/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkXMLParser.h" #include "SkChunkAlloc.h" #include "SkString.h" #include "SkStream.h" #include "expat.h" static inline char* dupstr(SkChunkAlloc& chunk, const char src[], size_t len) { SkASSERT(src); char* dst = (char*)chunk.alloc(len + 1, SkChunkAlloc::kThrow_AllocFailType); memcpy(dst, src, len); dst[len] = 0; return dst; } static inline int count_pairs(const char** p) { const char** start = p; while (*p) { SkASSERT(p[1] != NULL); p += 2; } return (p - start) >> 1; } struct Data { Data() : fAlloc(2048), fState(NORMAL) {} XML_Parser fParser; SkXMLPullParser::Curr* fCurr; SkChunkAlloc fAlloc; enum State { NORMAL, MISSED_START_TAG, RETURN_END_TAG }; State fState; const char* fEndTag; // if state is RETURN_END_TAG }; static void XMLCALL start_proc(void *data, const char *el, const char **attr) { Data* p = (Data*)data; SkXMLPullParser::Curr* c = p->fCurr; SkChunkAlloc& alloc = p->fAlloc; c->fName = dupstr(alloc, el, strlen(el)); int n = count_pairs(attr); SkXMLPullParser::AttrInfo* info = (SkXMLPullParser::AttrInfo*)alloc.alloc(n * sizeof(SkXMLPullParser::AttrInfo), SkChunkAlloc::kThrow_AllocFailType); c->fAttrInfoCount = n; c->fAttrInfos = info; for (int i = 0; i < n; i++) { info[i].fName = dupstr(alloc, attr[0], strlen(attr[0])); info[i].fValue = dupstr(alloc, attr[1], strlen(attr[1])); attr += 2; } c->fEventType = SkXMLPullParser::START_TAG; XML_StopParser(p->fParser, true); } static void XMLCALL end_proc(void *data, const char *el) { Data* p = (Data*)data; SkXMLPullParser::Curr* c = p->fCurr; if (c->fEventType == SkXMLPullParser::START_TAG) { /* if we get here, we were called with a start_tag immediately followed by this end_tag. The caller will only see the end_tag, so we set a flag to notify them of the missed start_tag */ p->fState = Data::MISSED_START_TAG; SkASSERT(c->fName != NULL); SkASSERT(strcmp(c->fName, el) == 0); } else c->fName = dupstr(p->fAlloc, el, strlen(el)); c->fEventType = SkXMLPullParser::END_TAG; XML_StopParser(p->fParser, true); } #include <ctype.h> static bool isws(const char s[]) { for (; *s; s++) if (!isspace(*s)) return false; return true; } static void XMLCALL text_proc(void* data, const char* text, int len) { Data* p = (Data*)data; SkXMLPullParser::Curr* c = p->fCurr; c->fName = dupstr(p->fAlloc, text, len); c->fIsWhitespace = isws(c->fName); c->fEventType = SkXMLPullParser::TEXT; XML_StopParser(p->fParser, true); } ////////////////////////////////////////////////////////////////////////// struct SkXMLPullParser::Impl { Data fData; void* fBuffer; size_t fBufferLen; }; static void reportError(XML_Parser parser) { XML_Error code = XML_GetErrorCode(parser); int lineNumber = XML_GetCurrentLineNumber(parser); const char* msg = XML_ErrorString(code); printf("-------- XML error [%d] on line %d, %s\n", code, lineNumber, msg); } bool SkXMLPullParser::onInit() { fImpl = new Impl; XML_Parser p = XML_ParserCreate(NULL); SkASSERT(p); fImpl->fData.fParser = p; fImpl->fData.fCurr = &fCurr; XML_SetElementHandler(p, start_proc, end_proc); XML_SetCharacterDataHandler(p, text_proc); XML_SetUserData(p, &fImpl->fData); size_t len = fStream->read(NULL, 0); fImpl->fBufferLen = len; fImpl->fBuffer = sk_malloc_throw(len); fStream->rewind(); size_t len2 = fStream->read(fImpl->fBuffer, len); return len2 == len; } void SkXMLPullParser::onExit() { sk_free(fImpl->fBuffer); XML_ParserFree(fImpl->fData.fParser); delete fImpl; fImpl = NULL; } SkXMLPullParser::EventType SkXMLPullParser::onNextToken() { if (Data::RETURN_END_TAG == fImpl->fData.fState) { fImpl->fData.fState = Data::NORMAL; fCurr.fName = fImpl->fData.fEndTag; // restore name from (below) save return SkXMLPullParser::END_TAG; } fImpl->fData.fAlloc.reset(); XML_Parser p = fImpl->fData.fParser; XML_Status status; status = XML_ResumeParser(p); CHECK_STATUS: switch (status) { case XML_STATUS_OK: return SkXMLPullParser::END_DOCUMENT; case XML_STATUS_ERROR: if (XML_GetErrorCode(p) != XML_ERROR_NOT_SUSPENDED) { reportError(p); return SkXMLPullParser::ERROR; } status = XML_Parse(p, (const char*)fImpl->fBuffer, fImpl->fBufferLen, true); goto CHECK_STATUS; case XML_STATUS_SUSPENDED: if (Data::MISSED_START_TAG == fImpl->fData.fState) { // return a start_tag, and clear the flag so we return end_tag next SkASSERT(SkXMLPullParser::END_TAG == fCurr.fEventType); fImpl->fData.fState = Data::RETURN_END_TAG; fImpl->fData.fEndTag = fCurr.fName; // save this pointer return SkXMLPullParser::START_TAG; } break; } return fCurr.fEventType; }