#ifndef DFGFPRInfo_h
#define DFGFPRInfo_h
#if ENABLE(DFG_JIT)
#include <assembler/MacroAssembler.h>
#include <dfg/DFGRegisterBank.h>
namespace JSC { namespace DFG {
typedef MacroAssembler::FPRegisterID FPRReg;
#define InvalidFPRReg ((FPRReg)-1)
class FPRInfo {
public:
typedef FPRReg RegisterType;
static const unsigned numberOfRegisters = 6;
static const FPRReg fpRegT0 = X86Registers::xmm0;
static const FPRReg fpRegT1 = X86Registers::xmm1;
static const FPRReg fpRegT2 = X86Registers::xmm2;
static const FPRReg fpRegT3 = X86Registers::xmm3;
static const FPRReg fpRegT4 = X86Registers::xmm4;
static const FPRReg fpRegT5 = X86Registers::xmm5;
static const FPRReg argumentFPR0 = X86Registers::xmm0; static const FPRReg argumentFPR1 = X86Registers::xmm1; static const FPRReg argumentFPR2 = X86Registers::xmm2; static const FPRReg argumentFPR3 = X86Registers::xmm3; static const FPRReg returnValueFPR = X86Registers::xmm0;
COMPILE_ASSERT(X86Registers::xmm0 == 0, xmm0_is_0);
COMPILE_ASSERT(X86Registers::xmm1 == 1, xmm1_is_1);
COMPILE_ASSERT(X86Registers::xmm2 == 2, xmm2_is_2);
COMPILE_ASSERT(X86Registers::xmm3 == 3, xmm3_is_3);
COMPILE_ASSERT(X86Registers::xmm4 == 4, xmm4_is_4);
COMPILE_ASSERT(X86Registers::xmm5 == 5, xmm5_is_5);
static FPRReg toRegister(unsigned index)
{
return (FPRReg)index;
}
static unsigned toIndex(FPRReg reg)
{
return (unsigned)reg;
}
#ifndef NDEBUG
static const char* debugName(FPRReg reg)
{
ASSERT(reg != InvalidFPRReg);
ASSERT(reg < 16);
static const char* nameForRegister[16] = {
"xmm0", "xmm1", "xmm2", "xmm3",
"xmm4", "xmm5", "xmm6", "xmm7",
"xmm8", "xmm9", "xmm10", "xmm11",
"xmm12", "xmm13", "xmm14", "xmm15"
};
return nameForRegister[reg];
}
#endif
};
typedef RegisterBank<FPRInfo>::iterator fpr_iterator;
} }
#endif
#endif