#include "config.h"
#include "Nodes.h"
#include "BytecodeGenerator.h"
#include "CallFrame.h"
#include "JSGlobalObject.h"
#include "JSStaticScopeObject.h"
#include "LabelScope.h"
#include "Parser.h"
#include "PropertyNameArray.h"
#include "RegExpObject.h"
#include "SamplingTool.h"
#include "Debugger.h"
#include "Lexer.h"
#include "Operations.h"
#include <math.h>
#include <wtf/Assertions.h>
#include <wtf/HashCountedSet.h>
#include <wtf/HashSet.h>
#include <wtf/MathExtras.h>
#include <wtf/RefCountedLeakCounter.h>
#include <wtf/Threading.h>
using namespace WTF;
namespace JSC {
static void substitute(UString& string, const UString& substring) JSC_FAST_CALL;
class NodeReleaser : Noncopyable {
public:
static void releaseAllNodes(ParserRefCounted* root);
template <typename T> void release(RefPtr<T>& node) { if (node) adopt(node.release()); }
void release(RefPtr<FunctionBodyNode>& node) { if (node) adoptFunctionBodyNode(node); }
private:
NodeReleaser() { }
~NodeReleaser() { }
void adopt(PassRefPtr<ParserRefCounted>);
void adoptFunctionBodyNode(RefPtr<FunctionBodyNode>&);
typedef Vector<RefPtr<ParserRefCounted> > NodeReleaseVector;
OwnPtr<NodeReleaseVector> m_vector;
};
void NodeReleaser::releaseAllNodes(ParserRefCounted* root)
{
ASSERT(root);
NodeReleaser releaser;
root->releaseNodes(releaser);
if (!releaser.m_vector)
return;
for (size_t i = 0; i < releaser.m_vector->size(); ++i) {
ParserRefCounted* node = (*releaser.m_vector)[i].get();
if (node->hasOneRef())
node->releaseNodes(releaser);
}
}
void NodeReleaser::adopt(PassRefPtr<ParserRefCounted> node)
{
ASSERT(node);
if (!node->hasOneRef())
return;
if (!m_vector)
m_vector.set(new NodeReleaseVector);
m_vector->append(node);
}
void NodeReleaser::adoptFunctionBodyNode(RefPtr<FunctionBodyNode>& functionBodyNode)
{
RefPtr<Node> node = functionBodyNode;
functionBodyNode = 0;
adopt(node.release());
}
#ifndef NDEBUG
static RefCountedLeakCounter parserRefCountedCounter("JSC::Node");
#endif
ParserRefCounted::ParserRefCounted(JSGlobalData* globalData)
: m_globalData(globalData)
{
#ifndef NDEBUG
parserRefCountedCounter.increment();
#endif
if (!m_globalData->newParserObjects)
m_globalData->newParserObjects = new HashSet<ParserRefCounted*>;
m_globalData->newParserObjects->add(this);
ASSERT(m_globalData->newParserObjects->contains(this));
}
ParserRefCounted::~ParserRefCounted()
{
#ifndef NDEBUG
parserRefCountedCounter.decrement();
#endif
}
void ParserRefCounted::releaseNodes(NodeReleaser&)
{
}
void ParserRefCounted::ref()
{
if (m_globalData->newParserObjects) {
HashSet<ParserRefCounted*>::iterator it = m_globalData->newParserObjects->find(this);
if (it != m_globalData->newParserObjects->end()) {
m_globalData->newParserObjects->remove(it);
ASSERT(!m_globalData->parserObjectExtraRefCounts || !m_globalData->parserObjectExtraRefCounts->contains(this));
return;
}
}
ASSERT(!m_globalData->newParserObjects || !m_globalData->newParserObjects->contains(this));
if (!m_globalData->parserObjectExtraRefCounts)
m_globalData->parserObjectExtraRefCounts = new HashCountedSet<ParserRefCounted*>;
m_globalData->parserObjectExtraRefCounts->add(this);
}
void ParserRefCounted::deref()
{
ASSERT(!m_globalData->newParserObjects || !m_globalData->newParserObjects->contains(this));
if (!m_globalData->parserObjectExtraRefCounts) {
delete this;
return;
}
HashCountedSet<ParserRefCounted*>::iterator it = m_globalData->parserObjectExtraRefCounts->find(this);
if (it == m_globalData->parserObjectExtraRefCounts->end())
delete this;
else
m_globalData->parserObjectExtraRefCounts->remove(it);
}
bool ParserRefCounted::hasOneRef()
{
if (m_globalData->newParserObjects && m_globalData->newParserObjects->contains(this)) {
ASSERT(!m_globalData->parserObjectExtraRefCounts || !m_globalData->parserObjectExtraRefCounts->contains(this));
return false;
}
ASSERT(!m_globalData->newParserObjects || !m_globalData->newParserObjects->contains(this));
if (!m_globalData->parserObjectExtraRefCounts)
return true;
return !m_globalData->parserObjectExtraRefCounts->contains(this);
}
void ParserRefCounted::deleteNewObjects(JSGlobalData* globalData)
{
if (!globalData->newParserObjects)
return;
#ifndef NDEBUG
HashSet<ParserRefCounted*>::iterator end = globalData->newParserObjects->end();
for (HashSet<ParserRefCounted*>::iterator it = globalData->newParserObjects->begin(); it != end; ++it)
ASSERT(!globalData->parserObjectExtraRefCounts || !globalData->parserObjectExtraRefCounts->contains(*it));
#endif
deleteAllValues(*globalData->newParserObjects);
delete globalData->newParserObjects;
globalData->newParserObjects = 0;
}
Node::Node(JSGlobalData* globalData)
: ParserRefCounted(globalData)
{
m_line = globalData->lexer->lineNo();
}
static void substitute(UString& string, const UString& substring)
{
int position = string.find("%s");
ASSERT(position != -1);
UString newString = string.substr(0, position);
newString.append(substring);
newString.append(string.substr(position + 2));
string = newString;
}
RegisterID* ThrowableExpressionData::emitThrowError(BytecodeGenerator& generator, ErrorType e, const char* msg)
{
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
RegisterID* exception = generator.emitNewError(generator.newTemporary(), e, jsString(generator.globalData(), msg));
generator.emitThrow(exception);
return exception;
}
RegisterID* ThrowableExpressionData::emitThrowError(BytecodeGenerator& generator, ErrorType e, const char* msg, const Identifier& label)
{
UString message = msg;
substitute(message, label.ustring());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
RegisterID* exception = generator.emitNewError(generator.newTemporary(), e, jsString(generator.globalData(), message));
generator.emitThrow(exception);
return exception;
}
StatementNode::StatementNode(JSGlobalData* globalData)
: Node(globalData)
, m_lastLine(-1)
{
}
void StatementNode::setLoc(int firstLine, int lastLine)
{
m_line = firstLine;
m_lastLine = lastLine;
}
void SourceElements::append(PassRefPtr<StatementNode> statement)
{
if (statement->isEmptyStatement())
return;
m_statements.append(statement);
}
RegisterID* NullNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
return 0;
return generator.emitLoad(dst, jsNull());
}
RegisterID* BooleanNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
return 0;
return generator.emitLoad(dst, m_value);
}
RegisterID* NumberNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
return 0;
return generator.emitLoad(dst, m_double);
}
RegisterID* StringNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
return 0;
return generator.emitLoad(dst, m_value);
}
RegisterID* RegExpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegExp> regExp = RegExp::create(generator.globalData(), m_pattern, m_flags);
if (!regExp->isValid())
return emitThrowError(generator, SyntaxError, ("Invalid regular expression: " + UString(regExp->errorMessage())).UTF8String().c_str());
if (dst == generator.ignoredResult())
return 0;
return generator.emitNewRegExp(generator.finalDestination(dst), regExp.get());
}
RegisterID* ThisNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
return 0;
return generator.moveToDestinationIfNeeded(dst, generator.thisRegister());
}
bool ResolveNode::isPure(BytecodeGenerator& generator) const
{
return generator.isLocal(m_ident);
}
RegisterID* ResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RegisterID* local = generator.registerFor(m_ident)) {
if (dst == generator.ignoredResult())
return 0;
return generator.moveToDestinationIfNeeded(dst, local);
}
generator.emitExpressionInfo(m_startOffset + m_ident.size(), m_ident.size(), 0);
return generator.emitResolve(generator.finalDestination(dst), m_ident);
}
ElementNode::~ElementNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ElementNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_next);
releaser.release(m_node);
}
ArrayNode::~ArrayNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ArrayNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_element);
}
RegisterID* ArrayNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
unsigned length = 0;
ElementNode* firstPutElement;
for (firstPutElement = m_element.get(); firstPutElement; firstPutElement = firstPutElement->next()) {
if (firstPutElement->elision())
break;
++length;
}
if (!firstPutElement && !m_elision)
return generator.emitNewArray(generator.finalDestination(dst), m_element.get());
RefPtr<RegisterID> array = generator.emitNewArray(generator.tempDestination(dst), m_element.get());
for (ElementNode* n = firstPutElement; n; n = n->next()) {
RegisterID* value = generator.emitNode(n->value());
length += n->elision();
generator.emitPutByIndex(array.get(), length++, value);
}
if (m_elision) {
RegisterID* value = generator.emitLoad(0, jsNumber(generator.globalData(), m_elision + length));
generator.emitPutById(array.get(), generator.propertyNames().length, value);
}
return generator.moveToDestinationIfNeeded(dst, array.get());
}
PropertyNode::~PropertyNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PropertyNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_assign);
}
ObjectLiteralNode::~ObjectLiteralNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ObjectLiteralNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_list);
}
RegisterID* ObjectLiteralNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (!m_list) {
if (dst == generator.ignoredResult())
return 0;
return generator.emitNewObject(generator.finalDestination(dst));
}
return generator.emitNode(dst, m_list.get());
}
PropertyListNode::~PropertyListNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PropertyListNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_node);
releaser.release(m_next);
}
RegisterID* PropertyListNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> newObj = generator.tempDestination(dst);
generator.emitNewObject(newObj.get());
for (PropertyListNode* p = this; p; p = p->m_next.get()) {
RegisterID* value = generator.emitNode(p->m_node->m_assign.get());
switch (p->m_node->m_type) {
case PropertyNode::Constant: {
generator.emitPutById(newObj.get(), p->m_node->name(), value);
break;
}
case PropertyNode::Getter: {
generator.emitPutGetter(newObj.get(), p->m_node->name(), value);
break;
}
case PropertyNode::Setter: {
generator.emitPutSetter(newObj.get(), p->m_node->name(), value);
break;
}
default:
ASSERT_NOT_REACHED();
}
}
return generator.moveToDestinationIfNeeded(dst, newObj.get());
}
BracketAccessorNode::~BracketAccessorNode()
{
NodeReleaser::releaseAllNodes(this);
}
void BracketAccessorNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
}
RegisterID* BracketAccessorNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base.get(), m_subscriptHasAssignments, m_subscript->isPure(generator));
RegisterID* property = generator.emitNode(m_subscript.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitGetByVal(generator.finalDestination(dst), base.get(), property);
}
DotAccessorNode::~DotAccessorNode()
{
NodeReleaser::releaseAllNodes(this);
}
void DotAccessorNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
}
RegisterID* DotAccessorNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RegisterID* base = generator.emitNode(m_base.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitGetById(generator.finalDestination(dst), base, m_ident);
}
ArgumentListNode::~ArgumentListNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ArgumentListNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_next);
releaser.release(m_expr);
}
RegisterID* ArgumentListNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
ASSERT(m_expr);
return generator.emitNode(dst, m_expr.get());
}
ArgumentsNode::~ArgumentsNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ArgumentsNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_listNode);
}
NewExprNode::~NewExprNode()
{
NodeReleaser::releaseAllNodes(this);
}
void NewExprNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
releaser.release(m_args);
}
RegisterID* NewExprNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> func = generator.emitNode(m_expr.get());
return generator.emitConstruct(generator.finalDestination(dst), func.get(), m_args.get(), divot(), startOffset(), endOffset());
}
EvalFunctionCallNode::~EvalFunctionCallNode()
{
NodeReleaser::releaseAllNodes(this);
}
void EvalFunctionCallNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_args);
}
RegisterID* EvalFunctionCallNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> func = generator.tempDestination(dst);
RefPtr<RegisterID> thisRegister = generator.newTemporary();
generator.emitExpressionInfo(divot() - startOffset() + 4, 4, 0);
generator.emitResolveWithBase(thisRegister.get(), func.get(), generator.propertyNames().eval);
return generator.emitCallEval(generator.finalDestination(dst, func.get()), func.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
FunctionCallValueNode::~FunctionCallValueNode()
{
NodeReleaser::releaseAllNodes(this);
}
void FunctionCallValueNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
releaser.release(m_args);
}
RegisterID* FunctionCallValueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> func = generator.emitNode(m_expr.get());
RefPtr<RegisterID> thisRegister = generator.emitLoad(generator.newTemporary(), jsNull());
return generator.emitCall(generator.finalDestination(dst, func.get()), func.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
FunctionCallResolveNode::~FunctionCallResolveNode()
{
NodeReleaser::releaseAllNodes(this);
}
void FunctionCallResolveNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_args);
}
RegisterID* FunctionCallResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RefPtr<RegisterID> local = generator.registerFor(m_ident)) {
RefPtr<RegisterID> thisRegister = generator.emitLoad(generator.newTemporary(), jsNull());
return generator.emitCall(generator.finalDestination(dst, thisRegister.get()), local.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
int index = 0;
size_t depth = 0;
JSObject* globalObject = 0;
if (generator.findScopedProperty(m_ident, index, depth, false, globalObject) && index != missingSymbolMarker()) {
RefPtr<RegisterID> func = generator.emitGetScopedVar(generator.newTemporary(), depth, index, globalObject);
RefPtr<RegisterID> thisRegister = generator.emitLoad(generator.newTemporary(), jsNull());
return generator.emitCall(generator.finalDestination(dst, func.get()), func.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
RefPtr<RegisterID> func = generator.tempDestination(dst);
RefPtr<RegisterID> thisRegister = generator.newTemporary();
int identifierStart = divot() - startOffset();
generator.emitExpressionInfo(identifierStart + m_ident.size(), m_ident.size(), 0);
generator.emitResolveFunction(thisRegister.get(), func.get(), m_ident);
return generator.emitCall(generator.finalDestination(dst, func.get()), func.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
FunctionCallBracketNode::~FunctionCallBracketNode()
{
NodeReleaser::releaseAllNodes(this);
}
void FunctionCallBracketNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
releaser.release(m_args);
}
RegisterID* FunctionCallBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNode(m_base.get());
RegisterID* property = generator.emitNode(m_subscript.get());
generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset);
RefPtr<RegisterID> function = generator.emitGetByVal(generator.tempDestination(dst), base.get(), property);
RefPtr<RegisterID> thisRegister = generator.emitMove(generator.newTemporary(), base.get());
return generator.emitCall(generator.finalDestination(dst, function.get()), function.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
FunctionCallDotNode::~FunctionCallDotNode()
{
NodeReleaser::releaseAllNodes(this);
}
void FunctionCallDotNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_args);
}
RegisterID* FunctionCallDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNode(m_base.get());
generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset);
RefPtr<RegisterID> function = generator.emitGetById(generator.tempDestination(dst), base.get(), m_ident);
RefPtr<RegisterID> thisRegister = generator.emitMove(generator.newTemporary(), base.get());
return generator.emitCall(generator.finalDestination(dst, function.get()), function.get(), thisRegister.get(), m_args.get(), divot(), startOffset(), endOffset());
}
static RegisterID* emitPreIncOrDec(BytecodeGenerator& generator, RegisterID* srcDst, Operator oper)
{
return (oper == OpPlusPlus) ? generator.emitPreInc(srcDst) : generator.emitPreDec(srcDst);
}
static RegisterID* emitPostIncOrDec(BytecodeGenerator& generator, RegisterID* dst, RegisterID* srcDst, Operator oper)
{
return (oper == OpPlusPlus) ? generator.emitPostInc(dst, srcDst) : generator.emitPostDec(dst, srcDst);
}
RegisterID* PostfixResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RegisterID* local = generator.registerFor(m_ident)) {
if (generator.isLocalConstant(m_ident)) {
if (dst == generator.ignoredResult())
return 0;
return generator.emitToJSNumber(generator.finalDestination(dst), local);
}
if (dst == generator.ignoredResult())
return emitPreIncOrDec(generator, local, m_operator);
return emitPostIncOrDec(generator, generator.finalDestination(dst), local, m_operator);
}
int index = 0;
size_t depth = 0;
JSObject* globalObject = 0;
if (generator.findScopedProperty(m_ident, index, depth, true, globalObject) && index != missingSymbolMarker()) {
RefPtr<RegisterID> value = generator.emitGetScopedVar(generator.newTemporary(), depth, index, globalObject);
RegisterID* oldValue;
if (dst == generator.ignoredResult()) {
oldValue = 0;
emitPreIncOrDec(generator, value.get(), m_operator);
} else {
oldValue = emitPostIncOrDec(generator, generator.finalDestination(dst), value.get(), m_operator);
}
generator.emitPutScopedVar(depth, index, value.get(), globalObject);
return oldValue;
}
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
RefPtr<RegisterID> value = generator.newTemporary();
RefPtr<RegisterID> base = generator.emitResolveWithBase(generator.newTemporary(), value.get(), m_ident);
RegisterID* oldValue;
if (dst == generator.ignoredResult()) {
oldValue = 0;
emitPreIncOrDec(generator, value.get(), m_operator);
} else {
oldValue = emitPostIncOrDec(generator, generator.finalDestination(dst), value.get(), m_operator);
}
generator.emitPutById(base.get(), m_ident, value.get());
return oldValue;
}
PostfixBracketNode::~PostfixBracketNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PostfixBracketNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
}
RegisterID* PostfixBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNode(m_base.get());
RefPtr<RegisterID> property = generator.emitNode(m_subscript.get());
generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset);
RefPtr<RegisterID> value = generator.emitGetByVal(generator.newTemporary(), base.get(), property.get());
RegisterID* oldValue;
if (dst == generator.ignoredResult()) {
oldValue = 0;
if (m_operator == OpPlusPlus)
generator.emitPreInc(value.get());
else
generator.emitPreDec(value.get());
} else {
oldValue = (m_operator == OpPlusPlus) ? generator.emitPostInc(generator.finalDestination(dst), value.get()) : generator.emitPostDec(generator.finalDestination(dst), value.get());
}
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutByVal(base.get(), property.get(), value.get());
return oldValue;
}
PostfixDotNode::~PostfixDotNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PostfixDotNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
}
RegisterID* PostfixDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNode(m_base.get());
generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset);
RefPtr<RegisterID> value = generator.emitGetById(generator.newTemporary(), base.get(), m_ident);
RegisterID* oldValue;
if (dst == generator.ignoredResult()) {
oldValue = 0;
if (m_operator == OpPlusPlus)
generator.emitPreInc(value.get());
else
generator.emitPreDec(value.get());
} else {
oldValue = (m_operator == OpPlusPlus) ? generator.emitPostInc(generator.finalDestination(dst), value.get()) : generator.emitPostDec(generator.finalDestination(dst), value.get());
}
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutById(base.get(), m_ident, value.get());
return oldValue;
}
PostfixErrorNode::~PostfixErrorNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PostfixErrorNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* PostfixErrorNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
return emitThrowError(generator, ReferenceError, m_operator == OpPlusPlus ? "Postfix ++ operator applied to value that is not a reference." : "Postfix -- operator applied to value that is not a reference.");
}
RegisterID* DeleteResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (generator.registerFor(m_ident))
return generator.emitUnexpectedLoad(generator.finalDestination(dst), false);
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
RegisterID* base = generator.emitResolveBase(generator.tempDestination(dst), m_ident);
return generator.emitDeleteById(generator.finalDestination(dst, base), base, m_ident);
}
DeleteBracketNode::~DeleteBracketNode()
{
NodeReleaser::releaseAllNodes(this);
}
void DeleteBracketNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
}
RegisterID* DeleteBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> r0 = generator.emitNode(m_base.get());
RegisterID* r1 = generator.emitNode(m_subscript.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitDeleteByVal(generator.finalDestination(dst), r0.get(), r1);
}
DeleteDotNode::~DeleteDotNode()
{
NodeReleaser::releaseAllNodes(this);
}
void DeleteDotNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
}
RegisterID* DeleteDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RegisterID* r0 = generator.emitNode(m_base.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitDeleteById(generator.finalDestination(dst), r0, m_ident);
}
DeleteValueNode::~DeleteValueNode()
{
NodeReleaser::releaseAllNodes(this);
}
void DeleteValueNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* DeleteValueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
generator.emitNode(generator.ignoredResult(), m_expr.get());
return generator.emitUnexpectedLoad(generator.finalDestination(dst), true);
}
VoidNode::~VoidNode()
{
NodeReleaser::releaseAllNodes(this);
}
void VoidNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* VoidNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult()) {
generator.emitNode(generator.ignoredResult(), m_expr.get());
return 0;
}
RefPtr<RegisterID> r0 = generator.emitNode(m_expr.get());
return generator.emitLoad(dst, jsUndefined());
}
RegisterID* TypeOfResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RegisterID* local = generator.registerFor(m_ident)) {
if (dst == generator.ignoredResult())
return 0;
return generator.emitTypeOf(generator.finalDestination(dst), local);
}
RefPtr<RegisterID> scratch = generator.emitResolveBase(generator.tempDestination(dst), m_ident);
generator.emitGetById(scratch.get(), scratch.get(), m_ident);
if (dst == generator.ignoredResult())
return 0;
return generator.emitTypeOf(generator.finalDestination(dst, scratch.get()), scratch.get());
}
TypeOfValueNode::~TypeOfValueNode()
{
NodeReleaser::releaseAllNodes(this);
}
void TypeOfValueNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* TypeOfValueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult()) {
generator.emitNode(generator.ignoredResult(), m_expr.get());
return 0;
}
RefPtr<RegisterID> src = generator.emitNode(m_expr.get());
return generator.emitTypeOf(generator.finalDestination(dst), src.get());
}
RegisterID* PrefixResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RegisterID* local = generator.registerFor(m_ident)) {
if (generator.isLocalConstant(m_ident)) {
if (dst == generator.ignoredResult())
return 0;
RefPtr<RegisterID> r0 = generator.emitUnexpectedLoad(generator.finalDestination(dst), (m_operator == OpPlusPlus) ? 1.0 : -1.0);
return generator.emitBinaryOp(op_add, r0.get(), local, r0.get(), OperandTypes());
}
emitPreIncOrDec(generator, local, m_operator);
return generator.moveToDestinationIfNeeded(dst, local);
}
int index = 0;
size_t depth = 0;
JSObject* globalObject = 0;
if (generator.findScopedProperty(m_ident, index, depth, false, globalObject) && index != missingSymbolMarker()) {
RefPtr<RegisterID> propDst = generator.emitGetScopedVar(generator.tempDestination(dst), depth, index, globalObject);
emitPreIncOrDec(generator, propDst.get(), m_operator);
generator.emitPutScopedVar(depth, index, propDst.get(), globalObject);
return generator.moveToDestinationIfNeeded(dst, propDst.get());
}
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
RefPtr<RegisterID> propDst = generator.tempDestination(dst);
RefPtr<RegisterID> base = generator.emitResolveWithBase(generator.newTemporary(), propDst.get(), m_ident);
emitPreIncOrDec(generator, propDst.get(), m_operator);
generator.emitPutById(base.get(), m_ident, propDst.get());
return generator.moveToDestinationIfNeeded(dst, propDst.get());
}
PrefixBracketNode::~PrefixBracketNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PrefixBracketNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
}
RegisterID* PrefixBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNode(m_base.get());
RefPtr<RegisterID> property = generator.emitNode(m_subscript.get());
RefPtr<RegisterID> propDst = generator.tempDestination(dst);
generator.emitExpressionInfo(divot() + m_subexpressionDivotOffset, m_subexpressionStartOffset, endOffset() - m_subexpressionDivotOffset);
RegisterID* value = generator.emitGetByVal(propDst.get(), base.get(), property.get());
if (m_operator == OpPlusPlus)
generator.emitPreInc(value);
else
generator.emitPreDec(value);
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutByVal(base.get(), property.get(), value);
return generator.moveToDestinationIfNeeded(dst, propDst.get());
}
PrefixDotNode::~PrefixDotNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PrefixDotNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
}
RegisterID* PrefixDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNode(m_base.get());
RefPtr<RegisterID> propDst = generator.tempDestination(dst);
generator.emitExpressionInfo(divot() + m_subexpressionDivotOffset, m_subexpressionStartOffset, endOffset() - m_subexpressionDivotOffset);
RegisterID* value = generator.emitGetById(propDst.get(), base.get(), m_ident);
if (m_operator == OpPlusPlus)
generator.emitPreInc(value);
else
generator.emitPreDec(value);
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutById(base.get(), m_ident, value);
return generator.moveToDestinationIfNeeded(dst, propDst.get());
}
PrefixErrorNode::~PrefixErrorNode()
{
NodeReleaser::releaseAllNodes(this);
}
void PrefixErrorNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* PrefixErrorNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
return emitThrowError(generator, ReferenceError, m_operator == OpPlusPlus ? "Prefix ++ operator applied to value that is not a reference." : "Prefix -- operator applied to value that is not a reference.");
}
UnaryOpNode::~UnaryOpNode()
{
NodeReleaser::releaseAllNodes(this);
}
void UnaryOpNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* UnaryOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RegisterID* src = generator.emitNode(m_expr.get());
return generator.emitUnaryOp(opcodeID(), generator.finalDestination(dst), src);
}
BinaryOpNode::~BinaryOpNode()
{
NodeReleaser::releaseAllNodes(this);
}
void BinaryOpNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr1);
releaser.release(m_expr2);
}
RegisterID* BinaryOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
OpcodeID opcodeID = this->opcodeID();
if (opcodeID == op_neq) {
if (m_expr1->isNull() || m_expr2->isNull()) {
RefPtr<RegisterID> src = generator.tempDestination(dst);
generator.emitNode(src.get(), m_expr1->isNull() ? m_expr2.get() : m_expr1.get());
return generator.emitUnaryOp(op_neq_null, generator.finalDestination(dst, src.get()), src.get());
}
}
RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1.get(), m_rightHasAssignments, m_expr2->isPure(generator));
RegisterID* src2 = generator.emitNode(m_expr2.get());
return generator.emitBinaryOp(opcodeID, generator.finalDestination(dst, src1.get()), src1.get(), src2, OperandTypes(m_expr1->resultDescriptor(), m_expr2->resultDescriptor()));
}
RegisterID* EqualNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (m_expr1->isNull() || m_expr2->isNull()) {
RefPtr<RegisterID> src = generator.tempDestination(dst);
generator.emitNode(src.get(), m_expr1->isNull() ? m_expr2.get() : m_expr1.get());
return generator.emitUnaryOp(op_eq_null, generator.finalDestination(dst, src.get()), src.get());
}
RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1.get(), m_rightHasAssignments, m_expr2->isPure(generator));
RegisterID* src2 = generator.emitNode(m_expr2.get());
return generator.emitEqualityOp(op_eq, generator.finalDestination(dst, src1.get()), src1.get(), src2);
}
RegisterID* StrictEqualNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1.get(), m_rightHasAssignments, m_expr2->isPure(generator));
RegisterID* src2 = generator.emitNode(m_expr2.get());
return generator.emitEqualityOp(op_stricteq, generator.finalDestination(dst, src1.get()), src1.get(), src2);
}
RegisterID* ReverseBinaryOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1.get(), m_rightHasAssignments, m_expr2->isPure(generator));
RegisterID* src2 = generator.emitNode(m_expr2.get());
return generator.emitBinaryOp(opcodeID(), generator.finalDestination(dst, src1.get()), src2, src1.get(), OperandTypes(m_expr2->resultDescriptor(), m_expr1->resultDescriptor()));
}
RegisterID* ThrowableBinaryOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1.get(), m_rightHasAssignments, m_expr2->isPure(generator));
RegisterID* src2 = generator.emitNode(m_expr2.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitBinaryOp(opcodeID(), generator.finalDestination(dst, src1.get()), src1.get(), src2, OperandTypes(m_expr1->resultDescriptor(), m_expr2->resultDescriptor()));
}
RegisterID* InstanceOfNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1.get(), m_rightHasAssignments, m_expr2->isPure(generator));
RefPtr<RegisterID> src2 = generator.emitNode(m_expr2.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitGetByIdExceptionInfo(op_instanceof);
RegisterID* src2Prototype = generator.emitGetById(generator.newTemporary(), src2.get(), generator.globalData()->propertyNames->prototype);
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitInstanceOf(generator.finalDestination(dst, src1.get()), src1.get(), src2.get(), src2Prototype);
}
LogicalOpNode::~LogicalOpNode()
{
NodeReleaser::releaseAllNodes(this);
}
void LogicalOpNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr1);
releaser.release(m_expr2);
}
RegisterID* LogicalOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> temp = generator.tempDestination(dst);
RefPtr<Label> target = generator.newLabel();
generator.emitNode(temp.get(), m_expr1.get());
if (m_operator == OpLogicalAnd)
generator.emitJumpIfFalse(temp.get(), target.get());
else
generator.emitJumpIfTrue(temp.get(), target.get());
generator.emitNode(temp.get(), m_expr2.get());
generator.emitLabel(target.get());
return generator.moveToDestinationIfNeeded(dst, temp.get());
}
ConditionalNode::~ConditionalNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ConditionalNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_logical);
releaser.release(m_expr1);
releaser.release(m_expr2);
}
RegisterID* ConditionalNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> newDst = generator.finalDestination(dst);
RefPtr<Label> beforeElse = generator.newLabel();
RefPtr<Label> afterElse = generator.newLabel();
RegisterID* cond = generator.emitNode(m_logical.get());
generator.emitJumpIfFalse(cond, beforeElse.get());
generator.emitNode(newDst.get(), m_expr1.get());
generator.emitJump(afterElse.get());
generator.emitLabel(beforeElse.get());
generator.emitNode(newDst.get(), m_expr2.get());
generator.emitLabel(afterElse.get());
return newDst.get();
}
ReadModifyResolveNode::~ReadModifyResolveNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ReadModifyResolveNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_right);
}
static ALWAYS_INLINE RegisterID* emitReadModifyAssignment(BytecodeGenerator& generator, RegisterID* dst, RegisterID* src1, RegisterID* src2, Operator oper, OperandTypes types)
{
OpcodeID opcodeID;
switch (oper) {
case OpMultEq:
opcodeID = op_mul;
break;
case OpDivEq:
opcodeID = op_div;
break;
case OpPlusEq:
opcodeID = op_add;
break;
case OpMinusEq:
opcodeID = op_sub;
break;
case OpLShift:
opcodeID = op_lshift;
break;
case OpRShift:
opcodeID = op_rshift;
break;
case OpURShift:
opcodeID = op_urshift;
break;
case OpAndEq:
opcodeID = op_bitand;
break;
case OpXOrEq:
opcodeID = op_bitxor;
break;
case OpOrEq:
opcodeID = op_bitor;
break;
case OpModEq:
opcodeID = op_mod;
break;
default:
ASSERT_NOT_REACHED();
return dst;
}
return generator.emitBinaryOp(opcodeID, dst, src1, src2, types);
}
RegisterID* ReadModifyResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RegisterID* local = generator.registerFor(m_ident)) {
if (generator.isLocalConstant(m_ident)) {
RegisterID* src2 = generator.emitNode(m_right.get());
return emitReadModifyAssignment(generator, generator.finalDestination(dst), local, src2, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
}
if (generator.leftHandSideNeedsCopy(m_rightHasAssignments, m_right->isPure(generator))) {
RefPtr<RegisterID> result = generator.newTemporary();
generator.emitMove(result.get(), local);
RegisterID* src2 = generator.emitNode(m_right.get());
emitReadModifyAssignment(generator, result.get(), result.get(), src2, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
generator.emitMove(local, result.get());
return generator.moveToDestinationIfNeeded(dst, result.get());
}
RegisterID* src2 = generator.emitNode(m_right.get());
RegisterID* result = emitReadModifyAssignment(generator, local, local, src2, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
return generator.moveToDestinationIfNeeded(dst, result);
}
int index = 0;
size_t depth = 0;
JSObject* globalObject = 0;
if (generator.findScopedProperty(m_ident, index, depth, true, globalObject) && index != missingSymbolMarker()) {
RefPtr<RegisterID> src1 = generator.emitGetScopedVar(generator.tempDestination(dst), depth, index, globalObject);
RegisterID* src2 = generator.emitNode(m_right.get());
RegisterID* result = emitReadModifyAssignment(generator, generator.finalDestination(dst, src1.get()), src1.get(), src2, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
generator.emitPutScopedVar(depth, index, result, globalObject);
return result;
}
RefPtr<RegisterID> src1 = generator.tempDestination(dst);
generator.emitExpressionInfo(divot() - startOffset() + m_ident.size(), m_ident.size(), 0);
RefPtr<RegisterID> base = generator.emitResolveWithBase(generator.newTemporary(), src1.get(), m_ident);
RegisterID* src2 = generator.emitNode(m_right.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
RegisterID* result = emitReadModifyAssignment(generator, generator.finalDestination(dst, src1.get()), src1.get(), src2, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
return generator.emitPutById(base.get(), m_ident, result);
}
AssignResolveNode::~AssignResolveNode()
{
NodeReleaser::releaseAllNodes(this);
}
void AssignResolveNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_right);
}
RegisterID* AssignResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (RegisterID* local = generator.registerFor(m_ident)) {
if (generator.isLocalConstant(m_ident))
return generator.emitNode(dst, m_right.get());
RegisterID* result = generator.emitNode(local, m_right.get());
return generator.moveToDestinationIfNeeded(dst, result);
}
int index = 0;
size_t depth = 0;
JSObject* globalObject = 0;
if (generator.findScopedProperty(m_ident, index, depth, true, globalObject) && index != missingSymbolMarker()) {
if (dst == generator.ignoredResult())
dst = 0;
RegisterID* value = generator.emitNode(dst, m_right.get());
generator.emitPutScopedVar(depth, index, value, globalObject);
return value;
}
RefPtr<RegisterID> base = generator.emitResolveBase(generator.newTemporary(), m_ident);
if (dst == generator.ignoredResult())
dst = 0;
RegisterID* value = generator.emitNode(dst, m_right.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitPutById(base.get(), m_ident, value);
}
AssignDotNode::~AssignDotNode()
{
NodeReleaser::releaseAllNodes(this);
}
void AssignDotNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_right);
}
RegisterID* AssignDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base.get(), m_rightHasAssignments, m_right->isPure(generator));
RefPtr<RegisterID> value = generator.destinationForAssignResult(dst);
RegisterID* result = generator.emitNode(value.get(), m_right.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutById(base.get(), m_ident, result);
return generator.moveToDestinationIfNeeded(dst, result);
}
ReadModifyDotNode::~ReadModifyDotNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ReadModifyDotNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_right);
}
RegisterID* ReadModifyDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base.get(), m_rightHasAssignments, m_right->isPure(generator));
generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset);
RefPtr<RegisterID> value = generator.emitGetById(generator.tempDestination(dst), base.get(), m_ident);
RegisterID* change = generator.emitNode(m_right.get());
RegisterID* updatedValue = emitReadModifyAssignment(generator, generator.finalDestination(dst, value.get()), value.get(), change, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
return generator.emitPutById(base.get(), m_ident, updatedValue);
}
AssignErrorNode::~AssignErrorNode()
{
NodeReleaser::releaseAllNodes(this);
}
void AssignErrorNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_left);
releaser.release(m_right);
}
RegisterID* AssignErrorNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
return emitThrowError(generator, ReferenceError, "Left side of assignment is not a reference.");
}
AssignBracketNode::~AssignBracketNode()
{
NodeReleaser::releaseAllNodes(this);
}
void AssignBracketNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
releaser.release(m_right);
}
RegisterID* AssignBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base.get(), m_subscriptHasAssignments || m_rightHasAssignments, m_subscript->isPure(generator) && m_right->isPure(generator));
RefPtr<RegisterID> property = generator.emitNodeForLeftHandSide(m_subscript.get(), m_rightHasAssignments, m_right->isPure(generator));
RefPtr<RegisterID> value = generator.destinationForAssignResult(dst);
RegisterID* result = generator.emitNode(value.get(), m_right.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutByVal(base.get(), property.get(), result);
return generator.moveToDestinationIfNeeded(dst, result);
}
ReadModifyBracketNode::~ReadModifyBracketNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ReadModifyBracketNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_base);
releaser.release(m_subscript);
releaser.release(m_right);
}
RegisterID* ReadModifyBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base.get(), m_subscriptHasAssignments || m_rightHasAssignments, m_subscript->isPure(generator) && m_right->isPure(generator));
RefPtr<RegisterID> property = generator.emitNodeForLeftHandSide(m_subscript.get(), m_rightHasAssignments, m_right->isPure(generator));
generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset);
RefPtr<RegisterID> value = generator.emitGetByVal(generator.tempDestination(dst), base.get(), property.get());
RegisterID* change = generator.emitNode(m_right.get());
RegisterID* updatedValue = emitReadModifyAssignment(generator, generator.finalDestination(dst, value.get()), value.get(), change, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()));
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutByVal(base.get(), property.get(), updatedValue);
return updatedValue;
}
CommaNode::~CommaNode()
{
NodeReleaser::releaseAllNodes(this);
}
void CommaNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr1);
releaser.release(m_expr2);
}
RegisterID* CommaNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
generator.emitNode(generator.ignoredResult(), m_expr1.get());
return generator.emitNode(dst, m_expr2.get());
}
ConstDeclNode::~ConstDeclNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ConstDeclNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_next);
releaser.release(m_init);
}
ConstDeclNode::ConstDeclNode(JSGlobalData* globalData, const Identifier& ident, ExpressionNode* init)
: ExpressionNode(globalData)
, m_ident(ident)
, m_init(init)
{
}
RegisterID* ConstDeclNode::emitCodeSingle(BytecodeGenerator& generator)
{
if (RegisterID* local = generator.constRegisterFor(m_ident)) {
if (!m_init)
return local;
return generator.emitNode(local, m_init.get());
}
RefPtr<RegisterID> base = generator.emitResolveBase(generator.newTemporary(), m_ident);
RegisterID* value = m_init ? generator.emitNode(m_init.get()) : generator.emitLoad(0, jsUndefined());
return generator.emitPutById(base.get(), m_ident, value);
}
RegisterID* ConstDeclNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
RegisterID* result = 0;
for (ConstDeclNode* n = this; n; n = n->m_next.get())
result = n->emitCodeSingle(generator);
return result;
}
ConstStatementNode::~ConstStatementNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ConstStatementNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_next);
}
RegisterID* ConstStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
return generator.emitNode(m_next.get());
}
static inline RegisterID* statementListEmitCode(const StatementVector& statements, BytecodeGenerator& generator, RegisterID* dst)
{
StatementVector::const_iterator end = statements.end();
for (StatementVector::const_iterator it = statements.begin(); it != end; ++it) {
StatementNode* n = it->get();
if (!n->isLoop())
generator.emitDebugHook(WillExecuteStatement, n->firstLine(), n->lastLine());
generator.emitNode(dst, n);
}
return 0;
}
BlockNode::~BlockNode()
{
NodeReleaser::releaseAllNodes(this);
}
void BlockNode::releaseNodes(NodeReleaser& releaser)
{
size_t size = m_children.size();
for (size_t i = 0; i < size; ++i)
releaser.release(m_children[i]);
}
BlockNode::BlockNode(JSGlobalData* globalData, SourceElements* children)
: StatementNode(globalData)
{
if (children)
children->releaseContentsIntoVector(m_children);
}
RegisterID* BlockNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
return statementListEmitCode(m_children, generator, dst);
}
RegisterID* EmptyStatementNode::emitBytecode(BytecodeGenerator&, RegisterID* dst)
{
return dst;
}
RegisterID* DebuggerStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
generator.emitDebugHook(DidReachBreakpoint, firstLine(), lastLine());
return dst;
}
RegisterID* ExprStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
ASSERT(m_expr);
return generator.emitNode(dst, m_expr.get());
}
VarStatementNode::~VarStatementNode()
{
NodeReleaser::releaseAllNodes(this);
}
void VarStatementNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* VarStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
ASSERT(m_expr);
return generator.emitNode(m_expr.get());
}
IfNode::~IfNode()
{
NodeReleaser::releaseAllNodes(this);
}
void IfNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_condition);
releaser.release(m_ifBlock);
}
RegisterID* IfNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<Label> afterThen = generator.newLabel();
RegisterID* cond = generator.emitNode(m_condition.get());
generator.emitJumpIfFalse(cond, afterThen.get());
if (!m_ifBlock->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_ifBlock->firstLine(), m_ifBlock->lastLine());
generator.emitNode(dst, m_ifBlock.get());
generator.emitLabel(afterThen.get());
return 0;
}
IfElseNode::~IfElseNode()
{
NodeReleaser::releaseAllNodes(this);
}
void IfElseNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_elseBlock);
IfNode::releaseNodes(releaser);
}
RegisterID* IfElseNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<Label> beforeElse = generator.newLabel();
RefPtr<Label> afterElse = generator.newLabel();
RegisterID* cond = generator.emitNode(m_condition.get());
generator.emitJumpIfFalse(cond, beforeElse.get());
if (!m_ifBlock->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_ifBlock->firstLine(), m_ifBlock->lastLine());
generator.emitNode(dst, m_ifBlock.get());
generator.emitJump(afterElse.get());
generator.emitLabel(beforeElse.get());
if (!m_elseBlock->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_elseBlock->firstLine(), m_elseBlock->lastLine());
generator.emitNode(dst, m_elseBlock.get());
generator.emitLabel(afterElse.get());
return 0;
}
DoWhileNode::~DoWhileNode()
{
NodeReleaser::releaseAllNodes(this);
}
void DoWhileNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_statement);
releaser.release(m_expr);
}
RegisterID* DoWhileNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Loop);
RefPtr<Label> topOfLoop = generator.newLabel();
generator.emitLabel(topOfLoop.get());
generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine());
if (!m_statement->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_statement->firstLine(), m_statement->lastLine());
RefPtr<RegisterID> result = generator.emitNode(dst, m_statement.get());
generator.emitLabel(scope->continueTarget());
generator.emitDebugHook(WillExecuteStatement, m_expr->lineNo(), m_expr->lineNo());
RegisterID* cond = generator.emitNode(m_expr.get());
generator.emitJumpIfTrue(cond, topOfLoop.get());
generator.emitLabel(scope->breakTarget());
return result.get();
}
WhileNode::~WhileNode()
{
NodeReleaser::releaseAllNodes(this);
}
void WhileNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
releaser.release(m_statement);
}
RegisterID* WhileNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Loop);
generator.emitJump(scope->continueTarget());
RefPtr<Label> topOfLoop = generator.newLabel();
generator.emitLabel(topOfLoop.get());
if (!m_statement->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_statement->firstLine(), m_statement->lastLine());
generator.emitNode(dst, m_statement.get());
generator.emitLabel(scope->continueTarget());
generator.emitDebugHook(WillExecuteStatement, m_expr->lineNo(), m_expr->lineNo());
RegisterID* cond = generator.emitNode(m_expr.get());
generator.emitJumpIfTrue(cond, topOfLoop.get());
generator.emitLabel(scope->breakTarget());
return 0;
}
ForNode::~ForNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ForNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr1);
releaser.release(m_expr2);
releaser.release(m_expr3);
releaser.release(m_statement);
}
RegisterID* ForNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
dst = 0;
RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Loop);
generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine());
if (m_expr1)
generator.emitNode(generator.ignoredResult(), m_expr1.get());
RefPtr<Label> condition = generator.newLabel();
generator.emitJump(condition.get());
RefPtr<Label> topOfLoop = generator.newLabel();
generator.emitLabel(topOfLoop.get());
if (!m_statement->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_statement->firstLine(), m_statement->lastLine());
RefPtr<RegisterID> result = generator.emitNode(dst, m_statement.get());
generator.emitLabel(scope->continueTarget());
if (m_expr3)
generator.emitNode(generator.ignoredResult(), m_expr3.get());
generator.emitLabel(condition.get());
if (m_expr2) {
RegisterID* cond = generator.emitNode(m_expr2.get());
generator.emitJumpIfTrue(cond, topOfLoop.get());
} else
generator.emitJump(topOfLoop.get());
generator.emitLabel(scope->breakTarget());
return result.get();
}
ForInNode::~ForInNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ForInNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_init);
releaser.release(m_lexpr);
releaser.release(m_expr);
releaser.release(m_statement);
}
ForInNode::ForInNode(JSGlobalData* globalData, ExpressionNode* l, ExpressionNode* expr, StatementNode* statement)
: StatementNode(globalData)
, m_init(0L)
, m_lexpr(l)
, m_expr(expr)
, m_statement(statement)
, m_identIsVarDecl(false)
{
}
ForInNode::ForInNode(JSGlobalData* globalData, const Identifier& ident, ExpressionNode* in, ExpressionNode* expr, StatementNode* statement, int divot, int startOffset, int endOffset)
: StatementNode(globalData)
, m_ident(ident)
, m_lexpr(new ResolveNode(globalData, ident, divot - startOffset))
, m_expr(expr)
, m_statement(statement)
, m_identIsVarDecl(true)
{
if (in) {
AssignResolveNode* node = new AssignResolveNode(globalData, ident, in, true);
node->setExceptionSourceCode(divot, divot - startOffset, endOffset - divot);
m_init = node;
}
}
RegisterID* ForInNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Loop);
if (!m_lexpr->isLocation())
return emitThrowError(generator, ReferenceError, "Left side of for-in statement is not a reference.");
RefPtr<Label> continueTarget = generator.newLabel();
generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine());
if (m_init)
generator.emitNode(generator.ignoredResult(), m_init.get());
RegisterID* forInBase = generator.emitNode(m_expr.get());
RefPtr<RegisterID> iter = generator.emitGetPropertyNames(generator.newTemporary(), forInBase);
generator.emitJump(scope->continueTarget());
RefPtr<Label> loopStart = generator.newLabel();
generator.emitLabel(loopStart.get());
RegisterID* propertyName;
if (m_lexpr->isResolveNode()) {
const Identifier& ident = static_cast<ResolveNode*>(m_lexpr.get())->identifier();
propertyName = generator.registerFor(ident);
if (!propertyName) {
propertyName = generator.newTemporary();
RefPtr<RegisterID> protect = propertyName;
RegisterID* base = generator.emitResolveBase(generator.newTemporary(), ident);
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitPutById(base, ident, propertyName);
}
} else if (m_lexpr->isDotAccessorNode()) {
DotAccessorNode* assignNode = static_cast<DotAccessorNode*>(m_lexpr.get());
const Identifier& ident = assignNode->identifier();
propertyName = generator.newTemporary();
RefPtr<RegisterID> protect = propertyName;
RegisterID* base = generator.emitNode(assignNode->base());
generator.emitExpressionInfo(assignNode->divot(), assignNode->startOffset(), assignNode->endOffset());
generator.emitPutById(base, ident, propertyName);
} else {
ASSERT(m_lexpr->isBracketAccessorNode());
BracketAccessorNode* assignNode = static_cast<BracketAccessorNode*>(m_lexpr.get());
propertyName = generator.newTemporary();
RefPtr<RegisterID> protect = propertyName;
RefPtr<RegisterID> base = generator.emitNode(assignNode->base());
RegisterID* subscript = generator.emitNode(assignNode->subscript());
generator.emitExpressionInfo(assignNode->divot(), assignNode->startOffset(), assignNode->endOffset());
generator.emitPutByVal(base.get(), subscript, propertyName);
}
if (!m_statement->isBlock())
generator.emitDebugHook(WillExecuteStatement, m_statement->firstLine(), m_statement->lastLine());
generator.emitNode(dst, m_statement.get());
generator.emitLabel(scope->continueTarget());
generator.emitNextPropertyName(propertyName, iter.get(), loopStart.get());
generator.emitLabel(scope->breakTarget());
return dst;
}
RegisterID* ContinueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
LabelScope* scope = generator.continueTarget(m_ident);
if (!scope)
return m_ident.isEmpty()
? emitThrowError(generator, SyntaxError, "Invalid continue statement.")
: emitThrowError(generator, SyntaxError, "Undefined label: '%s'.", m_ident);
generator.emitJumpScopes(scope->continueTarget(), scope->scopeDepth());
return dst;
}
RegisterID* BreakNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
LabelScope* scope = generator.breakTarget(m_ident);
if (!scope)
return m_ident.isEmpty()
? emitThrowError(generator, SyntaxError, "Invalid break statement.")
: emitThrowError(generator, SyntaxError, "Undefined label: '%s'.", m_ident);
generator.emitJumpScopes(scope->breakTarget(), scope->scopeDepth());
return dst;
}
ReturnNode::~ReturnNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ReturnNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_value);
}
RegisterID* ReturnNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (generator.codeType() != FunctionCode)
return emitThrowError(generator, SyntaxError, "Invalid return statement.");
if (dst == generator.ignoredResult())
dst = 0;
RegisterID* r0 = m_value ? generator.emitNode(dst, m_value.get()) : generator.emitLoad(dst, jsUndefined());
RefPtr<RegisterID> returnRegister;
if (generator.scopeDepth()) {
RefPtr<Label> l0 = generator.newLabel();
if (generator.hasFinaliser() && !r0->isTemporary()) {
returnRegister = generator.emitMove(generator.newTemporary(), r0);
r0 = returnRegister.get();
}
generator.emitJumpScopes(l0.get(), 0);
generator.emitLabel(l0.get());
}
generator.emitDebugHook(WillLeaveCallFrame, firstLine(), lastLine());
return generator.emitReturn(r0);
}
WithNode::~WithNode()
{
NodeReleaser::releaseAllNodes(this);
}
void WithNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
releaser.release(m_statement);
}
RegisterID* WithNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<RegisterID> scope = generator.newTemporary();
generator.emitNode(scope.get(), m_expr.get()); generator.emitExpressionInfo(m_divot, m_expressionLength, 0);
generator.emitPushScope(scope.get());
RegisterID* result = generator.emitNode(dst, m_statement.get());
generator.emitPopScope();
return result;
}
CaseClauseNode::~CaseClauseNode()
{
NodeReleaser::releaseAllNodes(this);
}
void CaseClauseNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
ClauseListNode::~ClauseListNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ClauseListNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_clause);
releaser.release(m_next);
}
CaseBlockNode::~CaseBlockNode()
{
NodeReleaser::releaseAllNodes(this);
}
void CaseBlockNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_list1);
releaser.release(m_defaultClause);
releaser.release(m_list2);
}
enum SwitchKind {
SwitchUnset = 0,
SwitchNumber = 1,
SwitchString = 2,
SwitchNeither = 3
};
static void processClauseList(ClauseListNode* list, Vector<ExpressionNode*, 8>& literalVector, SwitchKind& typeForTable, bool& singleCharacterSwitch, int32_t& min_num, int32_t& max_num)
{
for (; list; list = list->getNext()) {
ExpressionNode* clauseExpression = list->getClause()->expr();
literalVector.append(clauseExpression);
if (clauseExpression->isNumber()) {
double value = static_cast<NumberNode*>(clauseExpression)->value();
JSValuePtr jsValue = JSValuePtr::makeInt32Fast(static_cast<int32_t>(value));
if ((typeForTable & ~SwitchNumber) || !jsValue || (jsValue.getInt32Fast() != value)) {
typeForTable = SwitchNeither;
break;
}
int32_t intVal = static_cast<int32_t>(value);
ASSERT(intVal == value);
if (intVal < min_num)
min_num = intVal;
if (intVal > max_num)
max_num = intVal;
typeForTable = SwitchNumber;
continue;
}
if (clauseExpression->isString()) {
if (typeForTable & ~SwitchString) {
typeForTable = SwitchNeither;
break;
}
const UString& value = static_cast<StringNode*>(clauseExpression)->value().ustring();
if (singleCharacterSwitch &= value.size() == 1) {
int32_t intVal = value.rep()->data()[0];
if (intVal < min_num)
min_num = intVal;
if (intVal > max_num)
max_num = intVal;
}
typeForTable = SwitchString;
continue;
}
typeForTable = SwitchNeither;
break;
}
}
SwitchInfo::SwitchType CaseBlockNode::tryOptimizedSwitch(Vector<ExpressionNode*, 8>& literalVector, int32_t& min_num, int32_t& max_num)
{
SwitchKind typeForTable = SwitchUnset;
bool singleCharacterSwitch = true;
processClauseList(m_list1.get(), literalVector, typeForTable, singleCharacterSwitch, min_num, max_num);
processClauseList(m_list2.get(), literalVector, typeForTable, singleCharacterSwitch, min_num, max_num);
if (typeForTable == SwitchUnset || typeForTable == SwitchNeither)
return SwitchInfo::SwitchNone;
if (typeForTable == SwitchNumber) {
int32_t range = max_num - min_num;
if (min_num <= max_num && range <= 1000 && (range / literalVector.size()) < 10)
return SwitchInfo::SwitchImmediate;
return SwitchInfo::SwitchNone;
}
ASSERT(typeForTable == SwitchString);
if (singleCharacterSwitch) {
int32_t range = max_num - min_num;
if (min_num <= max_num && range <= 1000 && (range / literalVector.size()) < 10)
return SwitchInfo::SwitchCharacter;
}
return SwitchInfo::SwitchString;
}
RegisterID* CaseBlockNode::emitBytecodeForBlock(BytecodeGenerator& generator, RegisterID* switchExpression, RegisterID* dst)
{
RefPtr<Label> defaultLabel;
Vector<RefPtr<Label>, 8> labelVector;
Vector<ExpressionNode*, 8> literalVector;
int32_t min_num = std::numeric_limits<int32_t>::max();
int32_t max_num = std::numeric_limits<int32_t>::min();
SwitchInfo::SwitchType switchType = tryOptimizedSwitch(literalVector, min_num, max_num);
if (switchType != SwitchInfo::SwitchNone) {
for (uint32_t i = 0; i < literalVector.size(); i++)
labelVector.append(generator.newLabel());
defaultLabel = generator.newLabel();
generator.beginSwitch(switchExpression, switchType);
} else {
for (ClauseListNode* list = m_list1.get(); list; list = list->getNext()) {
RefPtr<RegisterID> clauseVal = generator.newTemporary();
generator.emitNode(clauseVal.get(), list->getClause()->expr());
generator.emitBinaryOp(op_stricteq, clauseVal.get(), clauseVal.get(), switchExpression, OperandTypes());
labelVector.append(generator.newLabel());
generator.emitJumpIfTrue(clauseVal.get(), labelVector[labelVector.size() - 1].get());
}
for (ClauseListNode* list = m_list2.get(); list; list = list->getNext()) {
RefPtr<RegisterID> clauseVal = generator.newTemporary();
generator.emitNode(clauseVal.get(), list->getClause()->expr());
generator.emitBinaryOp(op_stricteq, clauseVal.get(), clauseVal.get(), switchExpression, OperandTypes());
labelVector.append(generator.newLabel());
generator.emitJumpIfTrue(clauseVal.get(), labelVector[labelVector.size() - 1].get());
}
defaultLabel = generator.newLabel();
generator.emitJump(defaultLabel.get());
}
RegisterID* result = 0;
size_t i = 0;
for (ClauseListNode* list = m_list1.get(); list; list = list->getNext()) {
generator.emitLabel(labelVector[i++].get());
result = statementListEmitCode(list->getClause()->children(), generator, dst);
}
if (m_defaultClause) {
generator.emitLabel(defaultLabel.get());
result = statementListEmitCode(m_defaultClause->children(), generator, dst);
}
for (ClauseListNode* list = m_list2.get(); list; list = list->getNext()) {
generator.emitLabel(labelVector[i++].get());
result = statementListEmitCode(list->getClause()->children(), generator, dst);
}
if (!m_defaultClause)
generator.emitLabel(defaultLabel.get());
ASSERT(i == labelVector.size());
if (switchType != SwitchInfo::SwitchNone) {
ASSERT(labelVector.size() == literalVector.size());
generator.endSwitch(labelVector.size(), labelVector.data(), literalVector.data(), defaultLabel.get(), min_num, max_num);
}
return result;
}
SwitchNode::~SwitchNode()
{
NodeReleaser::releaseAllNodes(this);
}
void SwitchNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
releaser.release(m_block);
}
RegisterID* SwitchNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Switch);
RefPtr<RegisterID> r0 = generator.emitNode(m_expr.get());
RegisterID* r1 = m_block->emitBytecodeForBlock(generator, r0.get(), dst);
generator.emitLabel(scope->breakTarget());
return r1;
}
LabelNode::~LabelNode()
{
NodeReleaser::releaseAllNodes(this);
}
void LabelNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_statement);
}
RegisterID* LabelNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (generator.breakTarget(m_name))
return emitThrowError(generator, SyntaxError, "Duplicate label: %s.", m_name);
RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::NamedLabel, &m_name);
RegisterID* r0 = generator.emitNode(dst, m_statement.get());
generator.emitLabel(scope->breakTarget());
return r0;
}
ThrowNode::~ThrowNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ThrowNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_expr);
}
RegisterID* ThrowNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
dst = 0;
RefPtr<RegisterID> expr = generator.emitNode(dst, m_expr.get());
generator.emitExpressionInfo(divot(), startOffset(), endOffset());
generator.emitThrow(expr.get());
return dst;
}
TryNode::~TryNode()
{
NodeReleaser::releaseAllNodes(this);
}
void TryNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_tryBlock);
releaser.release(m_catchBlock);
releaser.release(m_finallyBlock);
}
RegisterID* TryNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
RefPtr<Label> tryStartLabel = generator.newLabel();
RefPtr<Label> tryEndLabel = generator.newLabel();
RefPtr<Label> finallyStart;
RefPtr<RegisterID> finallyReturnAddr;
if (m_finallyBlock) {
finallyStart = generator.newLabel();
finallyReturnAddr = generator.newTemporary();
generator.pushFinallyContext(finallyStart.get(), finallyReturnAddr.get());
}
generator.emitLabel(tryStartLabel.get());
generator.emitNode(dst, m_tryBlock.get());
generator.emitLabel(tryEndLabel.get());
if (m_catchBlock) {
RefPtr<Label> handlerEndLabel = generator.newLabel();
generator.emitJump(handlerEndLabel.get());
RefPtr<RegisterID> exceptionRegister = generator.emitCatch(generator.newTemporary(), tryStartLabel.get(), tryEndLabel.get());
if (m_catchHasEval) {
RefPtr<RegisterID> dynamicScopeObject = generator.emitNewObject(generator.newTemporary());
generator.emitPutById(dynamicScopeObject.get(), m_exceptionIdent, exceptionRegister.get());
generator.emitMove(exceptionRegister.get(), dynamicScopeObject.get());
generator.emitPushScope(exceptionRegister.get());
} else
generator.emitPushNewScope(exceptionRegister.get(), m_exceptionIdent, exceptionRegister.get());
generator.emitNode(dst, m_catchBlock.get());
generator.emitPopScope();
generator.emitLabel(handlerEndLabel.get());
}
if (m_finallyBlock) {
generator.popFinallyContext();
RefPtr<RegisterID> highestUsedRegister = generator.highestUsedRegister();
RefPtr<Label> finallyEndLabel = generator.newLabel();
generator.emitJumpSubroutine(finallyReturnAddr.get(), finallyStart.get());
generator.emitLabel(generator.newLabel().get());
generator.emitJump(finallyEndLabel.get());
RefPtr<RegisterID> tempExceptionRegister = generator.emitCatch(generator.newTemporary(), tryStartLabel.get(), generator.emitLabel(generator.newLabel().get()).get());
generator.emitJumpSubroutine(finallyReturnAddr.get(), finallyStart.get());
generator.emitLabel(generator.newLabel().get());
generator.emitThrow(tempExceptionRegister.get());
generator.emitLabel(finallyStart.get());
generator.emitNode(dst, m_finallyBlock.get());
generator.emitSubroutineReturn(finallyReturnAddr.get());
generator.emitLabel(finallyEndLabel.get());
}
return dst;
}
ParameterNode::~ParameterNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ParameterNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_next);
}
ScopeNodeData::ScopeNodeData(SourceElements* children, VarStack* varStack, FunctionStack* funcStack, int numConstants)
: m_numConstants(numConstants)
{
if (varStack)
m_varStack = *varStack;
if (funcStack)
m_functionStack = *funcStack;
if (children)
children->releaseContentsIntoVector(m_children);
}
void ScopeNodeData::mark()
{
FunctionStack::iterator end = m_functionStack.end();
for (FunctionStack::iterator ptr = m_functionStack.begin(); ptr != end; ++ptr) {
FunctionBodyNode* body = (*ptr)->body();
if (!body->isGenerated())
continue;
body->generatedBytecode().mark();
}
}
ScopeNode::ScopeNode(JSGlobalData* globalData)
: StatementNode(globalData)
, m_features(NoFeatures)
{
#if ENABLE(OPCODE_SAMPLING)
globalData->interpreter->sampler()->notifyOfScope(this);
#endif
}
ScopeNode::ScopeNode(JSGlobalData* globalData, const SourceCode& source, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, CodeFeatures features, int numConstants)
: StatementNode(globalData)
, m_data(new ScopeNodeData(children, varStack, funcStack, numConstants))
, m_features(features)
, m_source(source)
{
#if ENABLE(OPCODE_SAMPLING)
globalData->interpreter->sampler()->notifyOfScope(this);
#endif
}
ScopeNode::~ScopeNode()
{
NodeReleaser::releaseAllNodes(this);
}
void ScopeNode::releaseNodes(NodeReleaser& releaser)
{
if (!m_data)
return;
size_t size = m_data->m_children.size();
for (size_t i = 0; i < size; ++i)
releaser.release(m_data->m_children[i]);
}
ProgramNode::ProgramNode(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& source, CodeFeatures features, int numConstants)
: ScopeNode(globalData, source, children, varStack, funcStack, features, numConstants)
{
}
ProgramNode* ProgramNode::create(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& source, CodeFeatures features, int numConstants)
{
return new ProgramNode(globalData, children, varStack, funcStack, source, features, numConstants);
}
RegisterID* ProgramNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
generator.emitDebugHook(WillExecuteProgram, firstLine(), lastLine());
RefPtr<RegisterID> dstRegister = generator.newTemporary();
generator.emitLoad(dstRegister.get(), jsUndefined());
statementListEmitCode(children(), generator, dstRegister.get());
generator.emitDebugHook(DidExecuteProgram, firstLine(), lastLine());
generator.emitEnd(dstRegister.get());
return 0;
}
void ProgramNode::generateBytecode(ScopeChainNode* scopeChainNode)
{
ScopeChain scopeChain(scopeChainNode);
JSGlobalObject* globalObject = scopeChain.globalObject();
m_code.set(new ProgramCodeBlock(this, GlobalCode, globalObject, source().provider()));
BytecodeGenerator generator(this, globalObject->debugger(), scopeChain, &globalObject->symbolTable(), m_code.get());
generator.generate();
destroyData();
}
EvalNode::EvalNode(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& source, CodeFeatures features, int numConstants)
: ScopeNode(globalData, source, children, varStack, funcStack, features, numConstants)
{
}
EvalNode* EvalNode::create(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& source, CodeFeatures features, int numConstants)
{
return new EvalNode(globalData, children, varStack, funcStack, source, features, numConstants);
}
RegisterID* EvalNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
generator.emitDebugHook(WillExecuteProgram, firstLine(), lastLine());
RefPtr<RegisterID> dstRegister = generator.newTemporary();
generator.emitLoad(dstRegister.get(), jsUndefined());
statementListEmitCode(children(), generator, dstRegister.get());
generator.emitDebugHook(DidExecuteProgram, firstLine(), lastLine());
generator.emitEnd(dstRegister.get());
return 0;
}
void EvalNode::generateBytecode(ScopeChainNode* scopeChainNode)
{
ScopeChain scopeChain(scopeChainNode);
JSGlobalObject* globalObject = scopeChain.globalObject();
m_code.set(new EvalCodeBlock(this, globalObject, source().provider(), scopeChain.localDepth()));
BytecodeGenerator generator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get());
generator.generate();
children().clear();
}
EvalCodeBlock& EvalNode::bytecodeForExceptionInfoReparse(ScopeChainNode* scopeChainNode, CodeBlock* codeBlockBeingRegeneratedFrom)
{
ASSERT(!m_code);
ScopeChain scopeChain(scopeChainNode);
JSGlobalObject* globalObject = scopeChain.globalObject();
m_code.set(new EvalCodeBlock(this, globalObject, source().provider(), scopeChain.localDepth()));
BytecodeGenerator generator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get());
generator.setRegeneratingForExceptionInfo(codeBlockBeingRegeneratedFrom);
generator.generate();
return *m_code;
}
void EvalNode::mark()
{
data()->mark();
}
FunctionBodyNode::FunctionBodyNode(JSGlobalData* globalData)
: ScopeNode(globalData)
, m_parameters(0)
, m_parameterCount(0)
, m_refCount(0)
{
}
FunctionBodyNode::FunctionBodyNode(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& sourceCode, CodeFeatures features, int numConstants)
: ScopeNode(globalData, sourceCode, children, varStack, funcStack, features, numConstants)
, m_parameters(0)
, m_parameterCount(0)
, m_refCount(0)
{
}
FunctionBodyNode::~FunctionBodyNode()
{
ASSERT(!m_refCount);
for (size_t i = 0; i < m_parameterCount; ++i)
m_parameters[i].~Identifier();
fastFree(m_parameters);
}
void FunctionBodyNode::finishParsing(const SourceCode& source, ParameterNode* firstParameter)
{
Vector<Identifier> parameters;
for (ParameterNode* parameter = firstParameter; parameter; parameter = parameter->nextParam())
parameters.append(parameter->ident());
size_t count = parameters.size();
setSource(source);
finishParsing(parameters.releaseBuffer(), count);
}
void FunctionBodyNode::finishParsing(Identifier* parameters, size_t parameterCount)
{
ASSERT(!source().isNull());
m_parameters = parameters;
m_parameterCount = parameterCount;
}
void FunctionBodyNode::mark()
{
if (m_code)
m_code->mark();
}
FunctionBodyNode* FunctionBodyNode::create(JSGlobalData* globalData)
{
return new FunctionBodyNode(globalData);
}
FunctionBodyNode* FunctionBodyNode::create(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& sourceCode, CodeFeatures features, int numConstants)
{
return new FunctionBodyNode(globalData, children, varStack, funcStack, sourceCode, features, numConstants);
}
void FunctionBodyNode::generateBytecode(ScopeChainNode* scopeChainNode)
{
if (!data())
scopeChainNode->globalData->parser->reparseInPlace(scopeChainNode->globalData, this);
ASSERT(data());
ScopeChain scopeChain(scopeChainNode);
JSGlobalObject* globalObject = scopeChain.globalObject();
m_code.set(new CodeBlock(this, FunctionCode, source().provider(), source().startOffset()));
BytecodeGenerator generator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get());
generator.generate();
destroyData();
}
CodeBlock& FunctionBodyNode::bytecodeForExceptionInfoReparse(ScopeChainNode* scopeChainNode, CodeBlock* codeBlockBeingRegeneratedFrom)
{
ASSERT(!m_code);
ScopeChain scopeChain(scopeChainNode);
JSGlobalObject* globalObject = scopeChain.globalObject();
m_code.set(new CodeBlock(this, FunctionCode, source().provider(), source().startOffset()));
BytecodeGenerator generator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get());
generator.setRegeneratingForExceptionInfo(codeBlockBeingRegeneratedFrom);
generator.generate();
return *m_code;
}
RegisterID* FunctionBodyNode::emitBytecode(BytecodeGenerator& generator, RegisterID*)
{
generator.emitDebugHook(DidEnterCallFrame, firstLine(), lastLine());
statementListEmitCode(children(), generator, generator.ignoredResult());
if (children().size() && children().last()->isBlock()) {
BlockNode* blockNode = static_cast<BlockNode*>(children().last().get());
if (blockNode->children().size() && blockNode->children().last()->isReturnNode())
return 0;
}
RegisterID* r0 = generator.emitLoad(0, jsUndefined());
generator.emitDebugHook(WillLeaveCallFrame, firstLine(), lastLine());
generator.emitReturn(r0);
return 0;
}
UString FunctionBodyNode::paramString() const
{
UString s("");
for (size_t pos = 0; pos < m_parameterCount; ++pos) {
if (!s.isEmpty())
s += ", ";
s += parameters()[pos].ustring();
}
return s;
}
Identifier* FunctionBodyNode::copyParameters()
{
Identifier* parameters = static_cast<Identifier*>(fastMalloc(m_parameterCount * sizeof(Identifier)));
VectorCopier<false, Identifier>::uninitializedCopy(m_parameters, m_parameters + m_parameterCount, parameters);
return parameters;
}
FuncDeclNode::~FuncDeclNode()
{
NodeReleaser::releaseAllNodes(this);
}
void FuncDeclNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_parameter);
releaser.release(m_body);
}
JSFunction* FuncDeclNode::makeFunction(ExecState* exec, ScopeChainNode* scopeChain)
{
return new (exec) JSFunction(exec, m_ident, m_body.get(), scopeChain);
}
RegisterID* FuncDeclNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
if (dst == generator.ignoredResult())
dst = 0;
return dst;
}
FuncExprNode::~FuncExprNode()
{
NodeReleaser::releaseAllNodes(this);
}
void FuncExprNode::releaseNodes(NodeReleaser& releaser)
{
releaser.release(m_parameter);
releaser.release(m_body);
}
RegisterID* FuncExprNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst)
{
return generator.emitNewFunctionExpression(generator.finalDestination(dst), this);
}
JSFunction* FuncExprNode::makeFunction(ExecState* exec, ScopeChainNode* scopeChain)
{
JSFunction* func = new (exec) JSFunction(exec, m_ident, m_body.get(), scopeChain);
if (!m_ident.isNull()) {
JSStaticScopeObject* functionScopeObject = new (exec) JSStaticScopeObject(exec, m_ident, func, ReadOnly | DontDelete);
func->scope().push(functionScopeObject);
}
return func;
}
}