Commit d16c2d60 authored by ulan@chromium.org's avatar ulan@chromium.org

ARM: Rename Simulator::vfp_register to vfp_registers_

This matches Simulator::registers_ and is in line with the style guide.

BUG=none

Review URL: https://chromiumcodereview.appspot.com/12096036
Patch from Hans Wennborg <hans@chromium.org>.

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@13547 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 2a5d46dd
......@@ -766,7 +766,7 @@ Simulator::Simulator(Isolate* isolate) : isolate_(isolate) {
// even though s_registers_ & d_registers_ share the same
// physical registers in the target.
for (int i = 0; i < num_d_registers * 2; i++) {
vfp_register[i] = 0;
vfp_registers_[i] = 0;
}
n_flag_FPSCR_ = false;
z_flag_FPSCR_ = false;
......@@ -901,7 +901,7 @@ double Simulator::get_double_from_register_pair(int reg) {
double dm_val = 0.0;
// Read the bits from the unsigned integer register_[] array
// into the double precision floating point value and return it.
char buffer[2 * sizeof(vfp_register[0])];
char buffer[2 * sizeof(vfp_registers_[0])];
memcpy(buffer, &registers_[reg], 2 * sizeof(registers_[0]));
memcpy(&dm_val, buffer, 2 * sizeof(registers_[0]));
return(dm_val);
......@@ -936,13 +936,13 @@ int32_t Simulator::get_pc() const {
// Getting from and setting into VFP registers.
void Simulator::set_s_register(int sreg, unsigned int value) {
ASSERT((sreg >= 0) && (sreg < num_s_registers));
vfp_register[sreg] = value;
vfp_registers_[sreg] = value;
}
unsigned int Simulator::get_s_register(int sreg) const {
ASSERT((sreg >= 0) && (sreg < num_s_registers));
return vfp_register[sreg];
return vfp_registers_[sreg];
}
......@@ -952,10 +952,10 @@ void Simulator::SetVFPRegister(int reg_index, const InputType& value) {
if (register_size == 1) ASSERT(reg_index < num_s_registers);
if (register_size == 2) ASSERT(reg_index < DwVfpRegister::NumRegisters());
char buffer[register_size * sizeof(vfp_register[0])];
memcpy(buffer, &value, register_size * sizeof(vfp_register[0]));
memcpy(&vfp_register[reg_index * register_size], buffer,
register_size * sizeof(vfp_register[0]));
char buffer[register_size * sizeof(vfp_registers_[0])];
memcpy(buffer, &value, register_size * sizeof(vfp_registers_[0]));
memcpy(&vfp_registers_[reg_index * register_size], buffer,
register_size * sizeof(vfp_registers_[0]));
}
......@@ -966,10 +966,10 @@ ReturnType Simulator::GetFromVFPRegister(int reg_index) {
if (register_size == 2) ASSERT(reg_index < DwVfpRegister::NumRegisters());
ReturnType value = 0;
char buffer[register_size * sizeof(vfp_register[0])];
memcpy(buffer, &vfp_register[register_size * reg_index],
register_size * sizeof(vfp_register[0]));
memcpy(&value, buffer, register_size * sizeof(vfp_register[0]));
char buffer[register_size * sizeof(vfp_registers_[0])];
memcpy(buffer, &vfp_registers_[register_size * reg_index],
register_size * sizeof(vfp_registers_[0]));
memcpy(&value, buffer, register_size * sizeof(vfp_registers_[0]));
return value;
}
......@@ -978,8 +978,8 @@ ReturnType Simulator::GetFromVFPRegister(int reg_index) {
// from r0-r3 or d0 and d1.
void Simulator::GetFpArgs(double* x, double* y) {
if (use_eabi_hardfloat()) {
*x = vfp_register[0];
*y = vfp_register[1];
*x = vfp_registers_[0];
*y = vfp_registers_[1];
} else {
// We use a char buffer to get around the strict-aliasing rules which
// otherwise allow the compiler to optimize away the copy.
......@@ -997,7 +997,7 @@ void Simulator::GetFpArgs(double* x, double* y) {
// from r0 and r1 or d0.
void Simulator::GetFpArgs(double* x) {
if (use_eabi_hardfloat()) {
*x = vfp_register[0];
*x = vfp_registers_[0];
} else {
// We use a char buffer to get around the strict-aliasing rules which
// otherwise allow the compiler to optimize away the copy.
......@@ -1013,7 +1013,7 @@ void Simulator::GetFpArgs(double* x) {
// from r0 and r1 or d0 and one integer value.
void Simulator::GetFpArgs(double* x, int32_t* y) {
if (use_eabi_hardfloat()) {
*x = vfp_register[0];
*x = vfp_registers_[0];
*y = registers_[1];
} else {
// We use a char buffer to get around the strict-aliasing rules which
......@@ -1032,10 +1032,10 @@ void Simulator::GetFpArgs(double* x, int32_t* y) {
// The return value is either in r0/r1 or d0.
void Simulator::SetFpResult(const double& result) {
if (use_eabi_hardfloat()) {
char buffer[2 * sizeof(vfp_register[0])];
char buffer[2 * sizeof(vfp_registers_[0])];
memcpy(buffer, &result, sizeof(buffer));
// Copy result to d0.
memcpy(vfp_register, buffer, sizeof(buffer));
memcpy(vfp_registers_, buffer, sizeof(buffer));
} else {
char buffer[2 * sizeof(registers_[0])];
memcpy(buffer, &result, sizeof(buffer));
......@@ -1692,18 +1692,18 @@ void Simulator::SoftwareInterrupt(Instruction* instr) {
switch (redirection->type()) {
case ExternalReference::BUILTIN_FP_FP_CALL:
case ExternalReference::BUILTIN_COMPARE_CALL:
arg0 = vfp_register[0];
arg1 = vfp_register[1];
arg2 = vfp_register[2];
arg3 = vfp_register[3];
arg0 = vfp_registers_[0];
arg1 = vfp_registers_[1];
arg2 = vfp_registers_[2];
arg3 = vfp_registers_[3];
break;
case ExternalReference::BUILTIN_FP_CALL:
arg0 = vfp_register[0];
arg1 = vfp_register[1];
arg0 = vfp_registers_[0];
arg1 = vfp_registers_[1];
break;
case ExternalReference::BUILTIN_FP_INT_CALL:
arg0 = vfp_register[0];
arg1 = vfp_register[1];
arg0 = vfp_registers_[0];
arg1 = vfp_registers_[1];
arg2 = get_register(0);
break;
default:
......
......@@ -373,8 +373,7 @@ class Simulator {
bool v_flag_;
// VFP architecture state.
// TODO(hans): Rename vfp_register to vfp_registers_.
unsigned int vfp_register[num_d_registers * 2];
unsigned int vfp_registers_[num_d_registers * 2];
bool n_flag_FPSCR_;
bool z_flag_FPSCR_;
bool c_flag_FPSCR_;
......
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