dynarmic/src/frontend/decoder/vfp2.h
MerryMage 29471be317 Standardize location of storage-class specifiers: Place at beginning of declarations
Justification: C99 specifies that doing otherwise is an obsolescent feature.
2017-09-29 01:23:45 +01:00

92 lines
5 KiB
C++

/* This file is part of the dynarmic project.
* Copyright (c) 2032 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 <vector>
#include <boost/optional.hpp>
#include "common/common_types.h"
#include "frontend/decoder/decoder_detail.h"
#include "frontend/decoder/matcher.h"
namespace Dynarmic {
namespace Arm {
template <typename Visitor>
using VFP2Matcher = Matcher<Visitor, u32>;
template<typename V>
boost::optional<const VFP2Matcher<V>&> DecodeVFP2(u32 instruction) {
static const std::vector<VFP2Matcher<V>> table = {
#define INST(fn, name, bitstring) detail::detail<VFP2Matcher<V>>::GetMatcher(fn, name, bitstring)
// cccc1110________----101-__-0----
// Floating-point three-register data processing instructions
INST(&V::vfp2_VMLA, "VMLA", "cccc11100D00nnnndddd101zN0M0mmmm"),
INST(&V::vfp2_VMLS, "VMLS", "cccc11100D00nnnndddd101zN1M0mmmm"),
INST(&V::vfp2_VNMLS, "VNMLS", "cccc11100D01nnnndddd101zN0M0mmmm"),
INST(&V::vfp2_VNMLA, "VNMLA", "cccc11100D01nnnndddd101zN1M0mmmm"),
INST(&V::vfp2_VMUL, "VMUL", "cccc11100D10nnnndddd101zN0M0mmmm"),
INST(&V::vfp2_VNMUL, "VNMUL", "cccc11100D10nnnndddd101zN1M0mmmm"),
INST(&V::vfp2_VADD, "VADD", "cccc11100D11nnnndddd101zN0M0mmmm"),
INST(&V::vfp2_VSUB, "VSUB", "cccc11100D11nnnndddd101zN1M0mmmm"),
INST(&V::vfp2_VDIV, "VDIV", "cccc11101D00nnnndddd101zN0M0mmmm"),
// Floating-point move instructions
INST(&V::vfp2_VMOV_u32_f64, "VMOV (core to f64)", "cccc11100000ddddtttt1011D0010000"),
INST(&V::vfp2_VMOV_f64_u32, "VMOV (f64 to core)", "cccc11100001nnnntttt1011N0010000"),
INST(&V::vfp2_VMOV_u32_f32, "VMOV (core to f32)", "cccc11100000nnnntttt1010N0010000"),
INST(&V::vfp2_VMOV_f32_u32, "VMOV (f32 to core)", "cccc11100001nnnntttt1010N0010000"),
INST(&V::vfp2_VMOV_2u32_2f32, "VMOV (2xcore to 2xf32)", "cccc11000100uuuutttt101000M1mmmm"),
INST(&V::vfp2_VMOV_2f32_2u32, "VMOV (2xf32 to 2xcore)", "cccc11000101uuuutttt101000M1mmmm"),
INST(&V::vfp2_VMOV_2u32_f64, "VMOV (2xcore to f64)", "cccc11000100uuuutttt101100M1mmmm"),
INST(&V::vfp2_VMOV_f64_2u32, "VMOV (f64 to 2xcore)", "cccc11000101uuuutttt101100M1mmmm"),
INST(&V::vfp2_VMOV_reg, "VMOV (reg)", "cccc11101D110000dddd101z01M0mmmm"),
// Floating-point other instructions
INST(&V::vfp2_VABS, "VABS", "cccc11101D110000dddd101z11M0mmmm"),
INST(&V::vfp2_VNEG, "VNEG", "cccc11101D110001dddd101z01M0mmmm"),
INST(&V::vfp2_VSQRT, "VSQRT", "cccc11101D110001dddd101z11M0mmmm"),
INST(&V::vfp2_VCVT_f_to_f, "VCVT (f32<->f64)", "cccc11101D110111dddd101z11M0mmmm"),
INST(&V::vfp2_VCVT_to_float, "VCVT (to float)", "cccc11101D111000dddd101zs1M0mmmm"),
INST(&V::vfp2_VCVT_to_u32, "VCVT (to u32)", "cccc11101D111100dddd101zr1M0mmmm"),
INST(&V::vfp2_VCVT_to_s32, "VCVT (to s32)", "cccc11101D111101dddd101zr1M0mmmm"),
INST(&V::vfp2_VCMP, "VCMP", "cccc11101D110100dddd101zE1M0mmmm"),
INST(&V::vfp2_VCMP_zero, "VCMP (with zero)", "cccc11101D110101dddd101zE1000000"),
// Floating-point system register access
INST(&V::vfp2_VMSR, "VMSR", "cccc111011100001tttt101000010000"),
INST(&V::vfp2_VMRS, "VMRS", "cccc111011110001tttt101000010000"),
// Extension register load-store instructions
INST(&V::vfp2_VPUSH, "VPUSH", "cccc11010D101101dddd101zvvvvvvvv"),
INST(&V::vfp2_VPOP, "VPOP", "cccc11001D111101dddd101zvvvvvvvv"),
INST(&V::vfp2_VLDR, "VLDR", "cccc1101UD01nnnndddd101zvvvvvvvv"),
INST(&V::vfp2_VSTR, "VSTR", "cccc1101UD00nnnndddd101zvvvvvvvv"),
INST(&V::vfp2_VSTM_a1, "VSTM (A1)", "cccc110puDw0nnnndddd1011vvvvvvvv"),
INST(&V::vfp2_VSTM_a2, "VSTM (A2)", "cccc110puDw0nnnndddd1010vvvvvvvv"),
INST(&V::vfp2_VLDM_a1, "VLDM (A1)", "cccc110puDw1nnnndddd1011vvvvvvvv"),
INST(&V::vfp2_VLDM_a2, "VLDM (A2)", "cccc110puDw1nnnndddd1010vvvvvvvv"),
#undef INST
};
if ((instruction & 0xF0000000) == 0xF0000000)
return boost::none; // Don't try matching any unconditional instructions.
const auto matches_instruction = [instruction](const auto& matcher){ return matcher.Matches(instruction); };
auto iter = std::find_if(table.begin(), table.end(), matches_instruction);
return iter != table.end() ? boost::make_optional<const VFP2Matcher<V>&>(*iter) : boost::none;
}
} // namespace Arm
} // namespace Dynarmic