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Quelle txPatternParser.cpp Sprache: C |
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "txPatternParser.h" #include "txExprLexer.h" #include "nsGkAtoms.h" #include "nsError.h" #include "txStringUtils.h" #include "txXSLTPatterns.h" #include "txStylesheetCompiler.h" #include "txPatternOptimizer.h" #include "mozilla/UniquePtrExtensions.h" using mozilla::UniquePtr; nsresult txPatternParser::createPattern(const nsString& aPattern, txIParseContext* aContext, txPattern** aResult) { txExprLexer lexer; nsresult rv = lexer.parse(aPattern); if (NS_FAILED(rv)) { // XXX error report parsing error return rv; } UniquePtr<txPattern> pattern; rv = createUnionPattern(lexer, aContext, *getter_Transfers(pattern)); if (NS_FAILED(rv)) { // XXX error report parsing error return rv; } txPatternOptimizer optimizer; txPattern* newPattern = nullptr; optimizer.optimize(pattern.get(), &newPattern); *aResult = newPattern ? newPattern : pattern.release(); return NS_OK; } nsresult txPatternParser::createUnionPattern(txExprLexer& aLexer, txIParseContext* aContext, txPattern*& aPattern) { nsresult rv = NS_OK; txPattern* locPath = 0; rv = createLocPathPattern(aLexer, aContext, locPath); if (NS_FAILED(rv)) return rv; Token::Type type = aLexer.peek()->mType; if (type == Token::END) { aPattern = locPath; return NS_OK; } if (type != Token::UNION_OP) { delete locPath; return NS_ERROR_XPATH_PARSE_FAILURE; } txUnionPattern* unionPattern = new txUnionPattern(); unionPattern->addPattern(locPath); aLexer.nextToken(); do { rv = createLocPathPattern(aLexer, aContext, locPath); if (NS_FAILED(rv)) { delete unionPattern; return rv; } unionPattern->addPattern(locPath); type = aLexer.nextToken()->mType; } while (type == Token::UNION_OP); if (type != Token::END) { delete unionPattern; return NS_ERROR_XPATH_PARSE_FAILURE; } aPattern = unionPattern; return NS_OK; } nsresult txPatternParser::createLocPathPattern(txExprLexer& aLexer, txIParseContext* aContext, txPattern*& aPattern) { nsresult rv = NS_OK; bool isChild = true; bool isAbsolute = false; txPattern* stepPattern = 0; txLocPathPattern* pathPattern = 0; Token::Type type = aLexer.peek()->mType; switch (type) { case Token::ANCESTOR_OP: isChild = false; isAbsolute = true; aLexer.nextToken(); break; case Token::PARENT_OP: aLexer.nextToken(); isAbsolute = true; if (aLexer.peek()->mType == Token::END || aLexer.peek()->mType == Token::UNION_OP) { aPattern = new txRootPattern(); return NS_OK; } break; case Token::FUNCTION_NAME_AND_PAREN: // id(Literal) or key(Literal, Literal) { RefPtr<nsAtom> nameAtom = NS_Atomize(aLexer.nextToken()->Value()); if (nameAtom == nsGkAtoms::id) { rv = createIdPattern(aLexer, stepPattern); } else if (nameAtom == nsGkAtoms::key) { rv = createKeyPattern(aLexer, aContext, stepPattern); } if (NS_FAILED(rv)) return rv; } break; default: break; } if (!stepPattern) { rv = createStepPattern(aLexer, aContext, stepPattern); if (NS_FAILED(rv)) return rv; } type = aLexer.peek()->mType; if (!isAbsolute && type != Token::PARENT_OP && type != Token::ANCESTOR_OP) { aPattern = stepPattern; return NS_OK; } pathPattern = new txLocPathPattern(); if (isAbsolute) { txRootPattern* root = new txRootPattern(); #ifdef TX_TO_STRING root->setSerialize(false); #endif pathPattern->addStep(root, isChild); } pathPattern->addStep(stepPattern, isChild); stepPattern = 0; // stepPattern is part of pathPattern now while (type == Token::PARENT_OP || type == Token::ANCESTOR_OP) { isChild = type == Token::PARENT_OP; aLexer.nextToken(); rv = createStepPattern(aLexer, aContext, stepPattern); if (NS_FAILED(rv)) { delete pathPattern; return rv; } pathPattern->addStep(stepPattern, isChild); stepPattern = 0; // stepPattern is part of pathPattern now type = aLexer.peek()->mType; } aPattern = pathPattern; return rv; } nsresult txPatternParser::createIdPattern(txExprLexer& aLexer, txPattern*& aPattern) { // check for '(' Literal ')' if (aLexer.peek()->mType != Token::LITERAL) return NS_ERROR_XPATH_PARSE_FAILURE; const nsDependentSubstring& value = aLexer.nextToken()->Value(); if (aLexer.nextToken()->mType != Token::R_PAREN) return NS_ERROR_XPATH_PARSE_FAILURE; aPattern = new txIdPattern(value); return NS_OK; } nsresult txPatternParser::createKeyPattern(txExprLexer& aLexer, txIParseContext* aContext, txPattern*& aPattern) { // check for '(' Literal, Literal ')' if (aLexer.peek()->mType != Token::LITERAL) return NS_ERROR_XPATH_PARSE_FAILURE; const nsDependentSubstring& key = aLexer.nextToken()->Value(); if (aLexer.nextToken()->mType != Token::COMMA && aLexer.peek()->mType != Token::LITERAL) return NS_ERROR_XPATH_PARSE_FAILURE; const nsDependentSubstring& value = aLexer.nextToken()->Value(); if (aLexer.nextToken()->mType != Token::R_PAREN) return NS_ERROR_XPATH_PARSE_FAILURE; if (!aContext->allowed(txIParseContext::KEY_FUNCTION)) return NS_ERROR_XSLT_CALL_TO_KEY_NOT_ALLOWED; const char16_t* colon; if (!XMLUtils::isValidQName(key, &colon)) { return NS_ERROR_XPATH_PARSE_FAILURE; } RefPtr<nsAtom> prefix, localName; int32_t namespaceID; nsresult rv = resolveQName(key, getter_AddRefs(prefix), aContext, getter_AddRefs(localName), namespaceID); if (NS_FAILED(rv)) return rv; aPattern = new txKeyPattern(prefix, localName, namespaceID, value); return NS_OK; } nsresult txPatternParser::createStepPattern(txExprLexer& aLexer, txIParseContext* aContext, txPattern*& aPattern) { nsresult rv = NS_OK; bool isAttr = false; Token* tok = aLexer.peek(); if (tok->mType == Token::AXIS_IDENTIFIER) { if (TX_StringEqualsAtom(tok->Value(), nsGkAtoms::attribute)) { isAttr = true; } else if (!TX_StringEqualsAtom(tok->Value(), nsGkAtoms::child)) { // all done already for CHILD_AXIS, for all others // XXX report unexpected axis error return NS_ERROR_XPATH_PARSE_FAILURE; } aLexer.nextToken(); } else if (tok->mType == Token::AT_SIGN) { aLexer.nextToken(); isAttr = true; } txNodeTest* nodeTest; if (aLexer.peek()->mType == Token::CNAME) { tok = aLexer.nextToken(); // resolve QName RefPtr<nsAtom> prefix, lName; int32_t nspace; rv = resolveQName(tok->Value(), getter_AddRefs(prefix), aContext, getter_AddRefs(lName), nspace, true); if (NS_FAILED(rv)) { // XXX error report namespace resolve failed return rv; } uint16_t nodeType = isAttr ? (uint16_t)txXPathNodeType::ATTRIBUTE_NODE : (uint16_t)txXPathNodeType::ELEMENT_NODE; nodeTest = new txNameTest(prefix, lName, nspace, nodeType); } else { rv = createNodeTypeTest(aLexer, &nodeTest); NS_ENSURE_SUCCESS(rv, rv); } UniquePtr<txStepPattern> step(new txStepPattern(nodeTest, isAttr)); rv = parsePredicates(step.get(), aLexer, aContext); NS_ENSURE_SUCCESS(rv, rv); aPattern = step.release(); return NS_OK; }
¤ Dauer der Verarbeitung: 0.11 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-04-04