src/arm/simulator-arm.cc - Issue 12096036: ARM: Rename Simulator::vfp_register to vfp_registers_

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Issue 12096036: ARM: Rename Simulator::vfp_register to vfp_registers_ (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge

Patch Set: Created 7 years, 10 months ago

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1 // Copyright 2012 the V8 project authors. All rights reserved.	1 // Copyright 2012 the V8 project authors. All rights reserved.

2 // Redistribution and use in source and binary forms, with or without	2 // Redistribution and use in source and binary forms, with or without

3 // modification, are permitted provided that the following conditions are	3 // modification, are permitted provided that the following conditions are

4 // met:	4 // met:

5 //	5 //

6 // * Redistributions of source code must retain the above copyright	6 // * Redistributions of source code must retain the above copyright

7 // notice, this list of conditions and the following disclaimer.	7 // notice, this list of conditions and the following disclaimer.

8 // * Redistributions in binary form must reproduce the above	8 // * Redistributions in binary form must reproduce the above

9 // copyright notice, this list of conditions and the following	9 // copyright notice, this list of conditions and the following

10 // disclaimer in the documentation and/or other materials provided	10 // disclaimer in the documentation and/or other materials provided

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759 n_flag_ = false;	759 n_flag_ = false;

760 z_flag_ = false;	760 z_flag_ = false;

761 c_flag_ = false;	761 c_flag_ = false;

762 v_flag_ = false;	762 v_flag_ = false;

763	763

764 // Initializing VFP registers.	764 // Initializing VFP registers.

765 // All registers are initialized to zero to start with	765 // All registers are initialized to zero to start with

766 // even though s_registers_ & d_registers_ share the same	766 // even though s_registers_ & d_registers_ share the same

767 // physical registers in the target.	767 // physical registers in the target.

768 for (int i = 0; i < num_d_registers * 2; i++) {	768 for (int i = 0; i < num_d_registers * 2; i++) {

769 vfp_register[i] = 0;	769 vfp_registers_[i] = 0;

770 }	770 }

771 n_flag_FPSCR_ = false;	771 n_flag_FPSCR_ = false;

772 z_flag_FPSCR_ = false;	772 z_flag_FPSCR_ = false;

773 c_flag_FPSCR_ = false;	773 c_flag_FPSCR_ = false;

774 v_flag_FPSCR_ = false;	774 v_flag_FPSCR_ = false;

775 FPSCR_rounding_mode_ = RZ;	775 FPSCR_rounding_mode_ = RZ;

776	776

777 inv_op_vfp_flag_ = false;	777 inv_op_vfp_flag_ = false;

778 div_zero_vfp_flag_ = false;	778 div_zero_vfp_flag_ = false;

779 overflow_vfp_flag_ = false;	779 overflow_vfp_flag_ = false;

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894 return registers_[reg] + ((reg == pc) ? Instruction::kPCReadOffset : 0);	894 return registers_[reg] + ((reg == pc) ? Instruction::kPCReadOffset : 0);

895 }	895 }

896	896

897	897

898 double Simulator::get_double_from_register_pair(int reg) {	898 double Simulator::get_double_from_register_pair(int reg) {

899 ASSERT((reg >= 0) && (reg < num_registers) && ((reg % 2) == 0));	899 ASSERT((reg >= 0) && (reg < num_registers) && ((reg % 2) == 0));

900	900

901 double dm_val = 0.0;	901 double dm_val = 0.0;

902 // Read the bits from the unsigned integer register_[] array	902 // Read the bits from the unsigned integer register_[] array

903 // into the double precision floating point value and return it.	903 // into the double precision floating point value and return it.

904 char buffer[2 * sizeof(vfp_register[0])];	904 char buffer[2 * sizeof(vfp_registers_[0])];

905 memcpy(buffer, &registers_[reg], 2 * sizeof(registers_[0]));	905 memcpy(buffer, &registers_[reg], 2 * sizeof(registers_[0]));

906 memcpy(&dm_val, buffer, 2 * sizeof(registers_[0]));	906 memcpy(&dm_val, buffer, 2 * sizeof(registers_[0]));

907 return(dm_val);	907 return(dm_val);

908 }	908 }

909	909

910	910

911 void Simulator::set_dw_register(int dreg, const int* dbl) {	911 void Simulator::set_dw_register(int dreg, const int* dbl) {

912 ASSERT((dreg >= 0) && (dreg < num_d_registers));	912 ASSERT((dreg >= 0) && (dreg < num_d_registers));

913 registers_[dreg] = dbl[0];	913 registers_[dreg] = dbl[0];

914 registers_[dreg + 1] = dbl[1];	914 registers_[dreg + 1] = dbl[1];

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929	929

930 // Raw access to the PC register without the special adjustment when reading.	930 // Raw access to the PC register without the special adjustment when reading.

931 int32_t Simulator::get_pc() const {	931 int32_t Simulator::get_pc() const {

932 return registers_[pc];	932 return registers_[pc];

933 }	933 }

934	934

935	935

936 // Getting from and setting into VFP registers.	936 // Getting from and setting into VFP registers.

937 void Simulator::set_s_register(int sreg, unsigned int value) {	937 void Simulator::set_s_register(int sreg, unsigned int value) {

938 ASSERT((sreg >= 0) && (sreg < num_s_registers));	938 ASSERT((sreg >= 0) && (sreg < num_s_registers));

939 vfp_register[sreg] = value;	939 vfp_registers_[sreg] = value;

940 }	940 }

941	941

942	942

943 unsigned int Simulator::get_s_register(int sreg) const {	943 unsigned int Simulator::get_s_register(int sreg) const {

944 ASSERT((sreg >= 0) && (sreg < num_s_registers));	944 ASSERT((sreg >= 0) && (sreg < num_s_registers));

945 return vfp_register[sreg];	945 return vfp_registers_[sreg];

946 }	946 }

947	947

948	948

949 template<class InputType, int register_size>	949 template<class InputType, int register_size>

950 void Simulator::SetVFPRegister(int reg_index, const InputType& value) {	950 void Simulator::SetVFPRegister(int reg_index, const InputType& value) {

951 ASSERT(reg_index >= 0);	951 ASSERT(reg_index >= 0);

952 if (register_size == 1) ASSERT(reg_index < num_s_registers);	952 if (register_size == 1) ASSERT(reg_index < num_s_registers);

953 if (register_size == 2) ASSERT(reg_index < DwVfpRegister::NumRegisters());	953 if (register_size == 2) ASSERT(reg_index < DwVfpRegister::NumRegisters());

954	954

955 char buffer[register_size * sizeof(vfp_register[0])];	955 char buffer[register_size * sizeof(vfp_registers_[0])];

956 memcpy(buffer, &value, register_size * sizeof(vfp_register[0]));	956 memcpy(buffer, &value, register_size * sizeof(vfp_registers_[0]));

957 memcpy(&vfp_register[reg_index * register_size], buffer,	957 memcpy(&vfp_registers_[reg_index * register_size], buffer,

958 register_size * sizeof(vfp_register[0]));	958 register_size * sizeof(vfp_registers_[0]));

959 }	959 }

960	960

961	961

962 template<class ReturnType, int register_size>	962 template<class ReturnType, int register_size>

963 ReturnType Simulator::GetFromVFPRegister(int reg_index) {	963 ReturnType Simulator::GetFromVFPRegister(int reg_index) {

964 ASSERT(reg_index >= 0);	964 ASSERT(reg_index >= 0);

965 if (register_size == 1) ASSERT(reg_index < num_s_registers);	965 if (register_size == 1) ASSERT(reg_index < num_s_registers);

966 if (register_size == 2) ASSERT(reg_index < DwVfpRegister::NumRegisters());	966 if (register_size == 2) ASSERT(reg_index < DwVfpRegister::NumRegisters());

967	967

968 ReturnType value = 0;	968 ReturnType value = 0;

969 char buffer[register_size * sizeof(vfp_register[0])];	969 char buffer[register_size * sizeof(vfp_registers_[0])];

970 memcpy(buffer, &vfp_register[register_size * reg_index],	970 memcpy(buffer, &vfp_registers_[register_size * reg_index],

971 register_size * sizeof(vfp_register[0]));	971 register_size * sizeof(vfp_registers_[0]));

972 memcpy(&value, buffer, register_size * sizeof(vfp_register[0]));	972 memcpy(&value, buffer, register_size * sizeof(vfp_registers_[0]));

973 return value;	973 return value;

974 }	974 }

975	975

976	976

977 // For use in calls that take two double values, constructed either	977 // For use in calls that take two double values, constructed either

978 // from r0-r3 or d0 and d1.	978 // from r0-r3 or d0 and d1.

979 void Simulator::GetFpArgs(double* x, double* y) {	979 void Simulator::GetFpArgs(double* x, double* y) {

980 if (use_eabi_hardfloat()) {	980 if (use_eabi_hardfloat()) {

981 *x = vfp_register[0];	981 *x = vfp_registers_[0];

982 *y = vfp_register[1];	982 *y = vfp_registers_[1];

983 } else {	983 } else {

984 // We use a char buffer to get around the strict-aliasing rules which	984 // We use a char buffer to get around the strict-aliasing rules which

985 // otherwise allow the compiler to optimize away the copy.	985 // otherwise allow the compiler to optimize away the copy.

986 char buffer[sizeof(*x)];	986 char buffer[sizeof(*x)];

987 // Registers 0 and 1 -> x.	987 // Registers 0 and 1 -> x.

988 memcpy(buffer, registers_, sizeof(*x));	988 memcpy(buffer, registers_, sizeof(*x));

989 memcpy(x, buffer, sizeof(*x));	989 memcpy(x, buffer, sizeof(*x));

990 // Registers 2 and 3 -> y.	990 // Registers 2 and 3 -> y.

991 memcpy(buffer, registers_ + 2, sizeof(*y));	991 memcpy(buffer, registers_ + 2, sizeof(*y));

992 memcpy(y, buffer, sizeof(*y));	992 memcpy(y, buffer, sizeof(*y));

993 }	993 }

994 }	994 }

995	995

996 // For use in calls that take one double value, constructed either	996 // For use in calls that take one double value, constructed either

997 // from r0 and r1 or d0.	997 // from r0 and r1 or d0.

998 void Simulator::GetFpArgs(double* x) {	998 void Simulator::GetFpArgs(double* x) {

999 if (use_eabi_hardfloat()) {	999 if (use_eabi_hardfloat()) {

1000 *x = vfp_register[0];	1000 *x = vfp_registers_[0];

1001 } else {	1001 } else {

1002 // We use a char buffer to get around the strict-aliasing rules which	1002 // We use a char buffer to get around the strict-aliasing rules which

1003 // otherwise allow the compiler to optimize away the copy.	1003 // otherwise allow the compiler to optimize away the copy.

1004 char buffer[sizeof(*x)];	1004 char buffer[sizeof(*x)];

1005 // Registers 0 and 1 -> x.	1005 // Registers 0 and 1 -> x.

1006 memcpy(buffer, registers_, sizeof(*x));	1006 memcpy(buffer, registers_, sizeof(*x));

1007 memcpy(x, buffer, sizeof(*x));	1007 memcpy(x, buffer, sizeof(*x));

1008 }	1008 }

1009 }	1009 }

1010	1010

1011	1011

1012 // For use in calls that take one double value constructed either	1012 // For use in calls that take one double value constructed either

1013 // from r0 and r1 or d0 and one integer value.	1013 // from r0 and r1 or d0 and one integer value.

1014 void Simulator::GetFpArgs(double* x, int32_t* y) {	1014 void Simulator::GetFpArgs(double* x, int32_t* y) {

1015 if (use_eabi_hardfloat()) {	1015 if (use_eabi_hardfloat()) {

1016 *x = vfp_register[0];	1016 *x = vfp_registers_[0];

1017 *y = registers_[1];	1017 *y = registers_[1];

1018 } else {	1018 } else {

1019 // We use a char buffer to get around the strict-aliasing rules which	1019 // We use a char buffer to get around the strict-aliasing rules which

1020 // otherwise allow the compiler to optimize away the copy.	1020 // otherwise allow the compiler to optimize away the copy.

1021 char buffer[sizeof(*x)];	1021 char buffer[sizeof(*x)];

1022 // Registers 0 and 1 -> x.	1022 // Registers 0 and 1 -> x.

1023 memcpy(buffer, registers_, sizeof(*x));	1023 memcpy(buffer, registers_, sizeof(*x));

1024 memcpy(x, buffer, sizeof(*x));	1024 memcpy(x, buffer, sizeof(*x));

1025 // Register 2 -> y.	1025 // Register 2 -> y.

1026 memcpy(buffer, registers_ + 2, sizeof(*y));	1026 memcpy(buffer, registers_ + 2, sizeof(*y));

1027 memcpy(y, buffer, sizeof(*y));	1027 memcpy(y, buffer, sizeof(*y));

1028 }	1028 }

1029 }	1029 }

1030	1030

1031	1031

1032 // The return value is either in r0/r1 or d0.	1032 // The return value is either in r0/r1 or d0.

1033 void Simulator::SetFpResult(const double& result) {	1033 void Simulator::SetFpResult(const double& result) {

1034 if (use_eabi_hardfloat()) {	1034 if (use_eabi_hardfloat()) {

1035 char buffer[2 * sizeof(vfp_register[0])];	1035 char buffer[2 * sizeof(vfp_registers_[0])];

1036 memcpy(buffer, &result, sizeof(buffer));	1036 memcpy(buffer, &result, sizeof(buffer));

1037 // Copy result to d0.	1037 // Copy result to d0.

1038 memcpy(vfp_register, buffer, sizeof(buffer));	1038 memcpy(vfp_registers_, buffer, sizeof(buffer));

1039 } else {	1039 } else {

1040 char buffer[2 * sizeof(registers_[0])];	1040 char buffer[2 * sizeof(registers_[0])];

1041 memcpy(buffer, &result, sizeof(buffer));	1041 memcpy(buffer, &result, sizeof(buffer));

1042 // Copy result to r0 and r1.	1042 // Copy result to r0 and r1.

1043 memcpy(registers_, buffer, sizeof(buffer));	1043 memcpy(registers_, buffer, sizeof(buffer));

1044 }	1044 }

1045 }	1045 }

1046	1046

1047	1047

1048 void Simulator::TrashCallerSaveRegisters() {	1048 void Simulator::TrashCallerSaveRegisters() {

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1685 (redirection->type() == ExternalReference::BUILTIN_FP_CALL) \|\|	1685 (redirection->type() == ExternalReference::BUILTIN_FP_CALL) \|\|

1686 (redirection->type() == ExternalReference::BUILTIN_FP_INT_CALL);	1686 (redirection->type() == ExternalReference::BUILTIN_FP_INT_CALL);

1687 if (use_eabi_hardfloat()) {	1687 if (use_eabi_hardfloat()) {

1688 // With the hard floating point calling convention, double	1688 // With the hard floating point calling convention, double

1689 // arguments are passed in VFP registers. Fetch the arguments	1689 // arguments are passed in VFP registers. Fetch the arguments

1690 // from there and call the builtin using soft floating point	1690 // from there and call the builtin using soft floating point

1691 // convention.	1691 // convention.

1692 switch (redirection->type()) {	1692 switch (redirection->type()) {

1693 case ExternalReference::BUILTIN_FP_FP_CALL:	1693 case ExternalReference::BUILTIN_FP_FP_CALL:

1694 case ExternalReference::BUILTIN_COMPARE_CALL:	1694 case ExternalReference::BUILTIN_COMPARE_CALL:

1695 arg0 = vfp_register[0];	1695 arg0 = vfp_registers_[0];

1696 arg1 = vfp_register[1];	1696 arg1 = vfp_registers_[1];

1697 arg2 = vfp_register[2];	1697 arg2 = vfp_registers_[2];

1698 arg3 = vfp_register[3];	1698 arg3 = vfp_registers_[3];

1699 break;	1699 break;

1700 case ExternalReference::BUILTIN_FP_CALL:	1700 case ExternalReference::BUILTIN_FP_CALL:

1701 arg0 = vfp_register[0];	1701 arg0 = vfp_registers_[0];

1702 arg1 = vfp_register[1];	1702 arg1 = vfp_registers_[1];

1703 break;	1703 break;

1704 case ExternalReference::BUILTIN_FP_INT_CALL:	1704 case ExternalReference::BUILTIN_FP_INT_CALL:

1705 arg0 = vfp_register[0];	1705 arg0 = vfp_registers_[0];

1706 arg1 = vfp_register[1];	1706 arg1 = vfp_registers_[1];

1707 arg2 = get_register(0);	1707 arg2 = get_register(0);

1708 break;	1708 break;

1709 default:	1709 default:

1710 break;	1710 break;

1711 }	1711 }

1712 }	1712 }

1713 // This is dodgy but it works because the C entry stubs are never moved.	1713 // This is dodgy but it works because the C entry stubs are never moved.

1714 // See comment in codegen-arm.cc and bug 1242173.	1714 // See comment in codegen-arm.cc and bug 1242173.

1715 int32_t saved_lr = get_register(lr);	1715 int32_t saved_lr = get_register(lr);

1716 intptr_t external =	1716 intptr_t external =

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3460 uintptr_t address = *stack_slot;	3460 uintptr_t address = *stack_slot;

3461 set_register(sp, current_sp + sizeof(uintptr_t));	3461 set_register(sp, current_sp + sizeof(uintptr_t));

3462 return address;	3462 return address;

3463 }	3463 }

3464	3464

3465 } } // namespace v8::internal	3465 } } // namespace v8::internal

3466	3466

3467 #endif // USE_SIMULATOR	3467 #endif // USE_SIMULATOR

3468	3468

3469 #endif // V8_TARGET_ARCH_ARM	3469 #endif // V8_TARGET_ARCH_ARM

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