src/code-stubs.cc - Issue 1902823002: [ignition] Inline the binary op TurboFan code stubs in the bytecode handlers.

Unified Diff: src/code-stubs.cc

Issue 1902823002: [ignition] Inline the binary op TurboFan code stubs in the bytecode handlers. (Closed) Base URL: https://chromium.googlesource.com/v8/v8.git@master

Patch Set: Update Created 4 years, 8 months ago

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Index: src/code-stubs.cc

diff --git a/src/code-stubs.cc b/src/code-stubs.cc

index f594b0f9e266955659e86e464cb6a4568de2c083..273c5380a5bd6cb248f3f3d88f24b4c186136d3d 100644

--- a/src/code-stubs.cc

+++ b/src/code-stubs.cc

@@ -498,26 +498,27 @@ void StringLengthStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Return(result);

}

-void AddStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+compiler::Node* AddStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left, compiler::Node* right,

+ compiler::Node* context) {

typedef CodeStubAssembler::Label Label;

typedef compiler::Node Node;

typedef CodeStubAssembler::Variable Variable;

- Node* context = assembler->Parameter(2);

// Shared entry for floating point addition.

- Label do_fadd(assembler);

+ Label do_fadd(assembler), end(assembler);

Variable var_fadd_lhs(assembler, MachineRepresentation::kFloat64),

var_fadd_rhs(assembler, MachineRepresentation::kFloat64);

// We might need to loop several times due to ToPrimitive, ToString and/or

// ToNumber conversions.

Variable var_lhs(assembler, MachineRepresentation::kTagged),

- var_rhs(assembler, MachineRepresentation::kTagged);

+ var_rhs(assembler, MachineRepresentation::kTagged),

+ var_result(assembler, MachineRepresentation::kTagged);

Variable* loop_vars[2] = {&var_lhs, &var_rhs};

Label loop(assembler, 2, loop_vars);

- var_lhs.Bind(assembler->Parameter(0));

- var_rhs.Bind(assembler->Parameter(1));

+ var_lhs.Bind(left);

+ var_rhs.Bind(right);

assembler->Goto(&loop);

assembler->Bind(&loop);

{

@@ -554,7 +555,8 @@ void AddStub::GenerateAssembly(CodeStubAssembler* assembler) const {

}

assembler->Bind(&if_notoverflow);

- assembler->Return(assembler->Projection(0, pair));

+ var_result.Bind(assembler->Projection(0, pair));

+ assembler->Goto(&end);

}

assembler->Bind(&if_rhsisnotsmi);

@@ -595,7 +597,8 @@ void AddStub::GenerateAssembly(CodeStubAssembler* assembler) const {

// resulting string with the String {rhs}.

Callable callable = CodeFactory::StringAdd(

assembler->isolate(), STRING_ADD_CONVERT_LEFT, NOT_TENURED);

- assembler->TailCallStub(callable, context, lhs, rhs);

+ var_result.Bind(assembler->CallStub(callable, context, lhs, rhs));

+ assembler->Goto(&end);

}

assembler->Bind(&if_rhsisnotstring);

@@ -649,7 +652,8 @@ void AddStub::GenerateAssembly(CodeStubAssembler* assembler) const {

// no hint followed by ToString) and concatenate the strings.

Callable callable = CodeFactory::StringAdd(

assembler->isolate(), STRING_ADD_CONVERT_RIGHT, NOT_TENURED);

- assembler->TailCallStub(callable, context, lhs, rhs);

+ var_result.Bind(assembler->CallStub(callable, context, lhs, rhs));

+ assembler->Goto(&end);

}

assembler->Bind(&if_lhsisnotstring);

@@ -727,7 +731,8 @@ void AddStub::GenerateAssembly(CodeStubAssembler* assembler) const {

// no hint followed by ToString) and concatenate the strings.

Callable callable = CodeFactory::StringAdd(

assembler->isolate(), STRING_ADD_CONVERT_LEFT, NOT_TENURED);

- assembler->TailCallStub(callable, context, lhs, rhs);

+ var_result.Bind(assembler->CallStub(callable, context, lhs, rhs));

+ assembler->Goto(&end);

}

assembler->Bind(&if_rhsisnotstring);

@@ -849,31 +854,35 @@ void AddStub::GenerateAssembly(CodeStubAssembler* assembler) const {

Node* lhs_value = var_fadd_lhs.value();

Node* rhs_value = var_fadd_rhs.value();

Node* value = assembler->Float64Add(lhs_value, rhs_value);

- Node* result = assembler->ChangeFloat64ToTagged(value);

- assembler->Return(result);

+ var_result.Bind(assembler->ChangeFloat64ToTagged(value));

+ assembler->Goto(&end);

}

+ assembler->Bind(&end);

+ return var_result.value();

}

-void SubtractStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+compiler::Node* SubtractStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

typedef CodeStubAssembler::Label Label;

typedef compiler::Node Node;

typedef CodeStubAssembler::Variable Variable;

- Node* context = assembler->Parameter(2);

// Shared entry for floating point subtraction.

- Label do_fsub(assembler);

+ Label do_fsub(assembler), end(assembler);

Variable var_fsub_lhs(assembler, MachineRepresentation::kFloat64),

var_fsub_rhs(assembler, MachineRepresentation::kFloat64);

// We might need to loop several times due to ToPrimitive and/or ToNumber

// conversions.

Variable var_lhs(assembler, MachineRepresentation::kTagged),

- var_rhs(assembler, MachineRepresentation::kTagged);

+ var_rhs(assembler, MachineRepresentation::kTagged),

+ var_result(assembler, MachineRepresentation::kTagged);

Variable* loop_vars[2] = {&var_lhs, &var_rhs};

Label loop(assembler, 2, loop_vars);

- var_lhs.Bind(assembler->Parameter(0));

- var_rhs.Bind(assembler->Parameter(1));

+ var_lhs.Bind(left);

+ var_rhs.Bind(right);

assembler->Goto(&loop);

assembler->Bind(&loop);

{

@@ -911,7 +920,8 @@ void SubtractStub::GenerateAssembly(CodeStubAssembler* assembler) const {

}

assembler->Bind(&if_notoverflow);

- assembler->Return(assembler->Projection(0, pair));

+ var_result.Bind(assembler->Projection(0, pair));

+ assembler->Goto(&end);

}

assembler->Bind(&if_rhsisnotsmi);

@@ -937,7 +947,8 @@ void SubtractStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&if_rhsisnotnumber);

{

// Convert the {rhs} to a Number first.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_rhs.Bind(assembler->CallStub(callable, context, rhs));

assembler->Goto(&loop);

}

@@ -993,7 +1004,8 @@ void SubtractStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&if_rhsisnotnumber);

{

// Convert the {rhs} to a Number first.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_rhs.Bind(assembler->CallStub(callable, context, rhs));

assembler->Goto(&loop);

}

@@ -1003,7 +1015,8 @@ void SubtractStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&if_lhsisnotnumber);

{

// Convert the {lhs} to a Number first.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_lhs.Bind(assembler->CallStub(callable, context, lhs));

assembler->Goto(&loop);

}

@@ -1015,18 +1028,22 @@ void SubtractStub::GenerateAssembly(CodeStubAssembler* assembler) const {

Node* lhs_value = var_fsub_lhs.value();

Node* rhs_value = var_fsub_rhs.value();

Node* value = assembler->Float64Sub(lhs_value, rhs_value);

- Node* result = assembler->ChangeFloat64ToTagged(value);

- assembler->Return(result);

+ var_result.Bind(assembler->ChangeFloat64ToTagged(value));

+ assembler->Goto(&end);

}

+ assembler->Bind(&end);

+ return var_result.value();

}

-void MultiplyStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+// static

+compiler::Node* MultiplyStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

typedef CodeStubAssembler::Label Label;

typedef CodeStubAssembler::Variable Variable;

- Node* context = assembler->Parameter(2);

// Shared entry point for floating point multiplication.

Label do_fmul(assembler);

Variable var_lhs_float64(assembler, MachineRepresentation::kFloat64),

@@ -1039,8 +1056,8 @@ void MultiplyStub::GenerateAssembly(CodeStubAssembler* assembler) const {

var_rhs(assembler, MachineRepresentation::kTagged);

Variable* loop_variables[] = {&var_lhs, &var_rhs};

Label loop(assembler, 2, loop_variables);

- var_lhs.Bind(assembler->Parameter(0));

- var_rhs.Bind(assembler->Parameter(1));

+ var_lhs.Bind(left);

+ var_rhs.Bind(right);

assembler->Goto(&loop);

assembler->Bind(&loop);

{

@@ -1150,7 +1167,8 @@ void MultiplyStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&lhs_is_not_number);

{

// Convert {lhs} to a Number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_lhs.Bind(assembler->CallStub(callable, context, lhs));

assembler->Goto(&loop);

}

@@ -1162,19 +1180,21 @@ void MultiplyStub::GenerateAssembly(CodeStubAssembler* assembler) const {

Node* value =

assembler->Float64Mul(var_lhs_float64.value(), var_rhs_float64.value());

Node* result = assembler->ChangeFloat64ToTagged(value);

- assembler->Return(result);

+ return result;

}

-void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+// static

+compiler::Node* DivideStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

typedef CodeStubAssembler::Label Label;

typedef CodeStubAssembler::Variable Variable;

- Node* context = assembler->Parameter(2);

// Shared entry point for floating point division.

- Label do_fdiv(assembler);

+ Label do_fdiv(assembler), end(assembler);

Variable var_dividend_float64(assembler, MachineRepresentation::kFloat64),

var_divisor_float64(assembler, MachineRepresentation::kFloat64);

@@ -1182,11 +1202,12 @@ void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

// We might need to loop one or two times due to ToNumber conversions.

Variable var_dividend(assembler, MachineRepresentation::kTagged),

- var_divisor(assembler, MachineRepresentation::kTagged);

+ var_divisor(assembler, MachineRepresentation::kTagged),

+ var_result(assembler, MachineRepresentation::kTagged);

Variable* loop_variables[] = {&var_dividend, &var_divisor};

Label loop(assembler, 2, loop_variables);

- var_dividend.Bind(assembler->Parameter(0));

- var_divisor.Bind(assembler->Parameter(1));

+ var_dividend.Bind(left);

+ var_divisor.Bind(right);

assembler->Goto(&loop);

assembler->Bind(&loop);

{

@@ -1260,7 +1281,8 @@ void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

// Do floating point division if the remainder is not 0.

assembler->GotoIf(

assembler->Word32NotEqual(untagged_dividend, truncated), &bailout);

- assembler->Return(assembler->SmiTag(untagged_result));

+ var_result.Bind(assembler->SmiTag(untagged_result));

+ assembler->Goto(&end);

// Bailout: convert {dividend} and {divisor} to double and do double

// division.

@@ -1294,7 +1316,8 @@ void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&divisor_is_not_number);

{

// Convert {divisor} to a number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_divisor.Bind(assembler->CallStub(callable, context, divisor));

assembler->Goto(&loop);

}

@@ -1349,7 +1372,8 @@ void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&divisor_is_not_number);

{

// Convert {divisor} to a number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_divisor.Bind(assembler->CallStub(callable, context, divisor));

assembler->Goto(&loop);

}

@@ -1359,7 +1383,8 @@ void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&dividend_is_not_number);

{

// Convert {dividend} to a Number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_dividend.Bind(assembler->CallStub(callable, context, dividend));

assembler->Goto(&loop);

}

@@ -1370,31 +1395,22 @@ void DivideStub::GenerateAssembly(CodeStubAssembler* assembler) const {

{

Node* value = assembler->Float64Div(var_dividend_float64.value(),

var_divisor_float64.value());

- Node* result = assembler->ChangeFloat64ToTagged(value);

- assembler->Return(result);

+ var_result.Bind(assembler->ChangeFloat64ToTagged(value));

+ assembler->Goto(&end);

}

+ assembler->Bind(&end);

+ return var_result.value();

}

-void BitwiseAndStub::GenerateAssembly(CodeStubAssembler* assembler) const {

- using compiler::Node;

- Node* lhs = assembler->Parameter(0);

- Node* rhs = assembler->Parameter(1);

- Node* context = assembler->Parameter(2);

- Node* lhs_value = assembler->TruncateTaggedToWord32(context, lhs);

- Node* rhs_value = assembler->TruncateTaggedToWord32(context, rhs);

- Node* value = assembler->Word32And(lhs_value, rhs_value);

- Node* result = assembler->ChangeInt32ToTagged(value);

- assembler->Return(result);

-void ModulusStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+// static

+compiler::Node* ModulusStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

typedef CodeStubAssembler::Label Label;

typedef CodeStubAssembler::Variable Variable;

- Node* context = assembler->Parameter(2);

// Shared entry point for floating point modulus.

Label do_fmod(assembler);

Variable var_dividend_float64(assembler, MachineRepresentation::kFloat64),

@@ -1407,8 +1423,8 @@ void ModulusStub::GenerateAssembly(CodeStubAssembler* assembler) const {

var_divisor(assembler, MachineRepresentation::kTagged);

Variable* loop_variables[] = {&var_dividend, &var_divisor};

Label loop(assembler, 2, loop_variables);

- var_dividend.Bind(assembler->Parameter(0));

- var_divisor.Bind(assembler->Parameter(1));

+ var_dividend.Bind(left);

+ var_divisor.Bind(right);

assembler->Goto(&loop);

assembler->Bind(&loop);

{

@@ -1455,7 +1471,8 @@ void ModulusStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&divisor_is_not_number);

{

// Convert {divisor} to a number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_divisor.Bind(assembler->CallStub(callable, context, divisor));

assembler->Goto(&loop);

}

@@ -1510,7 +1527,8 @@ void ModulusStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&divisor_is_not_number);

{

// Convert {divisor} to a number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_divisor.Bind(assembler->CallStub(callable, context, divisor));

assembler->Goto(&loop);

}

@@ -1520,7 +1538,8 @@ void ModulusStub::GenerateAssembly(CodeStubAssembler* assembler) const {

assembler->Bind(&dividend_is_not_number);

{

// Convert {dividend} to a Number and loop.

- Callable callable = CodeFactory::NonNumberToNumber(isolate());

+ Callable callable =

+ CodeFactory::NonNumberToNumber(assembler->isolate());

var_dividend.Bind(assembler->CallStub(callable, context, dividend));

assembler->Goto(&loop);

}

@@ -1532,80 +1551,92 @@ void ModulusStub::GenerateAssembly(CodeStubAssembler* assembler) const {

Node* value = assembler->Float64Mod(var_dividend_float64.value(),

var_divisor_float64.value());

Node* result = assembler->ChangeFloat64ToTagged(value);

- assembler->Return(result);

+ return result;

}

-void ShiftLeftStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+// static

+compiler::Node* ShiftLeftStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

- Node* lhs = assembler->Parameter(0);

- Node* rhs = assembler->Parameter(1);

- Node* context = assembler->Parameter(2);

- Node* lhs_value = assembler->TruncateTaggedToWord32(context, lhs);

- Node* rhs_value = assembler->TruncateTaggedToWord32(context, rhs);

+ Node* lhs_value = assembler->TruncateTaggedToWord32(context, left);

+ Node* rhs_value = assembler->TruncateTaggedToWord32(context, right);

Node* shift_count =

assembler->Word32And(rhs_value, assembler->Int32Constant(0x1f));

Node* value = assembler->Word32Shl(lhs_value, shift_count);

Node* result = assembler->ChangeInt32ToTagged(value);

- assembler->Return(result);

+ return result;

}

-void ShiftRightStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+compiler::Node* ShiftRightStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

- Node* lhs = assembler->Parameter(0);

- Node* rhs = assembler->Parameter(1);

- Node* context = assembler->Parameter(2);

- Node* lhs_value = assembler->TruncateTaggedToWord32(context, lhs);

- Node* rhs_value = assembler->TruncateTaggedToWord32(context, rhs);

+ Node* lhs_value = assembler->TruncateTaggedToWord32(context, left);

+ Node* rhs_value = assembler->TruncateTaggedToWord32(context, right);

Node* shift_count =

assembler->Word32And(rhs_value, assembler->Int32Constant(0x1f));

Node* value = assembler->Word32Sar(lhs_value, shift_count);

Node* result = assembler->ChangeInt32ToTagged(value);

- assembler->Return(result);

+ return result;

}

-void ShiftRightLogicalStub::GenerateAssembly(

- CodeStubAssembler* assembler) const {

+compiler::Node* ShiftRightLogicalStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

- Node* lhs = assembler->Parameter(0);

- Node* rhs = assembler->Parameter(1);

- Node* context = assembler->Parameter(2);

- Node* lhs_value = assembler->TruncateTaggedToWord32(context, lhs);

- Node* rhs_value = assembler->TruncateTaggedToWord32(context, rhs);

+ Node* lhs_value = assembler->TruncateTaggedToWord32(context, left);

+ Node* rhs_value = assembler->TruncateTaggedToWord32(context, right);

Node* shift_count =

assembler->Word32And(rhs_value, assembler->Int32Constant(0x1f));

Node* value = assembler->Word32Shr(lhs_value, shift_count);

Node* result = assembler->ChangeUint32ToTagged(value);

- assembler->Return(result);

+ return result;

}

-void BitwiseOrStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+compiler::Node* BitwiseAndStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

- Node* lhs = assembler->Parameter(0);

- Node* rhs = assembler->Parameter(1);

- Node* context = assembler->Parameter(2);

- Node* lhs_value = assembler->TruncateTaggedToWord32(context, lhs);

- Node* rhs_value = assembler->TruncateTaggedToWord32(context, rhs);

- Node* value = assembler->Word32Or(lhs_value, rhs_value);

+ Node* lhs_value = assembler->TruncateTaggedToWord32(context, left);

+ Node* rhs_value = assembler->TruncateTaggedToWord32(context, right);

+ Node* value = assembler->Word32And(lhs_value, rhs_value);

Node* result = assembler->ChangeInt32ToTagged(value);

- assembler->Return(result);

+ return result;

}

-void BitwiseXorStub::GenerateAssembly(CodeStubAssembler* assembler) const {

+compiler::Node* BitwiseOrStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

using compiler::Node;

- Node* lhs = assembler->Parameter(0);

- Node* rhs = assembler->Parameter(1);

- Node* context = assembler->Parameter(2);

- Node* lhs_value = assembler->TruncateTaggedToWord32(context, lhs);

- Node* rhs_value = assembler->TruncateTaggedToWord32(context, rhs);

+ Node* lhs_value = assembler->TruncateTaggedToWord32(context, left);

+ Node* rhs_value = assembler->TruncateTaggedToWord32(context, right);

+ Node* value = assembler->Word32Or(lhs_value, rhs_value);

+ Node* result = assembler->ChangeInt32ToTagged(value);

+ return result;

+compiler::Node* BitwiseXorStub::Generate(CodeStubAssembler* assembler,

+ compiler::Node* left,

+ compiler::Node* right,

+ compiler::Node* context) {

+ using compiler::Node;

+ Node* lhs_value = assembler->TruncateTaggedToWord32(context, left);

+ Node* rhs_value = assembler->TruncateTaggedToWord32(context, right);

Node* value = assembler->Word32Xor(lhs_value, rhs_value);

Node* result = assembler->ChangeInt32ToTagged(value);

- assembler->Return(result);

+ return result;

}

namespace {

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