src/mips/macro-assembler-mips.cc - Issue 430503007: Rename ASSERT* to DCHECK*.

Unified Diff: src/mips/macro-assembler-mips.cc

Issue 430503007: Rename ASSERT* to DCHECK*. (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge

Patch Set: REBASE and fixes Created 6 years, 4 months ago

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Index: src/mips/macro-assembler-mips.cc

diff --git a/src/mips/macro-assembler-mips.cc b/src/mips/macro-assembler-mips.cc

index b19096ad7357720f151b2277a531b8f01cad46d0..691592272910e753408bc66c446a515f628cc0f5 100644

--- a/src/mips/macro-assembler-mips.cc

+++ b/src/mips/macro-assembler-mips.cc

@@ -32,7 +32,7 @@ MacroAssembler::MacroAssembler(Isolate* arg_isolate, void* buffer, int size)

void MacroAssembler::Load(Register dst,

const MemOperand& src,

Representation r) {

- ASSERT(!r.IsDouble());

+ DCHECK(!r.IsDouble());

if (r.IsInteger8()) {

lb(dst, src);

} else if (r.IsUInteger8()) {

@@ -50,7 +50,7 @@ void MacroAssembler::Load(Register dst,

void MacroAssembler::Store(Register src,

const MemOperand& dst,

Representation r) {

- ASSERT(!r.IsDouble());

+ DCHECK(!r.IsDouble());

if (r.IsInteger8() || r.IsUInteger8()) {

sb(src, dst);

} else if (r.IsInteger16() || r.IsUInteger16()) {

@@ -101,7 +101,7 @@ void MacroAssembler::PushSafepointRegisters() {

// Safepoints expect a block of kNumSafepointRegisters values on the

// stack, so adjust the stack for unsaved registers.

const int num_unsaved = kNumSafepointRegisters - kNumSafepointSavedRegisters;

- ASSERT(num_unsaved >= 0);

+ DCHECK(num_unsaved >= 0);

if (num_unsaved > 0) {

Subu(sp, sp, Operand(num_unsaved * kPointerSize));

}

@@ -153,7 +153,7 @@ void MacroAssembler::InNewSpace(Register object,

Condition cc,

Label* branch) {

- ASSERT(cc == eq || cc == ne);

+ DCHECK(cc == eq || cc == ne);

And(scratch, object, Operand(ExternalReference::new_space_mask(isolate())));

Branch(branch, cc, scratch,

Operand(ExternalReference::new_space_start(isolate())));

@@ -170,7 +170,7 @@ void MacroAssembler::RecordWriteField(

RememberedSetAction remembered_set_action,

SmiCheck smi_check,

PointersToHereCheck pointers_to_here_check_for_value) {

- ASSERT(!AreAliased(value, dst, t8, object));

+ DCHECK(!AreAliased(value, dst, t8, object));

// First, check if a write barrier is even needed. The tests below

// catch stores of Smis.

Label done;

@@ -182,7 +182,7 @@ void MacroAssembler::RecordWriteField(

// Although the object register is tagged, the offset is relative to the start

// of the object, so so offset must be a multiple of kPointerSize.

- ASSERT(IsAligned(offset, kPointerSize));

+ DCHECK(IsAligned(offset, kPointerSize));

Addu(dst, object, Operand(offset - kHeapObjectTag));

if (emit_debug_code()) {

@@ -221,7 +221,7 @@ void MacroAssembler::RecordWriteForMap(Register object,

RAStatus ra_status,

SaveFPRegsMode fp_mode) {

if (emit_debug_code()) {

- ASSERT(!dst.is(at));

+ DCHECK(!dst.is(at));

lw(dst, FieldMemOperand(map, HeapObject::kMapOffset));

Check(eq,

kWrongAddressOrValuePassedToRecordWrite,

@@ -300,8 +300,8 @@ void MacroAssembler::RecordWrite(

RememberedSetAction remembered_set_action,

SmiCheck smi_check,

PointersToHereCheck pointers_to_here_check_for_value) {

- ASSERT(!AreAliased(object, address, value, t8));

- ASSERT(!AreAliased(object, address, value, t9));

+ DCHECK(!AreAliased(object, address, value, t8));

+ DCHECK(!AreAliased(object, address, value, t9));

if (emit_debug_code()) {

lw(at, MemOperand(address));

@@ -319,7 +319,7 @@ void MacroAssembler::RecordWrite(

Label done;

if (smi_check == INLINE_SMI_CHECK) {

- ASSERT_EQ(0, kSmiTag);

+ DCHECK_EQ(0, kSmiTag);

JumpIfSmi(value, &done);

}

@@ -391,7 +391,7 @@ void MacroAssembler::RememberedSetHelper(Register object, // For debug tests.

if (and_then == kFallThroughAtEnd) {

Branch(&done, eq, t8, Operand(zero_reg));

} else {

- ASSERT(and_then == kReturnAtEnd);

+ DCHECK(and_then == kReturnAtEnd);

Ret(eq, t8, Operand(zero_reg));

}

push(ra);

@@ -415,9 +415,9 @@ void MacroAssembler::CheckAccessGlobalProxy(Register holder_reg,

Label* miss) {

Label same_contexts;

- ASSERT(!holder_reg.is(scratch));

- ASSERT(!holder_reg.is(at));

- ASSERT(!scratch.is(at));

+ DCHECK(!holder_reg.is(scratch));

+ DCHECK(!holder_reg.is(at));

+ DCHECK(!scratch.is(at));

// Load current lexical context from the stack frame.

lw(scratch, MemOperand(fp, StandardFrameConstants::kContextOffset));

@@ -572,7 +572,7 @@ void MacroAssembler::LoadFromNumberDictionary(Label* miss,

and_(reg2, reg2, reg1);

// Scale the index by multiplying by the element size.

- ASSERT(SeededNumberDictionary::kEntrySize == 3);

+ DCHECK(SeededNumberDictionary::kEntrySize == 3);

sll(at, reg2, 1); // 2x.

addu(reg2, reg2, at); // reg2 = reg2 * 3.

@@ -615,7 +615,7 @@ void MacroAssembler::Addu(Register rd, Register rs, const Operand& rt) {

addiu(rd, rs, rt.imm32_);

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

addu(rd, rs, at);

}

@@ -631,7 +631,7 @@ void MacroAssembler::Subu(Register rd, Register rs, const Operand& rt) {

addiu(rd, rs, -rt.imm32_); // No subiu instr, use addiu(x, y, -imm).

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

subu(rd, rs, at);

}

@@ -649,7 +649,7 @@ void MacroAssembler::Mul(Register rd, Register rs, const Operand& rt) {

}

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

if (kArchVariant == kLoongson) {

mult(rs, at);

@@ -666,7 +666,7 @@ void MacroAssembler::Mult(Register rs, const Operand& rt) {

mult(rs, rt.rm());

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

mult(rs, at);

}

@@ -678,7 +678,7 @@ void MacroAssembler::Multu(Register rs, const Operand& rt) {

multu(rs, rt.rm());

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

multu(rs, at);

}

@@ -690,7 +690,7 @@ void MacroAssembler::Div(Register rs, const Operand& rt) {

div(rs, rt.rm());

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

div(rs, at);

}

@@ -702,7 +702,7 @@ void MacroAssembler::Divu(Register rs, const Operand& rt) {

divu(rs, rt.rm());

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

divu(rs, at);

}

@@ -717,7 +717,7 @@ void MacroAssembler::And(Register rd, Register rs, const Operand& rt) {

andi(rd, rs, rt.imm32_);

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

and_(rd, rs, at);

}

@@ -733,7 +733,7 @@ void MacroAssembler::Or(Register rd, Register rs, const Operand& rt) {

ori(rd, rs, rt.imm32_);

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

or_(rd, rs, at);

}

@@ -749,7 +749,7 @@ void MacroAssembler::Xor(Register rd, Register rs, const Operand& rt) {

xori(rd, rs, rt.imm32_);

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

xor_(rd, rs, at);

}

@@ -762,7 +762,7 @@ void MacroAssembler::Nor(Register rd, Register rs, const Operand& rt) {

nor(rd, rs, rt.rm());

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

nor(rd, rs, at);

}

@@ -770,9 +770,9 @@ void MacroAssembler::Nor(Register rd, Register rs, const Operand& rt) {

void MacroAssembler::Neg(Register rs, const Operand& rt) {

- ASSERT(rt.is_reg());

- ASSERT(!at.is(rs));

- ASSERT(!at.is(rt.rm()));

+ DCHECK(rt.is_reg());

+ DCHECK(!at.is(rs));

+ DCHECK(!at.is(rt.rm()));

li(at, -1);

xor_(rs, rt.rm(), at);

}

@@ -786,7 +786,7 @@ void MacroAssembler::Slt(Register rd, Register rs, const Operand& rt) {

slti(rd, rs, rt.imm32_);

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

slt(rd, rs, at);

}

@@ -802,7 +802,7 @@ void MacroAssembler::Sltu(Register rd, Register rs, const Operand& rt) {

sltiu(rd, rs, rt.imm32_);

} else {

// li handles the relocation.

- ASSERT(!rs.is(at));

+ DCHECK(!rs.is(at));

li(at, rt);

sltu(rd, rs, at);

}

@@ -864,7 +864,7 @@ void MacroAssembler::li(Register dst, Handle<Object> value, LiFlags mode) {

if (value->IsSmi()) {

li(dst, Operand(value), mode);

} else {

- ASSERT(value->IsHeapObject());

+ DCHECK(value->IsHeapObject());

if (isolate()->heap()->InNewSpace(*value)) {

Handle<Cell> cell = isolate()->factory()->NewCell(value);

li(dst, Operand(cell));

@@ -877,7 +877,7 @@ void MacroAssembler::li(Register dst, Handle<Object> value, LiFlags mode) {

void MacroAssembler::li(Register rd, Operand j, LiFlags mode) {

- ASSERT(!j.is_reg());

+ DCHECK(!j.is_reg());

BlockTrampolinePoolScope block_trampoline_pool(this);

if (!MustUseReg(j.rmode_) && mode == OPTIMIZE_SIZE) {

// Normal load of an immediate value which does not need Relocation Info.

@@ -1030,8 +1030,8 @@ void MacroAssembler::Ext(Register rt,

uint16_t pos,

uint16_t size) {

- ASSERT(pos < 32);

- ASSERT(pos + size < 33);

+ DCHECK(pos < 32);

+ DCHECK(pos + size < 33);

if (kArchVariant == kMips32r2) {

ext_(rt, rs, pos, size);

@@ -1053,14 +1053,14 @@ void MacroAssembler::Ins(Register rt,

uint16_t pos,

uint16_t size) {

- ASSERT(pos < 32);

- ASSERT(pos + size <= 32);

- ASSERT(size != 0);

+ DCHECK(pos < 32);

+ DCHECK(pos + size <= 32);

+ DCHECK(size != 0);

if (kArchVariant == kMips32r2) {

ins_(rt, rs, pos, size);

} else {

- ASSERT(!rt.is(t8) && !rs.is(t8));

+ DCHECK(!rt.is(t8) && !rs.is(t8));

Subu(at, zero_reg, Operand(1));

srl(at, at, 32 - size);

and_(t8, rs, at);

@@ -1089,9 +1089,9 @@ void MacroAssembler::Cvt_d_uw(FPURegister fd,

// We do this by converting rs minus the MSB to avoid sign conversion,

// then adding 2^31 to the result (if needed).

- ASSERT(!fd.is(scratch));

- ASSERT(!rs.is(t9));

- ASSERT(!rs.is(at));

+ DCHECK(!fd.is(scratch));

+ DCHECK(!rs.is(t9));

+ DCHECK(!rs.is(at));

// Save rs's MSB to t9.

Ext(t9, rs, 31, 1);

@@ -1175,8 +1175,8 @@ void MacroAssembler::Ceil_w_d(FPURegister fd, FPURegister fs) {

void MacroAssembler::Trunc_uw_d(FPURegister fd,

FPURegister scratch) {

- ASSERT(!fd.is(scratch));

- ASSERT(!rs.is(at));

+ DCHECK(!fd.is(scratch));

+ DCHECK(!rs.is(at));

// Load 2^31 into scratch as its float representation.

li(at, 0x41E00000);

@@ -1217,7 +1217,7 @@ void MacroAssembler::BranchF(Label* target,

return;

}

- ASSERT(nan || target);

+ DCHECK(nan || target);

// Check for unordered (NaN) cases.

if (nan) {

c(UN, D, cmp1, cmp2);

@@ -1333,8 +1333,8 @@ void MacroAssembler::Movt(Register rd, Register rs, uint16_t cc) {

if (kArchVariant == kLoongson) {

// Tests an FP condition code and then conditionally move rs to rd.

// We do not currently use any FPU cc bit other than bit 0.

- ASSERT(cc == 0);

- ASSERT(!(rs.is(t8) || rd.is(t8)));

+ DCHECK(cc == 0);

+ DCHECK(!(rs.is(t8) || rd.is(t8)));

Label done;

// For testing purposes we need to fetch content of the FCSR register and

@@ -1359,8 +1359,8 @@ void MacroAssembler::Movf(Register rd, Register rs, uint16_t cc) {

if (kArchVariant == kLoongson) {

// Tests an FP condition code and then conditionally move rs to rd.

// We do not currently use any FPU cc bit other than bit 0.

- ASSERT(cc == 0);

- ASSERT(!(rs.is(t8) || rd.is(t8)));

+ DCHECK(cc == 0);

+ DCHECK(!(rs.is(t8) || rd.is(t8)));

Label done;

// For testing purposes we need to fetch content of the FCSR register and

@@ -1383,7 +1383,7 @@ void MacroAssembler::Movf(Register rd, Register rs, uint16_t cc) {

void MacroAssembler::Clz(Register rd, Register rs) {

if (kArchVariant == kLoongson) {

- ASSERT(!(rd.is(t8) || rd.is(t9)) && !(rs.is(t8) || rs.is(t9)));

+ DCHECK(!(rd.is(t8) || rd.is(t9)) && !(rs.is(t8) || rs.is(t9)));

Label loop, end;

@@ -1410,9 +1410,9 @@ void MacroAssembler::EmitFPUTruncate(FPURoundingMode rounding_mode,

DoubleRegister double_scratch,

CheckForInexactConversion check_inexact) {

- ASSERT(!result.is(scratch));

- ASSERT(!double_input.is(double_scratch));

- ASSERT(!except_flag.is(scratch));

+ DCHECK(!result.is(scratch));

+ DCHECK(!double_input.is(double_scratch));

+ DCHECK(!except_flag.is(scratch));

Label done;

@@ -1516,7 +1516,7 @@ void MacroAssembler::TruncateDoubleToI(Register result,

void MacroAssembler::TruncateHeapNumberToI(Register result, Register object) {

Label done;

DoubleRegister double_scratch = f12;

- ASSERT(!result.is(object));

+ DCHECK(!result.is(object));

ldc1(double_scratch,

MemOperand(object, HeapNumber::kValueOffset - kHeapObjectTag));

@@ -1543,7 +1543,7 @@ void MacroAssembler::TruncateNumberToI(Register object,

Label* not_number) {

Label done;

- ASSERT(!result.is(object));

+ DCHECK(!result.is(object));

UntagAndJumpIfSmi(result, object, &done);

JumpIfNotHeapNumber(object, heap_number_map, scratch, not_number);

@@ -1570,7 +1570,7 @@ void MacroAssembler::GetLeastBitsFromInt32(Register dst,

// Emulated condtional branches do not emit a nop in the branch delay slot.

// BRANCH_ARGS_CHECK checks that conditional jump arguments are correct.

-#define BRANCH_ARGS_CHECK(cond, rs, rt) ASSERT( \

+#define BRANCH_ARGS_CHECK(cond, rs, rt) DCHECK( \

(cond == cc_always && rs.is(zero_reg) && rt.rm().is(zero_reg)) || \

(cond != cc_always && (!rs.is(zero_reg) || !rt.rm().is(zero_reg))))

@@ -1662,7 +1662,7 @@ void MacroAssembler::BranchShort(int16_t offset, Condition cond, Register rs,

const Operand& rt,

BranchDelaySlot bdslot) {

BRANCH_ARGS_CHECK(cond, rs, rt);

- ASSERT(!rs.is(zero_reg));

+ DCHECK(!rs.is(zero_reg));

@@ -1762,14 +1762,14 @@ void MacroAssembler::BranchShort(int16_t offset, Condition cond, Register rs,

break;

case eq:

// We don't want any other register but scratch clobbered.

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

beq(rs, r2, offset);

break;

case ne:

// We don't want any other register but scratch clobbered.

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

bne(rs, r2, offset);

@@ -2014,14 +2014,14 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

b(offset);

break;

case eq:

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

offset = shifted_branch_offset(L, false);

beq(rs, r2, offset);

break;

case ne:

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

offset = shifted_branch_offset(L, false);

@@ -2033,7 +2033,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

bgtz(rs, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

slt(scratch, r2, rs);

@@ -2050,7 +2050,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

beq(scratch, zero_reg, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

slt(scratch, rs, r2);

@@ -2067,7 +2067,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

bne(scratch, zero_reg, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

slt(scratch, rs, r2);

@@ -2080,7 +2080,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

blez(rs, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

slt(scratch, r2, rs);

@@ -2094,7 +2094,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

bne(rs, zero_reg, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

sltu(scratch, r2, rs);

@@ -2111,7 +2111,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

beq(scratch, zero_reg, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

sltu(scratch, rs, r2);

@@ -2128,7 +2128,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

bne(scratch, zero_reg, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

sltu(scratch, rs, r2);

@@ -2141,7 +2141,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

offset = shifted_branch_offset(L, false);

beq(rs, zero_reg, offset);

} else {

- ASSERT(!scratch.is(rs));

+ DCHECK(!scratch.is(rs));

r2 = scratch;

li(r2, rt);

sltu(scratch, r2, rs);

@@ -2154,7 +2154,7 @@ void MacroAssembler::BranchShort(Label* L, Condition cond, Register rs,

}

// Check that offset could actually hold on an int16_t.

- ASSERT(is_int16(offset));

+ DCHECK(is_int16(offset));

// Emit a nop in the branch delay slot if required.

if (bdslot == PROTECT)

nop();

@@ -2416,7 +2416,7 @@ void MacroAssembler::BranchAndLinkShort(Label* L, Condition cond, Register rs,

}

// Check that offset could actually hold on an int16_t.

- ASSERT(is_int16(offset));

+ DCHECK(is_int16(offset));

// Emit a nop in the branch delay slot if required.

if (bdslot == PROTECT)

@@ -2467,7 +2467,7 @@ void MacroAssembler::Jump(Address target,

const Operand& rt,

BranchDelaySlot bd) {

- ASSERT(!RelocInfo::IsCodeTarget(rmode));

+ DCHECK(!RelocInfo::IsCodeTarget(rmode));

Jump(reinterpret_cast<intptr_t>(target), rmode, cond, rs, rt, bd);

}

@@ -2478,7 +2478,7 @@ void MacroAssembler::Jump(Handle<Code> code,

const Operand& rt,

BranchDelaySlot bd) {

- ASSERT(RelocInfo::IsCodeTarget(rmode));

+ DCHECK(RelocInfo::IsCodeTarget(rmode));

AllowDeferredHandleDereference embedding_raw_address;

Jump(reinterpret_cast<intptr_t>(code.location()), rmode, cond, rs, rt, bd);

}

@@ -2524,7 +2524,7 @@ void MacroAssembler::Call(Register target,

if (bd == PROTECT)

nop();

- ASSERT_EQ(CallSize(target, cond, rs, rt, bd),

+ DCHECK_EQ(CallSize(target, cond, rs, rt, bd),

SizeOfCodeGeneratedSince(&start));

}

@@ -2555,7 +2555,7 @@ void MacroAssembler::Call(Address target,

positions_recorder()->WriteRecordedPositions();

li(t9, Operand(target_int, rmode), CONSTANT_SIZE);

Call(t9, cond, rs, rt, bd);

- ASSERT_EQ(CallSize(target, rmode, cond, rs, rt, bd),

+ DCHECK_EQ(CallSize(target, rmode, cond, rs, rt, bd),

SizeOfCodeGeneratedSince(&start));

}

@@ -2583,14 +2583,14 @@ void MacroAssembler::Call(Handle<Code> code,

BlockTrampolinePoolScope block_trampoline_pool(this);

Label start;

bind(&start);

- ASSERT(RelocInfo::IsCodeTarget(rmode));

+ DCHECK(RelocInfo::IsCodeTarget(rmode));

if (rmode == RelocInfo::CODE_TARGET && !ast_id.IsNone()) {

SetRecordedAstId(ast_id);

rmode = RelocInfo::CODE_TARGET_WITH_ID;

}

AllowDeferredHandleDereference embedding_raw_address;

Call(reinterpret_cast<Address>(code.location()), rmode, cond, rs, rt, bd);

- ASSERT_EQ(CallSize(code, rmode, ast_id, cond, rs, rt, bd),

+ DCHECK_EQ(CallSize(code, rmode, ast_id, cond, rs, rt, bd),

SizeOfCodeGeneratedSince(&start));

}

@@ -2738,7 +2738,7 @@ void MacroAssembler::DebugBreak() {

PrepareCEntryArgs(0);

PrepareCEntryFunction(ExternalReference(Runtime::kDebugBreak, isolate()));

CEntryStub ces(isolate(), 1);

- ASSERT(AllowThisStubCall(&ces));

+ DCHECK(AllowThisStubCall(&ces));

Call(ces.GetCode(), RelocInfo::DEBUG_BREAK);

}

@@ -2768,7 +2768,7 @@ void MacroAssembler::PushTryHandler(StackHandler::Kind kind,

// Push the frame pointer, context, state, and code object.

if (kind == StackHandler::JS_ENTRY) {

- ASSERT_EQ(Smi::FromInt(0), 0);

+ DCHECK_EQ(Smi::FromInt(0), 0);

// The second zero_reg indicates no context.

// The first zero_reg is the NULL frame pointer.

// The operands are reversed to match the order of MultiPush/Pop.

@@ -2896,7 +2896,7 @@ void MacroAssembler::Allocate(int object_size,

Label* gc_required,

AllocationFlags flags) {

- ASSERT(object_size <= Page::kMaxRegularHeapObjectSize);

+ DCHECK(object_size <= Page::kMaxRegularHeapObjectSize);

if (!FLAG_inline_new) {

if (emit_debug_code()) {

// Trash the registers to simulate an allocation failure.

@@ -2908,18 +2908,18 @@ void MacroAssembler::Allocate(int object_size,

return;

}

- ASSERT(!result.is(scratch1));

- ASSERT(!result.is(scratch2));

- ASSERT(!scratch1.is(scratch2));

- ASSERT(!scratch1.is(t9));

- ASSERT(!scratch2.is(t9));

- ASSERT(!result.is(t9));

+ DCHECK(!result.is(scratch1));

+ DCHECK(!result.is(scratch2));

+ DCHECK(!scratch1.is(scratch2));

+ DCHECK(!scratch1.is(t9));

+ DCHECK(!scratch2.is(t9));

+ DCHECK(!result.is(t9));

// Make object size into bytes.

if ((flags & SIZE_IN_WORDS) != 0) {

object_size *= kPointerSize;

}

- ASSERT_EQ(0, object_size & kObjectAlignmentMask);

+ DCHECK_EQ(0, object_size & kObjectAlignmentMask);

// Check relative positions of allocation top and limit addresses.

// ARM adds additional checks to make sure the ldm instruction can be

@@ -2933,7 +2933,7 @@ void MacroAssembler::Allocate(int object_size,

reinterpret_cast<intptr_t>(allocation_top.address());

intptr_t limit =

reinterpret_cast<intptr_t>(allocation_limit.address());

- ASSERT((limit - top) == kPointerSize);

+ DCHECK((limit - top) == kPointerSize);

// Set up allocation top address and object size registers.

@@ -2959,8 +2959,8 @@ void MacroAssembler::Allocate(int object_size,

if ((flags & DOUBLE_ALIGNMENT) != 0) {

// Align the next allocation. Storing the filler map without checking top is

// safe in new-space because the limit of the heap is aligned there.

- ASSERT((flags & PRETENURE_OLD_POINTER_SPACE) == 0);

- ASSERT(kPointerAlignment * 2 == kDoubleAlignment);

+ DCHECK((flags & PRETENURE_OLD_POINTER_SPACE) == 0);

+ DCHECK(kPointerAlignment * 2 == kDoubleAlignment);

And(scratch2, result, Operand(kDoubleAlignmentMask));

Label aligned;

Branch(&aligned, eq, scratch2, Operand(zero_reg));

@@ -3003,11 +3003,11 @@ void MacroAssembler::Allocate(Register object_size,

return;

}

- ASSERT(!result.is(scratch1));

- ASSERT(!result.is(scratch2));

- ASSERT(!scratch1.is(scratch2));

- ASSERT(!object_size.is(t9));

- ASSERT(!scratch1.is(t9) && !scratch2.is(t9) && !result.is(t9));

+ DCHECK(!result.is(scratch1));

+ DCHECK(!result.is(scratch2));

+ DCHECK(!scratch1.is(scratch2));

+ DCHECK(!object_size.is(t9));

+ DCHECK(!scratch1.is(t9) && !scratch2.is(t9) && !result.is(t9));

// Check relative positions of allocation top and limit addresses.

// ARM adds additional checks to make sure the ldm instruction can be

@@ -3020,7 +3020,7 @@ void MacroAssembler::Allocate(Register object_size,

reinterpret_cast<intptr_t>(allocation_top.address());

intptr_t limit =

reinterpret_cast<intptr_t>(allocation_limit.address());

- ASSERT((limit - top) == kPointerSize);

+ DCHECK((limit - top) == kPointerSize);

// Set up allocation top address and object size registers.

@@ -3046,8 +3046,8 @@ void MacroAssembler::Allocate(Register object_size,

if ((flags & DOUBLE_ALIGNMENT) != 0) {

// Align the next allocation. Storing the filler map without checking top is

// safe in new-space because the limit of the heap is aligned there.

- ASSERT((flags & PRETENURE_OLD_POINTER_SPACE) == 0);

- ASSERT(kPointerAlignment * 2 == kDoubleAlignment);

+ DCHECK((flags & PRETENURE_OLD_POINTER_SPACE) == 0);

+ DCHECK(kPointerAlignment * 2 == kDoubleAlignment);

And(scratch2, result, Operand(kDoubleAlignmentMask));

Label aligned;

Branch(&aligned, eq, scratch2, Operand(zero_reg));

@@ -3113,7 +3113,7 @@ void MacroAssembler::AllocateTwoByteString(Register result,

Label* gc_required) {

// Calculate the number of bytes needed for the characters in the string while

// observing object alignment.

- ASSERT((SeqTwoByteString::kHeaderSize & kObjectAlignmentMask) == 0);

+ DCHECK((SeqTwoByteString::kHeaderSize & kObjectAlignmentMask) == 0);

sll(scratch1, length, 1); // Length in bytes, not chars.

addiu(scratch1, scratch1,

kObjectAlignmentMask + SeqTwoByteString::kHeaderSize);

@@ -3144,8 +3144,8 @@ void MacroAssembler::AllocateAsciiString(Register result,

Label* gc_required) {

// Calculate the number of bytes needed for the characters in the string

// while observing object alignment.

- ASSERT((SeqOneByteString::kHeaderSize & kObjectAlignmentMask) == 0);

- ASSERT(kCharSize == 1);

+ DCHECK((SeqOneByteString::kHeaderSize & kObjectAlignmentMask) == 0);

+ DCHECK(kCharSize == 1);

addiu(scratch1, length, kObjectAlignmentMask + SeqOneByteString::kHeaderSize);

And(scratch1, scratch1, Operand(~kObjectAlignmentMask));

@@ -3289,8 +3289,8 @@ void MacroAssembler::CopyFields(Register dst,

RegList temps,

int field_count) {

- ASSERT((temps & dst.bit()) == 0);

- ASSERT((temps & src.bit()) == 0);

+ DCHECK((temps & dst.bit()) == 0);

+ DCHECK((temps & src.bit()) == 0);

// Primitive implementation using only one temporary register.

@@ -3301,7 +3301,7 @@ void MacroAssembler::CopyFields(Register dst,

break;

}

- ASSERT(!tmp.is(no_reg));

+ DCHECK(!tmp.is(no_reg));

for (int i = 0; i < field_count; i++) {

lw(tmp, FieldMemOperand(src, i * kPointerSize));

@@ -3620,7 +3620,7 @@ void MacroAssembler::MovToFloatParameters(DoubleRegister src1,

DoubleRegister src2) {

if (!IsMipsSoftFloatABI) {

if (src2.is(f12)) {

- ASSERT(!src1.is(f14));

+ DCHECK(!src1.is(f14));

Move(f14, src2);

Move(f12, src1);

} else {

@@ -3663,12 +3663,12 @@ void MacroAssembler::InvokePrologue(const ParameterCount& expected,

// The code below is made a lot easier because the calling code already sets

// up actual and expected registers according to the contract if values are

// passed in registers.

- ASSERT(actual.is_immediate() || actual.reg().is(a0));

- ASSERT(expected.is_immediate() || expected.reg().is(a2));

- ASSERT((!code_constant.is_null() && code_reg.is(no_reg)) || code_reg.is(a3));

+ DCHECK(actual.is_immediate() || actual.reg().is(a0));

+ DCHECK(expected.is_immediate() || expected.reg().is(a2));

+ DCHECK((!code_constant.is_null() && code_reg.is(no_reg)) || code_reg.is(a3));

if (expected.is_immediate()) {

- ASSERT(actual.is_immediate());

+ DCHECK(actual.is_immediate());

if (expected.immediate() == actual.immediate()) {

definitely_matches = true;

} else {

@@ -3721,7 +3721,7 @@ void MacroAssembler::InvokeCode(Register code,

InvokeFlag flag,

const CallWrapper& call_wrapper) {

// You can't call a function without a valid frame.

- ASSERT(flag == JUMP_FUNCTION || has_frame());

+ DCHECK(flag == JUMP_FUNCTION || has_frame());

Label done;

@@ -3735,7 +3735,7 @@ void MacroAssembler::InvokeCode(Register code,

Call(code);

call_wrapper.AfterCall();

} else {

- ASSERT(flag == JUMP_FUNCTION);

+ DCHECK(flag == JUMP_FUNCTION);

Jump(code);

}

// Continue here if InvokePrologue does handle the invocation due to

@@ -3750,10 +3750,10 @@ void MacroAssembler::InvokeFunction(Register function,

InvokeFlag flag,

const CallWrapper& call_wrapper) {

// You can't call a function without a valid frame.

- ASSERT(flag == JUMP_FUNCTION || has_frame());

+ DCHECK(flag == JUMP_FUNCTION || has_frame());

// Contract with called JS functions requires that function is passed in a1.

- ASSERT(function.is(a1));

+ DCHECK(function.is(a1));

@@ -3776,10 +3776,10 @@ void MacroAssembler::InvokeFunction(Register function,

InvokeFlag flag,

const CallWrapper& call_wrapper) {

// You can't call a function without a valid frame.

- ASSERT(flag == JUMP_FUNCTION || has_frame());

+ DCHECK(flag == JUMP_FUNCTION || has_frame());

// Contract with called JS functions requires that function is passed in a1.

- ASSERT(function.is(a1));

+ DCHECK(function.is(a1));

// Get the function and setup the context.

lw(cp, FieldMemOperand(a1, JSFunction::kContextOffset));

@@ -3823,7 +3823,7 @@ void MacroAssembler::IsInstanceJSObjectType(Register map,

void MacroAssembler::IsObjectJSStringType(Register object,

Label* fail) {

- ASSERT(kNotStringTag != 0);

+ DCHECK(kNotStringTag != 0);

lw(scratch, FieldMemOperand(object, HeapObject::kMapOffset));

lbu(scratch, FieldMemOperand(scratch, Map::kInstanceTypeOffset));

@@ -3922,7 +3922,7 @@ void MacroAssembler::CallStub(CodeStub* stub,

const Operand& r2,

BranchDelaySlot bd) {

- ASSERT(AllowThisStubCall(stub)); // Stub calls are not allowed in some stubs.

+ DCHECK(AllowThisStubCall(stub)); // Stub calls are not allowed in some stubs.

Call(stub->GetCode(), RelocInfo::CODE_TARGET, ast_id,

cond, r1, r2, bd);

}

@@ -3958,7 +3958,7 @@ void MacroAssembler::CallApiFunctionAndReturn(

ExternalReference::handle_scope_level_address(isolate()),

next_address);

- ASSERT(function_address.is(a1) || function_address.is(a2));

+ DCHECK(function_address.is(a1) || function_address.is(a2));

Label profiler_disabled;

Label end_profiler_check;

@@ -4076,7 +4076,7 @@ void MacroAssembler::IndexFromHash(Register hash, Register index) {

// that the constants for the maximum number of digits for an array index

// cached in the hash field and the number of bits reserved for it does not

// conflict.

- ASSERT(TenToThe(String::kMaxCachedArrayIndexLength) <

+ DCHECK(TenToThe(String::kMaxCachedArrayIndexLength) <

(1 << String::kArrayIndexValueBits));

DecodeFieldToSmi<String::ArrayIndexValueBits>(index, hash);

}

@@ -4133,18 +4133,18 @@ void MacroAssembler::AdduAndCheckForOverflow(Register dst,

- ASSERT(!dst.is(overflow_dst));

- ASSERT(!dst.is(scratch));

- ASSERT(!overflow_dst.is(scratch));

- ASSERT(!overflow_dst.is(left));

- ASSERT(!overflow_dst.is(right));

+ DCHECK(!dst.is(overflow_dst));

+ DCHECK(!dst.is(scratch));

+ DCHECK(!overflow_dst.is(scratch));

+ DCHECK(!overflow_dst.is(left));

+ DCHECK(!overflow_dst.is(right));

if (left.is(right) && dst.is(left)) {

- ASSERT(!dst.is(t9));

- ASSERT(!scratch.is(t9));

- ASSERT(!left.is(t9));

- ASSERT(!right.is(t9));

- ASSERT(!overflow_dst.is(t9));

+ DCHECK(!dst.is(t9));

+ DCHECK(!scratch.is(t9));

+ DCHECK(!left.is(t9));

+ DCHECK(!right.is(t9));

+ DCHECK(!overflow_dst.is(t9));

mov(t9, right);

right = t9;

}

@@ -4175,13 +4175,13 @@ void MacroAssembler::SubuAndCheckForOverflow(Register dst,

- ASSERT(!dst.is(overflow_dst));

- ASSERT(!dst.is(scratch));

- ASSERT(!overflow_dst.is(scratch));

- ASSERT(!overflow_dst.is(left));

- ASSERT(!overflow_dst.is(right));

- ASSERT(!scratch.is(left));

- ASSERT(!scratch.is(right));

+ DCHECK(!dst.is(overflow_dst));

+ DCHECK(!dst.is(scratch));

+ DCHECK(!overflow_dst.is(scratch));

+ DCHECK(!overflow_dst.is(left));

+ DCHECK(!overflow_dst.is(right));

+ DCHECK(!scratch.is(left));

+ DCHECK(!scratch.is(right));

// This happens with some crankshaft code. Since Subu works fine if

// left == right, let's not make that restriction here.

@@ -4282,7 +4282,7 @@ void MacroAssembler::InvokeBuiltin(Builtins::JavaScript id,

InvokeFlag flag,

const CallWrapper& call_wrapper) {

// You can't call a builtin without a valid frame.

- ASSERT(flag == JUMP_FUNCTION || has_frame());

+ DCHECK(flag == JUMP_FUNCTION || has_frame());

GetBuiltinEntry(t9, id);

if (flag == CALL_FUNCTION) {

@@ -4290,7 +4290,7 @@ void MacroAssembler::InvokeBuiltin(Builtins::JavaScript id,

Call(t9);

call_wrapper.AfterCall();

} else {

- ASSERT(flag == JUMP_FUNCTION);

+ DCHECK(flag == JUMP_FUNCTION);

Jump(t9);

}

@@ -4308,7 +4308,7 @@ void MacroAssembler::GetBuiltinFunction(Register target,

void MacroAssembler::GetBuiltinEntry(Register target, Builtins::JavaScript id) {

- ASSERT(!target.is(a1));

+ DCHECK(!target.is(a1));

GetBuiltinFunction(a1, id);

// Load the code entry point from the builtins object.

lw(target, FieldMemOperand(a1, JSFunction::kCodeEntryOffset));

@@ -4327,7 +4327,7 @@ void MacroAssembler::SetCounter(StatsCounter* counter, int value,

void MacroAssembler::IncrementCounter(StatsCounter* counter, int value,

- ASSERT(value > 0);

+ DCHECK(value > 0);

if (FLAG_native_code_counters && counter->Enabled()) {

li(scratch2, Operand(ExternalReference(counter)));

lw(scratch1, MemOperand(scratch2));

@@ -4339,7 +4339,7 @@ void MacroAssembler::IncrementCounter(StatsCounter* counter, int value,

void MacroAssembler::DecrementCounter(StatsCounter* counter, int value,

- ASSERT(value > 0);

+ DCHECK(value > 0);

if (FLAG_native_code_counters && counter->Enabled()) {

li(scratch2, Operand(ExternalReference(counter)));

lw(scratch1, MemOperand(scratch2));

@@ -4361,7 +4361,7 @@ void MacroAssembler::Assert(Condition cc, BailoutReason reason,

void MacroAssembler::AssertFastElements(Register elements) {

if (emit_debug_code()) {

- ASSERT(!elements.is(at));

+ DCHECK(!elements.is(at));

Label ok;

push(elements);

lw(elements, FieldMemOperand(elements, HeapObject::kMapOffset));

@@ -4424,7 +4424,7 @@ void MacroAssembler::Abort(BailoutReason reason) {

// generated instructions is 10, so we use this as a maximum value.

static const int kExpectedAbortInstructions = 10;

int abort_instructions = InstructionsGeneratedSince(&abort_start);

- ASSERT(abort_instructions <= kExpectedAbortInstructions);

+ DCHECK(abort_instructions <= kExpectedAbortInstructions);

while (abort_instructions++ < kExpectedAbortInstructions) {

nop();

}

@@ -4600,9 +4600,9 @@ void MacroAssembler::EnterExitFrame(bool save_doubles,

const int frame_alignment = MacroAssembler::ActivationFrameAlignment();

if (save_doubles) {

// The stack must be allign to 0 modulo 8 for stores with sdc1.

- ASSERT(kDoubleSize == frame_alignment);

+ DCHECK(kDoubleSize == frame_alignment);

if (frame_alignment > 0) {

- ASSERT(IsPowerOf2(frame_alignment));

+ DCHECK(IsPowerOf2(frame_alignment));

And(sp, sp, Operand(-frame_alignment)); // Align stack.

}

int space = FPURegister::kMaxNumRegisters * kDoubleSize;

@@ -4617,10 +4617,10 @@ void MacroAssembler::EnterExitFrame(bool save_doubles,

// Reserve place for the return address, stack space and an optional slot

// (used by the DirectCEntryStub to hold the return value if a struct is

// returned) and align the frame preparing for calling the runtime function.

- ASSERT(stack_space >= 0);

+ DCHECK(stack_space >= 0);

Subu(sp, sp, Operand((stack_space + 2) * kPointerSize));

if (frame_alignment > 0) {

- ASSERT(IsPowerOf2(frame_alignment));

+ DCHECK(IsPowerOf2(frame_alignment));

And(sp, sp, Operand(-frame_alignment)); // Align stack.

}

@@ -4715,7 +4715,7 @@ void MacroAssembler::AssertStackIsAligned() {

if (frame_alignment > kPointerSize) {

Label alignment_as_expected;

- ASSERT(IsPowerOf2(frame_alignment));

+ DCHECK(IsPowerOf2(frame_alignment));

andi(at, sp, frame_alignment_mask);

Branch(&alignment_as_expected, eq, at, Operand(zero_reg));

// Don't use Check here, as it will call Runtime_Abort re-entering here.

@@ -4739,7 +4739,7 @@ void MacroAssembler::JumpIfNotPowerOfTwoOrZero(

void MacroAssembler::SmiTagCheckOverflow(Register reg, Register overflow) {

- ASSERT(!reg.is(overflow));

+ DCHECK(!reg.is(overflow));

mov(overflow, reg); // Save original value.

SmiTag(reg);

xor_(overflow, overflow, reg); // Overflow if (value ^ 2 * value) < 0.

@@ -4753,9 +4753,9 @@ void MacroAssembler::SmiTagCheckOverflow(Register dst,

// Fall back to slower case.

SmiTagCheckOverflow(dst, overflow);

} else {

- ASSERT(!dst.is(src));

- ASSERT(!dst.is(overflow));

- ASSERT(!src.is(overflow));

+ DCHECK(!dst.is(src));

+ DCHECK(!dst.is(overflow));

+ DCHECK(!src.is(overflow));

SmiTag(dst, src);

xor_(overflow, dst, src); // Overflow if (value ^ 2 * value) < 0.

}

@@ -4781,7 +4781,7 @@ void MacroAssembler::JumpIfSmi(Register value,

Label* smi_label,

BranchDelaySlot bd) {

- ASSERT_EQ(0, kSmiTag);

+ DCHECK_EQ(0, kSmiTag);

andi(scratch, value, kSmiTagMask);

Branch(bd, smi_label, eq, scratch, Operand(zero_reg));

}

@@ -4790,7 +4790,7 @@ void MacroAssembler::JumpIfNotSmi(Register value,

Label* not_smi_label,

BranchDelaySlot bd) {

- ASSERT_EQ(0, kSmiTag);

+ DCHECK_EQ(0, kSmiTag);

andi(scratch, value, kSmiTagMask);

Branch(bd, not_smi_label, ne, scratch, Operand(zero_reg));

}

@@ -4800,7 +4800,7 @@ void MacroAssembler::JumpIfNotBothSmi(Register reg1,

Label* on_not_both_smi) {

STATIC_ASSERT(kSmiTag == 0);

- ASSERT_EQ(1, kSmiTagMask);

+ DCHECK_EQ(1, kSmiTagMask);

or_(at, reg1, reg2);

JumpIfNotSmi(at, on_not_both_smi);

}

@@ -4810,7 +4810,7 @@ void MacroAssembler::JumpIfEitherSmi(Register reg1,

Label* on_either_smi) {

STATIC_ASSERT(kSmiTag == 0);

- ASSERT_EQ(1, kSmiTagMask);

+ DCHECK_EQ(1, kSmiTagMask);

// Both Smi tags must be 1 (not Smi).

and_(at, reg1, reg2);

JumpIfSmi(at, on_either_smi);

@@ -4882,7 +4882,7 @@ void MacroAssembler::AssertUndefinedOrAllocationSite(Register object,

void MacroAssembler::AssertIsRoot(Register reg, Heap::RootListIndex index) {

if (emit_debug_code()) {

- ASSERT(!reg.is(at));

+ DCHECK(!reg.is(at));

LoadRoot(at, index);

Check(eq, kHeapNumberMapRegisterClobbered, reg, Operand(at));

}

@@ -5027,7 +5027,7 @@ void MacroAssembler::JumpIfBothInstanceTypesAreNotSequentialAscii(

kIsNotStringMask | kStringEncodingMask | kStringRepresentationMask;

const int kFlatAsciiStringTag =

kStringTag | kOneByteStringTag | kSeqStringTag;

- ASSERT(kFlatAsciiStringTag <= 0xffff); // Ensure this fits 16-bit immed.

+ DCHECK(kFlatAsciiStringTag <= 0xffff); // Ensure this fits 16-bit immed.

andi(scratch1, first, kFlatAsciiStringMask);

Branch(failure, ne, scratch1, Operand(kFlatAsciiStringTag));

andi(scratch2, second, kFlatAsciiStringMask);

@@ -5092,7 +5092,7 @@ void MacroAssembler::EmitSeqStringSetCharCheck(Register string,

lw(at, FieldMemOperand(string, String::kLengthOffset));

Check(lt, kIndexIsTooLarge, index, Operand(at));

- ASSERT(Smi::FromInt(0) == 0);

+ DCHECK(Smi::FromInt(0) == 0);

Check(ge, kIndexIsNegative, index, Operand(zero_reg));

SmiUntag(index, index);

@@ -5116,7 +5116,7 @@ void MacroAssembler::PrepareCallCFunction(int num_reg_arguments,

// and the original value of sp.

mov(scratch, sp);

Subu(sp, sp, Operand((stack_passed_arguments + 1) * kPointerSize));

- ASSERT(IsPowerOf2(frame_alignment));

+ DCHECK(IsPowerOf2(frame_alignment));

And(sp, sp, Operand(-frame_alignment));

sw(scratch, MemOperand(sp, stack_passed_arguments * kPointerSize));

} else {

@@ -5161,7 +5161,7 @@ void MacroAssembler::CallCFunction(Register function,

void MacroAssembler::CallCFunctionHelper(Register function,

int num_reg_arguments,

int num_double_arguments) {

- ASSERT(has_frame());

+ DCHECK(has_frame());

// Make sure that the stack is aligned before calling a C function unless

// running in the simulator. The simulator has its own alignment check which

// provides more information.

@@ -5173,7 +5173,7 @@ void MacroAssembler::CallCFunctionHelper(Register function,

int frame_alignment = base::OS::ActivationFrameAlignment();

int frame_alignment_mask = frame_alignment - 1;

if (frame_alignment > kPointerSize) {

- ASSERT(IsPowerOf2(frame_alignment));

+ DCHECK(IsPowerOf2(frame_alignment));

Label alignment_as_expected;

And(at, sp, Operand(frame_alignment_mask));

Branch(&alignment_as_expected, eq, at, Operand(zero_reg));

@@ -5299,7 +5299,7 @@ void MacroAssembler::JumpIfBlack(Register object,

Label* on_black) {

HasColor(object, scratch0, scratch1, on_black, 1, 0); // kBlackBitPattern.

- ASSERT(strcmp(Marking::kBlackBitPattern, "10") == 0);

+ DCHECK(strcmp(Marking::kBlackBitPattern, "10") == 0);

}

@@ -5309,8 +5309,8 @@ void MacroAssembler::HasColor(Register object,

Label* has_color,

int first_bit,

int second_bit) {

- ASSERT(!AreAliased(object, bitmap_scratch, mask_scratch, t8));

- ASSERT(!AreAliased(object, bitmap_scratch, mask_scratch, t9));

+ DCHECK(!AreAliased(object, bitmap_scratch, mask_scratch, t8));

+ DCHECK(!AreAliased(object, bitmap_scratch, mask_scratch, t9));

GetMarkBits(object, bitmap_scratch, mask_scratch);

@@ -5339,13 +5339,13 @@ void MacroAssembler::HasColor(Register object,

void MacroAssembler::JumpIfDataObject(Register value,

Label* not_data_object) {

- ASSERT(!AreAliased(value, scratch, t8, no_reg));

+ DCHECK(!AreAliased(value, scratch, t8, no_reg));

Label is_data_object;

lw(scratch, FieldMemOperand(value, HeapObject::kMapOffset));

LoadRoot(t8, Heap::kHeapNumberMapRootIndex);

Branch(&is_data_object, eq, t8, Operand(scratch));

- ASSERT(kIsIndirectStringTag == 1 && kIsIndirectStringMask == 1);

- ASSERT(kNotStringTag == 0x80 && kIsNotStringMask == 0x80);

+ DCHECK(kIsIndirectStringTag == 1 && kIsIndirectStringMask == 1);

+ DCHECK(kNotStringTag == 0x80 && kIsNotStringMask == 0x80);

// If it's a string and it's not a cons string then it's an object containing

// no GC pointers.

lbu(scratch, FieldMemOperand(scratch, Map::kInstanceTypeOffset));

@@ -5358,7 +5358,7 @@ void MacroAssembler::JumpIfDataObject(Register value,

void MacroAssembler::GetMarkBits(Register addr_reg,

- ASSERT(!AreAliased(addr_reg, bitmap_reg, mask_reg, no_reg));

+ DCHECK(!AreAliased(addr_reg, bitmap_reg, mask_reg, no_reg));

And(bitmap_reg, addr_reg, Operand(~Page::kPageAlignmentMask));

Ext(mask_reg, addr_reg, kPointerSizeLog2, Bitmap::kBitsPerCellLog2);

const int kLowBits = kPointerSizeLog2 + Bitmap::kBitsPerCellLog2;

@@ -5376,14 +5376,14 @@ void MacroAssembler::EnsureNotWhite(

Label* value_is_white_and_not_data) {

- ASSERT(!AreAliased(value, bitmap_scratch, mask_scratch, t8));

+ DCHECK(!AreAliased(value, bitmap_scratch, mask_scratch, t8));

GetMarkBits(value, bitmap_scratch, mask_scratch);

// If the value is black or grey we don't need to do anything.

- ASSERT(strcmp(Marking::kWhiteBitPattern, "00") == 0);

- ASSERT(strcmp(Marking::kBlackBitPattern, "10") == 0);

- ASSERT(strcmp(Marking::kGreyBitPattern, "11") == 0);

- ASSERT(strcmp(Marking::kImpossibleBitPattern, "01") == 0);

+ DCHECK(strcmp(Marking::kWhiteBitPattern, "00") == 0);

+ DCHECK(strcmp(Marking::kBlackBitPattern, "10") == 0);

+ DCHECK(strcmp(Marking::kGreyBitPattern, "11") == 0);

+ DCHECK(strcmp(Marking::kImpossibleBitPattern, "01") == 0);

Label done;

@@ -5422,8 +5422,8 @@ void MacroAssembler::EnsureNotWhite(

}

// Check for strings.

- ASSERT(kIsIndirectStringTag == 1 && kIsIndirectStringMask == 1);

- ASSERT(kNotStringTag == 0x80 && kIsNotStringMask == 0x80);

+ DCHECK(kIsIndirectStringTag == 1 && kIsIndirectStringMask == 1);

+ DCHECK(kNotStringTag == 0x80 && kIsNotStringMask == 0x80);

// If it's a string and it's not a cons string then it's an object containing

// no GC pointers.

@@ -5435,8 +5435,8 @@ void MacroAssembler::EnsureNotWhite(

// Otherwise it's String::kHeaderSize + string->length() * (1 or 2).

// External strings are the only ones with the kExternalStringTag bit

// set.

- ASSERT_EQ(0, kSeqStringTag & kExternalStringTag);

- ASSERT_EQ(0, kConsStringTag & kExternalStringTag);

+ DCHECK_EQ(0, kSeqStringTag & kExternalStringTag);

+ DCHECK_EQ(0, kConsStringTag & kExternalStringTag);

And(t8, instance_type, Operand(kExternalStringTag));

{

Label skip;

@@ -5450,8 +5450,8 @@ void MacroAssembler::EnsureNotWhite(

// For ASCII (char-size of 1) we shift the smi tag away to get the length.

// For UC16 (char-size of 2) we just leave the smi tag in place, thereby

// getting the length multiplied by 2.

- ASSERT(kOneByteStringTag == 4 && kStringEncodingMask == 4);

- ASSERT(kSmiTag == 0 && kSmiTagSize == 1);

+ DCHECK(kOneByteStringTag == 4 && kStringEncodingMask == 4);

+ DCHECK(kSmiTag == 0 && kSmiTagSize == 1);

lw(t9, FieldMemOperand(value, String::kLengthOffset));

And(t8, instance_type, Operand(kStringEncodingMask));

{

@@ -5541,7 +5541,7 @@ void MacroAssembler::CheckEnumCache(Register null_value, Label* call_runtime) {

void MacroAssembler::ClampUint8(Register output_reg, Register input_reg) {

- ASSERT(!output_reg.is(input_reg));

+ DCHECK(!output_reg.is(input_reg));

Label done;

li(output_reg, Operand(255));

// Normal branch: nop in delay slot.

@@ -5636,7 +5636,7 @@ void MacroAssembler::JumpIfDictionaryInPrototypeChain(

Label* found) {

- ASSERT(!scratch1.is(scratch0));

+ DCHECK(!scratch1.is(scratch0));

Factory* factory = isolate()->factory();

Label loop_again;

@@ -5692,7 +5692,7 @@ CodePatcher::CodePatcher(byte* address,

// Create a new macro assembler pointing to the address of the code to patch.

// The size is adjusted with kGap on order for the assembler to generate size

// bytes of instructions without failing with buffer size constraints.

- ASSERT(masm_.reloc_info_writer.pos() == address_ + size_ + Assembler::kGap);

+ DCHECK(masm_.reloc_info_writer.pos() == address_ + size_ + Assembler::kGap);

}

@@ -5703,8 +5703,8 @@ CodePatcher::~CodePatcher() {

}

// Check that the code was patched as expected.

- ASSERT(masm_.pc_ == address_ + size_);

- ASSERT(masm_.reloc_info_writer.pos() == address_ + size_ + Assembler::kGap);

+ DCHECK(masm_.pc_ == address_ + size_);

+ DCHECK(masm_.reloc_info_writer.pos() == address_ + size_ + Assembler::kGap);

}

@@ -5720,13 +5720,13 @@ void CodePatcher::Emit(Address addr) {

void CodePatcher::ChangeBranchCondition(Condition cond) {

Instr instr = Assembler::instr_at(masm_.pc_);

- ASSERT(Assembler::IsBranch(instr));

+ DCHECK(Assembler::IsBranch(instr));

uint32_t opcode = Assembler::GetOpcodeField(instr);

// Currently only the 'eq' and 'ne' cond values are supported and the simple

// branch instructions (with opcode being the branch type).

// There are some special cases (see Assembler::IsBranch()) so extending this

// would be tricky.

- ASSERT(opcode == BEQ ||

+ DCHECK(opcode == BEQ ||

opcode == BNE ||

opcode == BLEZ ||

opcode == BGTZ ||

@@ -5743,9 +5743,9 @@ void CodePatcher::ChangeBranchCondition(Condition cond) {

void MacroAssembler::TruncatingDiv(Register result,

int32_t divisor) {

- ASSERT(!dividend.is(result));

- ASSERT(!dividend.is(at));

- ASSERT(!result.is(at));

+ DCHECK(!dividend.is(result));

+ DCHECK(!dividend.is(at));

+ DCHECK(!result.is(at));

MultiplierAndShift ms(divisor);

li(at, Operand(ms.multiplier()));

Mult(dividend, Operand(at));

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