early-access version 3352

This commit is contained in:
pineappleEA 2023-01-30 16:29:43 +01:00
parent 3ee566278a
commit 8c756f4f3a
33 changed files with 239 additions and 209 deletions

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@ -514,7 +514,7 @@ endif()
# against all the src files. This should be used before making a pull request.
# =======================================================================
set(CLANG_FORMAT_POSTFIX "-12")
set(CLANG_FORMAT_POSTFIX "-15")
find_program(CLANG_FORMAT
NAMES clang-format${CLANG_FORMAT_POSTFIX}
clang-format

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@ -1,7 +1,7 @@
yuzu emulator early access
=============
This is the source code for early-access 3351.
This is the source code for early-access 3352.
## Legal Notice

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@ -12,7 +12,8 @@
namespace Common {
template <typename VaType, size_t AddressSpaceBits>
concept AddressSpaceValid = std::is_unsigned_v<VaType> && sizeof(VaType) * 8 >= AddressSpaceBits;
concept AddressSpaceValid = std::is_unsigned_v<VaType> && sizeof(VaType) * 8 >=
AddressSpaceBits;
struct EmptyStruct {};

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@ -242,7 +242,9 @@ public:
template <typename T>
concept HasRedBlackKeyType = requires {
{ std::is_same<typename T::RedBlackKeyType, void>::value } -> std::convertible_to<bool>;
{
std::is_same<typename T::RedBlackKeyType, void>::value
} -> std::convertible_to<bool>;
};
namespace impl {

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@ -9,12 +9,14 @@
namespace Common {
template <class T>
requires(!std::is_array_v<T>) std::unique_ptr<T> make_unique_for_overwrite() {
requires(!std::is_array_v<T>)
std::unique_ptr<T> make_unique_for_overwrite() {
return std::unique_ptr<T>(new T);
}
template <class T>
requires std::is_unbounded_array_v<T> std::unique_ptr<T> make_unique_for_overwrite(std::size_t n) {
requires std::is_unbounded_array_v<T>
std::unique_ptr<T> make_unique_for_overwrite(std::size_t n) {
return std::unique_ptr<T>(new std::remove_extent_t<T>[n]);
}

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@ -131,7 +131,8 @@ public:
* @param default_val Intial value of the setting, and default value of the setting
* @param name Label for the setting
*/
explicit Setting(const Type& default_val, const std::string& name) requires(!ranged)
explicit Setting(const Type& default_val, const std::string& name)
requires(!ranged)
: value{default_val}, default_value{default_val}, label{name} {}
virtual ~Setting() = default;
@ -144,7 +145,8 @@ public:
* @param name Label for the setting
*/
explicit Setting(const Type& default_val, const Type& min_val, const Type& max_val,
const std::string& name) requires(ranged)
const std::string& name)
requires(ranged)
: value{default_val},
default_value{default_val}, maximum{max_val}, minimum{min_val}, label{name} {}
@ -232,7 +234,8 @@ public:
* @param default_val Intial value of the setting, and default value of the setting
* @param name Label for the setting
*/
explicit SwitchableSetting(const Type& default_val, const std::string& name) requires(!ranged)
explicit SwitchableSetting(const Type& default_val, const std::string& name)
requires(!ranged)
: Setting<Type>{default_val, name} {}
virtual ~SwitchableSetting() = default;
@ -245,7 +248,8 @@ public:
* @param name Label for the setting
*/
explicit SwitchableSetting(const Type& default_val, const Type& min_val, const Type& max_val,
const std::string& name) requires(ranged)
const std::string& name)
requires(ranged)
: Setting<Type, true>{default_val, min_val, max_val, name} {}
/**

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@ -348,9 +348,7 @@ public:
// _DEFINE_SWIZZLER2 defines a single such function, DEFINE_SWIZZLER2 defines all of them for all
// component names (x<->r) and permutations (xy<->yx)
#define _DEFINE_SWIZZLER2(a, b, name) \
[[nodiscard]] constexpr Vec2<T> name() const { \
return Vec2<T>(a, b); \
}
[[nodiscard]] constexpr Vec2<T> name() const { return Vec2<T>(a, b); }
#define DEFINE_SWIZZLER2(a, b, a2, b2, a3, b3, a4, b4) \
_DEFINE_SWIZZLER2(a, b, a##b); \
_DEFINE_SWIZZLER2(a, b, a2##b2); \
@ -543,9 +541,7 @@ public:
// DEFINE_SWIZZLER2_COMP2 defines two component functions for all component names (x<->r) and
// permutations (xy<->yx)
#define _DEFINE_SWIZZLER2(a, b, name) \
[[nodiscard]] constexpr Vec2<T> name() const { \
return Vec2<T>(a, b); \
}
[[nodiscard]] constexpr Vec2<T> name() const { return Vec2<T>(a, b); }
#define DEFINE_SWIZZLER2_COMP1(a, a2) \
_DEFINE_SWIZZLER2(a, a, a##a); \
_DEFINE_SWIZZLER2(a, a, a2##a2)
@ -570,9 +566,7 @@ public:
#undef _DEFINE_SWIZZLER2
#define _DEFINE_SWIZZLER3(a, b, c, name) \
[[nodiscard]] constexpr Vec3<T> name() const { \
return Vec3<T>(a, b, c); \
}
[[nodiscard]] constexpr Vec3<T> name() const { return Vec3<T>(a, b, c); }
#define DEFINE_SWIZZLER3_COMP1(a, a2) \
_DEFINE_SWIZZLER3(a, a, a, a##a##a); \
_DEFINE_SWIZZLER3(a, a, a, a2##a2##a2)
@ -641,8 +635,8 @@ template <typename T>
// linear interpolation via float: 0.0=begin, 1.0=end
template <typename X>
[[nodiscard]] constexpr decltype(X{} * float{} + X{} * float{})
Lerp(const X& begin, const X& end, const float t) {
[[nodiscard]] constexpr decltype(X{} * float{} + X{} * float{}) Lerp(const X& begin, const X& end,
const float t) {
return begin * (1.f - t) + end * t;
}

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@ -24,9 +24,7 @@ private:
friend class ::Kernel::KClassTokenGenerator; \
static constexpr inline auto ObjectType = ::Kernel::KClassTokenGenerator::ObjectType::CLASS; \
static constexpr inline const char* const TypeName = #CLASS; \
static constexpr inline ClassTokenType ClassToken() { \
return ::Kernel::ClassToken<CLASS>; \
} \
static constexpr inline ClassTokenType ClassToken() { return ::Kernel::ClassToken<CLASS>; } \
\
public: \
YUZU_NON_COPYABLE(CLASS); \
@ -37,15 +35,9 @@ public:
constexpr ClassTokenType Token = ClassToken(); \
return TypeObj(TypeName, Token); \
} \
static constexpr const char* GetStaticTypeName() { \
return TypeName; \
} \
virtual TypeObj GetTypeObj() ATTRIBUTE { \
return GetStaticTypeObj(); \
} \
virtual const char* GetTypeName() ATTRIBUTE { \
return GetStaticTypeName(); \
} \
static constexpr const char* GetStaticTypeName() { return TypeName; } \
virtual TypeObj GetTypeObj() ATTRIBUTE { return GetStaticTypeObj(); } \
virtual const char* GetTypeName() ATTRIBUTE { return GetStaticTypeName(); } \
\
private: \
constexpr bool operator!=(const TypeObj& rhs)
@ -245,8 +237,8 @@ public:
}
template <typename U>
requires(std::derived_from<T, U> ||
std::derived_from<U, T>) constexpr KScopedAutoObject(KScopedAutoObject<U>&& rhs) {
requires(std::derived_from<T, U> || std::derived_from<U, T>)
constexpr KScopedAutoObject(KScopedAutoObject<U>&& rhs) {
if constexpr (std::derived_from<U, T>) {
// Upcast.
m_obj = rhs.m_obj;

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@ -17,7 +17,8 @@ namespace Kernel {
class KThread;
template <typename T>
concept KPriorityQueueAffinityMask = !std::is_reference_v<T> && requires(T & t) {
concept KPriorityQueueAffinityMask = !
std::is_reference_v<T>&& requires(T& t) {
{ t.GetAffinityMask() } -> Common::ConvertibleTo<u64>;
{ t.SetAffinityMask(0) };
@ -27,17 +28,22 @@ concept KPriorityQueueAffinityMask = !std::is_reference_v<T> && requires(T & t)
};
template <typename T>
concept KPriorityQueueMember = !std::is_reference_v<T> && requires(T & t) {
concept KPriorityQueueMember = !
std::is_reference_v<T>&& requires(T& t) {
{ typename T::QueueEntry() };
{ (typename T::QueueEntry()).Initialize() };
{ (typename T::QueueEntry()).SetPrev(std::addressof(t)) };
{ (typename T::QueueEntry()).SetNext(std::addressof(t)) };
{ (typename T::QueueEntry()).GetNext() } -> std::same_as<T*>;
{ (typename T::QueueEntry()).GetPrev() } -> std::same_as<T*>;
{ t.GetPriorityQueueEntry(0) } -> std::same_as<typename T::QueueEntry&>;
{
t.GetPriorityQueueEntry(0)
} -> std::same_as<typename T::QueueEntry&>;
{ t.GetAffinityMask() };
{ std::remove_cvref_t<decltype(t.GetAffinityMask())>() } -> KPriorityQueueAffinityMask;
{
std::remove_cvref_t<decltype(t.GetAffinityMask())>()
} -> KPriorityQueueAffinityMask;
{ t.GetActiveCore() } -> Common::ConvertibleTo<s32>;
{ t.GetPriority() } -> Common::ConvertibleTo<s32>;

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@ -9,7 +9,8 @@
namespace Kernel {
template <typename T>
concept KLockable = !std::is_reference_v<T> && requires(T & t) {
concept KLockable = !
std::is_reference_v<T>&& requires(T& t) {
{ t.Lock() } -> std::same_as<void>;
{ t.Unlock() } -> std::same_as<void>;
};

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@ -698,10 +698,8 @@ private:
};
template <typename T>
requires(
std::same_as<T, KThread> ||
std::same_as<T, RedBlackKeyType>) static constexpr int Compare(const T& lhs,
const KThread& rhs) {
requires(std::same_as<T, KThread> || std::same_as<T, RedBlackKeyType>)
static constexpr int Compare(const T& lhs, const KThread& rhs) {
const u64 l_key = lhs.GetConditionVariableKey();
const u64 r_key = rhs.GetConditionVariableKey();

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@ -70,10 +70,8 @@ public:
}
template <typename T>
requires(std::same_as<T, KThreadLocalPage> ||
std::same_as<T, RedBlackKeyType>) static constexpr int Compare(const T& lhs,
const KThreadLocalPage&
rhs) {
requires(std::same_as<T, KThreadLocalPage> || std::same_as<T, RedBlackKeyType>)
static constexpr int Compare(const T& lhs, const KThreadLocalPage& rhs) {
const VAddr lval = GetRedBlackKey(lhs);
const VAddr rval = GetRedBlackKey(rhs);

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@ -60,7 +60,8 @@ public:
DriverResult SendRawData(std::span<const u8> buffer);
template <typename Output>
requires std::is_trivially_copyable_v<Output> DriverResult SendData(const Output& output) {
requires std::is_trivially_copyable_v<Output>
DriverResult SendData(const Output& output) {
std::array<u8, sizeof(Output)> buffer;
std::memcpy(buffer.data(), &output, sizeof(Output));
return SendRawData(buffer);
@ -115,8 +116,8 @@ public:
* @returns output object containing the response
*/
template <typename Output>
requires std::is_trivially_copyable_v<Output> DriverResult ReadSPI(SpiAddress addr,
Output& output) {
requires std::is_trivially_copyable_v<Output>
DriverResult ReadSPI(SpiAddress addr, Output& output) {
std::array<u8, sizeof(Output)> buffer;
output = {};

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@ -59,6 +59,13 @@ std::string Image(EmitContext& ctx, IR::TextureInstInfo info,
}
}
bool IsTextureMsaa(EmitContext& ctx, const IR::TextureInstInfo& info) {
if (info.type == TextureType::Buffer) {
return false;
}
return ctx.info.texture_descriptors.at(info.descriptor_index).is_multisample;
}
std::string_view TextureType(IR::TextureInstInfo info, bool is_ms = false) {
if (info.is_depth) {
switch (info.type) {
@ -535,7 +542,8 @@ void EmitImageQueryDimensions(EmitContext& ctx, IR::Inst& inst, const IR::Value&
ScalarS32 lod, [[maybe_unused]] const IR::Value& skip_mips) {
const auto info{inst.Flags<IR::TextureInstInfo>()};
const std::string texture{Texture(ctx, info, index)};
const std::string_view type{TextureType(info)};
const bool is_msaa{IsTextureMsaa(ctx, info)};
const std::string_view type{TextureType(info, is_msaa)};
ctx.Add("TXQ {},{},{},{};", inst, lod, texture, type);
}

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@ -25,6 +25,13 @@ std::string Image(EmitContext& ctx, const IR::TextureInstInfo& info, const IR::V
return fmt::format("img{}{}", def.binding, index_offset);
}
bool IsTextureMsaa(EmitContext& ctx, const IR::TextureInstInfo& info) {
if (info.type == TextureType::Buffer) {
return false;
}
return ctx.info.texture_descriptors.at(info.descriptor_index).is_multisample;
}
std::string CastToIntVec(std::string_view value, const IR::TextureInstInfo& info) {
switch (info.type) {
case TextureType::Color1D:
@ -463,26 +470,33 @@ void EmitImageQueryDimensions(EmitContext& ctx, IR::Inst& inst, const IR::Value&
std::string_view lod, const IR::Value& skip_mips_val) {
const auto info{inst.Flags<IR::TextureInstInfo>()};
const auto texture{Texture(ctx, info, index)};
const bool is_msaa{IsTextureMsaa(ctx, info)};
const bool skip_mips{skip_mips_val.U1()};
const auto mips{
[&] { return skip_mips ? "0u" : fmt::format("uint(textureQueryLevels({}))", texture); }};
const auto mips{skip_mips ? "0u" : fmt::format("uint(textureQueryLevels({}))", texture)};
if (is_msaa && !skip_mips) {
throw NotImplementedException("EmitImageQueryDimensions MSAA QueryLevels");
}
if (info.type == TextureType::Buffer && !skip_mips) {
throw NotImplementedException("EmitImageQueryDimensions TextureType::Buffer QueryLevels");
}
const bool uses_lod{!is_msaa && info.type != TextureType::Buffer};
const auto lod_str{uses_lod ? fmt::format(",int({})", lod) : ""};
switch (info.type) {
case TextureType::Color1D:
return ctx.AddU32x4("{}=uvec4(uint(textureSize({},int({}))),0u,0u,{});", inst, texture, lod,
mips());
return ctx.AddU32x4("{}=uvec4(uint(textureSize({}{})),0u,0u,{});", inst, texture, lod_str,
mips);
case TextureType::ColorArray1D:
case TextureType::Color2D:
case TextureType::ColorCube:
case TextureType::Color2DRect:
return ctx.AddU32x4("{}=uvec4(uvec2(textureSize({},int({}))),0u,{});", inst, texture, lod,
mips());
return ctx.AddU32x4("{}=uvec4(uvec2(textureSize({}{})),0u,{});", inst, texture, lod_str,
mips);
case TextureType::ColorArray2D:
case TextureType::Color3D:
case TextureType::ColorArrayCube:
return ctx.AddU32x4("{}=uvec4(uvec3(textureSize({},int({}))),{});", inst, texture, lod,
mips());
return ctx.AddU32x4("{}=uvec4(uvec3(textureSize({}{})),{});", inst, texture, lod_str, mips);
case TextureType::Buffer:
throw NotImplementedException("EmitImageQueryDimensions Texture buffers");
return ctx.AddU32x4("{}=uvec4(uint(textureSize({})),0u,0u,{});", inst, texture, mips);
}
throw LogicError("Unspecified image type {}", info.type.Value());
}

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@ -201,6 +201,13 @@ Id Image(EmitContext& ctx, const IR::Value& index, IR::TextureInstInfo info) {
}
}
bool IsTextureMsaa(EmitContext& ctx, const IR::TextureInstInfo& info) {
if (info.type == TextureType::Buffer) {
return false;
}
return ctx.textures.at(info.descriptor_index).is_multisample;
}
Id Decorate(EmitContext& ctx, IR::Inst* inst, Id sample) {
const auto info{inst->Flags<IR::TextureInstInfo>()};
if (info.relaxed_precision != 0) {
@ -452,24 +459,26 @@ Id EmitImageQueryDimensions(EmitContext& ctx, IR::Inst* inst, const IR::Value& i
const Id zero{ctx.u32_zero_value};
const bool skip_mips{skip_mips_val.U1()};
const auto mips{[&] { return skip_mips ? zero : ctx.OpImageQueryLevels(ctx.U32[1], image); }};
const bool is_msaa{IsTextureMsaa(ctx, info)};
const bool uses_lod{!is_msaa && info.type != TextureType::Buffer};
const auto query{[&](Id type) {
return uses_lod ? ctx.OpImageQuerySizeLod(type, image, lod)
: ctx.OpImageQuerySize(type, image);
}};
switch (info.type) {
case TextureType::Color1D:
return ctx.OpCompositeConstruct(ctx.U32[4], ctx.OpImageQuerySizeLod(ctx.U32[1], image, lod),
zero, zero, mips());
return ctx.OpCompositeConstruct(ctx.U32[4], query(ctx.U32[1]), zero, zero, mips());
case TextureType::ColorArray1D:
case TextureType::Color2D:
case TextureType::ColorCube:
case TextureType::Color2DRect:
return ctx.OpCompositeConstruct(ctx.U32[4], ctx.OpImageQuerySizeLod(ctx.U32[2], image, lod),
zero, mips());
return ctx.OpCompositeConstruct(ctx.U32[4], query(ctx.U32[2]), zero, mips());
case TextureType::ColorArray2D:
case TextureType::Color3D:
case TextureType::ColorArrayCube:
return ctx.OpCompositeConstruct(ctx.U32[4], ctx.OpImageQuerySizeLod(ctx.U32[3], image, lod),
mips());
return ctx.OpCompositeConstruct(ctx.U32[4], query(ctx.U32[3]), mips());
case TextureType::Buffer:
return ctx.OpCompositeConstruct(ctx.U32[4], ctx.OpImageQuerySize(ctx.U32[1], image), zero,
zero, mips());
return ctx.OpCompositeConstruct(ctx.U32[4], query(ctx.U32[1]), zero, zero, mips());
}
throw LogicError("Unspecified image type {}", info.type.Value());
}

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@ -1288,6 +1288,7 @@ void EmitContext::DefineTextures(const Info& info, u32& binding, u32& scaling_in
.pointer_type = pointer_type,
.image_type = image_type,
.count = desc.count,
.is_multisample = desc.is_multisample,
});
if (profile.supported_spirv >= 0x00010400) {
interfaces.push_back(id);

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@ -35,6 +35,7 @@ struct TextureDefinition {
Id pointer_type;
Id image_type;
u32 count;
bool is_multisample;
};
struct TextureBufferDefinition {

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@ -409,7 +409,8 @@ private:
}
template <typename T>
requires(sizeof(T) <= sizeof(u32) && std::is_trivially_copyable_v<T>) struct Flags {
requires(sizeof(T) <= sizeof(u32) && std::is_trivially_copyable_v<T>)
struct Flags {
Flags() = default;
Flags(T proxy_) : proxy{proxy_} {}

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@ -101,9 +101,8 @@ public:
TypedValue() = default;
template <IR::Type other_type>
requires((other_type & type_) != IR::Type::Void) explicit(false)
TypedValue(const TypedValue<other_type>& value)
: Value(value) {}
requires((other_type & type_) != IR::Type::Void)
explicit(false) TypedValue(const TypedValue<other_type>& value) : Value(value) {}
explicit TypedValue(const Value& value) : Value(value) {
if ((value.Type() & type_) == IR::Type::Void) {
@ -202,8 +201,8 @@ public:
}
template <typename FlagsType>
requires(sizeof(FlagsType) <= sizeof(u32) &&
std::is_trivially_copyable_v<FlagsType>) void SetFlags(FlagsType value) noexcept {
requires(sizeof(FlagsType) <= sizeof(u32) && std::is_trivially_copyable_v<FlagsType>)
void SetFlags(FlagsType value) noexcept {
std::memcpy(&flags, &value, sizeof(value));
}

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@ -19,9 +19,7 @@ public:
explicit DescriptorTable(Tegra::MemoryManager& gpu_memory_) : gpu_memory{gpu_memory_} {}
[[nodiscard]] bool Synchronize(GPUVAddr gpu_addr, u32 limit) {
[[likely]] if (current_gpu_addr == gpu_addr && current_limit == limit) {
return false;
}
[[likely]] if (current_gpu_addr == gpu_addr && current_limit == limit) { return false; }
Refresh(gpu_addr, limit);
return true;
}