| /* |
| * Copyright (C) 1999-2002 Harri Porten (porten@kde.org) |
| * Copyright (C) 2001 Peter Kelly (pmk@post.com) |
| * Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2009 Apple Inc. All rights reserved. |
| * Copyright (C) 2007 Cameron Zwarich (cwzwarich@uwaterloo.ca) |
| * Copyright (C) 2007 Maks Orlovich |
| * Copyright (C) 2007 Eric Seidel <eric@webkit.org> |
| * |
| * This library is free software; you can redistribute it and/or |
| * modify it under the terms of the GNU Library General Public |
| * License as published by the Free Software Foundation; either |
| * version 2 of the License, or (at your option) any later version. |
| * |
| * This library is distributed in the hope that it will be useful, |
| * but WITHOUT ANY WARRANTY; without even the implied warranty of |
| * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
| * Library General Public License for more details. |
| * |
| * You should have received a copy of the GNU Library General Public License |
| * along with this library; see the file COPYING.LIB. If not, write to |
| * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, |
| * Boston, MA 02110-1301, USA. |
| * |
| */ |
| |
| #include "config.h" |
| #include "Nodes.h" |
| #include "NodeConstructors.h" |
| |
| #include "BytecodeGenerator.h" |
| #include "CallFrame.h" |
| #include "Debugger.h" |
| #include "JIT.h" |
| #include "JSFunction.h" |
| #include "JSGlobalObject.h" |
| #include "JSStaticScopeObject.h" |
| #include "LabelScope.h" |
| #include "Lexer.h" |
| #include "Operations.h" |
| #include "Parser.h" |
| #include "PropertyNameArray.h" |
| #include "RegExpObject.h" |
| #include "SamplingTool.h" |
| #include <wtf/Assertions.h> |
| #include <wtf/RefCountedLeakCounter.h> |
| #include <wtf/Threading.h> |
| |
| using namespace WTF; |
| |
| namespace JSC { |
| |
| static void substitute(UString& string, const UString& substring); |
| |
| // ------------------------------ ThrowableExpressionData -------------------------------- |
| |
| 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 -------------------------------- |
| |
| void StatementNode::setLoc(int firstLine, int lastLine) |
| { |
| m_line = firstLine; |
| m_lastLine = lastLine; |
| } |
| |
| // ------------------------------ SourceElements -------------------------------- |
| |
| void SourceElements::append(StatementNode* statement) |
| { |
| if (statement->isEmptyStatement()) |
| return; |
| m_statements.append(statement); |
| } |
| |
| // ------------------------------ NullNode ------------------------------------- |
| |
| RegisterID* NullNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) |
| return 0; |
| return generator.emitLoad(dst, jsNull()); |
| } |
| |
| // ------------------------------ BooleanNode ---------------------------------- |
| |
| RegisterID* BooleanNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) |
| return 0; |
| return generator.emitLoad(dst, m_value); |
| } |
| |
| // ------------------------------ NumberNode ----------------------------------- |
| |
| RegisterID* NumberNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) |
| return 0; |
| return generator.emitLoad(dst, m_double); |
| } |
| |
| // ------------------------------ StringNode ----------------------------------- |
| |
| RegisterID* StringNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) |
| return 0; |
| return generator.emitLoad(dst, m_value); |
| } |
| |
| // ------------------------------ RegExpNode ----------------------------------- |
| |
| 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()); |
| } |
| |
| // ------------------------------ ThisNode ------------------------------------- |
| |
| RegisterID* ThisNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) |
| return 0; |
| return generator.moveToDestinationIfNeeded(dst, generator.thisRegister()); |
| } |
| |
| // ------------------------------ ResolveNode ---------------------------------- |
| |
| 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); |
| } |
| |
| // ------------------------------ ArrayNode ------------------------------------ |
| |
| RegisterID* ArrayNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| // FIXME: Should we put all of this code into emitNewArray? |
| |
| unsigned length = 0; |
| ElementNode* firstPutElement; |
| for (firstPutElement = m_element; firstPutElement; firstPutElement = firstPutElement->next()) { |
| if (firstPutElement->elision()) |
| break; |
| ++length; |
| } |
| |
| if (!firstPutElement && !m_elision) |
| return generator.emitNewArray(generator.finalDestination(dst), m_element); |
| |
| RefPtr<RegisterID> array = generator.emitNewArray(generator.tempDestination(dst), m_element); |
| |
| 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()); |
| } |
| |
| bool ArrayNode::isSimpleArray() const |
| { |
| if (m_elision || m_optional) |
| return false; |
| for (ElementNode* ptr = m_element; ptr; ptr = ptr->next()) { |
| if (ptr->elision()) |
| return false; |
| } |
| return true; |
| } |
| |
| ArgumentListNode* ArrayNode::toArgumentList(JSGlobalData* globalData) const |
| { |
| ASSERT(!m_elision && !m_optional); |
| ElementNode* ptr = m_element; |
| if (!ptr) |
| return 0; |
| ArgumentListNode* head = new (globalData) ArgumentListNode(globalData, ptr->value()); |
| ArgumentListNode* tail = head; |
| ptr = ptr->next(); |
| for (; ptr; ptr = ptr->next()) { |
| ASSERT(!ptr->elision()); |
| tail = new (globalData) ArgumentListNode(globalData, tail, ptr->value()); |
| } |
| return head; |
| } |
| |
| // ------------------------------ ObjectLiteralNode ---------------------------- |
| |
| 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); |
| } |
| |
| // ------------------------------ PropertyListNode ----------------------------- |
| |
| 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) { |
| RegisterID* value = generator.emitNode(p->m_node->m_assign); |
| |
| 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 -------------------------------- |
| |
| RegisterID* BracketAccessorNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base, m_subscriptHasAssignments, m_subscript->isPure(generator)); |
| RegisterID* property = generator.emitNode(m_subscript); |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| return generator.emitGetByVal(generator.finalDestination(dst), base.get(), property); |
| } |
| |
| // ------------------------------ DotAccessorNode -------------------------------- |
| |
| RegisterID* DotAccessorNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RegisterID* base = generator.emitNode(m_base); |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| return generator.emitGetById(generator.finalDestination(dst), base, m_ident); |
| } |
| |
| // ------------------------------ ArgumentListNode ----------------------------- |
| |
| RegisterID* ArgumentListNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| ASSERT(m_expr); |
| return generator.emitNode(dst, m_expr); |
| } |
| |
| // ------------------------------ NewExprNode ---------------------------------- |
| |
| RegisterID* NewExprNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> func = generator.emitNode(m_expr); |
| return generator.emitConstruct(generator.finalDestination(dst), func.get(), m_args, divot(), startOffset(), endOffset()); |
| } |
| |
| // ------------------------------ EvalFunctionCallNode ---------------------------------- |
| |
| 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, divot(), startOffset(), endOffset()); |
| } |
| |
| // ------------------------------ FunctionCallValueNode ---------------------------------- |
| |
| RegisterID* FunctionCallValueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> func = generator.emitNode(m_expr); |
| RefPtr<RegisterID> thisRegister = generator.emitLoad(generator.newTemporary(), jsNull()); |
| return generator.emitCall(generator.finalDestination(dst, func.get()), func.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| } |
| |
| // ------------------------------ FunctionCallResolveNode ---------------------------------- |
| |
| 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, 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, divot(), startOffset(), endOffset()); |
| } |
| |
| RefPtr<RegisterID> func = generator.newTemporary(); |
| RefPtr<RegisterID> thisRegister = generator.newTemporary(); |
| int identifierStart = divot() - startOffset(); |
| generator.emitExpressionInfo(identifierStart + m_ident.size(), m_ident.size(), 0); |
| generator.emitResolveWithBase(thisRegister.get(), func.get(), m_ident); |
| return generator.emitCall(generator.finalDestination(dst, func.get()), func.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| } |
| |
| // ------------------------------ FunctionCallBracketNode ---------------------------------- |
| |
| RegisterID* FunctionCallBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| RegisterID* property = generator.emitNode(m_subscript); |
| 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, divot(), startOffset(), endOffset()); |
| } |
| |
| // ------------------------------ FunctionCallDotNode ---------------------------------- |
| |
| RegisterID* FunctionCallDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> function = generator.tempDestination(dst); |
| RefPtr<RegisterID> thisRegister = generator.newTemporary(); |
| generator.emitNode(thisRegister.get(), m_base); |
| generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset); |
| generator.emitMethodCheck(); |
| generator.emitGetById(function.get(), thisRegister.get(), m_ident); |
| return generator.emitCall(generator.finalDestination(dst, function.get()), function.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| } |
| |
| RegisterID* CallFunctionCallDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<Label> realCall = generator.newLabel(); |
| RefPtr<Label> end = generator.newLabel(); |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset); |
| RefPtr<RegisterID> function = generator.emitGetById(generator.tempDestination(dst), base.get(), m_ident); |
| RefPtr<RegisterID> finalDestination = generator.finalDestination(dst, function.get()); |
| generator.emitJumpIfNotFunctionCall(function.get(), realCall.get()); |
| { |
| RefPtr<RegisterID> realFunction = generator.emitMove(generator.tempDestination(dst), base.get()); |
| RefPtr<RegisterID> thisRegister = generator.newTemporary(); |
| ArgumentListNode* oldList = m_args->m_listNode; |
| if (m_args->m_listNode && m_args->m_listNode->m_expr) { |
| generator.emitNode(thisRegister.get(), m_args->m_listNode->m_expr); |
| m_args->m_listNode = m_args->m_listNode->m_next; |
| } else |
| generator.emitLoad(thisRegister.get(), jsNull()); |
| |
| generator.emitCall(finalDestination.get(), realFunction.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| generator.emitJump(end.get()); |
| m_args->m_listNode = oldList; |
| } |
| generator.emitLabel(realCall.get()); |
| { |
| RefPtr<RegisterID> thisRegister = generator.emitMove(generator.newTemporary(), base.get()); |
| generator.emitCall(finalDestination.get(), function.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| } |
| generator.emitLabel(end.get()); |
| return finalDestination.get(); |
| } |
| |
| static bool areTrivialApplyArguments(ArgumentsNode* args) |
| { |
| return !args->m_listNode || !args->m_listNode->m_expr || !args->m_listNode->m_next |
| || (!args->m_listNode->m_next->m_next && args->m_listNode->m_next->m_expr->isSimpleArray()); |
| } |
| |
| RegisterID* ApplyFunctionCallDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| // A few simple cases can be trivially handled as ordinary function calls. |
| // function.apply(), function.apply(arg) -> identical to function.call |
| // function.apply(thisArg, [arg0, arg1, ...]) -> can be trivially coerced into function.call(thisArg, arg0, arg1, ...) and saves object allocation |
| bool mayBeCall = areTrivialApplyArguments(m_args); |
| |
| RefPtr<Label> realCall = generator.newLabel(); |
| RefPtr<Label> end = generator.newLabel(); |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| generator.emitExpressionInfo(divot() - m_subexpressionDivotOffset, startOffset() - m_subexpressionDivotOffset, m_subexpressionEndOffset); |
| RefPtr<RegisterID> function = generator.emitGetById(generator.tempDestination(dst), base.get(), m_ident); |
| RefPtr<RegisterID> finalDestination = generator.finalDestination(dst, function.get()); |
| generator.emitJumpIfNotFunctionApply(function.get(), realCall.get()); |
| { |
| if (mayBeCall) { |
| RefPtr<RegisterID> realFunction = generator.emitMove(generator.tempDestination(dst), base.get()); |
| RefPtr<RegisterID> thisRegister = generator.newTemporary(); |
| ArgumentListNode* oldList = m_args->m_listNode; |
| if (m_args->m_listNode && m_args->m_listNode->m_expr) { |
| generator.emitNode(thisRegister.get(), m_args->m_listNode->m_expr); |
| m_args->m_listNode = m_args->m_listNode->m_next; |
| if (m_args->m_listNode) { |
| ASSERT(m_args->m_listNode->m_expr->isSimpleArray()); |
| ASSERT(!m_args->m_listNode->m_next); |
| m_args->m_listNode = static_cast<ArrayNode*>(m_args->m_listNode->m_expr)->toArgumentList(generator.globalData()); |
| } |
| } else |
| generator.emitLoad(thisRegister.get(), jsNull()); |
| generator.emitCall(finalDestination.get(), realFunction.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| m_args->m_listNode = oldList; |
| } else { |
| ASSERT(m_args->m_listNode && m_args->m_listNode->m_next); |
| RefPtr<RegisterID> realFunction = generator.emitMove(generator.newTemporary(), base.get()); |
| RefPtr<RegisterID> argsCountRegister = generator.newTemporary(); |
| RefPtr<RegisterID> thisRegister = generator.newTemporary(); |
| RefPtr<RegisterID> argsRegister = generator.newTemporary(); |
| generator.emitNode(thisRegister.get(), m_args->m_listNode->m_expr); |
| ArgumentListNode* args = m_args->m_listNode->m_next; |
| bool isArgumentsApply = false; |
| if (args->m_expr->isResolveNode()) { |
| ResolveNode* resolveNode = static_cast<ResolveNode*>(args->m_expr); |
| isArgumentsApply = generator.willResolveToArguments(resolveNode->identifier()); |
| if (isArgumentsApply) |
| generator.emitMove(argsRegister.get(), generator.uncheckedRegisterForArguments()); |
| } |
| if (!isArgumentsApply) |
| generator.emitNode(argsRegister.get(), args->m_expr); |
| while ((args = args->m_next)) |
| generator.emitNode(args->m_expr); |
| |
| generator.emitLoadVarargs(argsCountRegister.get(), argsRegister.get()); |
| generator.emitCallVarargs(finalDestination.get(), realFunction.get(), thisRegister.get(), argsCountRegister.get(), divot(), startOffset(), endOffset()); |
| } |
| generator.emitJump(end.get()); |
| } |
| generator.emitLabel(realCall.get()); |
| { |
| RefPtr<RegisterID> thisRegister = generator.emitMove(generator.newTemporary(), base.get()); |
| generator.emitCall(finalDestination.get(), function.get(), thisRegister.get(), m_args, divot(), startOffset(), endOffset()); |
| } |
| generator.emitLabel(end.get()); |
| return finalDestination.get(); |
| } |
| |
| // ------------------------------ PostfixResolveNode ---------------------------------- |
| |
| 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) |
| { |
| if (srcDst == dst) |
| return generator.emitToJSNumber(dst, srcDst); |
| 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 ---------------------------------- |
| |
| RegisterID* PostfixBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| RefPtr<RegisterID> property = generator.emitNode(m_subscript); |
| |
| 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 ---------------------------------- |
| |
| RegisterID* PostfixDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| |
| 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 ----------------------------------- |
| |
| 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."); |
| } |
| |
| // ------------------------------ DeleteResolveNode ----------------------------------- |
| |
| RegisterID* DeleteResolveNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (generator.registerFor(m_ident)) |
| return generator.emitLoad(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 ----------------------------------- |
| |
| RegisterID* DeleteBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> r0 = generator.emitNode(m_base); |
| RegisterID* r1 = generator.emitNode(m_subscript); |
| |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| return generator.emitDeleteByVal(generator.finalDestination(dst), r0.get(), r1); |
| } |
| |
| // ------------------------------ DeleteDotNode ----------------------------------- |
| |
| RegisterID* DeleteDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RegisterID* r0 = generator.emitNode(m_base); |
| |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| return generator.emitDeleteById(generator.finalDestination(dst), r0, m_ident); |
| } |
| |
| // ------------------------------ DeleteValueNode ----------------------------------- |
| |
| RegisterID* DeleteValueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitNode(generator.ignoredResult(), m_expr); |
| |
| // delete on a non-location expression ignores the value and returns true |
| return generator.emitLoad(generator.finalDestination(dst), true); |
| } |
| |
| // ------------------------------ VoidNode ------------------------------------- |
| |
| RegisterID* VoidNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) { |
| generator.emitNode(generator.ignoredResult(), m_expr); |
| return 0; |
| } |
| RefPtr<RegisterID> r0 = generator.emitNode(m_expr); |
| return generator.emitLoad(dst, jsUndefined()); |
| } |
| |
| // ------------------------------ TypeOfValueNode ----------------------------------- |
| |
| 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 ----------------------------------- |
| |
| RegisterID* TypeOfValueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| if (dst == generator.ignoredResult()) { |
| generator.emitNode(generator.ignoredResult(), m_expr); |
| return 0; |
| } |
| RefPtr<RegisterID> src = generator.emitNode(m_expr); |
| return generator.emitTypeOf(generator.finalDestination(dst), src.get()); |
| } |
| |
| // ------------------------------ PrefixResolveNode ---------------------------------- |
| |
| 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.emitLoad(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 ---------------------------------- |
| |
| RegisterID* PrefixBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| RefPtr<RegisterID> property = generator.emitNode(m_subscript); |
| 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 ---------------------------------- |
| |
| RegisterID* PrefixDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNode(m_base); |
| 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 ----------------------------------- |
| |
| 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."); |
| } |
| |
| // ------------------------------ Unary Operation Nodes ----------------------------------- |
| |
| RegisterID* UnaryOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RegisterID* src = generator.emitNode(m_expr); |
| return generator.emitUnaryOp(opcodeID(), generator.finalDestination(dst), src); |
| } |
| |
| // ------------------------------ Binary Operation Nodes ----------------------------------- |
| |
| // BinaryOpNode::emitStrcat: |
| // |
| // This node generates an op_strcat operation. This opcode can handle concatenation of three or |
| // more values, where we can determine a set of separate op_add operations would be operating on |
| // string values. |
| // |
| // This function expects to be operating on a graph of AST nodes looking something like this: |
| // |
| // (a)... (b) |
| // \ / |
| // (+) (c) |
| // \ / |
| // [d] ((+)) |
| // \ / |
| // [+=] |
| // |
| // The assignment operation is optional, if it exists the register holding the value on the |
| // lefthand side of the assignment should be passing as the optional 'lhs' argument. |
| // |
| // The method should be called on the node at the root of the tree of regular binary add |
| // operations (marked in the diagram with a double set of parentheses). This node must |
| // be performing a string concatenation (determined by statically detecting that at least |
| // one child must be a string). |
| // |
| // Since the minimum number of values being concatenated together is expected to be 3, if |
| // a lhs to a concatenating assignment is not provided then the root add should have at |
| // least one left child that is also an add that can be determined to be operating on strings. |
| // |
| RegisterID* BinaryOpNode::emitStrcat(BytecodeGenerator& generator, RegisterID* dst, RegisterID* lhs, ReadModifyResolveNode* emitExpressionInfoForMe) |
| { |
| ASSERT(isAdd()); |
| ASSERT(resultDescriptor().definitelyIsString()); |
| |
| // Create a list of expressions for all the adds in the tree of nodes we can convert into |
| // a string concatenation. The rightmost node (c) is added first. The rightmost node is |
| // added first, and the leftmost child is never added, so the vector produced for the |
| // example above will be [ c, b ]. |
| Vector<ExpressionNode*, 16> reverseExpressionList; |
| reverseExpressionList.append(m_expr2); |
| |
| // Examine the left child of the add. So long as this is a string add, add its right-child |
| // to the list, and keep processing along the left fork. |
| ExpressionNode* leftMostAddChild = m_expr1; |
| while (leftMostAddChild->isAdd() && leftMostAddChild->resultDescriptor().definitelyIsString()) { |
| reverseExpressionList.append(static_cast<AddNode*>(leftMostAddChild)->m_expr2); |
| leftMostAddChild = static_cast<AddNode*>(leftMostAddChild)->m_expr1; |
| } |
| |
| Vector<RefPtr<RegisterID>, 16> temporaryRegisters; |
| |
| // If there is an assignment, allocate a temporary to hold the lhs after conversion. |
| // We could possibly avoid this (the lhs is converted last anyway, we could let the |
| // op_strcat node handle its conversion if required). |
| if (lhs) |
| temporaryRegisters.append(generator.newTemporary()); |
| |
| // Emit code for the leftmost node ((a) in the example). |
| temporaryRegisters.append(generator.newTemporary()); |
| RegisterID* leftMostAddChildTempRegister = temporaryRegisters.last().get(); |
| generator.emitNode(leftMostAddChildTempRegister, leftMostAddChild); |
| |
| // Note on ordering of conversions: |
| // |
| // We maintain the same ordering of conversions as we would see if the concatenations |
| // was performed as a sequence of adds (otherwise this optimization could change |
| // behaviour should an object have been provided a valueOf or toString method). |
| // |
| // Considering the above example, the sequnce of execution is: |
| // * evaluate operand (a) |
| // * evaluate operand (b) |
| // * convert (a) to primitive <- (this would be triggered by the first add) |
| // * convert (b) to primitive <- (ditto) |
| // * evaluate operand (c) |
| // * convert (c) to primitive <- (this would be triggered by the second add) |
| // And optionally, if there is an assignment: |
| // * convert (d) to primitive <- (this would be triggered by the assigning addition) |
| // |
| // As such we do not plant an op to convert the leftmost child now. Instead, use |
| // 'leftMostAddChildTempRegister' as a flag to trigger generation of the conversion |
| // once the second node has been generated. However, if the leftmost child is an |
| // immediate we can trivially determine that no conversion will be required. |
| // If this is the case |
| if (leftMostAddChild->isString()) |
| leftMostAddChildTempRegister = 0; |
| |
| while (reverseExpressionList.size()) { |
| ExpressionNode* node = reverseExpressionList.last(); |
| reverseExpressionList.removeLast(); |
| |
| // Emit the code for the current node. |
| temporaryRegisters.append(generator.newTemporary()); |
| generator.emitNode(temporaryRegisters.last().get(), node); |
| |
| // On the first iteration of this loop, when we first reach this point we have just |
| // generated the second node, which means it is time to convert the leftmost operand. |
| if (leftMostAddChildTempRegister) { |
| generator.emitToPrimitive(leftMostAddChildTempRegister, leftMostAddChildTempRegister); |
| leftMostAddChildTempRegister = 0; // Only do this once. |
| } |
| // Plant a conversion for this node, if necessary. |
| if (!node->isString()) |
| generator.emitToPrimitive(temporaryRegisters.last().get(), temporaryRegisters.last().get()); |
| } |
| ASSERT(temporaryRegisters.size() >= 3); |
| |
| // Certain read-modify nodes require expression info to be emitted *after* m_right has been generated. |
| // If this is required the node is passed as 'emitExpressionInfoForMe'; do so now. |
| if (emitExpressionInfoForMe) |
| generator.emitExpressionInfo(emitExpressionInfoForMe->divot(), emitExpressionInfoForMe->startOffset(), emitExpressionInfoForMe->endOffset()); |
| |
| // If there is an assignment convert the lhs now. This will also copy lhs to |
| // the temporary register we allocated for it. |
| if (lhs) |
| generator.emitToPrimitive(temporaryRegisters[0].get(), lhs); |
| |
| return generator.emitStrcat(generator.finalDestination(dst, temporaryRegisters[0].get()), temporaryRegisters[0].get(), temporaryRegisters.size()); |
| } |
| |
| RegisterID* BinaryOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| OpcodeID opcodeID = this->opcodeID(); |
| |
| if (opcodeID == op_add && m_expr1->isAdd() && m_expr1->resultDescriptor().definitelyIsString()) |
| return emitStrcat(generator, dst); |
| |
| 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 : m_expr1); |
| return generator.emitUnaryOp(op_neq_null, generator.finalDestination(dst, src.get()), src.get()); |
| } |
| } |
| |
| RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1, m_rightHasAssignments, m_expr2->isPure(generator)); |
| RegisterID* src2 = generator.emitNode(m_expr2); |
| 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 : m_expr1); |
| return generator.emitUnaryOp(op_eq_null, generator.finalDestination(dst, src.get()), src.get()); |
| } |
| |
| RefPtr<RegisterID> src1 = generator.emitNodeForLeftHandSide(m_expr1, m_rightHasAssignments, m_expr2->isPure(generator)); |
| RegisterID* src2 = generator.emitNode(m_expr2); |
| 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, m_rightHasAssignments, m_expr2->isPure(generator)); |
| RegisterID* src2 = generator.emitNode(m_expr2); |
| 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, m_rightHasAssignments, m_expr2->isPure(generator)); |
| RegisterID* src2 = generator.emitNode(m_expr2); |
| 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, m_rightHasAssignments, m_expr2->isPure(generator)); |
| RegisterID* src2 = generator.emitNode(m_expr2); |
| 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, m_rightHasAssignments, m_expr2->isPure(generator)); |
| RefPtr<RegisterID> src2 = generator.emitNode(m_expr2); |
| |
| 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 ---------------------------- |
| |
| RegisterID* LogicalOpNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> temp = generator.tempDestination(dst); |
| RefPtr<Label> target = generator.newLabel(); |
| |
| generator.emitNode(temp.get(), m_expr1); |
| if (m_operator == OpLogicalAnd) |
| generator.emitJumpIfFalse(temp.get(), target.get()); |
| else |
| generator.emitJumpIfTrue(temp.get(), target.get()); |
| generator.emitNode(temp.get(), m_expr2); |
| generator.emitLabel(target.get()); |
| |
| return generator.moveToDestinationIfNeeded(dst, temp.get()); |
| } |
| |
| // ------------------------------ ConditionalNode ------------------------------ |
| |
| 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); |
| generator.emitJumpIfFalse(cond, beforeElse.get()); |
| |
| generator.emitNode(newDst.get(), m_expr1); |
| generator.emitJump(afterElse.get()); |
| |
| generator.emitLabel(beforeElse.get()); |
| generator.emitNode(newDst.get(), m_expr2); |
| |
| generator.emitLabel(afterElse.get()); |
| |
| return newDst.get(); |
| } |
| |
| // ------------------------------ ReadModifyResolveNode ----------------------------------- |
| |
| // FIXME: should this be moved to be a method on BytecodeGenerator? |
| static ALWAYS_INLINE RegisterID* emitReadModifyAssignment(BytecodeGenerator& generator, RegisterID* dst, RegisterID* src1, ExpressionNode* m_right, Operator oper, OperandTypes types, ReadModifyResolveNode* emitExpressionInfoForMe = 0) |
| { |
| OpcodeID opcodeID; |
| switch (oper) { |
| case OpMultEq: |
| opcodeID = op_mul; |
| break; |
| case OpDivEq: |
| opcodeID = op_div; |
| break; |
| case OpPlusEq: |
| if (m_right->isAdd() && m_right->resultDescriptor().definitelyIsString()) |
| return static_cast<AddNode*>(m_right)->emitStrcat(generator, dst, src1, emitExpressionInfoForMe); |
| 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; |
| } |
| |
| RegisterID* src2 = generator.emitNode(m_right); |
| |
| // Certain read-modify nodes require expression info to be emitted *after* m_right has been generated. |
| // If this is required the node is passed as 'emitExpressionInfoForMe'; do so now. |
| if (emitExpressionInfoForMe) |
| generator.emitExpressionInfo(emitExpressionInfoForMe->divot(), emitExpressionInfoForMe->startOffset(), emitExpressionInfoForMe->endOffset()); |
| |
| 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)) { |
| return emitReadModifyAssignment(generator, generator.finalDestination(dst), local, m_right, 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); |
| emitReadModifyAssignment(generator, result.get(), result.get(), m_right, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor())); |
| generator.emitMove(local, result.get()); |
| return generator.moveToDestinationIfNeeded(dst, result.get()); |
| } |
| |
| RegisterID* result = emitReadModifyAssignment(generator, local, local, m_right, 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* result = emitReadModifyAssignment(generator, generator.finalDestination(dst, src1.get()), src1.get(), m_right, 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* result = emitReadModifyAssignment(generator, generator.finalDestination(dst, src1.get()), src1.get(), m_right, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor()), this); |
| return generator.emitPutById(base.get(), m_ident, result); |
| } |
| |
| // ------------------------------ AssignResolveNode ----------------------------------- |
| |
| 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); |
| |
| RegisterID* result = generator.emitNode(local, m_right); |
| 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); |
| 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); |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| return generator.emitPutById(base.get(), m_ident, value); |
| } |
| |
| // ------------------------------ AssignDotNode ----------------------------------- |
| |
| RegisterID* AssignDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base, m_rightHasAssignments, m_right->isPure(generator)); |
| RefPtr<RegisterID> value = generator.destinationForAssignResult(dst); |
| RegisterID* result = generator.emitNode(value.get(), m_right); |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| generator.emitPutById(base.get(), m_ident, result); |
| return generator.moveToDestinationIfNeeded(dst, result); |
| } |
| |
| // ------------------------------ ReadModifyDotNode ----------------------------------- |
| |
| RegisterID* ReadModifyDotNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base, 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* updatedValue = emitReadModifyAssignment(generator, generator.finalDestination(dst, value.get()), value.get(), m_right, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor())); |
| |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| return generator.emitPutById(base.get(), m_ident, updatedValue); |
| } |
| |
| // ------------------------------ AssignErrorNode ----------------------------------- |
| |
| RegisterID* AssignErrorNode::emitBytecode(BytecodeGenerator& generator, RegisterID*) |
| { |
| return emitThrowError(generator, ReferenceError, "Left side of assignment is not a reference."); |
| } |
| |
| // ------------------------------ AssignBracketNode ----------------------------------- |
| |
| RegisterID* AssignBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base, m_subscriptHasAssignments || m_rightHasAssignments, m_subscript->isPure(generator) && m_right->isPure(generator)); |
| RefPtr<RegisterID> property = generator.emitNodeForLeftHandSide(m_subscript, m_rightHasAssignments, m_right->isPure(generator)); |
| RefPtr<RegisterID> value = generator.destinationForAssignResult(dst); |
| RegisterID* result = generator.emitNode(value.get(), m_right); |
| |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| generator.emitPutByVal(base.get(), property.get(), result); |
| return generator.moveToDestinationIfNeeded(dst, result); |
| } |
| |
| // ------------------------------ ReadModifyBracketNode ----------------------------------- |
| |
| RegisterID* ReadModifyBracketNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<RegisterID> base = generator.emitNodeForLeftHandSide(m_base, m_subscriptHasAssignments || m_rightHasAssignments, m_subscript->isPure(generator) && m_right->isPure(generator)); |
| RefPtr<RegisterID> property = generator.emitNodeForLeftHandSide(m_subscript, 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* updatedValue = emitReadModifyAssignment(generator, generator.finalDestination(dst, value.get()), value.get(), m_right, m_operator, OperandTypes(ResultType::unknownType(), m_right->resultDescriptor())); |
| |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| generator.emitPutByVal(base.get(), property.get(), updatedValue); |
| |
| return updatedValue; |
| } |
| |
| // ------------------------------ CommaNode ------------------------------------ |
| |
| RegisterID* CommaNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| ASSERT(m_expressions.size() > 1); |
| for (size_t i = 0; i < m_expressions.size() - 1; i++) |
| generator.emitNode(generator.ignoredResult(), m_expressions[i]); |
| return generator.emitNode(dst, m_expressions.last()); |
| } |
| |
| // ------------------------------ ConstDeclNode ------------------------------------ |
| |
| RegisterID* ConstDeclNode::emitCodeSingle(BytecodeGenerator& generator) |
| { |
| if (RegisterID* local = generator.constRegisterFor(m_ident)) { |
| if (!m_init) |
| return local; |
| |
| return generator.emitNode(local, m_init); |
| } |
| |
| // FIXME: While this code should only be hit in eval code, it will potentially |
| // assign to the wrong base if m_ident exists in an intervening dynamic scope. |
| RefPtr<RegisterID> base = generator.emitResolveBase(generator.newTemporary(), m_ident); |
| RegisterID* value = m_init ? generator.emitNode(m_init) : 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) |
| result = n->emitCodeSingle(generator); |
| |
| return result; |
| } |
| |
| // ------------------------------ ConstStatementNode ----------------------------- |
| |
| RegisterID* ConstStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID*) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| return generator.emitNode(m_next); |
| } |
| |
| // ------------------------------ Helper functions for handling Vectors of StatementNode ------------------------------- |
| |
| static inline void statementListEmitCode(const StatementVector& statements, BytecodeGenerator& generator, RegisterID* dst) |
| { |
| size_t size = statements.size(); |
| for (size_t i = 0; i < size; ++i) |
| generator.emitNode(dst, statements[i]); |
| } |
| |
| // ------------------------------ BlockNode ------------------------------------ |
| |
| RegisterID* BlockNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| statementListEmitCode(m_children, generator, dst); |
| return 0; |
| } |
| |
| // ------------------------------ EmptyStatementNode --------------------------- |
| |
| RegisterID* EmptyStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| return dst; |
| } |
| |
| // ------------------------------ DebuggerStatementNode --------------------------- |
| |
| RegisterID* DebuggerStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(DidReachBreakpoint, firstLine(), lastLine()); |
| return dst; |
| } |
| |
| // ------------------------------ ExprStatementNode ---------------------------- |
| |
| RegisterID* ExprStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| ASSERT(m_expr); |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| return generator.emitNode(dst, m_expr); |
| } |
| |
| // ------------------------------ VarStatementNode ---------------------------- |
| |
| RegisterID* VarStatementNode::emitBytecode(BytecodeGenerator& generator, RegisterID*) |
| { |
| ASSERT(m_expr); |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| return generator.emitNode(m_expr); |
| } |
| |
| // ------------------------------ IfNode --------------------------------------- |
| |
| RegisterID* IfNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| RefPtr<Label> afterThen = generator.newLabel(); |
| |
| RegisterID* cond = generator.emitNode(m_condition); |
| generator.emitJumpIfFalse(cond, afterThen.get()); |
| |
| generator.emitNode(dst, m_ifBlock); |
| generator.emitLabel(afterThen.get()); |
| |
| // FIXME: This should return the last statement executed so that it can be returned as a Completion. |
| return 0; |
| } |
| |
| // ------------------------------ IfElseNode --------------------------------------- |
| |
| RegisterID* IfElseNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| RefPtr<Label> beforeElse = generator.newLabel(); |
| RefPtr<Label> afterElse = generator.newLabel(); |
| |
| RegisterID* cond = generator.emitNode(m_condition); |
| generator.emitJumpIfFalse(cond, beforeElse.get()); |
| |
| generator.emitNode(dst, m_ifBlock); |
| generator.emitJump(afterElse.get()); |
| |
| generator.emitLabel(beforeElse.get()); |
| |
| generator.emitNode(dst, m_elseBlock); |
| |
| generator.emitLabel(afterElse.get()); |
| |
| // FIXME: This should return the last statement executed so that it can be returned as a Completion. |
| return 0; |
| } |
| |
| // ------------------------------ DoWhileNode ---------------------------------- |
| |
| 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()); |
| |
| RefPtr<RegisterID> result = generator.emitNode(dst, m_statement); |
| |
| generator.emitLabel(scope->continueTarget()); |
| generator.emitDebugHook(WillExecuteStatement, m_expr->lineNo(), m_expr->lineNo()); |
| RegisterID* cond = generator.emitNode(m_expr); |
| generator.emitJumpIfTrue(cond, topOfLoop.get()); |
| |
| generator.emitLabel(scope->breakTarget()); |
| return result.get(); |
| } |
| |
| // ------------------------------ WhileNode ------------------------------------ |
| |
| 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()); |
| |
| generator.emitNode(dst, m_statement); |
| |
| generator.emitLabel(scope->continueTarget()); |
| generator.emitDebugHook(WillExecuteStatement, m_expr->lineNo(), m_expr->lineNo()); |
| RegisterID* cond = generator.emitNode(m_expr); |
| generator.emitJumpIfTrue(cond, topOfLoop.get()); |
| |
| generator.emitLabel(scope->breakTarget()); |
| |
| // FIXME: This should return the last statement executed so that it can be returned as a Completion |
| return 0; |
| } |
| |
| // ------------------------------ ForNode -------------------------------------- |
| |
| RegisterID* ForNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Loop); |
| |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| if (m_expr1) |
| generator.emitNode(generator.ignoredResult(), m_expr1); |
| |
| RefPtr<Label> condition = generator.newLabel(); |
| generator.emitJump(condition.get()); |
| |
| RefPtr<Label> topOfLoop = generator.newLabel(); |
| generator.emitLabel(topOfLoop.get()); |
| |
| RefPtr<RegisterID> result = generator.emitNode(dst, m_statement); |
| |
| generator.emitLabel(scope->continueTarget()); |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| if (m_expr3) |
| generator.emitNode(generator.ignoredResult(), m_expr3); |
| |
| generator.emitLabel(condition.get()); |
| if (m_expr2) { |
| RegisterID* cond = generator.emitNode(m_expr2); |
| generator.emitJumpIfTrue(cond, topOfLoop.get()); |
| } else |
| generator.emitJump(topOfLoop.get()); |
| |
| generator.emitLabel(scope->breakTarget()); |
| return result.get(); |
| } |
| |
| // ------------------------------ ForInNode ------------------------------------ |
| |
| 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); |
| RegisterID* forInBase = generator.emitNode(m_expr); |
| 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)->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); |
| 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); |
| 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); |
| } |
| |
| generator.emitNode(dst, m_statement); |
| |
| generator.emitLabel(scope->continueTarget()); |
| generator.emitNextPropertyName(propertyName, iter.get(), loopStart.get()); |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| generator.emitLabel(scope->breakTarget()); |
| return dst; |
| } |
| |
| // ------------------------------ ContinueNode --------------------------------- |
| |
| // ECMA 12.7 |
| RegisterID* ContinueNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| 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; |
| } |
| |
| // ------------------------------ BreakNode ------------------------------------ |
| |
| // ECMA 12.8 |
| RegisterID* BreakNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| 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 ----------------------------------- |
| |
| RegisterID* ReturnNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| 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) : 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 ------------------------------------- |
| |
| RegisterID* WithNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| RefPtr<RegisterID> scope = generator.newTemporary(); |
| generator.emitNode(scope.get(), m_expr); // scope must be protected until popped |
| generator.emitExpressionInfo(m_divot, m_expressionLength, 0); |
| generator.emitPushScope(scope.get()); |
| RegisterID* result = generator.emitNode(dst, m_statement); |
| generator.emitPopScope(); |
| return result; |
| } |
| |
| // ------------------------------ CaseBlockNode -------------------------------- |
| |
| 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(); |
| int32_t intVal = static_cast<int32_t>(value); |
| if ((typeForTable & ~SwitchNumber) || (intVal != value)) { |
| typeForTable = SwitchNeither; |
| break; |
| } |
| 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, literalVector, typeForTable, singleCharacterSwitch, min_num, max_num); |
| processClauseList(m_list2, 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) { |
| // Prepare the various labels |
| for (uint32_t i = 0; i < literalVector.size(); i++) |
| labelVector.append(generator.newLabel()); |
| defaultLabel = generator.newLabel(); |
| generator.beginSwitch(switchExpression, switchType); |
| } else { |
| // Setup jumps |
| for (ClauseListNode* list = m_list1; 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; 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; list; list = list->getNext()) { |
| generator.emitLabel(labelVector[i++].get()); |
| statementListEmitCode(list->getClause()->children(), generator, dst); |
| } |
| |
| if (m_defaultClause) { |
| generator.emitLabel(defaultLabel.get()); |
| statementListEmitCode(m_defaultClause->children(), generator, dst); |
| } |
| |
| for (ClauseListNode* list = m_list2; list; list = list->getNext()) { |
| generator.emitLabel(labelVector[i++].get()); |
| 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 ----------------------------------- |
| |
| RegisterID* SwitchNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| RefPtr<LabelScope> scope = generator.newLabelScope(LabelScope::Switch); |
| |
| RefPtr<RegisterID> r0 = generator.emitNode(m_expr); |
| RegisterID* r1 = m_block->emitBytecodeForBlock(generator, r0.get(), dst); |
| |
| generator.emitLabel(scope->breakTarget()); |
| return r1; |
| } |
| |
| // ------------------------------ LabelNode ------------------------------------ |
| |
| RegisterID* LabelNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| 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); |
| |
| generator.emitLabel(scope->breakTarget()); |
| return r0; |
| } |
| |
| // ------------------------------ ThrowNode ------------------------------------ |
| |
| RegisterID* ThrowNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| if (dst == generator.ignoredResult()) |
| dst = 0; |
| RefPtr<RegisterID> expr = generator.emitNode(m_expr); |
| generator.emitExpressionInfo(divot(), startOffset(), endOffset()); |
| generator.emitThrow(expr.get()); |
| return 0; |
| } |
| |
| // ------------------------------ TryNode -------------------------------------- |
| |
| RegisterID* TryNode::emitBytecode(BytecodeGenerator& generator, RegisterID* dst) |
| { |
| // NOTE: The catch and finally blocks must be labeled explicitly, so the |
| // optimizer knows they may be jumped to from anywhere. |
| |
| generator.emitDebugHook(WillExecuteStatement, firstLine(), lastLine()); |
| |
| RefPtr<Label> tryStartLabel = 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); |
| |
| if (m_catchBlock) { |
| RefPtr<Label> catchEndLabel = generator.newLabel(); |
| |
| // Normal path: jump over the catch block. |
| generator.emitJump(catchEndLabel.get()); |
| |
| // Uncaught exception path: the catch block. |
| RefPtr<Label> here = generator.emitLabel(generator.newLabel().get()); |
| RefPtr<RegisterID> exceptionRegister = generator.emitCatch(generator.newTemporary(), tryStartLabel.get(), here.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); |
| generator.emitPopScope(); |
| generator.emitLabel(catchEndLabel.get()); |
| } |
| |
| if (m_finallyBlock) { |
| generator.popFinallyContext(); |
| // there may be important registers live at the time we jump |
| // to a finally block (such as for a return or throw) so we |
| // ref the highest register ever used as a conservative |
| // approach to not clobbering anything important |
| RefPtr<RegisterID> highestUsedRegister = generator.highestUsedRegister(); |
| RefPtr<Label> finallyEndLabel = generator.newLabel(); |
| |
| // Normal path: invoke the finally block, then jump over it. |
| generator.emitJumpSubroutine(finallyReturnAddr.get(), finallyStart.get()); |
| generator.emitJump(finallyEndLabel.get()); |
| |
| // Uncaught exception path: invoke the finally block, then re-throw the exception. |
| RefPtr<Label> here = generator.emitLabel(generator.newLabel().get()); |
| RefPtr<RegisterID> tempExceptionRegister = generator.emitCatch(generator.newTemporary(), tryStartLabel.get(), here.get()); |
| generator.emitJumpSubroutine(finallyReturnAddr.get(), finallyStart.get()); |
| generator.emitThrow(tempExceptionRegister.get()); |
| |
| // The finally block. |
| generator.emitLabel(finallyStart.get()); |
| generator.emitNode(dst, m_finallyBlock); |
| generator.emitSubroutineReturn(finallyReturnAddr.get()); |
| |
| generator.emitLabel(finallyEndLabel.get()); |
| } |
| |
| return dst; |
| } |
| |
| // -----------------------------ScopeNodeData --------------------------- |
| |
| ScopeNodeData::ScopeNodeData(ParserArena& arena, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, int numConstants) |
| : m_numConstants(numConstants) |
| { |
| m_arena.swap(arena); |
| if (varStack) |
| m_varStack.swap(*varStack); |
| if (funcStack) |
| m_functionStack.swap(*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::ScopeNode(JSGlobalData* globalData) |
| : StatementNode(globalData) |
| , ParserArenaRefCounted(globalData) |
| , m_features(NoFeatures) |
| { |
| #if ENABLE(CODEBLOCK_SAMPLING) |
| if (SamplingTool* sampler = globalData->interpreter->sampler()) |
| sampler->notifyOfScope(this); |
| #endif |
| } |
| |
| ScopeNode::ScopeNode(JSGlobalData* globalData, const SourceCode& source, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, CodeFeatures features, int numConstants) |
| : StatementNode(globalData) |
| , ParserArenaRefCounted(globalData) |
| , m_data(new ScopeNodeData(globalData->parser->arena(), children, varStack, funcStack, numConstants)) |
| , m_features(features) |
| , m_source(source) |
| { |
| #if ENABLE(CODEBLOCK_SAMPLING) |
| if (SamplingTool* sampler = globalData->interpreter->sampler()) |
| sampler->notifyOfScope(this); |
| #endif |
| } |
| |
| // ------------------------------ ProgramNode ----------------------------- |
| |
| inline 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) |
| { |
| } |
| |
| PassRefPtr<ProgramNode> ProgramNode::create(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& source, CodeFeatures features, int numConstants) |
| { |
| RefPtr<ProgramNode> node = new ProgramNode(globalData, children, varStack, funcStack, source, features, numConstants); |
| |
| ASSERT(node->data()->m_arena.last() == node); |
| node->data()->m_arena.removeLast(); |
| ASSERT(!node->data()->m_arena.contains(node.get())); |
| |
| return node.release(); |
| } |
| |
| 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())); |
| |
| OwnPtr<BytecodeGenerator> generator(new BytecodeGenerator(this, globalObject->debugger(), scopeChain, &globalObject->symbolTable(), m_code.get())); |
| generator->generate(); |
| |
| destroyData(); |
| } |
| |
| #if ENABLE(JIT) |
| void ProgramNode::generateJITCode(ScopeChainNode* scopeChainNode) |
| { |
| bytecode(scopeChainNode); |
| ASSERT(m_code); |
| ASSERT(!m_jitCode); |
| JIT::compile(scopeChainNode->globalData, m_code.get()); |
| ASSERT(m_jitCode); |
| } |
| #endif |
| |
| // ------------------------------ EvalNode ----------------------------- |
| |
| inline 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) |
| { |
| } |
| |
| PassRefPtr<EvalNode> EvalNode::create(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& source, CodeFeatures features, int numConstants) |
| { |
| RefPtr<EvalNode> node = new EvalNode(globalData, children, varStack, funcStack, source, features, numConstants); |
| |
| ASSERT(node->data()->m_arena.last() == node); |
| node->data()->m_arena.removeLast(); |
| ASSERT(!node->data()->m_arena.contains(node.get())); |
| |
| return node.release(); |
| } |
| |
| 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())); |
| |
| OwnPtr<BytecodeGenerator> generator(new BytecodeGenerator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get())); |
| generator->generate(); |
| |
| // Eval code needs to hang on to its declaration stacks to keep declaration info alive until Interpreter::execute time, |
| // so the entire ScopeNodeData cannot be destoyed. |
| 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())); |
| |
| OwnPtr<BytecodeGenerator> generator(new BytecodeGenerator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get())); |
| generator->setRegeneratingForExceptionInfo(codeBlockBeingRegeneratedFrom); |
| generator->generate(); |
| |
| return *m_code; |
| } |
| |
| void EvalNode::mark() |
| { |
| // We don't need to mark our own CodeBlock as the JSGlobalObject takes care of that |
| data()->mark(); |
| } |
| |
| #if ENABLE(JIT) |
| void EvalNode::generateJITCode(ScopeChainNode* scopeChainNode) |
| { |
| bytecode(scopeChainNode); |
| ASSERT(m_code); |
| ASSERT(!m_jitCode); |
| JIT::compile(scopeChainNode->globalData, m_code.get()); |
| ASSERT(m_jitCode); |
| } |
| #endif |
| |
| // ------------------------------ FunctionBodyNode ----------------------------- |
| |
| inline FunctionBodyNode::FunctionBodyNode(JSGlobalData* globalData) |
| : ScopeNode(globalData) |
| , m_parameters(0) |
| , m_parameterCount(0) |
| { |
| } |
| |
| inline 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) |
| { |
| } |
| |
| FunctionBodyNode::~FunctionBodyNode() |
| { |
| 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(); |
| } |
| |
| #if ENABLE(JIT) |
| PassRefPtr<FunctionBodyNode> FunctionBodyNode::createNativeThunk(JSGlobalData* globalData) |
| { |
| RefPtr<FunctionBodyNode> body = new FunctionBodyNode(globalData); |
| globalData->parser->arena().reset(); |
| body->m_code.set(new CodeBlock(body.get())); |
| body->m_jitCode = JITCode(JITCode::HostFunction(globalData->jitStubs.ctiNativeCallThunk())); |
| return body.release(); |
| } |
| #endif |
| |
| bool FunctionBodyNode::isHostFunction() const |
| { |
| return m_code && m_code->codeType() == NativeCode; |
| } |
| |
| FunctionBodyNode* FunctionBodyNode::create(JSGlobalData* globalData) |
| { |
| return new FunctionBodyNode(globalData); |
| } |
| |
| PassRefPtr<FunctionBodyNode> FunctionBodyNode::create(JSGlobalData* globalData, SourceElements* children, VarStack* varStack, FunctionStack* funcStack, const SourceCode& sourceCode, CodeFeatures features, int numConstants) |
| { |
| RefPtr<FunctionBodyNode> node = new FunctionBodyNode(globalData, children, varStack, funcStack, sourceCode, features, numConstants); |
| |
| ASSERT(node->data()->m_arena.last() == node); |
| node->data()->m_arena.removeLast(); |
| ASSERT(!node->data()->m_arena.contains(node.get())); |
| |
| return node.release(); |
| } |
| |
| void FunctionBodyNode::generateBytecode(ScopeChainNode* scopeChainNode) |
| { |
| // This branch is only necessary since you can still create a non-stub FunctionBodyNode by |
| // calling Parser::parse<FunctionBodyNode>(). |
| 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())); |
| |
| OwnPtr<BytecodeGenerator> generator(new BytecodeGenerator(this, globalObject->debugger(), scopeChain, &m_code->symbolTable(), m_code.get())); |
| generator->generate(); |
| |
| destroyData(); |
| } |
| |
| #if ENABLE(JIT) |
| void FunctionBodyNode::generateJITCode(ScopeChainNode* scopeChainNode) |
| { |
| bytecode(scopeChainNode); |
| ASSERT(m_code); |
| ASSERT(!m_jitCode); |
| JIT::compile(scopeChainNode->globalData, m_code.get()); |
| ASSERT(m_jitCode); |
| } |
| #endif |
| |
| 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())); |
| |
| OwnPtr<BytecodeGenerator> generator(new BytecodeGenerator(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()); |
| 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 --------------------------------- |
| |
| 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 --------------------------------- |
| |
| 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); |
| |
| /* |
| The Identifier in a FunctionExpression can be referenced from inside |
| the FunctionExpression's FunctionBody to allow the function to call |
| itself recursively. However, unlike in a FunctionDeclaration, the |
| Identifier in a FunctionExpression cannot be referenced from and |
| does not affect the scope enclosing the FunctionExpression. |
| */ |
| |
| if (!m_ident.isNull()) { |
| JSStaticScopeObject* functionScopeObject = new (exec) JSStaticScopeObject(exec, m_ident, func, ReadOnly | DontDelete); |
| func->scope().push(functionScopeObject); |
| } |
| |
| return func; |
| } |
| |
| } // namespace JSC |