Commit 639e8fa4 authored by balazs.kilvady's avatar balazs.kilvady Committed by Commit bot

MIPS: Improve performance of simulator in debug mode.

The running time of optdebug.quickcheck is improved by 8% while a more strict DCHECKing is kept in simulator.

Review-Url: https://codereview.chromium.org/1349403003
Cr-Commit-Position: refs/heads/master@{#39667}
parent 648ac440
...@@ -123,116 +123,6 @@ int FPURegisters::Number(const char* name) { ...@@ -123,116 +123,6 @@ int FPURegisters::Number(const char* name) {
} }
// -----------------------------------------------------------------------------
// Instructions.
bool Instruction::IsForbiddenAfterBranchInstr(Instr instr) {
Opcode opcode = static_cast<Opcode>(instr & kOpcodeMask);
switch (opcode) {
case J:
case JAL:
case BEQ:
case BNE:
case BLEZ: // POP06 bgeuc/bleuc, blezalc, bgezalc
case BGTZ: // POP07 bltuc/bgtuc, bgtzalc, bltzalc
case BEQL:
case BNEL:
case BLEZL: // POP26 bgezc, blezc, bgec/blec
case BGTZL: // POP27 bgtzc, bltzc, bltc/bgtc
case BC:
case BALC:
case POP10: // beqzalc, bovc, beqc
case POP30: // bnezalc, bnvc, bnec
case POP66: // beqzc, jic
case POP76: // bnezc, jialc
return true;
case REGIMM:
switch (instr & kRtFieldMask) {
case BLTZ:
case BGEZ:
case BLTZAL:
case BGEZAL:
return true;
default:
return false;
}
break;
case SPECIAL:
switch (instr & kFunctionFieldMask) {
case JR:
case JALR:
return true;
default:
return false;
}
break;
case COP1:
switch (instr & kRsFieldMask) {
case BC1:
case BC1EQZ:
case BC1NEZ:
return true;
break;
default:
return false;
}
break;
default:
return false;
}
}
bool Instruction::IsLinkingInstruction() const {
switch (OpcodeFieldRaw()) {
case JAL:
return true;
case POP76:
if (RsFieldRawNoAssert() == JIALC)
return true; // JIALC
else
return false; // BNEZC
case REGIMM:
switch (RtFieldRaw()) {
case BGEZAL:
case BLTZAL:
return true;
default:
return false;
}
case SPECIAL:
switch (FunctionFieldRaw()) {
case JALR:
return true;
default:
return false;
}
default:
return false;
}
}
bool Instruction::IsTrap() const {
if (OpcodeFieldRaw() != SPECIAL) {
return false;
} else {
switch (FunctionFieldRaw()) {
case BREAK:
case TGE:
case TGEU:
case TLT:
case TLTU:
case TEQ:
case TNE:
return true;
default:
return false;
}
}
}
} // namespace internal } // namespace internal
} // namespace v8 } // namespace v8
......
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This diff is collapsed.
...@@ -113,6 +113,39 @@ class CachePage { ...@@ -113,6 +113,39 @@ class CachePage {
char validity_map_[kValidityMapSize]; // One byte per line. char validity_map_[kValidityMapSize]; // One byte per line.
}; };
class SimInstructionBase : public InstructionBase {
public:
Type InstructionType() const { return type_; }
inline Instruction* instr() const { return instr_; }
inline int32_t operand() const { return operand_; }
protected:
SimInstructionBase() : operand_(-1), instr_(nullptr), type_(kUnsupported) {}
explicit SimInstructionBase(Instruction* instr) {}
int32_t operand_;
Instruction* instr_;
Type type_;
private:
DISALLOW_ASSIGN(SimInstructionBase);
};
class SimInstruction : public InstructionGetters<SimInstructionBase> {
public:
SimInstruction() {}
explicit SimInstruction(Instruction* instr) { *this = instr; }
SimInstruction& operator=(Instruction* instr) {
operand_ = *reinterpret_cast<const int32_t*>(instr);
instr_ = instr;
type_ = InstructionBase::InstructionType(EXTRA);
DCHECK(reinterpret_cast<void*>(&operand_) == this);
return *this;
}
};
class Simulator { class Simulator {
public: public:
friend class MipsDebugger; friend class MipsDebugger;
...@@ -299,8 +332,10 @@ class Simulator { ...@@ -299,8 +332,10 @@ class Simulator {
inline int32_t SetDoubleHIW(double* addr); inline int32_t SetDoubleHIW(double* addr);
inline int32_t SetDoubleLOW(double* addr); inline int32_t SetDoubleLOW(double* addr);
SimInstruction instr_;
// Executing is handled based on the instruction type. // Executing is handled based on the instruction type.
void DecodeTypeRegister(Instruction* instr); void DecodeTypeRegister();
// Functions called from DecodeTypeRegister. // Functions called from DecodeTypeRegister.
void DecodeTypeRegisterCOP1(); void DecodeTypeRegisterCOP1();
...@@ -322,39 +357,34 @@ class Simulator { ...@@ -322,39 +357,34 @@ class Simulator {
void DecodeTypeRegisterLRsType(); void DecodeTypeRegisterLRsType();
Instruction* currentInstr_; inline int32_t rs_reg() const { return instr_.RsValue(); }
inline Instruction* get_instr() const { return currentInstr_; }
inline void set_instr(Instruction* instr) { currentInstr_ = instr; }
inline int32_t rs_reg() const { return currentInstr_->RsValue(); }
inline int32_t rs() const { return get_register(rs_reg()); } inline int32_t rs() const { return get_register(rs_reg()); }
inline uint32_t rs_u() const { inline uint32_t rs_u() const {
return static_cast<uint32_t>(get_register(rs_reg())); return static_cast<uint32_t>(get_register(rs_reg()));
} }
inline int32_t rt_reg() const { return currentInstr_->RtValue(); } inline int32_t rt_reg() const { return instr_.RtValue(); }
inline int32_t rt() const { return get_register(rt_reg()); } inline int32_t rt() const { return get_register(rt_reg()); }
inline uint32_t rt_u() const { inline uint32_t rt_u() const {
return static_cast<uint32_t>(get_register(rt_reg())); return static_cast<uint32_t>(get_register(rt_reg()));
} }
inline int32_t rd_reg() const { return currentInstr_->RdValue(); } inline int32_t rd_reg() const { return instr_.RdValue(); }
inline int32_t fr_reg() const { return currentInstr_->FrValue(); } inline int32_t fr_reg() const { return instr_.FrValue(); }
inline int32_t fs_reg() const { return currentInstr_->FsValue(); } inline int32_t fs_reg() const { return instr_.FsValue(); }
inline int32_t ft_reg() const { return currentInstr_->FtValue(); } inline int32_t ft_reg() const { return instr_.FtValue(); }
inline int32_t fd_reg() const { return currentInstr_->FdValue(); } inline int32_t fd_reg() const { return instr_.FdValue(); }
inline int32_t sa() const { return currentInstr_->SaValue(); } inline int32_t sa() const { return instr_.SaValue(); }
inline int32_t lsa_sa() const { return currentInstr_->LsaSaValue(); } inline int32_t lsa_sa() const { return instr_.LsaSaValue(); }
inline void SetResult(int32_t rd_reg, int32_t alu_out) { inline void SetResult(int32_t rd_reg, int32_t alu_out) {
set_register(rd_reg, alu_out); set_register(rd_reg, alu_out);
TraceRegWr(alu_out); TraceRegWr(alu_out);
} }
void DecodeTypeImmediate(Instruction* instr); void DecodeTypeImmediate();
void DecodeTypeJump(Instruction* instr); void DecodeTypeJump();
// Used for breakpoints and traps. // Used for breakpoints and traps.
void SoftwareInterrupt(Instruction* instr); void SoftwareInterrupt();
// Compact branch guard. // Compact branch guard.
void CheckForbiddenSlot(int32_t current_pc) { void CheckForbiddenSlot(int32_t current_pc) {
......
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