Commit 5528ce70 authored by sgjesse@chromium.org's avatar sgjesse@chromium.org

MIPS: Cleaned up calling-related methods in the assembler.

Patterned after r8482, Cleaned up calling-related methods in the ARM assembler.

On MIPS I completely refactored the Jump and Call methods.
All the Jump and Call macro helpers have been replaced with overloaded functions
(matching the ARM version) and using default parameter values where possible.
The previously mostly-unused CallSize function is utilized as well (same as on ARM).
The unused Jump(Operand, ...) and Call(Operand, ...) versions have been completely removed.
I also removed the Jump(BranchDelaySlot, ...) and Call(BranchDelaySlot,...) methods as
they were unused and declaring them would either result in a lot of unused code or the
previously experienced macro-hell. The only exception to this is for Ret() where the
branch delay slot is often used.

This fixes the failing debug tests for example cctest test-debug/DebugStepFor.

Ported r8482 (41cb9ed)

Patch by Daniel Kalmar <kalmard@homejinni.com>

BUG=
TEST=

Review URL: http://codereview.chromium.org//7328013
Patch from Paul Lind <plind44@gmail.com>.

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@8585 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent a15d8652
......@@ -779,8 +779,13 @@ class Assembler : public AssemblerBase {
void fcmp(FPURegister src1, const double src2, FPUCondition cond);
// Check the code size generated from label to here.
int InstructionsGeneratedSince(Label* l) {
return (pc_offset() - l->pos()) / kInstrSize;
int SizeOfCodeGeneratedSince(Label* label) {
return pc_offset() - label->pos();
}
// Check the number of instructions generated from label to here.
int InstructionsGeneratedSince(Label* label) {
return SizeOfCodeGeneratedSince(label) / kInstrSize;
}
// Class for scoping postponing the trampoline pool generation.
......
......@@ -634,7 +634,7 @@ void Builtins::Generate_JSConstructCall(MacroAssembler* masm) {
__ lw(a2, FieldMemOperand(a1, JSFunction::kSharedFunctionInfoOffset));
__ lw(a2, FieldMemOperand(a2, SharedFunctionInfo::kConstructStubOffset));
__ Addu(t9, a2, Operand(Code::kHeaderSize - kHeapObjectTag));
__ Jump(Operand(t9));
__ Jump(t9);
// a0: number of arguments
// a1: called object
......@@ -1075,8 +1075,7 @@ static void Generate_JSEntryTrampolineHelper(MacroAssembler* masm,
// Invoke the code and pass argc as a0.
__ mov(a0, a3);
if (is_construct) {
__ Call(masm->isolate()->builtins()->JSConstructCall(),
RelocInfo::CODE_TARGET);
__ Call(masm->isolate()->builtins()->JSConstructCall());
} else {
ParameterCount actual(a0);
__ InvokeFunction(a1, actual, CALL_FUNCTION,
......
......@@ -390,11 +390,11 @@ void FloatingPointHelper::LoadSmis(MacroAssembler* masm,
__ mov(scratch1, a0);
ConvertToDoubleStub stub1(a3, a2, scratch1, scratch2);
__ push(ra);
__ Call(stub1.GetCode(), RelocInfo::CODE_TARGET);
__ Call(stub1.GetCode());
// Write Smi from a1 to a1 and a0 in double format.
__ mov(scratch1, a1);
ConvertToDoubleStub stub2(a1, a0, scratch1, scratch2);
__ Call(stub2.GetCode(), RelocInfo::CODE_TARGET);
__ Call(stub2.GetCode());
__ pop(ra);
}
}
......@@ -476,7 +476,7 @@ void FloatingPointHelper::LoadNumber(MacroAssembler* masm,
__ mov(scratch1, object);
ConvertToDoubleStub stub(dst2, dst1, scratch1, scratch2);
__ push(ra);
__ Call(stub.GetCode(), RelocInfo::CODE_TARGET);
__ Call(stub.GetCode());
__ pop(ra);
}
......@@ -1101,7 +1101,7 @@ static void EmitSmiNonsmiComparison(MacroAssembler* masm,
__ mov(t6, rhs);
ConvertToDoubleStub stub1(a1, a0, t6, t5);
__ push(ra);
__ Call(stub1.GetCode(), RelocInfo::CODE_TARGET);
__ Call(stub1.GetCode());
__ pop(ra);
}
......@@ -1136,7 +1136,7 @@ static void EmitSmiNonsmiComparison(MacroAssembler* masm,
__ mov(t6, lhs);
ConvertToDoubleStub stub2(a3, a2, t6, t5);
__ push(ra);
__ Call(stub2.GetCode(), RelocInfo::CODE_TARGET);
__ Call(stub2.GetCode());
__ pop(ra);
// Load rhs to a double in a1, a0.
if (rhs.is(a0)) {
......
......@@ -798,7 +798,7 @@ void FullCodeGenerator::EmitDeclaration(Variable* variable,
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->KeyedStoreIC_Initialize_Strict()
: isolate()->builtins()->KeyedStoreIC_Initialize();
__ CallWithAstId(ic);
__ Call(ic);
// Value in v0 is ignored (declarations are statements).
}
}
......@@ -873,7 +873,7 @@ void FullCodeGenerator::VisitSwitchStatement(SwitchStatement* stmt) {
// Record position before stub call for type feedback.
SetSourcePosition(clause->position());
Handle<Code> ic = CompareIC::GetUninitialized(Token::EQ_STRICT);
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, clause->CompareId());
__ Call(ic, RelocInfo::CODE_TARGET, clause->CompareId());
patch_site.EmitPatchInfo();
__ Branch(&next_test, ne, v0, Operand(zero_reg));
......@@ -1173,7 +1173,7 @@ void FullCodeGenerator::EmitLoadGlobalSlotCheckExtensions(
? RelocInfo::CODE_TARGET
: RelocInfo::CODE_TARGET_CONTEXT;
Handle<Code> ic = isolate()->builtins()->LoadIC_Initialize();
__ CallWithAstId(ic, mode);
__ Call(ic, mode);
}
......@@ -1253,7 +1253,7 @@ void FullCodeGenerator::EmitDynamicLoadFromSlotFastCase(
__ li(a0, Operand(key_literal->handle()));
Handle<Code> ic =
isolate()->builtins()->KeyedLoadIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, GetPropertyId(property));
__ Call(ic, RelocInfo::CODE_TARGET, GetPropertyId(property));
__ Branch(done);
}
}
......@@ -1275,7 +1275,7 @@ void FullCodeGenerator::EmitVariableLoad(Variable* var) {
__ lw(a0, GlobalObjectOperand());
__ li(a2, Operand(var->name()));
Handle<Code> ic = isolate()->builtins()->LoadIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET_CONTEXT);
__ Call(ic, RelocInfo::CODE_TARGET_CONTEXT);
context()->Plug(v0);
} else if (slot->type() == Slot::LOOKUP) {
......@@ -1421,7 +1421,7 @@ void FullCodeGenerator::VisitObjectLiteral(ObjectLiteral* expr) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->StoreIC_Initialize_Strict()
: isolate()->builtins()->StoreIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, key->id());
__ Call(ic, RelocInfo::CODE_TARGET, key->id());
PrepareForBailoutForId(key->id(), NO_REGISTERS);
} else {
VisitForEffect(value);
......@@ -1665,7 +1665,7 @@ void FullCodeGenerator::EmitNamedPropertyLoad(Property* prop) {
__ li(a2, Operand(key->handle()));
// Call load IC. It has arguments receiver and property name a0 and a2.
Handle<Code> ic = isolate()->builtins()->LoadIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, GetPropertyId(prop));
__ Call(ic, RelocInfo::CODE_TARGET, GetPropertyId(prop));
}
......@@ -1674,7 +1674,7 @@ void FullCodeGenerator::EmitKeyedPropertyLoad(Property* prop) {
__ mov(a0, result_register());
// Call keyed load IC. It has arguments key and receiver in a0 and a1.
Handle<Code> ic = isolate()->builtins()->KeyedLoadIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, GetPropertyId(prop));
__ Call(ic, RelocInfo::CODE_TARGET, GetPropertyId(prop));
}
......@@ -1702,7 +1702,7 @@ void FullCodeGenerator::EmitInlineSmiBinaryOp(BinaryOperation* expr,
__ bind(&stub_call);
BinaryOpStub stub(op, mode);
__ CallWithAstId(stub.GetCode(), RelocInfo::CODE_TARGET, expr->id());
__ Call(stub.GetCode(), RelocInfo::CODE_TARGET, expr->id());
patch_site.EmitPatchInfo();
__ jmp(&done);
......@@ -1785,7 +1785,7 @@ void FullCodeGenerator::EmitBinaryOp(BinaryOperation* expr,
__ pop(a1);
BinaryOpStub stub(op, mode);
JumpPatchSite patch_site(masm_); // unbound, signals no inlined smi code.
__ CallWithAstId(stub.GetCode(), RelocInfo::CODE_TARGET, expr->id());
__ Call(stub.GetCode(), RelocInfo::CODE_TARGET, expr->id());
patch_site.EmitPatchInfo();
context()->Plug(v0);
}
......@@ -1826,7 +1826,7 @@ void FullCodeGenerator::EmitAssignment(Expression* expr, int bailout_ast_id) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->StoreIC_Initialize_Strict()
: isolate()->builtins()->StoreIC_Initialize();
__ CallWithAstId(ic);
__ Call(ic);
break;
}
case KEYED_PROPERTY: {
......@@ -1839,7 +1839,7 @@ void FullCodeGenerator::EmitAssignment(Expression* expr, int bailout_ast_id) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->KeyedStoreIC_Initialize_Strict()
: isolate()->builtins()->KeyedStoreIC_Initialize();
__ CallWithAstId(ic);
__ Call(ic);
break;
}
}
......@@ -1864,7 +1864,7 @@ void FullCodeGenerator::EmitVariableAssignment(Variable* var,
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->StoreIC_Initialize_Strict()
: isolate()->builtins()->StoreIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET_CONTEXT);
__ Call(ic, RelocInfo::CODE_TARGET_CONTEXT);
} else if (op == Token::INIT_CONST) {
// Like var declarations, const declarations are hoisted to function
......@@ -1962,7 +1962,7 @@ void FullCodeGenerator::EmitNamedPropertyAssignment(Assignment* expr) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->StoreIC_Initialize_Strict()
: isolate()->builtins()->StoreIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, expr->id());
__ Call(ic, RelocInfo::CODE_TARGET, expr->id());
// If the assignment ends an initialization block, revert to fast case.
if (expr->ends_initialization_block()) {
......@@ -2014,7 +2014,7 @@ void FullCodeGenerator::EmitKeyedPropertyAssignment(Assignment* expr) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->KeyedStoreIC_Initialize_Strict()
: isolate()->builtins()->KeyedStoreIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, expr->id());
__ Call(ic, RelocInfo::CODE_TARGET, expr->id());
// If the assignment ends an initialization block, revert to fast case.
if (expr->ends_initialization_block()) {
......@@ -2067,7 +2067,7 @@ void FullCodeGenerator::EmitCallWithIC(Call* expr,
InLoopFlag in_loop = (loop_depth() > 0) ? IN_LOOP : NOT_IN_LOOP;
Handle<Code> ic =
isolate()->stub_cache()->ComputeCallInitialize(arg_count, in_loop, mode);
__ CallWithAstId(ic, mode, expr->id());
__ Call(ic, mode, expr->id());
RecordJSReturnSite(expr);
// Restore context register.
__ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));
......@@ -2101,7 +2101,7 @@ void FullCodeGenerator::EmitKeyedCallWithIC(Call* expr,
Handle<Code> ic =
isolate()->stub_cache()->ComputeKeyedCallInitialize(arg_count, in_loop);
__ lw(a2, MemOperand(sp, (arg_count + 1) * kPointerSize)); // Key.
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, expr->id());
__ Call(ic, RelocInfo::CODE_TARGET, expr->id());
RecordJSReturnSite(expr);
// Restore context register.
__ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));
......@@ -2301,7 +2301,7 @@ void FullCodeGenerator::VisitCall(Call* expr) {
SetSourcePosition(prop->position());
Handle<Code> ic = isolate()->builtins()->KeyedLoadIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, GetPropertyId(prop));
__ Call(ic, RelocInfo::CODE_TARGET, GetPropertyId(prop));
__ lw(a1, GlobalObjectOperand());
__ lw(a1, FieldMemOperand(a1, GlobalObject::kGlobalReceiverOffset));
__ Push(v0, a1); // Function, receiver.
......@@ -3664,7 +3664,7 @@ void FullCodeGenerator::VisitCallRuntime(CallRuntime* expr) {
isolate()->stub_cache()->ComputeCallInitialize(arg_count,
NOT_IN_LOOP,
mode);
__ CallWithAstId(ic, mode, expr->id());
__ Call(ic, mode, expr->id());
// Restore context register.
__ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));
} else {
......@@ -3807,7 +3807,7 @@ void FullCodeGenerator::EmitUnaryOperation(UnaryOperation* expr,
VisitForAccumulatorValue(expr->expression());
SetSourcePosition(expr->position());
__ mov(a0, result_register());
__ CallWithAstId(stub.GetCode(), RelocInfo::CODE_TARGET, expr->id());
__ Call(stub.GetCode(), RelocInfo::CODE_TARGET, expr->id());
context()->Plug(v0);
}
......@@ -3918,7 +3918,7 @@ void FullCodeGenerator::VisitCountOperation(CountOperation* expr) {
SetSourcePosition(expr->position());
BinaryOpStub stub(Token::ADD, NO_OVERWRITE);
__ CallWithAstId(stub.GetCode(), RelocInfo::CODE_TARGET, expr->CountId());
__ Call(stub.GetCode(), RelocInfo::CODE_TARGET, expr->CountId());
patch_site.EmitPatchInfo();
__ bind(&done);
......@@ -3951,7 +3951,7 @@ void FullCodeGenerator::VisitCountOperation(CountOperation* expr) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->StoreIC_Initialize_Strict()
: isolate()->builtins()->StoreIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, expr->id());
__ Call(ic, RelocInfo::CODE_TARGET, expr->id());
PrepareForBailoutForId(expr->AssignmentId(), TOS_REG);
if (expr->is_postfix()) {
if (!context()->IsEffect()) {
......@@ -3969,7 +3969,7 @@ void FullCodeGenerator::VisitCountOperation(CountOperation* expr) {
Handle<Code> ic = is_strict_mode()
? isolate()->builtins()->KeyedStoreIC_Initialize_Strict()
: isolate()->builtins()->KeyedStoreIC_Initialize();
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, expr->id());
__ Call(ic, RelocInfo::CODE_TARGET, expr->id());
PrepareForBailoutForId(expr->AssignmentId(), TOS_REG);
if (expr->is_postfix()) {
if (!context()->IsEffect()) {
......@@ -3993,7 +3993,7 @@ void FullCodeGenerator::VisitForTypeofValue(Expression* expr) {
Handle<Code> ic = isolate()->builtins()->LoadIC_Initialize();
// Use a regular load, not a contextual load, to avoid a reference
// error.
__ CallWithAstId(ic);
__ Call(ic);
PrepareForBailout(expr, TOS_REG);
context()->Plug(v0);
} else if (proxy != NULL &&
......@@ -4190,7 +4190,7 @@ void FullCodeGenerator::VisitCompareOperation(CompareOperation* expr) {
// Record position and call the compare IC.
SetSourcePosition(expr->position());
Handle<Code> ic = CompareIC::GetUninitialized(op);
__ CallWithAstId(ic, RelocInfo::CODE_TARGET, expr->id());
__ Call(ic, RelocInfo::CODE_TARGET, expr->id());
patch_site.EmitPatchInfo();
PrepareForBailoutBeforeSplit(TOS_REG, true, if_true, if_false);
Split(cc, v0, Operand(zero_reg), if_true, if_false, fall_through);
......
......@@ -50,87 +50,6 @@ MacroAssembler::MacroAssembler(Isolate* arg_isolate, void* buffer, int size)
}
// Arguments macros.
#define COND_TYPED_ARGS Condition cond, Register r1, const Operand& r2
#define COND_ARGS cond, r1, r2
#define REGISTER_TARGET_BODY(Name) \
void MacroAssembler::Name(Register target, \
BranchDelaySlot bd) { \
Name(Operand(target), bd); \
} \
void MacroAssembler::Name(Register target, COND_TYPED_ARGS, \
BranchDelaySlot bd) { \
Name(Operand(target), COND_ARGS, bd); \
}
#define INT_PTR_TARGET_BODY(Name) \
void MacroAssembler::Name(intptr_t target, RelocInfo::Mode rmode, \
BranchDelaySlot bd) { \
Name(Operand(target, rmode), bd); \
} \
void MacroAssembler::Name(intptr_t target, \
RelocInfo::Mode rmode, \
COND_TYPED_ARGS, \
BranchDelaySlot bd) { \
Name(Operand(target, rmode), COND_ARGS, bd); \
}
#define BYTE_PTR_TARGET_BODY(Name) \
void MacroAssembler::Name(byte* target, RelocInfo::Mode rmode, \
BranchDelaySlot bd) { \
Name(reinterpret_cast<intptr_t>(target), rmode, bd); \
} \
void MacroAssembler::Name(byte* target, \
RelocInfo::Mode rmode, \
COND_TYPED_ARGS, \
BranchDelaySlot bd) { \
Name(reinterpret_cast<intptr_t>(target), rmode, COND_ARGS, bd); \
}
#define CODE_TARGET_BODY(Name) \
void MacroAssembler::Name(Handle<Code> target, RelocInfo::Mode rmode, \
BranchDelaySlot bd) { \
Name(reinterpret_cast<intptr_t>(target.location()), rmode, bd); \
} \
void MacroAssembler::Name(Handle<Code> target, \
RelocInfo::Mode rmode, \
COND_TYPED_ARGS, \
BranchDelaySlot bd) { \
Name(reinterpret_cast<intptr_t>(target.location()), rmode, COND_ARGS, bd); \
}
REGISTER_TARGET_BODY(Jump)
REGISTER_TARGET_BODY(Call)
INT_PTR_TARGET_BODY(Jump)
INT_PTR_TARGET_BODY(Call)
BYTE_PTR_TARGET_BODY(Jump)
BYTE_PTR_TARGET_BODY(Call)
CODE_TARGET_BODY(Jump)
CODE_TARGET_BODY(Call)
#undef COND_TYPED_ARGS
#undef COND_ARGS
#undef REGISTER_TARGET_BODY
#undef BYTE_PTR_TARGET_BODY
#undef CODE_TARGET_BODY
void MacroAssembler::Ret(BranchDelaySlot bd) {
Jump(Operand(ra), bd);
}
void MacroAssembler::Ret(Condition cond, Register r1, const Operand& r2,
BranchDelaySlot bd) {
Jump(Operand(ra), cond, r1, r2, bd);
}
void MacroAssembler::LoadRoot(Register destination,
Heap::RootListIndex index) {
lw(destination, MemOperand(s6, index << kPointerSizeLog2));
......@@ -2009,6 +1928,176 @@ void MacroAssembler::BranchAndLinkShort(Label* L, Condition cond, Register rs,
}
void MacroAssembler::Jump(Register target,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
BlockTrampolinePoolScope block_trampoline_pool(this);
if (cond == cc_always) {
jr(target);
} else {
BRANCH_ARGS_CHECK(cond, rs, rt);
Branch(2, NegateCondition(cond), rs, rt);
jr(target);
}
// Emit a nop in the branch delay slot if required.
if (bd == PROTECT)
nop();
}
void MacroAssembler::Jump(intptr_t target,
RelocInfo::Mode rmode,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
li(t9, Operand(target, rmode));
Jump(t9, cond, rs, rt, bd);
}
void MacroAssembler::Jump(Address target,
RelocInfo::Mode rmode,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
ASSERT(!RelocInfo::IsCodeTarget(rmode));
Jump(reinterpret_cast<intptr_t>(target), rmode, cond, rs, rt, bd);
}
void MacroAssembler::Jump(Handle<Code> code,
RelocInfo::Mode rmode,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
ASSERT(RelocInfo::IsCodeTarget(rmode));
Jump(reinterpret_cast<intptr_t>(code.location()), rmode, cond, rs, rt, bd);
}
int MacroAssembler::CallSize(Register target,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
int size = 0;
if (cond == cc_always) {
size += 1;
} else {
size += 3;
}
if (bd == PROTECT)
size += 1;
return size * kInstrSize;
}
// Note: To call gcc-compiled C code on mips, you must call thru t9.
void MacroAssembler::Call(Register target,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
BlockTrampolinePoolScope block_trampoline_pool(this);
Label start;
bind(&start);
if (cond == cc_always) {
jalr(target);
} else {
BRANCH_ARGS_CHECK(cond, rs, rt);
Branch(2, NegateCondition(cond), rs, rt);
jalr(target);
}
// Emit a nop in the branch delay slot if required.
if (bd == PROTECT)
nop();
ASSERT_EQ(CallSize(target, cond, rs, rt, bd),
SizeOfCodeGeneratedSince(&start));
}
int MacroAssembler::CallSize(Address target,
RelocInfo::Mode rmode,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
int size = CallSize(t9, cond, rs, rt, bd);
return size + 2 * kInstrSize;
}
void MacroAssembler::Call(Address target,
RelocInfo::Mode rmode,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
BlockTrampolinePoolScope block_trampoline_pool(this);
Label start;
bind(&start);
int32_t target_int = reinterpret_cast<int32_t>(target);
// Must record previous source positions before the
// li() generates a new code target.
positions_recorder()->WriteRecordedPositions();
li(t9, Operand(target_int, rmode), true);
Call(t9, cond, rs, rt, bd);
ASSERT_EQ(CallSize(target, rmode, cond, rs, rt, bd),
SizeOfCodeGeneratedSince(&start));
}
int MacroAssembler::CallSize(Handle<Code> code,
RelocInfo::Mode rmode,
unsigned ast_id,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
return CallSize(reinterpret_cast<Address>(code.location()),
rmode, cond, rs, rt, bd);
}
void MacroAssembler::Call(Handle<Code> code,
RelocInfo::Mode rmode,
unsigned ast_id,
Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
BlockTrampolinePoolScope block_trampoline_pool(this);
Label start;
bind(&start);
ASSERT(RelocInfo::IsCodeTarget(rmode));
if (rmode == RelocInfo::CODE_TARGET && ast_id != kNoASTId) {
ASSERT(ast_id_for_reloc_info_ == kNoASTId);
ast_id_for_reloc_info_ = ast_id;
rmode = RelocInfo::CODE_TARGET_WITH_ID;
}
Call(reinterpret_cast<Address>(code.location()), rmode, cond, rs, rt, bd);
ASSERT_EQ(CallSize(code, rmode, ast_id, cond, rs, rt),
SizeOfCodeGeneratedSince(&start));
}
void MacroAssembler::Ret(Condition cond,
Register rs,
const Operand& rt,
BranchDelaySlot bd) {
Jump(ra, cond, rs, rt, bd);
}
void MacroAssembler::J(Label* L, BranchDelaySlot bdslot) {
BlockTrampolinePoolScope block_trampoline_pool(this);
......@@ -2067,142 +2156,24 @@ void MacroAssembler::Jalr(Label* L, BranchDelaySlot bdslot) {
}
void MacroAssembler::Jump(const Operand& target, BranchDelaySlot bdslot) {
BlockTrampolinePoolScope block_trampoline_pool(this);
if (target.is_reg()) {
jr(target.rm());
} else {
if (!MustUseReg(target.rmode_)) {
j(target.imm32_);
} else {
li(t9, target);
jr(t9);
}
}
// Emit a nop in the branch delay slot if required.
if (bdslot == PROTECT)
nop();
}
void MacroAssembler::Jump(const Operand& target,
Condition cond, Register rs, const Operand& rt,
BranchDelaySlot bdslot) {
BlockTrampolinePoolScope block_trampoline_pool(this);
BRANCH_ARGS_CHECK(cond, rs, rt);
if (target.is_reg()) {
if (cond == cc_always) {
jr(target.rm());
} else {
Branch(2, NegateCondition(cond), rs, rt);
jr(target.rm());
}
} else { // Not register target.
if (!MustUseReg(target.rmode_)) {
if (cond == cc_always) {
j(target.imm32_);
} else {
Branch(2, NegateCondition(cond), rs, rt);
j(target.imm32_); // Will generate only one instruction.
}
} else { // MustUseReg(target).
li(t9, target);
if (cond == cc_always) {
jr(t9);
} else {
Branch(2, NegateCondition(cond), rs, rt);
jr(t9); // Will generate only one instruction.
}
}
}
// Emit a nop in the branch delay slot if required.
if (bdslot == PROTECT)
nop();
}
int MacroAssembler::CallSize(Handle<Code> code, RelocInfo::Mode rmode) {
return 4 * kInstrSize;
}
int MacroAssembler::CallSize(Register reg) {
return 2 * kInstrSize;
}
// Note: To call gcc-compiled C code on mips, you must call thru t9.
void MacroAssembler::Call(const Operand& target, BranchDelaySlot bdslot) {
BlockTrampolinePoolScope block_trampoline_pool(this);
if (target.is_reg()) {
jalr(target.rm());
} else { // !target.is_reg().
if (!MustUseReg(target.rmode_)) {
jal(target.imm32_);
} else { // MustUseReg(target).
// Must record previous source positions before the
// li() generates a new code target.
positions_recorder()->WriteRecordedPositions();
li(t9, target);
jalr(t9);
}
}
// Emit a nop in the branch delay slot if required.
if (bdslot == PROTECT)
nop();
}
// Note: To call gcc-compiled C code on mips, you must call thru t9.
void MacroAssembler::Call(const Operand& target,
Condition cond, Register rs, const Operand& rt,
BranchDelaySlot bdslot) {
BlockTrampolinePoolScope block_trampoline_pool(this);
BRANCH_ARGS_CHECK(cond, rs, rt);
if (target.is_reg()) {
if (cond == cc_always) {
jalr(target.rm());
} else {
Branch(2, NegateCondition(cond), rs, rt);
jalr(target.rm());
}
} else { // !target.is_reg().
if (!MustUseReg(target.rmode_)) {
if (cond == cc_always) {
jal(target.imm32_);
} else {
Branch(2, NegateCondition(cond), rs, rt);
jal(target.imm32_); // Will generate only one instruction.
}
} else { // MustUseReg(target)
li(t9, target);
if (cond == cc_always) {
jalr(t9);
} else {
Branch(2, NegateCondition(cond), rs, rt);
jalr(t9); // Will generate only one instruction.
}
}
void MacroAssembler::DropAndRet(int drop,
Condition cond,
Register r1,
const Operand& r2) {
// This is a workaround to make sure only one branch instruction is
// generated. It relies on Drop and Ret not creating branches if
// cond == cc_always.
Label skip;
if (cond != cc_always) {
Branch(&skip, NegateCondition(cond), r1, r2);
}
// Emit a nop in the branch delay slot if required.
if (bdslot == PROTECT)
nop();
}
Drop(drop);
Ret();
void MacroAssembler::CallWithAstId(Handle<Code> code,
RelocInfo::Mode rmode,
unsigned ast_id,
Condition cond,
Register r1,
const Operand& r2) {
ASSERT(RelocInfo::IsCodeTarget(rmode));
if (rmode == RelocInfo::CODE_TARGET && ast_id != kNoASTId) {
ASSERT(ast_id_for_reloc_info_ == kNoASTId);
ast_id_for_reloc_info_ = ast_id;
rmode = RelocInfo::CODE_TARGET_WITH_ID;
if (cond != cc_always) {
bind(&skip);
}
Call(reinterpret_cast<intptr_t>(code.location()), rmode, cond, r1, r2);
}
......@@ -2217,12 +2188,10 @@ void MacroAssembler::Drop(int count,
Label skip;
if (cond != al) {
Branch(&skip, NegateCondition(cond), reg, op);
Branch(&skip, NegateCondition(cond), reg, op);
}
if (count > 0) {
addiu(sp, sp, count * kPointerSize);
}
addiu(sp, sp, count * kPointerSize);
if (cond != al) {
bind(&skip);
......@@ -2230,26 +2199,6 @@ void MacroAssembler::Drop(int count,
}
void MacroAssembler::DropAndRet(int drop,
Condition cond,
Register r1,
const Operand& r2) {
// This is a workaround to make sure only one branch instruction is
// generated. It relies on Drop and Ret not creating branches if
// cond == cc_always.
Label skip;
if (cond != cc_always) {
Branch(&skip, NegateCondition(cond), r1, r2);
}
Drop(drop);
Ret();
if (cond != cc_always) {
bind(&skip);
}
}
void MacroAssembler::Swap(Register reg1,
Register reg2,
......@@ -3087,9 +3036,9 @@ void MacroAssembler::InvokePrologue(const ParameterCount& expected,
Handle<Code> adaptor =
isolate()->builtins()->ArgumentsAdaptorTrampoline();
if (flag == CALL_FUNCTION) {
call_wrapper.BeforeCall(CallSize(adaptor, RelocInfo::CODE_TARGET));
call_wrapper.BeforeCall(CallSize(adaptor));
SetCallKind(t1, call_kind);
Call(adaptor, RelocInfo::CODE_TARGET);
Call(adaptor);
call_wrapper.AfterCall();
jmp(done);
} else {
......@@ -3286,7 +3235,7 @@ void MacroAssembler::GetObjectType(Register object,
void MacroAssembler::CallStub(CodeStub* stub, Condition cond,
Register r1, const Operand& r2) {
ASSERT(allow_stub_calls()); // Stub calls are not allowed in some stubs.
Call(stub->GetCode(), RelocInfo::CODE_TARGET, cond, r1, r2);
Call(stub->GetCode(), RelocInfo::CODE_TARGET, kNoASTId, cond, r1, r2);
}
......@@ -3297,7 +3246,8 @@ MaybeObject* MacroAssembler::TryCallStub(CodeStub* stub, Condition cond,
{ MaybeObject* maybe_result = stub->TryGetCode();
if (!maybe_result->ToObject(&result)) return maybe_result;
}
Call(Handle<Code>(Code::cast(result)), RelocInfo::CODE_TARGET, cond, r1, r2);
Call(Handle<Code>(Code::cast(result)), RelocInfo::CODE_TARGET,
kNoASTId, cond, r1, r2);
return result;
}
......
......@@ -99,44 +99,11 @@ class MacroAssembler: public Assembler {
// macro assembler.
MacroAssembler(Isolate* isolate, void* buffer, int size);
// Arguments macros.
// Arguments macros.
#define COND_TYPED_ARGS Condition cond, Register r1, const Operand& r2
#define COND_ARGS cond, r1, r2
// Prototypes.
// Prototypes for functions with no target (eg Ret()).
#define DECLARE_NOTARGET_PROTOTYPE(Name) \
void Name(BranchDelaySlot bd = PROTECT); \
void Name(COND_TYPED_ARGS, BranchDelaySlot bd = PROTECT); \
inline void Name(BranchDelaySlot bd, COND_TYPED_ARGS) { \
Name(COND_ARGS, bd); \
}
// Prototypes for functions with a target.
// Cases when relocation may be needed.
#define DECLARE_RELOC_PROTOTYPE(Name, target_type) \
void Name(target_type target, \
RelocInfo::Mode rmode, \
BranchDelaySlot bd = PROTECT); \
inline void Name(BranchDelaySlot bd, \
target_type target, \
RelocInfo::Mode rmode) { \
Name(target, rmode, bd); \
} \
void Name(target_type target, \
RelocInfo::Mode rmode, \
COND_TYPED_ARGS, \
BranchDelaySlot bd = PROTECT); \
inline void Name(BranchDelaySlot bd, \
target_type target, \
RelocInfo::Mode rmode, \
COND_TYPED_ARGS) { \
Name(target, rmode, COND_ARGS, bd); \
}
// Cases when relocation is not needed.
// Cases when relocation is not needed.
#define DECLARE_NORELOC_PROTOTYPE(Name, target_type) \
void Name(target_type target, BranchDelaySlot bd = PROTECT); \
inline void Name(BranchDelaySlot bd, target_type target) { \
......@@ -151,44 +118,44 @@ class MacroAssembler: public Assembler {
Name(target, COND_ARGS, bd); \
}
// Target prototypes.
#define DECLARE_JUMP_CALL_PROTOTYPES(Name) \
DECLARE_NORELOC_PROTOTYPE(Name, Register) \
DECLARE_NORELOC_PROTOTYPE(Name, const Operand&) \
DECLARE_RELOC_PROTOTYPE(Name, byte*) \
DECLARE_RELOC_PROTOTYPE(Name, Handle<Code>)
#define DECLARE_BRANCH_PROTOTYPES(Name) \
DECLARE_NORELOC_PROTOTYPE(Name, Label*) \
DECLARE_NORELOC_PROTOTYPE(Name, int16_t)
DECLARE_BRANCH_PROTOTYPES(Branch)
DECLARE_BRANCH_PROTOTYPES(BranchAndLink)
DECLARE_JUMP_CALL_PROTOTYPES(Jump)
DECLARE_JUMP_CALL_PROTOTYPES(Call)
DECLARE_BRANCH_PROTOTYPES(Branch)
DECLARE_BRANCH_PROTOTYPES(BranchAndLink)
DECLARE_NOTARGET_PROTOTYPE(Ret)
#undef DECLARE_BRANCH_PROTOTYPES
#undef COND_TYPED_ARGS
#undef COND_ARGS
#undef DECLARE_NOTARGET_PROTOTYPE
#undef DECLARE_NORELOC_PROTOTYPE
#undef DECLARE_RELOC_PROTOTYPE
#undef DECLARE_JUMP_CALL_PROTOTYPES
#undef DECLARE_BRANCH_PROTOTYPES
void CallWithAstId(Handle<Code> code,
RelocInfo::Mode rmode = RelocInfo::CODE_TARGET,
unsigned ast_id = kNoASTId,
Condition cond = al,
Register r1 = zero_reg,
const Operand& r2 = Operand(zero_reg));
int CallSize(Register reg);
int CallSize(Handle<Code> code, RelocInfo::Mode rmode);
// Jump, Call, and Ret pseudo instructions implementing inter-working.
#define COND_ARGS Condition cond = al, Register rs = zero_reg, \
const Operand& rt = Operand(zero_reg), BranchDelaySlot bd = PROTECT
void Jump(Register target, COND_ARGS);
void Jump(intptr_t target, RelocInfo::Mode rmode, COND_ARGS);
void Jump(Address target, RelocInfo::Mode rmode, COND_ARGS);
void Jump(Handle<Code> code, RelocInfo::Mode rmode, COND_ARGS);
int CallSize(Register target, COND_ARGS);
void Call(Register target, COND_ARGS);
int CallSize(Address target, RelocInfo::Mode rmode, COND_ARGS);
void Call(Address target, RelocInfo::Mode rmode, COND_ARGS);
int CallSize(Handle<Code> code,
RelocInfo::Mode rmode = RelocInfo::CODE_TARGET,
unsigned ast_id = kNoASTId,
COND_ARGS);
void Call(Handle<Code> code,
RelocInfo::Mode rmode = RelocInfo::CODE_TARGET,
unsigned ast_id = kNoASTId,
COND_ARGS);
void Ret(COND_ARGS);
inline void Ret(BranchDelaySlot bd) {
Ret(al, zero_reg, Operand(zero_reg), bd);
}
#undef COND_ARGS
// Emit code to discard a non-negative number of pointer-sized elements
// from the stack, clobbering only the sp register.
......@@ -1135,17 +1102,6 @@ DECLARE_NOTARGET_PROTOTYPE(Ret)
void Jr(Label* L, BranchDelaySlot bdslot);
void Jalr(Label* L, BranchDelaySlot bdslot);
void Jump(intptr_t target, RelocInfo::Mode rmode,
BranchDelaySlot bd = PROTECT);
void Jump(intptr_t target, RelocInfo::Mode rmode, Condition cond = cc_always,
Register r1 = zero_reg, const Operand& r2 = Operand(zero_reg),
BranchDelaySlot bd = PROTECT);
void Call(intptr_t target, RelocInfo::Mode rmode,
BranchDelaySlot bd = PROTECT);
void Call(intptr_t target, RelocInfo::Mode rmode, Condition cond = cc_always,
Register r1 = zero_reg, const Operand& r2 = Operand(zero_reg),
BranchDelaySlot bd = PROTECT);
// Helper functions for generating invokes.
void InvokePrologue(const ParameterCount& expected,
const ParameterCount& actual,
......
......@@ -179,7 +179,7 @@ void RegExpMacroAssemblerMIPS::Backtrack() {
// Pop Code* offset from backtrack stack, add Code* and jump to location.
Pop(a0);
__ Addu(a0, a0, code_pointer());
__ Jump(Operand(a0));
__ Jump(a0);
}
......@@ -1238,7 +1238,7 @@ void RegExpCEntryStub::Generate(MacroAssembler* masm_) {
__ Call(t9);
__ lw(ra, MemOperand(sp, 0));
__ Addu(sp, sp, Operand(stack_alignment));
__ Jump(Operand(ra));
__ Jump(ra);
}
......
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