dynarmic/src/frontend/arm/FPSCR.h
Lioncash eba3a06d80 frontend: Introduce FPSCR register helper class
Encapsulates all of the FPSCR state.
2016-08-24 20:51:14 +01:00

188 lines
4.2 KiB
C++

/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* This software may be used and distributed according to the terms of the GNU
* General Public License version 2 or any later version.
*/
#pragma once
#include "common/bit_util.h"
#include "common/common_types.h"
namespace Dynarmic {
namespace Arm {
/**
* Representation of the Floating-Point Status and Control Register.
*/
class FPSCR final
{
public:
enum class RoundingMode {
ToNearest,
TowardsPlusInfinity,
TowardsMinusInfinity,
TowardsZero
};
FPSCR() = default;
FPSCR(const FPSCR&) = default;
FPSCR(FPSCR&&) = default;
/* implicit */ FPSCR(u32 data) : value{data} {}
FPSCR& operator=(const FPSCR&) = default;
FPSCR& operator=(FPSCR&&) = default;
FPSCR& operator=(u32 data) {
value = data;
return *this;
}
/// Negative condition flag.
bool N() const {
return Common::Bit<31>(value);
}
/// Zero condition flag.
bool Z() const {
return Common::Bit<30>(value);
}
/// Carry condition flag.
bool C() const {
return Common::Bit<29>(value);
}
/// Overflow condition flag.
bool V() const {
return Common::Bit<28>(value);
}
/// Cumulative saturation flag.
bool QC() const {
return Common::Bit<27>(value);
}
/// Alternate half-precision control flag.
bool AHP() const {
return Common::Bit<26>(value);
}
/// Default NaN mode control bit.
bool DN() const {
return Common::Bit<25>(value);
}
/// Flush-to-zero mode control bit.
bool FTZ() const {
return Common::Bit<24>(value);
}
/// Rounding mode control field.
RoundingMode RMode() const {
return static_cast<RoundingMode>(Common::Bits<22, 23>(value));
}
/// Indicates the stride of a vector.
u32 Stride() const {
return Common::Bits<20, 21>(value) + 1;
}
/// Indicates the length of a vector.
u32 Len() const {
return Common::Bits<16, 18>(value) + 1;
}
/// Input denormal exception trap enable flag.
bool IDE() const {
return Common::Bit<15>(value);
}
/// Inexact exception trap enable flag.
bool IXE() const {
return Common::Bit<12>(value);
}
/// Underflow exception trap enable flag.
bool UFE() const {
return Common::Bit<11>(value);
}
/// Overflow exception trap enable flag.
bool OFE() const {
return Common::Bit<10>(value);
}
/// Division by zero exception trap enable flag.
bool DZE() const {
return Common::Bit<9>(value);
}
/// Invalid operation exception trap enable flag.
bool IOE() const {
return Common::Bit<8>(value);
}
/// Input denormal cumulative exception bit.
bool IDC() const {
return Common::Bit<7>(value);
}
/// Inexact cumulative exception bit.
bool IXC() const {
return Common::Bit<4>(value);
}
/// Underflow cumulative exception bit.
bool UFC() const {
return Common::Bit<3>(value);
}
/// Overflow cumulative exception bit.
bool OFC() const {
return Common::Bit<2>(value);
}
/// Division by zero cumulative exception bit.
bool DZC() const {
return Common::Bit<1>(value);
}
/// Invalid operation cumulative exception bit.
bool IOC() const {
return Common::Bit<0>(value);
}
/**
* Whether or not the FPSCR indicates RunFast mode.
*
* RunFast mode is enabled when:
* - Flush-to-zero is enabled
* - Default NaNs are enabled.
* - All exception enable bits are cleared.
*/
bool InRunFastMode() const {
constexpr u32 mask = 0x03001F00;
constexpr u32 expected = 0x03000000;
return (value & mask) == expected;
}
/// Gets the underlying raw value within the FPSCR.
u32 Value() const {
return value;
}
private:
u32 value = 0;
};
inline bool operator==(FPSCR lhs, FPSCR rhs) {
return lhs.Value() == rhs.Value();
}
inline bool operator!=(FPSCR lhs, FPSCR rhs) {
return !operator==(lhs, rhs);
}
} // namespace Arm
} // namespace Dynarmic