Index: src/ia32/codegen-ia32.h |
=================================================================== |
--- src/ia32/codegen-ia32.h (revision 3027) |
+++ src/ia32/codegen-ia32.h (working copy) |
@@ -604,47 +604,61 @@ |
}; |
-// Flag that indicates whether or not the code that handles smi arguments |
-// should be placed in the stub, inlined, or omitted entirely. |
+// Flag that indicates whether how to generate code for the stub. |
enum GenericBinaryFlags { |
- SMI_CODE_IN_STUB, |
- SMI_CODE_INLINED |
+ NO_GENERIC_BINARY_FLAGS = 0, |
+ NO_SMI_CODE_IN_STUB = 1 << 0 // Omit smi code in stub. |
}; |
class GenericBinaryOpStub: public CodeStub { |
public: |
- GenericBinaryOpStub(Token::Value op, |
+ GenericBinaryOpStub(Token::Value operation, |
OverwriteMode mode, |
GenericBinaryFlags flags) |
- : op_(op), mode_(mode), flags_(flags) { |
+ : op_(operation), |
+ mode_(mode), |
+ flags_(flags), |
+ args_in_registers_(false), |
+ args_reversed_(false) { |
use_sse3_ = CpuFeatures::IsSupported(CpuFeatures::SSE3); |
ASSERT(OpBits::is_valid(Token::NUM_TOKENS)); |
} |
- void GenerateSmiCode(MacroAssembler* masm, Label* slow); |
+ // Generate code to call the stub with the supplied arguments. This will add |
+ // code at the call site to prepare arguments either in registers or on the |
+ // stack together with the actual call. |
+ void GenerateCall(MacroAssembler* masm, Register left, Register right); |
+ void GenerateCall(MacroAssembler* masm, Register left, Smi* right); |
+ void GenerateCall(MacroAssembler* masm, Smi* left, Register right); |
private: |
Token::Value op_; |
OverwriteMode mode_; |
GenericBinaryFlags flags_; |
+ bool args_in_registers_; // Arguments passed in registers not on the stack. |
+ bool args_reversed_; // Left and right argument are swapped. |
bool use_sse3_; |
const char* GetName(); |
#ifdef DEBUG |
void Print() { |
- PrintF("GenericBinaryOpStub (op %s), (mode %d, flags %d)\n", |
+ PrintF("GenericBinaryOpStub (op %s), (mode %d, flags %d, registers %d, reversed %d)\n", |
Token::String(op_), |
static_cast<int>(mode_), |
- static_cast<int>(flags_)); |
+ static_cast<int>(flags_), |
+ static_cast<int>(args_in_registers_), |
+ static_cast<int>(args_reversed_)); |
} |
#endif |
- // Minor key encoding in 16 bits FSOOOOOOOOOOOOMM. |
+ // Minor key encoding in 16 bits FRASOOOOOOOOOOMM. |
class ModeBits: public BitField<OverwriteMode, 0, 2> {}; |
- class OpBits: public BitField<Token::Value, 2, 12> {}; |
- class SSE3Bits: public BitField<bool, 14, 1> {}; |
+ class OpBits: public BitField<Token::Value, 2, 10> {}; |
+ class SSE3Bits: public BitField<bool, 12, 1> {}; |
+ class ArgsInRegistersBits: public BitField<bool, 13, 1> {}; |
+ class ArgsReversedBits: public BitField<bool, 14, 1> {}; |
class FlagBits: public BitField<GenericBinaryFlags, 15, 1> {}; |
Major MajorKey() { return GenericBinaryOp; } |
@@ -653,9 +667,30 @@ |
return OpBits::encode(op_) |
| ModeBits::encode(mode_) |
| FlagBits::encode(flags_) |
- | SSE3Bits::encode(use_sse3_); |
+ | SSE3Bits::encode(use_sse3_) |
+ | ArgsInRegistersBits::encode(args_in_registers_) |
+ | ArgsReversedBits::encode(args_reversed_); |
} |
+ |
void Generate(MacroAssembler* masm); |
+ void GenerateSmiCode(MacroAssembler* masm, Label* slow); |
+ void GenerateLoadArguments(MacroAssembler* masm); |
+ void GenerateReturn(MacroAssembler* masm); |
+ |
+ bool ArgsInRegistersSupported() { |
+ return ((op_ == Token::ADD) || (op_ == Token::SUB) |
+ || (op_ == Token::MUL) || (op_ == Token::DIV)) |
+ && flags_ != NO_SMI_CODE_IN_STUB; |
+ } |
+ bool IsOperationCommutative() { |
+ return (op_ == Token::ADD) || (op_ == Token::MUL); |
+ } |
+ |
+ void SetArgsInRegisters() { args_in_registers_ = true; } |
+ void SetArgsReversed() { args_reversed_ = true; } |
+ bool HasSmiCodeInStub() { return (flags_ & NO_SMI_CODE_IN_STUB) == 0; } |
+ bool HasArgumentsInRegisters() { return args_in_registers_; } |
+ bool HasArgumentsReversed() { return args_reversed_; } |
}; |