Uniform Buffers.
This commit is contained in:
Anish Bhobe
parent
1a9fac5e21
commit
d7c48d28c7
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@ -74,7 +74,7 @@ SDL_AppResult SDL_AppInit( void** appstate, int, char** )
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app_state.miscData->lightData.pointLightCount = _countof( point_light );
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app_state.miscData->lightData.pointLightCount = _countof( point_light );
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app_state.renderDevice->bufferManager->WriteToBuffer( app_state.miscData->pointLights, point_light );
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app_state.renderDevice->bufferManager->WriteRangeToBuffer( app_state.miscData->pointLights, point_light );
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Blaze::MiscData::DirectionalLight dir_light[] = {
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Blaze::MiscData::DirectionalLight dir_light[] = {
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{
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{
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@ -85,12 +85,10 @@ SDL_AppResult SDL_AppInit( void** appstate, int, char** )
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app_state.miscData->lightData.dirLightCount = _countof( dir_light );
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app_state.miscData->lightData.dirLightCount = _countof( dir_light );
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app_state.renderDevice->bufferManager->WriteToBuffer( app_state.miscData->directionalLights, dir_light );
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app_state.renderDevice->bufferManager->WriteRangeToBuffer( app_state.miscData->directionalLights, dir_light );
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memcpy(
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app_state.renderDevice->bufferManager->WriteObjectToBuffer(
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app_state.miscData->cameraUniformBufferPtr + sizeof( Blaze::MiscData::CameraData ),
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app_state.miscData->uniformBuffer, sizeof( Blaze::MiscData::CameraData ), app_state.miscData->lightData );
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&app_state.miscData->lightData,
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sizeof app_state.miscData->lightData );
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return SDL_APP_CONTINUE;
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return SDL_APP_CONTINUE;
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}
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}
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@ -40,7 +40,7 @@ Blaze::Buffer& BufferManager::FetchBufferUnchecked( BufferID const& rid )
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return m_buffers[inner_index];
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return m_buffers[inner_index];
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}
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}
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void BufferManager::WriteToBufferImpl( BufferID const& rid, void const* data, size_t const size )
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void BufferManager::WriteToBuffer( BufferID const& rid, void const* data, size_t const size, size_t const offset )
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{
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{
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ASSERT( IsValidID( rid ) );
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ASSERT( IsValidID( rid ) );
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@ -48,7 +48,7 @@ void BufferManager::WriteToBufferImpl( BufferID const& rid, void const* data, si
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ASSERT( size <= buffer.size );
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ASSERT( size <= buffer.size );
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memcpy( buffer.mappedData, data, size );
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memcpy( buffer.mappedData + offset, data, size );
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}
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}
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bool BufferManager::IsValidID( BufferID const& rid ) const
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bool BufferManager::IsValidID( BufferID const& rid ) const
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@ -248,6 +248,73 @@ Blaze::BufferID BufferManager::CreateStorageBuffer( size_t const size )
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return *reinterpret_cast<BufferID*>( &index );
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return *reinterpret_cast<BufferID*>( &index );
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}
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}
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Blaze::BufferID BufferManager::CreateUniformBuffer( size_t const size )
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{
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ASSERT( not m_freeList.Empty() );
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Buffer* buffer_slot = reinterpret_cast<Buffer*>( m_freeList.PopFront() );
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++m_count;
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ASSERT( m_renderDevice );
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RenderDevice const& render_device = *m_renderDevice;
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VkBufferCreateInfo const buffer_create_info = {
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.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO,
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.pNext = nullptr,
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.flags = 0,
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.size = size,
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.usage = VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT | VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT,
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.sharingMode = VK_SHARING_MODE_EXCLUSIVE,
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.queueFamilyIndexCount = 0,
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.pQueueFamilyIndices = nullptr,
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};
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VmaAllocationCreateInfo constexpr allocation_create_info = {
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.flags = VMA_ALLOCATION_CREATE_MAPPED_BIT | VMA_ALLOCATION_CREATE_HOST_ACCESS_SEQUENTIAL_WRITE_BIT,
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.usage = VMA_MEMORY_USAGE_AUTO,
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.requiredFlags = VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT,
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.preferredFlags = 0,
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.memoryTypeBits = 0,
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.pool = nullptr,
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.pUserData = nullptr,
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.priority = 1.0f,
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};
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VmaAllocationInfo allocation_info;
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VkBuffer storage_buffer;
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VmaAllocation storage_buffer_allocation;
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VK_CHECK( vmaCreateBuffer(
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render_device.gpuAllocator,
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&buffer_create_info,
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&allocation_create_info,
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&storage_buffer,
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&storage_buffer_allocation,
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&allocation_info ) );
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VkBufferDeviceAddressInfo const device_address_info = {
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.sType = VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO,
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.pNext = nullptr,
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.buffer = storage_buffer,
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};
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VkDeviceAddress const device_address = vkGetBufferDeviceAddress( render_device.device, &device_address_info );
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// NOTE: bufferSlot preserves index between uses.
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uint32_t index = buffer_slot->index;
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new ( buffer_slot ) Buffer{
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.buffer = storage_buffer,
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.allocation = storage_buffer_allocation,
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.mappedData = static_cast<std::byte*>( allocation_info.pMappedData ),
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.deviceAddress = device_address,
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.size = size,
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.index = index,
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};
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// NOTE: Memory hackery to create BufferID;
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return *reinterpret_cast<BufferID*>( &index );
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}
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void BufferManager::FreeBuffer( BufferID* rid )
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void BufferManager::FreeBuffer( BufferID* rid )
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{
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{
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if ( not IsValidID( *rid ) ) return;
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if ( not IsValidID( *rid ) ) return;
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@ -52,7 +52,6 @@ private:
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void DestroyBuffer( Buffer& buf );
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void DestroyBuffer( Buffer& buf );
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Buffer& FetchBufferUnchecked( BufferID const& rid );
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Buffer& FetchBufferUnchecked( BufferID const& rid );
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void WriteToBufferImpl( BufferID const& rid, void const* data, size_t size );
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public:
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public:
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[[nodiscard]] bool IsValidID( BufferID const& rid ) const;
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[[nodiscard]] bool IsValidID( BufferID const& rid ) const;
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@ -60,6 +59,7 @@ public:
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BufferID CreateVertexBuffer( size_t size );
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BufferID CreateVertexBuffer( size_t size );
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BufferID CreateIndexBuffer( size_t size );
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BufferID CreateIndexBuffer( size_t size );
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BufferID CreateStorageBuffer( size_t size );
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BufferID CreateStorageBuffer( size_t size );
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BufferID CreateUniformBuffer( size_t size );
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void FreeBuffer( BufferID* rid );
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void FreeBuffer( BufferID* rid );
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@ -67,13 +67,23 @@ public:
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std::optional<VkBuffer> FetchBuffer( BufferID const& rid );
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std::optional<VkBuffer> FetchBuffer( BufferID const& rid );
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std::optional<VkDeviceAddress> FetchDeviceAddress( BufferID const& rid );
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std::optional<VkDeviceAddress> FetchDeviceAddress( BufferID const& rid );
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void WriteToBuffer( BufferID const& rid, void const* data, size_t size, size_t offset );
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// Utility to directly muck the data
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// Utility to directly muck the data
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void WriteToBuffer( BufferID const& rid, std::ranges::contiguous_range auto const& data )
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void WriteRangeToBuffer( BufferID const& rid, std::ranges::contiguous_range auto const& data )
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{
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{
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WriteToBufferImpl(
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WriteToBuffer(
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rid,
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rid,
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std::ranges::data( data ),
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std::ranges::data( data ),
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std::ranges::size( data ) * sizeof( std::ranges::range_value_t<decltype( data )> ) );
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std::ranges::size( data ) * sizeof( std::ranges::range_value_t<decltype( data )> ),
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0 );
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}
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// Utility to directly muck the data
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void WriteObjectToBuffer( BufferID const& rid, size_t const offset, auto const& data )
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requires not std::ranges::range<decltype( data )>
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{
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WriteToBuffer( rid, &data, sizeof data, offset );
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}
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}
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static BufferManager* Create( GlobalMemory* mem, RenderDevice* render_device, uint32_t max_count );
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static BufferManager* Create( GlobalMemory* mem, RenderDevice* render_device, uint32_t max_count );
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@ -274,8 +274,6 @@ bool MiscData::Init( RenderDevice const& render_device )
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cameraData.viewMatrix = DirectX::XMMatrixLookAtRH( cameraData.cameraPosition, cameraTarget, cameraUp );
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cameraData.viewMatrix = DirectX::XMMatrixLookAtRH( cameraData.cameraPosition, cameraTarget, cameraUp );
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cameraData.projectionMatrix =
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cameraData.projectionMatrix =
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DirectX::XMMatrixPerspectiveFovRH( DirectX::XMConvertToRadians( 70.0f ), 16.0f / 9.0f, 0.1f, 1000.0f );
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DirectX::XMMatrixPerspectiveFovRH( DirectX::XMConvertToRadians( 70.0f ), 16.0f / 9.0f, 0.1f, 1000.0f );
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cameraUniformBufferSize = sizeof( CameraData ) + sizeof( LightData );
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}
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}
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@ -295,45 +293,10 @@ bool MiscData::Init( RenderDevice const& render_device )
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// Uniform Buffer
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// Uniform Buffer
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{
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{
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uniformBuffer = render_device.bufferManager->CreateUniformBuffer( sizeof( CameraData ) + sizeof( LightData ) );
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VkBufferCreateInfo const buffer_create_info = {
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render_device.bufferManager->WriteObjectToBuffer( uniformBuffer, 0, cameraData );
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.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO,
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render_device.bufferManager->WriteObjectToBuffer( uniformBuffer, sizeof CameraData, lightData );
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.pNext = nullptr,
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.flags = 0,
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.size = cameraUniformBufferSize,
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.usage = VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT,
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.sharingMode = VK_SHARING_MODE_EXCLUSIVE,
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.queueFamilyIndexCount = 0,
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.pQueueFamilyIndices = nullptr,
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};
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VmaAllocationCreateInfo constexpr allocation_create_info = {
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.flags = VMA_ALLOCATION_CREATE_MAPPED_BIT | VMA_ALLOCATION_CREATE_HOST_ACCESS_SEQUENTIAL_WRITE_BIT,
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.usage = VMA_MEMORY_USAGE_AUTO,
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.requiredFlags = VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT,
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.preferredFlags = 0,
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.memoryTypeBits = 0,
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.pool = nullptr,
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.pUserData = nullptr,
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.priority = 1.0f,
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};
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VmaAllocationInfo allocation_info;
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VK_CHECK( vmaCreateBuffer(
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render_device.gpuAllocator,
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&buffer_create_info,
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&allocation_create_info,
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&cameraUniformBuffer,
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&cameraUniformBufferAllocation,
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&allocation_info ) );
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if ( allocation_info.pMappedData )
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{
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cameraUniformBufferPtr = static_cast<uint8_t*>( allocation_info.pMappedData );
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memcpy( cameraUniformBufferPtr, &cameraData, sizeof cameraData );
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memcpy( cameraUniformBufferPtr + sizeof cameraData, &lightData, sizeof lightData );
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}
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}
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}
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// Descriptors
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// Descriptors
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@ -364,9 +327,9 @@ bool MiscData::Init( RenderDevice const& render_device )
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VK_CHECK( vkAllocateDescriptorSets( device, &descriptor_set_allocate_info, &descriptorSet ) );
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VK_CHECK( vkAllocateDescriptorSets( device, &descriptor_set_allocate_info, &descriptorSet ) );
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VkDescriptorBufferInfo const descriptor_buffer_info = {
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VkDescriptorBufferInfo const descriptor_buffer_info = {
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.buffer = cameraUniformBuffer,
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.buffer = render_device.bufferManager->FetchBuffer( uniformBuffer ).value(),
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.offset = 0,
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.offset = 0,
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.range = cameraUniformBufferSize,
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.range = sizeof( CameraData ) + sizeof( LightData ),
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};
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};
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VkWriteDescriptorSet write_descriptor_sets[] = {
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VkWriteDescriptorSet write_descriptor_sets[] = {
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@ -464,7 +427,8 @@ void MiscData::Destroy( Blaze::RenderDevice const& render_device )
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VkDevice const device = render_device.device;
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VkDevice const device = render_device.device;
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vkDestroyDescriptorPool( device, Take( descriptorPool ), nullptr );
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vkDestroyDescriptorPool( device, Take( descriptorPool ), nullptr );
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vmaDestroyBuffer( render_device.gpuAllocator, Take( cameraUniformBuffer ), Take( cameraUniformBufferAllocation ) );
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render_device.bufferManager->FreeBuffer( &uniformBuffer );
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render_device.bufferManager->FreeBuffer( &pointLights );
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render_device.bufferManager->FreeBuffer( &pointLights );
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render_device.bufferManager->FreeBuffer( &directionalLights );
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render_device.bufferManager->FreeBuffer( &directionalLights );
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@ -58,10 +58,7 @@ struct MiscData
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BufferID directionalLights;
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BufferID directionalLights;
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LightData lightData;
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LightData lightData;
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VkBuffer cameraUniformBuffer;
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BufferID uniformBuffer;
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VmaAllocation cameraUniformBufferAllocation;
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size_t cameraUniformBufferSize;
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uint8_t* cameraUniformBufferPtr;
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VkDescriptorPool descriptorPool;
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VkDescriptorPool descriptorPool;
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VkDescriptorSet descriptorSet;
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VkDescriptorSet descriptorSet;
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@ -793,12 +793,12 @@ Entity* LoadModel( Blaze::RenderDevice* render_device, EntityManager* entity_man
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entity->model.vertexBuffer = render_device->bufferManager->CreateVertexBuffer( vertices.size() * sizeof vertices[0] );
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entity->model.vertexBuffer = render_device->bufferManager->CreateVertexBuffer( vertices.size() * sizeof vertices[0] );
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if ( not entity->model.vertexBuffer ) return nullptr;
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if ( not entity->model.vertexBuffer ) return nullptr;
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render_device->bufferManager->WriteToBuffer( entity->model.vertexBuffer, vertices );
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render_device->bufferManager->WriteRangeToBuffer( entity->model.vertexBuffer, vertices );
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entity->model.indexBuffer = render_device->bufferManager->CreateIndexBuffer( indices.size() * sizeof indices[0] );
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entity->model.indexBuffer = render_device->bufferManager->CreateIndexBuffer( indices.size() * sizeof indices[0] );
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if ( not entity->model.indexBuffer ) return nullptr;
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if ( not entity->model.indexBuffer ) return nullptr;
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render_device->bufferManager->WriteToBuffer( entity->model.indexBuffer, std::span{ indices } );
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render_device->bufferManager->WriteRangeToBuffer( entity->model.indexBuffer, indices );
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cgltf_free( gltf_model );
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cgltf_free( gltf_model );
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return entity;
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return entity;
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