Index: src/ia32/builtins-ia32.cc |
diff --git a/src/ia32/builtins-ia32.cc b/src/ia32/builtins-ia32.cc |
deleted file mode 100644 |
index 9037489aa8bf53702856dbcf5415220d3b1e352c..0000000000000000000000000000000000000000 |
--- a/src/ia32/builtins-ia32.cc |
+++ /dev/null |
@@ -1,3093 +0,0 @@ |
-// Copyright 2012 the V8 project authors. All rights reserved. |
-// Use of this source code is governed by a BSD-style license that can be |
-// found in the LICENSE file. |
- |
-#if V8_TARGET_ARCH_IA32 |
- |
-#include "src/code-factory.h" |
-#include "src/codegen.h" |
-#include "src/deoptimizer.h" |
-#include "src/full-codegen/full-codegen.h" |
-#include "src/ia32/frames-ia32.h" |
- |
-namespace v8 { |
-namespace internal { |
- |
- |
-#define __ ACCESS_MASM(masm) |
- |
-void Builtins::Generate_Adaptor(MacroAssembler* masm, CFunctionId id, |
- ExitFrameType exit_frame_type) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments excluding receiver |
- // -- edi : target |
- // -- edx : new.target |
- // -- esp[0] : return address |
- // -- esp[4] : last argument |
- // -- ... |
- // -- esp[4 * argc] : first argument |
- // -- esp[4 * (argc +1)] : receiver |
- // ----------------------------------- |
- __ AssertFunction(edi); |
- |
- // Make sure we operate in the context of the called function (for example |
- // ConstructStubs implemented in C++ will be run in the context of the caller |
- // instead of the callee, due to the way that [[Construct]] is defined for |
- // ordinary functions). |
- __ mov(esi, FieldOperand(edi, JSFunction::kContextOffset)); |
- |
- // JumpToExternalReference expects eax to contain the number of arguments |
- // including the receiver and the extra arguments. |
- const int num_extra_args = 3; |
- __ add(eax, Immediate(num_extra_args + 1)); |
- |
- // Insert extra arguments. |
- __ PopReturnAddressTo(ecx); |
- __ SmiTag(eax); |
- __ Push(eax); |
- __ SmiUntag(eax); |
- __ Push(edi); |
- __ Push(edx); |
- __ PushReturnAddressFrom(ecx); |
- |
- __ JumpToExternalReference(ExternalReference(id, masm->isolate()), |
- exit_frame_type == BUILTIN_EXIT); |
-} |
- |
-static void GenerateTailCallToReturnedCode(MacroAssembler* masm, |
- Runtime::FunctionId function_id) { |
- // ----------- S t a t e ------------- |
- // -- eax : argument count (preserved for callee) |
- // -- edx : new target (preserved for callee) |
- // -- edi : target function (preserved for callee) |
- // ----------------------------------- |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- // Push the number of arguments to the callee. |
- __ SmiTag(eax); |
- __ push(eax); |
- // Push a copy of the target function and the new target. |
- __ push(edi); |
- __ push(edx); |
- // Function is also the parameter to the runtime call. |
- __ push(edi); |
- |
- __ CallRuntime(function_id, 1); |
- __ mov(ebx, eax); |
- |
- // Restore target function and new target. |
- __ pop(edx); |
- __ pop(edi); |
- __ pop(eax); |
- __ SmiUntag(eax); |
- } |
- |
- __ lea(ebx, FieldOperand(ebx, Code::kHeaderSize)); |
- __ jmp(ebx); |
-} |
- |
-static void GenerateTailCallToSharedCode(MacroAssembler* masm) { |
- __ mov(ebx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(ebx, FieldOperand(ebx, SharedFunctionInfo::kCodeOffset)); |
- __ lea(ebx, FieldOperand(ebx, Code::kHeaderSize)); |
- __ jmp(ebx); |
-} |
- |
-void Builtins::Generate_InOptimizationQueue(MacroAssembler* masm) { |
- // Checking whether the queued function is ready for install is optional, |
- // since we come across interrupts and stack checks elsewhere. However, |
- // not checking may delay installing ready functions, and always checking |
- // would be quite expensive. A good compromise is to first check against |
- // stack limit as a cue for an interrupt signal. |
- Label ok; |
- ExternalReference stack_limit = |
- ExternalReference::address_of_stack_limit(masm->isolate()); |
- __ cmp(esp, Operand::StaticVariable(stack_limit)); |
- __ j(above_equal, &ok, Label::kNear); |
- |
- GenerateTailCallToReturnedCode(masm, Runtime::kTryInstallOptimizedCode); |
- |
- __ bind(&ok); |
- GenerateTailCallToSharedCode(masm); |
-} |
- |
-static void Generate_JSConstructStubHelper(MacroAssembler* masm, |
- bool is_api_function, |
- bool create_implicit_receiver, |
- bool check_derived_construct) { |
- // ----------- S t a t e ------------- |
- // -- eax: number of arguments |
- // -- esi: context |
- // -- edi: constructor function |
- // -- ebx: allocation site or undefined |
- // -- edx: new target |
- // ----------------------------------- |
- |
- // Enter a construct frame. |
- { |
- FrameScope scope(masm, StackFrame::CONSTRUCT); |
- |
- // Preserve the incoming parameters on the stack. |
- __ AssertUndefinedOrAllocationSite(ebx); |
- __ push(esi); |
- __ push(ebx); |
- __ SmiTag(eax); |
- __ push(eax); |
- |
- if (create_implicit_receiver) { |
- // Allocate the new receiver object. |
- __ Push(edi); |
- __ Push(edx); |
- FastNewObjectStub stub(masm->isolate()); |
- __ CallStub(&stub); |
- __ mov(ebx, eax); |
- __ Pop(edx); |
- __ Pop(edi); |
- |
- // ----------- S t a t e ------------- |
- // -- edi: constructor function |
- // -- ebx: newly allocated object |
- // -- edx: new target |
- // ----------------------------------- |
- |
- // Retrieve smi-tagged arguments count from the stack. |
- __ mov(eax, Operand(esp, 0)); |
- } |
- |
- __ SmiUntag(eax); |
- |
- if (create_implicit_receiver) { |
- // Push the allocated receiver to the stack. We need two copies |
- // because we may have to return the original one and the calling |
- // conventions dictate that the called function pops the receiver. |
- __ push(ebx); |
- __ push(ebx); |
- } else { |
- __ PushRoot(Heap::kTheHoleValueRootIndex); |
- } |
- |
- // Set up pointer to last argument. |
- __ lea(ebx, Operand(ebp, StandardFrameConstants::kCallerSPOffset)); |
- |
- // Copy arguments and receiver to the expression stack. |
- Label loop, entry; |
- __ mov(ecx, eax); |
- __ jmp(&entry); |
- __ bind(&loop); |
- __ push(Operand(ebx, ecx, times_4, 0)); |
- __ bind(&entry); |
- __ dec(ecx); |
- __ j(greater_equal, &loop); |
- |
- // Call the function. |
- ParameterCount actual(eax); |
- __ InvokeFunction(edi, edx, actual, CALL_FUNCTION, |
- CheckDebugStepCallWrapper()); |
- |
- // Store offset of return address for deoptimizer. |
- if (create_implicit_receiver && !is_api_function) { |
- masm->isolate()->heap()->SetConstructStubDeoptPCOffset(masm->pc_offset()); |
- } |
- |
- // Restore context from the frame. |
- __ mov(esi, Operand(ebp, ConstructFrameConstants::kContextOffset)); |
- |
- if (create_implicit_receiver) { |
- // If the result is an object (in the ECMA sense), we should get rid |
- // of the receiver and use the result. |
- Label use_receiver, exit; |
- |
- // If the result is a smi, it is *not* an object in the ECMA sense. |
- __ JumpIfSmi(eax, &use_receiver); |
- |
- // If the type of the result (stored in its map) is less than |
- // FIRST_JS_RECEIVER_TYPE, it is not an object in the ECMA sense. |
- __ CmpObjectType(eax, FIRST_JS_RECEIVER_TYPE, ecx); |
- __ j(above_equal, &exit); |
- |
- // Throw away the result of the constructor invocation and use the |
- // on-stack receiver as the result. |
- __ bind(&use_receiver); |
- __ mov(eax, Operand(esp, 0)); |
- |
- // Restore the arguments count and leave the construct frame. The |
- // arguments count is stored below the receiver. |
- __ bind(&exit); |
- __ mov(ebx, Operand(esp, 1 * kPointerSize)); |
- } else { |
- __ mov(ebx, Operand(esp, 0)); |
- } |
- |
- // Leave construct frame. |
- } |
- |
- // ES6 9.2.2. Step 13+ |
- // Check that the result is not a Smi, indicating that the constructor result |
- // from a derived class is neither undefined nor an Object. |
- if (check_derived_construct) { |
- Label dont_throw; |
- __ JumpIfNotSmi(eax, &dont_throw); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ CallRuntime(Runtime::kThrowDerivedConstructorReturnedNonObject); |
- } |
- __ bind(&dont_throw); |
- } |
- |
- // Remove caller arguments from the stack and return. |
- STATIC_ASSERT(kSmiTagSize == 1 && kSmiTag == 0); |
- __ pop(ecx); |
- __ lea(esp, Operand(esp, ebx, times_2, 1 * kPointerSize)); // 1 ~ receiver |
- __ push(ecx); |
- if (create_implicit_receiver) { |
- __ IncrementCounter(masm->isolate()->counters()->constructed_objects(), 1); |
- } |
- __ ret(0); |
-} |
- |
- |
-void Builtins::Generate_JSConstructStubGeneric(MacroAssembler* masm) { |
- Generate_JSConstructStubHelper(masm, false, true, false); |
-} |
- |
- |
-void Builtins::Generate_JSConstructStubApi(MacroAssembler* masm) { |
- Generate_JSConstructStubHelper(masm, true, false, false); |
-} |
- |
- |
-void Builtins::Generate_JSBuiltinsConstructStub(MacroAssembler* masm) { |
- Generate_JSConstructStubHelper(masm, false, false, false); |
-} |
- |
- |
-void Builtins::Generate_JSBuiltinsConstructStubForDerived( |
- MacroAssembler* masm) { |
- Generate_JSConstructStubHelper(masm, false, false, true); |
-} |
- |
- |
-void Builtins::Generate_ConstructedNonConstructable(MacroAssembler* masm) { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ push(edi); |
- __ CallRuntime(Runtime::kThrowConstructedNonConstructable); |
-} |
- |
- |
-enum IsTagged { kEaxIsSmiTagged, kEaxIsUntaggedInt }; |
- |
- |
-// Clobbers ecx, edx, edi; preserves all other registers. |
-static void Generate_CheckStackOverflow(MacroAssembler* masm, |
- IsTagged eax_is_tagged) { |
- // eax : the number of items to be pushed to the stack |
- // |
- // Check the stack for overflow. We are not trying to catch |
- // interruptions (e.g. debug break and preemption) here, so the "real stack |
- // limit" is checked. |
- Label okay; |
- ExternalReference real_stack_limit = |
- ExternalReference::address_of_real_stack_limit(masm->isolate()); |
- __ mov(edi, Operand::StaticVariable(real_stack_limit)); |
- // Make ecx the space we have left. The stack might already be overflowed |
- // here which will cause ecx to become negative. |
- __ mov(ecx, esp); |
- __ sub(ecx, edi); |
- // Make edx the space we need for the array when it is unrolled onto the |
- // stack. |
- __ mov(edx, eax); |
- int smi_tag = eax_is_tagged == kEaxIsSmiTagged ? kSmiTagSize : 0; |
- __ shl(edx, kPointerSizeLog2 - smi_tag); |
- // Check if the arguments will overflow the stack. |
- __ cmp(ecx, edx); |
- __ j(greater, &okay); // Signed comparison. |
- |
- // Out of stack space. |
- __ CallRuntime(Runtime::kThrowStackOverflow); |
- |
- __ bind(&okay); |
-} |
- |
- |
-static void Generate_JSEntryTrampolineHelper(MacroAssembler* masm, |
- bool is_construct) { |
- ProfileEntryHookStub::MaybeCallEntryHook(masm); |
- |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- |
- // Setup the context (we need to use the caller context from the isolate). |
- ExternalReference context_address(Isolate::kContextAddress, |
- masm->isolate()); |
- __ mov(esi, Operand::StaticVariable(context_address)); |
- |
- // Load the previous frame pointer (ebx) to access C arguments |
- __ mov(ebx, Operand(ebp, 0)); |
- |
- // Push the function and the receiver onto the stack. |
- __ push(Operand(ebx, EntryFrameConstants::kFunctionArgOffset)); |
- __ push(Operand(ebx, EntryFrameConstants::kReceiverArgOffset)); |
- |
- // Load the number of arguments and setup pointer to the arguments. |
- __ mov(eax, Operand(ebx, EntryFrameConstants::kArgcOffset)); |
- __ mov(ebx, Operand(ebx, EntryFrameConstants::kArgvOffset)); |
- |
- // Check if we have enough stack space to push all arguments. |
- // Expects argument count in eax. Clobbers ecx, edx, edi. |
- Generate_CheckStackOverflow(masm, kEaxIsUntaggedInt); |
- |
- // Copy arguments to the stack in a loop. |
- Label loop, entry; |
- __ Move(ecx, Immediate(0)); |
- __ jmp(&entry, Label::kNear); |
- __ bind(&loop); |
- __ mov(edx, Operand(ebx, ecx, times_4, 0)); // push parameter from argv |
- __ push(Operand(edx, 0)); // dereference handle |
- __ inc(ecx); |
- __ bind(&entry); |
- __ cmp(ecx, eax); |
- __ j(not_equal, &loop); |
- |
- // Load the previous frame pointer (ebx) to access C arguments |
- __ mov(ebx, Operand(ebp, 0)); |
- |
- // Get the new.target and function from the frame. |
- __ mov(edx, Operand(ebx, EntryFrameConstants::kNewTargetArgOffset)); |
- __ mov(edi, Operand(ebx, EntryFrameConstants::kFunctionArgOffset)); |
- |
- // Invoke the code. |
- Handle<Code> builtin = is_construct |
- ? masm->isolate()->builtins()->Construct() |
- : masm->isolate()->builtins()->Call(); |
- __ Call(builtin, RelocInfo::CODE_TARGET); |
- |
- // Exit the internal frame. Notice that this also removes the empty. |
- // context and the function left on the stack by the code |
- // invocation. |
- } |
- __ ret(kPointerSize); // Remove receiver. |
-} |
- |
- |
-void Builtins::Generate_JSEntryTrampoline(MacroAssembler* masm) { |
- Generate_JSEntryTrampolineHelper(masm, false); |
-} |
- |
- |
-void Builtins::Generate_JSConstructEntryTrampoline(MacroAssembler* masm) { |
- Generate_JSEntryTrampolineHelper(masm, true); |
-} |
- |
-// static |
-void Builtins::Generate_ResumeGeneratorTrampoline(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the value to pass to the generator |
- // -- ebx : the JSGeneratorObject to resume |
- // -- edx : the resume mode (tagged) |
- // -- esp[0] : return address |
- // ----------------------------------- |
- __ AssertGeneratorObject(ebx); |
- |
- // Store input value into generator object. |
- __ mov(FieldOperand(ebx, JSGeneratorObject::kInputOrDebugPosOffset), eax); |
- __ RecordWriteField(ebx, JSGeneratorObject::kInputOrDebugPosOffset, eax, ecx, |
- kDontSaveFPRegs); |
- |
- // Store resume mode into generator object. |
- __ mov(FieldOperand(ebx, JSGeneratorObject::kResumeModeOffset), edx); |
- |
- // Load suspended function and context. |
- __ mov(esi, FieldOperand(ebx, JSGeneratorObject::kContextOffset)); |
- __ mov(edi, FieldOperand(ebx, JSGeneratorObject::kFunctionOffset)); |
- |
- // Flood function if we are stepping. |
- Label prepare_step_in_if_stepping, prepare_step_in_suspended_generator; |
- Label stepping_prepared; |
- ExternalReference last_step_action = |
- ExternalReference::debug_last_step_action_address(masm->isolate()); |
- STATIC_ASSERT(StepFrame > StepIn); |
- __ cmpb(Operand::StaticVariable(last_step_action), Immediate(StepIn)); |
- __ j(greater_equal, &prepare_step_in_if_stepping); |
- |
- // Flood function if we need to continue stepping in the suspended generator. |
- ExternalReference debug_suspended_generator = |
- ExternalReference::debug_suspended_generator_address(masm->isolate()); |
- __ cmp(ebx, Operand::StaticVariable(debug_suspended_generator)); |
- __ j(equal, &prepare_step_in_suspended_generator); |
- __ bind(&stepping_prepared); |
- |
- // Pop return address. |
- __ PopReturnAddressTo(eax); |
- |
- // Push receiver. |
- __ Push(FieldOperand(ebx, JSGeneratorObject::kReceiverOffset)); |
- |
- // ----------- S t a t e ------------- |
- // -- eax : return address |
- // -- ebx : the JSGeneratorObject to resume |
- // -- edx : the resume mode (tagged) |
- // -- edi : generator function |
- // -- esi : generator context |
- // -- esp[0] : generator receiver |
- // ----------------------------------- |
- |
- // Push holes for arguments to generator function. Since the parser forced |
- // context allocation for any variables in generators, the actual argument |
- // values have already been copied into the context and these dummy values |
- // will never be used. |
- __ mov(ecx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(ecx, |
- FieldOperand(ecx, SharedFunctionInfo::kFormalParameterCountOffset)); |
- { |
- Label done_loop, loop; |
- __ bind(&loop); |
- __ sub(ecx, Immediate(Smi::FromInt(1))); |
- __ j(carry, &done_loop, Label::kNear); |
- __ PushRoot(Heap::kTheHoleValueRootIndex); |
- __ jmp(&loop); |
- __ bind(&done_loop); |
- } |
- |
- // Dispatch on the kind of generator object. |
- Label old_generator; |
- __ mov(ecx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(ecx, FieldOperand(ecx, SharedFunctionInfo::kFunctionDataOffset)); |
- __ CmpObjectType(ecx, BYTECODE_ARRAY_TYPE, ecx); |
- __ j(not_equal, &old_generator); |
- |
- // New-style (ignition/turbofan) generator object |
- { |
- __ PushReturnAddressFrom(eax); |
- __ mov(eax, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(eax, |
- FieldOperand(ecx, SharedFunctionInfo::kFormalParameterCountOffset)); |
- // We abuse new.target both to indicate that this is a resume call and to |
- // pass in the generator object. In ordinary calls, new.target is always |
- // undefined because generator functions are non-constructable. |
- __ mov(edx, ebx); |
- __ jmp(FieldOperand(edi, JSFunction::kCodeEntryOffset)); |
- } |
- |
- // Old-style (full-codegen) generator object |
- __ bind(&old_generator); |
- { |
- // Enter a new JavaScript frame, and initialize its slots as they were when |
- // the generator was suspended. |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ PushReturnAddressFrom(eax); // Return address. |
- __ Push(ebp); // Caller's frame pointer. |
- __ Move(ebp, esp); |
- __ Push(esi); // Callee's context. |
- __ Push(edi); // Callee's JS Function. |
- |
- // Restore the operand stack. |
- __ mov(eax, FieldOperand(ebx, JSGeneratorObject::kOperandStackOffset)); |
- { |
- Label done_loop, loop; |
- __ Move(ecx, Smi::FromInt(0)); |
- __ bind(&loop); |
- __ cmp(ecx, FieldOperand(eax, FixedArray::kLengthOffset)); |
- __ j(equal, &done_loop, Label::kNear); |
- __ Push(FieldOperand(eax, ecx, times_half_pointer_size, |
- FixedArray::kHeaderSize)); |
- __ add(ecx, Immediate(Smi::FromInt(1))); |
- __ jmp(&loop); |
- __ bind(&done_loop); |
- } |
- |
- // Reset operand stack so we don't leak. |
- __ mov(FieldOperand(ebx, JSGeneratorObject::kOperandStackOffset), |
- Immediate(masm->isolate()->factory()->empty_fixed_array())); |
- |
- // Resume the generator function at the continuation. |
- __ mov(edx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(edx, FieldOperand(edx, SharedFunctionInfo::kCodeOffset)); |
- __ mov(ecx, FieldOperand(ebx, JSGeneratorObject::kContinuationOffset)); |
- __ SmiUntag(ecx); |
- __ lea(edx, FieldOperand(edx, ecx, times_1, Code::kHeaderSize)); |
- __ mov(FieldOperand(ebx, JSGeneratorObject::kContinuationOffset), |
- Immediate(Smi::FromInt(JSGeneratorObject::kGeneratorExecuting))); |
- __ mov(eax, ebx); // Continuation expects generator object in eax. |
- __ jmp(edx); |
- } |
- |
- __ bind(&prepare_step_in_if_stepping); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ Push(ebx); |
- __ Push(edx); |
- __ Push(edi); |
- __ CallRuntime(Runtime::kDebugPrepareStepInIfStepping); |
- __ Pop(edx); |
- __ Pop(ebx); |
- __ mov(edi, FieldOperand(ebx, JSGeneratorObject::kFunctionOffset)); |
- } |
- __ jmp(&stepping_prepared); |
- |
- __ bind(&prepare_step_in_suspended_generator); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ Push(ebx); |
- __ Push(edx); |
- __ CallRuntime(Runtime::kDebugPrepareStepInSuspendedGenerator); |
- __ Pop(edx); |
- __ Pop(ebx); |
- __ mov(edi, FieldOperand(ebx, JSGeneratorObject::kFunctionOffset)); |
- } |
- __ jmp(&stepping_prepared); |
-} |
- |
-static void LeaveInterpreterFrame(MacroAssembler* masm, Register scratch1, |
- Register scratch2) { |
- Register args_count = scratch1; |
- Register return_pc = scratch2; |
- |
- // Get the arguments + reciever count. |
- __ mov(args_count, |
- Operand(ebp, InterpreterFrameConstants::kBytecodeArrayFromFp)); |
- __ mov(args_count, |
- FieldOperand(args_count, BytecodeArray::kParameterSizeOffset)); |
- |
- // Leave the frame (also dropping the register file). |
- __ leave(); |
- |
- // Drop receiver + arguments. |
- __ pop(return_pc); |
- __ add(esp, args_count); |
- __ push(return_pc); |
-} |
- |
-// Generate code for entering a JS function with the interpreter. |
-// On entry to the function the receiver and arguments have been pushed on the |
-// stack left to right. The actual argument count matches the formal parameter |
-// count expected by the function. |
-// |
-// The live registers are: |
-// o edi: the JS function object being called |
-// o edx: the new target |
-// o esi: our context |
-// o ebp: the caller's frame pointer |
-// o esp: stack pointer (pointing to return address) |
-// |
-// The function builds an interpreter frame. See InterpreterFrameConstants in |
-// frames.h for its layout. |
-void Builtins::Generate_InterpreterEntryTrampoline(MacroAssembler* masm) { |
- ProfileEntryHookStub::MaybeCallEntryHook(masm); |
- |
- // Open a frame scope to indicate that there is a frame on the stack. The |
- // MANUAL indicates that the scope shouldn't actually generate code to set up |
- // the frame (that is done below). |
- FrameScope frame_scope(masm, StackFrame::MANUAL); |
- __ push(ebp); // Caller's frame pointer. |
- __ mov(ebp, esp); |
- __ push(esi); // Callee's context. |
- __ push(edi); // Callee's JS function. |
- __ push(edx); // Callee's new target. |
- |
- // Get the bytecode array from the function object (or from the DebugInfo if |
- // it is present) and load it into kInterpreterBytecodeArrayRegister. |
- __ mov(eax, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- Label load_debug_bytecode_array, bytecode_array_loaded; |
- __ cmp(FieldOperand(eax, SharedFunctionInfo::kDebugInfoOffset), |
- Immediate(DebugInfo::uninitialized())); |
- __ j(not_equal, &load_debug_bytecode_array); |
- __ mov(kInterpreterBytecodeArrayRegister, |
- FieldOperand(eax, SharedFunctionInfo::kFunctionDataOffset)); |
- __ bind(&bytecode_array_loaded); |
- |
- // Check function data field is actually a BytecodeArray object. |
- Label bytecode_array_not_present; |
- __ CompareRoot(kInterpreterBytecodeArrayRegister, |
- Heap::kUndefinedValueRootIndex); |
- __ j(equal, &bytecode_array_not_present); |
- if (FLAG_debug_code) { |
- __ AssertNotSmi(kInterpreterBytecodeArrayRegister); |
- __ CmpObjectType(kInterpreterBytecodeArrayRegister, BYTECODE_ARRAY_TYPE, |
- eax); |
- __ Assert(equal, kFunctionDataShouldBeBytecodeArrayOnInterpreterEntry); |
- } |
- |
- // Push bytecode array. |
- __ push(kInterpreterBytecodeArrayRegister); |
- // Push Smi tagged initial bytecode array offset. |
- __ push(Immediate(Smi::FromInt(BytecodeArray::kHeaderSize - kHeapObjectTag))); |
- |
- // Allocate the local and temporary register file on the stack. |
- { |
- // Load frame size from the BytecodeArray object. |
- __ mov(ebx, FieldOperand(kInterpreterBytecodeArrayRegister, |
- BytecodeArray::kFrameSizeOffset)); |
- |
- // Do a stack check to ensure we don't go over the limit. |
- Label ok; |
- __ mov(ecx, esp); |
- __ sub(ecx, ebx); |
- ExternalReference stack_limit = |
- ExternalReference::address_of_real_stack_limit(masm->isolate()); |
- __ cmp(ecx, Operand::StaticVariable(stack_limit)); |
- __ j(above_equal, &ok); |
- __ CallRuntime(Runtime::kThrowStackOverflow); |
- __ bind(&ok); |
- |
- // If ok, push undefined as the initial value for all register file entries. |
- Label loop_header; |
- Label loop_check; |
- __ mov(eax, Immediate(masm->isolate()->factory()->undefined_value())); |
- __ jmp(&loop_check); |
- __ bind(&loop_header); |
- // TODO(rmcilroy): Consider doing more than one push per loop iteration. |
- __ push(eax); |
- // Continue loop if not done. |
- __ bind(&loop_check); |
- __ sub(ebx, Immediate(kPointerSize)); |
- __ j(greater_equal, &loop_header); |
- } |
- |
- // Load accumulator, bytecode offset and dispatch table into registers. |
- __ LoadRoot(kInterpreterAccumulatorRegister, Heap::kUndefinedValueRootIndex); |
- __ mov(kInterpreterBytecodeOffsetRegister, |
- Immediate(BytecodeArray::kHeaderSize - kHeapObjectTag)); |
- __ mov(kInterpreterDispatchTableRegister, |
- Immediate(ExternalReference::interpreter_dispatch_table_address( |
- masm->isolate()))); |
- |
- // Dispatch to the first bytecode handler for the function. |
- __ movzx_b(ebx, Operand(kInterpreterBytecodeArrayRegister, |
- kInterpreterBytecodeOffsetRegister, times_1, 0)); |
- __ mov(ebx, Operand(kInterpreterDispatchTableRegister, ebx, |
- times_pointer_size, 0)); |
- __ call(ebx); |
- masm->isolate()->heap()->SetInterpreterEntryReturnPCOffset(masm->pc_offset()); |
- |
- // The return value is in eax. |
- LeaveInterpreterFrame(masm, ebx, ecx); |
- __ ret(0); |
- |
- // Load debug copy of the bytecode array. |
- __ bind(&load_debug_bytecode_array); |
- Register debug_info = kInterpreterBytecodeArrayRegister; |
- __ mov(debug_info, FieldOperand(eax, SharedFunctionInfo::kDebugInfoOffset)); |
- __ mov(kInterpreterBytecodeArrayRegister, |
- FieldOperand(debug_info, DebugInfo::kAbstractCodeIndex)); |
- __ jmp(&bytecode_array_loaded); |
- |
- // If the bytecode array is no longer present, then the underlying function |
- // has been switched to a different kind of code and we heal the closure by |
- // switching the code entry field over to the new code object as well. |
- __ bind(&bytecode_array_not_present); |
- __ pop(edx); // Callee's new target. |
- __ pop(edi); // Callee's JS function. |
- __ pop(esi); // Callee's context. |
- __ leave(); // Leave the frame so we can tail call. |
- __ mov(ecx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(ecx, FieldOperand(ecx, SharedFunctionInfo::kCodeOffset)); |
- __ lea(ecx, FieldOperand(ecx, Code::kHeaderSize)); |
- __ mov(FieldOperand(edi, JSFunction::kCodeEntryOffset), ecx); |
- __ RecordWriteCodeEntryField(edi, ecx, ebx); |
- __ jmp(ecx); |
-} |
- |
-void Builtins::Generate_InterpreterMarkBaselineOnReturn(MacroAssembler* masm) { |
- // Save the function and context for call to CompileBaseline. |
- __ mov(edi, Operand(ebp, StandardFrameConstants::kFunctionOffset)); |
- __ mov(kContextRegister, |
- Operand(ebp, StandardFrameConstants::kContextOffset)); |
- |
- // Leave the frame before recompiling for baseline so that we don't count as |
- // an activation on the stack. |
- LeaveInterpreterFrame(masm, ebx, ecx); |
- |
- { |
- FrameScope frame_scope(masm, StackFrame::INTERNAL); |
- // Push return value. |
- __ push(eax); |
- |
- // Push function as argument and compile for baseline. |
- __ push(edi); |
- __ CallRuntime(Runtime::kCompileBaseline); |
- |
- // Restore return value. |
- __ pop(eax); |
- } |
- __ ret(0); |
-} |
- |
-static void Generate_InterpreterPushArgs(MacroAssembler* masm, |
- Register array_limit) { |
- // ----------- S t a t e ------------- |
- // -- ebx : Pointer to the last argument in the args array. |
- // -- array_limit : Pointer to one before the first argument in the |
- // args array. |
- // ----------------------------------- |
- Label loop_header, loop_check; |
- __ jmp(&loop_check); |
- __ bind(&loop_header); |
- __ Push(Operand(ebx, 0)); |
- __ sub(ebx, Immediate(kPointerSize)); |
- __ bind(&loop_check); |
- __ cmp(ebx, array_limit); |
- __ j(greater, &loop_header, Label::kNear); |
-} |
- |
-// static |
-void Builtins::Generate_InterpreterPushArgsAndCallImpl( |
- MacroAssembler* masm, TailCallMode tail_call_mode, |
- CallableType function_type) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- ebx : the address of the first argument to be pushed. Subsequent |
- // arguments should be consecutive above this, in the same order as |
- // they are to be pushed onto the stack. |
- // -- edi : the target to call (can be any Object). |
- // ----------------------------------- |
- |
- // Pop return address to allow tail-call after pushing arguments. |
- __ Pop(edx); |
- |
- // Find the address of the last argument. |
- __ mov(ecx, eax); |
- __ add(ecx, Immediate(1)); // Add one for receiver. |
- __ shl(ecx, kPointerSizeLog2); |
- __ neg(ecx); |
- __ add(ecx, ebx); |
- |
- Generate_InterpreterPushArgs(masm, ecx); |
- |
- // Call the target. |
- __ Push(edx); // Re-push return address. |
- |
- if (function_type == CallableType::kJSFunction) { |
- __ Jump(masm->isolate()->builtins()->CallFunction(ConvertReceiverMode::kAny, |
- tail_call_mode), |
- RelocInfo::CODE_TARGET); |
- } else { |
- DCHECK_EQ(function_type, CallableType::kAny); |
- __ Jump(masm->isolate()->builtins()->Call(ConvertReceiverMode::kAny, |
- tail_call_mode), |
- RelocInfo::CODE_TARGET); |
- } |
-} |
- |
- |
-// static |
-void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : the new target |
- // -- edi : the constructor |
- // -- ebx : the address of the first argument to be pushed. Subsequent |
- // arguments should be consecutive above this, in the same order as |
- // they are to be pushed onto the stack. |
- // ----------------------------------- |
- |
- // Pop return address to allow tail-call after pushing arguments. |
- __ Pop(ecx); |
- |
- // Push edi in the slot meant for receiver. We need an extra register |
- // so store edi temporarily on stack. |
- __ Push(edi); |
- |
- // Find the address of the last argument. |
- __ mov(edi, eax); |
- __ neg(edi); |
- __ shl(edi, kPointerSizeLog2); |
- __ add(edi, ebx); |
- |
- Generate_InterpreterPushArgs(masm, edi); |
- |
- // Restore the constructor from slot on stack. It was pushed at the slot |
- // meant for receiver. |
- __ mov(edi, Operand(esp, eax, times_pointer_size, 0)); |
- |
- // Re-push return address. |
- __ Push(ecx); |
- |
- // Call the constructor with unmodified eax, edi, ebi values. |
- __ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET); |
-} |
- |
-void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) { |
- // Set the return address to the correct point in the interpreter entry |
- // trampoline. |
- Smi* interpreter_entry_return_pc_offset( |
- masm->isolate()->heap()->interpreter_entry_return_pc_offset()); |
- DCHECK_NE(interpreter_entry_return_pc_offset, Smi::FromInt(0)); |
- __ LoadHeapObject(ebx, |
- masm->isolate()->builtins()->InterpreterEntryTrampoline()); |
- __ add(ebx, Immediate(interpreter_entry_return_pc_offset->value() + |
- Code::kHeaderSize - kHeapObjectTag)); |
- __ push(ebx); |
- |
- // Initialize the dispatch table register. |
- __ mov(kInterpreterDispatchTableRegister, |
- Immediate(ExternalReference::interpreter_dispatch_table_address( |
- masm->isolate()))); |
- |
- // Get the bytecode array pointer from the frame. |
- __ mov(kInterpreterBytecodeArrayRegister, |
- Operand(ebp, InterpreterFrameConstants::kBytecodeArrayFromFp)); |
- |
- if (FLAG_debug_code) { |
- // Check function data field is actually a BytecodeArray object. |
- __ AssertNotSmi(kInterpreterBytecodeArrayRegister); |
- __ CmpObjectType(kInterpreterBytecodeArrayRegister, BYTECODE_ARRAY_TYPE, |
- ebx); |
- __ Assert(equal, kFunctionDataShouldBeBytecodeArrayOnInterpreterEntry); |
- } |
- |
- // Get the target bytecode offset from the frame. |
- __ mov(kInterpreterBytecodeOffsetRegister, |
- Operand(ebp, InterpreterFrameConstants::kBytecodeOffsetFromFp)); |
- __ SmiUntag(kInterpreterBytecodeOffsetRegister); |
- |
- // Dispatch to the target bytecode. |
- __ movzx_b(ebx, Operand(kInterpreterBytecodeArrayRegister, |
- kInterpreterBytecodeOffsetRegister, times_1, 0)); |
- __ mov(ebx, Operand(kInterpreterDispatchTableRegister, ebx, |
- times_pointer_size, 0)); |
- __ jmp(ebx); |
-} |
- |
-void Builtins::Generate_CompileLazy(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argument count (preserved for callee) |
- // -- edx : new target (preserved for callee) |
- // -- edi : target function (preserved for callee) |
- // ----------------------------------- |
- // First lookup code, maybe we don't need to compile! |
- Label gotta_call_runtime, gotta_call_runtime_no_stack; |
- Label maybe_call_runtime; |
- Label try_shared; |
- Label loop_top, loop_bottom; |
- |
- Register closure = edi; |
- Register new_target = edx; |
- Register argument_count = eax; |
- |
- __ push(argument_count); |
- __ push(new_target); |
- __ push(closure); |
- |
- Register map = argument_count; |
- Register index = ebx; |
- __ mov(map, FieldOperand(closure, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(map, FieldOperand(map, SharedFunctionInfo::kOptimizedCodeMapOffset)); |
- __ mov(index, FieldOperand(map, FixedArray::kLengthOffset)); |
- __ cmp(index, Immediate(Smi::FromInt(2))); |
- __ j(less, &gotta_call_runtime); |
- |
- // Find literals. |
- // edx : native context |
- // ebx : length / index |
- // eax : optimized code map |
- // stack[0] : new target |
- // stack[4] : closure |
- Register native_context = edx; |
- __ mov(native_context, NativeContextOperand()); |
- |
- __ bind(&loop_top); |
- Register temp = edi; |
- |
- // Does the native context match? |
- __ mov(temp, FieldOperand(map, index, times_half_pointer_size, |
- SharedFunctionInfo::kOffsetToPreviousContext)); |
- __ mov(temp, FieldOperand(temp, WeakCell::kValueOffset)); |
- __ cmp(temp, native_context); |
- __ j(not_equal, &loop_bottom); |
- // OSR id set to none? |
- __ mov(temp, FieldOperand(map, index, times_half_pointer_size, |
- SharedFunctionInfo::kOffsetToPreviousOsrAstId)); |
- const int bailout_id = BailoutId::None().ToInt(); |
- __ cmp(temp, Immediate(Smi::FromInt(bailout_id))); |
- __ j(not_equal, &loop_bottom); |
- |
- // Literals available? |
- Label got_literals, maybe_cleared_weakcell; |
- __ mov(temp, FieldOperand(map, index, times_half_pointer_size, |
- SharedFunctionInfo::kOffsetToPreviousLiterals)); |
- |
- // temp contains either a WeakCell pointing to the literals array or the |
- // literals array directly. |
- STATIC_ASSERT(WeakCell::kValueOffset == FixedArray::kLengthOffset); |
- __ JumpIfSmi(FieldOperand(temp, WeakCell::kValueOffset), |
- &maybe_cleared_weakcell); |
- // The WeakCell value is a pointer, therefore it's a valid literals array. |
- __ mov(temp, FieldOperand(temp, WeakCell::kValueOffset)); |
- __ jmp(&got_literals); |
- |
- // We have a smi. If it's 0, then we are looking at a cleared WeakCell |
- // around the literals array, and we should visit the runtime. If it's > 0, |
- // then temp already contains the literals array. |
- __ bind(&maybe_cleared_weakcell); |
- __ cmp(FieldOperand(temp, WeakCell::kValueOffset), Immediate(0)); |
- __ j(equal, &gotta_call_runtime); |
- |
- // Save the literals in the closure. |
- __ bind(&got_literals); |
- __ mov(ecx, Operand(esp, 0)); |
- __ mov(FieldOperand(ecx, JSFunction::kLiteralsOffset), temp); |
- __ push(index); |
- __ RecordWriteField(ecx, JSFunction::kLiteralsOffset, temp, index, |
- kDontSaveFPRegs, EMIT_REMEMBERED_SET, OMIT_SMI_CHECK); |
- __ pop(index); |
- |
- // Code available? |
- Register entry = ecx; |
- __ mov(entry, FieldOperand(map, index, times_half_pointer_size, |
- SharedFunctionInfo::kOffsetToPreviousCachedCode)); |
- __ mov(entry, FieldOperand(entry, WeakCell::kValueOffset)); |
- __ JumpIfSmi(entry, &maybe_call_runtime); |
- |
- // Found literals and code. Get them into the closure and return. |
- __ pop(closure); |
- // Store code entry in the closure. |
- __ lea(entry, FieldOperand(entry, Code::kHeaderSize)); |
- |
- Label install_optimized_code_and_tailcall; |
- __ bind(&install_optimized_code_and_tailcall); |
- __ mov(FieldOperand(closure, JSFunction::kCodeEntryOffset), entry); |
- __ RecordWriteCodeEntryField(closure, entry, eax); |
- |
- // Link the closure into the optimized function list. |
- // ecx : code entry |
- // edx : native context |
- // edi : closure |
- __ mov(ebx, |
- ContextOperand(native_context, Context::OPTIMIZED_FUNCTIONS_LIST)); |
- __ mov(FieldOperand(closure, JSFunction::kNextFunctionLinkOffset), ebx); |
- __ RecordWriteField(closure, JSFunction::kNextFunctionLinkOffset, ebx, eax, |
- kDontSaveFPRegs, EMIT_REMEMBERED_SET, OMIT_SMI_CHECK); |
- const int function_list_offset = |
- Context::SlotOffset(Context::OPTIMIZED_FUNCTIONS_LIST); |
- __ mov(ContextOperand(native_context, Context::OPTIMIZED_FUNCTIONS_LIST), |
- closure); |
- // Save closure before the write barrier. |
- __ mov(ebx, closure); |
- __ RecordWriteContextSlot(native_context, function_list_offset, closure, eax, |
- kDontSaveFPRegs); |
- __ mov(closure, ebx); |
- __ pop(new_target); |
- __ pop(argument_count); |
- __ jmp(entry); |
- |
- __ bind(&loop_bottom); |
- __ sub(index, Immediate(Smi::FromInt(SharedFunctionInfo::kEntryLength))); |
- __ cmp(index, Immediate(Smi::FromInt(1))); |
- __ j(greater, &loop_top); |
- |
- // We found neither literals nor code. |
- __ jmp(&gotta_call_runtime); |
- |
- __ bind(&maybe_call_runtime); |
- __ pop(closure); |
- |
- // Last possibility. Check the context free optimized code map entry. |
- __ mov(entry, FieldOperand(map, FixedArray::kHeaderSize + |
- SharedFunctionInfo::kSharedCodeIndex)); |
- __ mov(entry, FieldOperand(entry, WeakCell::kValueOffset)); |
- __ JumpIfSmi(entry, &try_shared); |
- |
- // Store code entry in the closure. |
- __ lea(entry, FieldOperand(entry, Code::kHeaderSize)); |
- __ jmp(&install_optimized_code_and_tailcall); |
- |
- __ bind(&try_shared); |
- __ pop(new_target); |
- __ pop(argument_count); |
- // Is the full code valid? |
- __ mov(entry, FieldOperand(closure, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(entry, FieldOperand(entry, SharedFunctionInfo::kCodeOffset)); |
- __ mov(ebx, FieldOperand(entry, Code::kFlagsOffset)); |
- __ and_(ebx, Code::KindField::kMask); |
- __ shr(ebx, Code::KindField::kShift); |
- __ cmp(ebx, Immediate(Code::BUILTIN)); |
- __ j(equal, &gotta_call_runtime_no_stack); |
- // Yes, install the full code. |
- __ lea(entry, FieldOperand(entry, Code::kHeaderSize)); |
- __ mov(FieldOperand(closure, JSFunction::kCodeEntryOffset), entry); |
- __ RecordWriteCodeEntryField(closure, entry, ebx); |
- __ jmp(entry); |
- |
- __ bind(&gotta_call_runtime); |
- __ pop(closure); |
- __ pop(new_target); |
- __ pop(argument_count); |
- __ bind(&gotta_call_runtime_no_stack); |
- |
- GenerateTailCallToReturnedCode(masm, Runtime::kCompileLazy); |
-} |
- |
-void Builtins::Generate_CompileBaseline(MacroAssembler* masm) { |
- GenerateTailCallToReturnedCode(masm, Runtime::kCompileBaseline); |
-} |
- |
-void Builtins::Generate_CompileOptimized(MacroAssembler* masm) { |
- GenerateTailCallToReturnedCode(masm, |
- Runtime::kCompileOptimized_NotConcurrent); |
-} |
- |
- |
-void Builtins::Generate_CompileOptimizedConcurrent(MacroAssembler* masm) { |
- GenerateTailCallToReturnedCode(masm, Runtime::kCompileOptimized_Concurrent); |
-} |
- |
-void Builtins::Generate_InstantiateAsmJs(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argument count (preserved for callee) |
- // -- edx : new target (preserved for callee) |
- // -- edi : target function (preserved for callee) |
- // ----------------------------------- |
- Label failed; |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- // Push the number of arguments to the callee. |
- __ SmiTag(eax); |
- __ push(eax); |
- // Push a copy of the target function and the new target. |
- __ push(edi); |
- __ push(edx); |
- |
- // The function. |
- __ push(edi); |
- // Copy arguments from caller (stdlib, foreign, heap). |
- for (int i = 2; i >= 0; --i) { |
- __ push(Operand( |
- ebp, StandardFrameConstants::kCallerSPOffset + i * kPointerSize)); |
- } |
- // Call runtime, on success unwind frame, and parent frame. |
- __ CallRuntime(Runtime::kInstantiateAsmJs, 4); |
- // A smi 0 is returned on failure, an object on success. |
- __ JumpIfSmi(eax, &failed, Label::kNear); |
- scope.GenerateLeaveFrame(); |
- __ ret(4 * kPointerSize); |
- |
- __ bind(&failed); |
- // Restore target function and new target. |
- __ pop(edx); |
- __ pop(edi); |
- __ pop(eax); |
- __ SmiUntag(eax); |
- } |
- // On failure, tail call back to regular js. |
- GenerateTailCallToReturnedCode(masm, Runtime::kCompileLazy); |
-} |
- |
-static void GenerateMakeCodeYoungAgainCommon(MacroAssembler* masm) { |
- // For now, we are relying on the fact that make_code_young doesn't do any |
- // garbage collection which allows us to save/restore the registers without |
- // worrying about which of them contain pointers. We also don't build an |
- // internal frame to make the code faster, since we shouldn't have to do stack |
- // crawls in MakeCodeYoung. This seems a bit fragile. |
- |
- // Re-execute the code that was patched back to the young age when |
- // the stub returns. |
- __ sub(Operand(esp, 0), Immediate(5)); |
- __ pushad(); |
- __ mov(eax, Operand(esp, 8 * kPointerSize)); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ PrepareCallCFunction(2, ebx); |
- __ mov(Operand(esp, 1 * kPointerSize), |
- Immediate(ExternalReference::isolate_address(masm->isolate()))); |
- __ mov(Operand(esp, 0), eax); |
- __ CallCFunction( |
- ExternalReference::get_make_code_young_function(masm->isolate()), 2); |
- } |
- __ popad(); |
- __ ret(0); |
-} |
- |
-#define DEFINE_CODE_AGE_BUILTIN_GENERATOR(C) \ |
-void Builtins::Generate_Make##C##CodeYoungAgainEvenMarking( \ |
- MacroAssembler* masm) { \ |
- GenerateMakeCodeYoungAgainCommon(masm); \ |
-} \ |
-void Builtins::Generate_Make##C##CodeYoungAgainOddMarking( \ |
- MacroAssembler* masm) { \ |
- GenerateMakeCodeYoungAgainCommon(masm); \ |
-} |
-CODE_AGE_LIST(DEFINE_CODE_AGE_BUILTIN_GENERATOR) |
-#undef DEFINE_CODE_AGE_BUILTIN_GENERATOR |
- |
- |
-void Builtins::Generate_MarkCodeAsExecutedOnce(MacroAssembler* masm) { |
- // For now, as in GenerateMakeCodeYoungAgainCommon, we are relying on the fact |
- // that make_code_young doesn't do any garbage collection which allows us to |
- // save/restore the registers without worrying about which of them contain |
- // pointers. |
- __ pushad(); |
- __ mov(eax, Operand(esp, 8 * kPointerSize)); |
- __ sub(eax, Immediate(Assembler::kCallInstructionLength)); |
- { // NOLINT |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ PrepareCallCFunction(2, ebx); |
- __ mov(Operand(esp, 1 * kPointerSize), |
- Immediate(ExternalReference::isolate_address(masm->isolate()))); |
- __ mov(Operand(esp, 0), eax); |
- __ CallCFunction( |
- ExternalReference::get_mark_code_as_executed_function(masm->isolate()), |
- 2); |
- } |
- __ popad(); |
- |
- // Perform prologue operations usually performed by the young code stub. |
- __ pop(eax); // Pop return address into scratch register. |
- __ push(ebp); // Caller's frame pointer. |
- __ mov(ebp, esp); |
- __ push(esi); // Callee's context. |
- __ push(edi); // Callee's JS Function. |
- __ push(eax); // Push return address after frame prologue. |
- |
- // Jump to point after the code-age stub. |
- __ ret(0); |
-} |
- |
- |
-void Builtins::Generate_MarkCodeAsExecutedTwice(MacroAssembler* masm) { |
- GenerateMakeCodeYoungAgainCommon(masm); |
-} |
- |
- |
-void Builtins::Generate_MarkCodeAsToBeExecutedOnce(MacroAssembler* masm) { |
- Generate_MarkCodeAsExecutedOnce(masm); |
-} |
- |
- |
-static void Generate_NotifyStubFailureHelper(MacroAssembler* masm, |
- SaveFPRegsMode save_doubles) { |
- // Enter an internal frame. |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- |
- // Preserve registers across notification, this is important for compiled |
- // stubs that tail call the runtime on deopts passing their parameters in |
- // registers. |
- __ pushad(); |
- __ CallRuntime(Runtime::kNotifyStubFailure, save_doubles); |
- __ popad(); |
- // Tear down internal frame. |
- } |
- |
- __ pop(MemOperand(esp, 0)); // Ignore state offset |
- __ ret(0); // Return to IC Miss stub, continuation still on stack. |
-} |
- |
- |
-void Builtins::Generate_NotifyStubFailure(MacroAssembler* masm) { |
- Generate_NotifyStubFailureHelper(masm, kDontSaveFPRegs); |
-} |
- |
- |
-void Builtins::Generate_NotifyStubFailureSaveDoubles(MacroAssembler* masm) { |
- Generate_NotifyStubFailureHelper(masm, kSaveFPRegs); |
-} |
- |
- |
-static void Generate_NotifyDeoptimizedHelper(MacroAssembler* masm, |
- Deoptimizer::BailoutType type) { |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- |
- // Pass deoptimization type to the runtime system. |
- __ push(Immediate(Smi::FromInt(static_cast<int>(type)))); |
- __ CallRuntime(Runtime::kNotifyDeoptimized); |
- |
- // Tear down internal frame. |
- } |
- |
- // Get the full codegen state from the stack and untag it. |
- __ mov(ecx, Operand(esp, 1 * kPointerSize)); |
- __ SmiUntag(ecx); |
- |
- // Switch on the state. |
- Label not_no_registers, not_tos_eax; |
- __ cmp(ecx, static_cast<int>(Deoptimizer::BailoutState::NO_REGISTERS)); |
- __ j(not_equal, ¬_no_registers, Label::kNear); |
- __ ret(1 * kPointerSize); // Remove state. |
- |
- __ bind(¬_no_registers); |
- DCHECK_EQ(kInterpreterAccumulatorRegister.code(), eax.code()); |
- __ mov(eax, Operand(esp, 2 * kPointerSize)); |
- __ cmp(ecx, static_cast<int>(Deoptimizer::BailoutState::TOS_REGISTER)); |
- __ j(not_equal, ¬_tos_eax, Label::kNear); |
- __ ret(2 * kPointerSize); // Remove state, eax. |
- |
- __ bind(¬_tos_eax); |
- __ Abort(kNoCasesLeft); |
-} |
- |
- |
-void Builtins::Generate_NotifyDeoptimized(MacroAssembler* masm) { |
- Generate_NotifyDeoptimizedHelper(masm, Deoptimizer::EAGER); |
-} |
- |
- |
-void Builtins::Generate_NotifySoftDeoptimized(MacroAssembler* masm) { |
- Generate_NotifyDeoptimizedHelper(masm, Deoptimizer::SOFT); |
-} |
- |
- |
-void Builtins::Generate_NotifyLazyDeoptimized(MacroAssembler* masm) { |
- Generate_NotifyDeoptimizedHelper(masm, Deoptimizer::LAZY); |
-} |
- |
- |
-// static |
-void Builtins::Generate_DatePrototype_GetField(MacroAssembler* masm, |
- int field_index) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments |
- // -- edi : function |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[4] : receiver |
- // ----------------------------------- |
- |
- // 1. Load receiver into eax and check that it's actually a JSDate object. |
- Label receiver_not_date; |
- { |
- __ mov(eax, Operand(esp, kPointerSize)); |
- __ JumpIfSmi(eax, &receiver_not_date); |
- __ CmpObjectType(eax, JS_DATE_TYPE, ebx); |
- __ j(not_equal, &receiver_not_date); |
- } |
- |
- // 2. Load the specified date field, falling back to the runtime as necessary. |
- if (field_index == JSDate::kDateValue) { |
- __ mov(eax, FieldOperand(eax, JSDate::kValueOffset)); |
- } else { |
- if (field_index < JSDate::kFirstUncachedField) { |
- Label stamp_mismatch; |
- __ mov(edx, Operand::StaticVariable( |
- ExternalReference::date_cache_stamp(masm->isolate()))); |
- __ cmp(edx, FieldOperand(eax, JSDate::kCacheStampOffset)); |
- __ j(not_equal, &stamp_mismatch, Label::kNear); |
- __ mov(eax, FieldOperand( |
- eax, JSDate::kValueOffset + field_index * kPointerSize)); |
- __ ret(1 * kPointerSize); |
- __ bind(&stamp_mismatch); |
- } |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ PrepareCallCFunction(2, ebx); |
- __ mov(Operand(esp, 0), eax); |
- __ mov(Operand(esp, 1 * kPointerSize), |
- Immediate(Smi::FromInt(field_index))); |
- __ CallCFunction( |
- ExternalReference::get_date_field_function(masm->isolate()), 2); |
- } |
- __ ret(1 * kPointerSize); |
- |
- // 3. Raise a TypeError if the receiver is not a date. |
- __ bind(&receiver_not_date); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ Move(ebx, Immediate(0)); |
- __ EnterBuiltinFrame(esi, edi, ebx); |
- __ CallRuntime(Runtime::kThrowNotDateError); |
- } |
-} |
- |
-// static |
-void Builtins::Generate_FunctionPrototypeApply(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argc |
- // -- esp[0] : return address |
- // -- esp[4] : argArray |
- // -- esp[8] : thisArg |
- // -- esp[12] : receiver |
- // ----------------------------------- |
- |
- // 1. Load receiver into edi, argArray into eax (if present), remove all |
- // arguments from the stack (including the receiver), and push thisArg (if |
- // present) instead. |
- { |
- Label no_arg_array, no_this_arg; |
- __ LoadRoot(edx, Heap::kUndefinedValueRootIndex); |
- __ mov(ebx, edx); |
- __ mov(edi, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- __ test(eax, eax); |
- __ j(zero, &no_this_arg, Label::kNear); |
- { |
- __ mov(edx, Operand(esp, eax, times_pointer_size, 0)); |
- __ cmp(eax, Immediate(1)); |
- __ j(equal, &no_arg_array, Label::kNear); |
- __ mov(ebx, Operand(esp, eax, times_pointer_size, -kPointerSize)); |
- __ bind(&no_arg_array); |
- } |
- __ bind(&no_this_arg); |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- __ Push(edx); |
- __ PushReturnAddressFrom(ecx); |
- __ Move(eax, ebx); |
- } |
- |
- // ----------- S t a t e ------------- |
- // -- eax : argArray |
- // -- edi : receiver |
- // -- esp[0] : return address |
- // -- esp[4] : thisArg |
- // ----------------------------------- |
- |
- // 2. Make sure the receiver is actually callable. |
- Label receiver_not_callable; |
- __ JumpIfSmi(edi, &receiver_not_callable, Label::kNear); |
- __ mov(ecx, FieldOperand(edi, HeapObject::kMapOffset)); |
- __ test_b(FieldOperand(ecx, Map::kBitFieldOffset), |
- Immediate(1 << Map::kIsCallable)); |
- __ j(zero, &receiver_not_callable, Label::kNear); |
- |
- // 3. Tail call with no arguments if argArray is null or undefined. |
- Label no_arguments; |
- __ JumpIfRoot(eax, Heap::kNullValueRootIndex, &no_arguments, Label::kNear); |
- __ JumpIfRoot(eax, Heap::kUndefinedValueRootIndex, &no_arguments, |
- Label::kNear); |
- |
- // 4a. Apply the receiver to the given argArray (passing undefined for |
- // new.target). |
- __ LoadRoot(edx, Heap::kUndefinedValueRootIndex); |
- __ Jump(masm->isolate()->builtins()->Apply(), RelocInfo::CODE_TARGET); |
- |
- // 4b. The argArray is either null or undefined, so we tail call without any |
- // arguments to the receiver. |
- __ bind(&no_arguments); |
- { |
- __ Set(eax, 0); |
- __ Jump(masm->isolate()->builtins()->Call(), RelocInfo::CODE_TARGET); |
- } |
- |
- // 4c. The receiver is not callable, throw an appropriate TypeError. |
- __ bind(&receiver_not_callable); |
- { |
- __ mov(Operand(esp, kPointerSize), edi); |
- __ TailCallRuntime(Runtime::kThrowApplyNonFunction); |
- } |
-} |
- |
- |
-// static |
-void Builtins::Generate_FunctionPrototypeCall(MacroAssembler* masm) { |
- // Stack Layout: |
- // esp[0] : Return address |
- // esp[8] : Argument n |
- // esp[16] : Argument n-1 |
- // ... |
- // esp[8 * n] : Argument 1 |
- // esp[8 * (n + 1)] : Receiver (callable to call) |
- // |
- // eax contains the number of arguments, n, not counting the receiver. |
- // |
- // 1. Make sure we have at least one argument. |
- { |
- Label done; |
- __ test(eax, eax); |
- __ j(not_zero, &done, Label::kNear); |
- __ PopReturnAddressTo(ebx); |
- __ PushRoot(Heap::kUndefinedValueRootIndex); |
- __ PushReturnAddressFrom(ebx); |
- __ inc(eax); |
- __ bind(&done); |
- } |
- |
- // 2. Get the callable to call (passed as receiver) from the stack. |
- __ mov(edi, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- |
- // 3. Shift arguments and return address one slot down on the stack |
- // (overwriting the original receiver). Adjust argument count to make |
- // the original first argument the new receiver. |
- { |
- Label loop; |
- __ mov(ecx, eax); |
- __ bind(&loop); |
- __ mov(ebx, Operand(esp, ecx, times_pointer_size, 0)); |
- __ mov(Operand(esp, ecx, times_pointer_size, kPointerSize), ebx); |
- __ dec(ecx); |
- __ j(not_sign, &loop); // While non-negative (to copy return address). |
- __ pop(ebx); // Discard copy of return address. |
- __ dec(eax); // One fewer argument (first argument is new receiver). |
- } |
- |
- // 4. Call the callable. |
- __ Jump(masm->isolate()->builtins()->Call(), RelocInfo::CODE_TARGET); |
-} |
- |
- |
-void Builtins::Generate_ReflectApply(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argc |
- // -- esp[0] : return address |
- // -- esp[4] : argumentsList |
- // -- esp[8] : thisArgument |
- // -- esp[12] : target |
- // -- esp[16] : receiver |
- // ----------------------------------- |
- |
- // 1. Load target into edi (if present), argumentsList into eax (if present), |
- // remove all arguments from the stack (including the receiver), and push |
- // thisArgument (if present) instead. |
- { |
- Label done; |
- __ LoadRoot(edi, Heap::kUndefinedValueRootIndex); |
- __ mov(edx, edi); |
- __ mov(ebx, edi); |
- __ cmp(eax, Immediate(1)); |
- __ j(below, &done, Label::kNear); |
- __ mov(edi, Operand(esp, eax, times_pointer_size, -0 * kPointerSize)); |
- __ j(equal, &done, Label::kNear); |
- __ mov(edx, Operand(esp, eax, times_pointer_size, -1 * kPointerSize)); |
- __ cmp(eax, Immediate(3)); |
- __ j(below, &done, Label::kNear); |
- __ mov(ebx, Operand(esp, eax, times_pointer_size, -2 * kPointerSize)); |
- __ bind(&done); |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- __ Push(edx); |
- __ PushReturnAddressFrom(ecx); |
- __ Move(eax, ebx); |
- } |
- |
- // ----------- S t a t e ------------- |
- // -- eax : argumentsList |
- // -- edi : target |
- // -- esp[0] : return address |
- // -- esp[4] : thisArgument |
- // ----------------------------------- |
- |
- // 2. Make sure the target is actually callable. |
- Label target_not_callable; |
- __ JumpIfSmi(edi, &target_not_callable, Label::kNear); |
- __ mov(ecx, FieldOperand(edi, HeapObject::kMapOffset)); |
- __ test_b(FieldOperand(ecx, Map::kBitFieldOffset), |
- Immediate(1 << Map::kIsCallable)); |
- __ j(zero, &target_not_callable, Label::kNear); |
- |
- // 3a. Apply the target to the given argumentsList (passing undefined for |
- // new.target). |
- __ LoadRoot(edx, Heap::kUndefinedValueRootIndex); |
- __ Jump(masm->isolate()->builtins()->Apply(), RelocInfo::CODE_TARGET); |
- |
- // 3b. The target is not callable, throw an appropriate TypeError. |
- __ bind(&target_not_callable); |
- { |
- __ mov(Operand(esp, kPointerSize), edi); |
- __ TailCallRuntime(Runtime::kThrowApplyNonFunction); |
- } |
-} |
- |
-void Builtins::Generate_ReflectConstruct(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argc |
- // -- esp[0] : return address |
- // -- esp[4] : new.target (optional) |
- // -- esp[8] : argumentsList |
- // -- esp[12] : target |
- // -- esp[16] : receiver |
- // ----------------------------------- |
- |
- // 1. Load target into edi (if present), argumentsList into eax (if present), |
- // new.target into edx (if present, otherwise use target), remove all |
- // arguments from the stack (including the receiver), and push thisArgument |
- // (if present) instead. |
- { |
- Label done; |
- __ LoadRoot(edi, Heap::kUndefinedValueRootIndex); |
- __ mov(edx, edi); |
- __ mov(ebx, edi); |
- __ cmp(eax, Immediate(1)); |
- __ j(below, &done, Label::kNear); |
- __ mov(edi, Operand(esp, eax, times_pointer_size, -0 * kPointerSize)); |
- __ mov(edx, edi); |
- __ j(equal, &done, Label::kNear); |
- __ mov(ebx, Operand(esp, eax, times_pointer_size, -1 * kPointerSize)); |
- __ cmp(eax, Immediate(3)); |
- __ j(below, &done, Label::kNear); |
- __ mov(edx, Operand(esp, eax, times_pointer_size, -2 * kPointerSize)); |
- __ bind(&done); |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- __ PushRoot(Heap::kUndefinedValueRootIndex); |
- __ PushReturnAddressFrom(ecx); |
- __ Move(eax, ebx); |
- } |
- |
- // ----------- S t a t e ------------- |
- // -- eax : argumentsList |
- // -- edx : new.target |
- // -- edi : target |
- // -- esp[0] : return address |
- // -- esp[4] : receiver (undefined) |
- // ----------------------------------- |
- |
- // 2. Make sure the target is actually a constructor. |
- Label target_not_constructor; |
- __ JumpIfSmi(edi, &target_not_constructor, Label::kNear); |
- __ mov(ecx, FieldOperand(edi, HeapObject::kMapOffset)); |
- __ test_b(FieldOperand(ecx, Map::kBitFieldOffset), |
- Immediate(1 << Map::kIsConstructor)); |
- __ j(zero, &target_not_constructor, Label::kNear); |
- |
- // 3. Make sure the target is actually a constructor. |
- Label new_target_not_constructor; |
- __ JumpIfSmi(edx, &new_target_not_constructor, Label::kNear); |
- __ mov(ecx, FieldOperand(edx, HeapObject::kMapOffset)); |
- __ test_b(FieldOperand(ecx, Map::kBitFieldOffset), |
- Immediate(1 << Map::kIsConstructor)); |
- __ j(zero, &new_target_not_constructor, Label::kNear); |
- |
- // 4a. Construct the target with the given new.target and argumentsList. |
- __ Jump(masm->isolate()->builtins()->Apply(), RelocInfo::CODE_TARGET); |
- |
- // 4b. The target is not a constructor, throw an appropriate TypeError. |
- __ bind(&target_not_constructor); |
- { |
- __ mov(Operand(esp, kPointerSize), edi); |
- __ TailCallRuntime(Runtime::kThrowCalledNonCallable); |
- } |
- |
- // 4c. The new.target is not a constructor, throw an appropriate TypeError. |
- __ bind(&new_target_not_constructor); |
- { |
- __ mov(Operand(esp, kPointerSize), edx); |
- __ TailCallRuntime(Runtime::kThrowCalledNonCallable); |
- } |
-} |
- |
- |
-void Builtins::Generate_InternalArrayCode(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argc |
- // -- esp[0] : return address |
- // -- esp[4] : last argument |
- // ----------------------------------- |
- Label generic_array_code; |
- |
- // Get the InternalArray function. |
- __ LoadGlobalFunction(Context::INTERNAL_ARRAY_FUNCTION_INDEX, edi); |
- |
- if (FLAG_debug_code) { |
- // Initial map for the builtin InternalArray function should be a map. |
- __ mov(ebx, FieldOperand(edi, JSFunction::kPrototypeOrInitialMapOffset)); |
- // Will both indicate a NULL and a Smi. |
- __ test(ebx, Immediate(kSmiTagMask)); |
- __ Assert(not_zero, kUnexpectedInitialMapForInternalArrayFunction); |
- __ CmpObjectType(ebx, MAP_TYPE, ecx); |
- __ Assert(equal, kUnexpectedInitialMapForInternalArrayFunction); |
- } |
- |
- // Run the native code for the InternalArray function called as a normal |
- // function. |
- // tail call a stub |
- InternalArrayConstructorStub stub(masm->isolate()); |
- __ TailCallStub(&stub); |
-} |
- |
- |
-void Builtins::Generate_ArrayCode(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argc |
- // -- esp[0] : return address |
- // -- esp[4] : last argument |
- // ----------------------------------- |
- Label generic_array_code; |
- |
- // Get the Array function. |
- __ LoadGlobalFunction(Context::ARRAY_FUNCTION_INDEX, edi); |
- __ mov(edx, edi); |
- |
- if (FLAG_debug_code) { |
- // Initial map for the builtin Array function should be a map. |
- __ mov(ebx, FieldOperand(edi, JSFunction::kPrototypeOrInitialMapOffset)); |
- // Will both indicate a NULL and a Smi. |
- __ test(ebx, Immediate(kSmiTagMask)); |
- __ Assert(not_zero, kUnexpectedInitialMapForArrayFunction); |
- __ CmpObjectType(ebx, MAP_TYPE, ecx); |
- __ Assert(equal, kUnexpectedInitialMapForArrayFunction); |
- } |
- |
- // Run the native code for the Array function called as a normal function. |
- // tail call a stub |
- __ mov(ebx, masm->isolate()->factory()->undefined_value()); |
- ArrayConstructorStub stub(masm->isolate()); |
- __ TailCallStub(&stub); |
-} |
- |
- |
-// static |
-void Builtins::Generate_MathMaxMin(MacroAssembler* masm, MathMaxMinKind kind) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments |
- // -- edi : function |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[(argc - n) * 8] : arg[n] (zero-based) |
- // -- esp[(argc + 1) * 8] : receiver |
- // ----------------------------------- |
- Condition const cc = (kind == MathMaxMinKind::kMin) ? below : above; |
- Heap::RootListIndex const root_index = |
- (kind == MathMaxMinKind::kMin) ? Heap::kInfinityValueRootIndex |
- : Heap::kMinusInfinityValueRootIndex; |
- XMMRegister const reg = (kind == MathMaxMinKind::kMin) ? xmm1 : xmm0; |
- |
- // Load the accumulator with the default return value (either -Infinity or |
- // +Infinity), with the tagged value in edx and the double value in xmm0. |
- __ LoadRoot(edx, root_index); |
- __ movsd(xmm0, FieldOperand(edx, HeapNumber::kValueOffset)); |
- __ Move(ecx, eax); |
- |
- Label done_loop, loop; |
- __ bind(&loop); |
- { |
- // Check if all parameters done. |
- __ test(ecx, ecx); |
- __ j(zero, &done_loop); |
- |
- // Load the next parameter tagged value into ebx. |
- __ mov(ebx, Operand(esp, ecx, times_pointer_size, 0)); |
- |
- // Load the double value of the parameter into xmm1, maybe converting the |
- // parameter to a number first using the ToNumber builtin if necessary. |
- Label convert, convert_smi, convert_number, done_convert; |
- __ bind(&convert); |
- __ JumpIfSmi(ebx, &convert_smi); |
- __ JumpIfRoot(FieldOperand(ebx, HeapObject::kMapOffset), |
- Heap::kHeapNumberMapRootIndex, &convert_number); |
- { |
- // Parameter is not a Number, use the ToNumber builtin to convert it. |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ SmiTag(eax); |
- __ SmiTag(ecx); |
- __ EnterBuiltinFrame(esi, edi, eax); |
- __ Push(ecx); |
- __ Push(edx); |
- __ mov(eax, ebx); |
- __ Call(masm->isolate()->builtins()->ToNumber(), RelocInfo::CODE_TARGET); |
- __ mov(ebx, eax); |
- __ Pop(edx); |
- __ Pop(ecx); |
- __ LeaveBuiltinFrame(esi, edi, eax); |
- __ SmiUntag(ecx); |
- __ SmiUntag(eax); |
- { |
- // Restore the double accumulator value (xmm0). |
- Label restore_smi, done_restore; |
- __ JumpIfSmi(edx, &restore_smi, Label::kNear); |
- __ movsd(xmm0, FieldOperand(edx, HeapNumber::kValueOffset)); |
- __ jmp(&done_restore, Label::kNear); |
- __ bind(&restore_smi); |
- __ SmiUntag(edx); |
- __ Cvtsi2sd(xmm0, edx); |
- __ SmiTag(edx); |
- __ bind(&done_restore); |
- } |
- } |
- __ jmp(&convert); |
- __ bind(&convert_number); |
- __ movsd(xmm1, FieldOperand(ebx, HeapNumber::kValueOffset)); |
- __ jmp(&done_convert, Label::kNear); |
- __ bind(&convert_smi); |
- __ SmiUntag(ebx); |
- __ Cvtsi2sd(xmm1, ebx); |
- __ SmiTag(ebx); |
- __ bind(&done_convert); |
- |
- // Perform the actual comparison with the accumulator value on the left hand |
- // side (xmm0) and the next parameter value on the right hand side (xmm1). |
- Label compare_equal, compare_nan, compare_swap, done_compare; |
- __ ucomisd(xmm0, xmm1); |
- __ j(parity_even, &compare_nan, Label::kNear); |
- __ j(cc, &done_compare, Label::kNear); |
- __ j(equal, &compare_equal, Label::kNear); |
- |
- // Result is on the right hand side. |
- __ bind(&compare_swap); |
- __ movaps(xmm0, xmm1); |
- __ mov(edx, ebx); |
- __ jmp(&done_compare, Label::kNear); |
- |
- // At least one side is NaN, which means that the result will be NaN too. |
- __ bind(&compare_nan); |
- __ LoadRoot(edx, Heap::kNanValueRootIndex); |
- __ movsd(xmm0, FieldOperand(edx, HeapNumber::kValueOffset)); |
- __ jmp(&done_compare, Label::kNear); |
- |
- // Left and right hand side are equal, check for -0 vs. +0. |
- __ bind(&compare_equal); |
- __ Push(edi); // Preserve function in edi. |
- __ movmskpd(edi, reg); |
- __ test(edi, Immediate(1)); |
- __ Pop(edi); |
- __ j(not_zero, &compare_swap); |
- |
- __ bind(&done_compare); |
- __ dec(ecx); |
- __ jmp(&loop); |
- } |
- |
- __ bind(&done_loop); |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- __ PushReturnAddressFrom(ecx); |
- __ mov(eax, edx); |
- __ Ret(); |
-} |
- |
-// static |
-void Builtins::Generate_NumberConstructor(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments |
- // -- edi : constructor function |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[(argc - n) * 4] : arg[n] (zero-based) |
- // -- esp[(argc + 1) * 4] : receiver |
- // ----------------------------------- |
- |
- // 1. Load the first argument into ebx. |
- Label no_arguments; |
- { |
- __ test(eax, eax); |
- __ j(zero, &no_arguments, Label::kNear); |
- __ mov(ebx, Operand(esp, eax, times_pointer_size, 0)); |
- } |
- |
- // 2a. Convert the first argument to a number. |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ SmiTag(eax); |
- __ EnterBuiltinFrame(esi, edi, eax); |
- __ mov(eax, ebx); |
- __ Call(masm->isolate()->builtins()->ToNumber(), RelocInfo::CODE_TARGET); |
- __ LeaveBuiltinFrame(esi, edi, ebx); // Argc popped to ebx. |
- __ SmiUntag(ebx); |
- } |
- |
- { |
- // Drop all arguments including the receiver. |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, ebx, times_pointer_size, kPointerSize)); |
- __ PushReturnAddressFrom(ecx); |
- __ Ret(); |
- } |
- |
- // 2b. No arguments, return +0 (already in eax). |
- __ bind(&no_arguments); |
- __ ret(1 * kPointerSize); |
-} |
- |
- |
-// static |
-void Builtins::Generate_NumberConstructor_ConstructStub(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments |
- // -- edi : constructor function |
- // -- edx : new target |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[(argc - n) * 4] : arg[n] (zero-based) |
- // -- esp[(argc + 1) * 4] : receiver |
- // ----------------------------------- |
- |
- // 1. Make sure we operate in the context of the called function. |
- __ mov(esi, FieldOperand(edi, JSFunction::kContextOffset)); |
- |
- // Store argc in r8. |
- __ mov(ecx, eax); |
- __ SmiTag(ecx); |
- |
- // 2. Load the first argument into ebx. |
- { |
- Label no_arguments, done; |
- __ test(eax, eax); |
- __ j(zero, &no_arguments, Label::kNear); |
- __ mov(ebx, Operand(esp, eax, times_pointer_size, 0)); |
- __ jmp(&done, Label::kNear); |
- __ bind(&no_arguments); |
- __ Move(ebx, Smi::FromInt(0)); |
- __ bind(&done); |
- } |
- |
- // 3. Make sure ebx is a number. |
- { |
- Label done_convert; |
- __ JumpIfSmi(ebx, &done_convert); |
- __ CompareRoot(FieldOperand(ebx, HeapObject::kMapOffset), |
- Heap::kHeapNumberMapRootIndex); |
- __ j(equal, &done_convert); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ EnterBuiltinFrame(esi, edi, ecx); |
- __ Push(edx); |
- __ Move(eax, ebx); |
- __ Call(masm->isolate()->builtins()->ToNumber(), RelocInfo::CODE_TARGET); |
- __ Move(ebx, eax); |
- __ Pop(edx); |
- __ LeaveBuiltinFrame(esi, edi, ecx); |
- } |
- __ bind(&done_convert); |
- } |
- |
- // 4. Check if new target and constructor differ. |
- Label drop_frame_and_ret, done_alloc, new_object; |
- __ cmp(edx, edi); |
- __ j(not_equal, &new_object); |
- |
- // 5. Allocate a JSValue wrapper for the number. |
- __ AllocateJSValue(eax, edi, ebx, esi, &done_alloc); |
- __ jmp(&drop_frame_and_ret); |
- |
- __ bind(&done_alloc); |
- __ mov(esi, FieldOperand(edi, JSFunction::kContextOffset)); // Restore esi. |
- |
- // 6. Fallback to the runtime to create new object. |
- __ bind(&new_object); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ EnterBuiltinFrame(esi, edi, ecx); |
- __ Push(ebx); // the first argument |
- FastNewObjectStub stub(masm->isolate()); |
- __ CallStub(&stub); |
- __ Pop(FieldOperand(eax, JSValue::kValueOffset)); |
- __ LeaveBuiltinFrame(esi, edi, ecx); |
- } |
- |
- __ bind(&drop_frame_and_ret); |
- { |
- // Drop all arguments including the receiver. |
- __ PopReturnAddressTo(esi); |
- __ SmiUntag(ecx); |
- __ lea(esp, Operand(esp, ecx, times_pointer_size, kPointerSize)); |
- __ PushReturnAddressFrom(esi); |
- __ Ret(); |
- } |
-} |
- |
- |
-// static |
-void Builtins::Generate_StringConstructor(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments |
- // -- edi : constructor function |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[(argc - n) * 4] : arg[n] (zero-based) |
- // -- esp[(argc + 1) * 4] : receiver |
- // ----------------------------------- |
- |
- // 1. Load the first argument into eax. |
- Label no_arguments; |
- { |
- __ mov(ebx, eax); // Store argc in ebx. |
- __ test(eax, eax); |
- __ j(zero, &no_arguments, Label::kNear); |
- __ mov(eax, Operand(esp, eax, times_pointer_size, 0)); |
- } |
- |
- // 2a. At least one argument, return eax if it's a string, otherwise |
- // dispatch to appropriate conversion. |
- Label drop_frame_and_ret, to_string, symbol_descriptive_string; |
- { |
- __ JumpIfSmi(eax, &to_string, Label::kNear); |
- STATIC_ASSERT(FIRST_NONSTRING_TYPE == SYMBOL_TYPE); |
- __ CmpObjectType(eax, FIRST_NONSTRING_TYPE, edx); |
- __ j(above, &to_string, Label::kNear); |
- __ j(equal, &symbol_descriptive_string, Label::kNear); |
- __ jmp(&drop_frame_and_ret, Label::kNear); |
- } |
- |
- // 2b. No arguments, return the empty string (and pop the receiver). |
- __ bind(&no_arguments); |
- { |
- __ LoadRoot(eax, Heap::kempty_stringRootIndex); |
- __ ret(1 * kPointerSize); |
- } |
- |
- // 3a. Convert eax to a string. |
- __ bind(&to_string); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- ToStringStub stub(masm->isolate()); |
- __ SmiTag(ebx); |
- __ EnterBuiltinFrame(esi, edi, ebx); |
- __ CallStub(&stub); |
- __ LeaveBuiltinFrame(esi, edi, ebx); |
- __ SmiUntag(ebx); |
- } |
- __ jmp(&drop_frame_and_ret, Label::kNear); |
- |
- // 3b. Convert symbol in eax to a string. |
- __ bind(&symbol_descriptive_string); |
- { |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, ebx, times_pointer_size, kPointerSize)); |
- __ Push(eax); |
- __ PushReturnAddressFrom(ecx); |
- __ TailCallRuntime(Runtime::kSymbolDescriptiveString); |
- } |
- |
- __ bind(&drop_frame_and_ret); |
- { |
- // Drop all arguments including the receiver. |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, ebx, times_pointer_size, kPointerSize)); |
- __ PushReturnAddressFrom(ecx); |
- __ Ret(); |
- } |
-} |
- |
- |
-// static |
-void Builtins::Generate_StringConstructor_ConstructStub(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments |
- // -- edi : constructor function |
- // -- edx : new target |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[(argc - n) * 4] : arg[n] (zero-based) |
- // -- esp[(argc + 1) * 4] : receiver |
- // ----------------------------------- |
- |
- // 1. Make sure we operate in the context of the called function. |
- __ mov(esi, FieldOperand(edi, JSFunction::kContextOffset)); |
- |
- __ mov(ebx, eax); |
- |
- // 2. Load the first argument into eax. |
- { |
- Label no_arguments, done; |
- __ test(ebx, ebx); |
- __ j(zero, &no_arguments, Label::kNear); |
- __ mov(eax, Operand(esp, ebx, times_pointer_size, 0)); |
- __ jmp(&done, Label::kNear); |
- __ bind(&no_arguments); |
- __ LoadRoot(eax, Heap::kempty_stringRootIndex); |
- __ bind(&done); |
- } |
- |
- // 3. Make sure eax is a string. |
- { |
- Label convert, done_convert; |
- __ JumpIfSmi(eax, &convert, Label::kNear); |
- __ CmpObjectType(eax, FIRST_NONSTRING_TYPE, ecx); |
- __ j(below, &done_convert); |
- __ bind(&convert); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- ToStringStub stub(masm->isolate()); |
- __ SmiTag(ebx); |
- __ EnterBuiltinFrame(esi, edi, ebx); |
- __ Push(edx); |
- __ CallStub(&stub); |
- __ Pop(edx); |
- __ LeaveBuiltinFrame(esi, edi, ebx); |
- __ SmiUntag(ebx); |
- } |
- __ bind(&done_convert); |
- } |
- |
- // 4. Check if new target and constructor differ. |
- Label drop_frame_and_ret, done_alloc, new_object; |
- __ cmp(edx, edi); |
- __ j(not_equal, &new_object); |
- |
- // 5. Allocate a JSValue wrapper for the string. |
- // AllocateJSValue can't handle src == dst register. Reuse esi and restore it |
- // as needed after the call. |
- __ mov(esi, eax); |
- __ AllocateJSValue(eax, edi, esi, ecx, &done_alloc); |
- __ jmp(&drop_frame_and_ret); |
- |
- __ bind(&done_alloc); |
- { |
- // Restore eax to the first argument and esi to the context. |
- __ mov(eax, esi); |
- __ mov(esi, FieldOperand(edi, JSFunction::kContextOffset)); |
- } |
- |
- // 6. Fallback to the runtime to create new object. |
- __ bind(&new_object); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ SmiTag(ebx); |
- __ EnterBuiltinFrame(esi, edi, ebx); |
- __ Push(eax); // the first argument |
- FastNewObjectStub stub(masm->isolate()); |
- __ CallStub(&stub); |
- __ Pop(FieldOperand(eax, JSValue::kValueOffset)); |
- __ LeaveBuiltinFrame(esi, edi, ebx); |
- __ SmiUntag(ebx); |
- } |
- |
- __ bind(&drop_frame_and_ret); |
- { |
- // Drop all arguments including the receiver. |
- __ PopReturnAddressTo(ecx); |
- __ lea(esp, Operand(esp, ebx, times_pointer_size, kPointerSize)); |
- __ PushReturnAddressFrom(ecx); |
- __ Ret(); |
- } |
-} |
- |
- |
-static void ArgumentsAdaptorStackCheck(MacroAssembler* masm, |
- Label* stack_overflow) { |
- // ----------- S t a t e ------------- |
- // -- eax : actual number of arguments |
- // -- ebx : expected number of arguments |
- // -- edx : new target (passed through to callee) |
- // ----------------------------------- |
- // Check the stack for overflow. We are not trying to catch |
- // interruptions (e.g. debug break and preemption) here, so the "real stack |
- // limit" is checked. |
- ExternalReference real_stack_limit = |
- ExternalReference::address_of_real_stack_limit(masm->isolate()); |
- __ mov(edi, Operand::StaticVariable(real_stack_limit)); |
- // Make ecx the space we have left. The stack might already be overflowed |
- // here which will cause ecx to become negative. |
- __ mov(ecx, esp); |
- __ sub(ecx, edi); |
- // Make edi the space we need for the array when it is unrolled onto the |
- // stack. |
- __ mov(edi, ebx); |
- __ shl(edi, kPointerSizeLog2); |
- // Check if the arguments will overflow the stack. |
- __ cmp(ecx, edi); |
- __ j(less_equal, stack_overflow); // Signed comparison. |
-} |
- |
- |
-static void EnterArgumentsAdaptorFrame(MacroAssembler* masm) { |
- __ push(ebp); |
- __ mov(ebp, esp); |
- |
- // Store the arguments adaptor context sentinel. |
- __ push(Immediate(Smi::FromInt(StackFrame::ARGUMENTS_ADAPTOR))); |
- |
- // Push the function on the stack. |
- __ push(edi); |
- |
- // Preserve the number of arguments on the stack. Must preserve eax, |
- // ebx and ecx because these registers are used when copying the |
- // arguments and the receiver. |
- STATIC_ASSERT(kSmiTagSize == 1); |
- __ lea(edi, Operand(eax, eax, times_1, kSmiTag)); |
- __ push(edi); |
-} |
- |
- |
-static void LeaveArgumentsAdaptorFrame(MacroAssembler* masm) { |
- // Retrieve the number of arguments from the stack. |
- __ mov(ebx, Operand(ebp, ArgumentsAdaptorFrameConstants::kLengthOffset)); |
- |
- // Leave the frame. |
- __ leave(); |
- |
- // Remove caller arguments from the stack. |
- STATIC_ASSERT(kSmiTagSize == 1 && kSmiTag == 0); |
- __ pop(ecx); |
- __ lea(esp, Operand(esp, ebx, times_2, 1 * kPointerSize)); // 1 ~ receiver |
- __ push(ecx); |
-} |
- |
- |
-// static |
-void Builtins::Generate_Apply(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : argumentsList |
- // -- edi : target |
- // -- edx : new.target (checked to be constructor or undefined) |
- // -- esp[0] : return address. |
- // -- esp[4] : thisArgument |
- // ----------------------------------- |
- |
- // Create the list of arguments from the array-like argumentsList. |
- { |
- Label create_arguments, create_array, create_runtime, done_create; |
- __ JumpIfSmi(eax, &create_runtime); |
- |
- // Load the map of argumentsList into ecx. |
- __ mov(ecx, FieldOperand(eax, HeapObject::kMapOffset)); |
- |
- // Load native context into ebx. |
- __ mov(ebx, NativeContextOperand()); |
- |
- // Check if argumentsList is an (unmodified) arguments object. |
- __ cmp(ecx, ContextOperand(ebx, Context::SLOPPY_ARGUMENTS_MAP_INDEX)); |
- __ j(equal, &create_arguments); |
- __ cmp(ecx, ContextOperand(ebx, Context::STRICT_ARGUMENTS_MAP_INDEX)); |
- __ j(equal, &create_arguments); |
- |
- // Check if argumentsList is a fast JSArray. |
- __ CmpInstanceType(ecx, JS_ARRAY_TYPE); |
- __ j(equal, &create_array); |
- |
- // Ask the runtime to create the list (actually a FixedArray). |
- __ bind(&create_runtime); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ Push(edi); |
- __ Push(edx); |
- __ Push(eax); |
- __ CallRuntime(Runtime::kCreateListFromArrayLike); |
- __ Pop(edx); |
- __ Pop(edi); |
- __ mov(ebx, FieldOperand(eax, FixedArray::kLengthOffset)); |
- __ SmiUntag(ebx); |
- } |
- __ jmp(&done_create); |
- |
- // Try to create the list from an arguments object. |
- __ bind(&create_arguments); |
- __ mov(ebx, FieldOperand(eax, JSArgumentsObject::kLengthOffset)); |
- __ mov(ecx, FieldOperand(eax, JSObject::kElementsOffset)); |
- __ cmp(ebx, FieldOperand(ecx, FixedArray::kLengthOffset)); |
- __ j(not_equal, &create_runtime); |
- __ SmiUntag(ebx); |
- __ mov(eax, ecx); |
- __ jmp(&done_create); |
- |
- // Try to create the list from a JSArray object. |
- __ bind(&create_array); |
- __ mov(ecx, FieldOperand(ecx, Map::kBitField2Offset)); |
- __ DecodeField<Map::ElementsKindBits>(ecx); |
- STATIC_ASSERT(FAST_SMI_ELEMENTS == 0); |
- STATIC_ASSERT(FAST_HOLEY_SMI_ELEMENTS == 1); |
- STATIC_ASSERT(FAST_ELEMENTS == 2); |
- __ cmp(ecx, Immediate(FAST_ELEMENTS)); |
- __ j(above, &create_runtime); |
- __ cmp(ecx, Immediate(FAST_HOLEY_SMI_ELEMENTS)); |
- __ j(equal, &create_runtime); |
- __ mov(ebx, FieldOperand(eax, JSArray::kLengthOffset)); |
- __ SmiUntag(ebx); |
- __ mov(eax, FieldOperand(eax, JSArray::kElementsOffset)); |
- |
- __ bind(&done_create); |
- } |
- |
- // Check for stack overflow. |
- { |
- // Check the stack for overflow. We are not trying to catch interruptions |
- // (i.e. debug break and preemption) here, so check the "real stack limit". |
- Label done; |
- ExternalReference real_stack_limit = |
- ExternalReference::address_of_real_stack_limit(masm->isolate()); |
- __ mov(ecx, Operand::StaticVariable(real_stack_limit)); |
- // Make ecx the space we have left. The stack might already be overflowed |
- // here which will cause ecx to become negative. |
- __ neg(ecx); |
- __ add(ecx, esp); |
- __ sar(ecx, kPointerSizeLog2); |
- // Check if the arguments will overflow the stack. |
- __ cmp(ecx, ebx); |
- __ j(greater, &done, Label::kNear); // Signed comparison. |
- __ TailCallRuntime(Runtime::kThrowStackOverflow); |
- __ bind(&done); |
- } |
- |
- // ----------- S t a t e ------------- |
- // -- edi : target |
- // -- eax : args (a FixedArray built from argumentsList) |
- // -- ebx : len (number of elements to push from args) |
- // -- edx : new.target (checked to be constructor or undefined) |
- // -- esp[0] : return address. |
- // -- esp[4] : thisArgument |
- // ----------------------------------- |
- |
- // Push arguments onto the stack (thisArgument is already on the stack). |
- { |
- __ movd(xmm0, edx); |
- __ PopReturnAddressTo(edx); |
- __ Move(ecx, Immediate(0)); |
- Label done, loop; |
- __ bind(&loop); |
- __ cmp(ecx, ebx); |
- __ j(equal, &done, Label::kNear); |
- __ Push( |
- FieldOperand(eax, ecx, times_pointer_size, FixedArray::kHeaderSize)); |
- __ inc(ecx); |
- __ jmp(&loop); |
- __ bind(&done); |
- __ PushReturnAddressFrom(edx); |
- __ movd(edx, xmm0); |
- __ Move(eax, ebx); |
- } |
- |
- // Dispatch to Call or Construct depending on whether new.target is undefined. |
- { |
- __ CompareRoot(edx, Heap::kUndefinedValueRootIndex); |
- __ j(equal, masm->isolate()->builtins()->Call(), RelocInfo::CODE_TARGET); |
- __ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET); |
- } |
-} |
- |
-namespace { |
- |
-// Drops top JavaScript frame and an arguments adaptor frame below it (if |
-// present) preserving all the arguments prepared for current call. |
-// Does nothing if debugger is currently active. |
-// ES6 14.6.3. PrepareForTailCall |
-// |
-// Stack structure for the function g() tail calling f(): |
-// |
-// ------- Caller frame: ------- |
-// | ... |
-// | g()'s arg M |
-// | ... |
-// | g()'s arg 1 |
-// | g()'s receiver arg |
-// | g()'s caller pc |
-// ------- g()'s frame: ------- |
-// | g()'s caller fp <- fp |
-// | g()'s context |
-// | function pointer: g |
-// | ------------------------- |
-// | ... |
-// | ... |
-// | f()'s arg N |
-// | ... |
-// | f()'s arg 1 |
-// | f()'s receiver arg |
-// | f()'s caller pc <- sp |
-// ---------------------- |
-// |
-void PrepareForTailCall(MacroAssembler* masm, Register args_reg, |
- Register scratch1, Register scratch2, |
- Register scratch3) { |
- DCHECK(!AreAliased(args_reg, scratch1, scratch2, scratch3)); |
- Comment cmnt(masm, "[ PrepareForTailCall"); |
- |
- // Prepare for tail call only if ES2015 tail call elimination is enabled. |
- Label done; |
- ExternalReference is_tail_call_elimination_enabled = |
- ExternalReference::is_tail_call_elimination_enabled_address( |
- masm->isolate()); |
- __ movzx_b(scratch1, |
- Operand::StaticVariable(is_tail_call_elimination_enabled)); |
- __ cmp(scratch1, Immediate(0)); |
- __ j(equal, &done, Label::kNear); |
- |
- // Drop possible interpreter handler/stub frame. |
- { |
- Label no_interpreter_frame; |
- __ cmp(Operand(ebp, CommonFrameConstants::kContextOrFrameTypeOffset), |
- Immediate(Smi::FromInt(StackFrame::STUB))); |
- __ j(not_equal, &no_interpreter_frame, Label::kNear); |
- __ mov(ebp, Operand(ebp, StandardFrameConstants::kCallerFPOffset)); |
- __ bind(&no_interpreter_frame); |
- } |
- |
- // Check if next frame is an arguments adaptor frame. |
- Register caller_args_count_reg = scratch1; |
- Label no_arguments_adaptor, formal_parameter_count_loaded; |
- __ mov(scratch2, Operand(ebp, StandardFrameConstants::kCallerFPOffset)); |
- __ cmp(Operand(scratch2, CommonFrameConstants::kContextOrFrameTypeOffset), |
- Immediate(Smi::FromInt(StackFrame::ARGUMENTS_ADAPTOR))); |
- __ j(not_equal, &no_arguments_adaptor, Label::kNear); |
- |
- // Drop current frame and load arguments count from arguments adaptor frame. |
- __ mov(ebp, scratch2); |
- __ mov(caller_args_count_reg, |
- Operand(ebp, ArgumentsAdaptorFrameConstants::kLengthOffset)); |
- __ SmiUntag(caller_args_count_reg); |
- __ jmp(&formal_parameter_count_loaded, Label::kNear); |
- |
- __ bind(&no_arguments_adaptor); |
- // Load caller's formal parameter count |
- __ mov(scratch1, Operand(ebp, JavaScriptFrameConstants::kFunctionOffset)); |
- __ mov(scratch1, |
- FieldOperand(scratch1, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov( |
- caller_args_count_reg, |
- FieldOperand(scratch1, SharedFunctionInfo::kFormalParameterCountOffset)); |
- __ SmiUntag(caller_args_count_reg); |
- |
- __ bind(&formal_parameter_count_loaded); |
- |
- ParameterCount callee_args_count(args_reg); |
- __ PrepareForTailCall(callee_args_count, caller_args_count_reg, scratch2, |
- scratch3, ReturnAddressState::kOnStack, 0); |
- __ bind(&done); |
-} |
-} // namespace |
- |
-// static |
-void Builtins::Generate_CallFunction(MacroAssembler* masm, |
- ConvertReceiverMode mode, |
- TailCallMode tail_call_mode) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edi : the function to call (checked to be a JSFunction) |
- // ----------------------------------- |
- __ AssertFunction(edi); |
- |
- // See ES6 section 9.2.1 [[Call]] ( thisArgument, argumentsList) |
- // Check that the function is not a "classConstructor". |
- Label class_constructor; |
- __ mov(edx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ test_b(FieldOperand(edx, SharedFunctionInfo::kFunctionKindByteOffset), |
- Immediate(SharedFunctionInfo::kClassConstructorBitsWithinByte)); |
- __ j(not_zero, &class_constructor); |
- |
- // Enter the context of the function; ToObject has to run in the function |
- // context, and we also need to take the global proxy from the function |
- // context in case of conversion. |
- STATIC_ASSERT(SharedFunctionInfo::kNativeByteOffset == |
- SharedFunctionInfo::kStrictModeByteOffset); |
- __ mov(esi, FieldOperand(edi, JSFunction::kContextOffset)); |
- // We need to convert the receiver for non-native sloppy mode functions. |
- Label done_convert; |
- __ test_b(FieldOperand(edx, SharedFunctionInfo::kNativeByteOffset), |
- Immediate((1 << SharedFunctionInfo::kNativeBitWithinByte) | |
- (1 << SharedFunctionInfo::kStrictModeBitWithinByte))); |
- __ j(not_zero, &done_convert); |
- { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : the shared function info. |
- // -- edi : the function to call (checked to be a JSFunction) |
- // -- esi : the function context. |
- // ----------------------------------- |
- |
- if (mode == ConvertReceiverMode::kNullOrUndefined) { |
- // Patch receiver to global proxy. |
- __ LoadGlobalProxy(ecx); |
- } else { |
- Label convert_to_object, convert_receiver; |
- __ mov(ecx, Operand(esp, eax, times_pointer_size, kPointerSize)); |
- __ JumpIfSmi(ecx, &convert_to_object, Label::kNear); |
- STATIC_ASSERT(LAST_JS_RECEIVER_TYPE == LAST_TYPE); |
- __ CmpObjectType(ecx, FIRST_JS_RECEIVER_TYPE, ebx); |
- __ j(above_equal, &done_convert); |
- if (mode != ConvertReceiverMode::kNotNullOrUndefined) { |
- Label convert_global_proxy; |
- __ JumpIfRoot(ecx, Heap::kUndefinedValueRootIndex, |
- &convert_global_proxy, Label::kNear); |
- __ JumpIfNotRoot(ecx, Heap::kNullValueRootIndex, &convert_to_object, |
- Label::kNear); |
- __ bind(&convert_global_proxy); |
- { |
- // Patch receiver to global proxy. |
- __ LoadGlobalProxy(ecx); |
- } |
- __ jmp(&convert_receiver); |
- } |
- __ bind(&convert_to_object); |
- { |
- // Convert receiver using ToObject. |
- // TODO(bmeurer): Inline the allocation here to avoid building the frame |
- // in the fast case? (fall back to AllocateInNewSpace?) |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ SmiTag(eax); |
- __ Push(eax); |
- __ Push(edi); |
- __ mov(eax, ecx); |
- ToObjectStub stub(masm->isolate()); |
- __ CallStub(&stub); |
- __ mov(ecx, eax); |
- __ Pop(edi); |
- __ Pop(eax); |
- __ SmiUntag(eax); |
- } |
- __ mov(edx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ bind(&convert_receiver); |
- } |
- __ mov(Operand(esp, eax, times_pointer_size, kPointerSize), ecx); |
- } |
- __ bind(&done_convert); |
- |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : the shared function info. |
- // -- edi : the function to call (checked to be a JSFunction) |
- // -- esi : the function context. |
- // ----------------------------------- |
- |
- if (tail_call_mode == TailCallMode::kAllow) { |
- PrepareForTailCall(masm, eax, ebx, ecx, edx); |
- // Reload shared function info. |
- __ mov(edx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- } |
- |
- __ mov(ebx, |
- FieldOperand(edx, SharedFunctionInfo::kFormalParameterCountOffset)); |
- __ SmiUntag(ebx); |
- ParameterCount actual(eax); |
- ParameterCount expected(ebx); |
- __ InvokeFunctionCode(edi, no_reg, expected, actual, JUMP_FUNCTION, |
- CheckDebugStepCallWrapper()); |
- // The function is a "classConstructor", need to raise an exception. |
- __ bind(&class_constructor); |
- { |
- FrameScope frame(masm, StackFrame::INTERNAL); |
- __ push(edi); |
- __ CallRuntime(Runtime::kThrowConstructorNonCallableError); |
- } |
-} |
- |
- |
-namespace { |
- |
-void Generate_PushBoundArguments(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : new.target (only in case of [[Construct]]) |
- // -- edi : target (checked to be a JSBoundFunction) |
- // ----------------------------------- |
- |
- // Load [[BoundArguments]] into ecx and length of that into ebx. |
- Label no_bound_arguments; |
- __ mov(ecx, FieldOperand(edi, JSBoundFunction::kBoundArgumentsOffset)); |
- __ mov(ebx, FieldOperand(ecx, FixedArray::kLengthOffset)); |
- __ SmiUntag(ebx); |
- __ test(ebx, ebx); |
- __ j(zero, &no_bound_arguments); |
- { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : new.target (only in case of [[Construct]]) |
- // -- edi : target (checked to be a JSBoundFunction) |
- // -- ecx : the [[BoundArguments]] (implemented as FixedArray) |
- // -- ebx : the number of [[BoundArguments]] |
- // ----------------------------------- |
- |
- // Reserve stack space for the [[BoundArguments]]. |
- { |
- Label done; |
- __ lea(ecx, Operand(ebx, times_pointer_size, 0)); |
- __ sub(esp, ecx); |
- // Check the stack for overflow. We are not trying to catch interruptions |
- // (i.e. debug break and preemption) here, so check the "real stack |
- // limit". |
- __ CompareRoot(esp, ecx, Heap::kRealStackLimitRootIndex); |
- __ j(greater, &done, Label::kNear); // Signed comparison. |
- // Restore the stack pointer. |
- __ lea(esp, Operand(esp, ebx, times_pointer_size, 0)); |
- { |
- FrameScope scope(masm, StackFrame::MANUAL); |
- __ EnterFrame(StackFrame::INTERNAL); |
- __ CallRuntime(Runtime::kThrowStackOverflow); |
- } |
- __ bind(&done); |
- } |
- |
- // Adjust effective number of arguments to include return address. |
- __ inc(eax); |
- |
- // Relocate arguments and return address down the stack. |
- { |
- Label loop; |
- __ Set(ecx, 0); |
- __ lea(ebx, Operand(esp, ebx, times_pointer_size, 0)); |
- __ bind(&loop); |
- __ movd(xmm0, Operand(ebx, ecx, times_pointer_size, 0)); |
- __ movd(Operand(esp, ecx, times_pointer_size, 0), xmm0); |
- __ inc(ecx); |
- __ cmp(ecx, eax); |
- __ j(less, &loop); |
- } |
- |
- // Copy [[BoundArguments]] to the stack (below the arguments). |
- { |
- Label loop; |
- __ mov(ecx, FieldOperand(edi, JSBoundFunction::kBoundArgumentsOffset)); |
- __ mov(ebx, FieldOperand(ecx, FixedArray::kLengthOffset)); |
- __ SmiUntag(ebx); |
- __ bind(&loop); |
- __ dec(ebx); |
- __ movd(xmm0, FieldOperand(ecx, ebx, times_pointer_size, |
- FixedArray::kHeaderSize)); |
- __ movd(Operand(esp, eax, times_pointer_size, 0), xmm0); |
- __ lea(eax, Operand(eax, 1)); |
- __ j(greater, &loop); |
- } |
- |
- // Adjust effective number of arguments (eax contains the number of |
- // arguments from the call plus return address plus the number of |
- // [[BoundArguments]]), so we need to subtract one for the return address. |
- __ dec(eax); |
- } |
- __ bind(&no_bound_arguments); |
-} |
- |
-} // namespace |
- |
- |
-// static |
-void Builtins::Generate_CallBoundFunctionImpl(MacroAssembler* masm, |
- TailCallMode tail_call_mode) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edi : the function to call (checked to be a JSBoundFunction) |
- // ----------------------------------- |
- __ AssertBoundFunction(edi); |
- |
- if (tail_call_mode == TailCallMode::kAllow) { |
- PrepareForTailCall(masm, eax, ebx, ecx, edx); |
- } |
- |
- // Patch the receiver to [[BoundThis]]. |
- __ mov(ebx, FieldOperand(edi, JSBoundFunction::kBoundThisOffset)); |
- __ mov(Operand(esp, eax, times_pointer_size, kPointerSize), ebx); |
- |
- // Push the [[BoundArguments]] onto the stack. |
- Generate_PushBoundArguments(masm); |
- |
- // Call the [[BoundTargetFunction]] via the Call builtin. |
- __ mov(edi, FieldOperand(edi, JSBoundFunction::kBoundTargetFunctionOffset)); |
- __ mov(ecx, Operand::StaticVariable(ExternalReference( |
- Builtins::kCall_ReceiverIsAny, masm->isolate()))); |
- __ lea(ecx, FieldOperand(ecx, Code::kHeaderSize)); |
- __ jmp(ecx); |
-} |
- |
- |
-// static |
-void Builtins::Generate_Call(MacroAssembler* masm, ConvertReceiverMode mode, |
- TailCallMode tail_call_mode) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edi : the target to call (can be any Object). |
- // ----------------------------------- |
- |
- Label non_callable, non_function, non_smi; |
- __ JumpIfSmi(edi, &non_callable); |
- __ bind(&non_smi); |
- __ CmpObjectType(edi, JS_FUNCTION_TYPE, ecx); |
- __ j(equal, masm->isolate()->builtins()->CallFunction(mode, tail_call_mode), |
- RelocInfo::CODE_TARGET); |
- __ CmpInstanceType(ecx, JS_BOUND_FUNCTION_TYPE); |
- __ j(equal, masm->isolate()->builtins()->CallBoundFunction(tail_call_mode), |
- RelocInfo::CODE_TARGET); |
- |
- // Check if target has a [[Call]] internal method. |
- __ test_b(FieldOperand(ecx, Map::kBitFieldOffset), |
- Immediate(1 << Map::kIsCallable)); |
- __ j(zero, &non_callable); |
- |
- __ CmpInstanceType(ecx, JS_PROXY_TYPE); |
- __ j(not_equal, &non_function); |
- |
- // 0. Prepare for tail call if necessary. |
- if (tail_call_mode == TailCallMode::kAllow) { |
- PrepareForTailCall(masm, eax, ebx, ecx, edx); |
- } |
- |
- // 1. Runtime fallback for Proxy [[Call]]. |
- __ PopReturnAddressTo(ecx); |
- __ Push(edi); |
- __ PushReturnAddressFrom(ecx); |
- // Increase the arguments size to include the pushed function and the |
- // existing receiver on the stack. |
- __ add(eax, Immediate(2)); |
- // Tail-call to the runtime. |
- __ JumpToExternalReference( |
- ExternalReference(Runtime::kJSProxyCall, masm->isolate())); |
- |
- // 2. Call to something else, which might have a [[Call]] internal method (if |
- // not we raise an exception). |
- __ bind(&non_function); |
- // Overwrite the original receiver with the (original) target. |
- __ mov(Operand(esp, eax, times_pointer_size, kPointerSize), edi); |
- // Let the "call_as_function_delegate" take care of the rest. |
- __ LoadGlobalFunction(Context::CALL_AS_FUNCTION_DELEGATE_INDEX, edi); |
- __ Jump(masm->isolate()->builtins()->CallFunction( |
- ConvertReceiverMode::kNotNullOrUndefined, tail_call_mode), |
- RelocInfo::CODE_TARGET); |
- |
- // 3. Call to something that is not callable. |
- __ bind(&non_callable); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ Push(edi); |
- __ CallRuntime(Runtime::kThrowCalledNonCallable); |
- } |
-} |
- |
- |
-// static |
-void Builtins::Generate_ConstructFunction(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : the new target (checked to be a constructor) |
- // -- edi : the constructor to call (checked to be a JSFunction) |
- // ----------------------------------- |
- __ AssertFunction(edi); |
- |
- // Calling convention for function specific ConstructStubs require |
- // ebx to contain either an AllocationSite or undefined. |
- __ LoadRoot(ebx, Heap::kUndefinedValueRootIndex); |
- |
- // Tail call to the function-specific construct stub (still in the caller |
- // context at this point). |
- __ mov(ecx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(ecx, FieldOperand(ecx, SharedFunctionInfo::kConstructStubOffset)); |
- __ lea(ecx, FieldOperand(ecx, Code::kHeaderSize)); |
- __ jmp(ecx); |
-} |
- |
- |
-// static |
-void Builtins::Generate_ConstructBoundFunction(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : the new target (checked to be a constructor) |
- // -- edi : the constructor to call (checked to be a JSBoundFunction) |
- // ----------------------------------- |
- __ AssertBoundFunction(edi); |
- |
- // Push the [[BoundArguments]] onto the stack. |
- Generate_PushBoundArguments(masm); |
- |
- // Patch new.target to [[BoundTargetFunction]] if new.target equals target. |
- { |
- Label done; |
- __ cmp(edi, edx); |
- __ j(not_equal, &done, Label::kNear); |
- __ mov(edx, FieldOperand(edi, JSBoundFunction::kBoundTargetFunctionOffset)); |
- __ bind(&done); |
- } |
- |
- // Construct the [[BoundTargetFunction]] via the Construct builtin. |
- __ mov(edi, FieldOperand(edi, JSBoundFunction::kBoundTargetFunctionOffset)); |
- __ mov(ecx, Operand::StaticVariable( |
- ExternalReference(Builtins::kConstruct, masm->isolate()))); |
- __ lea(ecx, FieldOperand(ecx, Code::kHeaderSize)); |
- __ jmp(ecx); |
-} |
- |
- |
-// static |
-void Builtins::Generate_ConstructProxy(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edi : the constructor to call (checked to be a JSProxy) |
- // -- edx : the new target (either the same as the constructor or |
- // the JSFunction on which new was invoked initially) |
- // ----------------------------------- |
- |
- // Call into the Runtime for Proxy [[Construct]]. |
- __ PopReturnAddressTo(ecx); |
- __ Push(edi); |
- __ Push(edx); |
- __ PushReturnAddressFrom(ecx); |
- // Include the pushed new_target, constructor and the receiver. |
- __ add(eax, Immediate(3)); |
- // Tail-call to the runtime. |
- __ JumpToExternalReference( |
- ExternalReference(Runtime::kJSProxyConstruct, masm->isolate())); |
-} |
- |
- |
-// static |
-void Builtins::Generate_Construct(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : the number of arguments (not including the receiver) |
- // -- edx : the new target (either the same as the constructor or |
- // the JSFunction on which new was invoked initially) |
- // -- edi : the constructor to call (can be any Object) |
- // ----------------------------------- |
- |
- // Check if target is a Smi. |
- Label non_constructor; |
- __ JumpIfSmi(edi, &non_constructor, Label::kNear); |
- |
- // Dispatch based on instance type. |
- __ CmpObjectType(edi, JS_FUNCTION_TYPE, ecx); |
- __ j(equal, masm->isolate()->builtins()->ConstructFunction(), |
- RelocInfo::CODE_TARGET); |
- |
- // Check if target has a [[Construct]] internal method. |
- __ test_b(FieldOperand(ecx, Map::kBitFieldOffset), |
- Immediate(1 << Map::kIsConstructor)); |
- __ j(zero, &non_constructor, Label::kNear); |
- |
- // Only dispatch to bound functions after checking whether they are |
- // constructors. |
- __ CmpInstanceType(ecx, JS_BOUND_FUNCTION_TYPE); |
- __ j(equal, masm->isolate()->builtins()->ConstructBoundFunction(), |
- RelocInfo::CODE_TARGET); |
- |
- // Only dispatch to proxies after checking whether they are constructors. |
- __ CmpInstanceType(ecx, JS_PROXY_TYPE); |
- __ j(equal, masm->isolate()->builtins()->ConstructProxy(), |
- RelocInfo::CODE_TARGET); |
- |
- // Called Construct on an exotic Object with a [[Construct]] internal method. |
- { |
- // Overwrite the original receiver with the (original) target. |
- __ mov(Operand(esp, eax, times_pointer_size, kPointerSize), edi); |
- // Let the "call_as_constructor_delegate" take care of the rest. |
- __ LoadGlobalFunction(Context::CALL_AS_CONSTRUCTOR_DELEGATE_INDEX, edi); |
- __ Jump(masm->isolate()->builtins()->CallFunction(), |
- RelocInfo::CODE_TARGET); |
- } |
- |
- // Called Construct on an Object that doesn't have a [[Construct]] internal |
- // method. |
- __ bind(&non_constructor); |
- __ Jump(masm->isolate()->builtins()->ConstructedNonConstructable(), |
- RelocInfo::CODE_TARGET); |
-} |
- |
-// static |
-void Builtins::Generate_AllocateInNewSpace(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- edx : requested object size (untagged) |
- // -- esp[0] : return address |
- // ----------------------------------- |
- __ SmiTag(edx); |
- __ PopReturnAddressTo(ecx); |
- __ Push(edx); |
- __ PushReturnAddressFrom(ecx); |
- __ Move(esi, Smi::FromInt(0)); |
- __ TailCallRuntime(Runtime::kAllocateInNewSpace); |
-} |
- |
-// static |
-void Builtins::Generate_AllocateInOldSpace(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- edx : requested object size (untagged) |
- // -- esp[0] : return address |
- // ----------------------------------- |
- __ SmiTag(edx); |
- __ PopReturnAddressTo(ecx); |
- __ Push(edx); |
- __ Push(Smi::FromInt(AllocateTargetSpace::encode(OLD_SPACE))); |
- __ PushReturnAddressFrom(ecx); |
- __ Move(esi, Smi::FromInt(0)); |
- __ TailCallRuntime(Runtime::kAllocateInTargetSpace); |
-} |
- |
-// static |
-void Builtins::Generate_StringToNumber(MacroAssembler* masm) { |
- // The StringToNumber stub takes one argument in eax. |
- __ AssertString(eax); |
- |
- // Check if string has a cached array index. |
- Label runtime; |
- __ test(FieldOperand(eax, String::kHashFieldOffset), |
- Immediate(String::kContainsCachedArrayIndexMask)); |
- __ j(not_zero, &runtime, Label::kNear); |
- __ mov(eax, FieldOperand(eax, String::kHashFieldOffset)); |
- __ IndexFromHash(eax, eax); |
- __ Ret(); |
- |
- __ bind(&runtime); |
- { |
- FrameScope frame(masm, StackFrame::INTERNAL); |
- // Push argument. |
- __ push(eax); |
- // We cannot use a tail call here because this builtin can also be called |
- // from wasm. |
- __ CallRuntime(Runtime::kStringToNumber); |
- } |
- __ Ret(); |
-} |
- |
-// static |
-void Builtins::Generate_ToNumber(MacroAssembler* masm) { |
- // The ToNumber stub takes one argument in eax. |
- Label not_smi; |
- __ JumpIfNotSmi(eax, ¬_smi, Label::kNear); |
- __ Ret(); |
- __ bind(¬_smi); |
- |
- Label not_heap_number; |
- __ CompareMap(eax, masm->isolate()->factory()->heap_number_map()); |
- __ j(not_equal, ¬_heap_number, Label::kNear); |
- __ Ret(); |
- __ bind(¬_heap_number); |
- |
- __ Jump(masm->isolate()->builtins()->NonNumberToNumber(), |
- RelocInfo::CODE_TARGET); |
-} |
- |
-// static |
-void Builtins::Generate_NonNumberToNumber(MacroAssembler* masm) { |
- // The NonNumberToNumber stub takes one argument in eax. |
- __ AssertNotNumber(eax); |
- |
- Label not_string; |
- __ CmpObjectType(eax, FIRST_NONSTRING_TYPE, edi); |
- // eax: object |
- // edi: object map |
- __ j(above_equal, ¬_string, Label::kNear); |
- __ Jump(masm->isolate()->builtins()->StringToNumber(), |
- RelocInfo::CODE_TARGET); |
- __ bind(¬_string); |
- |
- Label not_oddball; |
- __ CmpInstanceType(edi, ODDBALL_TYPE); |
- __ j(not_equal, ¬_oddball, Label::kNear); |
- __ mov(eax, FieldOperand(eax, Oddball::kToNumberOffset)); |
- __ Ret(); |
- __ bind(¬_oddball); |
- { |
- FrameScope frame(masm, StackFrame::INTERNAL); |
- // Push argument. |
- __ push(eax); |
- // We cannot use a tail call here because this builtin can also be called |
- // from wasm. |
- __ CallRuntime(Runtime::kToNumber); |
- } |
- __ Ret(); |
-} |
- |
-void Builtins::Generate_ArgumentsAdaptorTrampoline(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : actual number of arguments |
- // -- ebx : expected number of arguments |
- // -- edx : new target (passed through to callee) |
- // -- edi : function (passed through to callee) |
- // ----------------------------------- |
- |
- Label invoke, dont_adapt_arguments, stack_overflow; |
- __ IncrementCounter(masm->isolate()->counters()->arguments_adaptors(), 1); |
- |
- Label enough, too_few; |
- __ cmp(eax, ebx); |
- __ j(less, &too_few); |
- __ cmp(ebx, SharedFunctionInfo::kDontAdaptArgumentsSentinel); |
- __ j(equal, &dont_adapt_arguments); |
- |
- { // Enough parameters: Actual >= expected. |
- __ bind(&enough); |
- EnterArgumentsAdaptorFrame(masm); |
- ArgumentsAdaptorStackCheck(masm, &stack_overflow); |
- |
- // Copy receiver and all expected arguments. |
- const int offset = StandardFrameConstants::kCallerSPOffset; |
- __ lea(edi, Operand(ebp, eax, times_4, offset)); |
- __ mov(eax, -1); // account for receiver |
- |
- Label copy; |
- __ bind(©); |
- __ inc(eax); |
- __ push(Operand(edi, 0)); |
- __ sub(edi, Immediate(kPointerSize)); |
- __ cmp(eax, ebx); |
- __ j(less, ©); |
- // eax now contains the expected number of arguments. |
- __ jmp(&invoke); |
- } |
- |
- { // Too few parameters: Actual < expected. |
- __ bind(&too_few); |
- EnterArgumentsAdaptorFrame(masm); |
- ArgumentsAdaptorStackCheck(masm, &stack_overflow); |
- |
- // Remember expected arguments in ecx. |
- __ mov(ecx, ebx); |
- |
- // Copy receiver and all actual arguments. |
- const int offset = StandardFrameConstants::kCallerSPOffset; |
- __ lea(edi, Operand(ebp, eax, times_4, offset)); |
- // ebx = expected - actual. |
- __ sub(ebx, eax); |
- // eax = -actual - 1 |
- __ neg(eax); |
- __ sub(eax, Immediate(1)); |
- |
- Label copy; |
- __ bind(©); |
- __ inc(eax); |
- __ push(Operand(edi, 0)); |
- __ sub(edi, Immediate(kPointerSize)); |
- __ test(eax, eax); |
- __ j(not_zero, ©); |
- |
- // Fill remaining expected arguments with undefined values. |
- Label fill; |
- __ bind(&fill); |
- __ inc(eax); |
- __ push(Immediate(masm->isolate()->factory()->undefined_value())); |
- __ cmp(eax, ebx); |
- __ j(less, &fill); |
- |
- // Restore expected arguments. |
- __ mov(eax, ecx); |
- } |
- |
- // Call the entry point. |
- __ bind(&invoke); |
- // Restore function pointer. |
- __ mov(edi, Operand(ebp, ArgumentsAdaptorFrameConstants::kFunctionOffset)); |
- // eax : expected number of arguments |
- // edx : new target (passed through to callee) |
- // edi : function (passed through to callee) |
- __ mov(ecx, FieldOperand(edi, JSFunction::kCodeEntryOffset)); |
- __ call(ecx); |
- |
- // Store offset of return address for deoptimizer. |
- masm->isolate()->heap()->SetArgumentsAdaptorDeoptPCOffset(masm->pc_offset()); |
- |
- // Leave frame and return. |
- LeaveArgumentsAdaptorFrame(masm); |
- __ ret(0); |
- |
- // ------------------------------------------- |
- // Dont adapt arguments. |
- // ------------------------------------------- |
- __ bind(&dont_adapt_arguments); |
- __ mov(ecx, FieldOperand(edi, JSFunction::kCodeEntryOffset)); |
- __ jmp(ecx); |
- |
- __ bind(&stack_overflow); |
- { |
- FrameScope frame(masm, StackFrame::MANUAL); |
- __ CallRuntime(Runtime::kThrowStackOverflow); |
- __ int3(); |
- } |
-} |
- |
- |
-static void CompatibleReceiverCheck(MacroAssembler* masm, Register receiver, |
- Register function_template_info, |
- Register scratch0, Register scratch1, |
- Label* receiver_check_failed) { |
- // If there is no signature, return the holder. |
- __ CompareRoot(FieldOperand(function_template_info, |
- FunctionTemplateInfo::kSignatureOffset), |
- Heap::kUndefinedValueRootIndex); |
- Label receiver_check_passed; |
- __ j(equal, &receiver_check_passed, Label::kNear); |
- |
- // Walk the prototype chain. |
- __ mov(scratch0, FieldOperand(receiver, HeapObject::kMapOffset)); |
- Label prototype_loop_start; |
- __ bind(&prototype_loop_start); |
- |
- // Get the constructor, if any. |
- __ GetMapConstructor(scratch0, scratch0, scratch1); |
- __ CmpInstanceType(scratch1, JS_FUNCTION_TYPE); |
- Label next_prototype; |
- __ j(not_equal, &next_prototype, Label::kNear); |
- |
- // Get the constructor's signature. |
- __ mov(scratch0, |
- FieldOperand(scratch0, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(scratch0, |
- FieldOperand(scratch0, SharedFunctionInfo::kFunctionDataOffset)); |
- |
- // Loop through the chain of inheriting function templates. |
- Label function_template_loop; |
- __ bind(&function_template_loop); |
- |
- // If the signatures match, we have a compatible receiver. |
- __ cmp(scratch0, FieldOperand(function_template_info, |
- FunctionTemplateInfo::kSignatureOffset)); |
- __ j(equal, &receiver_check_passed, Label::kNear); |
- |
- // If the current type is not a FunctionTemplateInfo, load the next prototype |
- // in the chain. |
- __ JumpIfSmi(scratch0, &next_prototype, Label::kNear); |
- __ CmpObjectType(scratch0, FUNCTION_TEMPLATE_INFO_TYPE, scratch1); |
- __ j(not_equal, &next_prototype, Label::kNear); |
- |
- // Otherwise load the parent function template and iterate. |
- __ mov(scratch0, |
- FieldOperand(scratch0, FunctionTemplateInfo::kParentTemplateOffset)); |
- __ jmp(&function_template_loop, Label::kNear); |
- |
- // Load the next prototype. |
- __ bind(&next_prototype); |
- __ mov(receiver, FieldOperand(receiver, HeapObject::kMapOffset)); |
- __ test(FieldOperand(receiver, Map::kBitField3Offset), |
- Immediate(Map::HasHiddenPrototype::kMask)); |
- __ j(zero, receiver_check_failed); |
- |
- __ mov(receiver, FieldOperand(receiver, Map::kPrototypeOffset)); |
- __ mov(scratch0, FieldOperand(receiver, HeapObject::kMapOffset)); |
- // Iterate. |
- __ jmp(&prototype_loop_start, Label::kNear); |
- |
- __ bind(&receiver_check_passed); |
-} |
- |
- |
-void Builtins::Generate_HandleFastApiCall(MacroAssembler* masm) { |
- // ----------- S t a t e ------------- |
- // -- eax : number of arguments (not including the receiver) |
- // -- edi : callee |
- // -- esi : context |
- // -- esp[0] : return address |
- // -- esp[4] : last argument |
- // -- ... |
- // -- esp[eax * 4] : first argument |
- // -- esp[(eax + 1) * 4] : receiver |
- // ----------------------------------- |
- |
- // Load the FunctionTemplateInfo. |
- __ mov(ebx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset)); |
- __ mov(ebx, FieldOperand(ebx, SharedFunctionInfo::kFunctionDataOffset)); |
- |
- // Do the compatible receiver check. |
- Label receiver_check_failed; |
- __ mov(ecx, Operand(esp, eax, times_pointer_size, kPCOnStackSize)); |
- __ Push(eax); |
- CompatibleReceiverCheck(masm, ecx, ebx, edx, eax, &receiver_check_failed); |
- __ Pop(eax); |
- // Get the callback offset from the FunctionTemplateInfo, and jump to the |
- // beginning of the code. |
- __ mov(edx, FieldOperand(ebx, FunctionTemplateInfo::kCallCodeOffset)); |
- __ mov(edx, FieldOperand(edx, CallHandlerInfo::kFastHandlerOffset)); |
- __ add(edx, Immediate(Code::kHeaderSize - kHeapObjectTag)); |
- __ jmp(edx); |
- |
- // Compatible receiver check failed: pop return address, arguments and |
- // receiver and throw an Illegal Invocation exception. |
- __ bind(&receiver_check_failed); |
- __ Pop(eax); |
- __ PopReturnAddressTo(ebx); |
- __ lea(eax, Operand(eax, times_pointer_size, 1 * kPointerSize)); |
- __ add(esp, eax); |
- __ PushReturnAddressFrom(ebx); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- __ TailCallRuntime(Runtime::kThrowIllegalInvocation); |
- } |
-} |
- |
- |
-void Builtins::Generate_OnStackReplacement(MacroAssembler* masm) { |
- // Lookup the function in the JavaScript frame. |
- __ mov(eax, Operand(ebp, JavaScriptFrameConstants::kFunctionOffset)); |
- { |
- FrameScope scope(masm, StackFrame::INTERNAL); |
- // Pass function as argument. |
- __ push(eax); |
- __ CallRuntime(Runtime::kCompileForOnStackReplacement); |
- } |
- |
- Label skip; |
- // If the code object is null, just return to the unoptimized code. |
- __ cmp(eax, Immediate(0)); |
- __ j(not_equal, &skip, Label::kNear); |
- __ ret(0); |
- |
- __ bind(&skip); |
- |
- // Load deoptimization data from the code object. |
- __ mov(ebx, Operand(eax, Code::kDeoptimizationDataOffset - kHeapObjectTag)); |
- |
- // Load the OSR entrypoint offset from the deoptimization data. |
- __ mov(ebx, Operand(ebx, FixedArray::OffsetOfElementAt( |
- DeoptimizationInputData::kOsrPcOffsetIndex) - kHeapObjectTag)); |
- __ SmiUntag(ebx); |
- |
- // Compute the target address = code_obj + header_size + osr_offset |
- __ lea(eax, Operand(eax, ebx, times_1, Code::kHeaderSize - kHeapObjectTag)); |
- |
- // Overwrite the return address on the stack. |
- __ mov(Operand(esp, 0), eax); |
- |
- // And "return" to the OSR entry point of the function. |
- __ ret(0); |
-} |
- |
- |
-#undef __ |
-} // namespace internal |
-} // namespace v8 |
- |
-#endif // V8_TARGET_ARCH_IA32 |