Unpoison MacroAssemblerCodePtr, ClassInfo pointers, and a few other things.
[WebKit-https.git] / Source / JavaScriptCore / dfg / DFGSpeculativeJIT.cpp
1 /*
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8  *    notice, this list of conditions and the following disclaimer.
9  * 2. Redistributions in binary form must reproduce the above copyright
10  *    notice, this list of conditions and the following disclaimer in the
11  *    documentation and/or other materials provided with the distribution.
12  *
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15  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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23  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 
24  */
25
26 #include "config.h"
27 #include "DFGSpeculativeJIT.h"
28
29 #if ENABLE(DFG_JIT)
30
31 #include "BinarySwitch.h"
32 #include "DFGAbstractInterpreterInlines.h"
33 #include "DFGArrayifySlowPathGenerator.h"
34 #include "DFGCallArrayAllocatorSlowPathGenerator.h"
35 #include "DFGCallCreateDirectArgumentsSlowPathGenerator.h"
36 #include "DFGCapabilities.h"
37 #include "DFGMayExit.h"
38 #include "DFGOSRExitFuzz.h"
39 #include "DFGSaneStringGetByValSlowPathGenerator.h"
40 #include "DFGSlowPathGenerator.h"
41 #include "DFGSnippetParams.h"
42 #include "DirectArguments.h"
43 #include "JITAddGenerator.h"
44 #include "JITBitAndGenerator.h"
45 #include "JITBitOrGenerator.h"
46 #include "JITBitXorGenerator.h"
47 #include "JITDivGenerator.h"
48 #include "JITLeftShiftGenerator.h"
49 #include "JITMulGenerator.h"
50 #include "JITRightShiftGenerator.h"
51 #include "JITSubGenerator.h"
52 #include "JSAsyncFunction.h"
53 #include "JSAsyncGeneratorFunction.h"
54 #include "JSCInlines.h"
55 #include "JSFixedArray.h"
56 #include "JSGeneratorFunction.h"
57 #include "JSImmutableButterfly.h"
58 #include "JSLexicalEnvironment.h"
59 #include "JSPropertyNameEnumerator.h"
60 #include "LinkBuffer.h"
61 #include "RegExpObject.h"
62 #include "ScopedArguments.h"
63 #include "ScratchRegisterAllocator.h"
64 #include "SuperSampler.h"
65 #include "TypeProfilerLog.h"
66 #include "WeakMapImpl.h"
67 #include <wtf/BitVector.h>
68 #include <wtf/Box.h>
69 #include <wtf/MathExtras.h>
70
71 namespace JSC { namespace DFG {
72
73 SpeculativeJIT::SpeculativeJIT(JITCompiler& jit)
74     : m_compileOkay(true)
75     , m_jit(jit)
76     , m_graph(m_jit.graph())
77     , m_currentNode(0)
78     , m_lastGeneratedNode(LastNodeType)
79     , m_indexInBlock(0)
80     , m_generationInfo(m_jit.graph().frameRegisterCount())
81     , m_state(m_jit.graph())
82     , m_interpreter(m_jit.graph(), m_state)
83     , m_stream(&jit.jitCode()->variableEventStream)
84     , m_minifiedGraph(&jit.jitCode()->minifiedDFG)
85 {
86 }
87
88 SpeculativeJIT::~SpeculativeJIT()
89 {
90 }
91
92 void SpeculativeJIT::emitAllocateRawObject(GPRReg resultGPR, RegisteredStructure structure, GPRReg storageGPR, unsigned numElements, unsigned vectorLength)
93 {
94     ASSERT(!isCopyOnWrite(structure->indexingMode()));
95     IndexingType indexingType = structure->indexingType();
96     bool hasIndexingHeader = hasIndexedProperties(indexingType);
97
98     unsigned inlineCapacity = structure->inlineCapacity();
99     unsigned outOfLineCapacity = structure->outOfLineCapacity();
100     
101     GPRTemporary scratch(this);
102     GPRTemporary scratch2(this);
103     GPRReg scratchGPR = scratch.gpr();
104     GPRReg scratch2GPR = scratch2.gpr();
105
106     ASSERT(vectorLength >= numElements);
107     vectorLength = Butterfly::optimalContiguousVectorLength(structure.get(), vectorLength);
108     
109     JITCompiler::JumpList slowCases;
110
111     size_t size = 0;
112     if (hasIndexingHeader)
113         size += vectorLength * sizeof(JSValue) + sizeof(IndexingHeader);
114     size += outOfLineCapacity * sizeof(JSValue);
115
116     m_jit.move(TrustedImmPtr(nullptr), storageGPR);
117
118     if (size) {
119         if (Allocator allocator = m_jit.vm()->jsValueGigacageAuxiliarySpace.allocatorForNonVirtual(size, AllocatorForMode::AllocatorIfExists)) {
120             m_jit.emitAllocate(storageGPR, JITAllocator::constant(allocator), scratchGPR, scratch2GPR, slowCases);
121             
122             m_jit.addPtr(
123                 TrustedImm32(outOfLineCapacity * sizeof(JSValue) + sizeof(IndexingHeader)),
124                 storageGPR);
125             
126             if (hasIndexingHeader)
127                 m_jit.store32(TrustedImm32(vectorLength), MacroAssembler::Address(storageGPR, Butterfly::offsetOfVectorLength()));
128         } else
129             slowCases.append(m_jit.jump());
130     }
131
132     size_t allocationSize = JSFinalObject::allocationSize(inlineCapacity);
133     Allocator allocator = allocatorForNonVirtualConcurrently<JSFinalObject>(*m_jit.vm(), allocationSize, AllocatorForMode::AllocatorIfExists);
134     if (allocator) {
135         emitAllocateJSObject(resultGPR, JITAllocator::constant(allocator), scratchGPR, TrustedImmPtr(structure), storageGPR, scratch2GPR, slowCases);
136         m_jit.emitInitializeInlineStorage(resultGPR, structure->inlineCapacity());
137     } else
138         slowCases.append(m_jit.jump());
139
140     // I want a slow path that also loads out the storage pointer, and that's
141     // what this custom CallArrayAllocatorSlowPathGenerator gives me. It's a lot
142     // of work for a very small piece of functionality. :-/
143     addSlowPathGenerator(std::make_unique<CallArrayAllocatorSlowPathGenerator>(
144         slowCases, this, operationNewRawObject, resultGPR, storageGPR,
145         structure, vectorLength));
146
147     if (numElements < vectorLength) {
148 #if USE(JSVALUE64)
149         if (hasDouble(structure->indexingType()))
150             m_jit.move(TrustedImm64(bitwise_cast<int64_t>(PNaN)), scratchGPR);
151         else
152             m_jit.move(TrustedImm64(JSValue::encode(JSValue())), scratchGPR);
153         for (unsigned i = numElements; i < vectorLength; ++i)
154             m_jit.store64(scratchGPR, MacroAssembler::Address(storageGPR, sizeof(double) * i));
155 #else
156         EncodedValueDescriptor value;
157         if (hasDouble(structure->indexingType()))
158             value.asInt64 = JSValue::encode(JSValue(JSValue::EncodeAsDouble, PNaN));
159         else
160             value.asInt64 = JSValue::encode(JSValue());
161         for (unsigned i = numElements; i < vectorLength; ++i) {
162             m_jit.store32(TrustedImm32(value.asBits.tag), MacroAssembler::Address(storageGPR, sizeof(double) * i + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
163             m_jit.store32(TrustedImm32(value.asBits.payload), MacroAssembler::Address(storageGPR, sizeof(double) * i + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
164         }
165 #endif
166     }
167     
168     if (hasIndexingHeader)
169         m_jit.store32(TrustedImm32(numElements), MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()));
170     
171     m_jit.emitInitializeOutOfLineStorage(storageGPR, structure->outOfLineCapacity());
172     
173     m_jit.mutatorFence(*m_jit.vm());
174 }
175
176 void SpeculativeJIT::emitGetLength(InlineCallFrame* inlineCallFrame, GPRReg lengthGPR, bool includeThis)
177 {
178     if (inlineCallFrame && !inlineCallFrame->isVarargs())
179         m_jit.move(TrustedImm32(inlineCallFrame->argumentCountIncludingThis - !includeThis), lengthGPR);
180     else {
181         VirtualRegister argumentCountRegister = m_jit.argumentCount(inlineCallFrame);
182         m_jit.load32(JITCompiler::payloadFor(argumentCountRegister), lengthGPR);
183         if (!includeThis)
184             m_jit.sub32(TrustedImm32(1), lengthGPR);
185     }
186 }
187
188 void SpeculativeJIT::emitGetLength(CodeOrigin origin, GPRReg lengthGPR, bool includeThis)
189 {
190     emitGetLength(origin.inlineCallFrame, lengthGPR, includeThis);
191 }
192
193 void SpeculativeJIT::emitGetCallee(CodeOrigin origin, GPRReg calleeGPR)
194 {
195     if (origin.inlineCallFrame) {
196         if (origin.inlineCallFrame->isClosureCall) {
197             m_jit.loadPtr(
198                 JITCompiler::addressFor(origin.inlineCallFrame->calleeRecovery.virtualRegister()),
199                 calleeGPR);
200         } else {
201             m_jit.move(
202                 TrustedImmPtr::weakPointer(m_jit.graph(), origin.inlineCallFrame->calleeRecovery.constant().asCell()),
203                 calleeGPR);
204         }
205     } else
206         m_jit.loadPtr(JITCompiler::addressFor(CallFrameSlot::callee), calleeGPR);
207 }
208
209 void SpeculativeJIT::emitGetArgumentStart(CodeOrigin origin, GPRReg startGPR)
210 {
211     m_jit.addPtr(
212         TrustedImm32(
213             JITCompiler::argumentsStart(origin).offset() * static_cast<int>(sizeof(Register))),
214         GPRInfo::callFrameRegister, startGPR);
215 }
216
217 MacroAssembler::Jump SpeculativeJIT::emitOSRExitFuzzCheck()
218 {
219     if (!Options::useOSRExitFuzz()
220         || !canUseOSRExitFuzzing(m_jit.graph().baselineCodeBlockFor(m_origin.semantic))
221         || !doOSRExitFuzzing())
222         return MacroAssembler::Jump();
223     
224     MacroAssembler::Jump result;
225     
226     m_jit.pushToSave(GPRInfo::regT0);
227     m_jit.load32(&g_numberOfOSRExitFuzzChecks, GPRInfo::regT0);
228     m_jit.add32(TrustedImm32(1), GPRInfo::regT0);
229     m_jit.store32(GPRInfo::regT0, &g_numberOfOSRExitFuzzChecks);
230     unsigned atOrAfter = Options::fireOSRExitFuzzAtOrAfter();
231     unsigned at = Options::fireOSRExitFuzzAt();
232     if (at || atOrAfter) {
233         unsigned threshold;
234         MacroAssembler::RelationalCondition condition;
235         if (atOrAfter) {
236             threshold = atOrAfter;
237             condition = MacroAssembler::Below;
238         } else {
239             threshold = at;
240             condition = MacroAssembler::NotEqual;
241         }
242         MacroAssembler::Jump ok = m_jit.branch32(
243             condition, GPRInfo::regT0, MacroAssembler::TrustedImm32(threshold));
244         m_jit.popToRestore(GPRInfo::regT0);
245         result = m_jit.jump();
246         ok.link(&m_jit);
247     }
248     m_jit.popToRestore(GPRInfo::regT0);
249     
250     return result;
251 }
252
253 void SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Node* node, MacroAssembler::Jump jumpToFail)
254 {
255     if (!m_compileOkay)
256         return;
257     JITCompiler::Jump fuzzJump = emitOSRExitFuzzCheck();
258     if (fuzzJump.isSet()) {
259         JITCompiler::JumpList jumpsToFail;
260         jumpsToFail.append(fuzzJump);
261         jumpsToFail.append(jumpToFail);
262         m_jit.appendExitInfo(jumpsToFail);
263     } else
264         m_jit.appendExitInfo(jumpToFail);
265     m_jit.jitCode()->appendOSRExit(OSRExit(kind, jsValueSource, m_jit.graph().methodOfGettingAValueProfileFor(m_currentNode, node), this, m_stream->size()));
266 }
267
268 void SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Node* node, const MacroAssembler::JumpList& jumpsToFail)
269 {
270     if (!m_compileOkay)
271         return;
272     JITCompiler::Jump fuzzJump = emitOSRExitFuzzCheck();
273     if (fuzzJump.isSet()) {
274         JITCompiler::JumpList myJumpsToFail;
275         myJumpsToFail.append(jumpsToFail);
276         myJumpsToFail.append(fuzzJump);
277         m_jit.appendExitInfo(myJumpsToFail);
278     } else
279         m_jit.appendExitInfo(jumpsToFail);
280     m_jit.jitCode()->appendOSRExit(OSRExit(kind, jsValueSource, m_jit.graph().methodOfGettingAValueProfileFor(m_currentNode, node), this, m_stream->size()));
281 }
282
283 OSRExitJumpPlaceholder SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Node* node)
284 {
285     if (!m_compileOkay)
286         return OSRExitJumpPlaceholder();
287     unsigned index = m_jit.jitCode()->osrExit.size();
288     m_jit.appendExitInfo();
289     m_jit.jitCode()->appendOSRExit(OSRExit(kind, jsValueSource, m_jit.graph().methodOfGettingAValueProfileFor(m_currentNode, node), this, m_stream->size()));
290     return OSRExitJumpPlaceholder(index);
291 }
292
293 OSRExitJumpPlaceholder SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Edge nodeUse)
294 {
295     return speculationCheck(kind, jsValueSource, nodeUse.node());
296 }
297
298 void SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Edge nodeUse, MacroAssembler::Jump jumpToFail)
299 {
300     speculationCheck(kind, jsValueSource, nodeUse.node(), jumpToFail);
301 }
302
303 void SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Edge nodeUse, const MacroAssembler::JumpList& jumpsToFail)
304 {
305     speculationCheck(kind, jsValueSource, nodeUse.node(), jumpsToFail);
306 }
307
308 void SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Node* node, MacroAssembler::Jump jumpToFail, const SpeculationRecovery& recovery)
309 {
310     if (!m_compileOkay)
311         return;
312     unsigned recoveryIndex = m_jit.jitCode()->appendSpeculationRecovery(recovery);
313     m_jit.appendExitInfo(jumpToFail);
314     m_jit.jitCode()->appendOSRExit(OSRExit(kind, jsValueSource, m_jit.graph().methodOfGettingAValueProfileFor(m_currentNode, node), this, m_stream->size(), recoveryIndex));
315 }
316
317 void SpeculativeJIT::speculationCheck(ExitKind kind, JSValueSource jsValueSource, Edge nodeUse, MacroAssembler::Jump jumpToFail, const SpeculationRecovery& recovery)
318 {
319     speculationCheck(kind, jsValueSource, nodeUse.node(), jumpToFail, recovery);
320 }
321
322 void SpeculativeJIT::emitInvalidationPoint(Node* node)
323 {
324     if (!m_compileOkay)
325         return;
326     OSRExitCompilationInfo& info = m_jit.appendExitInfo(JITCompiler::JumpList());
327     m_jit.jitCode()->appendOSRExit(OSRExit(
328         UncountableInvalidation, JSValueSource(), MethodOfGettingAValueProfile(),
329         this, m_stream->size()));
330     info.m_replacementSource = m_jit.watchpointLabel();
331     ASSERT(info.m_replacementSource.isSet());
332     noResult(node);
333 }
334
335 void SpeculativeJIT::unreachable(Node* node)
336 {
337     m_compileOkay = false;
338     m_jit.abortWithReason(DFGUnreachableNode, node->op());
339 }
340
341 void SpeculativeJIT::terminateSpeculativeExecution(ExitKind kind, JSValueRegs jsValueRegs, Node* node)
342 {
343     if (!m_compileOkay)
344         return;
345     speculationCheck(kind, jsValueRegs, node, m_jit.jump());
346     m_compileOkay = false;
347     if (verboseCompilationEnabled())
348         dataLog("Bailing compilation.\n");
349 }
350
351 void SpeculativeJIT::terminateSpeculativeExecution(ExitKind kind, JSValueRegs jsValueRegs, Edge nodeUse)
352 {
353     terminateSpeculativeExecution(kind, jsValueRegs, nodeUse.node());
354 }
355
356 void SpeculativeJIT::typeCheck(JSValueSource source, Edge edge, SpeculatedType typesPassedThrough, MacroAssembler::Jump jumpToFail, ExitKind exitKind)
357 {
358     ASSERT(needsTypeCheck(edge, typesPassedThrough));
359     m_interpreter.filter(edge, typesPassedThrough);
360     speculationCheck(exitKind, source, edge.node(), jumpToFail);
361 }
362
363 RegisterSet SpeculativeJIT::usedRegisters()
364 {
365     RegisterSet result;
366     
367     for (unsigned i = GPRInfo::numberOfRegisters; i--;) {
368         GPRReg gpr = GPRInfo::toRegister(i);
369         if (m_gprs.isInUse(gpr))
370             result.set(gpr);
371     }
372     for (unsigned i = FPRInfo::numberOfRegisters; i--;) {
373         FPRReg fpr = FPRInfo::toRegister(i);
374         if (m_fprs.isInUse(fpr))
375             result.set(fpr);
376     }
377     
378     // FIXME: This is overly conservative. We could subtract out those callee-saves that we
379     // actually saved.
380     // https://bugs.webkit.org/show_bug.cgi?id=185686
381     result.merge(RegisterSet::stubUnavailableRegisters());
382     
383     return result;
384 }
385
386 void SpeculativeJIT::addSlowPathGenerator(std::unique_ptr<SlowPathGenerator> slowPathGenerator)
387 {
388     m_slowPathGenerators.append(WTFMove(slowPathGenerator));
389 }
390
391 void SpeculativeJIT::addSlowPathGeneratorLambda(Function<void()>&& lambda)
392 {
393     m_slowPathLambdas.append(SlowPathLambda{ WTFMove(lambda), m_currentNode, static_cast<unsigned>(m_stream->size()) });
394 }
395
396 void SpeculativeJIT::runSlowPathGenerators(PCToCodeOriginMapBuilder& pcToCodeOriginMapBuilder)
397 {
398     for (auto& slowPathGenerator : m_slowPathGenerators) {
399         pcToCodeOriginMapBuilder.appendItem(m_jit.labelIgnoringWatchpoints(), slowPathGenerator->origin().semantic);
400         slowPathGenerator->generate(this);
401     }
402     for (auto& slowPathLambda : m_slowPathLambdas) {
403         Node* currentNode = slowPathLambda.currentNode;
404         m_currentNode = currentNode;
405         m_outOfLineStreamIndex = slowPathLambda.streamIndex;
406         pcToCodeOriginMapBuilder.appendItem(m_jit.labelIgnoringWatchpoints(), currentNode->origin.semantic);
407         slowPathLambda.generator();
408         m_outOfLineStreamIndex = WTF::nullopt;
409     }
410 }
411
412 void SpeculativeJIT::clearGenerationInfo()
413 {
414     for (unsigned i = 0; i < m_generationInfo.size(); ++i)
415         m_generationInfo[i] = GenerationInfo();
416     m_gprs = RegisterBank<GPRInfo>();
417     m_fprs = RegisterBank<FPRInfo>();
418 }
419
420 SilentRegisterSavePlan SpeculativeJIT::silentSavePlanForGPR(VirtualRegister spillMe, GPRReg source)
421 {
422     GenerationInfo& info = generationInfoFromVirtualRegister(spillMe);
423     Node* node = info.node();
424     DataFormat registerFormat = info.registerFormat();
425     ASSERT(registerFormat != DataFormatNone);
426     ASSERT(registerFormat != DataFormatDouble);
427         
428     SilentSpillAction spillAction;
429     SilentFillAction fillAction;
430         
431     if (!info.needsSpill())
432         spillAction = DoNothingForSpill;
433     else {
434 #if USE(JSVALUE64)
435         ASSERT(info.gpr() == source);
436         if (registerFormat == DataFormatInt32)
437             spillAction = Store32Payload;
438         else if (registerFormat == DataFormatCell || registerFormat == DataFormatStorage)
439             spillAction = StorePtr;
440         else if (registerFormat == DataFormatInt52 || registerFormat == DataFormatStrictInt52)
441             spillAction = Store64;
442         else {
443             ASSERT(registerFormat & DataFormatJS);
444             spillAction = Store64;
445         }
446 #elif USE(JSVALUE32_64)
447         if (registerFormat & DataFormatJS) {
448             ASSERT(info.tagGPR() == source || info.payloadGPR() == source);
449             spillAction = source == info.tagGPR() ? Store32Tag : Store32Payload;
450         } else {
451             ASSERT(info.gpr() == source);
452             spillAction = Store32Payload;
453         }
454 #endif
455     }
456         
457     if (registerFormat == DataFormatInt32) {
458         ASSERT(info.gpr() == source);
459         ASSERT(isJSInt32(info.registerFormat()));
460         if (node->hasConstant()) {
461             ASSERT(node->isInt32Constant());
462             fillAction = SetInt32Constant;
463         } else
464             fillAction = Load32Payload;
465     } else if (registerFormat == DataFormatBoolean) {
466 #if USE(JSVALUE64)
467         RELEASE_ASSERT_NOT_REACHED();
468 #if COMPILER_QUIRK(CONSIDERS_UNREACHABLE_CODE)
469         fillAction = DoNothingForFill;
470 #endif
471 #elif USE(JSVALUE32_64)
472         ASSERT(info.gpr() == source);
473         if (node->hasConstant()) {
474             ASSERT(node->isBooleanConstant());
475             fillAction = SetBooleanConstant;
476         } else
477             fillAction = Load32Payload;
478 #endif
479     } else if (registerFormat == DataFormatCell) {
480         ASSERT(info.gpr() == source);
481         if (node->hasConstant()) {
482             DFG_ASSERT(m_jit.graph(), m_currentNode, node->isCellConstant());
483             node->asCell(); // To get the assertion.
484             fillAction = SetCellConstant;
485         } else {
486 #if USE(JSVALUE64)
487             fillAction = LoadPtr;
488 #else
489             fillAction = Load32Payload;
490 #endif
491         }
492     } else if (registerFormat == DataFormatStorage) {
493         ASSERT(info.gpr() == source);
494         fillAction = LoadPtr;
495     } else if (registerFormat == DataFormatInt52) {
496         if (node->hasConstant())
497             fillAction = SetInt52Constant;
498         else if (info.spillFormat() == DataFormatInt52)
499             fillAction = Load64;
500         else if (info.spillFormat() == DataFormatStrictInt52)
501             fillAction = Load64ShiftInt52Left;
502         else if (info.spillFormat() == DataFormatNone)
503             fillAction = Load64;
504         else {
505             RELEASE_ASSERT_NOT_REACHED();
506 #if COMPILER_QUIRK(CONSIDERS_UNREACHABLE_CODE)
507             fillAction = Load64; // Make GCC happy.
508 #endif
509         }
510     } else if (registerFormat == DataFormatStrictInt52) {
511         if (node->hasConstant())
512             fillAction = SetStrictInt52Constant;
513         else if (info.spillFormat() == DataFormatInt52)
514             fillAction = Load64ShiftInt52Right;
515         else if (info.spillFormat() == DataFormatStrictInt52)
516             fillAction = Load64;
517         else if (info.spillFormat() == DataFormatNone)
518             fillAction = Load64;
519         else {
520             RELEASE_ASSERT_NOT_REACHED();
521 #if COMPILER_QUIRK(CONSIDERS_UNREACHABLE_CODE)
522             fillAction = Load64; // Make GCC happy.
523 #endif
524         }
525     } else {
526         ASSERT(registerFormat & DataFormatJS);
527 #if USE(JSVALUE64)
528         ASSERT(info.gpr() == source);
529         if (node->hasConstant()) {
530             if (node->isCellConstant())
531                 fillAction = SetTrustedJSConstant;
532             else
533                 fillAction = SetJSConstant;
534         } else if (info.spillFormat() == DataFormatInt32) {
535             ASSERT(registerFormat == DataFormatJSInt32);
536             fillAction = Load32PayloadBoxInt;
537         } else
538             fillAction = Load64;
539 #else
540         ASSERT(info.tagGPR() == source || info.payloadGPR() == source);
541         if (node->hasConstant())
542             fillAction = info.tagGPR() == source ? SetJSConstantTag : SetJSConstantPayload;
543         else if (info.payloadGPR() == source)
544             fillAction = Load32Payload;
545         else { // Fill the Tag
546             switch (info.spillFormat()) {
547             case DataFormatInt32:
548                 ASSERT(registerFormat == DataFormatJSInt32);
549                 fillAction = SetInt32Tag;
550                 break;
551             case DataFormatCell:
552                 ASSERT(registerFormat == DataFormatJSCell);
553                 fillAction = SetCellTag;
554                 break;
555             case DataFormatBoolean:
556                 ASSERT(registerFormat == DataFormatJSBoolean);
557                 fillAction = SetBooleanTag;
558                 break;
559             default:
560                 fillAction = Load32Tag;
561                 break;
562             }
563         }
564 #endif
565     }
566         
567     return SilentRegisterSavePlan(spillAction, fillAction, node, source);
568 }
569     
570 SilentRegisterSavePlan SpeculativeJIT::silentSavePlanForFPR(VirtualRegister spillMe, FPRReg source)
571 {
572     GenerationInfo& info = generationInfoFromVirtualRegister(spillMe);
573     Node* node = info.node();
574     ASSERT(info.registerFormat() == DataFormatDouble);
575
576     SilentSpillAction spillAction;
577     SilentFillAction fillAction;
578         
579     if (!info.needsSpill())
580         spillAction = DoNothingForSpill;
581     else {
582         ASSERT(!node->hasConstant());
583         ASSERT(info.spillFormat() == DataFormatNone);
584         ASSERT(info.fpr() == source);
585         spillAction = StoreDouble;
586     }
587         
588 #if USE(JSVALUE64)
589     if (node->hasConstant()) {
590         node->asNumber(); // To get the assertion.
591         fillAction = SetDoubleConstant;
592     } else {
593         ASSERT(info.spillFormat() == DataFormatNone || info.spillFormat() == DataFormatDouble);
594         fillAction = LoadDouble;
595     }
596 #elif USE(JSVALUE32_64)
597     ASSERT(info.registerFormat() == DataFormatDouble);
598     if (node->hasConstant()) {
599         node->asNumber(); // To get the assertion.
600         fillAction = SetDoubleConstant;
601     } else
602         fillAction = LoadDouble;
603 #endif
604
605     return SilentRegisterSavePlan(spillAction, fillAction, node, source);
606 }
607     
608 void SpeculativeJIT::silentSpill(const SilentRegisterSavePlan& plan)
609 {
610     switch (plan.spillAction()) {
611     case DoNothingForSpill:
612         break;
613     case Store32Tag:
614         m_jit.store32(plan.gpr(), JITCompiler::tagFor(plan.node()->virtualRegister()));
615         break;
616     case Store32Payload:
617         m_jit.store32(plan.gpr(), JITCompiler::payloadFor(plan.node()->virtualRegister()));
618         break;
619     case StorePtr:
620         m_jit.storePtr(plan.gpr(), JITCompiler::addressFor(plan.node()->virtualRegister()));
621         break;
622 #if USE(JSVALUE64)
623     case Store64:
624         m_jit.store64(plan.gpr(), JITCompiler::addressFor(plan.node()->virtualRegister()));
625         break;
626 #endif
627     case StoreDouble:
628         m_jit.storeDouble(plan.fpr(), JITCompiler::addressFor(plan.node()->virtualRegister()));
629         break;
630     default:
631         RELEASE_ASSERT_NOT_REACHED();
632     }
633 }
634     
635 void SpeculativeJIT::silentFill(const SilentRegisterSavePlan& plan)
636 {
637     switch (plan.fillAction()) {
638     case DoNothingForFill:
639         break;
640     case SetInt32Constant:
641         m_jit.move(Imm32(plan.node()->asInt32()), plan.gpr());
642         break;
643 #if USE(JSVALUE64)
644     case SetInt52Constant:
645         m_jit.move(Imm64(plan.node()->asAnyInt() << JSValue::int52ShiftAmount), plan.gpr());
646         break;
647     case SetStrictInt52Constant:
648         m_jit.move(Imm64(plan.node()->asAnyInt()), plan.gpr());
649         break;
650 #endif // USE(JSVALUE64)
651     case SetBooleanConstant:
652         m_jit.move(TrustedImm32(plan.node()->asBoolean()), plan.gpr());
653         break;
654     case SetCellConstant:
655         ASSERT(plan.node()->constant()->value().isCell());
656         m_jit.move(TrustedImmPtr(plan.node()->constant()), plan.gpr());
657         break;
658 #if USE(JSVALUE64)
659     case SetTrustedJSConstant:
660         m_jit.move(valueOfJSConstantAsImm64(plan.node()).asTrustedImm64(), plan.gpr());
661         break;
662     case SetJSConstant:
663         m_jit.move(valueOfJSConstantAsImm64(plan.node()), plan.gpr());
664         break;
665     case SetDoubleConstant:
666         m_jit.moveDouble(Imm64(reinterpretDoubleToInt64(plan.node()->asNumber())), plan.fpr());
667         break;
668     case Load32PayloadBoxInt:
669         m_jit.load32(JITCompiler::payloadFor(plan.node()->virtualRegister()), plan.gpr());
670         m_jit.or64(GPRInfo::tagTypeNumberRegister, plan.gpr());
671         break;
672     case Load32PayloadConvertToInt52:
673         m_jit.load32(JITCompiler::payloadFor(plan.node()->virtualRegister()), plan.gpr());
674         m_jit.signExtend32ToPtr(plan.gpr(), plan.gpr());
675         m_jit.lshift64(TrustedImm32(JSValue::int52ShiftAmount), plan.gpr());
676         break;
677     case Load32PayloadSignExtend:
678         m_jit.load32(JITCompiler::payloadFor(plan.node()->virtualRegister()), plan.gpr());
679         m_jit.signExtend32ToPtr(plan.gpr(), plan.gpr());
680         break;
681 #else
682     case SetJSConstantTag:
683         m_jit.move(Imm32(plan.node()->asJSValue().tag()), plan.gpr());
684         break;
685     case SetJSConstantPayload:
686         m_jit.move(Imm32(plan.node()->asJSValue().payload()), plan.gpr());
687         break;
688     case SetInt32Tag:
689         m_jit.move(TrustedImm32(JSValue::Int32Tag), plan.gpr());
690         break;
691     case SetCellTag:
692         m_jit.move(TrustedImm32(JSValue::CellTag), plan.gpr());
693         break;
694     case SetBooleanTag:
695         m_jit.move(TrustedImm32(JSValue::BooleanTag), plan.gpr());
696         break;
697     case SetDoubleConstant:
698         m_jit.loadDouble(TrustedImmPtr(m_jit.addressOfDoubleConstant(plan.node())), plan.fpr());
699         break;
700 #endif
701     case Load32Tag:
702         m_jit.load32(JITCompiler::tagFor(plan.node()->virtualRegister()), plan.gpr());
703         break;
704     case Load32Payload:
705         m_jit.load32(JITCompiler::payloadFor(plan.node()->virtualRegister()), plan.gpr());
706         break;
707     case LoadPtr:
708         m_jit.loadPtr(JITCompiler::addressFor(plan.node()->virtualRegister()), plan.gpr());
709         break;
710 #if USE(JSVALUE64)
711     case Load64:
712         m_jit.load64(JITCompiler::addressFor(plan.node()->virtualRegister()), plan.gpr());
713         break;
714     case Load64ShiftInt52Right:
715         m_jit.load64(JITCompiler::addressFor(plan.node()->virtualRegister()), plan.gpr());
716         m_jit.rshift64(TrustedImm32(JSValue::int52ShiftAmount), plan.gpr());
717         break;
718     case Load64ShiftInt52Left:
719         m_jit.load64(JITCompiler::addressFor(plan.node()->virtualRegister()), plan.gpr());
720         m_jit.lshift64(TrustedImm32(JSValue::int52ShiftAmount), plan.gpr());
721         break;
722 #endif
723     case LoadDouble:
724         m_jit.loadDouble(JITCompiler::addressFor(plan.node()->virtualRegister()), plan.fpr());
725         break;
726     default:
727         RELEASE_ASSERT_NOT_REACHED();
728     }
729 }
730
731 JITCompiler::JumpList SpeculativeJIT::jumpSlowForUnwantedArrayMode(GPRReg tempGPR, ArrayMode arrayMode)
732 {
733     JITCompiler::JumpList result;
734
735     IndexingType indexingModeMask = IsArray | IndexingShapeMask;
736     if (arrayMode.action() == Array::Write)
737         indexingModeMask |= CopyOnWrite;
738
739     switch (arrayMode.type()) {
740     case Array::Int32:
741     case Array::Double:
742     case Array::Contiguous:
743     case Array::Undecided:
744     case Array::ArrayStorage: {
745         IndexingType shape = arrayMode.shapeMask();
746         switch (arrayMode.arrayClass()) {
747         case Array::OriginalArray:
748         case Array::OriginalCopyOnWriteArray:
749             RELEASE_ASSERT_NOT_REACHED();
750             return result;
751
752         case Array::Array:
753             m_jit.and32(TrustedImm32(indexingModeMask), tempGPR);
754             result.append(m_jit.branch32(
755                 MacroAssembler::NotEqual, tempGPR, TrustedImm32(IsArray | shape)));
756             return result;
757
758         case Array::NonArray:
759         case Array::OriginalNonArray:
760             m_jit.and32(TrustedImm32(indexingModeMask), tempGPR);
761             result.append(m_jit.branch32(
762                 MacroAssembler::NotEqual, tempGPR, TrustedImm32(shape)));
763             return result;
764
765         case Array::PossiblyArray:
766             m_jit.and32(TrustedImm32(indexingModeMask & ~IsArray), tempGPR);
767             result.append(m_jit.branch32(MacroAssembler::NotEqual, tempGPR, TrustedImm32(shape)));
768             return result;
769         }
770
771         RELEASE_ASSERT_NOT_REACHED();
772         return result;
773     }
774
775     case Array::SlowPutArrayStorage: {
776         ASSERT(!arrayMode.isJSArrayWithOriginalStructure());
777
778         switch (arrayMode.arrayClass()) {
779         case Array::OriginalArray:
780         case Array::OriginalCopyOnWriteArray:
781             RELEASE_ASSERT_NOT_REACHED();
782             return result;
783
784         case Array::Array:
785             result.append(
786                 m_jit.branchTest32(
787                     MacroAssembler::Zero, tempGPR, MacroAssembler::TrustedImm32(IsArray)));
788             break;
789
790         case Array::NonArray:
791         case Array::OriginalNonArray:
792             result.append(
793                 m_jit.branchTest32(
794                     MacroAssembler::NonZero, tempGPR, MacroAssembler::TrustedImm32(IsArray)));
795             break;
796
797         case Array::PossiblyArray:
798             break;
799         }
800
801         m_jit.and32(TrustedImm32(IndexingShapeMask), tempGPR);
802         m_jit.sub32(TrustedImm32(ArrayStorageShape), tempGPR);
803         result.append(
804             m_jit.branch32(
805                 MacroAssembler::Above, tempGPR,
806                 TrustedImm32(SlowPutArrayStorageShape - ArrayStorageShape)));
807         return result;
808     }
809     default:
810         CRASH();
811         break;
812     }
813     
814     return result;
815 }
816
817 void SpeculativeJIT::checkArray(Node* node)
818 {
819     ASSERT(node->arrayMode().isSpecific());
820     ASSERT(!node->arrayMode().doesConversion());
821     
822     SpeculateCellOperand base(this, node->child1());
823     GPRReg baseReg = base.gpr();
824     
825     if (node->arrayMode().alreadyChecked(m_jit.graph(), node, m_state.forNode(node->child1()))) {
826         noResult(m_currentNode);
827         return;
828     }
829     
830     switch (node->arrayMode().type()) {
831     case Array::AnyTypedArray:
832     case Array::String:
833         RELEASE_ASSERT_NOT_REACHED(); // Should have been a Phantom(String:)
834         return;
835     case Array::Int32:
836     case Array::Double:
837     case Array::Contiguous:
838     case Array::Undecided:
839     case Array::ArrayStorage:
840     case Array::SlowPutArrayStorage: {
841         GPRTemporary temp(this);
842         GPRReg tempGPR = temp.gpr();
843         m_jit.load8(MacroAssembler::Address(baseReg, JSCell::indexingTypeAndMiscOffset()), tempGPR);
844         speculationCheck(
845             BadIndexingType, JSValueSource::unboxedCell(baseReg), 0,
846             jumpSlowForUnwantedArrayMode(tempGPR, node->arrayMode()));
847         
848         noResult(m_currentNode);
849         return;
850     }
851     case Array::DirectArguments:
852         speculateCellTypeWithoutTypeFiltering(node->child1(), baseReg, DirectArgumentsType);
853         noResult(m_currentNode);
854         return;
855     case Array::ScopedArguments:
856         speculateCellTypeWithoutTypeFiltering(node->child1(), baseReg, ScopedArgumentsType);
857         noResult(m_currentNode);
858         return;
859     default:
860         speculateCellTypeWithoutTypeFiltering(
861             node->child1(), baseReg,
862             typeForTypedArrayType(node->arrayMode().typedArrayType()));
863         noResult(m_currentNode);
864         return;
865     }
866 }
867
868 void SpeculativeJIT::arrayify(Node* node, GPRReg baseReg, GPRReg propertyReg)
869 {
870     ASSERT(node->arrayMode().doesConversion());
871     
872     GPRTemporary temp(this);
873     GPRTemporary structure;
874     GPRReg tempGPR = temp.gpr();
875     GPRReg structureGPR = InvalidGPRReg;
876     
877     if (node->op() != ArrayifyToStructure) {
878         GPRTemporary realStructure(this);
879         structure.adopt(realStructure);
880         structureGPR = structure.gpr();
881     }
882         
883     // We can skip all that comes next if we already have array storage.
884     MacroAssembler::JumpList slowPath;
885     
886     if (node->op() == ArrayifyToStructure) {
887         ASSERT(!isCopyOnWrite(node->structure()->indexingMode()));
888         ASSERT((node->structure()->indexingType() & IndexingShapeMask) == node->arrayMode().shapeMask());
889         slowPath.append(m_jit.branchWeakStructure(
890             JITCompiler::NotEqual,
891             JITCompiler::Address(baseReg, JSCell::structureIDOffset()),
892             node->structure()));
893     } else {
894         m_jit.load8(
895             MacroAssembler::Address(baseReg, JSCell::indexingTypeAndMiscOffset()), tempGPR);
896         
897         slowPath.append(jumpSlowForUnwantedArrayMode(tempGPR, node->arrayMode()));
898     }
899     
900     addSlowPathGenerator(std::make_unique<ArrayifySlowPathGenerator>(
901         slowPath, this, node, baseReg, propertyReg, tempGPR, structureGPR));
902     
903     noResult(m_currentNode);
904 }
905
906 void SpeculativeJIT::arrayify(Node* node)
907 {
908     ASSERT(node->arrayMode().isSpecific());
909     
910     SpeculateCellOperand base(this, node->child1());
911     
912     if (!node->child2()) {
913         arrayify(node, base.gpr(), InvalidGPRReg);
914         return;
915     }
916     
917     SpeculateInt32Operand property(this, node->child2());
918     
919     arrayify(node, base.gpr(), property.gpr());
920 }
921
922 GPRReg SpeculativeJIT::fillStorage(Edge edge)
923 {
924     VirtualRegister virtualRegister = edge->virtualRegister();
925     GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
926     
927     switch (info.registerFormat()) {
928     case DataFormatNone: {
929         if (info.spillFormat() == DataFormatStorage) {
930             GPRReg gpr = allocate();
931             m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
932             m_jit.loadPtr(JITCompiler::addressFor(virtualRegister), gpr);
933             info.fillStorage(*m_stream, gpr);
934             return gpr;
935         }
936         
937         // Must be a cell; fill it as a cell and then return the pointer.
938         return fillSpeculateCell(edge);
939     }
940         
941     case DataFormatStorage: {
942         GPRReg gpr = info.gpr();
943         m_gprs.lock(gpr);
944         return gpr;
945     }
946         
947     default:
948         return fillSpeculateCell(edge);
949     }
950 }
951
952 void SpeculativeJIT::useChildren(Node* node)
953 {
954     if (node->flags() & NodeHasVarArgs) {
955         for (unsigned childIdx = node->firstChild(); childIdx < node->firstChild() + node->numChildren(); childIdx++) {
956             if (!!m_jit.graph().m_varArgChildren[childIdx])
957                 use(m_jit.graph().m_varArgChildren[childIdx]);
958         }
959     } else {
960         Edge child1 = node->child1();
961         if (!child1) {
962             ASSERT(!node->child2() && !node->child3());
963             return;
964         }
965         use(child1);
966         
967         Edge child2 = node->child2();
968         if (!child2) {
969             ASSERT(!node->child3());
970             return;
971         }
972         use(child2);
973         
974         Edge child3 = node->child3();
975         if (!child3)
976             return;
977         use(child3);
978     }
979 }
980
981 void SpeculativeJIT::compileGetById(Node* node, AccessType accessType)
982 {
983     ASSERT(accessType == AccessType::Get || accessType == AccessType::GetDirect || accessType == AccessType::TryGet);
984
985     switch (node->child1().useKind()) {
986     case CellUse: {
987         SpeculateCellOperand base(this, node->child1());
988         JSValueRegsTemporary result(this, Reuse, base);
989
990         JSValueRegs baseRegs = JSValueRegs::payloadOnly(base.gpr());
991         JSValueRegs resultRegs = result.regs();
992
993         base.use();
994
995         cachedGetById(node->origin.semantic, baseRegs, resultRegs, node->identifierNumber(), JITCompiler::Jump(), NeedToSpill, accessType);
996
997         jsValueResult(resultRegs, node, DataFormatJS, UseChildrenCalledExplicitly);
998         break;
999     }
1000
1001     case UntypedUse: {
1002         JSValueOperand base(this, node->child1());
1003         JSValueRegsTemporary result(this, Reuse, base);
1004
1005         JSValueRegs baseRegs = base.jsValueRegs();
1006         JSValueRegs resultRegs = result.regs();
1007
1008         base.use();
1009
1010         JITCompiler::Jump notCell = m_jit.branchIfNotCell(baseRegs);
1011
1012         cachedGetById(node->origin.semantic, baseRegs, resultRegs, node->identifierNumber(), notCell, NeedToSpill, accessType);
1013
1014         jsValueResult(resultRegs, node, DataFormatJS, UseChildrenCalledExplicitly);
1015         break;
1016     }
1017
1018     default:
1019         DFG_CRASH(m_jit.graph(), node, "Bad use kind");
1020         break;
1021     }
1022 }
1023
1024 void SpeculativeJIT::compileGetByIdFlush(Node* node, AccessType accessType)
1025 {
1026     switch (node->child1().useKind()) {
1027     case CellUse: {
1028         SpeculateCellOperand base(this, node->child1());
1029         JSValueRegs baseRegs = JSValueRegs::payloadOnly(base.gpr());
1030
1031         JSValueRegsFlushedCallResult result(this);
1032         JSValueRegs resultRegs = result.regs();
1033
1034         base.use();
1035
1036         flushRegisters();
1037
1038         cachedGetById(node->origin.semantic, baseRegs, resultRegs, node->identifierNumber(), JITCompiler::Jump(), DontSpill, accessType);
1039
1040         jsValueResult(resultRegs, node, DataFormatJS, UseChildrenCalledExplicitly);
1041         break;
1042     }
1043
1044     case UntypedUse: {
1045         JSValueOperand base(this, node->child1());
1046         JSValueRegs baseRegs = base.jsValueRegs();
1047
1048         JSValueRegsFlushedCallResult result(this);
1049         JSValueRegs resultRegs = result.regs();
1050
1051         base.use();
1052
1053         flushRegisters();
1054
1055         JITCompiler::Jump notCell = m_jit.branchIfNotCell(baseRegs);
1056
1057         cachedGetById(node->origin.semantic, baseRegs, resultRegs, node->identifierNumber(), notCell, DontSpill, accessType);
1058
1059         jsValueResult(resultRegs, node, DataFormatJS, UseChildrenCalledExplicitly);
1060         break;
1061     }
1062
1063     default:
1064         DFG_CRASH(m_jit.graph(), node, "Bad use kind");
1065         break;
1066     }
1067 }
1068
1069 void SpeculativeJIT::compileInById(Node* node)
1070 {
1071     SpeculateCellOperand base(this, node->child1());
1072     JSValueRegsTemporary result(this, Reuse, base, PayloadWord);
1073
1074     GPRReg baseGPR = base.gpr();
1075     JSValueRegs resultRegs = result.regs();
1076
1077     base.use();
1078
1079     CodeOrigin codeOrigin = node->origin.semantic;
1080     CallSiteIndex callSite = m_jit.recordCallSiteAndGenerateExceptionHandlingOSRExitIfNeeded(codeOrigin, m_stream->size());
1081     RegisterSet usedRegisters = this->usedRegisters();
1082     JITInByIdGenerator gen(
1083         m_jit.codeBlock(), codeOrigin, callSite, usedRegisters, identifierUID(node->identifierNumber()),
1084         JSValueRegs::payloadOnly(baseGPR), resultRegs);
1085     gen.generateFastPath(m_jit);
1086
1087     auto slowPath = slowPathCall(
1088         gen.slowPathJump(), this, operationInByIdOptimize,
1089         NeedToSpill, ExceptionCheckRequirement::CheckNeeded,
1090         resultRegs, gen.stubInfo(), CCallHelpers::CellValue(baseGPR), identifierUID(node->identifierNumber()));
1091
1092     m_jit.addInById(gen, slowPath.get());
1093     addSlowPathGenerator(WTFMove(slowPath));
1094
1095     blessedBooleanResult(resultRegs.payloadGPR(), node, UseChildrenCalledExplicitly);
1096 }
1097
1098 void SpeculativeJIT::compileInByVal(Node* node)
1099 {
1100     SpeculateCellOperand base(this, node->child1());
1101     JSValueOperand key(this, node->child2());
1102
1103     GPRReg baseGPR = base.gpr();
1104     JSValueRegs regs = key.jsValueRegs();
1105
1106     base.use();
1107     key.use();
1108
1109     flushRegisters();
1110     JSValueRegsFlushedCallResult result(this);
1111     JSValueRegs resultRegs = result.regs();
1112     callOperation(operationInByVal, resultRegs, baseGPR, regs);
1113     m_jit.exceptionCheck();
1114     blessedBooleanResult(resultRegs.payloadGPR(), node, UseChildrenCalledExplicitly);
1115 }
1116
1117 void SpeculativeJIT::compileDeleteById(Node* node)
1118 {
1119     JSValueOperand value(this, node->child1());
1120     GPRFlushedCallResult result(this);
1121
1122     JSValueRegs valueRegs = value.jsValueRegs();
1123     GPRReg resultGPR = result.gpr();
1124
1125     value.use();
1126
1127     flushRegisters();
1128     callOperation(operationDeleteById, resultGPR, valueRegs, identifierUID(node->identifierNumber()));
1129     m_jit.exceptionCheck();
1130
1131     unblessedBooleanResult(resultGPR, node, UseChildrenCalledExplicitly);
1132 }
1133
1134 void SpeculativeJIT::compileDeleteByVal(Node* node)
1135 {
1136     JSValueOperand base(this, node->child1());
1137     JSValueOperand key(this, node->child2());
1138     GPRFlushedCallResult result(this);
1139
1140     JSValueRegs baseRegs = base.jsValueRegs();
1141     JSValueRegs keyRegs = key.jsValueRegs();
1142     GPRReg resultGPR = result.gpr();
1143
1144     base.use();
1145     key.use();
1146
1147     flushRegisters();
1148     callOperation(operationDeleteByVal, resultGPR, baseRegs, keyRegs);
1149     m_jit.exceptionCheck();
1150
1151     unblessedBooleanResult(resultGPR, node, UseChildrenCalledExplicitly);
1152 }
1153
1154 void SpeculativeJIT::compilePushWithScope(Node* node)
1155 {
1156     SpeculateCellOperand currentScope(this, node->child1());
1157     GPRReg currentScopeGPR = currentScope.gpr();
1158
1159     GPRFlushedCallResult result(this);
1160     GPRReg resultGPR = result.gpr();
1161
1162     auto objectEdge = node->child2();
1163     if (objectEdge.useKind() == ObjectUse) {
1164         SpeculateCellOperand object(this, objectEdge);
1165         GPRReg objectGPR = object.gpr();
1166         speculateObject(objectEdge, objectGPR);
1167
1168         flushRegisters();
1169         callOperation(operationPushWithScopeObject, resultGPR, currentScopeGPR, objectGPR);
1170         // No exception check here as we did not have to call toObject().
1171     } else {
1172         ASSERT(objectEdge.useKind() == UntypedUse);
1173         JSValueOperand object(this, objectEdge);
1174         JSValueRegs objectRegs = object.jsValueRegs();
1175
1176         flushRegisters();
1177         callOperation(operationPushWithScope, resultGPR, currentScopeGPR, objectRegs);
1178         m_jit.exceptionCheck();
1179     }
1180     
1181     cellResult(resultGPR, node);
1182 }
1183
1184 bool SpeculativeJIT::nonSpeculativeStrictEq(Node* node, bool invert)
1185 {
1186     unsigned branchIndexInBlock = detectPeepHoleBranch();
1187     if (branchIndexInBlock != UINT_MAX) {
1188         Node* branchNode = m_block->at(branchIndexInBlock);
1189
1190         ASSERT(node->adjustedRefCount() == 1);
1191         
1192         nonSpeculativePeepholeStrictEq(node, branchNode, invert);
1193     
1194         m_indexInBlock = branchIndexInBlock;
1195         m_currentNode = branchNode;
1196         
1197         return true;
1198     }
1199     
1200     nonSpeculativeNonPeepholeStrictEq(node, invert);
1201     
1202     return false;
1203 }
1204
1205 static const char* dataFormatString(DataFormat format)
1206 {
1207     // These values correspond to the DataFormat enum.
1208     const char* strings[] = {
1209         "[  ]",
1210         "[ i]",
1211         "[ d]",
1212         "[ c]",
1213         "Err!",
1214         "Err!",
1215         "Err!",
1216         "Err!",
1217         "[J ]",
1218         "[Ji]",
1219         "[Jd]",
1220         "[Jc]",
1221         "Err!",
1222         "Err!",
1223         "Err!",
1224         "Err!",
1225     };
1226     return strings[format];
1227 }
1228
1229 void SpeculativeJIT::dump(const char* label)
1230 {
1231     if (label)
1232         dataLogF("<%s>\n", label);
1233
1234     dataLogF("  gprs:\n");
1235     m_gprs.dump();
1236     dataLogF("  fprs:\n");
1237     m_fprs.dump();
1238     dataLogF("  VirtualRegisters:\n");
1239     for (unsigned i = 0; i < m_generationInfo.size(); ++i) {
1240         GenerationInfo& info = m_generationInfo[i];
1241         if (info.alive())
1242             dataLogF("    % 3d:%s%s", i, dataFormatString(info.registerFormat()), dataFormatString(info.spillFormat()));
1243         else
1244             dataLogF("    % 3d:[__][__]", i);
1245         if (info.registerFormat() == DataFormatDouble)
1246             dataLogF(":fpr%d\n", info.fpr());
1247         else if (info.registerFormat() != DataFormatNone
1248 #if USE(JSVALUE32_64)
1249             && !(info.registerFormat() & DataFormatJS)
1250 #endif
1251             ) {
1252             ASSERT(info.gpr() != InvalidGPRReg);
1253             dataLogF(":%s\n", GPRInfo::debugName(info.gpr()));
1254         } else
1255             dataLogF("\n");
1256     }
1257     if (label)
1258         dataLogF("</%s>\n", label);
1259 }
1260
1261 GPRTemporary::GPRTemporary()
1262     : m_jit(0)
1263     , m_gpr(InvalidGPRReg)
1264 {
1265 }
1266
1267 GPRTemporary::GPRTemporary(SpeculativeJIT* jit)
1268     : m_jit(jit)
1269     , m_gpr(InvalidGPRReg)
1270 {
1271     m_gpr = m_jit->allocate();
1272 }
1273
1274 GPRTemporary::GPRTemporary(SpeculativeJIT* jit, GPRReg specific)
1275     : m_jit(jit)
1276     , m_gpr(InvalidGPRReg)
1277 {
1278     m_gpr = m_jit->allocate(specific);
1279 }
1280
1281 #if USE(JSVALUE32_64)
1282 GPRTemporary::GPRTemporary(
1283     SpeculativeJIT* jit, ReuseTag, JSValueOperand& op1, WhichValueWord which)
1284     : m_jit(jit)
1285     , m_gpr(InvalidGPRReg)
1286 {
1287     if (!op1.isDouble() && m_jit->canReuse(op1.node()))
1288         m_gpr = m_jit->reuse(op1.gpr(which));
1289     else
1290         m_gpr = m_jit->allocate();
1291 }
1292 #else // USE(JSVALUE32_64)
1293 GPRTemporary::GPRTemporary(SpeculativeJIT* jit, ReuseTag, JSValueOperand& op1, WhichValueWord)
1294     : GPRTemporary(jit, Reuse, op1)
1295 {
1296 }
1297 #endif
1298
1299 JSValueRegsTemporary::JSValueRegsTemporary() { }
1300
1301 JSValueRegsTemporary::JSValueRegsTemporary(SpeculativeJIT* jit)
1302 #if USE(JSVALUE64)
1303     : m_gpr(jit)
1304 #else
1305     : m_payloadGPR(jit)
1306     , m_tagGPR(jit)
1307 #endif
1308 {
1309 }
1310
1311 #if USE(JSVALUE64)
1312 template<typename T>
1313 JSValueRegsTemporary::JSValueRegsTemporary(SpeculativeJIT* jit, ReuseTag, T& operand, WhichValueWord)
1314     : m_gpr(jit, Reuse, operand)
1315 {
1316 }
1317 #else
1318 template<typename T>
1319 JSValueRegsTemporary::JSValueRegsTemporary(SpeculativeJIT* jit, ReuseTag, T& operand, WhichValueWord resultWord)
1320 {
1321     if (resultWord == PayloadWord) {
1322         m_payloadGPR = GPRTemporary(jit, Reuse, operand);
1323         m_tagGPR = GPRTemporary(jit);
1324     } else {
1325         m_payloadGPR = GPRTemporary(jit);
1326         m_tagGPR = GPRTemporary(jit, Reuse, operand);
1327     }
1328 }
1329 #endif
1330
1331 #if USE(JSVALUE64)
1332 JSValueRegsTemporary::JSValueRegsTemporary(SpeculativeJIT* jit, ReuseTag, JSValueOperand& operand)
1333 {
1334     m_gpr = GPRTemporary(jit, Reuse, operand);
1335 }
1336 #else
1337 JSValueRegsTemporary::JSValueRegsTemporary(SpeculativeJIT* jit, ReuseTag, JSValueOperand& operand)
1338 {
1339     if (jit->canReuse(operand.node())) {
1340         m_payloadGPR = GPRTemporary(jit, Reuse, operand, PayloadWord);
1341         m_tagGPR = GPRTemporary(jit, Reuse, operand, TagWord);
1342     } else {
1343         m_payloadGPR = GPRTemporary(jit);
1344         m_tagGPR = GPRTemporary(jit);
1345     }
1346 }
1347 #endif
1348
1349 JSValueRegsTemporary::~JSValueRegsTemporary() { }
1350
1351 JSValueRegs JSValueRegsTemporary::regs()
1352 {
1353 #if USE(JSVALUE64)
1354     return JSValueRegs(m_gpr.gpr());
1355 #else
1356     return JSValueRegs(m_tagGPR.gpr(), m_payloadGPR.gpr());
1357 #endif
1358 }
1359
1360 void GPRTemporary::adopt(GPRTemporary& other)
1361 {
1362     ASSERT(!m_jit);
1363     ASSERT(m_gpr == InvalidGPRReg);
1364     ASSERT(other.m_jit);
1365     ASSERT(other.m_gpr != InvalidGPRReg);
1366     m_jit = other.m_jit;
1367     m_gpr = other.m_gpr;
1368     other.m_jit = 0;
1369     other.m_gpr = InvalidGPRReg;
1370 }
1371
1372 FPRTemporary::FPRTemporary(FPRTemporary&& other)
1373 {
1374     ASSERT(other.m_jit);
1375     ASSERT(other.m_fpr != InvalidFPRReg);
1376     m_jit = other.m_jit;
1377     m_fpr = other.m_fpr;
1378
1379     other.m_jit = nullptr;
1380 }
1381
1382 FPRTemporary::FPRTemporary(SpeculativeJIT* jit)
1383     : m_jit(jit)
1384     , m_fpr(InvalidFPRReg)
1385 {
1386     m_fpr = m_jit->fprAllocate();
1387 }
1388
1389 FPRTemporary::FPRTemporary(SpeculativeJIT* jit, SpeculateDoubleOperand& op1)
1390     : m_jit(jit)
1391     , m_fpr(InvalidFPRReg)
1392 {
1393     if (m_jit->canReuse(op1.node()))
1394         m_fpr = m_jit->reuse(op1.fpr());
1395     else
1396         m_fpr = m_jit->fprAllocate();
1397 }
1398
1399 FPRTemporary::FPRTemporary(SpeculativeJIT* jit, SpeculateDoubleOperand& op1, SpeculateDoubleOperand& op2)
1400     : m_jit(jit)
1401     , m_fpr(InvalidFPRReg)
1402 {
1403     if (m_jit->canReuse(op1.node()))
1404         m_fpr = m_jit->reuse(op1.fpr());
1405     else if (m_jit->canReuse(op2.node()))
1406         m_fpr = m_jit->reuse(op2.fpr());
1407     else if (m_jit->canReuse(op1.node(), op2.node()) && op1.fpr() == op2.fpr())
1408         m_fpr = m_jit->reuse(op1.fpr());
1409     else
1410         m_fpr = m_jit->fprAllocate();
1411 }
1412
1413 #if USE(JSVALUE32_64)
1414 FPRTemporary::FPRTemporary(SpeculativeJIT* jit, JSValueOperand& op1)
1415     : m_jit(jit)
1416     , m_fpr(InvalidFPRReg)
1417 {
1418     if (op1.isDouble() && m_jit->canReuse(op1.node()))
1419         m_fpr = m_jit->reuse(op1.fpr());
1420     else
1421         m_fpr = m_jit->fprAllocate();
1422 }
1423 #endif
1424
1425 void SpeculativeJIT::compilePeepHoleDoubleBranch(Node* node, Node* branchNode, JITCompiler::DoubleCondition condition)
1426 {
1427     BasicBlock* taken = branchNode->branchData()->taken.block;
1428     BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
1429
1430     if (taken == nextBlock()) {
1431         condition = MacroAssembler::invert(condition);
1432         std::swap(taken, notTaken);
1433     }
1434
1435     SpeculateDoubleOperand op1(this, node->child1());
1436     SpeculateDoubleOperand op2(this, node->child2());
1437     
1438     branchDouble(condition, op1.fpr(), op2.fpr(), taken);
1439     jump(notTaken);
1440 }
1441
1442 void SpeculativeJIT::compilePeepHoleObjectEquality(Node* node, Node* branchNode)
1443 {
1444     BasicBlock* taken = branchNode->branchData()->taken.block;
1445     BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
1446
1447     MacroAssembler::RelationalCondition condition = MacroAssembler::Equal;
1448     
1449     if (taken == nextBlock()) {
1450         condition = MacroAssembler::NotEqual;
1451         BasicBlock* tmp = taken;
1452         taken = notTaken;
1453         notTaken = tmp;
1454     }
1455
1456     SpeculateCellOperand op1(this, node->child1());
1457     SpeculateCellOperand op2(this, node->child2());
1458     
1459     GPRReg op1GPR = op1.gpr();
1460     GPRReg op2GPR = op2.gpr();
1461     
1462     if (masqueradesAsUndefinedWatchpointIsStillValid()) {
1463         if (m_state.forNode(node->child1()).m_type & ~SpecObject) {
1464             speculationCheck(
1465                 BadType, JSValueSource::unboxedCell(op1GPR), node->child1(), m_jit.branchIfNotObject(op1GPR));
1466         }
1467         if (m_state.forNode(node->child2()).m_type & ~SpecObject) {
1468             speculationCheck(
1469                 BadType, JSValueSource::unboxedCell(op2GPR), node->child2(), m_jit.branchIfNotObject(op2GPR));
1470         }
1471     } else {
1472         if (m_state.forNode(node->child1()).m_type & ~SpecObject) {
1473             speculationCheck(
1474                 BadType, JSValueSource::unboxedCell(op1GPR), node->child1(),
1475                 m_jit.branchIfNotObject(op1GPR));
1476         }
1477         speculationCheck(BadType, JSValueSource::unboxedCell(op1GPR), node->child1(),
1478             m_jit.branchTest8(
1479                 MacroAssembler::NonZero, 
1480                 MacroAssembler::Address(op1GPR, JSCell::typeInfoFlagsOffset()), 
1481                 MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
1482
1483         if (m_state.forNode(node->child2()).m_type & ~SpecObject) {
1484             speculationCheck(
1485                 BadType, JSValueSource::unboxedCell(op2GPR), node->child2(),
1486                 m_jit.branchIfNotObject(op2GPR));
1487         }
1488         speculationCheck(BadType, JSValueSource::unboxedCell(op2GPR), node->child2(),
1489             m_jit.branchTest8(
1490                 MacroAssembler::NonZero, 
1491                 MacroAssembler::Address(op2GPR, JSCell::typeInfoFlagsOffset()), 
1492                 MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
1493     }
1494
1495     branchPtr(condition, op1GPR, op2GPR, taken);
1496     jump(notTaken);
1497 }
1498
1499 void SpeculativeJIT::compilePeepHoleBooleanBranch(Node* node, Node* branchNode, JITCompiler::RelationalCondition condition)
1500 {
1501     BasicBlock* taken = branchNode->branchData()->taken.block;
1502     BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
1503
1504     // The branch instruction will branch to the taken block.
1505     // If taken is next, switch taken with notTaken & invert the branch condition so we can fall through.
1506     if (taken == nextBlock()) {
1507         condition = JITCompiler::invert(condition);
1508         BasicBlock* tmp = taken;
1509         taken = notTaken;
1510         notTaken = tmp;
1511     }
1512
1513     if (node->child1()->isInt32Constant()) {
1514         int32_t imm = node->child1()->asInt32();
1515         SpeculateBooleanOperand op2(this, node->child2());
1516         branch32(condition, JITCompiler::Imm32(imm), op2.gpr(), taken);
1517     } else if (node->child2()->isInt32Constant()) {
1518         SpeculateBooleanOperand op1(this, node->child1());
1519         int32_t imm = node->child2()->asInt32();
1520         branch32(condition, op1.gpr(), JITCompiler::Imm32(imm), taken);
1521     } else {
1522         SpeculateBooleanOperand op1(this, node->child1());
1523         SpeculateBooleanOperand op2(this, node->child2());
1524         branch32(condition, op1.gpr(), op2.gpr(), taken);
1525     }
1526
1527     jump(notTaken);
1528 }
1529
1530 void SpeculativeJIT::compileStringSlice(Node* node)
1531 {
1532     SpeculateCellOperand string(this, node->child1());
1533     GPRTemporary startIndex(this);
1534     GPRTemporary temp(this);
1535     GPRTemporary temp2(this);
1536
1537     GPRReg stringGPR = string.gpr();
1538     GPRReg startIndexGPR = startIndex.gpr();
1539     GPRReg tempGPR = temp.gpr();
1540     GPRReg temp2GPR = temp2.gpr();
1541
1542     speculateString(node->child1(), stringGPR);
1543
1544     {
1545         m_jit.load32(JITCompiler::Address(stringGPR, JSString::offsetOfLength()), temp2GPR);
1546
1547         emitPopulateSliceIndex(node->child2(), temp2GPR, startIndexGPR);
1548         if (node->child3())
1549             emitPopulateSliceIndex(node->child3(), temp2GPR, tempGPR);
1550         else
1551             m_jit.move(temp2GPR, tempGPR);
1552     }
1553
1554     CCallHelpers::JumpList doneCases;
1555     CCallHelpers::JumpList slowCases;
1556
1557     auto nonEmptyCase = m_jit.branch32(MacroAssembler::Below, startIndexGPR, tempGPR);
1558     m_jit.move(TrustedImmPtr::weakPointer(m_jit.graph(), jsEmptyString(&vm())), tempGPR);
1559     doneCases.append(m_jit.jump());
1560
1561     nonEmptyCase.link(&m_jit);
1562     m_jit.sub32(startIndexGPR, tempGPR); // the size of the sliced string.
1563     slowCases.append(m_jit.branch32(MacroAssembler::NotEqual, tempGPR, TrustedImm32(1)));
1564
1565     m_jit.loadPtr(MacroAssembler::Address(stringGPR, JSString::offsetOfValue()), temp2GPR);
1566     slowCases.append(m_jit.branchTestPtr(MacroAssembler::Zero, temp2GPR));
1567
1568     m_jit.loadPtr(MacroAssembler::Address(temp2GPR, StringImpl::dataOffset()), tempGPR);
1569
1570     // Load the character into scratchReg
1571     m_jit.zeroExtend32ToPtr(startIndexGPR, startIndexGPR);
1572     auto is16Bit = m_jit.branchTest32(MacroAssembler::Zero, MacroAssembler::Address(temp2GPR, StringImpl::flagsOffset()), TrustedImm32(StringImpl::flagIs8Bit()));
1573
1574     m_jit.load8(MacroAssembler::BaseIndex(tempGPR, startIndexGPR, MacroAssembler::TimesOne, 0), tempGPR);
1575     auto cont8Bit = m_jit.jump();
1576
1577     is16Bit.link(&m_jit);
1578     m_jit.load16(MacroAssembler::BaseIndex(tempGPR, startIndexGPR, MacroAssembler::TimesTwo, 0), tempGPR);
1579
1580     auto bigCharacter = m_jit.branch32(MacroAssembler::Above, tempGPR, TrustedImm32(maxSingleCharacterString));
1581
1582     // 8 bit string values don't need the isASCII check.
1583     cont8Bit.link(&m_jit);
1584
1585     m_jit.lshift32(MacroAssembler::TrustedImm32(sizeof(void*) == 4 ? 2 : 3), tempGPR);
1586     m_jit.addPtr(TrustedImmPtr(m_jit.vm()->smallStrings.singleCharacterStrings()), tempGPR);
1587     m_jit.loadPtr(tempGPR, tempGPR);
1588
1589     addSlowPathGenerator(
1590         slowPathCall(
1591             bigCharacter, this, operationSingleCharacterString, tempGPR, tempGPR));
1592
1593     addSlowPathGenerator(
1594         slowPathCall(
1595             slowCases, this, operationStringSubstr, tempGPR, stringGPR, startIndexGPR, tempGPR));
1596
1597     doneCases.link(&m_jit);
1598     cellResult(tempGPR, node);
1599 }
1600
1601 void SpeculativeJIT::compileToLowerCase(Node* node)
1602 {
1603     ASSERT(node->op() == ToLowerCase);
1604     SpeculateCellOperand string(this, node->child1());
1605     GPRTemporary temp(this);
1606     GPRTemporary index(this);
1607     GPRTemporary charReg(this);
1608     GPRTemporary length(this);
1609
1610     GPRReg stringGPR = string.gpr();
1611     GPRReg tempGPR = temp.gpr();
1612     GPRReg indexGPR = index.gpr();
1613     GPRReg charGPR = charReg.gpr();
1614     GPRReg lengthGPR = length.gpr();
1615
1616     speculateString(node->child1(), stringGPR);
1617
1618     CCallHelpers::JumpList slowPath;
1619
1620     m_jit.move(TrustedImmPtr(nullptr), indexGPR);
1621
1622     m_jit.loadPtr(MacroAssembler::Address(stringGPR, JSString::offsetOfValue()), tempGPR);
1623     slowPath.append(m_jit.branchTestPtr(MacroAssembler::Zero, tempGPR));
1624
1625     slowPath.append(m_jit.branchTest32(
1626         MacroAssembler::Zero, MacroAssembler::Address(tempGPR, StringImpl::flagsOffset()),
1627         MacroAssembler::TrustedImm32(StringImpl::flagIs8Bit())));
1628     m_jit.load32(MacroAssembler::Address(tempGPR, StringImpl::lengthMemoryOffset()), lengthGPR);
1629     m_jit.loadPtr(MacroAssembler::Address(tempGPR, StringImpl::dataOffset()), tempGPR);
1630
1631     auto loopStart = m_jit.label();
1632     auto loopDone = m_jit.branch32(CCallHelpers::AboveOrEqual, indexGPR, lengthGPR);
1633     m_jit.load8(MacroAssembler::BaseIndex(tempGPR, indexGPR, MacroAssembler::TimesOne), charGPR);
1634     slowPath.append(m_jit.branchTest32(CCallHelpers::NonZero, charGPR, TrustedImm32(~0x7F)));
1635     m_jit.sub32(TrustedImm32('A'), charGPR);
1636     slowPath.append(m_jit.branch32(CCallHelpers::BelowOrEqual, charGPR, TrustedImm32('Z' - 'A')));
1637
1638     m_jit.add32(TrustedImm32(1), indexGPR);
1639     m_jit.jump().linkTo(loopStart, &m_jit);
1640     
1641     slowPath.link(&m_jit);
1642     silentSpillAllRegisters(lengthGPR);
1643     callOperation(operationToLowerCase, lengthGPR, stringGPR, indexGPR);
1644     silentFillAllRegisters();
1645     m_jit.exceptionCheck();
1646     auto done = m_jit.jump();
1647
1648     loopDone.link(&m_jit);
1649     m_jit.move(stringGPR, lengthGPR);
1650
1651     done.link(&m_jit);
1652     cellResult(lengthGPR, node);
1653 }
1654
1655 void SpeculativeJIT::compilePeepHoleInt32Branch(Node* node, Node* branchNode, JITCompiler::RelationalCondition condition)
1656 {
1657     BasicBlock* taken = branchNode->branchData()->taken.block;
1658     BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
1659
1660     // The branch instruction will branch to the taken block.
1661     // If taken is next, switch taken with notTaken & invert the branch condition so we can fall through.
1662     if (taken == nextBlock()) {
1663         condition = JITCompiler::invert(condition);
1664         BasicBlock* tmp = taken;
1665         taken = notTaken;
1666         notTaken = tmp;
1667     }
1668
1669     if (node->child1()->isInt32Constant()) {
1670         int32_t imm = node->child1()->asInt32();
1671         SpeculateInt32Operand op2(this, node->child2());
1672         branch32(condition, JITCompiler::Imm32(imm), op2.gpr(), taken);
1673     } else if (node->child2()->isInt32Constant()) {
1674         SpeculateInt32Operand op1(this, node->child1());
1675         int32_t imm = node->child2()->asInt32();
1676         branch32(condition, op1.gpr(), JITCompiler::Imm32(imm), taken);
1677     } else {
1678         SpeculateInt32Operand op1(this, node->child1());
1679         SpeculateInt32Operand op2(this, node->child2());
1680         branch32(condition, op1.gpr(), op2.gpr(), taken);
1681     }
1682
1683     jump(notTaken);
1684 }
1685
1686 // Returns true if the compare is fused with a subsequent branch.
1687 bool SpeculativeJIT::compilePeepHoleBranch(Node* node, MacroAssembler::RelationalCondition condition, MacroAssembler::DoubleCondition doubleCondition, S_JITOperation_EJJ operation)
1688 {
1689     // Fused compare & branch.
1690     unsigned branchIndexInBlock = detectPeepHoleBranch();
1691     if (branchIndexInBlock != UINT_MAX) {
1692         Node* branchNode = m_block->at(branchIndexInBlock);
1693
1694         // detectPeepHoleBranch currently only permits the branch to be the very next node,
1695         // so can be no intervening nodes to also reference the compare. 
1696         ASSERT(node->adjustedRefCount() == 1);
1697
1698         if (node->isBinaryUseKind(Int32Use))
1699             compilePeepHoleInt32Branch(node, branchNode, condition);
1700 #if USE(JSVALUE64)
1701         else if (node->isBinaryUseKind(Int52RepUse))
1702             compilePeepHoleInt52Branch(node, branchNode, condition);
1703 #endif // USE(JSVALUE64)
1704         else if (node->isBinaryUseKind(StringUse) || node->isBinaryUseKind(StringIdentUse)) {
1705             // Use non-peephole comparison, for now.
1706             return false;
1707         } else if (node->isBinaryUseKind(DoubleRepUse))
1708             compilePeepHoleDoubleBranch(node, branchNode, doubleCondition);
1709         else if (node->op() == CompareEq) {
1710             if (node->isBinaryUseKind(BooleanUse))
1711                 compilePeepHoleBooleanBranch(node, branchNode, condition);
1712             else if (node->isBinaryUseKind(SymbolUse))
1713                 compilePeepHoleSymbolEquality(node, branchNode);
1714             else if (node->isBinaryUseKind(ObjectUse))
1715                 compilePeepHoleObjectEquality(node, branchNode);
1716             else if (node->isBinaryUseKind(ObjectUse, ObjectOrOtherUse))
1717                 compilePeepHoleObjectToObjectOrOtherEquality(node->child1(), node->child2(), branchNode);
1718             else if (node->isBinaryUseKind(ObjectOrOtherUse, ObjectUse))
1719                 compilePeepHoleObjectToObjectOrOtherEquality(node->child2(), node->child1(), branchNode);
1720             else if (!needsTypeCheck(node->child1(), SpecOther))
1721                 nonSpeculativePeepholeBranchNullOrUndefined(node->child2(), branchNode);
1722             else if (!needsTypeCheck(node->child2(), SpecOther))
1723                 nonSpeculativePeepholeBranchNullOrUndefined(node->child1(), branchNode);
1724             else {
1725                 nonSpeculativePeepholeBranch(node, branchNode, condition, operation);
1726                 return true;
1727             }
1728         } else {
1729             nonSpeculativePeepholeBranch(node, branchNode, condition, operation);
1730             return true;
1731         }
1732
1733         use(node->child1());
1734         use(node->child2());
1735         m_indexInBlock = branchIndexInBlock;
1736         m_currentNode = branchNode;
1737         return true;
1738     }
1739     return false;
1740 }
1741
1742 void SpeculativeJIT::noticeOSRBirth(Node* node)
1743 {
1744     if (!node->hasVirtualRegister())
1745         return;
1746     
1747     VirtualRegister virtualRegister = node->virtualRegister();
1748     GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
1749     
1750     info.noticeOSRBirth(*m_stream, node, virtualRegister);
1751 }
1752
1753 void SpeculativeJIT::compileMovHint(Node* node)
1754 {
1755     ASSERT(node->containsMovHint() && node->op() != ZombieHint);
1756     
1757     Node* child = node->child1().node();
1758     noticeOSRBirth(child);
1759     
1760     m_stream->appendAndLog(VariableEvent::movHint(MinifiedID(child), node->unlinkedLocal()));
1761 }
1762
1763 void SpeculativeJIT::bail(AbortReason reason)
1764 {
1765     if (verboseCompilationEnabled())
1766         dataLog("Bailing compilation.\n");
1767     m_compileOkay = true;
1768     m_jit.abortWithReason(reason, m_lastGeneratedNode);
1769     clearGenerationInfo();
1770 }
1771
1772 void SpeculativeJIT::compileCurrentBlock()
1773 {
1774     ASSERT(m_compileOkay);
1775     
1776     if (!m_block)
1777         return;
1778     
1779     ASSERT(m_block->isReachable);
1780     
1781     m_jit.blockHeads()[m_block->index] = m_jit.label();
1782
1783     if (!m_block->intersectionOfCFAHasVisited) {
1784         // Don't generate code for basic blocks that are unreachable according to CFA.
1785         // But to be sure that nobody has generated a jump to this block, drop in a
1786         // breakpoint here.
1787         m_jit.abortWithReason(DFGUnreachableBasicBlock);
1788         return;
1789     }
1790
1791     if (m_block->isCatchEntrypoint) {
1792         m_jit.addPtr(CCallHelpers::TrustedImm32(-(m_jit.graph().frameRegisterCount() * sizeof(Register))), GPRInfo::callFrameRegister,  CCallHelpers::stackPointerRegister);
1793         if (Options::zeroStackFrame())
1794             m_jit.clearStackFrame(GPRInfo::callFrameRegister, CCallHelpers::stackPointerRegister, GPRInfo::regT0, m_jit.graph().frameRegisterCount() * sizeof(Register));
1795         m_jit.emitSaveCalleeSaves();
1796         m_jit.emitMaterializeTagCheckRegisters();
1797         m_jit.emitPutToCallFrameHeader(m_jit.codeBlock(), CallFrameSlot::codeBlock);
1798     }
1799
1800     m_stream->appendAndLog(VariableEvent::reset());
1801     
1802     m_jit.jitAssertHasValidCallFrame();
1803     m_jit.jitAssertTagsInPlace();
1804     m_jit.jitAssertArgumentCountSane();
1805
1806     m_state.reset();
1807     m_state.beginBasicBlock(m_block);
1808     
1809     for (size_t i = m_block->variablesAtHead.size(); i--;) {
1810         int operand = m_block->variablesAtHead.operandForIndex(i);
1811         Node* node = m_block->variablesAtHead[i];
1812         if (!node)
1813             continue; // No need to record dead SetLocal's.
1814         
1815         VariableAccessData* variable = node->variableAccessData();
1816         DataFormat format;
1817         if (!node->refCount())
1818             continue; // No need to record dead SetLocal's.
1819         format = dataFormatFor(variable->flushFormat());
1820         m_stream->appendAndLog(
1821             VariableEvent::setLocal(
1822                 VirtualRegister(operand),
1823                 variable->machineLocal(),
1824                 format));
1825     }
1826
1827     m_origin = NodeOrigin();
1828     
1829     for (m_indexInBlock = 0; m_indexInBlock < m_block->size(); ++m_indexInBlock) {
1830         m_currentNode = m_block->at(m_indexInBlock);
1831         
1832         // We may have hit a contradiction that the CFA was aware of but that the JIT
1833         // didn't cause directly.
1834         if (!m_state.isValid()) {
1835             bail(DFGBailedAtTopOfBlock);
1836             return;
1837         }
1838
1839         m_interpreter.startExecuting();
1840         m_interpreter.executeKnownEdgeTypes(m_currentNode);
1841         m_jit.setForNode(m_currentNode);
1842         m_origin = m_currentNode->origin;
1843         m_lastGeneratedNode = m_currentNode->op();
1844         
1845         ASSERT(m_currentNode->shouldGenerate());
1846         
1847         if (verboseCompilationEnabled()) {
1848             dataLogF(
1849                 "SpeculativeJIT generating Node @%d (bc#%u) at JIT offset 0x%x",
1850                 (int)m_currentNode->index(),
1851                 m_currentNode->origin.semantic.bytecodeIndex, m_jit.debugOffset());
1852             dataLog("\n");
1853         }
1854
1855         if (Options::validateDFGExceptionHandling() && (mayExit(m_jit.graph(), m_currentNode) != DoesNotExit || m_currentNode->isTerminal()))
1856             m_jit.jitReleaseAssertNoException(*m_jit.vm());
1857
1858         m_jit.pcToCodeOriginMapBuilder().appendItem(m_jit.labelIgnoringWatchpoints(), m_origin.semantic);
1859
1860         compile(m_currentNode);
1861         
1862         if (belongsInMinifiedGraph(m_currentNode->op()))
1863             m_minifiedGraph->append(MinifiedNode::fromNode(m_currentNode));
1864         
1865 #if ENABLE(DFG_REGISTER_ALLOCATION_VALIDATION)
1866         m_jit.clearRegisterAllocationOffsets();
1867 #endif
1868         
1869         if (!m_compileOkay) {
1870             bail(DFGBailedAtEndOfNode);
1871             return;
1872         }
1873         
1874         // Make sure that the abstract state is rematerialized for the next node.
1875         m_interpreter.executeEffects(m_indexInBlock);
1876     }
1877     
1878     // Perform the most basic verification that children have been used correctly.
1879     if (!ASSERT_DISABLED) {
1880         for (auto& info : m_generationInfo)
1881             RELEASE_ASSERT(!info.alive());
1882     }
1883 }
1884
1885 // If we are making type predictions about our arguments then
1886 // we need to check that they are correct on function entry.
1887 void SpeculativeJIT::checkArgumentTypes()
1888 {
1889     ASSERT(!m_currentNode);
1890     m_origin = NodeOrigin(CodeOrigin(0), CodeOrigin(0), true);
1891
1892     auto& arguments = m_jit.graph().m_rootToArguments.find(m_jit.graph().block(0))->value;
1893     for (int i = 0; i < m_jit.codeBlock()->numParameters(); ++i) {
1894         Node* node = arguments[i];
1895         if (!node) {
1896             // The argument is dead. We don't do any checks for such arguments.
1897             continue;
1898         }
1899         
1900         ASSERT(node->op() == SetArgument);
1901         ASSERT(node->shouldGenerate());
1902
1903         VariableAccessData* variableAccessData = node->variableAccessData();
1904         FlushFormat format = variableAccessData->flushFormat();
1905         
1906         if (format == FlushedJSValue)
1907             continue;
1908         
1909         VirtualRegister virtualRegister = variableAccessData->local();
1910
1911         JSValueSource valueSource = JSValueSource(JITCompiler::addressFor(virtualRegister));
1912         
1913 #if USE(JSVALUE64)
1914         switch (format) {
1915         case FlushedInt32: {
1916             speculationCheck(BadType, valueSource, node, m_jit.branch64(MacroAssembler::Below, JITCompiler::addressFor(virtualRegister), GPRInfo::tagTypeNumberRegister));
1917             break;
1918         }
1919         case FlushedBoolean: {
1920             GPRTemporary temp(this);
1921             m_jit.load64(JITCompiler::addressFor(virtualRegister), temp.gpr());
1922             m_jit.xor64(TrustedImm32(static_cast<int32_t>(ValueFalse)), temp.gpr());
1923             speculationCheck(BadType, valueSource, node, m_jit.branchTest64(MacroAssembler::NonZero, temp.gpr(), TrustedImm32(static_cast<int32_t>(~1))));
1924             break;
1925         }
1926         case FlushedCell: {
1927             speculationCheck(BadType, valueSource, node, m_jit.branchTest64(MacroAssembler::NonZero, JITCompiler::addressFor(virtualRegister), GPRInfo::tagMaskRegister));
1928             break;
1929         }
1930         default:
1931             RELEASE_ASSERT_NOT_REACHED();
1932             break;
1933         }
1934 #else
1935         switch (format) {
1936         case FlushedInt32: {
1937             speculationCheck(BadType, valueSource, node, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::Int32Tag)));
1938             break;
1939         }
1940         case FlushedBoolean: {
1941             speculationCheck(BadType, valueSource, node, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::BooleanTag)));
1942             break;
1943         }
1944         case FlushedCell: {
1945             speculationCheck(BadType, valueSource, node, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::CellTag)));
1946             break;
1947         }
1948         default:
1949             RELEASE_ASSERT_NOT_REACHED();
1950             break;
1951         }
1952 #endif
1953     }
1954
1955     m_origin = NodeOrigin();
1956 }
1957
1958 bool SpeculativeJIT::compile()
1959 {
1960     checkArgumentTypes();
1961     
1962     ASSERT(!m_currentNode);
1963     for (BlockIndex blockIndex = 0; blockIndex < m_jit.graph().numBlocks(); ++blockIndex) {
1964         m_jit.setForBlockIndex(blockIndex);
1965         m_block = m_jit.graph().block(blockIndex);
1966         compileCurrentBlock();
1967     }
1968     linkBranches();
1969     return true;
1970 }
1971
1972 void SpeculativeJIT::createOSREntries()
1973 {
1974     for (BlockIndex blockIndex = 0; blockIndex < m_jit.graph().numBlocks(); ++blockIndex) {
1975         BasicBlock* block = m_jit.graph().block(blockIndex);
1976         if (!block)
1977             continue;
1978         if (block->isOSRTarget || block->isCatchEntrypoint) {
1979             // Currently we don't have OSR entry trampolines. We could add them
1980             // here if need be.
1981             m_osrEntryHeads.append(m_jit.blockHeads()[blockIndex]);
1982         }
1983     }
1984 }
1985
1986 void SpeculativeJIT::linkOSREntries(LinkBuffer& linkBuffer)
1987 {
1988     unsigned osrEntryIndex = 0;
1989     for (BlockIndex blockIndex = 0; blockIndex < m_jit.graph().numBlocks(); ++blockIndex) {
1990         BasicBlock* block = m_jit.graph().block(blockIndex);
1991         if (!block)
1992             continue;
1993         if (!block->isOSRTarget && !block->isCatchEntrypoint)
1994             continue;
1995         if (block->isCatchEntrypoint) {
1996             auto& argumentsVector = m_jit.graph().m_rootToArguments.find(block)->value;
1997             Vector<FlushFormat> argumentFormats;
1998             argumentFormats.reserveInitialCapacity(argumentsVector.size());
1999             for (Node* setArgument : argumentsVector) {
2000                 if (setArgument) {
2001                     FlushFormat flushFormat = setArgument->variableAccessData()->flushFormat();
2002                     ASSERT(flushFormat == FlushedInt32 || flushFormat == FlushedCell || flushFormat == FlushedBoolean || flushFormat == FlushedJSValue);
2003                     argumentFormats.uncheckedAppend(flushFormat);
2004                 } else
2005                     argumentFormats.uncheckedAppend(DeadFlush);
2006             }
2007             m_jit.noticeCatchEntrypoint(*block, m_osrEntryHeads[osrEntryIndex++], linkBuffer, WTFMove(argumentFormats));
2008         } else {
2009             ASSERT(block->isOSRTarget);
2010             m_jit.noticeOSREntry(*block, m_osrEntryHeads[osrEntryIndex++], linkBuffer);
2011         }
2012     }
2013
2014     m_jit.jitCode()->finalizeOSREntrypoints();
2015     m_jit.jitCode()->common.finalizeCatchEntrypoints();
2016
2017     ASSERT(osrEntryIndex == m_osrEntryHeads.size());
2018     
2019     if (verboseCompilationEnabled()) {
2020         DumpContext dumpContext;
2021         dataLog("OSR Entries:\n");
2022         for (OSREntryData& entryData : m_jit.jitCode()->osrEntry)
2023             dataLog("    ", inContext(entryData, &dumpContext), "\n");
2024         if (!dumpContext.isEmpty())
2025             dumpContext.dump(WTF::dataFile());
2026     }
2027 }
2028     
2029 void SpeculativeJIT::compileCheckTraps(Node* node)
2030 {
2031     ASSERT(Options::usePollingTraps());
2032     GPRTemporary unused(this);
2033     GPRReg unusedGPR = unused.gpr();
2034
2035     JITCompiler::Jump needTrapHandling = m_jit.branchTest8(JITCompiler::NonZero,
2036         JITCompiler::AbsoluteAddress(m_jit.vm()->needTrapHandlingAddress()));
2037
2038     addSlowPathGenerator(slowPathCall(needTrapHandling, this, operationHandleTraps, unusedGPR));
2039     noResult(node);
2040 }
2041
2042 void SpeculativeJIT::compileDoublePutByVal(Node* node, SpeculateCellOperand& base, SpeculateStrictInt32Operand& property)
2043 {
2044     Edge child3 = m_jit.graph().varArgChild(node, 2);
2045     Edge child4 = m_jit.graph().varArgChild(node, 3);
2046
2047     ArrayMode arrayMode = node->arrayMode();
2048     
2049     GPRReg baseReg = base.gpr();
2050     GPRReg propertyReg = property.gpr();
2051     
2052     SpeculateDoubleOperand value(this, child3);
2053
2054     FPRReg valueReg = value.fpr();
2055     
2056     DFG_TYPE_CHECK(
2057         JSValueRegs(), child3, SpecFullRealNumber,
2058         m_jit.branchIfNaN(valueReg));
2059     
2060     if (!m_compileOkay)
2061         return;
2062     
2063     StorageOperand storage(this, child4);
2064     GPRReg storageReg = storage.gpr();
2065
2066     if (node->op() == PutByValAlias) {
2067         // Store the value to the array.
2068         GPRReg propertyReg = property.gpr();
2069         FPRReg valueReg = value.fpr();
2070         m_jit.storeDouble(valueReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight));
2071         
2072         noResult(m_currentNode);
2073         return;
2074     }
2075     
2076     GPRTemporary temporary;
2077     GPRReg temporaryReg = temporaryRegisterForPutByVal(temporary, node);
2078
2079     MacroAssembler::Jump slowCase;
2080     
2081     if (arrayMode.isInBounds()) {
2082         speculationCheck(
2083             OutOfBounds, JSValueRegs(), 0,
2084             m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength())));
2085     } else {
2086         MacroAssembler::Jump inBounds = m_jit.branch32(MacroAssembler::Below, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength()));
2087         
2088         slowCase = m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfVectorLength()));
2089         
2090         if (!arrayMode.isOutOfBounds())
2091             speculationCheck(OutOfBounds, JSValueRegs(), 0, slowCase);
2092         
2093         m_jit.add32(TrustedImm32(1), propertyReg, temporaryReg);
2094         m_jit.store32(temporaryReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength()));
2095
2096         inBounds.link(&m_jit);
2097     }
2098     
2099     m_jit.storeDouble(valueReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight));
2100
2101     base.use();
2102     property.use();
2103     value.use();
2104     storage.use();
2105     
2106     if (arrayMode.isOutOfBounds()) {
2107         addSlowPathGenerator(
2108             slowPathCall(
2109                 slowCase, this,
2110                 m_jit.codeBlock()->isStrictMode()
2111                     ? (node->op() == PutByValDirect ? operationPutDoubleByValDirectBeyondArrayBoundsStrict : operationPutDoubleByValBeyondArrayBoundsStrict)
2112                     : (node->op() == PutByValDirect ? operationPutDoubleByValDirectBeyondArrayBoundsNonStrict : operationPutDoubleByValBeyondArrayBoundsNonStrict),
2113                 NoResult, baseReg, propertyReg, valueReg));
2114     }
2115
2116     noResult(m_currentNode, UseChildrenCalledExplicitly);
2117 }
2118
2119 void SpeculativeJIT::compileGetCharCodeAt(Node* node)
2120 {
2121     SpeculateCellOperand string(this, node->child1());
2122     SpeculateStrictInt32Operand index(this, node->child2());
2123     StorageOperand storage(this, node->child3());
2124
2125     GPRReg stringReg = string.gpr();
2126     GPRReg indexReg = index.gpr();
2127     GPRReg storageReg = storage.gpr();
2128     
2129     ASSERT(speculationChecked(m_state.forNode(node->child1()).m_type, SpecString));
2130
2131     // unsigned comparison so we can filter out negative indices and indices that are too large
2132     speculationCheck(Uncountable, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::AboveOrEqual, indexReg, MacroAssembler::Address(stringReg, JSString::offsetOfLength())));
2133
2134     GPRTemporary scratch(this);
2135     GPRReg scratchReg = scratch.gpr();
2136
2137     m_jit.loadPtr(MacroAssembler::Address(stringReg, JSString::offsetOfValue()), scratchReg);
2138
2139     // Load the character into scratchReg
2140     JITCompiler::Jump is16Bit = m_jit.branchTest32(MacroAssembler::Zero, MacroAssembler::Address(scratchReg, StringImpl::flagsOffset()), TrustedImm32(StringImpl::flagIs8Bit()));
2141
2142     m_jit.load8(MacroAssembler::BaseIndex(storageReg, indexReg, MacroAssembler::TimesOne, 0), scratchReg);
2143     JITCompiler::Jump cont8Bit = m_jit.jump();
2144
2145     is16Bit.link(&m_jit);
2146
2147     m_jit.load16(MacroAssembler::BaseIndex(storageReg, indexReg, MacroAssembler::TimesTwo, 0), scratchReg);
2148
2149     cont8Bit.link(&m_jit);
2150
2151     int32Result(scratchReg, m_currentNode);
2152 }
2153
2154 void SpeculativeJIT::compileGetByValOnString(Node* node)
2155 {
2156     SpeculateCellOperand base(this, m_graph.child(node, 0));
2157     SpeculateStrictInt32Operand property(this, m_graph.child(node, 1));
2158     StorageOperand storage(this, m_graph.child(node, 2));
2159     GPRReg baseReg = base.gpr();
2160     GPRReg propertyReg = property.gpr();
2161     GPRReg storageReg = storage.gpr();
2162
2163     GPRTemporary scratch(this);
2164     GPRReg scratchReg = scratch.gpr();
2165 #if USE(JSVALUE32_64)
2166     GPRTemporary resultTag;
2167     GPRReg resultTagReg = InvalidGPRReg;
2168     if (node->arrayMode().isOutOfBounds()) {
2169         GPRTemporary realResultTag(this);
2170         resultTag.adopt(realResultTag);
2171         resultTagReg = resultTag.gpr();
2172     }
2173 #endif
2174
2175     ASSERT(ArrayMode(Array::String, Array::Read).alreadyChecked(m_jit.graph(), node, m_state.forNode(m_graph.child(node, 0))));
2176
2177     // unsigned comparison so we can filter out negative indices and indices that are too large
2178     JITCompiler::Jump outOfBounds = m_jit.branch32(
2179         MacroAssembler::AboveOrEqual, propertyReg,
2180         MacroAssembler::Address(baseReg, JSString::offsetOfLength()));
2181     if (node->arrayMode().isInBounds())
2182         speculationCheck(OutOfBounds, JSValueRegs(), 0, outOfBounds);
2183
2184     m_jit.loadPtr(MacroAssembler::Address(baseReg, JSString::offsetOfValue()), scratchReg);
2185
2186     // Load the character into scratchReg
2187     JITCompiler::Jump is16Bit = m_jit.branchTest32(MacroAssembler::Zero, MacroAssembler::Address(scratchReg, StringImpl::flagsOffset()), TrustedImm32(StringImpl::flagIs8Bit()));
2188
2189     m_jit.load8(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesOne, 0), scratchReg);
2190     JITCompiler::Jump cont8Bit = m_jit.jump();
2191
2192     is16Bit.link(&m_jit);
2193
2194     m_jit.load16(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesTwo, 0), scratchReg);
2195
2196     JITCompiler::Jump bigCharacter =
2197         m_jit.branch32(MacroAssembler::Above, scratchReg, TrustedImm32(maxSingleCharacterString));
2198
2199     // 8 bit string values don't need the isASCII check.
2200     cont8Bit.link(&m_jit);
2201
2202     m_jit.lshift32(MacroAssembler::TrustedImm32(sizeof(void*) == 4 ? 2 : 3), scratchReg);
2203     m_jit.addPtr(TrustedImmPtr(m_jit.vm()->smallStrings.singleCharacterStrings()), scratchReg);
2204     m_jit.loadPtr(scratchReg, scratchReg);
2205
2206     addSlowPathGenerator(
2207         slowPathCall(
2208             bigCharacter, this, operationSingleCharacterString, scratchReg, scratchReg));
2209
2210     if (node->arrayMode().isOutOfBounds()) {
2211 #if USE(JSVALUE32_64)
2212         m_jit.move(TrustedImm32(JSValue::CellTag), resultTagReg);
2213 #endif
2214
2215         JSGlobalObject* globalObject = m_jit.globalObjectFor(node->origin.semantic);
2216         bool prototypeChainIsSane = false;
2217         if (globalObject->stringPrototypeChainIsSane()) {
2218             // FIXME: This could be captured using a Speculation mode that means "out-of-bounds
2219             // loads return a trivial value". Something like SaneChainOutOfBounds. This should
2220             // speculate that we don't take negative out-of-bounds, or better yet, it should rely
2221             // on a stringPrototypeChainIsSane() guaranteeing that the prototypes have no negative
2222             // indexed properties either.
2223             // https://bugs.webkit.org/show_bug.cgi?id=144668
2224             m_jit.graph().registerAndWatchStructureTransition(globalObject->stringPrototype()->structure(*m_jit.vm()));
2225             m_jit.graph().registerAndWatchStructureTransition(globalObject->objectPrototype()->structure(*m_jit.vm()));
2226             prototypeChainIsSane = globalObject->stringPrototypeChainIsSane();
2227         }
2228         if (prototypeChainIsSane) {
2229 #if USE(JSVALUE64)
2230             addSlowPathGenerator(std::make_unique<SaneStringGetByValSlowPathGenerator>(
2231                 outOfBounds, this, JSValueRegs(scratchReg), baseReg, propertyReg));
2232 #else
2233             addSlowPathGenerator(std::make_unique<SaneStringGetByValSlowPathGenerator>(
2234                 outOfBounds, this, JSValueRegs(resultTagReg, scratchReg),
2235                 baseReg, propertyReg));
2236 #endif
2237         } else {
2238 #if USE(JSVALUE64)
2239             addSlowPathGenerator(
2240                 slowPathCall(
2241                     outOfBounds, this, operationGetByValStringInt,
2242                     scratchReg, baseReg, propertyReg));
2243 #else
2244             addSlowPathGenerator(
2245                 slowPathCall(
2246                     outOfBounds, this, operationGetByValStringInt,
2247                     JSValueRegs(resultTagReg, scratchReg), baseReg, propertyReg));
2248 #endif
2249         }
2250         
2251 #if USE(JSVALUE64)
2252         jsValueResult(scratchReg, m_currentNode);
2253 #else
2254         jsValueResult(resultTagReg, scratchReg, m_currentNode);
2255 #endif
2256     } else
2257         cellResult(scratchReg, m_currentNode);
2258 }
2259
2260 void SpeculativeJIT::compileFromCharCode(Node* node)
2261 {
2262     Edge& child = node->child1();
2263     if (child.useKind() == UntypedUse) {
2264         JSValueOperand opr(this, child);
2265         JSValueRegs oprRegs = opr.jsValueRegs();
2266
2267         flushRegisters();
2268         JSValueRegsFlushedCallResult result(this);
2269         JSValueRegs resultRegs = result.regs();
2270         callOperation(operationStringFromCharCodeUntyped, resultRegs, oprRegs);
2271         m_jit.exceptionCheck();
2272         
2273         jsValueResult(resultRegs, node);
2274         return;
2275     }
2276
2277     SpeculateStrictInt32Operand property(this, child);
2278     GPRReg propertyReg = property.gpr();
2279     GPRTemporary smallStrings(this);
2280     GPRTemporary scratch(this);
2281     GPRReg scratchReg = scratch.gpr();
2282     GPRReg smallStringsReg = smallStrings.gpr();
2283
2284     JITCompiler::JumpList slowCases;
2285     slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, TrustedImm32(maxSingleCharacterString)));
2286     m_jit.move(TrustedImmPtr(m_jit.vm()->smallStrings.singleCharacterStrings()), smallStringsReg);
2287     m_jit.loadPtr(MacroAssembler::BaseIndex(smallStringsReg, propertyReg, MacroAssembler::ScalePtr, 0), scratchReg);
2288
2289     slowCases.append(m_jit.branchTest32(MacroAssembler::Zero, scratchReg));
2290     addSlowPathGenerator(slowPathCall(slowCases, this, operationStringFromCharCode, scratchReg, propertyReg));
2291     cellResult(scratchReg, m_currentNode);
2292 }
2293
2294 GeneratedOperandType SpeculativeJIT::checkGeneratedTypeForToInt32(Node* node)
2295 {
2296     VirtualRegister virtualRegister = node->virtualRegister();
2297     GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
2298
2299     switch (info.registerFormat()) {
2300     case DataFormatStorage:
2301         RELEASE_ASSERT_NOT_REACHED();
2302
2303     case DataFormatBoolean:
2304     case DataFormatCell:
2305         terminateSpeculativeExecution(Uncountable, JSValueRegs(), 0);
2306         return GeneratedOperandTypeUnknown;
2307
2308     case DataFormatNone:
2309     case DataFormatJSCell:
2310     case DataFormatJS:
2311     case DataFormatJSBoolean:
2312     case DataFormatJSDouble:
2313         return GeneratedOperandJSValue;
2314
2315     case DataFormatJSInt32:
2316     case DataFormatInt32:
2317         return GeneratedOperandInteger;
2318
2319     default:
2320         RELEASE_ASSERT_NOT_REACHED();
2321         return GeneratedOperandTypeUnknown;
2322     }
2323 }
2324
2325 void SpeculativeJIT::compileValueToInt32(Node* node)
2326 {
2327     switch (node->child1().useKind()) {
2328 #if USE(JSVALUE64)
2329     case Int52RepUse: {
2330         SpeculateStrictInt52Operand op1(this, node->child1());
2331         GPRTemporary result(this, Reuse, op1);
2332         GPRReg op1GPR = op1.gpr();
2333         GPRReg resultGPR = result.gpr();
2334         m_jit.zeroExtend32ToPtr(op1GPR, resultGPR);
2335         int32Result(resultGPR, node, DataFormatInt32);
2336         return;
2337     }
2338 #endif // USE(JSVALUE64)
2339         
2340     case DoubleRepUse: {
2341         GPRTemporary result(this);
2342         SpeculateDoubleOperand op1(this, node->child1());
2343         FPRReg fpr = op1.fpr();
2344         GPRReg gpr = result.gpr();
2345 #if CPU(ARM64)
2346         if (MacroAssemblerARM64::supportsDoubleToInt32ConversionUsingJavaScriptSemantics())
2347             m_jit.convertDoubleToInt32UsingJavaScriptSemantics(fpr, gpr);
2348         else
2349 #endif
2350         {
2351             JITCompiler::Jump notTruncatedToInteger = m_jit.branchTruncateDoubleToInt32(fpr, gpr, JITCompiler::BranchIfTruncateFailed);
2352             addSlowPathGenerator(slowPathCall(notTruncatedToInteger, this,
2353                 hasSensibleDoubleToInt() ? operationToInt32SensibleSlow : operationToInt32, NeedToSpill, ExceptionCheckRequirement::CheckNotNeeded, gpr, fpr));
2354         }
2355         int32Result(gpr, node);
2356         return;
2357     }
2358     
2359     case NumberUse:
2360     case NotCellUse: {
2361         switch (checkGeneratedTypeForToInt32(node->child1().node())) {
2362         case GeneratedOperandInteger: {
2363             SpeculateInt32Operand op1(this, node->child1(), ManualOperandSpeculation);
2364             GPRTemporary result(this, Reuse, op1);
2365             m_jit.move(op1.gpr(), result.gpr());
2366             int32Result(result.gpr(), node, op1.format());
2367             return;
2368         }
2369         case GeneratedOperandJSValue: {
2370             GPRTemporary result(this);
2371 #if USE(JSVALUE64)
2372             JSValueOperand op1(this, node->child1(), ManualOperandSpeculation);
2373
2374             GPRReg gpr = op1.gpr();
2375             GPRReg resultGpr = result.gpr();
2376             FPRTemporary tempFpr(this);
2377             FPRReg fpr = tempFpr.fpr();
2378
2379             JITCompiler::Jump isInteger = m_jit.branchIfInt32(gpr);
2380             JITCompiler::JumpList converted;
2381
2382             if (node->child1().useKind() == NumberUse) {
2383                 DFG_TYPE_CHECK(
2384                     JSValueRegs(gpr), node->child1(), SpecBytecodeNumber,
2385                     m_jit.branchIfNotNumber(gpr));
2386             } else {
2387                 JITCompiler::Jump isNumber = m_jit.branchIfNumber(gpr);
2388                 
2389                 DFG_TYPE_CHECK(
2390                     JSValueRegs(gpr), node->child1(), ~SpecCellCheck, m_jit.branchIfCell(JSValueRegs(gpr)));
2391                 
2392                 // It's not a cell: so true turns into 1 and all else turns into 0.
2393                 m_jit.compare64(JITCompiler::Equal, gpr, TrustedImm32(ValueTrue), resultGpr);
2394                 converted.append(m_jit.jump());
2395                 
2396                 isNumber.link(&m_jit);
2397             }
2398
2399             // First, if we get here we have a double encoded as a JSValue
2400             unboxDouble(gpr, resultGpr, fpr);
2401 #if CPU(ARM64)
2402             if (MacroAssemblerARM64::supportsDoubleToInt32ConversionUsingJavaScriptSemantics())
2403                 m_jit.convertDoubleToInt32UsingJavaScriptSemantics(fpr, resultGpr);
2404             else
2405 #endif
2406             {
2407                 silentSpillAllRegisters(resultGpr);
2408                 callOperation(operationToInt32, resultGpr, fpr);
2409                 silentFillAllRegisters();
2410             }
2411
2412             converted.append(m_jit.jump());
2413
2414             isInteger.link(&m_jit);
2415             m_jit.zeroExtend32ToPtr(gpr, resultGpr);
2416
2417             converted.link(&m_jit);
2418 #else
2419             Node* childNode = node->child1().node();
2420             VirtualRegister virtualRegister = childNode->virtualRegister();
2421             GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
2422
2423             JSValueOperand op1(this, node->child1(), ManualOperandSpeculation);
2424
2425             GPRReg payloadGPR = op1.payloadGPR();
2426             GPRReg resultGpr = result.gpr();
2427         
2428             JITCompiler::JumpList converted;
2429
2430             if (info.registerFormat() == DataFormatJSInt32)
2431                 m_jit.move(payloadGPR, resultGpr);
2432             else {
2433                 GPRReg tagGPR = op1.tagGPR();
2434                 FPRTemporary tempFpr(this);
2435                 FPRReg fpr = tempFpr.fpr();
2436                 FPRTemporary scratch(this);
2437
2438                 JITCompiler::Jump isInteger = m_jit.branchIfInt32(tagGPR);
2439
2440                 if (node->child1().useKind() == NumberUse) {
2441                     DFG_TYPE_CHECK(
2442                         op1.jsValueRegs(), node->child1(), SpecBytecodeNumber,
2443                         m_jit.branch32(
2444                             MacroAssembler::AboveOrEqual, tagGPR,
2445                             TrustedImm32(JSValue::LowestTag)));
2446                 } else {
2447                     JITCompiler::Jump isNumber = m_jit.branch32(MacroAssembler::Below, tagGPR, TrustedImm32(JSValue::LowestTag));
2448                     
2449                     DFG_TYPE_CHECK(
2450                         op1.jsValueRegs(), node->child1(), ~SpecCell,
2451                         m_jit.branchIfCell(op1.jsValueRegs()));
2452                     
2453                     // It's not a cell: so true turns into 1 and all else turns into 0.
2454                     JITCompiler::Jump isBoolean = m_jit.branchIfBoolean(tagGPR, InvalidGPRReg);
2455                     m_jit.move(TrustedImm32(0), resultGpr);
2456                     converted.append(m_jit.jump());
2457                     
2458                     isBoolean.link(&m_jit);
2459                     m_jit.move(payloadGPR, resultGpr);
2460                     converted.append(m_jit.jump());
2461                     
2462                     isNumber.link(&m_jit);
2463                 }
2464
2465                 unboxDouble(tagGPR, payloadGPR, fpr, scratch.fpr());
2466
2467                 silentSpillAllRegisters(resultGpr);
2468                 callOperation(operationToInt32, resultGpr, fpr);
2469                 silentFillAllRegisters();
2470
2471                 converted.append(m_jit.jump());
2472
2473                 isInteger.link(&m_jit);
2474                 m_jit.move(payloadGPR, resultGpr);
2475
2476                 converted.link(&m_jit);
2477             }
2478 #endif
2479             int32Result(resultGpr, node);
2480             return;
2481         }
2482         case GeneratedOperandTypeUnknown:
2483             RELEASE_ASSERT(!m_compileOkay);
2484             return;
2485         }
2486         RELEASE_ASSERT_NOT_REACHED();
2487         return;
2488     }
2489     
2490     default:
2491         ASSERT(!m_compileOkay);
2492         return;
2493     }
2494 }
2495
2496 void SpeculativeJIT::compileUInt32ToNumber(Node* node)
2497 {
2498     if (doesOverflow(node->arithMode())) {
2499         if (enableInt52()) {
2500             SpeculateInt32Operand op1(this, node->child1());
2501             GPRTemporary result(this, Reuse, op1);
2502             m_jit.zeroExtend32ToPtr(op1.gpr(), result.gpr());
2503             strictInt52Result(result.gpr(), node);
2504             return;
2505         }
2506         SpeculateInt32Operand op1(this, node->child1());
2507         FPRTemporary result(this);
2508             
2509         GPRReg inputGPR = op1.gpr();
2510         FPRReg outputFPR = result.fpr();
2511             
2512         m_jit.convertInt32ToDouble(inputGPR, outputFPR);
2513             
2514         JITCompiler::Jump positive = m_jit.branch32(MacroAssembler::GreaterThanOrEqual, inputGPR, TrustedImm32(0));
2515         m_jit.addDouble(JITCompiler::AbsoluteAddress(&AssemblyHelpers::twoToThe32), outputFPR);
2516         positive.link(&m_jit);
2517             
2518         doubleResult(outputFPR, node);
2519         return;
2520     }
2521     
2522     RELEASE_ASSERT(node->arithMode() == Arith::CheckOverflow);
2523
2524     SpeculateInt32Operand op1(this, node->child1());
2525     GPRTemporary result(this);
2526
2527     m_jit.move(op1.gpr(), result.gpr());
2528
2529     speculationCheck(Overflow, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::LessThan, result.gpr(), TrustedImm32(0)));
2530
2531     int32Result(result.gpr(), node, op1.format());
2532 }
2533
2534 void SpeculativeJIT::compileDoubleAsInt32(Node* node)
2535 {
2536     SpeculateDoubleOperand op1(this, node->child1());
2537     FPRTemporary scratch(this);
2538     GPRTemporary result(this);
2539     
2540     FPRReg valueFPR = op1.fpr();
2541     FPRReg scratchFPR = scratch.fpr();
2542     GPRReg resultGPR = result.gpr();
2543
2544     JITCompiler::JumpList failureCases;
2545     RELEASE_ASSERT(shouldCheckOverflow(node->arithMode()));
2546     m_jit.branchConvertDoubleToInt32(
2547         valueFPR, resultGPR, failureCases, scratchFPR,
2548         shouldCheckNegativeZero(node->arithMode()));
2549     speculationCheck(Overflow, JSValueRegs(), 0, failureCases);
2550
2551     int32Result(resultGPR, node);
2552 }
2553
2554 void SpeculativeJIT::compileDoubleRep(Node* node)
2555 {
2556     switch (node->child1().useKind()) {
2557     case RealNumberUse: {
2558         JSValueOperand op1(this, node->child1(), ManualOperandSpeculation);
2559         FPRTemporary result(this);
2560         
2561         JSValueRegs op1Regs = op1.jsValueRegs();
2562         FPRReg resultFPR = result.fpr();
2563         
2564 #if USE(JSVALUE64)
2565         GPRTemporary temp(this);
2566         GPRReg tempGPR = temp.gpr();
2567         m_jit.unboxDoubleWithoutAssertions(op1Regs.gpr(), tempGPR, resultFPR);
2568 #else
2569         FPRTemporary temp(this);
2570         FPRReg tempFPR = temp.fpr();
2571         unboxDouble(op1Regs.tagGPR(), op1Regs.payloadGPR(), resultFPR, tempFPR);
2572 #endif
2573         
2574         JITCompiler::Jump done = m_jit.branchIfNotNaN(resultFPR);
2575         
2576         DFG_TYPE_CHECK(
2577             op1Regs, node->child1(), SpecBytecodeRealNumber, m_jit.branchIfNotInt32(op1Regs));
2578         m_jit.convertInt32ToDouble(op1Regs.payloadGPR(), resultFPR);
2579         
2580         done.link(&m_jit);
2581         
2582         doubleResult(resultFPR, node);
2583         return;
2584     }
2585     
2586     case NotCellUse:
2587     case NumberUse: {
2588         SpeculatedType possibleTypes = m_state.forNode(node->child1()).m_type;
2589         if (isInt32Speculation(possibleTypes)) {
2590             SpeculateInt32Operand op1(this, node->child1(), ManualOperandSpeculation);
2591             FPRTemporary result(this);
2592             m_jit.convertInt32ToDouble(op1.gpr(), result.fpr());
2593             doubleResult(result.fpr(), node);
2594             return;
2595         }
2596
2597         JSValueOperand op1(this, node->child1(), ManualOperandSpeculation);
2598         FPRTemporary result(this);
2599
2600 #if USE(JSVALUE64)
2601         GPRTemporary temp(this);
2602
2603         GPRReg op1GPR = op1.gpr();
2604         GPRReg tempGPR = temp.gpr();
2605         FPRReg resultFPR = result.fpr();
2606         JITCompiler::JumpList done;
2607
2608         JITCompiler::Jump isInteger = m_jit.branchIfInt32(op1GPR);
2609
2610         if (node->child1().useKind() == NotCellUse) {
2611             JITCompiler::Jump isNumber = m_jit.branchIfNumber(op1GPR);
2612             JITCompiler::Jump isUndefined = m_jit.branchIfUndefined(op1GPR);
2613
2614             static const double zero = 0;
2615             m_jit.loadDouble(TrustedImmPtr(&zero), resultFPR);
2616
2617             JITCompiler::Jump isNull = m_jit.branchIfNull(op1GPR);
2618             done.append(isNull);
2619
2620             DFG_TYPE_CHECK(JSValueRegs(op1GPR), node->child1(), ~SpecCellCheck,
2621                 m_jit.branchTest64(JITCompiler::Zero, op1GPR, TrustedImm32(static_cast<int32_t>(TagBitBool))));
2622
2623             JITCompiler::Jump isFalse = m_jit.branch64(JITCompiler::Equal, op1GPR, TrustedImm64(ValueFalse));
2624             static const double one = 1;
2625             m_jit.loadDouble(TrustedImmPtr(&one), resultFPR);
2626             done.append(m_jit.jump());
2627             done.append(isFalse);
2628
2629             isUndefined.link(&m_jit);
2630             static const double NaN = PNaN;
2631             m_jit.loadDouble(TrustedImmPtr(&NaN), resultFPR);
2632             done.append(m_jit.jump());
2633
2634             isNumber.link(&m_jit);
2635         } else if (needsTypeCheck(node->child1(), SpecBytecodeNumber)) {
2636             typeCheck(
2637                 JSValueRegs(op1GPR), node->child1(), SpecBytecodeNumber,
2638                 m_jit.branchIfNotNumber(op1GPR));
2639         }
2640
2641         unboxDouble(op1GPR, tempGPR, resultFPR);
2642         done.append(m_jit.jump());
2643     
2644         isInteger.link(&m_jit);
2645         m_jit.convertInt32ToDouble(op1GPR, resultFPR);
2646         done.link(&m_jit);
2647 #else // USE(JSVALUE64) -> this is the 32_64 case
2648         FPRTemporary temp(this);
2649     
2650         GPRReg op1TagGPR = op1.tagGPR();
2651         GPRReg op1PayloadGPR = op1.payloadGPR();
2652         FPRReg tempFPR = temp.fpr();
2653         FPRReg resultFPR = result.fpr();
2654         JITCompiler::JumpList done;
2655     
2656         JITCompiler::Jump isInteger = m_jit.branchIfInt32(op1TagGPR);
2657
2658         if (node->child1().useKind() == NotCellUse) {
2659             JITCompiler::Jump isNumber = m_jit.branch32(JITCompiler::Below, op1TagGPR, JITCompiler::TrustedImm32(JSValue::LowestTag + 1));
2660             JITCompiler::Jump isUndefined = m_jit.branchIfUndefined(op1TagGPR);
2661
2662             static const double zero = 0;
2663             m_jit.loadDouble(TrustedImmPtr(&zero), resultFPR);
2664
2665             JITCompiler::Jump isNull = m_jit.branchIfNull(op1TagGPR);
2666             done.append(isNull);
2667
2668             DFG_TYPE_CHECK(JSValueRegs(op1TagGPR, op1PayloadGPR), node->child1(), ~SpecCell, m_jit.branchIfNotBoolean(op1TagGPR, InvalidGPRReg));
2669
2670             JITCompiler::Jump isFalse = m_jit.branchTest32(JITCompiler::Zero, op1PayloadGPR, TrustedImm32(1));
2671             static const double one = 1;
2672             m_jit.loadDouble(TrustedImmPtr(&one), resultFPR);
2673             done.append(m_jit.jump());
2674             done.append(isFalse);
2675
2676             isUndefined.link(&m_jit);
2677             static const double NaN = PNaN;
2678             m_jit.loadDouble(TrustedImmPtr(&NaN), resultFPR);
2679             done.append(m_jit.jump());
2680
2681             isNumber.link(&m_jit);
2682         } else if (needsTypeCheck(node->child1(), SpecBytecodeNumber)) {
2683             // This check fails with Int32Tag, but it is OK since Int32 case is already excluded.
2684             typeCheck(
2685                 JSValueRegs(op1TagGPR, op1PayloadGPR), node->child1(), SpecBytecodeNumber,
2686                 m_jit.branch32(MacroAssembler::AboveOrEqual, op1TagGPR, TrustedImm32(JSValue::LowestTag)));
2687         }
2688
2689         unboxDouble(op1TagGPR, op1PayloadGPR, resultFPR, tempFPR);
2690         done.append(m_jit.jump());
2691     
2692         isInteger.link(&m_jit);
2693         m_jit.convertInt32ToDouble(op1PayloadGPR, resultFPR);
2694         done.link(&m_jit);
2695 #endif // USE(JSVALUE64)
2696     
2697         doubleResult(resultFPR, node);
2698         return;
2699     }
2700         
2701 #if USE(JSVALUE64)
2702     case Int52RepUse: {
2703         SpeculateStrictInt52Operand value(this, node->child1());
2704         FPRTemporary result(this);
2705         
2706         GPRReg valueGPR = value.gpr();
2707         FPRReg resultFPR = result.fpr();
2708
2709         m_jit.convertInt64ToDouble(valueGPR, resultFPR);
2710         
2711         doubleResult(resultFPR, node);
2712         return;
2713     }
2714 #endif // USE(JSVALUE64)
2715         
2716     default:
2717         RELEASE_ASSERT_NOT_REACHED();
2718         return;
2719     }
2720 }
2721
2722 void SpeculativeJIT::compileValueRep(Node* node)
2723 {
2724     switch (node->child1().useKind()) {
2725     case DoubleRepUse: {
2726         SpeculateDoubleOperand value(this, node->child1());
2727         JSValueRegsTemporary result(this);
2728         
2729         FPRReg valueFPR = value.fpr();
2730         JSValueRegs resultRegs = result.regs();
2731         
2732         // It's very tempting to in-place filter the value to indicate that it's not impure NaN
2733         // anymore. Unfortunately, this would be unsound. If it's a GetLocal or if the value was
2734         // subject to a prior SetLocal, filtering the value would imply that the corresponding
2735         // local was purified.
2736         if (needsTypeCheck(node->child1(), ~SpecDoubleImpureNaN))
2737             m_jit.purifyNaN(valueFPR);
2738
2739         boxDouble(valueFPR, resultRegs);
2740         
2741         jsValueResult(resultRegs, node);
2742         return;
2743     }
2744         
2745 #if USE(JSVALUE64)
2746     case Int52RepUse: {
2747         SpeculateStrictInt52Operand value(this, node->child1());
2748         GPRTemporary result(this);
2749         
2750         GPRReg valueGPR = value.gpr();
2751         GPRReg resultGPR = result.gpr();
2752         
2753         boxInt52(valueGPR, resultGPR, DataFormatStrictInt52);
2754         
2755         jsValueResult(resultGPR, node);
2756         return;
2757     }
2758 #endif // USE(JSVALUE64)
2759         
2760     default:
2761         RELEASE_ASSERT_NOT_REACHED();
2762         return;
2763     }
2764 }
2765
2766 static double clampDoubleToByte(double d)
2767 {
2768     d += 0.5;
2769     if (!(d > 0))
2770         d = 0;
2771     else if (d > 255)
2772         d = 255;
2773     return d;
2774 }
2775
2776 static void compileClampIntegerToByte(JITCompiler& jit, GPRReg result)
2777 {
2778     MacroAssembler::Jump inBounds = jit.branch32(MacroAssembler::BelowOrEqual, result, JITCompiler::TrustedImm32(0xff));
2779     MacroAssembler::Jump tooBig = jit.branch32(MacroAssembler::GreaterThan, result, JITCompiler::TrustedImm32(0xff));
2780     jit.xorPtr(result, result);
2781     MacroAssembler::Jump clamped = jit.jump();
2782     tooBig.link(&jit);
2783     jit.move(JITCompiler::TrustedImm32(255), result);
2784     clamped.link(&jit);
2785     inBounds.link(&jit);
2786 }
2787
2788 static void compileClampDoubleToByte(JITCompiler& jit, GPRReg result, FPRReg source, FPRReg scratch)
2789 {
2790     // Unordered compare so we pick up NaN
2791     static const double zero = 0;
2792     static const double byteMax = 255;
2793     static const double half = 0.5;
2794     jit.loadDouble(JITCompiler::TrustedImmPtr(&zero), scratch);
2795     MacroAssembler::Jump tooSmall = jit.branchDouble(MacroAssembler::DoubleLessThanOrEqualOrUnordered, source, scratch);
2796     jit.loadDouble(JITCompiler::TrustedImmPtr(&byteMax), scratch);
2797     MacroAssembler::Jump tooBig = jit.branchDouble(MacroAssembler::DoubleGreaterThan, source, scratch);
2798     
2799     jit.loadDouble(JITCompiler::TrustedImmPtr(&half), scratch);
2800     // FIXME: This should probably just use a floating point round!
2801     // https://bugs.webkit.org/show_bug.cgi?id=72054
2802     jit.addDouble(source, scratch);
2803     jit.truncateDoubleToInt32(scratch, result);   
2804     MacroAssembler::Jump truncatedInt = jit.jump();
2805     
2806     tooSmall.link(&jit);
2807     jit.xorPtr(result, result);
2808     MacroAssembler::Jump zeroed = jit.jump();
2809     
2810     tooBig.link(&jit);
2811     jit.move(JITCompiler::TrustedImm32(255), result);
2812     
2813     truncatedInt.link(&jit);
2814     zeroed.link(&jit);
2815
2816 }
2817
2818 JITCompiler::Jump SpeculativeJIT::jumpForTypedArrayOutOfBounds(Node* node, GPRReg baseGPR, GPRReg indexGPR)
2819 {
2820     if (node->op() == PutByValAlias)
2821         return JITCompiler::Jump();
2822     JSArrayBufferView* view = m_jit.graph().tryGetFoldableView(
2823         m_state.forNode(m_jit.graph().child(node, 0)).m_value, node->arrayMode());
2824     if (view) {
2825         uint32_t length = view->length();
2826         Node* indexNode = m_jit.graph().child(node, 1).node();
2827         if (indexNode->isInt32Constant() && indexNode->asUInt32() < length)
2828             return JITCompiler::Jump();
2829         return m_jit.branch32(
2830             MacroAssembler::AboveOrEqual, indexGPR, MacroAssembler::Imm32(length));
2831     }
2832     return m_jit.branch32(
2833         MacroAssembler::AboveOrEqual, indexGPR,
2834         MacroAssembler::Address(baseGPR, JSArrayBufferView::offsetOfLength()));
2835 }
2836
2837 void SpeculativeJIT::emitTypedArrayBoundsCheck(Node* node, GPRReg baseGPR, GPRReg indexGPR)
2838 {
2839     JITCompiler::Jump jump = jumpForTypedArrayOutOfBounds(node, baseGPR, indexGPR);
2840     if (!jump.isSet())
2841         return;
2842     speculationCheck(OutOfBounds, JSValueRegs(), 0, jump);
2843 }
2844
2845 JITCompiler::Jump SpeculativeJIT::jumpForTypedArrayIsNeuteredIfOutOfBounds(Node* node, GPRReg base, JITCompiler::Jump outOfBounds)
2846 {
2847     JITCompiler::Jump done;
2848     if (outOfBounds.isSet()) {
2849         done = m_jit.jump();
2850         if (node->arrayMode().isInBounds())
2851             speculationCheck(OutOfBounds, JSValueSource(), 0, outOfBounds);
2852         else {
2853             outOfBounds.link(&m_jit);
2854
2855             JITCompiler::Jump notWasteful = m_jit.branch32(
2856                 MacroAssembler::NotEqual,
2857                 MacroAssembler::Address(base, JSArrayBufferView::offsetOfMode()),
2858                 TrustedImm32(WastefulTypedArray));
2859
2860             JITCompiler::Jump hasNullVector = m_jit.branchTestPtr(
2861                 MacroAssembler::Zero,
2862                 MacroAssembler::Address(base, JSArrayBufferView::offsetOfVector()));
2863             speculationCheck(Uncountable, JSValueSource(), node, hasNullVector);
2864             notWasteful.link(&m_jit);
2865         }
2866     }
2867     return done;
2868 }
2869
2870 void SpeculativeJIT::loadFromIntTypedArray(GPRReg storageReg, GPRReg propertyReg, GPRReg resultReg, TypedArrayType type)
2871 {
2872     switch (elementSize(type)) {
2873     case 1:
2874         if (isSigned(type))
2875             m_jit.load8SignedExtendTo32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesOne), resultReg);
2876         else
2877             m_jit.load8(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesOne), resultReg);
2878         break;
2879     case 2:
2880         if (isSigned(type))
2881             m_jit.load16SignedExtendTo32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesTwo), resultReg);
2882         else
2883             m_jit.load16(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesTwo), resultReg);
2884         break;
2885     case 4:
2886         m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesFour), resultReg);
2887         break;
2888     default:
2889         CRASH();
2890     }
2891 }
2892
2893 void SpeculativeJIT::setIntTypedArrayLoadResult(Node* node, GPRReg resultReg, TypedArrayType type, bool canSpeculate)
2894 {
2895     if (elementSize(type) < 4 || isSigned(type)) {
2896         int32Result(resultReg, node);
2897         return;
2898     }
2899     
2900     ASSERT(elementSize(type) == 4 && !isSigned(type));
2901     if (node->shouldSpeculateInt32() && canSpeculate) {
2902         speculationCheck(Overflow, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::LessThan, resultReg, TrustedImm32(0)));
2903         int32Result(resultReg, node);
2904         return;
2905     }
2906     
2907 #if USE(JSVALUE64)
2908     if (node->shouldSpeculateAnyInt()) {
2909         m_jit.zeroExtend32ToPtr(resultReg, resultReg);
2910         strictInt52Result(resultReg, node);
2911         return;
2912     }
2913 #endif
2914     
2915     FPRTemporary fresult(this);
2916     m_jit.convertInt32ToDouble(resultReg, fresult.fpr());
2917     JITCompiler::Jump positive = m_jit.branch32(MacroAssembler::GreaterThanOrEqual, resultReg, TrustedImm32(0));
2918     m_jit.addDouble(JITCompiler::AbsoluteAddress(&AssemblyHelpers::twoToThe32), fresult.fpr());
2919     positive.link(&m_jit);
2920     doubleResult(fresult.fpr(), node);
2921 }
2922
2923 void SpeculativeJIT::compileGetByValOnIntTypedArray(Node* node, TypedArrayType type)
2924 {
2925     ASSERT(isInt(type));
2926     
2927     SpeculateCellOperand base(this, m_graph.varArgChild(node, 0));
2928     SpeculateStrictInt32Operand property(this, m_graph.varArgChild(node, 1));
2929     StorageOperand storage(this, m_graph.varArgChild(node, 2));
2930
2931     GPRReg baseReg = base.gpr();
2932     GPRReg propertyReg = property.gpr();
2933     GPRReg storageReg = storage.gpr();
2934
2935     GPRTemporary result(this);
2936     GPRReg resultReg = result.gpr();
2937
2938     ASSERT(node->arrayMode().alreadyChecked(m_jit.graph(), node, m_state.forNode(m_graph.varArgChild(node, 0))));
2939
2940     emitTypedArrayBoundsCheck(node, baseReg, propertyReg);
2941     loadFromIntTypedArray(storageReg, propertyReg, resultReg, type);
2942     bool canSpeculate = true;
2943     setIntTypedArrayLoadResult(node, resultReg, type, canSpeculate);
2944 }
2945
2946 bool SpeculativeJIT::getIntTypedArrayStoreOperand(
2947     GPRTemporary& value,
2948     GPRReg property,
2949 #if USE(JSVALUE32_64)
2950     GPRTemporary& propertyTag,
2951     GPRTemporary& valueTag,
2952 #endif
2953     Edge valueUse, JITCompiler::JumpList& slowPathCases, bool isClamped)
2954 {
2955     bool isAppropriateConstant = false;
2956     if (valueUse->isConstant()) {
2957         JSValue jsValue = valueUse->asJSValue();
2958         SpeculatedType expectedType = typeFilterFor(valueUse.useKind());
2959         SpeculatedType actualType = speculationFromValue(jsValue);
2960         isAppropriateConstant = (expectedType | actualType) == expectedType;
2961     }
2962     
2963     if (isAppropriateConstant) {
2964         JSValue jsValue = valueUse->asJSValue();
2965         if (!jsValue.isNumber()) {
2966             terminateSpeculativeExecution(Uncountable, JSValueRegs(), 0);
2967             return false;
2968         }
2969         double d = jsValue.asNumber();
2970         if (isClamped)
2971             d = clampDoubleToByte(d);
2972         GPRTemporary scratch(this);
2973         GPRReg scratchReg = scratch.gpr();
2974         m_jit.move(Imm32(toInt32(d)), scratchReg);
2975         value.adopt(scratch);
2976     } else {
2977         switch (valueUse.useKind()) {
2978         case Int32Use: {
2979             SpeculateInt32Operand valueOp(this, valueUse);
2980             GPRTemporary scratch(this);
2981             GPRReg scratchReg = scratch.gpr();
2982             m_jit.move(valueOp.gpr(), scratchReg);
2983             if (isClamped)
2984                 compileClampIntegerToByte(m_jit, scratchReg);
2985             value.adopt(scratch);
2986             break;
2987         }
2988             
2989 #if USE(JSVALUE64)
2990         case Int52RepUse: {
2991             SpeculateStrictInt52Operand valueOp(this, valueUse);
2992             GPRTemporary scratch(this);
2993             GPRReg scratchReg = scratch.gpr();
2994             m_jit.move(valueOp.gpr(), scratchReg);
2995             if (isClamped) {
2996                 MacroAssembler::Jump inBounds = m_jit.branch64(
2997                     MacroAssembler::BelowOrEqual, scratchReg, JITCompiler::TrustedImm64(0xff));
2998                 MacroAssembler::Jump tooBig = m_jit.branch64(
2999                     MacroAssembler::GreaterThan, scratchReg, JITCompiler::TrustedImm64(0xff));
3000                 m_jit.move(TrustedImm32(0), scratchReg);
3001                 MacroAssembler::Jump clamped = m_jit.jump();
3002                 tooBig.link(&m_jit);
3003                 m_jit.move(JITCompiler::TrustedImm32(255), scratchReg);
3004                 clamped.link(&m_jit);
3005                 inBounds.link(&m_jit);
3006             }
3007             value.adopt(scratch);
3008             break;
3009         }
3010 #endif // USE(JSVALUE64)
3011             
3012         case DoubleRepUse: {
3013             RELEASE_ASSERT(!isAtomicsIntrinsic(m_currentNode->op()));
3014             if (isClamped) {
3015                 SpeculateDoubleOperand valueOp(this, valueUse);
3016                 GPRTemporary result(this);
3017                 FPRTemporary floatScratch(this);
3018                 FPRReg fpr = valueOp.fpr();
3019                 GPRReg gpr = result.gpr();
3020                 compileClampDoubleToByte(m_jit, gpr, fpr, floatScratch.fpr());
3021                 value.adopt(result);
3022             } else {
3023 #if USE(JSVALUE32_64)
3024                 GPRTemporary realPropertyTag(this);
3025                 propertyTag.adopt(realPropertyTag);
3026                 GPRReg propertyTagGPR = propertyTag.gpr();
3027
3028                 GPRTemporary realValueTag(this);
3029                 valueTag.adopt(realValueTag);
3030                 GPRReg valueTagGPR = valueTag.gpr();
3031 #endif
3032                 SpeculateDoubleOperand valueOp(this, valueUse);
3033                 GPRTemporary result(this);
3034                 FPRReg fpr = valueOp.fpr();
3035                 GPRReg gpr = result.gpr();
3036                 MacroAssembler::Jump notNaN = m_jit.branchIfNotNaN(fpr);
3037                 m_jit.xorPtr(gpr, gpr);
3038                 MacroAssembler::JumpList fixed(m_jit.jump());
3039                 notNaN.link(&m_jit);
3040
3041                 fixed.append(m_jit.branchTruncateDoubleToInt32(
3042                     fpr, gpr, MacroAssembler::BranchIfTruncateSuccessful));
3043
3044 #if USE(JSVALUE64)
3045                 m_jit.or64(GPRInfo::tagTypeNumberRegister, property);
3046                 boxDouble(fpr, gpr);
3047 #else
3048                 UNUSED_PARAM(property);
3049                 m_jit.move(TrustedImm32(JSValue::Int32Tag), propertyTagGPR);
3050                 boxDouble(fpr, valueTagGPR, gpr);
3051 #endif
3052                 slowPathCases.append(m_jit.jump());
3053
3054                 fixed.link(&m_jit);
3055                 value.adopt(result);
3056             }
3057             break;
3058         }
3059             
3060         default:
3061             RELEASE_ASSERT_NOT_REACHED();
3062             break;
3063         }
3064     }
3065     return true;
3066 }
3067
3068 void SpeculativeJIT::compilePutByValForIntTypedArray(GPRReg base, GPRReg property, Node* node, TypedArrayType type)
3069 {
3070     ASSERT(isInt(type));
3071     
3072     StorageOperand storage(this, m_jit.graph().varArgChild(node, 3));
3073     GPRReg storageReg = storage.gpr();
3074     
3075     Edge valueUse = m_jit.graph().varArgChild(node, 2);
3076     
3077     GPRTemporary value;
3078 #if USE(JSVALUE32_64)
3079     GPRTemporary propertyTag;
3080     GPRTemporary valueTag;
3081 #endif
3082
3083     JITCompiler::JumpList slowPathCases;
3084     
3085     bool result = getIntTypedArrayStoreOperand(
3086         value, property,
3087 #if USE(JSVALUE32_64)
3088         propertyTag, valueTag,
3089 #endif
3090         valueUse, slowPathCases, isClamped(type));
3091     if (!result) {
3092         noResult(node);
3093         return;
3094     }
3095
3096     GPRReg valueGPR = value.gpr();
3097 #if USE(JSVALUE32_64)
3098     GPRReg propertyTagGPR = propertyTag.gpr();
3099     GPRReg valueTagGPR = valueTag.gpr();
3100 #endif
3101
3102     ASSERT_UNUSED(valueGPR, valueGPR != property);
3103     ASSERT(valueGPR != base);
3104     ASSERT(valueGPR != storageReg);
3105     JITCompiler::Jump outOfBounds = jumpForTypedArrayOutOfBounds(node, base, property);
3106
3107     switch (elementSize(type)) {
3108     case 1:
3109         m_jit.store8(value.gpr(), MacroAssembler::BaseIndex(storageReg, property, MacroAssembler::TimesOne));
3110         break;
3111     case 2:
3112         m_jit.store16(value.gpr(), MacroAssembler::BaseIndex(storageReg, property, MacroAssembler::TimesTwo));
3113         break;
3114     case 4:
3115         m_jit.store32(value.gpr(), MacroAssembler::BaseIndex(storageReg, property, MacroAssembler::TimesFour));
3116         break;
3117     default:
3118         CRASH();
3119     }
3120
3121     JITCompiler::Jump done = jumpForTypedArrayIsNeuteredIfOutOfBounds(node, base, outOfBounds);
3122     if (done.isSet())
3123         done.link(&m_jit);
3124
3125     if (!slowPathCases.empty()) {
3126 #if USE(JSVALUE64)
3127         if (node->op() == PutByValDirect) {
3128             addSlowPathGenerator(slowPathCall(
3129                 slowPathCases, this,
3130                 m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValDirectStrict : operationPutByValDirectNonStrict,
3131                 NoResult, base, property, valueGPR));
3132         } else {
3133             addSlowPathGenerator(slowPathCall(
3134                 slowPathCases, this,
3135                 m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValStrict : operationPutByValNonStrict,
3136                 NoResult, base, property, valueGPR));
3137         }
3138 #else // not USE(JSVALUE64)
3139         if (node->op() == PutByValDirect) {
3140             addSlowPathGenerator(slowPathCall(
3141                 slowPathCases, this,
3142                 m_jit.codeBlock()->isStrictMode() ? operationPutByValDirectCellStrict : operationPutByValDirectCellNonStrict,
3143                 NoResult, base, JSValueRegs(propertyTagGPR, property), JSValueRegs(valueTagGPR, valueGPR)));
3144         } else {
3145             addSlowPathGenerator(slowPathCall(
3146                 slowPathCases, this,
3147                 m_jit.codeBlock()->isStrictMode() ? operationPutByValCellStrict : operationPutByValCellNonStrict,
3148                 NoResult, base, JSValueRegs(propertyTagGPR, property), JSValueRegs(valueTagGPR, valueGPR)));
3149         }
3150 #endif
3151     }
3152     
3153     noResult(node);
3154 }
3155
3156 void SpeculativeJIT::compileGetByValOnFloatTypedArray(Node* node, TypedArrayType type)
3157 {
3158     ASSERT(isFloat(type));
3159     
3160     SpeculateCellOperand base(this, m_graph.varArgChild(node, 0));
3161     SpeculateStrictInt32Operand property(this, m_graph.varArgChild(node, 1));
3162     StorageOperand storage(this, m_graph.varArgChild(node, 2));
3163
3164     GPRReg baseReg = base.gpr();
3165     GPRReg propertyReg = property.gpr();
3166     GPRReg storageReg = storage.gpr();
3167
3168     ASSERT(node->arrayMode().alreadyChecked(m_jit.graph(), node, m_state.forNode(m_graph.varArgChild(node, 0))));
3169
3170     FPRTemporary result(this);
3171     FPRReg resultReg = result.fpr();
3172     emitTypedArrayBoundsCheck(node, baseReg, propertyReg);
3173     switch (elementSize(type)) {
3174     case 4:
3175         m_jit.loadFloat(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesFour), resultReg);
3176         m_jit.convertFloatToDouble(resultReg, resultReg);
3177         break;
3178     case 8: {
3179         m_jit.loadDouble(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight), resultReg);
3180         break;
3181     }
3182     default:
3183         RELEASE_ASSERT_NOT_REACHED();
3184     }
3185     
3186     doubleResult(resultReg, node);
3187 }
3188
3189 void SpeculativeJIT::compilePutByValForFloatTypedArray(GPRReg base, GPRReg property, Node* node, TypedArrayType type)
3190 {
3191     ASSERT(isFloat(type));
3192     
3193     StorageOperand storage(this, m_jit.graph().varArgChild(node, 3));
3194     GPRReg storageReg = storage.gpr();
3195     
3196     Edge baseUse = m_jit.graph().varArgChild(node, 0);
3197     Edge valueUse = m_jit.graph().varArgChild(node, 2);
3198
3199     SpeculateDoubleOperand valueOp(this, valueUse);
3200     FPRTemporary scratch(this);
3201     FPRReg valueFPR = valueOp.fpr();
3202     FPRReg scratchFPR = scratch.fpr();
3203
3204     ASSERT_UNUSED(baseUse, node->arrayMode().alreadyChecked(m_jit.graph(), node, m_state.forNode(baseUse)));
3205     
3206     MacroAssembler::Jump outOfBounds = jumpForTypedArrayOutOfBounds(node, base, property);
3207     
3208     switch (elementSize(type)) {
3209     case 4: {
3210         m_jit.moveDouble(valueFPR, scratchFPR);
3211         m_jit.convertDoubleToFloat(valueFPR, scratchFPR);
3212         m_jit.storeFloat(scratchFPR, MacroAssembler::BaseIndex(storageReg, property, MacroAssembler::TimesFour));
3213         break;
3214     }
3215     case 8:
3216         m_jit.storeDouble(valueFPR, MacroAssembler::BaseIndex(storageReg, property, MacroAssembler::TimesEight));
3217         break;
3218     default:
3219         RELEASE_ASSERT_NOT_REACHED();
3220     }
3221
3222     JITCompiler::Jump done = jumpForTypedArrayIsNeuteredIfOutOfBounds(node, base, outOfBounds);
3223     if (done.isSet())
3224         done.link(&m_jit);
3225     noResult(node);
3226 }
3227
3228 void SpeculativeJIT::compileGetByValForObjectWithString(Node* node)
3229 {
3230     SpeculateCellOperand arg1(this, m_graph.varArgChild(node, 0));
3231     SpeculateCellOperand arg2(this, m_graph.varArgChild(node, 1));
3232
3233     GPRReg arg1GPR = arg1.gpr();
3234     GPRReg arg2GPR = arg2.gpr();
3235
3236     speculateObject(m_graph.varArgChild(node, 0), arg1GPR);
3237     speculateString(m_graph.varArgChild(node, 1), arg2GPR);
3238
3239     flushRegisters();
3240     JSValueRegsFlushedCallResult result(this);
3241     JSValueRegs resultRegs = result.regs();
3242     callOperation(operationGetByValObjectString, resultRegs, arg1GPR, arg2GPR);
3243     m_jit.exceptionCheck();
3244
3245     jsValueResult(resultRegs, node);
3246 }
3247
3248 void SpeculativeJIT::compileGetByValForObjectWithSymbol(Node* node)
3249 {
3250     SpeculateCellOperand arg1(this, m_graph.varArgChild(node, 0));
3251     SpeculateCellOperand arg2(this, m_graph.varArgChild(node, 1));
3252
3253     GPRReg arg1GPR = arg1.gpr();
3254     GPRReg arg2GPR = arg2.gpr();
3255
3256     speculateObject(m_graph.varArgChild(node, 0), arg1GPR);
3257     speculateSymbol(m_graph.varArgChild(node, 1), arg2GPR);
3258
3259     flushRegisters();
3260     JSValueRegsFlushedCallResult result(this);
3261     JSValueRegs resultRegs = result.regs();
3262     callOperation(operationGetByValObjectSymbol, resultRegs, arg1GPR, arg2GPR);
3263     m_jit.exceptionCheck();
3264
3265     jsValueResult(resultRegs, node);
3266 }
3267
3268 void SpeculativeJIT::compilePutByValForCellWithString(Node* node, Edge& child1, Edge& child2, Edge& child3)
3269 {
3270     SpeculateCellOperand arg1(this, child1);
3271     SpeculateCellOperand arg2(this, child2);
3272     JSValueOperand arg3(this, child3);
3273
3274     GPRReg arg1GPR = arg1.gpr();
3275     GPRReg arg2GPR = arg2.gpr();
3276     JSValueRegs arg3Regs = arg3.jsValueRegs();
3277
3278     speculateString(child2, arg2GPR);
3279
3280     flushRegisters();
3281     callOperation(m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValCellStringStrict : operationPutByValCellStringNonStrict, arg1GPR, arg2GPR, arg3Regs);
3282     m_jit.exceptionCheck();
3283
3284     noResult(node);
3285 }
3286
3287 void SpeculativeJIT::compilePutByValForCellWithSymbol(Node* node, Edge& child1, Edge& child2, Edge& child3)
3288 {
3289     SpeculateCellOperand arg1(this, child1);
3290     SpeculateCellOperand arg2(this, child2);
3291     JSValueOperand arg3(this, child3);
3292
3293     GPRReg arg1GPR = arg1.gpr();
3294     GPRReg arg2GPR = arg2.gpr();
3295     JSValueRegs arg3Regs = arg3.jsValueRegs();
3296
3297     speculateSymbol(child2, arg2GPR);
3298
3299     flushRegisters();
3300     callOperation(m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValCellSymbolStrict : operationPutByValCellSymbolNonStrict, arg1GPR, arg2GPR, arg3Regs);
3301     m_jit.exceptionCheck();
3302
3303     noResult(node);
3304 }
3305
3306 void SpeculativeJIT::compileGetByValWithThis(Node* node)
3307 {
3308     JSValueOperand base(this, node->child1());
3309     JSValueRegs baseRegs = base.jsValueRegs();
3310     JSValueOperand thisValue(this, node->child2());
3311     JSValueRegs thisValueRegs = thisValue.jsValueRegs();
3312     JSValueOperand subscript(this, node->child3());
3313     JSValueRegs subscriptRegs = subscript.jsValueRegs();
3314
3315     flushRegisters();
3316     JSValueRegsFlushedCallResult result(this);
3317     JSValueRegs resultRegs = result.regs();
3318     callOperation(operationGetByValWithThis, resultRegs, baseRegs, thisValueRegs, subscriptRegs);
3319     m_jit.exceptionCheck();
3320
3321     jsValueResult(resultRegs, node);
3322 }
3323
3324 void SpeculativeJIT::compileCheckTypeInfoFlags(Node* node)
3325 {
3326     SpeculateCellOperand base(this, node->child1());
3327
3328     GPRReg baseGPR = base.gpr();
3329
3330     // FIXME: This only works for checking if a single bit is set. If we want to check more
3331     // than one bit at once, we'll need to fix this:
3332     // https://bugs.webkit.org/show_bug.cgi?id=185705
3333     speculationCheck(BadTypeInfoFlags, JSValueRegs(), 0, m_jit.branchTest8(MacroAssembler::Zero, MacroAssembler::Address(baseGPR, JSCell::typeInfoFlagsOffset()), MacroAssembler::TrustedImm32(node->typeInfoOperand())));
3334
3335     noResult(node);
3336 }
3337
3338 void SpeculativeJIT::compileParseInt(Node* node)
3339 {
3340     RELEASE_ASSERT(node->child1().useKind() == UntypedUse || node->child1().useKind() == StringUse);
3341     if (node->child2()) {
3342         SpeculateInt32Operand radix(this, node->child2());
3343         GPRReg radixGPR = radix.gpr();
3344         if (node->child1().useKind() == UntypedUse) {
3345             JSValueOperand value(this, node->child1());
3346             JSValueRegs valueRegs = value.jsValueRegs();
3347
3348             flushRegisters();
3349             JSValueRegsFlushedCallResult result(this);
3350             JSValueRegs resultRegs = result.regs();
3351             callOperation(operationParseIntGeneric, resultRegs, valueRegs, radixGPR);
3352             m_jit.exceptionCheck();
3353             jsValueResult(resultRegs, node);
3354             return;
3355         }
3356
3357         SpeculateCellOperand value(this, node->child1());
3358         GPRReg valueGPR = value.gpr();
3359         speculateString(node->child1(), valueGPR);
3360
3361         flushRegisters();
3362         JSValueRegsFlushedCallResult result(this);
3363         JSValueRegs resultRegs = result.regs();
3364         callOperation(operationParseIntString, resultRegs, valueGPR, radixGPR);
3365         m_jit.exceptionCheck();
3366         jsValueResult(resultRegs, node);
3367         return;
3368     }
3369
3370     if (node->child1().useKind() == UntypedUse) {
3371         JSValueOperand value(this, node->child1());
3372         JSValueRegs valueRegs = value.jsValueRegs();
3373
3374         flushRegisters();
3375         JSValueRegsFlushedCallResult result(this);
3376         JSValueRegs resultRegs = result.regs();
3377         callOperation(operationParseIntNoRadixGeneric, resultRegs, valueRegs);
3378         m_jit.exceptionCheck();
3379         jsValueResult(resultRegs, node);
3380         return;
3381     }
3382
3383     SpeculateCellOperand value(this, node->child1());
3384     GPRReg valueGPR = value.gpr();
3385     speculateString(node->child1(), valueGPR);
3386
3387     flushRegisters();
3388     JSValueRegsFlushedCallResult result(this);
3389     JSValueRegs resultRegs = result.regs();
3390     callOperation(operationParseIntStringNoRadix, resultRegs, valueGPR);
3391     m_jit.exceptionCheck();
3392     jsValueResult(resultRegs, node);
3393 }
3394
3395 void SpeculativeJIT::compileOverridesHasInstance(Node* node)
3396 {
3397     Node* hasInstanceValueNode = node->child2().node();
3398     JSFunction* defaultHasInstanceFunction = jsCast<JSFunction*>(node->cellOperand()->value());
3399
3400     MacroAssembler::JumpList notDefault;
3401     SpeculateCellOperand base(this, node->child1());
3402     JSValueOperand hasInstanceValue(this, node->child2());
3403     GPRTemporary result(this);
3404
3405     GPRReg baseGPR = base.gpr();
3406     GPRReg resultGPR = result.gpr();
3407
3408     // It would be great if constant folding handled automatically the case where we knew the hasInstance function
3409     // was a constant. Unfortunately, the folding rule for OverridesHasInstance is in the strength reduction phase
3410     // since it relies on OSR information. https://bugs.webkit.org/show_bug.cgi?id=154832
3411     if (!hasInstanceValueNode->isCellConstant() || defaultHasInstanceFunction != hasInstanceValueNode->asCell()) {
3412         JSValueRegs hasInstanceValueRegs = hasInstanceValue.jsValueRegs();
3413 #if USE(JSVALUE64)
3414         notDefault.append(m_jit.branchPtr(MacroAssembler::NotEqual, hasInstanceValueRegs.gpr(), TrustedImmPtr(node->cellOperand())));
3415 #else
3416         notDefault.append(m_jit.branchIfNotCell(hasInstanceValueRegs));
3417         notDefault.append(m_jit.branchPtr(MacroAssembler::NotEqual, hasInstanceValueRegs.payloadGPR(), TrustedImmPtr(node->cellOperand())));
3418 #endif
3419     }
3420
3421     // Check that base 'ImplementsDefaultHasInstance'.
3422     m_jit.test8(MacroAssembler::Zero, MacroAssembler::Address(baseGPR, JSCell::typeInfoFlagsOffset()), MacroAssembler::TrustedImm32(ImplementsDefaultHasInstance), resultGPR);
3423     MacroAssembler::Jump done = m_jit.jump();
3424
3425     if (!notDefault.empty()) {
3426         notDefault.link(&m_jit);
3427         m_jit.move(TrustedImm32(1), resultGPR);
3428     }
3429
3430     done.link(&m_jit);
3431     unblessedBooleanResult(resultGPR, node);
3432 }
3433
3434 void SpeculativeJIT::compileInstanceOfForCells(Node* node, JSValueRegs valueRegs, JSValueRegs prototypeRegs, GPRReg resultGPR, GPRReg scratchGPR, GPRReg scratch2GPR, JITCompiler::Jump slowCase)
3435 {
3436     CallSiteIndex callSiteIndex = m_jit.addCallSite(node->origin.semantic);
3437     
3438     JITInstanceOfGenerator gen(
3439         m_jit.codeBlock(), node->origin.semantic, callSiteIndex, usedRegisters(), resultGPR,
3440         valueRegs.payloadGPR(), prototypeRegs.payloadGPR(), scratchGPR, scratch2GPR,
3441         m_state.forNode(node->child2()).isType(SpecObject | ~SpecCell));
3442     gen.generateFastPath(m_jit);
3443     
3444     JITCompiler::JumpList slowCases;
3445     slowCases.append(slowCase);
3446     
3447     std::unique_ptr<SlowPathGenerator> slowPath = slowPathCall(
3448         slowCases, this, operationInstanceOfOptimize, resultGPR, gen.stubInfo(), valueRegs,
3449         prototypeRegs);
3450     
3451     m_jit.addInstanceOf(gen, slowPath.get());
3452     addSlowPathGenerator(WTFMove(slowPath));
3453 }
3454
3455 void SpeculativeJIT::compileInstanceOf(Node* node)
3456 {
3457 #if USE(JSVALUE64)
3458     if (node->child1().useKind() == CellUse
3459         && node->child2().useKind() == CellUse) {
3460         SpeculateCellOperand value(this, node->child1());
3461         SpeculateCellOperand prototype(this, node->child2());
3462         
3463         GPRTemporary result(this);
3464         GPRTemporary scratch(this);
3465         GPRTemporary scratch2(this);
3466         
3467         GPRReg valueGPR = value.gpr();
3468         GPRReg prototypeGPR = prototype.gpr();
3469         GPRReg resultGPR = result.gpr();
3470         GPRReg scratchGPR = scratch.gpr();
3471         GPRReg scratch2GPR = scratch2.gpr();
3472         
3473         compileInstanceOfForCells(node, JSValueRegs(valueGPR), JSValueRegs(prototypeGPR), resultGPR, scratchGPR, scratch2GPR);
3474         
3475         blessedBooleanResult(resultGPR, node);
3476         return;
3477     }
3478 #endif
3479     
3480     DFG_ASSERT(m_jit.graph(), node, node->child1().useKind() == UntypedUse);
3481     DFG_ASSERT(m_jit.graph(), node, node->child2().useKind() == UntypedUse);
3482     
3483     JSValueOperand value(this, node->child1());
3484     JSValueOperand prototype(this, node->child2());
3485     
3486     GPRTemporary result(this);
3487     GPRTemporary scratch(this);
3488     
3489     JSValueRegs valueRegs = value.jsValueRegs();
3490     JSValueRegs prototypeRegs = prototype.jsValueRegs();
3491     
3492     GPRReg resultGPR = result.gpr();
3493     GPRReg scratchGPR = scratch.gpr();
3494     
3495     JITCompiler::Jump isCell = m_jit.branchIfCell(valueRegs);
3496     moveFalseTo(resultGPR);
3497     
3498     JITCompiler::Jump done = m_jit.jump();
3499     
3500     isCell.link(&m_jit);
3501     
3502     JITCompiler::Jump slowCase = m_jit.branchIfNotCell(prototypeRegs);
3503     
3504     compileInstanceOfForCells(node, valueRegs, prototypeRegs, resultGPR, scratchGPR, InvalidGPRReg, slowCase);
3505     
3506     done.link(&m_jit);
3507     blessedBooleanResult(resultGPR, node);
3508     return;
3509 }
3510
3511 void SpeculativeJIT::compileBitwiseNot(Node* node)
3512 {
3513     Edge& child1 = node->child1();
3514
3515     if (child1.useKind() == UntypedUse) {
3516         JSValueOperand operand(this, child1);
3517         JSValueRegs operandRegs = operand.jsValueRegs();
3518
3519         flushRegisters();
3520         JSValueRegsFlushedCallResult result(this);
3521         JSValueRegs resultRegs = result.regs();
3522         callOperation(operationValueBitNot, resultRegs, operandRegs);
3523         m_jit.exceptionCheck();
3524
3525         jsValueResult(resultRegs, node);
3526         return;
3527     }
3528
3529     SpeculateInt32Operand operand(this, child1);
3530     GPRTemporary result(this);
3531     GPRReg resultGPR = result.gpr();
3532
3533     m_jit.move(operand.gpr(), resultGPR);
3534
3535     m_jit.not32(resultGPR);
3536
3537     int32Result(resultGPR, node);
3538 }
3539
3540 template<typename SnippetGenerator, J_JITOperation_EJJ snippetSlowPathFunction>
3541 void SpeculativeJIT::emitUntypedBitOp(Node* node)
3542 {
3543     Edge& leftChild = node->child1();
3544     Edge& rightChild = node->child2();
3545
3546     if (isKnownNotNumber(leftChild.node()) || isKnownNotNumber(rightChild.node())) {
3547         JSValueOperand left(this, leftChild);
3548         JSValueOperand right(this, rightChild);
3549         JSValueRegs leftRegs = left.jsValueRegs();
3550         JSValueRegs rightRegs = right.jsValueRegs();
3551
3552         flushRegisters();
3553         JSValueRegsFlushedCallResult result(this);
3554         JSValueRegs resultRegs = result.regs();
3555         callOperation(snippetSlowPathFunction, resultRegs, leftRegs, rightRegs);
3556         m_jit.exceptionCheck();
3557
3558         jsValueResult(resultRegs, node);
3559         return;
3560     }
3561
3562     Optional<JSValueOperand> left;
3563     Optional<JSValueOperand> right;
3564
3565     JSValueRegs leftRegs;
3566     JSValueRegs rightRegs;
3567
3568 #if USE(JSVALUE64)
3569     GPRTemporary result(this);
3570     JSValueRegs resultRegs = JSValueRegs(result.gpr());
3571     GPRTemporary scratch(this);
3572     GPRReg scratchGPR = scratch.gpr();
3573 #else
3574     GPRTemporary resultTag(this);
3575     GPRTemporary resultPayload(this);
3576     JSValueRegs resultRegs = JSValueRegs(resultPayload.gpr(), resultTag.gpr());
3577     GPRReg scratchGPR = resultTag.gpr();
3578 #endif
3579
3580     SnippetOperand leftOperand;
3581     SnippetOperand rightOperand;
3582
3583     // The snippet generator does not support both operands being constant. If the left
3584     // operand is already const, we'll ignore the right operand's constness.
3585     if (leftChild->isInt32Constant())
3586         leftOperand.setConstInt32(leftChild->asInt32());
3587     else if (rightChild->isInt32Constant())
3588         rightOperand.setConstInt32(rightChild->asInt32());
3589
3590     RELEASE_ASSERT(!leftOperand.isConst() || !rightOperand.isConst());
3591
3592     if (!leftOperand.isConst()) {
3593         left.emplace(this, leftChild);
3594         leftRegs = left->jsValueRegs();
3595     }
3596     if (!rightOperand.isConst()) {
3597         right.emplace(this, rightChild);
3598         rightRegs = right->jsValueRegs();
3599     }
3600
3601     SnippetGenerator gen(leftOperand, rightOperand, resultRegs, leftRegs, rightRegs, scratchGPR);
3602     gen.generateFastPath(m_jit);
3603
3604     ASSERT(gen.didEmitFastPath());
3605     gen.endJumpList().append(m_jit.jump());
3606
3607     gen.slowPathJumpList().link(&m_jit);
3608     silentSpillAllRegisters(resultRegs);
3609
3610     if (leftOperand.isConst()) {
3611         leftRegs = resultRegs;
3612         m_jit.moveValue(leftChild->asJSValue(), leftRegs);
3613     } else if (rightOperand.isConst()) {
3614         rightRegs = resultRegs;
3615         m_jit.moveValue(rightChild->asJSValue(), rightRegs);
3616     }
3617
3618     callOperation(snippetSlowPathFunction, resultRegs, leftRegs, rightRegs);
3619
3620     silentFillAllRegisters();
3621     m_jit.exceptionCheck();
3622
3623     gen.endJumpList().link(&m_jit);
3624     jsValueResult(resultRegs, node);
3625 }
3626
3627 void SpeculativeJIT::compileValueBitwiseOp(Node* node)
3628 {
3629     NodeType op = node->op();
3630     Edge& leftChild = node->child1();
3631     Edge& rightChild = node->child2();
3632
3633     if (leftChild.useKind() == UntypedUse || rightChild.useKind() == UntypedUse) {
3634         switch (op) {
3635         case ValueBitAnd:
3636             emitUntypedBitOp<JITBitAndGenerator, operationValueBitAnd>(node);
3637             return;
3638         case ValueBitXor:
3639             emitUntypedBitOp<JITBitXorGenerator, operationValueBitXor>(node);
3640             return;
3641         case ValueBitOr:
3642             emitUntypedBitOp<JITBitOrGenerator, operationValueBitOr>(node);
3643             return;
3644         default:
3645             RELEASE_ASSERT_NOT_REACHED();
3646         }
3647     }
3648     
3649     ASSERT(leftChild.useKind() == BigIntUse && rightChild.useKind() == BigIntUse);
3650     
3651     SpeculateCellOperand left(this, node->child1());
3652     SpeculateCellOperand right(this, node->child2());
3653     GPRReg leftGPR = left.gpr();
3654     GPRReg rightGPR = right.gpr();
3655
3656     speculateBigInt(leftChild, leftGPR);
3657     speculateBigInt(rightChild, rightGPR);
3658
3659     flushRegisters();
3660     GPRFlushedCallResult result(this);
3661     GPRReg resultGPR = result.gpr();
3662
3663     switch (op) {
3664     case ValueBitAnd:
3665         callOperation(operationBitAndBigInt, resultGPR, leftGPR, rightGPR);
3666         break;
3667     case ValueBitXor:
3668         callOperation(operationBitXorBigInt, resultGPR, leftGPR, rightGPR);
3669         break;
3670     case ValueBitOr:
3671         callOperation(operationBitOrBigInt, resultGPR, leftGPR, rightGPR);
3672         break;
3673     default:
3674         RELEASE_ASSERT_NOT_REACHED();
3675     }
3676
3677     m_jit.exceptionCheck();
3678     cellResult(resultGPR, node);
3679 }
3680
3681 void SpeculativeJIT::compileBitwiseOp(Node* node)
3682 {
3683     NodeType op = node->op();
3684     Edge& leftChild = node->child1();
3685     Edge& rightChild = node->child2();
3686
3687     if (leftChild->isInt32Constant()) {
3688         SpeculateInt32Operand op2(this, rightChild);
3689         GPRTemporary result(this, Reuse, op2);
3690
3691         bitOp(op, leftChild->asInt32(), op2.gpr(), result.gpr());
3692
3693         int32Result(result.gpr(), node);
3694         return;
3695     }
3696
3697     if (rightChild->isInt32Constant()) {
3698         SpeculateInt32Operand op1(this, leftChild);
3699         GPRTemporary result(this, Reuse, op1);
3700
3701         bitOp(op, rightChild->asInt32(), op1.gpr(), result.gpr());
3702
3703         int32Result(result.gpr(), node);
3704         return;
3705     }
3706
3707     SpeculateInt32Operand op1(this, leftChild);
3708     SpeculateInt32Operand op2(this, rightChild);
3709     GPRTemporary result(this, Reuse, op1, op2);
3710
3711     GPRReg reg1 = op1.gpr();
3712     GPRReg reg2 = op2.gpr();
3713     bitOp(op, reg1, reg2, result.gpr());
3714
3715     int32Result(result.gpr(), node);
3716 }
3717
3718 void SpeculativeJIT::emitUntypedRightShiftBitOp(Node* node)
3719 {
3720     J_JITOperation_EJJ snippetSlowPathFunction = node->op() == BitRShift
3721         ? operationValueBitRShift : operationValueBitURShift;
3722     JITRightShiftGenerator::ShiftType shiftType = node->op() == BitRShift
3723         ? JITRightShiftGenerator::SignedShift : JITRightShiftGenerator::UnsignedShift;
3724
3725     Edge& leftChild = node->child1();
3726     Edge& rightChild = node->child2();
3727
3728     if (isKnownNotNumber(leftChild.node()) || isKnownNotNumber(rightChild.node())) {
3729         JSValueOperand left(this, leftChild);
3730         JSValueOperand right(this, rightChild);
3731         JSValueRegs leftRegs = left.jsValueRegs();
3732         JSValueRegs rightRegs = right.jsValueRegs();
3733
3734         flushRegisters();
3735         JSValueRegsFlushedCallResult result(this);
3736         JSValueRegs resultRegs = result.regs();
3737         callOperation(snippetSlowPathFunction, resultRegs, leftRegs, rightRegs);
3738         m_jit.exceptionCheck();
3739
3740         jsValueResult(resultRegs, node);
3741         return;
3742     }
3743
3744     Optional<JSValueOperand> left;
3745     Optional<JSValueOperand> right;
3746
3747     JSValueRegs leftRegs;
3748     JSValueRegs rightRegs;
3749
3750     FPRTemporary leftNumber(this);
3751     FPRReg leftFPR = leftNumber.fpr();
3752
3753 #if USE(JSVALUE64)
3754     GPRTemporary result(this);
3755     JSValueRegs resultRegs = JSValueRegs(result.gpr());
3756     GPRTemporary scratch(this);
3757     GPRReg scratchGPR = scratch.gpr();
3758     FPRReg scratchFPR = InvalidFPRReg;
3759 #else
3760     GPRTemporary resultTag(this);
3761     GPRTemporary resultPayload(this);
3762     JSValueRegs resultRegs = JSValueRegs(resultPayload.gpr(), resultTag.gpr());
3763     GPRReg scratchGPR = resultTag.gpr();
3764     FPRTemporary fprScratch(this);
3765     FPRReg scratchFPR = fprScratch.fpr();
3766 #endif
3767
3768     SnippetOperand leftOperand;
3769     SnippetOperand rightOperand;
3770
3771     // The snippet generator does not support both operands being constant. If the left
3772     // operand is already const, we'll ignore the right operand's constness.
3773     if (leftChild->isInt32Constant())
3774         leftOperand.setConstInt32(leftChild->asInt32());
3775     else if (rightChild->isInt32Constant())
3776         rightOperand.setConstInt32(rightChild->asInt32());
3777
3778     RELEASE_ASSERT(!leftOperand.isConst() || !rightOperand.isConst());
3779
3780     if (!leftOperand.isConst()) {
3781         left.emplace(this, leftChild);
3782         leftRegs = left->jsValueRegs();
3783     }
3784     if (!rightOperand.isConst()) {
3785         right.emplace(this, rightChild);
3786         rightRegs = right->jsValueRegs();
3787     }
3788
3789     JITRightShiftGenerator gen(leftOperand, rightOperand, resultRegs, leftRegs, rightRegs,
3790         leftFPR, scratchGPR, scratchFPR, shiftType);
3791     gen.generateFastPath(m_jit);
3792
3793     ASSERT(gen.didEmitFastPath());
3794     gen.endJumpList().append(m_jit.jump());
3795
3796     gen.slowPathJumpList().link(&m_jit);
3797     silentSpillAllRegisters(resultRegs);
3798
3799     if (leftOperand.isConst()) {
3800         leftRegs = resultRegs;
3801         m_jit.moveValue(leftChild->asJSValue(), leftRegs);
3802     } else if (rightOperand.isConst()) {
3803         rightRegs = resultRegs;
3804         m_jit.moveValue(rightChild->asJSValue(), rightRegs);
3805     }
3806
3807     callOperation(snippetSlowPathFunction, resultRegs, leftRegs, rightRegs);
3808
3809     silentFillAllRegisters();
3810     m_jit.exceptionCheck();
3811
3812     gen.endJumpList().link(&m_jit);
3813     jsValueResult(resultRegs, node);
3814     return;
3815 }
3816
3817 void SpeculativeJIT::compileShiftOp(Node* node)
3818 {
3819     NodeType op = node->op();
3820     Edge& leftChild = node->child1();
3821     Edge& rightChild = node->child2();
3822
3823     if (leftChild.useKind() == UntypedUse || rightChild.useKind() == UntypedUse) {
3824         switch (op) {
3825         case BitLShift:
3826             emitUntypedBitOp<JITLeftShiftGenerator, operationValueBitLShift>(node);
3827             return;
3828         case BitRShift:
3829         case BitURShift:
3830             emitUntypedRightShiftBitOp(node);
3831             return;
3832         default:
3833             RELEASE_ASSERT_NOT_REACHED();
3834         }
3835     }
3836
3837     if (rightChild->isInt32Constant()) {
3838         SpeculateInt32Operand op1(this, leftChild);
3839         GPRTemporary result(this, Reuse, op1);
3840
3841         shiftOp(op, op1.gpr(), rightChild->asInt32() & 0x1f, result.gpr());
3842
3843         int32Result(result.gpr(), node);
3844     } else {
3845         // Do not allow shift amount to be used as the result, MacroAssembler does not permit this.
3846         SpeculateInt32Operand op1(this, leftChild);
3847         SpeculateInt32Operand op2(this, rightChild);
3848         GPRTemporary result(this, Reuse, op1);
3849
3850         GPRReg reg1 = op1.gpr();
3851         GPRReg reg2 = op2.gpr();
3852         shiftOp(op, reg1, reg2, result.gpr());
3853
3854         int32Result(result.gpr(), node);
3855     }
3856 }
3857
3858 void SpeculativeJIT::compileValueAdd(Node* node)
3859 {
3860     Edge& leftChild = node->child1();
3861     Edge& rightChild = node->child2();
3862
3863     if (node->isBinaryUseKind(BigIntUse)) {
3864         SpeculateCellOperand left(this, node->child1());
3865         SpeculateCellOperand right(this, node->child2());
3866         GPRReg leftGPR = left.gpr();
3867         GPRReg rightGPR = right.gpr();
3868
3869         speculateBigInt(leftChild, leftGPR);
3870         speculateBigInt(rightChild, rightGPR);
3871
3872         flushRegisters();
3873         GPRFlushedCallResult result(this);
3874         GPRReg resultGPR = result.gpr();
3875         callOperation(operationAddBigInt, resultGPR, leftGPR, rightGPR);
3876         m_jit.exceptionCheck();
3877
3878         cellResult(resultGPR, node);
3879         return;
3880     }
3881
3882     if (isKnownNotNumber(leftChild.node()) || isKnownNotNumber(rightChild.node())) {
3883         JSValueOperand left(this, leftChild);
3884         JSValueOperand right(this, rightChild);
3885         JSValueRegs leftRegs = left.jsValueRegs();
3886         JSValueRegs rightRegs = right.jsValueRegs();
3887
3888         flushRegisters();
3889         JSValueRegsFlushedCallResult result(this);
3890         JSValueRegs resultRegs = result.regs();
3891         callOperation(operationValueAddNotNumber, resultRegs, leftRegs, rightRegs);
3892         m_jit.exceptionCheck();
3893     
3894         jsValueResult(resultRegs, node);
3895         return;
3896     }
3897
3898 #if USE(JSVALUE64)
3899     bool needsScratchGPRReg = true;
3900     bool needsScratchFPRReg = false;
3901 #else
3902     bool needsScratchGPRReg = true;
3903     bool needsScratchFPRReg = true;
3904 #endif
3905
3906     CodeBlock* baselineCodeBlock = m_jit.graph().baselineCodeBlockFor(node->origin.semantic);
3907     ArithProfile* arithProfile = baselineCodeBlock->arithProfileForBytecodeOffset(node->origin.semantic.bytecodeIndex);
3908     const Instruction* instruction = baselineCodeBlock->instructions().at(node->origin.semantic.bytecodeIndex).ptr();
3909     JITAddIC* addIC = m_jit.codeBlock()->addJITAddIC(arithProfile, instruction);
3910     auto repatchingFunction = operationValueAddOptimize;
3911     auto nonRepatchingFunction = operationValueAdd;
3912     
3913