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author | Barry Warsaw <barry@python.org> | 2000-05-26 19:05:16 (GMT) |
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committer | Barry Warsaw <barry@python.org> | 2000-05-26 19:05:16 (GMT) |
commit | 675ac285aed98a080b3692db78370ff59e7c03ae (patch) | |
tree | 546cd6b560b2d7509fefcdb3ee733097bd2ce7b4 | |
parent | f17861badca20eaa7a9c8998a75e1f863bb8e5b1 (diff) | |
download | cpython-675ac285aed98a080b3692db78370ff59e7c03ae.zip cpython-675ac285aed98a080b3692db78370ff59e7c03ae.tar.gz cpython-675ac285aed98a080b3692db78370ff59e7c03ae.tar.bz2 |
The standard exception classes. Moved here from ../Modules/_exceptions.c
-rw-r--r-- | Python/exceptions.c | 994 |
1 files changed, 994 insertions, 0 deletions
diff --git a/Python/exceptions.c b/Python/exceptions.c new file mode 100644 index 0000000..c585aa7 --- /dev/null +++ b/Python/exceptions.c @@ -0,0 +1,994 @@ +/* This module provides the suite of standard class-based exceptions for + * Python's builtin module. This is a complete C implementation of what, + * in Python 1.5.2, was contained in the exceptions.py module. The problem + * there was that if exceptions.py could not be imported for some reason, + * the entire interpreter would abort. + * + * By moving the exceptions into C and statically linking, we can guarantee + * that the standard exceptions will always be available. + * + * history: + * 98-08-19 fl created (for pyexe) + * 00-02-08 fl updated for 1.5.2 + * 26-May-2000 baw vetted for Python 1.6 + * + * written by Fredrik Lundh + * modifications, additions, cleanups, and proofreading by Barry Warsaw + * + * Copyright (c) 1998-2000 by Secret Labs AB. All rights reserved. + */ + +#include "Python.h" + +static char +module__doc__[] = +"Python's standard exception class hierarchy.\n\ +\n\ +Before Python 1.5, the standard exceptions were all simple string objects.\n\ +In Python 1.5, the standard exceptions were converted to classes organized\n\ +into a relatively flat hierarchy. String-based standard exceptions were\n\ +optional, or used as a fallback if some problem occurred while importing\n\ +the exception module. With Python 1.6, optional string-based standard\n\ +exceptions were removed (along with the -X command line flag).\n\ +\n\ +The class exceptions were implemented in such a way as to be almost\n\ +completely backward compatible. Some tricky uses of IOError could\n\ +potentially have broken, but by Python 1.6, all of these should have\n\ +been fixed. As of Python 1.6, the class-based standard exceptions are\n\ +now implemented in C, and are guaranteed to exist in the Python\n\ +interpreter.\n\ +\n\ +Here is a rundown of the class hierarchy. The classes found here are\n\ +inserted into both the exceptions module and the `built-in' module. It is\n\ +recommended that user defined class based exceptions be derived from the\n\ +`Exception' class, although this is currently not enforced.\n\ +\n\ +Exception\n\ + |\n\ + +-- SystemExit\n\ + +-- StandardError\n\ + |\n\ + +-- KeyboardInterrupt\n\ + +-- ImportError\n\ + +-- EnvironmentError\n\ + | |\n\ + | +-- IOError\n\ + | +-- OSError\n\ + | |\n\ + | +-- WindowsError\n\ + |\n\ + +-- EOFError\n\ + +-- RuntimeError\n\ + | |\n\ + | +-- NotImplementedError\n\ + |\n\ + +-- NameError\n\ + | |\n\ + | +-- UnboundLocalError\n\ + |\n\ + +-- AttributeError\n\ + +-- SyntaxError\n\ + +-- TypeError\n\ + +-- AssertionError\n\ + +-- LookupError\n\ + | |\n\ + | +-- IndexError\n\ + | +-- KeyError\n\ + |\n\ + +-- ArithmeticError\n\ + | |\n\ + | +-- OverflowError\n\ + | +-- ZeroDivisionError\n\ + | +-- FloatingPointError\n\ + |\n\ + +-- ValueError\n\ + | |\n\ + | +-- UnicodeError\n\ + |\n\ + +-- SystemError\n\ + +-- MemoryError"; + + +/* Helper function for populating a dictionary with method wrappers. */ +static int +populate_methods(PyObject* klass, PyObject* dict, PyMethodDef* methods) +{ + if (!methods) + return 0; + + while (methods->ml_name) { + /* get a wrapper for the built-in function */ + PyObject* func = PyCFunction_New(methods, NULL); + PyObject* meth; + int status; + + if (!func) + return -1; + + /* turn the function into an unbound method */ + if (!(meth = PyMethod_New(func, NULL, klass))) { + Py_DECREF(func); + return -1; + } + + /* add method to dictionary */ + status = PyDict_SetItemString(dict, methods->ml_name, meth); + Py_DECREF(meth); + Py_DECREF(func); + + /* stop now if an error occurred, otherwise do the next method */ + if (status) + return status; + + methods++; + } + return 0; +} + + + +/* This function is used to create all subsequent exception classes. */ +static int +make_class(PyObject** klass, PyObject* base, + char* name, PyMethodDef* methods, + char* docstr) +{ + PyObject* dict = PyDict_New(); + PyObject* str = NULL; + int status = -1; + + if (!dict) + return -1; + + /* If an error occurs from here on, goto finally instead of explicitly + * returning NULL. + */ + + if (docstr) { + if (!(str = PyString_FromString(docstr))) + goto finally; + if (PyDict_SetItemString(dict, "__doc__", str)) + goto finally; + } + + if (!(*klass = PyErr_NewException(name, base, dict))) + goto finally; + + if (populate_methods(*klass, dict, methods)) { + Py_DECREF(*klass); + *klass = NULL; + } + + status = 0; + + finally: + Py_XDECREF(dict); + Py_XDECREF(str); + return status; +} + + +/* Use this for *args signatures, otherwise just use PyArg_ParseTuple() */ +static PyObject* get_self(PyObject* args) +{ + PyObject* self = PyTuple_GetItem(args, 0); + if (!self) { + /* Watch out for being called to early in the bootstapping process */ + if (PyExc_TypeError) { + PyErr_SetString(PyExc_TypeError, + "unbound method must be called with class instance 1st argument"); + } + return NULL; + } + return self; +} + + + +/* Notes on bootstrapping the exception classes. + * + * First thing we create is the base class for all exceptions, called + * appropriately enough: Exception. Creation of this class makes no + * assumptions about the existance of any other exception class -- except + * for TypeError, which can conditionally exist. + * + * Next, StandardError is created (which is quite simple) followed by + * TypeError, because the instantiation of other exceptions can potentially + * throw a TypeError. Once these exceptions are created, all the others + * can be created in any order. See the static exctable below for the + * explicit bootstrap order. + * + * All classes after Exception can be created using PyErr_NewException(). + */ + +static char +Exception__doc__[] = "Common base class for all exceptions."; + + +static PyObject* +Exception__init__(PyObject* self, PyObject* args) +{ + int status; + + if (!(self = get_self(args))) + return NULL; + + /* set args attribute */ + args = PySequence_GetSlice(args, 1, PySequence_Length(args)); + if (!args) + return NULL; + status = PyObject_SetAttrString(self, "args", args); + Py_DECREF(args); + if (status < 0) + return NULL; + + Py_INCREF(Py_None); + return Py_None; +} + + +static PyObject* +Exception__str__(PyObject* self, PyObject* args) +{ + PyObject* out; + PyObject* tmp; + + if (!PyArg_ParseTuple(args, "O", &self)) + return NULL; + + args = PyObject_GetAttrString(self, "args"); + if (!args) + return NULL; + + switch (PySequence_Length(args)) { + case 0: + out = PyString_FromString(""); + break; + case 1: + if (!(tmp = PySequence_GetItem(args, 0))) + out = NULL; + else + out = PyObject_Str(tmp); + break; + default: + out = PyObject_Str(args); + break; + } + + Py_DECREF(args); + return out; +} + + +static PyObject* +Exception__getitem__(PyObject* self, PyObject* args) +{ + PyObject* out; + PyObject* index; + + if (!PyArg_ParseTuple(args, "OO", &self, &index)) + return NULL; + + args = PyObject_GetAttrString(self, "args"); + if (!args) + return NULL; + + out = PyObject_GetItem(args, index); + Py_DECREF(args); + return out; +} + + +static PyMethodDef +Exception_methods[] = { + /* methods for the Exception class */ + { "__getitem__", Exception__getitem__, 1}, + { "__str__", Exception__str__, 1}, + { "__init__", Exception__init__, 1}, + { NULL, NULL } +}; + + +static int +make_Exception(char* modulename) +{ + PyObject* dict = PyDict_New(); + PyObject* str = NULL; + PyObject* name = NULL; + int status = -1; + + if (!dict) + return -1; + + /* If an error occurs from here on, goto finally instead of explicitly + * returning NULL. + */ + + if (!(str = PyString_FromString(modulename))) + goto finally; + if (PyDict_SetItemString(dict, "__module__", str)) + goto finally; + Py_DECREF(str); + if (!(str = PyString_FromString(Exception__doc__))) + goto finally; + if (PyDict_SetItemString(dict, "__doc__", str)) + goto finally; + + if (!(name = PyString_FromString("Exception"))) + goto finally; + + if (!(PyExc_Exception = PyClass_New(NULL, dict, name))) + goto finally; + + /* Now populate the dictionary with the method suite */ + if (populate_methods(PyExc_Exception, dict, Exception_methods)) + /* Don't need to reclaim PyExc_Exception here because that'll + * happen during interpreter shutdown. + */ + goto finally; + + status = 0; + + finally: + Py_XDECREF(dict); + Py_XDECREF(str); + Py_XDECREF(name); + return status; +} + + + +static char +StandardError__doc__[] = "Base class for all standard Python exceptions."; + +static char +TypeError__doc__[] = "Inappropriate argument type."; + + + +static char +SystemExit__doc__[] = "Request to exit from the interpreter."; + + +static PyObject* +SystemExit__init__(PyObject* self, PyObject* args) +{ + PyObject* code; + int status; + + if (!(self = get_self(args))) + return NULL; + + /* Set args attribute. */ + if (!(args = PySequence_GetSlice(args, 1, PySequence_Length(args)))) + return NULL; + + status = PyObject_SetAttrString(self, "args", args); + if (status < 0) { + Py_DECREF(args); + return NULL; + } + + /* set code attribute */ + switch (PySequence_Length(args)) { + case 0: + Py_INCREF(Py_None); + code = Py_None; + break; + case 1: + code = PySequence_GetItem(args, 0); + break; + default: + Py_INCREF(args); + code = args; + break; + } + + status = PyObject_SetAttrString(self, "code", code); + Py_DECREF(code); + Py_DECREF(args); + if (status < 0) + return NULL; + + Py_INCREF(Py_None); + return Py_None; +} + + +PyMethodDef SystemExit_methods[] = { + { "__init__", SystemExit__init__, 1}, + {NULL, NULL} +}; + + + +static char +KeyboardInterrupt__doc__[] = "Program interrupted by user."; + +static char +ImportError__doc__[] = +"Import can't find module, or can't find name in module."; + + + +static char +EnvironmentError__doc__[] = "Base class for I/O related errors."; + + +static PyObject* +EnvironmentError__init__(PyObject* self, PyObject* args) +{ + PyObject* item0 = NULL; + PyObject* item1 = NULL; + PyObject* item2 = NULL; + PyObject* subslice = NULL; + PyObject* rtnval = NULL; + + if (!(self = get_self(args))) + return NULL; + + if (!(args = PySequence_GetSlice(args, 1, PySequence_Length(args)))) + return NULL; + + if (PyObject_SetAttrString(self, "args", args) || + PyObject_SetAttrString(self, "errno", Py_None) || + PyObject_SetAttrString(self, "strerror", Py_None) || + PyObject_SetAttrString(self, "filename", Py_None)) + { + goto finally; + } + + switch (PySequence_Length(args)) { + case 3: + /* open() errors give third argument which is the filename. But so + * common in-place unpacking doesn't break, e.g.: + * + * except IOError, (errno, strerror): + * + * we hack args so that it only contains two items. This also + * means we need our own __str__() which prints out the filename + * when it was supplied. + */ + item0 = PySequence_GetItem(args, 0); + item1 = PySequence_GetItem(args, 1); + item2 = PySequence_GetItem(args, 2); + if (!item0 || !item1 || !item2) + goto finally; + + if (PyObject_SetAttrString(self, "errno", item0) || + PyObject_SetAttrString(self, "strerror", item1) || + PyObject_SetAttrString(self, "filename", item2)) + { + goto finally; + } + + subslice = PySequence_GetSlice(args, 0, 2); + if (!subslice || PyObject_SetAttrString(self, "args", subslice)) + goto finally; + + case 2: + /* common case: PyErr_SetFromErrno() */ + item0 = PySequence_GetItem(args, 0); + item1 = PySequence_GetItem(args, 1); + if (!item0 || !item1) + goto finally; + + if (PyObject_SetAttrString(self, "errno", item0) || + PyObject_SetAttrString(self, "strerror", item1)) + { + goto finally; + } + } + + Py_INCREF(Py_None); + rtnval = Py_None; + + finally: + Py_DECREF(args); + Py_XDECREF(item0); + Py_XDECREF(item1); + Py_XDECREF(item2); + Py_XDECREF(subslice); + return rtnval; +} + + +static PyObject* +EnvironmentError__str__(PyObject* self, PyObject* args) +{ + PyObject* originalself = self; + PyObject* filename; + PyObject* serrno; + PyObject* strerror; + PyObject* rtnval = NULL; + + if (!PyArg_ParseTuple(args, "O", &self)) + return NULL; + + filename = PyObject_GetAttrString(self, "filename"); + serrno = PyObject_GetAttrString(self, "errno"); + strerror = PyObject_GetAttrString(self, "strerror"); + if (!filename || !serrno || !strerror) + goto finally; + + if (filename != Py_None) { + PyObject* fmt = PyString_FromString("[Errno %s] %s: %s"); + PyObject* repr = PyObject_Repr(filename); + PyObject* tuple = PyTuple_New(3); + + if (!fmt || !repr || !tuple) { + Py_XDECREF(fmt); + Py_XDECREF(repr); + Py_XDECREF(tuple); + goto finally; + } + + PyTuple_SET_ITEM(tuple, 0, serrno); + PyTuple_SET_ITEM(tuple, 1, strerror); + PyTuple_SET_ITEM(tuple, 2, repr); + + rtnval = PyString_Format(fmt, tuple); + + Py_DECREF(fmt); + Py_DECREF(tuple); + /* already freed because tuple owned only reference */ + serrno = NULL; + strerror = NULL; + } + else if (PyObject_IsTrue(serrno) && PyObject_IsTrue(strerror)) { + PyObject* fmt = PyString_FromString("[Errno %s] %s"); + PyObject* tuple = PyTuple_New(2); + + if (!fmt || !tuple) { + Py_XDECREF(fmt); + Py_XDECREF(tuple); + goto finally; + } + + PyTuple_SET_ITEM(tuple, 0, serrno); + PyTuple_SET_ITEM(tuple, 1, strerror); + + rtnval = PyString_Format(fmt, tuple); + + Py_DECREF(fmt); + Py_DECREF(tuple); + /* already freed because tuple owned only reference */ + serrno = NULL; + strerror = NULL; + } + else + /* The original Python code said: + * + * return StandardError.__str__(self) + * + * but there is no StandardError__str__() function; we happen to + * know that's just a pass through to Exception__str__(). + */ + rtnval = Exception__str__(originalself, args); + + finally: + Py_XDECREF(filename); + Py_XDECREF(serrno); + Py_XDECREF(strerror); + return rtnval; +} + + +static +PyMethodDef EnvironmentError_methods[] = { + {"__init__", EnvironmentError__init__, 1}, + {"__str__", EnvironmentError__str__, 1}, + {NULL, NULL} +}; + + + + +static char +IOError__doc__[] = "I/O operation failed."; + +static char +OSError__doc__[] = "OS system call failed."; + +#ifdef MS_WINDOWS +static char +WindowsError__doc__[] = "MS-Windows OS system call failed."; +#endif /* MS_WINDOWS */ + +static char +EOFError__doc__[] = "Read beyond end of file."; + +static char +RuntimeError__doc__[] = "Unspecified run-time error."; + +static char +NotImplementedError__doc__[] = +"Method or function hasn't been implemented yet."; + +static char +NameError__doc__[] = "Name not found globally."; + +static char +UnboundLocalError__doc__[] = +"Local name referenced but not bound to a value."; + +static char +AttributeError__doc__[] = "Attribute not found."; + + + +static char +SyntaxError__doc__[] = "Invalid syntax."; + + +static int +SyntaxError__classinit__(PyObject* klass) +{ + PyObject* emptystring = PyString_FromString(""); + + /* Additional class-creation time initializations */ + if (!emptystring || + PyObject_SetAttrString(klass, "msg", emptystring) || + PyObject_SetAttrString(klass, "filename", Py_None) || + PyObject_SetAttrString(klass, "lineno", Py_None) || + PyObject_SetAttrString(klass, "offset", Py_None) || + PyObject_SetAttrString(klass, "text", Py_None)) + { + Py_XDECREF(emptystring); + return -1; + } + Py_DECREF(emptystring); + return 0; +} + + +static PyObject* +SyntaxError__init__(PyObject* self, PyObject* args) +{ + PyObject* rtnval = NULL; + int lenargs; + + if (!(self = get_self(args))) + return NULL; + + if (!(args = PySequence_GetSlice(args, 1, PySequence_Length(args)))) + return NULL; + + if (PyObject_SetAttrString(self, "args", args)) + goto finally; + + lenargs = PySequence_Length(args); + if (lenargs >= 1) { + PyObject* item0 = PySequence_GetItem(args, 0); + int status; + + if (!item0) + goto finally; + status = PyObject_SetAttrString(self, "msg", item0); + Py_DECREF(item0); + if (status) + goto finally; + } + if (lenargs == 2) { + PyObject* info = PySequence_GetItem(args, 1); + PyObject *filename, *lineno, *offset, *text; + int status = 1; + + if (!info) + goto finally; + + filename = PySequence_GetItem(info, 0); + lineno = PySequence_GetItem(info, 1); + offset = PySequence_GetItem(info, 2); + text = PySequence_GetItem(info, 3); + + Py_DECREF(info); + + if (filename && lineno && offset && text) { + status = PyObject_SetAttrString(self, "filename", filename) || + PyObject_SetAttrString(self, "lineno", lineno) || + PyObject_SetAttrString(self, "offset", offset) || + PyObject_SetAttrString(self, "text", text); + } + Py_XDECREF(filename); + Py_XDECREF(lineno); + Py_XDECREF(offset); + Py_XDECREF(text); + + if (status) + goto finally; + } + Py_INCREF(Py_None); + rtnval = Py_None; + + finally: + Py_DECREF(args); + return rtnval; +} + + +static PyObject* +SyntaxError__str__(PyObject* self, PyObject* args) +{ + PyObject* msg; + PyObject* str; + + if (!PyArg_ParseTuple(args, "O", &self)) + return NULL; + + if (!(msg = PyObject_GetAttrString(self, "msg"))) + return NULL; + + str = PyObject_Str(msg); + Py_DECREF(msg); + return str; +} + + +PyMethodDef SyntaxError_methods[] = { + {"__init__", SyntaxError__init__, 1}, + {"__str__", SyntaxError__str__,}, + {NULL, NULL} +}; + + + +static char +AssertionError__doc__[] = "Assertion failed."; + +static char +LookupError__doc__[] = "Base class for lookup errors."; + +static char +IndexError__doc__[] = "Sequence index out of range."; + +static char +KeyError__doc__[] = "Mapping key not found."; + +static char +ArithmeticError__doc__[] = "Base class for arithmetic errors."; + +static char +OverflowError__doc__[] = "Result too large to be represented."; + +static char +ZeroDivisionError__doc__[] = +"Second argument to a division or modulo operation was zero."; + +static char +FloatingPointError__doc__[] = "Floating point operation failed."; + +static char +ValueError__doc__[] = "Inappropriate argument value (of correct type)."; + +static char +UnicodeError__doc__[] = "Unicode related error."; + +static char +SystemError__doc__[] = "Internal error in the Python interpreter.\n\ +\n\ +Please report this to the Python maintainer, along with the traceback,\n\ +the Python version, and the hardware/OS platform and version."; + +static char +MemoryError__doc__[] = "Out of memory."; + + + +/* module global functions */ +static PyMethodDef functions[] = { + /* Sentinel */ + {NULL, NULL} +}; + + + +/* Global C API defined exceptions */ + +PyObject *PyExc_Exception; +PyObject *PyExc_StandardError; +PyObject *PyExc_ArithmeticError; +PyObject *PyExc_LookupError; + +PyObject *PyExc_AssertionError; +PyObject *PyExc_AttributeError; +PyObject *PyExc_EOFError; +PyObject *PyExc_FloatingPointError; +PyObject *PyExc_EnvironmentError; +PyObject *PyExc_IOError; +PyObject *PyExc_OSError; +PyObject *PyExc_ImportError; +PyObject *PyExc_IndexError; +PyObject *PyExc_KeyError; +PyObject *PyExc_KeyboardInterrupt; +PyObject *PyExc_MemoryError; +PyObject *PyExc_NameError; +PyObject *PyExc_OverflowError; +PyObject *PyExc_RuntimeError; +PyObject *PyExc_NotImplementedError; +PyObject *PyExc_SyntaxError; +PyObject *PyExc_SystemError; +PyObject *PyExc_SystemExit; +PyObject *PyExc_UnboundLocalError; +PyObject *PyExc_UnicodeError; +PyObject *PyExc_TypeError; +PyObject *PyExc_ValueError; +PyObject *PyExc_ZeroDivisionError; +#ifdef MS_WINDOWS +PyObject *PyExc_WindowsError; +#endif + +/* Pre-computed MemoryError instance. Best to create this as early as + * possibly and not wait until a MemoryError is actually raised! + */ +PyObject *PyExc_MemoryErrorInst; + + + +/* mapping between exception names and their PyObject** */ +static struct +{ + char* name; + PyObject** exc; + PyObject** base; /* NULL == PyExc_StandardError */ + char* docstr; + PyMethodDef* methods; + int (*classinit)(PyObject*); +} +exctable[] = { + /* + * The first three classes MUST appear in exactly this order + */ + {"Exception", &PyExc_Exception}, + {"StandardError", &PyExc_StandardError, &PyExc_Exception, + StandardError__doc__}, + {"TypeError", &PyExc_TypeError, 0, TypeError__doc__}, + /* + * The rest appear in depth-first order of the hierarchy + */ + {"SystemExit", &PyExc_SystemExit, &PyExc_Exception, SystemExit__doc__, + SystemExit_methods}, + {"KeyboardInterrupt", &PyExc_KeyboardInterrupt, 0, KeyboardInterrupt__doc__}, + {"ImportError", &PyExc_ImportError, 0, ImportError__doc__}, + {"EnvironmentError", &PyExc_EnvironmentError, 0, EnvironmentError__doc__, + EnvironmentError_methods}, + {"IOError", &PyExc_IOError, &PyExc_EnvironmentError, IOError__doc__}, + {"OSError", &PyExc_OSError, &PyExc_EnvironmentError, OSError__doc__}, +#ifdef MS_WINDOWS + {"WindowsError", &PyExc_WindowsError, &PyExc_EnvironmentError, + WindowsError__doc__}, +#endif /* MS_WINDOWS */ + {"EOFError", &PyExc_EOFError, 0, EOFError__doc__}, + {"RuntimeError", &PyExc_RuntimeError, 0, RuntimeError__doc__}, + {"NotImplementedError", &PyExc_NotImplementedError, + &PyExc_RuntimeError, NotImplementedError__doc__}, + {"NameError", &PyExc_NameError, 0, NameError__doc__}, + {"UnboundLocalError", &PyExc_UnboundLocalError, &PyExc_NameError, + UnboundLocalError__doc__}, + {"AttributeError", &PyExc_AttributeError, 0, AttributeError__doc__}, + {"SyntaxError", &PyExc_SyntaxError, 0, SyntaxError__doc__, + SyntaxError_methods, SyntaxError__classinit__}, + {"AssertionError", &PyExc_AssertionError, 0, AssertionError__doc__}, + {"LookupError", &PyExc_LookupError, 0, LookupError__doc__}, + {"IndexError", &PyExc_IndexError, &PyExc_LookupError, + IndexError__doc__}, + {"KeyError", &PyExc_KeyError, &PyExc_LookupError, + KeyError__doc__}, + {"ArithmeticError", &PyExc_ArithmeticError, 0, ArithmeticError__doc__}, + {"OverflowError", &PyExc_OverflowError, &PyExc_ArithmeticError, + OverflowError__doc__}, + {"ZeroDivisionError", &PyExc_ZeroDivisionError, &PyExc_ArithmeticError, + ZeroDivisionError__doc__}, + {"FloatingPointError", &PyExc_FloatingPointError, &PyExc_ArithmeticError, + FloatingPointError__doc__}, + {"ValueError", &PyExc_ValueError, 0, ValueError__doc__}, + {"UnicodeError", &PyExc_UnicodeError, &PyExc_ValueError, UnicodeError__doc__}, + {"SystemError", &PyExc_SystemError, 0, SystemError__doc__}, + {"MemoryError", &PyExc_MemoryError, 0, MemoryError__doc__}, + /* Sentinel */ + {NULL} +}; + + + +void +#ifdef WIN32 +__declspec(dllexport) +#endif /* WIN32 */ +init_exceptions() +{ + char* modulename = "exceptions"; + int modnamesz = strlen(modulename); + int i; + + PyObject* me = Py_InitModule(modulename, functions); + PyObject* mydict = PyModule_GetDict(me); + PyObject* bltinmod = PyImport_ImportModule("__builtin__"); + PyObject* bdict = PyModule_GetDict(bltinmod); + PyObject* doc = PyString_FromString(module__doc__); + PyObject* args; + + PyDict_SetItemString(mydict, "__doc__", doc); + if (PyErr_Occurred()) + Py_FatalError("exceptions bootstrapping error."); + + /* This is the base class of all exceptions, so make it first. */ + if (make_Exception(modulename) || + PyDict_SetItemString(mydict, "Exception", PyExc_Exception) || + PyDict_SetItemString(bdict, "Exception", PyExc_Exception)) + { + Py_FatalError("Base class `Exception' could not be created."); + } + + /* Now we can programmatically create all the remaining exceptions. + * Remember to start the loop at 1 to skip Exceptions. + */ + for (i=1; exctable[i].name; i++) { + int status; + char* cname = PyMem_NEW(char, modnamesz+strlen(exctable[i].name)+2); + PyObject* base; + + (void)strcpy(cname, modulename); + (void)strcat(cname, "."); + (void)strcat(cname, exctable[i].name); + + if (exctable[i].base == 0) + base = PyExc_StandardError; + else + base = *exctable[i].base; + + status = make_class(exctable[i].exc, base, cname, + exctable[i].methods, + exctable[i].docstr); + + PyMem_DEL(cname); + + if (status) + Py_FatalError("Standard exception classes could not be created."); + + if (exctable[i].classinit) { + status = (*exctable[i].classinit)(*exctable[i].exc); + if (status) + Py_FatalError("An exception class could not be initialized."); + } + + /* Now insert the class into both this module and the __builtin__ + * module. + */ + if (PyDict_SetItemString(mydict, exctable[i].name, *exctable[i].exc) || + PyDict_SetItemString(bdict, exctable[i].name, *exctable[i].exc)) + { + Py_FatalError("Module dictionary insertion problem."); + } + } + + /* Now we need to pre-allocate a MemoryError instance */ + args = Py_BuildValue("()"); + if (!args || + !(PyExc_MemoryErrorInst = PyEval_CallObject(PyExc_MemoryError, args))) + { + Py_FatalError("Cannot pre-allocate MemoryError instance\n"); + } + Py_DECREF(args); + + /* We're done with __builtin__ */ + Py_DECREF(bltinmod); +} + + +void +#ifdef WIN32 +__declspec(dllexport) +#endif /* WIN32 */ +fini_exceptions() +{ + int i; + + Py_XDECREF(PyExc_MemoryErrorInst); + PyExc_MemoryErrorInst = NULL; + + for (i=0; exctable[i].name; i++) { + Py_XDECREF(*exctable[i].exc); + *exctable[i].exc = NULL; + } +} |