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4 commits
master ... fix-fibers

Author SHA1 Message Date
lizzie
91bba6825d
fix fix fix fix license 
Signed-off-by: lizzie <lizzie@eden-emu.dev>
 2025-10-22 03:41:35 +00:00
crueter
6d9ba6af39
fix boost again 
Signed-off-by: crueter <crueter@eden-emu.dev>
 2025-10-22 03:38:32 +00:00
crueter
387dd95404
[cmake] proper link to Boost::context 
Signed-off-by: crueter <crueter@eden-emu.dev>
 2025-10-22 03:38:32 +00:00
lizzie
0c77f965db
[common] fix fibers 
Signed-off-by: lizzie <lizzie@eden-emu.dev>
 2025-10-22 03:29:02 +00:00
14 changed files with 350 additions and 2402 deletions
Download patch file Download diff file Expand all files Collapse all files

14
CMakeLists.txt
View file

@ -183,8 +183,7 @@ option(YUZU_USE_QT_MULTIMEDIA "Use QtMultimedia for Camera" OFF)
option(YUZU_USE_QT_WEB_ENGINE "Use QtWebEngine for web applet implementation" OFF)
set(YUZU_QT_MIRROR "" CACHE STRING "What mirror to use for downloading the bundled Qt libraries")
# FreeBSD doesn't have a cubeb port yet, vendoring it isn't required (it's optional anyways)
cmake_dependent_option(ENABLE_CUBEB "Enables the cubeb audio backend" ON "NOT PLATFORM_FREEBSD" OFF)
option(ENABLE_CUBEB "Enables the cubeb audio backend" ON)
set(EXT_DEFAULT OFF)
if (MSVC OR ANDROID)
@ -199,8 +198,7 @@ cmake_dependent_option(YUZU_USE_EXTERNAL_FFMPEG "Build FFmpeg from source" "${PL
# sirit
option(YUZU_USE_BUNDLED_SIRIT "Download bundled sirit" ${EXT_DEFAULT})
# Re-allow on FreeBSD once its on mainline ports
cmake_dependent_option(ENABLE_LIBUSB "Enable the use of LibUSB" ON "WIN32 OR PLATFORM_LINUX OR APPLE" OFF)
cmake_dependent_option(ENABLE_LIBUSB "Enable the use of LibUSB" ON "NOT ANDROID" OFF)
cmake_dependent_option(ENABLE_OPENGL "Enable OpenGL" ON "NOT WIN32 OR NOT ARCHITECTURE_arm64" OFF)
mark_as_advanced(FORCE ENABLE_OPENGL)
@ -477,6 +475,8 @@ if (YUZU_USE_CPM)
target_compile_options(boost_icl INTERFACE -Wno-shadow)
target_compile_options(boost_asio INTERFACE -Wno-conversion -Wno-implicit-fallthrough)
endif()
elseif (PLATFORM_LINUX OR APPLE)
find_package(Boost 1.57.0 REQUIRED headers context system fiber)
endif()
# fmt
@ -539,7 +539,11 @@ else()
find_package(zstd 1.5 REQUIRED MODULE)
# wow
find_package(Boost 1.57.0 CONFIG REQUIRED OPTIONAL_COMPONENTS headers context system fiber)
if (PLATFORM_LINUX OR APPLE)
find_package(Boost 1.57.0 REQUIRED headers context system fiber)
else()
find_package(Boost 1.57.0 REQUIRED)
endif()
if (CMAKE_SYSTEM_NAME STREQUAL "Linux" OR ANDROID)
find_package(gamemode 1.7 MODULE)

4
src/common/CMakeLists.txt
View file

@ -258,6 +258,10 @@ else()
target_link_libraries(common PUBLIC Boost::headers)
endif()
if (TARGET Boost::context)
target_link_libraries(common PUBLIC Boost::context)
endif()
if (lz4_ADDED)
target_include_directories(common PRIVATE ${lz4_SOURCE_DIR}/lib)
endif()

157
src/common/fiber.cpp
View file

@ -1,3 +1,6 @@
// SPDX-FileCopyrightText: Copyright 2025 Eden Emulator Project
// SPDX-License-Identifier: GPL-3.0-or-later
// SPDX-FileCopyrightText: Copyright 2020 yuzu Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
@ -5,47 +8,87 @@
#include "common/assert.h"
#include "common/fiber.h"
#define MCO_USE_VMEM_ALLOCATOR
#define MINICORO_IMPL
#include "common/minicoro.h"
#include "common/virtual_buffer.h"
#include <boost/context/detail/fcontext.hpp>
namespace Common {
constexpr std::size_t default_stack_size = 512 * 1024;
struct Fiber::FiberImpl {
FiberImpl() {}
FiberImpl() : stack{default_stack_size}, rewind_stack{default_stack_size} {}
VirtualBuffer<u8> stack;
VirtualBuffer<u8> rewind_stack;
std::mutex guard;
bool released{};
bool is_thread_fiber{};
Fiber* next_fiber{};
Fiber** next_fiber_ptr;
std::function<void()> entry_point;
std::function<void()> rewind_point;
std::shared_ptr<Fiber> previous_fiber;
bool is_thread_fiber{};
bool released{};
mco_coro* context;
u8* stack_limit{};
u8* rewind_stack_limit{};
boost::context::detail::fcontext_t context{};
boost::context::detail::fcontext_t rewind_context{};
};
Fiber::Fiber() : impl{std::make_unique<FiberImpl>()} {
impl->is_thread_fiber = true;
void Fiber::SetRewindPoint(std::function<void()>&& rewind_func) {
impl->rewind_point = std::move(rewind_func);
}
void Fiber::Start(boost::context::detail::transfer_t& transfer) {
ASSERT(impl->previous_fiber != nullptr);
impl->previous_fiber->impl->context = transfer.fctx;
impl->previous_fiber->impl->guard.unlock();
impl->previous_fiber.reset();
impl->entry_point();
UNREACHABLE();
}
void Fiber::OnRewind([[maybe_unused]] boost::context::detail::transfer_t& transfer) {
ASSERT(impl->context != nullptr);
impl->context = impl->rewind_context;
impl->rewind_context = nullptr;
u8* tmp = impl->stack_limit;
impl->stack_limit = impl->rewind_stack_limit;
impl->rewind_stack_limit = tmp;
impl->rewind_point();
UNREACHABLE();
}
void Fiber::FiberStartFunc(boost::context::detail::transfer_t transfer) {
auto* fiber = static_cast<Fiber*>(transfer.data);
fiber->Start(transfer);
}
void Fiber::RewindStartFunc(boost::context::detail::transfer_t transfer) {
auto* fiber = static_cast<Fiber*>(transfer.data);
fiber->OnRewind(transfer);
}
Fiber::Fiber(std::function<void()>&& entry_point_func) : impl{std::make_unique<FiberImpl>()} {
impl->entry_point = std::move(entry_point_func);
auto desc = mco_desc_init(
[](mco_coro* coro) { reinterpret_cast<Fiber*>(coro->user_data)->impl->entry_point(); }, 0);
desc.user_data = this;
mco_result res = mco_create(&impl->context, &desc);
ASSERT(res == MCO_SUCCESS);
impl->stack_limit = impl->stack.data();
impl->rewind_stack_limit = impl->rewind_stack.data();
u8* stack_base = impl->stack_limit + default_stack_size;
impl->context =
boost::context::detail::make_fcontext(stack_base, impl->stack.size(), FiberStartFunc);
}
Fiber::Fiber() : impl{std::make_unique<FiberImpl>()} {}
Fiber::~Fiber() {
if (impl->released) {
return;
}
DestroyPre();
if (impl->is_thread_fiber) {
DestroyThreadFiber();
} else {
DestroyWorkFiber();
// Make sure the Fiber is not being used
const bool locked = impl->guard.try_lock();
ASSERT_MSG(locked, "Destroying a fiber that's still running");
if (locked) {
impl->guard.unlock();
}
}
@ -54,66 +97,42 @@ void Fiber::Exit() {
if (!impl->is_thread_fiber) {
return;
}
DestroyPre();
DestroyThreadFiber();
}
void Fiber::DestroyPre() {
// Make sure the Fiber is not being used
const bool locked = impl->guard.try_lock();
ASSERT_MSG(locked, "Destroying a fiber that's still running");
if (locked) {
impl->guard.unlock();
}
impl->guard.unlock();
impl->released = true;
}
void Fiber::DestroyWorkFiber() {
mco_result res = mco_destroy(impl->context);
ASSERT(res == MCO_SUCCESS);
}
void Fiber::DestroyThreadFiber() {
if (*impl->next_fiber_ptr) {
*impl->next_fiber_ptr = nullptr;
}
void Fiber::Rewind() {
ASSERT(impl->rewind_point);
ASSERT(impl->rewind_context == nullptr);
u8* stack_base = impl->rewind_stack_limit + default_stack_size;
impl->rewind_context =
boost::context::detail::make_fcontext(stack_base, impl->stack.size(), RewindStartFunc);
boost::context::detail::jump_fcontext(impl->rewind_context, this);
}
void Fiber::YieldTo(std::weak_ptr<Fiber> weak_from, Fiber& to) {
to.impl->guard.lock();
to.impl->previous_fiber = weak_from.lock();
auto transfer = boost::context::detail::jump_fcontext(to.impl->context, &to);
// "from" might no longer be valid if the thread was killed
if (auto from = weak_from.lock()) {
if (!from->impl->is_thread_fiber) {
// Set next fiber
from->impl->next_fiber = &to;
// Yield from thread
if (!from->impl->released) {
from->impl->guard.unlock();
mco_yield(from->impl->context);
}
} else {
from->impl->guard.lock();
// Keep running next fiber until they've ran out
auto& next_fiber_ptr = from->impl->next_fiber_ptr;
next_fiber_ptr = &from->impl->next_fiber;
*next_fiber_ptr = &to;
for ([[maybe_unused]] unsigned round = 0; *next_fiber_ptr; round++) {
auto next = *next_fiber_ptr;
*next_fiber_ptr = nullptr;
next_fiber_ptr = &next->impl->next_fiber;
// Stop if new thread is thread fiber
if (next->impl->is_thread_fiber)
break;
// Resume new thread
next->impl->guard.lock();
mco_result res = mco_resume(next->impl->context);
ASSERT(res == MCO_SUCCESS);
}
from->impl->guard.unlock();
if (from->impl->previous_fiber == nullptr) {
ASSERT_MSG(false, "previous_fiber is nullptr!");
return;
}
from->impl->previous_fiber->impl->context = transfer.fctx;
from->impl->previous_fiber->impl->guard.unlock();
from->impl->previous_fiber.reset();
}
}
std::shared_ptr<Fiber> Fiber::ThreadToFiber() {
return std::shared_ptr<Fiber>{new Fiber()};
std::shared_ptr<Fiber> fiber = std::shared_ptr<Fiber>{new Fiber()};
fiber->impl->guard.lock();
fiber->impl->is_thread_fiber = true;
return fiber;
}
} // namespace Common

20
src/common/fiber.h
View file

@ -1,3 +1,6 @@
// SPDX-FileCopyrightText: Copyright 2025 Eden Emulator Project
// SPDX-License-Identifier: GPL-3.0-or-later
// SPDX-FileCopyrightText: Copyright 2020 yuzu Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
@ -6,7 +9,9 @@
#include <functional>
#include <memory>
#include "common/minicoro.h"
namespace boost::context::detail {
struct transfer_t;
}
namespace Common {
@ -36,18 +41,25 @@ public:
Fiber(Fiber&&) = default;
Fiber& operator=(Fiber&&) = default;
/// Yields control from Fiber 'from' to Fiber 'to'
/// Fiber 'from' must be the currently running fiber.
static void YieldTo(std::weak_ptr<Fiber> weak_from, Fiber& to);
[[nodiscard]] static std::shared_ptr<Fiber> ThreadToFiber();
void SetRewindPoint(std::function<void()>&& rewind_func);
void Rewind();
/// Only call from main thread's fiber
void Exit();
private:
Fiber();
void DestroyPre();
void DestroyWorkFiber();
void DestroyThreadFiber();
void OnRewind(boost::context::detail::transfer_t& transfer);
void Start(boost::context::detail::transfer_t& transfer);
static void FiberStartFunc(boost::context::detail::transfer_t transfer);
static void RewindStartFunc(boost::context::detail::transfer_t transfer);
struct FiberImpl;
std::unique_ptr<FiberImpl> impl;

2080
src/common/minicoro.h
View file

File diff suppressed because it is too large Load diff

71
src/dynarmic/src/dynarmic/backend/arm64/emit_arm64_vector_floating_point.cpp
View file

@ -1,6 +1,3 @@
// SPDX-FileCopyrightText: Copyright 2025 Eden Emulator Project
// SPDX-License-Identifier: GPL-3.0-or-later
/* This file is part of the dynarmic project.
* Copyright (c) 2022 MerryMage
* SPDX-License-Identifier: 0BSD
@ -569,49 +566,37 @@ void EmitIR<IR::Opcode::FPVectorRecipStepFused64>(oaknut::CodeGenerator& code, E
EmitThreeOpArranged<64>(code, ctx, inst, [&](auto Vresult, auto Va, auto Vb) { code.FRECPS(Vresult, Va, Vb); });
}
/// @brief Assembly thunk "parameters" are in template parameters
/// TODO: we have space for a 5th parameter? :)
template<typename FPT, FP::RoundingMode rounding_mode, bool exact>
static void EmitIRVectorRoundInt16Thunk(VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
for (size_t i = 0; i < output.size(); ++i)
output[i] = FPT(FP::FPRoundInt<FPT>(input[i], fpcr, rounding_mode, exact, fpsr));
}
template<>
void EmitIR<IR::Opcode::FPVectorRoundInt16>(oaknut::CodeGenerator& code, EmitContext& ctx, IR::Inst* inst) {
const auto rounding = FP::RoundingMode(inst->GetArg(1).GetU8());
const auto rounding = static_cast<FP::RoundingMode>(inst->GetArg(1).GetU8());
const bool exact = inst->GetArg(2).GetU1();
// Don't even think about making this a LUT -- it's bad
using FPT = u16; // Yes it's u16, no fsize madness
switch (rounding) {
case FP::RoundingMode::ToNearest_TieEven:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::ToNearest_TieEven, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::ToNearest_TieEven, false>);
break;
case FP::RoundingMode::TowardsPlusInfinity:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::TowardsPlusInfinity, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::TowardsPlusInfinity, false>);
break;
case FP::RoundingMode::TowardsMinusInfinity:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::TowardsMinusInfinity, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::TowardsMinusInfinity, false>);
break;
case FP::RoundingMode::TowardsZero:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::TowardsZero, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::TowardsZero, false>);
break;
case FP::RoundingMode::ToNearest_TieAwayFromZero:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::ToNearest_TieAwayFromZero, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitIRVectorRoundInt16Thunk<FPT, FP::RoundingMode::ToNearest_TieAwayFromZero, false>);
break;
default:
UNREACHABLE();
}
using rounding_list = mp::list<
mp::lift_value<FP::RoundingMode::ToNearest_TieEven>,
mp::lift_value<FP::RoundingMode::TowardsPlusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsMinusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
using exact_list = mp::list<std::true_type, std::false_type>;
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
using FPT = u16;
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
constexpr FP::RoundingMode rounding_mode = mp::get<0, I>::value;
constexpr bool exact = mp::get<1, I>::value;
for (size_t i = 0; i < output.size(); ++i) {
output[i] = static_cast<FPT>(FP::FPRoundInt<FPT>(input[i], fpcr, rounding_mode, exact, fpsr));
}
})};
},
mp::cartesian_product<rounding_list, exact_list>{});
EmitTwoOpFallback<3>(code, ctx, inst, lut.at(std::make_tuple(rounding, exact)));
}
template<>

128
src/dynarmic/src/dynarmic/backend/x64/emit_x64_floating_point.cpp
View file

@ -1071,42 +1071,57 @@ void EmitX64::EmitFPRecipStepFused64(EmitContext& ctx, IR::Inst* inst) {
EmitFPRecipStepFused<64>(code, ctx, inst);
}
/// @brief An assembly thunk for the general rounding of FP
/// Conciously making this be a template, because the cost of comparing "fsize" for every
/// round is not worth it. Remember we are making only 3 copies (u16,u32,u64)
/// Extra args layout:
/// 0-7 rounding_mode
/// 8-15 exact (!= 0)
template<typename FPT>
static u64 EmitFPRoundThunk(u64 input, FP::FPSR& fpsr, FP::FPCR fpcr, u32 extra_args) {
auto const exact = ((extra_args >> 16) & 0xff) != 0;
auto const rounding_mode = FP::RoundingMode((extra_args >> 8) & 0xff);
return FP::FPRoundInt<FPT>(FPT(input), fpcr, rounding_mode, exact, fpsr);
}
static void EmitFPRound(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst, size_t fsize) {
auto const rounding_mode = FP::RoundingMode(inst->GetArg(1).GetU8());
bool const exact = inst->GetArg(2).GetU1();
auto const round_imm = ConvertRoundingModeToX64Immediate(rounding_mode);
const auto rounding_mode = static_cast<FP::RoundingMode>(inst->GetArg(1).GetU8());
const bool exact = inst->GetArg(2).GetU1();
const auto round_imm = ConvertRoundingModeToX64Immediate(rounding_mode);
if (fsize != 16 && code.HasHostFeature(HostFeature::SSE41) && round_imm && !exact) {
fsize == 64
? FPTwoOp<64>(code, ctx, inst, [&](Xbyak::Xmm result) { code.roundsd(result, result, *round_imm); })
: FPTwoOp<32>(code, ctx, inst, [&](Xbyak::Xmm result) { code.roundss(result, result, *round_imm); });
} else {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
// See EmitFPRoundThunk
auto const extra_args = u32(rounding_mode) | (u32(exact) << 8);
ctx.reg_alloc.HostCall(inst, args[0]);
code.lea(code.ABI_PARAM2, code.ptr[code.ABI_JIT_PTR + code.GetJitStateInfo().offsetof_fpsr_exc]);
code.mov(code.ABI_PARAM3.cvt32(), ctx.FPCR().Value());
code.mov(code.ABI_PARAM4.cvt32(), extra_args);
switch (fsize) {
case 64: code.CallFunction(EmitFPRoundThunk<u64>); break;
case 32: code.CallFunction(EmitFPRoundThunk<u32>); break;
case 16: code.CallFunction(EmitFPRoundThunk<u16>); break;
default: UNREACHABLE();
if (fsize == 64) {
FPTwoOp<64>(code, ctx, inst, [&](Xbyak::Xmm result) {
code.roundsd(result, result, *round_imm);
});
} else {
FPTwoOp<32>(code, ctx, inst, [&](Xbyak::Xmm result) {
code.roundss(result, result, *round_imm);
});
}
return;
}
using fsize_list = mp::list<mp::lift_value<size_t(16)>,
mp::lift_value<size_t(32)>,
mp::lift_value<size_t(64)>>;
using rounding_list = mp::list<
mp::lift_value<FP::RoundingMode::ToNearest_TieEven>,
mp::lift_value<FP::RoundingMode::TowardsPlusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsMinusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
using exact_list = mp::list<std::true_type, std::false_type>;
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](u64 input, FP::FPSR& fpsr, FP::FPCR fpcr) {
constexpr size_t fsize = mp::get<0, I>::value;
constexpr FP::RoundingMode rounding_mode = mp::get<1, I>::value;
constexpr bool exact = mp::get<2, I>::value;
using InputSize = mcl::unsigned_integer_of_size<fsize>;
return FP::FPRoundInt<InputSize>(static_cast<InputSize>(input), fpcr, rounding_mode, exact, fpsr);
})};
},
mp::cartesian_product<fsize_list, rounding_list, exact_list>{});
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
ctx.reg_alloc.HostCall(inst, args[0]);
code.lea(code.ABI_PARAM2, code.ptr[code.ABI_JIT_PTR + code.GetJitStateInfo().offsetof_fpsr_exc]);
code.mov(code.ABI_PARAM3.cvt32(), ctx.FPCR().Value());
code.CallFunction(lut.at(std::make_tuple(fsize, rounding_mode, exact)));
}
void EmitX64::EmitFPRoundInt16(EmitContext& ctx, IR::Inst* inst) {
@ -1606,29 +1621,12 @@ void EmitX64::EmitFPDoubleToSingle(EmitContext& ctx, IR::Inst* inst) {
}
}
/// @brief Thunk used in assembly
/// The extra args is conformed as follows:
/// 0-7 fbits
/// 8-15 rounding
/// 16-23 isize
/// 24-31 unsigned_ (!= 0)
/// Better than spamming thousands of templates aye?
template<size_t fsize>
static u64 EmitFPToFixedThunk(u64 input, FP::FPSR& fpsr, FP::FPCR fpcr, u32 extra_args) {
using FPT = mcl::unsigned_integer_of_size<fsize>;
auto const unsigned_ = ((extra_args >> 24) & 0xff) != 0;
auto const isize = ((extra_args >> 16) & 0xff);
auto const rounding = FP::RoundingMode((extra_args >> 8) & 0xff);
auto const fbits = ((extra_args >> 0) & 0xff);
return FP::FPToFixed<FPT>(isize, FPT(input), fbits, unsigned_, fpcr, rounding, fpsr);
}
template<size_t fsize, bool unsigned_, size_t isize>
static void EmitFPToFixed(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
const size_t fbits = args[1].GetImmediateU8();
const auto rounding_mode = FP::RoundingMode(args[2].GetImmediateU8());
const auto rounding_mode = static_cast<FP::RoundingMode>(args[2].GetImmediateU8());
if constexpr (fsize != 16) {
const auto round_imm = ConvertRoundingModeToX64Immediate(rounding_mode);
@ -1734,14 +1732,34 @@ static void EmitFPToFixed(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
return;
}
}
// See EmitFPToFixedThunk
auto const extra_args = (u32(unsigned_) << 24) | (u32(isize) << 16)
| (u32(rounding_mode) << 8) | (u32(fbits));
using fbits_list = mp::lift_sequence<std::make_index_sequence<isize + 1>>;
using rounding_list = mp::list<
mp::lift_value<FP::RoundingMode::ToNearest_TieEven>,
mp::lift_value<FP::RoundingMode::TowardsPlusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsMinusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](u64 input, FP::FPSR& fpsr, FP::FPCR fpcr) {
constexpr size_t fbits = mp::get<0, I>::value;
constexpr FP::RoundingMode rounding_mode = mp::get<1, I>::value;
using FPT = mcl::unsigned_integer_of_size<fsize>;
return FP::FPToFixed<FPT>(isize, static_cast<FPT>(input), fbits, unsigned_, fpcr, rounding_mode, fpsr);
})};
},
mp::cartesian_product<fbits_list, rounding_list>{});
ctx.reg_alloc.HostCall(inst, args[0]);
code.lea(code.ABI_PARAM2, code.ptr[code.ABI_JIT_PTR + code.GetJitStateInfo().offsetof_fpsr_exc]);
code.mov(code.ABI_PARAM3.cvt32(), ctx.FPCR().Value());
code.mov(code.ABI_PARAM4.cvt32(), extra_args);
code.CallFunction(EmitFPToFixedThunk<fsize>);
code.CallFunction(lut.at(std::make_tuple(fbits, rounding_mode)));
}
void EmitX64::EmitFPDoubleToFixedS16(EmitContext& ctx, IR::Inst* inst) {

241
src/dynarmic/src/dynarmic/backend/x64/emit_x64_vector_floating_point.cpp
View file

@ -439,9 +439,9 @@ void EmitThreeOpVectorOperation(BlockOfCode& code, EmitContext& ctx, IR::Inst* i
ctx.reg_alloc.DefineValue(inst, result);
}
template<typename F>
void EmitTwoOpFallbackWithoutRegAlloc(BlockOfCode& code, EmitContext& ctx, Xbyak::Xmm result, Xbyak::Xmm arg1, F lambda, bool fpcr_controlled) {
const auto fn = static_cast<mcl::equivalent_function_type<F>*>(lambda);
template<typename Lambda>
void EmitTwoOpFallbackWithoutRegAlloc(BlockOfCode& code, EmitContext& ctx, Xbyak::Xmm result, Xbyak::Xmm arg1, Lambda lambda, bool fpcr_controlled) {
const auto fn = static_cast<mcl::equivalent_function_type<Lambda>*>(lambda);
const u32 fpcr = ctx.FPCR(fpcr_controlled).Value();
@ -459,8 +459,8 @@ void EmitTwoOpFallbackWithoutRegAlloc(BlockOfCode& code, EmitContext& ctx, Xbyak
code.add(rsp, stack_space + ABI_SHADOW_SPACE);
}
template<size_t fpcr_controlled_arg_index = 1, typename F>
void EmitTwoOpFallback(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst, F lambda) {
template<size_t fpcr_controlled_arg_index = 1, typename Lambda>
void EmitTwoOpFallback(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst, Lambda lambda) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
const Xbyak::Xmm arg1 = ctx.reg_alloc.UseXmm(args[0]);
const Xbyak::Xmm result = ctx.reg_alloc.ScratchXmm();
@ -665,14 +665,8 @@ void EmitX64::EmitFPVectorEqual64(EmitContext& ctx, IR::Inst* inst) {
ctx.reg_alloc.DefineValue(inst, a);
}
template<FP::RoundingMode rounding_mode>
static void EmitFPVectorFromHalf32Thunk(VectorArray<u32>& output, const VectorArray<u16>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
for (size_t i = 0; i < output.size(); ++i)
output[i] = FP::FPConvert<u32, u16>(input[i], fpcr, rounding_mode, fpsr);
}
void EmitX64::EmitFPVectorFromHalf32(EmitContext& ctx, IR::Inst* inst) {
const auto rounding_mode = FP::RoundingMode(inst->GetArg(1).GetU8());
const auto rounding_mode = static_cast<FP::RoundingMode>(inst->GetArg(1).GetU8());
const bool fpcr_controlled = inst->GetArg(2).GetU1();
if (code.HasHostFeature(HostFeature::F16C) && !ctx.FPCR().AHP() && !ctx.FPCR().FZ16()) {
@ -685,27 +679,32 @@ void EmitX64::EmitFPVectorFromHalf32(EmitContext& ctx, IR::Inst* inst) {
ForceToDefaultNaN<32>(code, ctx.FPCR(fpcr_controlled), result);
ctx.reg_alloc.DefineValue(inst, result);
} else {
switch (rounding_mode) {
case FP::RoundingMode::ToNearest_TieEven:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorFromHalf32Thunk<FP::RoundingMode::ToNearest_TieEven>);
break;
case FP::RoundingMode::TowardsPlusInfinity:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorFromHalf32Thunk<FP::RoundingMode::TowardsPlusInfinity>);
break;
case FP::RoundingMode::TowardsMinusInfinity:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorFromHalf32Thunk<FP::RoundingMode::TowardsMinusInfinity>);
break;
case FP::RoundingMode::TowardsZero:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorFromHalf32Thunk<FP::RoundingMode::TowardsZero>);
break;
case FP::RoundingMode::ToNearest_TieAwayFromZero:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorFromHalf32Thunk<FP::RoundingMode::ToNearest_TieAwayFromZero>);
break;
default:
UNREACHABLE();
}
return;
}
using rounding_list = mp::list<
mp::lift_value<FP::RoundingMode::ToNearest_TieEven>,
mp::lift_value<FP::RoundingMode::TowardsPlusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsMinusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](VectorArray<u32>& output, const VectorArray<u16>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
constexpr FP::RoundingMode rounding_mode = mp::get<0, I>::value;
for (size_t i = 0; i < output.size(); ++i) {
output[i] = FP::FPConvert<u32, u16>(input[i], fpcr, rounding_mode, fpsr);
}
})};
},
mp::cartesian_product<rounding_list>{});
EmitTwoOpFallback<2>(code, ctx, inst, lut.at(std::make_tuple(rounding_mode)));
}
void EmitX64::EmitFPVectorFromSignedFixed32(EmitContext& ctx, IR::Inst* inst) {
@ -1682,26 +1681,25 @@ void EmitX64::EmitFPVectorRecipStepFused64(EmitContext& ctx, IR::Inst* inst) {
EmitRecipStepFused<64>(code, ctx, inst);
}
template<typename FPT, FP::RoundingMode rounding_mode, bool exact>
static void EmitFPVectorRoundIntThunk(VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
for (size_t i = 0; i < output.size(); ++i)
output[i] = FPT(FP::FPRoundInt<FPT>(input[i], fpcr, rounding_mode, exact, fpsr));
}
template<size_t fsize>
void EmitFPVectorRoundInt(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
const auto rounding = FP::RoundingMode(inst->GetArg(1).GetU8());
const auto rounding = static_cast<FP::RoundingMode>(inst->GetArg(1).GetU8());
const bool exact = inst->GetArg(2).GetU1();
if constexpr (fsize != 16) {
if (code.HasHostFeature(HostFeature::SSE41) && rounding != FP::RoundingMode::ToNearest_TieAwayFromZero && !exact) {
const u8 round_imm = [&]() -> u8 {
switch (rounding) {
case FP::RoundingMode::ToNearest_TieEven: return 0b00;
case FP::RoundingMode::TowardsPlusInfinity: return 0b10;
case FP::RoundingMode::TowardsMinusInfinity: return 0b01;
case FP::RoundingMode::TowardsZero: return 0b11;
default: UNREACHABLE();
case FP::RoundingMode::ToNearest_TieEven:
return 0b00;
case FP::RoundingMode::TowardsPlusInfinity:
return 0b10;
case FP::RoundingMode::TowardsMinusInfinity:
return 0b01;
case FP::RoundingMode::TowardsZero:
return 0b11;
default:
UNREACHABLE();
}
}();
@ -1713,37 +1711,32 @@ void EmitFPVectorRoundInt(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
}
}
// Do not make a LUT out of this, let the compiler do it's thing
using FPT = mcl::unsigned_integer_of_size<fsize>;
switch (rounding) {
case FP::RoundingMode::ToNearest_TieEven:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::ToNearest_TieEven, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::ToNearest_TieEven, false>);
break;
case FP::RoundingMode::TowardsPlusInfinity:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::TowardsPlusInfinity, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::TowardsPlusInfinity, false>);
break;
case FP::RoundingMode::TowardsMinusInfinity:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::TowardsMinusInfinity, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::TowardsMinusInfinity, false>);
break;
case FP::RoundingMode::TowardsZero:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::TowardsZero, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::TowardsZero, false>);
break;
case FP::RoundingMode::ToNearest_TieAwayFromZero:
exact
? EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::ToNearest_TieAwayFromZero, true>)
: EmitTwoOpFallback<3>(code, ctx, inst, EmitFPVectorRoundIntThunk<FPT, FP::RoundingMode::ToNearest_TieAwayFromZero, false>);
break;
default:
UNREACHABLE();
}
using rounding_list = mp::list<
mp::lift_value<FP::RoundingMode::ToNearest_TieEven>,
mp::lift_value<FP::RoundingMode::TowardsPlusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsMinusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
using exact_list = mp::list<std::true_type, std::false_type>;
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
using FPT = mcl::unsigned_integer_of_size<fsize>; // WORKAROUND: For issue 678 on MSVC
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
constexpr FP::RoundingMode rounding_mode = mp::get<0, I>::value;
constexpr bool exact = mp::get<1, I>::value;
for (size_t i = 0; i < output.size(); ++i) {
output[i] = static_cast<FPT>(FP::FPRoundInt<FPT>(input[i], fpcr, rounding_mode, exact, fpsr));
}
})};
},
mp::cartesian_product<rounding_list, exact_list>{});
EmitTwoOpFallback<3>(code, ctx, inst, lut.at(std::make_tuple(rounding, exact)));
}
void EmitX64::EmitFPVectorRoundInt16(EmitContext& ctx, IR::Inst* inst) {
@ -1972,14 +1965,8 @@ void EmitX64::EmitFPVectorSub64(EmitContext& ctx, IR::Inst* inst) {
EmitThreeOpVectorOperation<64, DefaultIndexer>(code, ctx, inst, &Xbyak::CodeGenerator::subpd);
}
template<FP::RoundingMode rounding_mode>
static void EmitFPVectorToHalf32Thunk(VectorArray<u16>& output, const VectorArray<u32>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
for (size_t i = 0; i < output.size(); ++i)
output[i] = i < input.size() ? FP::FPConvert<u16, u32>(input[i], fpcr, rounding_mode, fpsr) : 0;
}
void EmitX64::EmitFPVectorToHalf32(EmitContext& ctx, IR::Inst* inst) {
const auto rounding_mode = FP::RoundingMode(inst->GetArg(1).GetU8());
const auto rounding_mode = static_cast<FP::RoundingMode>(inst->GetArg(1).GetU8());
const bool fpcr_controlled = inst->GetArg(2).GetU1();
if (code.HasHostFeature(HostFeature::F16C) && !ctx.FPCR().AHP() && !ctx.FPCR().FZ16()) {
@ -1989,38 +1976,40 @@ void EmitX64::EmitFPVectorToHalf32(EmitContext& ctx, IR::Inst* inst) {
const Xbyak::Xmm result = ctx.reg_alloc.UseScratchXmm(args[0]);
ForceToDefaultNaN<32>(code, ctx.FPCR(fpcr_controlled), result);
code.vcvtps2ph(result, result, u8(*round_imm));
code.vcvtps2ph(result, result, static_cast<u8>(*round_imm));
ctx.reg_alloc.DefineValue(inst, result);
} else {
switch (rounding_mode) {
case FP::RoundingMode::ToNearest_TieEven:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorToHalf32Thunk<FP::RoundingMode::ToNearest_TieEven>);
break;
case FP::RoundingMode::TowardsPlusInfinity:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorToHalf32Thunk<FP::RoundingMode::TowardsPlusInfinity>);
break;
case FP::RoundingMode::TowardsMinusInfinity:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorToHalf32Thunk<FP::RoundingMode::TowardsMinusInfinity>);
break;
case FP::RoundingMode::TowardsZero:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorToHalf32Thunk<FP::RoundingMode::TowardsZero>);
break;
case FP::RoundingMode::ToNearest_TieAwayFromZero:
EmitTwoOpFallback<2>(code, ctx, inst, EmitFPVectorToHalf32Thunk<FP::RoundingMode::ToNearest_TieAwayFromZero>);
break;
default:
UNREACHABLE();
}
return;
}
}
// Assembly thunk; just remember not to specialise too much otherwise i-cache death!
// template<typename FPT, size_t fbits, FP::RoundingMode rounding_mode>
// static void EmitFPVectorToFixedThunk(VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
// for (size_t i = 0; i < output.size(); ++i)
// output[i] = FPT(FP::FPToFixed<FPT>(fsize, input[i], fbits, unsigned_, fpcr, rounding_mode, fpsr));
// }
using rounding_list = mp::list<
mp::lift_value<FP::RoundingMode::ToNearest_TieEven>,
mp::lift_value<FP::RoundingMode::TowardsPlusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsMinusInfinity>,
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](VectorArray<u16>& output, const VectorArray<u32>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
constexpr FP::RoundingMode rounding_mode = mp::get<0, I>::value;
for (size_t i = 0; i < output.size(); ++i) {
if (i < input.size()) {
output[i] = FP::FPConvert<u16, u32>(input[i], fpcr, rounding_mode, fpsr);
} else {
output[i] = 0;
}
}
})};
},
mp::cartesian_product<rounding_list>{});
EmitTwoOpFallback<2>(code, ctx, inst, lut.at(std::make_tuple(rounding_mode)));
}
template<size_t fsize, bool unsigned_>
void EmitFPVectorToFixed(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
@ -2119,7 +2108,7 @@ void EmitFPVectorToFixed(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
FCODE(andp)(tmp, xmm0);
FCODE(subp)(src, tmp);
perform_conversion(src);
ICODE(psll)(xmm0, u8(fsize - 1));
ICODE(psll)(xmm0, static_cast<u8>(fsize - 1));
FCODE(orp)(src, xmm0);
// Saturate to max
@ -2127,7 +2116,7 @@ void EmitFPVectorToFixed(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
}
} else {
using FPT = mcl::unsigned_integer_of_size<fsize>; // WORKAROUND: For issue 678 on MSVC
constexpr u64 integer_max = FPT((std::numeric_limits<std::conditional_t<unsigned_, FPT, std::make_signed_t<FPT>>>::max)());
constexpr u64 integer_max = static_cast<FPT>((std::numeric_limits<std::conditional_t<unsigned_, FPT, std::make_signed_t<FPT>>>::max)());
code.movaps(xmm0, GetVectorOf<fsize, float_upper_limit_signed>(code));
FCODE(cmplep)(xmm0, src);
@ -2149,18 +2138,22 @@ void EmitFPVectorToFixed(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
mp::lift_value<FP::RoundingMode::TowardsZero>,
mp::lift_value<FP::RoundingMode::ToNearest_TieAwayFromZero>>;
static const auto lut = Common::GenerateLookupTableFromList([]<typename I>(I) {
using FPT = mcl::unsigned_integer_of_size<fsize>; // WORKAROUND: For issue 678 on MSVC
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast([](VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
constexpr size_t fbits = mp::get<0, I>::value;
constexpr FP::RoundingMode rounding_mode = mp::get<1, I>::value;
for (size_t i = 0; i < output.size(); ++i)
output[i] = FPT(FP::FPToFixed<FPT>(fsize, input[i], fbits, unsigned_, fpcr, rounding_mode, fpsr));
})
};
}, mp::cartesian_product<fbits_list, rounding_list>{});
static const auto lut = Common::GenerateLookupTableFromList(
[]<typename I>(I) {
using FPT = mcl::unsigned_integer_of_size<fsize>; // WORKAROUND: For issue 678 on MSVC
return std::pair{
mp::lower_to_tuple_v<I>,
Common::FptrCast(
[](VectorArray<FPT>& output, const VectorArray<FPT>& input, FP::FPCR fpcr, FP::FPSR& fpsr) {
constexpr size_t fbits = mp::get<0, I>::value;
constexpr FP::RoundingMode rounding_mode = mp::get<1, I>::value;
for (size_t i = 0; i < output.size(); ++i) {
output[i] = static_cast<FPT>(FP::FPToFixed<FPT>(fsize, input[i], fbits, unsigned_, fpcr, rounding_mode, fpsr));
}
})};
},
mp::cartesian_product<fbits_list, rounding_list>{});
EmitTwoOpFallback<3>(code, ctx, inst, lut.at(std::make_tuple(fbits, rounding)));
}

3
src/dynarmic/src/dynarmic/common/fp/rounding_mode.h
View file

@ -1,6 +1,3 @@
// SPDX-FileCopyrightText: Copyright 2025 Eden Emulator Project
// SPDX-License-Identifier: GPL-3.0-or-later
/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD

2
src/dynarmic/src/dynarmic/common/lut_from_list.h
View file

@ -40,7 +40,9 @@ inline auto GenerateLookupTableFromList(Function f, mcl::mp::list<Values...>) {
using PairT = std::common_type_t<std::invoke_result_t<Function, Values>...>;
#endif
using MapT = mcl::mp::apply<std::map, PairT>;
static_assert(mcl::is_instance_of_template_v<std::pair, PairT>);
const std::initializer_list<PairT> pair_array{f(Values{})...};
return MapT(pair_array.begin(), pair_array.end());
}

5
src/input_common/CMakeLists.txt
View file

@ -1,6 +1,3 @@
# SPDX-FileCopyrightText: Copyright 2025 Eden Emulator Project
# SPDX-License-Identifier: GPL-3.0-or-later
# SPDX-FileCopyrightText: 2018 yuzu Emulator Project
# SPDX-License-Identifier: GPL-2.0-or-later
@ -86,7 +83,7 @@ if (ENABLE_LIBUSB)
drivers/gc_adapter.h
)
target_link_libraries(input_common PRIVATE libusb::usb)
target_compile_definitions(input_common PRIVATE ENABLE_LIBUSB)
target_compile_definitions(input_common PRIVATE HAVE_LIBUSB)
endif()
create_target_directory_groups(input_common)

21
src/input_common/main.cpp
View file

@ -1,6 +1,3 @@
// SPDX-FileCopyrightText: Copyright 2025 Eden Emulator Project
// SPDX-License-Identifier: GPL-3.0-or-later
// SPDX-FileCopyrightText: 2017 Citra Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
@ -22,7 +19,7 @@
#include "input_common/input_poller.h"
#include "input_common/main.h"
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
#include "input_common/drivers/gc_adapter.h"
#endif
#ifdef HAVE_SDL2
@ -79,7 +76,7 @@ struct InputSubsystem::Impl {
RegisterEngine("keyboard", keyboard);
RegisterEngine("mouse", mouse);
RegisterEngine("touch", touch_screen);
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
RegisterEngine("gcpad", gcadapter);
#endif
RegisterEngine("cemuhookudp", udp_client);
@ -113,7 +110,7 @@ struct InputSubsystem::Impl {
UnregisterEngine(keyboard);
UnregisterEngine(mouse);
UnregisterEngine(touch_screen);
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
UnregisterEngine(gcadapter);
#endif
UnregisterEngine(udp_client);
@ -148,7 +145,7 @@ struct InputSubsystem::Impl {
auto android_devices = android->GetInputDevices();
devices.insert(devices.end(), android_devices.begin(), android_devices.end());
#endif
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
auto gcadapter_devices = gcadapter->GetInputDevices();
devices.insert(devices.end(), gcadapter_devices.begin(), gcadapter_devices.end());
#endif
@ -181,7 +178,7 @@ struct InputSubsystem::Impl {
return android;
}
#endif
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
if (engine == gcadapter->GetEngineName()) {
return gcadapter;
}
@ -266,7 +263,7 @@ struct InputSubsystem::Impl {
return true;
}
#endif
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
if (engine == gcadapter->GetEngineName()) {
return true;
}
@ -297,7 +294,7 @@ struct InputSubsystem::Impl {
#ifdef ANDROID
android->BeginConfiguration();
#endif
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
gcadapter->BeginConfiguration();
#endif
udp_client->BeginConfiguration();
@ -313,7 +310,7 @@ struct InputSubsystem::Impl {
#ifdef ANDROID
android->EndConfiguration();
#endif
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
gcadapter->EndConfiguration();
#endif
udp_client->EndConfiguration();
@ -346,7 +343,7 @@ struct InputSubsystem::Impl {
std::shared_ptr<VirtualAmiibo> virtual_amiibo;
std::shared_ptr<VirtualGamepad> virtual_gamepad;
#ifdef ENABLE_LIBUSB
#ifdef HAVE_LIBUSB
std::shared_ptr<GCAdapter> gcadapter;
#endif

4
src/shader_recompiler/frontend/maxwell/translate/impl/surface_atomic_operations.cpp
View file

@ -78,11 +78,11 @@ IR::Value MakeCoords(TranslatorVisitor& v, IR::Reg reg, Type type) {
case Type::_1D:
case Type::_1D_BUFFER:
return v.X(reg);
case Type::_1D_ARRAY:
case Type::ARRAY_1D:
return v.ir.CompositeConstruct(v.X(reg), array(1));
case Type::_2D:
return v.ir.CompositeConstruct(v.X(reg), v.X(reg + 1));
case Type::_2D_ARRAY:
case Type::ARRAY_2D:
return v.ir.CompositeConstruct(v.X(reg), v.X(reg + 1), array(2));
case Type::_3D:
return v.ir.CompositeConstruct(v.X(reg), v.X(reg + 1), v.X(reg + 2));

2
src/video_core/renderer_opengl/gl_device.cpp
View file

@ -243,7 +243,7 @@ Device::Device(Core::Frontend::EmuWindow& emu_window) {
}
if (shader_backend == Settings::ShaderBackend::Glsl && is_nvidia) {
const std::string driver_version = version.substr(13);
const std::string_view driver_version = version.substr(13);
const int version_major =
std::atoi(driver_version.substr(0, driver_version.find(".")).data());
if (version_major >= 495) {