Exemplo n.º 1
0
UnlinkedFunctionExecutable* CodeCache::getFunctionExecutableFromGlobalCode(JSGlobalData& globalData, const Identifier& name, const SourceCode& source, ParserError& error)
{
    SourceCodeKey key = SourceCodeKey(source, name.string(), SourceCodeKey::FunctionType, JSParseNormal);
    CodeCacheMap::AddResult addResult = m_sourceCode.add(key, SourceCodeValue());
    if (!addResult.isNewEntry)
        return jsCast<UnlinkedFunctionExecutable*>(addResult.iterator->value.cell.get());

    RefPtr<ProgramNode> program = parse<ProgramNode>(&globalData, source, 0, Identifier(), JSParseNormal, JSParseProgramCode, error);
    if (!program) {
        ASSERT(error.m_type != ParserError::ErrorNone);
        m_sourceCode.remove(addResult.iterator);
        return 0;
    }

    // This function assumes an input string that would result in a single anonymous function expression.
    StatementNode* exprStatement = program->singleStatement();
    ASSERT(exprStatement);
    ASSERT(exprStatement->isExprStatement());
    ExpressionNode* funcExpr = static_cast<ExprStatementNode*>(exprStatement)->expr();
    ASSERT(funcExpr);
    RELEASE_ASSERT(funcExpr->isFuncExprNode());
    FunctionBodyNode* body = static_cast<FuncExprNode*>(funcExpr)->body();
    ASSERT(body);
    ASSERT(body->ident().isNull());

    UnlinkedFunctionExecutable* functionExecutable = UnlinkedFunctionExecutable::create(&globalData, source, body);
    functionExecutable->m_nameValue.set(globalData, functionExecutable, jsString(&globalData, name.string()));

    addResult.iterator->value = SourceCodeValue(globalData, functionExecutable, m_sourceCode.age());
    return functionExecutable;
}
Exemplo n.º 2
0
UnlinkedFunctionExecutable* CodeCache::getFunctionExecutableFromGlobalCode(JSGlobalData& globalData, const Identifier& name, const SourceCode& source, ParserError& error)
{
    GlobalFunctionKey key = makeGlobalFunctionKey(source, name.string());
    const Strong<UnlinkedFunctionExecutable>* result = m_cachedGlobalFunctions.find(key);
    if (result)
        return result->get();

    RefPtr<ProgramNode> program = parse<ProgramNode>(&globalData, source, 0, Identifier(), JSParseNormal, JSParseProgramCode, error);
    if (!program) {
        ASSERT(error.m_type != ParserError::ErrorNone);
        return 0;
    }

    // This function assumes an input string that would result in a single anonymous function expression.
    StatementNode* exprStatement = program->singleStatement();
    ASSERT(exprStatement);
    ASSERT(exprStatement->isExprStatement());
    ExpressionNode* funcExpr = static_cast<ExprStatementNode*>(exprStatement)->expr();
    ASSERT(funcExpr);
    ASSERT(funcExpr->isFuncExprNode());
    FunctionBodyNode* body = static_cast<FuncExprNode*>(funcExpr)->body();
    ASSERT(body);
    ASSERT(body->ident().isNull());

    UnlinkedFunctionExecutable* functionExecutable = UnlinkedFunctionExecutable::create(&globalData, source, body);
    functionExecutable->m_nameValue.set(globalData, functionExecutable, jsString(&globalData, name.string()));

    m_cachedGlobalFunctions.add(key, Strong<UnlinkedFunctionExecutable>(globalData, functionExecutable));
    return functionExecutable;
}
Exemplo n.º 3
0
PassRefPtr<FunctionExecutable> FunctionExecutable::fromGlobalCode(const Identifier& functionName, ExecState* exec, Debugger* debugger, const SourceCode& source, int* errLine, UString* errMsg)
{
    RefPtr<ProgramNode> program = exec->globalData().parser->parse<ProgramNode>(&exec->globalData(), debugger, exec, source, errLine, errMsg);
    if (!program)
        return 0;

    StatementNode* exprStatement = program->singleStatement();
    ASSERT(exprStatement);
    ASSERT(exprStatement->isExprStatement());
    if (!exprStatement || !exprStatement->isExprStatement())
        return 0;

    ExpressionNode* funcExpr = static_cast<ExprStatementNode*>(exprStatement)->expr();
    ASSERT(funcExpr);
    ASSERT(funcExpr->isFuncExprNode());
    if (!funcExpr || !funcExpr->isFuncExprNode())
        return 0;

    FunctionBodyNode* body = static_cast<FuncExprNode*>(funcExpr)->body();
    ASSERT(body);
    return FunctionExecutable::create(&exec->globalData(), functionName, body->source(), body->usesArguments(), body->parameters(), body->lineNo(), body->lastLine());
}
Exemplo n.º 4
0
FunctionExecutable* FunctionExecutable::fromGlobalCode(const Identifier& functionName, ExecState* exec, Debugger* debugger, const SourceCode& source, JSObject** exception)
{
    JSGlobalObject* lexicalGlobalObject = exec->lexicalGlobalObject();
    RefPtr<ProgramNode> program = exec->globalData().parser->parse<ProgramNode>(lexicalGlobalObject, debugger, exec, source, 0, JSParseNormal, exception);
    if (!program) {
        ASSERT(*exception);
        return 0;
    }

    // Uses of this function that would not result in a single function expression are invalid.
    StatementNode* exprStatement = program->singleStatement();
    ASSERT(exprStatement);
    ASSERT(exprStatement->isExprStatement());
    ExpressionNode* funcExpr = static_cast<ExprStatementNode*>(exprStatement)->expr();
    ASSERT(funcExpr);
    ASSERT(funcExpr->isFuncExprNode());
    FunctionBodyNode* body = static_cast<FuncExprNode*>(funcExpr)->body();
    ASSERT(body);

    return FunctionExecutable::create(exec->globalData(), functionName, body->source(), body->usesArguments(), body->parameters(), body->isStrictMode(), body->lineNo(), body->lastLine());
}
Exemplo n.º 5
0
BuiltinExecutables::BuiltinExecutables(VM& vm)
    : m_vm(vm)
#define INITIALIZE_BUILTIN_SOURCE_MEMBERS(name, functionName, length) , m_##name##Source(makeSource(StringImpl::createFromLiteral(s_##name, length)))
    JSC_FOREACH_BUILTIN_CODE(INITIALIZE_BUILTIN_SOURCE_MEMBERS)
#undef EXPOSE_BUILTIN_STRINGS
{
}

UnlinkedFunctionExecutable* BuiltinExecutables::createDefaultConstructor(ConstructorKind constructorKind, const Identifier& name)
{
    static NeverDestroyed<const String> baseConstructorCode(ASCIILiteral("(function () { })"));
    static NeverDestroyed<const String> derivedConstructorCode(ASCIILiteral("(function () { super(...arguments); })"));

    switch (constructorKind) {
    case ConstructorKind::None:
        break;
    case ConstructorKind::Base:
        return createExecutable(m_vm, makeSource(baseConstructorCode), name, constructorKind, ConstructAbility::CanConstruct);
    case ConstructorKind::Extends:
        return createExecutable(m_vm, makeSource(derivedConstructorCode), name, constructorKind, ConstructAbility::CanConstruct);
    }
    ASSERT_NOT_REACHED();
    return nullptr;
}

UnlinkedFunctionExecutable* BuiltinExecutables::createBuiltinExecutable(const SourceCode& code, const Identifier& name, ConstructAbility constructAbility)
{
    return createExecutable(m_vm, code, name, ConstructorKind::None, constructAbility);
}

UnlinkedFunctionExecutable* createBuiltinExecutable(VM& vm, const SourceCode& code, const Identifier& name, ConstructAbility constructAbility)
{
    return BuiltinExecutables::createExecutable(vm, code, name, ConstructorKind::None, constructAbility);
}

UnlinkedFunctionExecutable* BuiltinExecutables::createExecutable(VM& vm, const SourceCode& source, const Identifier& name, ConstructorKind constructorKind, ConstructAbility constructAbility)
{
    JSTextPosition positionBeforeLastNewline;
    ParserError error;
    bool isParsingDefaultConstructor = constructorKind != ConstructorKind::None;
    JSParserBuiltinMode builtinMode = isParsingDefaultConstructor ? JSParserBuiltinMode::NotBuiltin : JSParserBuiltinMode::Builtin;
    UnlinkedFunctionKind kind = isParsingDefaultConstructor ? UnlinkedNormalFunction : UnlinkedBuiltinFunction;
    RefPtr<SourceProvider> sourceOverride = isParsingDefaultConstructor ? source.provider() : nullptr;
    std::unique_ptr<ProgramNode> program = parse<ProgramNode>(
        &vm, source, Identifier(), builtinMode,
        JSParserStrictMode::NotStrict, SourceParseMode::ProgramMode, SuperBinding::NotNeeded, error,
        &positionBeforeLastNewline, constructorKind);

    if (!program) {
        dataLog("Fatal error compiling builtin function '", name.string(), "': ", error.message());
        CRASH();
    }

    StatementNode* exprStatement = program->singleStatement();
    RELEASE_ASSERT(exprStatement);
    RELEASE_ASSERT(exprStatement->isExprStatement());
    ExpressionNode* funcExpr = static_cast<ExprStatementNode*>(exprStatement)->expr();
    RELEASE_ASSERT(funcExpr);
    RELEASE_ASSERT(funcExpr->isFuncExprNode());
    FunctionMetadataNode* metadata = static_cast<FuncExprNode*>(funcExpr)->metadata();
    RELEASE_ASSERT(!program->hasCapturedVariables());
    
    metadata->setEndPosition(positionBeforeLastNewline);
    RELEASE_ASSERT(metadata);
    RELEASE_ASSERT(metadata->ident().isNull());
    
    // This function assumes an input string that would result in a single anonymous function expression.
    metadata->setEndPosition(positionBeforeLastNewline);
    RELEASE_ASSERT(metadata);
    metadata->overrideName(name);
    VariableEnvironment dummyTDZVariables;
    UnlinkedFunctionExecutable* functionExecutable = UnlinkedFunctionExecutable::create(&vm, source, metadata, kind, constructAbility, dummyTDZVariables, DerivedContextType::None, WTFMove(sourceOverride));
    return functionExecutable;
}