Commit 130d6adf authored by whesse@chromium.org's avatar whesse@chromium.org

Change calling convention of BinaryOperation code generation functions on x64...

Change calling convention of BinaryOperation code generation functions on x64 platform to match ia32 platform.
Review URL: http://codereview.chromium.org/1844002

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@4568 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 1790c353
......@@ -1258,8 +1258,6 @@ void CodeGenerator::GenericBinaryOperation(BinaryOperation* expr,
Result answer;
if (left_is_string) {
if (right_is_string) {
// TODO(lrn): if both are constant strings
// -- do a compile time cons, if allocation during codegen is allowed.
StringAddStub stub(NO_STRING_CHECK_IN_STUB);
answer = frame_->CallStub(&stub, 2);
} else {
......
......@@ -2684,8 +2684,9 @@ void CodeGenerator::VisitAssignment(Assignment* node) {
target.GetValue();
}
Load(node->value());
GenericBinaryOperation(node->binary_op(),
node->type(),
BinaryOperation expr(node, node->binary_op(), node->target(),
node->value());
GenericBinaryOperation(&expr,
overwrite_value ? OVERWRITE_RIGHT : NO_OVERWRITE);
}
......@@ -3542,7 +3543,7 @@ void CodeGenerator::VisitBinaryOperation(BinaryOperation* node) {
Load(node->left());
Load(node->right());
}
GenericBinaryOperation(node->op(), node->type(), overwrite_mode);
GenericBinaryOperation(node, overwrite_mode);
}
}
......@@ -6086,10 +6087,10 @@ static TypeInfo CalculateTypeInfo(TypeInfo operands_type,
}
void CodeGenerator::GenericBinaryOperation(Token::Value op,
StaticType* type,
void CodeGenerator::GenericBinaryOperation(BinaryOperation* expr,
OverwriteMode overwrite_mode) {
Comment cmnt(masm_, "[ BinaryOperation");
Token::Value op = expr->op();
Comment cmnt_token(masm_, Token::String(op));
if (op == Token::COMMA) {
......@@ -6115,8 +6116,6 @@ void CodeGenerator::GenericBinaryOperation(Token::Value op,
Result answer;
if (left_is_string) {
if (right_is_string) {
// TODO(lrn): if both are constant strings
// -- do a compile time cons, if allocation during codegen is allowed.
StringAddStub stub(NO_STRING_CHECK_IN_STUB);
answer = frame_->CallStub(&stub, 2);
} else {
......@@ -6155,25 +6154,29 @@ void CodeGenerator::GenericBinaryOperation(Token::Value op,
Result answer;
if (left_is_non_smi_constant || right_is_non_smi_constant) {
// Go straight to the slow case, with no smi code.
GenericBinaryOpStub stub(op,
overwrite_mode,
NO_SMI_CODE_IN_STUB,
operands_type);
answer = stub.GenerateCall(masm_, frame_, &left, &right);
} else if (right_is_smi_constant) {
answer = ConstantSmiBinaryOperation(op, &left, right.handle(),
type, false, overwrite_mode);
answer = ConstantSmiBinaryOperation(expr, &left, right.handle(),
false, overwrite_mode);
} else if (left_is_smi_constant) {
answer = ConstantSmiBinaryOperation(op, &right, left.handle(),
type, true, overwrite_mode);
answer = ConstantSmiBinaryOperation(expr, &right, left.handle(),
true, overwrite_mode);
} else {
// Set the flags based on the operation, type and loop nesting level.
// Bit operations always assume they likely operate on Smis. Still only
// generate the inline Smi check code if this operation is part of a loop.
// For all other operations only inline the Smi check code for likely smis
// if the operation is part of a loop.
if (loop_nesting() > 0 && (Token::IsBitOp(op) || type->IsLikelySmi())) {
answer = LikelySmiBinaryOperation(op, &left, &right, overwrite_mode);
if (loop_nesting() > 0 &&
(Token::IsBitOp(op) ||
operands_type.IsInteger32() ||
expr->type()->IsLikelySmi())) {
answer = LikelySmiBinaryOperation(expr, &left, &right, overwrite_mode);
} else {
GenericBinaryOpStub stub(op,
overwrite_mode,
......@@ -6265,26 +6268,22 @@ void DeferredInlineSmiOperation::Generate() {
}
Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
Result CodeGenerator::ConstantSmiBinaryOperation(BinaryOperation* expr,
Result* operand,
Handle<Object> value,
StaticType* type,
bool reversed,
OverwriteMode overwrite_mode) {
// NOTE: This is an attempt to inline (a bit) more of the code for
// some possible smi operations (like + and -) when (at least) one
// of the operands is a constant smi.
// Consumes the argument "operand".
// TODO(199): Optimize some special cases of operations involving a
// smi literal (multiply by 2, shift by 0, etc.).
if (IsUnsafeSmi(value)) {
Result unsafe_operand(value);
if (reversed) {
return LikelySmiBinaryOperation(op, &unsafe_operand, operand,
return LikelySmiBinaryOperation(expr, &unsafe_operand, operand,
overwrite_mode);
} else {
return LikelySmiBinaryOperation(op, operand, &unsafe_operand,
return LikelySmiBinaryOperation(expr, operand, &unsafe_operand,
overwrite_mode);
}
}
......@@ -6293,6 +6292,7 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
Smi* smi_value = Smi::cast(*value);
int int_value = smi_value->value();
Token::Value op = expr->op();
Result answer;
switch (op) {
case Token::ADD: {
......@@ -6321,7 +6321,7 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
case Token::SUB: {
if (reversed) {
Result constant_operand(value);
answer = LikelySmiBinaryOperation(op, &constant_operand, operand,
answer = LikelySmiBinaryOperation(expr, &constant_operand, operand,
overwrite_mode);
} else {
operand->ToRegister();
......@@ -6344,7 +6344,7 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
case Token::SAR:
if (reversed) {
Result constant_operand(value);
answer = LikelySmiBinaryOperation(op, &constant_operand, operand,
answer = LikelySmiBinaryOperation(expr, &constant_operand, operand,
overwrite_mode);
} else {
// Only the least significant 5 bits of the shift value are used.
......@@ -6370,7 +6370,7 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
case Token::SHR:
if (reversed) {
Result constant_operand(value);
answer = LikelySmiBinaryOperation(op, &constant_operand, operand,
answer = LikelySmiBinaryOperation(expr, &constant_operand, operand,
overwrite_mode);
} else {
// Only the least significant 5 bits of the shift value are used.
......@@ -6398,7 +6398,7 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
case Token::SHL:
if (reversed) {
Result constant_operand(value);
answer = LikelySmiBinaryOperation(op, &constant_operand, operand,
answer = LikelySmiBinaryOperation(expr, &constant_operand, operand,
overwrite_mode);
} else {
// Only the least significant 5 bits of the shift value are used.
......@@ -6505,10 +6505,10 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
default: {
Result constant_operand(value);
if (reversed) {
answer = LikelySmiBinaryOperation(op, &constant_operand, operand,
answer = LikelySmiBinaryOperation(expr, &constant_operand, operand,
overwrite_mode);
} else {
answer = LikelySmiBinaryOperation(op, operand, &constant_operand,
answer = LikelySmiBinaryOperation(expr, operand, &constant_operand,
overwrite_mode);
}
break;
......@@ -6518,10 +6518,11 @@ Result CodeGenerator::ConstantSmiBinaryOperation(Token::Value op,
return answer;
}
Result CodeGenerator::LikelySmiBinaryOperation(Token::Value op,
Result CodeGenerator::LikelySmiBinaryOperation(BinaryOperation* expr,
Result* left,
Result* right,
OverwriteMode overwrite_mode) {
Token::Value op = expr->op();
Result answer;
// Special handling of div and mod because they use fixed registers.
if (op == Token::DIV || op == Token::MOD) {
......
......@@ -457,10 +457,8 @@ class CodeGenerator: public AstVisitor {
// Generate code that computes a shortcutting logical operation.
void GenerateLogicalBooleanOperation(BinaryOperation* node);
void GenericBinaryOperation(
Token::Value op,
StaticType* type,
OverwriteMode overwrite_mode);
void GenericBinaryOperation(BinaryOperation* expr,
OverwriteMode overwrite_mode);
// If possible, combine two constant smi values using op to produce
// a smi result, and push it on the virtual frame, all at compile time.
......@@ -469,17 +467,16 @@ class CodeGenerator: public AstVisitor {
// Emit code to perform a binary operation on a constant
// smi and a likely smi. Consumes the Result *operand.
Result ConstantSmiBinaryOperation(Token::Value op,
Result ConstantSmiBinaryOperation(BinaryOperation* expr,
Result* operand,
Handle<Object> constant_operand,
StaticType* type,
bool reversed,
OverwriteMode overwrite_mode);
// Emit code to perform a binary operation on two likely smis.
// The code to handle smi arguments is produced inline.
// Consumes the Results *left and *right.
Result LikelySmiBinaryOperation(Token::Value op,
Result LikelySmiBinaryOperation(BinaryOperation* expr,
Result* left,
Result* right,
OverwriteMode overwrite_mode);
......
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