# Copyright (C) 2011, 2012, 2013, 2014 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. AND ITS CONTRIBUTORS ``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 ITS 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. # Crash course on the language that this is written in (which I just call # "assembly" even though it's more than that): # # - Mostly gas-style operand ordering. The last operand tends to be the # destination. So "a := b" is written as "mov b, a". But unlike gas, # comparisons are in-order, so "if (a < b)" is written as # "bilt a, b, ...". # # - "b" = byte, "h" = 16-bit word, "i" = 32-bit word, "p" = pointer. # Currently this is just 32-bit so "i" and "p" are interchangeable # except when an op supports one but not the other. # # - In general, valid operands for macro invocations and instructions are # registers (eg "t0"), addresses (eg "4[t0]"), base-index addresses # (eg "7[t0, t1, 2]"), absolute addresses (eg "0xa0000000[]"), or labels # (eg "_foo" or ".foo"). Macro invocations can also take anonymous # macros as operands. Instructions cannot take anonymous macros. # # - Labels must have names that begin with either "_" or ".". A "." label # is local and gets renamed before code gen to minimize namespace # pollution. A "_" label is an extern symbol (i.e. ".globl"). The "_" # may or may not be removed during code gen depending on whether the asm # conventions for C name mangling on the target platform mandate a "_" # prefix. # # - A "macro" is a lambda expression, which may be either anonymous or # named. But this has caveats. "macro" can take zero or more arguments, # which may be macros or any valid operands, but it can only return # code. But you can do Turing-complete things via continuation passing # style: "macro foo (a, b) b(a) end foo(foo, foo)". Actually, don't do # that, since you'll just crash the assembler. # # - An "if" is a conditional on settings. Any identifier supplied in the # predicate of an "if" is assumed to be a #define that is available # during code gen. So you can't use "if" for computation in a macro, but # you can use it to select different pieces of code for different # platforms. # # - Arguments to macros follow lexical scoping rather than dynamic scoping. # Const's also follow lexical scoping and may override (hide) arguments # or other consts. All variables (arguments and constants) can be bound # to operands. Additionally, arguments (but not constants) can be bound # to macros. # Below we have a bunch of constant declarations. Each constant must have # a corresponding ASSERT() in LLIntData.cpp. # Utilities macro dispatch(advance) addp advance * 4, PC jmp [PC] end macro dispatchBranchWithOffset(pcOffset) lshifti 2, pcOffset addp pcOffset, PC jmp [PC] end macro dispatchBranch(pcOffset) loadi pcOffset, t0 dispatchBranchWithOffset(t0) end macro dispatchAfterCall() loadi ArgumentCount + TagOffset[cfr], PC loadi 4[PC], t2 storei t1, TagOffset[cfr, t2, 8] storei t0, PayloadOffset[cfr, t2, 8] valueProfile(t1, t0, 4 * (CallOpCodeSize - 1), t3) dispatch(CallOpCodeSize) end macro cCall2(function, arg1, arg2) if ARM or ARMv7 or ARMv7_TRADITIONAL or MIPS move arg1, a0 move arg2, a1 call function elsif X86 or X86_WIN subp 8, sp push arg2 push arg1 call function addp 16, sp elsif SH4 setargs arg1, arg2 call function elsif C_LOOP cloopCallSlowPath function, arg1, arg2 else error end end macro cCall2Void(function, arg1, arg2) if C_LOOP cloopCallSlowPathVoid function, arg1, arg2 else cCall2(function, arg1, arg2) end end # This barely works. arg3 and arg4 should probably be immediates. macro cCall4(function, arg1, arg2, arg3, arg4) if ARM or ARMv7 or ARMv7_TRADITIONAL or MIPS move arg1, a0 move arg2, a1 move arg3, a2 move arg4, a3 call function elsif X86 or X86_WIN push arg4 push arg3 push arg2 push arg1 call function addp 16, sp elsif SH4 setargs arg1, arg2, arg3, arg4 call function elsif C_LOOP error else error end end macro callSlowPath(slowPath) cCall2(slowPath, cfr, PC) move t0, PC end macro doCallToJavaScript(makeCall) if X86 or X86_WIN const entry = t4 const vm = t3 const protoCallFrame = t5 const previousCFR = t0 const previousPC = t1 const temp1 = t0 # Same as previousCFR const temp2 = t1 # Same as previousPC const temp3 = t2 const temp4 = t3 # same as vm elsif ARM or ARMv7 or ARMv7_TRADITIONAL or C_LOOP const entry = a0 const vm = a1 const protoCallFrame = a2 const previousCFR = t3 const previousPC = lr const temp1 = t3 # Same as previousCFR const temp2 = t4 const temp3 = t5 const temp4 = t4 # Same as temp2 elsif MIPS const entry = a0 const vmTopCallFrame = a1 const protoCallFrame = a2 const topOfStack = a3 const previousCFR = t2 const previousPC = lr const temp1 = t3 const temp2 = t5 const temp3 = t4 const temp4 = t6 elsif SH4 const entry = a0 const vm = a1 const protoCallFrame = a2 const previousCFR = t3 const previousPC = lr const temp1 = t3 # Same as previousCFR const temp2 = a3 const temp3 = t8 const temp4 = t9 end callToJavaScriptPrologue() if X86 loadp 36[sp], vm loadp 32[sp], entry elsif X86_WIN loadp 40[sp, temp3], vm loadp 36[sp, temp3], entry else move cfr, previousCFR end checkStackPointerAlignment(temp2, 0xbad0dc01) # The stack reserved zone ensures that we have adequate space for the # VMEntrySentinelFrame. Proceed with allocating and initializing the # sentinel frame. move sp, cfr subp CallFrameHeaderSlots * 8, cfr storep 0, ArgumentCount[cfr] storep vm, Callee[cfr] loadp VM::topCallFrame[vm], temp2 storep temp2, ScopeChain[cfr] storep 1, CodeBlock[cfr] if X86 loadp 28[sp], previousPC loadp 24[sp], previousCFR elsif X86_WIN loadp 32[sp, temp3], previousPC loadp 28[sp, temp3], previousCFR end storep previousPC, ReturnPC[cfr] storep previousCFR, CallerFrame[cfr] if X86 loadp 40[sp], protoCallFrame elsif X86_WIN loadp 44[sp, temp3], protoCallFrame end loadi ProtoCallFrame::paddedArgCount[protoCallFrame], temp2 addp CallFrameHeaderSlots, temp2, temp2 lshiftp 3, temp2 subp cfr, temp2, temp1 # Ensure that we have enough additional stack capacity for the incoming args, # and the frame for the JS code we're executing. We need to do this check # before we start copying the args from the protoCallFrame below. bpaeq temp1, VM::m_jsStackLimit[vm], .stackHeightOK if ARMv7 subp cfr, 8, temp2 move temp2, sp else subp cfr, 8, sp end if C_LOOP move entry, temp2 move vm, temp3 cloopCallSlowPath _llint_stack_check_at_vm_entry, vm, temp1 bpeq t0, 0, .stackCheckFailed move temp2, entry move temp3, vm jmp .stackHeightOK .stackCheckFailed: move temp2, entry move temp3, vm end cCall2(_llint_throw_stack_overflow_error, vm, protoCallFrame) callToJavaScriptEpilogue() ret .stackHeightOK: move temp1, sp move 5, temp1 .copyHeaderLoop: subi 1, temp1 loadi TagOffset[protoCallFrame, temp1, 8], temp3 storei temp3, TagOffset + CodeBlock[sp, temp1, 8] loadi PayloadOffset[protoCallFrame, temp1, 8], temp3 storei temp3, PayloadOffset + CodeBlock[sp, temp1, 8] btinz temp1, .copyHeaderLoop loadi PayloadOffset + ProtoCallFrame::argCountAndCodeOriginValue[protoCallFrame], temp2 subi 1, temp2 loadi ProtoCallFrame::paddedArgCount[protoCallFrame], temp3 subi 1, temp3 bieq temp2, temp3, .copyArgs .fillExtraArgsLoop: subi 1, temp3 storei UndefinedTag, ThisArgumentOffset + 8 + TagOffset[sp, temp3, 8] storei 0, ThisArgumentOffset + 8 + PayloadOffset[sp, temp3, 8] bineq temp2, temp3, .fillExtraArgsLoop .copyArgs: loadp ProtoCallFrame::args[protoCallFrame], temp1 .copyArgsLoop: btiz temp2, .copyArgsDone subi 1, temp2 loadi TagOffset[temp1, temp2, 8], temp3 storei temp3, ThisArgumentOffset + 8 + TagOffset[sp, temp2, 8] loadi PayloadOffset[temp1, temp2, 8], temp3 storei temp3, ThisArgumentOffset + 8 + PayloadOffset[sp, temp2, 8] jmp .copyArgsLoop .copyArgsDone: storep sp, VM::topCallFrame[vm] makeCall(entry, temp1, temp2) bpeq CodeBlock[cfr], 1, .calleeFramePopped loadp CallerFrame[cfr], cfr .calleeFramePopped: loadp Callee[cfr], temp3 # VM loadp ScopeChain[cfr], temp4 # previous topCallFrame storep temp4, VM::topCallFrame[temp3] callToJavaScriptEpilogue() ret end macro makeJavaScriptCall(entry, temp, unused) addp CallerFrameAndPCSize, sp checkStackPointerAlignment(t2, 0xbad0dc02) if C_LOOP cloopCallJSFunction entry else call entry end checkStackPointerAlignment(t2, 0xbad0dc03) subp CallerFrameAndPCSize, sp end macro makeHostFunctionCall(entry, temp1, temp2) move entry, temp1 if C_LOOP move sp, a0 storep cfr, [sp] storep lr, PtrSize[sp] cloopCallNative temp1 else if X86 or X86_WIN # Put callee frame pointer on stack as arg0, also put it in ecx for "fastcall" targets move 0, temp2 move temp2, 4[sp] # put 0 in ReturnPC move cfr, [sp] # put caller frame pointer into callee frame since callee prologue can't move sp, t2 # t2 is ecx push temp2 # Push dummy arg1 push t2 else move sp, a0 addp CallerFrameAndPCSize, sp end call temp1 if X86 or X86_WIN addp 8, sp else subp CallerFrameAndPCSize, sp end end end _handleUncaughtException: loadp ScopeChain + PayloadOffset[cfr], t3 andp MarkedBlockMask, t3 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t3], t3 loadp VM::callFrameForThrow[t3], cfr # So far, we've unwound the stack to the frame just below the sentinel frame, except # in the case of stack overflow in the first function called from callToJavaScript. # Check if we need to pop to the sentinel frame and do the necessary clean up for # returning to the caller C frame. bpeq CodeBlock[cfr], 1, .handleUncaughtExceptionAlreadyIsSentinel loadp CallerFrame + PayloadOffset[cfr], cfr .handleUncaughtExceptionAlreadyIsSentinel: loadp Callee + PayloadOffset[cfr], t3 # VM loadp ScopeChain + PayloadOffset[cfr], t5 # previous topCallFrame storep t5, VM::topCallFrame[t3] callToJavaScriptEpilogue() ret macro doReturnFromHostFunction(extraStackSpace) functionEpilogue(extraStackSpace) ret end # Debugging operation if you'd like to print an operand in the instruction stream. fromWhere # should be an immediate integer - any integer you like; use it to identify the place you're # debugging from. operand should likewise be an immediate, and should identify the operand # in the instruction stream you'd like to print out. macro traceOperand(fromWhere, operand) cCall4(_llint_trace_operand, cfr, PC, fromWhere, operand) move t0, PC move t1, cfr end # Debugging operation if you'd like to print the value of an operand in the instruction # stream. Same as traceOperand(), but assumes that the operand is a register, and prints its # value. macro traceValue(fromWhere, operand) cCall4(_llint_trace_value, cfr, PC, fromWhere, operand) move t0, PC move t1, cfr end # Call a slowPath for call opcodes. macro callCallSlowPath(slowPath, action) storep PC, ArgumentCount + TagOffset[cfr] cCall2(slowPath, cfr, PC) action(t0) end macro callWatchdogTimerHandler(throwHandler) storei PC, ArgumentCount + TagOffset[cfr] cCall2(_llint_slow_path_handle_watchdog_timer, cfr, PC) btpnz t0, throwHandler loadi ArgumentCount + TagOffset[cfr], PC end macro checkSwitchToJITForLoop() checkSwitchToJIT( 1, macro () storei PC, ArgumentCount + TagOffset[cfr] cCall2(_llint_loop_osr, cfr, PC) btpz t0, .recover move t1, sp jmp t0 .recover: loadi ArgumentCount + TagOffset[cfr], PC end) end macro loadVariable(operand, index, tag, payload) loadisFromInstruction(operand, index) loadi TagOffset[cfr, index, 8], tag loadi PayloadOffset[cfr, index, 8], payload end # Index, tag, and payload must be different registers. Index is not # changed. macro loadConstantOrVariable(index, tag, payload) bigteq index, FirstConstantRegisterIndex, .constant loadi TagOffset[cfr, index, 8], tag loadi PayloadOffset[cfr, index, 8], payload jmp .done .constant: loadp CodeBlock[cfr], payload loadp CodeBlock::m_constantRegisters + VectorBufferOffset[payload], payload # There is a bit of evil here: if the index contains a value >= FirstConstantRegisterIndex, # then value << 3 will be equal to (value - FirstConstantRegisterIndex) << 3. loadp TagOffset[payload, index, 8], tag loadp PayloadOffset[payload, index, 8], payload .done: end macro loadConstantOrVariableTag(index, tag) bigteq index, FirstConstantRegisterIndex, .constant loadi TagOffset[cfr, index, 8], tag jmp .done .constant: loadp CodeBlock[cfr], tag loadp CodeBlock::m_constantRegisters + VectorBufferOffset[tag], tag # There is a bit of evil here: if the index contains a value >= FirstConstantRegisterIndex, # then value << 3 will be equal to (value - FirstConstantRegisterIndex) << 3. loadp TagOffset[tag, index, 8], tag .done: end # Index and payload may be the same register. Index may be clobbered. macro loadConstantOrVariable2Reg(index, tag, payload) bigteq index, FirstConstantRegisterIndex, .constant loadi TagOffset[cfr, index, 8], tag loadi PayloadOffset[cfr, index, 8], payload jmp .done .constant: loadp CodeBlock[cfr], tag loadp CodeBlock::m_constantRegisters + VectorBufferOffset[tag], tag # There is a bit of evil here: if the index contains a value >= FirstConstantRegisterIndex, # then value << 3 will be equal to (value - FirstConstantRegisterIndex) << 3. lshifti 3, index addp index, tag loadp PayloadOffset[tag], payload loadp TagOffset[tag], tag .done: end macro loadConstantOrVariablePayloadTagCustom(index, tagCheck, payload) bigteq index, FirstConstantRegisterIndex, .constant tagCheck(TagOffset[cfr, index, 8]) loadi PayloadOffset[cfr, index, 8], payload jmp .done .constant: loadp CodeBlock[cfr], payload loadp CodeBlock::m_constantRegisters + VectorBufferOffset[payload], payload # There is a bit of evil here: if the index contains a value >= FirstConstantRegisterIndex, # then value << 3 will be equal to (value - FirstConstantRegisterIndex) << 3. tagCheck(TagOffset[payload, index, 8]) loadp PayloadOffset[payload, index, 8], payload .done: end # Index and payload must be different registers. Index is not mutated. Use # this if you know what the tag of the variable should be. Doing the tag # test as part of loading the variable reduces register use, but may not # be faster than doing loadConstantOrVariable followed by a branch on the # tag. macro loadConstantOrVariablePayload(index, expectedTag, payload, slow) loadConstantOrVariablePayloadTagCustom( index, macro (actualTag) bineq actualTag, expectedTag, slow end, payload) end macro loadConstantOrVariablePayloadUnchecked(index, payload) loadConstantOrVariablePayloadTagCustom( index, macro (actualTag) end, payload) end macro storeStructureWithTypeInfo(cell, structure, scratch) storep structure, JSCell::m_structureID[cell] loadi Structure::m_blob + StructureIDBlob::u.words.word2[structure], scratch storei scratch, JSCell::m_indexingType[cell] end macro writeBarrierOnOperand(cellOperand) if GGC loadisFromInstruction(cellOperand, t1) loadConstantOrVariablePayload(t1, CellTag, t2, .writeBarrierDone) checkMarkByte(t2, t1, t3, macro(gcData) btbnz gcData, .writeBarrierDone push cfr, PC # We make two extra slots because cCall2 will poke. subp 8, sp cCall2Void(_llint_write_barrier_slow, cfr, t2) addp 8, sp pop PC, cfr end ) .writeBarrierDone: end end macro writeBarrierOnOperands(cellOperand, valueOperand) if GGC loadisFromInstruction(valueOperand, t1) loadConstantOrVariableTag(t1, t0) bineq t0, CellTag, .writeBarrierDone writeBarrierOnOperand(cellOperand) .writeBarrierDone: end end macro writeBarrierOnGlobalObject(valueOperand) if GGC loadisFromInstruction(valueOperand, t1) loadConstantOrVariableTag(t1, t0) bineq t0, CellTag, .writeBarrierDone loadp CodeBlock[cfr], t3 loadp CodeBlock::m_globalObject[t3], t3 checkMarkByte(t3, t1, t2, macro(gcData) btbnz gcData, .writeBarrierDone push cfr, PC # We make two extra slots because cCall2 will poke. subp 8, sp cCall2Void(_llint_write_barrier_slow, cfr, t3) addp 8, sp pop PC, cfr end ) .writeBarrierDone: end end macro valueProfile(tag, payload, operand, scratch) loadp operand[PC], scratch storei tag, ValueProfile::m_buckets + TagOffset[scratch] storei payload, ValueProfile::m_buckets + PayloadOffset[scratch] end # Entrypoints into the interpreter # Expects that CodeBlock is in t1, which is what prologue() leaves behind. macro functionArityCheck(doneLabel, slowPath) loadi PayloadOffset + ArgumentCount[cfr], t0 biaeq t0, CodeBlock::m_numParameters[t1], doneLabel cCall2(slowPath, cfr, PC) # This slowPath has a simple protocol: t0 = 0 => no error, t0 != 0 => error btiz t0, .noError move t1, cfr # t1 contains caller frame jmp _llint_throw_from_slow_path_trampoline .noError: # t1 points to ArityCheckData. loadp CommonSlowPaths::ArityCheckData::thunkToCall[t1], t2 btpz t2, .proceedInline loadp CommonSlowPaths::ArityCheckData::returnPC[t1], t5 loadp CommonSlowPaths::ArityCheckData::paddedStackSpace[t1], t0 call t2 if ASSERT_ENABLED loadp ReturnPC[cfr], t0 loadp [t0], t0 end jmp .continue .proceedInline: loadi CommonSlowPaths::ArityCheckData::paddedStackSpace[t1], t1 btiz t1, .continue // Move frame up "t1 * 2" slots lshiftp 1, t1 negi t1 move cfr, t3 loadi PayloadOffset + ArgumentCount[cfr], t2 addi CallFrameHeaderSlots, t2 .copyLoop: loadi PayloadOffset[t3], t0 storei t0, PayloadOffset[t3, t1, 8] loadi TagOffset[t3], t0 storei t0, TagOffset[t3, t1, 8] addp 8, t3 bsubinz 1, t2, .copyLoop // Fill new slots with JSUndefined move t1, t2 .fillLoop: move 0, t0 storei t0, PayloadOffset[t3, t1, 8] move UndefinedTag, t0 storei t0, TagOffset[t3, t1, 8] addp 8, t3 baddinz 1, t2, .fillLoop lshiftp 3, t1 addp t1, cfr addp t1, sp .continue: # Reload CodeBlock and PC, since the slow_path clobbered it. loadp CodeBlock[cfr], t1 loadp CodeBlock::m_instructions[t1], PC jmp doneLabel end macro branchIfException(label) loadp ScopeChain[cfr], t3 andp MarkedBlockMask, t3 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t3], t3 bieq VM::m_exception + TagOffset[t3], EmptyValueTag, .noException jmp label .noException: end # Instruction implementations _llint_op_enter: traceExecution() checkStackPointerAlignment(t2, 0xdead00e1) loadp CodeBlock[cfr], t2 // t2 = cfr.CodeBlock loadi CodeBlock::m_numVars[t2], t2 // t2 = t2.m_numVars btiz t2, .opEnterDone move UndefinedTag, t0 move 0, t1 negi t2 .opEnterLoop: storei t0, TagOffset[cfr, t2, 8] storei t1, PayloadOffset[cfr, t2, 8] addi 1, t2 btinz t2, .opEnterLoop .opEnterDone: callSlowPath(_slow_path_enter) dispatch(1) _llint_op_create_activation: traceExecution() loadi 4[PC], t0 bineq TagOffset[cfr, t0, 8], EmptyValueTag, .opCreateActivationDone callSlowPath(_llint_slow_path_create_activation) .opCreateActivationDone: dispatch(2) _llint_op_init_lazy_reg: traceExecution() loadi 4[PC], t0 storei EmptyValueTag, TagOffset[cfr, t0, 8] storei 0, PayloadOffset[cfr, t0, 8] dispatch(2) _llint_op_create_arguments: traceExecution() loadi 4[PC], t0 bineq TagOffset[cfr, t0, 8], EmptyValueTag, .opCreateArgumentsDone callSlowPath(_slow_path_create_arguments) .opCreateArgumentsDone: dispatch(2) _llint_op_create_this: traceExecution() loadi 8[PC], t0 loadp PayloadOffset[cfr, t0, 8], t0 loadp JSFunction::m_allocationProfile + ObjectAllocationProfile::m_allocator[t0], t1 loadp JSFunction::m_allocationProfile + ObjectAllocationProfile::m_structure[t0], t2 btpz t1, .opCreateThisSlow allocateJSObject(t1, t2, t0, t3, .opCreateThisSlow) loadi 4[PC], t1 storei CellTag, TagOffset[cfr, t1, 8] storei t0, PayloadOffset[cfr, t1, 8] dispatch(4) .opCreateThisSlow: callSlowPath(_slow_path_create_this) dispatch(4) _llint_op_get_callee: traceExecution() loadi 4[PC], t0 loadp PayloadOffset + Callee[cfr], t1 loadpFromInstruction(2, t2) bpneq t1, t2, .opGetCalleeSlow storei CellTag, TagOffset[cfr, t0, 8] storei t1, PayloadOffset[cfr, t0, 8] dispatch(3) .opGetCalleeSlow: callSlowPath(_slow_path_get_callee) dispatch(3) _llint_op_to_this: traceExecution() loadi 4[PC], t0 bineq TagOffset[cfr, t0, 8], CellTag, .opToThisSlow loadi PayloadOffset[cfr, t0, 8], t0 bbneq JSCell::m_type[t0], FinalObjectType, .opToThisSlow loadpFromInstruction(2, t2) bpneq JSCell::m_structureID[t0], t2, .opToThisSlow dispatch(3) .opToThisSlow: callSlowPath(_slow_path_to_this) dispatch(3) _llint_op_new_object: traceExecution() loadpFromInstruction(3, t0) loadp ObjectAllocationProfile::m_allocator[t0], t1 loadp ObjectAllocationProfile::m_structure[t0], t2 allocateJSObject(t1, t2, t0, t3, .opNewObjectSlow) loadi 4[PC], t1 storei CellTag, TagOffset[cfr, t1, 8] storei t0, PayloadOffset[cfr, t1, 8] dispatch(4) .opNewObjectSlow: callSlowPath(_llint_slow_path_new_object) dispatch(4) _llint_op_mov: traceExecution() loadi 8[PC], t1 loadi 4[PC], t0 loadConstantOrVariable(t1, t2, t3) storei t2, TagOffset[cfr, t0, 8] storei t3, PayloadOffset[cfr, t0, 8] dispatch(3) macro notifyWrite(set, valueTag, valuePayload, scratch, slow) loadb VariableWatchpointSet::m_state[set], scratch bieq scratch, IsInvalidated, .done bineq valuePayload, VariableWatchpointSet::m_inferredValue + PayloadOffset[set], slow bineq valueTag, VariableWatchpointSet::m_inferredValue + TagOffset[set], slow .done: end _llint_op_captured_mov: traceExecution() loadi 8[PC], t1 loadConstantOrVariable(t1, t2, t3) loadpFromInstruction(3, t0) btpz t0, .opCapturedMovReady notifyWrite(t0, t2, t3, t1, .opCapturedMovSlow) .opCapturedMovReady: loadi 4[PC], t0 storei t2, TagOffset[cfr, t0, 8] storei t3, PayloadOffset[cfr, t0, 8] dispatch(4) .opCapturedMovSlow: callSlowPath(_slow_path_captured_mov) dispatch(4) _llint_op_not: traceExecution() loadi 8[PC], t0 loadi 4[PC], t1 loadConstantOrVariable(t0, t2, t3) bineq t2, BooleanTag, .opNotSlow xori 1, t3 storei t2, TagOffset[cfr, t1, 8] storei t3, PayloadOffset[cfr, t1, 8] dispatch(3) .opNotSlow: callSlowPath(_slow_path_not) dispatch(3) _llint_op_eq: traceExecution() loadi 12[PC], t2 loadi 8[PC], t0 loadConstantOrVariable(t2, t3, t1) loadConstantOrVariable2Reg(t0, t2, t0) bineq t2, t3, .opEqSlow bieq t2, CellTag, .opEqSlow bib t2, LowestTag, .opEqSlow loadi 4[PC], t2 cieq t0, t1, t0 storei BooleanTag, TagOffset[cfr, t2, 8] storei t0, PayloadOffset[cfr, t2, 8] dispatch(4) .opEqSlow: callSlowPath(_slow_path_eq) dispatch(4) _llint_op_eq_null: traceExecution() loadi 8[PC], t0 loadi 4[PC], t3 assertNotConstant(t0) loadi TagOffset[cfr, t0, 8], t1 loadi PayloadOffset[cfr, t0, 8], t0 bineq t1, CellTag, .opEqNullImmediate btbnz JSCell::m_flags[t0], MasqueradesAsUndefined, .opEqNullMasqueradesAsUndefined move 0, t1 jmp .opEqNullNotImmediate .opEqNullMasqueradesAsUndefined: loadp JSCell::m_structureID[t0], t1 loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 cpeq Structure::m_globalObject[t1], t0, t1 jmp .opEqNullNotImmediate .opEqNullImmediate: cieq t1, NullTag, t2 cieq t1, UndefinedTag, t1 ori t2, t1 .opEqNullNotImmediate: storei BooleanTag, TagOffset[cfr, t3, 8] storei t1, PayloadOffset[cfr, t3, 8] dispatch(3) _llint_op_neq: traceExecution() loadi 12[PC], t2 loadi 8[PC], t0 loadConstantOrVariable(t2, t3, t1) loadConstantOrVariable2Reg(t0, t2, t0) bineq t2, t3, .opNeqSlow bieq t2, CellTag, .opNeqSlow bib t2, LowestTag, .opNeqSlow loadi 4[PC], t2 cineq t0, t1, t0 storei BooleanTag, TagOffset[cfr, t2, 8] storei t0, PayloadOffset[cfr, t2, 8] dispatch(4) .opNeqSlow: callSlowPath(_slow_path_neq) dispatch(4) _llint_op_neq_null: traceExecution() loadi 8[PC], t0 loadi 4[PC], t3 assertNotConstant(t0) loadi TagOffset[cfr, t0, 8], t1 loadi PayloadOffset[cfr, t0, 8], t0 bineq t1, CellTag, .opNeqNullImmediate btbnz JSCell::m_flags[t0], MasqueradesAsUndefined, .opNeqNullMasqueradesAsUndefined move 1, t1 jmp .opNeqNullNotImmediate .opNeqNullMasqueradesAsUndefined: loadp JSCell::m_structureID[t0], t1 loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 cpneq Structure::m_globalObject[t1], t0, t1 jmp .opNeqNullNotImmediate .opNeqNullImmediate: cineq t1, NullTag, t2 cineq t1, UndefinedTag, t1 andi t2, t1 .opNeqNullNotImmediate: storei BooleanTag, TagOffset[cfr, t3, 8] storei t1, PayloadOffset[cfr, t3, 8] dispatch(3) macro strictEq(equalityOperation, slowPath) loadi 12[PC], t2 loadi 8[PC], t0 loadConstantOrVariable(t2, t3, t1) loadConstantOrVariable2Reg(t0, t2, t0) bineq t2, t3, .slow bib t2, LowestTag, .slow bineq t2, CellTag, .notString bbneq JSCell::m_type[t0], StringType, .notString bbeq JSCell::m_type[t1], StringType, .slow .notString: loadi 4[PC], t2 equalityOperation(t0, t1, t0) storei BooleanTag, TagOffset[cfr, t2, 8] storei t0, PayloadOffset[cfr, t2, 8] dispatch(4) .slow: callSlowPath(slowPath) dispatch(4) end _llint_op_stricteq: traceExecution() strictEq(macro (left, right, result) cieq left, right, result end, _slow_path_stricteq) _llint_op_nstricteq: traceExecution() strictEq(macro (left, right, result) cineq left, right, result end, _slow_path_nstricteq) _llint_op_inc: traceExecution() loadi 4[PC], t0 bineq TagOffset[cfr, t0, 8], Int32Tag, .opIncSlow loadi PayloadOffset[cfr, t0, 8], t1 baddio 1, t1, .opIncSlow storei t1, PayloadOffset[cfr, t0, 8] dispatch(2) .opIncSlow: callSlowPath(_slow_path_inc) dispatch(2) _llint_op_dec: traceExecution() loadi 4[PC], t0 bineq TagOffset[cfr, t0, 8], Int32Tag, .opDecSlow loadi PayloadOffset[cfr, t0, 8], t1 bsubio 1, t1, .opDecSlow storei t1, PayloadOffset[cfr, t0, 8] dispatch(2) .opDecSlow: callSlowPath(_slow_path_dec) dispatch(2) _llint_op_to_number: traceExecution() loadi 8[PC], t0 loadi 4[PC], t1 loadConstantOrVariable(t0, t2, t3) bieq t2, Int32Tag, .opToNumberIsInt biaeq t2, LowestTag, .opToNumberSlow .opToNumberIsInt: storei t2, TagOffset[cfr, t1, 8] storei t3, PayloadOffset[cfr, t1, 8] dispatch(3) .opToNumberSlow: callSlowPath(_slow_path_to_number) dispatch(3) _llint_op_negate: traceExecution() loadi 8[PC], t0 loadi 4[PC], t3 loadConstantOrVariable(t0, t1, t2) bineq t1, Int32Tag, .opNegateSrcNotInt btiz t2, 0x7fffffff, .opNegateSlow negi t2 storei Int32Tag, TagOffset[cfr, t3, 8] storei t2, PayloadOffset[cfr, t3, 8] dispatch(3) .opNegateSrcNotInt: bia t1, LowestTag, .opNegateSlow xori 0x80000000, t1 storei t1, TagOffset[cfr, t3, 8] storei t2, PayloadOffset[cfr, t3, 8] dispatch(3) .opNegateSlow: callSlowPath(_slow_path_negate) dispatch(3) macro binaryOpCustomStore(integerOperationAndStore, doubleOperation, slowPath) loadi 12[PC], t2 loadi 8[PC], t0 loadConstantOrVariable(t2, t3, t1) loadConstantOrVariable2Reg(t0, t2, t0) bineq t2, Int32Tag, .op1NotInt bineq t3, Int32Tag, .op2NotInt loadi 4[PC], t2 integerOperationAndStore(t3, t1, t0, .slow, t2) dispatch(5) .op1NotInt: # First operand is definitely not an int, the second operand could be anything. bia t2, LowestTag, .slow bib t3, LowestTag, .op1NotIntOp2Double bineq t3, Int32Tag, .slow ci2d t1, ft1 jmp .op1NotIntReady .op1NotIntOp2Double: fii2d t1, t3, ft1 .op1NotIntReady: loadi 4[PC], t1 fii2d t0, t2, ft0 doubleOperation(ft1, ft0) stored ft0, [cfr, t1, 8] dispatch(5) .op2NotInt: # First operand is definitely an int, the second operand is definitely not. loadi 4[PC], t2 bia t3, LowestTag, .slow ci2d t0, ft0 fii2d t1, t3, ft1 doubleOperation(ft1, ft0) stored ft0, [cfr, t2, 8] dispatch(5) .slow: callSlowPath(slowPath) dispatch(5) end macro binaryOp(integerOperation, doubleOperation, slowPath) binaryOpCustomStore( macro (int32Tag, left, right, slow, index) integerOperation(left, right, slow) storei int32Tag, TagOffset[cfr, index, 8] storei right, PayloadOffset[cfr, index, 8] end, doubleOperation, slowPath) end _llint_op_add: traceExecution() binaryOp( macro (left, right, slow) baddio left, right, slow end, macro (left, right) addd left, right end, _slow_path_add) _llint_op_mul: traceExecution() binaryOpCustomStore( macro (int32Tag, left, right, slow, index) const scratch = int32Tag # We know that we can reuse the int32Tag register since it has a constant. move right, scratch bmulio left, scratch, slow btinz scratch, .done bilt left, 0, slow bilt right, 0, slow .done: storei Int32Tag, TagOffset[cfr, index, 8] storei scratch, PayloadOffset[cfr, index, 8] end, macro (left, right) muld left, right end, _slow_path_mul) _llint_op_sub: traceExecution() binaryOp( macro (left, right, slow) bsubio left, right, slow end, macro (left, right) subd left, right end, _slow_path_sub) _llint_op_div: traceExecution() binaryOpCustomStore( macro (int32Tag, left, right, slow, index) ci2d left, ft0 ci2d right, ft1 divd ft0, ft1 bcd2i ft1, right, .notInt storei int32Tag, TagOffset[cfr, index, 8] storei right, PayloadOffset[cfr, index, 8] jmp .done .notInt: stored ft1, [cfr, index, 8] .done: end, macro (left, right) divd left, right end, _slow_path_div) macro bitOp(operation, slowPath, advance) loadi 12[PC], t2 loadi 8[PC], t0 loadConstantOrVariable(t2, t3, t1) loadConstantOrVariable2Reg(t0, t2, t0) bineq t3, Int32Tag, .slow bineq t2, Int32Tag, .slow loadi 4[PC], t2 operation(t1, t0) storei t3, TagOffset[cfr, t2, 8] storei t0, PayloadOffset[cfr, t2, 8] dispatch(advance) .slow: callSlowPath(slowPath) dispatch(advance) end _llint_op_lshift: traceExecution() bitOp( macro (left, right) lshifti left, right end, _slow_path_lshift, 4) _llint_op_rshift: traceExecution() bitOp( macro (left, right) rshifti left, right end, _slow_path_rshift, 4) _llint_op_urshift: traceExecution() bitOp( macro (left, right) urshifti left, right end, _slow_path_urshift, 4) _llint_op_unsigned: traceExecution() loadi 4[PC], t0 loadi 8[PC], t1 loadConstantOrVariablePayload(t1, Int32Tag, t2, .opUnsignedSlow) bilt t2, 0, .opUnsignedSlow storei t2, PayloadOffset[cfr, t0, 8] storei Int32Tag, TagOffset[cfr, t0, 8] dispatch(3) .opUnsignedSlow: callSlowPath(_slow_path_unsigned) dispatch(3) _llint_op_bitand: traceExecution() bitOp( macro (left, right) andi left, right end, _slow_path_bitand, 5) _llint_op_bitxor: traceExecution() bitOp( macro (left, right) xori left, right end, _slow_path_bitxor, 5) _llint_op_bitor: traceExecution() bitOp( macro (left, right) ori left, right end, _slow_path_bitor, 5) _llint_op_check_has_instance: traceExecution() loadi 12[PC], t1 loadConstantOrVariablePayload(t1, CellTag, t0, .opCheckHasInstanceSlow) btbz JSCell::m_flags[t0], ImplementsDefaultHasInstance, .opCheckHasInstanceSlow dispatch(5) .opCheckHasInstanceSlow: callSlowPath(_llint_slow_path_check_has_instance) dispatch(0) _llint_op_instanceof: traceExecution() # Actually do the work. loadi 12[PC], t0 loadi 4[PC], t3 loadConstantOrVariablePayload(t0, CellTag, t1, .opInstanceofSlow) bbb JSCell::m_type[t1], ObjectType, .opInstanceofSlow loadi 8[PC], t0 loadConstantOrVariablePayload(t0, CellTag, t2, .opInstanceofSlow) # Register state: t1 = prototype, t2 = value move 1, t0 .opInstanceofLoop: loadp JSCell::m_structureID[t2], t2 loadi Structure::m_prototype + PayloadOffset[t2], t2 bpeq t2, t1, .opInstanceofDone btinz t2, .opInstanceofLoop move 0, t0 .opInstanceofDone: storei BooleanTag, TagOffset[cfr, t3, 8] storei t0, PayloadOffset[cfr, t3, 8] dispatch(4) .opInstanceofSlow: callSlowPath(_llint_slow_path_instanceof) dispatch(4) _llint_op_is_undefined: traceExecution() loadi 8[PC], t1 loadi 4[PC], t0 loadConstantOrVariable(t1, t2, t3) storei BooleanTag, TagOffset[cfr, t0, 8] bieq t2, CellTag, .opIsUndefinedCell cieq t2, UndefinedTag, t3 storei t3, PayloadOffset[cfr, t0, 8] dispatch(3) .opIsUndefinedCell: btbnz JSCell::m_flags[t3], MasqueradesAsUndefined, .opIsUndefinedMasqueradesAsUndefined move 0, t1 storei t1, PayloadOffset[cfr, t0, 8] dispatch(3) .opIsUndefinedMasqueradesAsUndefined: loadp JSCell::m_structureID[t3], t1 loadp CodeBlock[cfr], t3 loadp CodeBlock::m_globalObject[t3], t3 cpeq Structure::m_globalObject[t1], t3, t1 storei t1, PayloadOffset[cfr, t0, 8] dispatch(3) _llint_op_is_boolean: traceExecution() loadi 8[PC], t1 loadi 4[PC], t2 loadConstantOrVariableTag(t1, t0) cieq t0, BooleanTag, t0 storei BooleanTag, TagOffset[cfr, t2, 8] storei t0, PayloadOffset[cfr, t2, 8] dispatch(3) _llint_op_is_number: traceExecution() loadi 8[PC], t1 loadi 4[PC], t2 loadConstantOrVariableTag(t1, t0) storei BooleanTag, TagOffset[cfr, t2, 8] addi 1, t0 cib t0, LowestTag + 1, t1 storei t1, PayloadOffset[cfr, t2, 8] dispatch(3) _llint_op_is_string: traceExecution() loadi 8[PC], t1 loadi 4[PC], t2 loadConstantOrVariable(t1, t0, t3) storei BooleanTag, TagOffset[cfr, t2, 8] bineq t0, CellTag, .opIsStringNotCell cbeq JSCell::m_type[t3], StringType, t1 storei t1, PayloadOffset[cfr, t2, 8] dispatch(3) .opIsStringNotCell: storep 0, PayloadOffset[cfr, t2, 8] dispatch(3) macro loadPropertyAtVariableOffsetKnownNotInline(propertyOffset, objectAndStorage, tag, payload) assert(macro (ok) bigteq propertyOffset, firstOutOfLineOffset, ok end) negi propertyOffset loadp JSObject::m_butterfly[objectAndStorage], objectAndStorage loadi TagOffset + (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffset, 8], tag loadi PayloadOffset + (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffset, 8], payload end macro loadPropertyAtVariableOffset(propertyOffset, objectAndStorage, tag, payload) bilt propertyOffset, firstOutOfLineOffset, .isInline loadp JSObject::m_butterfly[objectAndStorage], objectAndStorage negi propertyOffset jmp .ready .isInline: addp sizeof JSObject - (firstOutOfLineOffset - 2) * 8, objectAndStorage .ready: loadi TagOffset + (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffset, 8], tag loadi PayloadOffset + (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffset, 8], payload end macro storePropertyAtVariableOffset(propertyOffsetAsInt, objectAndStorage, tag, payload) bilt propertyOffsetAsInt, firstOutOfLineOffset, .isInline loadp JSObject::m_butterfly[objectAndStorage], objectAndStorage negi propertyOffsetAsInt jmp .ready .isInline: addp sizeof JSObject - (firstOutOfLineOffset - 2) * 8, objectAndStorage .ready: storei tag, TagOffset + (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffsetAsInt, 8] storei payload, PayloadOffset + (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffsetAsInt, 8] end _llint_op_init_global_const: traceExecution() writeBarrierOnGlobalObject(2) loadi 8[PC], t1 loadi 4[PC], t0 loadConstantOrVariable(t1, t2, t3) storei t2, TagOffset[t0] storei t3, PayloadOffset[t0] dispatch(5) # We only do monomorphic get_by_id caching for now, and we do not modify the # opcode. We do, however, allow for the cache to change anytime if fails, since # ping-ponging is free. At best we get lucky and the get_by_id will continue # to take fast path on the new cache. At worst we take slow path, which is what # we would have been doing anyway. macro getById(getPropertyStorage) traceExecution() loadi 8[PC], t0 loadi 16[PC], t1 loadConstantOrVariablePayload(t0, CellTag, t3, .opGetByIdSlow) loadi 20[PC], t2 getPropertyStorage( t3, t0, macro (propertyStorage, scratch) bpneq JSCell::m_structureID[t3], t1, .opGetByIdSlow loadi 4[PC], t1 loadi TagOffset[propertyStorage, t2], scratch loadi PayloadOffset[propertyStorage, t2], t2 storei scratch, TagOffset[cfr, t1, 8] storei t2, PayloadOffset[cfr, t1, 8] valueProfile(scratch, t2, 32, t1) dispatch(9) end) .opGetByIdSlow: callSlowPath(_llint_slow_path_get_by_id) dispatch(9) end _llint_op_get_by_id: getById(withInlineStorage) _llint_op_get_by_id_out_of_line: getById(withOutOfLineStorage) _llint_op_get_array_length: traceExecution() loadi 8[PC], t0 loadp 16[PC], t1 loadConstantOrVariablePayload(t0, CellTag, t3, .opGetArrayLengthSlow) move t3, t2 arrayProfile(t2, t1, t0) btiz t2, IsArray, .opGetArrayLengthSlow btiz t2, IndexingShapeMask, .opGetArrayLengthSlow loadi 4[PC], t1 loadp JSObject::m_butterfly[t3], t0 loadi -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0], t0 bilt t0, 0, .opGetArrayLengthSlow valueProfile(Int32Tag, t0, 32, t2) storep t0, PayloadOffset[cfr, t1, 8] storep Int32Tag, TagOffset[cfr, t1, 8] dispatch(9) .opGetArrayLengthSlow: callSlowPath(_llint_slow_path_get_by_id) dispatch(9) _llint_op_get_arguments_length: traceExecution() loadi 8[PC], t0 loadi 4[PC], t1 bineq TagOffset[cfr, t0, 8], EmptyValueTag, .opGetArgumentsLengthSlow loadi ArgumentCount + PayloadOffset[cfr], t2 subi 1, t2 storei Int32Tag, TagOffset[cfr, t1, 8] storei t2, PayloadOffset[cfr, t1, 8] dispatch(4) .opGetArgumentsLengthSlow: callSlowPath(_llint_slow_path_get_arguments_length) dispatch(4) macro putById(getPropertyStorage) traceExecution() writeBarrierOnOperands(1, 3) loadi 4[PC], t3 loadi 16[PC], t1 loadConstantOrVariablePayload(t3, CellTag, t0, .opPutByIdSlow) loadi 12[PC], t2 getPropertyStorage( t0, t3, macro (propertyStorage, scratch) bpneq JSCell::m_structureID[t0], t1, .opPutByIdSlow loadi 20[PC], t1 loadConstantOrVariable2Reg(t2, scratch, t2) storei scratch, TagOffset[propertyStorage, t1] storei t2, PayloadOffset[propertyStorage, t1] dispatch(9) end) .opPutByIdSlow: callSlowPath(_llint_slow_path_put_by_id) dispatch(9) end _llint_op_put_by_id: putById(withInlineStorage) _llint_op_put_by_id_out_of_line: putById(withOutOfLineStorage) macro putByIdTransition(additionalChecks, getPropertyStorage) traceExecution() writeBarrierOnOperand(1) loadi 4[PC], t3 loadi 16[PC], t1 loadConstantOrVariablePayload(t3, CellTag, t0, .opPutByIdSlow) loadi 12[PC], t2 bpneq JSCell::m_structureID[t0], t1, .opPutByIdSlow additionalChecks(t1, t3, .opPutByIdSlow) loadi 20[PC], t1 getPropertyStorage( t0, t3, macro (propertyStorage, scratch) addp t1, propertyStorage, t3 loadConstantOrVariable2Reg(t2, t1, t2) storei t1, TagOffset[t3] loadi 24[PC], t1 storei t2, PayloadOffset[t3] storep t1, JSCell::m_structureID[t0] dispatch(9) end) .opPutByIdSlow: callSlowPath(_llint_slow_path_put_by_id) dispatch(9) end macro noAdditionalChecks(oldStructure, scratch, slowPath) end macro structureChainChecks(oldStructure, scratch, slowPath) const protoCell = oldStructure # Reusing the oldStructure register for the proto loadp 28[PC], scratch assert(macro (ok) btpnz scratch, ok end) loadp StructureChain::m_vector[scratch], scratch assert(macro (ok) btpnz scratch, ok end) bieq Structure::m_prototype + TagOffset[oldStructure], NullTag, .done .loop: loadi Structure::m_prototype + PayloadOffset[oldStructure], protoCell loadp JSCell::m_structureID[protoCell], oldStructure bpneq oldStructure, [scratch], slowPath addp 4, scratch bineq Structure::m_prototype + TagOffset[oldStructure], NullTag, .loop .done: end _llint_op_put_by_id_transition_direct: putByIdTransition(noAdditionalChecks, withInlineStorage) _llint_op_put_by_id_transition_direct_out_of_line: putByIdTransition(noAdditionalChecks, withOutOfLineStorage) _llint_op_put_by_id_transition_normal: putByIdTransition(structureChainChecks, withInlineStorage) _llint_op_put_by_id_transition_normal_out_of_line: putByIdTransition(structureChainChecks, withOutOfLineStorage) _llint_op_get_by_val: traceExecution() loadi 8[PC], t2 loadConstantOrVariablePayload(t2, CellTag, t0, .opGetByValSlow) move t0, t2 loadp 16[PC], t3 arrayProfile(t2, t3, t1) loadi 12[PC], t3 loadConstantOrVariablePayload(t3, Int32Tag, t1, .opGetByValSlow) loadp JSObject::m_butterfly[t0], t3 andi IndexingShapeMask, t2 bieq t2, Int32Shape, .opGetByValIsContiguous bineq t2, ContiguousShape, .opGetByValNotContiguous .opGetByValIsContiguous: biaeq t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t3], .opGetByValOutOfBounds loadi TagOffset[t3, t1, 8], t2 loadi PayloadOffset[t3, t1, 8], t1 jmp .opGetByValDone .opGetByValNotContiguous: bineq t2, DoubleShape, .opGetByValNotDouble biaeq t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t3], .opGetByValOutOfBounds loadd [t3, t1, 8], ft0 bdnequn ft0, ft0, .opGetByValSlow # FIXME: This could be massively optimized. fd2ii ft0, t1, t2 loadi 4[PC], t0 jmp .opGetByValNotEmpty .opGetByValNotDouble: subi ArrayStorageShape, t2 bia t2, SlowPutArrayStorageShape - ArrayStorageShape, .opGetByValSlow biaeq t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.vectorLength[t3], .opGetByValOutOfBounds loadi ArrayStorage::m_vector + TagOffset[t3, t1, 8], t2 loadi ArrayStorage::m_vector + PayloadOffset[t3, t1, 8], t1 .opGetByValDone: loadi 4[PC], t0 bieq t2, EmptyValueTag, .opGetByValOutOfBounds .opGetByValNotEmpty: storei t2, TagOffset[cfr, t0, 8] storei t1, PayloadOffset[cfr, t0, 8] valueProfile(t2, t1, 20, t0) dispatch(6) .opGetByValOutOfBounds: loadpFromInstruction(4, t0) storeb 1, ArrayProfile::m_outOfBounds[t0] .opGetByValSlow: callSlowPath(_llint_slow_path_get_by_val) dispatch(6) _llint_op_get_argument_by_val: # FIXME: At some point we should array profile this. Right now it isn't necessary # since the DFG will never turn a get_argument_by_val into a GetByVal. traceExecution() loadi 8[PC], t0 loadi 12[PC], t1 bineq TagOffset[cfr, t0, 8], EmptyValueTag, .opGetArgumentByValSlow loadConstantOrVariablePayload(t1, Int32Tag, t2, .opGetArgumentByValSlow) addi 1, t2 loadi ArgumentCount + PayloadOffset[cfr], t1 biaeq t2, t1, .opGetArgumentByValSlow loadi 4[PC], t3 loadi ThisArgumentOffset + TagOffset[cfr, t2, 8], t0 loadi ThisArgumentOffset + PayloadOffset[cfr, t2, 8], t1 storei t0, TagOffset[cfr, t3, 8] storei t1, PayloadOffset[cfr, t3, 8] valueProfile(t0, t1, 20, t2) dispatch(6) .opGetArgumentByValSlow: callSlowPath(_llint_slow_path_get_argument_by_val) dispatch(6) _llint_op_get_by_pname: traceExecution() loadi 12[PC], t0 loadConstantOrVariablePayload(t0, CellTag, t1, .opGetByPnameSlow) loadi 16[PC], t0 bpneq t1, PayloadOffset[cfr, t0, 8], .opGetByPnameSlow loadi 8[PC], t0 loadConstantOrVariablePayload(t0, CellTag, t2, .opGetByPnameSlow) loadi 20[PC], t0 loadi PayloadOffset[cfr, t0, 8], t3 loadp JSCell::m_structureID[t2], t0 bpneq t0, JSPropertyNameIterator::m_cachedStructure[t3], .opGetByPnameSlow loadi 24[PC], t0 loadi [cfr, t0, 8], t0 subi 1, t0 biaeq t0, JSPropertyNameIterator::m_numCacheableSlots[t3], .opGetByPnameSlow bilt t0, JSPropertyNameIterator::m_cachedStructureInlineCapacity[t3], .opGetByPnameInlineProperty addi firstOutOfLineOffset, t0 subi JSPropertyNameIterator::m_cachedStructureInlineCapacity[t3], t0 .opGetByPnameInlineProperty: loadPropertyAtVariableOffset(t0, t2, t1, t3) loadi 4[PC], t0 storei t1, TagOffset[cfr, t0, 8] storei t3, PayloadOffset[cfr, t0, 8] dispatch(7) .opGetByPnameSlow: callSlowPath(_llint_slow_path_get_by_pname) dispatch(7) macro contiguousPutByVal(storeCallback) biaeq t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0], .outOfBounds .storeResult: loadi 12[PC], t2 storeCallback(t2, t1, t0, t3) dispatch(5) .outOfBounds: biaeq t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.vectorLength[t0], .opPutByValOutOfBounds loadp 16[PC], t2 storeb 1, ArrayProfile::m_mayStoreToHole[t2] addi 1, t3, t2 storei t2, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0] jmp .storeResult end macro putByVal(slowPath) traceExecution() writeBarrierOnOperands(1, 3) loadi 4[PC], t0 loadConstantOrVariablePayload(t0, CellTag, t1, .opPutByValSlow) move t1, t2 loadp 16[PC], t3 arrayProfile(t2, t3, t0) loadi 8[PC], t0 loadConstantOrVariablePayload(t0, Int32Tag, t3, .opPutByValSlow) loadp JSObject::m_butterfly[t1], t0 andi IndexingShapeMask, t2 bineq t2, Int32Shape, .opPutByValNotInt32 contiguousPutByVal( macro (operand, scratch, base, index) loadConstantOrVariablePayload(operand, Int32Tag, scratch, .opPutByValSlow) storei Int32Tag, TagOffset[base, index, 8] storei scratch, PayloadOffset[base, index, 8] end) .opPutByValNotInt32: bineq t2, DoubleShape, .opPutByValNotDouble contiguousPutByVal( macro (operand, scratch, base, index) const tag = scratch const payload = operand loadConstantOrVariable2Reg(operand, tag, payload) bineq tag, Int32Tag, .notInt ci2d payload, ft0 jmp .ready .notInt: fii2d payload, tag, ft0 bdnequn ft0, ft0, .opPutByValSlow .ready: stored ft0, [base, index, 8] end) .opPutByValNotDouble: bineq t2, ContiguousShape, .opPutByValNotContiguous contiguousPutByVal( macro (operand, scratch, base, index) const tag = scratch const payload = operand loadConstantOrVariable2Reg(operand, tag, payload) storei tag, TagOffset[base, index, 8] storei payload, PayloadOffset[base, index, 8] end) .opPutByValNotContiguous: bineq t2, ArrayStorageShape, .opPutByValSlow biaeq t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.vectorLength[t0], .opPutByValOutOfBounds bieq ArrayStorage::m_vector + TagOffset[t0, t3, 8], EmptyValueTag, .opPutByValArrayStorageEmpty .opPutByValArrayStorageStoreResult: loadi 12[PC], t2 loadConstantOrVariable2Reg(t2, t1, t2) storei t1, ArrayStorage::m_vector + TagOffset[t0, t3, 8] storei t2, ArrayStorage::m_vector + PayloadOffset[t0, t3, 8] dispatch(5) .opPutByValArrayStorageEmpty: loadp 16[PC], t1 storeb 1, ArrayProfile::m_mayStoreToHole[t1] addi 1, ArrayStorage::m_numValuesInVector[t0] bib t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0], .opPutByValArrayStorageStoreResult addi 1, t3, t1 storei t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0] jmp .opPutByValArrayStorageStoreResult .opPutByValOutOfBounds: loadpFromInstruction(4, t0) storeb 1, ArrayProfile::m_outOfBounds[t0] .opPutByValSlow: callSlowPath(slowPath) dispatch(5) end _llint_op_put_by_val: putByVal(_llint_slow_path_put_by_val) _llint_op_put_by_val_direct: putByVal(_llint_slow_path_put_by_val_direct) _llint_op_jmp: traceExecution() dispatchBranch(4[PC]) macro jumpTrueOrFalse(conditionOp, slow) loadi 4[PC], t1 loadConstantOrVariablePayload(t1, BooleanTag, t0, .slow) conditionOp(t0, .target) dispatch(3) .target: dispatchBranch(8[PC]) .slow: callSlowPath(slow) dispatch(0) end macro equalNull(cellHandler, immediateHandler) loadi 4[PC], t0 assertNotConstant(t0) loadi TagOffset[cfr, t0, 8], t1 loadi PayloadOffset[cfr, t0, 8], t0 bineq t1, CellTag, .immediate loadp JSCell::m_structureID[t0], t2 cellHandler(t2, JSCell::m_flags[t0], .target) dispatch(3) .target: dispatchBranch(8[PC]) .immediate: ori 1, t1 immediateHandler(t1, .target) dispatch(3) end _llint_op_jeq_null: traceExecution() equalNull( macro (structure, value, target) btbz value, MasqueradesAsUndefined, .opJeqNullNotMasqueradesAsUndefined loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 bpeq Structure::m_globalObject[structure], t0, target .opJeqNullNotMasqueradesAsUndefined: end, macro (value, target) bieq value, NullTag, target end) _llint_op_jneq_null: traceExecution() equalNull( macro (structure, value, target) btbz value, MasqueradesAsUndefined, target loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 bpneq Structure::m_globalObject[structure], t0, target end, macro (value, target) bineq value, NullTag, target end) _llint_op_jneq_ptr: traceExecution() loadi 4[PC], t0 loadi 8[PC], t1 loadp CodeBlock[cfr], t2 loadp CodeBlock::m_globalObject[t2], t2 bineq TagOffset[cfr, t0, 8], CellTag, .opJneqPtrBranch loadp JSGlobalObject::m_specialPointers[t2, t1, 4], t1 bpeq PayloadOffset[cfr, t0, 8], t1, .opJneqPtrFallThrough .opJneqPtrBranch: dispatchBranch(12[PC]) .opJneqPtrFallThrough: dispatch(4) macro compare(integerCompare, doubleCompare, slowPath) loadi 4[PC], t2 loadi 8[PC], t3 loadConstantOrVariable(t2, t0, t1) loadConstantOrVariable2Reg(t3, t2, t3) bineq t0, Int32Tag, .op1NotInt bineq t2, Int32Tag, .op2NotInt integerCompare(t1, t3, .jumpTarget) dispatch(4) .op1NotInt: bia t0, LowestTag, .slow bib t2, LowestTag, .op1NotIntOp2Double bineq t2, Int32Tag, .slow ci2d t3, ft1 jmp .op1NotIntReady .op1NotIntOp2Double: fii2d t3, t2, ft1 .op1NotIntReady: fii2d t1, t0, ft0 doubleCompare(ft0, ft1, .jumpTarget) dispatch(4) .op2NotInt: ci2d t1, ft0 bia t2, LowestTag, .slow fii2d t3, t2, ft1 doubleCompare(ft0, ft1, .jumpTarget) dispatch(4) .jumpTarget: dispatchBranch(12[PC]) .slow: callSlowPath(slowPath) dispatch(0) end _llint_op_switch_imm: traceExecution() loadi 12[PC], t2 loadi 4[PC], t3 loadConstantOrVariable(t2, t1, t0) loadp CodeBlock[cfr], t2 loadp CodeBlock::m_rareData[t2], t2 muli sizeof SimpleJumpTable, t3 # FIXME: would be nice to peephole this! loadp CodeBlock::RareData::m_switchJumpTables + VectorBufferOffset[t2], t2 addp t3, t2 bineq t1, Int32Tag, .opSwitchImmNotInt subi SimpleJumpTable::min[t2], t0 biaeq t0, SimpleJumpTable::branchOffsets + VectorSizeOffset[t2], .opSwitchImmFallThrough loadp SimpleJumpTable::branchOffsets + VectorBufferOffset[t2], t3 loadi [t3, t0, 4], t1 btiz t1, .opSwitchImmFallThrough dispatchBranchWithOffset(t1) .opSwitchImmNotInt: bib t1, LowestTag, .opSwitchImmSlow # Go to slow path if it's a double. .opSwitchImmFallThrough: dispatchBranch(8[PC]) .opSwitchImmSlow: callSlowPath(_llint_slow_path_switch_imm) dispatch(0) _llint_op_switch_char: traceExecution() loadi 12[PC], t2 loadi 4[PC], t3 loadConstantOrVariable(t2, t1, t0) loadp CodeBlock[cfr], t2 loadp CodeBlock::m_rareData[t2], t2 muli sizeof SimpleJumpTable, t3 loadp CodeBlock::RareData::m_switchJumpTables + VectorBufferOffset[t2], t2 addp t3, t2 bineq t1, CellTag, .opSwitchCharFallThrough bbneq JSCell::m_type[t0], StringType, .opSwitchCharFallThrough bineq JSString::m_length[t0], 1, .opSwitchCharFallThrough loadp JSString::m_value[t0], t0 btpz t0, .opSwitchOnRope loadp StringImpl::m_data8[t0], t1 btinz StringImpl::m_hashAndFlags[t0], HashFlags8BitBuffer, .opSwitchChar8Bit loadh [t1], t0 jmp .opSwitchCharReady .opSwitchChar8Bit: loadb [t1], t0 .opSwitchCharReady: subi SimpleJumpTable::min[t2], t0 biaeq t0, SimpleJumpTable::branchOffsets + VectorSizeOffset[t2], .opSwitchCharFallThrough loadp SimpleJumpTable::branchOffsets + VectorBufferOffset[t2], t2 loadi [t2, t0, 4], t1 btiz t1, .opSwitchCharFallThrough dispatchBranchWithOffset(t1) .opSwitchCharFallThrough: dispatchBranch(8[PC]) .opSwitchOnRope: callSlowPath(_llint_slow_path_switch_char) dispatch(0) _llint_op_new_func: traceExecution() btiz 12[PC], .opNewFuncUnchecked loadi 4[PC], t1 bineq TagOffset[cfr, t1, 8], EmptyValueTag, .opNewFuncDone .opNewFuncUnchecked: callSlowPath(_llint_slow_path_new_func) .opNewFuncDone: dispatch(4) _llint_op_new_captured_func: traceExecution() callSlowPath(_slow_path_new_captured_func) dispatch(4) macro arrayProfileForCall() loadi 16[PC], t3 negi t3 bineq ThisArgumentOffset + TagOffset[cfr, t3, 8], CellTag, .done loadi ThisArgumentOffset + PayloadOffset[cfr, t3, 8], t0 loadp JSCell::m_structureID[t0], t0 loadpFromInstruction(CallOpCodeSize - 2, t1) storep t0, ArrayProfile::m_lastSeenStructureID[t1] .done: end macro doCall(slowPath) loadi 8[PC], t0 loadi 20[PC], t1 loadp LLIntCallLinkInfo::callee[t1], t2 loadConstantOrVariablePayload(t0, CellTag, t3, .opCallSlow) bineq t3, t2, .opCallSlow loadi 16[PC], t3 lshifti 3, t3 negi t3 addp cfr, t3 # t3 contains the new value of cfr loadp JSFunction::m_scope[t2], t0 storei t2, Callee + PayloadOffset[t3] storei t0, ScopeChain + PayloadOffset[t3] loadi 12[PC], t2 storei PC, ArgumentCount + TagOffset[cfr] storei t2, ArgumentCount + PayloadOffset[t3] storei CellTag, Callee + TagOffset[t3] storei CellTag, ScopeChain + TagOffset[t3] addp CallerFrameAndPCSize, t3 callTargetFunction(t1, t3) .opCallSlow: slowPathForCall(slowPath) end _llint_op_tear_off_activation: traceExecution() loadi 4[PC], t0 bieq TagOffset[cfr, t0, 8], EmptyValueTag, .opTearOffActivationNotCreated callSlowPath(_llint_slow_path_tear_off_activation) .opTearOffActivationNotCreated: dispatch(2) _llint_op_tear_off_arguments: traceExecution() loadi 4[PC], t0 addi 1, t0 # Get the unmodifiedArgumentsRegister bieq TagOffset[cfr, t0, 8], EmptyValueTag, .opTearOffArgumentsNotCreated callSlowPath(_llint_slow_path_tear_off_arguments) .opTearOffArgumentsNotCreated: dispatch(3) _llint_op_ret: traceExecution() checkSwitchToJITForEpilogue() loadi 4[PC], t2 loadConstantOrVariable(t2, t1, t0) doReturn() _llint_op_ret_object_or_this: traceExecution() checkSwitchToJITForEpilogue() loadi 4[PC], t2 loadConstantOrVariable(t2, t1, t0) bineq t1, CellTag, .opRetObjectOrThisNotObject bbb JSCell::m_type[t0], ObjectType, .opRetObjectOrThisNotObject doReturn() .opRetObjectOrThisNotObject: loadi 8[PC], t2 loadConstantOrVariable(t2, t1, t0) doReturn() _llint_op_to_primitive: traceExecution() loadi 8[PC], t2 loadi 4[PC], t3 loadConstantOrVariable(t2, t1, t0) bineq t1, CellTag, .opToPrimitiveIsImm bbneq JSCell::m_type[t0], StringType, .opToPrimitiveSlowCase .opToPrimitiveIsImm: storei t1, TagOffset[cfr, t3, 8] storei t0, PayloadOffset[cfr, t3, 8] dispatch(3) .opToPrimitiveSlowCase: callSlowPath(_slow_path_to_primitive) dispatch(3) _llint_op_next_pname: traceExecution() loadi 12[PC], t1 loadi 16[PC], t2 loadi PayloadOffset[cfr, t1, 8], t0 bieq t0, PayloadOffset[cfr, t2, 8], .opNextPnameEnd loadi 20[PC], t2 loadi PayloadOffset[cfr, t2, 8], t2 loadp JSPropertyNameIterator::m_jsStrings[t2], t3 loadi [t3, t0, 8], t3 addi 1, t0 storei t0, PayloadOffset[cfr, t1, 8] loadi 4[PC], t1 storei CellTag, TagOffset[cfr, t1, 8] storei t3, PayloadOffset[cfr, t1, 8] loadi 8[PC], t3 loadi PayloadOffset[cfr, t3, 8], t3 loadp JSCell::m_structureID[t3], t1 bpneq t1, JSPropertyNameIterator::m_cachedStructure[t2], .opNextPnameSlow loadp JSPropertyNameIterator::m_cachedPrototypeChain[t2], t0 loadp StructureChain::m_vector[t0], t0 btpz [t0], .opNextPnameTarget .opNextPnameCheckPrototypeLoop: bieq Structure::m_prototype + TagOffset[t1], NullTag, .opNextPnameSlow loadp Structure::m_prototype + PayloadOffset[t1], t2 loadp JSCell::m_structureID[t2], t1 bpneq t1, [t0], .opNextPnameSlow addp 4, t0 btpnz [t0], .opNextPnameCheckPrototypeLoop .opNextPnameTarget: dispatchBranch(24[PC]) .opNextPnameEnd: dispatch(7) .opNextPnameSlow: callSlowPath(_llint_slow_path_next_pname) # This either keeps the PC where it was (causing us to loop) or sets it to target. dispatch(0) _llint_op_catch: # This is where we end up from the JIT's throw trampoline (because the # machine code return address will be set to _llint_op_catch), and from # the interpreter's throw trampoline (see _llint_throw_trampoline). # The throwing code must have known that we were throwing to the interpreter, # and have set VM::targetInterpreterPCForThrow. loadp ScopeChain + PayloadOffset[cfr], t3 andp MarkedBlockMask, t3 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t3], t3 loadp VM::callFrameForThrow[t3], cfr restoreStackPointerAfterCall() loadi VM::targetInterpreterPCForThrow[t3], PC loadi VM::m_exception + PayloadOffset[t3], t0 loadi VM::m_exception + TagOffset[t3], t1 storei 0, VM::m_exception + PayloadOffset[t3] storei EmptyValueTag, VM::m_exception + TagOffset[t3] loadi 4[PC], t2 storei t0, PayloadOffset[cfr, t2, 8] storei t1, TagOffset[cfr, t2, 8] traceExecution() # This needs to be here because we don't want to clobber t0, t1, t2, t3 above. dispatch(2) # Gives you the scope in t0, while allowing you to optionally perform additional checks on the # scopes as they are traversed. scopeCheck() is called with two arguments: the register # holding the scope, and a register that can be used for scratch. Note that this does not # use t3, so you can hold stuff in t3 if need be. macro getDeBruijnScope(deBruijinIndexOperand, scopeCheck) loadp ScopeChain + PayloadOffset[cfr], t0 loadi deBruijinIndexOperand, t2 btiz t2, .done loadp CodeBlock[cfr], t1 bineq CodeBlock::m_codeType[t1], FunctionCode, .loop btbz CodeBlock::m_needsActivation[t1], .loop loadi CodeBlock::m_activationRegister[t1], t1 # Need to conditionally skip over one scope. bieq TagOffset[cfr, t1, 8], EmptyValueTag, .noActivation scopeCheck(t0, t1) loadp JSScope::m_next[t0], t0 .noActivation: subi 1, t2 btiz t2, .done .loop: scopeCheck(t0, t1) loadp JSScope::m_next[t0], t0 subi 1, t2 btinz t2, .loop .done: end _llint_op_end: traceExecution() checkSwitchToJITForEpilogue() loadi 4[PC], t0 assertNotConstant(t0) loadi TagOffset[cfr, t0, 8], t1 loadi PayloadOffset[cfr, t0, 8], t0 doReturn() _llint_throw_from_slow_path_trampoline: callSlowPath(_llint_slow_path_handle_exception) # When throwing from the interpreter (i.e. throwing from LLIntSlowPaths), so # the throw target is not necessarily interpreted code, we come to here. # This essentially emulates the JIT's throwing protocol. loadp CodeBlock[cfr], t1 loadp CodeBlock::m_vm[t1], t1 jmp VM::targetMachinePCForThrow[t1] _llint_throw_during_call_trampoline: preserveReturnAddressAfterCall(t2) jmp _llint_throw_from_slow_path_trampoline macro nativeCallTrampoline(executableOffsetToFunction) functionPrologue() storep 0, CodeBlock[cfr] loadp CallerFrame[cfr], t0 loadi ScopeChain + PayloadOffset[t0], t1 storei CellTag, ScopeChain + TagOffset[cfr] storei t1, ScopeChain + PayloadOffset[cfr] if X86 or X86_WIN subp 8, sp # align stack pointer andp MarkedBlockMask, t1 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t1], t3 storep cfr, VM::topCallFrame[t3] move cfr, t2 # t2 = ecx storep t2, [sp] loadi Callee + PayloadOffset[cfr], t1 loadp JSFunction::m_executable[t1], t1 checkStackPointerAlignment(t3, 0xdead0001) call executableOffsetToFunction[t1] loadp ScopeChain[cfr], t3 andp MarkedBlockMask, t3 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t3], t3 addp 8, sp elsif ARM or ARMv7 or ARMv7_TRADITIONAL or C_LOOP or MIPS or SH4 subp 8, sp # align stack pointer # t1 already contains the ScopeChain. andp MarkedBlockMask, t1 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t1], t1 storep cfr, VM::topCallFrame[t1] if MIPS or SH4 move cfr, a0 else move cfr, t0 end loadi Callee + PayloadOffset[cfr], t1 loadp JSFunction::m_executable[t1], t1 checkStackPointerAlignment(t3, 0xdead0001) if C_LOOP cloopCallNative executableOffsetToFunction[t1] else call executableOffsetToFunction[t1] end loadp ScopeChain[cfr], t3 andp MarkedBlockMask, t3 loadp MarkedBlock::m_weakSet + WeakSet::m_vm[t3], t3 addp 8, sp else error end functionEpilogue() bineq VM::m_exception + TagOffset[t3], EmptyValueTag, .handleException ret .handleException: storep cfr, VM::topCallFrame[t3] restoreStackPointerAfterCall() jmp _llint_throw_from_slow_path_trampoline end macro getGlobalObject(dst) loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 loadisFromInstruction(dst, t1) storei CellTag, TagOffset[cfr, t1, 8] storei t0, PayloadOffset[cfr, t1, 8] end macro varInjectionCheck(slowPath) loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 loadp JSGlobalObject::m_varInjectionWatchpoint[t0], t0 bbeq WatchpointSet::m_state[t0], IsInvalidated, slowPath end macro resolveScope() loadp CodeBlock[cfr], t0 loadisFromInstruction(4, t2) btbz CodeBlock::m_needsActivation[t0], .resolveScopeAfterActivationCheck loadis CodeBlock::m_activationRegister[t0], t1 btpz PayloadOffset[cfr, t1, 8], .resolveScopeAfterActivationCheck addi 1, t2 .resolveScopeAfterActivationCheck: loadp ScopeChain[cfr], t0 btiz t2, .resolveScopeLoopEnd .resolveScopeLoop: loadp JSScope::m_next[t0], t0 subi 1, t2 btinz t2, .resolveScopeLoop .resolveScopeLoopEnd: loadisFromInstruction(1, t1) storei CellTag, TagOffset[cfr, t1, 8] storei t0, PayloadOffset[cfr, t1, 8] end _llint_op_resolve_scope: traceExecution() loadisFromInstruction(3, t0) #rGlobalProperty: bineq t0, GlobalProperty, .rGlobalVar getGlobalObject(1) dispatch(6) .rGlobalVar: bineq t0, GlobalVar, .rClosureVar getGlobalObject(1) dispatch(6) .rClosureVar: bineq t0, ClosureVar, .rGlobalPropertyWithVarInjectionChecks resolveScope() dispatch(6) .rGlobalPropertyWithVarInjectionChecks: bineq t0, GlobalPropertyWithVarInjectionChecks, .rGlobalVarWithVarInjectionChecks varInjectionCheck(.rDynamic) getGlobalObject(1) dispatch(6) .rGlobalVarWithVarInjectionChecks: bineq t0, GlobalVarWithVarInjectionChecks, .rClosureVarWithVarInjectionChecks varInjectionCheck(.rDynamic) getGlobalObject(1) dispatch(6) .rClosureVarWithVarInjectionChecks: bineq t0, ClosureVarWithVarInjectionChecks, .rDynamic varInjectionCheck(.rDynamic) resolveScope() dispatch(6) .rDynamic: callSlowPath(_llint_slow_path_resolve_scope) dispatch(6) macro loadWithStructureCheck(operand, slowPath) loadisFromInstruction(operand, t0) loadp [cfr, t0, 8], t0 loadpFromInstruction(5, t1) bpneq JSCell::m_structureID[t0], t1, slowPath end macro getProperty() loadisFromInstruction(6, t3) loadPropertyAtVariableOffset(t3, t0, t1, t2) valueProfile(t1, t2, 28, t0) loadisFromInstruction(1, t0) storei t1, TagOffset[cfr, t0, 8] storei t2, PayloadOffset[cfr, t0, 8] end macro getGlobalVar() loadpFromInstruction(6, t0) loadp TagOffset[t0], t1 loadp PayloadOffset[t0], t2 valueProfile(t1, t2, 28, t0) loadisFromInstruction(1, t0) storei t1, TagOffset[cfr, t0, 8] storei t2, PayloadOffset[cfr, t0, 8] end macro getClosureVar() loadp JSVariableObject::m_registers[t0], t0 loadisFromInstruction(6, t3) loadp TagOffset[t0, t3, 8], t1 loadp PayloadOffset[t0, t3, 8], t2 valueProfile(t1, t2, 28, t0) loadisFromInstruction(1, t0) storei t1, TagOffset[cfr, t0, 8] storei t2, PayloadOffset[cfr, t0, 8] end _llint_op_get_from_scope: traceExecution() loadisFromInstruction(4, t0) andi ResolveModeMask, t0 #gGlobalProperty: bineq t0, GlobalProperty, .gGlobalVar loadWithStructureCheck(2, .gDynamic) getProperty() dispatch(8) .gGlobalVar: bineq t0, GlobalVar, .gClosureVar getGlobalVar() dispatch(8) .gClosureVar: bineq t0, ClosureVar, .gGlobalPropertyWithVarInjectionChecks loadVariable(2, t2, t1, t0) getClosureVar() dispatch(8) .gGlobalPropertyWithVarInjectionChecks: bineq t0, GlobalPropertyWithVarInjectionChecks, .gGlobalVarWithVarInjectionChecks loadWithStructureCheck(2, .gDynamic) getProperty() dispatch(8) .gGlobalVarWithVarInjectionChecks: bineq t0, GlobalVarWithVarInjectionChecks, .gClosureVarWithVarInjectionChecks varInjectionCheck(.gDynamic) loadVariable(2, t2, t1, t0) getGlobalVar() dispatch(8) .gClosureVarWithVarInjectionChecks: bineq t0, ClosureVarWithVarInjectionChecks, .gDynamic varInjectionCheck(.gDynamic) loadVariable(2, t2, t1, t0) getClosureVar() dispatch(8) .gDynamic: callSlowPath(_llint_slow_path_get_from_scope) dispatch(8) macro putProperty() loadisFromInstruction(3, t1) loadConstantOrVariable(t1, t2, t3) loadisFromInstruction(6, t1) storePropertyAtVariableOffset(t1, t0, t2, t3) end macro putGlobalVar() loadisFromInstruction(3, t0) loadConstantOrVariable(t0, t1, t2) loadpFromInstruction(5, t3) notifyWrite(t3, t1, t2, t0, .pDynamic) loadpFromInstruction(6, t0) storei t1, TagOffset[t0] storei t2, PayloadOffset[t0] end macro putClosureVar() loadisFromInstruction(3, t1) loadConstantOrVariable(t1, t2, t3) loadp JSVariableObject::m_registers[t0], t0 loadisFromInstruction(6, t1) storei t2, TagOffset[t0, t1, 8] storei t3, PayloadOffset[t0, t1, 8] end _llint_op_put_to_scope: traceExecution() loadisFromInstruction(4, t0) andi ResolveModeMask, t0 #pGlobalProperty: bineq t0, GlobalProperty, .pGlobalVar writeBarrierOnOperands(1, 3) loadWithStructureCheck(1, .pDynamic) putProperty() dispatch(7) .pGlobalVar: bineq t0, GlobalVar, .pClosureVar writeBarrierOnGlobalObject(3) putGlobalVar() dispatch(7) .pClosureVar: bineq t0, ClosureVar, .pGlobalPropertyWithVarInjectionChecks writeBarrierOnOperands(1, 3) loadVariable(1, t2, t1, t0) putClosureVar() dispatch(7) .pGlobalPropertyWithVarInjectionChecks: bineq t0, GlobalPropertyWithVarInjectionChecks, .pGlobalVarWithVarInjectionChecks writeBarrierOnOperands(1, 3) loadWithStructureCheck(1, .pDynamic) putProperty() dispatch(7) .pGlobalVarWithVarInjectionChecks: bineq t0, GlobalVarWithVarInjectionChecks, .pClosureVarWithVarInjectionChecks writeBarrierOnGlobalObject(3) varInjectionCheck(.pDynamic) putGlobalVar() dispatch(7) .pClosureVarWithVarInjectionChecks: bineq t0, ClosureVarWithVarInjectionChecks, .pDynamic writeBarrierOnOperands(1, 3) varInjectionCheck(.pDynamic) loadVariable(1, t2, t1, t0) putClosureVar() dispatch(7) .pDynamic: callSlowPath(_llint_slow_path_put_to_scope) dispatch(7)