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| 1 // Copyright 2011 the V8 project authors. All rights reserved. | 1 // Copyright 2011 the V8 project authors. All rights reserved. |
| 2 // Use of this source code is governed by a BSD-style license that can be | 2 // Use of this source code is governed by a BSD-style license that can be |
| 3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
| 4 | 4 |
| 5 | 5 |
| 6 // Declares a Simulator for MIPS instructions if we are not generating a native | 6 // Declares a Simulator for MIPS instructions if we are not generating a native |
| 7 // MIPS binary. This Simulator allows us to run and debug MIPS code generation | 7 // MIPS binary. This Simulator allows us to run and debug MIPS code generation |
| 8 // on regular desktop machines. | 8 // on regular desktop machines. |
| 9 // V8 calls into generated code by "calling" the CALL_GENERATED_CODE macro, | 9 // V8 calls into generated code by "calling" the CALL_GENERATED_CODE macro, |
| 10 // which will start execution in the Simulator or forwards to the real entry | 10 // which will start execution in the Simulator or forwards to the real entry |
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| 155 static Simulator* current(v8::internal::Isolate* isolate); | 155 static Simulator* current(v8::internal::Isolate* isolate); |
| 156 | 156 |
| 157 // Accessors for register state. Reading the pc value adheres to the MIPS | 157 // Accessors for register state. Reading the pc value adheres to the MIPS |
| 158 // architecture specification and is off by a 8 from the currently executing | 158 // architecture specification and is off by a 8 from the currently executing |
| 159 // instruction. | 159 // instruction. |
| 160 void set_register(int reg, int32_t value); | 160 void set_register(int reg, int32_t value); |
| 161 void set_dw_register(int dreg, const int* dbl); | 161 void set_dw_register(int dreg, const int* dbl); |
| 162 int32_t get_register(int reg) const; | 162 int32_t get_register(int reg) const; |
| 163 double get_double_from_register_pair(int reg); | 163 double get_double_from_register_pair(int reg); |
| 164 // Same for FPURegisters. | 164 // Same for FPURegisters. |
| 165 void set_fpu_register(int fpureg, int64_t value); | 165 void set_fpu_register(int fpureg, int32_t value); |
| 166 void set_fpu_register_word(int fpureg, int32_t value); | |
| 167 void set_fpu_register_hi_word(int fpureg, int32_t value); | |
| 168 void set_fpu_register_float(int fpureg, float value); | 166 void set_fpu_register_float(int fpureg, float value); |
| 169 void set_fpu_register_double(int fpureg, double value); | 167 void set_fpu_register_double(int fpureg, double value); |
| 170 int64_t get_fpu_register(int fpureg) const; | 168 int32_t get_fpu_register(int fpureg) const; |
| 171 int32_t get_fpu_register_word(int fpureg) const; | 169 int64_t get_fpu_register_long(int fpureg) const; |
| 172 int32_t get_fpu_register_signed_word(int fpureg) const; | |
| 173 int32_t get_fpu_register_hi_word(int fpureg) const; | |
| 174 float get_fpu_register_float(int fpureg) const; | 170 float get_fpu_register_float(int fpureg) const; |
| 175 double get_fpu_register_double(int fpureg) const; | 171 double get_fpu_register_double(int fpureg) const; |
| 176 void set_fcsr_bit(uint32_t cc, bool value); | 172 void set_fcsr_bit(uint32_t cc, bool value); |
| 177 bool test_fcsr_bit(uint32_t cc); | 173 bool test_fcsr_bit(uint32_t cc); |
| 178 bool set_fcsr_round_error(double original, double rounded); | 174 bool set_fcsr_round_error(double original, double rounded); |
| 179 | 175 |
| 180 // Special case of set_register and get_register to access the raw PC value. | 176 // Special case of set_register and get_register to access the raw PC value. |
| 181 void set_pc(int32_t value); | 177 void set_pc(int32_t value); |
| 182 int32_t get_pc() const; | 178 int32_t get_pc() const; |
| 183 | 179 |
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| 335 // Handle arguments and return value for runtime FP functions. | 331 // Handle arguments and return value for runtime FP functions. |
| 336 void GetFpArgs(double* x, double* y, int32_t* z); | 332 void GetFpArgs(double* x, double* y, int32_t* z); |
| 337 void SetFpResult(const double& result); | 333 void SetFpResult(const double& result); |
| 338 | 334 |
| 339 void CallInternal(byte* entry); | 335 void CallInternal(byte* entry); |
| 340 | 336 |
| 341 // Architecture state. | 337 // Architecture state. |
| 342 // Registers. | 338 // Registers. |
| 343 int32_t registers_[kNumSimuRegisters]; | 339 int32_t registers_[kNumSimuRegisters]; |
| 344 // Coprocessor Registers. | 340 // Coprocessor Registers. |
| 345 // Note: FP32 mode uses only the lower 32-bit part of each element, | 341 int32_t FPUregisters_[kNumFPURegisters]; |
| 346 // the upper 32-bit is unpredictable. | |
| 347 int64_t FPUregisters_[kNumFPURegisters]; | |
| 348 // FPU control register. | 342 // FPU control register. |
| 349 uint32_t FCSR_; | 343 uint32_t FCSR_; |
| 350 | 344 |
| 351 // Simulator support. | 345 // Simulator support. |
| 352 // Allocate 1MB for stack. | 346 // Allocate 1MB for stack. |
| 353 static const size_t stack_size_ = 1 * 1024*1024; | 347 static const size_t stack_size_ = 1 * 1024*1024; |
| 354 char* stack_; | 348 char* stack_; |
| 355 bool pc_modified_; | 349 bool pc_modified_; |
| 356 int icount_; | 350 int icount_; |
| 357 int break_count_; | 351 int break_count_; |
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| 413 | 407 |
| 414 static inline void UnregisterCTryCatch() { | 408 static inline void UnregisterCTryCatch() { |
| 415 Simulator::current(Isolate::Current())->PopAddress(); | 409 Simulator::current(Isolate::Current())->PopAddress(); |
| 416 } | 410 } |
| 417 }; | 411 }; |
| 418 | 412 |
| 419 } } // namespace v8::internal | 413 } } // namespace v8::internal |
| 420 | 414 |
| 421 #endif // !defined(USE_SIMULATOR) | 415 #endif // !defined(USE_SIMULATOR) |
| 422 #endif // V8_MIPS_SIMULATOR_MIPS_H_ | 416 #endif // V8_MIPS_SIMULATOR_MIPS_H_ |
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Chromium Code Reviews
Issue 458193002:
Revert 23028 - "MIPS: Add support for arch. revision 6 to mips32 port." (Closed)
Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge