| /* |
| * Copyright (C) 2008-2019 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 "ArithProfile.h" |
| #include "CodeBlock.h" |
| #include "JITAddGenerator.h" |
| #include "JITBitAndGenerator.h" |
| #include "JITBitOrGenerator.h" |
| #include "JITBitXorGenerator.h" |
| #include "JITDivGenerator.h" |
| #include "JITInlines.h" |
| #include "JITLeftShiftGenerator.h" |
| #include "JITMathIC.h" |
| #include "JITMulGenerator.h" |
| #include "JITNegGenerator.h" |
| #include "JITOperations.h" |
| #include "JITSubGenerator.h" |
| #include "JSArray.h" |
| #include "JSFunction.h" |
| #include "Interpreter.h" |
| #include "JSCInlines.h" |
| #include "LinkBuffer.h" |
| #include "ResultType.h" |
| #include "SlowPathCall.h" |
| |
| namespace JSC { |
| |
| void JIT::emit_op_jless(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJless>(currentInstruction, LessThan); |
| } |
| |
| void JIT::emit_op_jlesseq(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJlesseq>(currentInstruction, LessThanOrEqual); |
| } |
| |
| void JIT::emit_op_jgreater(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJgreater>(currentInstruction, GreaterThan); |
| } |
| |
| void JIT::emit_op_jgreatereq(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJgreatereq>(currentInstruction, GreaterThanOrEqual); |
| } |
| |
| void JIT::emit_op_jnless(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJnless>(currentInstruction, GreaterThanOrEqual); |
| } |
| |
| void JIT::emit_op_jnlesseq(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJnlesseq>(currentInstruction, GreaterThan); |
| } |
| |
| void JIT::emit_op_jngreater(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJngreater>(currentInstruction, LessThanOrEqual); |
| } |
| |
| void JIT::emit_op_jngreatereq(const Instruction* currentInstruction) |
| { |
| emit_compareAndJump<OpJngreatereq>(currentInstruction, LessThan); |
| } |
| |
| void JIT::emitSlow_op_jless(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJless>(currentInstruction, DoubleLessThan, operationCompareLess, false, iter); |
| } |
| |
| void JIT::emitSlow_op_jlesseq(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJlesseq>(currentInstruction, DoubleLessThanOrEqual, operationCompareLessEq, false, iter); |
| } |
| |
| void JIT::emitSlow_op_jgreater(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJgreater>(currentInstruction, DoubleGreaterThan, operationCompareGreater, false, iter); |
| } |
| |
| void JIT::emitSlow_op_jgreatereq(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJgreatereq>(currentInstruction, DoubleGreaterThanOrEqual, operationCompareGreaterEq, false, iter); |
| } |
| |
| void JIT::emitSlow_op_jnless(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJnless>(currentInstruction, DoubleGreaterThanOrEqualOrUnordered, operationCompareLess, true, iter); |
| } |
| |
| void JIT::emitSlow_op_jnlesseq(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJnlesseq>(currentInstruction, DoubleGreaterThanOrUnordered, operationCompareLessEq, true, iter); |
| } |
| |
| void JIT::emitSlow_op_jngreater(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJngreater>(currentInstruction, DoubleLessThanOrEqualOrUnordered, operationCompareGreater, true, iter); |
| } |
| |
| void JIT::emitSlow_op_jngreatereq(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| emit_compareAndJumpSlow<OpJngreatereq>(currentInstruction, DoubleLessThanOrUnordered, operationCompareGreaterEq, true, iter); |
| } |
| |
| void JIT::emit_op_below(const Instruction* currentInstruction) |
| { |
| emit_compareUnsigned<OpBelow>(currentInstruction, Below); |
| } |
| |
| void JIT::emit_op_beloweq(const Instruction* currentInstruction) |
| { |
| emit_compareUnsigned<OpBeloweq>(currentInstruction, BelowOrEqual); |
| } |
| |
| void JIT::emit_op_jbelow(const Instruction* currentInstruction) |
| { |
| emit_compareUnsignedAndJump<OpJbelow>(currentInstruction, Below); |
| } |
| |
| void JIT::emit_op_jbeloweq(const Instruction* currentInstruction) |
| { |
| emit_compareUnsignedAndJump<OpJbeloweq>(currentInstruction, BelowOrEqual); |
| } |
| |
| #if USE(JSVALUE64) |
| |
| void JIT::emit_op_unsigned(const Instruction* currentInstruction) |
| { |
| auto bytecode = currentInstruction->as<OpUnsigned>(); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_operand.offset(); |
| |
| emitGetVirtualRegister(op1, regT0); |
| emitJumpSlowCaseIfNotInt(regT0); |
| addSlowCase(branch32(LessThan, regT0, TrustedImm32(0))); |
| boxInt32(regT0, JSValueRegs { regT0 }); |
| emitPutVirtualRegister(result, regT0); |
| } |
| |
| template<typename Op> |
| void JIT::emit_compareAndJump(const Instruction* instruction, RelationalCondition condition) |
| { |
| // We generate inline code for the following cases in the fast path: |
| // - int immediate to constant int immediate |
| // - constant int immediate to int immediate |
| // - int immediate to int immediate |
| |
| auto bytecode = instruction->as<Op>(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| unsigned target = jumpTarget(instruction, bytecode.m_targetLabel); |
| bool disallowAllocation = false; |
| if (isOperandConstantChar(op1)) { |
| emitGetVirtualRegister(op2, regT0); |
| addSlowCase(branchIfNotCell(regT0)); |
| JumpList failures; |
| emitLoadCharacterString(regT0, regT0, failures); |
| addSlowCase(failures); |
| addJump(branch32(commute(condition), regT0, Imm32(asString(getConstantOperand(op1))->tryGetValue(disallowAllocation)[0])), target); |
| return; |
| } |
| if (isOperandConstantChar(op2)) { |
| emitGetVirtualRegister(op1, regT0); |
| addSlowCase(branchIfNotCell(regT0)); |
| JumpList failures; |
| emitLoadCharacterString(regT0, regT0, failures); |
| addSlowCase(failures); |
| addJump(branch32(condition, regT0, Imm32(asString(getConstantOperand(op2))->tryGetValue(disallowAllocation)[0])), target); |
| return; |
| } |
| if (isOperandConstantInt(op2)) { |
| emitGetVirtualRegister(op1, regT0); |
| emitJumpSlowCaseIfNotInt(regT0); |
| int32_t op2imm = getOperandConstantInt(op2); |
| addJump(branch32(condition, regT0, Imm32(op2imm)), target); |
| return; |
| } |
| if (isOperandConstantInt(op1)) { |
| emitGetVirtualRegister(op2, regT1); |
| emitJumpSlowCaseIfNotInt(regT1); |
| int32_t op1imm = getOperandConstantInt(op1); |
| addJump(branch32(commute(condition), regT1, Imm32(op1imm)), target); |
| return; |
| } |
| |
| emitGetVirtualRegisters(op1, regT0, op2, regT1); |
| emitJumpSlowCaseIfNotInt(regT0); |
| emitJumpSlowCaseIfNotInt(regT1); |
| |
| addJump(branch32(condition, regT0, regT1), target); |
| } |
| |
| template<typename Op> |
| void JIT::emit_compareUnsignedAndJump(const Instruction* instruction, RelationalCondition condition) |
| { |
| auto bytecode = instruction->as<Op>(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| unsigned target = jumpTarget(instruction, bytecode.m_targetLabel); |
| if (isOperandConstantInt(op2)) { |
| emitGetVirtualRegister(op1, regT0); |
| int32_t op2imm = getOperandConstantInt(op2); |
| addJump(branch32(condition, regT0, Imm32(op2imm)), target); |
| } else if (isOperandConstantInt(op1)) { |
| emitGetVirtualRegister(op2, regT1); |
| int32_t op1imm = getOperandConstantInt(op1); |
| addJump(branch32(commute(condition), regT1, Imm32(op1imm)), target); |
| } else { |
| emitGetVirtualRegisters(op1, regT0, op2, regT1); |
| addJump(branch32(condition, regT0, regT1), target); |
| } |
| } |
| |
| template<typename Op> |
| void JIT::emit_compareUnsigned(const Instruction* instruction, RelationalCondition condition) |
| { |
| auto bytecode = instruction->as<Op>(); |
| int dst = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| if (isOperandConstantInt(op2)) { |
| emitGetVirtualRegister(op1, regT0); |
| int32_t op2imm = getOperandConstantInt(op2); |
| compare32(condition, regT0, Imm32(op2imm), regT0); |
| } else if (isOperandConstantInt(op1)) { |
| emitGetVirtualRegister(op2, regT0); |
| int32_t op1imm = getOperandConstantInt(op1); |
| compare32(commute(condition), regT0, Imm32(op1imm), regT0); |
| } else { |
| emitGetVirtualRegisters(op1, regT0, op2, regT1); |
| compare32(condition, regT0, regT1, regT0); |
| } |
| boxBoolean(regT0, JSValueRegs { regT0 }); |
| emitPutVirtualRegister(dst); |
| } |
| |
| template<typename Op> |
| void JIT::emit_compareAndJumpSlow(const Instruction* instruction, DoubleCondition condition, size_t (JIT_OPERATION *operation)(ExecState*, EncodedJSValue, EncodedJSValue), bool invert, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| auto bytecode = instruction->as<Op>(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| unsigned target = jumpTarget(instruction, bytecode.m_targetLabel); |
| |
| // We generate inline code for the following cases in the slow path: |
| // - floating-point number to constant int immediate |
| // - constant int immediate to floating-point number |
| // - floating-point number to floating-point number. |
| if (isOperandConstantChar(op1) || isOperandConstantChar(op2)) { |
| linkAllSlowCases(iter); |
| |
| emitGetVirtualRegister(op1, argumentGPR0); |
| emitGetVirtualRegister(op2, argumentGPR1); |
| callOperation(operation, argumentGPR0, argumentGPR1); |
| emitJumpSlowToHot(branchTest32(invert ? Zero : NonZero, returnValueGPR), target); |
| return; |
| } |
| |
| if (isOperandConstantInt(op2)) { |
| linkAllSlowCases(iter); |
| |
| if (supportsFloatingPoint()) { |
| Jump fail1 = branchIfNotNumber(regT0); |
| add64(numberTagRegister, regT0); |
| move64ToDouble(regT0, fpRegT0); |
| |
| int32_t op2imm = getConstantOperand(op2).asInt32(); |
| |
| move(Imm32(op2imm), regT1); |
| convertInt32ToDouble(regT1, fpRegT1); |
| |
| emitJumpSlowToHot(branchDouble(condition, fpRegT0, fpRegT1), target); |
| |
| emitJumpSlowToHot(jump(), instruction->size()); |
| |
| fail1.link(this); |
| } |
| |
| emitGetVirtualRegister(op2, regT1); |
| callOperation(operation, regT0, regT1); |
| emitJumpSlowToHot(branchTest32(invert ? Zero : NonZero, returnValueGPR), target); |
| return; |
| } |
| |
| if (isOperandConstantInt(op1)) { |
| linkAllSlowCases(iter); |
| |
| if (supportsFloatingPoint()) { |
| Jump fail1 = branchIfNotNumber(regT1); |
| add64(numberTagRegister, regT1); |
| move64ToDouble(regT1, fpRegT1); |
| |
| int32_t op1imm = getConstantOperand(op1).asInt32(); |
| |
| move(Imm32(op1imm), regT0); |
| convertInt32ToDouble(regT0, fpRegT0); |
| |
| emitJumpSlowToHot(branchDouble(condition, fpRegT0, fpRegT1), target); |
| |
| emitJumpSlowToHot(jump(), instruction->size()); |
| |
| fail1.link(this); |
| } |
| |
| emitGetVirtualRegister(op1, regT2); |
| callOperation(operation, regT2, regT1); |
| emitJumpSlowToHot(branchTest32(invert ? Zero : NonZero, returnValueGPR), target); |
| return; |
| } |
| |
| linkSlowCase(iter); // LHS is not Int. |
| |
| if (supportsFloatingPoint()) { |
| Jump fail1 = branchIfNotNumber(regT0); |
| Jump fail2 = branchIfNotNumber(regT1); |
| Jump fail3 = branchIfInt32(regT1); |
| add64(numberTagRegister, regT0); |
| add64(numberTagRegister, regT1); |
| move64ToDouble(regT0, fpRegT0); |
| move64ToDouble(regT1, fpRegT1); |
| |
| emitJumpSlowToHot(branchDouble(condition, fpRegT0, fpRegT1), target); |
| |
| emitJumpSlowToHot(jump(), instruction->size()); |
| |
| fail1.link(this); |
| fail2.link(this); |
| fail3.link(this); |
| } |
| |
| linkSlowCase(iter); // RHS is not Int. |
| callOperation(operation, regT0, regT1); |
| emitJumpSlowToHot(branchTest32(invert ? Zero : NonZero, returnValueGPR), target); |
| } |
| |
| void JIT::emit_op_inc(const Instruction* currentInstruction) |
| { |
| auto bytecode = currentInstruction->as<OpInc>(); |
| int srcDst = bytecode.m_srcDst.offset(); |
| |
| emitGetVirtualRegister(srcDst, regT0); |
| emitJumpSlowCaseIfNotInt(regT0); |
| addSlowCase(branchAdd32(Overflow, TrustedImm32(1), regT0)); |
| boxInt32(regT0, JSValueRegs { regT0 }); |
| emitPutVirtualRegister(srcDst); |
| } |
| |
| void JIT::emit_op_dec(const Instruction* currentInstruction) |
| { |
| auto bytecode = currentInstruction->as<OpDec>(); |
| int srcDst = bytecode.m_srcDst.offset(); |
| |
| emitGetVirtualRegister(srcDst, regT0); |
| emitJumpSlowCaseIfNotInt(regT0); |
| addSlowCase(branchSub32(Overflow, TrustedImm32(1), regT0)); |
| boxInt32(regT0, JSValueRegs { regT0 }); |
| emitPutVirtualRegister(srcDst); |
| } |
| |
| /* ------------------------------ BEGIN: OP_MOD ------------------------------ */ |
| |
| #if CPU(X86_64) |
| |
| void JIT::emit_op_mod(const Instruction* currentInstruction) |
| { |
| auto bytecode = currentInstruction->as<OpMod>(); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| |
| // Make sure registers are correct for x86 IDIV instructions. |
| ASSERT(regT0 == X86Registers::eax); |
| auto edx = X86Registers::edx; |
| auto ecx = X86Registers::ecx; |
| ASSERT(regT4 != edx); |
| ASSERT(regT4 != ecx); |
| |
| emitGetVirtualRegisters(op1, regT4, op2, ecx); |
| emitJumpSlowCaseIfNotInt(regT4); |
| emitJumpSlowCaseIfNotInt(ecx); |
| |
| move(regT4, regT0); |
| addSlowCase(branchTest32(Zero, ecx)); |
| Jump denominatorNotNeg1 = branch32(NotEqual, ecx, TrustedImm32(-1)); |
| addSlowCase(branch32(Equal, regT0, TrustedImm32(-2147483647-1))); |
| denominatorNotNeg1.link(this); |
| x86ConvertToDoubleWord32(); |
| x86Div32(ecx); |
| Jump numeratorPositive = branch32(GreaterThanOrEqual, regT4, TrustedImm32(0)); |
| addSlowCase(branchTest32(Zero, edx)); |
| numeratorPositive.link(this); |
| boxInt32(edx, JSValueRegs { regT0 }); |
| emitPutVirtualRegister(result); |
| } |
| |
| void JIT::emitSlow_op_mod(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| linkAllSlowCases(iter); |
| |
| JITSlowPathCall slowPathCall(this, currentInstruction, slow_path_mod); |
| slowPathCall.call(); |
| } |
| |
| #else // CPU(X86_64) |
| |
| void JIT::emit_op_mod(const Instruction* currentInstruction) |
| { |
| JITSlowPathCall slowPathCall(this, currentInstruction, slow_path_mod); |
| slowPathCall.call(); |
| } |
| |
| void JIT::emitSlow_op_mod(const Instruction*, Vector<SlowCaseEntry>::iterator&) |
| { |
| UNREACHABLE_FOR_PLATFORM(); |
| } |
| |
| #endif // CPU(X86_64) |
| |
| /* ------------------------------ END: OP_MOD ------------------------------ */ |
| |
| #endif // USE(JSVALUE64) |
| |
| void JIT::emit_op_negate(const Instruction* currentInstruction) |
| { |
| UnaryArithProfile* arithProfile = ¤tInstruction->as<OpNegate>().metadata(m_codeBlock).m_arithProfile; |
| JITNegIC* negateIC = m_codeBlock->addJITNegIC(arithProfile); |
| m_instructionToMathIC.add(currentInstruction, negateIC); |
| emitMathICFast<OpNegate>(negateIC, currentInstruction, operationArithNegateProfiled, operationArithNegate); |
| } |
| |
| void JIT::emitSlow_op_negate(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| linkAllSlowCases(iter); |
| |
| JITNegIC* negIC = bitwise_cast<JITNegIC*>(m_instructionToMathIC.get(currentInstruction)); |
| emitMathICSlow<OpNegate>(negIC, currentInstruction, operationArithNegateProfiledOptimize, operationArithNegateProfiled, operationArithNegateOptimize); |
| } |
| |
| template<typename Op, typename SnippetGenerator> |
| void JIT::emitBitBinaryOpFastPath(const Instruction* currentInstruction, ProfilingPolicy profilingPolicy) |
| { |
| auto bytecode = currentInstruction->as<Op>(); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs leftRegs = JSValueRegs(regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT1); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT2; |
| #else |
| JSValueRegs leftRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT3, regT2); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT4; |
| #endif |
| |
| SnippetOperand leftOperand; |
| SnippetOperand rightOperand; |
| |
| if (isOperandConstantInt(op1)) |
| leftOperand.setConstInt32(getOperandConstantInt(op1)); |
| else if (isOperandConstantInt(op2)) |
| rightOperand.setConstInt32(getOperandConstantInt(op2)); |
| |
| RELEASE_ASSERT(!leftOperand.isConst() || !rightOperand.isConst()); |
| |
| if (!leftOperand.isConst()) |
| emitGetVirtualRegister(op1, leftRegs); |
| if (!rightOperand.isConst()) |
| emitGetVirtualRegister(op2, rightRegs); |
| |
| SnippetGenerator gen(leftOperand, rightOperand, resultRegs, leftRegs, rightRegs, scratchGPR); |
| |
| gen.generateFastPath(*this); |
| |
| ASSERT(gen.didEmitFastPath()); |
| gen.endJumpList().link(this); |
| if (profilingPolicy == ProfilingPolicy::ShouldEmitProfiling) |
| emitValueProfilingSiteIfProfiledOpcode(bytecode); |
| emitPutVirtualRegister(result, resultRegs); |
| |
| addSlowCase(gen.slowPathJumpList()); |
| } |
| |
| void JIT::emit_op_bitnot(const Instruction* currentInstruction) |
| { |
| auto bytecode = currentInstruction->as<OpBitnot>(); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_operand.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs leftRegs = JSValueRegs(regT0); |
| #else |
| JSValueRegs leftRegs = JSValueRegs(regT1, regT0); |
| #endif |
| |
| emitGetVirtualRegister(op1, leftRegs); |
| |
| addSlowCase(branchIfNotInt32(leftRegs)); |
| not32(leftRegs.payloadGPR()); |
| #if USE(JSVALUE64) |
| boxInt32(leftRegs.payloadGPR(), leftRegs); |
| #endif |
| |
| emitValueProfilingSiteIfProfiledOpcode(bytecode); |
| |
| emitPutVirtualRegister(result, leftRegs); |
| } |
| |
| void JIT::emit_op_bitand(const Instruction* currentInstruction) |
| { |
| emitBitBinaryOpFastPath<OpBitand, JITBitAndGenerator>(currentInstruction, ProfilingPolicy::ShouldEmitProfiling); |
| } |
| |
| void JIT::emit_op_bitor(const Instruction* currentInstruction) |
| { |
| emitBitBinaryOpFastPath<OpBitor, JITBitOrGenerator>(currentInstruction, ProfilingPolicy::ShouldEmitProfiling); |
| } |
| |
| void JIT::emit_op_bitxor(const Instruction* currentInstruction) |
| { |
| emitBitBinaryOpFastPath<OpBitxor, JITBitXorGenerator>(currentInstruction, ProfilingPolicy::ShouldEmitProfiling); |
| } |
| |
| void JIT::emit_op_lshift(const Instruction* currentInstruction) |
| { |
| emitBitBinaryOpFastPath<OpLshift, JITLeftShiftGenerator>(currentInstruction); |
| } |
| |
| void JIT::emitRightShiftFastPath(const Instruction* currentInstruction, OpcodeID opcodeID) |
| { |
| ASSERT(opcodeID == op_rshift || opcodeID == op_urshift); |
| switch (opcodeID) { |
| case op_rshift: |
| emitRightShiftFastPath<OpRshift>(currentInstruction, JITRightShiftGenerator::SignedShift); |
| break; |
| case op_urshift: |
| emitRightShiftFastPath<OpUrshift>(currentInstruction, JITRightShiftGenerator::UnsignedShift); |
| break; |
| default: |
| ASSERT_NOT_REACHED(); |
| } |
| } |
| |
| template<typename Op> |
| void JIT::emitRightShiftFastPath(const Instruction* currentInstruction, JITRightShiftGenerator::ShiftType snippetShiftType) |
| { |
| auto bytecode = currentInstruction->as<Op>(); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs leftRegs = JSValueRegs(regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT1); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT2; |
| FPRReg scratchFPR = InvalidFPRReg; |
| #else |
| JSValueRegs leftRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT3, regT2); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT4; |
| FPRReg scratchFPR = fpRegT2; |
| #endif |
| |
| SnippetOperand leftOperand; |
| SnippetOperand rightOperand; |
| |
| if (isOperandConstantInt(op1)) |
| leftOperand.setConstInt32(getOperandConstantInt(op1)); |
| else if (isOperandConstantInt(op2)) |
| rightOperand.setConstInt32(getOperandConstantInt(op2)); |
| |
| RELEASE_ASSERT(!leftOperand.isConst() || !rightOperand.isConst()); |
| |
| if (!leftOperand.isConst()) |
| emitGetVirtualRegister(op1, leftRegs); |
| if (!rightOperand.isConst()) |
| emitGetVirtualRegister(op2, rightRegs); |
| |
| JITRightShiftGenerator gen(leftOperand, rightOperand, resultRegs, leftRegs, rightRegs, |
| fpRegT0, scratchGPR, scratchFPR, snippetShiftType); |
| |
| gen.generateFastPath(*this); |
| |
| ASSERT(gen.didEmitFastPath()); |
| gen.endJumpList().link(this); |
| emitPutVirtualRegister(result, resultRegs); |
| |
| addSlowCase(gen.slowPathJumpList()); |
| } |
| |
| void JIT::emit_op_rshift(const Instruction* currentInstruction) |
| { |
| emitRightShiftFastPath(currentInstruction, op_rshift); |
| } |
| |
| void JIT::emit_op_urshift(const Instruction* currentInstruction) |
| { |
| emitRightShiftFastPath(currentInstruction, op_urshift); |
| } |
| |
| void JIT::emit_op_add(const Instruction* currentInstruction) |
| { |
| BinaryArithProfile* arithProfile = ¤tInstruction->as<OpAdd>().metadata(m_codeBlock).m_arithProfile; |
| JITAddIC* addIC = m_codeBlock->addJITAddIC(arithProfile); |
| m_instructionToMathIC.add(currentInstruction, addIC); |
| emitMathICFast<OpAdd>(addIC, currentInstruction, operationValueAddProfiled, operationValueAdd); |
| } |
| |
| void JIT::emitSlow_op_add(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| linkAllSlowCases(iter); |
| |
| JITAddIC* addIC = bitwise_cast<JITAddIC*>(m_instructionToMathIC.get(currentInstruction)); |
| emitMathICSlow<OpAdd>(addIC, currentInstruction, operationValueAddProfiledOptimize, operationValueAddProfiled, operationValueAddOptimize); |
| } |
| |
| template <typename Op, typename Generator, typename ProfiledFunction, typename NonProfiledFunction> |
| void JIT::emitMathICFast(JITUnaryMathIC<Generator>* mathIC, const Instruction* currentInstruction, ProfiledFunction profiledFunction, NonProfiledFunction nonProfiledFunction) |
| { |
| auto bytecode = currentInstruction->as<Op>(); |
| int result = bytecode.m_dst.offset(); |
| int operand = bytecode.m_operand.offset(); |
| |
| #if USE(JSVALUE64) |
| // ArithNegate benefits from using the same register as src and dst. |
| // Since regT1==argumentGPR1, using regT1 avoid shuffling register to call the slow path. |
| JSValueRegs srcRegs = JSValueRegs(regT1); |
| JSValueRegs resultRegs = JSValueRegs(regT1); |
| GPRReg scratchGPR = regT2; |
| #else |
| JSValueRegs srcRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs resultRegs = JSValueRegs(regT3, regT2); |
| GPRReg scratchGPR = regT4; |
| #endif |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto inlineStart = label(); |
| #endif |
| |
| mathIC->m_generator = Generator(resultRegs, srcRegs, scratchGPR); |
| |
| emitGetVirtualRegister(operand, srcRegs); |
| |
| MathICGenerationState& mathICGenerationState = m_instructionToMathICGenerationState.add(currentInstruction, MathICGenerationState()).iterator->value; |
| |
| bool generatedInlineCode = mathIC->generateInline(*this, mathICGenerationState); |
| if (!generatedInlineCode) { |
| UnaryArithProfile* arithProfile = mathIC->arithProfile(); |
| if (arithProfile && shouldEmitProfiling()) |
| callOperationWithResult(profiledFunction, resultRegs, srcRegs, arithProfile); |
| else |
| callOperationWithResult(nonProfiledFunction, resultRegs, srcRegs); |
| } else |
| addSlowCase(mathICGenerationState.slowPathJumps); |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto inlineEnd = label(); |
| addLinkTask([=] (LinkBuffer& linkBuffer) { |
| size_t size = linkBuffer.locationOf(inlineEnd).executableAddress<char*>() - linkBuffer.locationOf(inlineStart).executableAddress<char*>(); |
| mathIC->m_generatedCodeSize += size; |
| }); |
| #endif |
| |
| emitPutVirtualRegister(result, resultRegs); |
| } |
| |
| template <typename Op, typename Generator, typename ProfiledFunction, typename NonProfiledFunction> |
| void JIT::emitMathICFast(JITBinaryMathIC<Generator>* mathIC, const Instruction* currentInstruction, ProfiledFunction profiledFunction, NonProfiledFunction nonProfiledFunction) |
| { |
| auto bytecode = currentInstruction->as<Op>(); |
| BinaryArithProfile arithProfile = copiedArithProfile(bytecode); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs leftRegs = JSValueRegs(regT1); |
| JSValueRegs rightRegs = JSValueRegs(regT2); |
| JSValueRegs resultRegs = JSValueRegs(regT0); |
| GPRReg scratchGPR = regT3; |
| FPRReg scratchFPR = fpRegT2; |
| #else |
| JSValueRegs leftRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT3, regT2); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT4; |
| FPRReg scratchFPR = fpRegT2; |
| #endif |
| |
| SnippetOperand leftOperand(arithProfile.lhsResultType()); |
| SnippetOperand rightOperand(arithProfile.rhsResultType()); |
| |
| if (isOperandConstantInt(op1)) |
| leftOperand.setConstInt32(getOperandConstantInt(op1)); |
| else if (isOperandConstantInt(op2)) |
| rightOperand.setConstInt32(getOperandConstantInt(op2)); |
| |
| RELEASE_ASSERT(!leftOperand.isConst() || !rightOperand.isConst()); |
| |
| mathIC->m_generator = Generator(leftOperand, rightOperand, resultRegs, leftRegs, rightRegs, fpRegT0, fpRegT1, scratchGPR, scratchFPR); |
| |
| ASSERT(!(Generator::isLeftOperandValidConstant(leftOperand) && Generator::isRightOperandValidConstant(rightOperand))); |
| |
| if (!Generator::isLeftOperandValidConstant(leftOperand)) |
| emitGetVirtualRegister(op1, leftRegs); |
| if (!Generator::isRightOperandValidConstant(rightOperand)) |
| emitGetVirtualRegister(op2, rightRegs); |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto inlineStart = label(); |
| #endif |
| |
| MathICGenerationState& mathICGenerationState = m_instructionToMathICGenerationState.add(currentInstruction, MathICGenerationState()).iterator->value; |
| |
| bool generatedInlineCode = mathIC->generateInline(*this, mathICGenerationState); |
| if (!generatedInlineCode) { |
| if (leftOperand.isConst()) |
| emitGetVirtualRegister(op1, leftRegs); |
| else if (rightOperand.isConst()) |
| emitGetVirtualRegister(op2, rightRegs); |
| BinaryArithProfile* arithProfile = mathIC->arithProfile(); |
| if (arithProfile && shouldEmitProfiling()) |
| callOperationWithResult(profiledFunction, resultRegs, leftRegs, rightRegs, arithProfile); |
| else |
| callOperationWithResult(nonProfiledFunction, resultRegs, leftRegs, rightRegs); |
| } else |
| addSlowCase(mathICGenerationState.slowPathJumps); |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto inlineEnd = label(); |
| addLinkTask([=] (LinkBuffer& linkBuffer) { |
| size_t size = linkBuffer.locationOf(inlineEnd).executableAddress<char*>() - linkBuffer.locationOf(inlineStart).executableAddress<char*>(); |
| mathIC->m_generatedCodeSize += size; |
| }); |
| #endif |
| |
| emitPutVirtualRegister(result, resultRegs); |
| } |
| |
| template <typename Op, typename Generator, typename ProfiledRepatchFunction, typename ProfiledFunction, typename RepatchFunction> |
| void JIT::emitMathICSlow(JITUnaryMathIC<Generator>* mathIC, const Instruction* currentInstruction, ProfiledRepatchFunction profiledRepatchFunction, ProfiledFunction profiledFunction, RepatchFunction repatchFunction) |
| { |
| MathICGenerationState& mathICGenerationState = m_instructionToMathICGenerationState.find(currentInstruction)->value; |
| mathICGenerationState.slowPathStart = label(); |
| |
| auto bytecode = currentInstruction->as<Op>(); |
| int result = bytecode.m_dst.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs srcRegs = JSValueRegs(regT1); |
| JSValueRegs resultRegs = JSValueRegs(regT0); |
| #else |
| JSValueRegs srcRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs resultRegs = JSValueRegs(regT3, regT2); |
| #endif |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto slowPathStart = label(); |
| #endif |
| |
| UnaryArithProfile* arithProfile = mathIC->arithProfile(); |
| if (arithProfile && shouldEmitProfiling()) { |
| if (mathICGenerationState.shouldSlowPathRepatch) |
| mathICGenerationState.slowPathCall = callOperationWithResult(reinterpret_cast<J_JITOperation_EJMic>(profiledRepatchFunction), resultRegs, srcRegs, TrustedImmPtr(mathIC)); |
| else |
| mathICGenerationState.slowPathCall = callOperationWithResult(profiledFunction, resultRegs, srcRegs, arithProfile); |
| } else |
| mathICGenerationState.slowPathCall = callOperationWithResult(reinterpret_cast<J_JITOperation_EJMic>(repatchFunction), resultRegs, srcRegs, TrustedImmPtr(mathIC)); |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto slowPathEnd = label(); |
| addLinkTask([=] (LinkBuffer& linkBuffer) { |
| size_t size = linkBuffer.locationOf(slowPathEnd).executableAddress<char*>() - linkBuffer.locationOf(slowPathStart).executableAddress<char*>(); |
| mathIC->m_generatedCodeSize += size; |
| }); |
| #endif |
| |
| emitPutVirtualRegister(result, resultRegs); |
| |
| addLinkTask([=] (LinkBuffer& linkBuffer) { |
| MathICGenerationState& mathICGenerationState = m_instructionToMathICGenerationState.find(currentInstruction)->value; |
| mathIC->finalizeInlineCode(mathICGenerationState, linkBuffer); |
| }); |
| } |
| |
| template <typename Op, typename Generator, typename ProfiledRepatchFunction, typename ProfiledFunction, typename RepatchFunction> |
| void JIT::emitMathICSlow(JITBinaryMathIC<Generator>* mathIC, const Instruction* currentInstruction, ProfiledRepatchFunction profiledRepatchFunction, ProfiledFunction profiledFunction, RepatchFunction repatchFunction) |
| { |
| MathICGenerationState& mathICGenerationState = m_instructionToMathICGenerationState.find(currentInstruction)->value; |
| mathICGenerationState.slowPathStart = label(); |
| |
| auto bytecode = currentInstruction->as<Op>(); |
| BinaryArithProfile consistentArithProfile = copiedArithProfile(bytecode); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs leftRegs = JSValueRegs(regT1); |
| JSValueRegs rightRegs = JSValueRegs(regT2); |
| JSValueRegs resultRegs = JSValueRegs(regT0); |
| #else |
| JSValueRegs leftRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT3, regT2); |
| JSValueRegs resultRegs = leftRegs; |
| #endif |
| |
| SnippetOperand leftOperand(consistentArithProfile.lhsResultType()); |
| SnippetOperand rightOperand(consistentArithProfile.rhsResultType()); |
| |
| if (isOperandConstantInt(op1)) |
| leftOperand.setConstInt32(getOperandConstantInt(op1)); |
| else if (isOperandConstantInt(op2)) |
| rightOperand.setConstInt32(getOperandConstantInt(op2)); |
| |
| ASSERT(!(Generator::isLeftOperandValidConstant(leftOperand) && Generator::isRightOperandValidConstant(rightOperand))); |
| |
| if (Generator::isLeftOperandValidConstant(leftOperand)) |
| emitGetVirtualRegister(op1, leftRegs); |
| else if (Generator::isRightOperandValidConstant(rightOperand)) |
| emitGetVirtualRegister(op2, rightRegs); |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto slowPathStart = label(); |
| #endif |
| |
| BinaryArithProfile* arithProfile = mathIC->arithProfile(); |
| if (arithProfile && shouldEmitProfiling()) { |
| if (mathICGenerationState.shouldSlowPathRepatch) |
| mathICGenerationState.slowPathCall = callOperationWithResult(bitwise_cast<J_JITOperation_EJJMic>(profiledRepatchFunction), resultRegs, leftRegs, rightRegs, TrustedImmPtr(mathIC)); |
| else |
| mathICGenerationState.slowPathCall = callOperationWithResult(profiledFunction, resultRegs, leftRegs, rightRegs, arithProfile); |
| } else |
| mathICGenerationState.slowPathCall = callOperationWithResult(bitwise_cast<J_JITOperation_EJJMic>(repatchFunction), resultRegs, leftRegs, rightRegs, TrustedImmPtr(mathIC)); |
| |
| #if ENABLE(MATH_IC_STATS) |
| auto slowPathEnd = label(); |
| addLinkTask([=] (LinkBuffer& linkBuffer) { |
| size_t size = linkBuffer.locationOf(slowPathEnd).executableAddress<char*>() - linkBuffer.locationOf(slowPathStart).executableAddress<char*>(); |
| mathIC->m_generatedCodeSize += size; |
| }); |
| #endif |
| |
| emitPutVirtualRegister(result, resultRegs); |
| |
| addLinkTask([=] (LinkBuffer& linkBuffer) { |
| MathICGenerationState& mathICGenerationState = m_instructionToMathICGenerationState.find(currentInstruction)->value; |
| mathIC->finalizeInlineCode(mathICGenerationState, linkBuffer); |
| }); |
| } |
| |
| void JIT::emit_op_div(const Instruction* currentInstruction) |
| { |
| auto bytecode = currentInstruction->as<OpDiv>(); |
| BinaryArithProfile consistentArithProfile = copiedArithProfile(bytecode); |
| int result = bytecode.m_dst.offset(); |
| int op1 = bytecode.m_lhs.offset(); |
| int op2 = bytecode.m_rhs.offset(); |
| |
| #if USE(JSVALUE64) |
| JSValueRegs leftRegs = JSValueRegs(regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT1); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT2; |
| #else |
| JSValueRegs leftRegs = JSValueRegs(regT1, regT0); |
| JSValueRegs rightRegs = JSValueRegs(regT3, regT2); |
| JSValueRegs resultRegs = leftRegs; |
| GPRReg scratchGPR = regT4; |
| #endif |
| FPRReg scratchFPR = fpRegT2; |
| |
| BinaryArithProfile* arithProfile = nullptr; |
| if (shouldEmitProfiling()) |
| arithProfile = ¤tInstruction->as<OpDiv>().metadata(m_codeBlock).m_arithProfile; |
| |
| SnippetOperand leftOperand(consistentArithProfile.lhsResultType()); |
| SnippetOperand rightOperand(consistentArithProfile.rhsResultType()); |
| |
| if (isOperandConstantInt(op1)) |
| leftOperand.setConstInt32(getOperandConstantInt(op1)); |
| #if USE(JSVALUE64) |
| else if (isOperandConstantDouble(op1)) |
| leftOperand.setConstDouble(getOperandConstantDouble(op1)); |
| #endif |
| else if (isOperandConstantInt(op2)) |
| rightOperand.setConstInt32(getOperandConstantInt(op2)); |
| #if USE(JSVALUE64) |
| else if (isOperandConstantDouble(op2)) |
| rightOperand.setConstDouble(getOperandConstantDouble(op2)); |
| #endif |
| |
| RELEASE_ASSERT(!leftOperand.isConst() || !rightOperand.isConst()); |
| |
| if (!leftOperand.isConst()) |
| emitGetVirtualRegister(op1, leftRegs); |
| if (!rightOperand.isConst()) |
| emitGetVirtualRegister(op2, rightRegs); |
| |
| JITDivGenerator gen(leftOperand, rightOperand, resultRegs, leftRegs, rightRegs, |
| fpRegT0, fpRegT1, scratchGPR, scratchFPR, arithProfile); |
| |
| gen.generateFastPath(*this); |
| |
| if (gen.didEmitFastPath()) { |
| gen.endJumpList().link(this); |
| emitPutVirtualRegister(result, resultRegs); |
| |
| addSlowCase(gen.slowPathJumpList()); |
| } else { |
| ASSERT(gen.endJumpList().empty()); |
| ASSERT(gen.slowPathJumpList().empty()); |
| JITSlowPathCall slowPathCall(this, currentInstruction, slow_path_div); |
| slowPathCall.call(); |
| } |
| } |
| |
| void JIT::emit_op_mul(const Instruction* currentInstruction) |
| { |
| BinaryArithProfile* arithProfile = ¤tInstruction->as<OpMul>().metadata(m_codeBlock).m_arithProfile; |
| JITMulIC* mulIC = m_codeBlock->addJITMulIC(arithProfile); |
| m_instructionToMathIC.add(currentInstruction, mulIC); |
| emitMathICFast<OpMul>(mulIC, currentInstruction, operationValueMulProfiled, operationValueMul); |
| } |
| |
| void JIT::emitSlow_op_mul(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| linkAllSlowCases(iter); |
| |
| JITMulIC* mulIC = bitwise_cast<JITMulIC*>(m_instructionToMathIC.get(currentInstruction)); |
| emitMathICSlow<OpMul>(mulIC, currentInstruction, operationValueMulProfiledOptimize, operationValueMulProfiled, operationValueMulOptimize); |
| } |
| |
| void JIT::emit_op_sub(const Instruction* currentInstruction) |
| { |
| BinaryArithProfile* arithProfile = ¤tInstruction->as<OpSub>().metadata(m_codeBlock).m_arithProfile; |
| JITSubIC* subIC = m_codeBlock->addJITSubIC(arithProfile); |
| m_instructionToMathIC.add(currentInstruction, subIC); |
| emitMathICFast<OpSub>(subIC, currentInstruction, operationValueSubProfiled, operationValueSub); |
| } |
| |
| void JIT::emitSlow_op_sub(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter) |
| { |
| linkAllSlowCases(iter); |
| |
| JITSubIC* subIC = bitwise_cast<JITSubIC*>(m_instructionToMathIC.get(currentInstruction)); |
| emitMathICSlow<OpSub>(subIC, currentInstruction, operationValueSubProfiledOptimize, operationValueSubProfiled, operationValueSubOptimize); |
| } |
| |
| /* ------------------------------ END: OP_ADD, OP_SUB, OP_MUL, OP_POW ------------------------------ */ |
| |
| } // namespace JSC |
| |
| #endif // ENABLE(JIT) |