/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtDeclarative module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "private/qdeclarativescriptparser_p.h" #include "private/qdeclarativeparser_p.h" #include "parser/qdeclarativejsengine_p.h" #include "parser/qdeclarativejsparser_p.h" #include "parser/qdeclarativejslexer_p.h" #include "parser/qdeclarativejsnodepool_p.h" #include "parser/qdeclarativejsastvisitor_p.h" #include "parser/qdeclarativejsast_p.h" #include "private/qdeclarativerewrite_p.h" #include #include #include QT_BEGIN_NAMESPACE using namespace QDeclarativeJS; using namespace QDeclarativeParser; namespace { class ProcessAST: protected AST::Visitor { struct State { State() : object(0), property(0) {} State(Object *o) : object(o), property(0) {} State(Object *o, Property *p) : object(o), property(p) {} Object *object; Property *property; }; struct StateStack : public QStack { void pushObject(Object *obj) { push(State(obj)); } void pushProperty(const QString &name, const LocationSpan &location) { const State &state = top(); if (state.property) { State s(state.property->getValue(location), state.property->getValue(location)->getProperty(name.toUtf8())); s.property->location = location; push(s); } else { State s(state.object, state.object->getProperty(name.toUtf8())); s.property->location = location; push(s); } } }; public: ProcessAST(QDeclarativeScriptParser *parser); virtual ~ProcessAST(); void operator()(const QString &code, AST::Node *node); protected: Object *defineObjectBinding(AST::UiQualifiedId *propertyName, bool onAssignment, const QString &objectType, AST::SourceLocation typeLocation, LocationSpan location, AST::UiObjectInitializer *initializer = 0); QDeclarativeParser::Variant getVariant(AST::ExpressionNode *expr); LocationSpan location(AST::SourceLocation start, AST::SourceLocation end); LocationSpan location(AST::UiQualifiedId *); using AST::Visitor::visit; using AST::Visitor::endVisit; virtual bool visit(AST::UiProgram *node); virtual bool visit(AST::UiImport *node); virtual bool visit(AST::UiObjectDefinition *node); virtual bool visit(AST::UiPublicMember *node); virtual bool visit(AST::UiObjectBinding *node); virtual bool visit(AST::UiScriptBinding *node); virtual bool visit(AST::UiArrayBinding *node); virtual bool visit(AST::UiSourceElement *node); void accept(AST::Node *node); QString asString(AST::UiQualifiedId *node) const; const State state() const; Object *currentObject() const; Property *currentProperty() const; QString qualifiedNameId() const; QString textAt(const AST::SourceLocation &loc) const { return _contents.mid(loc.offset, loc.length); } QString textAt(const AST::SourceLocation &first, const AST::SourceLocation &last) const { return _contents.mid(first.offset, last.offset + last.length - first.offset); } QString asString(AST::ExpressionNode *expr) { if (! expr) return QString(); return textAt(expr->firstSourceLocation(), expr->lastSourceLocation()); } QString asString(AST::Statement *stmt) { if (! stmt) return QString(); QString s = textAt(stmt->firstSourceLocation(), stmt->lastSourceLocation()); s += QLatin1Char('\n'); return s; } private: QDeclarativeScriptParser *_parser; StateStack _stateStack; QStringList _scope; QString _contents; inline bool isSignalProperty(const QByteArray &propertyName) const { return (propertyName.length() >= 3 && propertyName.startsWith("on") && ('A' <= propertyName.at(2) && 'Z' >= propertyName.at(2))); } }; ProcessAST::ProcessAST(QDeclarativeScriptParser *parser) : _parser(parser) { } ProcessAST::~ProcessAST() { } void ProcessAST::operator()(const QString &code, AST::Node *node) { _contents = code; accept(node); } void ProcessAST::accept(AST::Node *node) { AST::Node::acceptChild(node, this); } const ProcessAST::State ProcessAST::state() const { if (_stateStack.isEmpty()) return State(); return _stateStack.back(); } Object *ProcessAST::currentObject() const { return state().object; } Property *ProcessAST::currentProperty() const { return state().property; } QString ProcessAST::qualifiedNameId() const { return _scope.join(QLatin1String("/")); } QString ProcessAST::asString(AST::UiQualifiedId *node) const { QString s; for (AST::UiQualifiedId *it = node; it; it = it->next) { s.append(it->name->asString()); if (it->next) s.append(QLatin1Char('.')); } return s; } Object * ProcessAST::defineObjectBinding(AST::UiQualifiedId *propertyName, bool onAssignment, const QString &objectType, AST::SourceLocation typeLocation, LocationSpan location, AST::UiObjectInitializer *initializer) { int lastTypeDot = objectType.lastIndexOf(QLatin1Char('.')); bool isType = !objectType.isEmpty() && (objectType.at(0).isUpper() || (lastTypeDot >= 0 && objectType.at(lastTypeDot+1).isUpper())); int propertyCount = 0; for (AST::UiQualifiedId *name = propertyName; name; name = name->next){ ++propertyCount; _stateStack.pushProperty(name->name->asString(), this->location(name)); } if (!onAssignment && propertyCount && currentProperty() && currentProperty()->values.count()) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Property value set multiple times")); error.setLine(this->location(propertyName).start.line); error.setColumn(this->location(propertyName).start.column); _parser->_errors << error; return 0; } if (!isType) { if(propertyCount || !currentObject()) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Expected type name")); error.setLine(typeLocation.startLine); error.setColumn(typeLocation.startColumn); _parser->_errors << error; return 0; } LocationSpan loc = ProcessAST::location(typeLocation, typeLocation); if (propertyName) loc = ProcessAST::location(propertyName); _stateStack.pushProperty(objectType, loc); accept(initializer); _stateStack.pop(); return 0; } else { // Class QString resolvableObjectType = objectType; if (lastTypeDot >= 0) resolvableObjectType.replace(QLatin1Char('.'),QLatin1Char('/')); Object *obj = new Object; QDeclarativeScriptParser::TypeReference *typeRef = _parser->findOrCreateType(resolvableObjectType); obj->type = typeRef->id; typeRef->refObjects.append(obj); // XXX this doesn't do anything (_scope never builds up) _scope.append(resolvableObjectType); obj->typeName = qualifiedNameId().toUtf8(); _scope.removeLast(); obj->location = location; if (propertyCount) { Property *prop = currentProperty(); Value *v = new Value; v->object = obj; v->location = obj->location; if (onAssignment) prop->addOnValue(v); else prop->addValue(v); while (propertyCount--) _stateStack.pop(); } else { if (! _parser->tree()) { _parser->setTree(obj); } else { const State state = _stateStack.top(); Value *v = new Value; v->object = obj; v->location = obj->location; if (state.property) { state.property->addValue(v); } else { Property *defaultProp = state.object->getDefaultProperty(); if (defaultProp->location.start.line == -1) { defaultProp->location = v->location; defaultProp->location.end = defaultProp->location.start; defaultProp->location.range.length = 0; } defaultProp->addValue(v); } } } _stateStack.pushObject(obj); accept(initializer); _stateStack.pop(); return obj; } } LocationSpan ProcessAST::location(AST::UiQualifiedId *id) { return location(id->identifierToken, id->identifierToken); } LocationSpan ProcessAST::location(AST::SourceLocation start, AST::SourceLocation end) { LocationSpan rv; rv.start.line = start.startLine; rv.start.column = start.startColumn; rv.end.line = end.startLine; rv.end.column = end.startColumn + end.length - 1; rv.range.offset = start.offset; rv.range.length = end.offset + end.length - start.offset; return rv; } // UiProgram: UiImportListOpt UiObjectMemberList ; bool ProcessAST::visit(AST::UiProgram *node) { accept(node->imports); accept(node->members->member); return false; } // UiImport: T_IMPORT T_STRING_LITERAL ; bool ProcessAST::visit(AST::UiImport *node) { QString uri; QDeclarativeScriptParser::Import import; if (node->fileName) { uri = node->fileName->asString(); if (uri.endsWith(QLatin1String(".js"))) { import.type = QDeclarativeScriptParser::Import::Script; } else { import.type = QDeclarativeScriptParser::Import::File; } } else { import.type = QDeclarativeScriptParser::Import::Library; uri = asString(node->importUri); } AST::SourceLocation startLoc = node->importToken; AST::SourceLocation endLoc = node->semicolonToken; // Qualifier if (node->importId) { import.qualifier = node->importId->asString(); if (!import.qualifier.at(0).isUpper()) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Invalid import qualifier ID")); error.setLine(node->importIdToken.startLine); error.setColumn(node->importIdToken.startColumn); _parser->_errors << error; return false; } if (import.qualifier == QLatin1String("Qt")) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Reserved name \"Qt\" cannot be used as an qualifier")); error.setLine(node->importIdToken.startLine); error.setColumn(node->importIdToken.startColumn); _parser->_errors << error; return false; } // Check for script qualifier clashes bool isScript = import.type == QDeclarativeScriptParser::Import::Script; for (int ii = 0; ii < _parser->_imports.count(); ++ii) { const QDeclarativeScriptParser::Import &other = _parser->_imports.at(ii); bool otherIsScript = other.type == QDeclarativeScriptParser::Import::Script; if ((isScript || otherIsScript) && import.qualifier == other.qualifier) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Script import qualifiers must be unique.")); error.setLine(node->importIdToken.startLine); error.setColumn(node->importIdToken.startColumn); _parser->_errors << error; return false; } } } else if (import.type == QDeclarativeScriptParser::Import::Script) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Script import requires a qualifier")); error.setLine(node->fileNameToken.startLine); error.setColumn(node->fileNameToken.startColumn); _parser->_errors << error; return false; } if (node->versionToken.isValid()) { import.version = textAt(node->versionToken); } else if (import.type == QDeclarativeScriptParser::Import::Library) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Library import requires a version")); error.setLine(node->importIdToken.startLine); error.setColumn(node->importIdToken.startColumn); _parser->_errors << error; return false; } import.location = location(startLoc, endLoc); import.uri = uri; _parser->_imports << import; return false; } bool ProcessAST::visit(AST::UiPublicMember *node) { const struct TypeNameToType { const char *name; Object::DynamicProperty::Type type; const char *qtName; } propTypeNameToTypes[] = { { "int", Object::DynamicProperty::Int, "int" }, { "bool", Object::DynamicProperty::Bool, "bool" }, { "double", Object::DynamicProperty::Real, "double" }, { "real", Object::DynamicProperty::Real, "qreal" }, { "string", Object::DynamicProperty::String, "QString" }, { "url", Object::DynamicProperty::Url, "QUrl" }, { "color", Object::DynamicProperty::Color, "QColor" }, // Internally QTime, QDate and QDateTime are all supported. // To be more consistent with JavaScript we expose only // QDateTime as it matches closely with the Date JS type. // We also call it "date" to match. // { "time", Object::DynamicProperty::Time, "QTime" }, // { "date", Object::DynamicProperty::Date, "QDate" }, { "date", Object::DynamicProperty::DateTime, "QDateTime" }, { "variant", Object::DynamicProperty::Variant, "QVariant" } }; const int propTypeNameToTypesCount = sizeof(propTypeNameToTypes) / sizeof(propTypeNameToTypes[0]); if(node->type == AST::UiPublicMember::Signal) { const QString name = node->name->asString(); Object::DynamicSignal signal; signal.name = name.toUtf8(); AST::UiParameterList *p = node->parameters; while (p) { const QString memberType = p->type->asString(); const char *qtType = 0; for(int ii = 0; !qtType && ii < propTypeNameToTypesCount; ++ii) { if(QLatin1String(propTypeNameToTypes[ii].name) == memberType) qtType = propTypeNameToTypes[ii].qtName; } if (!qtType) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Expected parameter type")); error.setLine(node->typeToken.startLine); error.setColumn(node->typeToken.startColumn); _parser->_errors << error; return false; } signal.parameterTypes << qtType; signal.parameterNames << p->name->asString().toUtf8(); p = p->finish(); } _stateStack.top().object->dynamicSignals << signal; } else { const QString memberType = node->memberType->asString(); const QString name = node->name->asString(); bool typeFound = false; Object::DynamicProperty::Type type; if (memberType == QLatin1String("alias")) { type = Object::DynamicProperty::Alias; typeFound = true; } for(int ii = 0; !typeFound && ii < propTypeNameToTypesCount; ++ii) { if(QLatin1String(propTypeNameToTypes[ii].name) == memberType) { type = propTypeNameToTypes[ii].type; typeFound = true; } } if (!typeFound && memberType.at(0).isUpper()) { QString typemodifier; if(node->typeModifier) typemodifier = node->typeModifier->asString(); if (typemodifier.isEmpty()) { type = Object::DynamicProperty::Custom; } else if(typemodifier == QLatin1String("list")) { type = Object::DynamicProperty::CustomList; } else { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Invalid property type modifier")); error.setLine(node->typeModifierToken.startLine); error.setColumn(node->typeModifierToken.startColumn); _parser->_errors << error; return false; } typeFound = true; } else if (node->typeModifier) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Unexpected property type modifier")); error.setLine(node->typeModifierToken.startLine); error.setColumn(node->typeModifierToken.startColumn); _parser->_errors << error; return false; } if(!typeFound) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Expected property type")); error.setLine(node->typeToken.startLine); error.setColumn(node->typeToken.startColumn); _parser->_errors << error; return false; } if (node->isReadonlyMember) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Readonly not yet supported")); error.setLine(node->readonlyToken.startLine); error.setColumn(node->readonlyToken.startColumn); _parser->_errors << error; return false; } Object::DynamicProperty property; property.isDefaultProperty = node->isDefaultMember; property.type = type; if (type >= Object::DynamicProperty::Custom) { QDeclarativeScriptParser::TypeReference *typeRef = _parser->findOrCreateType(memberType); typeRef->refObjects.append(_stateStack.top().object); } property.customType = memberType.toUtf8(); property.name = name.toUtf8(); property.location = location(node->firstSourceLocation(), node->lastSourceLocation()); if (node->expression) { // default value property.defaultValue = new Property; property.defaultValue->parent = _stateStack.top().object; property.defaultValue->location = location(node->expression->firstSourceLocation(), node->expression->lastSourceLocation()); Value *value = new Value; value->location = location(node->expression->firstSourceLocation(), node->expression->lastSourceLocation()); value->value = getVariant(node->expression); property.defaultValue->values << value; } _stateStack.top().object->dynamicProperties << property; // process QML-like initializers (e.g. property Object o: Object {}) accept(node->binding); } return false; } // UiObjectMember: UiQualifiedId UiObjectInitializer ; bool ProcessAST::visit(AST::UiObjectDefinition *node) { LocationSpan l = location(node->firstSourceLocation(), node->lastSourceLocation()); const QString objectType = asString(node->qualifiedTypeNameId); const AST::SourceLocation typeLocation = node->qualifiedTypeNameId->identifierToken; defineObjectBinding(/*propertyName = */ 0, false, objectType, typeLocation, l, node->initializer); return false; } // UiObjectMember: UiQualifiedId T_COLON UiQualifiedId UiObjectInitializer ; bool ProcessAST::visit(AST::UiObjectBinding *node) { LocationSpan l = location(node->qualifiedTypeNameId->identifierToken, node->initializer->rbraceToken); const QString objectType = asString(node->qualifiedTypeNameId); const AST::SourceLocation typeLocation = node->qualifiedTypeNameId->identifierToken; defineObjectBinding(node->qualifiedId, node->hasOnToken, objectType, typeLocation, l, node->initializer); return false; } QDeclarativeParser::Variant ProcessAST::getVariant(AST::ExpressionNode *expr) { if (AST::StringLiteral *lit = AST::cast(expr)) { return QDeclarativeParser::Variant(lit->value->asString()); } else if (expr->kind == AST::Node::Kind_TrueLiteral) { return QDeclarativeParser::Variant(true); } else if (expr->kind == AST::Node::Kind_FalseLiteral) { return QDeclarativeParser::Variant(false); } else if (AST::NumericLiteral *lit = AST::cast(expr)) { return QDeclarativeParser::Variant(lit->value, asString(expr)); } else { if (AST::UnaryMinusExpression *unaryMinus = AST::cast(expr)) { if (AST::NumericLiteral *lit = AST::cast(unaryMinus->expression)) { return QDeclarativeParser::Variant(-lit->value, asString(expr)); } } return QDeclarativeParser::Variant(asString(expr), expr); } } // UiObjectMember: UiQualifiedId T_COLON Statement ; bool ProcessAST::visit(AST::UiScriptBinding *node) { int propertyCount = 0; AST::UiQualifiedId *propertyName = node->qualifiedId; for (AST::UiQualifiedId *name = propertyName; name; name = name->next){ ++propertyCount; _stateStack.pushProperty(name->name->asString(), location(name)); } Property *prop = currentProperty(); if (prop->values.count()) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Property value set multiple times")); error.setLine(this->location(propertyName).start.line); error.setColumn(this->location(propertyName).start.column); _parser->_errors << error; return 0; } QDeclarativeParser::Variant primitive; if (AST::ExpressionStatement *stmt = AST::cast(node->statement)) { primitive = getVariant(stmt->expression); } else { // do binding primitive = QDeclarativeParser::Variant(asString(node->statement), node->statement); } prop->location.range.length = prop->location.range.offset + prop->location.range.length - node->qualifiedId->identifierToken.offset; prop->location.range.offset = node->qualifiedId->identifierToken.offset; Value *v = new Value; v->value = primitive; v->location = location(node->statement->firstSourceLocation(), node->statement->lastSourceLocation()); prop->addValue(v); while (propertyCount--) _stateStack.pop(); return true; } static QList collectCommas(AST::UiArrayMemberList *members) { QList commas; if (members) { for (AST::UiArrayMemberList *it = members->next; it; it = it->next) { commas.append(it->commaToken.offset); } } return commas; } // UiObjectMember: UiQualifiedId T_COLON T_LBRACKET UiArrayMemberList T_RBRACKET ; bool ProcessAST::visit(AST::UiArrayBinding *node) { int propertyCount = 0; AST::UiQualifiedId *propertyName = node->qualifiedId; for (AST::UiQualifiedId *name = propertyName; name; name = name->next){ ++propertyCount; _stateStack.pushProperty(name->name->asString(), location(name)); } Property* prop = currentProperty(); if (prop->values.count()) { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","Property value set multiple times")); error.setLine(this->location(propertyName).start.line); error.setColumn(this->location(propertyName).start.column); _parser->_errors << error; return 0; } accept(node->members); // For the DOM, store the position of the T_LBRACKET upto the T_RBRACKET as the range: prop->listValueRange.offset = node->lbracketToken.offset; prop->listValueRange.length = node->rbracketToken.offset + node->rbracketToken.length - node->lbracketToken.offset; // Store the positions of the comma token too, again for the DOM to be able to retrieve it. prop->listCommaPositions = collectCommas(node->members); while (propertyCount--) _stateStack.pop(); return false; } bool ProcessAST::visit(AST::UiSourceElement *node) { QDeclarativeParser::Object *obj = currentObject(); if (AST::FunctionDeclaration *funDecl = AST::cast(node->sourceElement)) { Object::DynamicSlot slot; slot.location = location(funDecl->firstSourceLocation(), funDecl->lastSourceLocation()); AST::FormalParameterList *f = funDecl->formals; while (f) { slot.parameterNames << f->name->asString().toUtf8(); f = f->finish(); } QString body = textAt(funDecl->lbraceToken, funDecl->rbraceToken); slot.name = funDecl->name->asString().toUtf8(); slot.body = body; obj->dynamicSlots << slot; } else { QDeclarativeError error; error.setDescription(QCoreApplication::translate("QDeclarativeParser","JavaScript declaration outside Script element")); error.setLine(node->firstSourceLocation().startLine); error.setColumn(node->firstSourceLocation().startColumn); _parser->_errors << error; } return false; } } // end of anonymous namespace QDeclarativeScriptParser::QDeclarativeScriptParser() : root(0), data(0) { } QDeclarativeScriptParser::~QDeclarativeScriptParser() { clear(); } class QDeclarativeScriptParserJsASTData { public: QDeclarativeScriptParserJsASTData(const QString &filename) : nodePool(filename, &engine) {} Engine engine; NodePool nodePool; }; bool QDeclarativeScriptParser::parse(const QByteArray &qmldata, const QUrl &url) { clear(); const QString fileName = url.toString(); _scriptFile = fileName; QTextStream stream(qmldata, QIODevice::ReadOnly); #ifndef QT_NO_TEXTCODEC stream.setCodec("UTF-8"); #endif const QString code = stream.readAll(); data = new QDeclarativeScriptParserJsASTData(fileName); Lexer lexer(&data->engine); lexer.setCode(code, /*line = */ 1); Parser parser(&data->engine); if (! parser.parse() || !_errors.isEmpty()) { // Extract errors from the parser foreach (const DiagnosticMessage &m, parser.diagnosticMessages()) { if (m.isWarning()) continue; QDeclarativeError error; error.setUrl(url); error.setDescription(m.message); error.setLine(m.loc.startLine); error.setColumn(m.loc.startColumn); _errors << error; } } if (_errors.isEmpty()) { ProcessAST process(this); process(code, parser.ast()); // Set the url for process errors for(int ii = 0; ii < _errors.count(); ++ii) _errors[ii].setUrl(url); } return _errors.isEmpty(); } QList QDeclarativeScriptParser::referencedTypes() const { return _refTypes; } Object *QDeclarativeScriptParser::tree() const { return root; } QList QDeclarativeScriptParser::imports() const { return _imports; } QList QDeclarativeScriptParser::errors() const { return _errors; } static void replaceWithSpace(QString &str, int idx, int n) { QChar *data = str.data() + idx; const QChar space(QLatin1Char(' ')); for (int ii = 0; ii < n; ++ii) *data++ = space; } /* Searches for ".pragma " declarations within \a script. Currently supported pragmas are: library */ QDeclarativeParser::Object::ScriptBlock::Pragmas QDeclarativeScriptParser::extractPragmas(QString &script) { QDeclarativeParser::Object::ScriptBlock::Pragmas rv = QDeclarativeParser::Object::ScriptBlock::None; const QString pragma(QLatin1String("pragma")); const QString library(QLatin1String("library")); QDeclarativeJS::Lexer l(0); l.setCode(script, 0); int token = l.lex(); while (true) { if (token != QDeclarativeJSGrammar::T_DOT) return rv; int startOffset = l.tokenOffset(); int startLine = l.currentLineNo(); token = l.lex(); if (token != QDeclarativeJSGrammar::T_IDENTIFIER || l.currentLineNo() != startLine || script.mid(l.tokenOffset(), l.tokenLength()) != pragma) return rv; token = l.lex(); if (token != QDeclarativeJSGrammar::T_IDENTIFIER || l.currentLineNo() != startLine) return rv; QString pragmaValue = script.mid(l.tokenOffset(), l.tokenLength()); int endOffset = l.tokenLength() + l.tokenOffset(); token = l.lex(); if (l.currentLineNo() == startLine) return rv; if (pragmaValue == QLatin1String("library")) { rv |= QDeclarativeParser::Object::ScriptBlock::Shared; replaceWithSpace(script, startOffset, endOffset - startOffset); } else { return rv; } } return rv; } #define CHECK_LINE if(l.currentLineNo() != startLine) return rv; #define CHECK_TOKEN(t) if (token != QDeclarativeJSGrammar:: t) return rv; static const int uriTokens[] = { QDeclarativeJSGrammar::T_IDENTIFIER, QDeclarativeJSGrammar::T_PROPERTY, QDeclarativeJSGrammar::T_SIGNAL, QDeclarativeJSGrammar::T_READONLY, QDeclarativeJSGrammar::T_ON, QDeclarativeJSGrammar::T_BREAK, QDeclarativeJSGrammar::T_CASE, QDeclarativeJSGrammar::T_CATCH, QDeclarativeJSGrammar::T_CONTINUE, QDeclarativeJSGrammar::T_DEFAULT, QDeclarativeJSGrammar::T_DELETE, QDeclarativeJSGrammar::T_DO, QDeclarativeJSGrammar::T_ELSE, QDeclarativeJSGrammar::T_FALSE, QDeclarativeJSGrammar::T_FINALLY, QDeclarativeJSGrammar::T_FOR, QDeclarativeJSGrammar::T_FUNCTION, QDeclarativeJSGrammar::T_IF, QDeclarativeJSGrammar::T_IN, QDeclarativeJSGrammar::T_INSTANCEOF, QDeclarativeJSGrammar::T_NEW, QDeclarativeJSGrammar::T_NULL, QDeclarativeJSGrammar::T_RETURN, QDeclarativeJSGrammar::T_SWITCH, QDeclarativeJSGrammar::T_THIS, QDeclarativeJSGrammar::T_THROW, QDeclarativeJSGrammar::T_TRUE, QDeclarativeJSGrammar::T_TRY, QDeclarativeJSGrammar::T_TYPEOF, QDeclarativeJSGrammar::T_VAR, QDeclarativeJSGrammar::T_VOID, QDeclarativeJSGrammar::T_WHILE, QDeclarativeJSGrammar::T_CONST, QDeclarativeJSGrammar::T_DEBUGGER, QDeclarativeJSGrammar::T_RESERVED_WORD, QDeclarativeJSGrammar::T_WITH, QDeclarativeJSGrammar::EOF_SYMBOL }; static inline bool isUriToken(int token) { const int *current = uriTokens; while (*current != QDeclarativeJSGrammar::EOF_SYMBOL) { if (*current == token) return true; ++current; } return false; } QDeclarativeScriptParser::JavaScriptMetaData QDeclarativeScriptParser::extractMetaData(QString &script) { JavaScriptMetaData rv; QDeclarativeParser::Object::ScriptBlock::Pragmas &pragmas = rv.pragmas; const QString pragma(QLatin1String("pragma")); const QString js(QLatin1String(".js")); const QString library(QLatin1String("library")); QDeclarativeJS::Lexer l(0); l.setCode(script, 0); int token = l.lex(); while (true) { if (token != QDeclarativeJSGrammar::T_DOT) return rv; int startOffset = l.tokenOffset(); int startLine = l.currentLineNo(); token = l.lex(); CHECK_LINE; if (token == QDeclarativeJSGrammar::T_IMPORT) { // .import as // .import as token = l.lex(); CHECK_LINE; if (token == QDeclarativeJSGrammar::T_STRING_LITERAL) { QString file(l.characterBuffer(), l.characterCount()); if (!file.endsWith(js)) return rv; token = l.lex(); CHECK_TOKEN(T_AS); CHECK_LINE; token = l.lex(); CHECK_TOKEN(T_IDENTIFIER); CHECK_LINE; int endOffset = l.tokenLength() + l.tokenOffset(); QString importId = script.mid(l.tokenOffset(), l.tokenLength()); if (!importId.at(0).isUpper()) return rv; token = l.lex(); if (l.currentLineNo() == startLine) return rv; replaceWithSpace(script, startOffset, endOffset - startOffset); Import import; import.type = Import::Script; import.uri = file; import.qualifier = importId; rv.imports << import; } else { // URI QString uri; QString version; while (true) { if (!isUriToken(token)) return rv; uri.append(QString(l.characterBuffer(), l.characterCount())); token = l.lex(); CHECK_LINE; if (token != QDeclarativeJSGrammar::T_DOT) break; uri.append(QLatin1Char('.')); token = l.lex(); CHECK_LINE; } CHECK_TOKEN(T_NUMERIC_LITERAL); version = script.mid(l.tokenOffset(), l.tokenLength()); token = l.lex(); CHECK_TOKEN(T_AS); CHECK_LINE; token = l.lex(); CHECK_TOKEN(T_IDENTIFIER); CHECK_LINE; int endOffset = l.tokenLength() + l.tokenOffset(); QString importId = script.mid(l.tokenOffset(), l.tokenLength()); if (!importId.at(0).isUpper()) return rv; token = l.lex(); if (l.currentLineNo() == startLine) return rv; replaceWithSpace(script, startOffset, endOffset - startOffset); Import import; import.type = Import::Library; import.uri = uri; import.version = version; import.qualifier = importId; rv.imports << import; } } else if (token == QDeclarativeJSGrammar::T_IDENTIFIER && script.mid(l.tokenOffset(), l.tokenLength()) == pragma) { token = l.lex(); CHECK_TOKEN(T_IDENTIFIER); CHECK_LINE; QString pragmaValue = script.mid(l.tokenOffset(), l.tokenLength()); int endOffset = l.tokenLength() + l.tokenOffset(); if (pragmaValue == QLatin1String("library")) { pragmas |= QDeclarativeParser::Object::ScriptBlock::Shared; replaceWithSpace(script, startOffset, endOffset - startOffset); } else { return rv; } token = l.lex(); if (l.currentLineNo() == startLine) return rv; } else { return rv; } } return rv; } void QDeclarativeScriptParser::clear() { if (root) { root->release(); root = 0; } _imports.clear(); qDeleteAll(_refTypes); _refTypes.clear(); _errors.clear(); if (data) { delete data; data = 0; } } QDeclarativeScriptParser::TypeReference *QDeclarativeScriptParser::findOrCreateType(const QString &name) { TypeReference *type = 0; int i = 0; for (; i < _refTypes.size(); ++i) { if (_refTypes.at(i)->name == name) { type = _refTypes.at(i); break; } } if (!type) { type = new TypeReference(i, name); _refTypes.append(type); } return type; } void QDeclarativeScriptParser::setTree(Object *tree) { Q_ASSERT(! root); root = tree; } QT_END_NAMESPACE