/* __ __ _ ___\ \/ /_ __ __ _| |_ / _ \\ /| '_ \ / _` | __| | __// \| |_) | (_| | |_ \___/_/\_\ .__/ \__,_|\__| |_| XML parser Copyright (c) 1997-2000 Thai Open Source Software Center Ltd Copyright (c) 2000-2017 Expat development team Licensed under the MIT license: Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include "expat.h" #include "codepage.h" #include "internal.h" /* for UNUSED_P only */ #include "xmlfile.h" #include "xmltchar.h" #ifdef _MSC_VER # include #endif #ifdef XML_UNICODE # include #endif /* Structures for handler user data */ typedef struct NotationList { struct NotationList *next; const XML_Char *notationName; const XML_Char *systemId; const XML_Char *publicId; } NotationList; typedef struct xmlwfUserData { FILE *fp; NotationList *notationListHead; const XML_Char *currentDoctypeName; } XmlwfUserData; /* This ensures proper sorting. */ #define NSSEP T('\001') static void XMLCALL characterData(void *userData, const XML_Char *s, int len) { FILE *fp = ((XmlwfUserData *)userData)->fp; for (; len > 0; --len, ++s) { switch (*s) { case T('&'): fputts(T("&"), fp); break; case T('<'): fputts(T("<"), fp); break; case T('>'): fputts(T(">"), fp); break; #ifdef W3C14N case 13: fputts(T(" "), fp); break; #else case T('"'): fputts(T("""), fp); break; case 9: case 10: case 13: ftprintf(fp, T("&#%d;"), *s); break; #endif default: puttc(*s, fp); break; } } } static void attributeValue(FILE *fp, const XML_Char *s) { puttc(T('='), fp); puttc(T('"'), fp); assert(s); for (;;) { switch (*s) { case 0: case NSSEP: puttc(T('"'), fp); return; case T('&'): fputts(T("&"), fp); break; case T('<'): fputts(T("<"), fp); break; case T('"'): fputts(T("""), fp); break; #ifdef W3C14N case 9: fputts(T(" "), fp); break; case 10: fputts(T(" "), fp); break; case 13: fputts(T(" "), fp); break; #else case T('>'): fputts(T(">"), fp); break; case 9: case 10: case 13: ftprintf(fp, T("&#%d;"), *s); break; #endif default: puttc(*s, fp); break; } s++; } } /* Lexicographically comparing UTF-8 encoded attribute values, is equivalent to lexicographically comparing based on the character number. */ static int attcmp(const void *att1, const void *att2) { return tcscmp(*(const XML_Char **)att1, *(const XML_Char **)att2); } static void XMLCALL startElement(void *userData, const XML_Char *name, const XML_Char **atts) { int nAtts; const XML_Char **p; FILE *fp = ((XmlwfUserData *)userData)->fp; puttc(T('<'), fp); fputts(name, fp); p = atts; while (*p) ++p; nAtts = (int)((p - atts) >> 1); if (nAtts > 1) qsort((void *)atts, nAtts, sizeof(XML_Char *) * 2, attcmp); while (*atts) { puttc(T(' '), fp); fputts(*atts++, fp); attributeValue(fp, *atts); atts++; } puttc(T('>'), fp); } static void XMLCALL endElement(void *userData, const XML_Char *name) { FILE *fp = ((XmlwfUserData *)userData)->fp; puttc(T('<'), fp); puttc(T('/'), fp); fputts(name, fp); puttc(T('>'), fp); } static int nsattcmp(const void *p1, const void *p2) { const XML_Char *att1 = *(const XML_Char **)p1; const XML_Char *att2 = *(const XML_Char **)p2; int sep1 = (tcsrchr(att1, NSSEP) != 0); int sep2 = (tcsrchr(att1, NSSEP) != 0); if (sep1 != sep2) return sep1 - sep2; return tcscmp(att1, att2); } static void XMLCALL startElementNS(void *userData, const XML_Char *name, const XML_Char **atts) { int nAtts; int nsi; const XML_Char **p; FILE *fp = ((XmlwfUserData *)userData)->fp; const XML_Char *sep; puttc(T('<'), fp); sep = tcsrchr(name, NSSEP); if (sep) { fputts(T("n1:"), fp); fputts(sep + 1, fp); fputts(T(" xmlns:n1"), fp); attributeValue(fp, name); nsi = 2; } else { fputts(name, fp); nsi = 1; } p = atts; while (*p) ++p; nAtts = (int)((p - atts) >> 1); if (nAtts > 1) qsort((void *)atts, nAtts, sizeof(XML_Char *) * 2, nsattcmp); while (*atts) { name = *atts++; sep = tcsrchr(name, NSSEP); puttc(T(' '), fp); if (sep) { ftprintf(fp, T("n%d:"), nsi); fputts(sep + 1, fp); } else fputts(name, fp); attributeValue(fp, *atts); if (sep) { ftprintf(fp, T(" xmlns:n%d"), nsi++); attributeValue(fp, name); } atts++; } puttc(T('>'), fp); } static void XMLCALL endElementNS(void *userData, const XML_Char *name) { FILE *fp = ((XmlwfUserData *)userData)->fp; const XML_Char *sep; puttc(T('<'), fp); puttc(T('/'), fp); sep = tcsrchr(name, NSSEP); if (sep) { fputts(T("n1:"), fp); fputts(sep + 1, fp); } else fputts(name, fp); puttc(T('>'), fp); } #ifndef W3C14N static void XMLCALL processingInstruction(void *userData, const XML_Char *target, const XML_Char *data) { FILE *fp = ((XmlwfUserData *)userData)->fp; puttc(T('<'), fp); puttc(T('?'), fp); fputts(target, fp); puttc(T(' '), fp); fputts(data, fp); puttc(T('?'), fp); puttc(T('>'), fp); } static XML_Char * xcsdup(const XML_Char *s) { XML_Char *result; int count = 0; int numBytes; /* Get the length of the string, including terminator */ while (s[count++] != 0) { /* Do nothing */ } numBytes = count * sizeof(XML_Char); result = malloc(numBytes); if (result == NULL) return NULL; memcpy(result, s, numBytes); return result; } static void XMLCALL startDoctypeDecl(void *userData, const XML_Char *doctypeName, const XML_Char *UNUSED_P(sysid), const XML_Char *UNUSED_P(publid), int UNUSED_P(has_internal_subset)) { XmlwfUserData *data = (XmlwfUserData *)userData; data->currentDoctypeName = xcsdup(doctypeName); } static void freeNotations(XmlwfUserData *data) { NotationList *notationListHead = data->notationListHead; while (notationListHead != NULL) { NotationList *next = notationListHead->next; free((void *)notationListHead->notationName); free((void *)notationListHead->systemId); free((void *)notationListHead->publicId); free(notationListHead); notationListHead = next; } data->notationListHead = NULL; } static int xcscmp(const XML_Char *xs, const XML_Char *xt) { while (*xs != 0 && *xt != 0) { if (*xs < *xt) return -1; if (*xs > *xt) return 1; xs++; xt++; } if (*xs < *xt) return -1; if (*xs > *xt) return 1; return 0; } static int notationCmp(const void *a, const void *b) { const NotationList *const n1 = *(NotationList **)a; const NotationList *const n2 = *(NotationList **)b; return xcscmp(n1->notationName, n2->notationName); } static void XMLCALL endDoctypeDecl(void *userData) { XmlwfUserData *data = (XmlwfUserData *)userData; NotationList **notations; int notationCount = 0; NotationList *p; int i; /* How many notations do we have? */ for (p = data->notationListHead; p != NULL; p = p->next) notationCount++; if (notationCount == 0) { /* Nothing to report */ free((void *)data->currentDoctypeName); data->currentDoctypeName = NULL; return; } notations = malloc(notationCount * sizeof(NotationList *)); if (notations == NULL) { fprintf(stderr, "Unable to sort notations"); freeNotations(data); return; } for (p = data->notationListHead, i = 0; i < notationCount; p = p->next, i++) { notations[i] = p; } qsort(notations, notationCount, sizeof(NotationList *), notationCmp); /* Output the DOCTYPE header */ fputts(T("fp); fputts(data->currentDoctypeName, data->fp); fputts(T(" [\n"), data->fp); /* Now the NOTATIONs */ for (i = 0; i < notationCount; i++) { fputts(T("fp); fputts(notations[i]->notationName, data->fp); if (notations[i]->publicId != NULL) { fputts(T(" PUBLIC '"), data->fp); fputts(notations[i]->publicId, data->fp); puttc(T('\''), data->fp); if (notations[i]->systemId != NULL) { puttc(T(' '), data->fp); puttc(T('\''), data->fp); fputts(notations[i]->systemId, data->fp); puttc(T('\''), data->fp); } } else if (notations[i]->systemId != NULL) { fputts(T(" SYSTEM '"), data->fp); fputts(notations[i]->systemId, data->fp); puttc(T('\''), data->fp); } puttc(T('>'), data->fp); puttc(T('\n'), data->fp); } /* Finally end the DOCTYPE */ fputts(T("]>\n"), data->fp); free(notations); freeNotations(data); free((void *)data->currentDoctypeName); data->currentDoctypeName = NULL; } static void XMLCALL notationDecl(void *userData, const XML_Char *notationName, const XML_Char *UNUSED_P(base), const XML_Char *systemId, const XML_Char *publicId) { XmlwfUserData *data = (XmlwfUserData *)userData; NotationList *entry = malloc(sizeof(NotationList)); const char *errorMessage = "Unable to store NOTATION for output\n"; if (entry == NULL) { fputs(errorMessage, stderr); return; /* Nothing we can really do about this */ } entry->notationName = xcsdup(notationName); if (entry->notationName == NULL) { fputs(errorMessage, stderr); free(entry); return; } if (systemId != NULL) { entry->systemId = xcsdup(systemId); if (entry->systemId == NULL) { fputs(errorMessage, stderr); free((void *)entry->notationName); free(entry); return; } } else { entry->systemId = NULL; } if (publicId != NULL) { entry->publicId = xcsdup(publicId); if (entry->publicId == NULL) { fputs(errorMessage, stderr); free((void *)entry->systemId); /* Safe if it's NULL */ free((void *)entry->notationName); free(entry); return; } } else { entry->publicId = NULL; } entry->next = data->notationListHead; data->notationListHead = entry; } #endif /* not W3C14N */ static void XMLCALL defaultCharacterData(void *userData, const XML_Char *UNUSED_P(s), int UNUSED_P(len)) { XML_DefaultCurrent((XML_Parser)userData); } static void XMLCALL defaultStartElement(void *userData, const XML_Char *UNUSED_P(name), const XML_Char **UNUSED_P(atts)) { XML_DefaultCurrent((XML_Parser)userData); } static void XMLCALL defaultEndElement(void *userData, const XML_Char *UNUSED_P(name)) { XML_DefaultCurrent((XML_Parser)userData); } static void XMLCALL defaultProcessingInstruction(void *userData, const XML_Char *UNUSED_P(target), const XML_Char *UNUSED_P(data)) { XML_DefaultCurrent((XML_Parser)userData); } static void XMLCALL nopCharacterData(void *UNUSED_P(userData), const XML_Char *UNUSED_P(s), int UNUSED_P(len)) { } static void XMLCALL nopStartElement(void *UNUSED_P(userData), const XML_Char *UNUSED_P(name), const XML_Char **UNUSED_P(atts)) { } static void XMLCALL nopEndElement(void *UNUSED_P(userData), const XML_Char *UNUSED_P(name)) { } static void XMLCALL nopProcessingInstruction(void *UNUSED_P(userData), const XML_Char *UNUSED_P(target), const XML_Char *UNUSED_P(data)) { } static void XMLCALL markup(void *userData, const XML_Char *s, int len) { FILE *fp = ((XmlwfUserData *)XML_GetUserData((XML_Parser)userData))->fp; for (; len > 0; --len, ++s) puttc(*s, fp); } static void metaLocation(XML_Parser parser) { const XML_Char *uri = XML_GetBase(parser); FILE *fp = ((XmlwfUserData *)XML_GetUserData(parser))->fp; if (uri) ftprintf(fp, T(" uri=\"%s\""), uri); ftprintf(fp, T(" byte=\"%") T(XML_FMT_INT_MOD) T("d\"") T(" nbytes=\"%d\"") T(" line=\"%") T(XML_FMT_INT_MOD) T("u\"") T(" col=\"%") T(XML_FMT_INT_MOD) T("u\""), XML_GetCurrentByteIndex(parser), XML_GetCurrentByteCount(parser), XML_GetCurrentLineNumber(parser), XML_GetCurrentColumnNumber(parser)); } static void metaStartDocument(void *userData) { fputts(T("\n"), ((XmlwfUserData *)XML_GetUserData((XML_Parser)userData))->fp); } static void metaEndDocument(void *userData) { fputts(T("\n"), ((XmlwfUserData *)XML_GetUserData((XML_Parser)userData))->fp); } static void XMLCALL metaStartElement(void *userData, const XML_Char *name, const XML_Char **atts) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; const XML_Char **specifiedAttsEnd = atts + XML_GetSpecifiedAttributeCount(parser); const XML_Char **idAttPtr; int idAttIndex = XML_GetIdAttributeIndex(parser); if (idAttIndex < 0) idAttPtr = 0; else idAttPtr = atts + idAttIndex; ftprintf(fp, T("\n"), fp); do { ftprintf(fp, T("= specifiedAttsEnd) fputts(T("\" defaulted=\"yes\"/>\n"), fp); else if (atts == idAttPtr) fputts(T("\" id=\"yes\"/>\n"), fp); else fputts(T("\"/>\n"), fp); } while (*(atts += 2)); fputts(T("\n"), fp); } else fputts(T("/>\n"), fp); } static void XMLCALL metaEndElement(void *userData, const XML_Char *name) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; ftprintf(fp, T("\n"), fp); } static void XMLCALL metaProcessingInstruction(void *userData, const XML_Char *target, const XML_Char *data) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *usrData = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = usrData->fp; ftprintf(fp, T("\n"), fp); } static void XMLCALL metaComment(void *userData, const XML_Char *data) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *usrData = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = usrData->fp; fputts(T("\n"), fp); } static void XMLCALL metaStartCdataSection(void *userData) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; fputts(T("\n"), fp); } static void XMLCALL metaEndCdataSection(void *userData) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; fputts(T("\n"), fp); } static void XMLCALL metaCharacterData(void *userData, const XML_Char *s, int len) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; fputts(T("\n"), fp); } static void XMLCALL metaStartDoctypeDecl(void *userData, const XML_Char *doctypeName, const XML_Char *UNUSED_P(sysid), const XML_Char *UNUSED_P(pubid), int UNUSED_P(has_internal_subset)) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; ftprintf(fp, T("\n"), fp); } static void XMLCALL metaEndDoctypeDecl(void *userData) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; fputts(T("\n"), fp); } static void XMLCALL metaNotationDecl(void *userData, const XML_Char *notationName, const XML_Char *UNUSED_P(base), const XML_Char *systemId, const XML_Char *publicId) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; ftprintf(fp, T("\n"), fp); } static void XMLCALL metaEntityDecl(void *userData, const XML_Char *entityName, int UNUSED_P(is_param), const XML_Char *value, int value_length, const XML_Char *UNUSED_P(base), const XML_Char *systemId, const XML_Char *publicId, const XML_Char *notationName) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; if (value) { ftprintf(fp, T("'), fp); characterData(data, value, value_length); fputts(T("\n"), fp); } else if (notationName) { ftprintf(fp, T("\n"), fp); } else { ftprintf(fp, T("\n"), fp); } } static void XMLCALL metaStartNamespaceDecl(void *userData, const XML_Char *prefix, const XML_Char *uri) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; fputts(T("\n"), fp); } else fputts(T("/>\n"), fp); } static void XMLCALL metaEndNamespaceDecl(void *userData, const XML_Char *prefix) { XML_Parser parser = (XML_Parser)userData; XmlwfUserData *data = (XmlwfUserData *)XML_GetUserData(parser); FILE *fp = data->fp; if (! prefix) fputts(T("\n"), fp); else ftprintf(fp, T("\n"), prefix); } static int XMLCALL unknownEncodingConvert(void *data, const char *p) { return codepageConvert(*(int *)data, p); } static int XMLCALL unknownEncoding(void *UNUSED_P(userData), const XML_Char *name, XML_Encoding *info) { int cp; static const XML_Char prefixL[] = T("windows-"); static const XML_Char prefixU[] = T("WINDOWS-"); int i; for (i = 0; prefixU[i]; i++) if (name[i] != prefixU[i] && name[i] != prefixL[i]) return 0; cp = 0; for (; name[i]; i++) { static const XML_Char digits[] = T("0123456789"); const XML_Char *s = tcschr(digits, name[i]); if (! s) return 0; cp *= 10; cp += (int)(s - digits); if (cp >= 0x10000) return 0; } if (! codepageMap(cp, info->map)) return 0; info->convert = unknownEncodingConvert; /* We could just cast the code page integer to a void *, and avoid the use of release. */ info->release = free; info->data = malloc(sizeof(int)); if (! info->data) return 0; *(int *)info->data = cp; return 1; } static int XMLCALL notStandalone(void *UNUSED_P(userData)) { return 0; } static void showVersion(XML_Char *prog) { XML_Char *s = prog; XML_Char ch; const XML_Feature *features = XML_GetFeatureList(); while ((ch = *s) != 0) { if (ch == '/' #if defined(_WIN32) || ch == '\\' #endif ) prog = s + 1; ++s; } ftprintf(stdout, T("%s using %s\n"), prog, XML_ExpatVersion()); if (features != NULL && features[0].feature != XML_FEATURE_END) { int i = 1; ftprintf(stdout, T("%s"), features[0].name); if (features[0].value) ftprintf(stdout, T("=%ld"), features[0].value); while (features[i].feature != XML_FEATURE_END) { ftprintf(stdout, T(", %s"), features[i].name); if (features[i].value) ftprintf(stdout, T("=%ld"), features[i].value); ++i; } ftprintf(stdout, T("\n")); } } static void usage(const XML_Char *prog, int rc) { ftprintf( stderr, T("usage: %s [-s] [-n] [-p] [-x] [-e encoding] [-w] [-d output-dir] [-c] [-m] [-r] [-t] [-N] [file ...]\n"), prog); exit(rc); } #if defined(__MINGW32__) && defined(XML_UNICODE) /* Silence warning about missing prototype */ int wmain(int argc, XML_Char **argv); #endif int tmain(int argc, XML_Char **argv) { int i, j; const XML_Char *outputDir = NULL; const XML_Char *encoding = NULL; unsigned processFlags = XML_MAP_FILE; int windowsCodePages = 0; int outputType = 0; int useNamespaces = 0; int requireStandalone = 0; int requiresNotations = 0; enum XML_ParamEntityParsing paramEntityParsing = XML_PARAM_ENTITY_PARSING_NEVER; int useStdin = 0; XmlwfUserData userData = {NULL, NULL, NULL}; #ifdef _MSC_VER _CrtSetDbgFlag(_CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF); #endif i = 1; j = 0; while (i < argc) { if (j == 0) { if (argv[i][0] != T('-')) break; if (argv[i][1] == T('-') && argv[i][2] == T('\0')) { i++; break; } j++; } switch (argv[i][j]) { case T('r'): processFlags &= ~XML_MAP_FILE; j++; break; case T('s'): requireStandalone = 1; j++; break; case T('n'): useNamespaces = 1; j++; break; case T('p'): paramEntityParsing = XML_PARAM_ENTITY_PARSING_ALWAYS; /* fall through */ case T('x'): processFlags |= XML_EXTERNAL_ENTITIES; j++; break; case T('w'): windowsCodePages = 1; j++; break; case T('m'): outputType = 'm'; j++; break; case T('c'): outputType = 'c'; useNamespaces = 0; j++; break; case T('t'): outputType = 't'; j++; break; case T('N'): requiresNotations = 1; j++; break; case T('d'): if (argv[i][j + 1] == T('\0')) { if (++i == argc) usage(argv[0], 2); outputDir = argv[i]; } else outputDir = argv[i] + j + 1; i++; j = 0; break; case T('e'): if (argv[i][j + 1] == T('\0')) { if (++i == argc) usage(argv[0], 2); encoding = argv[i]; } else encoding = argv[i] + j + 1; i++; j = 0; break; case T('h'): usage(argv[0], 0); return 0; case T('v'): showVersion(argv[0]); return 0; case T('\0'): if (j > 1) { i++; j = 0; break; } /* fall through */ default: usage(argv[0], 2); } } if (i == argc) { useStdin = 1; processFlags &= ~XML_MAP_FILE; i--; } for (; i < argc; i++) { XML_Char *outName = 0; int result; XML_Parser parser; if (useNamespaces) parser = XML_ParserCreateNS(encoding, NSSEP); else parser = XML_ParserCreate(encoding); if (! parser) { tperror(T("Could not instantiate parser")); exit(1); } if (requireStandalone) XML_SetNotStandaloneHandler(parser, notStandalone); XML_SetParamEntityParsing(parser, paramEntityParsing); if (outputType == 't') { /* This is for doing timings; this gives a more realistic estimate of the parsing time. */ outputDir = 0; XML_SetElementHandler(parser, nopStartElement, nopEndElement); XML_SetCharacterDataHandler(parser, nopCharacterData); XML_SetProcessingInstructionHandler(parser, nopProcessingInstruction); } else if (outputDir) { const XML_Char *delim = T("/"); const XML_Char *file = useStdin ? T("STDIN") : argv[i]; if (! useStdin) { /* Jump after last (back)slash */ const XML_Char *lastDelim = tcsrchr(file, delim[0]); if (lastDelim) file = lastDelim + 1; #if defined(_WIN32) else { const XML_Char *winDelim = T("\\"); lastDelim = tcsrchr(file, winDelim[0]); if (lastDelim) { file = lastDelim + 1; delim = winDelim; } } #endif } outName = (XML_Char *)malloc((tcslen(outputDir) + tcslen(file) + 2) * sizeof(XML_Char)); tcscpy(outName, outputDir); tcscat(outName, delim); tcscat(outName, file); userData.fp = tfopen(outName, T("wb")); if (! userData.fp) { tperror(outName); exit(1); } setvbuf(userData.fp, NULL, _IOFBF, 16384); #ifdef XML_UNICODE puttc(0xFEFF, userData.fp); #endif XML_SetUserData(parser, &userData); switch (outputType) { case 'm': XML_UseParserAsHandlerArg(parser); XML_SetElementHandler(parser, metaStartElement, metaEndElement); XML_SetProcessingInstructionHandler(parser, metaProcessingInstruction); XML_SetCommentHandler(parser, metaComment); XML_SetCdataSectionHandler(parser, metaStartCdataSection, metaEndCdataSection); XML_SetCharacterDataHandler(parser, metaCharacterData); XML_SetDoctypeDeclHandler(parser, metaStartDoctypeDecl, metaEndDoctypeDecl); XML_SetEntityDeclHandler(parser, metaEntityDecl); XML_SetNotationDeclHandler(parser, metaNotationDecl); XML_SetNamespaceDeclHandler(parser, metaStartNamespaceDecl, metaEndNamespaceDecl); metaStartDocument(parser); break; case 'c': XML_UseParserAsHandlerArg(parser); XML_SetDefaultHandler(parser, markup); XML_SetElementHandler(parser, defaultStartElement, defaultEndElement); XML_SetCharacterDataHandler(parser, defaultCharacterData); XML_SetProcessingInstructionHandler(parser, defaultProcessingInstruction); break; default: if (useNamespaces) XML_SetElementHandler(parser, startElementNS, endElementNS); else XML_SetElementHandler(parser, startElement, endElement); XML_SetCharacterDataHandler(parser, characterData); #ifndef W3C14N XML_SetProcessingInstructionHandler(parser, processingInstruction); if (requiresNotations) { XML_SetDoctypeDeclHandler(parser, startDoctypeDecl, endDoctypeDecl); XML_SetNotationDeclHandler(parser, notationDecl); } #endif /* not W3C14N */ break; } } if (windowsCodePages) XML_SetUnknownEncodingHandler(parser, unknownEncoding, 0); result = XML_ProcessFile(parser, useStdin ? NULL : argv[i], processFlags); if (outputDir) { if (outputType == 'm') metaEndDocument(parser); fclose(userData.fp); if (! result) { tremove(outName); exit(2); } free(outName); } XML_ParserFree(parser); } return 0; }