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Merge pull request #12608 from szepeviktor/typos

Fix typos in video_core
This commit is contained in:
liamwhite 2024-01-07 20:42:54 -05:00 committed by GitHub
commit 82b58668ed
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GPG key ID: 4AEE18F83AFDEB23
20 changed files with 56 additions and 56 deletions

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@ -59,8 +59,8 @@ public:
return start_address; return start_address;
} }
[[nodiscard]] bool IsPropietaryDriver() const noexcept { [[nodiscard]] bool IsProprietaryDriver() const noexcept {
return is_propietary_driver; return is_proprietary_driver;
} }
protected: protected:
@ -68,7 +68,7 @@ protected:
std::array<u32, 8> gp_passthrough_mask{}; std::array<u32, 8> gp_passthrough_mask{};
Stage stage{}; Stage stage{};
u32 start_address{}; u32 start_address{};
bool is_propietary_driver{}; bool is_proprietary_driver{};
}; };
} // namespace Shader } // namespace Shader

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@ -1084,7 +1084,7 @@ void ConstantPropagation(Environment& env, IR::Block& block, IR::Inst& inst) {
if (env.HasHLEMacroState()) { if (env.HasHLEMacroState()) {
FoldConstBuffer(env, block, inst); FoldConstBuffer(env, block, inst);
} }
if (env.IsPropietaryDriver()) { if (env.IsProprietaryDriver()) {
FoldDriverConstBuffer(env, block, inst, 1); FoldDriverConstBuffer(env, block, inst, 1);
} }
break; break;

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@ -267,10 +267,10 @@ private:
top_tier[page_index] = GetNewManager(base_cpu_addr); top_tier[page_index] = GetNewManager(base_cpu_addr);
} }
Manager* GetNewManager(VAddr base_cpu_addess) { Manager* GetNewManager(VAddr base_cpu_address) {
const auto on_return = [&] { const auto on_return = [&] {
auto* new_manager = free_managers.front(); auto* new_manager = free_managers.front();
new_manager->SetCpuAddress(base_cpu_addess); new_manager->SetCpuAddress(base_cpu_address);
free_managers.pop_front(); free_managers.pop_front();
return new_manager; return new_manager;
}; };

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@ -85,12 +85,12 @@ protected:
std::deque<size_t> free_channel_ids; std::deque<size_t> free_channel_ids;
std::unordered_map<s32, size_t> channel_map; std::unordered_map<s32, size_t> channel_map;
std::vector<size_t> active_channel_ids; std::vector<size_t> active_channel_ids;
struct AddresSpaceRef { struct AddressSpaceRef {
size_t ref_count; size_t ref_count;
size_t storage_id; size_t storage_id;
Tegra::MemoryManager* gpu_memory; Tegra::MemoryManager* gpu_memory;
}; };
std::unordered_map<size_t, AddresSpaceRef> address_spaces; std::unordered_map<size_t, AddressSpaceRef> address_spaces;
mutable std::mutex config_mutex; mutable std::mutex config_mutex;
virtual void OnGPUASRegister([[maybe_unused]] size_t map_id) {} virtual void OnGPUASRegister([[maybe_unused]] size_t map_id) {}

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@ -38,7 +38,7 @@ void ChannelSetupCaches<P>::CreateChannel(struct Tegra::Control::ChannelState& c
as_it->second.ref_count++; as_it->second.ref_count++;
return; return;
} }
AddresSpaceRef new_gpu_mem_ref{ AddressSpaceRef new_gpu_mem_ref{
.ref_count = 1, .ref_count = 1,
.storage_id = address_spaces.size(), .storage_id = address_spaces.size(),
.gpu_memory = channel.memory_manager.get(), .gpu_memory = channel.memory_manager.get(),

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@ -958,7 +958,7 @@ public:
enum class ClearReport : u32 { enum class ClearReport : u32 {
ZPassPixelCount = 0x01, ZPassPixelCount = 0x01,
ZCullStats = 0x02, ZCullStats = 0x02,
StreamingPrimitvesNeededMinusSucceeded = 0x03, StreamingPrimitivesNeededMinusSucceeded = 0x03,
AlphaBetaClocks = 0x04, AlphaBetaClocks = 0x04,
StreamingPrimitivesSucceeded = 0x10, StreamingPrimitivesSucceeded = 0x10,
StreamingPrimitivesNeeded = 0x11, StreamingPrimitivesNeeded = 0x11,
@ -2383,8 +2383,8 @@ public:
}; };
enum class Release : u32 { enum class Release : u32 {
AfterAllPreceedingReads = 0, AfterAllPrecedingReads = 0,
AfterAllPreceedingWrites = 1, AfterAllPrecedingWrites = 1,
}; };
enum class Acquire : u32 { enum class Acquire : u32 {
@ -2869,7 +2869,7 @@ public:
u32 global_base_instance_index; ///< 0x1438 u32 global_base_instance_index; ///< 0x1438
INSERT_PADDING_BYTES_NOINIT(0x14); INSERT_PADDING_BYTES_NOINIT(0x14);
RegisterWatermarks ps_warp_watermarks; ///< 0x1450 RegisterWatermarks ps_warp_watermarks; ///< 0x1450
RegisterWatermarks ps_regster_watermarks; ///< 0x1454 RegisterWatermarks ps_register_watermarks; ///< 0x1454
INSERT_PADDING_BYTES_NOINIT(0xC); INSERT_PADDING_BYTES_NOINIT(0xC);
u32 store_zcull; ///< 0x1464 u32 store_zcull; ///< 0x1464
INSERT_PADDING_BYTES_NOINIT(0x18); INSERT_PADDING_BYTES_NOINIT(0x18);
@ -3444,7 +3444,7 @@ ASSERT_REG_POSITION(invalidate_texture_header_cache_no_wfi, 0x1428);
ASSERT_REG_POSITION(global_base_vertex_index, 0x1434); ASSERT_REG_POSITION(global_base_vertex_index, 0x1434);
ASSERT_REG_POSITION(global_base_instance_index, 0x1438); ASSERT_REG_POSITION(global_base_instance_index, 0x1438);
ASSERT_REG_POSITION(ps_warp_watermarks, 0x1450); ASSERT_REG_POSITION(ps_warp_watermarks, 0x1450);
ASSERT_REG_POSITION(ps_regster_watermarks, 0x1454); ASSERT_REG_POSITION(ps_register_watermarks, 0x1454);
ASSERT_REG_POSITION(store_zcull, 0x1464); ASSERT_REG_POSITION(store_zcull, 0x1464);
ASSERT_REG_POSITION(iterated_blend_constants, 0x1480); ASSERT_REG_POSITION(iterated_blend_constants, 0x1480);
ASSERT_REG_POSITION(load_zcull, 0x1500); ASSERT_REG_POSITION(load_zcull, 0x1500);

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@ -171,12 +171,12 @@ bool SoftwareBlitEngine::Blit(Fermi2D::Surface& src, Fermi2D::Surface& dst,
const bool no_passthrough = const bool no_passthrough =
src.format != dst.format || src_extent_x != dst_extent_x || src_extent_y != dst_extent_y; src.format != dst.format || src_extent_x != dst_extent_x || src_extent_y != dst_extent_y;
const auto convertion_phase_same_format = [&]() { const auto conversion_phase_same_format = [&]() {
NearestNeighbor(impl->src_buffer, impl->dst_buffer, src_extent_x, src_extent_y, NearestNeighbor(impl->src_buffer, impl->dst_buffer, src_extent_x, src_extent_y,
dst_extent_x, dst_extent_y, dst_bytes_per_pixel); dst_extent_x, dst_extent_y, dst_bytes_per_pixel);
}; };
const auto convertion_phase_ir = [&]() { const auto conversion_phase_ir = [&]() {
auto* input_converter = impl->converter_factory.GetFormatConverter(src.format); auto* input_converter = impl->converter_factory.GetFormatConverter(src.format);
impl->intermediate_src.resize_destructive((src_copy_size / src_bytes_per_pixel) * impl->intermediate_src.resize_destructive((src_copy_size / src_bytes_per_pixel) *
ir_components); ir_components);
@ -211,9 +211,9 @@ bool SoftwareBlitEngine::Blit(Fermi2D::Surface& src, Fermi2D::Surface& dst,
// Conversion Phase // Conversion Phase
if (no_passthrough) { if (no_passthrough) {
if (src.format != dst.format || config.filter == Fermi2D::Filter::Bilinear) { if (src.format != dst.format || config.filter == Fermi2D::Filter::Bilinear) {
convertion_phase_ir(); conversion_phase_ir();
} else { } else {
convertion_phase_same_format(); conversion_phase_same_format();
} }
} else { } else {
impl->dst_buffer.swap(impl->src_buffer); impl->dst_buffer.swap(impl->src_buffer);

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@ -42,7 +42,7 @@ private:
u8 raw; u8 raw;
BitField<0, 2, u8> tile_format; BitField<0, 2, u8> tile_format;
BitField<2, 3, u8> gob_height; BitField<2, 3, u8> gob_height;
BitField<5, 3, u8> reserverd_surface_format; BitField<5, 3, u8> reserved_surface_format;
}; };
u8 error_conceal_on; // 1: error conceal on; 0: off u8 error_conceal_on; // 1: error conceal on; 0: off
u32 first_part_size; // the size of first partition(frame header and mb header partition) u32 first_part_size; // the size of first partition(frame header and mb header partition)

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@ -803,7 +803,7 @@ void UnquantizeTexelWeights(uvec2 size, bool is_dual_plane) {
} }
} }
uint GetUnquantizedTexelWieght(uint offset_base, uint plane, bool is_dual_plane) { uint GetUnquantizedTexelWeight(uint offset_base, uint plane, bool is_dual_plane) {
const uint offset = is_dual_plane ? 2 * offset_base + plane : offset_base; const uint offset = is_dual_plane ? 2 * offset_base + plane : offset_base;
return result_vector[offset]; return result_vector[offset];
} }
@ -833,23 +833,23 @@ uvec4 GetUnquantizedWeightVector(uint t, uint s, uvec2 size, uint plane_index, b
if (v0 < area) { if (v0 < area) {
const uint offset_base = v0; const uint offset_base = v0;
p0.x = GetUnquantizedTexelWieght(offset_base, 0, is_dual_plane); p0.x = GetUnquantizedTexelWeight(offset_base, 0, is_dual_plane);
p1.x = GetUnquantizedTexelWieght(offset_base, 1, is_dual_plane); p1.x = GetUnquantizedTexelWeight(offset_base, 1, is_dual_plane);
} }
if ((v0 + 1) < (area)) { if ((v0 + 1) < (area)) {
const uint offset_base = v0 + 1; const uint offset_base = v0 + 1;
p0.y = GetUnquantizedTexelWieght(offset_base, 0, is_dual_plane); p0.y = GetUnquantizedTexelWeight(offset_base, 0, is_dual_plane);
p1.y = GetUnquantizedTexelWieght(offset_base, 1, is_dual_plane); p1.y = GetUnquantizedTexelWeight(offset_base, 1, is_dual_plane);
} }
if ((v0 + size.x) < (area)) { if ((v0 + size.x) < (area)) {
const uint offset_base = v0 + size.x; const uint offset_base = v0 + size.x;
p0.z = GetUnquantizedTexelWieght(offset_base, 0, is_dual_plane); p0.z = GetUnquantizedTexelWeight(offset_base, 0, is_dual_plane);
p1.z = GetUnquantizedTexelWieght(offset_base, 1, is_dual_plane); p1.z = GetUnquantizedTexelWeight(offset_base, 1, is_dual_plane);
} }
if ((v0 + size.x + 1) < (area)) { if ((v0 + size.x + 1) < (area)) {
const uint offset_base = v0 + size.x + 1; const uint offset_base = v0 + size.x + 1;
p0.w = GetUnquantizedTexelWieght(offset_base, 0, is_dual_plane); p0.w = GetUnquantizedTexelWeight(offset_base, 0, is_dual_plane);
p1.w = GetUnquantizedTexelWieght(offset_base, 1, is_dual_plane); p1.w = GetUnquantizedTexelWeight(offset_base, 1, is_dual_plane);
} }
const uint primary_weight = (uint(dot(p0, w)) + 8) >> 4; const uint primary_weight = (uint(dot(p0, w)) + 8) >> 4;

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@ -269,7 +269,7 @@ void QueryCacheBase<Traits>::CounterReport(GPUVAddr addr, QueryType counter_type
ASSERT(false); ASSERT(false);
return; return;
} }
query_base->value += streamer->GetAmmendValue(); query_base->value += streamer->GetAmendValue();
streamer->SetAccumulationValue(query_base->value); streamer->SetAccumulationValue(query_base->value);
if (True(query_base->flags & QueryFlagBits::HasTimestamp)) { if (True(query_base->flags & QueryFlagBits::HasTimestamp)) {
u64 timestamp = impl->gpu.GetTicks(); u64 timestamp = impl->gpu.GetTicks();

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@ -78,12 +78,12 @@ public:
return dependence_mask; return dependence_mask;
} }
u64 GetAmmendValue() const { u64 GetAmendValue() const {
return ammend_value; return amend_value;
} }
void SetAccumulationValue(u64 new_value) { void SetAccumulationValue(u64 new_value) {
acumulation_value = new_value; accumulation_value = new_value;
} }
protected: protected:
@ -95,8 +95,8 @@ protected:
const size_t id; const size_t id;
u64 dependence_mask; u64 dependence_mask;
u64 dependent_mask; u64 dependent_mask;
u64 ammend_value{}; u64 amend_value{};
u64 acumulation_value{}; u64 accumulation_value{};
}; };
template <typename QueryType> template <typename QueryType>

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@ -231,10 +231,10 @@ void FixedPipelineState::DynamicState::Refresh(const Maxwell& regs) {
void FixedPipelineState::DynamicState::Refresh2(const Maxwell& regs, void FixedPipelineState::DynamicState::Refresh2(const Maxwell& regs,
Maxwell::PrimitiveTopology topology_, Maxwell::PrimitiveTopology topology_,
bool base_feautures_supported) { bool base_features_supported) {
logic_op.Assign(PackLogicOp(regs.logic_op.op)); logic_op.Assign(PackLogicOp(regs.logic_op.op));
if (base_feautures_supported) { if (base_features_supported) {
return; return;
} }

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@ -165,7 +165,7 @@ struct FixedPipelineState {
void Refresh(const Maxwell& regs); void Refresh(const Maxwell& regs);
void Refresh2(const Maxwell& regs, Maxwell::PrimitiveTopology topology, void Refresh2(const Maxwell& regs, Maxwell::PrimitiveTopology topology,
bool base_feautures_supported); bool base_features_supported);
void Refresh3(const Maxwell& regs); void Refresh3(const Maxwell& regs);
Maxwell::ComparisonOp DepthTestFunc() const noexcept { Maxwell::ComparisonOp DepthTestFunc() const noexcept {

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@ -130,7 +130,7 @@ private:
vk::DescriptorPool descriptor_pool; vk::DescriptorPool descriptor_pool;
vk::DescriptorSetLayout descriptor_set_layout; vk::DescriptorSetLayout descriptor_set_layout;
vk::PipelineLayout pipeline_layout; vk::PipelineLayout pipeline_layout;
vk::Pipeline nearest_neightbor_pipeline; vk::Pipeline nearest_neighbor_pipeline;
vk::Pipeline bilinear_pipeline; vk::Pipeline bilinear_pipeline;
vk::Pipeline bicubic_pipeline; vk::Pipeline bicubic_pipeline;
vk::Pipeline gaussian_pipeline; vk::Pipeline gaussian_pipeline;

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@ -120,8 +120,8 @@ public:
scheduler{scheduler_}, memory_allocator{memory_allocator_} { scheduler{scheduler_}, memory_allocator{memory_allocator_} {
current_bank = nullptr; current_bank = nullptr;
current_query = nullptr; current_query = nullptr;
ammend_value = 0; amend_value = 0;
acumulation_value = 0; accumulation_value = 0;
queries_prefix_scan_pass = std::make_unique<QueriesPrefixScanPass>( queries_prefix_scan_pass = std::make_unique<QueriesPrefixScanPass>(
device, scheduler, descriptor_pool, compute_pass_descriptor_queue); device, scheduler, descriptor_pool, compute_pass_descriptor_queue);
@ -176,8 +176,8 @@ public:
} }
AbandonCurrentQuery(); AbandonCurrentQuery();
std::function<void()> func([this, counts = pending_flush_queries.size()] { std::function<void()> func([this, counts = pending_flush_queries.size()] {
ammend_value = 0; amend_value = 0;
acumulation_value = 0; accumulation_value = 0;
}); });
rasterizer->SyncOperation(std::move(func)); rasterizer->SyncOperation(std::move(func));
accumulation_since_last_sync = false; accumulation_since_last_sync = false;
@ -307,7 +307,7 @@ public:
} }
ReplicateCurrentQueryIfNeeded(); ReplicateCurrentQueryIfNeeded();
std::function<void()> func([this] { ammend_value = acumulation_value; }); std::function<void()> func([this] { amend_value = accumulation_value; });
rasterizer->SyncOperation(std::move(func)); rasterizer->SyncOperation(std::move(func));
AbandonCurrentQuery(); AbandonCurrentQuery();
num_slots_used = 0; num_slots_used = 0;
@ -512,7 +512,7 @@ private:
pending_flush_queries.push_back(index); pending_flush_queries.push_back(index);
std::function<void()> func([this, index] { std::function<void()> func([this, index] {
auto* query = GetQuery(index); auto* query = GetQuery(index);
query->value += GetAmmendValue(); query->value += GetAmendValue();
SetAccumulationValue(query->value); SetAccumulationValue(query->value);
Free(index); Free(index);
}); });
@ -1169,7 +1169,7 @@ struct QueryCacheRuntimeImpl {
primitives_succeeded_streamer( primitives_succeeded_streamer(
static_cast<size_t>(QueryType::StreamingPrimitivesSucceeded), runtime, tfb_streamer, static_cast<size_t>(QueryType::StreamingPrimitivesSucceeded), runtime, tfb_streamer,
cpu_memory_), cpu_memory_),
primitives_needed_minus_suceeded_streamer( primitives_needed_minus_succeeded_streamer(
static_cast<size_t>(QueryType::StreamingPrimitivesNeededMinusSucceeded), runtime, 0u), static_cast<size_t>(QueryType::StreamingPrimitivesNeededMinusSucceeded), runtime, 0u),
hcr_setup{}, hcr_is_set{}, is_hcr_running{}, maxwell3d{} { hcr_setup{}, hcr_is_set{}, is_hcr_running{}, maxwell3d{} {
@ -1208,7 +1208,7 @@ struct QueryCacheRuntimeImpl {
SamplesStreamer sample_streamer; SamplesStreamer sample_streamer;
TFBCounterStreamer tfb_streamer; TFBCounterStreamer tfb_streamer;
PrimitivesSucceededStreamer primitives_succeeded_streamer; PrimitivesSucceededStreamer primitives_succeeded_streamer;
VideoCommon::StubStreamer<QueryCacheParams> primitives_needed_minus_suceeded_streamer; VideoCommon::StubStreamer<QueryCacheParams> primitives_needed_minus_succeeded_streamer;
std::vector<std::pair<VAddr, VAddr>> little_cache; std::vector<std::pair<VAddr, VAddr>> little_cache;
std::vector<std::pair<VkBuffer, VkDeviceSize>> buffers_to_upload_to; std::vector<std::pair<VkBuffer, VkDeviceSize>> buffers_to_upload_to;
@ -1433,7 +1433,7 @@ VideoCommon::StreamerInterface* QueryCacheRuntime::GetStreamerInterface(QueryTyp
case QueryType::StreamingPrimitivesSucceeded: case QueryType::StreamingPrimitivesSucceeded:
return &impl->primitives_succeeded_streamer; return &impl->primitives_succeeded_streamer;
case QueryType::StreamingPrimitivesNeededMinusSucceeded: case QueryType::StreamingPrimitivesNeededMinusSucceeded:
return &impl->primitives_needed_minus_suceeded_streamer; return &impl->primitives_needed_minus_succeeded_streamer;
default: default:
return nullptr; return nullptr;
} }

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@ -236,14 +236,14 @@ void StagingBufferPool::ReleaseLevel(StagingBuffersCache& cache, size_t log2) {
auto& entries = staging.entries; auto& entries = staging.entries;
const size_t old_size = entries.size(); const size_t old_size = entries.size();
const auto is_deleteable = [this](const StagingBuffer& entry) { const auto is_deletable = [this](const StagingBuffer& entry) {
return scheduler.IsFree(entry.tick); return scheduler.IsFree(entry.tick);
}; };
const size_t begin_offset = staging.delete_index; const size_t begin_offset = staging.delete_index;
const size_t end_offset = std::min(begin_offset + deletions_per_tick, old_size); const size_t end_offset = std::min(begin_offset + deletions_per_tick, old_size);
const auto begin = entries.begin() + begin_offset; const auto begin = entries.begin() + begin_offset;
const auto end = entries.begin() + end_offset; const auto end = entries.begin() + end_offset;
entries.erase(std::remove_if(begin, end, is_deleteable), end); entries.erase(std::remove_if(begin, end, is_deletable), end);
const size_t new_size = entries.size(); const size_t new_size = entries.size();
staging.delete_index += deletions_per_tick; staging.delete_index += deletions_per_tick;

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@ -125,7 +125,7 @@ constexpr VkBorderColor ConvertBorderColor(const std::array<float, 4>& color) {
MaxwellToVK::SurfaceFormat(device, FormatType::Optimal, false, info.format); MaxwellToVK::SurfaceFormat(device, FormatType::Optimal, false, info.format);
VkImageCreateFlags flags{}; VkImageCreateFlags flags{};
if (info.type == ImageType::e2D && info.resources.layers >= 6 && if (info.type == ImageType::e2D && info.resources.layers >= 6 &&
info.size.width == info.size.height && !device.HasBrokenCubeImageCompability()) { info.size.width == info.size.height && !device.HasBrokenCubeImageCompatibility()) {
flags |= VK_IMAGE_CREATE_CUBE_COMPATIBLE_BIT; flags |= VK_IMAGE_CREATE_CUBE_COMPATIBLE_BIT;
} }
if (info.type == ImageType::e3D) { if (info.type == ImageType::e3D) {

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@ -322,7 +322,7 @@ GraphicsEnvironment::GraphicsEnvironment(Tegra::Engines::Maxwell3D& maxwell3d_,
ASSERT(local_size <= std::numeric_limits<u32>::max()); ASSERT(local_size <= std::numeric_limits<u32>::max());
local_memory_size = static_cast<u32>(local_size) + sph.common3.shader_local_memory_crs_size; local_memory_size = static_cast<u32>(local_size) + sph.common3.shader_local_memory_crs_size;
texture_bound = maxwell3d->regs.bindless_texture_const_buffer_slot; texture_bound = maxwell3d->regs.bindless_texture_const_buffer_slot;
is_propietary_driver = texture_bound == 2; is_proprietary_driver = texture_bound == 2;
has_hle_engine_state = has_hle_engine_state =
maxwell3d->engine_state == Tegra::Engines::Maxwell3D::EngineHint::OnHLEMacro; maxwell3d->engine_state == Tegra::Engines::Maxwell3D::EngineHint::OnHLEMacro;
} }
@ -404,7 +404,7 @@ ComputeEnvironment::ComputeEnvironment(Tegra::Engines::KeplerCompute& kepler_com
stage = Shader::Stage::Compute; stage = Shader::Stage::Compute;
local_memory_size = qmd.local_pos_alloc + qmd.local_crs_alloc; local_memory_size = qmd.local_pos_alloc + qmd.local_crs_alloc;
texture_bound = kepler_compute->regs.tex_cb_index; texture_bound = kepler_compute->regs.tex_cb_index;
is_propietary_driver = texture_bound == 2; is_proprietary_driver = texture_bound == 2;
shared_memory_size = qmd.shared_alloc; shared_memory_size = qmd.shared_alloc;
workgroup_size = {qmd.block_dim_x, qmd.block_dim_y, qmd.block_dim_z}; workgroup_size = {qmd.block_dim_x, qmd.block_dim_y, qmd.block_dim_z};
} }
@ -509,7 +509,7 @@ void FileEnvironment::Deserialize(std::ifstream& file) {
file.read(reinterpret_cast<char*>(&gp_passthrough_mask), sizeof(gp_passthrough_mask)); file.read(reinterpret_cast<char*>(&gp_passthrough_mask), sizeof(gp_passthrough_mask));
} }
} }
is_propietary_driver = texture_bound == 2; is_proprietary_driver = texture_bound == 2;
} }
void FileEnvironment::Dump(u64 pipeline_hash, u64 shader_hash) { void FileEnvironment::Dump(u64 pipeline_hash, u64 shader_hash) {

View file

@ -596,7 +596,7 @@ public:
} }
/// Returns true when the device does not properly support cube compatibility. /// Returns true when the device does not properly support cube compatibility.
bool HasBrokenCubeImageCompability() const { bool HasBrokenCubeImageCompatibility() const {
return has_broken_cube_compatibility; return has_broken_cube_compatibility;
} }

View file

@ -57,7 +57,7 @@ struct Range {
return VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT; return VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT;
} }
[[nodiscard]] VkMemoryPropertyFlags MemoryUsagePreferedVmaFlags(MemoryUsage usage) { [[nodiscard]] VkMemoryPropertyFlags MemoryUsagePreferredVmaFlags(MemoryUsage usage) {
return usage != MemoryUsage::DeviceLocal ? VK_MEMORY_PROPERTY_HOST_COHERENT_BIT return usage != MemoryUsage::DeviceLocal ? VK_MEMORY_PROPERTY_HOST_COHERENT_BIT
: VkMemoryPropertyFlagBits{}; : VkMemoryPropertyFlagBits{};
} }
@ -256,7 +256,7 @@ vk::Buffer MemoryAllocator::CreateBuffer(const VkBufferCreateInfo& ci, MemoryUsa
.flags = VMA_ALLOCATION_CREATE_WITHIN_BUDGET_BIT | MemoryUsageVmaFlags(usage), .flags = VMA_ALLOCATION_CREATE_WITHIN_BUDGET_BIT | MemoryUsageVmaFlags(usage),
.usage = MemoryUsageVma(usage), .usage = MemoryUsageVma(usage),
.requiredFlags = 0, .requiredFlags = 0,
.preferredFlags = MemoryUsagePreferedVmaFlags(usage), .preferredFlags = MemoryUsagePreferredVmaFlags(usage),
.memoryTypeBits = usage == MemoryUsage::Stream ? 0u : valid_memory_types, .memoryTypeBits = usage == MemoryUsage::Stream ? 0u : valid_memory_types,
.pool = VK_NULL_HANDLE, .pool = VK_NULL_HANDLE,
.pUserData = nullptr, .pUserData = nullptr,