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9dae56ea 1/*
6fe7ccc8 2 * Copyright (C) 2008, 2009, 2012 Apple Inc. All rights reserved.
9dae56ea
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3 * Copyright (C) 2008 Cameron Zwarich <cwzwarich@uwaterloo.ca>
4 *
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
7 * are met:
8 *
9 * 1. Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * 2. Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of
15 * its contributors may be used to endorse or promote products derived
16 * from this software without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
19 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
20 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
21 * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
22 * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
23 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
24 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
25 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
27 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28 */
29
30#ifndef BytecodeGenerator_h
31#define BytecodeGenerator_h
32
33#include "CodeBlock.h"
6fe7ccc8 34#include <wtf/HashTraits.h>
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35#include "Instruction.h"
36#include "Label.h"
37#include "LabelScope.h"
38#include "Interpreter.h"
39#include "RegisterID.h"
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40#include "SymbolTable.h"
41#include "Debugger.h"
42#include "Nodes.h"
43#include <wtf/PassRefPtr.h>
ba379fdc 44#include <wtf/SegmentedVector.h>
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45#include <wtf/Vector.h>
46
47namespace JSC {
48
49 class Identifier;
6fe7ccc8 50 class Label;
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51 class ScopeChainNode;
52
53 class CallArguments {
54 public:
55 CallArguments(BytecodeGenerator& generator, ArgumentsNode* argumentsNode);
56
57 RegisterID* thisRegister() { return m_argv[0].get(); }
58 RegisterID* argumentRegister(unsigned i) { return m_argv[i + 1].get(); }
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59 unsigned registerOffset() { return m_argv.last()->index() + CallFrame::offsetFor(argumentCountIncludingThis()); }
60 unsigned argumentCountIncludingThis() { return m_argv.size(); }
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61 RegisterID* profileHookRegister() { return m_profileHookRegister.get(); }
62 ArgumentsNode* argumentsNode() { return m_argumentsNode; }
63
64 private:
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65 void newArgument(BytecodeGenerator&);
66
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67 RefPtr<RegisterID> m_profileHookRegister;
68 ArgumentsNode* m_argumentsNode;
6fe7ccc8 69 Vector<RefPtr<RegisterID>, 8> m_argv;
14957cd0 70 };
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71
72 struct FinallyContext {
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73 StatementNode* finallyBlock;
74 unsigned scopeContextStackSize;
75 unsigned switchContextStackSize;
76 unsigned forInContextStackSize;
77 unsigned labelScopesSize;
78 int finallyDepth;
79 int dynamicScopeDepth;
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80 };
81
82 struct ControlFlowContext {
83 bool isFinallyBlock;
84 FinallyContext finallyContext;
85 };
86
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87 struct ForInContext {
88 RefPtr<RegisterID> expectedSubscriptRegister;
89 RefPtr<RegisterID> iterRegister;
90 RefPtr<RegisterID> indexRegister;
91 RefPtr<RegisterID> propertyRegister;
92 };
93
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94 class BytecodeGenerator {
95 WTF_MAKE_FAST_ALLOCATED;
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96 public:
97 typedef DeclarationStacks::VarStack VarStack;
98 typedef DeclarationStacks::FunctionStack FunctionStack;
99
6fe7ccc8 100 JS_EXPORT_PRIVATE static void setDumpsGeneratedCode(bool dumpsGeneratedCode);
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101 static bool dumpsGeneratedCode();
102
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103 BytecodeGenerator(ProgramNode*, ScopeChainNode*, SymbolTable*, ProgramCodeBlock*, CompilationKind);
104 BytecodeGenerator(FunctionBodyNode*, ScopeChainNode*, SymbolTable*, CodeBlock*, CompilationKind);
105 BytecodeGenerator(EvalNode*, ScopeChainNode*, SymbolTable*, EvalCodeBlock*, CompilationKind);
9dae56ea 106
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107 ~BytecodeGenerator();
108
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109 JSGlobalData* globalData() const { return m_globalData; }
110 const CommonIdentifiers& propertyNames() const { return *m_globalData->propertyNames; }
111
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112 bool isConstructor() { return m_codeBlock->m_isConstructor; }
113
114 JSObject* generate();
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115
116 // Returns the register corresponding to a local variable, or 0 if no
117 // such register exists. Registers returned by registerFor do not
118 // require explicit reference counting.
119 RegisterID* registerFor(const Identifier&);
14957cd0 120
6fe7ccc8 121 bool isArgumentNumber(const Identifier&, int);
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122
123 void setIsNumericCompareFunction(bool isNumericCompareFunction);
124
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125 bool willResolveToArguments(const Identifier&);
126 RegisterID* uncheckedRegisterForArguments();
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127
128 // Behaves as registerFor does, but ignores dynamic scope as
129 // dynamic scope should not interfere with const initialisation
130 RegisterID* constRegisterFor(const Identifier&);
131
132 // Searches the scope chain in an attempt to statically locate the requested
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133 // property. Returns false if for any reason the property cannot be safely
134 // optimised at all. Otherwise it will return the index and depth of the
135 // VariableObject that defines the property. If the property cannot be found
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136 // statically, depth will contain the depth of the scope chain where dynamic
137 // lookup must begin.
4e4e5a6f 138 bool findScopedProperty(const Identifier&, int& index, size_t& depth, bool forWriting, bool& includesDynamicScopes, JSObject*& globalObject);
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139
140 // Returns the register storing "this"
141 RegisterID* thisRegister() { return &m_thisRegister; }
142
143 bool isLocal(const Identifier&);
144 bool isLocalConstant(const Identifier&);
145
146 // Returns the next available temporary register. Registers returned by
147 // newTemporary require a modified form of reference counting: any
148 // register with a refcount of 0 is considered "available", meaning that
149 // the next instruction may overwrite it.
150 RegisterID* newTemporary();
151
152 RegisterID* highestUsedRegister();
153
154 // The same as newTemporary(), but this function returns "suggestion" if
155 // "suggestion" is a temporary. This function is helpful in situations
156 // where you've put "suggestion" in a RefPtr, but you'd like to allow
157 // the next instruction to overwrite it anyway.
158 RegisterID* newTemporaryOr(RegisterID* suggestion) { return suggestion->isTemporary() ? suggestion : newTemporary(); }
159
160 // Functions for handling of dst register
161
162 RegisterID* ignoredResult() { return &m_ignoredResultRegister; }
163
164 // Returns a place to write intermediate values of an operation
165 // which reuses dst if it is safe to do so.
166 RegisterID* tempDestination(RegisterID* dst)
167 {
168 return (dst && dst != ignoredResult() && dst->isTemporary()) ? dst : newTemporary();
169 }
170
171 // Returns the place to write the final output of an operation.
172 RegisterID* finalDestination(RegisterID* originalDst, RegisterID* tempDst = 0)
173 {
174 if (originalDst && originalDst != ignoredResult())
175 return originalDst;
176 ASSERT(tempDst != ignoredResult());
177 if (tempDst && tempDst->isTemporary())
178 return tempDst;
179 return newTemporary();
180 }
181
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182 // Returns the place to write the final output of an operation.
183 RegisterID* finalDestinationOrIgnored(RegisterID* originalDst, RegisterID* tempDst = 0)
184 {
185 if (originalDst)
186 return originalDst;
187 ASSERT(tempDst != ignoredResult());
188 if (tempDst && tempDst->isTemporary())
189 return tempDst;
190 return newTemporary();
191 }
192
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193 RegisterID* destinationForAssignResult(RegisterID* dst)
194 {
195 if (dst && dst != ignoredResult() && m_codeBlock->needsFullScopeChain())
196 return dst->isTemporary() ? dst : newTemporary();
197 return 0;
198 }
199
200 // Moves src to dst if dst is not null and is different from src, otherwise just returns src.
201 RegisterID* moveToDestinationIfNeeded(RegisterID* dst, RegisterID* src)
202 {
203 return dst == ignoredResult() ? 0 : (dst && dst != src) ? emitMove(dst, src) : src;
204 }
205
206 PassRefPtr<LabelScope> newLabelScope(LabelScope::Type, const Identifier* = 0);
207 PassRefPtr<Label> newLabel();
208
209 // The emitNode functions are just syntactic sugar for calling
210 // Node::emitCode. These functions accept a 0 for the register,
211 // meaning that the node should allocate a register, or ignoredResult(),
212 // meaning that the node need not put the result in a register.
213 // Other emit functions do not accept 0 or ignoredResult().
214 RegisterID* emitNode(RegisterID* dst, Node* n)
215 {
216 // Node::emitCode assumes that dst, if provided, is either a local or a referenced temporary.
217 ASSERT(!dst || dst == ignoredResult() || !dst->isTemporary() || dst->refCount());
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218 addLineInfo(n->lineNo());
219 return m_stack.recursionCheck()
220 ? n->emitBytecode(*this, dst)
221 : emitThrowExpressionTooDeepException();
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222 }
223
224 RegisterID* emitNode(Node* n)
225 {
226 return emitNode(0, n);
227 }
228
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229 void emitNodeInConditionContext(ExpressionNode* n, Label* trueTarget, Label* falseTarget, bool fallThroughMeansTrue)
230 {
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231 addLineInfo(n->lineNo());
232 if (m_stack.recursionCheck())
233 n->emitBytecodeInConditionContext(*this, trueTarget, falseTarget, fallThroughMeansTrue);
234 else
f9bf01c6 235 emitThrowExpressionTooDeepException();
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236 }
237
9dae56ea 238 void emitExpressionInfo(unsigned divot, unsigned startOffset, unsigned endOffset)
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239 {
240 if (!m_shouldEmitRichSourceInfo)
241 return;
242
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243 divot -= m_codeBlock->sourceOffset();
244 if (divot > ExpressionRangeInfo::MaxDivot) {
245 // Overflow has occurred, we can only give line number info for errors for this region
246 divot = 0;
247 startOffset = 0;
248 endOffset = 0;
249 } else if (startOffset > ExpressionRangeInfo::MaxOffset) {
250 // If the start offset is out of bounds we clear both offsets
251 // so we only get the divot marker. Error message will have to be reduced
252 // to line and column number.
253 startOffset = 0;
254 endOffset = 0;
255 } else if (endOffset > ExpressionRangeInfo::MaxOffset) {
256 // The end offset is only used for additional context, and is much more likely
257 // to overflow (eg. function call arguments) so we are willing to drop it without
258 // dropping the rest of the range.
259 endOffset = 0;
260 }
261
262 ExpressionRangeInfo info;
263 info.instructionOffset = instructions().size();
264 info.divotPoint = divot;
265 info.startOffset = startOffset;
266 info.endOffset = endOffset;
267 m_codeBlock->addExpressionInfo(info);
268 }
269
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270 ALWAYS_INLINE bool leftHandSideNeedsCopy(bool rightHasAssignments, bool rightIsPure)
271 {
272 return (m_codeType != FunctionCode || m_codeBlock->needsFullScopeChain() || rightHasAssignments) && !rightIsPure;
273 }
274
275 ALWAYS_INLINE PassRefPtr<RegisterID> emitNodeForLeftHandSide(ExpressionNode* n, bool rightHasAssignments, bool rightIsPure)
276 {
277 if (leftHandSideNeedsCopy(rightHasAssignments, rightIsPure)) {
278 PassRefPtr<RegisterID> dst = newTemporary();
279 emitNode(dst.get(), n);
280 return dst;
281 }
282
6fe7ccc8 283 return emitNode(n);
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284 }
285
286 RegisterID* emitLoad(RegisterID* dst, bool);
287 RegisterID* emitLoad(RegisterID* dst, double);
288 RegisterID* emitLoad(RegisterID* dst, const Identifier&);
ba379fdc 289 RegisterID* emitLoad(RegisterID* dst, JSValue);
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290
291 RegisterID* emitUnaryOp(OpcodeID, RegisterID* dst, RegisterID* src);
292 RegisterID* emitBinaryOp(OpcodeID, RegisterID* dst, RegisterID* src1, RegisterID* src2, OperandTypes);
293 RegisterID* emitEqualityOp(OpcodeID, RegisterID* dst, RegisterID* src1, RegisterID* src2);
294 RegisterID* emitUnaryNoDstOp(OpcodeID, RegisterID* src);
295
296 RegisterID* emitNewObject(RegisterID* dst);
14957cd0 297 RegisterID* emitNewArray(RegisterID* dst, ElementNode*, unsigned length); // stops at first elision
9dae56ea 298
f9bf01c6 299 RegisterID* emitNewFunction(RegisterID* dst, FunctionBodyNode* body);
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300 RegisterID* emitLazyNewFunction(RegisterID* dst, FunctionBodyNode* body);
301 RegisterID* emitNewFunctionInternal(RegisterID* dst, unsigned index, bool shouldNullCheck);
9dae56ea 302 RegisterID* emitNewFunctionExpression(RegisterID* dst, FuncExprNode* func);
14957cd0 303 RegisterID* emitNewRegExp(RegisterID* dst, RegExp*);
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304
305 RegisterID* emitMove(RegisterID* dst, RegisterID* src);
306
307 RegisterID* emitToJSNumber(RegisterID* dst, RegisterID* src) { return emitUnaryOp(op_to_jsnumber, dst, src); }
308 RegisterID* emitPreInc(RegisterID* srcDst);
309 RegisterID* emitPreDec(RegisterID* srcDst);
310 RegisterID* emitPostInc(RegisterID* dst, RegisterID* srcDst);
311 RegisterID* emitPostDec(RegisterID* dst, RegisterID* srcDst);
312
14957cd0 313 void emitCheckHasInstance(RegisterID* base);
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314 RegisterID* emitInstanceOf(RegisterID* dst, RegisterID* value, RegisterID* base, RegisterID* basePrototype);
315 RegisterID* emitTypeOf(RegisterID* dst, RegisterID* src) { return emitUnaryOp(op_typeof, dst, src); }
316 RegisterID* emitIn(RegisterID* dst, RegisterID* property, RegisterID* base) { return emitBinaryOp(op_in, dst, property, base, OperandTypes()); }
317
318 RegisterID* emitResolve(RegisterID* dst, const Identifier& property);
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319 RegisterID* emitGetScopedVar(RegisterID* dst, size_t skip, int index, JSValue globalObject);
320 RegisterID* emitPutScopedVar(size_t skip, int index, RegisterID* value, JSValue globalObject);
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321
322 RegisterID* emitResolveBase(RegisterID* dst, const Identifier& property);
14957cd0 323 RegisterID* emitResolveBaseForPut(RegisterID* dst, const Identifier& property);
9dae56ea 324 RegisterID* emitResolveWithBase(RegisterID* baseDst, RegisterID* propDst, const Identifier& property);
6fe7ccc8 325 RegisterID* emitResolveWithThis(RegisterID* baseDst, RegisterID* propDst, const Identifier& property);
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326
327 void emitMethodCheck();
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328
329 RegisterID* emitGetById(RegisterID* dst, RegisterID* base, const Identifier& property);
14957cd0 330 RegisterID* emitGetArgumentsLength(RegisterID* dst, RegisterID* base);
9dae56ea 331 RegisterID* emitPutById(RegisterID* base, const Identifier& property, RegisterID* value);
4e4e5a6f 332 RegisterID* emitDirectPutById(RegisterID* base, const Identifier& property, RegisterID* value);
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333 RegisterID* emitDeleteById(RegisterID* dst, RegisterID* base, const Identifier&);
334 RegisterID* emitGetByVal(RegisterID* dst, RegisterID* base, RegisterID* property);
14957cd0 335 RegisterID* emitGetArgumentByVal(RegisterID* dst, RegisterID* base, RegisterID* property);
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336 RegisterID* emitPutByVal(RegisterID* base, RegisterID* property, RegisterID* value);
337 RegisterID* emitDeleteByVal(RegisterID* dst, RegisterID* base, RegisterID* property);
338 RegisterID* emitPutByIndex(RegisterID* base, unsigned index, RegisterID* value);
6fe7ccc8 339 void emitPutGetterSetter(RegisterID* base, const Identifier& property, RegisterID* getter, RegisterID* setter);
9dae56ea 340
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341 RegisterID* emitCall(RegisterID* dst, RegisterID* func, CallArguments&, unsigned divot, unsigned startOffset, unsigned endOffset);
342 RegisterID* emitCallEval(RegisterID* dst, RegisterID* func, CallArguments&, unsigned divot, unsigned startOffset, unsigned endOffset);
6fe7ccc8 343 RegisterID* emitCallVarargs(RegisterID* dst, RegisterID* func, RegisterID* thisRegister, RegisterID* arguments, RegisterID* firstFreeRegister, RegisterID* profileHookRegister, unsigned divot, unsigned startOffset, unsigned endOffset);
14957cd0 344 RegisterID* emitLoadVarargs(RegisterID* argCountDst, RegisterID* thisRegister, RegisterID* args);
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345
346 RegisterID* emitReturn(RegisterID* src);
347 RegisterID* emitEnd(RegisterID* src) { return emitUnaryNoDstOp(op_end, src); }
348
14957cd0 349 RegisterID* emitConstruct(RegisterID* dst, RegisterID* func, CallArguments&, unsigned divot, unsigned startOffset, unsigned endOffset);
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350 RegisterID* emitStrcat(RegisterID* dst, RegisterID* src, int count);
351 void emitToPrimitive(RegisterID* dst, RegisterID* src);
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352
353 PassRefPtr<Label> emitLabel(Label*);
6fe7ccc8 354 void emitLoopHint();
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355 PassRefPtr<Label> emitJump(Label* target);
356 PassRefPtr<Label> emitJumpIfTrue(RegisterID* cond, Label* target);
357 PassRefPtr<Label> emitJumpIfFalse(RegisterID* cond, Label* target);
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358 PassRefPtr<Label> emitJumpIfNotFunctionCall(RegisterID* cond, Label* target);
359 PassRefPtr<Label> emitJumpIfNotFunctionApply(RegisterID* cond, Label* target);
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360 PassRefPtr<Label> emitJumpScopes(Label* target, int targetScopeDepth);
361
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362 RegisterID* emitGetPropertyNames(RegisterID* dst, RegisterID* base, RegisterID* i, RegisterID* size, Label* breakTarget);
363 RegisterID* emitNextPropertyName(RegisterID* dst, RegisterID* base, RegisterID* i, RegisterID* size, RegisterID* iter, Label* target);
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364
365 RegisterID* emitCatch(RegisterID*, Label* start, Label* end);
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366 void emitThrow(RegisterID* exc)
367 {
368 m_usesExceptions = true;
369 emitUnaryNoDstOp(op_throw, exc);
370 }
371
372 void emitThrowReferenceError(const UString& message);
373
f9bf01c6 374 void emitPushNewScope(RegisterID* dst, const Identifier& property, RegisterID* value);
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375
376 RegisterID* emitPushScope(RegisterID* scope);
377 void emitPopScope();
378
379 void emitDebugHook(DebugHookID, int firstLine, int lastLine);
380
381 int scopeDepth() { return m_dynamicScopeDepth + m_finallyDepth; }
382 bool hasFinaliser() { return m_finallyDepth != 0; }
383
6fe7ccc8 384 void pushFinallyContext(StatementNode* finallyBlock);
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385 void popFinallyContext();
386
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387 void pushOptimisedForIn(RegisterID* expectedBase, RegisterID* iter, RegisterID* index, RegisterID* propertyRegister)
388 {
389 ForInContext context = { expectedBase, iter, index, propertyRegister };
390 m_forInContextStack.append(context);
391 }
392
393 void popOptimisedForIn()
394 {
395 m_forInContextStack.removeLast();
396 }
397
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398 LabelScope* breakTarget(const Identifier&);
399 LabelScope* continueTarget(const Identifier&);
400
401 void beginSwitch(RegisterID*, SwitchInfo::SwitchType);
402 void endSwitch(uint32_t clauseCount, RefPtr<Label>*, ExpressionNode**, Label* defaultLabel, int32_t min, int32_t range);
403
404 CodeType codeType() const { return m_codeType; }
405
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406 bool shouldEmitProfileHooks() { return m_shouldEmitProfileHooks; }
407
408 bool isStrictMode() const { return m_codeBlock->isStrictMode(); }
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409
410 ScopeChainNode* scopeChain() const { return m_scopeChain.get(); }
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411
412 private:
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413 friend class Label;
414
9dae56ea 415 void emitOpcode(OpcodeID);
6fe7ccc8 416 ValueProfile* emitProfiledOpcode(OpcodeID);
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417 void retrieveLastBinaryOp(int& dstIndex, int& src1Index, int& src2Index);
418 void retrieveLastUnaryOp(int& dstIndex, int& srcIndex);
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419 ALWAYS_INLINE void rewindBinaryOp();
420 ALWAYS_INLINE void rewindUnaryOp();
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421
422 PassRefPtr<Label> emitComplexJumpScopes(Label* target, ControlFlowContext* topScope, ControlFlowContext* bottomScope);
423
ba379fdc 424 typedef HashMap<double, JSValue> NumberMap;
14957cd0 425 typedef HashMap<StringImpl*, JSString*, IdentifierRepHash> IdentifierStringMap;
9dae56ea 426
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427 RegisterID* emitCall(OpcodeID, RegisterID* dst, RegisterID* func, CallArguments&, unsigned divot, unsigned startOffset, unsigned endOffset);
428
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429 RegisterID* newRegister();
430
14957cd0 431 // Adds a var slot and maps it to the name ident in symbolTable().
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432 RegisterID* addVar(const Identifier& ident, bool isConstant)
433 {
434 RegisterID* local;
435 addVar(ident, isConstant, local);
436 return local;
437 }
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438
439 // Ditto. Returns true if a new RegisterID was added, false if a pre-existing RegisterID was re-used.
9dae56ea 440 bool addVar(const Identifier&, bool isConstant, RegisterID*&);
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441
442 // Adds an anonymous var slot. To give this slot a name, add it to symbolTable().
443 RegisterID* addVar()
444 {
445 ++m_codeBlock->m_numVars;
446 return newRegister();
447 }
9dae56ea 448
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449 // Returns the index of the added var.
450 int addGlobalVar(const Identifier&, bool isConstant);
9dae56ea 451
14957cd0 452 void addParameter(const Identifier&, int parameterIndex);
9dae56ea 453
ba379fdc 454 void preserveLastVar();
14957cd0 455 bool shouldAvoidResolveGlobal();
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456
457 RegisterID& registerFor(int index)
458 {
459 if (index >= 0)
460 return m_calleeRegisters[index];
461
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462 ASSERT(m_parameters.size());
463 return m_parameters[index + m_parameters.size() + RegisterFile::CallFrameHeaderSize];
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464 }
465
9dae56ea 466 unsigned addConstant(const Identifier&);
ba379fdc 467 RegisterID* addConstantValue(JSValue);
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468 unsigned addRegExp(RegExp*);
469
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470 unsigned addConstantBuffer(unsigned length);
471
472 FunctionExecutable* makeFunction(ExecState* exec, FunctionBodyNode* body)
f9bf01c6 473 {
6fe7ccc8 474 return FunctionExecutable::create(exec, body->ident(), body->inferredName(), body->source(), body->usesArguments(), body->parameters(), body->isStrictMode(), body->lineNo(), body->lastLine());
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475 }
476
14957cd0 477 FunctionExecutable* makeFunction(JSGlobalData* globalData, FunctionBodyNode* body)
f9bf01c6 478 {
6fe7ccc8 479 return FunctionExecutable::create(*globalData, body->ident(), body->inferredName(), body->source(), body->usesArguments(), body->parameters(), body->isStrictMode(), body->lineNo(), body->lastLine());
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480 }
481
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482 JSString* addStringConstant(const Identifier&);
483
484 void addLineInfo(unsigned lineNo)
485 {
486#if !ENABLE(OPCODE_SAMPLING)
487 if (m_shouldEmitRichSourceInfo)
488#endif
489 m_codeBlock->addLineInfo(instructions().size(), lineNo);
490 }
491
492 RegisterID* emitInitLazyRegister(RegisterID*);
493
6fe7ccc8 494 Vector<Instruction>& instructions() { return m_instructions; }
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495 SymbolTable& symbolTable() { return *m_symbolTable; }
496
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497 bool shouldOptimizeLocals()
498 {
499 if (m_dynamicScopeDepth)
500 return false;
501
502 if (m_codeType != FunctionCode)
503 return false;
504
505 return true;
506 }
507
508 bool canOptimizeNonLocals()
509 {
510 if (m_dynamicScopeDepth)
511 return false;
512
513 if (m_codeType == EvalCode)
514 return false;
515
516 if (m_codeType == FunctionCode && m_codeBlock->usesEval())
517 return false;
518
519 return true;
520 }
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521
522 RegisterID* emitThrowExpressionTooDeepException();
523
ba379fdc 524 void createArgumentsIfNecessary();
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525 void createActivationIfNecessary();
526 RegisterID* createLazyRegisterIfNecessary(RegisterID*);
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527
528 Vector<Instruction> m_instructions;
ba379fdc 529
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530 bool m_shouldEmitDebugHooks;
531 bool m_shouldEmitProfileHooks;
14957cd0 532 bool m_shouldEmitRichSourceInfo;
9dae56ea 533
14957cd0 534 Strong<ScopeChainNode> m_scopeChain;
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535 SymbolTable* m_symbolTable;
536
537 ScopeNode* m_scopeNode;
538 CodeBlock* m_codeBlock;
539
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540 // Some of these objects keep pointers to one another. They are arranged
541 // to ensure a sane destruction order that avoids references to freed memory.
14957cd0 542 HashSet<RefPtr<StringImpl>, IdentifierRepHash> m_functions;
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543 RegisterID m_ignoredResultRegister;
544 RegisterID m_thisRegister;
14957cd0 545 RegisterID* m_activationRegister;
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546 SegmentedVector<RegisterID, 32> m_constantPoolRegisters;
547 SegmentedVector<RegisterID, 32> m_calleeRegisters;
548 SegmentedVector<RegisterID, 32> m_parameters;
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549 SegmentedVector<Label, 32> m_labels;
550 SegmentedVector<LabelScope, 8> m_labelScopes;
ba379fdc 551 RefPtr<RegisterID> m_lastVar;
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552 int m_finallyDepth;
553 int m_dynamicScopeDepth;
554 int m_baseScopeDepth;
555 CodeType m_codeType;
556
557 Vector<ControlFlowContext> m_scopeContextStack;
558 Vector<SwitchInfo> m_switchContextStack;
f9bf01c6 559 Vector<ForInContext> m_forInContextStack;
9dae56ea 560
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561 int m_firstConstantIndex;
562 int m_nextConstantOffset;
563 unsigned m_globalConstantIndex;
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564
565 int m_globalVarStorageOffset;
566
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567 bool m_hasCreatedActivation;
568 int m_firstLazyFunction;
569 int m_lastLazyFunction;
570 HashMap<unsigned int, FunctionBodyNode*, WTF::IntHash<unsigned int>, WTF::UnsignedWithZeroKeyHashTraits<unsigned int> > m_lazyFunctions;
571 typedef HashMap<FunctionBodyNode*, unsigned> FunctionOffsetMap;
572 FunctionOffsetMap m_functionOffsets;
573
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574 // Constant pool
575 IdentifierMap m_identifierMap;
576 JSValueMap m_jsValueMap;
577 NumberMap m_numberMap;
578 IdentifierStringMap m_stringMap;
579
580 JSGlobalData* m_globalData;
581
582 OpcodeID m_lastOpcodeID;
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583#ifndef NDEBUG
584 size_t m_lastOpcodePosition;
585#endif
9dae56ea 586
14957cd0 587 StackBounds m_stack;
9dae56ea 588
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589 bool m_usesExceptions;
590 bool m_expressionTooDeep;
b80e6193 591 };
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592}
593
594#endif // BytecodeGenerator_h