/* * Copyright (C) 2008, 2009 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #if ENABLE(JIT) #include "JIT.h" #include "CodeBlock.h" #include "GCAwareJITStubRoutine.h" #include "GetterSetter.h" #include "Interpreter.h" #include "JITInlines.h" #include "JSArray.h" #include "JSFunction.h" #include "JSPropertyNameIterator.h" #include "JSVariableObject.h" #include "LinkBuffer.h" #include "RepatchBuffer.h" #include "ResultType.h" #include "SamplingTool.h" #include namespace JSC { #if USE(JSVALUE64) JIT::CodeRef JIT::stringGetByValStubGenerator(VM* vm) { JSInterfaceJIT jit(vm); JumpList failures; failures.append(jit.branchPtr(NotEqual, Address(regT0, JSCell::structureOffset()), TrustedImmPtr(vm->stringStructure.get()))); // Load string length to regT2, and start the process of loading the data pointer into regT0 jit.load32(Address(regT0, ThunkHelpers::jsStringLengthOffset()), regT2); jit.loadPtr(Address(regT0, ThunkHelpers::jsStringValueOffset()), regT0); failures.append(jit.branchTest32(Zero, regT0)); // Do an unsigned compare to simultaneously filter negative indices as well as indices that are too large failures.append(jit.branch32(AboveOrEqual, regT1, regT2)); // Load the character JumpList is16Bit; JumpList cont8Bit; // Load the string flags jit.loadPtr(Address(regT0, StringImpl::flagsOffset()), regT2); jit.loadPtr(Address(regT0, StringImpl::dataOffset()), regT0); is16Bit.append(jit.branchTest32(Zero, regT2, TrustedImm32(StringImpl::flagIs8Bit()))); jit.load8(BaseIndex(regT0, regT1, TimesOne, 0), regT0); cont8Bit.append(jit.jump()); is16Bit.link(&jit); jit.load16(BaseIndex(regT0, regT1, TimesTwo, 0), regT0); cont8Bit.link(&jit); failures.append(jit.branch32(AboveOrEqual, regT0, TrustedImm32(0x100))); jit.move(TrustedImmPtr(vm->smallStrings.singleCharacterStrings()), regT1); jit.loadPtr(BaseIndex(regT1, regT0, ScalePtr, 0), regT0); jit.ret(); failures.link(&jit); jit.move(TrustedImm32(0), regT0); jit.ret(); LinkBuffer patchBuffer(*vm, &jit, GLOBAL_THUNK_ID); return FINALIZE_CODE(patchBuffer, ("String get_by_val stub")); } void JIT::emit_op_get_by_val(Instruction* currentInstruction) { int dst = currentInstruction[1].u.operand; int base = currentInstruction[2].u.operand; int property = currentInstruction[3].u.operand; ArrayProfile* profile = currentInstruction[4].u.arrayProfile; emitGetVirtualRegisters(base, regT0, property, regT1); emitJumpSlowCaseIfNotImmediateInteger(regT1); // This is technically incorrect - we're zero-extending an int32. On the hot path this doesn't matter. // We check the value as if it was a uint32 against the m_vectorLength - which will always fail if // number was signed since m_vectorLength is always less than intmax (since the total allocation // size is always less than 4Gb). As such zero extending wil have been correct (and extending the value // to 64-bits is necessary since it's used in the address calculation. We zero extend rather than sign // extending since it makes it easier to re-tag the value in the slow case. zeroExtend32ToPtr(regT1, regT1); emitJumpSlowCaseIfNotJSCell(regT0, base); loadPtr(Address(regT0, JSCell::structureOffset()), regT2); emitArrayProfilingSite(regT2, regT3, profile); and32(TrustedImm32(IndexingShapeMask), regT2); PatchableJump badType; JumpList slowCases; JITArrayMode mode = chooseArrayMode(profile); switch (mode) { case JITInt32: slowCases = emitInt32GetByVal(currentInstruction, badType); break; case JITDouble: slowCases = emitDoubleGetByVal(currentInstruction, badType); break; case JITContiguous: slowCases = emitContiguousGetByVal(currentInstruction, badType); break; case JITArrayStorage: slowCases = emitArrayStorageGetByVal(currentInstruction, badType); break; default: CRASH(); break; } addSlowCase(badType); addSlowCase(slowCases); Label done = label(); #if !ASSERT_DISABLED Jump resultOK = branchTest64(NonZero, regT0); breakpoint(); resultOK.link(this); #endif emitValueProfilingSite(regT4); emitPutVirtualRegister(dst); m_byValCompilationInfo.append(ByValCompilationInfo(m_bytecodeOffset, badType, mode, done)); } JIT::JumpList JIT::emitDoubleGetByVal(Instruction*, PatchableJump& badType) { JumpList slowCases; badType = patchableBranch32(NotEqual, regT2, TrustedImm32(DoubleShape)); loadPtr(Address(regT0, JSObject::butterflyOffset()), regT2); slowCases.append(branch32(AboveOrEqual, regT1, Address(regT2, Butterfly::offsetOfPublicLength()))); loadDouble(BaseIndex(regT2, regT1, TimesEight), fpRegT0); slowCases.append(branchDouble(DoubleNotEqualOrUnordered, fpRegT0, fpRegT0)); moveDoubleTo64(fpRegT0, regT0); sub64(tagTypeNumberRegister, regT0); return slowCases; } JIT::JumpList JIT::emitContiguousGetByVal(Instruction*, PatchableJump& badType, IndexingType expectedShape) { JumpList slowCases; badType = patchableBranch32(NotEqual, regT2, TrustedImm32(expectedShape)); loadPtr(Address(regT0, JSObject::butterflyOffset()), regT2); slowCases.append(branch32(AboveOrEqual, regT1, Address(regT2, Butterfly::offsetOfPublicLength()))); load64(BaseIndex(regT2, regT1, TimesEight), regT0); slowCases.append(branchTest64(Zero, regT0)); return slowCases; } JIT::JumpList JIT::emitArrayStorageGetByVal(Instruction*, PatchableJump& badType) { JumpList slowCases; add32(TrustedImm32(-ArrayStorageShape), regT2, regT3); badType = patchableBranch32(Above, regT3, TrustedImm32(SlowPutArrayStorageShape - ArrayStorageShape)); loadPtr(Address(regT0, JSObject::butterflyOffset()), regT2); slowCases.append(branch32(AboveOrEqual, regT1, Address(regT2, ArrayStorage::vectorLengthOffset()))); load64(BaseIndex(regT2, regT1, TimesEight, ArrayStorage::vectorOffset()), regT0); slowCases.append(branchTest64(Zero, regT0)); return slowCases; } void JIT::emitSlow_op_get_by_val(Instruction* currentInstruction, Vector::iterator& iter) { int dst = currentInstruction[1].u.operand; int base = currentInstruction[2].u.operand; int property = currentInstruction[3].u.operand; ArrayProfile* profile = currentInstruction[4].u.arrayProfile; linkSlowCase(iter); // property int32 check linkSlowCaseIfNotJSCell(iter, base); // base cell check Jump nonCell = jump(); linkSlowCase(iter); // base array check Jump notString = branchPtr(NotEqual, Address(regT0, JSCell::structureOffset()), TrustedImmPtr(m_vm->stringStructure.get())); emitNakedCall(CodeLocationLabel(m_vm->getCTIStub(stringGetByValStubGenerator).code())); Jump failed = branchTest64(Zero, regT0); emitPutVirtualRegister(dst, regT0); emitJumpSlowToHot(jump(), OPCODE_LENGTH(op_get_by_val)); failed.link(this); notString.link(this); nonCell.link(this); Jump skipProfiling = jump(); linkSlowCase(iter); // vector length check linkSlowCase(iter); // empty value emitArrayProfileOutOfBoundsSpecialCase(profile); skipProfiling.link(this); Label slowPath = label(); emitGetVirtualRegister(base, regT0); emitGetVirtualRegister(property, regT1); Call call = callOperation(operationGetByValDefault, dst, regT0, regT1); m_byValCompilationInfo[m_byValInstructionIndex].slowPathTarget = slowPath; m_byValCompilationInfo[m_byValInstructionIndex].returnAddress = call; m_byValInstructionIndex++; emitValueProfilingSite(regT4); } void JIT::compileGetDirectOffset(RegisterID base, RegisterID result, RegisterID offset, RegisterID scratch, FinalObjectMode finalObjectMode) { ASSERT(sizeof(JSValue) == 8); if (finalObjectMode == MayBeFinal) { Jump isInline = branch32(LessThan, offset, TrustedImm32(firstOutOfLineOffset)); loadPtr(Address(base, JSObject::butterflyOffset()), scratch); neg32(offset); Jump done = jump(); isInline.link(this); addPtr(TrustedImm32(JSObject::offsetOfInlineStorage() - (firstOutOfLineOffset - 2) * sizeof(EncodedJSValue)), base, scratch); done.link(this); } else { #if !ASSERT_DISABLED Jump isOutOfLine = branch32(GreaterThanOrEqual, offset, TrustedImm32(firstOutOfLineOffset)); breakpoint(); isOutOfLine.link(this); #endif loadPtr(Address(base, JSObject::butterflyOffset()), scratch); neg32(offset); } signExtend32ToPtr(offset, offset); load64(BaseIndex(scratch, offset, TimesEight, (firstOutOfLineOffset - 2) * sizeof(EncodedJSValue)), result); } void JIT::emit_op_get_by_pname(Instruction* currentInstruction) { int dst = currentInstruction[1].u.operand; int base = currentInstruction[2].u.operand; int property = currentInstruction[3].u.operand; unsigned expected = currentInstruction[4].u.operand; int iter = currentInstruction[5].u.operand; int i = currentInstruction[6].u.operand; emitGetVirtualRegister(property, regT0); addSlowCase(branch64(NotEqual, regT0, addressFor(expected))); emitGetVirtualRegisters(base, regT0, iter, regT1); emitJumpSlowCaseIfNotJSCell(regT0, base); // Test base's structure loadPtr(Address(regT0, JSCell::structureOffset()), regT2); addSlowCase(branchPtr(NotEqual, regT2, Address(regT1, OBJECT_OFFSETOF(JSPropertyNameIterator, m_cachedStructure)))); load32(addressFor(i), regT3); sub32(TrustedImm32(1), regT3); addSlowCase(branch32(AboveOrEqual, regT3, Address(regT1, OBJECT_OFFSETOF(JSPropertyNameIterator, m_numCacheableSlots)))); Jump inlineProperty = branch32(Below, regT3, Address(regT1, OBJECT_OFFSETOF(JSPropertyNameIterator, m_cachedStructureInlineCapacity))); add32(TrustedImm32(firstOutOfLineOffset), regT3); sub32(Address(regT1, OBJECT_OFFSETOF(JSPropertyNameIterator, m_cachedStructureInlineCapacity)), regT3); inlineProperty.link(this); compileGetDirectOffset(regT0, regT0, regT3, regT1); emitPutVirtualRegister(dst, regT0); } void JIT::emitSlow_op_get_by_pname(Instruction* currentInstruction, Vector::iterator& iter) { int dst = currentInstruction[1].u.operand; int base = currentInstruction[2].u.operand; int property = currentInstruction[3].u.operand; linkSlowCase(iter); linkSlowCaseIfNotJSCell(iter, base); linkSlowCase(iter); linkSlowCase(iter); emitGetVirtualRegister(base, regT0); emitGetVirtualRegister(property, regT1); callOperation(operationGetByValGeneric, dst, regT0, regT1); } void JIT::emit_op_put_by_val(Instruction* currentInstruction) { int base = currentInstruction[1].u.operand; int property = currentInstruction[2].u.operand; ArrayProfile* profile = currentInstruction[4].u.arrayProfile; emitGetVirtualRegisters(base, regT0, property, regT1); emitJumpSlowCaseIfNotImmediateInteger(regT1); // See comment in op_get_by_val. zeroExtend32ToPtr(regT1, regT1); emitJumpSlowCaseIfNotJSCell(regT0, base); loadPtr(Address(regT0, JSCell::structureOffset()), regT2); emitArrayProfilingSite(regT2, regT3, profile); and32(TrustedImm32(IndexingShapeMask), regT2); PatchableJump badType; JumpList slowCases; JITArrayMode mode = chooseArrayMode(profile); switch (mode) { case JITInt32: slowCases = emitInt32PutByVal(currentInstruction, badType); break; case JITDouble: slowCases = emitDoublePutByVal(currentInstruction, badType); break; case JITContiguous: slowCases = emitContiguousPutByVal(currentInstruction, badType); break; case JITArrayStorage: slowCases = emitArrayStoragePutByVal(currentInstruction, badType); break; default: CRASH(); break; } addSlowCase(badType); addSlowCase(slowCases); Label done = label(); m_byValCompilationInfo.append(ByValCompilationInfo(m_bytecodeOffset, badType, mode, done)); } JIT::JumpList JIT::emitGenericContiguousPutByVal(Instruction* currentInstruction, PatchableJump& badType, IndexingType indexingShape) { int value = currentInstruction[3].u.operand; ArrayProfile* profile = currentInstruction[4].u.arrayProfile; JumpList slowCases; badType = patchableBranch32(NotEqual, regT2, TrustedImm32(indexingShape)); loadPtr(Address(regT0, JSObject::butterflyOffset()), regT2); Jump outOfBounds = branch32(AboveOrEqual, regT1, Address(regT2, Butterfly::offsetOfPublicLength())); Label storeResult = label(); emitGetVirtualRegister(value, regT3); switch (indexingShape) { case Int32Shape: slowCases.append(emitJumpIfNotImmediateInteger(regT3)); store64(regT3, BaseIndex(regT2, regT1, TimesEight)); break; case DoubleShape: { Jump notInt = emitJumpIfNotImmediateInteger(regT3); convertInt32ToDouble(regT3, fpRegT0); Jump ready = jump(); notInt.link(this); add64(tagTypeNumberRegister, regT3); move64ToDouble(regT3, fpRegT0); slowCases.append(branchDouble(DoubleNotEqualOrUnordered, fpRegT0, fpRegT0)); ready.link(this); storeDouble(fpRegT0, BaseIndex(regT2, regT1, TimesEight)); break; } case ContiguousShape: store64(regT3, BaseIndex(regT2, regT1, TimesEight)); emitWriteBarrier(currentInstruction[1].u.operand, value, ShouldFilterValue); break; default: CRASH(); break; } Jump done = jump(); outOfBounds.link(this); slowCases.append(branch32(AboveOrEqual, regT1, Address(regT2, Butterfly::offsetOfVectorLength()))); emitArrayProfileStoreToHoleSpecialCase(profile); add32(TrustedImm32(1), regT1, regT3); store32(regT3, Address(regT2, Butterfly::offsetOfPublicLength())); jump().linkTo(storeResult, this); done.link(this); return slowCases; } JIT::JumpList JIT::emitArrayStoragePutByVal(Instruction* currentInstruction, PatchableJump& badType) { int value = currentInstruction[3].u.operand; ArrayProfile* profile = currentInstruction[4].u.arrayProfile; JumpList slowCases; badType = patchableBranch32(NotEqual, regT2, TrustedImm32(ArrayStorageShape)); loadPtr(Address(regT0, JSObject::butterflyOffset()), regT2); slowCases.append(branch32(AboveOrEqual, regT1, Address(regT2, ArrayStorage::vectorLengthOffset()))); Jump empty = branchTest64(Zero, BaseIndex(regT2, regT1, TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]))); Label storeResult(this); emitGetVirtualRegister(value, regT3); store64(regT3, BaseIndex(regT2, regT1, TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]))); emitWriteBarrier(currentInstruction[1].u.operand, value, ShouldFilterValue); Jump end = jump(); empty.link(this); emitArrayProfileStoreToHoleSpecialCase(profile); add32(TrustedImm32(1), Address(regT2, ArrayStorage::numValuesInVectorOffset())); branch32(Below, regT1, Address(regT2, ArrayStorage::lengthOffset())).linkTo(storeResult, this); add32(TrustedImm32(1), regT1); store32(regT1, Address(regT2, ArrayStorage::lengthOffset())); sub32(TrustedImm32(1), regT1); jump().linkTo(storeResult, this); end.link(this); return slowCases; } void JIT::emitSlow_op_put_by_val(Instruction* currentInstruction, Vector::iterator& iter) { int base = currentInstruction[1].u.operand; int property = currentInstruction[2].u.operand; int value = currentInstruction[3].u.operand; ArrayProfile* profile = currentInstruction[4].u.arrayProfile; linkSlowCase(iter); // property int32 check linkSlowCaseIfNotJSCell(iter, base); // base cell check linkSlowCase(iter); // base not array check JITArrayMode mode = chooseArrayMode(profile); switch (mode) { case JITInt32: case JITDouble: linkSlowCase(iter); // value type check break; default: break; } Jump skipProfiling = jump(); linkSlowCase(iter); // out of bounds emitArrayProfileOutOfBoundsSpecialCase(profile); skipProfiling.link(this); Label slowPath = label(); emitGetVirtualRegister(property, regT1); emitGetVirtualRegister(value, regT2); bool isDirect = m_interpreter->getOpcodeID(currentInstruction->u.opcode) == op_put_by_val_direct; Call call = callOperation(isDirect ? operationDirectPutByVal : operationPutByVal, regT0, regT1, regT2); m_byValCompilationInfo[m_byValInstructionIndex].slowPathTarget = slowPath; m_byValCompilationInfo[m_byValInstructionIndex].returnAddress = call; m_byValInstructionIndex++; } void JIT::emit_op_put_by_index(Instruction* currentInstruction) { emitGetVirtualRegister(currentInstruction[1].u.operand, regT0); emitGetVirtualRegister(currentInstruction[3].u.operand, regT1); callOperation(operationPutByIndex, regT0, currentInstruction[2].u.operand, regT1); } void JIT::emit_op_put_getter_setter(Instruction* currentInstruction) { emitGetVirtualRegister(currentInstruction[1].u.operand, regT0); emitGetVirtualRegister(currentInstruction[3].u.operand, regT1); emitGetVirtualRegister(currentInstruction[4].u.operand, regT2); callOperation(operationPutGetterSetter, regT0, &m_codeBlock->identifier(currentInstruction[2].u.operand), regT1, regT2); } void JIT::emit_op_del_by_id(Instruction* currentInstruction) { int dst = currentInstruction[1].u.operand; int base = currentInstruction[2].u.operand; int property = currentInstruction[3].u.operand; emitGetVirtualRegister(base, regT0); callOperation(operationDeleteById, dst, regT0, &m_codeBlock->identifier(property)); } void JIT::emit_op_get_by_id(Instruction* currentInstruction) { int resultVReg = currentInstruction[1].u.operand; int baseVReg = currentInstruction[2].u.operand; const Identifier* ident = &(m_codeBlock->identifier(currentInstruction[3].u.operand)); emitGetVirtualRegister(baseVReg, regT0); emitJumpSlowCaseIfNotJSCell(regT0, baseVReg); if (*ident == m_vm->propertyNames->length && shouldEmitProfiling()) { loadPtr(Address(regT0, JSCell::structureOffset()), regT1); emitArrayProfilingSiteForBytecodeIndex(regT1, regT2, m_bytecodeOffset); } JITGetByIdGenerator gen( m_codeBlock, CodeOrigin(m_bytecodeOffset), RegisterSet::specialRegisters(), callFrameRegister, JSValueRegs(regT0), JSValueRegs(regT0), true); gen.generateFastPath(*this); addSlowCase(gen.slowPathJump()); m_getByIds.append(gen); emitValueProfilingSite(regT4); emitPutVirtualRegister(resultVReg); } void JIT::emitSlow_op_get_by_id(Instruction* currentInstruction, Vector::iterator& iter) { int resultVReg = currentInstruction[1].u.operand; int baseVReg = currentInstruction[2].u.operand; const Identifier* ident = &(m_codeBlock->identifier(currentInstruction[3].u.operand)); linkSlowCaseIfNotJSCell(iter, baseVReg); linkSlowCase(iter); JITGetByIdGenerator& gen = m_getByIds[m_getByIdIndex++]; Label coldPathBegin = label(); Call call = callOperation(WithProfile, operationGetByIdOptimize, resultVReg, gen.stubInfo(), regT0, ident->impl()); gen.reportSlowPathCall(coldPathBegin, call); } void JIT::emit_op_put_by_id(Instruction* currentInstruction) { int baseVReg = currentInstruction[1].u.operand; int valueVReg = currentInstruction[3].u.operand; unsigned direct = currentInstruction[8].u.operand; emitWriteBarrier(baseVReg, valueVReg, ShouldFilterBaseAndValue); // In order to be able to patch both the Structure, and the object offset, we store one pointer, // to just after the arguments have been loaded into registers 'hotPathBegin', and we generate code // such that the Structure & offset are always at the same distance from this. emitGetVirtualRegisters(baseVReg, regT0, valueVReg, regT1); // Jump to a slow case if either the base object is an immediate, or if the Structure does not match. emitJumpSlowCaseIfNotJSCell(regT0, baseVReg); JITPutByIdGenerator gen( m_codeBlock, CodeOrigin(m_bytecodeOffset), RegisterSet::specialRegisters(), callFrameRegister, JSValueRegs(regT0), JSValueRegs(regT1), regT2, true, m_codeBlock->ecmaMode(), direct ? Direct : NotDirect); gen.generateFastPath(*this); addSlowCase(gen.slowPathJump()); m_putByIds.append(gen); } void JIT::emitSlow_op_put_by_id(Instruction* currentInstruction, Vector::iterator& iter) { int baseVReg = currentInstruction[1].u.operand; const Identifier* ident = &(m_codeBlock->identifier(currentInstruction[2].u.operand)); linkSlowCaseIfNotJSCell(iter, baseVReg); linkSlowCase(iter); Label coldPathBegin(this); JITPutByIdGenerator& gen = m_putByIds[m_putByIdIndex++]; Call call = callOperation( gen.slowPathFunction(), gen.stubInfo(), regT1, regT0, ident->impl()); gen.reportSlowPathCall(coldPathBegin, call); } // Compile a store into an object's property storage. May overwrite the // value in objectReg. void JIT::compilePutDirectOffset(RegisterID base, RegisterID value, PropertyOffset cachedOffset) { if (isInlineOffset(cachedOffset)) { store64(value, Address(base, JSObject::offsetOfInlineStorage() + sizeof(JSValue) * offsetInInlineStorage(cachedOffset))); return; } loadPtr(Address(base, JSObject::butterflyOffset()), base); store64(value, Address(base, sizeof(JSValue) * offsetInButterfly(cachedOffset))); } // Compile a load from an object's property storage. May overwrite base. void JIT::compileGetDirectOffset(RegisterID base, RegisterID result, PropertyOffset cachedOffset) { if (isInlineOffset(cachedOffset)) { load64(Address(base, JSObject::offsetOfInlineStorage() + sizeof(JSValue) * offsetInInlineStorage(cachedOffset)), result); return; } loadPtr(Address(base, JSObject::butterflyOffset()), result); load64(Address(result, sizeof(JSValue) * offsetInButterfly(cachedOffset)), result); } void JIT::compileGetDirectOffset(JSObject* base, RegisterID result, PropertyOffset cachedOffset) { if (isInlineOffset(cachedOffset)) { load64(base->locationForOffset(cachedOffset), result); return; } loadPtr(base->butterflyAddress(), result); load64(Address(result, offsetInButterfly(cachedOffset) * sizeof(WriteBarrier)), result); } void JIT::emitVarInjectionCheck(bool needsVarInjectionChecks) { if (!needsVarInjectionChecks) return; addSlowCase(branch8(Equal, AbsoluteAddress(m_codeBlock->globalObject()->varInjectionWatchpoint()->addressOfState()), TrustedImm32(IsInvalidated))); } void JIT::emitResolveClosure(int dst, bool needsVarInjectionChecks, unsigned depth) { emitVarInjectionCheck(needsVarInjectionChecks); emitGetVirtualRegister(JSStack::ScopeChain, regT0); if (m_codeBlock->needsActivation()) { emitGetVirtualRegister(m_codeBlock->activationRegister(), regT1); Jump noActivation = branchTestPtr(Zero, regT1); loadPtr(Address(regT0, JSScope::offsetOfNext()), regT0); noActivation.link(this); } for (unsigned i = 0; i < depth; ++i) loadPtr(Address(regT0, JSScope::offsetOfNext()), regT0); emitPutVirtualRegister(dst); } void JIT::emit_op_resolve_scope(Instruction* currentInstruction) { int dst = currentInstruction[1].u.operand; ResolveType resolveType = static_cast(currentInstruction[3].u.operand); unsigned depth = currentInstruction[4].u.operand; switch (resolveType) { case GlobalProperty: case GlobalVar: case GlobalPropertyWithVarInjectionChecks: case GlobalVarWithVarInjectionChecks: emitVarInjectionCheck(needsVarInjectionChecks(resolveType)); move(TrustedImmPtr(m_codeBlock->globalObject()), regT0); emitPutVirtualRegister(dst); break; case ClosureVar: case ClosureVarWithVarInjectionChecks: emitResolveClosure(dst, needsVarInjectionChecks(resolveType), depth); break; case Dynamic: addSlowCase(jump()); break; } } void JIT::emitSlow_op_resolve_scope(Instruction* currentInstruction, Vector::iterator& iter) { int dst = currentInstruction[1].u.operand; ResolveType resolveType = static_cast(currentInstruction[3].u.operand); if (resolveType == GlobalProperty || resolveType == GlobalVar || resolveType == ClosureVar) return; linkSlowCase(iter); int32_t indentifierIndex = currentInstruction[2].u.operand; callOperation(operationResolveScope, dst, indentifierIndex); } void JIT::emitLoadWithStructureCheck(int scope, Structure** structureSlot) { emitGetVirtualRegister(scope, regT0); loadPtr(structureSlot, regT1); addSlowCase(branchPtr(NotEqual, Address(regT0, JSCell::structureOffset()), regT1)); } void JIT::emitGetGlobalProperty(uintptr_t* operandSlot) { load32(operandSlot, regT1); compileGetDirectOffset(regT0, regT0, regT1, regT2, KnownNotFinal); } void JIT::emitGetGlobalVar(uintptr_t operand) { loadPtr(reinterpret_cast(operand), regT0); } void JIT::emitGetClosureVar(int scope, uintptr_t operand) { emitGetVirtualRegister(scope, regT0); loadPtr(Address(regT0, JSVariableObject::offsetOfRegisters()), regT0); loadPtr(Address(regT0, operand * sizeof(Register)), regT0); } void JIT::emit_op_get_from_scope(Instruction* currentInstruction) { int dst = currentInstruction[1].u.operand; int scope = currentInstruction[2].u.operand; ResolveType resolveType = ResolveModeAndType(currentInstruction[4].u.operand).type(); Structure** structureSlot = currentInstruction[5].u.structure.slot(); uintptr_t* operandSlot = reinterpret_cast(¤tInstruction[6].u.pointer); switch (resolveType) { case GlobalProperty: case GlobalPropertyWithVarInjectionChecks: emitLoadWithStructureCheck(scope, structureSlot); // Structure check covers var injection. emitGetGlobalProperty(operandSlot); break; case GlobalVar: case GlobalVarWithVarInjectionChecks: emitVarInjectionCheck(needsVarInjectionChecks(resolveType)); emitGetGlobalVar(*operandSlot); break; case ClosureVar: case ClosureVarWithVarInjectionChecks: emitVarInjectionCheck(needsVarInjectionChecks(resolveType)); emitGetClosureVar(scope, *operandSlot); break; case Dynamic: addSlowCase(jump()); break; } emitPutVirtualRegister(dst); emitValueProfilingSite(regT4); } void JIT::emitSlow_op_get_from_scope(Instruction* currentInstruction, Vector::iterator& iter) { int dst = currentInstruction[1].u.operand; ResolveType resolveType = ResolveModeAndType(currentInstruction[4].u.operand).type(); if (resolveType == GlobalVar || resolveType == ClosureVar) return; linkSlowCase(iter); callOperation(WithProfile, operationGetFromScope, dst, currentInstruction); } void JIT::emitPutGlobalProperty(uintptr_t* operandSlot, int value) { emitGetVirtualRegister(value, regT2); loadPtr(Address(regT0, JSObject::butterflyOffset()), regT0); loadPtr(operandSlot, regT1); negPtr(regT1); storePtr(regT2, BaseIndex(regT0, regT1, TimesEight, (firstOutOfLineOffset - 2) * sizeof(EncodedJSValue))); } void JIT::emitNotifyWrite(RegisterID value, RegisterID scratch, VariableWatchpointSet* set) { if (!set || set->state() == IsInvalidated) return; load8(set->addressOfState(), scratch); JumpList ready; ready.append(branch32(Equal, scratch, TrustedImm32(IsInvalidated))); if (set->state() == ClearWatchpoint) { Jump isWatched = branch32(NotEqual, scratch, TrustedImm32(ClearWatchpoint)); store64(value, set->addressOfInferredValue()); store8(TrustedImm32(IsWatched), set->addressOfState()); ready.append(jump()); isWatched.link(this); } ready.append(branch64(Equal, AbsoluteAddress(set->addressOfInferredValue()), value)); addSlowCase(branchTest8(NonZero, AbsoluteAddress(set->addressOfSetIsNotEmpty()))); store8(TrustedImm32(IsInvalidated), set->addressOfState()); move(TrustedImm64(JSValue::encode(JSValue())), scratch); store64(scratch, set->addressOfInferredValue()); ready.link(this); } void JIT::emitPutGlobalVar(uintptr_t operand, int value, VariableWatchpointSet* set) { emitGetVirtualRegister(value, regT0); emitNotifyWrite(regT0, regT1, set); storePtr(regT0, reinterpret_cast(operand)); } void JIT::emitPutClosureVar(int scope, uintptr_t operand, int value) { emitGetVirtualRegister(value, regT1); emitGetVirtualRegister(scope, regT0); loadPtr(Address(regT0, JSVariableObject::offsetOfRegisters()), regT0); storePtr(regT1, Address(regT0, operand * sizeof(Register))); } void JIT::emit_op_put_to_scope(Instruction* currentInstruction) { int scope = currentInstruction[1].u.operand; int value = currentInstruction[3].u.operand; ResolveType resolveType = ResolveModeAndType(currentInstruction[4].u.operand).type(); Structure** structureSlot = currentInstruction[5].u.structure.slot(); uintptr_t* operandSlot = reinterpret_cast(¤tInstruction[6].u.pointer); switch (resolveType) { case GlobalProperty: case GlobalPropertyWithVarInjectionChecks: emitWriteBarrier(m_codeBlock->globalObject(), value, ShouldFilterValue); emitLoadWithStructureCheck(scope, structureSlot); // Structure check covers var injection. emitPutGlobalProperty(operandSlot, value); break; case GlobalVar: case GlobalVarWithVarInjectionChecks: emitWriteBarrier(m_codeBlock->globalObject(), value, ShouldFilterValue); emitVarInjectionCheck(needsVarInjectionChecks(resolveType)); emitPutGlobalVar(*operandSlot, value, currentInstruction[5].u.watchpointSet); break; case ClosureVar: case ClosureVarWithVarInjectionChecks: emitWriteBarrier(scope, value, ShouldFilterValue); emitVarInjectionCheck(needsVarInjectionChecks(resolveType)); emitPutClosureVar(scope, *operandSlot, value); break; case Dynamic: addSlowCase(jump()); break; } } void JIT::emitSlow_op_put_to_scope(Instruction* currentInstruction, Vector::iterator& iter) { ResolveType resolveType = ResolveModeAndType(currentInstruction[4].u.operand).type(); unsigned linkCount = 0; if (resolveType != GlobalVar && resolveType != ClosureVar) linkCount++; if ((resolveType == GlobalVar || resolveType == GlobalVarWithVarInjectionChecks) && currentInstruction[5].u.watchpointSet->state() != IsInvalidated) linkCount++; if (!linkCount) return; while (linkCount--) linkSlowCase(iter); callOperation(operationPutToScope, currentInstruction); } void JIT::emit_op_init_global_const(Instruction* currentInstruction) { JSGlobalObject* globalObject = m_codeBlock->globalObject(); emitWriteBarrier(globalObject, currentInstruction[2].u.operand, ShouldFilterValue); emitGetVirtualRegister(currentInstruction[2].u.operand, regT0); store64(regT0, currentInstruction[1].u.registerPointer); } #endif // USE(JSVALUE64) JIT::Jump JIT::checkMarkWord(RegisterID owner, RegisterID scratch1, RegisterID scratch2) { move(owner, scratch1); move(owner, scratch2); andPtr(TrustedImmPtr(MarkedBlock::blockMask), scratch1); andPtr(TrustedImmPtr(~MarkedBlock::blockMask), scratch2); rshift32(TrustedImm32(3 + 4), scratch2); return branchTest8(Zero, BaseIndex(scratch1, scratch2, TimesOne, MarkedBlock::offsetOfMarks())); } JIT::Jump JIT::checkMarkWord(JSCell* owner) { MarkedBlock* block = MarkedBlock::blockFor(owner); size_t index = (reinterpret_cast(owner) & ~MarkedBlock::blockMask) >> (3 + 4); void* address = (reinterpret_cast(block) + MarkedBlock::offsetOfMarks()) + index; return branchTest8(Zero, AbsoluteAddress(address)); } #if USE(JSVALUE64) void JIT::emitWriteBarrier(unsigned owner, unsigned value, WriteBarrierMode mode) { #if ENABLE(GGC) emitGetVirtualRegister(value, regT0); Jump valueNotCell; if (mode == ShouldFilterValue || mode == ShouldFilterBaseAndValue) valueNotCell = branchTest64(NonZero, regT0, tagMaskRegister); emitGetVirtualRegister(owner, regT0); Jump ownerNotCell; if (mode == ShouldFilterBaseAndValue) ownerNotCell = branchTest64(NonZero, regT0, tagMaskRegister); Jump ownerNotMarked = checkMarkWord(regT0, regT1, regT2); callOperation(operationUnconditionalWriteBarrier, regT0); ownerNotMarked.link(this); if (mode == ShouldFilterBaseAndValue) ownerNotCell.link(this); if (mode == ShouldFilterValue || mode == ShouldFilterBaseAndValue) valueNotCell.link(this); #else UNUSED_PARAM(owner); UNUSED_PARAM(value); UNUSED_PARAM(mode); #endif } void JIT::emitWriteBarrier(JSCell* owner, unsigned value, WriteBarrierMode mode) { #if ENABLE(GGC) emitGetVirtualRegister(value, regT0); Jump valueNotCell; if (mode == ShouldFilterValue) valueNotCell = branchTest64(NonZero, regT0, tagMaskRegister); if (!MarkedBlock::blockFor(owner)->isMarked(owner)) { Jump ownerNotMarked = checkMarkWord(regT0, regT1, regT2); callOperation(operationUnconditionalWriteBarrier, owner); ownerNotMarked.link(this); } else callOperation(operationUnconditionalWriteBarrier, owner); if (mode == ShouldFilterValue) valueNotCell.link(this); #else UNUSED_PARAM(owner); UNUSED_PARAM(value); UNUSED_PARAM(mode); #endif } #else // USE(JSVALUE64) void JIT::emitWriteBarrier(unsigned owner, unsigned value, WriteBarrierMode mode) { #if ENABLE(GGC) emitLoadTag(value, regT0); Jump valueNotCell; if (mode == ShouldFilterValue || mode == ShouldFilterBaseAndValue) valueNotCell = branch32(NotEqual, regT0, TrustedImm32(JSValue::CellTag)); emitLoad(owner, regT0, regT1); Jump ownerNotCell; if (mode == ShouldFilterBaseAndValue) ownerNotCell = branch32(NotEqual, regT0, TrustedImm32(JSValue::CellTag)); Jump ownerNotMarked = checkMarkWord(regT1, regT0, regT2); callOperation(operationUnconditionalWriteBarrier, regT1); ownerNotMarked.link(this); if (mode == ShouldFilterBaseAndValue) ownerNotCell.link(this); if (mode == ShouldFilterValue || mode == ShouldFilterBaseAndValue) valueNotCell.link(this); #else UNUSED_PARAM(owner); UNUSED_PARAM(value); UNUSED_PARAM(mode); #endif } void JIT::emitWriteBarrier(JSCell* owner, unsigned value, WriteBarrierMode mode) { #if ENABLE(GGC) emitLoadTag(value, regT0); Jump valueNotCell; if (mode == ShouldFilterValue) valueNotCell = branch32(NotEqual, regT0, TrustedImm32(JSValue::CellTag)); if (!MarkedBlock::blockFor(owner)->isMarked(owner)) { Jump ownerNotMarked = checkMarkWord(regT0, regT1, regT2); callOperation(operationUnconditionalWriteBarrier, owner); ownerNotMarked.link(this); } else callOperation(operationUnconditionalWriteBarrier, owner); if (mode == ShouldFilterValue) valueNotCell.link(this); #else UNUSED_PARAM(owner); UNUSED_PARAM(value); UNUSED_PARAM(mode); #endif } #endif // USE(JSVALUE64) JIT::Jump JIT::addStructureTransitionCheck(JSCell* object, Structure* structure, StructureStubInfo* stubInfo, RegisterID scratch) { if (object->structure() == structure && structure->transitionWatchpointSetIsStillValid()) { structure->addTransitionWatchpoint(stubInfo->addWatchpoint(m_codeBlock)); #if !ASSERT_DISABLED move(TrustedImmPtr(object), scratch); Jump ok = branchPtr(Equal, Address(scratch, JSCell::structureOffset()), TrustedImmPtr(structure)); breakpoint(); ok.link(this); #endif Jump result; // Returning an unset jump this way because otherwise VC++ would complain. return result; } move(TrustedImmPtr(object), scratch); return branchPtr(NotEqual, Address(scratch, JSCell::structureOffset()), TrustedImmPtr(structure)); } void JIT::addStructureTransitionCheck(JSCell* object, Structure* structure, StructureStubInfo* stubInfo, JumpList& failureCases, RegisterID scratch) { Jump failureCase = addStructureTransitionCheck(object, structure, stubInfo, scratch); if (!failureCase.isSet()) return; failureCases.append(failureCase); } void JIT::testPrototype(JSValue prototype, JumpList& failureCases, StructureStubInfo* stubInfo) { if (prototype.isNull()) return; ASSERT(prototype.isCell()); addStructureTransitionCheck(prototype.asCell(), prototype.asCell()->structure(), stubInfo, failureCases, regT3); } void JIT::privateCompileGetByVal(ByValInfo* byValInfo, ReturnAddressPtr returnAddress, JITArrayMode arrayMode) { Instruction* currentInstruction = m_codeBlock->instructions().begin() + byValInfo->bytecodeIndex; PatchableJump badType; JumpList slowCases; switch (arrayMode) { case JITInt32: slowCases = emitInt32GetByVal(currentInstruction, badType); break; case JITDouble: slowCases = emitDoubleGetByVal(currentInstruction, badType); break; case JITContiguous: slowCases = emitContiguousGetByVal(currentInstruction, badType); break; case JITArrayStorage: slowCases = emitArrayStorageGetByVal(currentInstruction, badType); break; default: TypedArrayType type = typedArrayTypeForJITArrayMode(arrayMode); if (isInt(type)) slowCases = emitIntTypedArrayGetByVal(currentInstruction, badType, type); else slowCases = emitFloatTypedArrayGetByVal(currentInstruction, badType, type); break; } Jump done = jump(); LinkBuffer patchBuffer(*m_vm, this, m_codeBlock); patchBuffer.link(badType, CodeLocationLabel(MacroAssemblerCodePtr::createFromExecutableAddress(returnAddress.value())).labelAtOffset(byValInfo->returnAddressToSlowPath)); patchBuffer.link(slowCases, CodeLocationLabel(MacroAssemblerCodePtr::createFromExecutableAddress(returnAddress.value())).labelAtOffset(byValInfo->returnAddressToSlowPath)); patchBuffer.link(done, byValInfo->badTypeJump.labelAtOffset(byValInfo->badTypeJumpToDone)); byValInfo->stubRoutine = FINALIZE_CODE_FOR_STUB( patchBuffer, ("Baseline get_by_val stub for %s, return point %p", toCString(*m_codeBlock).data(), returnAddress.value())); RepatchBuffer repatchBuffer(m_codeBlock); repatchBuffer.relink(byValInfo->badTypeJump, CodeLocationLabel(byValInfo->stubRoutine->code().code())); repatchBuffer.relinkCallerToFunction(returnAddress, FunctionPtr(operationGetByValGeneric)); } void JIT::privateCompilePutByVal(ByValInfo* byValInfo, ReturnAddressPtr returnAddress, JITArrayMode arrayMode) { Instruction* currentInstruction = m_codeBlock->instructions().begin() + byValInfo->bytecodeIndex; PatchableJump badType; JumpList slowCases; #if ENABLE(GGC) bool needsLinkForWriteBarrier = false; #endif switch (arrayMode) { case JITInt32: slowCases = emitInt32PutByVal(currentInstruction, badType); break; case JITDouble: slowCases = emitDoublePutByVal(currentInstruction, badType); break; case JITContiguous: slowCases = emitContiguousPutByVal(currentInstruction, badType); #if ENABLE(GGC) needsLinkForWriteBarrier = true; #endif break; case JITArrayStorage: slowCases = emitArrayStoragePutByVal(currentInstruction, badType); #if ENABLE(GGC) needsLinkForWriteBarrier = true; #endif break; default: TypedArrayType type = typedArrayTypeForJITArrayMode(arrayMode); if (isInt(type)) slowCases = emitIntTypedArrayPutByVal(currentInstruction, badType, type); else slowCases = emitFloatTypedArrayPutByVal(currentInstruction, badType, type); break; } Jump done = jump(); LinkBuffer patchBuffer(*m_vm, this, m_codeBlock); patchBuffer.link(badType, CodeLocationLabel(MacroAssemblerCodePtr::createFromExecutableAddress(returnAddress.value())).labelAtOffset(byValInfo->returnAddressToSlowPath)); patchBuffer.link(slowCases, CodeLocationLabel(MacroAssemblerCodePtr::createFromExecutableAddress(returnAddress.value())).labelAtOffset(byValInfo->returnAddressToSlowPath)); patchBuffer.link(done, byValInfo->badTypeJump.labelAtOffset(byValInfo->badTypeJumpToDone)); #if ENABLE(GGC) if (needsLinkForWriteBarrier) { ASSERT(m_calls.last().to == operationUnconditionalWriteBarrier); patchBuffer.link(m_calls.last().from, operationUnconditionalWriteBarrier); } #endif bool isDirect = m_interpreter->getOpcodeID(currentInstruction->u.opcode) == op_put_by_val_direct; if (!isDirect) { byValInfo->stubRoutine = FINALIZE_CODE_FOR_STUB( patchBuffer, ("Baseline put_by_val stub for %s, return point %p", toCString(*m_codeBlock).data(), returnAddress.value())); } else { byValInfo->stubRoutine = FINALIZE_CODE_FOR_STUB( patchBuffer, ("Baseline put_by_val_direct stub for %s, return point %p", toCString(*m_codeBlock).data(), returnAddress.value())); } RepatchBuffer repatchBuffer(m_codeBlock); repatchBuffer.relink(byValInfo->badTypeJump, CodeLocationLabel(byValInfo->stubRoutine->code().code())); repatchBuffer.relinkCallerToFunction(returnAddress, FunctionPtr(isDirect ? operationDirectPutByValGeneric : operationPutByValGeneric)); } JIT::JumpList JIT::emitIntTypedArrayGetByVal(Instruction*, PatchableJump& badType, TypedArrayType type) { ASSERT(isInt(type)); // The best way to test the array type is to use the classInfo. We need to do so without // clobbering the register that holds the indexing type, base, and property. #if USE(JSVALUE64) RegisterID base = regT0; RegisterID property = regT1; RegisterID resultPayload = regT0; RegisterID scratch = regT3; #else RegisterID base = regT0; RegisterID property = regT2; RegisterID resultPayload = regT0; RegisterID resultTag = regT1; RegisterID scratch = regT3; #endif JumpList slowCases; loadPtr(Address(base, JSCell::structureOffset()), scratch); badType = patchableBranchPtr(NotEqual, Address(scratch, Structure::classInfoOffset()), TrustedImmPtr(classInfoForType(type))); slowCases.append(branch32(AboveOrEqual, property, Address(base, JSArrayBufferView::offsetOfLength()))); loadPtr(Address(base, JSArrayBufferView::offsetOfVector()), base); switch (elementSize(type)) { case 1: if (isSigned(type)) load8Signed(BaseIndex(base, property, TimesOne), resultPayload); else load8(BaseIndex(base, property, TimesOne), resultPayload); break; case 2: if (isSigned(type)) load16Signed(BaseIndex(base, property, TimesTwo), resultPayload); else load16(BaseIndex(base, property, TimesTwo), resultPayload); break; case 4: load32(BaseIndex(base, property, TimesFour), resultPayload); break; default: CRASH(); } Jump done; if (type == TypeUint32) { Jump canBeInt = branch32(GreaterThanOrEqual, resultPayload, TrustedImm32(0)); convertInt32ToDouble(resultPayload, fpRegT0); addDouble(AbsoluteAddress(&twoToThe32), fpRegT0); #if USE(JSVALUE64) moveDoubleTo64(fpRegT0, resultPayload); sub64(tagTypeNumberRegister, resultPayload); #else moveDoubleToInts(fpRegT0, resultPayload, resultTag); #endif done = jump(); canBeInt.link(this); } #if USE(JSVALUE64) or64(tagTypeNumberRegister, resultPayload); #else move(TrustedImm32(JSValue::Int32Tag), resultTag); #endif if (done.isSet()) done.link(this); return slowCases; } JIT::JumpList JIT::emitFloatTypedArrayGetByVal(Instruction*, PatchableJump& badType, TypedArrayType type) { ASSERT(isFloat(type)); #if USE(JSVALUE64) RegisterID base = regT0; RegisterID property = regT1; RegisterID resultPayload = regT0; RegisterID scratch = regT3; #else RegisterID base = regT0; RegisterID property = regT2; RegisterID resultPayload = regT0; RegisterID resultTag = regT1; RegisterID scratch = regT3; #endif JumpList slowCases; loadPtr(Address(base, JSCell::structureOffset()), scratch); badType = patchableBranchPtr(NotEqual, Address(scratch, Structure::classInfoOffset()), TrustedImmPtr(classInfoForType(type))); slowCases.append(branch32(AboveOrEqual, property, Address(base, JSArrayBufferView::offsetOfLength()))); loadPtr(Address(base, JSArrayBufferView::offsetOfVector()), base); switch (elementSize(type)) { case 4: loadFloat(BaseIndex(base, property, TimesFour), fpRegT0); convertFloatToDouble(fpRegT0, fpRegT0); break; case 8: { loadDouble(BaseIndex(base, property, TimesEight), fpRegT0); break; } default: CRASH(); } Jump notNaN = branchDouble(DoubleEqual, fpRegT0, fpRegT0); static const double NaN = QNaN; loadDouble(&NaN, fpRegT0); notNaN.link(this); #if USE(JSVALUE64) moveDoubleTo64(fpRegT0, resultPayload); sub64(tagTypeNumberRegister, resultPayload); #else moveDoubleToInts(fpRegT0, resultPayload, resultTag); #endif return slowCases; } JIT::JumpList JIT::emitIntTypedArrayPutByVal(Instruction* currentInstruction, PatchableJump& badType, TypedArrayType type) { ASSERT(isInt(type)); int value = currentInstruction[3].u.operand; #if USE(JSVALUE64) RegisterID base = regT0; RegisterID property = regT1; RegisterID earlyScratch = regT3; RegisterID lateScratch = regT2; #else RegisterID base = regT0; RegisterID property = regT2; RegisterID earlyScratch = regT3; RegisterID lateScratch = regT1; #endif JumpList slowCases; loadPtr(Address(base, JSCell::structureOffset()), earlyScratch); badType = patchableBranchPtr(NotEqual, Address(earlyScratch, Structure::classInfoOffset()), TrustedImmPtr(classInfoForType(type))); slowCases.append(branch32(AboveOrEqual, property, Address(base, JSArrayBufferView::offsetOfLength()))); #if USE(JSVALUE64) emitGetVirtualRegister(value, earlyScratch); slowCases.append(emitJumpIfNotImmediateInteger(earlyScratch)); #else emitLoad(value, lateScratch, earlyScratch); slowCases.append(branch32(NotEqual, lateScratch, TrustedImm32(JSValue::Int32Tag))); #endif // We would be loading this into base as in get_by_val, except that the slow // path expects the base to be unclobbered. loadPtr(Address(base, JSArrayBufferView::offsetOfVector()), lateScratch); if (isClamped(type)) { ASSERT(elementSize(type) == 1); ASSERT(!isSigned(type)); Jump inBounds = branch32(BelowOrEqual, earlyScratch, TrustedImm32(0xff)); Jump tooBig = branch32(GreaterThan, earlyScratch, TrustedImm32(0xff)); xor32(earlyScratch, earlyScratch); Jump clamped = jump(); tooBig.link(this); move(TrustedImm32(0xff), earlyScratch); clamped.link(this); inBounds.link(this); } switch (elementSize(type)) { case 1: store8(earlyScratch, BaseIndex(lateScratch, property, TimesOne)); break; case 2: store16(earlyScratch, BaseIndex(lateScratch, property, TimesTwo)); break; case 4: store32(earlyScratch, BaseIndex(lateScratch, property, TimesFour)); break; default: CRASH(); } return slowCases; } JIT::JumpList JIT::emitFloatTypedArrayPutByVal(Instruction* currentInstruction, PatchableJump& badType, TypedArrayType type) { ASSERT(isFloat(type)); int value = currentInstruction[3].u.operand; #if USE(JSVALUE64) RegisterID base = regT0; RegisterID property = regT1; RegisterID earlyScratch = regT3; RegisterID lateScratch = regT2; #else RegisterID base = regT0; RegisterID property = regT2; RegisterID earlyScratch = regT3; RegisterID lateScratch = regT1; #endif JumpList slowCases; loadPtr(Address(base, JSCell::structureOffset()), earlyScratch); badType = patchableBranchPtr(NotEqual, Address(earlyScratch, Structure::classInfoOffset()), TrustedImmPtr(classInfoForType(type))); slowCases.append(branch32(AboveOrEqual, property, Address(base, JSArrayBufferView::offsetOfLength()))); #if USE(JSVALUE64) emitGetVirtualRegister(value, earlyScratch); Jump doubleCase = emitJumpIfNotImmediateInteger(earlyScratch); convertInt32ToDouble(earlyScratch, fpRegT0); Jump ready = jump(); doubleCase.link(this); slowCases.append(emitJumpIfNotImmediateNumber(earlyScratch)); add64(tagTypeNumberRegister, earlyScratch); move64ToDouble(earlyScratch, fpRegT0); ready.link(this); #else emitLoad(value, lateScratch, earlyScratch); Jump doubleCase = branch32(NotEqual, lateScratch, TrustedImm32(JSValue::Int32Tag)); convertInt32ToDouble(earlyScratch, fpRegT0); Jump ready = jump(); doubleCase.link(this); slowCases.append(branch32(Above, lateScratch, TrustedImm32(JSValue::LowestTag))); moveIntsToDouble(earlyScratch, lateScratch, fpRegT0, fpRegT1); ready.link(this); #endif // We would be loading this into base as in get_by_val, except that the slow // path expects the base to be unclobbered. loadPtr(Address(base, JSArrayBufferView::offsetOfVector()), lateScratch); switch (elementSize(type)) { case 4: convertDoubleToFloat(fpRegT0, fpRegT0); storeFloat(fpRegT0, BaseIndex(lateScratch, property, TimesFour)); break; case 8: storeDouble(fpRegT0, BaseIndex(lateScratch, property, TimesEight)); break; default: CRASH(); } return slowCases; } } // namespace JSC #endif // ENABLE(JIT)