Index: src/mips/constants-mips.h |
diff --git a/src/mips/constants-mips.h b/src/mips/constants-mips.h |
index 3ca0c32249007ba2eff92c20ed115de49f96c5ca..b2cbea734e2d2a9cdde9fcbf6aad008809b16e36 100644 |
--- a/src/mips/constants-mips.h |
+++ b/src/mips/constants-mips.h |
@@ -4,7 +4,7 @@ |
#ifndef V8_MIPS_CONSTANTS_H_ |
#define V8_MIPS_CONSTANTS_H_ |
-#include "src/globals.h" |
+ |
// UNIMPLEMENTED_ macro for MIPS. |
#ifdef DEBUG |
#define UNIMPLEMENTED_MIPS() \ |
@@ -17,25 +17,17 @@ |
#define UNSUPPORTED_MIPS() v8::internal::PrintF("Unsupported instruction.\n") |
enum ArchVariants { |
- kMips32r1 = v8::internal::MIPSr1, |
- kMips32r2 = v8::internal::MIPSr2, |
- kMips32r6 = v8::internal::MIPSr6, |
+ kMips32r2, |
+ kMips32r1, |
kLoongson |
}; |
#ifdef _MIPS_ARCH_MIPS32R2 |
static const ArchVariants kArchVariant = kMips32r2; |
-#elif _MIPS_ARCH_MIPS32R6 |
- static const ArchVariants kArchVariant = kMips32r6; |
#elif _MIPS_ARCH_LOONGSON |
// The loongson flag refers to the LOONGSON architectures based on MIPS-III, |
// which predates (and is a subset of) the mips32r2 and r1 architectures. |
static const ArchVariants kArchVariant = kLoongson; |
-#elif _MIPS_ARCH_MIPS32RX |
-// This flags referred to compatibility mode that creates universal code that |
-// can run on any MIPS32 architecture revision. The dynamically generated code |
-// by v8 is specialized for the MIPS host detected in runtime probing. |
- static const ArchVariants kArchVariant = kMips32r1; |
#else |
static const ArchVariants kArchVariant = kMips32r1; |
#endif |
@@ -53,22 +45,6 @@ enum Endianness { |
#error Unknown endianness |
#endif |
-enum FpuMode { |
- kFP32, |
- kFP64, |
- kFPXX |
-}; |
- |
-#if defined(FPU_MODE_FP32) |
- static const FpuMode kFpuMode = kFP32; |
-#elif defined(FPU_MODE_FP64) |
- static const FpuMode kFpuMode = kFP64; |
-#elif defined(FPU_MODE_FPXX) |
- static const FpuMode kFpuMode = kFPXX; |
-#else |
- static const FpuMode kFpuMode = kFP32; |
-#endif |
- |
#if(defined(__mips_hard_float) && __mips_hard_float != 0) |
// Use floating-point coprocessor instructions. This flag is raised when |
// -mhard-float is passed to the compiler. |
@@ -92,26 +68,6 @@ const uint32_t kHoleNanLower32Offset = 4; |
#error Unknown endianness |
#endif |
-#ifndef FPU_MODE_FPXX |
-#define IsFp64Mode() \ |
- (kFpuMode == kFP64) |
-#else |
-#define IsFp64Mode() \ |
- (CpuFeatures::IsSupported(FP64)) |
-#endif |
- |
-#ifndef _MIPS_ARCH_MIPS32RX |
-#define IsMipsArchVariant(check) \ |
- (kArchVariant == check) |
-#else |
-#define IsMipsArchVariant(check) \ |
- (CpuFeatures::IsSupported(check)) |
-#endif |
- |
- |
-#define __STDC_FORMAT_MACROS |
-#include <inttypes.h> |
- |
// Defines constants and accessor classes to assemble, disassemble and |
// simulate MIPS32 instructions. |
// |
@@ -143,8 +99,6 @@ const int kInvalidFPURegister = -1; |
const int kFCSRRegister = 31; |
const int kInvalidFPUControlRegister = -1; |
const uint32_t kFPUInvalidResult = static_cast<uint32_t>(1 << 31) - 1; |
-const uint64_t kFPU64InvalidResult = |
- static_cast<uint64_t>(static_cast<uint64_t>(1) << 63) - 1; |
// FCSR constants. |
const uint32_t kFCSRInexactFlagBit = 2; |
@@ -262,14 +216,10 @@ const int kLuiShift = 16; |
const int kImm16Shift = 0; |
const int kImm16Bits = 16; |
-const int kImm21Shift = 0; |
-const int kImm21Bits = 21; |
const int kImm26Shift = 0; |
const int kImm26Bits = 26; |
const int kImm28Shift = 0; |
const int kImm28Bits = 28; |
-const int kImm32Shift = 0; |
-const int kImm32Bits = 32; |
// In branches and jumps immediate fields point to words, not bytes, |
// and are therefore shifted by 2. |
@@ -328,16 +278,14 @@ enum Opcode { |
ANDI = ((1 << 3) + 4) << kOpcodeShift, |
ORI = ((1 << 3) + 5) << kOpcodeShift, |
XORI = ((1 << 3) + 6) << kOpcodeShift, |
- LUI = ((1 << 3) + 7) << kOpcodeShift, // LUI/AUI family. |
+ LUI = ((1 << 3) + 7) << kOpcodeShift, |
- BEQC = ((2 << 3) + 0) << kOpcodeShift, |
COP1 = ((2 << 3) + 1) << kOpcodeShift, // Coprocessor 1 class. |
BEQL = ((2 << 3) + 4) << kOpcodeShift, |
BNEL = ((2 << 3) + 5) << kOpcodeShift, |
BLEZL = ((2 << 3) + 6) << kOpcodeShift, |
BGTZL = ((2 << 3) + 7) << kOpcodeShift, |
- DADDI = ((3 << 3) + 0) << kOpcodeShift, // This is also BNEC. |
SPECIAL2 = ((3 << 3) + 4) << kOpcodeShift, |
SPECIAL3 = ((3 << 3) + 7) << kOpcodeShift, |
@@ -356,13 +304,11 @@ enum Opcode { |
LWC1 = ((6 << 3) + 1) << kOpcodeShift, |
LDC1 = ((6 << 3) + 5) << kOpcodeShift, |
- BEQZC = ((6 << 3) + 6) << kOpcodeShift, |
PREF = ((6 << 3) + 3) << kOpcodeShift, |
SWC1 = ((7 << 3) + 1) << kOpcodeShift, |
SDC1 = ((7 << 3) + 5) << kOpcodeShift, |
- BNEZC = ((7 << 3) + 6) << kOpcodeShift, |
COP1X = ((1 << 4) + 3) << kOpcodeShift |
}; |
@@ -384,8 +330,6 @@ enum SecondaryField { |
BREAK = ((1 << 3) + 5), |
MFHI = ((2 << 3) + 0), |
- CLZ_R6 = ((2 << 3) + 0), |
- CLO_R6 = ((2 << 3) + 1), |
MFLO = ((2 << 3) + 2), |
MULT = ((3 << 3) + 0), |
@@ -410,21 +354,7 @@ enum SecondaryField { |
TLT = ((6 << 3) + 2), |
TLTU = ((6 << 3) + 3), |
TEQ = ((6 << 3) + 4), |
- SELEQZ_S = ((6 << 3) + 5), |
TNE = ((6 << 3) + 6), |
- SELNEZ_S = ((6 << 3) + 7), |
- |
- // Multiply integers in r6. |
- MUL_MUH = ((3 << 3) + 0), // MUL, MUH. |
- MUL_MUH_U = ((3 << 3) + 1), // MUL_U, MUH_U. |
- |
- MUL_OP = ((0 << 3) + 2), |
- MUH_OP = ((0 << 3) + 3), |
- DIV_OP = ((0 << 3) + 2), |
- MOD_OP = ((0 << 3) + 3), |
- |
- DIV_MOD = ((3 << 3) + 2), |
- DIV_MOD_U = ((3 << 3) + 3), |
// SPECIAL2 Encoding of Function Field. |
MUL = ((0 << 3) + 2), |
@@ -440,7 +370,6 @@ enum SecondaryField { |
BGEZ = ((0 << 3) + 1) << 16, |
BLTZAL = ((2 << 3) + 0) << 16, |
BGEZAL = ((2 << 3) + 1) << 16, |
- BGEZALL = ((2 << 3) + 3) << 16, |
// COP1 Encoding of rs Field. |
MFC1 = ((0 << 3) + 0) << 21, |
@@ -485,10 +414,6 @@ enum SecondaryField { |
TRUNC_W_D = ((1 << 3) + 5), |
CEIL_W_D = ((1 << 3) + 6), |
FLOOR_W_D = ((1 << 3) + 7), |
- MIN = ((3 << 3) + 4), |
- MINA = ((3 << 3) + 5), |
- MAX = ((3 << 3) + 6), |
- MAXA = ((3 << 3) + 7), |
CVT_S_D = ((4 << 3) + 0), |
CVT_W_D = ((4 << 3) + 4), |
CVT_L_D = ((4 << 3) + 5), |
@@ -505,46 +430,6 @@ enum SecondaryField { |
CVT_D_W = ((4 << 3) + 1), |
CVT_S_L = ((4 << 3) + 0), |
CVT_D_L = ((4 << 3) + 1), |
- BC1EQZ = ((2 << 2) + 1) << 21, |
- BC1NEZ = ((3 << 2) + 1) << 21, |
- // COP1 CMP positive predicates Bit 5..4 = 00. |
- CMP_AF = ((0 << 3) + 0), |
- CMP_UN = ((0 << 3) + 1), |
- CMP_EQ = ((0 << 3) + 2), |
- CMP_UEQ = ((0 << 3) + 3), |
- CMP_LT = ((0 << 3) + 4), |
- CMP_ULT = ((0 << 3) + 5), |
- CMP_LE = ((0 << 3) + 6), |
- CMP_ULE = ((0 << 3) + 7), |
- CMP_SAF = ((1 << 3) + 0), |
- CMP_SUN = ((1 << 3) + 1), |
- CMP_SEQ = ((1 << 3) + 2), |
- CMP_SUEQ = ((1 << 3) + 3), |
- CMP_SSLT = ((1 << 3) + 4), |
- CMP_SSULT = ((1 << 3) + 5), |
- CMP_SLE = ((1 << 3) + 6), |
- CMP_SULE = ((1 << 3) + 7), |
- // COP1 CMP negative predicates Bit 5..4 = 01. |
- CMP_AT = ((2 << 3) + 0), // Reserved, not implemented. |
- CMP_OR = ((2 << 3) + 1), |
- CMP_UNE = ((2 << 3) + 2), |
- CMP_NE = ((2 << 3) + 3), |
- CMP_UGE = ((2 << 3) + 4), // Reserved, not implemented. |
- CMP_OGE = ((2 << 3) + 5), // Reserved, not implemented. |
- CMP_UGT = ((2 << 3) + 6), // Reserved, not implemented. |
- CMP_OGT = ((2 << 3) + 7), // Reserved, not implemented. |
- CMP_SAT = ((3 << 3) + 0), // Reserved, not implemented. |
- CMP_SOR = ((3 << 3) + 1), |
- CMP_SUNE = ((3 << 3) + 2), |
- CMP_SNE = ((3 << 3) + 3), |
- CMP_SUGE = ((3 << 3) + 4), // Reserved, not implemented. |
- CMP_SOGE = ((3 << 3) + 5), // Reserved, not implemented. |
- CMP_SUGT = ((3 << 3) + 6), // Reserved, not implemented. |
- CMP_SOGT = ((3 << 3) + 7), // Reserved, not implemented. |
- |
- SEL = ((2 << 3) + 0), |
- SELEQZ_C = ((2 << 3) + 4), // COP1 on FPR registers. |
- SELNEZ_C = ((2 << 3) + 7), // COP1 on FPR registers. |
// COP1 Encoding of Function Field When rs=PS. |
// COP1X Encoding of Function Field. |
MADD_D = ((4 << 3) + 1), |
@@ -890,11 +775,6 @@ class Instruction { |
return Bits(kImm16Shift + kImm16Bits - 1, kImm16Shift); |
} |
- inline int32_t Imm21Value() const { |
- DCHECK(InstructionType() == kImmediateType); |
- return Bits(kImm21Shift + kImm21Bits - 1, kImm21Shift); |
- } |
- |
inline int32_t Imm26Value() const { |
DCHECK(InstructionType() == kJumpType); |
return Bits(kImm26Shift + kImm26Bits - 1, kImm26Shift); |