| // 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_X64 |
| |
| #include "src/codegen.h" |
| #include "src/ic/ic.h" |
| #include "src/ic/ic-compiler.h" |
| #include "src/ic/stub-cache.h" |
| |
| namespace v8 { |
| namespace internal { |
| |
| // ---------------------------------------------------------------------------- |
| // Static IC stub generators. |
| // |
| |
| #define __ ACCESS_MASM(masm) |
| |
| |
| static void GenerateGlobalInstanceTypeCheck(MacroAssembler* masm, Register type, |
| Label* global_object) { |
| // Register usage: |
| // type: holds the receiver instance type on entry. |
| __ cmpb(type, Immediate(JS_GLOBAL_OBJECT_TYPE)); |
| __ j(equal, global_object); |
| __ cmpb(type, Immediate(JS_BUILTINS_OBJECT_TYPE)); |
| __ j(equal, global_object); |
| __ cmpb(type, Immediate(JS_GLOBAL_PROXY_TYPE)); |
| __ j(equal, global_object); |
| } |
| |
| |
| // Helper function used to load a property from a dictionary backing storage. |
| // This function may return false negatives, so miss_label |
| // must always call a backup property load that is complete. |
| // This function is safe to call if name is not an internalized string, |
| // and will jump to the miss_label in that case. |
| // The generated code assumes that the receiver has slow properties, |
| // is not a global object and does not have interceptors. |
| static void GenerateDictionaryLoad(MacroAssembler* masm, Label* miss_label, |
| Register elements, Register name, |
| Register r0, Register r1, Register result) { |
| // Register use: |
| // |
| // elements - holds the property dictionary on entry and is unchanged. |
| // |
| // name - holds the name of the property on entry and is unchanged. |
| // |
| // r0 - used to hold the capacity of the property dictionary. |
| // |
| // r1 - used to hold the index into the property dictionary. |
| // |
| // result - holds the result on exit if the load succeeded. |
| |
| Label done; |
| |
| // Probe the dictionary. |
| NameDictionaryLookupStub::GeneratePositiveLookup(masm, miss_label, &done, |
| elements, name, r0, r1); |
| |
| // If probing finds an entry in the dictionary, r1 contains the |
| // index into the dictionary. Check that the value is a normal |
| // property. |
| __ bind(&done); |
| const int kElementsStartOffset = |
| NameDictionary::kHeaderSize + |
| NameDictionary::kElementsStartIndex * kPointerSize; |
| const int kDetailsOffset = kElementsStartOffset + 2 * kPointerSize; |
| __ Test(Operand(elements, r1, times_pointer_size, |
| kDetailsOffset - kHeapObjectTag), |
| Smi::FromInt(PropertyDetails::TypeField::kMask)); |
| __ j(not_zero, miss_label); |
| |
| // Get the value at the masked, scaled index. |
| const int kValueOffset = kElementsStartOffset + kPointerSize; |
| __ movp(result, Operand(elements, r1, times_pointer_size, |
| kValueOffset - kHeapObjectTag)); |
| } |
| |
| |
| // Helper function used to store a property to a dictionary backing |
| // storage. This function may fail to store a property even though it |
| // is in the dictionary, so code at miss_label must always call a |
| // backup property store that is complete. This function is safe to |
| // call if name is not an internalized string, and will jump to the miss_label |
| // in that case. The generated code assumes that the receiver has slow |
| // properties, is not a global object and does not have interceptors. |
| static void GenerateDictionaryStore(MacroAssembler* masm, Label* miss_label, |
| Register elements, Register name, |
| Register value, Register scratch0, |
| Register scratch1) { |
| // Register use: |
| // |
| // elements - holds the property dictionary on entry and is clobbered. |
| // |
| // name - holds the name of the property on entry and is unchanged. |
| // |
| // value - holds the value to store and is unchanged. |
| // |
| // scratch0 - used during the positive dictionary lookup and is clobbered. |
| // |
| // scratch1 - used for index into the property dictionary and is clobbered. |
| Label done; |
| |
| // Probe the dictionary. |
| NameDictionaryLookupStub::GeneratePositiveLookup( |
| masm, miss_label, &done, elements, name, scratch0, scratch1); |
| |
| // If probing finds an entry in the dictionary, scratch0 contains the |
| // index into the dictionary. Check that the value is a normal |
| // property that is not read only. |
| __ bind(&done); |
| const int kElementsStartOffset = |
| NameDictionary::kHeaderSize + |
| NameDictionary::kElementsStartIndex * kPointerSize; |
| const int kDetailsOffset = kElementsStartOffset + 2 * kPointerSize; |
| const int kTypeAndReadOnlyMask = |
| PropertyDetails::TypeField::kMask | |
| PropertyDetails::AttributesField::encode(READ_ONLY); |
| __ Test(Operand(elements, scratch1, times_pointer_size, |
| kDetailsOffset - kHeapObjectTag), |
| Smi::FromInt(kTypeAndReadOnlyMask)); |
| __ j(not_zero, miss_label); |
| |
| // Store the value at the masked, scaled index. |
| const int kValueOffset = kElementsStartOffset + kPointerSize; |
| __ leap(scratch1, Operand(elements, scratch1, times_pointer_size, |
| kValueOffset - kHeapObjectTag)); |
| __ movp(Operand(scratch1, 0), value); |
| |
| // Update write barrier. Make sure not to clobber the value. |
| __ movp(scratch0, value); |
| __ RecordWrite(elements, scratch1, scratch0, kDontSaveFPRegs); |
| } |
| |
| |
| // Checks the receiver for special cases (value type, slow case bits). |
| // Falls through for regular JS object. |
| static void GenerateKeyedLoadReceiverCheck(MacroAssembler* masm, |
| Register receiver, Register map, |
| int interceptor_bit, Label* slow) { |
| // Register use: |
| // receiver - holds the receiver and is unchanged. |
| // Scratch registers: |
| // map - used to hold the map of the receiver. |
| |
| // Check that the object isn't a smi. |
| __ JumpIfSmi(receiver, slow); |
| |
| // Check that the object is some kind of JS object EXCEPT JS Value type. |
| // In the case that the object is a value-wrapper object, |
| // we enter the runtime system to make sure that indexing |
| // into string objects work as intended. |
| DCHECK(JS_OBJECT_TYPE > JS_VALUE_TYPE); |
| __ CmpObjectType(receiver, JS_OBJECT_TYPE, map); |
| __ j(below, slow); |
| |
| // Check bit field. |
| __ testb( |
| FieldOperand(map, Map::kBitFieldOffset), |
| Immediate((1 << Map::kIsAccessCheckNeeded) | (1 << interceptor_bit))); |
| __ j(not_zero, slow); |
| } |
| |
| |
| // Loads an indexed element from a fast case array. |
| // If not_fast_array is NULL, doesn't perform the elements map check. |
| static void GenerateFastArrayLoad(MacroAssembler* masm, Register receiver, |
| Register key, Register elements, |
| Register scratch, Register result, |
| Label* not_fast_array, Label* out_of_range) { |
| // Register use: |
| // |
| // receiver - holds the receiver on entry. |
| // Unchanged unless 'result' is the same register. |
| // |
| // key - holds the smi key on entry. |
| // Unchanged unless 'result' is the same register. |
| // |
| // elements - holds the elements of the receiver on exit. |
| // |
| // result - holds the result on exit if the load succeeded. |
| // Allowed to be the the same as 'receiver' or 'key'. |
| // Unchanged on bailout so 'receiver' and 'key' can be safely |
| // used by further computation. |
| // |
| // Scratch registers: |
| // |
| // scratch - used to hold elements of the receiver and the loaded value. |
| |
| __ movp(elements, FieldOperand(receiver, JSObject::kElementsOffset)); |
| if (not_fast_array != NULL) { |
| // Check that the object is in fast mode and writable. |
| __ CompareRoot(FieldOperand(elements, HeapObject::kMapOffset), |
| Heap::kFixedArrayMapRootIndex); |
| __ j(not_equal, not_fast_array); |
| } else { |
| __ AssertFastElements(elements); |
| } |
| // Check that the key (index) is within bounds. |
| __ SmiCompare(key, FieldOperand(elements, FixedArray::kLengthOffset)); |
| // Unsigned comparison rejects negative indices. |
| __ j(above_equal, out_of_range); |
| // Fast case: Do the load. |
| SmiIndex index = masm->SmiToIndex(scratch, key, kPointerSizeLog2); |
| __ movp(scratch, FieldOperand(elements, index.reg, index.scale, |
| FixedArray::kHeaderSize)); |
| __ CompareRoot(scratch, Heap::kTheHoleValueRootIndex); |
| // In case the loaded value is the_hole we have to consult GetProperty |
| // to ensure the prototype chain is searched. |
| __ j(equal, out_of_range); |
| if (!result.is(scratch)) { |
| __ movp(result, scratch); |
| } |
| } |
| |
| |
| // Checks whether a key is an array index string or a unique name. |
| // Falls through if the key is a unique name. |
| static void GenerateKeyNameCheck(MacroAssembler* masm, Register key, |
| Register map, Register hash, |
| Label* index_string, Label* not_unique) { |
| // Register use: |
| // key - holds the key and is unchanged. Assumed to be non-smi. |
| // Scratch registers: |
| // map - used to hold the map of the key. |
| // hash - used to hold the hash of the key. |
| Label unique; |
| __ CmpObjectType(key, LAST_UNIQUE_NAME_TYPE, map); |
| __ j(above, not_unique); |
| STATIC_ASSERT(LAST_UNIQUE_NAME_TYPE == FIRST_NONSTRING_TYPE); |
| __ j(equal, &unique); |
| |
| // Is the string an array index, with cached numeric value? |
| __ movl(hash, FieldOperand(key, Name::kHashFieldOffset)); |
| __ testl(hash, Immediate(Name::kContainsCachedArrayIndexMask)); |
| __ j(zero, index_string); // The value in hash is used at jump target. |
| |
| // Is the string internalized? We already know it's a string so a single |
| // bit test is enough. |
| STATIC_ASSERT(kNotInternalizedTag != 0); |
| __ testb(FieldOperand(map, Map::kInstanceTypeOffset), |
| Immediate(kIsNotInternalizedMask)); |
| __ j(not_zero, not_unique); |
| |
| __ bind(&unique); |
| } |
| |
| |
| void KeyedLoadIC::GenerateGeneric(MacroAssembler* masm) { |
| // The return address is on the stack. |
| Label slow, check_name, index_smi, index_name, property_array_property; |
| Label probe_dictionary, check_number_dictionary; |
| |
| Register receiver = LoadDescriptor::ReceiverRegister(); |
| Register key = LoadDescriptor::NameRegister(); |
| DCHECK(receiver.is(rdx)); |
| DCHECK(key.is(rcx)); |
| |
| // Check that the key is a smi. |
| __ JumpIfNotSmi(key, &check_name); |
| __ bind(&index_smi); |
| // Now the key is known to be a smi. This place is also jumped to from below |
| // where a numeric string is converted to a smi. |
| |
| GenerateKeyedLoadReceiverCheck(masm, receiver, rax, |
| Map::kHasIndexedInterceptor, &slow); |
| |
| // Check the receiver's map to see if it has fast elements. |
| __ CheckFastElements(rax, &check_number_dictionary); |
| |
| GenerateFastArrayLoad(masm, receiver, key, rax, rbx, rax, NULL, &slow); |
| Counters* counters = masm->isolate()->counters(); |
| __ IncrementCounter(counters->keyed_load_generic_smi(), 1); |
| __ ret(0); |
| |
| __ bind(&check_number_dictionary); |
| __ SmiToInteger32(rbx, key); |
| __ movp(rax, FieldOperand(receiver, JSObject::kElementsOffset)); |
| |
| // Check whether the elements is a number dictionary. |
| // rbx: key as untagged int32 |
| // rax: elements |
| __ CompareRoot(FieldOperand(rax, HeapObject::kMapOffset), |
| Heap::kHashTableMapRootIndex); |
| __ j(not_equal, &slow); |
| __ LoadFromNumberDictionary(&slow, rax, key, rbx, r9, rdi, rax); |
| __ ret(0); |
| |
| __ bind(&slow); |
| // Slow case: Jump to runtime. |
| __ IncrementCounter(counters->keyed_load_generic_slow(), 1); |
| GenerateRuntimeGetProperty(masm); |
| |
| __ bind(&check_name); |
| GenerateKeyNameCheck(masm, key, rax, rbx, &index_name, &slow); |
| |
| GenerateKeyedLoadReceiverCheck(masm, receiver, rax, Map::kHasNamedInterceptor, |
| &slow); |
| |
| // If the receiver is a fast-case object, check the keyed lookup |
| // cache. Otherwise probe the dictionary leaving result in key. |
| __ movp(rbx, FieldOperand(receiver, JSObject::kPropertiesOffset)); |
| __ CompareRoot(FieldOperand(rbx, HeapObject::kMapOffset), |
| Heap::kHashTableMapRootIndex); |
| __ j(equal, &probe_dictionary); |
| |
| // Load the map of the receiver, compute the keyed lookup cache hash |
| // based on 32 bits of the map pointer and the string hash. |
| __ movp(rbx, FieldOperand(receiver, HeapObject::kMapOffset)); |
| __ movl(rax, rbx); |
| __ shrl(rax, Immediate(KeyedLookupCache::kMapHashShift)); |
| __ movl(rdi, FieldOperand(key, String::kHashFieldOffset)); |
| __ shrl(rdi, Immediate(String::kHashShift)); |
| __ xorp(rax, rdi); |
| int mask = (KeyedLookupCache::kCapacityMask & KeyedLookupCache::kHashMask); |
| __ andp(rax, Immediate(mask)); |
| |
| // Load the key (consisting of map and internalized string) from the cache and |
| // check for match. |
| Label load_in_object_property; |
| static const int kEntriesPerBucket = KeyedLookupCache::kEntriesPerBucket; |
| Label hit_on_nth_entry[kEntriesPerBucket]; |
| ExternalReference cache_keys = |
| ExternalReference::keyed_lookup_cache_keys(masm->isolate()); |
| |
| for (int i = 0; i < kEntriesPerBucket - 1; i++) { |
| Label try_next_entry; |
| __ movp(rdi, rax); |
| __ shlp(rdi, Immediate(kPointerSizeLog2 + 1)); |
| __ LoadAddress(kScratchRegister, cache_keys); |
| int off = kPointerSize * i * 2; |
| __ cmpp(rbx, Operand(kScratchRegister, rdi, times_1, off)); |
| __ j(not_equal, &try_next_entry); |
| __ cmpp(key, Operand(kScratchRegister, rdi, times_1, off + kPointerSize)); |
| __ j(equal, &hit_on_nth_entry[i]); |
| __ bind(&try_next_entry); |
| } |
| |
| int off = kPointerSize * (kEntriesPerBucket - 1) * 2; |
| __ cmpp(rbx, Operand(kScratchRegister, rdi, times_1, off)); |
| __ j(not_equal, &slow); |
| __ cmpp(key, Operand(kScratchRegister, rdi, times_1, off + kPointerSize)); |
| __ j(not_equal, &slow); |
| |
| // Get field offset, which is a 32-bit integer. |
| ExternalReference cache_field_offsets = |
| ExternalReference::keyed_lookup_cache_field_offsets(masm->isolate()); |
| |
| // Hit on nth entry. |
| for (int i = kEntriesPerBucket - 1; i >= 0; i--) { |
| __ bind(&hit_on_nth_entry[i]); |
| if (i != 0) { |
| __ addl(rax, Immediate(i)); |
| } |
| __ LoadAddress(kScratchRegister, cache_field_offsets); |
| __ movl(rdi, Operand(kScratchRegister, rax, times_4, 0)); |
| __ movzxbp(rax, FieldOperand(rbx, Map::kInObjectPropertiesOffset)); |
| __ subp(rdi, rax); |
| __ j(above_equal, &property_array_property); |
| if (i != 0) { |
| __ jmp(&load_in_object_property); |
| } |
| } |
| |
| // Load in-object property. |
| __ bind(&load_in_object_property); |
| __ movzxbp(rax, FieldOperand(rbx, Map::kInstanceSizeOffset)); |
| __ addp(rax, rdi); |
| __ movp(rax, FieldOperand(receiver, rax, times_pointer_size, 0)); |
| __ IncrementCounter(counters->keyed_load_generic_lookup_cache(), 1); |
| __ ret(0); |
| |
| // Load property array property. |
| __ bind(&property_array_property); |
| __ movp(rax, FieldOperand(receiver, JSObject::kPropertiesOffset)); |
| __ movp(rax, |
| FieldOperand(rax, rdi, times_pointer_size, FixedArray::kHeaderSize)); |
| __ IncrementCounter(counters->keyed_load_generic_lookup_cache(), 1); |
| __ ret(0); |
| |
| // Do a quick inline probe of the receiver's dictionary, if it |
| // exists. |
| __ bind(&probe_dictionary); |
| // rbx: elements |
| |
| __ movp(rax, FieldOperand(receiver, JSObject::kMapOffset)); |
| __ movb(rax, FieldOperand(rax, Map::kInstanceTypeOffset)); |
| GenerateGlobalInstanceTypeCheck(masm, rax, &slow); |
| |
| GenerateDictionaryLoad(masm, &slow, rbx, key, rax, rdi, rax); |
| __ IncrementCounter(counters->keyed_load_generic_symbol(), 1); |
| __ ret(0); |
| |
| __ bind(&index_name); |
| __ IndexFromHash(rbx, key); |
| __ jmp(&index_smi); |
| } |
| |
| |
| static void KeyedStoreGenerateMegamorphicHelper( |
| MacroAssembler* masm, Label* fast_object, Label* fast_double, Label* slow, |
| KeyedStoreCheckMap check_map, KeyedStoreIncrementLength increment_length) { |
| Label transition_smi_elements; |
| Label finish_object_store, non_double_value, transition_double_elements; |
| Label fast_double_without_map_check; |
| Register receiver = StoreDescriptor::ReceiverRegister(); |
| Register key = StoreDescriptor::NameRegister(); |
| Register value = StoreDescriptor::ValueRegister(); |
| DCHECK(receiver.is(rdx)); |
| DCHECK(key.is(rcx)); |
| DCHECK(value.is(rax)); |
| // Fast case: Do the store, could be either Object or double. |
| __ bind(fast_object); |
| // rbx: receiver's elements array (a FixedArray) |
| // receiver is a JSArray. |
| // r9: map of receiver |
| if (check_map == kCheckMap) { |
| __ movp(rdi, FieldOperand(rbx, HeapObject::kMapOffset)); |
| __ CompareRoot(rdi, Heap::kFixedArrayMapRootIndex); |
| __ j(not_equal, fast_double); |
| } |
| |
| // HOLECHECK: guards "A[i] = V" |
| // We have to go to the runtime if the current value is the hole because |
| // there may be a callback on the element |
| Label holecheck_passed1; |
| __ movp(kScratchRegister, |
| FieldOperand(rbx, key, times_pointer_size, FixedArray::kHeaderSize)); |
| __ CompareRoot(kScratchRegister, Heap::kTheHoleValueRootIndex); |
| __ j(not_equal, &holecheck_passed1); |
| __ JumpIfDictionaryInPrototypeChain(receiver, rdi, kScratchRegister, slow); |
| |
| __ bind(&holecheck_passed1); |
| |
| // Smi stores don't require further checks. |
| Label non_smi_value; |
| __ JumpIfNotSmi(value, &non_smi_value); |
| if (increment_length == kIncrementLength) { |
| // Add 1 to receiver->length. |
| __ leal(rdi, Operand(key, 1)); |
| __ Integer32ToSmiField(FieldOperand(receiver, JSArray::kLengthOffset), rdi); |
| } |
| // It's irrelevant whether array is smi-only or not when writing a smi. |
| __ movp(FieldOperand(rbx, key, times_pointer_size, FixedArray::kHeaderSize), |
| value); |
| __ ret(0); |
| |
| __ bind(&non_smi_value); |
| // Writing a non-smi, check whether array allows non-smi elements. |
| // r9: receiver's map |
| __ CheckFastObjectElements(r9, &transition_smi_elements); |
| |
| __ bind(&finish_object_store); |
| if (increment_length == kIncrementLength) { |
| // Add 1 to receiver->length. |
| __ leal(rdi, Operand(key, 1)); |
| __ Integer32ToSmiField(FieldOperand(receiver, JSArray::kLengthOffset), rdi); |
| } |
| __ movp(FieldOperand(rbx, key, times_pointer_size, FixedArray::kHeaderSize), |
| value); |
| __ movp(rdx, value); // Preserve the value which is returned. |
| __ RecordWriteArray(rbx, rdx, key, kDontSaveFPRegs, EMIT_REMEMBERED_SET, |
| OMIT_SMI_CHECK); |
| __ ret(0); |
| |
| __ bind(fast_double); |
| if (check_map == kCheckMap) { |
| // Check for fast double array case. If this fails, call through to the |
| // runtime. |
| // rdi: elements array's map |
| __ CompareRoot(rdi, Heap::kFixedDoubleArrayMapRootIndex); |
| __ j(not_equal, slow); |
| } |
| |
| // HOLECHECK: guards "A[i] double hole?" |
| // We have to see if the double version of the hole is present. If so |
| // go to the runtime. |
| uint32_t offset = FixedDoubleArray::kHeaderSize + sizeof(kHoleNanLower32); |
| __ cmpl(FieldOperand(rbx, key, times_8, offset), Immediate(kHoleNanUpper32)); |
| __ j(not_equal, &fast_double_without_map_check); |
| __ JumpIfDictionaryInPrototypeChain(receiver, rdi, kScratchRegister, slow); |
| |
| __ bind(&fast_double_without_map_check); |
| __ StoreNumberToDoubleElements(value, rbx, key, xmm0, |
| &transition_double_elements); |
| if (increment_length == kIncrementLength) { |
| // Add 1 to receiver->length. |
| __ leal(rdi, Operand(key, 1)); |
| __ Integer32ToSmiField(FieldOperand(receiver, JSArray::kLengthOffset), rdi); |
| } |
| __ ret(0); |
| |
| __ bind(&transition_smi_elements); |
| __ movp(rbx, FieldOperand(receiver, HeapObject::kMapOffset)); |
| |
| // Transition the array appropriately depending on the value type. |
| __ movp(r9, FieldOperand(value, HeapObject::kMapOffset)); |
| __ CompareRoot(r9, Heap::kHeapNumberMapRootIndex); |
| __ j(not_equal, &non_double_value); |
| |
| // Value is a double. Transition FAST_SMI_ELEMENTS -> |
| // FAST_DOUBLE_ELEMENTS and complete the store. |
| __ LoadTransitionedArrayMapConditional(FAST_SMI_ELEMENTS, |
| FAST_DOUBLE_ELEMENTS, rbx, rdi, slow); |
| AllocationSiteMode mode = |
| AllocationSite::GetMode(FAST_SMI_ELEMENTS, FAST_DOUBLE_ELEMENTS); |
| ElementsTransitionGenerator::GenerateSmiToDouble(masm, receiver, key, value, |
| rbx, mode, slow); |
| __ movp(rbx, FieldOperand(receiver, JSObject::kElementsOffset)); |
| __ jmp(&fast_double_without_map_check); |
| |
| __ bind(&non_double_value); |
| // Value is not a double, FAST_SMI_ELEMENTS -> FAST_ELEMENTS |
| __ LoadTransitionedArrayMapConditional(FAST_SMI_ELEMENTS, FAST_ELEMENTS, rbx, |
| rdi, slow); |
| mode = AllocationSite::GetMode(FAST_SMI_ELEMENTS, FAST_ELEMENTS); |
| ElementsTransitionGenerator::GenerateMapChangeElementsTransition( |
| masm, receiver, key, value, rbx, mode, slow); |
| __ movp(rbx, FieldOperand(receiver, JSObject::kElementsOffset)); |
| __ jmp(&finish_object_store); |
| |
| __ bind(&transition_double_elements); |
| // Elements are FAST_DOUBLE_ELEMENTS, but value is an Object that's not a |
| // HeapNumber. Make sure that the receiver is a Array with FAST_ELEMENTS and |
| // transition array from FAST_DOUBLE_ELEMENTS to FAST_ELEMENTS |
| __ movp(rbx, FieldOperand(receiver, HeapObject::kMapOffset)); |
| __ LoadTransitionedArrayMapConditional(FAST_DOUBLE_ELEMENTS, FAST_ELEMENTS, |
| rbx, rdi, slow); |
| mode = AllocationSite::GetMode(FAST_DOUBLE_ELEMENTS, FAST_ELEMENTS); |
| ElementsTransitionGenerator::GenerateDoubleToObject(masm, receiver, key, |
| value, rbx, mode, slow); |
| __ movp(rbx, FieldOperand(receiver, JSObject::kElementsOffset)); |
| __ jmp(&finish_object_store); |
| } |
| |
| |
| void KeyedStoreIC::GenerateMegamorphic(MacroAssembler* masm, |
| StrictMode strict_mode) { |
| // Return address is on the stack. |
| Label slow, slow_with_tagged_index, fast_object, fast_object_grow; |
| Label fast_double, fast_double_grow; |
| Label array, extra, check_if_double_array, maybe_name_key, miss; |
| Register receiver = StoreDescriptor::ReceiverRegister(); |
| Register key = StoreDescriptor::NameRegister(); |
| DCHECK(receiver.is(rdx)); |
| DCHECK(key.is(rcx)); |
| |
| // Check that the object isn't a smi. |
| __ JumpIfSmi(receiver, &slow_with_tagged_index); |
| // Get the map from the receiver. |
| __ movp(r9, FieldOperand(receiver, HeapObject::kMapOffset)); |
| // Check that the receiver does not require access checks and is not observed. |
| // The generic stub does not perform map checks or handle observed objects. |
| __ testb(FieldOperand(r9, Map::kBitFieldOffset), |
| Immediate(1 << Map::kIsAccessCheckNeeded | 1 << Map::kIsObserved)); |
| __ j(not_zero, &slow_with_tagged_index); |
| // Check that the key is a smi. |
| __ JumpIfNotSmi(key, &maybe_name_key); |
| __ SmiToInteger32(key, key); |
| |
| __ CmpInstanceType(r9, JS_ARRAY_TYPE); |
| __ j(equal, &array); |
| // Check that the object is some kind of JSObject. |
| __ CmpInstanceType(r9, FIRST_JS_OBJECT_TYPE); |
| __ j(below, &slow); |
| |
| // Object case: Check key against length in the elements array. |
| __ movp(rbx, FieldOperand(receiver, JSObject::kElementsOffset)); |
| // Check array bounds. |
| __ SmiCompareInteger32(FieldOperand(rbx, FixedArray::kLengthOffset), key); |
| // rbx: FixedArray |
| __ j(above, &fast_object); |
| |
| // Slow case: call runtime. |
| __ bind(&slow); |
| __ Integer32ToSmi(key, key); |
| __ bind(&slow_with_tagged_index); |
| PropertyICCompiler::GenerateRuntimeSetProperty(masm, strict_mode); |
| // Never returns to here. |
| |
| __ bind(&maybe_name_key); |
| __ movp(r9, FieldOperand(key, HeapObject::kMapOffset)); |
| __ movzxbp(r9, FieldOperand(r9, Map::kInstanceTypeOffset)); |
| __ JumpIfNotUniqueNameInstanceType(r9, &slow_with_tagged_index); |
| Code::Flags flags = Code::RemoveTypeAndHolderFromFlags( |
| Code::ComputeHandlerFlags(Code::STORE_IC)); |
| masm->isolate()->stub_cache()->GenerateProbe( |
| masm, Code::STORE_IC, flags, false, receiver, key, rbx, no_reg); |
| // Cache miss. |
| __ jmp(&miss); |
| |
| // Extra capacity case: Check if there is extra capacity to |
| // perform the store and update the length. Used for adding one |
| // element to the array by writing to array[array.length]. |
| __ bind(&extra); |
| // receiver is a JSArray. |
| // rbx: receiver's elements array (a FixedArray) |
| // flags: smicompare (receiver.length(), rbx) |
| __ j(not_equal, &slow); // do not leave holes in the array |
| __ SmiCompareInteger32(FieldOperand(rbx, FixedArray::kLengthOffset), key); |
| __ j(below_equal, &slow); |
| // Increment index to get new length. |
| __ movp(rdi, FieldOperand(rbx, HeapObject::kMapOffset)); |
| __ CompareRoot(rdi, Heap::kFixedArrayMapRootIndex); |
| __ j(not_equal, &check_if_double_array); |
| __ jmp(&fast_object_grow); |
| |
| __ bind(&check_if_double_array); |
| // rdi: elements array's map |
| __ CompareRoot(rdi, Heap::kFixedDoubleArrayMapRootIndex); |
| __ j(not_equal, &slow); |
| __ jmp(&fast_double_grow); |
| |
| // Array case: Get the length and the elements array from the JS |
| // array. Check that the array is in fast mode (and writable); if it |
| // is the length is always a smi. |
| __ bind(&array); |
| // receiver is a JSArray. |
| __ movp(rbx, FieldOperand(receiver, JSObject::kElementsOffset)); |
| |
| // Check the key against the length in the array, compute the |
| // address to store into and fall through to fast case. |
| __ SmiCompareInteger32(FieldOperand(receiver, JSArray::kLengthOffset), key); |
| __ j(below_equal, &extra); |
| |
| KeyedStoreGenerateMegamorphicHelper(masm, &fast_object, &fast_double, &slow, |
| kCheckMap, kDontIncrementLength); |
| KeyedStoreGenerateMegamorphicHelper(masm, &fast_object_grow, |
| &fast_double_grow, &slow, kDontCheckMap, |
| kIncrementLength); |
| |
| __ bind(&miss); |
| GenerateMiss(masm); |
| } |
| |
| |
| static Operand GenerateMappedArgumentsLookup( |
| MacroAssembler* masm, Register object, Register key, Register scratch1, |
| Register scratch2, Register scratch3, Label* unmapped_case, |
| Label* slow_case) { |
| Heap* heap = masm->isolate()->heap(); |
| |
| // Check that the receiver is a JSObject. Because of the elements |
| // map check later, we do not need to check for interceptors or |
| // whether it requires access checks. |
| __ JumpIfSmi(object, slow_case); |
| // Check that the object is some kind of JSObject. |
| __ CmpObjectType(object, FIRST_JS_RECEIVER_TYPE, scratch1); |
| __ j(below, slow_case); |
| |
| // Check that the key is a positive smi. |
| Condition check = masm->CheckNonNegativeSmi(key); |
| __ j(NegateCondition(check), slow_case); |
| |
| // Load the elements into scratch1 and check its map. If not, jump |
| // to the unmapped lookup with the parameter map in scratch1. |
| Handle<Map> arguments_map(heap->sloppy_arguments_elements_map()); |
| __ movp(scratch1, FieldOperand(object, JSObject::kElementsOffset)); |
| __ CheckMap(scratch1, arguments_map, slow_case, DONT_DO_SMI_CHECK); |
| |
| // Check if element is in the range of mapped arguments. |
| __ movp(scratch2, FieldOperand(scratch1, FixedArray::kLengthOffset)); |
| __ SmiSubConstant(scratch2, scratch2, Smi::FromInt(2)); |
| __ cmpp(key, scratch2); |
| __ j(greater_equal, unmapped_case); |
| |
| // Load element index and check whether it is the hole. |
| const int kHeaderSize = FixedArray::kHeaderSize + 2 * kPointerSize; |
| __ SmiToInteger64(scratch3, key); |
| __ movp(scratch2, |
| FieldOperand(scratch1, scratch3, times_pointer_size, kHeaderSize)); |
| __ CompareRoot(scratch2, Heap::kTheHoleValueRootIndex); |
| __ j(equal, unmapped_case); |
| |
| // Load value from context and return it. We can reuse scratch1 because |
| // we do not jump to the unmapped lookup (which requires the parameter |
| // map in scratch1). |
| __ movp(scratch1, FieldOperand(scratch1, FixedArray::kHeaderSize)); |
| __ SmiToInteger64(scratch3, scratch2); |
| return FieldOperand(scratch1, scratch3, times_pointer_size, |
| Context::kHeaderSize); |
| } |
| |
| |
| static Operand GenerateUnmappedArgumentsLookup(MacroAssembler* masm, |
| Register key, |
| Register parameter_map, |
| Register scratch, |
| Label* slow_case) { |
| // Element is in arguments backing store, which is referenced by the |
| // second element of the parameter_map. The parameter_map register |
| // must be loaded with the parameter map of the arguments object and is |
| // overwritten. |
| const int kBackingStoreOffset = FixedArray::kHeaderSize + kPointerSize; |
| Register backing_store = parameter_map; |
| __ movp(backing_store, FieldOperand(parameter_map, kBackingStoreOffset)); |
| Handle<Map> fixed_array_map(masm->isolate()->heap()->fixed_array_map()); |
| __ CheckMap(backing_store, fixed_array_map, slow_case, DONT_DO_SMI_CHECK); |
| __ movp(scratch, FieldOperand(backing_store, FixedArray::kLengthOffset)); |
| __ cmpp(key, scratch); |
| __ j(greater_equal, slow_case); |
| __ SmiToInteger64(scratch, key); |
| return FieldOperand(backing_store, scratch, times_pointer_size, |
| FixedArray::kHeaderSize); |
| } |
| |
| |
| void KeyedStoreIC::GenerateSloppyArguments(MacroAssembler* masm) { |
| // The return address is on the stack. |
| Label slow, notin; |
| Register receiver = StoreDescriptor::ReceiverRegister(); |
| Register name = StoreDescriptor::NameRegister(); |
| Register value = StoreDescriptor::ValueRegister(); |
| DCHECK(receiver.is(rdx)); |
| DCHECK(name.is(rcx)); |
| DCHECK(value.is(rax)); |
| |
| Operand mapped_location = GenerateMappedArgumentsLookup( |
| masm, receiver, name, rbx, rdi, r8, ¬in, &slow); |
| __ movp(mapped_location, value); |
| __ leap(r9, mapped_location); |
| __ movp(r8, value); |
| __ RecordWrite(rbx, r9, r8, kDontSaveFPRegs, EMIT_REMEMBERED_SET, |
| INLINE_SMI_CHECK); |
| __ Ret(); |
| __ bind(¬in); |
| // The unmapped lookup expects that the parameter map is in rbx. |
| Operand unmapped_location = |
| GenerateUnmappedArgumentsLookup(masm, name, rbx, rdi, &slow); |
| __ movp(unmapped_location, value); |
| __ leap(r9, unmapped_location); |
| __ movp(r8, value); |
| __ RecordWrite(rbx, r9, r8, kDontSaveFPRegs, EMIT_REMEMBERED_SET, |
| INLINE_SMI_CHECK); |
| __ Ret(); |
| __ bind(&slow); |
| GenerateMiss(masm); |
| } |
| |
| |
| void LoadIC::GenerateNormal(MacroAssembler* masm) { |
| Register dictionary = rax; |
| DCHECK(!dictionary.is(LoadDescriptor::ReceiverRegister())); |
| DCHECK(!dictionary.is(LoadDescriptor::NameRegister())); |
| |
| Label slow; |
| |
| __ movp(dictionary, FieldOperand(LoadDescriptor::ReceiverRegister(), |
| JSObject::kPropertiesOffset)); |
| GenerateDictionaryLoad(masm, &slow, dictionary, |
| LoadDescriptor::NameRegister(), rbx, rdi, rax); |
| __ ret(0); |
| |
| // Dictionary load failed, go slow (but don't miss). |
| __ bind(&slow); |
| GenerateRuntimeGetProperty(masm); |
| } |
| |
| |
| static void LoadIC_PushArgs(MacroAssembler* masm) { |
| Register receiver = LoadDescriptor::ReceiverRegister(); |
| Register name = LoadDescriptor::NameRegister(); |
| if (FLAG_vector_ics) { |
| Register slot = VectorLoadICDescriptor::SlotRegister(); |
| Register vector = VectorLoadICDescriptor::VectorRegister(); |
| DCHECK(!rdi.is(receiver) && !rdi.is(name) && !rdi.is(slot) && |
| !rdi.is(vector)); |
| |
| __ PopReturnAddressTo(rdi); |
| __ Push(receiver); |
| __ Push(name); |
| __ Push(slot); |
| __ Push(vector); |
| __ PushReturnAddressFrom(rdi); |
| } else { |
| DCHECK(!rbx.is(receiver) && !rbx.is(name)); |
| |
| __ PopReturnAddressTo(rbx); |
| __ Push(receiver); |
| __ Push(name); |
| __ PushReturnAddressFrom(rbx); |
| } |
| } |
| |
| |
| void LoadIC::GenerateMiss(MacroAssembler* masm) { |
| // The return address is on the stack. |
| |
| Counters* counters = masm->isolate()->counters(); |
| __ IncrementCounter(counters->load_miss(), 1); |
| |
| LoadIC_PushArgs(masm); |
| |
| // Perform tail call to the entry. |
| ExternalReference ref = |
| ExternalReference(IC_Utility(kLoadIC_Miss), masm->isolate()); |
| int arg_count = FLAG_vector_ics ? 4 : 2; |
| __ TailCallExternalReference(ref, arg_count, 1); |
| } |
| |
| |
| void LoadIC::GenerateRuntimeGetProperty(MacroAssembler* masm) { |
| // The return address is on the stack. |
| Register receiver = LoadDescriptor::ReceiverRegister(); |
| Register name = LoadDescriptor::NameRegister(); |
| DCHECK(!rbx.is(receiver) && !rbx.is(name)); |
| |
| __ PopReturnAddressTo(rbx); |
| __ Push(receiver); |
| __ Push(name); |
| __ PushReturnAddressFrom(rbx); |
| |
| // Perform tail call to the entry. |
| __ TailCallRuntime(Runtime::kGetProperty, 2, 1); |
| } |
| |
| |
| void KeyedLoadIC::GenerateMiss(MacroAssembler* masm) { |
| // The return address is on the stack. |
| Counters* counters = masm->isolate()->counters(); |
| __ IncrementCounter(counters->keyed_load_miss(), 1); |
| |
| LoadIC_PushArgs(masm); |
| |
| // Perform tail call to the entry. |
| ExternalReference ref = |
| ExternalReference(IC_Utility(kKeyedLoadIC_Miss), masm->isolate()); |
| int arg_count = FLAG_vector_ics ? 4 : 2; |
| __ TailCallExternalReference(ref, arg_count, 1); |
| } |
| |
| |
| void KeyedLoadIC::GenerateRuntimeGetProperty(MacroAssembler* masm) { |
| // The return address is on the stack. |
| Register receiver = LoadDescriptor::ReceiverRegister(); |
| Register name = LoadDescriptor::NameRegister(); |
| DCHECK(!rbx.is(receiver) && !rbx.is(name)); |
| |
| __ PopReturnAddressTo(rbx); |
| __ Push(receiver); |
| __ Push(name); |
| __ PushReturnAddressFrom(rbx); |
| |
| // Perform tail call to the entry. |
| __ TailCallRuntime(Runtime::kKeyedGetProperty, 2, 1); |
| } |
| |
| |
| void StoreIC::GenerateMegamorphic(MacroAssembler* masm) { |
| // The return address is on the stack. |
| |
| // Get the receiver from the stack and probe the stub cache. |
| Code::Flags flags = Code::RemoveTypeAndHolderFromFlags( |
| Code::ComputeHandlerFlags(Code::STORE_IC)); |
| masm->isolate()->stub_cache()->GenerateProbe( |
| masm, Code::STORE_IC, flags, false, StoreDescriptor::ReceiverRegister(), |
| StoreDescriptor::NameRegister(), rbx, no_reg); |
| |
| // Cache miss: Jump to runtime. |
| GenerateMiss(masm); |
| } |
| |
| |
| static void StoreIC_PushArgs(MacroAssembler* masm) { |
| Register receiver = StoreDescriptor::ReceiverRegister(); |
| Register name = StoreDescriptor::NameRegister(); |
| Register value = StoreDescriptor::ValueRegister(); |
| |
| DCHECK(!rbx.is(receiver) && !rbx.is(name) && !rbx.is(value)); |
| |
| __ PopReturnAddressTo(rbx); |
| __ Push(receiver); |
| __ Push(name); |
| __ Push(value); |
| __ PushReturnAddressFrom(rbx); |
| } |
| |
| |
| void StoreIC::GenerateMiss(MacroAssembler* masm) { |
| // Return address is on the stack. |
| StoreIC_PushArgs(masm); |
| |
| // Perform tail call to the entry. |
| ExternalReference ref = |
| ExternalReference(IC_Utility(kStoreIC_Miss), masm->isolate()); |
| __ TailCallExternalReference(ref, 3, 1); |
| } |
| |
| |
| void StoreIC::GenerateNormal(MacroAssembler* masm) { |
| Register receiver = StoreDescriptor::ReceiverRegister(); |
| Register name = StoreDescriptor::NameRegister(); |
| Register value = StoreDescriptor::ValueRegister(); |
| Register dictionary = rbx; |
| |
| Label miss; |
| |
| __ movp(dictionary, FieldOperand(receiver, JSObject::kPropertiesOffset)); |
| GenerateDictionaryStore(masm, &miss, dictionary, name, value, r8, r9); |
| Counters* counters = masm->isolate()->counters(); |
| __ IncrementCounter(counters->store_normal_hit(), 1); |
| __ ret(0); |
| |
| __ bind(&miss); |
| __ IncrementCounter(counters->store_normal_miss(), 1); |
| GenerateMiss(masm); |
| } |
| |
| |
| void KeyedStoreIC::GenerateMiss(MacroAssembler* masm) { |
| // Return address is on the stack. |
| StoreIC_PushArgs(masm); |
| |
| // Do tail-call to runtime routine. |
| ExternalReference ref = |
| ExternalReference(IC_Utility(kKeyedStoreIC_Miss), masm->isolate()); |
| __ TailCallExternalReference(ref, 3, 1); |
| } |
| |
| |
| #undef __ |
| |
| |
| Condition CompareIC::ComputeCondition(Token::Value op) { |
| switch (op) { |
| case Token::EQ_STRICT: |
| case Token::EQ: |
| return equal; |
| case Token::LT: |
| return less; |
| case Token::GT: |
| return greater; |
| case Token::LTE: |
| return less_equal; |
| case Token::GTE: |
| return greater_equal; |
| default: |
| UNREACHABLE(); |
| return no_condition; |
| } |
| } |
| |
| |
| bool CompareIC::HasInlinedSmiCode(Address address) { |
| // The address of the instruction following the call. |
| Address test_instruction_address = |
| address + Assembler::kCallTargetAddressOffset; |
| |
| // If the instruction following the call is not a test al, nothing |
| // was inlined. |
| return *test_instruction_address == Assembler::kTestAlByte; |
| } |
| |
| |
| void PatchInlinedSmiCode(Address address, InlinedSmiCheck check) { |
| // The address of the instruction following the call. |
| Address test_instruction_address = |
| address + Assembler::kCallTargetAddressOffset; |
| |
| // If the instruction following the call is not a test al, nothing |
| // was inlined. |
| if (*test_instruction_address != Assembler::kTestAlByte) { |
| DCHECK(*test_instruction_address == Assembler::kNopByte); |
| return; |
| } |
| |
| Address delta_address = test_instruction_address + 1; |
| // The delta to the start of the map check instruction and the |
| // condition code uses at the patched jump. |
| uint8_t delta = *reinterpret_cast<uint8_t*>(delta_address); |
| if (FLAG_trace_ic) { |
| PrintF("[ patching ic at %p, test=%p, delta=%d\n", address, |
| test_instruction_address, delta); |
| } |
| |
| // Patch with a short conditional jump. Enabling means switching from a short |
| // jump-if-carry/not-carry to jump-if-zero/not-zero, whereas disabling is the |
| // reverse operation of that. |
| Address jmp_address = test_instruction_address - delta; |
| DCHECK((check == ENABLE_INLINED_SMI_CHECK) |
| ? (*jmp_address == Assembler::kJncShortOpcode || |
| *jmp_address == Assembler::kJcShortOpcode) |
| : (*jmp_address == Assembler::kJnzShortOpcode || |
| *jmp_address == Assembler::kJzShortOpcode)); |
| Condition cc = |
| (check == ENABLE_INLINED_SMI_CHECK) |
| ? (*jmp_address == Assembler::kJncShortOpcode ? not_zero : zero) |
| : (*jmp_address == Assembler::kJnzShortOpcode ? not_carry : carry); |
| *jmp_address = static_cast<byte>(Assembler::kJccShortPrefix | cc); |
| } |
| } |
| } // namespace v8::internal |
| |
| #endif // V8_TARGET_ARCH_X64 |