| /* |
| * Copyright (C) 2008-2019 Apple Inc. All rights reserved. |
| * Copyright (C) 2008 Cameron Zwarich <cwzwarich@uwaterloo.ca> |
| * Copyright (C) 2012 Igalia, S.L. |
| * |
| * Redistribution and use in source and binary forms, with or without |
| * modification, are permitted provided that the following conditions |
| * are met: |
| * |
| * 1. Redistributions of source code must retain the above copyright |
| * notice, this list of conditions and the following disclaimer. |
| * 2. Redistributions in binary form must reproduce the above copyright |
| * notice, this list of conditions and the following disclaimer in the |
| * documentation and/or other materials provided with the distribution. |
| * 3. Neither the name of Apple Inc. ("Apple") nor the names of |
| * its contributors may be used to endorse or promote products derived |
| * from this software without specific prior written permission. |
| * |
| * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY |
| * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED |
| * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE |
| * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY |
| * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES |
| * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; |
| * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND |
| * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
| * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| */ |
| |
| #pragma once |
| |
| #include "BytecodeGeneratorBase.h" |
| #include "BytecodeStructs.h" |
| #include "CodeBlock.h" |
| #include "Instruction.h" |
| #include "Interpreter.h" |
| #include "JSAsyncGenerator.h" |
| #include "JSBigInt.h" |
| #include "JSGenerator.h" |
| #include "JSTemplateObjectDescriptor.h" |
| #include "Label.h" |
| #include "LabelScope.h" |
| #include "Nodes.h" |
| #include "ParserError.h" |
| #include "ProfileTypeBytecodeFlag.h" |
| #include "RegisterID.h" |
| #include "StaticPropertyAnalyzer.h" |
| #include "SymbolTable.h" |
| #include "UnlinkedCodeBlock.h" |
| #include <functional> |
| #include <wtf/CheckedArithmetic.h> |
| #include <wtf/HashFunctions.h> |
| #include <wtf/Optional.h> |
| #include <wtf/SegmentedVector.h> |
| #include <wtf/SetForScope.h> |
| #include <wtf/Vector.h> |
| |
| namespace JSC { |
| |
| class JSImmutableButterfly; |
| class Identifier; |
| class IndexedForInContext; |
| class StructureForInContext; |
| |
| enum ExpectedFunction { |
| NoExpectedFunction, |
| ExpectObjectConstructor, |
| ExpectArrayConstructor |
| }; |
| |
| enum class EmitAwait { Yes, No }; |
| |
| enum class DebuggableCall { Yes, No }; |
| enum class ThisResolutionType { Local, Scoped }; |
| enum class LinkTimeConstant : int32_t; |
| |
| class CallArguments { |
| public: |
| CallArguments(BytecodeGenerator&, ArgumentsNode*, unsigned additionalArguments = 0); |
| |
| RegisterID* thisRegister() { return m_argv[0].get(); } |
| RegisterID* argumentRegister(unsigned i) { return m_argv[i + 1].get(); } |
| unsigned stackOffset() { return -m_argv[0]->index() + CallFrame::headerSizeInRegisters; } |
| unsigned argumentCountIncludingThis() { return m_argv.size() - m_padding; } |
| ArgumentsNode* argumentsNode() { return m_argumentsNode; } |
| |
| private: |
| ArgumentsNode* m_argumentsNode; |
| Vector<RefPtr<RegisterID>, 8, UnsafeVectorOverflow> m_argv; |
| unsigned m_padding; |
| }; |
| |
| // https://tc39.github.io/ecma262/#sec-completion-record-specification-type |
| // |
| // For the Break and Continue cases, instead of using the Break and Continue enum values |
| // below, we use the unique jumpID of the break and continue statement as the encoding |
| // for the CompletionType value. emitFinallyCompletion() uses this jumpID value later |
| // to determine the appropriate jump target to jump to after executing the relevant finally |
| // blocks. The jumpID is computed as: |
| // jumpID = bytecodeOffset (of the break/continue node) + CompletionType::NumberOfTypes. |
| // Hence, there won't be any collision between jumpIDs and CompletionType enums. |
| enum class CompletionType : int { |
| Normal, |
| Throw, |
| Return, |
| NumberOfTypes |
| }; |
| |
| inline CompletionType bytecodeOffsetToJumpID(unsigned offset) |
| { |
| int jumpIDAsInt = offset + static_cast<int>(CompletionType::NumberOfTypes); |
| ASSERT(jumpIDAsInt >= static_cast<int>(CompletionType::NumberOfTypes)); |
| return static_cast<CompletionType>(jumpIDAsInt); |
| } |
| |
| struct FinallyJump { |
| FinallyJump(CompletionType jumpID, int targetLexicalScopeIndex, Label& targetLabel) |
| : jumpID(jumpID) |
| , targetLexicalScopeIndex(targetLexicalScopeIndex) |
| , targetLabel(targetLabel) |
| { } |
| |
| CompletionType jumpID; |
| int targetLexicalScopeIndex; |
| Ref<Label> targetLabel; |
| }; |
| |
| class FinallyContext { |
| public: |
| FinallyContext() { } |
| FinallyContext(BytecodeGenerator&, Label& finallyLabel); |
| |
| FinallyContext* outerContext() const { return m_outerContext; } |
| Label* finallyLabel() const { return m_finallyLabel; } |
| |
| RegisterID* completionTypeRegister() const { return m_completionRecord.typeRegister.get(); } |
| RegisterID* completionValueRegister() const { return m_completionRecord.valueRegister.get(); } |
| |
| uint32_t numberOfBreaksOrContinues() const { return m_numberOfBreaksOrContinues.unsafeGet(); } |
| void incNumberOfBreaksOrContinues() { m_numberOfBreaksOrContinues++; } |
| |
| bool handlesReturns() const { return m_handlesReturns; } |
| void setHandlesReturns() { m_handlesReturns = true; } |
| |
| void registerJump(CompletionType jumpID, int lexicalScopeIndex, Label& targetLabel) |
| { |
| m_jumps.append(FinallyJump(jumpID, lexicalScopeIndex, targetLabel)); |
| } |
| |
| size_t numberOfJumps() const { return m_jumps.size(); } |
| FinallyJump& jumps(size_t i) { return m_jumps[i]; } |
| |
| private: |
| FinallyContext* m_outerContext { nullptr }; |
| Label* m_finallyLabel { nullptr }; |
| Checked<uint32_t, WTF::CrashOnOverflow> m_numberOfBreaksOrContinues; |
| bool m_handlesReturns { false }; |
| Vector<FinallyJump> m_jumps; |
| struct { |
| RefPtr<RegisterID> typeRegister; |
| RefPtr<RegisterID> valueRegister; |
| } m_completionRecord; |
| }; |
| |
| struct ControlFlowScope { |
| typedef uint8_t Type; |
| enum { |
| Label, |
| Finally |
| }; |
| ControlFlowScope(Type type, int lexicalScopeIndex, FinallyContext* finallyContext = nullptr) |
| : type(type) |
| , lexicalScopeIndex(lexicalScopeIndex) |
| , finallyContext(finallyContext) |
| { } |
| |
| bool isLabelScope() const { return type == Label; } |
| bool isFinallyScope() const { return type == Finally; } |
| |
| Type type; |
| int lexicalScopeIndex; |
| FinallyContext* finallyContext; |
| }; |
| |
| class ForInContext : public RefCounted<ForInContext> { |
| WTF_MAKE_FAST_ALLOCATED; |
| WTF_MAKE_NONCOPYABLE(ForInContext); |
| public: |
| virtual ~ForInContext() = default; |
| |
| bool isValid() const { return m_isValid; } |
| void invalidate() { m_isValid = false; } |
| |
| enum class Type : uint8_t { |
| IndexedForIn, |
| StructureForIn |
| }; |
| |
| Type type() const { return m_type; } |
| bool isIndexedForInContext() const { return m_type == Type::IndexedForIn; } |
| bool isStructureForInContext() const { return m_type == Type::StructureForIn; } |
| |
| IndexedForInContext& asIndexedForInContext() |
| { |
| ASSERT(isIndexedForInContext()); |
| return *reinterpret_cast<IndexedForInContext*>(this); |
| } |
| |
| StructureForInContext& asStructureForInContext() |
| { |
| ASSERT(isStructureForInContext()); |
| return *reinterpret_cast<StructureForInContext*>(this); |
| } |
| |
| RegisterID* local() const { return m_localRegister.get(); } |
| |
| protected: |
| ForInContext(RegisterID* localRegister, Type type, unsigned bodyBytecodeStartOffset) |
| : m_localRegister(localRegister) |
| , m_type(type) |
| , m_bodyBytecodeStartOffset(bodyBytecodeStartOffset) |
| { } |
| |
| unsigned bodyBytecodeStartOffset() const { return m_bodyBytecodeStartOffset; } |
| |
| void finalize(BytecodeGenerator&, UnlinkedCodeBlock*, unsigned bodyBytecodeEndOffset); |
| |
| private: |
| RefPtr<RegisterID> m_localRegister; |
| bool m_isValid { true }; |
| Type m_type; |
| unsigned m_bodyBytecodeStartOffset; |
| }; |
| |
| class StructureForInContext : public ForInContext { |
| using Base = ForInContext; |
| public: |
| using GetInst = std::tuple<unsigned, int>; |
| |
| StructureForInContext(RegisterID* localRegister, RegisterID* indexRegister, RegisterID* propertyRegister, RegisterID* enumeratorRegister, unsigned bodyBytecodeStartOffset) |
| : ForInContext(localRegister, Type::StructureForIn, bodyBytecodeStartOffset) |
| , m_indexRegister(indexRegister) |
| , m_propertyRegister(propertyRegister) |
| , m_enumeratorRegister(enumeratorRegister) |
| { |
| } |
| |
| RegisterID* index() const { return m_indexRegister.get(); } |
| RegisterID* property() const { return m_propertyRegister.get(); } |
| RegisterID* enumerator() const { return m_enumeratorRegister.get(); } |
| |
| void addGetInst(unsigned instIndex, int propertyRegIndex) |
| { |
| m_getInsts.append(GetInst { instIndex, propertyRegIndex }); |
| } |
| |
| void finalize(BytecodeGenerator&, UnlinkedCodeBlock*, unsigned bodyBytecodeEndOffset); |
| |
| private: |
| RefPtr<RegisterID> m_indexRegister; |
| RefPtr<RegisterID> m_propertyRegister; |
| RefPtr<RegisterID> m_enumeratorRegister; |
| Vector<GetInst> m_getInsts; |
| }; |
| |
| class IndexedForInContext : public ForInContext { |
| using Base = ForInContext; |
| public: |
| IndexedForInContext(RegisterID* localRegister, RegisterID* indexRegister, unsigned bodyBytecodeStartOffset) |
| : ForInContext(localRegister, Type::IndexedForIn, bodyBytecodeStartOffset) |
| , m_indexRegister(indexRegister) |
| { |
| } |
| |
| RegisterID* index() const { return m_indexRegister.get(); } |
| |
| void finalize(BytecodeGenerator&, UnlinkedCodeBlock*, unsigned bodyBytecodeEndOffset); |
| void addGetInst(unsigned instIndex, int propertyIndex) { m_getInsts.append({ instIndex, propertyIndex }); } |
| |
| private: |
| RefPtr<RegisterID> m_indexRegister; |
| Vector<std::pair<unsigned, int>> m_getInsts; |
| }; |
| |
| struct TryData { |
| Ref<Label> target; |
| HandlerType handlerType; |
| }; |
| |
| struct TryContext { |
| Ref<Label> start; |
| TryData* tryData; |
| }; |
| |
| class Variable { |
| public: |
| enum VariableKind { NormalVariable, SpecialVariable }; |
| |
| Variable() |
| : m_offset() |
| , m_local(nullptr) |
| , m_attributes(0) |
| , m_kind(NormalVariable) |
| , m_symbolTableConstantIndex(0) // This is meaningless here for this kind of Variable. |
| , m_isLexicallyScoped(false) |
| { |
| } |
| |
| Variable(const Identifier& ident) |
| : m_ident(ident) |
| , m_local(nullptr) |
| , m_attributes(0) |
| , m_kind(NormalVariable) // This is somewhat meaningless here for this kind of Variable. |
| , m_symbolTableConstantIndex(0) // This is meaningless here for this kind of Variable. |
| , m_isLexicallyScoped(false) |
| { |
| } |
| |
| Variable(const Identifier& ident, VarOffset offset, RegisterID* local, unsigned attributes, VariableKind kind, int symbolTableConstantIndex, bool isLexicallyScoped) |
| : m_ident(ident) |
| , m_offset(offset) |
| , m_local(local) |
| , m_attributes(attributes) |
| , m_kind(kind) |
| , m_symbolTableConstantIndex(symbolTableConstantIndex) |
| , m_isLexicallyScoped(isLexicallyScoped) |
| { |
| } |
| |
| // If it's unset, then it is a non-locally-scoped variable. If it is set, then it could be |
| // a stack variable, a scoped variable in a local scope, or a variable captured in the |
| // direct arguments object. |
| bool isResolved() const { return !!m_offset; } |
| int symbolTableConstantIndex() const { ASSERT(isResolved() && !isSpecial()); return m_symbolTableConstantIndex; } |
| |
| const Identifier& ident() const { return m_ident; } |
| |
| VarOffset offset() const { return m_offset; } |
| bool isLocal() const { return m_offset.isStack(); } |
| RegisterID* local() const { return m_local; } |
| |
| bool isReadOnly() const { return m_attributes & PropertyAttribute::ReadOnly; } |
| bool isSpecial() const { return m_kind != NormalVariable; } |
| bool isConst() const { return isReadOnly() && m_isLexicallyScoped; } |
| void setIsReadOnly() { m_attributes |= PropertyAttribute::ReadOnly; } |
| |
| void dump(PrintStream&) const; |
| |
| private: |
| Identifier m_ident; |
| VarOffset m_offset; |
| RegisterID* m_local; |
| unsigned m_attributes; |
| VariableKind m_kind; |
| int m_symbolTableConstantIndex; |
| bool m_isLexicallyScoped; |
| }; |
| |
| struct TryRange { |
| Ref<Label> start; |
| Ref<Label> end; |
| TryData* tryData; |
| }; |
| |
| |
| struct JSGeneratorTraits { |
| using OpcodeTraits = JSOpcodeTraits; |
| using OpcodeID = ::JSC::OpcodeID; |
| using OpNop = ::JSC::OpNop; |
| using CodeBlock = Strong<UnlinkedCodeBlock>; |
| static constexpr OpcodeID opcodeForDisablingOptimizations = op_end; |
| }; |
| |
| class BytecodeGenerator : public BytecodeGeneratorBase<JSGeneratorTraits> { |
| WTF_MAKE_FAST_ALLOCATED; |
| WTF_MAKE_NONCOPYABLE(BytecodeGenerator); |
| |
| friend class FinallyContext; |
| friend class IndexedForInContext; |
| friend class StructureForInContext; |
| public: |
| typedef DeclarationStacks::FunctionStack FunctionStack; |
| |
| BytecodeGenerator(VM&, ProgramNode*, UnlinkedProgramCodeBlock*, OptionSet<CodeGenerationMode>, const VariableEnvironment*); |
| BytecodeGenerator(VM&, FunctionNode*, UnlinkedFunctionCodeBlock*, OptionSet<CodeGenerationMode>, const VariableEnvironment*); |
| BytecodeGenerator(VM&, EvalNode*, UnlinkedEvalCodeBlock*, OptionSet<CodeGenerationMode>, const VariableEnvironment*); |
| BytecodeGenerator(VM&, ModuleProgramNode*, UnlinkedModuleProgramCodeBlock*, OptionSet<CodeGenerationMode>, const VariableEnvironment*); |
| |
| ~BytecodeGenerator(); |
| |
| VM& vm() const { return m_vm; } |
| ParserArena& parserArena() const { return m_scopeNode->parserArena(); } |
| const CommonIdentifiers& propertyNames() const { return *m_vm.propertyNames; } |
| |
| bool isConstructor() const { return m_codeBlock->isConstructor(); } |
| DerivedContextType derivedContextType() const { return m_derivedContextType; } |
| bool usesArrowFunction() const { return m_scopeNode->usesArrowFunction(); } |
| bool needsToUpdateArrowFunctionContext() const { return m_needsToUpdateArrowFunctionContext; } |
| bool usesEval() const { return m_scopeNode->usesEval(); } |
| bool usesThis() const { return m_scopeNode->usesThis(); } |
| ConstructorKind constructorKind() const { return m_codeBlock->constructorKind(); } |
| SuperBinding superBinding() const { return m_codeBlock->superBinding(); } |
| JSParserScriptMode scriptMode() const { return m_codeBlock->scriptMode(); } |
| |
| template<typename Node, typename UnlinkedCodeBlock> |
| static ParserError generate(VM& vm, Node* node, const SourceCode& sourceCode, UnlinkedCodeBlock* unlinkedCodeBlock, OptionSet<CodeGenerationMode> codeGenerationMode, const VariableEnvironment* environment) |
| { |
| MonotonicTime before; |
| if (UNLIKELY(Options::reportBytecodeCompileTimes())) |
| before = MonotonicTime::now(); |
| |
| DeferGC deferGC(vm.heap); |
| auto bytecodeGenerator = makeUnique<BytecodeGenerator>(vm, node, unlinkedCodeBlock, codeGenerationMode, environment); |
| auto result = bytecodeGenerator->generate(); |
| |
| if (UNLIKELY(Options::reportBytecodeCompileTimes())) { |
| MonotonicTime after = MonotonicTime::now(); |
| dataLogLn(result.isValid() ? "Failed to compile #" : "Compiled #", CodeBlockHash(sourceCode, unlinkedCodeBlock->isConstructor() ? CodeForConstruct : CodeForCall), " into bytecode ", bytecodeGenerator->instructions().size(), " instructions in ", (after - before).milliseconds(), " ms."); |
| } |
| return result; |
| } |
| |
| bool isArgumentNumber(const Identifier&, int); |
| |
| Variable variable(const Identifier&, ThisResolutionType = ThisResolutionType::Local); |
| |
| enum ExistingVariableMode { VerifyExisting, IgnoreExisting }; |
| void createVariable(const Identifier&, VarKind, SymbolTable*, ExistingVariableMode = VerifyExisting); // Creates the variable, or asserts that the already-created variable is sufficiently compatible. |
| |
| // Returns the register storing "this" |
| RegisterID* thisRegister() { return &m_thisRegister; } |
| RegisterID* argumentsRegister() { return m_argumentsRegister; } |
| RegisterID* newTarget() |
| { |
| ASSERT(m_newTargetRegister); |
| return m_newTargetRegister; |
| } |
| |
| RegisterID* scopeRegister() { return m_scopeRegister; } |
| |
| RegisterID* generatorRegister() { return m_generatorRegister; } |
| |
| RegisterID* promiseRegister() { return m_promiseRegister; } |
| |
| // The same as newTemporary(), but this function returns "suggestion" if |
| // "suggestion" is a temporary. This function is helpful in situations |
| // where you've put "suggestion" in a RefPtr, but you'd like to allow |
| // the next instruction to overwrite it anyway. |
| RegisterID* newTemporaryOr(RegisterID* suggestion) { return suggestion->isTemporary() ? suggestion : newTemporary(); } |
| |
| // Functions for handling of dst register |
| |
| RegisterID* ignoredResult() { return &m_ignoredResultRegister; } |
| |
| // This will be allocated in the temporary region of registers, but it will |
| // not be marked as a temporary. This will ensure that finalDestination() does |
| // not overwrite a block scope variable that it mistakes as a temporary. These |
| // registers can be (and are) reclaimed when the lexical scope they belong to |
| // is no longer on the symbol table stack. |
| RegisterID* newBlockScopeVariable(); |
| |
| // Returns a place to write intermediate values of an operation |
| // which reuses dst if it is safe to do so. |
| RegisterID* tempDestination(RegisterID* dst) |
| { |
| return (dst && dst != ignoredResult() && dst->isTemporary()) ? dst : newTemporary(); |
| } |
| |
| // Returns the place to write the final output of an operation. |
| RegisterID* finalDestination(RegisterID* originalDst, RegisterID* tempDst = 0) |
| { |
| if (originalDst && originalDst != ignoredResult()) |
| return originalDst; |
| ASSERT(tempDst != ignoredResult()); |
| if (tempDst && tempDst->isTemporary()) |
| return tempDst; |
| return newTemporary(); |
| } |
| |
| RegisterID* destinationForAssignResult(RegisterID* dst) |
| { |
| if (dst && dst != ignoredResult()) |
| return dst->isTemporary() ? dst : newTemporary(); |
| return 0; |
| } |
| |
| // Moves src to dst if dst is not null and is different from src, otherwise just returns src. |
| RegisterID* move(RegisterID* dst, RegisterID* src) |
| { |
| return dst == ignoredResult() ? nullptr : (dst && dst != src) ? emitMove(dst, src) : src; |
| } |
| |
| Ref<LabelScope> newLabelScope(LabelScope::Type, const Identifier* = 0); |
| |
| void emitNode(RegisterID* dst, StatementNode* n) |
| { |
| SetForScope<bool> tailPositionPoisoner(m_inTailPosition, false); |
| return emitNodeInTailPosition(dst, n); |
| } |
| |
| void emitNodeInTailPosition(RegisterID* dst, StatementNode* n) |
| { |
| // Node::emitCode assumes that dst, if provided, is either a local or a referenced temporary. |
| ASSERT(!dst || dst == ignoredResult() || !dst->isTemporary() || dst->refCount()); |
| if (UNLIKELY(!m_vm.isSafeToRecurse())) { |
| emitThrowExpressionTooDeepException(); |
| return; |
| } |
| if (UNLIKELY(n->needsDebugHook())) |
| emitDebugHook(n); |
| n->emitBytecode(*this, dst); |
| } |
| |
| ALWAYS_INLINE unsigned addMetadataFor(OpcodeID opcodeID) |
| { |
| return m_codeBlock->metadata().addEntry(opcodeID); |
| } |
| |
| void emitNode(StatementNode* n) |
| { |
| emitNode(nullptr, n); |
| } |
| |
| void emitNodeInTailPosition(StatementNode* n) |
| { |
| emitNodeInTailPosition(nullptr, n); |
| } |
| |
| RegisterID* emitNode(RegisterID* dst, ExpressionNode* n) |
| { |
| SetForScope<bool> tailPositionPoisoner(m_inTailPosition, false); |
| return emitNodeInTailPosition(dst, n); |
| } |
| |
| RegisterID* emitNodeInTailPosition(RegisterID* dst, ExpressionNode* n) |
| { |
| // Node::emitCode assumes that dst, if provided, is either a local or a referenced temporary. |
| ASSERT(!dst || dst == ignoredResult() || !dst->isTemporary() || dst->refCount()); |
| if (UNLIKELY(!m_vm.isSafeToRecurse())) |
| return emitThrowExpressionTooDeepException(); |
| if (UNLIKELY(n->needsDebugHook())) |
| emitDebugHook(n); |
| return n->emitBytecode(*this, dst); |
| } |
| |
| RegisterID* emitNode(ExpressionNode* n) |
| { |
| return emitNode(nullptr, n); |
| } |
| |
| RegisterID* emitNodeInTailPosition(ExpressionNode* n) |
| { |
| return emitNodeInTailPosition(nullptr, n); |
| } |
| |
| RegisterID* emitDefineClassElements(PropertyListNode* n, RegisterID* constructor, RegisterID* prototype) |
| { |
| ASSERT(constructor->refCount() && prototype->refCount()); |
| if (UNLIKELY(!m_vm.isSafeToRecurse())) |
| return emitThrowExpressionTooDeepException(); |
| if (UNLIKELY(n->needsDebugHook())) |
| emitDebugHook(n); |
| return n->emitBytecode(*this, constructor, prototype); |
| } |
| |
| RegisterID* emitNodeForProperty(RegisterID* dst, ExpressionNode* node) |
| { |
| if (node->isString()) { |
| if (Optional<uint32_t> index = parseIndex(static_cast<StringNode*>(node)->value())) |
| return emitLoad(dst, jsNumber(index.value())); |
| } |
| return emitNode(dst, node); |
| } |
| |
| RegisterID* emitNodeForProperty(ExpressionNode* n) |
| { |
| return emitNodeForProperty(nullptr, n); |
| } |
| |
| void emitNodeInConditionContext(ExpressionNode* n, Label& trueTarget, Label& falseTarget, FallThroughMode fallThroughMode) |
| { |
| if (UNLIKELY(!m_vm.isSafeToRecurse())) { |
| emitThrowExpressionTooDeepException(); |
| return; |
| } |
| n->emitBytecodeInConditionContext(*this, trueTarget, falseTarget, fallThroughMode); |
| } |
| |
| void emitExpressionInfo(const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd) |
| { |
| ASSERT(divot.offset >= divotStart.offset); |
| ASSERT(divotEnd.offset >= divot.offset); |
| |
| int sourceOffset = m_scopeNode->source().startOffset(); |
| unsigned firstLine = m_scopeNode->source().firstLine().oneBasedInt(); |
| |
| int divotOffset = divot.offset - sourceOffset; |
| int startOffset = divot.offset - divotStart.offset; |
| int endOffset = divotEnd.offset - divot.offset; |
| |
| unsigned line = divot.line; |
| ASSERT(line >= firstLine); |
| line -= firstLine; |
| |
| int lineStart = divot.lineStartOffset; |
| if (lineStart > sourceOffset) |
| lineStart -= sourceOffset; |
| else |
| lineStart = 0; |
| |
| if (divotOffset < lineStart) |
| return; |
| |
| unsigned column = divotOffset - lineStart; |
| |
| unsigned instructionOffset = instructions().size(); |
| if (!m_isBuiltinFunction) |
| m_codeBlock->addExpressionInfo(instructionOffset, divotOffset, startOffset, endOffset, line, column); |
| } |
| |
| |
| ALWAYS_INLINE bool leftHandSideNeedsCopy(bool rightHasAssignments, bool rightIsPure) |
| { |
| return (m_codeType != FunctionCode || rightHasAssignments) && !rightIsPure; |
| } |
| |
| ALWAYS_INLINE RefPtr<RegisterID> emitNodeForLeftHandSide(ExpressionNode* n, bool rightHasAssignments, bool rightIsPure) |
| { |
| if (leftHandSideNeedsCopy(rightHasAssignments, rightIsPure)) { |
| RefPtr<RegisterID> dst = newTemporary(); |
| emitNode(dst.get(), n); |
| return dst; |
| } |
| |
| return emitNode(n); |
| } |
| |
| ALWAYS_INLINE RefPtr<RegisterID> emitNodeForLeftHandSideForProperty(ExpressionNode* n, bool rightHasAssignments, bool rightIsPure) |
| { |
| if (leftHandSideNeedsCopy(rightHasAssignments, rightIsPure)) { |
| RefPtr<RegisterID> dst = newTemporary(); |
| emitNodeForProperty(dst.get(), n); |
| return dst; |
| } |
| |
| return emitNodeForProperty(n); |
| } |
| |
| void hoistSloppyModeFunctionIfNecessary(const Identifier& functionName); |
| |
| private: |
| void emitTypeProfilerExpressionInfo(const JSTextPosition& startDivot, const JSTextPosition& endDivot); |
| public: |
| |
| // This doesn't emit expression info. If using this, make sure you shouldn't be emitting text offset. |
| void emitProfileType(RegisterID* registerToProfile, ProfileTypeBytecodeFlag); |
| // These variables are associated with variables in a program. They could be Locals, LocalClosureVar, or ClosureVar. |
| void emitProfileType(RegisterID* registerToProfile, const Variable&, const JSTextPosition& startDivot, const JSTextPosition& endDivot); |
| |
| void emitProfileType(RegisterID* registerToProfile, ProfileTypeBytecodeFlag, const JSTextPosition& startDivot, const JSTextPosition& endDivot); |
| // These are not associated with variables and don't have a global id. |
| void emitProfileType(RegisterID* registerToProfile, const JSTextPosition& startDivot, const JSTextPosition& endDivot); |
| |
| void emitProfileControlFlow(int); |
| |
| RegisterID* emitLoadArrowFunctionLexicalEnvironment(const Identifier&); |
| RegisterID* ensureThis(); |
| void emitLoadThisFromArrowFunctionLexicalEnvironment(); |
| RegisterID* emitLoadNewTargetFromArrowFunctionLexicalEnvironment(); |
| |
| unsigned addConstantIndex(); |
| RegisterID* emitLoad(RegisterID* dst, bool); |
| RegisterID* emitLoad(RegisterID* dst, const Identifier&); |
| RegisterID* emitLoad(RegisterID* dst, JSValue, SourceCodeRepresentation = SourceCodeRepresentation::Other); |
| RegisterID* emitLoad(RegisterID* dst, IdentifierSet& excludedList); |
| |
| template<typename UnaryOp, typename = std::enable_if_t<UnaryOp::opcodeID != op_negate>> |
| RegisterID* emitUnaryOp(RegisterID* dst, RegisterID* src) |
| { |
| UnaryOp::emit(this, dst, src); |
| return dst; |
| } |
| |
| RegisterID* emitUnaryOp(OpcodeID, RegisterID* dst, RegisterID* src, OperandTypes); |
| |
| template<typename BinaryOp> |
| std::enable_if_t< |
| BinaryOp::opcodeID != op_add |
| && BinaryOp::opcodeID != op_mul |
| && BinaryOp::opcodeID != op_sub |
| && BinaryOp::opcodeID != op_div, |
| RegisterID*> |
| emitBinaryOp(RegisterID* dst, RegisterID* src1, RegisterID* src2, OperandTypes) |
| { |
| BinaryOp::emit(this, dst, src1, src2); |
| return dst; |
| } |
| |
| template<typename BinaryOp> |
| std::enable_if_t< |
| BinaryOp::opcodeID == op_add |
| || BinaryOp::opcodeID == op_mul |
| || BinaryOp::opcodeID == op_sub |
| || BinaryOp::opcodeID == op_div, |
| RegisterID*> |
| emitBinaryOp(RegisterID* dst, RegisterID* src1, RegisterID* src2, OperandTypes types) |
| { |
| BinaryOp::emit(this, dst, src1, src2, types); |
| return dst; |
| } |
| |
| RegisterID* emitBinaryOp(OpcodeID, RegisterID* dst, RegisterID* src1, RegisterID* src2, OperandTypes); |
| |
| template<typename EqOp> |
| RegisterID* emitEqualityOp(RegisterID* dst, RegisterID* src1, RegisterID* src2) |
| { |
| if (!emitEqualityOpImpl(dst, src1, src2)) |
| EqOp::emit(this, dst, src1, src2); |
| return dst; |
| } |
| |
| bool emitEqualityOpImpl(RegisterID* dst, RegisterID* src1, RegisterID* src2); |
| |
| RegisterID* emitCreateThis(RegisterID* dst); |
| RegisterID* emitCreatePromise(RegisterID* dst, RegisterID* newTarget, bool isInternalPromise); |
| RegisterID* emitCreateGenerator(RegisterID* dst, RegisterID* newTarget); |
| RegisterID* emitCreateAsyncGenerator(RegisterID* dst, RegisterID* newTarget); |
| void emitTDZCheck(RegisterID* target); |
| bool needsTDZCheck(const Variable&); |
| void emitTDZCheckIfNecessary(const Variable&, RegisterID* target, RegisterID* scope); |
| void liftTDZCheckIfPossible(const Variable&); |
| RegisterID* emitNewObject(RegisterID* dst); |
| RegisterID* emitNewPromise(RegisterID* dst, bool isInternalPromise); |
| RegisterID* emitNewGenerator(RegisterID* dst); |
| RegisterID* emitNewArray(RegisterID* dst, ElementNode*, unsigned length, IndexingType recommendedIndexingType); // stops at first elision |
| RegisterID* emitNewArrayBuffer(RegisterID* dst, JSImmutableButterfly*, IndexingType recommendedIndexingType); |
| // FIXME: new_array_with_spread should use an array allocation profile and take a recommendedIndexingType |
| RegisterID* emitNewArrayWithSpread(RegisterID* dst, ElementNode*); |
| RegisterID* emitNewArrayWithSize(RegisterID* dst, RegisterID* length); |
| |
| RegisterID* emitNewFunction(RegisterID* dst, FunctionMetadataNode*); |
| RegisterID* emitNewFunctionExpression(RegisterID* dst, FuncExprNode*); |
| RegisterID* emitNewDefaultConstructor(RegisterID* dst, ConstructorKind, const Identifier& name, const Identifier& ecmaName, const SourceCode& classSource); |
| RegisterID* emitNewArrowFunctionExpression(RegisterID*, ArrowFuncExprNode*); |
| RegisterID* emitNewMethodDefinition(RegisterID* dst, MethodDefinitionNode*); |
| RegisterID* emitNewRegExp(RegisterID* dst, RegExp*); |
| |
| void emitSetFunctionNameIfNeeded(ExpressionNode* valueNode, RegisterID* value, RegisterID* name); |
| |
| RegisterID* moveLinkTimeConstant(RegisterID* dst, LinkTimeConstant); |
| RegisterID* moveEmptyValue(RegisterID* dst); |
| |
| RegisterID* emitToNumber(RegisterID* dst, RegisterID* src); |
| RegisterID* emitToString(RegisterID* dst, RegisterID* src); |
| RegisterID* emitToObject(RegisterID* dst, RegisterID* src, const Identifier& message); |
| RegisterID* emitInc(RegisterID* srcDst); |
| RegisterID* emitDec(RegisterID* srcDst); |
| |
| RegisterID* emitOverridesHasInstance(RegisterID* dst, RegisterID* constructor, RegisterID* hasInstanceValue); |
| RegisterID* emitInstanceOf(RegisterID* dst, RegisterID* value, RegisterID* basePrototype); |
| RegisterID* emitInstanceOfCustom(RegisterID* dst, RegisterID* value, RegisterID* constructor, RegisterID* hasInstanceValue); |
| RegisterID* emitTypeOf(RegisterID* dst, RegisterID* src); |
| RegisterID* emitInByVal(RegisterID* dst, RegisterID* property, RegisterID* base); |
| RegisterID* emitInById(RegisterID* dst, RegisterID* base, const Identifier& property); |
| |
| RegisterID* emitTryGetById(RegisterID* dst, RegisterID* base, const Identifier& property); |
| RegisterID* emitGetById(RegisterID* dst, RegisterID* base, const Identifier& property); |
| RegisterID* emitGetById(RegisterID* dst, RegisterID* base, RegisterID* thisVal, const Identifier& property); |
| RegisterID* emitDirectGetById(RegisterID* dst, RegisterID* base, const Identifier& property); |
| RegisterID* emitPutById(RegisterID* base, const Identifier& property, RegisterID* value); |
| RegisterID* emitPutById(RegisterID* base, RegisterID* thisValue, const Identifier& property, RegisterID* value); |
| RegisterID* emitDirectPutById(RegisterID* base, const Identifier& property, RegisterID* value, PropertyNode::PutType); |
| RegisterID* emitDeleteById(RegisterID* dst, RegisterID* base, const Identifier&); |
| RegisterID* emitGetByVal(RegisterID* dst, RegisterID* base, RegisterID* property); |
| RegisterID* emitGetByVal(RegisterID* dst, RegisterID* base, RegisterID* thisValue, RegisterID* property); |
| RegisterID* emitPutByVal(RegisterID* base, RegisterID* property, RegisterID* value); |
| RegisterID* emitPutByVal(RegisterID* base, RegisterID* thisValue, RegisterID* property, RegisterID* value); |
| RegisterID* emitDirectPutByVal(RegisterID* base, RegisterID* property, RegisterID* value); |
| RegisterID* emitDeleteByVal(RegisterID* dst, RegisterID* base, RegisterID* property); |
| |
| RegisterID* emitGetInternalField(RegisterID* dst, RegisterID* base, unsigned index); |
| RegisterID* emitPutInternalField(RegisterID* base, unsigned index, RegisterID* value); |
| |
| void emitSuperSamplerBegin(); |
| void emitSuperSamplerEnd(); |
| |
| RegisterID* emitIdWithProfile(RegisterID* src, SpeculatedType profile); |
| void emitUnreachable(); |
| |
| void emitPutGetterById(RegisterID* base, const Identifier& property, unsigned propertyDescriptorOptions, RegisterID* getter); |
| void emitPutSetterById(RegisterID* base, const Identifier& property, unsigned propertyDescriptorOptions, RegisterID* setter); |
| void emitPutGetterSetter(RegisterID* base, const Identifier& property, unsigned attributes, RegisterID* getter, RegisterID* setter); |
| void emitPutGetterByVal(RegisterID* base, RegisterID* property, unsigned propertyDescriptorOptions, RegisterID* getter); |
| void emitPutSetterByVal(RegisterID* base, RegisterID* property, unsigned propertyDescriptorOptions, RegisterID* setter); |
| |
| RegisterID* emitGetArgument(RegisterID* dst, int32_t index); |
| |
| // Initialize object with generator fields (@generatorThis, @generatorNext, @generatorState, @generatorFrame) |
| void emitPutGeneratorFields(RegisterID* nextFunction); |
| |
| void emitPutAsyncGeneratorFields(RegisterID* nextFunction); |
| |
| ExpectedFunction expectedFunctionForIdentifier(const Identifier&); |
| RegisterID* emitCall(RegisterID* dst, RegisterID* func, ExpectedFunction, CallArguments&, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| RegisterID* emitCallInTailPosition(RegisterID* dst, RegisterID* func, ExpectedFunction, CallArguments&, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| RegisterID* emitCallEval(RegisterID* dst, RegisterID* func, CallArguments&, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| RegisterID* emitCallVarargs(RegisterID* dst, RegisterID* func, RegisterID* thisRegister, RegisterID* arguments, RegisterID* firstFreeRegister, int32_t firstVarArgOffset, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| RegisterID* emitCallVarargsInTailPosition(RegisterID* dst, RegisterID* func, RegisterID* thisRegister, RegisterID* arguments, RegisterID* firstFreeRegister, int32_t firstVarArgOffset, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| RegisterID* emitCallForwardArgumentsInTailPosition(RegisterID* dst, RegisterID* func, RegisterID* thisRegister, RegisterID* firstFreeRegister, int32_t firstVarArgOffset, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| |
| enum PropertyDescriptorOption { |
| PropertyConfigurable = 1, |
| PropertyWritable = 1 << 1, |
| PropertyEnumerable = 1 << 2, |
| }; |
| void emitCallDefineProperty(RegisterID* newObj, RegisterID* propertyNameRegister, |
| RegisterID* valueRegister, RegisterID* getterRegister, RegisterID* setterRegister, unsigned options, const JSTextPosition&); |
| |
| void emitEnumeration(ThrowableExpressionData* enumerationNode, ExpressionNode* subjectNode, const ScopedLambda<void(BytecodeGenerator&, RegisterID*)>& callBack, ForOfNode* = nullptr, RegisterID* forLoopSymbolTable = nullptr); |
| |
| RegisterID* emitGetTemplateObject(RegisterID* dst, TaggedTemplateNode*); |
| RegisterID* emitGetGlobalPrivate(RegisterID* dst, const Identifier& property); |
| |
| enum class ReturnFrom { Normal, Finally }; |
| RegisterID* emitReturn(RegisterID* src, ReturnFrom = ReturnFrom::Normal); |
| RegisterID* emitEnd(RegisterID* src); |
| |
| RegisterID* emitConstruct(RegisterID* dst, RegisterID* func, RegisterID* lazyThis, ExpectedFunction, CallArguments&, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd); |
| RegisterID* emitStrcat(RegisterID* dst, RegisterID* src, int count); |
| void emitToPrimitive(RegisterID* dst, RegisterID* src); |
| |
| ResolveType resolveType(); |
| RegisterID* emitResolveConstantLocal(RegisterID* dst, const Variable&); |
| RegisterID* emitResolveScope(RegisterID* dst, const Variable&); |
| RegisterID* emitGetFromScope(RegisterID* dst, RegisterID* scope, const Variable&, ResolveMode); |
| RegisterID* emitPutToScope(RegisterID* scope, const Variable&, RegisterID* value, ResolveMode, InitializationMode); |
| |
| RegisterID* emitResolveScopeForHoistingFuncDeclInEval(RegisterID* dst, const Identifier&); |
| |
| RegisterID* initializeVariable(const Variable&, RegisterID* value); |
| |
| void emitLoopHint(); |
| void emitJump(Label& target); |
| void emitJumpIfTrue(RegisterID* cond, Label& target); |
| void emitJumpIfFalse(RegisterID* cond, Label& target); |
| void emitJumpIfNotFunctionCall(RegisterID* cond, Label& target); |
| void emitJumpIfNotFunctionApply(RegisterID* cond, Label& target); |
| |
| template<typename BinOp, typename JmpOp> |
| bool fuseCompareAndJump(RegisterID* cond, Label& target, bool swapOperands = false); |
| |
| template<typename UnaryOp, typename JmpOp> |
| bool fuseTestAndJmp(RegisterID* cond, Label& target); |
| |
| void emitEnter(); |
| void emitCheckTraps(); |
| |
| RegisterID* emitHasIndexedProperty(RegisterID* dst, RegisterID* base, RegisterID* propertyName); |
| RegisterID* emitHasStructureProperty(RegisterID* dst, RegisterID* base, RegisterID* propertyName, RegisterID* enumerator); |
| RegisterID* emitHasGenericProperty(RegisterID* dst, RegisterID* base, RegisterID* propertyName); |
| RegisterID* emitGetPropertyEnumerator(RegisterID* dst, RegisterID* base); |
| RegisterID* emitGetEnumerableLength(RegisterID* dst, RegisterID* base); |
| RegisterID* emitGetStructurePropertyEnumerator(RegisterID* dst, RegisterID* base, RegisterID* length); |
| RegisterID* emitGetGenericPropertyEnumerator(RegisterID* dst, RegisterID* base, RegisterID* length, RegisterID* structureEnumerator); |
| RegisterID* emitEnumeratorStructurePropertyName(RegisterID* dst, RegisterID* enumerator, RegisterID* index); |
| RegisterID* emitEnumeratorGenericPropertyName(RegisterID* dst, RegisterID* enumerator, RegisterID* index); |
| RegisterID* emitToIndexString(RegisterID* dst, RegisterID* index); |
| |
| RegisterID* emitIsCellWithType(RegisterID* dst, RegisterID* src, JSType); |
| RegisterID* emitIsGenerator(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, JSGeneratorType); } |
| RegisterID* emitIsAsyncGenerator(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, JSAsyncGeneratorType); } |
| RegisterID* emitIsJSArray(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, ArrayType); } |
| RegisterID* emitIsPromise(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, JSPromiseType); } |
| RegisterID* emitIsProxyObject(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, ProxyObjectType); } |
| RegisterID* emitIsRegExpObject(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, RegExpObjectType); } |
| RegisterID* emitIsMap(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, JSMapType); } |
| RegisterID* emitIsSet(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, JSSetType); } |
| RegisterID* emitIsObject(RegisterID* dst, RegisterID* src); |
| RegisterID* emitIsNumber(RegisterID* dst, RegisterID* src); |
| RegisterID* emitIsUndefined(RegisterID* dst, RegisterID* src); |
| RegisterID* emitIsUndefinedOrNull(RegisterID* dst, RegisterID* src); |
| RegisterID* emitIsEmpty(RegisterID* dst, RegisterID* src); |
| RegisterID* emitIsDerivedArray(RegisterID* dst, RegisterID* src) { return emitIsCellWithType(dst, src, DerivedArrayType); } |
| void emitRequireObjectCoercible(RegisterID* value, const String& error); |
| |
| RegisterID* emitIteratorNext(RegisterID* dst, RegisterID* nextMethod, RegisterID* iterator, const ThrowableExpressionData* node, JSC::EmitAwait = JSC::EmitAwait::No); |
| RegisterID* emitIteratorNextWithValue(RegisterID* dst, RegisterID* nextMethod, RegisterID* iterator, RegisterID* value, const ThrowableExpressionData* node); |
| void emitIteratorClose(RegisterID* iterator, const ThrowableExpressionData* node, EmitAwait = EmitAwait::No); |
| |
| RegisterID* emitRestParameter(RegisterID* result, unsigned numParametersToSkip); |
| |
| bool emitReadOnlyExceptionIfNeeded(const Variable&); |
| |
| // Start a try block. 'start' must have been emitted. |
| TryData* pushTry(Label& start, Label& handlerLabel, HandlerType); |
| // End a try block. 'end' must have been emitted. |
| void popTry(TryData*, Label& end); |
| |
| void emitOutOfLineCatchHandler(RegisterID* thrownValueRegister, RegisterID* completionTypeRegister, TryData*); |
| void emitOutOfLineFinallyHandler(RegisterID* exceptionRegister, RegisterID* completionTypeRegister, TryData*); |
| |
| private: |
| static constexpr int CurrentLexicalScopeIndex = -2; |
| static constexpr int OutermostLexicalScopeIndex = -1; |
| |
| int currentLexicalScopeIndex() const |
| { |
| int size = static_cast<int>(m_lexicalScopeStack.size()); |
| ASSERT(static_cast<size_t>(size) == m_lexicalScopeStack.size()); |
| ASSERT(size >= 0); |
| if (!size) |
| return OutermostLexicalScopeIndex; |
| return size - 1; |
| } |
| |
| void emitOutOfLineExceptionHandler(RegisterID* exceptionRegister, RegisterID* thrownValueRegister, RegisterID* completionTypeRegister, TryData*); |
| |
| public: |
| void restoreScopeRegister(); |
| void restoreScopeRegister(int lexicalScopeIndex); |
| |
| int labelScopeDepthToLexicalScopeIndex(int labelScopeDepth); |
| |
| void emitThrow(RegisterID*); |
| RegisterID* emitArgumentCount(RegisterID*); |
| |
| void emitThrowStaticError(ErrorType, RegisterID*); |
| void emitThrowStaticError(ErrorType, const Identifier& message); |
| void emitThrowReferenceError(const String& message); |
| void emitThrowTypeError(const String& message); |
| void emitThrowTypeError(const Identifier& message); |
| void emitThrowRangeError(const Identifier& message); |
| void emitThrowOutOfMemoryError(); |
| |
| void emitPushCatchScope(VariableEnvironment&); |
| void emitPopCatchScope(VariableEnvironment&); |
| |
| RegisterID* emitGetIterator(RegisterID*, ThrowableExpressionData*); |
| RegisterID* emitGetAsyncIterator(RegisterID*, ThrowableExpressionData*); |
| |
| void emitAwait(RegisterID*); |
| void emitGetScope(); |
| RegisterID* emitPushWithScope(RegisterID* objectScope); |
| void emitPopWithScope(); |
| void emitPutThisToArrowFunctionContextScope(); |
| void emitPutNewTargetToArrowFunctionContextScope(); |
| void emitPutDerivedConstructorToArrowFunctionContextScope(); |
| RegisterID* emitLoadDerivedConstructorFromArrowFunctionLexicalEnvironment(); |
| |
| void emitDebugHook(DebugHookType, const JSTextPosition&); |
| void emitDebugHook(DebugHookType, unsigned line, unsigned charOffset, unsigned lineStart); |
| void emitDebugHook(StatementNode*); |
| void emitDebugHook(ExpressionNode*); |
| void emitWillLeaveCallFrameDebugHook(); |
| |
| void emitLoad(RegisterID* completionTypeRegister, CompletionType type) |
| { |
| emitLoad(completionTypeRegister, JSValue(static_cast<int>(type))); |
| } |
| |
| template<typename CompareOp> |
| void emitJumpIf(RegisterID* completionTypeRegister, CompletionType, Label& jumpTarget); |
| |
| bool emitJumpViaFinallyIfNeeded(int targetLabelScopeDepth, Label& jumpTarget); |
| bool emitReturnViaFinallyIfNeeded(RegisterID* returnRegister); |
| void emitFinallyCompletion(FinallyContext&, Label& normalCompletionLabel); |
| |
| public: |
| void pushFinallyControlFlowScope(FinallyContext&); |
| void popFinallyControlFlowScope(); |
| |
| void pushOptionalChainTarget(); |
| void popOptionalChainTarget(); |
| void popOptionalChainTarget(RegisterID* dst, bool isDelete); |
| void emitOptionalCheck(RegisterID* src); |
| |
| void pushIndexedForInScope(RegisterID* local, RegisterID* index); |
| void popIndexedForInScope(RegisterID* local); |
| void pushStructureForInScope(RegisterID* local, RegisterID* index, RegisterID* property, RegisterID* enumerator); |
| void popStructureForInScope(RegisterID* local); |
| |
| LabelScope* breakTarget(const Identifier&); |
| LabelScope* continueTarget(const Identifier&); |
| |
| void beginSwitch(RegisterID*, SwitchInfo::SwitchType); |
| void endSwitch(uint32_t clauseCount, const Vector<Ref<Label>, 8>&, ExpressionNode**, Label& defaultLabel, int32_t min, int32_t range); |
| |
| void emitYieldPoint(RegisterID*, JSAsyncGenerator::AsyncGeneratorSuspendReason); |
| |
| void emitGeneratorStateLabel(); |
| void emitGeneratorStateChange(int32_t state); |
| RegisterID* emitYield(RegisterID* argument, JSAsyncGenerator::AsyncGeneratorSuspendReason = JSAsyncGenerator::AsyncGeneratorSuspendReason::Yield); |
| RegisterID* emitDelegateYield(RegisterID* argument, ThrowableExpressionData*); |
| RegisterID* generatorStateRegister() { return &m_parameters[static_cast<int32_t>(JSGenerator::GeneratorArgument::State)]; } |
| RegisterID* generatorValueRegister() { return &m_parameters[static_cast<int32_t>(JSGenerator::GeneratorArgument::Value)]; } |
| RegisterID* generatorResumeModeRegister() { return &m_parameters[static_cast<int32_t>(JSGenerator::GeneratorArgument::ResumeMode)]; } |
| RegisterID* generatorFrameRegister() { return &m_parameters[static_cast<int32_t>(JSGenerator::GeneratorArgument::Frame)]; } |
| |
| CodeType codeType() const { return m_codeType; } |
| |
| bool shouldBeConcernedWithCompletionValue() const { return m_codeType != FunctionCode; } |
| |
| bool shouldEmitDebugHooks() const { return m_codeGenerationMode.contains(CodeGenerationMode::Debugger) && !m_isBuiltinFunction; } |
| bool shouldEmitTypeProfilerHooks() const { return m_codeGenerationMode.contains(CodeGenerationMode::TypeProfiler); } |
| bool shouldEmitControlFlowProfilerHooks() const { return m_codeGenerationMode.contains(CodeGenerationMode::ControlFlowProfiler); } |
| |
| bool isStrictMode() const { return m_codeBlock->isStrictMode(); } |
| |
| SourceParseMode parseMode() const { return m_codeBlock->parseMode(); } |
| |
| bool isBuiltinFunction() const { return m_isBuiltinFunction; } |
| |
| OpcodeID lastOpcodeID() const { return m_lastOpcodeID; } |
| |
| bool isDerivedConstructorContext() { return m_derivedContextType == DerivedContextType::DerivedConstructorContext; } |
| bool isDerivedClassContext() { return m_derivedContextType == DerivedContextType::DerivedMethodContext; } |
| bool isArrowFunction() { return m_codeBlock->isArrowFunction(); } |
| |
| enum class TDZCheckOptimization { Optimize, DoNotOptimize }; |
| enum class NestedScopeType { IsNested, IsNotNested }; |
| private: |
| enum class TDZRequirement { UnderTDZ, NotUnderTDZ }; |
| enum class ScopeType { CatchScope, LetConstScope, FunctionNameScope }; |
| enum class ScopeRegisterType { Var, Block }; |
| void pushLexicalScopeInternal(VariableEnvironment&, TDZCheckOptimization, NestedScopeType, RegisterID** constantSymbolTableResult, TDZRequirement, ScopeType, ScopeRegisterType); |
| void initializeBlockScopedFunctions(VariableEnvironment&, FunctionStack&, RegisterID* constantSymbolTable); |
| void popLexicalScopeInternal(VariableEnvironment&); |
| template<typename LookUpVarKindFunctor> |
| bool instantiateLexicalVariables(const VariableEnvironment&, SymbolTable*, ScopeRegisterType, LookUpVarKindFunctor); |
| void emitPrefillStackTDZVariables(const VariableEnvironment&, SymbolTable*); |
| RegisterID* emitGetParentScope(RegisterID* dst, RegisterID* scope); |
| void emitPushFunctionNameScope(const Identifier& property, RegisterID* value, bool isCaptured); |
| void emitNewFunctionExpressionCommon(RegisterID*, FunctionMetadataNode*); |
| |
| bool isNewTargetUsedInInnerArrowFunction(); |
| bool isArgumentsUsedInInnerArrowFunction(); |
| |
| void emitToThis(); |
| |
| RegisterID* emitMove(RegisterID* dst, RegisterID* src); |
| |
| bool canDoPeepholeOptimization() const { return m_lastOpcodeID != op_end; } |
| |
| public: |
| bool isSuperUsedInInnerArrowFunction(); |
| bool isSuperCallUsedInInnerArrowFunction(); |
| bool isThisUsedInInnerArrowFunction(); |
| void pushLexicalScope(VariableEnvironmentNode*, TDZCheckOptimization, NestedScopeType = NestedScopeType::IsNotNested, RegisterID** constantSymbolTableResult = nullptr, bool shouldInitializeBlockScopedFunctions = true); |
| void popLexicalScope(VariableEnvironmentNode*); |
| void prepareLexicalScopeForNextForLoopIteration(VariableEnvironmentNode*, RegisterID* loopSymbolTable); |
| int labelScopeDepth() const; |
| UnlinkedArrayProfile newArrayProfile(); |
| |
| private: |
| ParserError generate(); |
| Variable variableForLocalEntry(const Identifier&, const SymbolTableEntry&, int symbolTableConstantIndex, bool isLexicallyScoped); |
| |
| RegisterID* kill(RegisterID* dst) |
| { |
| m_staticPropertyAnalyzer.kill(dst); |
| return dst; |
| } |
| |
| void retrieveLastUnaryOp(int& dstIndex, int& srcIndex); |
| ALWAYS_INLINE void rewind(); |
| |
| void allocateAndEmitScope(); |
| |
| template<typename JumpOp> |
| void setTargetForJumpInstruction(InstructionStream::MutableRef&, int target); |
| |
| using BigIntMapEntry = std::tuple<UniquedStringImpl*, uint8_t, bool>; |
| |
| using NumberMap = HashMap<double, JSValue>; |
| using IdentifierStringMap = HashMap<UniquedStringImpl*, JSString*, IdentifierRepHash>; |
| using IdentifierBigIntMap = HashMap<BigIntMapEntry, JSBigInt*>; |
| using TemplateObjectDescriptorSet = HashSet<Ref<TemplateObjectDescriptor>>; |
| using TemplateDescriptorMap = HashMap<uint64_t, JSTemplateObjectDescriptor*, WTF::IntHash<uint64_t>, WTF::UnsignedWithZeroKeyHashTraits<uint64_t>>; |
| |
| // Helper for emitCall() and emitConstruct(). This works because the set of |
| // expected functions have identical behavior for both call and construct |
| // (i.e. "Object()" is identical to "new Object()"). |
| ExpectedFunction emitExpectedFunctionSnippet(RegisterID* dst, RegisterID* func, ExpectedFunction, CallArguments&, Label& done); |
| |
| template<typename CallOp> |
| RegisterID* emitCall(RegisterID* dst, RegisterID* func, ExpectedFunction, CallArguments&, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| |
| RegisterID* emitCallIterator(RegisterID* iterator, RegisterID* argument, ThrowableExpressionData*); |
| |
| // Initializes the stack form the parameter; does nothing for the symbol table. |
| RegisterID* initializeNextParameter(); |
| UniquedStringImpl* visibleNameForParameter(DestructuringPatternNode*); |
| |
| RegisterID& registerFor(VirtualRegister reg) |
| { |
| if (reg.isLocal()) |
| return m_calleeLocals[reg.toLocal()]; |
| |
| if (reg.offset() == CallFrameSlot::callee) |
| return m_calleeRegister; |
| |
| ASSERT(m_parameters.size()); |
| return m_parameters[reg.toArgument()]; |
| } |
| |
| bool hasConstant(const Identifier&) const; |
| unsigned addConstant(const Identifier&); |
| RegisterID* addConstantValue(JSValue, SourceCodeRepresentation = SourceCodeRepresentation::Other); |
| RegisterID* addConstantEmptyValue(); |
| |
| UnlinkedFunctionExecutable* makeFunction(FunctionMetadataNode* metadata) |
| { |
| DerivedContextType newDerivedContextType = DerivedContextType::None; |
| |
| if (SourceParseModeSet(SourceParseMode::ArrowFunctionMode, SourceParseMode::AsyncArrowFunctionMode, SourceParseMode::AsyncArrowFunctionBodyMode).contains(metadata->parseMode())) { |
| if (constructorKind() == ConstructorKind::Extends || isDerivedConstructorContext()) |
| newDerivedContextType = DerivedContextType::DerivedConstructorContext; |
| else if (m_codeBlock->isClassContext() || isDerivedClassContext()) |
| newDerivedContextType = DerivedContextType::DerivedMethodContext; |
| } |
| |
| Optional<CompactVariableMap::Handle> optionalVariablesUnderTDZ = getVariablesUnderTDZ(); |
| |
| // FIXME: These flags, ParserModes and propagation to XXXCodeBlocks should be reorganized. |
| // https://bugs.webkit.org/show_bug.cgi?id=151547 |
| SourceParseMode parseMode = metadata->parseMode(); |
| ConstructAbility constructAbility = constructAbilityForParseMode(parseMode); |
| if (parseMode == SourceParseMode::MethodMode && metadata->constructorKind() != ConstructorKind::None) |
| constructAbility = ConstructAbility::CanConstruct; |
| |
| return UnlinkedFunctionExecutable::create(m_vm, m_scopeNode->source(), metadata, isBuiltinFunction() ? UnlinkedBuiltinFunction : UnlinkedNormalFunction, constructAbility, scriptMode(), WTFMove(optionalVariablesUnderTDZ), newDerivedContextType); |
| } |
| |
| Optional<CompactVariableMap::Handle> getVariablesUnderTDZ(); |
| |
| RegisterID* emitConstructVarargs(RegisterID* dst, RegisterID* func, RegisterID* thisRegister, RegisterID* arguments, RegisterID* firstFreeRegister, int32_t firstVarArgOffset, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| template<typename CallOp> |
| RegisterID* emitCallVarargs(RegisterID* dst, RegisterID* func, RegisterID* thisRegister, RegisterID* arguments, RegisterID* firstFreeRegister, int32_t firstVarArgOffset, const JSTextPosition& divot, const JSTextPosition& divotStart, const JSTextPosition& divotEnd, DebuggableCall); |
| |
| void emitLogShadowChickenPrologueIfNecessary(); |
| void emitLogShadowChickenTailIfNecessary(); |
| |
| void initializeParameters(FunctionParameters&); |
| void initializeVarLexicalEnvironment(int symbolTableConstantIndex, SymbolTable* functionSymbolTable, bool hasCapturedVariables); |
| void initializeDefaultParameterValuesAndSetupFunctionScopeStack(FunctionParameters&, bool isSimpleParameterList, FunctionNode*, SymbolTable*, int symbolTableConstantIndex, const ScopedLambda<bool (UniquedStringImpl*)>& captures, bool shouldCreateArgumentsVariableInParameterScope); |
| void initializeArrowFunctionContextScopeIfNeeded(SymbolTable* functionSymbolTable = nullptr, bool canReuseLexicalEnvironment = false); |
| bool needsDerivedConstructorInArrowFunctionLexicalEnvironment(); |
| |
| enum class TDZNecessityLevel { |
| NotNeeded, |
| Optimize, |
| DoNotOptimize |
| }; |
| typedef HashMap<RefPtr<UniquedStringImpl>, TDZNecessityLevel, IdentifierRepHash> TDZMap; |
| |
| public: |
| JSString* addStringConstant(const Identifier&); |
| JSValue addBigIntConstant(const Identifier&, uint8_t radix, bool sign); |
| RegisterID* addTemplateObjectConstant(Ref<TemplateObjectDescriptor>&&, int); |
| |
| const InstructionStream& instructions() const { return m_writer; } |
| |
| RegisterID* emitThrowExpressionTooDeepException(); |
| |
| class PreservedTDZStack { |
| private: |
| Vector<TDZMap> m_preservedTDZStack; |
| friend class BytecodeGenerator; |
| }; |
| |
| void preserveTDZStack(PreservedTDZStack&); |
| void restoreTDZStack(const PreservedTDZStack&); |
| |
| template<typename Func> |
| void withWriter(InstructionStreamWriter& writer, const Func& fn) |
| { |
| auto prevLastOpcodeID = m_lastOpcodeID; |
| auto prevLastInstruction = m_lastInstruction; |
| m_writer.swap(writer); |
| m_lastOpcodeID = op_end; |
| m_lastInstruction = m_writer.ref(); |
| fn(); |
| m_writer.swap(writer); |
| m_lastOpcodeID = prevLastOpcodeID; |
| m_lastInstruction = prevLastInstruction; |
| } |
| |
| private: |
| OptionSet<CodeGenerationMode> m_codeGenerationMode; |
| |
| struct LexicalScopeStackEntry { |
| SymbolTable* m_symbolTable; |
| RegisterID* m_scope; |
| bool m_isWithScope; |
| int m_symbolTableConstantIndex; |
| }; |
| Vector<LexicalScopeStackEntry> m_lexicalScopeStack; |
| |
| Vector<TDZMap> m_TDZStack; |
| Optional<size_t> m_varScopeLexicalScopeStackIndex; |
| void pushTDZVariables(const VariableEnvironment&, TDZCheckOptimization, TDZRequirement); |
| |
| ScopeNode* const m_scopeNode; |
| |
| // Some of these objects keep pointers to one another. They are arranged |
| // to ensure a sane destruction order that avoids references to freed memory. |
| HashSet<RefPtr<UniquedStringImpl>, IdentifierRepHash> m_functions; |
| RegisterID m_ignoredResultRegister; |
| RegisterID m_thisRegister; |
| RegisterID m_calleeRegister; |
| RegisterID* m_scopeRegister { nullptr }; |
| RegisterID* m_topMostScope { nullptr }; |
| RegisterID* m_argumentsRegister { nullptr }; |
| RegisterID* m_lexicalEnvironmentRegister { nullptr }; |
| RegisterID* m_generatorRegister { nullptr }; |
| RegisterID* m_emptyValueRegister { nullptr }; |
| RegisterID* m_newTargetRegister { nullptr }; |
| RegisterID* m_isDerivedConstuctor { nullptr }; |
| HashMap<LinkTimeConstant, RegisterID*, WTF::IntHash<LinkTimeConstant>, WTF::StrongEnumHashTraits<LinkTimeConstant>> m_linkTimeConstantRegisters; |
| RegisterID* m_arrowFunctionContextLexicalEnvironmentRegister { nullptr }; |
| RegisterID* m_promiseRegister { nullptr }; |
| |
| FinallyContext* m_currentFinallyContext { nullptr }; |
| |
| SegmentedVector<RegisterID, 32> m_parameters; |
| SegmentedVector<LabelScope, 32> m_labelScopes; |
| unsigned m_finallyDepth { 0 }; |
| unsigned m_localScopeDepth { 0 }; |
| const CodeType m_codeType; |
| |
| unsigned localScopeDepth() const; |
| void pushLocalControlFlowScope(); |
| void popLocalControlFlowScope(); |
| |
| // FIXME: Restore overflow checking with UnsafeVectorOverflow once SegmentVector supports it. |
| // https://bugs.webkit.org/show_bug.cgi?id=165980 |
| SegmentedVector<ControlFlowScope, 16> m_controlFlowScopeStack; |
| Vector<SwitchInfo> m_switchContextStack; |
| Vector<Ref<ForInContext>> m_forInContextStack; |
| Vector<TryContext> m_tryContextStack; |
| unsigned m_yieldPoints { 0 }; |
| |
| Strong<SymbolTable> m_generatorFrameSymbolTable; |
| int m_generatorFrameSymbolTableIndex { 0 }; |
| |
| enum FunctionVariableType : uint8_t { NormalFunctionVariable, TopLevelFunctionVariable }; |
| Vector<std::pair<FunctionMetadataNode*, FunctionVariableType>> m_functionsToInitialize; |
| bool m_needToInitializeArguments { false }; |
| RestParameterNode* m_restParameter { nullptr }; |
| |
| Vector<TryRange> m_tryRanges; |
| SegmentedVector<TryData, 8> m_tryData; |
| |
| Vector<Ref<Label>> m_optionalChainTargetStack; |
| |
| int m_nextConstantOffset { 0 }; |
| |
| typedef HashMap<FunctionMetadataNode*, unsigned> FunctionOffsetMap; |
| FunctionOffsetMap m_functionOffsets; |
| |
| // Constant pool |
| IdentifierMap m_identifierMap; |
| |
| typedef HashMap<EncodedJSValueWithRepresentation, unsigned, EncodedJSValueWithRepresentationHash, EncodedJSValueWithRepresentationHashTraits> JSValueMap; |
| JSValueMap m_jsValueMap; |
| IdentifierStringMap m_stringMap; |
| IdentifierBigIntMap m_bigIntMap; |
| TemplateObjectDescriptorSet m_templateObjectDescriptorSet; |
| TemplateDescriptorMap m_templateDescriptorMap; |
| |
| StaticPropertyAnalyzer m_staticPropertyAnalyzer; |
| |
| VM& m_vm; |
| |
| bool m_usesExceptions { false }; |
| bool m_expressionTooDeep { false }; |
| bool m_isBuiltinFunction { false }; |
| bool m_usesNonStrictEval { false }; |
| bool m_inTailPosition { false }; |
| bool m_needsToUpdateArrowFunctionContext; |
| bool m_hasCachedVariablesUnderTDZ { false }; |
| DerivedContextType m_derivedContextType { DerivedContextType::None }; |
| |
| CompactVariableMap::Handle m_cachedVariablesUnderTDZ; |
| |
| struct CatchEntry { |
| TryData* tryData; |
| VirtualRegister exceptionRegister; |
| VirtualRegister thrownValueRegister; |
| VirtualRegister completionTypeRegister; |
| }; |
| Vector<CatchEntry> m_exceptionHandlersToEmit; |
| }; |
| |
| } // namespace JSC |
| |
| namespace WTF { |
| |
| void printInternal(PrintStream&, JSC::Variable::VariableKind); |
| |
| } // namespace WTF |