ = docListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'itemizedlist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_itemizedlist'): + self.add_itemizedlist(obj_.value) + elif hasattr(self, 'set_itemizedlist'): + self.set_itemizedlist(obj_.value) + elif nodeName_ == 'simplesect': + obj_ = docSimpleSectType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'simplesect', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_simplesect'): + self.add_simplesect(obj_.value) + elif hasattr(self, 'set_simplesect'): + self.set_simplesect(obj_.value) + elif nodeName_ == 'title': + obj_ = docTitleType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'title', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_title'): + self.add_title(obj_.value) + elif hasattr(self, 'set_title'): + self.set_title(obj_.value) + elif nodeName_ == 'variablelist': + obj_ = docVariableListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'variablelist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_variablelist'): + self.add_variablelist(obj_.value) + elif hasattr(self, 'set_variablelist'): + self.set_variablelist(obj_.value) + elif nodeName_ == 'table': + obj_ = docTableType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'table', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_table'): + self.add_table(obj_.value) + elif hasattr(self, 'set_table'): + self.set_table(obj_.value) + elif nodeName_ == 'heading': + obj_ = docHeadingType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'heading', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_heading'): + self.add_heading(obj_.value) + elif hasattr(self, 'set_heading'): + self.set_heading(obj_.value) + elif nodeName_ == 'dotfile': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dotfile', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dotfile'): + self.add_dotfile(obj_.value) + elif hasattr(self, 'set_dotfile'): + self.set_dotfile(obj_.value) + elif nodeName_ == 'mscfile': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'mscfile', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_mscfile'): + self.add_mscfile(obj_.value) + elif hasattr(self, 'set_mscfile'): + self.set_mscfile(obj_.value) + elif nodeName_ == 'diafile': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'diafile', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_diafile'): + self.add_diafile(obj_.value) + elif hasattr(self, 'set_diafile'): + self.set_diafile(obj_.value) + elif nodeName_ == 'toclist': + obj_ = docTocListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'toclist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_toclist'): + self.add_toclist(obj_.value) + elif hasattr(self, 'set_toclist'): + self.set_toclist(obj_.value) + elif nodeName_ == 'language': + obj_ = docLanguageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'language', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_language'): + self.add_language(obj_.value) + elif hasattr(self, 'set_language'): + self.set_language(obj_.value) + elif nodeName_ == 'parameterlist': + obj_ = docParamListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'parameterlist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_parameterlist'): + self.add_parameterlist(obj_.value) + elif hasattr(self, 'set_parameterlist'): + self.set_parameterlist(obj_.value) + elif nodeName_ == 'xrefsect': + obj_ = docXRefSectType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'xrefsect', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_xrefsect'): + self.add_xrefsect(obj_.value) + elif hasattr(self, 'set_xrefsect'): + self.set_xrefsect(obj_.value) + elif nodeName_ == 'copydoc': + obj_ = docCopyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'copydoc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_copydoc'): + self.add_copydoc(obj_.value) + elif hasattr(self, 'set_copydoc'): + self.set_copydoc(obj_.value) + elif nodeName_ == 'blockquote': + obj_ = docBlockQuoteType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'blockquote', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_blockquote'): + self.add_blockquote(obj_.value) + elif hasattr(self, 'set_blockquote'): + self.set_blockquote(obj_.value) + elif nodeName_ == 'parblock': + obj_ = docParBlockType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'parblock', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_parblock'): + self.add_parblock(obj_.value) + elif hasattr(self, 'set_parblock'): + self.set_parblock(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docParaType + + +class docMarkupType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, hruler=None, preformatted=None, programlisting=None, verbatim=None, indexentry=None, orderedlist=None, itemizedlist=None, simplesect=None, title=None, variablelist=None, table=None, heading=None, dotfile=None, mscfile=None, diafile=None, toclist=None, language=None, parameterlist=None, xrefsect=None, copydoc=None, blockquote=None, parblock=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + if hruler is None: + self.hruler = [] + else: + self.hruler = hruler + self.hruler_nsprefix_ = None + if preformatted is None: + self.preformatted = [] + else: + self.preformatted = preformatted + self.preformatted_nsprefix_ = None + if programlisting is None: + self.programlisting = [] + else: + self.programlisting = programlisting + self.programlisting_nsprefix_ = None + if verbatim is None: + self.verbatim = [] + else: + self.verbatim = verbatim + self.verbatim_nsprefix_ = None + if indexentry is None: + self.indexentry = [] + else: + self.indexentry = indexentry + self.indexentry_nsprefix_ = None + if orderedlist is None: + self.orderedlist = [] + else: + self.orderedlist = orderedlist + self.orderedlist_nsprefix_ = None + if itemizedlist is None: + self.itemizedlist = [] + else: + self.itemizedlist = itemizedlist + self.itemizedlist_nsprefix_ = None + if simplesect is None: + self.simplesect = [] + else: + self.simplesect = simplesect + self.simplesect_nsprefix_ = None + if title is None: + self.title = [] + else: + self.title = title + self.title_nsprefix_ = None + if variablelist is None: + self.variablelist = [] + else: + self.variablelist = variablelist + self.variablelist_nsprefix_ = None + if table is None: + self.table = [] + else: + self.table = table + self.table_nsprefix_ = None + if heading is None: + self.heading = [] + else: + self.heading = heading + self.heading_nsprefix_ = None + if dotfile is None: + self.dotfile = [] + else: + self.dotfile = dotfile + self.dotfile_nsprefix_ = None + if mscfile is None: + self.mscfile = [] + else: + self.mscfile = mscfile + self.mscfile_nsprefix_ = None + if diafile is None: + self.diafile = [] + else: + self.diafile = diafile + self.diafile_nsprefix_ = None + if toclist is None: + self.toclist = [] + else: + self.toclist = toclist + self.toclist_nsprefix_ = None + if language is None: + self.language = [] + else: + self.language = language + self.language_nsprefix_ = None + if parameterlist is None: + self.parameterlist = [] + else: + self.parameterlist = parameterlist + self.parameterlist_nsprefix_ = None + if xrefsect is None: + self.xrefsect = [] + else: + self.xrefsect = xrefsect + self.xrefsect_nsprefix_ = None + if copydoc is None: + self.copydoc = [] + else: + self.copydoc = copydoc + self.copydoc_nsprefix_ = None + if blockquote is None: + self.blockquote = [] + else: + self.blockquote = blockquote + self.blockquote_nsprefix_ = None + if parblock is None: + self.parblock = [] + else: + self.parblock = parblock + self.parblock_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docMarkupType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docMarkupType.subclass: + return docMarkupType.subclass(*args_, **kwargs_) + else: + return docMarkupType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_hruler(self): + return self.hruler + def set_hruler(self, hruler): + self.hruler = hruler + def add_hruler(self, value): + self.hruler.append(value) + def insert_hruler_at(self, index, value): + self.hruler.insert(index, value) + def replace_hruler_at(self, index, value): + self.hruler[index] = value + def get_preformatted(self): + return self.preformatted + def set_preformatted(self, preformatted): + self.preformatted = preformatted + def add_preformatted(self, value): + self.preformatted.append(value) + def insert_preformatted_at(self, index, value): + self.preformatted.insert(index, value) + def replace_preformatted_at(self, index, value): + self.preformatted[index] = value + def get_programlisting(self): + return self.programlisting + def set_programlisting(self, programlisting): + self.programlisting = programlisting + def add_programlisting(self, value): + self.programlisting.append(value) + def insert_programlisting_at(self, index, value): + self.programlisting.insert(index, value) + def replace_programlisting_at(self, index, value): + self.programlisting[index] = value + def get_verbatim(self): + return self.verbatim + def set_verbatim(self, verbatim): + self.verbatim = verbatim + def add_verbatim(self, value): + self.verbatim.append(value) + def insert_verbatim_at(self, index, value): + self.verbatim.insert(index, value) + def replace_verbatim_at(self, index, value): + self.verbatim[index] = value + def get_indexentry(self): + return self.indexentry + def set_indexentry(self, indexentry): + self.indexentry = indexentry + def add_indexentry(self, value): + self.indexentry.append(value) + def insert_indexentry_at(self, index, value): + self.indexentry.insert(index, value) + def replace_indexentry_at(self, index, value): + self.indexentry[index] = value + def get_orderedlist(self): + return self.orderedlist + def set_orderedlist(self, orderedlist): + self.orderedlist = orderedlist + def add_orderedlist(self, value): + self.orderedlist.append(value) + def insert_orderedlist_at(self, index, value): + self.orderedlist.insert(index, value) + def replace_orderedlist_at(self, index, value): + self.orderedlist[index] = value + def get_itemizedlist(self): + return self.itemizedlist + def set_itemizedlist(self, itemizedlist): + self.itemizedlist = itemizedlist + def add_itemizedlist(self, value): + self.itemizedlist.append(value) + def insert_itemizedlist_at(self, index, value): + self.itemizedlist.insert(index, value) + def replace_itemizedlist_at(self, index, value): + self.itemizedlist[index] = value + def get_simplesect(self): + return self.simplesect + def set_simplesect(self, simplesect): + self.simplesect = simplesect + def add_simplesect(self, value): + self.simplesect.append(value) + def insert_simplesect_at(self, index, value): + self.simplesect.insert(index, value) + def replace_simplesect_at(self, index, value): + self.simplesect[index] = value + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def add_title(self, value): + self.title.append(value) + def insert_title_at(self, index, value): + self.title.insert(index, value) + def replace_title_at(self, index, value): + self.title[index] = value + def get_variablelist(self): + return self.variablelist + def set_variablelist(self, variablelist): + self.variablelist = variablelist + def add_variablelist(self, value): + self.variablelist.append(value) + def insert_variablelist_at(self, index, value): + self.variablelist.insert(index, value) + def replace_variablelist_at(self, index, value): + self.variablelist[index] = value + def get_table(self): + return self.table + def set_table(self, table): + self.table = table + def add_table(self, value): + self.table.append(value) + def insert_table_at(self, index, value): + self.table.insert(index, value) + def replace_table_at(self, index, value): + self.table[index] = value + def get_heading(self): + return self.heading + def set_heading(self, heading): + self.heading = heading + def add_heading(self, value): + self.heading.append(value) + def insert_heading_at(self, index, value): + self.heading.insert(index, value) + def replace_heading_at(self, index, value): + self.heading[index] = value + def get_dotfile(self): + return self.dotfile + def set_dotfile(self, dotfile): + self.dotfile = dotfile + def add_dotfile(self, value): + self.dotfile.append(value) + def insert_dotfile_at(self, index, value): + self.dotfile.insert(index, value) + def replace_dotfile_at(self, index, value): + self.dotfile[index] = value + def get_mscfile(self): + return self.mscfile + def set_mscfile(self, mscfile): + self.mscfile = mscfile + def add_mscfile(self, value): + self.mscfile.append(value) + def insert_mscfile_at(self, index, value): + self.mscfile.insert(index, value) + def replace_mscfile_at(self, index, value): + self.mscfile[index] = value + def get_diafile(self): + return self.diafile + def set_diafile(self, diafile): + self.diafile = diafile + def add_diafile(self, value): + self.diafile.append(value) + def insert_diafile_at(self, index, value): + self.diafile.insert(index, value) + def replace_diafile_at(self, index, value): + self.diafile[index] = value + def get_toclist(self): + return self.toclist + def set_toclist(self, toclist): + self.toclist = toclist + def add_toclist(self, value): + self.toclist.append(value) + def insert_toclist_at(self, index, value): + self.toclist.insert(index, value) + def replace_toclist_at(self, index, value): + self.toclist[index] = value + def get_language(self): + return self.language + def set_language(self, language): + self.language = language + def add_language(self, value): + self.language.append(value) + def insert_language_at(self, index, value): + self.language.insert(index, value) + def replace_language_at(self, index, value): + self.language[index] = value + def get_parameterlist(self): + return self.parameterlist + def set_parameterlist(self, parameterlist): + self.parameterlist = parameterlist + def add_parameterlist(self, value): + self.parameterlist.append(value) + def insert_parameterlist_at(self, index, value): + self.parameterlist.insert(index, value) + def replace_parameterlist_at(self, index, value): + self.parameterlist[index] = value + def get_xrefsect(self): + return self.xrefsect + def set_xrefsect(self, xrefsect): + self.xrefsect = xrefsect + def add_xrefsect(self, value): + self.xrefsect.append(value) + def insert_xrefsect_at(self, index, value): + self.xrefsect.insert(index, value) + def replace_xrefsect_at(self, index, value): + self.xrefsect[index] = value + def get_copydoc(self): + return self.copydoc + def set_copydoc(self, copydoc): + self.copydoc = copydoc + def add_copydoc(self, value): + self.copydoc.append(value) + def insert_copydoc_at(self, index, value): + self.copydoc.insert(index, value) + def replace_copydoc_at(self, index, value): + self.copydoc[index] = value + def get_blockquote(self): + return self.blockquote + def set_blockquote(self, blockquote): + self.blockquote = blockquote + def add_blockquote(self, value): + self.blockquote.append(value) + def insert_blockquote_at(self, index, value): + self.blockquote.insert(index, value) + def replace_blockquote_at(self, index, value): + self.blockquote[index] = value + def get_parblock(self): + return self.parblock + def set_parblock(self, parblock): + self.parblock = parblock + def add_parblock(self, value): + self.parblock.append(value) + def insert_parblock_at(self, index, value): + self.parblock.insert(index, value) + def replace_parblock_at(self, index, value): + self.parblock[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + self.hruler or + self.preformatted or + self.programlisting or + self.verbatim or + self.indexentry or + self.orderedlist or + self.itemizedlist or + self.simplesect or + self.title or + self.variablelist or + self.table or + self.heading or + self.dotfile or + self.mscfile or + self.diafile or + self.toclist or + self.language or + self.parameterlist or + self.xrefsect or + self.copydoc or + self.blockquote or + self.parblock or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docMarkupType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docMarkupType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docMarkupType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docMarkupType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docMarkupType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docMarkupType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docMarkupType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + for hruler_ in self.hruler: + namespaceprefix_ = self.hruler_nsprefix_ + ':' if (UseCapturedNS_ and self.hruler_nsprefix_) else '' + hruler_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='hruler', pretty_print=pretty_print) + for preformatted_ in self.preformatted: + namespaceprefix_ = self.preformatted_nsprefix_ + ':' if (UseCapturedNS_ and self.preformatted_nsprefix_) else '' + preformatted_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='preformatted', pretty_print=pretty_print) + for programlisting_ in self.programlisting: + namespaceprefix_ = self.programlisting_nsprefix_ + ':' if (UseCapturedNS_ and self.programlisting_nsprefix_) else '' + programlisting_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='programlisting', pretty_print=pretty_print) + for verbatim_ in self.verbatim: + namespaceprefix_ = self.verbatim_nsprefix_ + ':' if (UseCapturedNS_ and self.verbatim_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sverbatim>%s</%sverbatim>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(verbatim_), input_name='verbatim')), namespaceprefix_ , eol_)) + for indexentry_ in self.indexentry: + namespaceprefix_ = self.indexentry_nsprefix_ + ':' if (UseCapturedNS_ and self.indexentry_nsprefix_) else '' + indexentry_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='indexentry', pretty_print=pretty_print) + for orderedlist_ in self.orderedlist: + namespaceprefix_ = self.orderedlist_nsprefix_ + ':' if (UseCapturedNS_ and self.orderedlist_nsprefix_) else '' + orderedlist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='orderedlist', pretty_print=pretty_print) + for itemizedlist_ in self.itemizedlist: + namespaceprefix_ = self.itemizedlist_nsprefix_ + ':' if (UseCapturedNS_ and self.itemizedlist_nsprefix_) else '' + itemizedlist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='itemizedlist', pretty_print=pretty_print) + for simplesect_ in self.simplesect: + namespaceprefix_ = self.simplesect_nsprefix_ + ':' if (UseCapturedNS_ and self.simplesect_nsprefix_) else '' + simplesect_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='simplesect', pretty_print=pretty_print) + for title_ in self.title: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + title_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='title', pretty_print=pretty_print) + for variablelist_ in self.variablelist: + namespaceprefix_ = self.variablelist_nsprefix_ + ':' if (UseCapturedNS_ and self.variablelist_nsprefix_) else '' + variablelist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='variablelist', pretty_print=pretty_print) + for table_ in self.table: + namespaceprefix_ = self.table_nsprefix_ + ':' if (UseCapturedNS_ and self.table_nsprefix_) else '' + table_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='table', pretty_print=pretty_print) + for heading_ in self.heading: + namespaceprefix_ = self.heading_nsprefix_ + ':' if (UseCapturedNS_ and self.heading_nsprefix_) else '' + heading_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='heading', pretty_print=pretty_print) + for dotfile_ in self.dotfile: + namespaceprefix_ = self.dotfile_nsprefix_ + ':' if (UseCapturedNS_ and self.dotfile_nsprefix_) else '' + dotfile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dotfile', pretty_print=pretty_print) + for mscfile_ in self.mscfile: + namespaceprefix_ = self.mscfile_nsprefix_ + ':' if (UseCapturedNS_ and self.mscfile_nsprefix_) else '' + mscfile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='mscfile', pretty_print=pretty_print) + for diafile_ in self.diafile: + namespaceprefix_ = self.diafile_nsprefix_ + ':' if (UseCapturedNS_ and self.diafile_nsprefix_) else '' + diafile_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='diafile', pretty_print=pretty_print) + for toclist_ in self.toclist: + namespaceprefix_ = self.toclist_nsprefix_ + ':' if (UseCapturedNS_ and self.toclist_nsprefix_) else '' + toclist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='toclist', pretty_print=pretty_print) + for language_ in self.language: + namespaceprefix_ = self.language_nsprefix_ + ':' if (UseCapturedNS_ and self.language_nsprefix_) else '' + language_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='language', pretty_print=pretty_print) + for parameterlist_ in self.parameterlist: + namespaceprefix_ = self.parameterlist_nsprefix_ + ':' if (UseCapturedNS_ and self.parameterlist_nsprefix_) else '' + parameterlist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parameterlist', pretty_print=pretty_print) + for xrefsect_ in self.xrefsect: + namespaceprefix_ = self.xrefsect_nsprefix_ + ':' if (UseCapturedNS_ and self.xrefsect_nsprefix_) else '' + xrefsect_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='xrefsect', pretty_print=pretty_print) + for copydoc_ in self.copydoc: + namespaceprefix_ = self.copydoc_nsprefix_ + ':' if (UseCapturedNS_ and self.copydoc_nsprefix_) else '' + copydoc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='copydoc', pretty_print=pretty_print) + for blockquote_ in self.blockquote: + namespaceprefix_ = self.blockquote_nsprefix_ + ':' if (UseCapturedNS_ and self.blockquote_nsprefix_) else '' + blockquote_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='blockquote', pretty_print=pretty_print) + for parblock_ in self.parblock: + namespaceprefix_ = self.parblock_nsprefix_ + ':' if (UseCapturedNS_ and self.parblock_nsprefix_) else '' + parblock_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parblock', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + elif nodeName_ == 'hruler': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'hruler', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_hruler'): + self.add_hruler(obj_.value) + elif hasattr(self, 'set_hruler'): + self.set_hruler(obj_.value) + elif nodeName_ == 'preformatted': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'preformatted', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_preformatted'): + self.add_preformatted(obj_.value) + elif hasattr(self, 'set_preformatted'): + self.set_preformatted(obj_.value) + elif nodeName_ == 'programlisting': + obj_ = listingType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'programlisting', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_programlisting'): + self.add_programlisting(obj_.value) + elif hasattr(self, 'set_programlisting'): + self.set_programlisting(obj_.value) + elif nodeName_ == 'verbatim' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'verbatim') + valuestr_ = self.gds_validate_string(valuestr_, node, 'verbatim') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'verbatim', valuestr_) + self.content_.append(obj_) + self.verbatim_nsprefix_ = child_.prefix + elif nodeName_ == 'indexentry': + obj_ = docIndexEntryType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'indexentry', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_indexentry'): + self.add_indexentry(obj_.value) + elif hasattr(self, 'set_indexentry'): + self.set_indexentry(obj_.value) + elif nodeName_ == 'orderedlist': + obj_ = docListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'orderedlist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_orderedlist'): + self.add_orderedlist(obj_.value) + elif hasattr(self, 'set_orderedlist'): + self.set_orderedlist(obj_.value) + elif nodeName_ == 'itemizedlist': + obj_ = docListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'itemizedlist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_itemizedlist'): + self.add_itemizedlist(obj_.value) + elif hasattr(self, 'set_itemizedlist'): + self.set_itemizedlist(obj_.value) + elif nodeName_ == 'simplesect': + obj_ = docSimpleSectType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'simplesect', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_simplesect'): + self.add_simplesect(obj_.value) + elif hasattr(self, 'set_simplesect'): + self.set_simplesect(obj_.value) + elif nodeName_ == 'title': + obj_ = docTitleType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'title', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_title'): + self.add_title(obj_.value) + elif hasattr(self, 'set_title'): + self.set_title(obj_.value) + elif nodeName_ == 'variablelist': + obj_ = docVariableListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'variablelist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_variablelist'): + self.add_variablelist(obj_.value) + elif hasattr(self, 'set_variablelist'): + self.set_variablelist(obj_.value) + elif nodeName_ == 'table': + obj_ = docTableType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'table', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_table'): + self.add_table(obj_.value) + elif hasattr(self, 'set_table'): + self.set_table(obj_.value) + elif nodeName_ == 'heading': + obj_ = docHeadingType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'heading', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_heading'): + self.add_heading(obj_.value) + elif hasattr(self, 'set_heading'): + self.set_heading(obj_.value) + elif nodeName_ == 'dotfile': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dotfile', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dotfile'): + self.add_dotfile(obj_.value) + elif hasattr(self, 'set_dotfile'): + self.set_dotfile(obj_.value) + elif nodeName_ == 'mscfile': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'mscfile', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_mscfile'): + self.add_mscfile(obj_.value) + elif hasattr(self, 'set_mscfile'): + self.set_mscfile(obj_.value) + elif nodeName_ == 'diafile': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'diafile', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_diafile'): + self.add_diafile(obj_.value) + elif hasattr(self, 'set_diafile'): + self.set_diafile(obj_.value) + elif nodeName_ == 'toclist': + obj_ = docTocListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'toclist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_toclist'): + self.add_toclist(obj_.value) + elif hasattr(self, 'set_toclist'): + self.set_toclist(obj_.value) + elif nodeName_ == 'language': + obj_ = docLanguageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'language', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_language'): + self.add_language(obj_.value) + elif hasattr(self, 'set_language'): + self.set_language(obj_.value) + elif nodeName_ == 'parameterlist': + obj_ = docParamListType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'parameterlist', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_parameterlist'): + self.add_parameterlist(obj_.value) + elif hasattr(self, 'set_parameterlist'): + self.set_parameterlist(obj_.value) + elif nodeName_ == 'xrefsect': + obj_ = docXRefSectType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'xrefsect', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_xrefsect'): + self.add_xrefsect(obj_.value) + elif hasattr(self, 'set_xrefsect'): + self.set_xrefsect(obj_.value) + elif nodeName_ == 'copydoc': + obj_ = docCopyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'copydoc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_copydoc'): + self.add_copydoc(obj_.value) + elif hasattr(self, 'set_copydoc'): + self.set_copydoc(obj_.value) + elif nodeName_ == 'blockquote': + obj_ = docBlockQuoteType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'blockquote', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_blockquote'): + self.add_blockquote(obj_.value) + elif hasattr(self, 'set_blockquote'): + self.set_blockquote(obj_.value) + elif nodeName_ == 'parblock': + obj_ = docParBlockType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'parblock', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_parblock'): + self.add_parblock(obj_.value) + elif hasattr(self, 'set_parblock'): + self.set_parblock(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docMarkupType + + +class docURLLink(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, url=None, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.url = _cast(None, url) + self.url_nsprefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docURLLink) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docURLLink.subclass: + return docURLLink.subclass(*args_, **kwargs_) + else: + return docURLLink(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_url(self): + return self.url + def set_url(self, url): + self.url = url + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docURLLink', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docURLLink') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docURLLink': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docURLLink') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docURLLink', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docURLLink'): + if self.url is not None and 'url' not in already_processed: + already_processed.add('url') + outfile.write(' url=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.url), input_name='url')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docURLLink', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('url', node) + if value is not None and 'url' not in already_processed: + already_processed.add('url') + self.url = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docURLLink + + +class docAnchorType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docAnchorType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docAnchorType.subclass: + return docAnchorType.subclass(*args_, **kwargs_) + else: + return docAnchorType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docAnchorType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docAnchorType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docAnchorType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docAnchorType') + outfile.write('>') + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_, pretty_print=pretty_print) + outfile.write(self.convert_unicode(self.valueOf_)) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docAnchorType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docAnchorType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) + pass +# end class docAnchorType + + +class docFormulaType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docFormulaType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docFormulaType.subclass: + return docFormulaType.subclass(*args_, **kwargs_) + else: + return docFormulaType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docFormulaType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docFormulaType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docFormulaType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docFormulaType') + outfile.write('>') + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_, pretty_print=pretty_print) + outfile.write(self.convert_unicode(self.valueOf_)) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docFormulaType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docFormulaType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) + pass +# end class docFormulaType + + +class docIndexEntryType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, primaryie=None, secondaryie=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.primaryie = primaryie + self.primaryie_nsprefix_ = None + self.secondaryie = secondaryie + self.secondaryie_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docIndexEntryType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docIndexEntryType.subclass: + return docIndexEntryType.subclass(*args_, **kwargs_) + else: + return docIndexEntryType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_primaryie(self): + return self.primaryie + def set_primaryie(self, primaryie): + self.primaryie = primaryie + def get_secondaryie(self): + return self.secondaryie + def set_secondaryie(self, secondaryie): + self.secondaryie = secondaryie + def hasContent_(self): + if ( + self.primaryie is not None or + self.secondaryie is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docIndexEntryType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docIndexEntryType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docIndexEntryType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docIndexEntryType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docIndexEntryType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docIndexEntryType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docIndexEntryType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.primaryie is not None: + namespaceprefix_ = self.primaryie_nsprefix_ + ':' if (UseCapturedNS_ and self.primaryie_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sprimaryie>%s</%sprimaryie>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.primaryie), input_name='primaryie')), namespaceprefix_ , eol_)) + if self.secondaryie is not None: + namespaceprefix_ = self.secondaryie_nsprefix_ + ':' if (UseCapturedNS_ and self.secondaryie_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%ssecondaryie>%s</%ssecondaryie>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.secondaryie), input_name='secondaryie')), namespaceprefix_ , eol_)) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'primaryie': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'primaryie') + value_ = self.gds_validate_string(value_, node, 'primaryie') + self.primaryie = value_ + self.primaryie_nsprefix_ = child_.prefix + elif nodeName_ == 'secondaryie': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'secondaryie') + value_ = self.gds_validate_string(value_, node, 'secondaryie') + self.secondaryie = value_ + self.secondaryie_nsprefix_ = child_.prefix +# end class docIndexEntryType + + +class docListType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, listitem=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if listitem is None: + self.listitem = [] + else: + self.listitem = listitem + self.listitem_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docListType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docListType.subclass: + return docListType.subclass(*args_, **kwargs_) + else: + return docListType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_listitem(self): + return self.listitem + def set_listitem(self, listitem): + self.listitem = listitem + def add_listitem(self, value): + self.listitem.append(value) + def insert_listitem_at(self, index, value): + self.listitem.insert(index, value) + def replace_listitem_at(self, index, value): + self.listitem[index] = value + def hasContent_(self): + if ( + self.listitem + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docListType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docListType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docListType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docListType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docListType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docListType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docListType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for listitem_ in self.listitem: + namespaceprefix_ = self.listitem_nsprefix_ + ':' if (UseCapturedNS_ and self.listitem_nsprefix_) else '' + listitem_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='listitem', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'listitem': + obj_ = docListItemType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.listitem.append(obj_) + obj_.original_tagname_ = 'listitem' +# end class docListType + + +class docListItemType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docListItemType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docListItemType.subclass: + return docListItemType.subclass(*args_, **kwargs_) + else: + return docListItemType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def hasContent_(self): + if ( + self.para + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docListItemType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docListItemType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docListItemType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docListItemType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docListItemType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docListItemType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docListItemType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' +# end class docListItemType + + +class docSimpleSectType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, kind=None, title=None, para=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + self.title = title + self.title_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docSimpleSectType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docSimpleSectType.subclass: + return docSimpleSectType.subclass(*args_, **kwargs_) + else: + return docSimpleSectType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_title(self): + return self.title + def set_title(self, title): + self.title = title + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def validate_DoxSimpleSectKind(self, value): + # Validate type DoxSimpleSectKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['see', 'return', 'author', 'authors', 'version', 'since', 'date', 'note', 'warning', 'pre', 'post', 'copyright', 'invariant', 'remark', 'attention', 'par', 'rcs'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxSimpleSectKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.title is not None or + self.para + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSimpleSectType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docSimpleSectType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docSimpleSectType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docSimpleSectType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docSimpleSectType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docSimpleSectType'): + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docSimpleSectType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.title is not None: + namespaceprefix_ = self.title_nsprefix_ + ':' if (UseCapturedNS_ and self.title_nsprefix_) else '' + self.title.export(outfile, level, namespaceprefix_, namespacedef_='', name_='title', pretty_print=pretty_print) + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_DoxSimpleSectKind(self.kind) # validate type DoxSimpleSectKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'title': + obj_ = docTitleType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.title = obj_ + obj_.original_tagname_ = 'title' + elif nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' +# end class docSimpleSectType + + +class docVarListEntryType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, term=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.term = term + self.term_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docVarListEntryType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docVarListEntryType.subclass: + return docVarListEntryType.subclass(*args_, **kwargs_) + else: + return docVarListEntryType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_term(self): + return self.term + def set_term(self, term): + self.term = term + def hasContent_(self): + if ( + self.term is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docVarListEntryType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docVarListEntryType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docVarListEntryType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docVarListEntryType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docVarListEntryType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docVarListEntryType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docVarListEntryType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.term is not None: + namespaceprefix_ = self.term_nsprefix_ + ':' if (UseCapturedNS_ and self.term_nsprefix_) else '' + self.term.export(outfile, level, namespaceprefix_, namespacedef_='', name_='term', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'term': + obj_ = docTitleType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.term = obj_ + obj_.original_tagname_ = 'term' +# end class docVarListEntryType + + +class docVariableListType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, varlistentry=None, listitem=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if varlistentry is None: + self.varlistentry = [] + else: + self.varlistentry = varlistentry + self.varlistentry_nsprefix_ = None + if listitem is None: + self.listitem = [] + else: + self.listitem = listitem + self.listitem_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docVariableListType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docVariableListType.subclass: + return docVariableListType.subclass(*args_, **kwargs_) + else: + return docVariableListType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_varlistentry(self): + return self.varlistentry + def set_varlistentry(self, varlistentry): + self.varlistentry = varlistentry + def add_varlistentry(self, value): + self.varlistentry.append(value) + def insert_varlistentry_at(self, index, value): + self.varlistentry.insert(index, value) + def replace_varlistentry_at(self, index, value): + self.varlistentry[index] = value + def get_listitem(self): + return self.listitem + def set_listitem(self, listitem): + self.listitem = listitem + def add_listitem(self, value): + self.listitem.append(value) + def insert_listitem_at(self, index, value): + self.listitem.insert(index, value) + def replace_listitem_at(self, index, value): + self.listitem[index] = value + def hasContent_(self): + if ( + self.varlistentry or + self.listitem + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docVariableListType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docVariableListType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docVariableListType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docVariableListType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docVariableListType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docVariableListType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docVariableListType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for varlistentry_ in self.varlistentry: + namespaceprefix_ = self.varlistentry_nsprefix_ + ':' if (UseCapturedNS_ and self.varlistentry_nsprefix_) else '' + varlistentry_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='varlistentry', pretty_print=pretty_print) + for listitem_ in self.listitem: + namespaceprefix_ = self.listitem_nsprefix_ + ':' if (UseCapturedNS_ and self.listitem_nsprefix_) else '' + listitem_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='listitem', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'varlistentry': + obj_ = docVarListEntryType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.varlistentry.append(obj_) + obj_.original_tagname_ = 'varlistentry' + elif nodeName_ == 'listitem': + obj_ = docListItemType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.listitem.append(obj_) + obj_.original_tagname_ = 'listitem' +# end class docVariableListType + + +class docRefTextType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, kindref=None, external=None, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.kindref = _cast(None, kindref) + self.kindref_nsprefix_ = None + self.external = _cast(None, external) + self.external_nsprefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docRefTextType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docRefTextType.subclass: + return docRefTextType.subclass(*args_, **kwargs_) + else: + return docRefTextType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_kindref(self): + return self.kindref + def set_kindref(self, kindref): + self.kindref = kindref + def get_external(self): + return self.external + def set_external(self, external): + self.external = external + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxRefKind(self, value): + # Validate type DoxRefKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['compound', 'member'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxRefKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docRefTextType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docRefTextType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docRefTextType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docRefTextType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docRefTextType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docRefTextType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.kindref is not None and 'kindref' not in already_processed: + already_processed.add('kindref') + outfile.write(' kindref=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kindref), input_name='kindref')), )) + if self.external is not None and 'external' not in already_processed: + already_processed.add('external') + outfile.write(' external=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.external), input_name='external')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docRefTextType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('kindref', node) + if value is not None and 'kindref' not in already_processed: + already_processed.add('kindref') + self.kindref = value + self.validate_DoxRefKind(self.kindref) # validate type DoxRefKind + value = find_attr_value_('external', node) + if value is not None and 'external' not in already_processed: + already_processed.add('external') + self.external = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docRefTextType + + +class docTableType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, rows=None, cols=None, width=None, caption=None, row=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.rows = _cast(int, rows) + self.rows_nsprefix_ = None + self.cols = _cast(int, cols) + self.cols_nsprefix_ = None + self.width = _cast(None, width) + self.width_nsprefix_ = None + self.caption = caption + self.caption_nsprefix_ = None + if row is None: + self.row = [] + else: + self.row = row + self.row_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docTableType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docTableType.subclass: + return docTableType.subclass(*args_, **kwargs_) + else: + return docTableType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_caption(self): + return self.caption + def set_caption(self, caption): + self.caption = caption + def get_row(self): + return self.row + def set_row(self, row): + self.row = row + def add_row(self, value): + self.row.append(value) + def insert_row_at(self, index, value): + self.row.insert(index, value) + def replace_row_at(self, index, value): + self.row[index] = value + def get_rows(self): + return self.rows + def set_rows(self, rows): + self.rows = rows + def get_cols(self): + return self.cols + def set_cols(self, cols): + self.cols = cols + def get_width(self): + return self.width + def set_width(self, width): + self.width = width + def hasContent_(self): + if ( + self.caption is not None or + self.row + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTableType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docTableType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docTableType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docTableType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docTableType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docTableType'): + if self.rows is not None and 'rows' not in already_processed: + already_processed.add('rows') + outfile.write(' rows="%s"' % self.gds_format_integer(self.rows, input_name='rows')) + if self.cols is not None and 'cols' not in already_processed: + already_processed.add('cols') + outfile.write(' cols="%s"' % self.gds_format_integer(self.cols, input_name='cols')) + if self.width is not None and 'width' not in already_processed: + already_processed.add('width') + outfile.write(' width=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.width), input_name='width')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTableType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.caption is not None: + namespaceprefix_ = self.caption_nsprefix_ + ':' if (UseCapturedNS_ and self.caption_nsprefix_) else '' + self.caption.export(outfile, level, namespaceprefix_, namespacedef_='', name_='caption', pretty_print=pretty_print) + for row_ in self.row: + namespaceprefix_ = self.row_nsprefix_ + ':' if (UseCapturedNS_ and self.row_nsprefix_) else '' + row_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='row', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('rows', node) + if value is not None and 'rows' not in already_processed: + already_processed.add('rows') + self.rows = self.gds_parse_integer(value, node, 'rows') + value = find_attr_value_('cols', node) + if value is not None and 'cols' not in already_processed: + already_processed.add('cols') + self.cols = self.gds_parse_integer(value, node, 'cols') + value = find_attr_value_('width', node) + if value is not None and 'width' not in already_processed: + already_processed.add('width') + self.width = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'caption': + obj_ = docCaptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.caption = obj_ + obj_.original_tagname_ = 'caption' + elif nodeName_ == 'row': + obj_ = docRowType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.row.append(obj_) + obj_.original_tagname_ = 'row' +# end class docTableType + + +class docRowType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, entry=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if entry is None: + self.entry = [] + else: + self.entry = entry + self.entry_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docRowType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docRowType.subclass: + return docRowType.subclass(*args_, **kwargs_) + else: + return docRowType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_entry(self): + return self.entry + def set_entry(self, entry): + self.entry = entry + def add_entry(self, value): + self.entry.append(value) + def insert_entry_at(self, index, value): + self.entry.insert(index, value) + def replace_entry_at(self, index, value): + self.entry[index] = value + def hasContent_(self): + if ( + self.entry + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docRowType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docRowType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docRowType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docRowType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docRowType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docRowType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docRowType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for entry_ in self.entry: + namespaceprefix_ = self.entry_nsprefix_ + ':' if (UseCapturedNS_ and self.entry_nsprefix_) else '' + entry_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='entry', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'entry': + obj_ = docEntryType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.entry.append(obj_) + obj_.original_tagname_ = 'entry' +# end class docRowType + + +class docEntryType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, thead=None, colspan=None, rowspan=None, align=None, valign=None, width=None, class_=None, para=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.thead = _cast(None, thead) + self.thead_nsprefix_ = None + self.colspan = _cast(int, colspan) + self.colspan_nsprefix_ = None + self.rowspan = _cast(int, rowspan) + self.rowspan_nsprefix_ = None + self.align = _cast(None, align) + self.align_nsprefix_ = None + self.valign = _cast(None, valign) + self.valign_nsprefix_ = None + self.width = _cast(None, width) + self.width_nsprefix_ = None + self.class_ = _cast(None, class_) + self.class__nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + self.anyAttributes_ = {} + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docEntryType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docEntryType.subclass: + return docEntryType.subclass(*args_, **kwargs_) + else: + return docEntryType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_thead(self): + return self.thead + def set_thead(self, thead): + self.thead = thead + def get_colspan(self): + return self.colspan + def set_colspan(self, colspan): + self.colspan = colspan + def get_rowspan(self): + return self.rowspan + def set_rowspan(self, rowspan): + self.rowspan = rowspan + def get_align(self): + return self.align + def set_align(self, align): + self.align = align + def get_valign(self): + return self.valign + def set_valign(self, valign): + self.valign = valign + def get_width(self): + return self.width + def set_width(self, width): + self.width = width + def get_class(self): + return self.class_ + def set_class(self, class_): + self.class_ = class_ + def get_anyAttributes_(self): return self.anyAttributes_ + def set_anyAttributes_(self, anyAttributes_): self.anyAttributes_ = anyAttributes_ + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxAlign(self, value): + # Validate type DoxAlign, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['left', 'right', 'center'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxAlign' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxVerticalAlign(self, value): + # Validate type DoxVerticalAlign, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['bottom', 'top', 'middle'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxVerticalAlign' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.para + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docEntryType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docEntryType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docEntryType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docEntryType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docEntryType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docEntryType'): + unique_counter = 0 + for name, value in self.anyAttributes_.items(): + xsinamespaceprefix = 'xsi' + xsinamespace1 = 'http://www.w3.org/2001/XMLSchema-instance' + xsinamespace2 = '{%s}' % (xsinamespace1, ) + if name.startswith(xsinamespace2): + name1 = name[len(xsinamespace2):] + name2 = '%s:%s' % (xsinamespaceprefix, name1, ) + if name2 not in already_processed: + already_processed.add(name2) + outfile.write(' %s=%s' % (name2, quote_attrib(value), )) + else: + mo = re_.match(Namespace_extract_pat_, name) + if mo is not None: + namespace, name = mo.group(1, 2) + if name not in already_processed: + already_processed.add(name) + if namespace == 'http://www.w3.org/XML/1998/namespace': + outfile.write(' %s=%s' % ( + name, quote_attrib(value), )) + else: + unique_counter += 1 + outfile.write(' xmlns:%d="%s"' % ( + unique_counter, namespace, )) + outfile.write(' %d:%s=%s' % ( + unique_counter, name, quote_attrib(value), )) + else: + if name not in already_processed: + already_processed.add(name) + outfile.write(' %s=%s' % ( + name, quote_attrib(value), )) + if self.thead is not None and 'thead' not in already_processed: + already_processed.add('thead') + outfile.write(' thead=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.thead), input_name='thead')), )) + if self.colspan is not None and 'colspan' not in already_processed: + already_processed.add('colspan') + outfile.write(' colspan="%s"' % self.gds_format_integer(self.colspan, input_name='colspan')) + if self.rowspan is not None and 'rowspan' not in already_processed: + already_processed.add('rowspan') + outfile.write(' rowspan="%s"' % self.gds_format_integer(self.rowspan, input_name='rowspan')) + if self.align is not None and 'align' not in already_processed: + already_processed.add('align') + outfile.write(' align=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.align), input_name='align')), )) + if self.valign is not None and 'valign' not in already_processed: + already_processed.add('valign') + outfile.write(' valign=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.valign), input_name='valign')), )) + if self.width is not None and 'width' not in already_processed: + already_processed.add('width') + outfile.write(' width=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.width), input_name='width')), )) + if self.class_ is not None and 'class_' not in already_processed: + already_processed.add('class_') + outfile.write(' class=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.class_), input_name='class')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docEntryType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('thead', node) + if value is not None and 'thead' not in already_processed: + already_processed.add('thead') + self.thead = value + self.validate_DoxBool(self.thead) # validate type DoxBool + value = find_attr_value_('colspan', node) + if value is not None and 'colspan' not in already_processed: + already_processed.add('colspan') + self.colspan = self.gds_parse_integer(value, node, 'colspan') + value = find_attr_value_('rowspan', node) + if value is not None and 'rowspan' not in already_processed: + already_processed.add('rowspan') + self.rowspan = self.gds_parse_integer(value, node, 'rowspan') + value = find_attr_value_('align', node) + if value is not None and 'align' not in already_processed: + already_processed.add('align') + self.align = value + self.validate_DoxAlign(self.align) # validate type DoxAlign + value = find_attr_value_('valign', node) + if value is not None and 'valign' not in already_processed: + already_processed.add('valign') + self.valign = value + self.validate_DoxVerticalAlign(self.valign) # validate type DoxVerticalAlign + value = find_attr_value_('width', node) + if value is not None and 'width' not in already_processed: + already_processed.add('width') + self.width = value + value = find_attr_value_('class', node) + if value is not None and 'class' not in already_processed: + already_processed.add('class') + self.class_ = value + self.anyAttributes_ = {} + for name, value in attrs.items(): + if name not in already_processed: + self.anyAttributes_[name] = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' +# end class docEntryType + + +class docCaptionType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docCaptionType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docCaptionType.subclass: + return docCaptionType.subclass(*args_, **kwargs_) + else: + return docCaptionType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docCaptionType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docCaptionType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docCaptionType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docCaptionType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docCaptionType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docCaptionType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docCaptionType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docCaptionType + + +class docHeadingType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, level=None, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.level = _cast(int, level) + self.level_nsprefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docHeadingType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docHeadingType.subclass: + return docHeadingType.subclass(*args_, **kwargs_) + else: + return docHeadingType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_level(self): + return self.level + def set_level(self, level): + self.level = level + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docHeadingType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docHeadingType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docHeadingType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docHeadingType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docHeadingType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docHeadingType'): + if self.level is not None and 'level' not in already_processed: + already_processed.add('level') + outfile.write(' level="%s"' % self.gds_format_integer(self.level, input_name='level')) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docHeadingType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('level', node) + if value is not None and 'level' not in already_processed: + already_processed.add('level') + self.level = self.gds_parse_integer(value, node, 'level') + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docHeadingType + + +class docImageType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, type_=None, name=None, width=None, height=None, alt=None, inline=None, caption=None, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.type_ = _cast(None, type_) + self.type__nsprefix_ = None + self.name = _cast(None, name) + self.name_nsprefix_ = None + self.width = _cast(None, width) + self.width_nsprefix_ = None + self.height = _cast(None, height) + self.height_nsprefix_ = None + self.alt = _cast(None, alt) + self.alt_nsprefix_ = None + self.inline = _cast(None, inline) + self.inline_nsprefix_ = None + self.caption = _cast(None, caption) + self.caption_nsprefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docImageType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docImageType.subclass: + return docImageType.subclass(*args_, **kwargs_) + else: + return docImageType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_type(self): + return self.type_ + def set_type(self, type_): + self.type_ = type_ + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_width(self): + return self.width + def set_width(self, width): + self.width = width + def get_height(self): + return self.height + def set_height(self, height): + self.height = height + def get_alt(self): + return self.alt + def set_alt(self, alt): + self.alt = alt + def get_inline(self): + return self.inline + def set_inline(self, inline): + self.inline = inline + def get_caption(self): + return self.caption + def set_caption(self, caption): + self.caption = caption + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxImageKind(self, value): + # Validate type DoxImageKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['html', 'latex', 'docbook', 'rtf'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxImageKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def validate_DoxBool(self, value): + # Validate type DoxBool, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['yes', 'no'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxBool' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docImageType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docImageType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docImageType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docImageType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docImageType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docImageType'): + if self.type_ is not None and 'type_' not in already_processed: + already_processed.add('type_') + outfile.write(' type=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.type_), input_name='type')), )) + if self.name is not None and 'name' not in already_processed: + already_processed.add('name') + outfile.write(' name=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.name), input_name='name')), )) + if self.width is not None and 'width' not in already_processed: + already_processed.add('width') + outfile.write(' width=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.width), input_name='width')), )) + if self.height is not None and 'height' not in already_processed: + already_processed.add('height') + outfile.write(' height=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.height), input_name='height')), )) + if self.alt is not None and 'alt' not in already_processed: + already_processed.add('alt') + outfile.write(' alt=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.alt), input_name='alt')), )) + if self.inline is not None and 'inline' not in already_processed: + already_processed.add('inline') + outfile.write(' inline=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.inline), input_name='inline')), )) + if self.caption is not None and 'caption' not in already_processed: + already_processed.add('caption') + outfile.write(' caption=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.caption), input_name='caption')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docImageType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('type', node) + if value is not None and 'type' not in already_processed: + already_processed.add('type') + self.type_ = value + self.validate_DoxImageKind(self.type_) # validate type DoxImageKind + value = find_attr_value_('name', node) + if value is not None and 'name' not in already_processed: + already_processed.add('name') + self.name = value + value = find_attr_value_('width', node) + if value is not None and 'width' not in already_processed: + already_processed.add('width') + self.width = value + value = find_attr_value_('height', node) + if value is not None and 'height' not in already_processed: + already_processed.add('height') + self.height = value + value = find_attr_value_('alt', node) + if value is not None and 'alt' not in already_processed: + already_processed.add('alt') + self.alt = value + value = find_attr_value_('inline', node) + if value is not None and 'inline' not in already_processed: + already_processed.add('inline') + self.inline = value + self.validate_DoxBool(self.inline) # validate type DoxBool + value = find_attr_value_('caption', node) + if value is not None and 'caption' not in already_processed: + already_processed.add('caption') + self.caption = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docImageType + + +class docTocItemType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, ulink=None, bold=None, s=None, strike=None, underline=None, emphasis=None, computeroutput=None, subscript=None, superscript=None, center=None, small=None, del_=None, ins=None, htmlonly=None, manonly=None, xmlonly=None, rtfonly=None, latexonly=None, docbookonly=None, image=None, dot=None, msc=None, plantuml=None, anchor=None, formula=None, ref=None, emoji=None, linebreak=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + if ulink is None: + self.ulink = [] + else: + self.ulink = ulink + self.ulink_nsprefix_ = None + if bold is None: + self.bold = [] + else: + self.bold = bold + self.bold_nsprefix_ = None + if s is None: + self.s = [] + else: + self.s = s + self.s_nsprefix_ = None + if strike is None: + self.strike = [] + else: + self.strike = strike + self.strike_nsprefix_ = None + if underline is None: + self.underline = [] + else: + self.underline = underline + self.underline_nsprefix_ = None + if emphasis is None: + self.emphasis = [] + else: + self.emphasis = emphasis + self.emphasis_nsprefix_ = None + if computeroutput is None: + self.computeroutput = [] + else: + self.computeroutput = computeroutput + self.computeroutput_nsprefix_ = None + if subscript is None: + self.subscript = [] + else: + self.subscript = subscript + self.subscript_nsprefix_ = None + if superscript is None: + self.superscript = [] + else: + self.superscript = superscript + self.superscript_nsprefix_ = None + if center is None: + self.center = [] + else: + self.center = center + self.center_nsprefix_ = None + if small is None: + self.small = [] + else: + self.small = small + self.small_nsprefix_ = None + if del_ is None: + self.del_ = [] + else: + self.del_ = del_ + self.del__nsprefix_ = None + if ins is None: + self.ins = [] + else: + self.ins = ins + self.ins_nsprefix_ = None + if htmlonly is None: + self.htmlonly = [] + else: + self.htmlonly = htmlonly + self.htmlonly_nsprefix_ = None + if manonly is None: + self.manonly = [] + else: + self.manonly = manonly + self.manonly_nsprefix_ = None + if xmlonly is None: + self.xmlonly = [] + else: + self.xmlonly = xmlonly + self.xmlonly_nsprefix_ = None + if rtfonly is None: + self.rtfonly = [] + else: + self.rtfonly = rtfonly + self.rtfonly_nsprefix_ = None + if latexonly is None: + self.latexonly = [] + else: + self.latexonly = latexonly + self.latexonly_nsprefix_ = None + if docbookonly is None: + self.docbookonly = [] + else: + self.docbookonly = docbookonly + self.docbookonly_nsprefix_ = None + if image is None: + self.image = [] + else: + self.image = image + self.image_nsprefix_ = None + if dot is None: + self.dot = [] + else: + self.dot = dot + self.dot_nsprefix_ = None + if msc is None: + self.msc = [] + else: + self.msc = msc + self.msc_nsprefix_ = None + if plantuml is None: + self.plantuml = [] + else: + self.plantuml = plantuml + self.plantuml_nsprefix_ = None + if anchor is None: + self.anchor = [] + else: + self.anchor = anchor + self.anchor_nsprefix_ = None + if formula is None: + self.formula = [] + else: + self.formula = formula + self.formula_nsprefix_ = None + if ref is None: + self.ref = [] + else: + self.ref = ref + self.ref_nsprefix_ = None + if emoji is None: + self.emoji = [] + else: + self.emoji = emoji + self.emoji_nsprefix_ = None + if linebreak is None: + self.linebreak = [] + else: + self.linebreak = linebreak + self.linebreak_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docTocItemType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docTocItemType.subclass: + return docTocItemType.subclass(*args_, **kwargs_) + else: + return docTocItemType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ulink(self): + return self.ulink + def set_ulink(self, ulink): + self.ulink = ulink + def add_ulink(self, value): + self.ulink.append(value) + def insert_ulink_at(self, index, value): + self.ulink.insert(index, value) + def replace_ulink_at(self, index, value): + self.ulink[index] = value + def get_bold(self): + return self.bold + def set_bold(self, bold): + self.bold = bold + def add_bold(self, value): + self.bold.append(value) + def insert_bold_at(self, index, value): + self.bold.insert(index, value) + def replace_bold_at(self, index, value): + self.bold[index] = value + def get_s(self): + return self.s + def set_s(self, s): + self.s = s + def add_s(self, value): + self.s.append(value) + def insert_s_at(self, index, value): + self.s.insert(index, value) + def replace_s_at(self, index, value): + self.s[index] = value + def get_strike(self): + return self.strike + def set_strike(self, strike): + self.strike = strike + def add_strike(self, value): + self.strike.append(value) + def insert_strike_at(self, index, value): + self.strike.insert(index, value) + def replace_strike_at(self, index, value): + self.strike[index] = value + def get_underline(self): + return self.underline + def set_underline(self, underline): + self.underline = underline + def add_underline(self, value): + self.underline.append(value) + def insert_underline_at(self, index, value): + self.underline.insert(index, value) + def replace_underline_at(self, index, value): + self.underline[index] = value + def get_emphasis(self): + return self.emphasis + def set_emphasis(self, emphasis): + self.emphasis = emphasis + def add_emphasis(self, value): + self.emphasis.append(value) + def insert_emphasis_at(self, index, value): + self.emphasis.insert(index, value) + def replace_emphasis_at(self, index, value): + self.emphasis[index] = value + def get_computeroutput(self): + return self.computeroutput + def set_computeroutput(self, computeroutput): + self.computeroutput = computeroutput + def add_computeroutput(self, value): + self.computeroutput.append(value) + def insert_computeroutput_at(self, index, value): + self.computeroutput.insert(index, value) + def replace_computeroutput_at(self, index, value): + self.computeroutput[index] = value + def get_subscript(self): + return self.subscript + def set_subscript(self, subscript): + self.subscript = subscript + def add_subscript(self, value): + self.subscript.append(value) + def insert_subscript_at(self, index, value): + self.subscript.insert(index, value) + def replace_subscript_at(self, index, value): + self.subscript[index] = value + def get_superscript(self): + return self.superscript + def set_superscript(self, superscript): + self.superscript = superscript + def add_superscript(self, value): + self.superscript.append(value) + def insert_superscript_at(self, index, value): + self.superscript.insert(index, value) + def replace_superscript_at(self, index, value): + self.superscript[index] = value + def get_center(self): + return self.center + def set_center(self, center): + self.center = center + def add_center(self, value): + self.center.append(value) + def insert_center_at(self, index, value): + self.center.insert(index, value) + def replace_center_at(self, index, value): + self.center[index] = value + def get_small(self): + return self.small + def set_small(self, small): + self.small = small + def add_small(self, value): + self.small.append(value) + def insert_small_at(self, index, value): + self.small.insert(index, value) + def replace_small_at(self, index, value): + self.small[index] = value + def get_del(self): + return self.del_ + def set_del(self, del_): + self.del_ = del_ + def add_del(self, value): + self.del_.append(value) + def insert_del_at(self, index, value): + self.del_.insert(index, value) + def replace_del_at(self, index, value): + self.del_[index] = value + def get_ins(self): + return self.ins + def set_ins(self, ins): + self.ins = ins + def add_ins(self, value): + self.ins.append(value) + def insert_ins_at(self, index, value): + self.ins.insert(index, value) + def replace_ins_at(self, index, value): + self.ins[index] = value + def get_htmlonly(self): + return self.htmlonly + def set_htmlonly(self, htmlonly): + self.htmlonly = htmlonly + def add_htmlonly(self, value): + self.htmlonly.append(value) + def insert_htmlonly_at(self, index, value): + self.htmlonly.insert(index, value) + def replace_htmlonly_at(self, index, value): + self.htmlonly[index] = value + def get_manonly(self): + return self.manonly + def set_manonly(self, manonly): + self.manonly = manonly + def add_manonly(self, value): + self.manonly.append(value) + def insert_manonly_at(self, index, value): + self.manonly.insert(index, value) + def replace_manonly_at(self, index, value): + self.manonly[index] = value + def get_xmlonly(self): + return self.xmlonly + def set_xmlonly(self, xmlonly): + self.xmlonly = xmlonly + def add_xmlonly(self, value): + self.xmlonly.append(value) + def insert_xmlonly_at(self, index, value): + self.xmlonly.insert(index, value) + def replace_xmlonly_at(self, index, value): + self.xmlonly[index] = value + def get_rtfonly(self): + return self.rtfonly + def set_rtfonly(self, rtfonly): + self.rtfonly = rtfonly + def add_rtfonly(self, value): + self.rtfonly.append(value) + def insert_rtfonly_at(self, index, value): + self.rtfonly.insert(index, value) + def replace_rtfonly_at(self, index, value): + self.rtfonly[index] = value + def get_latexonly(self): + return self.latexonly + def set_latexonly(self, latexonly): + self.latexonly = latexonly + def add_latexonly(self, value): + self.latexonly.append(value) + def insert_latexonly_at(self, index, value): + self.latexonly.insert(index, value) + def replace_latexonly_at(self, index, value): + self.latexonly[index] = value + def get_docbookonly(self): + return self.docbookonly + def set_docbookonly(self, docbookonly): + self.docbookonly = docbookonly + def add_docbookonly(self, value): + self.docbookonly.append(value) + def insert_docbookonly_at(self, index, value): + self.docbookonly.insert(index, value) + def replace_docbookonly_at(self, index, value): + self.docbookonly[index] = value + def get_image(self): + return self.image + def set_image(self, image): + self.image = image + def add_image(self, value): + self.image.append(value) + def insert_image_at(self, index, value): + self.image.insert(index, value) + def replace_image_at(self, index, value): + self.image[index] = value + def get_dot(self): + return self.dot + def set_dot(self, dot): + self.dot = dot + def add_dot(self, value): + self.dot.append(value) + def insert_dot_at(self, index, value): + self.dot.insert(index, value) + def replace_dot_at(self, index, value): + self.dot[index] = value + def get_msc(self): + return self.msc + def set_msc(self, msc): + self.msc = msc + def add_msc(self, value): + self.msc.append(value) + def insert_msc_at(self, index, value): + self.msc.insert(index, value) + def replace_msc_at(self, index, value): + self.msc[index] = value + def get_plantuml(self): + return self.plantuml + def set_plantuml(self, plantuml): + self.plantuml = plantuml + def add_plantuml(self, value): + self.plantuml.append(value) + def insert_plantuml_at(self, index, value): + self.plantuml.insert(index, value) + def replace_plantuml_at(self, index, value): + self.plantuml[index] = value + def get_anchor(self): + return self.anchor + def set_anchor(self, anchor): + self.anchor = anchor + def add_anchor(self, value): + self.anchor.append(value) + def insert_anchor_at(self, index, value): + self.anchor.insert(index, value) + def replace_anchor_at(self, index, value): + self.anchor[index] = value + def get_formula(self): + return self.formula + def set_formula(self, formula): + self.formula = formula + def add_formula(self, value): + self.formula.append(value) + def insert_formula_at(self, index, value): + self.formula.insert(index, value) + def replace_formula_at(self, index, value): + self.formula[index] = value + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def add_ref(self, value): + self.ref.append(value) + def insert_ref_at(self, index, value): + self.ref.insert(index, value) + def replace_ref_at(self, index, value): + self.ref[index] = value + def get_emoji(self): + return self.emoji + def set_emoji(self, emoji): + self.emoji = emoji + def add_emoji(self, value): + self.emoji.append(value) + def insert_emoji_at(self, index, value): + self.emoji.insert(index, value) + def replace_emoji_at(self, index, value): + self.emoji[index] = value + def get_linebreak(self): + return self.linebreak + def set_linebreak(self, linebreak): + self.linebreak = linebreak + def add_linebreak(self, value): + self.linebreak.append(value) + def insert_linebreak_at(self, index, value): + self.linebreak.insert(index, value) + def replace_linebreak_at(self, index, value): + self.linebreak[index] = value + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ulink or + self.bold or + self.s or + self.strike or + self.underline or + self.emphasis or + self.computeroutput or + self.subscript or + self.superscript or + self.center or + self.small or + self.del_ or + self.ins or + self.htmlonly or + self.manonly or + self.xmlonly or + self.rtfonly or + self.latexonly or + self.docbookonly or + self.image or + self.dot or + self.msc or + self.plantuml or + self.anchor or + self.formula or + self.ref or + self.emoji or + self.linebreak or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTocItemType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docTocItemType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docTocItemType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docTocItemType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docTocItemType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docTocItemType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTocItemType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for ulink_ in self.ulink: + namespaceprefix_ = self.ulink_nsprefix_ + ':' if (UseCapturedNS_ and self.ulink_nsprefix_) else '' + ulink_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ulink', pretty_print=pretty_print) + for bold_ in self.bold: + namespaceprefix_ = self.bold_nsprefix_ + ':' if (UseCapturedNS_ and self.bold_nsprefix_) else '' + bold_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='bold', pretty_print=pretty_print) + for s_ in self.s: + namespaceprefix_ = self.s_nsprefix_ + ':' if (UseCapturedNS_ and self.s_nsprefix_) else '' + s_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='s', pretty_print=pretty_print) + for strike_ in self.strike: + namespaceprefix_ = self.strike_nsprefix_ + ':' if (UseCapturedNS_ and self.strike_nsprefix_) else '' + strike_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='strike', pretty_print=pretty_print) + for underline_ in self.underline: + namespaceprefix_ = self.underline_nsprefix_ + ':' if (UseCapturedNS_ and self.underline_nsprefix_) else '' + underline_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='underline', pretty_print=pretty_print) + for emphasis_ in self.emphasis: + namespaceprefix_ = self.emphasis_nsprefix_ + ':' if (UseCapturedNS_ and self.emphasis_nsprefix_) else '' + emphasis_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emphasis', pretty_print=pretty_print) + for computeroutput_ in self.computeroutput: + namespaceprefix_ = self.computeroutput_nsprefix_ + ':' if (UseCapturedNS_ and self.computeroutput_nsprefix_) else '' + computeroutput_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='computeroutput', pretty_print=pretty_print) + for subscript_ in self.subscript: + namespaceprefix_ = self.subscript_nsprefix_ + ':' if (UseCapturedNS_ and self.subscript_nsprefix_) else '' + subscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='subscript', pretty_print=pretty_print) + for superscript_ in self.superscript: + namespaceprefix_ = self.superscript_nsprefix_ + ':' if (UseCapturedNS_ and self.superscript_nsprefix_) else '' + superscript_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='superscript', pretty_print=pretty_print) + for center_ in self.center: + namespaceprefix_ = self.center_nsprefix_ + ':' if (UseCapturedNS_ and self.center_nsprefix_) else '' + center_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='center', pretty_print=pretty_print) + for small_ in self.small: + namespaceprefix_ = self.small_nsprefix_ + ':' if (UseCapturedNS_ and self.small_nsprefix_) else '' + small_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='small', pretty_print=pretty_print) + for del_ in self.del_: + namespaceprefix_ = self.del__nsprefix_ + ':' if (UseCapturedNS_ and self.del__nsprefix_) else '' + del_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='del', pretty_print=pretty_print) + for ins_ in self.ins: + namespaceprefix_ = self.ins_nsprefix_ + ':' if (UseCapturedNS_ and self.ins_nsprefix_) else '' + ins_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ins', pretty_print=pretty_print) + for htmlonly_ in self.htmlonly: + namespaceprefix_ = self.htmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.htmlonly_nsprefix_) else '' + htmlonly_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='htmlonly', pretty_print=pretty_print) + for manonly_ in self.manonly: + namespaceprefix_ = self.manonly_nsprefix_ + ':' if (UseCapturedNS_ and self.manonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%smanonly>%s</%smanonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(manonly_), input_name='manonly')), namespaceprefix_ , eol_)) + for xmlonly_ in self.xmlonly: + namespaceprefix_ = self.xmlonly_nsprefix_ + ':' if (UseCapturedNS_ and self.xmlonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxmlonly>%s</%sxmlonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xmlonly_), input_name='xmlonly')), namespaceprefix_ , eol_)) + for rtfonly_ in self.rtfonly: + namespaceprefix_ = self.rtfonly_nsprefix_ + ':' if (UseCapturedNS_ and self.rtfonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%srtfonly>%s</%srtfonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(rtfonly_), input_name='rtfonly')), namespaceprefix_ , eol_)) + for latexonly_ in self.latexonly: + namespaceprefix_ = self.latexonly_nsprefix_ + ':' if (UseCapturedNS_ and self.latexonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%slatexonly>%s</%slatexonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(latexonly_), input_name='latexonly')), namespaceprefix_ , eol_)) + for docbookonly_ in self.docbookonly: + namespaceprefix_ = self.docbookonly_nsprefix_ + ':' if (UseCapturedNS_ and self.docbookonly_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sdocbookonly>%s</%sdocbookonly>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(docbookonly_), input_name='docbookonly')), namespaceprefix_ , eol_)) + for image_ in self.image: + namespaceprefix_ = self.image_nsprefix_ + ':' if (UseCapturedNS_ and self.image_nsprefix_) else '' + image_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='image', pretty_print=pretty_print) + for dot_ in self.dot: + namespaceprefix_ = self.dot_nsprefix_ + ':' if (UseCapturedNS_ and self.dot_nsprefix_) else '' + dot_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='dot', pretty_print=pretty_print) + for msc_ in self.msc: + namespaceprefix_ = self.msc_nsprefix_ + ':' if (UseCapturedNS_ and self.msc_nsprefix_) else '' + msc_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='msc', pretty_print=pretty_print) + for plantuml_ in self.plantuml: + namespaceprefix_ = self.plantuml_nsprefix_ + ':' if (UseCapturedNS_ and self.plantuml_nsprefix_) else '' + plantuml_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='plantuml', pretty_print=pretty_print) + for anchor_ in self.anchor: + namespaceprefix_ = self.anchor_nsprefix_ + ':' if (UseCapturedNS_ and self.anchor_nsprefix_) else '' + anchor_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='anchor', pretty_print=pretty_print) + for formula_ in self.formula: + namespaceprefix_ = self.formula_nsprefix_ + ':' if (UseCapturedNS_ and self.formula_nsprefix_) else '' + formula_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='formula', pretty_print=pretty_print) + for ref_ in self.ref: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + ref_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + for emoji_ in self.emoji: + namespaceprefix_ = self.emoji_nsprefix_ + ':' if (UseCapturedNS_ and self.emoji_nsprefix_) else '' + emoji_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='emoji', pretty_print=pretty_print) + for linebreak_ in self.linebreak: + namespaceprefix_ = self.linebreak_nsprefix_ + ':' if (UseCapturedNS_ and self.linebreak_nsprefix_) else '' + linebreak_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='linebreak', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ulink': + obj_ = docURLLink.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ulink', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ulink'): + self.add_ulink(obj_.value) + elif hasattr(self, 'set_ulink'): + self.set_ulink(obj_.value) + elif nodeName_ == 'bold': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'bold', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_bold'): + self.add_bold(obj_.value) + elif hasattr(self, 'set_bold'): + self.set_bold(obj_.value) + elif nodeName_ == 's': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 's', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_s'): + self.add_s(obj_.value) + elif hasattr(self, 'set_s'): + self.set_s(obj_.value) + elif nodeName_ == 'strike': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'strike', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_strike'): + self.add_strike(obj_.value) + elif hasattr(self, 'set_strike'): + self.set_strike(obj_.value) + elif nodeName_ == 'underline': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'underline', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_underline'): + self.add_underline(obj_.value) + elif hasattr(self, 'set_underline'): + self.set_underline(obj_.value) + elif nodeName_ == 'emphasis': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emphasis', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emphasis'): + self.add_emphasis(obj_.value) + elif hasattr(self, 'set_emphasis'): + self.set_emphasis(obj_.value) + elif nodeName_ == 'computeroutput': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'computeroutput', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_computeroutput'): + self.add_computeroutput(obj_.value) + elif hasattr(self, 'set_computeroutput'): + self.set_computeroutput(obj_.value) + elif nodeName_ == 'subscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'subscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_subscript'): + self.add_subscript(obj_.value) + elif hasattr(self, 'set_subscript'): + self.set_subscript(obj_.value) + elif nodeName_ == 'superscript': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'superscript', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_superscript'): + self.add_superscript(obj_.value) + elif hasattr(self, 'set_superscript'): + self.set_superscript(obj_.value) + elif nodeName_ == 'center': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'center', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_center'): + self.add_center(obj_.value) + elif hasattr(self, 'set_center'): + self.set_center(obj_.value) + elif nodeName_ == 'small': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'small', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_small'): + self.add_small(obj_.value) + elif hasattr(self, 'set_small'): + self.set_small(obj_.value) + elif nodeName_ == 'del': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'del', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_del'): + self.add_del(obj_.value) + elif hasattr(self, 'set_del'): + self.set_del(obj_.value) + elif nodeName_ == 'ins': + obj_ = docMarkupType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ins', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ins'): + self.add_ins(obj_.value) + elif hasattr(self, 'set_ins'): + self.set_ins(obj_.value) + elif nodeName_ == 'htmlonly': + obj_ = docHtmlOnlyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'htmlonly', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_htmlonly'): + self.add_htmlonly(obj_.value) + elif hasattr(self, 'set_htmlonly'): + self.set_htmlonly(obj_.value) + elif nodeName_ == 'manonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'manonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'manonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'manonly', valuestr_) + self.content_.append(obj_) + self.manonly_nsprefix_ = child_.prefix + elif nodeName_ == 'xmlonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'xmlonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'xmlonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'xmlonly', valuestr_) + self.content_.append(obj_) + self.xmlonly_nsprefix_ = child_.prefix + elif nodeName_ == 'rtfonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'rtfonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'rtfonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'rtfonly', valuestr_) + self.content_.append(obj_) + self.rtfonly_nsprefix_ = child_.prefix + elif nodeName_ == 'latexonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'latexonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'latexonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'latexonly', valuestr_) + self.content_.append(obj_) + self.latexonly_nsprefix_ = child_.prefix + elif nodeName_ == 'docbookonly' and child_.text is not None: + valuestr_ = child_.text + valuestr_ = self.gds_parse_string(valuestr_, node, 'docbookonly') + valuestr_ = self.gds_validate_string(valuestr_, node, 'docbookonly') + obj_ = self.mixedclass_(MixedContainer.CategorySimple, + MixedContainer.TypeString, 'docbookonly', valuestr_) + self.content_.append(obj_) + self.docbookonly_nsprefix_ = child_.prefix + elif nodeName_ == 'image': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'image', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_image'): + self.add_image(obj_.value) + elif hasattr(self, 'set_image'): + self.set_image(obj_.value) + elif nodeName_ == 'dot': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'dot', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_dot'): + self.add_dot(obj_.value) + elif hasattr(self, 'set_dot'): + self.set_dot(obj_.value) + elif nodeName_ == 'msc': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'msc', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_msc'): + self.add_msc(obj_.value) + elif hasattr(self, 'set_msc'): + self.set_msc(obj_.value) + elif nodeName_ == 'plantuml': + obj_ = docImageType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'plantuml', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_plantuml'): + self.add_plantuml(obj_.value) + elif hasattr(self, 'set_plantuml'): + self.set_plantuml(obj_.value) + elif nodeName_ == 'anchor': + obj_ = docAnchorType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'anchor', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_anchor'): + self.add_anchor(obj_.value) + elif hasattr(self, 'set_anchor'): + self.set_anchor(obj_.value) + elif nodeName_ == 'formula': + obj_ = docFormulaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'formula', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_formula'): + self.add_formula(obj_.value) + elif hasattr(self, 'set_formula'): + self.set_formula(obj_.value) + elif nodeName_ == 'ref': + obj_ = docRefTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + elif nodeName_ == 'emoji': + obj_ = docEmojiType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'emoji', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_emoji'): + self.add_emoji(obj_.value) + elif hasattr(self, 'set_emoji'): + self.set_emoji(obj_.value) + elif nodeName_ == 'linebreak': + obj_ = docEmptyType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'linebreak', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_linebreak'): + self.add_linebreak(obj_.value) + elif hasattr(self, 'set_linebreak'): + self.set_linebreak(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docTocItemType + + +class docTocListType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, tocitem=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if tocitem is None: + self.tocitem = [] + else: + self.tocitem = tocitem + self.tocitem_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docTocListType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docTocListType.subclass: + return docTocListType.subclass(*args_, **kwargs_) + else: + return docTocListType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_tocitem(self): + return self.tocitem + def set_tocitem(self, tocitem): + self.tocitem = tocitem + def add_tocitem(self, value): + self.tocitem.append(value) + def insert_tocitem_at(self, index, value): + self.tocitem.insert(index, value) + def replace_tocitem_at(self, index, value): + self.tocitem[index] = value + def hasContent_(self): + if ( + self.tocitem + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTocListType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docTocListType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docTocListType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docTocListType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docTocListType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docTocListType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docTocListType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for tocitem_ in self.tocitem: + namespaceprefix_ = self.tocitem_nsprefix_ + ':' if (UseCapturedNS_ and self.tocitem_nsprefix_) else '' + tocitem_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='tocitem', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'tocitem': + obj_ = docTocItemType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.tocitem.append(obj_) + obj_.original_tagname_ = 'tocitem' +# end class docTocListType + + +class docLanguageType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, langid=None, para=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.langid = _cast(None, langid) + self.langid_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docLanguageType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docLanguageType.subclass: + return docLanguageType.subclass(*args_, **kwargs_) + else: + return docLanguageType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_langid(self): + return self.langid + def set_langid(self, langid): + self.langid = langid + def hasContent_(self): + if ( + self.para + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docLanguageType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docLanguageType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docLanguageType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docLanguageType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docLanguageType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docLanguageType'): + if self.langid is not None and 'langid' not in already_processed: + already_processed.add('langid') + outfile.write(' langid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.langid), input_name='langid')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docLanguageType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('langid', node) + if value is not None and 'langid' not in already_processed: + already_processed.add('langid') + self.langid = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' +# end class docLanguageType + + +class docParamListType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, kind=None, parameteritem=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + if parameteritem is None: + self.parameteritem = [] + else: + self.parameteritem = parameteritem + self.parameteritem_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParamListType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParamListType.subclass: + return docParamListType.subclass(*args_, **kwargs_) + else: + return docParamListType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_parameteritem(self): + return self.parameteritem + def set_parameteritem(self, parameteritem): + self.parameteritem = parameteritem + def add_parameteritem(self, value): + self.parameteritem.append(value) + def insert_parameteritem_at(self, index, value): + self.parameteritem.insert(index, value) + def replace_parameteritem_at(self, index, value): + self.parameteritem[index] = value + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def validate_DoxParamListKind(self, value): + # Validate type DoxParamListKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['param', 'retval', 'exception', 'templateparam'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxParamListKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.parameteritem + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamListType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParamListType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParamListType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParamListType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParamListType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParamListType'): + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamListType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for parameteritem_ in self.parameteritem: + namespaceprefix_ = self.parameteritem_nsprefix_ + ':' if (UseCapturedNS_ and self.parameteritem_nsprefix_) else '' + parameteritem_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parameteritem', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_DoxParamListKind(self.kind) # validate type DoxParamListKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'parameteritem': + obj_ = docParamListItem.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.parameteritem.append(obj_) + obj_.original_tagname_ = 'parameteritem' +# end class docParamListType + + +class docParamListItem(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, parameternamelist=None, parameterdescription=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if parameternamelist is None: + self.parameternamelist = [] + else: + self.parameternamelist = parameternamelist + self.parameternamelist_nsprefix_ = None + self.parameterdescription = parameterdescription + self.parameterdescription_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParamListItem) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParamListItem.subclass: + return docParamListItem.subclass(*args_, **kwargs_) + else: + return docParamListItem(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_parameternamelist(self): + return self.parameternamelist + def set_parameternamelist(self, parameternamelist): + self.parameternamelist = parameternamelist + def add_parameternamelist(self, value): + self.parameternamelist.append(value) + def insert_parameternamelist_at(self, index, value): + self.parameternamelist.insert(index, value) + def replace_parameternamelist_at(self, index, value): + self.parameternamelist[index] = value + def get_parameterdescription(self): + return self.parameterdescription + def set_parameterdescription(self, parameterdescription): + self.parameterdescription = parameterdescription + def hasContent_(self): + if ( + self.parameternamelist or + self.parameterdescription is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamListItem', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParamListItem') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParamListItem': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParamListItem') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParamListItem', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParamListItem'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamListItem', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for parameternamelist_ in self.parameternamelist: + namespaceprefix_ = self.parameternamelist_nsprefix_ + ':' if (UseCapturedNS_ and self.parameternamelist_nsprefix_) else '' + parameternamelist_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parameternamelist', pretty_print=pretty_print) + if self.parameterdescription is not None: + namespaceprefix_ = self.parameterdescription_nsprefix_ + ':' if (UseCapturedNS_ and self.parameterdescription_nsprefix_) else '' + self.parameterdescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parameterdescription', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'parameternamelist': + obj_ = docParamNameList.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.parameternamelist.append(obj_) + obj_.original_tagname_ = 'parameternamelist' + elif nodeName_ == 'parameterdescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.parameterdescription = obj_ + obj_.original_tagname_ = 'parameterdescription' +# end class docParamListItem + + +class docParamNameList(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, parametertype=None, parametername=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if parametertype is None: + self.parametertype = [] + else: + self.parametertype = parametertype + self.parametertype_nsprefix_ = None + if parametername is None: + self.parametername = [] + else: + self.parametername = parametername + self.parametername_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParamNameList) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParamNameList.subclass: + return docParamNameList.subclass(*args_, **kwargs_) + else: + return docParamNameList(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_parametertype(self): + return self.parametertype + def set_parametertype(self, parametertype): + self.parametertype = parametertype + def add_parametertype(self, value): + self.parametertype.append(value) + def insert_parametertype_at(self, index, value): + self.parametertype.insert(index, value) + def replace_parametertype_at(self, index, value): + self.parametertype[index] = value + def get_parametername(self): + return self.parametername + def set_parametername(self, parametername): + self.parametername = parametername + def add_parametername(self, value): + self.parametername.append(value) + def insert_parametername_at(self, index, value): + self.parametername.insert(index, value) + def replace_parametername_at(self, index, value): + self.parametername[index] = value + def hasContent_(self): + if ( + self.parametertype or + self.parametername + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamNameList', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParamNameList') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParamNameList': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParamNameList') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParamNameList', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParamNameList'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamNameList', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for parametertype_ in self.parametertype: + namespaceprefix_ = self.parametertype_nsprefix_ + ':' if (UseCapturedNS_ and self.parametertype_nsprefix_) else '' + parametertype_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parametertype', pretty_print=pretty_print) + for parametername_ in self.parametername: + namespaceprefix_ = self.parametername_nsprefix_ + ':' if (UseCapturedNS_ and self.parametername_nsprefix_) else '' + parametername_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='parametername', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'parametertype': + obj_ = docParamType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.parametertype.append(obj_) + obj_.original_tagname_ = 'parametertype' + elif nodeName_ == 'parametername': + obj_ = docParamName.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.parametername.append(obj_) + obj_.original_tagname_ = 'parametername' +# end class docParamNameList + + +class docParamType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, ref=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.ref = ref + self.ref_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParamType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParamType.subclass: + return docParamType.subclass(*args_, **kwargs_) + else: + return docParamType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def hasContent_(self): + if ( + self.ref is not None or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParamType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParamType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParamType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParamType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParamType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamType', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.ref is not None: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + self.ref.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ref': + obj_ = refTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docParamType + + +class docParamName(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, direction=None, ref=None, valueOf_=None, mixedclass_=None, content_=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.direction = _cast(None, direction) + self.direction_nsprefix_ = None + self.ref = ref + self.ref_nsprefix_ = None + self.valueOf_ = valueOf_ + if mixedclass_ is None: + self.mixedclass_ = MixedContainer + else: + self.mixedclass_ = mixedclass_ + if content_ is None: + self.content_ = [] + else: + self.content_ = content_ + self.valueOf_ = valueOf_ + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParamName) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParamName.subclass: + return docParamName.subclass(*args_, **kwargs_) + else: + return docParamName(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_ref(self): + return self.ref + def set_ref(self, ref): + self.ref = ref + def get_direction(self): + return self.direction + def set_direction(self, direction): + self.direction = direction + def get_valueOf_(self): return self.valueOf_ + def set_valueOf_(self, valueOf_): self.valueOf_ = valueOf_ + def validate_DoxParamDir(self, value): + # Validate type DoxParamDir, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['in', 'out', 'inout'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on DoxParamDir' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.ref is not None or + (1 if type(self.valueOf_) in [int,float] else self.valueOf_) or + self.content_ + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamName', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParamName') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParamName': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParamName') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParamName', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParamName'): + if self.direction is not None and 'direction' not in already_processed: + already_processed.add('direction') + outfile.write(' direction=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.direction), input_name='direction')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParamName', fromsubclass_=False, pretty_print=True): + if not fromsubclass_: + for item_ in self.content_: + item_.export(outfile, level, item_.name, namespaceprefix_, pretty_print=pretty_print) + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.ref is not None: + namespaceprefix_ = self.ref_nsprefix_ + ':' if (UseCapturedNS_ and self.ref_nsprefix_) else '' + self.ref.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ref', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + self.valueOf_ = get_all_text_(node) + if node.text is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', node.text) + self.content_.append(obj_) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('direction', node) + if value is not None and 'direction' not in already_processed: + already_processed.add('direction') + self.direction = value + self.validate_DoxParamDir(self.direction) # validate type DoxParamDir + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'ref': + obj_ = refTextType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + obj_ = self.mixedclass_(MixedContainer.CategoryComplex, + MixedContainer.TypeNone, 'ref', obj_) + self.content_.append(obj_) + if hasattr(self, 'add_ref'): + self.add_ref(obj_.value) + elif hasattr(self, 'set_ref'): + self.set_ref(obj_.value) + if not fromsubclass_ and child_.tail is not None: + obj_ = self.mixedclass_(MixedContainer.CategoryText, + MixedContainer.TypeNone, '', child_.tail) + self.content_.append(obj_) +# end class docParamName + + +class docXRefSectType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, id=None, xreftitle=None, xrefdescription=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.id = _cast(None, id) + self.id_nsprefix_ = None + if xreftitle is None: + self.xreftitle = [] + else: + self.xreftitle = xreftitle + self.xreftitle_nsprefix_ = None + self.xrefdescription = xrefdescription + self.xrefdescription_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docXRefSectType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docXRefSectType.subclass: + return docXRefSectType.subclass(*args_, **kwargs_) + else: + return docXRefSectType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_xreftitle(self): + return self.xreftitle + def set_xreftitle(self, xreftitle): + self.xreftitle = xreftitle + def add_xreftitle(self, value): + self.xreftitle.append(value) + def insert_xreftitle_at(self, index, value): + self.xreftitle.insert(index, value) + def replace_xreftitle_at(self, index, value): + self.xreftitle[index] = value + def get_xrefdescription(self): + return self.xrefdescription + def set_xrefdescription(self, xrefdescription): + self.xrefdescription = xrefdescription + def get_id(self): + return self.id + def set_id(self, id): + self.id = id + def hasContent_(self): + if ( + self.xreftitle or + self.xrefdescription is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docXRefSectType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docXRefSectType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docXRefSectType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docXRefSectType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docXRefSectType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docXRefSectType'): + if self.id is not None and 'id' not in already_processed: + already_processed.add('id') + outfile.write(' id=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.id), input_name='id')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docXRefSectType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for xreftitle_ in self.xreftitle: + namespaceprefix_ = self.xreftitle_nsprefix_ + ':' if (UseCapturedNS_ and self.xreftitle_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sxreftitle>%s</%sxreftitle>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(xreftitle_), input_name='xreftitle')), namespaceprefix_ , eol_)) + if self.xrefdescription is not None: + namespaceprefix_ = self.xrefdescription_nsprefix_ + ':' if (UseCapturedNS_ and self.xrefdescription_nsprefix_) else '' + self.xrefdescription.export(outfile, level, namespaceprefix_, namespacedef_='', name_='xrefdescription', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('id', node) + if value is not None and 'id' not in already_processed: + already_processed.add('id') + self.id = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'xreftitle': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'xreftitle') + value_ = self.gds_validate_string(value_, node, 'xreftitle') + self.xreftitle.append(value_) + self.xreftitle_nsprefix_ = child_.prefix + elif nodeName_ == 'xrefdescription': + obj_ = descriptionType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.xrefdescription = obj_ + obj_.original_tagname_ = 'xrefdescription' +# end class docXRefSectType + + +class docCopyType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, link=None, para=None, sect1=None, internal=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.link = _cast(None, link) + self.link_nsprefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + if sect1 is None: + self.sect1 = [] + else: + self.sect1 = sect1 + self.sect1_nsprefix_ = None + self.internal = internal + self.internal_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docCopyType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docCopyType.subclass: + return docCopyType.subclass(*args_, **kwargs_) + else: + return docCopyType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def get_sect1(self): + return self.sect1 + def set_sect1(self, sect1): + self.sect1 = sect1 + def add_sect1(self, value): + self.sect1.append(value) + def insert_sect1_at(self, index, value): + self.sect1.insert(index, value) + def replace_sect1_at(self, index, value): + self.sect1[index] = value + def get_internal(self): + return self.internal + def set_internal(self, internal): + self.internal = internal + def get_link(self): + return self.link + def set_link(self, link): + self.link = link + def hasContent_(self): + if ( + self.para or + self.sect1 or + self.internal is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docCopyType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docCopyType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docCopyType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docCopyType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docCopyType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docCopyType'): + if self.link is not None and 'link' not in already_processed: + already_processed.add('link') + outfile.write(' link=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.link), input_name='link')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docCopyType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + for sect1_ in self.sect1: + namespaceprefix_ = self.sect1_nsprefix_ + ':' if (UseCapturedNS_ and self.sect1_nsprefix_) else '' + sect1_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='sect1', pretty_print=pretty_print) + if self.internal is not None: + namespaceprefix_ = self.internal_nsprefix_ + ':' if (UseCapturedNS_ and self.internal_nsprefix_) else '' + self.internal.export(outfile, level, namespaceprefix_, namespacedef_='', name_='internal', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('link', node) + if value is not None and 'link' not in already_processed: + already_processed.add('link') + self.link = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' + elif nodeName_ == 'sect1': + obj_ = docSect1Type.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.sect1.append(obj_) + obj_.original_tagname_ = 'sect1' + elif nodeName_ == 'internal': + obj_ = docInternalType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.internal = obj_ + obj_.original_tagname_ = 'internal' +# end class docCopyType + + +class docBlockQuoteType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docBlockQuoteType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docBlockQuoteType.subclass: + return docBlockQuoteType.subclass(*args_, **kwargs_) + else: + return docBlockQuoteType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def hasContent_(self): + if ( + self.para + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docBlockQuoteType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docBlockQuoteType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docBlockQuoteType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docBlockQuoteType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docBlockQuoteType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docBlockQuoteType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docBlockQuoteType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' +# end class docBlockQuoteType + + +class docParBlockType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, para=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if para is None: + self.para = [] + else: + self.para = para + self.para_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docParBlockType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docParBlockType.subclass: + return docParBlockType.subclass(*args_, **kwargs_) + else: + return docParBlockType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_para(self): + return self.para + def set_para(self, para): + self.para = para + def add_para(self, value): + self.para.append(value) + def insert_para_at(self, index, value): + self.para.insert(index, value) + def replace_para_at(self, index, value): + self.para[index] = value + def hasContent_(self): + if ( + self.para + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParBlockType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docParBlockType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docParBlockType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docParBlockType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docParBlockType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docParBlockType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docParBlockType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for para_ in self.para: + namespaceprefix_ = self.para_nsprefix_ + ':' if (UseCapturedNS_ and self.para_nsprefix_) else '' + para_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='para', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'para': + obj_ = docParaType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.para.append(obj_) + obj_.original_tagname_ = 'para' +# end class docParBlockType + + +class docEmptyType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docEmptyType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docEmptyType.subclass: + return docEmptyType.subclass(*args_, **kwargs_) + else: + return docEmptyType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docEmptyType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docEmptyType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docEmptyType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docEmptyType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docEmptyType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docEmptyType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docEmptyType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class docEmptyType + + +class tableofcontentsType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, tocsect=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + if tocsect is None: + self.tocsect = [] + else: + self.tocsect = tocsect + self.tocsect_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, tableofcontentsType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if tableofcontentsType.subclass: + return tableofcontentsType.subclass(*args_, **kwargs_) + else: + return tableofcontentsType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_tocsect(self): + return self.tocsect + def set_tocsect(self, tocsect): + self.tocsect = tocsect + def add_tocsect(self, value): + self.tocsect.append(value) + def insert_tocsect_at(self, index, value): + self.tocsect.insert(index, value) + def replace_tocsect_at(self, index, value): + self.tocsect[index] = value + def hasContent_(self): + if ( + self.tocsect + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='tableofcontentsType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('tableofcontentsType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'tableofcontentsType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='tableofcontentsType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='tableofcontentsType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='tableofcontentsType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='tableofcontentsType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for tocsect_ in self.tocsect: + namespaceprefix_ = self.tocsect_nsprefix_ + ':' if (UseCapturedNS_ and self.tocsect_nsprefix_) else '' + tocsect_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='tocsect', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'tocsect': + obj_ = tableofcontentsKindType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.tocsect.append(obj_) + obj_.original_tagname_ = 'tocsect' +# end class tableofcontentsType + + +class tableofcontentsKindType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, name=None, reference=None, tableofcontents=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.name = name + self.name_nsprefix_ = None + self.reference = reference + self.reference_nsprefix_ = None + if tableofcontents is None: + self.tableofcontents = [] + else: + self.tableofcontents = tableofcontents + self.tableofcontents_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, tableofcontentsKindType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if tableofcontentsKindType.subclass: + return tableofcontentsKindType.subclass(*args_, **kwargs_) + else: + return tableofcontentsKindType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_reference(self): + return self.reference + def set_reference(self, reference): + self.reference = reference + def get_tableofcontents(self): + return self.tableofcontents + def set_tableofcontents(self, tableofcontents): + self.tableofcontents = tableofcontents + def add_tableofcontents(self, value): + self.tableofcontents.append(value) + def insert_tableofcontents_at(self, index, value): + self.tableofcontents.insert(index, value) + def replace_tableofcontents_at(self, index, value): + self.tableofcontents[index] = value + def hasContent_(self): + if ( + self.name is not None or + self.reference is not None or + self.tableofcontents + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='tableofcontentsKindType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('tableofcontentsKindType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'tableofcontentsKindType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='tableofcontentsKindType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='tableofcontentsKindType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='tableofcontentsKindType'): + pass + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='tableofcontentsKindType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.name is not None: + namespaceprefix_ = self.name_nsprefix_ + ':' if (UseCapturedNS_ and self.name_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sname>%s</%sname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.name), input_name='name')), namespaceprefix_ , eol_)) + if self.reference is not None: + namespaceprefix_ = self.reference_nsprefix_ + ':' if (UseCapturedNS_ and self.reference_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sreference>%s</%sreference>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.reference), input_name='reference')), namespaceprefix_ , eol_)) + for tableofcontents_ in self.tableofcontents: + namespaceprefix_ = self.tableofcontents_nsprefix_ + ':' if (UseCapturedNS_ and self.tableofcontents_nsprefix_) else '' + tableofcontents_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='tableofcontents', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + pass + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'name': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'name') + value_ = self.gds_validate_string(value_, node, 'name') + self.name = value_ + self.name_nsprefix_ = child_.prefix + elif nodeName_ == 'reference': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'reference') + value_ = self.gds_validate_string(value_, node, 'reference') + self.reference = value_ + self.reference_nsprefix_ = child_.prefix + elif nodeName_ == 'tableofcontents': + obj_ = tableofcontentsType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.tableofcontents.append(obj_) + obj_.original_tagname_ = 'tableofcontents' +# end class tableofcontentsKindType + + +class docEmojiType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, name=None, unicode=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.name = _cast(None, name) + self.name_nsprefix_ = None + self.unicode = _cast(None, unicode) + self.unicode_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, docEmojiType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if docEmojiType.subclass: + return docEmojiType.subclass(*args_, **kwargs_) + else: + return docEmojiType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_unicode(self): + return self.unicode + def set_unicode(self, unicode): + self.unicode = unicode + def hasContent_(self): + if ( + + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docEmojiType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('docEmojiType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'docEmojiType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='docEmojiType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='docEmojiType', pretty_print=pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='docEmojiType'): + if self.name is not None and 'name' not in already_processed: + already_processed.add('name') + outfile.write(' name=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.name), input_name='name')), )) + if self.unicode is not None and 'unicode' not in already_processed: + already_processed.add('unicode') + outfile.write(' unicode=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.unicode), input_name='unicode')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='docEmojiType', fromsubclass_=False, pretty_print=True): + pass + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('name', node) + if value is not None and 'name' not in already_processed: + already_processed.add('name') + self.name = value + value = find_attr_value_('unicode', node) + if value is not None and 'unicode' not in already_processed: + already_processed.add('unicode') + self.unicode = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + pass +# end class docEmojiType + + +GDSClassesMapping = { + 'doxygen': DoxygenType, +} + + +USAGE_TEXT = """ +Usage: python <Parser>.py [ -s ] <in_xml_file> +""" + + +def usage(): + print(USAGE_TEXT) + sys.exit(1) + + +def get_root_tag(node): + tag = Tag_pattern_.match(node.tag).groups()[-1] + rootClass = GDSClassesMapping.get(tag) + if rootClass is None: + rootClass = globals().get(tag) + return tag, rootClass + + +def get_required_ns_prefix_defs(rootNode): + '''Get all name space prefix definitions required in this XML doc. + Return a dictionary of definitions and a char string of definitions. + ''' + nsmap = { + prefix: uri + for node in rootNode.iter() + for (prefix, uri) in node.nsmap.items() + if prefix is not None + } + namespacedefs = ' '.join([ + 'xmlns:{}="{}"'.format(prefix, uri) + for prefix, uri in nsmap.items() + ]) + return nsmap, namespacedefs + + +def parse(inFileName, silence=False, print_warnings=True): + global CapturedNsmap_ + gds_collector = GdsCollector_() + parser = None + doc = parsexml_(inFileName, parser) + rootNode = doc.getroot() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + CapturedNsmap_, namespacedefs = get_required_ns_prefix_defs(rootNode) + if not SaveElementTreeNode: + doc = None + rootNode = None + if not silence: + sys.stdout.write('<?xml version="1.0" ?>\n') + rootObj.export( + sys.stdout, 0, name_=rootTag, + namespacedef_=namespacedefs, + pretty_print=True) + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj + + +def parseEtree(inFileName, silence=False, print_warnings=True, + mapping=None, nsmap=None): + parser = None + doc = parsexml_(inFileName, parser) + gds_collector = GdsCollector_() + rootNode = doc.getroot() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + # Enable Python to collect the space used by the DOM. + if mapping is None: + mapping = {} + rootElement = rootObj.to_etree( + None, name_=rootTag, mapping_=mapping, nsmap_=nsmap) + reverse_mapping = rootObj.gds_reverse_node_mapping(mapping) + if not SaveElementTreeNode: + doc = None + rootNode = None + if not silence: + content = etree_.tostring( + rootElement, pretty_print=True, + xml_declaration=True, encoding="utf-8") + sys.stdout.write(str(content)) + sys.stdout.write('\n') + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj, rootElement, mapping, reverse_mapping + + +def parseString(inString, silence=False, print_warnings=True): + '''Parse a string, create the object tree, and export it. + + Arguments: + - inString -- A string. This XML fragment should not start + with an XML declaration containing an encoding. + - silence -- A boolean. If False, export the object. + Returns -- The root object in the tree. + ''' + parser = None + rootNode= parsexmlstring_(inString, parser) + gds_collector = GdsCollector_() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + if not SaveElementTreeNode: + rootNode = None + if not silence: + sys.stdout.write('<?xml version="1.0" ?>\n') + rootObj.export( + sys.stdout, 0, name_=rootTag, + namespacedef_='') + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj + + +def parseLiteral(inFileName, silence=False, print_warnings=True): + parser = None + doc = parsexml_(inFileName, parser) + gds_collector = GdsCollector_() + rootNode = doc.getroot() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + # Enable Python to collect the space used by the DOM. + if not SaveElementTreeNode: + doc = None + rootNode = None + if not silence: + sys.stdout.write('#from compound import *\n\n') + sys.stdout.write('import compound as model_\n\n') + sys.stdout.write('rootObj = model_.rootClass(\n') + rootObj.exportLiteral(sys.stdout, 0, name_=rootTag) + sys.stdout.write(')\n') + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj + + +def main(): + args = sys.argv[1:] + if len(args) == 1: + parse(args[0]) + else: + usage() + + +if __name__ == '__main__': + #import pdb; pdb.set_trace() + main() + +RenameMappings_ = { +} + +# +# Mapping of namespaces to types defined in them +# and the file in which each is defined. +# simpleTypes are marked "ST" and complexTypes "CT". +NamespaceToDefMappings_ = {'http://www.w3.org/XML/1998/namespace': []} + +__all__ = [ + "DoxygenType", + "argsstring", + "array", + "attributes", + "bitfield", + "childnodeType", + "codelineType", + "compoundRefType", + "compounddefType", + "declname", + "definition", + "defname", + "descriptionType", + "docAnchorType", + "docBlockQuoteType", + "docCaptionType", + "docCopyType", + "docEmojiType", + "docEmptyType", + "docEntryType", + "docFormulaType", + "docHeadingType", + "docHtmlOnlyType", + "docImageType", + "docIndexEntryType", + "docInternalS1Type", + "docInternalS2Type", + "docInternalS3Type", + "docInternalS4Type", + "docInternalType", + "docLanguageType", + "docListItemType", + "docListType", + "docMarkupType", + "docParBlockType", + "docParaType", + "docParamListItem", + "docParamListType", + "docParamName", + "docParamNameList", + "docParamType", + "docRefTextType", + "docRowType", + "docSect1Type", + "docSect2Type", + "docSect3Type", + "docSect4Type", + "docSimpleSectType", + "docTableType", + "docTitleType", + "docTocItemType", + "docTocListType", + "docURLLink", + "docVarListEntryType", + "docVariableListType", + "docXRefSectType", + "edgelabel", + "enumvalueType", + "graphType", + "highlightType", + "incType", + "label", + "linkType", + "linkedTextType", + "listingType", + "listofallmembersType", + "locationType", + "memberRefType", + "memberdefType", + "name", + "nodeType", + "paramType", + "read", + "refTextType", + "refType", + "referenceType", + "reimplementType", + "scope", + "sectiondefType", + "spType", + "tableofcontentsKindType", + "tableofcontentsType", + "templateparamlistType", + "write" +] diff --git a/addon/doxmlparser/doxmlparser/index.py b/addon/doxmlparser/doxmlparser/index.py new file mode 100644 index 0000000..5ef79c8 --- /dev/null +++ b/addon/doxmlparser/doxmlparser/index.py @@ -0,0 +1,1621 @@ +#!/usr/bin/env python +# -*- coding: utf-8 -*- + +# +# Generated by generateDS.py. +# Python 3.9.0 (default, Oct 27 2020, 14:15:17) [Clang 12.0.0 (clang-1200.0.32.21)] +# +# Command line options: +# ('--no-dates', '') +# ('--no-versions', '') +# ('-f', '') +# ('-o', '/Users/dimitri/doxygen.git/addon/doxmlparser/doxmlparser/index.py') +# +# Command line arguments: +# /Users/dimitri/doxygen.git/templates/xml/index.xsd +# +# Command line: +# /usr/local/bin/generateDS --no-dates --no-versions -f -o "/Users/dimitri/doxygen.git/addon/doxmlparser/doxmlparser/index.py" /Users/dimitri/doxygen.git/templates/xml/index.xsd +# +# Current working directory (os.getcwd()): +# doxmlparser +# + +import sys +try: + ModulenotfoundExp_ = ModuleNotFoundError +except NameError: + ModulenotfoundExp_ = ImportError +from six.moves import zip_longest +import os +import re as re_ +import base64 +import datetime as datetime_ +import decimal as decimal_ +try: + from lxml import etree as etree_ +except ModulenotfoundExp_ : + from xml.etree import ElementTree as etree_ + + +Validate_simpletypes_ = True +SaveElementTreeNode = True +if sys.version_info.major == 2: + BaseStrType_ = basestring +else: + BaseStrType_ = str + + +def parsexml_(infile, parser=None, **kwargs): + if parser is None: + # Use the lxml ElementTree compatible parser so that, e.g., + # we ignore comments. + try: + parser = etree_.ETCompatXMLParser() + except AttributeError: + # fallback to xml.etree + parser = etree_.XMLParser() + try: + if isinstance(infile, os.PathLike): + infile = os.path.join(infile) + except AttributeError: + pass + doc = etree_.parse(infile, parser=parser, **kwargs) + return doc + +def parsexmlstring_(instring, parser=None, **kwargs): + if parser is None: + # Use the lxml ElementTree compatible parser so that, e.g., + # we ignore comments. + try: + parser = etree_.ETCompatXMLParser() + except AttributeError: + # fallback to xml.etree + parser = etree_.XMLParser() + element = etree_.fromstring(instring, parser=parser, **kwargs) + return element + +# +# Namespace prefix definition table (and other attributes, too) +# +# The module generatedsnamespaces, if it is importable, must contain +# a dictionary named GeneratedsNamespaceDefs. This Python dictionary +# should map element type names (strings) to XML schema namespace prefix +# definitions. The export method for any class for which there is +# a namespace prefix definition, will export that definition in the +# XML representation of that element. See the export method of +# any generated element type class for an example of the use of this +# table. +# A sample table is: +# +# # File: generatedsnamespaces.py +# +# GenerateDSNamespaceDefs = { +# "ElementtypeA": "http://www.xxx.com/namespaceA", +# "ElementtypeB": "http://www.xxx.com/namespaceB", +# } +# +# Additionally, the generatedsnamespaces module can contain a python +# dictionary named GenerateDSNamespaceTypePrefixes that associates element +# types with the namespace prefixes that are to be added to the +# "xsi:type" attribute value. See the exportAttributes method of +# any generated element type and the generation of "xsi:type" for an +# example of the use of this table. +# An example table: +# +# # File: generatedsnamespaces.py +# +# GenerateDSNamespaceTypePrefixes = { +# "ElementtypeC": "aaa:", +# "ElementtypeD": "bbb:", +# } +# + +try: + from generatedsnamespaces import GenerateDSNamespaceDefs as GenerateDSNamespaceDefs_ +except ModulenotfoundExp_ : + GenerateDSNamespaceDefs_ = {} +try: + from generatedsnamespaces import GenerateDSNamespaceTypePrefixes as GenerateDSNamespaceTypePrefixes_ +except ModulenotfoundExp_ : + GenerateDSNamespaceTypePrefixes_ = {} + +# +# You can replace the following class definition by defining an +# importable module named "generatedscollector" containing a class +# named "GdsCollector". See the default class definition below for +# clues about the possible content of that class. +# +try: + from generatedscollector import GdsCollector as GdsCollector_ +except ModulenotfoundExp_ : + + class GdsCollector_(object): + + def __init__(self, messages=None): + if messages is None: + self.messages = [] + else: + self.messages = messages + + def add_message(self, msg): + self.messages.append(msg) + + def get_messages(self): + return self.messages + + def clear_messages(self): + self.messages = [] + + def print_messages(self): + for msg in self.messages: + print("Warning: {}".format(msg)) + + def write_messages(self, outstream): + for msg in self.messages: + outstream.write("Warning: {}\n".format(msg)) + + +# +# The super-class for enum types +# + +try: + from enum import Enum +except ModulenotfoundExp_ : + Enum = object + +# +# The root super-class for element type classes +# +# Calls to the methods in these classes are generated by generateDS.py. +# You can replace these methods by re-implementing the following class +# in a module named generatedssuper.py. + +try: + from generatedssuper import GeneratedsSuper +except ModulenotfoundExp_ as exp: + + class GeneratedsSuper(object): + __hash__ = object.__hash__ + tzoff_pattern = re_.compile(r'(\+|-)((0\d|1[0-3]):[0-5]\d|14:00)$') + class _FixedOffsetTZ(datetime_.tzinfo): + def __init__(self, offset, name): + self.__offset = datetime_.timedelta(minutes=offset) + self.__name = name + def utcoffset(self, dt): + return self.__offset + def tzname(self, dt): + return self.__name + def dst(self, dt): + return None + def gds_format_string(self, input_data, input_name=''): + return input_data + def gds_parse_string(self, input_data, node=None, input_name=''): + return input_data + def gds_validate_string(self, input_data, node=None, input_name=''): + if not input_data: + return '' + else: + return input_data + def gds_format_base64(self, input_data, input_name=''): + return base64.b64encode(input_data) + def gds_validate_base64(self, input_data, node=None, input_name=''): + return input_data + def gds_format_integer(self, input_data, input_name=''): + return '%d' % input_data + def gds_parse_integer(self, input_data, node=None, input_name=''): + try: + ival = int(input_data) + except (TypeError, ValueError) as exp: + raise_parse_error(node, 'Requires integer value: %s' % exp) + return ival + def gds_validate_integer(self, input_data, node=None, input_name=''): + try: + value = int(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires integer value') + return value + def gds_format_integer_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_integer_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + int(value) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires sequence of integer values') + return values + def gds_format_float(self, input_data, input_name=''): + return ('%.15f' % input_data).rstrip('0') + def gds_parse_float(self, input_data, node=None, input_name=''): + try: + fval_ = float(input_data) + except (TypeError, ValueError) as exp: + raise_parse_error(node, 'Requires float or double value: %s' % exp) + return fval_ + def gds_validate_float(self, input_data, node=None, input_name=''): + try: + value = float(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires float value') + return value + def gds_format_float_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_float_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + float(value) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires sequence of float values') + return values + def gds_format_decimal(self, input_data, input_name=''): + return_value = '%s' % input_data + if '.' in return_value: + return_value = return_value.rstrip('0') + if return_value.endswith('.'): + return_value = return_value.rstrip('.') + return return_value + def gds_parse_decimal(self, input_data, node=None, input_name=''): + try: + decimal_value = decimal_.Decimal(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires decimal value') + return decimal_value + def gds_validate_decimal(self, input_data, node=None, input_name=''): + try: + value = decimal_.Decimal(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires decimal value') + return value + def gds_format_decimal_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return ' '.join([self.gds_format_decimal(item) for item in input_data]) + def gds_validate_decimal_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + decimal_.Decimal(value) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires sequence of decimal values') + return values + def gds_format_double(self, input_data, input_name=''): + return '%s' % input_data + def gds_parse_double(self, input_data, node=None, input_name=''): + try: + fval_ = float(input_data) + except (TypeError, ValueError) as exp: + raise_parse_error(node, 'Requires double or float value: %s' % exp) + return fval_ + def gds_validate_double(self, input_data, node=None, input_name=''): + try: + value = float(input_data) + except (TypeError, ValueError): + raise_parse_error(node, 'Requires double or float value') + return value + def gds_format_double_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_double_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + try: + float(value) + except (TypeError, ValueError): + raise_parse_error( + node, 'Requires sequence of double or float values') + return values + def gds_format_boolean(self, input_data, input_name=''): + return ('%s' % input_data).lower() + def gds_parse_boolean(self, input_data, node=None, input_name=''): + if input_data in ('true', '1'): + bval = True + elif input_data in ('false', '0'): + bval = False + else: + raise_parse_error(node, 'Requires boolean value') + return bval + def gds_validate_boolean(self, input_data, node=None, input_name=''): + if input_data not in (True, 1, False, 0, ): + raise_parse_error( + node, + 'Requires boolean value ' + '(one of True, 1, False, 0)') + return input_data + def gds_format_boolean_list(self, input_data, input_name=''): + if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): + input_data = [str(s) for s in input_data] + return '%s' % ' '.join(input_data) + def gds_validate_boolean_list( + self, input_data, node=None, input_name=''): + values = input_data.split() + for value in values: + if value not in (True, 1, False, 0, ): + raise_parse_error( + node, + 'Requires sequence of boolean values ' + '(one of True, 1, False, 0)') + return values + def gds_validate_datetime(self, input_data, node=None, input_name=''): + return input_data + def gds_format_datetime(self, input_data, input_name=''): + if input_data.microsecond == 0: + _svalue = '%04d-%02d-%02dT%02d:%02d:%02d' % ( + input_data.year, + input_data.month, + input_data.day, + input_data.hour, + input_data.minute, + input_data.second, + ) + else: + _svalue = '%04d-%02d-%02dT%02d:%02d:%02d.%s' % ( + input_data.year, + input_data.month, + input_data.day, + input_data.hour, + input_data.minute, + input_data.second, + ('%f' % (float(input_data.microsecond) / 1000000))[2:], + ) + if input_data.tzinfo is not None: + tzoff = input_data.tzinfo.utcoffset(input_data) + if tzoff is not None: + total_seconds = tzoff.seconds + (86400 * tzoff.days) + if total_seconds == 0: + _svalue += 'Z' + else: + if total_seconds < 0: + _svalue += '-' + total_seconds *= -1 + else: + _svalue += '+' + hours = total_seconds // 3600 + minutes = (total_seconds - (hours * 3600)) // 60 + _svalue += '{0:02d}:{1:02d}'.format(hours, minutes) + return _svalue + @classmethod + def gds_parse_datetime(cls, input_data): + tz = None + if input_data[-1] == 'Z': + tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') + input_data = input_data[:-1] + else: + results = GeneratedsSuper.tzoff_pattern.search(input_data) + if results is not None: + tzoff_parts = results.group(2).split(':') + tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) + if results.group(1) == '-': + tzoff *= -1 + tz = GeneratedsSuper._FixedOffsetTZ( + tzoff, results.group(0)) + input_data = input_data[:-6] + time_parts = input_data.split('.') + if len(time_parts) > 1: + micro_seconds = int(float('0.' + time_parts[1]) * 1000000) + input_data = '%s.%s' % ( + time_parts[0], "{}".format(micro_seconds).rjust(6, "0"), ) + dt = datetime_.datetime.strptime( + input_data, '%Y-%m-%dT%H:%M:%S.%f') + else: + dt = datetime_.datetime.strptime( + input_data, '%Y-%m-%dT%H:%M:%S') + dt = dt.replace(tzinfo=tz) + return dt + def gds_validate_date(self, input_data, node=None, input_name=''): + return input_data + def gds_format_date(self, input_data, input_name=''): + _svalue = '%04d-%02d-%02d' % ( + input_data.year, + input_data.month, + input_data.day, + ) + try: + if input_data.tzinfo is not None: + tzoff = input_data.tzinfo.utcoffset(input_data) + if tzoff is not None: + total_seconds = tzoff.seconds + (86400 * tzoff.days) + if total_seconds == 0: + _svalue += 'Z' + else: + if total_seconds < 0: + _svalue += '-' + total_seconds *= -1 + else: + _svalue += '+' + hours = total_seconds // 3600 + minutes = (total_seconds - (hours * 3600)) // 60 + _svalue += '{0:02d}:{1:02d}'.format( + hours, minutes) + except AttributeError: + pass + return _svalue + @classmethod + def gds_parse_date(cls, input_data): + tz = None + if input_data[-1] == 'Z': + tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') + input_data = input_data[:-1] + else: + results = GeneratedsSuper.tzoff_pattern.search(input_data) + if results is not None: + tzoff_parts = results.group(2).split(':') + tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) + if results.group(1) == '-': + tzoff *= -1 + tz = GeneratedsSuper._FixedOffsetTZ( + tzoff, results.group(0)) + input_data = input_data[:-6] + dt = datetime_.datetime.strptime(input_data, '%Y-%m-%d') + dt = dt.replace(tzinfo=tz) + return dt.date() + def gds_validate_time(self, input_data, node=None, input_name=''): + return input_data + def gds_format_time(self, input_data, input_name=''): + if input_data.microsecond == 0: + _svalue = '%02d:%02d:%02d' % ( + input_data.hour, + input_data.minute, + input_data.second, + ) + else: + _svalue = '%02d:%02d:%02d.%s' % ( + input_data.hour, + input_data.minute, + input_data.second, + ('%f' % (float(input_data.microsecond) / 1000000))[2:], + ) + if input_data.tzinfo is not None: + tzoff = input_data.tzinfo.utcoffset(input_data) + if tzoff is not None: + total_seconds = tzoff.seconds + (86400 * tzoff.days) + if total_seconds == 0: + _svalue += 'Z' + else: + if total_seconds < 0: + _svalue += '-' + total_seconds *= -1 + else: + _svalue += '+' + hours = total_seconds // 3600 + minutes = (total_seconds - (hours * 3600)) // 60 + _svalue += '{0:02d}:{1:02d}'.format(hours, minutes) + return _svalue + def gds_validate_simple_patterns(self, patterns, target): + # pat is a list of lists of strings/patterns. + # The target value must match at least one of the patterns + # in order for the test to succeed. + found1 = True + for patterns1 in patterns: + found2 = False + for patterns2 in patterns1: + mo = re_.search(patterns2, target) + if mo is not None and len(mo.group(0)) == len(target): + found2 = True + break + if not found2: + found1 = False + break + return found1 + @classmethod + def gds_parse_time(cls, input_data): + tz = None + if input_data[-1] == 'Z': + tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') + input_data = input_data[:-1] + else: + results = GeneratedsSuper.tzoff_pattern.search(input_data) + if results is not None: + tzoff_parts = results.group(2).split(':') + tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) + if results.group(1) == '-': + tzoff *= -1 + tz = GeneratedsSuper._FixedOffsetTZ( + tzoff, results.group(0)) + input_data = input_data[:-6] + if len(input_data.split('.')) > 1: + dt = datetime_.datetime.strptime(input_data, '%H:%M:%S.%f') + else: + dt = datetime_.datetime.strptime(input_data, '%H:%M:%S') + dt = dt.replace(tzinfo=tz) + return dt.time() + def gds_check_cardinality_( + self, value, input_name, + min_occurs=0, max_occurs=1, required=None): + if value is None: + length = 0 + elif isinstance(value, list): + length = len(value) + else: + length = 1 + if required is not None : + if required and length < 1: + self.gds_collector_.add_message( + "Required value {}{} is missing".format( + input_name, self.gds_get_node_lineno_())) + if length < min_occurs: + self.gds_collector_.add_message( + "Number of values for {}{} is below " + "the minimum allowed, " + "expected at least {}, found {}".format( + input_name, self.gds_get_node_lineno_(), + min_occurs, length)) + elif length > max_occurs: + self.gds_collector_.add_message( + "Number of values for {}{} is above " + "the maximum allowed, " + "expected at most {}, found {}".format( + input_name, self.gds_get_node_lineno_(), + max_occurs, length)) + def gds_validate_builtin_ST_( + self, validator, value, input_name, + min_occurs=None, max_occurs=None, required=None): + if value is not None: + try: + validator(value, input_name=input_name) + except GDSParseError as parse_error: + self.gds_collector_.add_message(str(parse_error)) + def gds_validate_defined_ST_( + self, validator, value, input_name, + min_occurs=None, max_occurs=None, required=None): + if value is not None: + try: + validator(value) + except GDSParseError as parse_error: + self.gds_collector_.add_message(str(parse_error)) + def gds_str_lower(self, instring): + return instring.lower() + def get_path_(self, node): + path_list = [] + self.get_path_list_(node, path_list) + path_list.reverse() + path = '/'.join(path_list) + return path + Tag_strip_pattern_ = re_.compile(r'\{.*\}') + def get_path_list_(self, node, path_list): + if node is None: + return + tag = GeneratedsSuper.Tag_strip_pattern_.sub('', node.tag) + if tag: + path_list.append(tag) + self.get_path_list_(node.getparent(), path_list) + def get_class_obj_(self, node, default_class=None): + class_obj1 = default_class + if 'xsi' in node.nsmap: + classname = node.get('{%s}type' % node.nsmap['xsi']) + if classname is not None: + names = classname.split(':') + if len(names) == 2: + classname = names[1] + class_obj2 = globals().get(classname) + if class_obj2 is not None: + class_obj1 = class_obj2 + return class_obj1 + def gds_build_any(self, node, type_name=None): + # provide default value in case option --disable-xml is used. + content = "" + content = etree_.tostring(node, encoding="unicode") + return content + @classmethod + def gds_reverse_node_mapping(cls, mapping): + return dict(((v, k) for k, v in mapping.items())) + @staticmethod + def gds_encode(instring): + if sys.version_info.major == 2: + if ExternalEncoding: + encoding = ExternalEncoding + else: + encoding = 'utf-8' + return instring.encode(encoding) + else: + return instring + @staticmethod + def convert_unicode(instring): + if isinstance(instring, str): + result = quote_xml(instring) + elif sys.version_info.major == 2 and isinstance(instring, unicode): + result = quote_xml(instring).encode('utf8') + else: + result = GeneratedsSuper.gds_encode(str(instring)) + return result + def __eq__(self, other): + def excl_select_objs_(obj): + return (obj[0] != 'parent_object_' and + obj[0] != 'gds_collector_') + if type(self) != type(other): + return False + return all(x == y for x, y in zip_longest( + filter(excl_select_objs_, self.__dict__.items()), + filter(excl_select_objs_, other.__dict__.items()))) + def __ne__(self, other): + return not self.__eq__(other) + # Django ETL transform hooks. + def gds_djo_etl_transform(self): + pass + def gds_djo_etl_transform_db_obj(self, dbobj): + pass + # SQLAlchemy ETL transform hooks. + def gds_sqa_etl_transform(self): + return 0, None + def gds_sqa_etl_transform_db_obj(self, dbobj): + pass + def gds_get_node_lineno_(self): + if (hasattr(self, "gds_elementtree_node_") and + self.gds_elementtree_node_ is not None): + return ' near line {}'.format( + self.gds_elementtree_node_.sourceline) + else: + return "" + + + def getSubclassFromModule_(module, class_): + '''Get the subclass of a class from a specific module.''' + name = class_.__name__ + 'Sub' + if hasattr(module, name): + return getattr(module, name) + else: + return None + + +# +# If you have installed IPython you can uncomment and use the following. +# IPython is available from http://ipython.scipy.org/. +# + +## from IPython.Shell import IPShellEmbed +## args = '' +## ipshell = IPShellEmbed(args, +## banner = 'Dropping into IPython', +## exit_msg = 'Leaving Interpreter, back to program.') + +# Then use the following line where and when you want to drop into the +# IPython shell: +# ipshell('<some message> -- Entering ipshell.\nHit Ctrl-D to exit') + +# +# Globals +# + +ExternalEncoding = '' +# Set this to false in order to deactivate during export, the use of +# name space prefixes captured from the input document. +UseCapturedNS_ = True +CapturedNsmap_ = {} +Tag_pattern_ = re_.compile(r'({.*})?(.*)') +String_cleanup_pat_ = re_.compile(r"[\n\r\s]+") +Namespace_extract_pat_ = re_.compile(r'{(.*)}(.*)') +CDATA_pattern_ = re_.compile(r"<!\[CDATA\[.*?\]\]>", re_.DOTALL) + +# Change this to redirect the generated superclass module to use a +# specific subclass module. +CurrentSubclassModule_ = None + +# +# Support/utility functions. +# + + +def showIndent(outfile, level, pretty_print=True): + if pretty_print: + for idx in range(level): + outfile.write(' ') + + +def quote_xml(inStr): + "Escape markup chars, but do not modify CDATA sections." + if not inStr: + return '' + s1 = (isinstance(inStr, BaseStrType_) and inStr or '%s' % inStr) + s2 = '' + pos = 0 + matchobjects = CDATA_pattern_.finditer(s1) + for mo in matchobjects: + s3 = s1[pos:mo.start()] + s2 += quote_xml_aux(s3) + s2 += s1[mo.start():mo.end()] + pos = mo.end() + s3 = s1[pos:] + s2 += quote_xml_aux(s3) + return s2 + + +def quote_xml_aux(inStr): + s1 = inStr.replace('&', '&') + s1 = s1.replace('<', '<') + s1 = s1.replace('>', '>') + return s1 + + +def quote_attrib(inStr): + s1 = (isinstance(inStr, BaseStrType_) and inStr or '%s' % inStr) + s1 = s1.replace('&', '&') + s1 = s1.replace('<', '<') + s1 = s1.replace('>', '>') + if '"' in s1: + if "'" in s1: + s1 = '"%s"' % s1.replace('"', """) + else: + s1 = "'%s'" % s1 + else: + s1 = '"%s"' % s1 + return s1 + + +def quote_python(inStr): + s1 = inStr + if s1.find("'") == -1: + if s1.find('\n') == -1: + return "'%s'" % s1 + else: + return "'''%s'''" % s1 + else: + if s1.find('"') != -1: + s1 = s1.replace('"', '\\"') + if s1.find('\n') == -1: + return '"%s"' % s1 + else: + return '"""%s"""' % s1 + + +def get_all_text_(node): + if node.text is not None: + text = node.text + else: + text = '' + for child in node: + if child.tail is not None: + text += child.tail + return text + + +def find_attr_value_(attr_name, node): + attrs = node.attrib + attr_parts = attr_name.split(':') + value = None + if len(attr_parts) == 1: + value = attrs.get(attr_name) + elif len(attr_parts) == 2: + prefix, name = attr_parts + if prefix == 'xml': + namespace = 'http://www.w3.org/XML/1998/namespace' + else: + namespace = node.nsmap.get(prefix) + if namespace is not None: + value = attrs.get('{%s}%s' % (namespace, name, )) + return value + + +def encode_str_2_3(instr): + return instr + + +class GDSParseError(Exception): + pass + + +def raise_parse_error(node, msg): + if node is not None: + msg = '%s (element %s/line %d)' % (msg, node.tag, node.sourceline, ) + raise GDSParseError(msg) + + +class MixedContainer: + # Constants for category: + CategoryNone = 0 + CategoryText = 1 + CategorySimple = 2 + CategoryComplex = 3 + # Constants for content_type: + TypeNone = 0 + TypeText = 1 + TypeString = 2 + TypeInteger = 3 + TypeFloat = 4 + TypeDecimal = 5 + TypeDouble = 6 + TypeBoolean = 7 + TypeBase64 = 8 + def __init__(self, category, content_type, name, value): + self.category = category + self.content_type = content_type + self.name = name + self.value = value + def getCategory(self): + return self.category + def getContenttype(self, content_type): + return self.content_type + def getValue(self): + return self.value + def getName(self): + return self.name + def export(self, outfile, level, name, namespace, + pretty_print=True): + if self.category == MixedContainer.CategoryText: + # Prevent exporting empty content as empty lines. + if self.value.strip(): + outfile.write(self.value) + elif self.category == MixedContainer.CategorySimple: + self.exportSimple(outfile, level, name) + else: # category == MixedContainer.CategoryComplex + self.value.export( + outfile, level, namespace, name_=name, + pretty_print=pretty_print) + def exportSimple(self, outfile, level, name): + if self.content_type == MixedContainer.TypeString: + outfile.write('<%s>%s</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeInteger or \ + self.content_type == MixedContainer.TypeBoolean: + outfile.write('<%s>%d</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeFloat or \ + self.content_type == MixedContainer.TypeDecimal: + outfile.write('<%s>%f</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeDouble: + outfile.write('<%s>%g</%s>' % ( + self.name, self.value, self.name)) + elif self.content_type == MixedContainer.TypeBase64: + outfile.write('<%s>%s</%s>' % ( + self.name, + base64.b64encode(self.value), + self.name)) + def to_etree(self, element, mapping_=None, nsmap_=None): + if self.category == MixedContainer.CategoryText: + # Prevent exporting empty content as empty lines. + if self.value.strip(): + if len(element) > 0: + if element[-1].tail is None: + element[-1].tail = self.value + else: + element[-1].tail += self.value + else: + if element.text is None: + element.text = self.value + else: + element.text += self.value + elif self.category == MixedContainer.CategorySimple: + subelement = etree_.SubElement( + element, '%s' % self.name) + subelement.text = self.to_etree_simple() + else: # category == MixedContainer.CategoryComplex + self.value.to_etree(element) + def to_etree_simple(self, mapping_=None, nsmap_=None): + if self.content_type == MixedContainer.TypeString: + text = self.value + elif (self.content_type == MixedContainer.TypeInteger or + self.content_type == MixedContainer.TypeBoolean): + text = '%d' % self.value + elif (self.content_type == MixedContainer.TypeFloat or + self.content_type == MixedContainer.TypeDecimal): + text = '%f' % self.value + elif self.content_type == MixedContainer.TypeDouble: + text = '%g' % self.value + elif self.content_type == MixedContainer.TypeBase64: + text = '%s' % base64.b64encode(self.value) + return text + def exportLiteral(self, outfile, level, name): + if self.category == MixedContainer.CategoryText: + showIndent(outfile, level) + outfile.write( + 'model_.MixedContainer(%d, %d, "%s", "%s"),\n' % ( + self.category, self.content_type, + self.name, self.value)) + elif self.category == MixedContainer.CategorySimple: + showIndent(outfile, level) + outfile.write( + 'model_.MixedContainer(%d, %d, "%s", "%s"),\n' % ( + self.category, self.content_type, + self.name, self.value)) + else: # category == MixedContainer.CategoryComplex + showIndent(outfile, level) + outfile.write( + 'model_.MixedContainer(%d, %d, "%s",\n' % ( + self.category, self.content_type, self.name,)) + self.value.exportLiteral(outfile, level + 1) + showIndent(outfile, level) + outfile.write(')\n') + + +class MemberSpec_(object): + def __init__(self, name='', data_type='', container=0, + optional=0, child_attrs=None, choice=None): + self.name = name + self.data_type = data_type + self.container = container + self.child_attrs = child_attrs + self.choice = choice + self.optional = optional + def set_name(self, name): self.name = name + def get_name(self): return self.name + def set_data_type(self, data_type): self.data_type = data_type + def get_data_type_chain(self): return self.data_type + def get_data_type(self): + if isinstance(self.data_type, list): + if len(self.data_type) > 0: + return self.data_type[-1] + else: + return 'xs:string' + else: + return self.data_type + def set_container(self, container): self.container = container + def get_container(self): return self.container + def set_child_attrs(self, child_attrs): self.child_attrs = child_attrs + def get_child_attrs(self): return self.child_attrs + def set_choice(self, choice): self.choice = choice + def get_choice(self): return self.choice + def set_optional(self, optional): self.optional = optional + def get_optional(self): return self.optional + + +def _cast(typ, value): + if typ is None or value is None: + return value + return typ(value) + +# +# Data representation classes. +# + + +class CompoundKind(str, Enum): + CLASS='class' + STRUCT='struct' + UNION='union' + INTERFACE='interface' + PROTOCOL='protocol' + CATEGORY='category' + EXCEPTION='exception' + FILE='file' + NAMESPACE='namespace' + GROUP='group' + PAGE='page' + EXAMPLE='example' + DIR='dir' + TYPE='type' + + +class MemberKind(str, Enum): + DEFINE='define' + PROPERTY='property' + EVENT='event' + VARIABLE='variable' + TYPEDEF='typedef' + ENUM='enum' + ENUMVALUE='enumvalue' + FUNCTION='function' + SIGNAL='signal' + PROTOTYPE='prototype' + FRIEND='friend' + DCOP='dcop' + SLOT='slot' + + +class DoxygenType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, version=None, lang=None, compound=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.version = _cast(None, version) + self.version_nsprefix_ = None + self.lang = _cast(None, lang) + self.lang_nsprefix_ = None + if compound is None: + self.compound = [] + else: + self.compound = compound + self.compound_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, DoxygenType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if DoxygenType.subclass: + return DoxygenType.subclass(*args_, **kwargs_) + else: + return DoxygenType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_compound(self): + return self.compound + def set_compound(self, compound): + self.compound = compound + def add_compound(self, value): + self.compound.append(value) + def insert_compound_at(self, index, value): + self.compound.insert(index, value) + def replace_compound_at(self, index, value): + self.compound[index] = value + def get_version(self): + return self.version + def set_version(self, version): + self.version = version + def get_lang(self): + return self.lang + def set_lang(self, lang): + self.lang = lang + def hasContent_(self): + if ( + self.compound + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='DoxygenType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('DoxygenType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'DoxygenType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DoxygenType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DoxygenType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DoxygenType'): + if self.version is not None and 'version' not in already_processed: + already_processed.add('version') + outfile.write(' version=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.version), input_name='version')), )) + if self.lang is not None and 'lang' not in already_processed: + already_processed.add('lang') + outfile.write(' xml:lang=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.lang), input_name='lang')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='DoxygenType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + for compound_ in self.compound: + namespaceprefix_ = self.compound_nsprefix_ + ':' if (UseCapturedNS_ and self.compound_nsprefix_) else '' + compound_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='compound', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('version', node) + if value is not None and 'version' not in already_processed: + already_processed.add('version') + self.version = value + value = find_attr_value_('lang', node) + if value is not None and 'lang' not in already_processed: + already_processed.add('lang') + self.lang = value + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'compound': + obj_ = CompoundType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.compound.append(obj_) + obj_.original_tagname_ = 'compound' +# end class DoxygenType + + +class CompoundType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, kind=None, name=None, member=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + self.name = name + self.name_nsprefix_ = None + if member is None: + self.member = [] + else: + self.member = member + self.member_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, CompoundType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if CompoundType.subclass: + return CompoundType.subclass(*args_, **kwargs_) + else: + return CompoundType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_member(self): + return self.member + def set_member(self, member): + self.member = member + def add_member(self, value): + self.member.append(value) + def insert_member_at(self, index, value): + self.member.insert(index, value) + def replace_member_at(self, index, value): + self.member[index] = value + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def validate_CompoundKind(self, value): + # Validate type CompoundKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['class', 'struct', 'union', 'interface', 'protocol', 'category', 'exception', 'file', 'namespace', 'group', 'page', 'example', 'dir', 'type'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on CompoundKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.name is not None or + self.member + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='CompoundType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('CompoundType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'CompoundType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CompoundType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CompoundType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CompoundType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='CompoundType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.name is not None: + namespaceprefix_ = self.name_nsprefix_ + ':' if (UseCapturedNS_ and self.name_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sname>%s</%sname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.name), input_name='name')), namespaceprefix_ , eol_)) + for member_ in self.member: + namespaceprefix_ = self.member_nsprefix_ + ':' if (UseCapturedNS_ and self.member_nsprefix_) else '' + member_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='member', pretty_print=pretty_print) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_CompoundKind(self.kind) # validate type CompoundKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'name': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'name') + value_ = self.gds_validate_string(value_, node, 'name') + self.name = value_ + self.name_nsprefix_ = child_.prefix + elif nodeName_ == 'member': + obj_ = MemberType.factory(parent_object_=self) + obj_.build(child_, gds_collector_=gds_collector_) + self.member.append(obj_) + obj_.original_tagname_ = 'member' +# end class CompoundType + + +class MemberType(GeneratedsSuper): + __hash__ = GeneratedsSuper.__hash__ + subclass = None + superclass = None + def __init__(self, refid=None, kind=None, name=None, gds_collector_=None, **kwargs_): + self.gds_collector_ = gds_collector_ + self.gds_elementtree_node_ = None + self.original_tagname_ = None + self.parent_object_ = kwargs_.get('parent_object_') + self.ns_prefix_ = None + self.refid = _cast(None, refid) + self.refid_nsprefix_ = None + self.kind = _cast(None, kind) + self.kind_nsprefix_ = None + self.name = name + self.name_nsprefix_ = None + def factory(*args_, **kwargs_): + if CurrentSubclassModule_ is not None: + subclass = getSubclassFromModule_( + CurrentSubclassModule_, MemberType) + if subclass is not None: + return subclass(*args_, **kwargs_) + if MemberType.subclass: + return MemberType.subclass(*args_, **kwargs_) + else: + return MemberType(*args_, **kwargs_) + factory = staticmethod(factory) + def get_ns_prefix_(self): + return self.ns_prefix_ + def set_ns_prefix_(self, ns_prefix): + self.ns_prefix_ = ns_prefix + def get_name(self): + return self.name + def set_name(self, name): + self.name = name + def get_refid(self): + return self.refid + def set_refid(self, refid): + self.refid = refid + def get_kind(self): + return self.kind + def set_kind(self, kind): + self.kind = kind + def validate_MemberKind(self, value): + # Validate type MemberKind, a restriction on xsd:string. + if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: + if not isinstance(value, str): + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) + return False + value = value + enumerations = ['define', 'property', 'event', 'variable', 'typedef', 'enum', 'enumvalue', 'function', 'signal', 'prototype', 'friend', 'dcop', 'slot'] + if value not in enumerations: + lineno = self.gds_get_node_lineno_() + self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on MemberKind' % {"value" : encode_str_2_3(value), "lineno": lineno} ) + result = False + def hasContent_(self): + if ( + self.name is not None + ): + return True + else: + return False + def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='MemberType', pretty_print=True): + imported_ns_def_ = GenerateDSNamespaceDefs_.get('MemberType') + if imported_ns_def_ is not None: + namespacedef_ = imported_ns_def_ + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.original_tagname_ is not None and name_ == 'MemberType': + name_ = self.original_tagname_ + if UseCapturedNS_ and self.ns_prefix_: + namespaceprefix_ = self.ns_prefix_ + ':' + showIndent(outfile, level, pretty_print) + outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) + already_processed = set() + self.exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MemberType') + if self.hasContent_(): + outfile.write('>%s' % (eol_, )) + self.exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MemberType', pretty_print=pretty_print) + showIndent(outfile, level, pretty_print) + outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) + else: + outfile.write('/>%s' % (eol_, )) + def exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MemberType'): + if self.refid is not None and 'refid' not in already_processed: + already_processed.add('refid') + outfile.write(' refid=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.refid), input_name='refid')), )) + if self.kind is not None and 'kind' not in already_processed: + already_processed.add('kind') + outfile.write(' kind=%s' % (self.gds_encode(self.gds_format_string(quote_attrib(self.kind), input_name='kind')), )) + def exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='MemberType', fromsubclass_=False, pretty_print=True): + if pretty_print: + eol_ = '\n' + else: + eol_ = '' + if self.name is not None: + namespaceprefix_ = self.name_nsprefix_ + ':' if (UseCapturedNS_ and self.name_nsprefix_) else '' + showIndent(outfile, level, pretty_print) + outfile.write('<%sname>%s</%sname>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.name), input_name='name')), namespaceprefix_ , eol_)) + def build(self, node, gds_collector_=None): + self.gds_collector_ = gds_collector_ + if SaveElementTreeNode: + self.gds_elementtree_node_ = node + already_processed = set() + self.ns_prefix_ = node.prefix + self.buildAttributes(node, node.attrib, already_processed) + for child in node: + nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] + self.buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) + return self + def buildAttributes(self, node, attrs, already_processed): + value = find_attr_value_('refid', node) + if value is not None and 'refid' not in already_processed: + already_processed.add('refid') + self.refid = value + value = find_attr_value_('kind', node) + if value is not None and 'kind' not in already_processed: + already_processed.add('kind') + self.kind = value + self.validate_MemberKind(self.kind) # validate type MemberKind + def buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): + if nodeName_ == 'name': + value_ = child_.text + value_ = self.gds_parse_string(value_, node, 'name') + value_ = self.gds_validate_string(value_, node, 'name') + self.name = value_ + self.name_nsprefix_ = child_.prefix +# end class MemberType + + +GDSClassesMapping = { + 'doxygenindex': DoxygenType, +} + + +USAGE_TEXT = """ +Usage: python <Parser>.py [ -s ] <in_xml_file> +""" + + +def usage(): + print(USAGE_TEXT) + sys.exit(1) + + +def get_root_tag(node): + tag = Tag_pattern_.match(node.tag).groups()[-1] + rootClass = GDSClassesMapping.get(tag) + if rootClass is None: + rootClass = globals().get(tag) + return tag, rootClass + + +def get_required_ns_prefix_defs(rootNode): + '''Get all name space prefix definitions required in this XML doc. + Return a dictionary of definitions and a char string of definitions. + ''' + nsmap = { + prefix: uri + for node in rootNode.iter() + for (prefix, uri) in node.nsmap.items() + if prefix is not None + } + namespacedefs = ' '.join([ + 'xmlns:{}="{}"'.format(prefix, uri) + for prefix, uri in nsmap.items() + ]) + return nsmap, namespacedefs + + +def parse(inFileName, silence=False, print_warnings=True): + global CapturedNsmap_ + gds_collector = GdsCollector_() + parser = None + doc = parsexml_(inFileName, parser) + rootNode = doc.getroot() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + CapturedNsmap_, namespacedefs = get_required_ns_prefix_defs(rootNode) + if not SaveElementTreeNode: + doc = None + rootNode = None + if not silence: + sys.stdout.write('<?xml version="1.0" ?>\n') + rootObj.export( + sys.stdout, 0, name_=rootTag, + namespacedef_=namespacedefs, + pretty_print=True) + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj + + +def parseEtree(inFileName, silence=False, print_warnings=True, + mapping=None, nsmap=None): + parser = None + doc = parsexml_(inFileName, parser) + gds_collector = GdsCollector_() + rootNode = doc.getroot() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + # Enable Python to collect the space used by the DOM. + if mapping is None: + mapping = {} + rootElement = rootObj.to_etree( + None, name_=rootTag, mapping_=mapping, nsmap_=nsmap) + reverse_mapping = rootObj.gds_reverse_node_mapping(mapping) + if not SaveElementTreeNode: + doc = None + rootNode = None + if not silence: + content = etree_.tostring( + rootElement, pretty_print=True, + xml_declaration=True, encoding="utf-8") + sys.stdout.write(str(content)) + sys.stdout.write('\n') + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj, rootElement, mapping, reverse_mapping + + +def parseString(inString, silence=False, print_warnings=True): + '''Parse a string, create the object tree, and export it. + + Arguments: + - inString -- A string. This XML fragment should not start + with an XML declaration containing an encoding. + - silence -- A boolean. If False, export the object. + Returns -- The root object in the tree. + ''' + parser = None + rootNode= parsexmlstring_(inString, parser) + gds_collector = GdsCollector_() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + if not SaveElementTreeNode: + rootNode = None + if not silence: + sys.stdout.write('<?xml version="1.0" ?>\n') + rootObj.export( + sys.stdout, 0, name_=rootTag, + namespacedef_='') + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj + + +def parseLiteral(inFileName, silence=False, print_warnings=True): + parser = None + doc = parsexml_(inFileName, parser) + gds_collector = GdsCollector_() + rootNode = doc.getroot() + rootTag, rootClass = get_root_tag(rootNode) + if rootClass is None: + rootTag = 'DoxygenType' + rootClass = DoxygenType + rootObj = rootClass.factory() + rootObj.build(rootNode, gds_collector_=gds_collector) + # Enable Python to collect the space used by the DOM. + if not SaveElementTreeNode: + doc = None + rootNode = None + if not silence: + sys.stdout.write('#from index import *\n\n') + sys.stdout.write('import index as model_\n\n') + sys.stdout.write('rootObj = model_.rootClass(\n') + rootObj.exportLiteral(sys.stdout, 0, name_=rootTag) + sys.stdout.write(')\n') + if print_warnings and len(gds_collector.get_messages()) > 0: + separator = ('-' * 50) + '\n' + sys.stderr.write(separator) + sys.stderr.write('----- Warnings -- count: {} -----\n'.format( + len(gds_collector.get_messages()), )) + gds_collector.write_messages(sys.stderr) + sys.stderr.write(separator) + return rootObj + + +def main(): + args = sys.argv[1:] + if len(args) == 1: + parse(args[0]) + else: + usage() + + +if __name__ == '__main__': + #import pdb; pdb.set_trace() + main() + +RenameMappings_ = { +} + +# +# Mapping of namespaces to types defined in them +# and the file in which each is defined. +# simpleTypes are marked "ST" and complexTypes "CT". +NamespaceToDefMappings_ = {'http://www.w3.org/XML/1998/namespace': []} + +__all__ = [ + "CompoundType", + "DoxygenType", + "MemberType" +] |