src/mips/codegen-mips.cc - Issue 393693003: MIPS: Use register parameters in ElementsTransitionGenerator.

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Issue 393693003: MIPS: Use register parameters in ElementsTransitionGenerator. (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge

Patch Set: Add mips64 port. Created 6 years, 5 months ago

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1 // Copyright 2012 the V8 project authors. All rights reserved.	1 // Copyright 2012 the V8 project authors. All rights reserved.

2 // Use of this source code is governed by a BSD-style license that can be	2 // Use of this source code is governed by a BSD-style license that can be

3 // found in the LICENSE file.	3 // found in the LICENSE file.

4	4

5 #include "src/v8.h"	5 #include "src/v8.h"

6	6

7 #if V8_TARGET_ARCH_MIPS	7 #if V8_TARGET_ARCH_MIPS

8	8

9 #include "src/codegen.h"	9 #include "src/codegen.h"

10 #include "src/macro-assembler.h"	10 #include "src/macro-assembler.h"

(...skipping 637 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
648 masm->set_has_frame(false);	648 masm->set_has_frame(false);

649 }	649 }

650	650

651	651

652 // -------------------------------------------------------------------------	652 // -------------------------------------------------------------------------

653 // Code generators	653 // Code generators

654	654

655 #define __ ACCESS_MASM(masm)	655 #define __ ACCESS_MASM(masm)

656	656

657 void ElementsTransitionGenerator::GenerateMapChangeElementsTransition(	657 void ElementsTransitionGenerator::GenerateMapChangeElementsTransition(

658 MacroAssembler* masm, AllocationSiteMode mode,	658 MacroAssembler* masm,

	659 Register receiver,

	660 Register key,

	661 Register value,

	662 Register target_map,

	663 AllocationSiteMode mode,

659 Label* allocation_memento_found) {	664 Label* allocation_memento_found) {

660 // ----------- S t a t e -------------	665 Register scratch_elements = t0;

661 // -- a0 : value	666 ASSERT(!AreAliased(receiver, key, value, target_map,

662 // -- a1 : key	667 scratch_elements));

663 // -- a2 : receiver	668

664 // -- ra : return address

665 // -- a3 : target map, scratch for subsequent call

666 // -- t0 : scratch (elements)

667 // -----------------------------------

668 if (mode == TRACK_ALLOCATION_SITE) {	669 if (mode == TRACK_ALLOCATION_SITE) {

669 ASSERT(allocation_memento_found != NULL);	670 ASSERT(allocation_memento_found != NULL);

670 __ JumpIfJSArrayHasAllocationMemento(a2, t0, allocation_memento_found);	671 __ JumpIfJSArrayHasAllocationMemento(

	672 receiver, scratch_elements, allocation_memento_found);

671 }	673 }

672	674

673 // Set transitioned map.	675 // Set transitioned map.

674 __ sw(a3, FieldMemOperand(a2, HeapObject::kMapOffset));	676 __ sw(target_map, FieldMemOperand(receiver, HeapObject::kMapOffset));

675 __ RecordWriteField(a2,	677 __ RecordWriteField(receiver,

676 HeapObject::kMapOffset,	678 HeapObject::kMapOffset,

677 a3,	679 target_map,

678 t5,	680 t5,

679 kRAHasNotBeenSaved,	681 kRAHasNotBeenSaved,

680 kDontSaveFPRegs,	682 kDontSaveFPRegs,

681 EMIT_REMEMBERED_SET,	683 EMIT_REMEMBERED_SET,

682 OMIT_SMI_CHECK);	684 OMIT_SMI_CHECK);

683 }	685 }

684	686

685	687

686 void ElementsTransitionGenerator::GenerateSmiToDouble(	688 void ElementsTransitionGenerator::GenerateSmiToDouble(

687 MacroAssembler* masm, AllocationSiteMode mode, Label* fail) {	689 MacroAssembler* masm,

688 // ----------- S t a t e -------------	690 Register receiver,

689 // -- a0 : value	691 Register key,

690 // -- a1 : key	692 Register value,

691 // -- a2 : receiver	693 Register target_map,

692 // -- ra : return address	694 AllocationSiteMode mode,

693 // -- a3 : target map, scratch for subsequent call	695 Label* fail) {

694 // -- t0 : scratch (elements)	696 // Register ra contains the return address.

695 // -----------------------------------

696 Label loop, entry, convert_hole, gc_required, only_change_map, done;	697 Label loop, entry, convert_hole, gc_required, only_change_map, done;

	698 Register elements = t0;

	699 Register length = t1;

	700 Register array = t2;

	701 Register array_end = array;

	702

	703 // target_map parameter can be clobbered.

	704 Register scratch1 = target_map;

	705 Register scratch2 = t5;

	706 Register scratch3 = t3;

	707

	708 // Verify input registers don't conflict with locals.

	709 ASSERT(!AreAliased(receiver, key, value, target_map,

	710 elements, length, array, scratch2));

697	711

698 Register scratch = t6;	712 Register scratch = t6;

699	713

700 if (mode == TRACK_ALLOCATION_SITE) {	714 if (mode == TRACK_ALLOCATION_SITE) {

701 __ JumpIfJSArrayHasAllocationMemento(a2, t0, fail);	715 __ JumpIfJSArrayHasAllocationMemento(receiver, elements, fail);

702 }	716 }

703	717

704 // Check for empty arrays, which only require a map transition and no changes	718 // Check for empty arrays, which only require a map transition and no changes

705 // to the backing store.	719 // to the backing store.

706 __ lw(t0, FieldMemOperand(a2, JSObject::kElementsOffset));	720 __ lw(elements, FieldMemOperand(receiver, JSObject::kElementsOffset));

707 __ LoadRoot(at, Heap::kEmptyFixedArrayRootIndex);	721 __ LoadRoot(at, Heap::kEmptyFixedArrayRootIndex);

708 __ Branch(&only_change_map, eq, at, Operand(t0));	722 __ Branch(&only_change_map, eq, at, Operand(elements));

709	723

710 __ push(ra);	724 __ push(ra);

711 __ lw(t1, FieldMemOperand(t0, FixedArray::kLengthOffset));	725 __ lw(length, FieldMemOperand(elements, FixedArray::kLengthOffset));

712 // t0: source FixedArray	726 // elements: source FixedArray

713 // t1: number of elements (smi-tagged)	727 // length: number of elements (smi-tagged)

714	728

715 // Allocate new FixedDoubleArray.	729 // Allocate new FixedDoubleArray.

716 __ sll(scratch, t1, 2);	730 __ sll(scratch, length, 2);

717 __ Addu(scratch, scratch, FixedDoubleArray::kHeaderSize);	731 __ Addu(scratch, scratch, FixedDoubleArray::kHeaderSize);

718 __ Allocate(scratch, t2, t3, t5, &gc_required, DOUBLE_ALIGNMENT);	732 __ Allocate(scratch, array, t3, scratch2, &gc_required, DOUBLE_ALIGNMENT);

719 // t2: destination FixedDoubleArray, not tagged as heap object	733 // array: destination FixedDoubleArray, not tagged as heap object

720	734

721 // Set destination FixedDoubleArray's length and map.	735 // Set destination FixedDoubleArray's length and map.

722 __ LoadRoot(t5, Heap::kFixedDoubleArrayMapRootIndex);	736 __ LoadRoot(scratch2, Heap::kFixedDoubleArrayMapRootIndex);

723 __ sw(t1, MemOperand(t2, FixedDoubleArray::kLengthOffset));	737 __ sw(length, MemOperand(array, FixedDoubleArray::kLengthOffset));

724 __ sw(t5, MemOperand(t2, HeapObject::kMapOffset));

725 // Update receiver's map.	738 // Update receiver's map.

	739 __ sw(scratch2, MemOperand(array, HeapObject::kMapOffset));

726	740

727 __ sw(a3, FieldMemOperand(a2, HeapObject::kMapOffset));	741 __ sw(target_map, FieldMemOperand(receiver, HeapObject::kMapOffset));

728 __ RecordWriteField(a2,	742 __ RecordWriteField(receiver,

729 HeapObject::kMapOffset,	743 HeapObject::kMapOffset,

730 a3,	744 target_map,

731 t5,	745 scratch2,

732 kRAHasBeenSaved,	746 kRAHasBeenSaved,

733 kDontSaveFPRegs,	747 kDontSaveFPRegs,

734 OMIT_REMEMBERED_SET,	748 OMIT_REMEMBERED_SET,

735 OMIT_SMI_CHECK);	749 OMIT_SMI_CHECK);

736 // Replace receiver's backing store with newly created FixedDoubleArray.	750 // Replace receiver's backing store with newly created FixedDoubleArray.

737 __ Addu(a3, t2, Operand(kHeapObjectTag));	751 __ Addu(scratch1, array, Operand(kHeapObjectTag));

738 __ sw(a3, FieldMemOperand(a2, JSObject::kElementsOffset));	752 __ sw(scratch1, FieldMemOperand(a2, JSObject::kElementsOffset));

739 __ RecordWriteField(a2,	753 __ RecordWriteField(receiver,

740 JSObject::kElementsOffset,	754 JSObject::kElementsOffset,

741 a3,	755 scratch1,

742 t5,	756 scratch2,

743 kRAHasBeenSaved,	757 kRAHasBeenSaved,

744 kDontSaveFPRegs,	758 kDontSaveFPRegs,

745 EMIT_REMEMBERED_SET,	759 EMIT_REMEMBERED_SET,

746 OMIT_SMI_CHECK);	760 OMIT_SMI_CHECK);

747	761

748	762

749 // Prepare for conversion loop.	763 // Prepare for conversion loop.

750 __ Addu(a3, t0, Operand(FixedArray::kHeaderSize - kHeapObjectTag));	764 __ Addu(scratch1, elements,

751 __ Addu(t3, t2, Operand(FixedDoubleArray::kHeaderSize));	765 Operand(FixedArray::kHeaderSize - kHeapObjectTag));

752 __ sll(t2, t1, 2);	766 __ Addu(scratch3, array, Operand(FixedDoubleArray::kHeaderSize));

753 __ Addu(t2, t2, t3);	767 __ sll(at, length, 2);

754 __ li(t0, Operand(kHoleNanLower32));	768 __ Addu(array_end, scratch3, at);

755 __ li(t1, Operand(kHoleNanUpper32));

756 // t0: kHoleNanLower32

757 // t1: kHoleNanUpper32

758 // t2: end of destination FixedDoubleArray, not tagged

759 // t3: begin of FixedDoubleArray element fields, not tagged

760	769

761 __ Branch(&entry);	770 // Repurpose registers no longer in use.

	771 Register hole_lower = elements;

	772 Register hole_upper = length;

	773

	774 __ li(hole_lower, Operand(kHoleNanLower32));

	775 // scratch1: begin of source FixedArray element fields, not tagged

	776 // hole_lower: kHoleNanLower32

	777 // hole_upper: kHoleNanUpper32

	778 // array_end: end of destination FixedDoubleArray, not tagged

	779 // scratch3: begin of FixedDoubleArray element fields, not tagged

	780 __ Branch(USE_DELAY_SLOT, &entry);

	781 __ li(hole_upper, Operand(kHoleNanUpper32)); // In delay slot.

762	782

763 __ bind(&only_change_map);	783 __ bind(&only_change_map);

764 __ sw(a3, FieldMemOperand(a2, HeapObject::kMapOffset));	784 __ sw(target_map, FieldMemOperand(receiver, HeapObject::kMapOffset));

765 __ RecordWriteField(a2,	785 __ RecordWriteField(receiver,

766 HeapObject::kMapOffset,	786 HeapObject::kMapOffset,

767 a3,	787 target_map,

768 t5,	788 scratch2,

769 kRAHasNotBeenSaved,	789 kRAHasNotBeenSaved,

770 kDontSaveFPRegs,	790 kDontSaveFPRegs,

771 OMIT_REMEMBERED_SET,	791 OMIT_REMEMBERED_SET,

772 OMIT_SMI_CHECK);	792 OMIT_SMI_CHECK);

773 __ Branch(&done);	793 __ Branch(&done);

774	794

775 // Call into runtime if GC is required.	795 // Call into runtime if GC is required.

776 __ bind(&gc_required);	796 __ bind(&gc_required);

	797 __ Branch(USE_DELAY_SLOT, fail);

777 __ pop(ra);	798 __ pop(ra);

778 __ Branch(fail);

779	799

780 // Convert and copy elements.	800 // Convert and copy elements.

781 __ bind(&loop);	801 __ bind(&loop);

782 __ lw(t5, MemOperand(a3));	802 __ lw(scratch2, MemOperand(scratch1));

783 __ Addu(a3, a3, kIntSize);	803 __ Addu(scratch1, scratch1, kIntSize);

784 // t5: current element	804 // scratch2: current element

785 __ UntagAndJumpIfNotSmi(t5, t5, &convert_hole);	805 __ UntagAndJumpIfNotSmi(scratch2, scratch2, &convert_hole);

786	806

787 // Normal smi, convert to double and store.	807 // Normal smi, convert to double and store.

788 __ mtc1(t5, f0);	808 __ mtc1(scratch2, f0);

789 __ cvt_d_w(f0, f0);	809 __ cvt_d_w(f0, f0);

790 __ sdc1(f0, MemOperand(t3));	810 __ sdc1(f0, MemOperand(scratch3));

791 __ Addu(t3, t3, kDoubleSize);	811 __ Branch(USE_DELAY_SLOT, &entry);

792	812 __ addiu(scratch3, scratch3, kDoubleSize); // In delay slot.

793 __ Branch(&entry);

794	813

795 // Hole found, store the-hole NaN.	814 // Hole found, store the-hole NaN.

796 __ bind(&convert_hole);	815 __ bind(&convert_hole);

797 if (FLAG_debug_code) {	816 if (FLAG_debug_code) {

798 // Restore a "smi-untagged" heap object.	817 // Restore a "smi-untagged" heap object.

799 __ SmiTag(t5);	818 __ SmiTag(scratch2);

800 __ Or(t5, t5, Operand(1));	819 __ Or(scratch2, scratch2, Operand(1));

801 __ LoadRoot(at, Heap::kTheHoleValueRootIndex);	820 __ LoadRoot(at, Heap::kTheHoleValueRootIndex);

802 __ Assert(eq, kObjectFoundInSmiOnlyArray, at, Operand(t5));	821 __ Assert(eq, kObjectFoundInSmiOnlyArray, at, Operand(scratch2));

803 }	822 }

804 __ sw(t0, MemOperand(t3, Register::kMantissaOffset)); // mantissa	823 // mantissa

805 __ sw(t1, MemOperand(t3, Register::kExponentOffset)); // exponent	824 __ sw(hole_lower, MemOperand(scratch3, Register::kMantissaOffset));

806 __ Addu(t3, t3, kDoubleSize);	825 // exponent

	826 __ sw(hole_upper, MemOperand(scratch3, Register::kExponentOffset));

	827 __ bind(&entry);

	828 __ addiu(scratch3, scratch3, kDoubleSize); // In delay slot.

807	829

808 __ bind(&entry);	830 __ Branch(&loop, lt, scratch3, Operand(array_end));

809 __ Branch(&loop, lt, t3, Operand(t2));

810	831

811 __ pop(ra);	832 __ pop(ra);

812 __ bind(&done);	833 __ bind(&done);

813 }	834 }

814	835

815	836

816 void ElementsTransitionGenerator::GenerateDoubleToObject(	837 void ElementsTransitionGenerator::GenerateDoubleToObject(

817 MacroAssembler* masm, AllocationSiteMode mode, Label* fail) {	838 MacroAssembler* masm,

818 // ----------- S t a t e -------------	839 Register receiver,

819 // -- a0 : value	840 Register key,

820 // -- a1 : key	841 Register value,

821 // -- a2 : receiver	842 Register target_map,

822 // -- ra : return address	843 AllocationSiteMode mode,

823 // -- a3 : target map, scratch for subsequent call	844 Label* fail) {

824 // -- t0 : scratch (elements)	845 // Register ra contains the return address.

825 // -----------------------------------

826 Label entry, loop, convert_hole, gc_required, only_change_map;	846 Label entry, loop, convert_hole, gc_required, only_change_map;

	847 Register elements = t0;

	848 Register array = t2;

	849 Register length = t1;

	850 Register scratch = t5;

	851

	852 // Verify input registers don't conflict with locals.

	853 ASSERT(!AreAliased(receiver, key, value, target_map,

	854 elements, array, length, scratch));

827	855

828 if (mode == TRACK_ALLOCATION_SITE) {	856 if (mode == TRACK_ALLOCATION_SITE) {

829 __ JumpIfJSArrayHasAllocationMemento(a2, t0, fail);	857 __ JumpIfJSArrayHasAllocationMemento(receiver, elements, fail);

830 }	858 }

831	859

832 // Check for empty arrays, which only require a map transition and no changes	860 // Check for empty arrays, which only require a map transition and no changes

833 // to the backing store.	861 // to the backing store.

834 __ lw(t0, FieldMemOperand(a2, JSObject::kElementsOffset));	862 __ lw(elements, FieldMemOperand(receiver, JSObject::kElementsOffset));

835 __ LoadRoot(at, Heap::kEmptyFixedArrayRootIndex);	863 __ LoadRoot(at, Heap::kEmptyFixedArrayRootIndex);

836 __ Branch(&only_change_map, eq, at, Operand(t0));	864 __ Branch(&only_change_map, eq, at, Operand(elements));

837	865

838 __ MultiPush(a0.bit() \| a1.bit() \| a2.bit() \| a3.bit() \| ra.bit());	866 __ MultiPush(

	867 value.bit() \| key.bit() \| receiver.bit() \| target_map.bit() \| ra.bit());

839	868

840 __ lw(t1, FieldMemOperand(t0, FixedArray::kLengthOffset));	869 __ lw(length, FieldMemOperand(elements, FixedArray::kLengthOffset));

841 // t0: source FixedArray	870 // elements: source FixedArray

842 // t1: number of elements (smi-tagged)	871 // length: number of elements (smi-tagged)

843	872

844 // Allocate new FixedArray.	873 // Allocate new FixedArray.

845 __ sll(a0, t1, 1);	874 // Re-use value and target_map registers, as they have been saved on the

846 __ Addu(a0, a0, FixedDoubleArray::kHeaderSize);	875 // stack.

847 __ Allocate(a0, t2, t3, t5, &gc_required, NO_ALLOCATION_FLAGS);	876 Register array_size = value;

848 // t2: destination FixedArray, not tagged as heap object	877 Register allocate_scratch = target_map;

	878 __ sll(array_size, length, 1);

	879 __ Addu(array_size, array_size, FixedDoubleArray::kHeaderSize);

	880 __ Allocate(array_size, array, allocate_scratch, scratch, &gc_required,

	881 NO_ALLOCATION_FLAGS);

	882 // array: destination FixedArray, not tagged as heap object

849 // Set destination FixedDoubleArray's length and map.	883 // Set destination FixedDoubleArray's length and map.

850 __ LoadRoot(t5, Heap::kFixedArrayMapRootIndex);	884 __ LoadRoot(scratch, Heap::kFixedArrayMapRootIndex);

851 __ sw(t1, MemOperand(t2, FixedDoubleArray::kLengthOffset));	885 __ sw(length, MemOperand(array, FixedDoubleArray::kLengthOffset));

852 __ sw(t5, MemOperand(t2, HeapObject::kMapOffset));	886 __ sw(scratch, MemOperand(array, HeapObject::kMapOffset));

853	887

854 // Prepare for conversion loop.	888 // Prepare for conversion loop.

855 __ Addu(t0, t0, Operand(	889 Register src_elements = elements;

	890 Register dst_elements = target_map;

	891 Register dst_end = length;

	892 Register heap_number_map = scratch;

	893 __ Addu(src_elements, src_elements, Operand(

856 FixedDoubleArray::kHeaderSize - kHeapObjectTag	894 FixedDoubleArray::kHeaderSize - kHeapObjectTag

857 + Register::kExponentOffset));	895 + Register::kExponentOffset));

858 __ Addu(a3, t2, Operand(FixedArray::kHeaderSize));	896 __ Addu(dst_elements, array, Operand(FixedArray::kHeaderSize));

859 __ Addu(t2, t2, Operand(kHeapObjectTag));	897 __ Addu(array, array, Operand(kHeapObjectTag));

860 __ sll(t1, t1, 1);	898 __ sll(dst_end, dst_end, 1);

861 __ Addu(t1, a3, t1);	899 __ Addu(dst_end, dst_elements, dst_end);

862 __ LoadRoot(t3, Heap::kTheHoleValueRootIndex);	900 __ LoadRoot(heap_number_map, Heap::kHeapNumberMapRootIndex);

863 __ LoadRoot(t5, Heap::kHeapNumberMapRootIndex);

864 // Using offsetted addresses.	901 // Using offsetted addresses.

865 // a3: begin of destination FixedArray element fields, not tagged	902 // dst_elements: begin of destination FixedArray element fields, not tagged

866 // t0: begin of source FixedDoubleArray element fields, not tagged,	903 // src_elements: begin of source FixedDoubleArray element fields, not tagged,

867 // points to the exponent	904 // points to the exponent

868 // t1: end of destination FixedArray, not tagged	905 // dst_end: end of destination FixedArray, not tagged

869 // t2: destination FixedArray	906 // array: destination FixedArray

870 // t3: the-hole pointer	907 // heap_number_map: heap number map

871 // t5: heap number map

872 __ Branch(&entry);	908 __ Branch(&entry);

873	909

874 // Call into runtime if GC is required.	910 // Call into runtime if GC is required.

875 __ bind(&gc_required);	911 __ bind(&gc_required);

876 __ MultiPop(a0.bit() \| a1.bit() \| a2.bit() \| a3.bit() \| ra.bit());	912 __ MultiPop(

	913 value.bit() \| key.bit() \| receiver.bit() \| target_map.bit() \| ra.bit());

877	914

878 __ Branch(fail);	915 __ Branch(fail);

879	916

880 __ bind(&loop);	917 __ bind(&loop);

881 __ lw(a1, MemOperand(t0));	918 Register upper_bits = key;

882 __ Addu(t0, t0, kDoubleSize);	919 __ lw(upper_bits, MemOperand(src_elements));

883 // a1: current element's upper 32 bit	920 __ Addu(src_elements, src_elements, kDoubleSize);

884 // t0: address of next element's upper 32 bit	921 // upper_bits: current element's upper 32 bit

	922 // src_elements: address of next element's upper 32 bit

885 __ Branch(&convert_hole, eq, a1, Operand(kHoleNanUpper32));	923 __ Branch(&convert_hole, eq, a1, Operand(kHoleNanUpper32));

886	924

887 // Non-hole double, copy value into a heap number.	925 // Non-hole double, copy value into a heap number.

888 __ AllocateHeapNumber(a2, a0, t6, t5, &gc_required);	926 Register heap_number = receiver;

889 // a2: new heap number	927 Register scratch2 = value;

890 // Load mantissa of current element, t0 point to exponent of next element.	928 Register scratch3 = t6;

891 __ lw(a0, MemOperand(t0, (Register::kMantissaOffset	929 __ AllocateHeapNumber(heap_number, scratch2, scratch3, heap_number_map,

	930 &gc_required);

	931 // heap_number: new heap number

	932 // Load mantissa of current element, src_elements

	933 // point to exponent of next element.

	934 __ lw(scratch2, MemOperand(src_elements, (Register::kMantissaOffset

892 - Register::kExponentOffset - kDoubleSize)));	935 - Register::kExponentOffset - kDoubleSize)));

893 __ sw(a0, FieldMemOperand(a2, HeapNumber::kMantissaOffset));	936 __ sw(scratch2, FieldMemOperand(heap_number, HeapNumber::kMantissaOffset));

894 __ sw(a1, FieldMemOperand(a2, HeapNumber::kExponentOffset));	937 __ sw(upper_bits, FieldMemOperand(heap_number, HeapNumber::kExponentOffset));

895 __ mov(a0, a3);	938 __ mov(scratch2, dst_elements);

896 __ sw(a2, MemOperand(a3));	939 __ sw(heap_number, MemOperand(dst_elements));

897 __ Addu(a3, a3, kIntSize);	940 __ Addu(dst_elements, dst_elements, kIntSize);

898 __ RecordWrite(t2,	941 __ RecordWrite(array,

899 a0,	942 scratch2,

900 a2,	943 heap_number,

901 kRAHasBeenSaved,	944 kRAHasBeenSaved,

902 kDontSaveFPRegs,	945 kDontSaveFPRegs,

903 EMIT_REMEMBERED_SET,	946 EMIT_REMEMBERED_SET,

904 OMIT_SMI_CHECK);	947 OMIT_SMI_CHECK);

905 __ Branch(&entry);	948 __ Branch(&entry);

906	949

907 // Replace the-hole NaN with the-hole pointer.	950 // Replace the-hole NaN with the-hole pointer.

908 __ bind(&convert_hole);	951 __ bind(&convert_hole);

909 __ sw(t3, MemOperand(a3));	952 __ LoadRoot(scratch2, Heap::kTheHoleValueRootIndex);

910 __ Addu(a3, a3, kIntSize);	953 __ sw(scratch2, MemOperand(dst_elements));

	954 __ Addu(dst_elements, dst_elements, kIntSize);

911	955

912 __ bind(&entry);	956 __ bind(&entry);

913 __ Branch(&loop, lt, a3, Operand(t1));	957 __ Branch(&loop, lt, dst_elements, Operand(dst_end));

914	958

915 __ MultiPop(a2.bit() \| a3.bit() \| a0.bit() \| a1.bit());	959 __ MultiPop(receiver.bit() \| target_map.bit() \| value.bit() \| key.bit());

916 // Replace receiver's backing store with newly created and filled FixedArray.	960 // Replace receiver's backing store with newly created and filled FixedArray.

917 __ sw(t2, FieldMemOperand(a2, JSObject::kElementsOffset));	961 __ sw(array, FieldMemOperand(receiver, JSObject::kElementsOffset));

918 __ RecordWriteField(a2,	962 __ RecordWriteField(receiver,

919 JSObject::kElementsOffset,	963 JSObject::kElementsOffset,

920 t2,	964 array,

921 t5,	965 scratch,

922 kRAHasBeenSaved,	966 kRAHasBeenSaved,

923 kDontSaveFPRegs,	967 kDontSaveFPRegs,

924 EMIT_REMEMBERED_SET,	968 EMIT_REMEMBERED_SET,

925 OMIT_SMI_CHECK);	969 OMIT_SMI_CHECK);

926 __ pop(ra);	970 __ pop(ra);

927	971

928 __ bind(&only_change_map);	972 __ bind(&only_change_map);

929 // Update receiver's map.	973 // Update receiver's map.

930 __ sw(a3, FieldMemOperand(a2, HeapObject::kMapOffset));	974 __ sw(target_map, FieldMemOperand(receiver, HeapObject::kMapOffset));

931 __ RecordWriteField(a2,	975 __ RecordWriteField(receiver,

932 HeapObject::kMapOffset,	976 HeapObject::kMapOffset,

933 a3,	977 target_map,

934 t5,	978 scratch,

935 kRAHasNotBeenSaved,	979 kRAHasNotBeenSaved,

936 kDontSaveFPRegs,	980 kDontSaveFPRegs,

937 OMIT_REMEMBERED_SET,	981 OMIT_REMEMBERED_SET,

938 OMIT_SMI_CHECK);	982 OMIT_SMI_CHECK);

939 }	983 }

940	984

941	985

942 void StringCharLoadGenerator::Generate(MacroAssembler* masm,	986 void StringCharLoadGenerator::Generate(MacroAssembler* masm,

943 Register string,	987 Register string,

944 Register index,	988 Register index,

(...skipping 251 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
1196 patcher.masm()->nop(); // Pad the empty space.	1240 patcher.masm()->nop(); // Pad the empty space.

1197 }	1241 }

1198 }	1242 }

1199	1243

1200	1244

1201 #undef __	1245 #undef __

1202	1246

1203 } } // namespace v8::internal	1247 } } // namespace v8::internal

1204	1248

1205 #endif // V8_TARGET_ARCH_MIPS	1249 #endif // V8_TARGET_ARCH_MIPS

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