Reland r22247 "ARM64: Use UntagSmi helpers and clean up assertions."
BUG= R=ulan@chromium.org Review URL: https://codereview.chromium.org/371033002 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22282 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This commit is contained in:
Jacob.Bramley@arm.com
parent
41b74fd26f
commit
2e257d6cff
@ -430,12 +430,16 @@ unsigned Operand::shift_amount() const {
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Operand Operand::UntagSmi(Register smi) {
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STATIC_ASSERT(kXRegSizeInBits == static_cast<unsigned>(kSmiShift +
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kSmiValueSize));
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ASSERT(smi.Is64Bits());
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return Operand(smi, ASR, kSmiShift);
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}
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Operand Operand::UntagSmiAndScale(Register smi, int scale) {
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STATIC_ASSERT(kXRegSizeInBits == static_cast<unsigned>(kSmiShift +
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kSmiValueSize));
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ASSERT(smi.Is64Bits());
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ASSERT((scale >= 0) && (scale <= (64 - kSmiValueSize)));
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if (scale > kSmiShift) {
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@ -1246,7 +1246,7 @@ void Builtins::Generate_FunctionApply(MacroAssembler* masm) {
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// TODO(jbramley): Check that the stack usage here is safe.
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__ Sub(x10, jssp, x10);
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// Check if the arguments will overflow the stack.
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__ Cmp(x10, Operand(argc, LSR, kSmiShift - kPointerSizeLog2));
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__ Cmp(x10, Operand::UntagSmiAndScale(argc, kPointerSizeLog2));
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__ B(gt, &enough_stack_space);
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// There is not enough stack space, so use a builtin to throw an appropriate
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// error.
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@ -1988,9 +1988,8 @@ void ArgumentsAccessStub::GenerateNewSloppySlow(MacroAssembler* masm) {
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Register caller_fp = x10;
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__ Ldr(caller_fp, MemOperand(fp, StandardFrameConstants::kCallerFPOffset));
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// Load and untag the context.
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STATIC_ASSERT((kSmiShift / kBitsPerByte) == 4);
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__ Ldr(w11, MemOperand(caller_fp, StandardFrameConstants::kContextOffset +
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(kSmiShift / kBitsPerByte)));
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__ Ldr(w11, UntagSmiMemOperand(caller_fp,
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StandardFrameConstants::kContextOffset));
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__ Cmp(w11, StackFrame::ARGUMENTS_ADAPTOR);
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__ B(ne, &runtime);
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@ -2838,8 +2837,8 @@ void RegExpExecStub::Generate(MacroAssembler* masm) {
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// Store the smi values in the last match info.
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__ SmiTag(x10, current_offset);
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// Clearing the 32 bottom bits gives us a Smi.
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STATIC_ASSERT(kSmiShift == 32);
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__ And(x11, current_offset, ~kWRegMask);
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STATIC_ASSERT(kSmiTag == 0);
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__ Bic(x11, current_offset, kSmiShiftMask);
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__ Stp(x10,
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x11,
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MemOperand(last_match_offsets, kXRegSize * 2, PostIndex));
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@ -3478,8 +3477,7 @@ void StringCharFromCodeGenerator::GenerateFast(MacroAssembler* masm) {
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__ LoadRoot(result_, Heap::kSingleCharacterStringCacheRootIndex);
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// At this point code register contains smi tagged ASCII char code.
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STATIC_ASSERT(kSmiShift > kPointerSizeLog2);
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__ Add(result_, result_, Operand(code_, LSR, kSmiShift - kPointerSizeLog2));
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__ Add(result_, result_, Operand::UntagSmiAndScale(code_, kPointerSizeLog2));
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__ Ldr(result_, FieldMemOperand(result_, FixedArray::kHeaderSize));
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__ JumpIfRoot(result_, Heap::kUndefinedValueRootIndex, &slow_case_);
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__ Bind(&exit_);
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@ -3848,7 +3846,7 @@ void StringHelper::GenerateHashInit(MacroAssembler* masm,
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// hash = character + (character << 10);
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__ LoadRoot(hash, Heap::kHashSeedRootIndex);
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// Untag smi seed and add the character.
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__ Add(hash, character, Operand(hash, LSR, kSmiShift));
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__ Add(hash, character, Operand::UntagSmi(hash));
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// Compute hashes modulo 2^32 using a 32-bit W register.
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Register hash_w = hash.W();
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@ -171,7 +171,8 @@ static void Generate_DebugBreakCallHelper(MacroAssembler* masm,
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// jssp[8]: 0x00000000 (SMI tag & padding)
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// jssp[4]: reg[31:0]
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// jssp[0]: 0x00000000 (SMI tag & padding)
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STATIC_ASSERT((kSmiTag == 0) && (kSmiShift == 32));
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STATIC_ASSERT(kSmiTag == 0);
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STATIC_ASSERT(static_cast<unsigned>(kSmiShift) == kWRegSizeInBits);
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}
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if (object_regs != 0) {
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@ -2029,11 +2029,12 @@ void FullCodeGenerator::EmitInlineSmiBinaryOp(BinaryOperation* expr,
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break;
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case Token::MUL: {
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Label not_minus_zero, done;
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STATIC_ASSERT(static_cast<unsigned>(kSmiShift) == (kXRegSizeInBits / 2));
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STATIC_ASSERT(kSmiTag == 0);
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__ Smulh(x10, left, right);
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__ Cbnz(x10, ¬_minus_zero);
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__ Eor(x11, left, right);
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__ Tbnz(x11, kXSignBit, &stub_call);
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STATIC_ASSERT(kSmiTag == 0);
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__ Mov(result, x10);
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__ B(&done);
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__ Bind(¬_minus_zero);
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@ -2592,9 +2593,10 @@ void FullCodeGenerator::EmitIsNonNegativeSmi(CallRuntime* expr) {
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context()->PrepareTest(&materialize_true, &materialize_false,
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&if_true, &if_false, &fall_through);
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uint64_t sign_mask = V8_UINT64_C(1) << (kSmiShift + kSmiValueSize - 1);
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PrepareForBailoutBeforeSplit(expr, true, if_true, if_false);
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__ TestAndSplit(x0, kSmiTagMask | (0x80000000UL << kSmiShift), if_true,
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if_false, fall_through);
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__ TestAndSplit(x0, kSmiTagMask | sign_mask, if_true, if_false, fall_through);
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context()->Plug(if_true, if_false);
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}
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@ -3525,7 +3525,8 @@ MemOperand LCodeGen::PrepareKeyedArrayOperand(Register base,
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ElementsKind elements_kind,
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Representation representation,
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int base_offset) {
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STATIC_ASSERT((kSmiValueSize == 32) && (kSmiShift == 32) && (kSmiTag == 0));
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STATIC_ASSERT(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits);
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STATIC_ASSERT(kSmiTag == 0);
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int element_size_shift = ElementsKindToShiftSize(elements_kind);
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// Even though the HLoad/StoreKeyed instructions force the input
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@ -3536,8 +3537,7 @@ MemOperand LCodeGen::PrepareKeyedArrayOperand(Register base,
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__ Add(base, elements, Operand::UntagSmiAndScale(key, element_size_shift));
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if (representation.IsInteger32()) {
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ASSERT(elements_kind == FAST_SMI_ELEMENTS);
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// Read or write only the most-significant 32 bits in the case of fast smi
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// arrays.
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// Read or write only the smi payload in the case of fast smi arrays.
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return UntagSmiMemOperand(base, base_offset);
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} else {
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return MemOperand(base, base_offset);
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@ -3548,8 +3548,7 @@ MemOperand LCodeGen::PrepareKeyedArrayOperand(Register base,
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ASSERT((element_size_shift >= 0) && (element_size_shift <= 4));
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if (representation.IsInteger32()) {
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ASSERT(elements_kind == FAST_SMI_ELEMENTS);
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// Read or write only the most-significant 32 bits in the case of fast smi
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// arrays.
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// Read or write only the smi payload in the case of fast smi arrays.
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__ Add(base, elements, Operand(key, SXTW, element_size_shift));
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return UntagSmiMemOperand(base, base_offset);
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} else {
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@ -3612,8 +3611,8 @@ void LCodeGen::DoLoadKeyedFixed(LLoadKeyedFixed* instr) {
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ToInteger32(const_operand) * kPointerSize;
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if (representation.IsInteger32()) {
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ASSERT(instr->hydrogen()->elements_kind() == FAST_SMI_ELEMENTS);
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STATIC_ASSERT((kSmiValueSize == 32) && (kSmiShift == 32) &&
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(kSmiTag == 0));
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STATIC_ASSERT(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits);
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STATIC_ASSERT(kSmiTag == 0);
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mem_op = UntagSmiMemOperand(elements, offset);
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} else {
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mem_op = MemOperand(elements, offset);
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@ -3683,7 +3682,8 @@ void LCodeGen::DoLoadNamedField(LLoadNamedField* instr) {
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if (access.representation().IsSmi() &&
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instr->hydrogen()->representation().IsInteger32()) {
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// Read int value directly from upper half of the smi.
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STATIC_ASSERT(kSmiValueSize == 32 && kSmiShift == 32 && kSmiTag == 0);
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STATIC_ASSERT(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits);
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STATIC_ASSERT(kSmiTag == 0);
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__ Load(result, UntagSmiFieldMemOperand(source, offset),
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Representation::Integer32());
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} else {
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@ -5286,8 +5286,8 @@ void LCodeGen::DoStoreKeyedFixed(LStoreKeyedFixed* instr) {
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if (representation.IsInteger32()) {
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ASSERT(instr->hydrogen()->store_mode() == STORE_TO_INITIALIZED_ENTRY);
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ASSERT(instr->hydrogen()->elements_kind() == FAST_SMI_ELEMENTS);
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STATIC_ASSERT((kSmiValueSize == 32) && (kSmiShift == 32) &&
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(kSmiTag == 0));
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STATIC_ASSERT(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits);
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STATIC_ASSERT(kSmiTag == 0);
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mem_op = UntagSmiMemOperand(store_base, offset);
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} else {
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mem_op = MemOperand(store_base, offset);
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@ -5406,7 +5406,8 @@ void LCodeGen::DoStoreNamedField(LStoreNamedField* instr) {
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__ Ldr(destination, FieldMemOperand(object, JSObject::kPropertiesOffset));
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}
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#endif
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STATIC_ASSERT(kSmiValueSize == 32 && kSmiShift == 32 && kSmiTag == 0);
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STATIC_ASSERT(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits);
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STATIC_ASSERT(kSmiTag == 0);
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__ Store(value, UntagSmiFieldMemOperand(destination, offset),
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Representation::Integer32());
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} else {
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@ -1308,6 +1308,8 @@ void MacroAssembler::InitializeRootRegister() {
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void MacroAssembler::SmiTag(Register dst, Register src) {
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STATIC_ASSERT(kXRegSizeInBits ==
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static_cast<unsigned>(kSmiShift + kSmiValueSize));
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ASSERT(dst.Is64Bits() && src.Is64Bits());
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Lsl(dst, src, kSmiShift);
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}
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@ -1317,6 +1319,8 @@ void MacroAssembler::SmiTag(Register smi) { SmiTag(smi, smi); }
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void MacroAssembler::SmiUntag(Register dst, Register src) {
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STATIC_ASSERT(kXRegSizeInBits ==
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static_cast<unsigned>(kSmiShift + kSmiValueSize));
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ASSERT(dst.Is64Bits() && src.Is64Bits());
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if (FLAG_enable_slow_asserts) {
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AssertSmi(src);
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@ -1351,13 +1355,17 @@ void MacroAssembler::SmiUntagToFloat(FPRegister dst,
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void MacroAssembler::SmiTagAndPush(Register src) {
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STATIC_ASSERT((kSmiShift == 32) && (kSmiTag == 0));
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STATIC_ASSERT((static_cast<unsigned>(kSmiShift) == kWRegSizeInBits) &&
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(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits) &&
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(kSmiTag == 0));
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Push(src.W(), wzr);
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}
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void MacroAssembler::SmiTagAndPush(Register src1, Register src2) {
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STATIC_ASSERT((kSmiShift == 32) && (kSmiTag == 0));
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STATIC_ASSERT((static_cast<unsigned>(kSmiShift) == kWRegSizeInBits) &&
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(static_cast<unsigned>(kSmiValueSize) == kWRegSizeInBits) &&
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(kSmiTag == 0));
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Push(src1.W(), wzr, src2.W(), wzr);
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}
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