| // 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. |
| |
| #include "src/v8.h" |
| |
| #if V8_TARGET_ARCH_IA32 |
| |
| #include "src/codegen.h" |
| #include "src/ic-inl.h" |
| #include "src/stub-cache.h" |
| |
| namespace v8 { |
| namespace internal { |
| |
| #define __ ACCESS_MASM(masm) |
| |
| |
| static void ProbeTable(Isolate* isolate, |
| MacroAssembler* masm, |
| Code::Flags flags, |
| StubCache::Table table, |
| Register name, |
| Register receiver, |
| // Number of the cache entry pointer-size scaled. |
| Register offset, |
| Register extra) { |
| ExternalReference key_offset(isolate->stub_cache()->key_reference(table)); |
| ExternalReference value_offset(isolate->stub_cache()->value_reference(table)); |
| ExternalReference map_offset(isolate->stub_cache()->map_reference(table)); |
| |
| Label miss; |
| |
| // Multiply by 3 because there are 3 fields per entry (name, code, map). |
| __ lea(offset, Operand(offset, offset, times_2, 0)); |
| |
| if (extra.is_valid()) { |
| // Get the code entry from the cache. |
| __ mov(extra, Operand::StaticArray(offset, times_1, value_offset)); |
| |
| // Check that the key in the entry matches the name. |
| __ cmp(name, Operand::StaticArray(offset, times_1, key_offset)); |
| __ j(not_equal, &miss); |
| |
| // Check the map matches. |
| __ mov(offset, Operand::StaticArray(offset, times_1, map_offset)); |
| __ cmp(offset, FieldOperand(receiver, HeapObject::kMapOffset)); |
| __ j(not_equal, &miss); |
| |
| // Check that the flags match what we're looking for. |
| __ mov(offset, FieldOperand(extra, Code::kFlagsOffset)); |
| __ and_(offset, ~Code::kFlagsNotUsedInLookup); |
| __ cmp(offset, flags); |
| __ j(not_equal, &miss); |
| |
| #ifdef DEBUG |
| if (FLAG_test_secondary_stub_cache && table == StubCache::kPrimary) { |
| __ jmp(&miss); |
| } else if (FLAG_test_primary_stub_cache && table == StubCache::kSecondary) { |
| __ jmp(&miss); |
| } |
| #endif |
| |
| // Jump to the first instruction in the code stub. |
| __ add(extra, Immediate(Code::kHeaderSize - kHeapObjectTag)); |
| __ jmp(extra); |
| |
| __ bind(&miss); |
| } else { |
| // Save the offset on the stack. |
| __ push(offset); |
| |
| // Check that the key in the entry matches the name. |
| __ cmp(name, Operand::StaticArray(offset, times_1, key_offset)); |
| __ j(not_equal, &miss); |
| |
| // Check the map matches. |
| __ mov(offset, Operand::StaticArray(offset, times_1, map_offset)); |
| __ cmp(offset, FieldOperand(receiver, HeapObject::kMapOffset)); |
| __ j(not_equal, &miss); |
| |
| // Restore offset register. |
| __ mov(offset, Operand(esp, 0)); |
| |
| // Get the code entry from the cache. |
| __ mov(offset, Operand::StaticArray(offset, times_1, value_offset)); |
| |
| // Check that the flags match what we're looking for. |
| __ mov(offset, FieldOperand(offset, Code::kFlagsOffset)); |
| __ and_(offset, ~Code::kFlagsNotUsedInLookup); |
| __ cmp(offset, flags); |
| __ j(not_equal, &miss); |
| |
| #ifdef DEBUG |
| if (FLAG_test_secondary_stub_cache && table == StubCache::kPrimary) { |
| __ jmp(&miss); |
| } else if (FLAG_test_primary_stub_cache && table == StubCache::kSecondary) { |
| __ jmp(&miss); |
| } |
| #endif |
| |
| // Restore offset and re-load code entry from cache. |
| __ pop(offset); |
| __ mov(offset, Operand::StaticArray(offset, times_1, value_offset)); |
| |
| // Jump to the first instruction in the code stub. |
| __ add(offset, Immediate(Code::kHeaderSize - kHeapObjectTag)); |
| __ jmp(offset); |
| |
| // Pop at miss. |
| __ bind(&miss); |
| __ pop(offset); |
| } |
| } |
| |
| |
| void StubCompiler::GenerateDictionaryNegativeLookup(MacroAssembler* masm, |
| Label* miss_label, |
| Register receiver, |
| Handle<Name> name, |
| Register scratch0, |
| Register scratch1) { |
| ASSERT(name->IsUniqueName()); |
| ASSERT(!receiver.is(scratch0)); |
| Counters* counters = masm->isolate()->counters(); |
| __ IncrementCounter(counters->negative_lookups(), 1); |
| __ IncrementCounter(counters->negative_lookups_miss(), 1); |
| |
| __ mov(scratch0, FieldOperand(receiver, HeapObject::kMapOffset)); |
| |
| const int kInterceptorOrAccessCheckNeededMask = |
| (1 << Map::kHasNamedInterceptor) | (1 << Map::kIsAccessCheckNeeded); |
| |
| // Bail out if the receiver has a named interceptor or requires access checks. |
| __ test_b(FieldOperand(scratch0, Map::kBitFieldOffset), |
| kInterceptorOrAccessCheckNeededMask); |
| __ j(not_zero, miss_label); |
| |
| // Check that receiver is a JSObject. |
| __ CmpInstanceType(scratch0, FIRST_SPEC_OBJECT_TYPE); |
| __ j(below, miss_label); |
| |
| // Load properties array. |
| Register properties = scratch0; |
| __ mov(properties, FieldOperand(receiver, JSObject::kPropertiesOffset)); |
| |
| // Check that the properties array is a dictionary. |
| __ cmp(FieldOperand(properties, HeapObject::kMapOffset), |
| Immediate(masm->isolate()->factory()->hash_table_map())); |
| __ j(not_equal, miss_label); |
| |
| Label done; |
| NameDictionaryLookupStub::GenerateNegativeLookup(masm, |
| miss_label, |
| &done, |
| properties, |
| name, |
| scratch1); |
| __ bind(&done); |
| __ DecrementCounter(counters->negative_lookups_miss(), 1); |
| } |
| |
| |
| void StubCache::GenerateProbe(MacroAssembler* masm, |
| Code::Flags flags, |
| Register receiver, |
| Register name, |
| Register scratch, |
| Register extra, |
| Register extra2, |
| Register extra3) { |
| Label miss; |
| |
| // Assert that code is valid. The multiplying code relies on the entry size |
| // being 12. |
| ASSERT(sizeof(Entry) == 12); |
| |
| // Assert the flags do not name a specific type. |
| ASSERT(Code::ExtractTypeFromFlags(flags) == 0); |
| |
| // Assert that there are no register conflicts. |
| ASSERT(!scratch.is(receiver)); |
| ASSERT(!scratch.is(name)); |
| ASSERT(!extra.is(receiver)); |
| ASSERT(!extra.is(name)); |
| ASSERT(!extra.is(scratch)); |
| |
| // Assert scratch and extra registers are valid, and extra2/3 are unused. |
| ASSERT(!scratch.is(no_reg)); |
| ASSERT(extra2.is(no_reg)); |
| ASSERT(extra3.is(no_reg)); |
| |
| Register offset = scratch; |
| scratch = no_reg; |
| |
| Counters* counters = masm->isolate()->counters(); |
| __ IncrementCounter(counters->megamorphic_stub_cache_probes(), 1); |
| |
| // Check that the receiver isn't a smi. |
| __ JumpIfSmi(receiver, &miss); |
| |
| // Get the map of the receiver and compute the hash. |
| __ mov(offset, FieldOperand(name, Name::kHashFieldOffset)); |
| __ add(offset, FieldOperand(receiver, HeapObject::kMapOffset)); |
| __ xor_(offset, flags); |
| // We mask out the last two bits because they are not part of the hash and |
| // they are always 01 for maps. Also in the two 'and' instructions below. |
| __ and_(offset, (kPrimaryTableSize - 1) << kHeapObjectTagSize); |
| // ProbeTable expects the offset to be pointer scaled, which it is, because |
| // the heap object tag size is 2 and the pointer size log 2 is also 2. |
| ASSERT(kHeapObjectTagSize == kPointerSizeLog2); |
| |
| // Probe the primary table. |
| ProbeTable(isolate(), masm, flags, kPrimary, name, receiver, offset, extra); |
| |
| // Primary miss: Compute hash for secondary probe. |
| __ mov(offset, FieldOperand(name, Name::kHashFieldOffset)); |
| __ add(offset, FieldOperand(receiver, HeapObject::kMapOffset)); |
| __ xor_(offset, flags); |
| __ and_(offset, (kPrimaryTableSize - 1) << kHeapObjectTagSize); |
| __ sub(offset, name); |
| __ add(offset, Immediate(flags)); |
| __ and_(offset, (kSecondaryTableSize - 1) << kHeapObjectTagSize); |
| |
| // Probe the secondary table. |
| ProbeTable( |
| isolate(), masm, flags, kSecondary, name, receiver, offset, extra); |
| |
| // Cache miss: Fall-through and let caller handle the miss by |
| // entering the runtime system. |
| __ bind(&miss); |
| __ IncrementCounter(counters->megamorphic_stub_cache_misses(), 1); |
| } |
| |
| |
| void StubCompiler::GenerateLoadGlobalFunctionPrototype(MacroAssembler* masm, |
| int index, |
| Register prototype) { |
| __ LoadGlobalFunction(index, prototype); |
| __ LoadGlobalFunctionInitialMap(prototype, prototype); |
| // Load the prototype from the initial map. |
| __ mov(prototype, FieldOperand(prototype, Map::kPrototypeOffset)); |
| } |
| |
| |
| void StubCompiler::GenerateDirectLoadGlobalFunctionPrototype( |
| MacroAssembler* masm, |
| int index, |
| Register prototype, |
| Label* miss) { |
| // Get the global function with the given index. |
| Handle<JSFunction> function( |
| JSFunction::cast(masm->isolate()->native_context()->get(index))); |
| // Check we're still in the same context. |
| Register scratch = prototype; |
| const int offset = Context::SlotOffset(Context::GLOBAL_OBJECT_INDEX); |
| __ mov(scratch, Operand(esi, offset)); |
| __ mov(scratch, FieldOperand(scratch, GlobalObject::kNativeContextOffset)); |
| __ cmp(Operand(scratch, Context::SlotOffset(index)), function); |
| __ j(not_equal, miss); |
| |
| // Load its initial map. The global functions all have initial maps. |
| __ Move(prototype, Immediate(Handle<Map>(function->initial_map()))); |
| // Load the prototype from the initial map. |
| __ mov(prototype, FieldOperand(prototype, Map::kPrototypeOffset)); |
| } |
| |
| |
| void StubCompiler::GenerateLoadArrayLength(MacroAssembler* masm, |
| Register receiver, |
| Register scratch, |
| Label* miss_label) { |
| // Check that the receiver isn't a smi. |
| __ JumpIfSmi(receiver, miss_label); |
| |
| // Check that the object is a JS array. |
| __ CmpObjectType(receiver, JS_ARRAY_TYPE, scratch); |
| __ j(not_equal, miss_label); |
| |
| // Load length directly from the JS array. |
| __ mov(eax, FieldOperand(receiver, JSArray::kLengthOffset)); |
| __ ret(0); |
| } |
| |
| |
| void StubCompiler::GenerateLoadFunctionPrototype(MacroAssembler* masm, |
| Register receiver, |
| Register scratch1, |
| Register scratch2, |
| Label* miss_label) { |
| __ TryGetFunctionPrototype(receiver, scratch1, scratch2, miss_label); |
| __ mov(eax, scratch1); |
| __ ret(0); |
| } |
| |
| |
| void StubCompiler::GenerateFastPropertyLoad(MacroAssembler* masm, |
| Register dst, |
| Register src, |
| bool inobject, |
| int index, |
| Representation representation) { |
| ASSERT(!representation.IsDouble()); |
| int offset = index * kPointerSize; |
| if (!inobject) { |
| // Calculate the offset into the properties array. |
| offset = offset + FixedArray::kHeaderSize; |
| __ mov(dst, FieldOperand(src, JSObject::kPropertiesOffset)); |
| src = dst; |
| } |
| __ mov(dst, FieldOperand(src, offset)); |
| } |
| |
| |
| static void PushInterceptorArguments(MacroAssembler* masm, |
| Register receiver, |
| Register holder, |
| Register name, |
| Handle<JSObject> holder_obj) { |
| STATIC_ASSERT(StubCache::kInterceptorArgsNameIndex == 0); |
| STATIC_ASSERT(StubCache::kInterceptorArgsInfoIndex == 1); |
| STATIC_ASSERT(StubCache::kInterceptorArgsThisIndex == 2); |
| STATIC_ASSERT(StubCache::kInterceptorArgsHolderIndex == 3); |
| STATIC_ASSERT(StubCache::kInterceptorArgsLength == 4); |
| __ push(name); |
| Handle<InterceptorInfo> interceptor(holder_obj->GetNamedInterceptor()); |
| ASSERT(!masm->isolate()->heap()->InNewSpace(*interceptor)); |
| Register scratch = name; |
| __ mov(scratch, Immediate(interceptor)); |
| __ push(scratch); |
| __ push(receiver); |
| __ push(holder); |
| } |
| |
| |
| static void CompileCallLoadPropertyWithInterceptor( |
| MacroAssembler* masm, |
| Register receiver, |
| Register holder, |
| Register name, |
| Handle<JSObject> holder_obj, |
| IC::UtilityId id) { |
| PushInterceptorArguments(masm, receiver, holder, name, holder_obj); |
| __ CallExternalReference( |
| ExternalReference(IC_Utility(id), masm->isolate()), |
| StubCache::kInterceptorArgsLength); |
| } |
| |
| |
| // Generate call to api function. |
| // This function uses push() to generate smaller, faster code than |
| // the version above. It is an optimization that should will be removed |
| // when api call ICs are generated in hydrogen. |
| void StubCompiler::GenerateFastApiCall(MacroAssembler* masm, |
| const CallOptimization& optimization, |
| Handle<Map> receiver_map, |
| Register receiver, |
| Register scratch_in, |
| bool is_store, |
| int argc, |
| Register* values) { |
| // Copy return value. |
| __ pop(scratch_in); |
| // receiver |
| __ push(receiver); |
| // Write the arguments to stack frame. |
| for (int i = 0; i < argc; i++) { |
| Register arg = values[argc-1-i]; |
| ASSERT(!receiver.is(arg)); |
| ASSERT(!scratch_in.is(arg)); |
| __ push(arg); |
| } |
| __ push(scratch_in); |
| // Stack now matches JSFunction abi. |
| ASSERT(optimization.is_simple_api_call()); |
| |
| // Abi for CallApiFunctionStub. |
| Register callee = eax; |
| Register call_data = ebx; |
| Register holder = ecx; |
| Register api_function_address = edx; |
| Register scratch = edi; // scratch_in is no longer valid. |
| |
| // Put holder in place. |
| CallOptimization::HolderLookup holder_lookup; |
| Handle<JSObject> api_holder = optimization.LookupHolderOfExpectedType( |
| receiver_map, |
| &holder_lookup); |
| switch (holder_lookup) { |
| case CallOptimization::kHolderIsReceiver: |
| __ Move(holder, receiver); |
| break; |
| case CallOptimization::kHolderFound: |
| __ LoadHeapObject(holder, api_holder); |
| break; |
| case CallOptimization::kHolderNotFound: |
| UNREACHABLE(); |
| break; |
| } |
| |
| Isolate* isolate = masm->isolate(); |
| Handle<JSFunction> function = optimization.constant_function(); |
| Handle<CallHandlerInfo> api_call_info = optimization.api_call_info(); |
| Handle<Object> call_data_obj(api_call_info->data(), isolate); |
| |
| // Put callee in place. |
| __ LoadHeapObject(callee, function); |
| |
| bool call_data_undefined = false; |
| // Put call_data in place. |
| if (isolate->heap()->InNewSpace(*call_data_obj)) { |
| __ mov(scratch, api_call_info); |
| __ mov(call_data, FieldOperand(scratch, CallHandlerInfo::kDataOffset)); |
| } else if (call_data_obj->IsUndefined()) { |
| call_data_undefined = true; |
| __ mov(call_data, Immediate(isolate->factory()->undefined_value())); |
| } else { |
| __ mov(call_data, call_data_obj); |
| } |
| |
| // Put api_function_address in place. |
| Address function_address = v8::ToCData<Address>(api_call_info->callback()); |
| __ mov(api_function_address, Immediate(function_address)); |
| |
| // Jump to stub. |
| CallApiFunctionStub stub(isolate, is_store, call_data_undefined, argc); |
| __ TailCallStub(&stub); |
| } |
| |
| |
| void StoreStubCompiler::GenerateRestoreName(MacroAssembler* masm, |
| Label* label, |
| Handle<Name> name) { |
| if (!label->is_unused()) { |
| __ bind(label); |
| __ mov(this->name(), Immediate(name)); |
| } |
| } |
| |
| |
| // Generate code to check that a global property cell is empty. Create |
| // the property cell at compilation time if no cell exists for the |
| // property. |
| void StubCompiler::GenerateCheckPropertyCell(MacroAssembler* masm, |
| Handle<JSGlobalObject> global, |
| Handle<Name> name, |
| Register scratch, |
| Label* miss) { |
| Handle<PropertyCell> cell = |
| JSGlobalObject::EnsurePropertyCell(global, name); |
| ASSERT(cell->value()->IsTheHole()); |
| Handle<Oddball> the_hole = masm->isolate()->factory()->the_hole_value(); |
| if (masm->serializer_enabled()) { |
| __ mov(scratch, Immediate(cell)); |
| __ cmp(FieldOperand(scratch, PropertyCell::kValueOffset), |
| Immediate(the_hole)); |
| } else { |
| __ cmp(Operand::ForCell(cell), Immediate(the_hole)); |
| } |
| __ j(not_equal, miss); |
| } |
| |
| |
| void StoreStubCompiler::GenerateNegativeHolderLookup( |
| MacroAssembler* masm, |
| Handle<JSObject> holder, |
| Register holder_reg, |
| Handle<Name> name, |
| Label* miss) { |
| if (holder->IsJSGlobalObject()) { |
| GenerateCheckPropertyCell( |
| masm, Handle<JSGlobalObject>::cast(holder), name, scratch1(), miss); |
| } else if (!holder->HasFastProperties() && !holder->IsJSGlobalProxy()) { |
| GenerateDictionaryNegativeLookup( |
| masm, miss, holder_reg, name, scratch1(), scratch2()); |
| } |
| } |
| |
| |
| // Receiver_reg is preserved on jumps to miss_label, but may be destroyed if |
| // store is successful. |
| void StoreStubCompiler::GenerateStoreTransition(MacroAssembler* masm, |
| Handle<JSObject> object, |
| LookupResult* lookup, |
| Handle<Map> transition, |
| Handle<Name> name, |
| Register receiver_reg, |
| Register storage_reg, |
| Register value_reg, |
| Register scratch1, |
| Register scratch2, |
| Register unused, |
| Label* miss_label, |
| Label* slow) { |
| int descriptor = transition->LastAdded(); |
| DescriptorArray* descriptors = transition->instance_descriptors(); |
| PropertyDetails details = descriptors->GetDetails(descriptor); |
| Representation representation = details.representation(); |
| ASSERT(!representation.IsNone()); |
| |
| if (details.type() == CONSTANT) { |
| Handle<Object> constant(descriptors->GetValue(descriptor), masm->isolate()); |
| __ CmpObject(value_reg, constant); |
| __ j(not_equal, miss_label); |
| } else if (representation.IsSmi()) { |
| __ JumpIfNotSmi(value_reg, miss_label); |
| } else if (representation.IsHeapObject()) { |
| __ JumpIfSmi(value_reg, miss_label); |
| HeapType* field_type = descriptors->GetFieldType(descriptor); |
| HeapType::Iterator<Map> it = field_type->Classes(); |
| if (!it.Done()) { |
| Label do_store; |
| while (true) { |
| __ CompareMap(value_reg, it.Current()); |
| it.Advance(); |
| if (it.Done()) { |
| __ j(not_equal, miss_label); |
| break; |
| } |
| __ j(equal, &do_store, Label::kNear); |
| } |
| __ bind(&do_store); |
| } |
| } else if (representation.IsDouble()) { |
| Label do_store, heap_number; |
| __ AllocateHeapNumber(storage_reg, scratch1, scratch2, slow); |
| |
| __ JumpIfNotSmi(value_reg, &heap_number); |
| __ SmiUntag(value_reg); |
| __ Cvtsi2sd(xmm0, value_reg); |
| __ SmiTag(value_reg); |
| __ jmp(&do_store); |
| |
| __ bind(&heap_number); |
| __ CheckMap(value_reg, masm->isolate()->factory()->heap_number_map(), |
| miss_label, DONT_DO_SMI_CHECK); |
| __ movsd(xmm0, FieldOperand(value_reg, HeapNumber::kValueOffset)); |
| |
| __ bind(&do_store); |
| __ movsd(FieldOperand(storage_reg, HeapNumber::kValueOffset), xmm0); |
| } |
| |
| // Stub never generated for non-global objects that require access |
| // checks. |
| ASSERT(object->IsJSGlobalProxy() || !object->IsAccessCheckNeeded()); |
| |
| // Perform map transition for the receiver if necessary. |
| if (details.type() == FIELD && |
| object->map()->unused_property_fields() == 0) { |
| // The properties must be extended before we can store the value. |
| // We jump to a runtime call that extends the properties array. |
| __ pop(scratch1); // Return address. |
| __ push(receiver_reg); |
| __ push(Immediate(transition)); |
| __ push(value_reg); |
| __ push(scratch1); |
| __ TailCallExternalReference( |
| ExternalReference(IC_Utility(IC::kSharedStoreIC_ExtendStorage), |
| masm->isolate()), |
| 3, |
| 1); |
| return; |
| } |
| |
| // Update the map of the object. |
| __ mov(scratch1, Immediate(transition)); |
| __ mov(FieldOperand(receiver_reg, HeapObject::kMapOffset), scratch1); |
| |
| // Update the write barrier for the map field. |
| __ RecordWriteField(receiver_reg, |
| HeapObject::kMapOffset, |
| scratch1, |
| scratch2, |
| kDontSaveFPRegs, |
| OMIT_REMEMBERED_SET, |
| OMIT_SMI_CHECK); |
| |
| if (details.type() == CONSTANT) { |
| ASSERT(value_reg.is(eax)); |
| __ ret(0); |
| return; |
| } |
| |
| int index = transition->instance_descriptors()->GetFieldIndex( |
| transition->LastAdded()); |
| |
| // Adjust for the number of properties stored in the object. Even in the |
| // face of a transition we can use the old map here because the size of the |
| // object and the number of in-object properties is not going to change. |
| index -= object->map()->inobject_properties(); |
| |
| SmiCheck smi_check = representation.IsTagged() |
| ? INLINE_SMI_CHECK : OMIT_SMI_CHECK; |
| // TODO(verwaest): Share this code as a code stub. |
| if (index < 0) { |
| // Set the property straight into the object. |
| int offset = object->map()->instance_size() + (index * kPointerSize); |
| if (representation.IsDouble()) { |
| __ mov(FieldOperand(receiver_reg, offset), storage_reg); |
| } else { |
| __ mov(FieldOperand(receiver_reg, offset), value_reg); |
| } |
| |
| if (!representation.IsSmi()) { |
| // Update the write barrier for the array address. |
| if (!representation.IsDouble()) { |
| __ mov(storage_reg, value_reg); |
| } |
| __ RecordWriteField(receiver_reg, |
| offset, |
| storage_reg, |
| scratch1, |
| kDontSaveFPRegs, |
| EMIT_REMEMBERED_SET, |
| smi_check); |
| } |
| } else { |
| // Write to the properties array. |
| int offset = index * kPointerSize + FixedArray::kHeaderSize; |
| // Get the properties array (optimistically). |
| __ mov(scratch1, FieldOperand(receiver_reg, JSObject::kPropertiesOffset)); |
| if (representation.IsDouble()) { |
| __ mov(FieldOperand(scratch1, offset), storage_reg); |
| } else { |
| __ mov(FieldOperand(scratch1, offset), value_reg); |
| } |
| |
| if (!representation.IsSmi()) { |
| // Update the write barrier for the array address. |
| if (!representation.IsDouble()) { |
| __ mov(storage_reg, value_reg); |
| } |
| __ RecordWriteField(scratch1, |
| offset, |
| storage_reg, |
| receiver_reg, |
| kDontSaveFPRegs, |
| EMIT_REMEMBERED_SET, |
| smi_check); |
| } |
| } |
| |
| // Return the value (register eax). |
| ASSERT(value_reg.is(eax)); |
| __ ret(0); |
| } |
| |
| |
| // Both name_reg and receiver_reg are preserved on jumps to miss_label, |
| // but may be destroyed if store is successful. |
| void StoreStubCompiler::GenerateStoreField(MacroAssembler* masm, |
| Handle<JSObject> object, |
| LookupResult* lookup, |
| Register receiver_reg, |
| Register name_reg, |
| Register value_reg, |
| Register scratch1, |
| Register scratch2, |
| Label* miss_label) { |
| // Stub never generated for non-global objects that require access |
| // checks. |
| ASSERT(object->IsJSGlobalProxy() || !object->IsAccessCheckNeeded()); |
| |
| FieldIndex index = lookup->GetFieldIndex(); |
| |
| Representation representation = lookup->representation(); |
| ASSERT(!representation.IsNone()); |
| if (representation.IsSmi()) { |
| __ JumpIfNotSmi(value_reg, miss_label); |
| } else if (representation.IsHeapObject()) { |
| __ JumpIfSmi(value_reg, miss_label); |
| HeapType* field_type = lookup->GetFieldType(); |
| HeapType::Iterator<Map> it = field_type->Classes(); |
| if (!it.Done()) { |
| Label do_store; |
| while (true) { |
| __ CompareMap(value_reg, it.Current()); |
| it.Advance(); |
| if (it.Done()) { |
| __ j(not_equal, miss_label); |
| break; |
| } |
| __ j(equal, &do_store, Label::kNear); |
| } |
| __ bind(&do_store); |
| } |
| } else if (representation.IsDouble()) { |
| // Load the double storage. |
| if (index.is_inobject()) { |
| __ mov(scratch1, FieldOperand(receiver_reg, index.offset())); |
| } else { |
| __ mov(scratch1, FieldOperand(receiver_reg, JSObject::kPropertiesOffset)); |
| __ mov(scratch1, FieldOperand(scratch1, index.offset())); |
| } |
| |
| // Store the value into the storage. |
| Label do_store, heap_number; |
| __ JumpIfNotSmi(value_reg, &heap_number); |
| __ SmiUntag(value_reg); |
| __ Cvtsi2sd(xmm0, value_reg); |
| __ SmiTag(value_reg); |
| __ jmp(&do_store); |
| __ bind(&heap_number); |
| __ CheckMap(value_reg, masm->isolate()->factory()->heap_number_map(), |
| miss_label, DONT_DO_SMI_CHECK); |
| __ movsd(xmm0, FieldOperand(value_reg, HeapNumber::kValueOffset)); |
| __ bind(&do_store); |
| __ movsd(FieldOperand(scratch1, HeapNumber::kValueOffset), xmm0); |
| // Return the value (register eax). |
| ASSERT(value_reg.is(eax)); |
| __ ret(0); |
| return; |
| } |
| |
| ASSERT(!representation.IsDouble()); |
| // TODO(verwaest): Share this code as a code stub. |
| SmiCheck smi_check = representation.IsTagged() |
| ? INLINE_SMI_CHECK : OMIT_SMI_CHECK; |
| if (index.is_inobject()) { |
| // Set the property straight into the object. |
| __ mov(FieldOperand(receiver_reg, index.offset()), value_reg); |
| |
| if (!representation.IsSmi()) { |
| // Update the write barrier for the array address. |
| // Pass the value being stored in the now unused name_reg. |
| __ mov(name_reg, value_reg); |
| __ RecordWriteField(receiver_reg, |
| index.offset(), |
| name_reg, |
| scratch1, |
| kDontSaveFPRegs, |
| EMIT_REMEMBERED_SET, |
| smi_check); |
| } |
| } else { |
| // Write to the properties array. |
| // Get the properties array (optimistically). |
| __ mov(scratch1, FieldOperand(receiver_reg, JSObject::kPropertiesOffset)); |
| __ mov(FieldOperand(scratch1, index.offset()), value_reg); |
| |
| if (!representation.IsSmi()) { |
| // Update the write barrier for the array address. |
| // Pass the value being stored in the now unused name_reg. |
| __ mov(name_reg, value_reg); |
| __ RecordWriteField(scratch1, |
| index.offset(), |
| name_reg, |
| receiver_reg, |
| kDontSaveFPRegs, |
| EMIT_REMEMBERED_SET, |
| smi_check); |
| } |
| } |
| |
| // Return the value (register eax). |
| ASSERT(value_reg.is(eax)); |
| __ ret(0); |
| } |
| |
| |
| void StubCompiler::GenerateTailCall(MacroAssembler* masm, Handle<Code> code) { |
| __ jmp(code, RelocInfo::CODE_TARGET); |
| } |
| |
| |
| #undef __ |
| #define __ ACCESS_MASM(masm()) |
| |
| |
| Register StubCompiler::CheckPrototypes(Handle<HeapType> type, |
| Register object_reg, |
| Handle<JSObject> holder, |
| Register holder_reg, |
| Register scratch1, |
| Register scratch2, |
| Handle<Name> name, |
| Label* miss, |
| PrototypeCheckType check) { |
| Handle<Map> receiver_map(IC::TypeToMap(*type, isolate())); |
| |
| // Make sure there's no overlap between holder and object registers. |
| ASSERT(!scratch1.is(object_reg) && !scratch1.is(holder_reg)); |
| ASSERT(!scratch2.is(object_reg) && !scratch2.is(holder_reg) |
| && !scratch2.is(scratch1)); |
| |
| // Keep track of the current object in register reg. |
| Register reg = object_reg; |
| int depth = 0; |
| |
| Handle<JSObject> current = Handle<JSObject>::null(); |
| if (type->IsConstant()) current = |
| Handle<JSObject>::cast(type->AsConstant()->Value()); |
| Handle<JSObject> prototype = Handle<JSObject>::null(); |
| Handle<Map> current_map = receiver_map; |
| Handle<Map> holder_map(holder->map()); |
| // Traverse the prototype chain and check the maps in the prototype chain for |
| // fast and global objects or do negative lookup for normal objects. |
| while (!current_map.is_identical_to(holder_map)) { |
| ++depth; |
| |
| // Only global objects and objects that do not require access |
| // checks are allowed in stubs. |
| ASSERT(current_map->IsJSGlobalProxyMap() || |
| !current_map->is_access_check_needed()); |
| |
| prototype = handle(JSObject::cast(current_map->prototype())); |
| if (current_map->is_dictionary_map() && |
| !current_map->IsJSGlobalObjectMap() && |
| !current_map->IsJSGlobalProxyMap()) { |
| if (!name->IsUniqueName()) { |
| ASSERT(name->IsString()); |
| name = factory()->InternalizeString(Handle<String>::cast(name)); |
| } |
| ASSERT(current.is_null() || |
| current->property_dictionary()->FindEntry(name) == |
| NameDictionary::kNotFound); |
| |
| GenerateDictionaryNegativeLookup(masm(), miss, reg, name, |
| scratch1, scratch2); |
| |
| __ mov(scratch1, FieldOperand(reg, HeapObject::kMapOffset)); |
| reg = holder_reg; // From now on the object will be in holder_reg. |
| __ mov(reg, FieldOperand(scratch1, Map::kPrototypeOffset)); |
| } else { |
| bool in_new_space = heap()->InNewSpace(*prototype); |
| if (depth != 1 || check == CHECK_ALL_MAPS) { |
| __ CheckMap(reg, current_map, miss, DONT_DO_SMI_CHECK); |
| } |
| |
| // Check access rights to the global object. This has to happen after |
| // the map check so that we know that the object is actually a global |
| // object. |
| if (current_map->IsJSGlobalProxyMap()) { |
| __ CheckAccessGlobalProxy(reg, scratch1, scratch2, miss); |
| } else if (current_map->IsJSGlobalObjectMap()) { |
| GenerateCheckPropertyCell( |
| masm(), Handle<JSGlobalObject>::cast(current), name, |
| scratch2, miss); |
| } |
| |
| if (in_new_space) { |
| // Save the map in scratch1 for later. |
| __ mov(scratch1, FieldOperand(reg, HeapObject::kMapOffset)); |
| } |
| |
| reg = holder_reg; // From now on the object will be in holder_reg. |
| |
| if (in_new_space) { |
| // The prototype is in new space; we cannot store a reference to it |
| // in the code. Load it from the map. |
| __ mov(reg, FieldOperand(scratch1, Map::kPrototypeOffset)); |
| } else { |
| // The prototype is in old space; load it directly. |
| __ mov(reg, prototype); |
| } |
| } |
| |
| // Go to the next object in the prototype chain. |
| current = prototype; |
| current_map = handle(current->map()); |
| } |
| |
| // Log the check depth. |
| LOG(isolate(), IntEvent("check-maps-depth", depth + 1)); |
| |
| if (depth != 0 || check == CHECK_ALL_MAPS) { |
| // Check the holder map. |
| __ CheckMap(reg, current_map, miss, DONT_DO_SMI_CHECK); |
| } |
| |
| // Perform security check for access to the global object. |
| ASSERT(current_map->IsJSGlobalProxyMap() || |
| !current_map->is_access_check_needed()); |
| if (current_map->IsJSGlobalProxyMap()) { |
| __ CheckAccessGlobalProxy(reg, scratch1, scratch2, miss); |
| } |
| |
| // Return the register containing the holder. |
| return reg; |
| } |
| |
| |
| void LoadStubCompiler::HandlerFrontendFooter(Handle<Name> name, Label* miss) { |
| if (!miss->is_unused()) { |
| Label success; |
| __ jmp(&success); |
| __ bind(miss); |
| TailCallBuiltin(masm(), MissBuiltin(kind())); |
| __ bind(&success); |
| } |
| } |
| |
| |
| void StoreStubCompiler::HandlerFrontendFooter(Handle<Name> name, Label* miss) { |
| if (!miss->is_unused()) { |
| Label success; |
| __ jmp(&success); |
| GenerateRestoreName(masm(), miss, name); |
| TailCallBuiltin(masm(), MissBuiltin(kind())); |
| __ bind(&success); |
| } |
| } |
| |
| |
| Register LoadStubCompiler::CallbackHandlerFrontend( |
| Handle<HeapType> type, |
| Register object_reg, |
| Handle<JSObject> holder, |
| Handle<Name> name, |
| Handle<Object> callback) { |
| Label miss; |
| |
| Register reg = HandlerFrontendHeader(type, object_reg, holder, name, &miss); |
| |
| if (!holder->HasFastProperties() && !holder->IsJSGlobalObject()) { |
| ASSERT(!reg.is(scratch2())); |
| ASSERT(!reg.is(scratch3())); |
| Register dictionary = scratch1(); |
| bool must_preserve_dictionary_reg = reg.is(dictionary); |
| |
| // Load the properties dictionary. |
| if (must_preserve_dictionary_reg) { |
| __ push(dictionary); |
| } |
| __ mov(dictionary, FieldOperand(reg, JSObject::kPropertiesOffset)); |
| |
| // Probe the dictionary. |
| Label probe_done, pop_and_miss; |
| NameDictionaryLookupStub::GeneratePositiveLookup(masm(), |
| &pop_and_miss, |
| &probe_done, |
| dictionary, |
| this->name(), |
| scratch2(), |
| scratch3()); |
| __ bind(&pop_and_miss); |
| if (must_preserve_dictionary_reg) { |
| __ pop(dictionary); |
| } |
| __ jmp(&miss); |
| __ bind(&probe_done); |
| |
| // If probing finds an entry in the dictionary, scratch2 contains the |
| // index into the dictionary. Check that the value is the callback. |
| Register index = scratch2(); |
| const int kElementsStartOffset = |
| NameDictionary::kHeaderSize + |
| NameDictionary::kElementsStartIndex * kPointerSize; |
| const int kValueOffset = kElementsStartOffset + kPointerSize; |
| __ mov(scratch3(), |
| Operand(dictionary, index, times_4, kValueOffset - kHeapObjectTag)); |
| if (must_preserve_dictionary_reg) { |
| __ pop(dictionary); |
| } |
| __ cmp(scratch3(), callback); |
| __ j(not_equal, &miss); |
| } |
| |
| HandlerFrontendFooter(name, &miss); |
| return reg; |
| } |
| |
| |
| void LoadStubCompiler::GenerateLoadField(Register reg, |
| Handle<JSObject> holder, |
| FieldIndex field, |
| Representation representation) { |
| if (!reg.is(receiver())) __ mov(receiver(), reg); |
| if (kind() == Code::LOAD_IC) { |
| LoadFieldStub stub(isolate(), field); |
| GenerateTailCall(masm(), stub.GetCode()); |
| } else { |
| KeyedLoadFieldStub stub(isolate(), field); |
| GenerateTailCall(masm(), stub.GetCode()); |
| } |
| } |
| |
| |
| void LoadStubCompiler::GenerateLoadCallback( |
| Register reg, |
| Handle<ExecutableAccessorInfo> callback) { |
| // Insert additional parameters into the stack frame above return address. |
| ASSERT(!scratch3().is(reg)); |
| __ pop(scratch3()); // Get return address to place it below. |
| |
| STATIC_ASSERT(PropertyCallbackArguments::kHolderIndex == 0); |
| STATIC_ASSERT(PropertyCallbackArguments::kIsolateIndex == 1); |
| STATIC_ASSERT(PropertyCallbackArguments::kReturnValueDefaultValueIndex == 2); |
| STATIC_ASSERT(PropertyCallbackArguments::kReturnValueOffset == 3); |
| STATIC_ASSERT(PropertyCallbackArguments::kDataIndex == 4); |
| STATIC_ASSERT(PropertyCallbackArguments::kThisIndex == 5); |
| __ push(receiver()); // receiver |
| // Push data from ExecutableAccessorInfo. |
| if (isolate()->heap()->InNewSpace(callback->data())) { |
| ASSERT(!scratch2().is(reg)); |
| __ mov(scratch2(), Immediate(callback)); |
| __ push(FieldOperand(scratch2(), ExecutableAccessorInfo::kDataOffset)); |
| } else { |
| __ push(Immediate(Handle<Object>(callback->data(), isolate()))); |
| } |
| __ push(Immediate(isolate()->factory()->undefined_value())); // ReturnValue |
| // ReturnValue default value |
| __ push(Immediate(isolate()->factory()->undefined_value())); |
| __ push(Immediate(reinterpret_cast<int>(isolate()))); |
| __ push(reg); // holder |
| |
| // Save a pointer to where we pushed the arguments. This will be |
| // passed as the const PropertyAccessorInfo& to the C++ callback. |
| __ push(esp); |
| |
| __ push(name()); // name |
| |
| __ push(scratch3()); // Restore return address. |
| |
| // Abi for CallApiGetter |
| Register getter_address = edx; |
| Address function_address = v8::ToCData<Address>(callback->getter()); |
| __ mov(getter_address, Immediate(function_address)); |
| |
| CallApiGetterStub stub(isolate()); |
| __ TailCallStub(&stub); |
| } |
| |
| |
| void LoadStubCompiler::GenerateLoadConstant(Handle<Object> value) { |
| // Return the constant value. |
| __ LoadObject(eax, value); |
| __ ret(0); |
| } |
| |
| |
| void LoadStubCompiler::GenerateLoadInterceptor( |
| Register holder_reg, |
| Handle<Object> object, |
| Handle<JSObject> interceptor_holder, |
| LookupResult* lookup, |
| Handle<Name> name) { |
| ASSERT(interceptor_holder->HasNamedInterceptor()); |
| ASSERT(!interceptor_holder->GetNamedInterceptor()->getter()->IsUndefined()); |
| |
| // So far the most popular follow ups for interceptor loads are FIELD |
| // and CALLBACKS, so inline only them, other cases may be added |
| // later. |
| bool compile_followup_inline = false; |
| if (lookup->IsFound() && lookup->IsCacheable()) { |
| if (lookup->IsField()) { |
| compile_followup_inline = true; |
| } else if (lookup->type() == CALLBACKS && |
| lookup->GetCallbackObject()->IsExecutableAccessorInfo()) { |
| ExecutableAccessorInfo* callback = |
| ExecutableAccessorInfo::cast(lookup->GetCallbackObject()); |
| compile_followup_inline = callback->getter() != NULL && |
| callback->IsCompatibleReceiver(*object); |
| } |
| } |
| |
| if (compile_followup_inline) { |
| // Compile the interceptor call, followed by inline code to load the |
| // property from further up the prototype chain if the call fails. |
| // Check that the maps haven't changed. |
| ASSERT(holder_reg.is(receiver()) || holder_reg.is(scratch1())); |
| |
| // Preserve the receiver register explicitly whenever it is different from |
| // the holder and it is needed should the interceptor return without any |
| // result. The CALLBACKS case needs the receiver to be passed into C++ code, |
| // the FIELD case might cause a miss during the prototype check. |
| bool must_perfrom_prototype_check = *interceptor_holder != lookup->holder(); |
| bool must_preserve_receiver_reg = !receiver().is(holder_reg) && |
| (lookup->type() == CALLBACKS || must_perfrom_prototype_check); |
| |
| // Save necessary data before invoking an interceptor. |
| // Requires a frame to make GC aware of pushed pointers. |
| { |
| FrameScope frame_scope(masm(), StackFrame::INTERNAL); |
| |
| if (must_preserve_receiver_reg) { |
| __ push(receiver()); |
| } |
| __ push(holder_reg); |
| __ push(this->name()); |
| |
| // Invoke an interceptor. Note: map checks from receiver to |
| // interceptor's holder has been compiled before (see a caller |
| // of this method.) |
| CompileCallLoadPropertyWithInterceptor( |
| masm(), receiver(), holder_reg, this->name(), interceptor_holder, |
| IC::kLoadPropertyWithInterceptorOnly); |
| |
| // Check if interceptor provided a value for property. If it's |
| // the case, return immediately. |
| Label interceptor_failed; |
| __ cmp(eax, factory()->no_interceptor_result_sentinel()); |
| __ j(equal, &interceptor_failed); |
| frame_scope.GenerateLeaveFrame(); |
| __ ret(0); |
| |
| // Clobber registers when generating debug-code to provoke errors. |
| __ bind(&interceptor_failed); |
| if (FLAG_debug_code) { |
| __ mov(receiver(), Immediate(BitCast<int32_t>(kZapValue))); |
| __ mov(holder_reg, Immediate(BitCast<int32_t>(kZapValue))); |
| __ mov(this->name(), Immediate(BitCast<int32_t>(kZapValue))); |
| } |
| |
| __ pop(this->name()); |
| __ pop(holder_reg); |
| if (must_preserve_receiver_reg) { |
| __ pop(receiver()); |
| } |
| |
| // Leave the internal frame. |
| } |
| |
| GenerateLoadPostInterceptor(holder_reg, interceptor_holder, name, lookup); |
| } else { // !compile_followup_inline |
| // Call the runtime system to load the interceptor. |
| // Check that the maps haven't changed. |
| __ pop(scratch2()); // save old return address |
| PushInterceptorArguments(masm(), receiver(), holder_reg, |
| this->name(), interceptor_holder); |
| __ push(scratch2()); // restore old return address |
| |
| ExternalReference ref = |
| ExternalReference(IC_Utility(IC::kLoadPropertyWithInterceptor), |
| isolate()); |
| __ TailCallExternalReference(ref, StubCache::kInterceptorArgsLength, 1); |
| } |
| } |
| |
| |
| Handle<Code> StoreStubCompiler::CompileStoreCallback( |
| Handle<JSObject> object, |
| Handle<JSObject> holder, |
| Handle<Name> name, |
| Handle<ExecutableAccessorInfo> callback) { |
| Register holder_reg = HandlerFrontend( |
| IC::CurrentTypeOf(object, isolate()), receiver(), holder, name); |
| |
| __ pop(scratch1()); // remove the return address |
| __ push(receiver()); |
| __ push(holder_reg); |
| __ Push(callback); |
| __ Push(name); |
| __ push(value()); |
| __ push(scratch1()); // restore return address |
| |
| // Do tail-call to the runtime system. |
| ExternalReference store_callback_property = |
| ExternalReference(IC_Utility(IC::kStoreCallbackProperty), isolate()); |
| __ TailCallExternalReference(store_callback_property, 5, 1); |
| |
| // Return the generated code. |
| return GetCode(kind(), Code::FAST, name); |
| } |
| |
| |
| #undef __ |
| #define __ ACCESS_MASM(masm) |
| |
| |
| void StoreStubCompiler::GenerateStoreViaSetter( |
| MacroAssembler* masm, |
| Handle<HeapType> type, |
| Register receiver, |
| Handle<JSFunction> setter) { |
| // ----------- S t a t e ------------- |
| // -- esp[0] : return address |
| // ----------------------------------- |
| { |
| FrameScope scope(masm, StackFrame::INTERNAL); |
| |
| // Save value register, so we can restore it later. |
| __ push(value()); |
| |
| if (!setter.is_null()) { |
| // Call the JavaScript setter with receiver and value on the stack. |
| if (IC::TypeToMap(*type, masm->isolate())->IsJSGlobalObjectMap()) { |
| // Swap in the global receiver. |
| __ mov(receiver, |
| FieldOperand(receiver, JSGlobalObject::kGlobalReceiverOffset)); |
| } |
| __ push(receiver); |
| __ push(value()); |
| ParameterCount actual(1); |
| ParameterCount expected(setter); |
| __ InvokeFunction(setter, expected, actual, |
| CALL_FUNCTION, NullCallWrapper()); |
| } else { |
| // If we generate a global code snippet for deoptimization only, remember |
| // the place to continue after deoptimization. |
| masm->isolate()->heap()->SetSetterStubDeoptPCOffset(masm->pc_offset()); |
| } |
| |
| // We have to return the passed value, not the return value of the setter. |
| __ pop(eax); |
| |
| // Restore context register. |
| __ mov(esi, Operand(ebp, StandardFrameConstants::kContextOffset)); |
| } |
| __ ret(0); |
| } |
| |
| |
| #undef __ |
| #define __ ACCESS_MASM(masm()) |
| |
| |
| Handle<Code> StoreStubCompiler::CompileStoreInterceptor( |
| Handle<JSObject> object, |
| Handle<Name> name) { |
| __ pop(scratch1()); // remove the return address |
| __ push(receiver()); |
| __ push(this->name()); |
| __ push(value()); |
| __ push(scratch1()); // restore return address |
| |
| // Do tail-call to the runtime system. |
| ExternalReference store_ic_property = |
| ExternalReference(IC_Utility(IC::kStoreInterceptorProperty), isolate()); |
| __ TailCallExternalReference(store_ic_property, 3, 1); |
| |
| // Return the generated code. |
| return GetCode(kind(), Code::FAST, name); |
| } |
| |
| |
| void StoreStubCompiler::GenerateStoreArrayLength() { |
| // Prepare tail call to StoreIC_ArrayLength. |
| __ pop(scratch1()); // remove the return address |
| __ push(receiver()); |
| __ push(value()); |
| __ push(scratch1()); // restore return address |
| |
| ExternalReference ref = |
| ExternalReference(IC_Utility(IC::kStoreIC_ArrayLength), |
| masm()->isolate()); |
| __ TailCallExternalReference(ref, 2, 1); |
| } |
| |
| |
| Handle<Code> KeyedStoreStubCompiler::CompileStorePolymorphic( |
| MapHandleList* receiver_maps, |
| CodeHandleList* handler_stubs, |
| MapHandleList* transitioned_maps) { |
| Label miss; |
| __ JumpIfSmi(receiver(), &miss, Label::kNear); |
| __ mov(scratch1(), FieldOperand(receiver(), HeapObject::kMapOffset)); |
| for (int i = 0; i < receiver_maps->length(); ++i) { |
| __ cmp(scratch1(), receiver_maps->at(i)); |
| if (transitioned_maps->at(i).is_null()) { |
| __ j(equal, handler_stubs->at(i)); |
| } else { |
| Label next_map; |
| __ j(not_equal, &next_map, Label::kNear); |
| __ mov(transition_map(), Immediate(transitioned_maps->at(i))); |
| __ jmp(handler_stubs->at(i), RelocInfo::CODE_TARGET); |
| __ bind(&next_map); |
| } |
| } |
| __ bind(&miss); |
| TailCallBuiltin(masm(), MissBuiltin(kind())); |
| |
| // Return the generated code. |
| return GetICCode( |
| kind(), Code::NORMAL, factory()->empty_string(), POLYMORPHIC); |
| } |
| |
| |
| Handle<Code> LoadStubCompiler::CompileLoadNonexistent(Handle<HeapType> type, |
| Handle<JSObject> last, |
| Handle<Name> name) { |
| NonexistentHandlerFrontend(type, last, name); |
| |
| // Return undefined if maps of the full prototype chain are still the |
| // same and no global property with this name contains a value. |
| __ mov(eax, isolate()->factory()->undefined_value()); |
| __ ret(0); |
| |
| // Return the generated code. |
| return GetCode(kind(), Code::FAST, name); |
| } |
| |
| |
| Register* LoadStubCompiler::registers() { |
| // receiver, name, scratch1, scratch2, scratch3, scratch4. |
| Register receiver = LoadIC::ReceiverRegister(); |
| Register name = LoadIC::NameRegister(); |
| static Register registers[] = { receiver, name, ebx, eax, edi, no_reg }; |
| return registers; |
| } |
| |
| |
| Register* KeyedLoadStubCompiler::registers() { |
| // receiver, name, scratch1, scratch2, scratch3, scratch4. |
| Register receiver = KeyedLoadIC::ReceiverRegister(); |
| Register name = KeyedLoadIC::NameRegister(); |
| static Register registers[] = { receiver, name, ebx, eax, edi, no_reg }; |
| return registers; |
| } |
| |
| |
| Register StoreStubCompiler::value() { |
| return eax; |
| } |
| |
| |
| Register* StoreStubCompiler::registers() { |
| // receiver, name, scratch1, scratch2, scratch3. |
| static Register registers[] = { edx, ecx, ebx, edi, no_reg }; |
| return registers; |
| } |
| |
| |
| Register* KeyedStoreStubCompiler::registers() { |
| // receiver, name, scratch1, scratch2, scratch3. |
| static Register registers[] = { edx, ecx, ebx, edi, no_reg }; |
| return registers; |
| } |
| |
| |
| #undef __ |
| #define __ ACCESS_MASM(masm) |
| |
| |
| void LoadStubCompiler::GenerateLoadViaGetter(MacroAssembler* masm, |
| Handle<HeapType> type, |
| Register receiver, |
| Handle<JSFunction> getter) { |
| { |
| FrameScope scope(masm, StackFrame::INTERNAL); |
| |
| if (!getter.is_null()) { |
| // Call the JavaScript getter with the receiver on the stack. |
| if (IC::TypeToMap(*type, masm->isolate())->IsJSGlobalObjectMap()) { |
| // Swap in the global receiver. |
| __ mov(receiver, |
| FieldOperand(receiver, JSGlobalObject::kGlobalReceiverOffset)); |
| } |
| __ push(receiver); |
| ParameterCount actual(0); |
| ParameterCount expected(getter); |
| __ InvokeFunction(getter, expected, actual, |
| CALL_FUNCTION, NullCallWrapper()); |
| } else { |
| // If we generate a global code snippet for deoptimization only, remember |
| // the place to continue after deoptimization. |
| masm->isolate()->heap()->SetGetterStubDeoptPCOffset(masm->pc_offset()); |
| } |
| |
| // Restore context register. |
| __ mov(esi, Operand(ebp, StandardFrameConstants::kContextOffset)); |
| } |
| __ ret(0); |
| } |
| |
| |
| #undef __ |
| #define __ ACCESS_MASM(masm()) |
| |
| |
| Handle<Code> LoadStubCompiler::CompileLoadGlobal( |
| Handle<HeapType> type, |
| Handle<GlobalObject> global, |
| Handle<PropertyCell> cell, |
| Handle<Name> name, |
| bool is_dont_delete) { |
| Label miss; |
| |
| HandlerFrontendHeader(type, receiver(), global, name, &miss); |
| // Get the value from the cell. |
| if (masm()->serializer_enabled()) { |
| __ mov(eax, Immediate(cell)); |
| __ mov(eax, FieldOperand(eax, PropertyCell::kValueOffset)); |
| } else { |
| __ mov(eax, Operand::ForCell(cell)); |
| } |
| |
| // Check for deleted property if property can actually be deleted. |
| if (!is_dont_delete) { |
| __ cmp(eax, factory()->the_hole_value()); |
| __ j(equal, &miss); |
| } else if (FLAG_debug_code) { |
| __ cmp(eax, factory()->the_hole_value()); |
| __ Check(not_equal, kDontDeleteCellsCannotContainTheHole); |
| } |
| |
| Counters* counters = isolate()->counters(); |
| __ IncrementCounter(counters->named_load_global_stub(), 1); |
| // The code above already loads the result into the return register. |
| __ ret(0); |
| |
| HandlerFrontendFooter(name, &miss); |
| |
| // Return the generated code. |
| return GetCode(kind(), Code::NORMAL, name); |
| } |
| |
| |
| Handle<Code> BaseLoadStoreStubCompiler::CompilePolymorphicIC( |
| TypeHandleList* types, |
| CodeHandleList* handlers, |
| Handle<Name> name, |
| Code::StubType type, |
| IcCheckType check) { |
| Label miss; |
| |
| if (check == PROPERTY && |
| (kind() == Code::KEYED_LOAD_IC || kind() == Code::KEYED_STORE_IC)) { |
| __ cmp(this->name(), Immediate(name)); |
| __ j(not_equal, &miss); |
| } |
| |
| Label number_case; |
| Label* smi_target = IncludesNumberType(types) ? &number_case : &miss; |
| __ JumpIfSmi(receiver(), smi_target); |
| |
| Register map_reg = scratch1(); |
| __ mov(map_reg, FieldOperand(receiver(), HeapObject::kMapOffset)); |
| int receiver_count = types->length(); |
| int number_of_handled_maps = 0; |
| for (int current = 0; current < receiver_count; ++current) { |
| Handle<HeapType> type = types->at(current); |
| Handle<Map> map = IC::TypeToMap(*type, isolate()); |
| if (!map->is_deprecated()) { |
| number_of_handled_maps++; |
| __ cmp(map_reg, map); |
| if (type->Is(HeapType::Number())) { |
| ASSERT(!number_case.is_unused()); |
| __ bind(&number_case); |
| } |
| __ j(equal, handlers->at(current)); |
| } |
| } |
| ASSERT(number_of_handled_maps != 0); |
| |
| __ bind(&miss); |
| TailCallBuiltin(masm(), MissBuiltin(kind())); |
| |
| // Return the generated code. |
| InlineCacheState state = |
| number_of_handled_maps > 1 ? POLYMORPHIC : MONOMORPHIC; |
| return GetICCode(kind(), type, name, state); |
| } |
| |
| |
| #undef __ |
| #define __ ACCESS_MASM(masm) |
| |
| |
| void KeyedLoadStubCompiler::GenerateLoadDictionaryElement( |
| MacroAssembler* masm) { |
| // ----------- S t a t e ------------- |
| // -- ecx : key |
| // -- edx : receiver |
| // -- esp[0] : return address |
| // ----------------------------------- |
| ASSERT(edx.is(KeyedLoadIC::ReceiverRegister())); |
| ASSERT(ecx.is(KeyedLoadIC::NameRegister())); |
| Label slow, miss; |
| |
| // This stub is meant to be tail-jumped to, the receiver must already |
| // have been verified by the caller to not be a smi. |
| __ JumpIfNotSmi(ecx, &miss); |
| __ mov(ebx, ecx); |
| __ SmiUntag(ebx); |
| __ mov(eax, FieldOperand(edx, JSObject::kElementsOffset)); |
| |
| // Push receiver on the stack to free up a register for the dictionary |
| // probing. |
| __ push(edx); |
| __ LoadFromNumberDictionary(&slow, eax, ecx, ebx, edx, edi, eax); |
| // Pop receiver before returning. |
| __ pop(edx); |
| __ ret(0); |
| |
| __ bind(&slow); |
| __ pop(edx); |
| |
| // ----------- S t a t e ------------- |
| // -- ecx : key |
| // -- edx : receiver |
| // -- esp[0] : return address |
| // ----------------------------------- |
| TailCallBuiltin(masm, Builtins::kKeyedLoadIC_Slow); |
| |
| __ bind(&miss); |
| // ----------- S t a t e ------------- |
| // -- ecx : key |
| // -- edx : receiver |
| // -- esp[0] : return address |
| // ----------------------------------- |
| TailCallBuiltin(masm, Builtins::kKeyedLoadIC_Miss); |
| } |
| |
| |
| #undef __ |
| |
| } } // namespace v8::internal |
| |
| #endif // V8_TARGET_ARCH_IA32 |