/* libxslt.c: this modules implements the main part of the glue of the * libxslt library and the Python interpreter. It provides the * entry points where an automatically generated stub is either * unpractical or would not match cleanly the Python model. * * If compiled with MERGED_MODULES, the entry point will be used to * initialize both the libxml2 and the libxslt wrappers * * See Copyright for the status of this software. * * daniel@veillard.com */ #include /* #include "config.h" */ #include #include #include #include "libexslt/exslt.h" #include "libxslt_wrap.h" #include "libxslt-py.h" #if (defined(_MSC_VER) || defined(__MINGW32__)) && !defined(vsnprintf) #define vsnprintf(b,c,f,a) _vsnprintf(b,c,f,a) #elif defined(XSLT_NEED_TRIO) #include "trio.h" #define vsnprintf trio_vsnprintf #endif /* #define DEBUG */ /* #define DEBUG_XPATH */ /* #define DEBUG_ERROR */ /* #define DEBUG_MEMORY */ /* #define DEBUG_EXTENSIONS */ /* #define DEBUG_EXTENSIONS */ void initlibxsltmod(void); /************************************************************************ * * * Per type specific glue * * * ************************************************************************/ PyObject * libxslt_xsltStylesheetPtrWrap(xsltStylesheetPtr style) { PyObject *ret; #ifdef DEBUG printf("libxslt_xsltStylesheetPtrWrap: style = %p\n", style); #endif if (style == NULL) { Py_INCREF(Py_None); return(Py_None); } ret = PyCObject_FromVoidPtrAndDesc((void *) style, (char *)"xsltStylesheetPtr", NULL); return(ret); } PyObject * libxslt_xsltTransformContextPtrWrap(xsltTransformContextPtr ctxt) { PyObject *ret; #ifdef DEBUG printf("libxslt_xsltTransformContextPtrWrap: ctxt = %p\n", ctxt); #endif if (ctxt == NULL) { Py_INCREF(Py_None); return(Py_None); } ret = PyCObject_FromVoidPtrAndDesc((void *) ctxt, (char *)"xsltTransformContextPtr", NULL); return(ret); } PyObject * libxslt_xsltElemPreCompPtrWrap(xsltElemPreCompPtr ctxt) { PyObject *ret; #ifdef DEBUG printf("libxslt_xsltElemPreCompPtrWrap: ctxt = %p\n", ctxt); #endif if (ctxt == NULL) { Py_INCREF(Py_None); return(Py_None); } ret = PyCObject_FromVoidPtrAndDesc((void *) ctxt, (char *)"xsltElemPreCompPtr", NULL); return(ret); } /************************************************************************ * * * Extending the API * * * ************************************************************************/ static xmlHashTablePtr libxslt_extModuleFunctions = NULL; static xmlHashTablePtr libxslt_extModuleElements = NULL; static xmlHashTablePtr libxslt_extModuleElementPreComp = NULL; static void deallocateCallback(void *payload, xmlChar *name ATTRIBUTE_UNUSED) { PyObject *function = (PyObject *) payload; #ifdef DEBUG_EXTENSIONS printf("deallocateCallback(%s) called\n", name); #endif Py_XDECREF(function); } static void deallocateClasse(void *payload, xmlChar *name ATTRIBUTE_UNUSED) { PyObject *class = (PyObject *) payload; #ifdef DEBUG_EXTENSIONS printf("deallocateClasse(%s) called\n", name); #endif Py_XDECREF(class); } /** * libxslt_xsltElementPreCompCallback * @style: the stylesheet * @inst: the instruction in the stylesheet * * Callback for preprocessing of a custom element */ static xsltElemPreCompPtr libxslt_xsltElementPreCompCallback(xsltStylesheetPtr style, xmlNodePtr inst, xsltTransformFunction function) { xsltElemPreCompPtr ret; const xmlChar *name; PyObject *args; PyObject *result; PyObject *pyobj_element_f; PyObject *pyobj_precomp_f; const xmlChar *ns_uri; #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltElementPreCompCallback called\n"); #endif if (style == NULL) { xsltTransformError(NULL, NULL, inst, "libxslt_xsltElementPreCompCallback: no transformation context\n"); return (NULL); } if (inst == NULL) { xsltTransformError(NULL, style, inst, "libxslt_xsltElementPreCompCallback: no instruction\n"); if (style != NULL) style->errors++; return (NULL); } if (style == NULL) return (NULL); if (inst != NULL && inst->ns != NULL) { name = inst->name; ns_uri = inst->ns->href; } else { xsltTransformError(NULL, style, inst, "libxslt_xsltElementPreCompCallback: internal error bad parameter\n"); printf("libxslt_xsltElementPreCompCallback: internal error bad parameter\n"); if (style != NULL) style->errors++; return (NULL); } /* * Find the functions, they should be there it was there at lookup */ pyobj_precomp_f = xmlHashLookup2(libxslt_extModuleElementPreComp, name, ns_uri); if (pyobj_precomp_f == NULL) { xsltTransformError(NULL, style, inst, "libxslt_xsltElementPreCompCallback: internal error, could not find precompile python function!\n"); if (style != NULL) style->errors++; return (NULL); } pyobj_element_f = xmlHashLookup2(libxslt_extModuleElements, name, ns_uri); if (pyobj_element_f == NULL) { xsltTransformError(NULL, style, inst, "libxslt_xsltElementPreCompCallback: internal error, could not find element python function!\n"); if (style != NULL) style->errors++; return (NULL); } args = Py_BuildValue((char *)"(OOO)", libxslt_xsltStylesheetPtrWrap(style), libxml_xmlNodePtrWrap(inst), pyobj_element_f); Py_INCREF(pyobj_precomp_f); /* Protect refcount against reentrant manipulation of callback hash */ result = PyEval_CallObject(pyobj_precomp_f, args); Py_DECREF(pyobj_precomp_f); Py_DECREF(args); /* FIXME allow callbacks to return meaningful information to modify compile process */ /* If error, do we need to check the result and throw exception? */ Py_XDECREF(result); ret = xsltNewElemPreComp (style, inst, function); return (ret); } static void libxslt_xsltElementTransformCallback(xsltTransformContextPtr ctxt, xmlNodePtr node, xmlNodePtr inst, xsltElemPreCompPtr comp) { PyObject *args, *result; PyObject *func = NULL; const xmlChar *name; const xmlChar *ns_uri; if (ctxt == NULL) return; if (inst != NULL && inst->name != NULL && inst->ns != NULL && inst->ns->href != NULL) { name = inst->name; ns_uri = inst->ns->href; } else { printf("libxslt_xsltElementTransformCallback: internal error bad parameter\n"); return; } #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltElementTransformCallback called name %s URI %s\n", name, ns_uri); #endif /* * Find the function, it should be there it was there at lookup */ func = xmlHashLookup2(libxslt_extModuleElements, name, ns_uri); if (func == NULL) { printf("libxslt_xsltElementTransformCallback: internal error %s not found !\n", name); return; } args = Py_BuildValue((char *)"OOOO", libxslt_xsltTransformContextPtrWrap(ctxt), libxml_xmlNodePtrWrap(node), libxml_xmlNodePtrWrap(inst), libxslt_xsltElemPreCompPtrWrap(comp)); Py_INCREF(func); /* Protect refcount against reentrant manipulation of callback hash */ result = PyEval_CallObject(func, args); Py_DECREF(func); Py_DECREF(args); /* FIXME Check result of callobject and set exception if fail */ Py_XDECREF(result); } PyObject * libxslt_xsltRegisterExtModuleElement(PyObject *self ATTRIBUTE_UNUSED, PyObject *args) { PyObject *py_retval; int ret = 0; xmlChar *name; xmlChar *ns_uri; PyObject *pyobj_element_f; PyObject *pyobj_precomp_f; #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltRegisterExtModuleElement called\n", name, ns_uri); #endif if (!PyArg_ParseTuple(args, (char *)"szOO:registerExtModuleElement", &name, &ns_uri, &pyobj_precomp_f, &pyobj_element_f)) return(NULL); if ((name == NULL) || (pyobj_element_f == NULL) || (pyobj_precomp_f == NULL)) { py_retval = libxml_intWrap(-1); return(py_retval); } #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltRegisterExtModuleElement(%s, %s) called\n", name, ns_uri); #endif if (libxslt_extModuleElements == NULL) libxslt_extModuleElements = xmlHashCreate(10); if (libxslt_extModuleElementPreComp == NULL) libxslt_extModuleElementPreComp = xmlHashCreate(10); if (libxslt_extModuleElements == NULL || libxslt_extModuleElementPreComp == NULL) { py_retval = libxml_intWrap(-1); return(py_retval); } ret = xmlHashAddEntry2(libxslt_extModuleElements, name, ns_uri, pyobj_element_f); if (ret != 0) { py_retval = libxml_intWrap(-1); return(py_retval); } Py_XINCREF(pyobj_element_f); ret = xmlHashAddEntry2(libxslt_extModuleElementPreComp, name, ns_uri, pyobj_precomp_f); if (ret != 0) { xmlHashRemoveEntry2(libxslt_extModuleElements, name, ns_uri, deallocateCallback); py_retval = libxml_intWrap(-1); return(py_retval); } Py_XINCREF(pyobj_precomp_f); ret = xsltRegisterExtModuleElement(name, ns_uri, libxslt_xsltElementPreCompCallback, libxslt_xsltElementTransformCallback); py_retval = libxml_intWrap((int) ret); return(py_retval); } static void libxslt_xmlXPathFuncCallback(xmlXPathParserContextPtr ctxt, int nargs) { PyObject *list, *cur, *result; xmlXPathObjectPtr obj; xmlXPathContextPtr rctxt; PyObject *current_function = NULL; const xmlChar *name; const xmlChar *ns_uri; int i; if (ctxt == NULL) return; rctxt = ctxt->context; if (rctxt == NULL) return; name = rctxt->function; ns_uri = rctxt->functionURI; #ifdef DEBUG_XPATH printf("libxslt_xmlXPathFuncCallback called name %s URI %s\n", name, ns_uri); #endif /* * Find the function, it should be there it was there at lookup */ current_function = xmlHashLookup2(libxslt_extModuleFunctions, name, ns_uri); if (current_function == NULL) { printf("libxslt_xmlXPathFuncCallback: internal error %s not found !\n", name); return; } list = PyTuple_New(nargs + 1); PyTuple_SetItem(list, 0, libxml_xmlXPathParserContextPtrWrap(ctxt)); for (i = nargs - 1;i >= 0;i--) { obj = valuePop(ctxt); cur = libxml_xmlXPathObjectPtrWrap(obj); PyTuple_SetItem(list, i + 1, cur); } Py_INCREF(current_function); result = PyEval_CallObject(current_function, list); Py_DECREF(current_function); Py_DECREF(list); /* Check for null in case of exception */ if (result != NULL) { obj = libxml_xmlXPathObjectPtrConvert(result); valuePush(ctxt, obj); } } PyObject * libxslt_xsltRegisterExtModuleFunction(PyObject *self ATTRIBUTE_UNUSED, PyObject *args) { PyObject *py_retval; int ret = 0; xmlChar *name; xmlChar *ns_uri; PyObject *pyobj_f; if (!PyArg_ParseTuple(args, (char *)"szO:registerExtModuleFunction", &name, &ns_uri, &pyobj_f)) return(NULL); if ((name == NULL) || (pyobj_f == NULL)) { py_retval = libxml_intWrap(-1); return(py_retval); } #ifdef DEBUG_XPATH printf("libxslt_xsltRegisterExtModuleFunction(%s, %s) called\n", name, ns_uri); #endif if (libxslt_extModuleFunctions == NULL) libxslt_extModuleFunctions = xmlHashCreate(10); if (libxslt_extModuleFunctions == NULL) { py_retval = libxml_intWrap(-1); return(py_retval); } ret = xmlHashAddEntry2(libxslt_extModuleFunctions, name, ns_uri, pyobj_f); if (ret != 0) { py_retval = libxml_intWrap(-1); return(py_retval); } Py_XINCREF(pyobj_f); ret = xsltRegisterExtModuleFunction(name, ns_uri, libxslt_xmlXPathFuncCallback); py_retval = libxml_intWrap((int) ret); return(py_retval); } /************************************************************************ * * * Some customized front-ends * * * ************************************************************************/ PyObject * libxslt_xsltApplyStylesheet(PyObject *self ATTRIBUTE_UNUSED, PyObject *args) { PyObject *py_retval; xmlDocPtr c_retval; xsltStylesheetPtr style; PyObject *pyobj_style; xmlDocPtr doc; PyObject *pyobj_doc; PyObject *pyobj_params; const char **params = NULL; int len = 0, i = 0, j; PyObject *name; PyObject *value; if (!PyArg_ParseTuple(args, (char *) "OOO:xsltApplyStylesheet", &pyobj_style, &pyobj_doc, &pyobj_params)) return(NULL); if (pyobj_params != Py_None) { if (PyDict_Check(pyobj_params)) { len = PyDict_Size(pyobj_params); if (len > 0) { params = (const char **) xmlMalloc((len + 1) * 2 * sizeof(char *)); if (params == NULL) { printf("libxslt_xsltApplyStylesheet: out of memory\n"); Py_INCREF(Py_None); return(Py_None); } j = 0; while (PyDict_Next(pyobj_params, &i, &name, &value)) { const char *tmp; int size; tmp = PyString_AS_STRING(name); size = PyString_GET_SIZE(name); params[j * 2] = (char *) xmlCharStrndup(tmp, size); if (PyString_Check(value)) { tmp = PyString_AS_STRING(value); size = PyString_GET_SIZE(value); params[(j * 2) + 1] = (char *) xmlCharStrndup(tmp, size); } else { params[(j * 2) + 1] = NULL; } j = j + 1; } params[j * 2] = NULL; params[(j * 2) + 1] = NULL; } } else { printf("libxslt_xsltApplyStylesheet: parameters not a dict\n"); Py_INCREF(Py_None); return(Py_None); } } style = (xsltStylesheetPtr) Pystylesheet_Get(pyobj_style); doc = (xmlDocPtr) PyxmlNode_Get(pyobj_doc); c_retval = xsltApplyStylesheet(style, doc, params); py_retval = libxml_xmlDocPtrWrap((xmlDocPtr) c_retval); if (params != NULL) { if (len > 0) { for (i = 0;i < 2 * len;i++) { if (params[i] != NULL) xmlFree((char *)params[i]); } xmlFree(params); } } return(py_retval); } PyObject * libxslt_xsltSaveResultToString(PyObject *self ATTRIBUTE_UNUSED, PyObject *args) { PyObject *py_retval; /* our final return value, a python string */ xmlChar *buffer; int size = 0; int emitted = 0; xmlDocPtr result; PyObject *pyobj_result; xsltStylesheetPtr style; PyObject *pyobj_style; if (!PyArg_ParseTuple(args, (char *)"OO:xsltSaveResultToString", &pyobj_style, &pyobj_result)) goto FAIL; result = (xmlDocPtr) PyxmlNode_Get(pyobj_result); style = (xsltStylesheetPtr) Pystylesheet_Get(pyobj_style); /* FIXME: We should probably add more restrictive error checking * and raise an error instead of "just" returning NULL. * FIXME: Documentation and code for xsltSaveResultToString diff * -> emmitted will never be positive non-null. */ emitted = xsltSaveResultToString(&buffer, &size, result, style); if(!buffer || emitted < 0) goto FAIL; /* We haven't tested the aberrant case of a transformation that * renders to an empty string. For now we try to play it save. */ if(size) { buffer[size] = '\0'; py_retval = PyString_FromString((char *) buffer); xmlFree(buffer); } else py_retval = PyString_FromString(""); return(py_retval); FAIL: return(0); } /************************************************************************ * * * Error message callback * * * ************************************************************************/ static PyObject *libxslt_xsltPythonErrorFuncHandler = NULL; static PyObject *libxslt_xsltPythonErrorFuncCtxt = NULL; static void libxslt_xsltErrorFuncHandler(void *ctx ATTRIBUTE_UNUSED, const char *msg, ...) { int size; int chars; char *larger; va_list ap; char *str; PyObject *list; PyObject *message; PyObject *result; #ifdef DEBUG_ERROR printf("libxslt_xsltErrorFuncHandler(%p, %s, ...) called\n", ctx, msg); #endif if (libxslt_xsltPythonErrorFuncHandler == NULL) { va_start(ap, msg); vfprintf(stderr, msg, ap); va_end(ap); } else { str = (char *) xmlMalloc(150); if (str == NULL) return; size = 150; while (1) { va_start(ap, msg); chars = vsnprintf(str, size, msg, ap); va_end(ap); if ((chars > -1) && (chars < size)) break; if (chars > -1) size += chars + 1; else size += 100; if ((larger = (char *) xmlRealloc(str, size)) == NULL) { xmlFree(str); return; } str = larger; } list = PyTuple_New(2); PyTuple_SetItem(list, 0, libxslt_xsltPythonErrorFuncCtxt); Py_XINCREF(libxslt_xsltPythonErrorFuncCtxt); message = libxml_charPtrWrap(str); PyTuple_SetItem(list, 1, message); result = PyEval_CallObject(libxslt_xsltPythonErrorFuncHandler, list); Py_XDECREF(list); Py_XDECREF(result); } } static void libxslt_xsltErrorInitialize(void) { #ifdef DEBUG_ERROR printf("libxslt_xsltErrorInitialize() called\n"); #endif xmlSetGenericErrorFunc(NULL, libxslt_xsltErrorFuncHandler); xsltSetGenericErrorFunc(NULL, libxslt_xsltErrorFuncHandler); } PyObject * libxslt_xsltRegisterErrorHandler(PyObject * self ATTRIBUTE_UNUSED, PyObject * args) { PyObject *py_retval; PyObject *pyobj_f; PyObject *pyobj_ctx; if (!PyArg_ParseTuple (args, (char *) "OO:xmlRegisterErrorHandler", &pyobj_f, &pyobj_ctx)) return (NULL); #ifdef DEBUG_ERROR printf("libxml_registerXPathFunction(%p, %p) called\n", pyobj_ctx, pyobj_f); #endif if (libxslt_xsltPythonErrorFuncHandler != NULL) { Py_XDECREF(libxslt_xsltPythonErrorFuncHandler); } if (libxslt_xsltPythonErrorFuncCtxt != NULL) { Py_XDECREF(libxslt_xsltPythonErrorFuncCtxt); } Py_XINCREF(pyobj_ctx); Py_XINCREF(pyobj_f); /* TODO: check f is a function ! */ libxslt_xsltPythonErrorFuncHandler = pyobj_f; libxslt_xsltPythonErrorFuncCtxt = pyobj_ctx; py_retval = libxml_intWrap(1); return (py_retval); } /************************************************************************ * * * Extension classes * * * ************************************************************************/ static xmlHashTablePtr libxslt_extModuleClasses = NULL; static void * libxslt_xsltPythonExtModuleStyleInit(xsltStylesheetPtr style, const xmlChar * URI) { PyObject *result = NULL; PyObject *class = NULL; #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltPythonExtModuleStyleInit(%p, %s) called\n", style, URI); #endif if ((style == NULL) || (URI == NULL)) return(NULL); /* * Find the function, it should be there it was there at lookup */ class = xmlHashLookup(libxslt_extModuleClasses, URI); if (class == NULL) { fprintf(stderr, "libxslt_xsltPythonExtModuleStyleInit: internal error %s not found !\n", URI); return(NULL); } if (PyObject_HasAttrString(class, (char *) "_styleInit")) { result = PyObject_CallMethod(class, (char *) "_styleInit", (char *) "Os", libxslt_xsltStylesheetPtrWrap(style), URI); } return((void *)result); } static void libxslt_xsltPythonExtModuleStyleShutdown(xsltStylesheetPtr style, const xmlChar * URI, void *data) { PyObject *class = NULL; PyObject *result; #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltPythonExtModuleStyleShutdown(%p, %s, %p) called\n", style, URI, data); #endif if ((style == NULL) || (URI == NULL)) return; /* * Find the function, it should be there it was there at lookup */ class = xmlHashLookup(libxslt_extModuleClasses, URI); if (class == NULL) { fprintf(stderr, "libxslt_xsltPythonExtModuleStyleShutdown: internal error %s not found !\n", URI); return; } if (PyObject_HasAttrString(class, (char *) "_styleShutdown")) { result = PyObject_CallMethod(class, (char *) "_styleShutdown", (char *) "OsO", libxslt_xsltStylesheetPtrWrap(style), URI, (PyObject *) data); Py_XDECREF(result); Py_XDECREF((PyObject *)data); } } static void * libxslt_xsltPythonExtModuleCtxtInit(xsltTransformContextPtr ctxt, const xmlChar * URI) { PyObject *result = NULL; PyObject *class = NULL; #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltPythonExtModuleCtxtInit(%p, %s) called\n", ctxt, URI); #endif if ((ctxt == NULL) || (URI == NULL)) return(NULL); /* * Find the function, it should be there it was there at lookup */ class = xmlHashLookup(libxslt_extModuleClasses, URI); if (class == NULL) { fprintf(stderr, "libxslt_xsltPythonExtModuleCtxtInit: internal error %s not found !\n", URI); return(NULL); } if (PyObject_HasAttrString(class, (char *) "_ctxtInit")) { result = PyObject_CallMethod(class, (char *) "_ctxtInit", (char *) "Os", libxslt_xsltTransformContextPtrWrap(ctxt), URI); } return((void *)result); } static void libxslt_xsltPythonExtModuleCtxtShutdown(xsltTransformContextPtr ctxt, const xmlChar * URI, void *data) { PyObject *class = NULL; PyObject *result; #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltPythonExtModuleCtxtShutdown(%p, %s, %p) called\n", ctxt, URI, data); #endif if ((ctxt == NULL) || (URI == NULL)) return; /* * Find the function, it should be there it was there at lookup */ class = xmlHashLookup(libxslt_extModuleClasses, URI); if (class == NULL) { fprintf(stderr, "libxslt_xsltPythonExtModuleCtxtShutdown: internal error %s not found !\n", URI); return; } if (PyObject_HasAttrString(class, (char *) "_ctxtShutdown")) { result = PyObject_CallMethod(class, (char *) "_ctxtShutdown", (char *) "OsO", libxslt_xsltTransformContextPtrWrap(ctxt), URI, (PyObject *) data); Py_XDECREF(result); Py_XDECREF((PyObject *)data); } } PyObject * libxslt_xsltRegisterExtensionClass(PyObject *self ATTRIBUTE_UNUSED, PyObject *args) { PyObject *py_retval; int ret = 0; xmlChar *ns_uri; PyObject *pyobj_c; if (!PyArg_ParseTuple(args, (char *)"zO:registerExtensionClass", &ns_uri, &pyobj_c)) return(NULL); if ((ns_uri == NULL) || (pyobj_c == NULL)) { py_retval = libxml_intWrap(-1); return(py_retval); } #ifdef DEBUG_EXTENSIONS printf("libxslt_xsltRegisterExtensionClass(%s) called\n", ns_uri); #endif if (libxslt_extModuleClasses == NULL) libxslt_extModuleClasses = xmlHashCreate(10); if (libxslt_extModuleClasses == NULL) { py_retval = libxml_intWrap(-1); return(py_retval); } ret = xmlHashAddEntry(libxslt_extModuleClasses, ns_uri, pyobj_c); if (ret != 0) { py_retval = libxml_intWrap(-1); return(py_retval); } Py_XINCREF(pyobj_c); ret = xsltRegisterExtModuleFull(ns_uri, (xsltExtInitFunction) libxslt_xsltPythonExtModuleCtxtInit, (xsltExtShutdownFunction) libxslt_xsltPythonExtModuleCtxtShutdown, (xsltStyleExtInitFunction) libxslt_xsltPythonExtModuleStyleInit, (xsltStyleExtShutdownFunction) libxslt_xsltPythonExtModuleStyleShutdown); py_retval = libxml_intWrap((int) ret); if (ret < 0) { Py_XDECREF(pyobj_c); } return(py_retval); } /************************************************************************ * * * Integrated cleanup * * * ************************************************************************/ PyObject * libxslt_xsltPythonCleanup(PyObject *self ATTRIBUTE_UNUSED, PyObject *args ATTRIBUTE_UNUSED) { if (libxslt_extModuleFunctions != NULL) { xmlHashFree(libxslt_extModuleFunctions, deallocateCallback); } if (libxslt_extModuleElements != NULL) { xmlHashFree(libxslt_extModuleElements, deallocateCallback); } if (libxslt_extModuleElementPreComp != NULL) { xmlHashFree(libxslt_extModuleElementPreComp, deallocateCallback); } if (libxslt_extModuleClasses != NULL) { xmlHashFree(libxslt_extModuleClasses, deallocateClasse); } xsltCleanupGlobals(); Py_INCREF(Py_None); return(Py_None); } /************************************************************************ * * * The registration stuff * * * ************************************************************************/ static PyMethodDef libxsltMethods[] = { #include "libxslt-export.c" { NULL, NULL, 0, NULL } }; #ifdef MERGED_MODULES extern void initlibxml2mod(void); #endif void initlibxsltmod(void) { static int initialized = 0; PyObject *m; #ifdef MERGED_MODULES initlibxml2mod(); #endif if (initialized != 0) return; m = Py_InitModule((char *)"libxsltmod", libxsltMethods); initialized = 1; /* * Specific XSLT initializations */ libxslt_xsltErrorInitialize(); xmlInitMemory(); xmlLoadExtDtdDefaultValue = XML_DETECT_IDS | XML_COMPLETE_ATTRS; xmlDefaultSAXHandler.cdataBlock = NULL; /* * Register the EXSLT extensions and the test module */ exsltRegisterAll(); }