Chromium Code Reviews Chromium Code Reviews
Issue 1676123002:
Subzero: Use a proper RegNumT type instead of int32_t/SizeT. (Closed)
Base URL: https://chromium.googlesource.com/native_client/pnacl-subzero.git@master| Index: src/IceTargetLoweringX8664Traits.h |
| diff --git a/src/IceTargetLoweringX8664Traits.h b/src/IceTargetLoweringX8664Traits.h |
| index 336e3dfcacb1f31ecf9fed626c19d32de99e4d20..b23a8766f8aa8c0246fb1f826b3d22b8b27db0f0 100644 |
| --- a/src/IceTargetLoweringX8664Traits.h |
| +++ b/src/IceTargetLoweringX8664Traits.h |
| @@ -68,8 +68,8 @@ struct TargetX8664Traits { |
| using Cond = ::Ice::CondX8664; |
| using RegisterSet = ::Ice::RegX8664; |
| - static constexpr SizeT StackPtr = RegX8664::Reg_rsp; |
| - static constexpr SizeT FramePtr = RegX8664::Reg_rbp; |
| + static constexpr auto StackPtr = RegX8664::Reg_rsp; |
|
John
2016/02/10 16:01:51
I would not use auto in class members, and global
Jim Stichnoth
2016/02/10 17:47:20
Done.
This change made it consistent with the use
|
| + static constexpr auto FramePtr = RegX8664::Reg_rbp; |
| static constexpr GPRRegister Encoded_Reg_Accumulator = |
| RegX8664::Encoded_Reg_eax; |
| static constexpr GPRRegister Encoded_Reg_Counter = RegX8664::Encoded_Reg_ecx; |
| @@ -301,7 +301,7 @@ struct TargetX8664Traits { |
| static const char *TargetName; |
| static constexpr Type WordType = IceType_i64; |
| - static IceString getRegName(int32_t RegNum) { |
| + static IceString getRegName(RegNumT RegNum) { |
| static const char *const RegNames[RegisterSet::Reg_NUM] = { |
| #define X(val, encode, name, base, scratch, preserved, stackptr, frameptr, \ |
| sboxres, isGPR, is64, is32, is16, is8, isXmm, is64To8, is32To8, \ |
| @@ -310,12 +310,11 @@ struct TargetX8664Traits { |
| REGX8664_TABLE |
| #undef X |
| }; |
| - assert(RegNum >= 0); |
| - assert(RegNum < RegisterSet::Reg_NUM); |
| + RegNum.assertIsValid(); |
| return RegNames[RegNum]; |
| } |
| - static GPRRegister getEncodedGPR(int32_t RegNum) { |
| + static GPRRegister getEncodedGPR(RegNumT RegNum) { |
| static const GPRRegister GPRRegs[RegisterSet::Reg_NUM] = { |
| #define X(val, encode, name, base, scratch, preserved, stackptr, frameptr, \ |
| sboxres, isGPR, is64, is32, is16, is8, isXmm, is64To8, is32To8, \ |
| @@ -324,13 +323,12 @@ struct TargetX8664Traits { |
| REGX8664_TABLE |
| #undef X |
| }; |
| - assert(RegNum >= 0); |
| - assert(RegNum < RegisterSet::Reg_NUM); |
| + RegNum.assertIsValid(); |
| assert(GPRRegs[RegNum] != GPRRegister::Encoded_Not_GPR); |
| return GPRRegs[RegNum]; |
| } |
| - static ByteRegister getEncodedByteReg(int32_t RegNum) { |
| + static ByteRegister getEncodedByteReg(RegNumT RegNum) { |
| static const ByteRegister ByteRegs[RegisterSet::Reg_NUM] = { |
| #define X(val, encode, name, base, scratch, preserved, stackptr, frameptr, \ |
| sboxres, isGPR, is64, is32, is16, is8, isXmm, is64To8, is32To8, \ |
| @@ -339,13 +337,12 @@ struct TargetX8664Traits { |
| REGX8664_TABLE |
| #undef X |
| }; |
| - assert(RegNum >= 0); |
| - assert(RegNum < RegisterSet::Reg_NUM); |
| + RegNum.assertIsValid(); |
| assert(ByteRegs[RegNum] != ByteRegister::Encoded_Not_ByteReg); |
| return ByteRegs[RegNum]; |
| } |
| - static XmmRegister getEncodedXmm(int32_t RegNum) { |
| + static XmmRegister getEncodedXmm(RegNumT RegNum) { |
| static const XmmRegister XmmRegs[RegisterSet::Reg_NUM] = { |
| #define X(val, encode, name, base, scratch, preserved, stackptr, frameptr, \ |
| sboxres, isGPR, is64, is32, is16, is8, isXmm, is64To8, is32To8, \ |
| @@ -354,13 +351,12 @@ struct TargetX8664Traits { |
| REGX8664_TABLE |
| #undef X |
| }; |
| - assert(RegNum >= 0); |
| - assert(RegNum < RegisterSet::Reg_NUM); |
| + RegNum.assertIsValid(); |
| assert(XmmRegs[RegNum] != XmmRegister::Encoded_Not_Xmm); |
| return XmmRegs[RegNum]; |
| } |
| - static uint32_t getEncoding(int32_t RegNum) { |
| + static uint32_t getEncoding(RegNumT RegNum) { |
| static const uint32_t Encoding[RegisterSet::Reg_NUM] = { |
| #define X(val, encode, name, base, scratch, preserved, stackptr, frameptr, \ |
| sboxres, isGPR, is64, is32, is16, is8, isXmm, is64To8, is32To8, \ |
| @@ -369,27 +365,25 @@ struct TargetX8664Traits { |
| REGX8664_TABLE |
| #undef X |
| }; |
| - assert(RegNum >= 0); |
| - assert(RegNum < RegisterSet::Reg_NUM); |
| + RegNum.assertIsValid(); |
| return Encoding[RegNum]; |
| } |
| - static inline int32_t getBaseReg(int32_t RegNum) { |
| - static const int32_t BaseRegs[RegisterSet::Reg_NUM] = { |
| + static inline RegNumT getBaseReg(RegNumT RegNum) { |
| + static const RegNumT BaseRegs[RegisterSet::Reg_NUM] = { |
| #define X(val, encode, name, base, scratch, preserved, stackptr, frameptr, \ |
| sboxres, isGPR, is64, is32, is16, is8, isXmm, is64To8, is32To8, \ |
| is16To8, isTrunc8Rcvr, isAhRcvr, aliases) \ |
| - encode, |
| + RegisterSet::base, |
| REGX8664_TABLE |
| #undef X |
| }; |
| - assert(RegNum >= 0); |
| - assert(RegNum < RegisterSet::Reg_NUM); |
| + RegNum.assertIsValid(); |
| return BaseRegs[RegNum]; |
| } |
| private: |
| - static int32_t getFirstGprForType(Type Ty) { |
| + static RegNumT getFirstGprForType(Type Ty) { |
| switch (Ty) { |
| default: |
| llvm_unreachable("Invalid type for GPR."); |
| @@ -406,8 +400,8 @@ private: |
| } |
| public: |
| - static int32_t getGprForType(Type Ty, int32_t RegNum) { |
| - assert(RegNum != Variable::NoRegister); |
| + static RegNumT getGprForType(Type Ty, RegNumT RegNum) { |
| + assert(RegNum != RegNumT::NoRegister); |
| if (!isScalarIntegerType(Ty)) { |
| return RegNum; |
| @@ -425,7 +419,7 @@ public: |
| assert(RegNum != RegisterSet::Reg_ch); |
| assert(RegNum != RegisterSet::Reg_dh); |
| - const int32_t FirstGprForType = getFirstGprForType(Ty); |
| + const RegNumT FirstGprForType = getFirstGprForType(Ty); |
| switch (RegNum) { |
| default: |
| @@ -438,7 +432,7 @@ public: |
| return RegisterSet::val; \ |
| assert((is64) || (is32) || (is16) || (is8) || \ |
| getBaseReg(RegisterSet::val) == RegisterSet::Reg_rsp); \ |
| - constexpr int32_t FirstGprWithRegNumSize = \ |
| + constexpr RegisterSet::AllRegisters FirstGprWithRegNumSize = \ |
| ((is64) || RegisterSet::val == RegisterSet::Reg_rsp) \ |
| ? RegisterSet::Reg_rax \ |
| : (((is32) || RegisterSet::val == RegisterSet::Reg_esp) \ |
| @@ -446,8 +440,8 @@ public: |
| : (((is16) || RegisterSet::val == RegisterSet::Reg_sp) \ |
| ? RegisterSet::Reg_ax \ |
| : RegisterSet::Reg_al)); \ |
| - const int32_t NewRegNum = \ |
| - RegNum - FirstGprWithRegNumSize + FirstGprForType; \ |
| + const auto NewRegNum = \ |
| + RegNumT::fixme(RegNum - FirstGprWithRegNumSize + FirstGprForType); \ |
| assert(getBaseReg(RegNum) == getBaseReg(NewRegNum) && \ |
| "Error involving " #val); \ |
| return NewRegNum; \ |
| @@ -624,7 +618,7 @@ public: |
| static void |
| makeRandomRegisterPermutation(GlobalContext *Ctx, Cfg *Func, |
| - llvm::SmallVectorImpl<int32_t> &Permutation, |
| + llvm::SmallVectorImpl<RegNumT> &Permutation, |
| const llvm::SmallBitVector &ExcludeRegisters, |
| uint64_t Salt) { |
| // TODO(stichnot): Declaring Permutation this way loses type/size |
| @@ -634,7 +628,7 @@ public: |
| // class. For x86-64, this would comprise the 16 XMM registers. This is |
| // for performance, not correctness. |
| static const unsigned MaxEquivalenceClassSize = 8; |
| - using RegisterList = llvm::SmallVector<int32_t, MaxEquivalenceClassSize>; |
| + using RegisterList = llvm::SmallVector<RegNumT, MaxEquivalenceClassSize>; |
| using EquivalenceClassMap = std::map<uint32_t, RegisterList>; |
| EquivalenceClassMap EquivalenceClasses; |
| SizeT NumShuffled = 0, NumPreserved = 0; |
| @@ -696,7 +690,7 @@ public: |
| Str << "{"; |
| const RegisterList &List = I.second; |
| bool First = true; |
| - for (int32_t Register : List) { |
| + for (RegNumT Register : List) { |
| if (!First) |
| Str << " "; |
| First = false; |
| @@ -707,9 +701,9 @@ public: |
| } |
| } |
| - static int32_t getRaxOrDie() { return RegisterSet::Reg_rax; } |
| + static RegNumT getRaxOrDie() { return RegisterSet::Reg_rax; } |
| - static int32_t getRdxOrDie() { return RegisterSet::Reg_rdx; } |
| + static RegNumT getRdxOrDie() { return RegisterSet::Reg_rdx; } |
| // x86-64 calling convention: |
| // |
| @@ -731,19 +725,19 @@ public: |
| /// Whether scalar floating point arguments are passed in XMM registers |
| static constexpr bool X86_PASS_SCALAR_FP_IN_XMM = true; |
| /// Get the register for a given argument slot in the XMM registers. |
| - static int32_t getRegisterForXmmArgNum(uint32_t ArgNum) { |
| + static RegNumT getRegisterForXmmArgNum(uint32_t ArgNum) { |
| // TODO(sehr): Change to use the CCArg technique used in ARM32. |
| static_assert(RegisterSet::Reg_xmm0 + 1 == RegisterSet::Reg_xmm1, |
| "Inconsistency between XMM register numbers and ordinals"); |
| if (ArgNum >= X86_MAX_XMM_ARGS) { |
| - return Variable::NoRegister; |
| + return RegNumT::NoRegister; |
| } |
| - return static_cast<int32_t>(RegisterSet::Reg_xmm0 + ArgNum); |
| + return RegNumT::fixme(RegisterSet::Reg_xmm0 + ArgNum); |
| } |
| /// Get the register for a given argument slot in the GPRs. |
| - static int32_t getRegisterForGprArgNum(Type Ty, uint32_t ArgNum) { |
| + static RegNumT getRegisterForGprArgNum(Type Ty, uint32_t ArgNum) { |
| if (ArgNum >= X86_MAX_GPR_ARGS) { |
| - return Variable::NoRegister; |
| + return RegNumT::NoRegister; |
| } |
| static const RegisterSet::AllRegisters GprForArgNum[] = { |
| RegisterSet::Reg_rdi, RegisterSet::Reg_rsi, RegisterSet::Reg_rdx, |
| @@ -752,7 +746,7 @@ public: |
| static_assert(llvm::array_lengthof(GprForArgNum) == X86_MAX_GPR_ARGS, |
| "Mismatch between MAX_GPR_ARGS and GprForArgNum."); |
| assert(Ty == IceType_i64 || Ty == IceType_i32); |
| - return static_cast<int32_t>(getGprForType(Ty, GprForArgNum[ArgNum])); |
| + return getGprForType(Ty, GprForArgNum[ArgNum]); |
| } |
| /// The number of bits in a byte |
