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|
"""
TestSCons.py: a testing framework for the SCons software construction
tool.
A TestSCons environment object is created via the usual invocation:
test = TestSCons()
TestScons is a subclass of TestCommon, which is in turn is a subclass
of TestCmd), and hence has available all of the methods and attributes
from those classes, as well as any overridden or additional methods or
attributes defined in this subclass.
"""
# __COPYRIGHT__
from __future__ import division
__revision__ = "__FILE__ __REVISION__ __DATE__ __DEVELOPER__"
import os
import re
import shutil
import sys
import time
from TestCommon import *
from TestCommon import __all__
# Some tests which verify that SCons has been packaged properly need to
# look for specific version file names. Replicating the version number
# here provides some independent verification that what we packaged
# conforms to what we expect.
default_version = '2.1.0.alpha.yyyymmdd'
copyright_years = '2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010'
python_version_unsupported = (2, 3, 0)
python_version_deprecated = (2, 4, 0)
# In the checked-in source, the value of SConsVersion in the following
# line must remain "__ VERSION __" (without the spaces) so the built
# version in build/QMTest/TestSCons.py contains the actual version
# string of the packages that have been built.
SConsVersion = '__VERSION__'
if SConsVersion == '__' + 'VERSION' + '__':
SConsVersion = default_version
__all__.extend([ 'TestSCons',
'machine',
'python',
'_exe',
'_obj',
'_shobj',
'shobj_',
'lib_',
'_lib',
'dll_',
'_dll'
])
machine_map = {
'i686' : 'i386',
'i586' : 'i386',
'i486' : 'i386',
}
try:
uname = os.uname
except AttributeError:
# Windows doesn't have a uname() function. We could use something like
# sys.platform as a fallback, but that's not really a "machine," so
# just leave it as None.
machine = None
else:
machine = uname()[4]
machine = machine_map.get(machine, machine)
_exe = exe_suffix
_obj = obj_suffix
_shobj = shobj_suffix
shobj_ = shobj_prefix
_lib = lib_suffix
lib_ = lib_prefix
_dll = dll_suffix
dll_ = dll_prefix
def gccFortranLibs():
"""Test which gcc Fortran startup libraries are required.
This should probably move into SCons itself, but is kind of hacky.
"""
libs = ['g2c']
cmd = 'gcc -v'
try:
import subprocess
except ImportError:
try:
import popen2
stderr = popen2.popen3(cmd)[2].read()
except OSError:
return libs
else:
p = subprocess.Popen(cmd, shell=True, stderr=subprocess.PIPE)
stderr = p.stderr.read()
m = re.search('gcc version (\d\.\d)', stderr)
if m:
gcc_version = m.group(1)
if re.match('4.[^0]', gcc_version):
libs = ['gfortranbegin']
elif gcc_version in ('3.1', '4.0'):
libs = ['frtbegin'] + libs
return libs
if sys.platform == 'cygwin':
# On Cygwin, os.path.normcase() lies, so just report back the
# fact that the underlying Win32 OS is case-insensitive.
def case_sensitive_suffixes(s1, s2):
return 0
else:
def case_sensitive_suffixes(s1, s2):
return (os.path.normcase(s1) != os.path.normcase(s2))
if sys.platform == 'win32':
fortran_lib = gccFortranLibs()
elif sys.platform == 'cygwin':
fortran_lib = gccFortranLibs()
elif sys.platform.find('irix') != -1:
fortran_lib = ['ftn']
else:
fortran_lib = gccFortranLibs()
file_expr = r"""File "[^"]*", line \d+, in [^\n]+
"""
# re.escape escapes too much.
def re_escape(str):
for c in '\\.[]()*+?': # Not an exhaustive list.
str = str.replace(c, '\\' + c)
return str
def python_version_string():
return sys.version.split()[0]
def python_minor_version_string():
return sys.version[:3]
def unsupported_python_version(version=sys.version_info):
return version < python_version_unsupported
def deprecated_python_version(version=sys.version_info):
return version < python_version_deprecated
if deprecated_python_version():
msg = r"""
scons: warning: Support for pre-2.4 Python (%s) is deprecated.
If this will cause hardship, contact dev@scons.tigris.org.
"""
deprecated_python_expr = re_escape(msg % python_version_string()) + file_expr
del msg
else:
deprecated_python_expr = ""
def initialize_sconsflags(ignore_python_version):
"""
Add the --warn=no-python-version option to SCONSFLAGS for every
command so test scripts don't have to filter out Python version
deprecation warnings.
Same for --warn=no-visual-c-missing.
"""
save_sconsflags = os.environ.get('SCONSFLAGS')
if save_sconsflags:
sconsflags = [save_sconsflags]
else:
sconsflags = []
if ignore_python_version and deprecated_python_version():
sconsflags.append('--warn=no-python-version')
# Provide a way to suppress or provide alternate flags for
# TestSCons purposes by setting TESTSCONS_SCONSFLAGS.
# (The intended use case is to set it to null when running
# timing tests of earlier versions of SCons which don't
# support the --warn=no-visual-c-missing warning.)
visual_c = os.environ.get('TESTSCONS_SCONSFLAGS',
'--warn=no-visual-c-missing')
if visual_c:
sconsflags.append(visual_c)
os.environ['SCONSFLAGS'] = ' '.join(sconsflags)
return save_sconsflags
def restore_sconsflags(sconsflags):
if sconsflags is None:
del os.environ['SCONSFLAGS']
else:
os.environ['SCONSFLAGS'] = sconsflags
class TestSCons(TestCommon):
"""Class for testing SCons.
This provides a common place for initializing SCons tests,
eliminating the need to begin every test with the same repeated
initializations.
"""
scons_version = SConsVersion
def __init__(self, **kw):
"""Initialize an SCons testing object.
If they're not overridden by keyword arguments, this
initializes the object with the following default values:
program = 'scons' if it exists,
else 'scons.py'
interpreter = 'python'
match = match_exact
workdir = ''
The workdir value means that, by default, a temporary workspace
directory is created for a TestSCons environment. In addition,
this method changes directory (chdir) to the workspace directory,
so an explicit "chdir = '.'" on all of the run() method calls
is not necessary.
"""
self.orig_cwd = os.getcwd()
try:
script_dir = os.environ['SCONS_SCRIPT_DIR']
except KeyError:
pass
else:
os.chdir(script_dir)
if 'program' not in kw:
kw['program'] = os.environ.get('SCONS')
if not kw['program']:
if os.path.exists('scons'):
kw['program'] = 'scons'
else:
kw['program'] = 'scons.py'
elif not os.path.isabs(kw['program']):
kw['program'] = os.path.join(self.orig_cwd, kw['program'])
if 'interpreter' not in kw and not os.environ.get('SCONS_EXEC'):
kw['interpreter'] = [python, '-tt']
if 'match' not in kw:
kw['match'] = match_exact
if 'workdir' not in kw:
kw['workdir'] = ''
# Term causing test failures due to bogus readline init
# control character output on FC8
# TERM can cause test failures due to control chars in prompts etc.
os.environ['TERM'] = 'dumb'
self.ignore_python_version = kw.get('ignore_python_version',1)
if kw.get('ignore_python_version', -1) != -1:
del kw['ignore_python_version']
TestCommon.__init__(self, **kw)
import SCons.Node.FS
if SCons.Node.FS.default_fs is None:
SCons.Node.FS.default_fs = SCons.Node.FS.FS()
def Environment(self, ENV=None, *args, **kw):
"""
Return a construction Environment that optionally overrides
the default external environment with the specified ENV.
"""
import SCons.Environment
import SCons.Errors
if not ENV is None:
kw['ENV'] = ENV
try:
return SCons.Environment.Environment(*args, **kw)
except (SCons.Errors.UserError, SCons.Errors.InternalError):
return None
def detect(self, var, prog=None, ENV=None, norm=None):
"""
Detect a program named 'prog' by first checking the construction
variable named 'var' and finally searching the path used by
SCons. If either method fails to detect the program, then false
is returned, otherwise the full path to prog is returned. If
prog is None, then the value of the environment variable will be
used as prog.
"""
env = self.Environment(ENV)
v = env.subst('$'+var)
if not v:
return None
if prog is None:
prog = v
if v != prog:
return None
result = env.WhereIs(prog)
if norm and os.sep != '/':
result = result.replace(os.sep, '/')
return result
def detect_tool(self, tool, prog=None, ENV=None):
"""
Given a tool (i.e., tool specification that would be passed
to the "tools=" parameter of Environment()) and a program that
corresponds to that tool, return true if and only if we can find
that tool using Environment.Detect().
By default, prog is set to the value passed into the tools parameter.
"""
if not prog:
prog = tool
env = self.Environment(ENV, tools=[tool])
if env is None:
return None
return env.Detect([prog])
def where_is(self, prog, path=None):
"""
Given a program, search for it in the specified external PATH,
or in the actual external PATH is none is specified.
"""
import SCons.Environment
env = SCons.Environment.Environment()
if path is None:
path = os.environ['PATH']
return env.WhereIs(prog, path)
def wrap_stdout(self, build_str = "", read_str = "", error = 0, cleaning = 0):
"""Wraps standard output string(s) in the normal
"Reading ... done" and "Building ... done" strings
"""
cap,lc = [ ('Build','build'),
('Clean','clean') ][cleaning]
if error:
term = "scons: %sing terminated because of errors.\n" % lc
else:
term = "scons: done %sing targets.\n" % lc
return "scons: Reading SConscript files ...\n" + \
read_str + \
"scons: done reading SConscript files.\n" + \
"scons: %sing targets ...\n" % cap + \
build_str + \
term
def run(self, *args, **kw):
"""
Set up SCONSFLAGS for every command so test scripts don't need
to worry about unexpected warnings in their output.
"""
sconsflags = initialize_sconsflags(self.ignore_python_version)
try:
TestCommon.run(self, *args, **kw)
finally:
restore_sconsflags(sconsflags)
# Modifying the options should work and ought to be simpler, but this
# class is used for more than just running 'scons' itself. If there's
# an automated way of determining whether it's running 'scons' or
# something else, this code should be resurected.
# options = kw.get('options')
# if options:
# options = [options]
# else:
# options = []
# if self.ignore_python_version and deprecated_python_version():
# options.append('--warn=no-python-version')
# # Provide a way to suppress or provide alternate flags for
# # TestSCons purposes by setting TESTSCONS_SCONSFLAGS.
# # (The intended use case is to set it to null when running
# # timing tests of earlier versions of SCons which don't
# # support the --warn=no-visual-c-missing warning.)
# visual_c = os.environ.get('TESTSCONS_SCONSFLAGS',
# '--warn=no-visual-c-missing')
# if visual_c:
# options.append(visual_c)
# kw['options'] = ' '.join(options)
# TestCommon.run(self, *args, **kw)
def up_to_date(self, arguments = '.', read_str = "", **kw):
s = ""
for arg in arguments.split():
s = s + "scons: `%s' is up to date.\n" % arg
kw['arguments'] = arguments
stdout = self.wrap_stdout(read_str = read_str, build_str = s)
# Append '.*' so that timing output that comes after the
# up-to-date output is okay.
kw['stdout'] = re.escape(stdout) + '.*'
kw['match'] = self.match_re_dotall
self.run(**kw)
def not_up_to_date(self, arguments = '.', **kw):
"""Asserts that none of the targets listed in arguments is
up to date, but does not make any assumptions on other targets.
This function is most useful in conjunction with the -n option.
"""
s = ""
for arg in arguments.split():
s = s + "(?!scons: `%s' is up to date.)" % re.escape(arg)
s = '('+s+'[^\n]*\n)*'
kw['arguments'] = arguments
stdout = re.escape(self.wrap_stdout(build_str='ARGUMENTSGOHERE'))
kw['stdout'] = stdout.replace('ARGUMENTSGOHERE', s)
kw['match'] = self.match_re_dotall
self.run(**kw)
def option_not_yet_implemented(self, option, arguments=None, **kw):
"""
Verifies expected behavior for options that are not yet implemented:
a warning message, and exit status 1.
"""
msg = "Warning: the %s option is not yet implemented\n" % option
kw['stderr'] = msg
if arguments:
# If it's a long option and the argument string begins with '=',
# it's of the form --foo=bar and needs no separating space.
if option[:2] == '--' and arguments[0] == '=':
kw['arguments'] = option + arguments
else:
kw['arguments'] = option + ' ' + arguments
return self.run(**kw)
def deprecated_wrap(self, msg):
"""
Calculate the pattern that matches a deprecation warning.
"""
return '\nscons: warning: ' + re_escape(msg) + '\n' + file_expr
def deprecated_fatal(self, warn, msg):
"""
Determines if the warning has turned into a fatal error. If so,
passes the test, as any remaining runs are now moot.
This method expects a SConscript to be present that will causes
the warning. The method writes a SConstruct that calls the
SConsscript and looks to see what type of result occurs.
The pattern that matches the warning is returned.
TODO: Actually detect that it's now an error. We don't have any
cases yet, so there's no way to test it.
"""
self.write('SConstruct', """if True:
WARN = ARGUMENTS.get('WARN')
if WARN: SetOption('warn', WARN)
SConscript('SConscript')
""")
def err_out():
# TODO calculate stderr for fatal error
return re_escape('put something here')
# no option, should get one of nothing, warning, or error
warning = self.deprecated_wrap(msg)
self.run(arguments = '.', stderr = None)
stderr = self.stderr()
if stderr:
# most common case done first
if match_re_dotall(stderr, warning):
# expected output
pass
elif match_re_dotall(stderr, err_out()):
# now a fatal error; skip the rest of the tests
self.pass_test()
else:
# test failed; have to do this by hand...
print self.banner('STDOUT ')
print self.stdout()
print self.diff(warning, stderr, 'STDERR ')
self.fail_test()
return warning
def deprecated_warning(self, warn, msg):
"""
Verifies the expected behavior occurs for deprecation warnings.
This method expects a SConscript to be present that will causes
the warning. The method writes a SConstruct and exercises various
combinations of command-line options and SetOption parameters to
validate that it performs correctly.
The pattern that matches the warning is returned.
"""
warning = self.deprecated_fatal(warn, msg)
def RunPair(option, expected):
# run the same test with the option on the command line and
# then with the option passed via SetOption().
self.run(options = '--warn=' + option,
arguments = '.',
stderr = expected,
match = match_re_dotall)
self.run(options = 'WARN=' + option,
arguments = '.',
stderr = expected,
match = match_re_dotall)
# all warnings off, should get no output
RunPair('no-deprecated', '')
# warning enabled, should get expected output
RunPair(warn, warning)
# warning disabled, should get either nothing or mandatory message
expect = """()|(Can not disable mandataory warning: 'no-%s'\n\n%s)""" % (warn, warning)
RunPair('no-' + warn, expect)
return warning
def diff_substr(self, expect, actual, prelen=20, postlen=40):
i = 0
for x, y in zip(expect, actual):
if x != y:
return "Actual did not match expect at char %d:\n" \
" Expect: %s\n" \
" Actual: %s\n" \
% (i, repr(expect[i-prelen:i+postlen]),
repr(actual[i-prelen:i+postlen]))
i = i + 1
return "Actual matched the expected output???"
def python_file_line(self, file, line):
"""
Returns a Python error line for output comparisons.
The exec of the traceback line gives us the correct format for
this version of Python. Before 2.5, this yielded:
File "<string>", line 1, ?
Python 2.5 changed this to:
File "<string>", line 1, <module>
We stick the requested file name and line number in the right
places, abstracting out the version difference.
"""
exec 'import traceback; x = traceback.format_stack()[-1]'
x = x.lstrip()
x = x.replace('<string>', file)
x = x.replace('line 1,', 'line %s,' % line)
return x
def normalize_pdf(self, s):
s = re.sub(r'/(Creation|Mod)Date \(D:[^)]*\)',
r'/\1Date (D:XXXX)', s)
s = re.sub(r'/ID \[<[0-9a-fA-F]*> <[0-9a-fA-F]*>\]',
r'/ID [<XXXX> <XXXX>]', s)
s = re.sub(r'/(BaseFont|FontName) /[A-Z]{6}',
r'/\1 /XXXXXX', s)
s = re.sub(r'/Length \d+ *\n/Filter /FlateDecode\n',
r'/Length XXXX\n/Filter /FlateDecode\n', s)
try:
import zlib
except ImportError:
pass
else:
begin_marker = '/FlateDecode\n>>\nstream\n'
end_marker = 'endstream\nendobj'
encoded = []
b = s.find(begin_marker, 0)
while b != -1:
b = b + len(begin_marker)
e = s.find(end_marker, b)
encoded.append((b, e))
b = s.find(begin_marker, e + len(end_marker))
x = 0
r = []
for b, e in encoded:
r.append(s[x:b])
d = zlib.decompress(s[b:e])
d = re.sub(r'%%CreationDate: [^\n]*\n',
r'%%CreationDate: 1970 Jan 01 00:00:00\n', d)
d = re.sub(r'%DVIPSSource: TeX output \d\d\d\d\.\d\d\.\d\d:\d\d\d\d',
r'%DVIPSSource: TeX output 1970.01.01:0000', d)
d = re.sub(r'/(BaseFont|FontName) /[A-Z]{6}',
r'/\1 /XXXXXX', d)
r.append(d)
x = e
r.append(s[x:])
s = ''.join(r)
return s
def paths(self,patterns):
import glob
result = []
for p in patterns:
result.extend(sorted(glob.glob(p)))
return result
def java_ENV(self, version=None):
"""
Initialize with a default external environment that uses a local
Java SDK in preference to whatever's found in the default PATH.
"""
try:
return self._java_env[version]['ENV']
except AttributeError:
self._java_env = {}
except KeyError:
pass
import SCons.Environment
env = SCons.Environment.Environment()
self._java_env[version] = env
if version:
patterns = [
'/usr/java/jdk%s*/bin' % version,
'/usr/lib/jvm/*-%s*/bin' % version,
'/usr/local/j2sdk%s*/bin' % version,
]
java_path = self.paths(patterns) + [env['ENV']['PATH']]
else:
patterns = [
'/usr/java/latest/bin',
'/usr/lib/jvm/*/bin',
'/usr/local/j2sdk*/bin',
]
java_path = self.paths(patterns) + [env['ENV']['PATH']]
env['ENV']['PATH'] = os.pathsep.join(java_path)
return env['ENV']
def java_where_includes(self,version=None):
"""
Return java include paths compiling java jni code
"""
import glob
import sys
if not version:
version=''
frame = '/System/Library/Frameworks/JavaVM.framework/Headers/jni.h'
else:
frame = '/System/Library/Frameworks/JavaVM.framework/Versions/%s*/Headers/jni.h'%version
jni_dirs = ['/usr/lib/jvm/java-*-sun-%s*/include/jni.h'%version,
'/usr/java/jdk%s*/include/jni.h'%version,
frame,
]
dirs = self.paths(jni_dirs)
if not dirs:
return None
d=os.path.dirname(self.paths(jni_dirs)[0])
result=[d]
if sys.platform == 'win32':
result.append(os.path.join(d,'win32'))
elif sys.platform == 'linux2':
result.append(os.path.join(d,'linux'))
return result
def java_where_java_home(self,version=None):
if sys.platform[:6] == 'darwin':
if version is None:
home = '/System/Library/Frameworks/JavaVM.framework/Home'
else:
home = '/System/Library/Frameworks/JavaVM.framework/Versions/%s/Home' % version
else:
jar = self.java_where_jar(version)
home = os.path.normpath('%s/..'%jar)
if os.path.isdir(home):
return home
print("Could not determine JAVA_HOME: %s is not a directory" % home)
self.fail_test()
def java_where_jar(self, version=None):
ENV = self.java_ENV(version)
if self.detect_tool('jar', ENV=ENV):
where_jar = self.detect('JAR', 'jar', ENV=ENV)
else:
where_jar = self.where_is('jar', ENV['PATH'])
if not where_jar:
self.skip_test("Could not find Java jar, skipping test(s).\n")
return where_jar
def java_where_java(self, version=None):
"""
Return a path to the java executable.
"""
ENV = self.java_ENV(version)
where_java = self.where_is('java', ENV['PATH'])
if not where_java:
self.skip_test("Could not find Java java, skipping test(s).\n")
return where_java
def java_where_javac(self, version=None):
"""
Return a path to the javac compiler.
"""
ENV = self.java_ENV(version)
if self.detect_tool('javac'):
where_javac = self.detect('JAVAC', 'javac', ENV=ENV)
else:
where_javac = self.where_is('javac', ENV['PATH'])
if not where_javac:
self.skip_test("Could not find Java javac, skipping test(s).\n")
self.run(program = where_javac,
arguments = '-version',
stderr=None,
status=None)
if version:
if self.stderr().find('javac %s' % version) == -1:
fmt = "Could not find javac for Java version %s, skipping test(s).\n"
self.skip_test(fmt % version)
else:
m = re.search(r'javac (\d\.\d)', self.stderr())
if m:
version = m.group(1)
else:
version = None
return where_javac, version
def java_where_javah(self, version=None):
ENV = self.java_ENV(version)
if self.detect_tool('javah'):
where_javah = self.detect('JAVAH', 'javah', ENV=ENV)
else:
where_javah = self.where_is('javah', ENV['PATH'])
if not where_javah:
self.skip_test("Could not find Java javah, skipping test(s).\n")
return where_javah
def java_where_rmic(self, version=None):
ENV = self.java_ENV(version)
if self.detect_tool('rmic'):
where_rmic = self.detect('RMIC', 'rmic', ENV=ENV)
else:
where_rmic = self.where_is('rmic', ENV['PATH'])
if not where_rmic:
self.skip_test("Could not find Java rmic, skipping non-simulated test(s).\n")
return where_rmic
def java_get_class_files(self, dir):
result = []
for dirpath, dirnames, filenames in os.walk(dir):
for fname in filenames:
if fname.endswith('.class'):
result.append(os.path.join(dirpath, fname))
return sorted(result)
def Qt_dummy_installation(self, dir='qt'):
# create a dummy qt installation
self.subdir( dir, [dir, 'bin'], [dir, 'include'], [dir, 'lib'] )
self.write([dir, 'bin', 'mymoc.py'], """\
import getopt
import sys
import re
# -w and -z are fake options used in test/QT/QTFLAGS.py
cmd_opts, args = getopt.getopt(sys.argv[1:], 'io:wz', [])
output = None
impl = 0
opt_string = ''
for opt, arg in cmd_opts:
if opt == '-o': output = open(arg, 'wb')
elif opt == '-i': impl = 1
else: opt_string = opt_string + ' ' + opt
output.write("/* mymoc.py%s */\\n" % opt_string)
for a in args:
contents = open(a, 'rb').read()
a = a.replace('\\\\', '\\\\\\\\')
subst = r'{ my_qt_symbol( "' + a + '\\\\n" ); }'
if impl:
contents = re.sub( r'#include.*', '', contents )
output.write(contents.replace('Q_OBJECT', subst))
output.close()
sys.exit(0)
""")
self.write([dir, 'bin', 'myuic.py'], """\
import os.path
import re
import sys
output_arg = 0
impl_arg = 0
impl = None
source = None
opt_string = ''
for arg in sys.argv[1:]:
if output_arg:
output = open(arg, 'wb')
output_arg = 0
elif impl_arg:
impl = arg
impl_arg = 0
elif arg == "-o":
output_arg = 1
elif arg == "-impl":
impl_arg = 1
elif arg[0:1] == "-":
opt_string = opt_string + ' ' + arg
else:
if source:
sys.exit(1)
source = open(arg, 'rb')
sourceFile = arg
output.write("/* myuic.py%s */\\n" % opt_string)
if impl:
output.write( '#include "' + impl + '"\\n' )
includes = re.findall('<include.*?>(.*?)</include>', source.read())
for incFile in includes:
# this is valid for ui.h files, at least
if os.path.exists(incFile):
output.write('#include "' + incFile + '"\\n')
else:
output.write( '#include "my_qobject.h"\\n' + source.read() + " Q_OBJECT \\n" )
output.close()
sys.exit(0)
""" )
self.write([dir, 'include', 'my_qobject.h'], r"""
#define Q_OBJECT ;
void my_qt_symbol(const char *arg);
""")
self.write([dir, 'lib', 'my_qobject.cpp'], r"""
#include "../include/my_qobject.h"
#include <stdio.h>
void my_qt_symbol(const char *arg) {
fputs( arg, stdout );
}
""")
self.write([dir, 'lib', 'SConstruct'], r"""
env = Environment()
import sys
if sys.platform == 'win32':
env.StaticLibrary( 'myqt', 'my_qobject.cpp' )
else:
env.SharedLibrary( 'myqt', 'my_qobject.cpp' )
""")
self.run(chdir = self.workpath(dir, 'lib'),
arguments = '.',
stderr = noisy_ar,
match = self.match_re_dotall)
self.QT = self.workpath(dir)
self.QT_LIB = 'myqt'
self.QT_MOC = '%s %s' % (_python_, self.workpath(dir, 'bin', 'mymoc.py'))
self.QT_UIC = '%s %s' % (_python_, self.workpath(dir, 'bin', 'myuic.py'))
self.QT_LIB_DIR = self.workpath(dir, 'lib')
def Qt_create_SConstruct(self, place):
if isinstance(place, list):
place = test.workpath(*place)
self.write(place, """\
if ARGUMENTS.get('noqtdir', 0): QTDIR=None
else: QTDIR=r'%s'
env = Environment(QTDIR = QTDIR,
QT_LIB = r'%s',
QT_MOC = r'%s',
QT_UIC = r'%s',
tools=['default','qt'])
dup = 1
if ARGUMENTS.get('variant_dir', 0):
if ARGUMENTS.get('chdir', 0):
SConscriptChdir(1)
else:
SConscriptChdir(0)
dup=int(ARGUMENTS.get('dup', 1))
if dup == 0:
builddir = 'build_dup0'
env['QT_DEBUG'] = 1
else:
builddir = 'build'
VariantDir(builddir, '.', duplicate=dup)
print builddir, dup
sconscript = Dir(builddir).File('SConscript')
else:
sconscript = File('SConscript')
Export("env dup")
SConscript( sconscript )
""" % (self.QT, self.QT_LIB, self.QT_MOC, self.QT_UIC))
NCR = 0 # non-cached rebuild
CR = 1 # cached rebuild (up to date)
NCF = 2 # non-cached build failure
CF = 3 # cached build failure
if sys.platform == 'win32':
Configure_lib = 'msvcrt'
else:
Configure_lib = 'm'
# to use cygwin compilers on cmd.exe -> uncomment following line
#Configure_lib = 'm'
def checkLogAndStdout(self, checks, results, cached,
logfile, sconf_dir, sconstruct,
doCheckLog=1, doCheckStdout=1):
class NoMatch(Exception):
def __init__(self, p):
self.pos = p
def matchPart(log, logfile, lastEnd, NoMatch=NoMatch):
m = re.match(log, logfile[lastEnd:])
if not m:
raise NoMatch(lastEnd)
return m.end() + lastEnd
try:
#print len(os.linesep)
ls = os.linesep
nols = "("
for i in range(len(ls)):
nols = nols + "("
for j in range(i):
nols = nols + ls[j]
nols = nols + "[^" + ls[i] + "])"
if i < len(ls)-1:
nols = nols + "|"
nols = nols + ")"
lastEnd = 0
logfile = self.read(self.workpath(logfile))
if (doCheckLog and
logfile.find( "scons: warning: The stored build "
"information has an unexpected class." ) >= 0):
self.fail_test()
sconf_dir = sconf_dir
sconstruct = sconstruct
log = r'file\ \S*%s\,line \d+:' % re.escape(sconstruct) + ls
if doCheckLog: lastEnd = matchPart(log, logfile, lastEnd)
log = "\t" + re.escape("Configure(confdir = %s)" % sconf_dir) + ls
if doCheckLog: lastEnd = matchPart(log, logfile, lastEnd)
rdstr = ""
cnt = 0
for check,result,cache_desc in zip(checks, results, cached):
log = re.escape("scons: Configure: " + check) + ls
if doCheckLog: lastEnd = matchPart(log, logfile, lastEnd)
log = ""
result_cached = 1
for bld_desc in cache_desc: # each TryXXX
for ext, flag in bld_desc: # each file in TryBuild
file = os.path.join(sconf_dir,"conftest_%d%s" % (cnt, ext))
if flag == self.NCR:
# rebuild will pass
if ext in ['.c', '.cpp']:
log=log + re.escape(file + " <-") + ls
log=log + r"( \|" + nols + "*" + ls + ")+?"
else:
log=log + "(" + nols + "*" + ls +")*?"
result_cached = 0
if flag == self.CR:
# up to date
log=log + \
re.escape("scons: Configure: \"%s\" is up to date."
% file) + ls
log=log+re.escape("scons: Configure: The original builder "
"output was:") + ls
log=log+r"( \|.*"+ls+")+"
if flag == self.NCF:
# non-cached rebuild failure
log=log + "(" + nols + "*" + ls + ")*?"
result_cached = 0
if flag == self.CF:
# cached rebuild failure
log=log + \
re.escape("scons: Configure: Building \"%s\" failed "
"in a previous run and all its sources are"
" up to date." % file) + ls
log=log+re.escape("scons: Configure: The original builder "
"output was:") + ls
log=log+r"( \|.*"+ls+")+"
cnt = cnt + 1
if result_cached:
result = "(cached) " + result
rdstr = rdstr + re.escape(check) + re.escape(result) + "\n"
log=log + re.escape("scons: Configure: " + result) + ls + ls
if doCheckLog: lastEnd = matchPart(log, logfile, lastEnd)
log = ""
if doCheckLog: lastEnd = matchPart(ls, logfile, lastEnd)
if doCheckLog and lastEnd != len(logfile):
raise NoMatch(lastEnd)
except NoMatch, m:
print "Cannot match log file against log regexp."
print "log file: "
print "------------------------------------------------------"
print logfile[m.pos:]
print "------------------------------------------------------"
print "log regexp: "
print "------------------------------------------------------"
print log
print "------------------------------------------------------"
self.fail_test()
if doCheckStdout:
exp_stdout = self.wrap_stdout(".*", rdstr)
if not self.match_re_dotall(self.stdout(), exp_stdout):
print "Unexpected stdout: "
print "-----------------------------------------------------"
print repr(self.stdout())
print "-----------------------------------------------------"
print repr(exp_stdout)
print "-----------------------------------------------------"
self.fail_test()
def get_python_version(self):
"""
Returns the Python version (just so everyone doesn't have to
hand-code slicing the right number of characters).
"""
# see also sys.prefix documentation
return python_minor_version_string()
def get_platform_python_info(self):
"""
Returns a path to a Python executable suitable for testing on
this platform and its associated include path, library path,
and library name.
"""
python = self.where_is('python')
if not python:
self.skip_test('Can not find installed "python", skipping test.\n')
self.run(program = python, stdin = """\
import os, sys
try:
py_ver = 'python%d.%d' % sys.version_info[:2]
except AttributeError:
py_ver = 'python' + sys.version[:3]
print os.path.join(sys.prefix, 'include', py_ver)
print os.path.join(sys.prefix, 'lib', py_ver, 'config')
print py_ver
""")
return [python] + self.stdout().strip().split('\n')
def start(self, *args, **kw):
"""
Starts SCons in the test environment.
This method exists to tell Test{Cmd,Common} that we're going to
use standard input without forcing every .start() call in the
individual tests to do so explicitly.
"""
if 'stdin' not in kw:
kw['stdin'] = True
sconsflags = initialize_sconsflags(self.ignore_python_version)
try:
p = TestCommon.start(self, *args, **kw)
finally:
restore_sconsflags(sconsflags)
return p
def wait_for(self, fname, timeout=20.0, popen=None):
"""
Waits for the specified file name to exist.
"""
waited = 0.0
while not os.path.exists(fname):
if timeout and waited >= timeout:
sys.stderr.write('timed out waiting for %s to exist\n' % fname)
if popen:
popen.stdin.close()
popen.stdin = None
self.status = 1
self.finish(popen)
stdout = self.stdout()
if stdout:
sys.stdout.write(self.banner('STDOUT ') + '\n')
sys.stdout.write(stdout)
stderr = self.stderr()
if stderr:
sys.stderr.write(self.banner('STDERR ') + '\n')
sys.stderr.write(stderr)
self.fail_test()
time.sleep(1.0)
waited = waited + 1.0
def get_alt_cpp_suffix(self):
"""
Many CXX tests have this same logic.
They all needed to determine if the current os supports
files with .C and .c as different files or not
in which case they are instructed to use .cpp instead of .C
"""
if not case_sensitive_suffixes('.c','.C'):
alt_cpp_suffix = '.cpp'
else:
alt_cpp_suffix = '.C'
return alt_cpp_suffix
class Stat:
def __init__(self, name, units, expression, convert=None):
if convert is None:
convert = lambda x: x
self.name = name
self.units = units
self.expression = re.compile(expression)
self.convert = convert
StatList = [
Stat('memory-initial', 'kbytes',
r'Memory before reading SConscript files:\s+(\d+)',
convert=lambda s: int(s) // 1024),
Stat('memory-prebuild', 'kbytes',
r'Memory before building targets:\s+(\d+)',
convert=lambda s: int(s) // 1024),
Stat('memory-final', 'kbytes',
r'Memory after building targets:\s+(\d+)',
convert=lambda s: int(s) // 1024),
Stat('time-sconscript', 'seconds',
r'Total SConscript file execution time:\s+([\d.]+) seconds'),
Stat('time-scons', 'seconds',
r'Total SCons execution time:\s+([\d.]+) seconds'),
Stat('time-commands', 'seconds',
r'Total command execution time:\s+([\d.]+) seconds'),
Stat('time-total', 'seconds',
r'Total build time:\s+([\d.]+) seconds'),
]
class TimeSCons(TestSCons):
"""Class for timing SCons."""
def __init__(self, *args, **kw):
"""
In addition to normal TestSCons.TestSCons intialization,
this enables verbose mode (which causes the command lines to
be displayed in the output) and copies the contents of the
directory containing the executing script to the temporary
working directory.
"""
self.variables = kw.get('variables')
default_calibrate_variables = []
if self.variables is not None:
for variable, value in self.variables.items():
value = os.environ.get(variable, value)
try:
value = int(value)
except ValueError:
try:
value = float(value)
except ValueError:
pass
else:
default_calibrate_variables.append(variable)
else:
default_calibrate_variables.append(variable)
self.variables[variable] = value
del kw['variables']
calibrate_keyword_arg = kw.get('calibrate')
if calibrate_keyword_arg is None:
self.calibrate_variables = default_calibrate_variables
else:
self.calibrate_variables = calibrate_keyword_arg
del kw['calibrate']
self.calibrate = os.environ.get('TIMESCONS_CALIBRATE', '0') != '0'
if 'verbose' not in kw and not self.calibrate:
kw['verbose'] = True
TestSCons.__init__(self, *args, **kw)
# TODO(sgk): better way to get the script dir than sys.argv[0]
self.test_dir = os.path.dirname(sys.argv[0])
test_name = os.path.basename(self.test_dir)
if not os.path.isabs(self.test_dir):
self.test_dir = os.path.join(self.orig_cwd, self.test_dir)
self.copy_timing_configuration(self.test_dir, self.workpath())
def main(self, *args, **kw):
"""
The main entry point for standard execution of timings.
This method run SCons three times:
Once with the --help option, to have it exit after just reading
the configuration.
Once as a full build of all targets.
Once again as a (presumably) null or up-to-date build of
all targets.
The elapsed time to execute each build is printed after
it has finished.
"""
if 'options' not in kw and self.variables:
options = []
for variable, value in self.variables.items():
options.append('%s=%s' % (variable, value))
kw['options'] = ' '.join(options)
if self.calibrate:
self.calibration(*args, **kw)
else:
self.uptime()
self.startup(*args, **kw)
self.full(*args, **kw)
self.null(*args, **kw)
def trace(self, graph, name, value, units, sort=None):
fmt = "TRACE: graph=%s name=%s value=%s units=%s"
line = fmt % (graph, name, value, units)
if sort is not None:
line = line + (' sort=%s' % sort)
line = line + '\n'
sys.stdout.write(line)
sys.stdout.flush()
def report_traces(self, trace, stats):
self.trace('TimeSCons-elapsed',
trace,
self.elapsed_time(),
"seconds",
sort=0)
for name, args in stats.items():
self.trace(name, trace, **args)
def uptime(self):
try:
fp = open('/proc/loadavg')
except EnvironmentError:
pass
else:
avg1, avg5, avg15 = fp.readline().split(" ")[:3]
fp.close()
self.trace('load-average', 'average1', avg1, 'processes')
self.trace('load-average', 'average5', avg5, 'processes')
self.trace('load-average', 'average15', avg15, 'processes')
def collect_stats(self, input):
result = {}
for stat in StatList:
m = stat.expression.search(input)
if m:
value = stat.convert(m.group(1))
# The dict keys match the keyword= arguments
# of the trace() method above so they can be
# applied directly to that call.
result[stat.name] = {'value':value, 'units':stat.units}
return result
def add_timing_options(self, kw, additional=None):
"""
Add the necessary timings options to the kw['options'] value.
"""
options = kw.get('options', '')
if additional is not None:
options += additional
kw['options'] = options + ' --debug=memory --debug=time'
def startup(self, *args, **kw):
"""
Runs scons with the --help option.
This serves as a way to isolate just the amount of startup time
spent reading up the configuration, since --help exits before any
"real work" is done.
"""
self.add_timing_options(kw, ' --help')
# Ignore the exit status. If the --help run dies, we just
# won't report any statistics for it, but we can still execute
# the full and null builds.
kw['status'] = None
self.run(*args, **kw)
sys.stdout.write(self.stdout())
stats = self.collect_stats(self.stdout())
# Delete the time-commands, since no commands are ever
# executed on the help run and it is (or should be) always 0.0.
del stats['time-commands']
self.report_traces('startup', stats)
def full(self, *args, **kw):
"""
Runs a full build of SCons.
"""
self.add_timing_options(kw)
self.run(*args, **kw)
sys.stdout.write(self.stdout())
stats = self.collect_stats(self.stdout())
self.report_traces('full', stats)
self.trace('full-memory', 'initial', **stats['memory-initial'])
self.trace('full-memory', 'prebuild', **stats['memory-prebuild'])
self.trace('full-memory', 'final', **stats['memory-final'])
def calibration(self, *args, **kw):
"""
Runs a full build of SCons, but only reports calibration
information (the variable(s) that were set for this configuration,
and the elapsed time to run.
"""
self.add_timing_options(kw)
self.run(*args, **kw)
for variable in self.calibrate_variables:
value = self.variables[variable]
sys.stdout.write('VARIABLE: %s=%s\n' % (variable, value))
sys.stdout.write('ELAPSED: %s\n' % self.elapsed_time())
def null(self, *args, **kw):
"""
Runs an up-to-date null build of SCons.
"""
# TODO(sgk): allow the caller to specify the target (argument)
# that must be up-to-date.
self.add_timing_options(kw)
self.up_to_date(arguments='.', **kw)
sys.stdout.write(self.stdout())
stats = self.collect_stats(self.stdout())
# time-commands should always be 0.0 on a null build, because
# no commands should be executed. Remove it from the stats
# so we don't trace it, but only if it *is* 0 so that we'll
# get some indication if a supposedly-null build actually does
# build something.
if float(stats['time-commands']['value']) == 0.0:
del stats['time-commands']
self.report_traces('null', stats)
self.trace('null-memory', 'initial', **stats['memory-initial'])
self.trace('null-memory', 'prebuild', **stats['memory-prebuild'])
self.trace('null-memory', 'final', **stats['memory-final'])
def elapsed_time(self):
"""
Returns the elapsed time of the most recent command execution.
"""
return self.endTime - self.startTime
def run(self, *args, **kw):
"""
Runs a single build command, capturing output in the specified file.
Because this class is about timing SCons, we record the start
and end times of the elapsed execution, and also add the
--debug=memory and --debug=time options to have SCons report
its own memory and timing statistics.
"""
self.startTime = time.time()
try:
result = TestSCons.run(self, *args, **kw)
finally:
self.endTime = time.time()
return result
def copy_timing_configuration(self, source_dir, dest_dir):
"""
Copies the timing configuration from the specified source_dir (the
directory in which the controlling script lives) to the specified
dest_dir (a temporary working directory).
This ignores all files and directories that begin with the string
'TimeSCons-', and all '.svn' subdirectories.
"""
for root, dirs, files in os.walk(source_dir):
if '.svn' in dirs:
dirs.remove('.svn')
dirs = [ d for d in dirs if not d.startswith('TimeSCons-') ]
files = [ f for f in files if not f.startswith('TimeSCons-') ]
for dirname in dirs:
source = os.path.join(root, dirname)
destination = source.replace(source_dir, dest_dir)
os.mkdir(destination)
if sys.platform != 'win32':
shutil.copystat(source, destination)
for filename in files:
source = os.path.join(root, filename)
destination = source.replace(source_dir, dest_dir)
shutil.copy2(source, destination)
# In some environments, $AR will generate a warning message to stderr
# if the library doesn't previously exist and is being created. One
# way to fix this is to tell AR to be quiet (sometimes the 'c' flag),
# but this is difficult to do in a platform-/implementation-specific
# method. Instead, we will use the following as a stderr match for
# tests that use AR so that we will view zero or more "ar: creating
# <file>" messages to be successful executions of the test (see
# test/AR.py for sample usage).
noisy_ar=r'(ar: creating( archive)? \S+\n?)*'
# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4:
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