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/**************************************************************************/
/* rendering_device_driver_d3d12.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
# include "rendering_device_driver_d3d12.h"
# include "core/config/project_settings.h"
# include "core/io/marshalls.h"
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# include "servers/rendering/rendering_device.h"
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# include "thirdparty/zlib/zlib.h"
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# include "d3d12_godot_nir_bridge.h"
# include "rendering_context_driver_d3d12.h"
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// No point in fighting warnings in Mesa.
# if defined(_MSC_VER)
# pragma warning(push)
# pragma warning(disable : 4200) // "nonstandard extension used: zero-sized array in struct/union".
# pragma warning(disable : 4806) // "'&': unsafe operation: no value of type 'bool' promoted to type 'uint32_t' can equal the given constant".
# endif
# if defined(__GNUC__) && !defined(__clang__)
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wnon-virtual-dtor"
# pragma GCC diagnostic ignored "-Wshadow"
# pragma GCC diagnostic ignored "-Wswitch"
# pragma GCC diagnostic ignored "-Wmissing-field-initializers"
# endif
# include "dxil_validator.h"
# include "nir_spirv.h"
# include "nir_to_dxil.h"
# include "spirv_to_dxil.h"
extern " C " {
# include "dxil_spirv_nir.h"
}
# if defined(__GNUC__) && !defined(__clang__)
# pragma GCC diagnostic pop
# endif
# if defined(_MSC_VER)
# pragma warning(pop)
# endif
# if !defined(_MSC_VER)
# include <guiddef.h>
# include <dxguids.h>
# endif
// Mesa may define this.
# ifdef UNUSED
# undef UNUSED
# endif
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# ifdef PIX_ENABLED
# if defined(__GNUC__)
# define _MSC_VER 1800
# endif
# define USE_PIX
# include "WinPixEventRuntime/pix3.h"
# if defined(__GNUC__)
# undef _MSC_VER
# endif
# endif
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static const D3D12_RANGE VOID_RANGE = { } ;
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static const uint32_t ROOT_CONSTANT_REGISTER = GODOT_NIR_DESCRIPTOR_SET_MULTIPLIER * ( RDD : : MAX_UNIFORM_SETS + 1 ) ;
static const uint32_t RUNTIME_DATA_REGISTER = GODOT_NIR_DESCRIPTOR_SET_MULTIPLIER * ( RDD : : MAX_UNIFORM_SETS + 2 ) ;
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# ifdef DEV_ENABLED
//#define DEBUG_COUNT_BARRIERS
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# define CUSTOM_INFO_QUEUE_ENABLED 0
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# endif
/*****************/
/**** GENERIC ****/
/*****************/
// NOTE: RD's packed format names are reversed in relation to DXGI's; e.g.:.
// - DATA_FORMAT_A8B8G8R8_UNORM_PACK32 -> DXGI_FORMAT_R8G8B8A8_UNORM (packed; note ABGR vs. RGBA).
// - DATA_FORMAT_B8G8R8A8_UNORM -> DXGI_FORMAT_B8G8R8A8_UNORM (not packed; note BGRA order matches).
// TODO: Add YUV formats properly, which would require better support for planes in the RD API.
const RenderingDeviceDriverD3D12 : : D3D12Format RenderingDeviceDriverD3D12 : : RD_TO_D3D12_FORMAT [ RDD : : DATA_FORMAT_MAX ] = {
/* DATA_FORMAT_R4G4_UNORM_PACK8 */ { } ,
/* DATA_FORMAT_R4G4B4A4_UNORM_PACK16 */ { DXGI_FORMAT_B4G4R4A4_UNORM , DXGI_FORMAT_B4G4R4A4_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 1 , 2 , 3 , 0 ) } ,
/* DATA_FORMAT_B4G4R4A4_UNORM_PACK16 */ { DXGI_FORMAT_B4G4R4A4_UNORM , DXGI_FORMAT_B4G4R4A4_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 3 , 2 , 1 , 0 ) } ,
/* DATA_FORMAT_R5G6B5_UNORM_PACK16 */ { DXGI_FORMAT_B5G6R5_UNORM , DXGI_FORMAT_B5G6R5_UNORM } ,
/* DATA_FORMAT_B5G6R5_UNORM_PACK16 */ { DXGI_FORMAT_B5G6R5_UNORM , DXGI_FORMAT_B5G6R5_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 2 , 1 , 0 , 3 ) } ,
/* DATA_FORMAT_R5G5B5A1_UNORM_PACK16 */ { DXGI_FORMAT_B5G6R5_UNORM , DXGI_FORMAT_B5G5R5A1_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 1 , 2 , 3 , 0 ) } ,
/* DATA_FORMAT_B5G5R5A1_UNORM_PACK16 */ { DXGI_FORMAT_B5G6R5_UNORM , DXGI_FORMAT_B5G5R5A1_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 3 , 2 , 1 , 0 ) } ,
/* DATA_FORMAT_A1R5G5B5_UNORM_PACK16 */ { DXGI_FORMAT_B5G6R5_UNORM , DXGI_FORMAT_B5G5R5A1_UNORM } ,
/* DATA_FORMAT_R8_UNORM */ { DXGI_FORMAT_R8_TYPELESS , DXGI_FORMAT_R8_UNORM } ,
/* DATA_FORMAT_R8_SNORM */ { DXGI_FORMAT_R8_TYPELESS , DXGI_FORMAT_R8_SNORM } ,
/* DATA_FORMAT_R8_USCALED */ { DXGI_FORMAT_R8_TYPELESS , DXGI_FORMAT_R8_UINT } ,
/* DATA_FORMAT_R8_SSCALED */ { DXGI_FORMAT_R8_TYPELESS , DXGI_FORMAT_R8_SINT } ,
/* DATA_FORMAT_R8_UINT */ { DXGI_FORMAT_R8_TYPELESS , DXGI_FORMAT_R8_UINT } ,
/* DATA_FORMAT_R8_SINT */ { DXGI_FORMAT_R8_TYPELESS , DXGI_FORMAT_R8_SINT } ,
/* DATA_FORMAT_R8_SRGB */ { } ,
/* DATA_FORMAT_R8G8_UNORM */ { DXGI_FORMAT_R8G8_TYPELESS , DXGI_FORMAT_R8G8_UNORM } ,
/* DATA_FORMAT_R8G8_SNORM */ { DXGI_FORMAT_R8G8_TYPELESS , DXGI_FORMAT_R8G8_SNORM } ,
/* DATA_FORMAT_R8G8_USCALED */ { DXGI_FORMAT_R8G8_TYPELESS , DXGI_FORMAT_R8G8_UINT } ,
/* DATA_FORMAT_R8G8_SSCALED */ { DXGI_FORMAT_R8G8_TYPELESS , DXGI_FORMAT_R8G8_SINT } ,
/* DATA_FORMAT_R8G8_UINT */ { DXGI_FORMAT_R8G8_TYPELESS , DXGI_FORMAT_R8G8_UINT } ,
/* DATA_FORMAT_R8G8_SINT */ { DXGI_FORMAT_R8G8_TYPELESS , DXGI_FORMAT_R8G8_SINT } ,
/* DATA_FORMAT_R8G8_SRGB */ { } ,
/* DATA_FORMAT_R8G8B8_UNORM */ { } ,
/* DATA_FORMAT_R8G8B8_SNORM */ { } ,
/* DATA_FORMAT_R8G8B8_USCALED */ { } ,
/* DATA_FORMAT_R8G8B8_SSCALED */ { } ,
/* DATA_FORMAT_R8G8B8_UINT */ { } ,
/* DATA_FORMAT_R8G8B8_SINT */ { } ,
/* DATA_FORMAT_R8G8B8_SRGB */ { } ,
/* DATA_FORMAT_B8G8R8_UNORM */ { } ,
/* DATA_FORMAT_B8G8R8_SNORM */ { } ,
/* DATA_FORMAT_B8G8R8_USCALED */ { } ,
/* DATA_FORMAT_B8G8R8_SSCALED */ { } ,
/* DATA_FORMAT_B8G8R8_UINT */ { } ,
/* DATA_FORMAT_B8G8R8_SINT */ { } ,
/* DATA_FORMAT_B8G8R8_SRGB */ { } ,
/* DATA_FORMAT_R8G8B8A8_UNORM */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UNORM } ,
/* DATA_FORMAT_R8G8B8A8_SNORM */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SNORM } ,
/* DATA_FORMAT_R8G8B8A8_USCALED */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UINT } ,
/* DATA_FORMAT_R8G8B8A8_SSCALED */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SINT } ,
/* DATA_FORMAT_R8G8B8A8_UINT */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UINT } ,
/* DATA_FORMAT_R8G8B8A8_SINT */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SINT } ,
/* DATA_FORMAT_R8G8B8A8_SRGB */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UNORM_SRGB } ,
/* DATA_FORMAT_B8G8R8A8_UNORM */ { DXGI_FORMAT_B8G8R8A8_TYPELESS , DXGI_FORMAT_B8G8R8A8_UNORM } ,
/* DATA_FORMAT_B8G8R8A8_SNORM */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SNORM } ,
/* DATA_FORMAT_B8G8R8A8_USCALED */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UINT } ,
/* DATA_FORMAT_B8G8R8A8_SSCALED */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SINT } ,
/* DATA_FORMAT_B8G8R8A8_UINT */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UINT } ,
/* DATA_FORMAT_B8G8R8A8_SINT */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SINT } ,
/* DATA_FORMAT_B8G8R8A8_SRGB */ { DXGI_FORMAT_B8G8R8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UNORM_SRGB } ,
/* DATA_FORMAT_A8B8G8R8_UNORM_PACK32 */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UNORM } ,
/* DATA_FORMAT_A8B8G8R8_SNORM_PACK32 */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SNORM } ,
/* DATA_FORMAT_A8B8G8R8_USCALED_PACK32 */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UINT } ,
/* DATA_FORMAT_A8B8G8R8_SSCALED_PACK32 */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SINT } ,
/* DATA_FORMAT_A8B8G8R8_UINT_PACK32 */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_UINT } ,
/* DATA_FORMAT_A8B8G8R8_SINT_PACK32 */ { DXGI_FORMAT_R8G8B8A8_TYPELESS , DXGI_FORMAT_R8G8B8A8_SINT } ,
/* DATA_FORMAT_A8B8G8R8_SRGB_PACK32 */ { DXGI_FORMAT_B8G8R8A8_TYPELESS , DXGI_FORMAT_B8G8R8A8_UNORM_SRGB } ,
/* DATA_FORMAT_A2R10G10B10_UNORM_PACK32 */ { DXGI_FORMAT_R10G10B10A2_TYPELESS , DXGI_FORMAT_R10G10B10A2_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 2 , 1 , 0 , 3 ) } ,
/* DATA_FORMAT_A2R10G10B10_SNORM_PACK32 */ { } ,
/* DATA_FORMAT_A2R10G10B10_USCALED_PACK32 */ { DXGI_FORMAT_R10G10B10A2_TYPELESS , DXGI_FORMAT_R10G10B10A2_UINT , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 2 , 1 , 0 , 3 ) } ,
/* DATA_FORMAT_A2R10G10B10_SSCALED_PACK32 */ { } ,
/* DATA_FORMAT_A2R10G10B10_UINT_PACK32 */ { DXGI_FORMAT_R10G10B10A2_TYPELESS , DXGI_FORMAT_R10G10B10A2_UINT , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 2 , 1 , 0 , 3 ) } ,
/* DATA_FORMAT_A2R10G10B10_SINT_PACK32 */ { } ,
/* DATA_FORMAT_A2B10G10R10_UNORM_PACK32 */ { DXGI_FORMAT_R10G10B10A2_TYPELESS , DXGI_FORMAT_R10G10B10A2_UNORM } ,
/* DATA_FORMAT_A2B10G10R10_SNORM_PACK32 */ { } ,
/* DATA_FORMAT_A2B10G10R10_USCALED_PACK32 */ { DXGI_FORMAT_R10G10B10A2_TYPELESS , DXGI_FORMAT_R10G10B10A2_UINT } ,
/* DATA_FORMAT_A2B10G10R10_SSCALED_PACK32 */ { } ,
/* DATA_FORMAT_A2B10G10R10_UINT_PACK32 */ { DXGI_FORMAT_R10G10B10A2_TYPELESS , DXGI_FORMAT_R10G10B10A2_UINT } ,
/* DATA_FORMAT_A2B10G10R10_SINT_PACK32 */ { } ,
/* DATA_FORMAT_R16_UNORM */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_UNORM } ,
/* DATA_FORMAT_R16_SNORM */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_SNORM } ,
/* DATA_FORMAT_R16_USCALED */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_UINT } ,
/* DATA_FORMAT_R16_SSCALED */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_SINT } ,
/* DATA_FORMAT_R16_UINT */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_UINT } ,
/* DATA_FORMAT_R16_SINT */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_SINT } ,
/* DATA_FORMAT_R16_SFLOAT */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_FLOAT } ,
/* DATA_FORMAT_R16G16_UNORM */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_UNORM } ,
/* DATA_FORMAT_R16G16_SNORM */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_SNORM } ,
/* DATA_FORMAT_R16G16_USCALED */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_UINT } ,
/* DATA_FORMAT_R16G16_SSCALED */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_SINT } ,
/* DATA_FORMAT_R16G16_UINT */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_UINT } ,
/* DATA_FORMAT_R16G16_SINT */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_SINT } ,
/* DATA_FORMAT_R16G16_SFLOAT */ { DXGI_FORMAT_R16G16_TYPELESS , DXGI_FORMAT_R16G16_FLOAT } ,
/* DATA_FORMAT_R16G16B16_UNORM */ { } ,
/* DATA_FORMAT_R16G16B16_SNORM */ { } ,
/* DATA_FORMAT_R16G16B16_USCALED */ { } ,
/* DATA_FORMAT_R16G16B16_SSCALED */ { } ,
/* DATA_FORMAT_R16G16B16_UINT */ { } ,
/* DATA_FORMAT_R16G16B16_SINT */ { } ,
/* DATA_FORMAT_R16G16B16_SFLOAT */ { } ,
/* DATA_FORMAT_R16G16B16A16_UNORM */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_UNORM } ,
/* DATA_FORMAT_R16G16B16A16_SNORM */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_SNORM } ,
/* DATA_FORMAT_R16G16B16A16_USCALED */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_UINT } ,
/* DATA_FORMAT_R16G16B16A16_SSCALED */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_SINT } ,
/* DATA_FORMAT_R16G16B16A16_UINT */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_UINT } ,
/* DATA_FORMAT_R16G16B16A16_SINT */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_SINT } ,
/* DATA_FORMAT_R16G16B16A16_SFLOAT */ { DXGI_FORMAT_R16G16B16A16_TYPELESS , DXGI_FORMAT_R16G16B16A16_FLOAT } ,
/* DATA_FORMAT_R32_UINT */ { DXGI_FORMAT_R32_TYPELESS , DXGI_FORMAT_R32_UINT } ,
/* DATA_FORMAT_R32_SINT */ { DXGI_FORMAT_R32_TYPELESS , DXGI_FORMAT_R32_SINT } ,
/* DATA_FORMAT_R32_SFLOAT */ { DXGI_FORMAT_R32_TYPELESS , DXGI_FORMAT_R32_FLOAT } ,
/* DATA_FORMAT_R32G32_UINT */ { DXGI_FORMAT_R32G32_TYPELESS , DXGI_FORMAT_R32G32_UINT } ,
/* DATA_FORMAT_R32G32_SINT */ { DXGI_FORMAT_R32G32_TYPELESS , DXGI_FORMAT_R32G32_SINT } ,
/* DATA_FORMAT_R32G32_SFLOAT */ { DXGI_FORMAT_R32G32_TYPELESS , DXGI_FORMAT_R32G32_FLOAT } ,
/* DATA_FORMAT_R32G32B32_UINT */ { DXGI_FORMAT_R32G32B32_TYPELESS , DXGI_FORMAT_R32G32B32_UINT } ,
/* DATA_FORMAT_R32G32B32_SINT */ { DXGI_FORMAT_R32G32B32_TYPELESS , DXGI_FORMAT_R32G32B32_SINT } ,
/* DATA_FORMAT_R32G32B32_SFLOAT */ { DXGI_FORMAT_R32G32B32_TYPELESS , DXGI_FORMAT_R32G32B32_FLOAT } ,
/* DATA_FORMAT_R32G32B32A32_UINT */ { DXGI_FORMAT_R32G32B32A32_TYPELESS , DXGI_FORMAT_R32G32B32A32_UINT } ,
/* DATA_FORMAT_R32G32B32A32_SINT */ { DXGI_FORMAT_R32G32B32A32_TYPELESS , DXGI_FORMAT_R32G32B32A32_SINT } ,
/* DATA_FORMAT_R32G32B32A32_SFLOAT */ { DXGI_FORMAT_R32G32B32A32_TYPELESS , DXGI_FORMAT_R32G32B32A32_FLOAT } ,
/* DATA_FORMAT_R64_UINT */ { } ,
/* DATA_FORMAT_R64_SINT */ { } ,
/* DATA_FORMAT_R64_SFLOAT */ { } ,
/* DATA_FORMAT_R64G64_UINT */ { } ,
/* DATA_FORMAT_R64G64_SINT */ { } ,
/* DATA_FORMAT_R64G64_SFLOAT */ { } ,
/* DATA_FORMAT_R64G64B64_UINT */ { } ,
/* DATA_FORMAT_R64G64B64_SINT */ { } ,
/* DATA_FORMAT_R64G64B64_SFLOAT */ { } ,
/* DATA_FORMAT_R64G64B64A64_UINT */ { } ,
/* DATA_FORMAT_R64G64B64A64_SINT */ { } ,
/* DATA_FORMAT_R64G64B64A64_SFLOAT */ { } ,
/* DATA_FORMAT_B10G11R11_UFLOAT_PACK32 */ { DXGI_FORMAT_R11G11B10_FLOAT , DXGI_FORMAT_R11G11B10_FLOAT } ,
/* DATA_FORMAT_E5B9G9R9_UFLOAT_PACK32 */ { DXGI_FORMAT_R9G9B9E5_SHAREDEXP , DXGI_FORMAT_R9G9B9E5_SHAREDEXP } ,
/* DATA_FORMAT_D16_UNORM */ { DXGI_FORMAT_R16_TYPELESS , DXGI_FORMAT_R16_UNORM , 0 , DXGI_FORMAT_D16_UNORM } ,
/* DATA_FORMAT_X8_D24_UNORM_PACK32 */ { DXGI_FORMAT_R24G8_TYPELESS , DXGI_FORMAT_UNKNOWN , 0 , DXGI_FORMAT_D24_UNORM_S8_UINT } ,
/* DATA_FORMAT_D32_SFLOAT */ { DXGI_FORMAT_R32_TYPELESS , DXGI_FORMAT_R32_FLOAT , D3D12_DEFAULT_SHADER_4_COMPONENT_MAPPING , DXGI_FORMAT_D32_FLOAT } ,
/* DATA_FORMAT_S8_UINT */ { } ,
/* DATA_FORMAT_D16_UNORM_S8_UINT */ { } ,
/* DATA_FORMAT_D24_UNORM_S8_UINT */ { DXGI_FORMAT_R24G8_TYPELESS , DXGI_FORMAT_UNKNOWN , 0 , DXGI_FORMAT_D24_UNORM_S8_UINT } ,
/* DATA_FORMAT_D32_SFLOAT_S8_UINT */ { DXGI_FORMAT_R32G8X24_TYPELESS , DXGI_FORMAT_R32_FLOAT_X8X24_TYPELESS , D3D12_DEFAULT_SHADER_4_COMPONENT_MAPPING , DXGI_FORMAT_D32_FLOAT_S8X24_UINT } ,
/* DATA_FORMAT_BC1_RGB_UNORM_BLOCK */ { DXGI_FORMAT_BC1_TYPELESS , DXGI_FORMAT_BC1_UNORM , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 0 , 1 , 2 , D3D12_SHADER_COMPONENT_MAPPING_FORCE_VALUE_1 ) } ,
/* DATA_FORMAT_BC1_RGB_SRGB_BLOCK */ { DXGI_FORMAT_BC1_TYPELESS , DXGI_FORMAT_BC1_UNORM_SRGB , D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING ( 0 , 1 , 2 , D3D12_SHADER_COMPONENT_MAPPING_FORCE_VALUE_1 ) } ,
/* DATA_FORMAT_BC1_RGBA_UNORM_BLOCK */ { DXGI_FORMAT_BC1_TYPELESS , DXGI_FORMAT_BC1_UNORM } ,
/* DATA_FORMAT_BC1_RGBA_SRGB_BLOCK */ { DXGI_FORMAT_BC1_TYPELESS , DXGI_FORMAT_BC1_UNORM_SRGB } ,
/* DATA_FORMAT_BC2_UNORM_BLOCK */ { DXGI_FORMAT_BC2_TYPELESS , DXGI_FORMAT_BC2_UNORM } ,
/* DATA_FORMAT_BC2_SRGB_BLOCK */ { DXGI_FORMAT_BC2_TYPELESS , DXGI_FORMAT_BC2_UNORM_SRGB } ,
/* DATA_FORMAT_BC3_UNORM_BLOCK */ { DXGI_FORMAT_BC3_TYPELESS , DXGI_FORMAT_BC3_UNORM } ,
/* DATA_FORMAT_BC3_SRGB_BLOCK */ { DXGI_FORMAT_BC3_TYPELESS , DXGI_FORMAT_BC3_UNORM_SRGB } ,
/* DATA_FORMAT_BC4_UNORM_BLOCK */ { DXGI_FORMAT_BC4_TYPELESS , DXGI_FORMAT_BC4_UNORM } ,
/* DATA_FORMAT_BC4_SNORM_BLOCK */ { DXGI_FORMAT_BC4_TYPELESS , DXGI_FORMAT_BC4_SNORM } ,
/* DATA_FORMAT_BC5_UNORM_BLOCK */ { DXGI_FORMAT_BC5_TYPELESS , DXGI_FORMAT_BC5_UNORM } ,
/* DATA_FORMAT_BC5_SNORM_BLOCK */ { DXGI_FORMAT_BC5_TYPELESS , DXGI_FORMAT_BC5_SNORM } ,
/* DATA_FORMAT_BC6H_UFLOAT_BLOCK */ { DXGI_FORMAT_BC6H_TYPELESS , DXGI_FORMAT_BC6H_UF16 } ,
/* DATA_FORMAT_BC6H_SFLOAT_BLOCK */ { DXGI_FORMAT_BC6H_TYPELESS , DXGI_FORMAT_BC6H_SF16 } ,
/* DATA_FORMAT_BC7_UNORM_BLOCK */ { DXGI_FORMAT_BC7_TYPELESS , DXGI_FORMAT_BC7_UNORM } ,
/* DATA_FORMAT_BC7_SRGB_BLOCK */ { DXGI_FORMAT_BC7_TYPELESS , DXGI_FORMAT_BC7_UNORM_SRGB } ,
/* DATA_FORMAT_ETC2_R8G8B8_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ETC2_R8G8B8_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ETC2_R8G8B8A1_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ETC2_R8G8B8A1_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ETC2_R8G8B8A8_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ETC2_R8G8B8A8_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_EAC_R11_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_EAC_R11_SNORM_BLOCK */ { } ,
/* DATA_FORMAT_EAC_R11G11_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_EAC_R11G11_SNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_4x4_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_4x4_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_5x4_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_5x4_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_5x5_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_5x5_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_6x5_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_6x5_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_6x6_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_6x6_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_8x5_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_8x5_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_8x6_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_8x6_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_8x8_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_8x8_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x5_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x5_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x6_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x6_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x8_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x8_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x10_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_10x10_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_12x10_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_12x10_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_12x12_UNORM_BLOCK */ { } ,
/* DATA_FORMAT_ASTC_12x12_SRGB_BLOCK */ { } ,
/* DATA_FORMAT_G8B8G8R8_422_UNORM */ { } ,
/* DATA_FORMAT_B8G8R8G8_422_UNORM */ { } ,
/* DATA_FORMAT_G8_B8_R8_3PLANE_420_UNORM */ { } ,
/* DATA_FORMAT_G8_B8R8_2PLANE_420_UNORM */ { } ,
/* DATA_FORMAT_G8_B8_R8_3PLANE_422_UNORM */ { } ,
/* DATA_FORMAT_G8_B8R8_2PLANE_422_UNORM */ { } ,
/* DATA_FORMAT_G8_B8_R8_3PLANE_444_UNORM */ { } ,
/* DATA_FORMAT_R10X6_UNORM_PACK16 */ { } ,
/* DATA_FORMAT_R10X6G10X6_UNORM_2PACK16 */ { } ,
/* DATA_FORMAT_R10X6G10X6B10X6A10X6_UNORM_4PACK16 */ { } ,
/* DATA_FORMAT_G10X6B10X6G10X6R10X6_422_UNORM_4PACK16 */ { } ,
/* DATA_FORMAT_B10X6G10X6R10X6G10X6_422_UNORM_4PACK16 */ { } ,
/* DATA_FORMAT_G10X6_B10X6_R10X6_3PLANE_420_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G10X6_B10X6R10X6_2PLANE_420_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G10X6_B10X6_R10X6_3PLANE_422_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G10X6_B10X6R10X6_2PLANE_422_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G10X6_B10X6_R10X6_3PLANE_444_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_R12X4_UNORM_PACK16 */ { } ,
/* DATA_FORMAT_R12X4G12X4_UNORM_2PACK16 */ { } ,
/* DATA_FORMAT_R12X4G12X4B12X4A12X4_UNORM_4PACK16 */ { } ,
/* DATA_FORMAT_G12X4B12X4G12X4R12X4_422_UNORM_4PACK16 */ { } ,
/* DATA_FORMAT_B12X4G12X4R12X4G12X4_422_UNORM_4PACK16 */ { } ,
/* DATA_FORMAT_G12X4_B12X4_R12X4_3PLANE_420_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G12X4_B12X4R12X4_2PLANE_420_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G12X4_B12X4_R12X4_3PLANE_422_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G12X4_B12X4R12X4_2PLANE_422_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G12X4_B12X4_R12X4_3PLANE_444_UNORM_3PACK16 */ { } ,
/* DATA_FORMAT_G16B16G16R16_422_UNORM */ { } ,
/* DATA_FORMAT_B16G16R16G16_422_UNORM */ { } ,
/* DATA_FORMAT_G16_B16_R16_3PLANE_420_UNORM */ { } ,
/* DATA_FORMAT_G16_B16R16_2PLANE_420_UNORM */ { } ,
/* DATA_FORMAT_G16_B16_R16_3PLANE_422_UNORM */ { } ,
/* DATA_FORMAT_G16_B16R16_2PLANE_422_UNORM */ { } ,
/* DATA_FORMAT_G16_B16_R16_3PLANE_444_UNORM */ { } ,
} ;
Error RenderingDeviceDriverD3D12 : : DescriptorsHeap : : allocate ( ID3D12Device * p_device , D3D12_DESCRIPTOR_HEAP_TYPE p_type , uint32_t p_descriptor_count , bool p_for_gpu ) {
ERR_FAIL_COND_V ( heap , ERR_ALREADY_EXISTS ) ;
ERR_FAIL_COND_V ( p_descriptor_count = = 0 , ERR_INVALID_PARAMETER ) ;
handle_size = p_device - > GetDescriptorHandleIncrementSize ( p_type ) ;
desc . Type = p_type ;
desc . NumDescriptors = p_descriptor_count ;
desc . Flags = p_for_gpu ? D3D12_DESCRIPTOR_HEAP_FLAG_SHADER_VISIBLE : D3D12_DESCRIPTOR_HEAP_FLAG_NONE ;
HRESULT res = p_device - > CreateDescriptorHeap ( & desc , IID_PPV_ARGS ( heap . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE , " CreateDescriptorHeap failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return OK ;
}
RenderingDeviceDriverD3D12 : : DescriptorsHeap : : Walker RenderingDeviceDriverD3D12 : : DescriptorsHeap : : make_walker ( ) const {
Walker walker ;
walker . handle_size = handle_size ;
walker . handle_count = desc . NumDescriptors ;
if ( heap ) {
# if defined(_MSC_VER) || !defined(_WIN32)
walker . first_cpu_handle = heap - > GetCPUDescriptorHandleForHeapStart ( ) ;
if ( ( desc . Flags & D3D12_DESCRIPTOR_HEAP_FLAG_SHADER_VISIBLE ) ) {
walker . first_gpu_handle = heap - > GetGPUDescriptorHandleForHeapStart ( ) ;
}
# else
heap - > GetCPUDescriptorHandleForHeapStart ( & walker . first_cpu_handle ) ;
if ( ( desc . Flags & D3D12_DESCRIPTOR_HEAP_FLAG_SHADER_VISIBLE ) ) {
heap - > GetGPUDescriptorHandleForHeapStart ( & walker . first_gpu_handle ) ;
}
# endif
}
return walker ;
}
void RenderingDeviceDriverD3D12 : : DescriptorsHeap : : Walker : : advance ( uint32_t p_count ) {
ERR_FAIL_COND_MSG ( handle_index + p_count > handle_count , " Would advance past EOF. " ) ;
handle_index + = p_count ;
}
D3D12_CPU_DESCRIPTOR_HANDLE RenderingDeviceDriverD3D12 : : DescriptorsHeap : : Walker : : get_curr_cpu_handle ( ) {
ERR_FAIL_COND_V_MSG ( is_at_eof ( ) , D3D12_CPU_DESCRIPTOR_HANDLE ( ) , " Heap walker is at EOF. " ) ;
return D3D12_CPU_DESCRIPTOR_HANDLE { first_cpu_handle . ptr + handle_index * handle_size } ;
}
D3D12_GPU_DESCRIPTOR_HANDLE RenderingDeviceDriverD3D12 : : DescriptorsHeap : : Walker : : get_curr_gpu_handle ( ) {
ERR_FAIL_COND_V_MSG ( ! first_gpu_handle . ptr , D3D12_GPU_DESCRIPTOR_HANDLE ( ) , " Can't provide a GPU handle from a non-GPU descriptors heap. " ) ;
ERR_FAIL_COND_V_MSG ( is_at_eof ( ) , D3D12_GPU_DESCRIPTOR_HANDLE ( ) , " Heap walker is at EOF. " ) ;
return D3D12_GPU_DESCRIPTOR_HANDLE { first_gpu_handle . ptr + handle_index * handle_size } ;
}
static const D3D12_COMPARISON_FUNC RD_TO_D3D12_COMPARE_OP [ RD : : COMPARE_OP_MAX ] = {
D3D12_COMPARISON_FUNC_NEVER ,
D3D12_COMPARISON_FUNC_LESS ,
D3D12_COMPARISON_FUNC_EQUAL ,
D3D12_COMPARISON_FUNC_LESS_EQUAL ,
D3D12_COMPARISON_FUNC_GREATER ,
D3D12_COMPARISON_FUNC_NOT_EQUAL ,
D3D12_COMPARISON_FUNC_GREATER_EQUAL ,
D3D12_COMPARISON_FUNC_ALWAYS ,
} ;
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uint32_t RenderingDeviceDriverD3D12 : : SubgroupCapabilities : : supported_stages_flags_rd ( ) const {
// If there's a way to check exactly which are supported, I have yet to find it.
return (
RenderingDevice : : ShaderStage : : SHADER_STAGE_FRAGMENT_BIT |
RenderingDevice : : ShaderStage : : SHADER_STAGE_COMPUTE_BIT ) ;
}
uint32_t RenderingDeviceDriverD3D12 : : SubgroupCapabilities : : supported_operations_flags_rd ( ) const {
if ( ! wave_ops_supported ) {
return 0 ;
} else {
return (
RenderingDevice : : SubgroupOperations : : SUBGROUP_BASIC_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_BALLOT_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_VOTE_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_SHUFFLE_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_SHUFFLE_RELATIVE_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_QUAD_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_ARITHMETIC_BIT |
RenderingDevice : : SubgroupOperations : : SUBGROUP_CLUSTERED_BIT ) ;
}
}
void RenderingDeviceDriverD3D12 : : _debug_message_func ( D3D12_MESSAGE_CATEGORY p_category , D3D12_MESSAGE_SEVERITY p_severity , D3D12_MESSAGE_ID p_id , LPCSTR p_description , void * p_context ) {
String type_string ;
switch ( p_category ) {
case D3D12_MESSAGE_CATEGORY_APPLICATION_DEFINED :
type_string = " APPLICATION_DEFINED " ;
break ;
case D3D12_MESSAGE_CATEGORY_MISCELLANEOUS :
type_string = " MISCELLANEOUS " ;
break ;
case D3D12_MESSAGE_CATEGORY_INITIALIZATION :
type_string = " INITIALIZATION " ;
break ;
case D3D12_MESSAGE_CATEGORY_CLEANUP :
type_string = " CLEANUP " ;
break ;
case D3D12_MESSAGE_CATEGORY_COMPILATION :
type_string = " COMPILATION " ;
break ;
case D3D12_MESSAGE_CATEGORY_STATE_CREATION :
type_string = " STATE_CREATION " ;
break ;
case D3D12_MESSAGE_CATEGORY_STATE_SETTING :
type_string = " STATE_SETTING " ;
break ;
case D3D12_MESSAGE_CATEGORY_STATE_GETTING :
type_string = " STATE_GETTING " ;
break ;
case D3D12_MESSAGE_CATEGORY_RESOURCE_MANIPULATION :
type_string = " RESOURCE_MANIPULATION " ;
break ;
case D3D12_MESSAGE_CATEGORY_EXECUTION :
type_string = " EXECUTION " ;
break ;
case D3D12_MESSAGE_CATEGORY_SHADER :
type_string = " SHADER " ;
break ;
}
String error_message ( type_string +
" - Message Id Number: " + String : : num_int64 ( p_id ) +
" \n \t " + p_description ) ;
// Convert D3D12 severity to our own log macros.
switch ( p_severity ) {
case D3D12_MESSAGE_SEVERITY_MESSAGE :
print_verbose ( error_message ) ;
break ;
case D3D12_MESSAGE_SEVERITY_INFO :
print_line ( error_message ) ;
break ;
case D3D12_MESSAGE_SEVERITY_WARNING :
WARN_PRINT ( error_message ) ;
break ;
case D3D12_MESSAGE_SEVERITY_ERROR :
case D3D12_MESSAGE_SEVERITY_CORRUPTION :
ERR_PRINT ( error_message ) ;
CRASH_COND_MSG ( Engine : : get_singleton ( ) - > is_abort_on_gpu_errors_enabled ( ) ,
" Crashing, because abort on GPU errors is enabled. " ) ;
break ;
}
}
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/****************/
/**** MEMORY ****/
/****************/
static const uint32_t SMALL_ALLOCATION_MAX_SIZE = 4096 ;
# ifdef USE_SMALL_ALLOCS_POOL
D3D12MA : : Pool * RenderingDeviceDriverD3D12 : : _find_or_create_small_allocs_pool ( D3D12_HEAP_TYPE p_heap_type , D3D12_HEAP_FLAGS p_heap_flags ) {
D3D12_HEAP_FLAGS effective_heap_flags = p_heap_flags ;
if ( allocator - > GetD3D12Options ( ) . ResourceHeapTier ! = D3D12_RESOURCE_HEAP_TIER_1 ) {
// Heap tier 2 allows mixing resource types liberally.
effective_heap_flags & = ~ ( D3D12_HEAP_FLAG_ALLOW_ONLY_BUFFERS | D3D12_HEAP_FLAG_ALLOW_ONLY_NON_RT_DS_TEXTURES | D3D12_HEAP_FLAG_ALLOW_ONLY_RT_DS_TEXTURES ) ;
}
AllocPoolKey pool_key ;
pool_key . heap_type = p_heap_type ;
pool_key . heap_flags = effective_heap_flags ;
if ( small_allocs_pools . has ( pool_key . key ) ) {
return small_allocs_pools [ pool_key . key ] . Get ( ) ;
}
# ifdef DEV_ENABLED
print_verbose ( " Creating D3D12MA small objects pool for heap type " + itos ( p_heap_type ) + " and heap flags " + itos ( p_heap_flags ) ) ;
# endif
D3D12MA : : POOL_DESC poolDesc = { } ;
poolDesc . HeapProperties . Type = p_heap_type ;
poolDesc . HeapFlags = effective_heap_flags ;
ComPtr < D3D12MA : : Pool > pool ;
HRESULT res = allocator - > CreatePool ( & poolDesc , pool . GetAddressOf ( ) ) ;
small_allocs_pools [ pool_key . key ] = pool ; // Don't try to create it again if failed the first time.
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , nullptr , " CreatePool failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return pool . Get ( ) ;
}
# endif
/******************/
/**** RESOURCE ****/
/******************/
static const D3D12_RESOURCE_DIMENSION RD_TEXTURE_TYPE_TO_D3D12_RESOURCE_DIMENSION [ RD : : TEXTURE_TYPE_MAX ] = {
D3D12_RESOURCE_DIMENSION_TEXTURE1D ,
D3D12_RESOURCE_DIMENSION_TEXTURE2D ,
D3D12_RESOURCE_DIMENSION_TEXTURE3D ,
D3D12_RESOURCE_DIMENSION_TEXTURE2D ,
D3D12_RESOURCE_DIMENSION_TEXTURE1D ,
D3D12_RESOURCE_DIMENSION_TEXTURE2D ,
D3D12_RESOURCE_DIMENSION_TEXTURE2D ,
} ;
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void RenderingDeviceDriverD3D12 : : _resource_transition_batch ( ResourceInfo * p_resource , uint32_t p_subresource , uint32_t p_num_planes , D3D12_RESOURCE_STATES p_new_state ) {
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DEV_ASSERT ( p_subresource ! = UINT32_MAX ) ; // We don't support an "all-resources" command here.
# ifdef DEBUG_COUNT_BARRIERS
uint64_t start = OS : : get_singleton ( ) - > get_ticks_usec ( ) ;
# endif
ResourceInfo : : States * res_states = p_resource - > states_ptr ;
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if ( p_new_state = = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) {
if ( unlikely ( ! res_states - > xfamily_fallback . subresources_dirty . is_empty ( ) ) ) {
uint32_t subres_qword = p_subresource / 64 ;
uint64_t subres_mask = ( uint64_t ( 1 ) < < ( p_subresource % 64 ) ) ;
res_states - > xfamily_fallback . subresources_dirty [ subres_qword ] | = subres_mask ;
}
}
D3D12_RESOURCE_STATES * curr_state = & res_states - > subresource_states [ p_subresource ] ;
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// Transitions can be considered redundant if the current state has all the bits of the new state.
// This check does not apply to the common state however, which must resort to checking if the state is the same (0).
bool any_state_is_common = * curr_state = = D3D12_RESOURCE_STATE_COMMON | | p_new_state = = D3D12_RESOURCE_STATE_COMMON ;
bool redundant_transition = any_state_is_common ? * curr_state = = p_new_state : ( ( * curr_state ) & p_new_state ) = = p_new_state ;
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if ( redundant_transition ) {
bool just_written = * curr_state = = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
bool needs_uav_barrier = just_written & & res_states - > last_batch_with_uav_barrier ! = res_barriers_batch ;
if ( needs_uav_barrier ) {
if ( res_barriers . size ( ) < res_barriers_count + 1 ) {
res_barriers . resize ( res_barriers_count + 1 ) ;
}
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res_barriers [ res_barriers_count ] = CD3DX12_RESOURCE_BARRIER : : UAV ( p_resource - > resource ) ;
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res_barriers_count + + ;
res_states - > last_batch_with_uav_barrier = res_barriers_batch ;
}
} else {
uint64_t subres_mask_piece = ( ( uint64_t ) 1 < < ( p_subresource & 0b111111 ) ) ;
uint8_t subres_qword = p_subresource > > 6 ;
if ( res_barriers_requests . has ( res_states ) ) {
BarrierRequest & br = res_barriers_requests . get ( res_states ) ;
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DEV_ASSERT ( br . dx_resource = = p_resource - > resource ) ;
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DEV_ASSERT ( br . subres_mask_qwords = = STEPIFY ( res_states - > subresource_states . size ( ) , 64 ) / 64 ) ;
DEV_ASSERT ( br . planes = = p_num_planes ) ;
// First, find if the subresource already has a barrier scheduled.
uint8_t curr_group_idx = 0 ;
bool same_transition_scheduled = false ;
for ( curr_group_idx = 0 ; curr_group_idx < br . groups_count ; curr_group_idx + + ) {
if ( unlikely ( br . groups [ curr_group_idx ] . states = = BarrierRequest : : DELETED_GROUP ) ) {
continue ;
}
if ( ( br . groups [ curr_group_idx ] . subres_mask [ subres_qword ] & subres_mask_piece ) ) {
uint32_t state_mask = br . groups [ curr_group_idx ] . states ;
same_transition_scheduled = ( state_mask & ( uint32_t ) p_new_state ) = = ( uint32_t ) p_new_state ;
break ;
}
}
if ( ! same_transition_scheduled ) {
bool subres_already_there = curr_group_idx ! = br . groups_count ;
D3D12_RESOURCE_STATES final_states = { } ;
if ( subres_already_there ) {
final_states = br . groups [ curr_group_idx ] . states ;
final_states | = p_new_state ;
bool subres_alone = true ;
for ( uint8_t i = 0 ; i < br . subres_mask_qwords ; i + + ) {
if ( i = = subres_qword ) {
if ( br . groups [ curr_group_idx ] . subres_mask [ i ] ! = subres_mask_piece ) {
subres_alone = false ;
break ;
}
} else {
if ( br . groups [ curr_group_idx ] . subres_mask [ i ] ! = 0 ) {
subres_alone = false ;
break ;
}
}
}
bool relocated = false ;
if ( subres_alone ) {
// Subresource is there by itself.
for ( uint8_t i = 0 ; i < br . groups_count ; i + + ) {
if ( unlikely ( i = = curr_group_idx ) ) {
continue ;
}
if ( unlikely ( br . groups [ i ] . states = = BarrierRequest : : DELETED_GROUP ) ) {
continue ;
}
// There's another group with the final states; relocate to it.
if ( br . groups [ i ] . states = = final_states ) {
br . groups [ curr_group_idx ] . subres_mask [ subres_qword ] & = ~ subres_mask_piece ;
relocated = true ;
break ;
}
}
if ( relocated ) {
// Let's delete the group where it used to be by itself.
if ( curr_group_idx = = br . groups_count - 1 ) {
br . groups_count - - ;
} else {
br . groups [ curr_group_idx ] . states = BarrierRequest : : DELETED_GROUP ;
}
} else {
// Its current group, where it's alone, can extend its states.
br . groups [ curr_group_idx ] . states = final_states ;
}
} else {
// Already there, but not by itself and the state mask is different, so it now belongs to a different group.
br . groups [ curr_group_idx ] . subres_mask [ subres_qword ] & = ~ subres_mask_piece ;
subres_already_there = false ;
}
} else {
final_states = p_new_state ;
}
if ( ! subres_already_there ) {
// See if it fits exactly the states of some of the groups to fit it there.
for ( uint8_t i = 0 ; i < br . groups_count ; i + + ) {
if ( unlikely ( i = = curr_group_idx ) ) {
continue ;
}
if ( unlikely ( br . groups [ i ] . states = = BarrierRequest : : DELETED_GROUP ) ) {
continue ;
}
if ( br . groups [ i ] . states = = final_states ) {
br . groups [ i ] . subres_mask [ subres_qword ] | = subres_mask_piece ;
subres_already_there = true ;
break ;
}
}
if ( ! subres_already_there ) {
// Add a new group to accommodate this subresource.
uint8_t group_to_fill = 0 ;
if ( br . groups_count < BarrierRequest : : MAX_GROUPS ) {
// There are still free groups.
group_to_fill = br . groups_count ;
br . groups_count + + ;
} else {
// Let's try to take over a deleted one.
for ( ; group_to_fill < br . groups_count ; group_to_fill + + ) {
if ( unlikely ( br . groups [ group_to_fill ] . states = = BarrierRequest : : DELETED_GROUP ) ) {
break ;
}
}
CRASH_COND ( group_to_fill = = br . groups_count ) ;
}
br . groups [ group_to_fill ] . states = final_states ;
for ( uint8_t i = 0 ; i < br . subres_mask_qwords ; i + + ) {
if ( unlikely ( i = = subres_qword ) ) {
br . groups [ group_to_fill ] . subres_mask [ i ] = subres_mask_piece ;
} else {
br . groups [ group_to_fill ] . subres_mask [ i ] = 0 ;
}
}
}
}
}
} else {
BarrierRequest & br = res_barriers_requests [ res_states ] ;
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br . dx_resource = p_resource - > resource ;
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br . subres_mask_qwords = STEPIFY ( p_resource - > states_ptr - > subresource_states . size ( ) , 64 ) / 64 ;
CRASH_COND ( p_resource - > states_ptr - > subresource_states . size ( ) > BarrierRequest : : MAX_SUBRESOURCES ) ;
br . planes = p_num_planes ;
br . groups [ 0 ] . states = p_new_state ;
for ( uint8_t i = 0 ; i < br . subres_mask_qwords ; i + + ) {
if ( unlikely ( i = = subres_qword ) ) {
br . groups [ 0 ] . subres_mask [ i ] = subres_mask_piece ;
} else {
br . groups [ 0 ] . subres_mask [ i ] = 0 ;
}
}
br . groups_count = 1 ;
}
}
# ifdef DEBUG_COUNT_BARRIERS
frame_barriers_cpu_time + = OS : : get_singleton ( ) - > get_ticks_usec ( ) - start ;
# endif
}
void RenderingDeviceDriverD3D12 : : _resource_transitions_flush ( ID3D12GraphicsCommandList * p_cmd_list ) {
# ifdef DEBUG_COUNT_BARRIERS
uint64_t start = OS : : get_singleton ( ) - > get_ticks_usec ( ) ;
# endif
for ( const KeyValue < ResourceInfo : : States * , BarrierRequest > & E : res_barriers_requests ) {
ResourceInfo : : States * res_states = E . key ;
const BarrierRequest & br = E . value ;
uint32_t num_subresources = res_states - > subresource_states . size ( ) ;
// When there's not a lot of subresources, the empirical finding is that it's better
// to avoid attempting the single-barrier optimization.
static const uint32_t SINGLE_BARRIER_ATTEMPT_MAX_NUM_SUBRESOURCES = 48 ;
bool may_do_single_barrier = br . groups_count = = 1 & & num_subresources * br . planes > = SINGLE_BARRIER_ATTEMPT_MAX_NUM_SUBRESOURCES ;
if ( may_do_single_barrier ) {
// A single group means we may be able to do a single all-subresources barrier.
{
// First requisite is that all subresources are involved.
uint8_t subres_mask_full_qwords = num_subresources / 64 ;
for ( uint32_t i = 0 ; i < subres_mask_full_qwords ; i + + ) {
if ( br . groups [ 0 ] . subres_mask [ i ] ! = UINT64_MAX ) {
may_do_single_barrier = false ;
break ;
}
}
if ( may_do_single_barrier ) {
if ( num_subresources % 64 ) {
DEV_ASSERT ( br . subres_mask_qwords = = subres_mask_full_qwords + 1 ) ;
uint64_t mask_tail_qword = 0 ;
for ( uint8_t i = 0 ; i < num_subresources % 64 ; i + + ) {
mask_tail_qword | = ( ( uint64_t ) 1 < < i ) ;
}
if ( ( br . groups [ 0 ] . subres_mask [ subres_mask_full_qwords ] & mask_tail_qword ) ! = mask_tail_qword ) {
may_do_single_barrier = false ;
}
}
}
}
if ( may_do_single_barrier ) {
// Second requisite is that the source state is the same for all.
for ( uint32_t i = 1 ; i < num_subresources ; i + + ) {
if ( res_states - > subresource_states [ i ] ! = res_states - > subresource_states [ 0 ] ) {
may_do_single_barrier = false ;
break ;
}
}
if ( may_do_single_barrier ) {
// Hurray!, we can do a single barrier (plus maybe a UAV one, too).
bool just_written = res_states - > subresource_states [ 0 ] = = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
bool needs_uav_barrier = just_written & & res_states - > last_batch_with_uav_barrier ! = res_barriers_batch ;
uint32_t needed_barriers = ( needs_uav_barrier ? 1 : 0 ) + 1 ;
if ( res_barriers . size ( ) < res_barriers_count + needed_barriers ) {
res_barriers . resize ( res_barriers_count + needed_barriers ) ;
}
if ( needs_uav_barrier ) {
res_barriers [ res_barriers_count ] = CD3DX12_RESOURCE_BARRIER : : UAV ( br . dx_resource ) ;
res_barriers_count + + ;
res_states - > last_batch_with_uav_barrier = res_barriers_batch ;
}
if ( res_states - > subresource_states [ 0 ] ! = br . groups [ 0 ] . states ) {
res_barriers [ res_barriers_count ] = CD3DX12_RESOURCE_BARRIER : : Transition ( br . dx_resource , res_states - > subresource_states [ 0 ] , br . groups [ 0 ] . states , D3D12_RESOURCE_BARRIER_ALL_SUBRESOURCES ) ;
res_barriers_count + + ;
}
for ( uint32_t i = 0 ; i < num_subresources ; i + + ) {
res_states - > subresource_states [ i ] = br . groups [ 0 ] . states ;
}
}
}
}
if ( ! may_do_single_barrier ) {
for ( uint8_t i = 0 ; i < br . groups_count ; i + + ) {
const BarrierRequest : : Group & g = E . value . groups [ i ] ;
if ( unlikely ( g . states = = BarrierRequest : : DELETED_GROUP ) ) {
continue ;
}
uint32_t subresource = 0 ;
do {
uint64_t subres_mask_piece = ( ( uint64_t ) 1 < < ( subresource % 64 ) ) ;
uint8_t subres_qword = subresource / 64 ;
if ( likely ( g . subres_mask [ subres_qword ] = = 0 ) ) {
subresource + = 64 ;
continue ;
}
if ( likely ( ! ( g . subres_mask [ subres_qword ] & subres_mask_piece ) ) ) {
subresource + + ;
continue ;
}
D3D12_RESOURCE_STATES * curr_state = & res_states - > subresource_states [ subresource ] ;
bool just_written = * curr_state = = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
bool needs_uav_barrier = just_written & & res_states - > last_batch_with_uav_barrier ! = res_barriers_batch ;
uint32_t needed_barriers = ( needs_uav_barrier ? 1 : 0 ) + br . planes ;
if ( res_barriers . size ( ) < res_barriers_count + needed_barriers ) {
res_barriers . resize ( res_barriers_count + needed_barriers ) ;
}
if ( needs_uav_barrier ) {
res_barriers [ res_barriers_count ] = CD3DX12_RESOURCE_BARRIER : : UAV ( br . dx_resource ) ;
res_barriers_count + + ;
res_states - > last_batch_with_uav_barrier = res_barriers_batch ;
}
if ( * curr_state ! = g . states ) {
for ( uint8_t k = 0 ; k < br . planes ; k + + ) {
res_barriers [ res_barriers_count ] = CD3DX12_RESOURCE_BARRIER : : Transition ( br . dx_resource , * curr_state , g . states , subresource + k * num_subresources ) ;
res_barriers_count + + ;
}
}
* curr_state = g . states ;
subresource + + ;
} while ( subresource < num_subresources ) ;
}
}
}
if ( res_barriers_count ) {
p_cmd_list - > ResourceBarrier ( res_barriers_count , res_barriers . ptr ( ) ) ;
res_barriers_requests . clear ( ) ;
}
# ifdef DEBUG_COUNT_BARRIERS
frame_barriers_count + = res_barriers_count ;
frame_barriers_batches_count + + ;
frame_barriers_cpu_time + = OS : : get_singleton ( ) - > get_ticks_usec ( ) - start ;
# endif
res_barriers_count = 0 ;
res_barriers_batch + + ;
}
/*****************/
/**** BUFFERS ****/
/*****************/
RDD : : BufferID RenderingDeviceDriverD3D12 : : buffer_create ( uint64_t p_size , BitField < BufferUsageBits > p_usage , MemoryAllocationType p_allocation_type ) {
// D3D12 debug layers complain at CBV creation time if the size is not multiple of the value per the spec
// but also if you give a rounded size at that point because it will extend beyond the
// memory of the resource. Therefore, it seems the only way is to create it with a
// rounded size.
CD3DX12_RESOURCE_DESC resource_desc = CD3DX12_RESOURCE_DESC : : Buffer ( STEPIFY ( p_size , D3D12_CONSTANT_BUFFER_DATA_PLACEMENT_ALIGNMENT ) ) ;
if ( p_usage . has_flag ( RDD : : BUFFER_USAGE_STORAGE_BIT ) ) {
resource_desc . Flags | = D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS ;
} else {
resource_desc . Flags | = D3D12_RESOURCE_FLAG_DENY_SHADER_RESOURCE ;
}
D3D12MA : : ALLOCATION_DESC allocation_desc = { } ;
allocation_desc . HeapType = D3D12_HEAP_TYPE_DEFAULT ;
D3D12_RESOURCE_STATES initial_state = D3D12_RESOURCE_STATE_COPY_DEST ;
switch ( p_allocation_type ) {
case MEMORY_ALLOCATION_TYPE_CPU : {
bool is_src = p_usage . has_flag ( BUFFER_USAGE_TRANSFER_FROM_BIT ) ;
bool is_dst = p_usage . has_flag ( BUFFER_USAGE_TRANSFER_TO_BIT ) ;
if ( is_src & & ! is_dst ) {
// Looks like a staging buffer: CPU maps, writes sequentially, then GPU copies to VRAM.
allocation_desc . HeapType = D3D12_HEAP_TYPE_UPLOAD ;
initial_state = D3D12_RESOURCE_STATE_GENERIC_READ ;
}
if ( is_dst & & ! is_src ) {
// Looks like a readback buffer: GPU copies from VRAM, then CPU maps and reads.
allocation_desc . HeapType = D3D12_HEAP_TYPE_READBACK ;
}
} break ;
case MEMORY_ALLOCATION_TYPE_GPU : {
# ifdef USE_SMALL_ALLOCS_POOL
if ( p_size < = SMALL_ALLOCATION_MAX_SIZE ) {
allocation_desc . CustomPool = _find_or_create_small_allocs_pool ( allocation_desc . HeapType , D3D12_HEAP_FLAG_ALLOW_ONLY_BUFFERS ) ;
}
# endif
} break ;
}
ComPtr < ID3D12Resource > buffer ;
ComPtr < D3D12MA : : Allocation > allocation ;
HRESULT res = allocator - > CreateResource (
& allocation_desc ,
& resource_desc ,
initial_state ,
nullptr ,
allocation . GetAddressOf ( ) ,
IID_PPV_ARGS ( buffer . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , BufferID ( ) , " Can't create buffer of size: " + itos ( p_size ) + " , error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
// Bookkeep.
BufferInfo * buf_info = VersatileResource : : allocate < BufferInfo > ( resources_allocator ) ;
buf_info - > resource = buffer . Get ( ) ;
buf_info - > owner_info . resource = buffer ;
buf_info - > owner_info . allocation = allocation ;
buf_info - > owner_info . states . subresource_states . push_back ( initial_state ) ;
buf_info - > states_ptr = & buf_info - > owner_info . states ;
buf_info - > size = p_size ;
buf_info - > flags . usable_as_uav = ( resource_desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS ) ;
buf_info - > flags . is_for_upload = allocation_desc . HeapType = = D3D12_HEAP_TYPE_UPLOAD ;
return BufferID ( buf_info ) ;
}
bool RenderingDeviceDriverD3D12 : : buffer_set_texel_format ( BufferID p_buffer , DataFormat p_format ) {
BufferInfo * buf_info = ( BufferInfo * ) p_buffer . id ;
buf_info - > texel_format = p_format ;
return true ;
}
void RenderingDeviceDriverD3D12 : : buffer_free ( BufferID p_buffer ) {
BufferInfo * buf_info = ( BufferInfo * ) p_buffer . id ;
VersatileResource : : free ( resources_allocator , buf_info ) ;
}
uint64_t RenderingDeviceDriverD3D12 : : buffer_get_allocation_size ( BufferID p_buffer ) {
const BufferInfo * buf_info = ( const BufferInfo * ) p_buffer . id ;
return buf_info - > owner_info . allocation ? buf_info - > owner_info . allocation - > GetSize ( ) : 0 ;
}
uint8_t * RenderingDeviceDriverD3D12 : : buffer_map ( BufferID p_buffer ) {
const BufferInfo * buf_info = ( const BufferInfo * ) p_buffer . id ;
void * data_ptr = nullptr ;
HRESULT res = buf_info - > resource - > Map ( 0 , & VOID_RANGE , & data_ptr ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , nullptr , " Map failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return ( uint8_t * ) data_ptr ;
}
void RenderingDeviceDriverD3D12 : : buffer_unmap ( BufferID p_buffer ) {
const BufferInfo * buf_info = ( const BufferInfo * ) p_buffer . id ;
buf_info - > resource - > Unmap ( 0 , & VOID_RANGE ) ;
}
/*****************/
/**** TEXTURE ****/
/*****************/
static const D3D12_SRV_DIMENSION RD_TEXTURE_TYPE_TO_D3D12_VIEW_DIMENSION_FOR_SRV [ RD : : TEXTURE_TYPE_MAX ] = {
D3D12_SRV_DIMENSION_TEXTURE1D ,
D3D12_SRV_DIMENSION_TEXTURE2D ,
D3D12_SRV_DIMENSION_TEXTURE3D ,
D3D12_SRV_DIMENSION_TEXTURECUBE ,
D3D12_SRV_DIMENSION_TEXTURE1DARRAY ,
D3D12_SRV_DIMENSION_TEXTURE2DARRAY ,
D3D12_SRV_DIMENSION_TEXTURECUBEARRAY ,
} ;
static const D3D12_SRV_DIMENSION RD_TEXTURE_TYPE_TO_D3D12_VIEW_DIMENSION_FOR_SRV_MS [ RD : : TEXTURE_TYPE_MAX ] = {
D3D12_SRV_DIMENSION_UNKNOWN ,
D3D12_SRV_DIMENSION_TEXTURE2DMS ,
D3D12_SRV_DIMENSION_UNKNOWN ,
D3D12_SRV_DIMENSION_UNKNOWN ,
D3D12_SRV_DIMENSION_UNKNOWN ,
D3D12_SRV_DIMENSION_TEXTURE2DMSARRAY ,
D3D12_SRV_DIMENSION_UNKNOWN ,
} ;
static const D3D12_UAV_DIMENSION RD_TEXTURE_TYPE_TO_D3D12_VIEW_DIMENSION_FOR_UAV [ RD : : TEXTURE_TYPE_MAX ] = {
D3D12_UAV_DIMENSION_TEXTURE1D ,
D3D12_UAV_DIMENSION_TEXTURE2D ,
D3D12_UAV_DIMENSION_TEXTURE3D ,
D3D12_UAV_DIMENSION_TEXTURE2DARRAY ,
D3D12_UAV_DIMENSION_TEXTURE1DARRAY ,
D3D12_UAV_DIMENSION_TEXTURE2DARRAY ,
D3D12_UAV_DIMENSION_TEXTURE2DARRAY ,
} ;
uint32_t RenderingDeviceDriverD3D12 : : _find_max_common_supported_sample_count ( VectorView < DXGI_FORMAT > p_formats ) {
uint32_t common = UINT32_MAX ;
for ( uint32_t i = 0 ; i < p_formats . size ( ) ; i + + ) {
if ( format_sample_counts_mask_cache . has ( p_formats [ i ] ) ) {
common & = format_sample_counts_mask_cache [ p_formats [ i ] ] ;
} else {
D3D12_FEATURE_DATA_MULTISAMPLE_QUALITY_LEVELS msql = { } ;
msql . Format = p_formats [ i ] ;
uint32_t mask = 0 ;
for ( int samples = 1 < < ( TEXTURE_SAMPLES_MAX - 1 ) ; samples > = 1 ; samples / = 2 ) {
msql . SampleCount = ( UINT ) samples ;
HRESULT res = device - > CheckFeatureSupport ( D3D12_FEATURE_MULTISAMPLE_QUALITY_LEVELS , & msql , sizeof ( msql ) ) ;
if ( SUCCEEDED ( res ) & & msql . NumQualityLevels ) {
int bit = get_shift_from_power_of_2 ( samples ) ;
ERR_FAIL_COND_V ( bit = = - 1 , 1 ) ;
mask | = ( uint32_t ) ( 1 < < bit ) ;
}
}
format_sample_counts_mask_cache . insert ( p_formats [ i ] , mask ) ;
common & = mask ;
}
}
if ( common = = UINT32_MAX ) {
return 1 ;
} else {
return ( ( uint32_t ) 1 < < nearest_shift ( common ) ) ;
}
}
UINT RenderingDeviceDriverD3D12 : : _compute_component_mapping ( const RDD : : TextureView & p_view ) {
UINT base_swizzle = RD_TO_D3D12_FORMAT [ p_view . format ] . swizzle ;
D3D12_SHADER_COMPONENT_MAPPING component_swizzles [ TEXTURE_SWIZZLE_MAX ] = {
D3D12_SHADER_COMPONENT_MAPPING_FORCE_VALUE_0 , // Unused.
D3D12_SHADER_COMPONENT_MAPPING_FORCE_VALUE_0 ,
D3D12_SHADER_COMPONENT_MAPPING_FORCE_VALUE_1 ,
// These will be D3D12_SHADER_COMPONENT_MAPPING_FROM_MEMORY_COMPONENT_*.
D3D12_DECODE_SHADER_4_COMPONENT_MAPPING ( 0 , base_swizzle ) ,
D3D12_DECODE_SHADER_4_COMPONENT_MAPPING ( 1 , base_swizzle ) ,
D3D12_DECODE_SHADER_4_COMPONENT_MAPPING ( 2 , base_swizzle ) ,
D3D12_DECODE_SHADER_4_COMPONENT_MAPPING ( 3 , base_swizzle ) ,
} ;
return D3D12_ENCODE_SHADER_4_COMPONENT_MAPPING (
p_view . swizzle_r = = TEXTURE_SWIZZLE_IDENTITY ? component_swizzles [ TEXTURE_SWIZZLE_R ] : component_swizzles [ p_view . swizzle_r ] ,
p_view . swizzle_g = = TEXTURE_SWIZZLE_IDENTITY ? component_swizzles [ TEXTURE_SWIZZLE_G ] : component_swizzles [ p_view . swizzle_g ] ,
p_view . swizzle_b = = TEXTURE_SWIZZLE_IDENTITY ? component_swizzles [ TEXTURE_SWIZZLE_B ] : component_swizzles [ p_view . swizzle_b ] ,
p_view . swizzle_a = = TEXTURE_SWIZZLE_IDENTITY ? component_swizzles [ TEXTURE_SWIZZLE_A ] : component_swizzles [ p_view . swizzle_a ] ) ;
}
UINT RenderingDeviceDriverD3D12 : : _compute_plane_slice ( DataFormat p_format , BitField < TextureAspectBits > p_aspect_bits ) {
TextureAspect aspect = TEXTURE_ASPECT_MAX ;
if ( p_aspect_bits . has_flag ( TEXTURE_ASPECT_COLOR_BIT ) ) {
DEV_ASSERT ( aspect = = TEXTURE_ASPECT_MAX ) ;
aspect = TEXTURE_ASPECT_COLOR ;
}
if ( p_aspect_bits . has_flag ( TEXTURE_ASPECT_DEPTH_BIT ) ) {
DEV_ASSERT ( aspect = = TEXTURE_ASPECT_MAX ) ;
aspect = TEXTURE_ASPECT_DEPTH ;
}
if ( p_aspect_bits . has_flag ( TEXTURE_ASPECT_STENCIL_BIT ) ) {
DEV_ASSERT ( aspect = = TEXTURE_ASPECT_MAX ) ;
aspect = TEXTURE_ASPECT_STENCIL ;
}
DEV_ASSERT ( aspect ! = TEXTURE_ASPECT_MAX ) ;
return _compute_plane_slice ( p_format , aspect ) ;
}
UINT RenderingDeviceDriverD3D12 : : _compute_plane_slice ( DataFormat p_format , TextureAspect p_aspect ) {
switch ( p_aspect ) {
case TEXTURE_ASPECT_COLOR :
// The plane must be 0 for the color aspect (assuming the format is a regular color one, which must be the case).
return 0 ;
case TEXTURE_ASPECT_DEPTH :
// The plane must be 0 for the color or depth aspect
return 0 ;
case TEXTURE_ASPECT_STENCIL :
// The plane may be 0 for the stencil aspect (if the format is stencil-only), or 1 (if the format is depth-stencil; other cases are ill).
return format_get_plane_count ( p_format ) = = 2 ? 1 : 0 ;
default :
DEV_ASSERT ( false ) ;
return 0 ;
}
}
void RenderingDeviceDriverD3D12 : : _discard_texture_subresources ( const TextureInfo * p_tex_info , const CommandBufferInfo * p_cmd_buf_info ) {
uint32_t planes = 1 ;
if ( ( p_tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
planes = format_get_plane_count ( p_tex_info - > format ) ;
}
D3D12_DISCARD_REGION dr = { } ;
dr . NumRects = p_cmd_buf_info - > render_pass_state . region_is_all ? 0 : 1 ;
dr . pRects = p_cmd_buf_info - > render_pass_state . region_is_all ? nullptr : & p_cmd_buf_info - > render_pass_state . region_rect ;
dr . FirstSubresource = UINT_MAX ;
dr . NumSubresources = 0 ;
for ( uint32_t u = 0 ; u < planes ; u + + ) {
for ( uint32_t v = 0 ; v < p_tex_info - > layers ; v + + ) {
for ( uint32_t w = 0 ; w < p_tex_info - > mipmaps ; w + + ) {
UINT subresource = D3D12CalcSubresource (
p_tex_info - > base_mip + w ,
p_tex_info - > base_layer + v ,
u ,
p_tex_info - > desc . MipLevels ,
p_tex_info - > desc . ArraySize ( ) ) ;
if ( dr . NumSubresources = = 0 ) {
dr . FirstSubresource = subresource ;
dr . NumSubresources = 1 ;
} else if ( dr . FirstSubresource + dr . NumSubresources = = subresource ) {
dr . NumSubresources + + ;
} else {
p_cmd_buf_info - > cmd_list - > DiscardResource ( p_tex_info - > resource , & dr ) ;
dr . FirstSubresource = subresource ;
dr . NumSubresources = 1 ;
}
}
}
}
if ( dr . NumSubresources ) {
p_cmd_buf_info - > cmd_list - > DiscardResource ( p_tex_info - > resource , & dr ) ;
}
}
RDD : : TextureID RenderingDeviceDriverD3D12 : : texture_create ( const TextureFormat & p_format , const TextureView & p_view ) {
// Using D3D12_RESOURCE_DESC1. Thanks to the layout, it's sliceable down to D3D12_RESOURCE_DESC if needed.
CD3DX12_RESOURCE_DESC1 resource_desc = { } ;
resource_desc . Dimension = RD_TEXTURE_TYPE_TO_D3D12_RESOURCE_DIMENSION [ p_format . texture_type ] ;
resource_desc . Alignment = 0 ; // D3D12MA will override this to use a smaller alignment than the default if possible.
resource_desc . Width = p_format . width ;
resource_desc . Height = p_format . height ;
resource_desc . DepthOrArraySize = p_format . depth * p_format . array_layers ;
resource_desc . MipLevels = p_format . mipmaps ;
// Format.
bool cross_family_sharing = false ;
bool relaxed_casting_available = false ;
DXGI_FORMAT * relaxed_casting_formats = nullptr ;
uint32_t relaxed_casting_format_count = 0 ;
{
resource_desc . Format = RD_TO_D3D12_FORMAT [ p_format . format ] . family ;
// If views of different families are wanted, special setup is needed for proper sharing among them.
// Two options here:
2024-02-16 22:44:50 +00:00
// 1. If the driver reports relaxed casting is, leverage its new extended resource creation API (via D3D12MA).
// 2. Otherwise, fall back to an approach based on having multiple versions of the resource and copying as needed. [[CROSS_FAMILY_FALLBACK]]
if ( p_format . shareable_formats . size ( ) & & format_capabilities . relaxed_casting_supported ) {
relaxed_casting_available = true ;
relaxed_casting_formats = ALLOCA_ARRAY ( DXGI_FORMAT , p_format . shareable_formats . size ( ) ) ;
relaxed_casting_formats [ 0 ] = RD_TO_D3D12_FORMAT [ p_format . format ] . general_format ;
relaxed_casting_format_count + + ;
2023-12-19 11:48:02 +00:00
}
HashMap < DataFormat , D3D12_RESOURCE_FLAGS > aliases_forbidden_flags ;
for ( int i = 0 ; i < p_format . shareable_formats . size ( ) ; i + + ) {
DataFormat curr_format = p_format . shareable_formats [ i ] ;
String format_text = " ' " + String ( FORMAT_NAMES [ p_format . format ] ) + " ' " ;
ERR_FAIL_COND_V_MSG ( RD_TO_D3D12_FORMAT [ curr_format ] . family = = DXGI_FORMAT_UNKNOWN , TextureID ( ) , " Format " + format_text + " is not supported. " ) ;
if ( RD_TO_D3D12_FORMAT [ curr_format ] . family ! = RD_TO_D3D12_FORMAT [ p_format . format ] . family ) {
cross_family_sharing = true ;
if ( ! relaxed_casting_available ) {
break ;
}
relaxed_casting_formats [ relaxed_casting_format_count ] = RD_TO_D3D12_FORMAT [ curr_format ] . general_format ;
relaxed_casting_format_count + + ;
}
}
if ( cross_family_sharing & & ! relaxed_casting_available ) {
// Per https://docs.microsoft.com/en-us/windows/win32/api/d3d12/ne-d3d12-d3d12_texture_layout.
if ( p_format . texture_type = = TEXTURE_TYPE_1D ) {
ERR_FAIL_V_MSG ( TextureID ( ) , " This texture's views require aliasing, but that's not supported for a 1D texture. " ) ;
}
if ( p_format . samples ! = TEXTURE_SAMPLES_1 ) {
ERR_FAIL_V_MSG ( TextureID ( ) , " This texture's views require aliasing, but that's not supported for a multi-sample texture. " ) ;
}
if ( ( p_format . usage_bits & TEXTURE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT ) ) {
ERR_FAIL_V_MSG ( TextureID ( ) , " This texture's views require aliasing, but that's not supported for a depth-stencil texture. " ) ;
}
if ( RD_TO_D3D12_FORMAT [ p_format . format ] . family = = DXGI_FORMAT_R32G32B32_TYPELESS ) {
ERR_FAIL_V_MSG ( TextureID ( ) , " This texture's views require aliasing, but that's not supported for an R32G32B32 texture. " ) ;
}
}
}
// Usage.
if ( ( p_format . usage_bits & TEXTURE_USAGE_COLOR_ATTACHMENT_BIT ) ) {
resource_desc . Flags | = D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ;
} else {
if ( ( p_format . usage_bits & TEXTURE_USAGE_CAN_COPY_TO_BIT ) ) {
resource_desc . Flags | = D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS ; // For clearing via UAV.
}
}
if ( ( p_format . usage_bits & TEXTURE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT ) ) {
resource_desc . Flags | = D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ;
}
if ( ( p_format . usage_bits & TEXTURE_USAGE_STORAGE_BIT ) ) {
resource_desc . Flags | = D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS ;
}
if ( ( p_format . usage_bits & TEXTURE_USAGE_VRS_ATTACHMENT_BIT ) ) {
// For VRS images we can't use the typeless format.
resource_desc . Format = DXGI_FORMAT_R8_UINT ;
}
resource_desc . SampleDesc = { } ;
DXGI_FORMAT format_to_test = ( resource_desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ? RD_TO_D3D12_FORMAT [ p_format . format ] . dsv_format : RD_TO_D3D12_FORMAT [ p_format . format ] . general_format ;
if ( ! ( resource_desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS ) ) {
resource_desc . SampleDesc . Count = MIN (
_find_max_common_supported_sample_count ( format_to_test ) ,
TEXTURE_SAMPLES_COUNT [ p_format . samples ] ) ;
} else {
// No MSAA in D3D12 if storage. May have become possible recently where supported, though.
resource_desc . SampleDesc . Count = 1 ;
}
resource_desc . SampleDesc . Quality = resource_desc . SampleDesc . Count = = 1 ? 0 : DXGI_STANDARD_MULTISAMPLE_QUALITY_PATTERN ;
// Create.
D3D12MA : : ALLOCATION_DESC allocation_desc = { } ;
allocation_desc . HeapType = ( p_format . usage_bits & TEXTURE_USAGE_CPU_READ_BIT ) ? D3D12_HEAP_TYPE_READBACK : D3D12_HEAP_TYPE_DEFAULT ;
if ( ( resource_desc . Flags & ( D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET | D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) ) {
allocation_desc . ExtraHeapFlags = D3D12_HEAP_FLAG_ALLOW_ONLY_RT_DS_TEXTURES ;
} else {
allocation_desc . ExtraHeapFlags = D3D12_HEAP_FLAG_ALLOW_ONLY_NON_RT_DS_TEXTURES ;
}
if ( ( resource_desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS ) ) {
allocation_desc . ExtraHeapFlags | = D3D12_HEAP_FLAG_ALLOW_SHADER_ATOMICS ;
}
# ifdef USE_SMALL_ALLOCS_POOL
uint32_t width = 0 , height = 0 ;
uint32_t image_size = get_image_format_required_size ( p_format . format , p_format . width , p_format . height , p_format . depth , p_format . mipmaps , & width , & height ) ;
if ( image_size < = SMALL_ALLOCATION_MAX_SIZE ) {
allocation_desc . CustomPool = _find_or_create_small_allocs_pool ( allocation_desc . HeapType , allocation_desc . ExtraHeapFlags ) ;
}
# endif
D3D12_RESOURCE_STATES initial_state = { } ;
ID3D12Resource * texture = nullptr ;
ComPtr < ID3D12Resource > main_texture ;
ComPtr < D3D12MA : : Allocation > allocation ;
static const FLOAT black [ 4 ] = { } ;
D3D12_CLEAR_VALUE clear_value = CD3DX12_CLEAR_VALUE ( RD_TO_D3D12_FORMAT [ p_format . format ] . general_format , black ) ;
D3D12_CLEAR_VALUE * clear_value_ptr = ( resource_desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ) ? & clear_value : nullptr ;
{
HRESULT res = E_FAIL ;
if ( cross_family_sharing & & relaxed_casting_available ) {
res = allocator - > CreateResource3 (
& allocation_desc ,
& resource_desc ,
D3D12_BARRIER_LAYOUT_COMMON , // Needed for barrier interop.
clear_value_ptr ,
relaxed_casting_format_count ,
relaxed_casting_formats ,
allocation . GetAddressOf ( ) ,
IID_PPV_ARGS ( main_texture . GetAddressOf ( ) ) ) ;
initial_state = D3D12_RESOURCE_STATE_COMMON ; // Needed for barrier interop.
} else {
res = allocator - > CreateResource (
& allocation_desc ,
( D3D12_RESOURCE_DESC * ) & resource_desc ,
D3D12_RESOURCE_STATE_COPY_DEST ,
clear_value_ptr ,
allocation . GetAddressOf ( ) ,
IID_PPV_ARGS ( main_texture . GetAddressOf ( ) ) ) ;
initial_state = D3D12_RESOURCE_STATE_COPY_DEST ;
}
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , TextureID ( ) , " CreateResource failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
texture = main_texture . Get ( ) ;
}
// Describe views.
D3D12_SHADER_RESOURCE_VIEW_DESC srv_desc = { } ;
{
srv_desc . Format = RD_TO_D3D12_FORMAT [ p_view . format ] . general_format ;
srv_desc . ViewDimension = p_format . samples = = TEXTURE_SAMPLES_1 ? RD_TEXTURE_TYPE_TO_D3D12_VIEW_DIMENSION_FOR_SRV [ p_format . texture_type ] : RD_TEXTURE_TYPE_TO_D3D12_VIEW_DIMENSION_FOR_SRV_MS [ p_format . texture_type ] ;
srv_desc . Shader4ComponentMapping = _compute_component_mapping ( p_view ) ;
switch ( srv_desc . ViewDimension ) {
case D3D12_SRV_DIMENSION_TEXTURE1D : {
srv_desc . Texture1D . MipLevels = p_format . mipmaps ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE1DARRAY : {
srv_desc . Texture1DArray . MipLevels = p_format . mipmaps ;
srv_desc . Texture1DArray . ArraySize = p_format . array_layers ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2D : {
srv_desc . Texture2D . MipLevels = p_format . mipmaps ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DMS : {
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DARRAY : {
srv_desc . Texture2DArray . MipLevels = p_format . mipmaps ;
srv_desc . Texture2DArray . ArraySize = p_format . array_layers ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DMSARRAY : {
srv_desc . Texture2DMSArray . ArraySize = p_format . array_layers ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURECUBEARRAY : {
srv_desc . TextureCubeArray . MipLevels = p_format . mipmaps ;
srv_desc . TextureCubeArray . NumCubes = p_format . array_layers / 6 ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE3D : {
srv_desc . Texture3D . MipLevels = p_format . mipmaps ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURECUBE : {
srv_desc . TextureCube . MipLevels = p_format . mipmaps ;
} break ;
default : {
}
}
}
D3D12_UNORDERED_ACCESS_VIEW_DESC main_uav_desc = { } ;
{
main_uav_desc . Format = RD_TO_D3D12_FORMAT [ p_format . format ] . general_format ;
main_uav_desc . ViewDimension = p_format . samples = = TEXTURE_SAMPLES_1 ? RD_TEXTURE_TYPE_TO_D3D12_VIEW_DIMENSION_FOR_UAV [ p_format . texture_type ] : D3D12_UAV_DIMENSION_UNKNOWN ;
switch ( main_uav_desc . ViewDimension ) {
case D3D12_UAV_DIMENSION_TEXTURE1DARRAY : {
main_uav_desc . Texture1DArray . ArraySize = p_format . array_layers ;
} break ;
case D3D12_UAV_DIMENSION_TEXTURE2DARRAY : {
// Either for an actual 2D texture array, cubemap or cubemap array.
main_uav_desc . Texture2DArray . ArraySize = p_format . array_layers ;
} break ;
case D3D12_UAV_DIMENSION_TEXTURE3D : {
main_uav_desc . Texture3D . WSize = p_format . depth ;
} break ;
default : {
}
}
}
D3D12_UNORDERED_ACCESS_VIEW_DESC uav_desc = main_uav_desc ;
uav_desc . Format = RD_TO_D3D12_FORMAT [ p_view . format ] . general_format ;
// Bookkeep.
TextureInfo * tex_info = VersatileResource : : allocate < TextureInfo > ( resources_allocator ) ;
tex_info - > resource = texture ;
tex_info - > owner_info . resource = main_texture ;
tex_info - > owner_info . allocation = allocation ;
tex_info - > owner_info . states . subresource_states . resize ( p_format . mipmaps * p_format . array_layers ) ;
for ( uint32_t i = 0 ; i < tex_info - > owner_info . states . subresource_states . size ( ) ; i + + ) {
tex_info - > owner_info . states . subresource_states [ i ] = initial_state ;
}
tex_info - > states_ptr = & tex_info - > owner_info . states ;
tex_info - > format = p_format . format ;
tex_info - > desc = * ( CD3DX12_RESOURCE_DESC * ) & resource_desc ;
tex_info - > base_layer = 0 ;
tex_info - > layers = resource_desc . ArraySize ( ) ;
tex_info - > base_mip = 0 ;
tex_info - > mipmaps = resource_desc . MipLevels ;
tex_info - > view_descs . srv = srv_desc ;
tex_info - > view_descs . uav = uav_desc ;
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if ( ( p_format . usage_bits & ( TEXTURE_USAGE_STORAGE_BIT | TEXTURE_USAGE_COLOR_ATTACHMENT_BIT ) ) ) {
textures_pending_clear . add ( & tex_info - > pending_clear ) ;
}
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return TextureID ( tex_info ) ;
}
RDD : : TextureID RenderingDeviceDriverD3D12 : : texture_create_from_extension ( uint64_t p_native_texture , TextureType p_type , DataFormat p_format , uint32_t p_array_layers , bool p_depth_stencil ) {
ERR_FAIL_V_MSG ( TextureID ( ) , " Unimplemented! " ) ;
}
RDD : : TextureID RenderingDeviceDriverD3D12 : : texture_create_shared ( TextureID p_original_texture , const TextureView & p_view ) {
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return _texture_create_shared_from_slice ( p_original_texture , p_view , ( TextureSliceType ) - 1 , 0 , 0 , 0 , 0 ) ;
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}
RDD : : TextureID RenderingDeviceDriverD3D12 : : texture_create_shared_from_slice ( TextureID p_original_texture , const TextureView & p_view , TextureSliceType p_slice_type , uint32_t p_layer , uint32_t p_layers , uint32_t p_mipmap , uint32_t p_mipmaps ) {
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return _texture_create_shared_from_slice ( p_original_texture , p_view , p_slice_type , p_layer , p_layers , p_mipmap , p_mipmaps ) ;
}
RDD : : TextureID RenderingDeviceDriverD3D12 : : _texture_create_shared_from_slice ( TextureID p_original_texture , const TextureView & p_view , TextureSliceType p_slice_type , uint32_t p_layer , uint32_t p_layers , uint32_t p_mipmap , uint32_t p_mipmaps ) {
TextureInfo * owner_tex_info = ( TextureInfo * ) p_original_texture . id ;
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# ifdef DEBUG_ENABLED
ERR_FAIL_COND_V ( ! owner_tex_info - > owner_info . allocation , TextureID ( ) ) ;
# endif
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ComPtr < ID3D12Resource > new_texture ;
ComPtr < D3D12MA : : Allocation > new_allocation ;
ID3D12Resource * resource = nullptr ;
CD3DX12_RESOURCE_DESC new_tex_resource_desc = owner_tex_info - > desc ;
bool cross_family = RD_TO_D3D12_FORMAT [ p_view . format ] . family ! = RD_TO_D3D12_FORMAT [ owner_tex_info - > format ] . family ;
if ( cross_family & & ! format_capabilities . relaxed_casting_supported ) {
// [[CROSS_FAMILY_FALLBACK]].
// We have to create a new texture of the alternative format.
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D3D12MA : : ALLOCATION_DESC allocation_desc = { } ;
allocation_desc . HeapType = D3D12_HEAP_TYPE_DEFAULT ;
allocation_desc . ExtraHeapFlags = D3D12_HEAP_FLAG_ALLOW_ONLY_NON_RT_DS_TEXTURES ;
if ( p_slice_type ! = - 1 ) {
# ifdef DEV_ENABLED
// Actual slicing is not contemplated. If ever needed, let's at least realize.
if ( p_slice_type ! = - 1 ) {
uint32_t new_texture_subresorce_count = owner_tex_info - > mipmaps * owner_tex_info - > layers ;
uint32_t slice_subresorce_count = p_mipmaps * p_layers ;
DEV_ASSERT ( new_texture_subresorce_count = = slice_subresorce_count ) ;
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}
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# endif
new_tex_resource_desc . DepthOrArraySize = p_layers ;
new_tex_resource_desc . MipLevels = p_mipmaps ;
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}
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new_tex_resource_desc . Format = RD_TO_D3D12_FORMAT [ p_view . format ] . family ;
new_tex_resource_desc . Flags = D3D12_RESOURCE_FLAG_NONE ; // Alternative formats can only be used as SRVs.
HRESULT res = allocator - > CreateResource (
& allocation_desc ,
& new_tex_resource_desc ,
D3D12_RESOURCE_STATE_COPY_DEST ,
nullptr ,
new_allocation . GetAddressOf ( ) ,
IID_PPV_ARGS ( new_texture . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , TextureID ( ) , vformat ( " D3D12MA::CreateResource failed with error 0x%08ux. " , ( uint64_t ) res ) ) ;
resource = new_texture . Get ( ) ;
} else {
resource = owner_tex_info - > resource ;
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}
// Describe views.
D3D12_SHADER_RESOURCE_VIEW_DESC srv_desc = owner_tex_info - > view_descs . srv ;
{
srv_desc . Format = RD_TO_D3D12_FORMAT [ p_view . format ] . general_format ;
srv_desc . Shader4ComponentMapping = _compute_component_mapping ( p_view ) ;
}
D3D12_UNORDERED_ACCESS_VIEW_DESC uav_desc = owner_tex_info - > view_descs . uav ;
{
uav_desc . Format = RD_TO_D3D12_FORMAT [ p_view . format ] . general_format ;
}
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if ( p_slice_type ! = - 1 ) {
// Complete description with slicing.
switch ( p_slice_type ) {
case TEXTURE_SLICE_2D : {
if ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2D & & p_layer = = 0 ) {
srv_desc . Texture2D . MostDetailedMip = p_mipmap ;
srv_desc . Texture2D . MipLevels = p_mipmaps ;
DEV_ASSERT ( uav_desc . ViewDimension = = D3D12_UAV_DIMENSION_TEXTURE2D ) ;
uav_desc . Texture1D . MipSlice = p_mipmap ;
} else if ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2DMS & & p_layer = = 0 ) {
DEV_ASSERT ( uav_desc . ViewDimension = = D3D12_UAV_DIMENSION_UNKNOWN ) ;
} else if ( ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2DARRAY | | ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2D & & p_layer ) ) | | srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURECUBE | | srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURECUBEARRAY ) {
srv_desc . ViewDimension = D3D12_SRV_DIMENSION_TEXTURE2DARRAY ;
srv_desc . Texture2DArray . MostDetailedMip = p_mipmap ;
srv_desc . Texture2DArray . MipLevels = p_mipmaps ;
srv_desc . Texture2DArray . FirstArraySlice = p_layer ;
srv_desc . Texture2DArray . ArraySize = 1 ;
srv_desc . Texture2DArray . PlaneSlice = 0 ;
srv_desc . Texture2DArray . ResourceMinLODClamp = 0.0f ;
uav_desc . ViewDimension = D3D12_UAV_DIMENSION_TEXTURE2DARRAY ;
uav_desc . Texture2DArray . MipSlice = p_mipmap ;
uav_desc . Texture2DArray . FirstArraySlice = p_layer ;
uav_desc . Texture2DArray . ArraySize = 1 ;
uav_desc . Texture2DArray . PlaneSlice = 0 ;
} else if ( ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2DMSARRAY | | ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2DMS & & p_layer ) ) ) {
srv_desc . ViewDimension = D3D12_SRV_DIMENSION_TEXTURE2DARRAY ;
srv_desc . Texture2DMSArray . FirstArraySlice = p_layer ;
srv_desc . Texture2DMSArray . ArraySize = 1 ;
uav_desc . ViewDimension = D3D12_UAV_DIMENSION_UNKNOWN ;
} else {
DEV_ASSERT ( false ) ;
}
} break ;
case TEXTURE_SLICE_CUBEMAP : {
if ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURECUBE | | p_layer = = 0 ) {
srv_desc . ViewDimension = D3D12_SRV_DIMENSION_TEXTURECUBE ;
srv_desc . TextureCube . MostDetailedMip = p_mipmap ;
srv_desc . TextureCube . MipLevels = p_mipmaps ;
DEV_ASSERT ( uav_desc . ViewDimension = = D3D12_UAV_DIMENSION_TEXTURE2DARRAY ) ;
uav_desc . Texture2DArray . MipSlice = p_mipmap ;
uav_desc . Texture2DArray . FirstArraySlice = p_layer ;
uav_desc . Texture2DArray . ArraySize = 6 ;
uav_desc . Texture2DArray . PlaneSlice = 0 ;
} else if ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURECUBEARRAY | | p_layer ! = 0 ) {
srv_desc . ViewDimension = D3D12_SRV_DIMENSION_TEXTURECUBEARRAY ;
srv_desc . TextureCubeArray . MostDetailedMip = p_mipmap ;
srv_desc . TextureCubeArray . MipLevels = p_mipmaps ;
srv_desc . TextureCubeArray . First2DArrayFace = p_layer ;
srv_desc . TextureCubeArray . NumCubes = 1 ;
srv_desc . TextureCubeArray . ResourceMinLODClamp = 0.0f ;
DEV_ASSERT ( uav_desc . ViewDimension = = D3D12_UAV_DIMENSION_TEXTURE2DARRAY ) ;
uav_desc . Texture2DArray . MipSlice = p_mipmap ;
uav_desc . Texture2DArray . FirstArraySlice = p_layer ;
uav_desc . Texture2DArray . ArraySize = 6 ;
uav_desc . Texture2DArray . PlaneSlice = 0 ;
} else {
DEV_ASSERT ( false ) ;
}
} break ;
case TEXTURE_SLICE_3D : {
DEV_ASSERT ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE3D ) ;
srv_desc . Texture3D . MostDetailedMip = p_mipmap ;
srv_desc . Texture3D . MipLevels = p_mipmaps ;
DEV_ASSERT ( uav_desc . ViewDimension = = D3D12_UAV_DIMENSION_TEXTURE3D ) ;
uav_desc . Texture3D . MipSlice = p_mipmap ;
uav_desc . Texture3D . WSize = - 1 ;
} break ;
case TEXTURE_SLICE_2D_ARRAY : {
DEV_ASSERT ( srv_desc . ViewDimension = = D3D12_SRV_DIMENSION_TEXTURE2DARRAY ) ;
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srv_desc . Texture2DArray . MostDetailedMip = p_mipmap ;
srv_desc . Texture2DArray . MipLevels = p_mipmaps ;
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srv_desc . Texture2DArray . FirstArraySlice = p_layer ;
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srv_desc . Texture2DArray . ArraySize = p_layers ;
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DEV_ASSERT ( uav_desc . ViewDimension = = D3D12_UAV_DIMENSION_TEXTURE2DARRAY ) ;
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uav_desc . Texture2DArray . MipSlice = p_mipmap ;
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uav_desc . Texture2DArray . FirstArraySlice = p_layer ;
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uav_desc . Texture2DArray . ArraySize = p_layers ;
} break ;
default :
break ;
}
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}
// Bookkeep.
TextureInfo * tex_info = VersatileResource : : allocate < TextureInfo > ( resources_allocator ) ;
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tex_info - > resource = resource ;
if ( new_texture . Get ( ) ) {
// [[CROSS_FAMILY_FALLBACK]].
DEV_ASSERT ( cross_family & & ! format_capabilities . relaxed_casting_supported ) ;
uint32_t new_texture_subresorce_count = owner_tex_info - > mipmaps * owner_tex_info - > layers ;
# ifdef DEV_ENABLED
// Actual slicing is not contemplated. If ever needed, let's at least realize.
if ( p_slice_type ! = - 1 ) {
uint32_t slice_subresorce_count = p_mipmaps * p_layers ;
DEV_ASSERT ( new_texture_subresorce_count = = slice_subresorce_count ) ;
}
# endif
tex_info - > owner_info . resource = new_texture ;
tex_info - > owner_info . allocation = new_allocation ;
tex_info - > owner_info . states . subresource_states . resize ( new_texture_subresorce_count ) ;
for ( uint32_t i = 0 ; i < tex_info - > owner_info . states . subresource_states . size ( ) ; i + + ) {
tex_info - > owner_info . states . subresource_states [ i ] = D3D12_RESOURCE_STATE_COPY_DEST ;
}
tex_info - > states_ptr = & tex_info - > owner_info . states ;
ResourceInfo : : States : : CrossFamillyFallback & xfamily = owner_tex_info - > owner_info . states . xfamily_fallback ;
if ( xfamily . subresources_dirty . is_empty ( ) ) {
uint32_t items_required = STEPIFY ( new_texture_subresorce_count , sizeof ( uint64_t ) ) / sizeof ( uint64_t ) ;
xfamily . subresources_dirty . resize ( items_required ) ;
memset ( xfamily . subresources_dirty . ptr ( ) , 255 , sizeof ( uint64_t ) * xfamily . subresources_dirty . size ( ) ) ;
// Create buffer for non-direct copy if it's a format not supporting reinterpret-copy.
DEV_ASSERT ( ! xfamily . interim_buffer . Get ( ) ) ;
if ( owner_tex_info - > format = = DATA_FORMAT_R16_UINT & & p_view . format = = DATA_FORMAT_R4G4B4A4_UNORM_PACK16 ) {
uint32_t row_pitch = STEPIFY ( owner_tex_info - > desc . Width * sizeof ( uint16_t ) , D3D12_TEXTURE_DATA_PITCH_ALIGNMENT ) ;
uint32_t buffer_size = sizeof ( uint16_t ) * row_pitch * owner_tex_info - > desc . Height * owner_tex_info - > desc . Depth ( ) ;
CD3DX12_RESOURCE_DESC resource_desc = CD3DX12_RESOURCE_DESC : : Buffer ( STEPIFY ( buffer_size , D3D12_CONSTANT_BUFFER_DATA_PLACEMENT_ALIGNMENT ) ) ;
resource_desc . Flags | = D3D12_RESOURCE_FLAG_DENY_SHADER_RESOURCE ;
D3D12MA : : ALLOCATION_DESC allocation_desc = { } ;
allocation_desc . HeapType = D3D12_HEAP_TYPE_DEFAULT ;
HRESULT res = allocator - > CreateResource (
& allocation_desc ,
& resource_desc ,
D3D12_RESOURCE_STATE_COPY_SOURCE , // Makes the code that makes the copy easier.
nullptr ,
xfamily . interim_buffer_alloc . GetAddressOf ( ) ,
IID_PPV_ARGS ( xfamily . interim_buffer . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , TextureID ( ) , " D3D12MA::CreateResource failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
}
} else {
tex_info - > states_ptr = owner_tex_info - > states_ptr ;
}
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tex_info - > format = p_view . format ;
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tex_info - > desc = new_tex_resource_desc ;
if ( p_slice_type = = - 1 ) {
tex_info - > base_layer = owner_tex_info - > base_layer ;
tex_info - > layers = owner_tex_info - > layers ;
tex_info - > base_mip = owner_tex_info - > base_mip ;
tex_info - > mipmaps = owner_tex_info - > mipmaps ;
} else {
tex_info - > base_layer = p_layer ;
tex_info - > layers = p_layers ;
tex_info - > base_mip = p_mipmap ;
tex_info - > mipmaps = p_mipmaps ;
}
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tex_info - > view_descs . srv = srv_desc ;
tex_info - > view_descs . uav = uav_desc ;
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tex_info - > main_texture = owner_tex_info ;
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return TextureID ( tex_info ) ;
}
void RenderingDeviceDriverD3D12 : : texture_free ( TextureID p_texture ) {
TextureInfo * tex_info = ( TextureInfo * ) p_texture . id ;
VersatileResource : : free ( resources_allocator , tex_info ) ;
}
uint64_t RenderingDeviceDriverD3D12 : : texture_get_allocation_size ( TextureID p_texture ) {
const TextureInfo * tex_info = ( const TextureInfo * ) p_texture . id ;
return tex_info - > owner_info . allocation ? tex_info - > owner_info . allocation - > GetSize ( ) : 0 ;
}
void RenderingDeviceDriverD3D12 : : texture_get_copyable_layout ( TextureID p_texture , const TextureSubresource & p_subresource , TextureCopyableLayout * r_layout ) {
TextureInfo * tex_info = ( TextureInfo * ) p_texture . id ;
UINT subresource = tex_info - > desc . CalcSubresource ( p_subresource . mipmap , p_subresource . layer , 0 ) ;
D3D12_PLACED_SUBRESOURCE_FOOTPRINT footprint = { } ;
UINT64 subresource_total_size = 0 ;
device - > GetCopyableFootprints (
& tex_info - > desc ,
subresource ,
1 ,
0 ,
& footprint ,
nullptr ,
nullptr ,
& subresource_total_size ) ;
* r_layout = { } ;
r_layout - > offset = footprint . Offset ;
r_layout - > size = subresource_total_size ;
r_layout - > row_pitch = footprint . Footprint . RowPitch ;
r_layout - > depth_pitch = subresource_total_size / tex_info - > desc . Depth ( ) ;
r_layout - > layer_pitch = subresource_total_size / tex_info - > desc . ArraySize ( ) ;
}
uint8_t * RenderingDeviceDriverD3D12 : : texture_map ( TextureID p_texture , const TextureSubresource & p_subresource ) {
TextureInfo * tex_info = ( TextureInfo * ) p_texture . id ;
# ifdef DEBUG_ENABLED
ERR_FAIL_COND_V ( tex_info - > mapped_subresource ! = UINT_MAX , nullptr ) ;
# endif
UINT plane = _compute_plane_slice ( tex_info - > format , p_subresource . aspect ) ;
UINT subresource = tex_info - > desc . CalcSubresource ( p_subresource . mipmap , p_subresource . layer , plane ) ;
void * data_ptr = nullptr ;
HRESULT res = tex_info - > resource - > Map ( subresource , & VOID_RANGE , & data_ptr ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , nullptr , " Map failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
tex_info - > mapped_subresource = subresource ;
return ( uint8_t * ) data_ptr ;
}
void RenderingDeviceDriverD3D12 : : texture_unmap ( TextureID p_texture ) {
TextureInfo * tex_info = ( TextureInfo * ) p_texture . id ;
# ifdef DEBUG_ENABLED
ERR_FAIL_COND ( tex_info - > mapped_subresource = = UINT_MAX ) ;
# endif
tex_info - > resource - > Unmap ( tex_info - > mapped_subresource , & VOID_RANGE ) ;
tex_info - > mapped_subresource = UINT_MAX ;
}
BitField < RDD : : TextureUsageBits > RenderingDeviceDriverD3D12 : : texture_get_usages_supported_by_format ( DataFormat p_format , bool p_cpu_readable ) {
D3D12_FEATURE_DATA_FORMAT_SUPPORT srv_rtv_support = { } ;
srv_rtv_support . Format = RD_TO_D3D12_FORMAT [ p_format ] . general_format ;
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if ( srv_rtv_support . Format ! = DXGI_FORMAT_UNKNOWN ) { // Some implementations (i.e., vkd3d-proton) error out instead of returning empty.
HRESULT res = device - > CheckFeatureSupport ( D3D12_FEATURE_FORMAT_SUPPORT , & srv_rtv_support , sizeof ( srv_rtv_support ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " CheckFeatureSupport failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
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D3D12_FEATURE_DATA_FORMAT_SUPPORT & uav_support = srv_rtv_support ; // Fine for now.
D3D12_FEATURE_DATA_FORMAT_SUPPORT dsv_support = { } ;
dsv_support . Format = RD_TO_D3D12_FORMAT [ p_format ] . dsv_format ;
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if ( dsv_support . Format ! = DXGI_FORMAT_UNKNOWN ) { // See above.
HRESULT res = device - > CheckFeatureSupport ( D3D12_FEATURE_FORMAT_SUPPORT , & dsv_support , sizeof ( dsv_support ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " CheckFeatureSupport failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
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// Everything supported by default makes an all-or-nothing check easier for the caller.
BitField < RDD : : TextureUsageBits > supported = INT64_MAX ;
// Per https://docs.microsoft.com/en-us/windows/win32/api/d3d12/ne-d3d12-d3d12_format_support1,
// as long as the resource can be used as a texture, Sample() will work with point filter at least.
// However, we've empirically found that checking for at least D3D12_FORMAT_SUPPORT1_SHADER_LOAD is needed.
// That's almost good for integer formats. The problem is that theoretically there may be
// float formats that support LOAD but not SAMPLE fully, so this check will not detect
// such a flaw in the format. Linearly interpolated sampling would just not work on them.
if ( ! ( srv_rtv_support . Support1 & ( D3D12_FORMAT_SUPPORT1_SHADER_LOAD | D3D12_FORMAT_SUPPORT1_SHADER_SAMPLE ) ) | |
RD_TO_D3D12_FORMAT [ p_format ] . general_format = = DXGI_FORMAT_UNKNOWN ) {
supported . clear_flag ( TEXTURE_USAGE_SAMPLING_BIT ) ;
}
if ( ! ( srv_rtv_support . Support1 & D3D12_FORMAT_SUPPORT1_RENDER_TARGET ) ) {
supported . clear_flag ( TEXTURE_USAGE_COLOR_ATTACHMENT_BIT ) ;
}
if ( ! ( dsv_support . Support1 & D3D12_FORMAT_SUPPORT1_DEPTH_STENCIL ) ) {
supported . clear_flag ( TEXTURE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT ) ;
}
if ( ! ( uav_support . Support1 & D3D12_FORMAT_SUPPORT1_TYPED_UNORDERED_ACCESS_VIEW ) ) { // Maybe check LOAD/STORE, too?
supported . clear_flag ( TEXTURE_USAGE_STORAGE_BIT ) ;
}
if ( ! ( uav_support . Support2 & D3D12_FORMAT_SUPPORT2_UAV_ATOMIC_ADD ) ) { // Check a basic atomic at least.
supported . clear_flag ( TEXTURE_USAGE_STORAGE_ATOMIC_BIT ) ;
}
if ( RD_TO_D3D12_FORMAT [ p_format ] . general_format ! = DXGI_FORMAT_R8_UINT ) {
supported . clear_flag ( TEXTURE_USAGE_VRS_ATTACHMENT_BIT ) ;
}
return supported ;
}
/*****************/
/**** SAMPLER ****/
/*****************/
static const D3D12_TEXTURE_ADDRESS_MODE RD_REPEAT_MODE_TO_D3D12_ADDRES_MODE [ RDD : : SAMPLER_REPEAT_MODE_MAX ] = {
D3D12_TEXTURE_ADDRESS_MODE_WRAP ,
D3D12_TEXTURE_ADDRESS_MODE_MIRROR ,
D3D12_TEXTURE_ADDRESS_MODE_CLAMP ,
D3D12_TEXTURE_ADDRESS_MODE_BORDER ,
D3D12_TEXTURE_ADDRESS_MODE_MIRROR_ONCE ,
} ;
static const FLOAT RD_TO_D3D12_SAMPLER_BORDER_COLOR [ RDD : : SAMPLER_BORDER_COLOR_MAX ] [ 4 ] = {
{ 0 , 0 , 0 , 0 } ,
{ 0 , 0 , 0 , 0 } ,
{ 0 , 0 , 0 , 1 } ,
{ 0 , 0 , 0 , 1 } ,
{ 1 , 1 , 1 , 1 } ,
{ 1 , 1 , 1 , 1 } ,
} ;
RDD : : SamplerID RenderingDeviceDriverD3D12 : : sampler_create ( const SamplerState & p_state ) {
uint32_t slot = UINT32_MAX ;
if ( samplers . is_empty ( ) ) {
// Adding a seemigly busy slot 0 makes things easier elsewhere.
samplers . push_back ( { } ) ;
samplers . push_back ( { } ) ;
slot = 1 ;
} else {
for ( uint32_t i = 1 ; i < samplers . size ( ) ; i + + ) {
if ( samplers [ i ] . Filter = = INT_MAX ) {
slot = i ;
break ;
}
}
if ( slot = = UINT32_MAX ) {
slot = samplers . size ( ) ;
samplers . push_back ( { } ) ;
}
}
D3D12_SAMPLER_DESC & sampler_desc = samplers [ slot ] ;
if ( p_state . use_anisotropy ) {
sampler_desc . Filter = D3D12_ENCODE_ANISOTROPIC_FILTER ( D3D12_FILTER_REDUCTION_TYPE_STANDARD ) ;
sampler_desc . MaxAnisotropy = p_state . anisotropy_max ;
} else {
static const D3D12_FILTER_TYPE RD_FILTER_TYPE_TO_D3D12 [ ] = {
D3D12_FILTER_TYPE_POINT , // SAMPLER_FILTER_NEAREST.
D3D12_FILTER_TYPE_LINEAR , // SAMPLER_FILTER_LINEAR.
} ;
sampler_desc . Filter = D3D12_ENCODE_BASIC_FILTER (
RD_FILTER_TYPE_TO_D3D12 [ p_state . min_filter ] ,
RD_FILTER_TYPE_TO_D3D12 [ p_state . mag_filter ] ,
RD_FILTER_TYPE_TO_D3D12 [ p_state . mip_filter ] ,
p_state . enable_compare ? D3D12_FILTER_REDUCTION_TYPE_COMPARISON : D3D12_FILTER_REDUCTION_TYPE_STANDARD ) ;
}
sampler_desc . AddressU = RD_REPEAT_MODE_TO_D3D12_ADDRES_MODE [ p_state . repeat_u ] ;
sampler_desc . AddressV = RD_REPEAT_MODE_TO_D3D12_ADDRES_MODE [ p_state . repeat_v ] ;
sampler_desc . AddressW = RD_REPEAT_MODE_TO_D3D12_ADDRES_MODE [ p_state . repeat_w ] ;
for ( int i = 0 ; i < 4 ; i + + ) {
sampler_desc . BorderColor [ i ] = RD_TO_D3D12_SAMPLER_BORDER_COLOR [ p_state . border_color ] [ i ] ;
}
sampler_desc . MinLOD = p_state . min_lod ;
sampler_desc . MaxLOD = p_state . max_lod ;
sampler_desc . MipLODBias = p_state . lod_bias ;
sampler_desc . ComparisonFunc = p_state . enable_compare ? RD_TO_D3D12_COMPARE_OP [ p_state . compare_op ] : D3D12_COMPARISON_FUNC_NEVER ;
// TODO: Emulate somehow?
if ( p_state . unnormalized_uvw ) {
WARN_PRINT ( " Creating a sampler with unnormalized UVW, which is not supported. " ) ;
}
return SamplerID ( slot ) ;
}
void RenderingDeviceDriverD3D12 : : sampler_free ( SamplerID p_sampler ) {
samplers [ p_sampler . id ] . Filter = ( D3D12_FILTER ) INT_MAX ;
}
bool RenderingDeviceDriverD3D12 : : sampler_is_format_supported_for_filter ( DataFormat p_format , SamplerFilter p_filter ) {
D3D12_FEATURE_DATA_FORMAT_SUPPORT srv_rtv_support = { } ;
srv_rtv_support . Format = RD_TO_D3D12_FORMAT [ p_format ] . general_format ;
HRESULT res = device - > CheckFeatureSupport ( D3D12_FEATURE_FORMAT_SUPPORT , & srv_rtv_support , sizeof ( srv_rtv_support ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " CheckFeatureSupport failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return ( srv_rtv_support . Support1 & D3D12_FORMAT_SUPPORT1_SHADER_SAMPLE ) ;
}
/**********************/
/**** VERTEX ARRAY ****/
/**********************/
RDD : : VertexFormatID RenderingDeviceDriverD3D12 : : vertex_format_create ( VectorView < VertexAttribute > p_vertex_attribs ) {
VertexFormatInfo * vf_info = VersatileResource : : allocate < VertexFormatInfo > ( resources_allocator ) ;
vf_info - > input_elem_descs . resize ( p_vertex_attribs . size ( ) ) ;
vf_info - > vertex_buffer_strides . resize ( p_vertex_attribs . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_vertex_attribs . size ( ) ; i + + ) {
vf_info - > input_elem_descs [ i ] = { } ;
vf_info - > input_elem_descs [ i ] . SemanticName = " TEXCOORD " ;
vf_info - > input_elem_descs [ i ] . SemanticIndex = p_vertex_attribs [ i ] . location ;
vf_info - > input_elem_descs [ i ] . Format = RD_TO_D3D12_FORMAT [ p_vertex_attribs [ i ] . format ] . general_format ;
vf_info - > input_elem_descs [ i ] . InputSlot = i ; // TODO: Can the same slot be used if data comes from the same buffer (regardless format)?
vf_info - > input_elem_descs [ i ] . AlignedByteOffset = p_vertex_attribs [ i ] . offset ;
if ( p_vertex_attribs [ i ] . frequency = = VERTEX_FREQUENCY_INSTANCE ) {
vf_info - > input_elem_descs [ i ] . InputSlotClass = D3D12_INPUT_CLASSIFICATION_PER_INSTANCE_DATA ;
vf_info - > input_elem_descs [ i ] . InstanceDataStepRate = 1 ;
} else {
vf_info - > input_elem_descs [ i ] . InputSlotClass = D3D12_INPUT_CLASSIFICATION_PER_VERTEX_DATA ;
vf_info - > input_elem_descs [ i ] . InstanceDataStepRate = 0 ;
}
vf_info - > vertex_buffer_strides [ i ] = p_vertex_attribs [ i ] . stride ;
}
return VertexFormatID ( vf_info ) ;
}
void RenderingDeviceDriverD3D12 : : vertex_format_free ( VertexFormatID p_vertex_format ) {
VertexFormatInfo * vf_info = ( VertexFormatInfo * ) p_vertex_format . id ;
VersatileResource : : free ( resources_allocator , vf_info ) ;
}
/******************/
/**** BARRIERS ****/
/******************/
void RenderingDeviceDriverD3D12 : : command_pipeline_barrier (
CommandBufferID p_cmd_buffer ,
BitField < RDD : : PipelineStageBits > p_src_stages ,
BitField < RDD : : PipelineStageBits > p_dst_stages ,
VectorView < RDD : : MemoryBarrier > p_memory_barriers ,
VectorView < RDD : : BufferBarrier > p_buffer_barriers ,
VectorView < RDD : : TextureBarrier > p_texture_barriers ) {
if ( p_src_stages . has_flag ( PIPELINE_STAGE_ALL_COMMANDS_BIT ) & & p_dst_stages . has_flag ( PIPELINE_STAGE_ALL_COMMANDS_BIT ) ) {
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// Looks like the intent is a full barrier.
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// In the resource barriers world, we can force a full barrier by discarding some resource, as per
// https://microsoft.github.io/DirectX-Specs/d3d/D3D12EnhancedBarriers.html#synchronous-copy-discard-and-resolve.
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
cmd_buf_info - > cmd_list - > DiscardResource ( frames [ frame_idx ] . aux_resource - > GetResource ( ) , nullptr ) ;
}
}
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/****************/
/**** FENCES ****/
/****************/
RDD : : FenceID RenderingDeviceDriverD3D12 : : fence_create ( ) {
ComPtr < ID3D12Fence > d3d_fence ;
HRESULT res = device - > CreateFence ( 0 , D3D12_FENCE_FLAG_NONE , IID_PPV_ARGS ( d3d_fence . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , FenceID ( ) ) ;
HANDLE event_handle = CreateEvent ( nullptr , FALSE , FALSE , nullptr ) ;
ERR_FAIL_NULL_V ( event_handle , FenceID ( ) ) ;
FenceInfo * fence = memnew ( FenceInfo ) ;
fence - > d3d_fence = d3d_fence ;
fence - > event_handle = event_handle ;
return FenceID ( fence ) ;
}
Error RenderingDeviceDriverD3D12 : : fence_wait ( FenceID p_fence ) {
FenceInfo * fence = ( FenceInfo * ) ( p_fence . id ) ;
DWORD res = WaitForSingleObjectEx ( fence - > event_handle , INFINITE , FALSE ) ;
# ifdef PIX_ENABLED
PIXNotifyWakeFromFenceSignal ( fence - > event_handle ) ;
# endif
return ( res = = WAIT_FAILED ) ? FAILED : OK ;
}
void RenderingDeviceDriverD3D12 : : fence_free ( FenceID p_fence ) {
FenceInfo * fence = ( FenceInfo * ) ( p_fence . id ) ;
CloseHandle ( fence - > event_handle ) ;
memdelete ( fence ) ;
}
/********************/
/**** SEMAPHORES ****/
/********************/
RDD : : SemaphoreID RenderingDeviceDriverD3D12 : : semaphore_create ( ) {
ComPtr < ID3D12Fence > d3d_fence ;
HRESULT res = device - > CreateFence ( 0 , D3D12_FENCE_FLAG_NONE , IID_PPV_ARGS ( d3d_fence . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , SemaphoreID ( ) ) ;
SemaphoreInfo * semaphore = memnew ( SemaphoreInfo ) ;
semaphore - > d3d_fence = d3d_fence ;
return SemaphoreID ( semaphore ) ;
}
void RenderingDeviceDriverD3D12 : : semaphore_free ( SemaphoreID p_semaphore ) {
SemaphoreInfo * semaphore = ( SemaphoreInfo * ) ( p_semaphore . id ) ;
memdelete ( semaphore ) ;
}
/******************/
/**** COMMANDS ****/
/******************/
// ----- QUEUE FAMILY -----
RDD : : CommandQueueFamilyID RenderingDeviceDriverD3D12 : : command_queue_family_get ( BitField < CommandQueueFamilyBits > p_cmd_queue_family_bits , RenderingContextDriver : : SurfaceID p_surface ) {
// Return the command list type encoded plus one so zero is an invalid value.
// The only ones that support presenting to a surface are direct queues.
if ( p_cmd_queue_family_bits . has_flag ( COMMAND_QUEUE_FAMILY_GRAPHICS_BIT ) | | ( p_surface ! = 0 ) ) {
return CommandQueueFamilyID ( D3D12_COMMAND_LIST_TYPE_DIRECT + 1 ) ;
} else if ( p_cmd_queue_family_bits . has_flag ( COMMAND_QUEUE_FAMILY_COMPUTE_BIT ) ) {
return CommandQueueFamilyID ( D3D12_COMMAND_LIST_TYPE_COMPUTE + 1 ) ;
} else if ( p_cmd_queue_family_bits . has_flag ( COMMAND_QUEUE_FAMILY_TRANSFER_BIT ) ) {
return CommandQueueFamilyID ( D3D12_COMMAND_LIST_TYPE_COPY + 1 ) ;
} else {
return CommandQueueFamilyID ( ) ;
}
}
// ----- QUEUE -----
RDD : : CommandQueueID RenderingDeviceDriverD3D12 : : command_queue_create ( CommandQueueFamilyID p_cmd_queue_family , bool p_identify_as_main_queue ) {
ComPtr < ID3D12CommandQueue > d3d_queue ;
D3D12_COMMAND_QUEUE_DESC queue_desc = { } ;
queue_desc . Type = ( D3D12_COMMAND_LIST_TYPE ) ( p_cmd_queue_family . id - 1 ) ;
HRESULT res = device - > CreateCommandQueue ( & queue_desc , IID_PPV_ARGS ( d3d_queue . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , CommandQueueID ( ) ) ;
CommandQueueInfo * command_queue = memnew ( CommandQueueInfo ) ;
command_queue - > d3d_queue = d3d_queue ;
return CommandQueueID ( command_queue ) ;
}
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Error RenderingDeviceDriverD3D12 : : command_queue_execute_and_present ( CommandQueueID p_cmd_queue , VectorView < SemaphoreID > p_wait_semaphores , VectorView < CommandBufferID > p_cmd_buffers , VectorView < SemaphoreID > p_cmd_semaphores , FenceID p_cmd_fence , VectorView < SwapChainID > p_swap_chains ) {
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CommandQueueInfo * command_queue = ( CommandQueueInfo * ) ( p_cmd_queue . id ) ;
for ( uint32_t i = 0 ; i < p_wait_semaphores . size ( ) ; i + + ) {
const SemaphoreInfo * semaphore = ( const SemaphoreInfo * ) ( p_wait_semaphores [ i ] . id ) ;
command_queue - > d3d_queue - > Wait ( semaphore - > d3d_fence . Get ( ) , semaphore - > fence_value ) ;
}
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if ( p_cmd_buffers . size ( ) > 0 ) {
thread_local LocalVector < ID3D12CommandList * > command_lists ;
command_lists . resize ( p_cmd_buffers . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_cmd_buffers . size ( ) ; i + + ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) ( p_cmd_buffers [ i ] . id ) ;
command_lists [ i ] = cmd_buf_info - > cmd_list . Get ( ) ;
}
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command_queue - > d3d_queue - > ExecuteCommandLists ( command_lists . size ( ) , command_lists . ptr ( ) ) ;
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for ( uint32_t i = 0 ; i < p_cmd_semaphores . size ( ) ; i + + ) {
SemaphoreInfo * semaphore = ( SemaphoreInfo * ) ( p_cmd_semaphores [ i ] . id ) ;
semaphore - > fence_value + + ;
command_queue - > d3d_queue - > Signal ( semaphore - > d3d_fence . Get ( ) , semaphore - > fence_value ) ;
}
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if ( p_cmd_fence ) {
FenceInfo * fence = ( FenceInfo * ) ( p_cmd_fence . id ) ;
fence - > fence_value + + ;
command_queue - > d3d_queue - > Signal ( fence - > d3d_fence . Get ( ) , fence - > fence_value ) ;
fence - > d3d_fence - > SetEventOnCompletion ( fence - > fence_value , fence - > event_handle ) ;
}
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}
HRESULT res ;
bool any_present_failed = false ;
for ( uint32_t i = 0 ; i < p_swap_chains . size ( ) ; i + + ) {
SwapChain * swap_chain = ( SwapChain * ) ( p_swap_chains [ i ] . id ) ;
res = swap_chain - > d3d_swap_chain - > Present ( swap_chain - > sync_interval , swap_chain - > present_flags ) ;
if ( ! SUCCEEDED ( res ) ) {
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print_verbose ( vformat ( " D3D12: Presenting swapchain failed with error 0x%08ux. " , ( uint64_t ) res ) ) ;
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any_present_failed = true ;
}
}
return any_present_failed ? FAILED : OK ;
}
void RenderingDeviceDriverD3D12 : : command_queue_free ( CommandQueueID p_cmd_queue ) {
CommandQueueInfo * command_queue = ( CommandQueueInfo * ) ( p_cmd_queue . id ) ;
memdelete ( command_queue ) ;
}
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// ----- POOL -----
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RDD : : CommandPoolID RenderingDeviceDriverD3D12 : : command_pool_create ( CommandQueueFamilyID p_cmd_queue_family , CommandBufferType p_cmd_buffer_type ) {
CommandPoolInfo * command_pool = memnew ( CommandPoolInfo ) ;
command_pool - > queue_family = p_cmd_queue_family ;
command_pool - > buffer_type = p_cmd_buffer_type ;
return CommandPoolID ( command_pool ) ;
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}
void RenderingDeviceDriverD3D12 : : command_pool_free ( CommandPoolID p_cmd_pool ) {
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CommandPoolInfo * command_pool = ( CommandPoolInfo * ) ( p_cmd_pool . id ) ;
memdelete ( command_pool ) ;
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}
// ----- BUFFER -----
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RDD : : CommandBufferID RenderingDeviceDriverD3D12 : : command_buffer_create ( CommandPoolID p_cmd_pool ) {
DEV_ASSERT ( p_cmd_pool ) ;
const CommandPoolInfo * command_pool = ( CommandPoolInfo * ) ( p_cmd_pool . id ) ;
D3D12_COMMAND_LIST_TYPE list_type ;
if ( command_pool - > buffer_type = = COMMAND_BUFFER_TYPE_SECONDARY ) {
list_type = D3D12_COMMAND_LIST_TYPE_BUNDLE ;
} else {
list_type = D3D12_COMMAND_LIST_TYPE ( command_pool - > queue_family . id - 1 ) ;
}
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ID3D12CommandAllocator * cmd_allocator = nullptr ;
{
HRESULT res = device - > CreateCommandAllocator ( list_type , IID_PPV_ARGS ( & cmd_allocator ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , CommandBufferID ( ) , " CreateCommandAllocator failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
ID3D12GraphicsCommandList * cmd_list = nullptr ;
{
ComPtr < ID3D12Device4 > device_4 ;
device - > QueryInterface ( device_4 . GetAddressOf ( ) ) ;
HRESULT res = E_FAIL ;
if ( device_4 ) {
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res = device_4 - > CreateCommandList1 ( 0 , list_type , D3D12_COMMAND_LIST_FLAG_NONE , IID_PPV_ARGS ( & cmd_list ) ) ;
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} else {
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res = device - > CreateCommandList ( 0 , list_type , cmd_allocator , nullptr , IID_PPV_ARGS ( & cmd_list ) ) ;
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}
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , CommandBufferID ( ) , " CreateCommandList failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
if ( ! device_4 ) {
cmd_list - > Close ( ) ;
}
}
// Bookkeep
CommandBufferInfo * cmd_buf_info = VersatileResource : : allocate < CommandBufferInfo > ( resources_allocator ) ;
cmd_buf_info - > cmd_allocator = cmd_allocator ;
cmd_buf_info - > cmd_list = cmd_list ;
return CommandBufferID ( cmd_buf_info ) ;
}
bool RenderingDeviceDriverD3D12 : : command_buffer_begin ( CommandBufferID p_cmd_buffer ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
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HRESULT res = cmd_buf_info - > cmd_allocator - > Reset ( ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " Reset failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
res = cmd_buf_info - > cmd_list - > Reset ( cmd_buf_info - > cmd_allocator . Get ( ) , nullptr ) ;
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ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " Reset failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return true ;
}
bool RenderingDeviceDriverD3D12 : : command_buffer_begin_secondary ( CommandBufferID p_cmd_buffer , RenderPassID p_render_pass , uint32_t p_subpass , FramebufferID p_framebuffer ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
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HRESULT res = cmd_buf_info - > cmd_allocator - > Reset ( ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " Reset failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
res = cmd_buf_info - > cmd_list - > Reset ( cmd_buf_info - > cmd_allocator . Get ( ) , nullptr ) ;
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ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , false , " Reset failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return true ;
}
void RenderingDeviceDriverD3D12 : : command_buffer_end ( CommandBufferID p_cmd_buffer ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
HRESULT res = cmd_buf_info - > cmd_list - > Close ( ) ;
ERR_FAIL_COND_MSG ( ! SUCCEEDED ( res ) , " Close failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
cmd_buf_info - > graphics_pso = nullptr ;
cmd_buf_info - > graphics_root_signature_crc = 0 ;
cmd_buf_info - > compute_pso = nullptr ;
cmd_buf_info - > compute_root_signature_crc = 0 ;
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cmd_buf_info - > descriptor_heaps_set = false ;
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}
void RenderingDeviceDriverD3D12 : : command_buffer_execute_secondary ( CommandBufferID p_cmd_buffer , VectorView < CommandBufferID > p_secondary_cmd_buffers ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
for ( uint32_t i = 0 ; i < p_secondary_cmd_buffers . size ( ) ; i + + ) {
const CommandBufferInfo * secondary_cb_info = ( const CommandBufferInfo * ) p_secondary_cmd_buffers [ i ] . id ;
cmd_buf_info - > cmd_list - > ExecuteBundle ( secondary_cb_info - > cmd_list . Get ( ) ) ;
}
}
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/********************/
/**** SWAP CHAIN ****/
/********************/
void RenderingDeviceDriverD3D12 : : _swap_chain_release ( SwapChain * p_swap_chain ) {
_swap_chain_release_buffers ( p_swap_chain ) ;
p_swap_chain - > d3d_swap_chain . Reset ( ) ;
}
void RenderingDeviceDriverD3D12 : : _swap_chain_release_buffers ( SwapChain * p_swap_chain ) {
for ( ID3D12Resource * render_target : p_swap_chain - > render_targets ) {
render_target - > Release ( ) ;
}
p_swap_chain - > render_targets . clear ( ) ;
p_swap_chain - > render_targets_info . clear ( ) ;
for ( RDD : : FramebufferID framebuffer : p_swap_chain - > framebuffers ) {
framebuffer_free ( framebuffer ) ;
}
p_swap_chain - > framebuffers . clear ( ) ;
}
RDD : : SwapChainID RenderingDeviceDriverD3D12 : : swap_chain_create ( RenderingContextDriver : : SurfaceID p_surface ) {
// Create the render pass that will be used to draw to the swap chain's framebuffers.
RDD : : Attachment attachment ;
attachment . format = DATA_FORMAT_R8G8B8A8_UNORM ;
attachment . samples = RDD : : TEXTURE_SAMPLES_1 ;
attachment . load_op = RDD : : ATTACHMENT_LOAD_OP_CLEAR ;
attachment . store_op = RDD : : ATTACHMENT_STORE_OP_STORE ;
RDD : : Subpass subpass ;
RDD : : AttachmentReference color_ref ;
color_ref . attachment = 0 ;
color_ref . aspect . set_flag ( RDD : : TEXTURE_ASPECT_COLOR_BIT ) ;
subpass . color_references . push_back ( color_ref ) ;
RenderPassID render_pass = render_pass_create ( attachment , subpass , { } , 1 ) ;
ERR_FAIL_COND_V ( ! render_pass , SwapChainID ( ) ) ;
// Create the empty swap chain until it is resized.
SwapChain * swap_chain = memnew ( SwapChain ) ;
swap_chain - > surface = p_surface ;
swap_chain - > data_format = attachment . format ;
swap_chain - > render_pass = render_pass ;
return SwapChainID ( swap_chain ) ;
}
Error RenderingDeviceDriverD3D12 : : swap_chain_resize ( CommandQueueID p_cmd_queue , SwapChainID p_swap_chain , uint32_t p_desired_framebuffer_count ) {
DEV_ASSERT ( p_cmd_queue . id ! = 0 ) ;
DEV_ASSERT ( p_swap_chain . id ! = 0 ) ;
CommandQueueInfo * command_queue = ( CommandQueueInfo * ) ( p_cmd_queue . id ) ;
SwapChain * swap_chain = ( SwapChain * ) ( p_swap_chain . id ) ;
RenderingContextDriverD3D12 : : Surface * surface = ( RenderingContextDriverD3D12 : : Surface * ) ( swap_chain - > surface ) ;
if ( surface - > width = = 0 | | surface - > height = = 0 ) {
// Very likely the window is minimized, don't create a swap chain.
return ERR_SKIP ;
}
HRESULT res ;
const bool is_tearing_supported = context_driver - > get_tearing_supported ( ) ;
UINT sync_interval = 0 ;
UINT present_flags = 0 ;
UINT creation_flags = 0 ;
switch ( surface - > vsync_mode ) {
case DisplayServer : : VSYNC_MAILBOX : {
sync_interval = 1 ;
present_flags = DXGI_PRESENT_RESTART ;
} break ;
case DisplayServer : : VSYNC_ENABLED : {
sync_interval = 1 ;
present_flags = 0 ;
} break ;
case DisplayServer : : VSYNC_DISABLED : {
sync_interval = 0 ;
present_flags = is_tearing_supported ? DXGI_PRESENT_ALLOW_TEARING : 0 ;
creation_flags = is_tearing_supported ? DXGI_SWAP_CHAIN_FLAG_ALLOW_TEARING : 0 ;
} break ;
case DisplayServer : : VSYNC_ADAPTIVE : // Unsupported.
default :
sync_interval = 1 ;
present_flags = 0 ;
break ;
}
print_verbose ( " Using swap chain flags: " + itos ( creation_flags ) + " , sync interval: " + itos ( sync_interval ) + " , present flags: " + itos ( present_flags ) ) ;
if ( swap_chain - > d3d_swap_chain ! = nullptr & & creation_flags ! = swap_chain - > creation_flags ) {
// The swap chain must be recreated if the creation flags are different.
_swap_chain_release ( swap_chain ) ;
}
DXGI_SWAP_CHAIN_DESC1 swap_chain_desc = { } ;
if ( swap_chain - > d3d_swap_chain ! = nullptr ) {
_swap_chain_release_buffers ( swap_chain ) ;
res = swap_chain - > d3d_swap_chain - > ResizeBuffers ( p_desired_framebuffer_count , 0 , 0 , DXGI_FORMAT_UNKNOWN , creation_flags ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_UNAVAILABLE ) ;
} else {
swap_chain_desc . BufferCount = p_desired_framebuffer_count ;
swap_chain_desc . Format = RD_TO_D3D12_FORMAT [ swap_chain - > data_format ] . general_format ;
swap_chain_desc . BufferUsage = DXGI_USAGE_RENDER_TARGET_OUTPUT ;
swap_chain_desc . SwapEffect = DXGI_SWAP_EFFECT_FLIP_DISCARD ;
swap_chain_desc . SampleDesc . Count = 1 ;
swap_chain_desc . Flags = creation_flags ;
swap_chain_desc . Scaling = DXGI_SCALING_NONE ;
ComPtr < IDXGISwapChain1 > swap_chain_1 ;
res = context_driver - > dxgi_factory_get ( ) - > CreateSwapChainForHwnd ( command_queue - > d3d_queue . Get ( ) , surface - > hwnd , & swap_chain_desc , nullptr , nullptr , swap_chain_1 . GetAddressOf ( ) ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
swap_chain_1 . As ( & swap_chain - > d3d_swap_chain ) ;
ERR_FAIL_NULL_V ( swap_chain - > d3d_swap_chain , ERR_CANT_CREATE ) ;
res = context_driver - > dxgi_factory_get ( ) - > MakeWindowAssociation ( surface - > hwnd , DXGI_MWA_NO_ALT_ENTER | DXGI_MWA_NO_WINDOW_CHANGES ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
}
res = swap_chain - > d3d_swap_chain - > GetDesc1 ( & swap_chain_desc ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
ERR_FAIL_COND_V ( swap_chain_desc . BufferCount = = 0 , ERR_CANT_CREATE ) ;
surface - > width = swap_chain_desc . Width ;
surface - > height = swap_chain_desc . Height ;
swap_chain - > creation_flags = creation_flags ;
swap_chain - > sync_interval = sync_interval ;
swap_chain - > present_flags = present_flags ;
// Retrieve the render targets associated to the swap chain and recreate the framebuffers. The following code
// relies on the address of the elements remaining static when new elements are inserted, so the container must
// follow this restriction when reserving the right amount of elements beforehand.
swap_chain - > render_targets . reserve ( swap_chain_desc . BufferCount ) ;
swap_chain - > render_targets_info . reserve ( swap_chain_desc . BufferCount ) ;
swap_chain - > framebuffers . reserve ( swap_chain_desc . BufferCount ) ;
for ( uint32_t i = 0 ; i < swap_chain_desc . BufferCount ; i + + ) {
// Retrieve the resource corresponding to the swap chain's buffer.
ID3D12Resource * render_target = nullptr ;
res = swap_chain - > d3d_swap_chain - > GetBuffer ( i , IID_PPV_ARGS ( & render_target ) ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
swap_chain - > render_targets . push_back ( render_target ) ;
// Create texture information for the framebuffer to reference the resource. Since the states pointer must
// reference an address of the element itself, we must insert it first and then modify it.
swap_chain - > render_targets_info . push_back ( TextureInfo ( ) ) ;
TextureInfo & texture_info = swap_chain - > render_targets_info [ i ] ;
texture_info . owner_info . states . subresource_states . push_back ( D3D12_RESOURCE_STATE_PRESENT ) ;
texture_info . states_ptr = & texture_info . owner_info . states ;
texture_info . format = swap_chain - > data_format ;
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# if defined(_MSC_VER) || !defined(_WIN32)
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texture_info . desc = CD3DX12_RESOURCE_DESC ( render_target - > GetDesc ( ) ) ;
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# else
render_target - > GetDesc ( & texture_info . desc ) ;
# endif
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texture_info . layers = 1 ;
texture_info . mipmaps = 1 ;
texture_info . resource = render_target ;
texture_info . view_descs . srv . Format = texture_info . desc . Format ;
texture_info . view_descs . srv . ViewDimension = D3D12_SRV_DIMENSION_TEXTURE2D ;
// Create the framebuffer for this buffer.
FramebufferID framebuffer = _framebuffer_create ( swap_chain - > render_pass , TextureID ( & swap_chain - > render_targets_info [ i ] ) , swap_chain_desc . Width , swap_chain_desc . Height , true ) ;
ERR_FAIL_COND_V ( ! framebuffer , ERR_CANT_CREATE ) ;
swap_chain - > framebuffers . push_back ( framebuffer ) ;
}
// Once everything's been created correctly, indicate the surface no longer needs to be resized.
context_driver - > surface_set_needs_resize ( swap_chain - > surface , false ) ;
return OK ;
}
RDD : : FramebufferID RenderingDeviceDriverD3D12 : : swap_chain_acquire_framebuffer ( CommandQueueID p_cmd_queue , SwapChainID p_swap_chain , bool & r_resize_required ) {
DEV_ASSERT ( p_swap_chain . id ! = 0 ) ;
const SwapChain * swap_chain = ( const SwapChain * ) ( p_swap_chain . id ) ;
if ( context_driver - > surface_get_needs_resize ( swap_chain - > surface ) ) {
r_resize_required = true ;
return FramebufferID ( ) ;
}
const uint32_t buffer_index = swap_chain - > d3d_swap_chain - > GetCurrentBackBufferIndex ( ) ;
DEV_ASSERT ( buffer_index < swap_chain - > framebuffers . size ( ) ) ;
return swap_chain - > framebuffers [ buffer_index ] ;
}
RDD : : RenderPassID RenderingDeviceDriverD3D12 : : swap_chain_get_render_pass ( SwapChainID p_swap_chain ) {
const SwapChain * swap_chain = ( const SwapChain * ) ( p_swap_chain . id ) ;
return swap_chain - > render_pass ;
}
RDD : : DataFormat RenderingDeviceDriverD3D12 : : swap_chain_get_format ( SwapChainID p_swap_chain ) {
const SwapChain * swap_chain = ( const SwapChain * ) ( p_swap_chain . id ) ;
return swap_chain - > data_format ;
}
void RenderingDeviceDriverD3D12 : : swap_chain_free ( SwapChainID p_swap_chain ) {
SwapChain * swap_chain = ( SwapChain * ) ( p_swap_chain . id ) ;
_swap_chain_release ( swap_chain ) ;
render_pass_free ( swap_chain - > render_pass ) ;
memdelete ( swap_chain ) ;
}
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/*********************/
/**** FRAMEBUFFER ****/
/*********************/
D3D12_RENDER_TARGET_VIEW_DESC RenderingDeviceDriverD3D12 : : _make_rtv_for_texture ( const TextureInfo * p_texture_info , uint32_t p_mipmap_offset , uint32_t p_layer_offset , uint32_t p_layers , bool p_add_bases ) {
D3D12_RENDER_TARGET_VIEW_DESC rtv_desc = { } ;
rtv_desc . Format = p_texture_info - > view_descs . srv . Format ;
switch ( p_texture_info - > view_descs . srv . ViewDimension ) {
case D3D12_SRV_DIMENSION_TEXTURE1D : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE1D ;
rtv_desc . Texture1D . MipSlice = p_texture_info - > base_mip + p_mipmap_offset ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE1DARRAY : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE1DARRAY ;
rtv_desc . Texture1DArray . MipSlice = ( p_add_bases ? p_texture_info - > base_mip : 0 ) + p_mipmap_offset ;
rtv_desc . Texture1DArray . FirstArraySlice = ( p_add_bases ? p_texture_info - > base_layer : 0 ) + p_layer_offset ;
rtv_desc . Texture1DArray . ArraySize = p_layers = = UINT32_MAX ? p_texture_info - > view_descs . srv . Texture1DArray . ArraySize : p_layers ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2D : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE2D ;
rtv_desc . Texture2D . MipSlice = ( p_add_bases ? p_texture_info - > base_mip : 0 ) + p_mipmap_offset ;
rtv_desc . Texture2D . PlaneSlice = p_texture_info - > view_descs . srv . Texture2D . PlaneSlice ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DARRAY : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE2DARRAY ;
rtv_desc . Texture2DArray . MipSlice = ( p_add_bases ? p_texture_info - > base_mip : 0 ) + p_mipmap_offset ;
rtv_desc . Texture2DArray . FirstArraySlice = ( p_add_bases ? p_texture_info - > base_layer : 0 ) + p_layer_offset ;
rtv_desc . Texture2DArray . ArraySize = p_layers = = UINT32_MAX ? p_texture_info - > view_descs . srv . Texture2DArray . ArraySize : p_layers ;
rtv_desc . Texture2DArray . PlaneSlice = p_texture_info - > view_descs . srv . Texture2DArray . PlaneSlice ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DMS : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE2DMS ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DMSARRAY : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE2DMSARRAY ;
rtv_desc . Texture2DMSArray . FirstArraySlice = ( p_add_bases ? p_texture_info - > base_layer : 0 ) + p_layer_offset ;
rtv_desc . Texture2DMSArray . ArraySize = p_layers = = UINT32_MAX ? p_texture_info - > view_descs . srv . Texture2DMSArray . ArraySize : p_layers ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE3D : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE3D ;
rtv_desc . Texture3D . MipSlice = p_texture_info - > view_descs . srv . Texture3D . MostDetailedMip + p_mipmap_offset ;
rtv_desc . Texture3D . FirstWSlice = 0 ;
rtv_desc . Texture3D . WSize = - 1 ;
} break ;
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case D3D12_SRV_DIMENSION_TEXTURECUBE :
case D3D12_SRV_DIMENSION_TEXTURECUBEARRAY : {
rtv_desc . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE2DARRAY ;
rtv_desc . Texture2DArray . MipSlice = ( p_add_bases ? p_texture_info - > base_mip : 0 ) + p_mipmap_offset ;
rtv_desc . Texture2DArray . FirstArraySlice = ( p_add_bases ? p_texture_info - > base_layer : 0 ) + p_layer_offset ;
rtv_desc . Texture2DArray . ArraySize = p_layers = = UINT32_MAX ? p_texture_info - > layers : p_layers ;
rtv_desc . Texture2DArray . PlaneSlice = 0 ;
} break ;
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default : {
DEV_ASSERT ( false ) ;
}
}
return rtv_desc ;
}
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D3D12_UNORDERED_ACCESS_VIEW_DESC RenderingDeviceDriverD3D12 : : _make_ranged_uav_for_texture ( const TextureInfo * p_texture_info , uint32_t p_mipmap_offset , uint32_t p_layer_offset , uint32_t p_layers , bool p_add_bases ) {
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D3D12_UNORDERED_ACCESS_VIEW_DESC uav_desc = p_texture_info - > view_descs . uav ;
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uint32_t mip = ( p_add_bases ? p_texture_info - > base_mip : 0 ) + p_mipmap_offset ;
switch ( p_texture_info - > view_descs . uav . ViewDimension ) {
case D3D12_UAV_DIMENSION_TEXTURE1D : {
uav_desc . Texture1DArray . MipSlice = mip ;
} break ;
case D3D12_UAV_DIMENSION_TEXTURE1DARRAY : {
uav_desc . Texture1DArray . MipSlice = mip ;
uav_desc . Texture1DArray . FirstArraySlice = mip ;
uav_desc . Texture1DArray . ArraySize = p_layers ;
} break ;
case D3D12_UAV_DIMENSION_TEXTURE2D : {
uav_desc . Texture2D . MipSlice = mip ;
} break ;
case D3D12_UAV_DIMENSION_TEXTURE2DARRAY : {
uav_desc . Texture2DArray . MipSlice = mip ;
uav_desc . Texture2DArray . FirstArraySlice = ( p_add_bases ? p_texture_info - > base_layer : 0 ) + p_layer_offset ;
uav_desc . Texture2DArray . ArraySize = p_layers ;
} break ;
case D3D12_UAV_DIMENSION_TEXTURE3D : {
uav_desc . Texture3D . MipSlice = mip ;
uav_desc . Texture3D . WSize > > = p_mipmap_offset ;
} break ;
}
return uav_desc ;
}
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D3D12_DEPTH_STENCIL_VIEW_DESC RenderingDeviceDriverD3D12 : : _make_dsv_for_texture ( const TextureInfo * p_texture_info ) {
D3D12_DEPTH_STENCIL_VIEW_DESC dsv_desc = { } ;
dsv_desc . Format = RD_TO_D3D12_FORMAT [ p_texture_info - > format ] . dsv_format ;
dsv_desc . Flags = D3D12_DSV_FLAG_NONE ;
switch ( p_texture_info - > view_descs . srv . ViewDimension ) {
case D3D12_SRV_DIMENSION_TEXTURE1D : {
dsv_desc . ViewDimension = D3D12_DSV_DIMENSION_TEXTURE1D ;
dsv_desc . Texture1D . MipSlice = p_texture_info - > base_mip ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE1DARRAY : {
dsv_desc . ViewDimension = D3D12_DSV_DIMENSION_TEXTURE1DARRAY ;
dsv_desc . Texture1DArray . MipSlice = p_texture_info - > base_mip ;
dsv_desc . Texture1DArray . FirstArraySlice = p_texture_info - > base_layer ;
dsv_desc . Texture1DArray . ArraySize = p_texture_info - > view_descs . srv . Texture1DArray . ArraySize ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2D : {
dsv_desc . ViewDimension = D3D12_DSV_DIMENSION_TEXTURE2D ;
dsv_desc . Texture2D . MipSlice = p_texture_info - > view_descs . srv . Texture2D . MostDetailedMip ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DARRAY : {
dsv_desc . ViewDimension = D3D12_DSV_DIMENSION_TEXTURE2DARRAY ;
dsv_desc . Texture2DArray . MipSlice = p_texture_info - > base_mip ;
dsv_desc . Texture2DArray . FirstArraySlice = p_texture_info - > base_layer ;
dsv_desc . Texture2DArray . ArraySize = p_texture_info - > view_descs . srv . Texture2DArray . ArraySize ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DMS : {
dsv_desc . ViewDimension = D3D12_DSV_DIMENSION_TEXTURE2DMS ;
dsv_desc . Texture2DMS . UnusedField_NothingToDefine = p_texture_info - > view_descs . srv . Texture2DMS . UnusedField_NothingToDefine ;
} break ;
case D3D12_SRV_DIMENSION_TEXTURE2DMSARRAY : {
dsv_desc . ViewDimension = D3D12_DSV_DIMENSION_TEXTURE2DMSARRAY ;
dsv_desc . Texture2DMSArray . FirstArraySlice = p_texture_info - > base_layer ;
dsv_desc . Texture2DMSArray . ArraySize = p_texture_info - > view_descs . srv . Texture2DMSArray . ArraySize ;
} break ;
default : {
DEV_ASSERT ( false ) ;
}
}
return dsv_desc ;
}
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RDD : : FramebufferID RenderingDeviceDriverD3D12 : : _framebuffer_create ( RenderPassID p_render_pass , VectorView < TextureID > p_attachments , uint32_t p_width , uint32_t p_height , bool p_is_screen ) {
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// Pre-bookkeep.
FramebufferInfo * fb_info = VersatileResource : : allocate < FramebufferInfo > ( resources_allocator ) ;
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fb_info - > is_screen = p_is_screen ;
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const RenderPassInfo * pass_info = ( const RenderPassInfo * ) p_render_pass . id ;
uint32_t num_color = 0 ;
uint32_t num_depth_stencil = 0 ;
for ( uint32_t i = 0 ; i < p_attachments . size ( ) ; i + + ) {
const TextureInfo * tex_info = ( const TextureInfo * ) p_attachments [ i ] . id ;
if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ) ) {
num_color + + ;
} else if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
num_depth_stencil + + ;
}
}
uint32_t vrs_index = UINT32_MAX ;
for ( const Subpass & E : pass_info - > subpasses ) {
if ( E . vrs_reference . attachment ! = AttachmentReference : : UNUSED ) {
vrs_index = E . vrs_reference . attachment ;
}
}
if ( num_color ) {
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Error err = fb_info - > rtv_heap . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_RTV , num_color , false ) ;
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if ( err ) {
VersatileResource : : free ( resources_allocator , fb_info ) ;
ERR_FAIL_V ( FramebufferID ( ) ) ;
}
}
DescriptorsHeap : : Walker rtv_heap_walker = fb_info - > rtv_heap . make_walker ( ) ;
if ( num_depth_stencil ) {
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Error err = fb_info - > dsv_heap . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_DSV , num_depth_stencil , false ) ;
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if ( err ) {
VersatileResource : : free ( resources_allocator , fb_info ) ;
ERR_FAIL_V ( FramebufferID ( ) ) ;
}
}
DescriptorsHeap : : Walker dsv_heap_walker = fb_info - > dsv_heap . make_walker ( ) ;
fb_info - > attachments_handle_inds . resize ( p_attachments . size ( ) ) ;
fb_info - > attachments . reserve ( num_color + num_depth_stencil ) ;
uint32_t color_idx = 0 ;
uint32_t depth_stencil_idx = 0 ;
for ( uint32_t i = 0 ; i < p_attachments . size ( ) ; i + + ) {
const TextureInfo * tex_info = ( const TextureInfo * ) p_attachments [ i ] . id ;
if ( fb_info - > size . x = = 0 ) {
fb_info - > size = Size2i ( tex_info - > desc . Width , tex_info - > desc . Height ) ;
}
if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ) ) {
D3D12_RENDER_TARGET_VIEW_DESC rtv_desc = _make_rtv_for_texture ( tex_info , 0 , 0 , UINT32_MAX ) ;
device - > CreateRenderTargetView ( tex_info - > resource , & rtv_desc , rtv_heap_walker . get_curr_cpu_handle ( ) ) ;
rtv_heap_walker . advance ( ) ;
fb_info - > attachments_handle_inds [ i ] = color_idx ;
fb_info - > attachments . push_back ( p_attachments [ i ] ) ;
color_idx + + ;
} else if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
D3D12_DEPTH_STENCIL_VIEW_DESC dsv_desc = _make_dsv_for_texture ( tex_info ) ;
device - > CreateDepthStencilView ( tex_info - > resource , & dsv_desc , dsv_heap_walker . get_curr_cpu_handle ( ) ) ;
dsv_heap_walker . advance ( ) ;
fb_info - > attachments_handle_inds [ i ] = depth_stencil_idx ;
fb_info - > attachments . push_back ( p_attachments [ i ] ) ;
depth_stencil_idx + + ;
} else if ( i = = vrs_index ) {
fb_info - > vrs_attachment = p_attachments [ i ] ;
} else {
DEV_ASSERT ( false ) ;
}
}
DEV_ASSERT ( fb_info - > attachments . size ( ) = = color_idx + depth_stencil_idx ) ;
DEV_ASSERT ( ( fb_info - > vrs_attachment . id ! = 0 ) = = ( vrs_index ! = UINT32_MAX ) ) ;
DEV_ASSERT ( rtv_heap_walker . is_at_eof ( ) ) ;
DEV_ASSERT ( dsv_heap_walker . is_at_eof ( ) ) ;
return FramebufferID ( fb_info ) ;
}
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RDD : : FramebufferID RenderingDeviceDriverD3D12 : : framebuffer_create ( RenderPassID p_render_pass , VectorView < TextureID > p_attachments , uint32_t p_width , uint32_t p_height ) {
return _framebuffer_create ( p_render_pass , p_attachments , p_width , p_height , false ) ;
}
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void RenderingDeviceDriverD3D12 : : framebuffer_free ( FramebufferID p_framebuffer ) {
FramebufferInfo * fb_info = ( FramebufferInfo * ) p_framebuffer . id ;
VersatileResource : : free ( resources_allocator , fb_info ) ;
}
/****************/
/**** SHADER ****/
/****************/
static uint32_t SHADER_STAGES_BIT_OFFSET_INDICES [ RenderingDevice : : SHADER_STAGE_MAX ] = {
/* SHADER_STAGE_VERTEX */ 0 ,
/* SHADER_STAGE_FRAGMENT */ 1 ,
/* SHADER_STAGE_TESSELATION_CONTROL */ UINT32_MAX ,
/* SHADER_STAGE_TESSELATION_EVALUATION */ UINT32_MAX ,
/* SHADER_STAGE_COMPUTE */ 2 ,
} ;
dxil_validator * RenderingDeviceDriverD3D12 : : _get_dxil_validator_for_current_thread ( ) {
MutexLock lock ( dxil_mutex ) ;
int thread_idx = WorkerThreadPool : : get_singleton ( ) - > get_thread_index ( ) ;
if ( dxil_validators . has ( thread_idx ) ) {
return dxil_validators [ thread_idx ] ;
}
# ifdef DEV_ENABLED
print_verbose ( " Creating DXIL validator for worker thread index " + itos ( thread_idx ) ) ;
# endif
dxil_validator * dxil_validator = dxil_create_validator ( nullptr ) ;
dxil_validators . insert ( thread_idx , dxil_validator ) ;
return dxil_validator ;
}
uint32_t RenderingDeviceDriverD3D12 : : _shader_patch_dxil_specialization_constant (
PipelineSpecializationConstantType p_type ,
const void * p_value ,
const uint64_t ( & p_stages_bit_offsets ) [ D3D12_BITCODE_OFFSETS_NUM_STAGES ] ,
HashMap < ShaderStage , Vector < uint8_t > > & r_stages_bytecodes ,
bool p_is_first_patch ) {
uint32_t patch_val = 0 ;
switch ( p_type ) {
case PIPELINE_SPECIALIZATION_CONSTANT_TYPE_INT : {
uint32_t int_value = * ( ( const int * ) p_value ) ;
ERR_FAIL_COND_V ( int_value & ( 1 < < 31 ) , 0 ) ;
patch_val = int_value ;
} break ;
case PIPELINE_SPECIALIZATION_CONSTANT_TYPE_BOOL : {
bool bool_value = * ( ( const bool * ) p_value ) ;
patch_val = ( uint32_t ) bool_value ;
} break ;
case PIPELINE_SPECIALIZATION_CONSTANT_TYPE_FLOAT : {
uint32_t int_value = * ( ( const int * ) p_value ) ;
ERR_FAIL_COND_V ( int_value & ( 1 < < 31 ) , 0 ) ;
patch_val = ( int_value > > 1 ) ;
} break ;
}
// For VBR encoding to encode the number of bits we expect (32), we need to set the MSB unconditionally.
// However, signed VBR moves the MSB to the LSB, so setting the MSB to 1 wouldn't help. Therefore,
// the bit we set to 1 is the one at index 30.
patch_val | = ( 1 < < 30 ) ;
patch_val < < = 1 ; // What signed VBR does.
auto tamper_bits = [ ] ( uint8_t * p_start , uint64_t p_bit_offset , uint64_t p_tb_value ) - > uint64_t {
uint64_t original = 0 ;
uint32_t curr_input_byte = p_bit_offset / 8 ;
uint8_t curr_input_bit = p_bit_offset % 8 ;
auto get_curr_input_bit = [ & ] ( ) - > bool {
return ( ( p_start [ curr_input_byte ] > > curr_input_bit ) & 1 ) ;
} ;
auto move_to_next_input_bit = [ & ] ( ) {
if ( curr_input_bit = = 7 ) {
curr_input_bit = 0 ;
curr_input_byte + + ;
} else {
curr_input_bit + + ;
}
} ;
auto tamper_input_bit = [ & ] ( bool p_new_bit ) {
p_start [ curr_input_byte ] & = ~ ( ( uint8_t ) 1 < < curr_input_bit ) ;
if ( p_new_bit ) {
p_start [ curr_input_byte ] | = ( uint8_t ) 1 < < curr_input_bit ;
}
} ;
uint8_t value_bit_idx = 0 ;
for ( uint32_t i = 0 ; i < 5 ; i + + ) { // 32 bits take 5 full bytes in VBR.
for ( uint32_t j = 0 ; j < 7 ; j + + ) {
bool input_bit = get_curr_input_bit ( ) ;
original | = ( uint64_t ) ( input_bit ? 1 : 0 ) < < value_bit_idx ;
tamper_input_bit ( ( p_tb_value > > value_bit_idx ) & 1 ) ;
move_to_next_input_bit ( ) ;
value_bit_idx + + ;
}
# ifdef DEV_ENABLED
bool input_bit = get_curr_input_bit ( ) ;
DEV_ASSERT ( ( i < 4 & & input_bit ) | | ( i = = 4 & & ! input_bit ) ) ;
# endif
move_to_next_input_bit ( ) ;
}
return original ;
} ;
uint32_t stages_patched_mask = 0 ;
for ( int stage = 0 ; stage < SHADER_STAGE_MAX ; stage + + ) {
if ( ! r_stages_bytecodes . has ( ( ShaderStage ) stage ) ) {
continue ;
}
uint64_t offset = p_stages_bit_offsets [ SHADER_STAGES_BIT_OFFSET_INDICES [ stage ] ] ;
if ( offset = = 0 ) {
// This constant does not appear at this stage.
continue ;
}
Vector < uint8_t > & bytecode = r_stages_bytecodes [ ( ShaderStage ) stage ] ;
# ifdef DEV_ENABLED
uint64_t orig_patch_val = tamper_bits ( bytecode . ptrw ( ) , offset , patch_val ) ;
// Checking against the value the NIR patch should have set.
DEV_ASSERT ( ! p_is_first_patch | | ( ( orig_patch_val > > 1 ) & GODOT_NIR_SC_SENTINEL_MAGIC_MASK ) = = GODOT_NIR_SC_SENTINEL_MAGIC ) ;
uint64_t readback_patch_val = tamper_bits ( bytecode . ptrw ( ) , offset , patch_val ) ;
DEV_ASSERT ( readback_patch_val = = patch_val ) ;
# else
tamper_bits ( bytecode . ptrw ( ) , offset , patch_val ) ;
# endif
stages_patched_mask | = ( 1 < < stage ) ;
}
return stages_patched_mask ;
}
bool RenderingDeviceDriverD3D12 : : _shader_apply_specialization_constants (
const ShaderInfo * p_shader_info ,
VectorView < PipelineSpecializationConstant > p_specialization_constants ,
HashMap < ShaderStage , Vector < uint8_t > > & r_final_stages_bytecode ) {
// If something needs to be patched, COW will do the trick.
r_final_stages_bytecode = p_shader_info - > stages_bytecode ;
uint32_t stages_re_sign_mask = 0 ;
for ( uint32_t i = 0 ; i < p_specialization_constants . size ( ) ; i + + ) {
const PipelineSpecializationConstant & psc = p_specialization_constants [ i ] ;
if ( ! ( p_shader_info - > spirv_specialization_constants_ids_mask & ( 1 < < psc . constant_id ) ) ) {
// This SC wasn't even in the original SPIR-V shader.
continue ;
}
for ( const ShaderInfo : : SpecializationConstant & sc : p_shader_info - > specialization_constants ) {
if ( psc . constant_id = = sc . constant_id ) {
if ( psc . int_value ! = sc . int_value ) {
stages_re_sign_mask | = _shader_patch_dxil_specialization_constant ( psc . type , & psc . int_value , sc . stages_bit_offsets , r_final_stages_bytecode , false ) ;
}
break ;
}
}
}
// Re-sign patched stages.
for ( KeyValue < ShaderStage , Vector < uint8_t > > & E : r_final_stages_bytecode ) {
ShaderStage stage = E . key ;
if ( ( stages_re_sign_mask & ( 1 < < stage ) ) ) {
Vector < uint8_t > & bytecode = E . value ;
bool sign_ok = _shader_sign_dxil_bytecode ( stage , bytecode ) ;
ERR_FAIL_COND_V ( ! sign_ok , false ) ;
}
}
return true ;
}
bool RenderingDeviceDriverD3D12 : : _shader_sign_dxil_bytecode ( ShaderStage p_stage , Vector < uint8_t > & r_dxil_blob ) {
dxil_validator * validator = _get_dxil_validator_for_current_thread ( ) ;
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if ( ! validator ) {
if ( is_in_developer_mode ( ) ) {
return true ;
} else {
OS : : get_singleton ( ) - > alert ( " Shader validation failed: DXIL.dll was not found, and developer mode is disabled. \n \n Click OK to exit. " ) ;
CRASH_NOW ( ) ;
}
}
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char * err = nullptr ;
bool res = dxil_validate_module ( validator , r_dxil_blob . ptrw ( ) , r_dxil_blob . size ( ) , & err ) ;
if ( ! res ) {
if ( err ) {
ERR_FAIL_COND_V_MSG ( ! res , false , " Shader signing invocation at stage " + String ( SHADER_STAGE_NAMES [ p_stage ] ) + " failed: \n " + String ( err ) ) ;
} else {
ERR_FAIL_COND_V_MSG ( ! res , false , " Shader signing invocation at stage " + String ( SHADER_STAGE_NAMES [ p_stage ] ) + " failed. " ) ;
}
}
return true ;
}
String RenderingDeviceDriverD3D12 : : shader_get_binary_cache_key ( ) {
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return " D3D12-SV " + uitos ( ShaderBinary : : VERSION ) + " - " + itos ( shader_capabilities . shader_model ) + ( is_in_developer_mode ( ) ? " dev " : " " ) ;
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}
Vector < uint8_t > RenderingDeviceDriverD3D12 : : shader_compile_binary_from_spirv ( VectorView < ShaderStageSPIRVData > p_spirv , const String & p_shader_name ) {
ShaderReflection shader_refl ;
if ( _reflect_spirv ( p_spirv , shader_refl ) ! = OK ) {
return Vector < uint8_t > ( ) ;
}
// Collect reflection data into binary data.
ShaderBinary : : Data binary_data ;
Vector < Vector < ShaderBinary : : DataBinding > > sets_bindings ;
Vector < ShaderBinary : : SpecializationConstant > specialization_constants ;
{
binary_data . vertex_input_mask = shader_refl . vertex_input_mask ;
binary_data . fragment_output_mask = shader_refl . fragment_output_mask ;
binary_data . specialization_constants_count = shader_refl . specialization_constants . size ( ) ;
binary_data . is_compute = shader_refl . is_compute ;
binary_data . compute_local_size [ 0 ] = shader_refl . compute_local_size [ 0 ] ;
binary_data . compute_local_size [ 1 ] = shader_refl . compute_local_size [ 1 ] ;
binary_data . compute_local_size [ 2 ] = shader_refl . compute_local_size [ 2 ] ;
binary_data . set_count = shader_refl . uniform_sets . size ( ) ;
binary_data . push_constant_size = shader_refl . push_constant_size ;
binary_data . nir_runtime_data_root_param_idx = UINT32_MAX ;
binary_data . stage_count = p_spirv . size ( ) ;
for ( const Vector < ShaderUniform > & spirv_set : shader_refl . uniform_sets ) {
Vector < ShaderBinary : : DataBinding > bindings ;
for ( const ShaderUniform & spirv_uniform : spirv_set ) {
ShaderBinary : : DataBinding binding ;
binding . type = ( uint32_t ) spirv_uniform . type ;
binding . binding = spirv_uniform . binding ;
binding . stages = ( uint32_t ) spirv_uniform . stages ;
binding . length = spirv_uniform . length ;
binding . writable = ( uint32_t ) spirv_uniform . writable ;
bindings . push_back ( binding ) ;
}
sets_bindings . push_back ( bindings ) ;
}
for ( const ShaderSpecializationConstant & spirv_sc : shader_refl . specialization_constants ) {
ShaderBinary : : SpecializationConstant spec_constant ;
spec_constant . type = ( uint32_t ) spirv_sc . type ;
spec_constant . constant_id = spirv_sc . constant_id ;
spec_constant . int_value = spirv_sc . int_value ;
spec_constant . stage_flags = spirv_sc . stages ;
specialization_constants . push_back ( spec_constant ) ;
binary_data . spirv_specialization_constants_ids_mask | = ( 1 < < spirv_sc . constant_id ) ;
}
}
// Translate SPIR-V shaders to DXIL, and collect shader info from the new representation.
HashMap < ShaderStage , Vector < uint8_t > > dxil_blobs ;
BitField < ShaderStage > stages_processed ;
{
HashMap < int , nir_shader * > stages_nir_shaders ;
auto free_nir_shaders = [ & ] ( ) {
for ( KeyValue < int , nir_shader * > & E : stages_nir_shaders ) {
ralloc_free ( E . value ) ;
}
stages_nir_shaders . clear ( ) ;
} ;
// This is based on spirv2dxil.c. May need updates when it changes.
// Also, this has to stay around until after linking.
nir_shader_compiler_options nir_options = * dxil_get_nir_compiler_options ( ) ;
nir_options . lower_base_vertex = false ;
dxil_spirv_runtime_conf dxil_runtime_conf = { } ;
dxil_runtime_conf . runtime_data_cbv . base_shader_register = RUNTIME_DATA_REGISTER ;
dxil_runtime_conf . push_constant_cbv . base_shader_register = ROOT_CONSTANT_REGISTER ;
dxil_runtime_conf . zero_based_vertex_instance_id = true ;
dxil_runtime_conf . zero_based_compute_workgroup_id = true ;
dxil_runtime_conf . declared_read_only_images_as_srvs = true ;
// Making this explicit to let maintainers know that in practice this didn't improve performance,
// probably because data generated by one shader and consumed by another one forces the resource
// to transition from UAV to SRV, and back, instead of being an UAV all the time.
// In case someone wants to try, care must be taken so in case of incompatible bindings across stages
// happen as a result, all the stages are re-translated. That can happen if, for instance, a stage only
// uses an allegedly writable resource only for reading but the next stage doesn't.
dxil_runtime_conf . inferred_read_only_images_as_srvs = false ;
// - Translate SPIR-V to NIR.
for ( uint32_t i = 0 ; i < p_spirv . size ( ) ; i + + ) {
ShaderStage stage = ( ShaderStage ) p_spirv [ i ] . shader_stage ;
ShaderStage stage_flag = ( ShaderStage ) ( 1 < < p_spirv [ i ] . shader_stage ) ;
stages_processed . set_flag ( stage_flag ) ;
{
const char * entry_point = " main " ;
static const gl_shader_stage SPIRV_TO_MESA_STAGES [ SHADER_STAGE_MAX ] = {
/* SHADER_STAGE_VERTEX */ MESA_SHADER_VERTEX ,
/* SHADER_STAGE_FRAGMENT */ MESA_SHADER_FRAGMENT ,
/* SHADER_STAGE_TESSELATION_CONTROL */ MESA_SHADER_TESS_CTRL ,
/* SHADER_STAGE_TESSELATION_EVALUATION */ MESA_SHADER_TESS_EVAL ,
/* SHADER_STAGE_COMPUTE */ MESA_SHADER_COMPUTE ,
} ;
nir_shader * shader = spirv_to_nir (
( const uint32_t * ) p_spirv [ i ] . spirv . ptr ( ) ,
p_spirv [ i ] . spirv . size ( ) / sizeof ( uint32_t ) ,
nullptr ,
0 ,
SPIRV_TO_MESA_STAGES [ stage ] ,
entry_point ,
dxil_spirv_nir_get_spirv_options ( ) , & nir_options ) ;
if ( ! shader ) {
free_nir_shaders ( ) ;
ERR_FAIL_V_MSG ( Vector < uint8_t > ( ) , " Shader translation (step 1) at stage " + String ( SHADER_STAGE_NAMES [ stage ] ) + " failed. " ) ;
}
# ifdef DEV_ENABLED
nir_validate_shader ( shader , " Validate before feeding NIR to the DXIL compiler " ) ;
# endif
if ( stage = = SHADER_STAGE_VERTEX ) {
dxil_runtime_conf . yz_flip . y_mask = 0xffff ;
dxil_runtime_conf . yz_flip . mode = DXIL_SPIRV_Y_FLIP_UNCONDITIONAL ;
} else {
dxil_runtime_conf . yz_flip . y_mask = 0 ;
dxil_runtime_conf . yz_flip . mode = DXIL_SPIRV_YZ_FLIP_NONE ;
}
// This is based on spirv2dxil.c. May need updates when it changes.
dxil_spirv_nir_prep ( shader ) ;
bool requires_runtime_data = { } ;
dxil_spirv_nir_passes ( shader , & dxil_runtime_conf , & requires_runtime_data ) ;
stages_nir_shaders [ stage ] = shader ;
}
}
// - Link NIR shaders.
for ( int i = SHADER_STAGE_MAX - 1 ; i > = 0 ; i - - ) {
if ( ! stages_nir_shaders . has ( i ) ) {
continue ;
}
nir_shader * shader = stages_nir_shaders [ i ] ;
nir_shader * prev_shader = nullptr ;
for ( int j = i - 1 ; j > = 0 ; j - - ) {
if ( stages_nir_shaders . has ( j ) ) {
prev_shader = stages_nir_shaders [ j ] ;
break ;
}
}
if ( prev_shader ) {
bool requires_runtime_data = { } ;
dxil_spirv_nir_link ( shader , prev_shader , & dxil_runtime_conf , & requires_runtime_data ) ;
}
}
// - Translate NIR to DXIL.
for ( uint32_t i = 0 ; i < p_spirv . size ( ) ; i + + ) {
ShaderStage stage = ( ShaderStage ) p_spirv [ i ] . shader_stage ;
struct ShaderData {
ShaderStage stage ;
ShaderBinary : : Data & binary_data ;
Vector < Vector < ShaderBinary : : DataBinding > > & sets_bindings ;
Vector < ShaderBinary : : SpecializationConstant > & specialization_constants ;
} shader_data { stage , binary_data , sets_bindings , specialization_constants } ;
GodotNirCallbacks godot_nir_callbacks = { } ;
godot_nir_callbacks . data = & shader_data ;
godot_nir_callbacks . report_resource = [ ] ( uint32_t p_register , uint32_t p_space , uint32_t p_dxil_type , void * p_data ) {
ShaderData & shader_data_in = * ( ShaderData * ) p_data ;
// Types based on Mesa's dxil_container.h.
static const uint32_t DXIL_RES_SAMPLER = 1 ;
static const ResourceClass DXIL_TYPE_TO_CLASS [ ] = {
/* DXIL_RES_INVALID */ RES_CLASS_INVALID ,
/* DXIL_RES_SAMPLER */ RES_CLASS_INVALID , // Handling sampler as a flag.
/* DXIL_RES_CBV */ RES_CLASS_CBV ,
/* DXIL_RES_SRV_TYPED */ RES_CLASS_SRV ,
/* DXIL_RES_SRV_RAW */ RES_CLASS_SRV ,
/* DXIL_RES_SRV_STRUCTURED */ RES_CLASS_SRV ,
/* DXIL_RES_UAV_TYPED */ RES_CLASS_UAV ,
/* DXIL_RES_UAV_RAW */ RES_CLASS_UAV ,
/* DXIL_RES_UAV_STRUCTURED */ RES_CLASS_UAV ,
/* DXIL_RES_UAV_STRUCTURED_WITH_COUNTER */ RES_CLASS_INVALID ,
} ;
DEV_ASSERT ( p_dxil_type < ARRAY_SIZE ( DXIL_TYPE_TO_CLASS ) ) ;
ResourceClass res_class = DXIL_TYPE_TO_CLASS [ p_dxil_type ] ;
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if ( p_register = = ROOT_CONSTANT_REGISTER & & p_space = = 0 ) {
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DEV_ASSERT ( res_class = = RES_CLASS_CBV ) ;
shader_data_in . binary_data . dxil_push_constant_stages | = ( 1 < < shader_data_in . stage ) ;
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} else if ( p_register = = RUNTIME_DATA_REGISTER & & p_space = = 0 ) {
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DEV_ASSERT ( res_class = = RES_CLASS_CBV ) ;
shader_data_in . binary_data . nir_runtime_data_root_param_idx = 1 ; // Temporary, to be determined later.
} else {
DEV_ASSERT ( p_space = = 0 ) ;
uint32_t set = p_register / GODOT_NIR_DESCRIPTOR_SET_MULTIPLIER ;
uint32_t binding = ( p_register % GODOT_NIR_DESCRIPTOR_SET_MULTIPLIER ) / GODOT_NIR_BINDING_MULTIPLIER ;
DEV_ASSERT ( set < ( uint32_t ) shader_data_in . sets_bindings . size ( ) ) ;
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[[maybe_unused]] bool found = false ;
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for ( int j = 0 ; j < shader_data_in . sets_bindings [ set ] . size ( ) ; j + + ) {
if ( shader_data_in . sets_bindings [ set ] [ j ] . binding ! = binding ) {
continue ;
}
ShaderBinary : : DataBinding & binding_info = shader_data_in . sets_bindings . write [ set ] . write [ j ] ;
binding_info . dxil_stages | = ( 1 < < shader_data_in . stage ) ;
if ( res_class ! = RES_CLASS_INVALID ) {
DEV_ASSERT ( binding_info . res_class = = ( uint32_t ) RES_CLASS_INVALID | | binding_info . res_class = = ( uint32_t ) res_class ) ;
binding_info . res_class = res_class ;
} else if ( p_dxil_type = = DXIL_RES_SAMPLER ) {
binding_info . has_sampler = ( uint32_t ) true ;
} else {
CRASH_NOW ( ) ;
}
found = true ;
break ;
}
DEV_ASSERT ( found ) ;
}
} ;
godot_nir_callbacks . report_sc_bit_offset_fn = [ ] ( uint32_t p_sc_id , uint64_t p_bit_offset , void * p_data ) {
ShaderData & shader_data_in = * ( ShaderData * ) p_data ;
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[[maybe_unused]] bool found = false ;
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for ( int j = 0 ; j < shader_data_in . specialization_constants . size ( ) ; j + + ) {
if ( shader_data_in . specialization_constants [ j ] . constant_id ! = p_sc_id ) {
continue ;
}
uint32_t offset_idx = SHADER_STAGES_BIT_OFFSET_INDICES [ shader_data_in . stage ] ;
DEV_ASSERT ( shader_data_in . specialization_constants . write [ j ] . stages_bit_offsets [ offset_idx ] = = 0 ) ;
shader_data_in . specialization_constants . write [ j ] . stages_bit_offsets [ offset_idx ] = p_bit_offset ;
found = true ;
break ;
}
DEV_ASSERT ( found ) ;
} ;
godot_nir_callbacks . report_bitcode_bit_offset_fn = [ ] ( uint64_t p_bit_offset , void * p_data ) {
DEV_ASSERT ( p_bit_offset % 8 = = 0 ) ;
ShaderData & shader_data_in = * ( ShaderData * ) p_data ;
uint32_t offset_idx = SHADER_STAGES_BIT_OFFSET_INDICES [ shader_data_in . stage ] ;
for ( int j = 0 ; j < shader_data_in . specialization_constants . size ( ) ; j + + ) {
if ( shader_data_in . specialization_constants . write [ j ] . stages_bit_offsets [ offset_idx ] = = 0 ) {
// This SC has been optimized out from this stage.
continue ;
}
shader_data_in . specialization_constants . write [ j ] . stages_bit_offsets [ offset_idx ] + = p_bit_offset ;
}
} ;
auto shader_model_d3d_to_dxil = [ ] ( D3D_SHADER_MODEL p_d3d_shader_model ) - > dxil_shader_model {
static_assert ( SHADER_MODEL_6_0 = = 0x60000 ) ;
static_assert ( SHADER_MODEL_6_3 = = 0x60003 ) ;
static_assert ( D3D_SHADER_MODEL_6_0 = = 0x60 ) ;
static_assert ( D3D_SHADER_MODEL_6_3 = = 0x63 ) ;
return ( dxil_shader_model ) ( ( p_d3d_shader_model > > 4 ) * 0x10000 + ( p_d3d_shader_model & 0xf ) ) ;
} ;
nir_to_dxil_options nir_to_dxil_options = { } ;
nir_to_dxil_options . environment = DXIL_ENVIRONMENT_VULKAN ;
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nir_to_dxil_options . shader_model_max = shader_model_d3d_to_dxil ( shader_capabilities . shader_model ) ;
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dxil_validator * validator = _get_dxil_validator_for_current_thread ( ) ;
if ( validator ) {
nir_to_dxil_options . validator_version_max = dxil_get_validator_version ( validator ) ;
}
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nir_to_dxil_options . godot_nir_callbacks = & godot_nir_callbacks ;
dxil_logger logger = { } ;
logger . log = [ ] ( void * p_priv , const char * p_msg ) {
# ifdef DEBUG_ENABLED
print_verbose ( p_msg ) ;
# endif
} ;
blob dxil_blob = { } ;
bool ok = nir_to_dxil ( stages_nir_shaders [ stage ] , & nir_to_dxil_options , & logger , & dxil_blob ) ;
ralloc_free ( stages_nir_shaders [ stage ] ) ;
stages_nir_shaders . erase ( stage ) ;
if ( ! ok ) {
free_nir_shaders ( ) ;
ERR_FAIL_V_MSG ( Vector < uint8_t > ( ) , " Shader translation at stage " + String ( SHADER_STAGE_NAMES [ stage ] ) + " failed. " ) ;
}
Vector < uint8_t > blob_copy ;
blob_copy . resize ( dxil_blob . size ) ;
memcpy ( blob_copy . ptrw ( ) , dxil_blob . data , dxil_blob . size ) ;
blob_finish ( & dxil_blob ) ;
dxil_blobs . insert ( stage , blob_copy ) ;
}
}
#if 0
if ( dxil_blobs . has ( SHADER_STAGE_FRAGMENT ) ) {
Ref < FileAccess > f = FileAccess : : open ( " res://1.dxil " , FileAccess : : WRITE ) ;
f - > store_buffer ( dxil_blobs [ SHADER_STAGE_FRAGMENT ] . ptr ( ) , dxil_blobs [ SHADER_STAGE_FRAGMENT ] . size ( ) ) ;
}
# endif
// Patch with default values of specialization constants.
if ( specialization_constants . size ( ) ) {
for ( const ShaderBinary : : SpecializationConstant & sc : specialization_constants ) {
_shader_patch_dxil_specialization_constant ( ( PipelineSpecializationConstantType ) sc . type , & sc . int_value , sc . stages_bit_offsets , dxil_blobs , true ) ;
}
#if 0
if ( dxil_blobs . has ( SHADER_STAGE_FRAGMENT ) ) {
Ref < FileAccess > f = FileAccess : : open ( " res://2.dxil " , FileAccess : : WRITE ) ;
f - > store_buffer ( dxil_blobs [ SHADER_STAGE_FRAGMENT ] . ptr ( ) , dxil_blobs [ SHADER_STAGE_FRAGMENT ] . size ( ) ) ;
}
# endif
}
// Sign.
for ( KeyValue < ShaderStage , Vector < uint8_t > > & E : dxil_blobs ) {
ShaderStage stage = E . key ;
Vector < uint8_t > & dxil_blob = E . value ;
bool sign_ok = _shader_sign_dxil_bytecode ( stage , dxil_blob ) ;
ERR_FAIL_COND_V ( ! sign_ok , Vector < uint8_t > ( ) ) ;
}
// Build the root signature.
ComPtr < ID3DBlob > root_sig_blob ;
{
auto stages_to_d3d12_visibility = [ ] ( uint32_t p_stages_mask ) - > D3D12_SHADER_VISIBILITY {
switch ( p_stages_mask ) {
case SHADER_STAGE_VERTEX_BIT : {
return D3D12_SHADER_VISIBILITY_VERTEX ;
}
case SHADER_STAGE_FRAGMENT_BIT : {
return D3D12_SHADER_VISIBILITY_PIXEL ;
}
default : {
return D3D12_SHADER_VISIBILITY_ALL ;
}
}
} ;
LocalVector < D3D12_ROOT_PARAMETER1 > root_params ;
// Root (push) constants.
if ( binary_data . dxil_push_constant_stages ) {
CD3DX12_ROOT_PARAMETER1 push_constant ;
push_constant . InitAsConstants (
binary_data . push_constant_size / sizeof ( uint32_t ) ,
ROOT_CONSTANT_REGISTER ,
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0 ,
2023-12-19 11:48:02 +00:00
stages_to_d3d12_visibility ( binary_data . dxil_push_constant_stages ) ) ;
root_params . push_back ( push_constant ) ;
}
// NIR-DXIL runtime data.
if ( binary_data . nir_runtime_data_root_param_idx = = 1 ) { // Set above to 1 when discovering runtime data is needed.
DEV_ASSERT ( ! binary_data . is_compute ) ; // Could be supported if needed, but it's pointless as of now.
binary_data . nir_runtime_data_root_param_idx = root_params . size ( ) ;
CD3DX12_ROOT_PARAMETER1 nir_runtime_data ;
nir_runtime_data . InitAsConstants (
sizeof ( dxil_spirv_vertex_runtime_data ) / sizeof ( uint32_t ) ,
RUNTIME_DATA_REGISTER ,
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0 ,
2023-12-19 11:48:02 +00:00
D3D12_SHADER_VISIBILITY_VERTEX ) ;
root_params . push_back ( nir_runtime_data ) ;
}
// Descriptor tables (up to two per uniform set, for resources and/or samplers).
// These have to stay around until serialization!
struct TraceableDescriptorTable {
uint32_t stages_mask = { } ;
Vector < D3D12_DESCRIPTOR_RANGE1 > ranges ;
Vector < ShaderBinary : : DataBinding : : RootSignatureLocation * > root_sig_locations ;
} ;
Vector < TraceableDescriptorTable > resource_tables_maps ;
Vector < TraceableDescriptorTable > sampler_tables_maps ;
for ( int set = 0 ; set < sets_bindings . size ( ) ; set + + ) {
bool first_resource_in_set = true ;
bool first_sampler_in_set = true ;
sets_bindings . write [ set ] . sort ( ) ;
for ( int i = 0 ; i < sets_bindings [ set ] . size ( ) ; i + + ) {
const ShaderBinary : : DataBinding & binding = sets_bindings [ set ] [ i ] ;
bool really_used = binding . dxil_stages ! = 0 ;
# ifdef DEV_ENABLED
bool anybody_home = ( ResourceClass ) binding . res_class ! = RES_CLASS_INVALID | | binding . has_sampler ;
DEV_ASSERT ( anybody_home = = really_used ) ;
# endif
if ( ! really_used ) {
continue ; // Existed in SPIR-V; went away in DXIL.
}
auto insert_range = [ ] ( D3D12_DESCRIPTOR_RANGE_TYPE p_range_type ,
uint32_t p_num_descriptors ,
uint32_t p_dxil_register ,
uint32_t p_dxil_stages_mask ,
ShaderBinary : : DataBinding : : RootSignatureLocation ( & p_root_sig_locations ) ,
Vector < TraceableDescriptorTable > & r_tables ,
bool & r_first_in_set ) {
if ( r_first_in_set ) {
r_tables . resize ( r_tables . size ( ) + 1 ) ;
r_first_in_set = false ;
}
TraceableDescriptorTable & table = r_tables . write [ r_tables . size ( ) - 1 ] ;
table . stages_mask | = p_dxil_stages_mask ;
CD3DX12_DESCRIPTOR_RANGE1 range ;
// Due to the aliasing hack for SRV-UAV of different families,
// we can be causing an unintended change of data (sometimes the validation layers catch it).
D3D12_DESCRIPTOR_RANGE_FLAGS flags = D3D12_DESCRIPTOR_RANGE_FLAG_NONE ;
if ( p_range_type = = D3D12_DESCRIPTOR_RANGE_TYPE_SRV | | p_range_type = = D3D12_DESCRIPTOR_RANGE_TYPE_UAV ) {
flags = D3D12_DESCRIPTOR_RANGE_FLAG_DATA_VOLATILE ;
} else if ( p_range_type = = D3D12_DESCRIPTOR_RANGE_TYPE_CBV ) {
flags = D3D12_DESCRIPTOR_RANGE_FLAG_DATA_STATIC_WHILE_SET_AT_EXECUTE ;
}
range . Init ( p_range_type , p_num_descriptors , p_dxil_register , 0 , flags ) ;
table . ranges . push_back ( range ) ;
table . root_sig_locations . push_back ( & p_root_sig_locations ) ;
} ;
uint32_t num_descriptors = 1 ;
D3D12_DESCRIPTOR_RANGE_TYPE resource_range_type = { } ;
switch ( ( ResourceClass ) binding . res_class ) {
case RES_CLASS_INVALID : {
num_descriptors = binding . length ;
DEV_ASSERT ( binding . has_sampler ) ;
} break ;
case RES_CLASS_CBV : {
resource_range_type = D3D12_DESCRIPTOR_RANGE_TYPE_CBV ;
DEV_ASSERT ( ! binding . has_sampler ) ;
} break ;
case RES_CLASS_SRV : {
resource_range_type = D3D12_DESCRIPTOR_RANGE_TYPE_SRV ;
num_descriptors = MAX ( 1u , binding . length ) ; // An unbound R/O buffer is reflected as zero-size.
} break ;
case RES_CLASS_UAV : {
resource_range_type = D3D12_DESCRIPTOR_RANGE_TYPE_UAV ;
num_descriptors = MAX ( 1u , binding . length ) ; // An unbound R/W buffer is reflected as zero-size.
DEV_ASSERT ( ! binding . has_sampler ) ;
} break ;
}
uint32_t dxil_register = set * GODOT_NIR_DESCRIPTOR_SET_MULTIPLIER + binding . binding * GODOT_NIR_BINDING_MULTIPLIER ;
if ( binding . res_class ! = RES_CLASS_INVALID ) {
insert_range (
resource_range_type ,
num_descriptors ,
dxil_register ,
sets_bindings [ set ] [ i ] . dxil_stages ,
sets_bindings . write [ set ] . write [ i ] . root_sig_locations [ RS_LOC_TYPE_RESOURCE ] ,
resource_tables_maps ,
first_resource_in_set ) ;
}
if ( binding . has_sampler ) {
insert_range (
D3D12_DESCRIPTOR_RANGE_TYPE_SAMPLER ,
num_descriptors ,
dxil_register ,
sets_bindings [ set ] [ i ] . dxil_stages ,
sets_bindings . write [ set ] . write [ i ] . root_sig_locations [ RS_LOC_TYPE_SAMPLER ] ,
sampler_tables_maps ,
first_sampler_in_set ) ;
}
}
}
auto make_descriptor_tables = [ & root_params , & stages_to_d3d12_visibility ] ( const Vector < TraceableDescriptorTable > & p_tables ) {
for ( const TraceableDescriptorTable & table : p_tables ) {
D3D12_SHADER_VISIBILITY visibility = stages_to_d3d12_visibility ( table . stages_mask ) ;
DEV_ASSERT ( table . ranges . size ( ) = = table . root_sig_locations . size ( ) ) ;
for ( int i = 0 ; i < table . ranges . size ( ) ; i + + ) {
// By now we know very well which root signature location corresponds to the pointed uniform.
table . root_sig_locations [ i ] - > root_param_idx = root_params . size ( ) ;
table . root_sig_locations [ i ] - > range_idx = i ;
}
CD3DX12_ROOT_PARAMETER1 root_table ;
root_table . InitAsDescriptorTable ( table . ranges . size ( ) , table . ranges . ptr ( ) , visibility ) ;
root_params . push_back ( root_table ) ;
}
} ;
make_descriptor_tables ( resource_tables_maps ) ;
make_descriptor_tables ( sampler_tables_maps ) ;
CD3DX12_VERSIONED_ROOT_SIGNATURE_DESC root_sig_desc = { } ;
D3D12_ROOT_SIGNATURE_FLAGS root_sig_flags =
D3D12_ROOT_SIGNATURE_FLAG_DENY_HULL_SHADER_ROOT_ACCESS |
D3D12_ROOT_SIGNATURE_FLAG_DENY_DOMAIN_SHADER_ROOT_ACCESS |
D3D12_ROOT_SIGNATURE_FLAG_DENY_GEOMETRY_SHADER_ROOT_ACCESS |
D3D12_ROOT_SIGNATURE_FLAG_DENY_AMPLIFICATION_SHADER_ROOT_ACCESS |
D3D12_ROOT_SIGNATURE_FLAG_DENY_MESH_SHADER_ROOT_ACCESS ;
if ( ! stages_processed . has_flag ( SHADER_STAGE_VERTEX_BIT ) ) {
root_sig_flags | = D3D12_ROOT_SIGNATURE_FLAG_DENY_VERTEX_SHADER_ROOT_ACCESS ;
}
if ( ! stages_processed . has_flag ( SHADER_STAGE_FRAGMENT_BIT ) ) {
root_sig_flags | = D3D12_ROOT_SIGNATURE_FLAG_DENY_PIXEL_SHADER_ROOT_ACCESS ;
}
if ( binary_data . vertex_input_mask ) {
root_sig_flags | = D3D12_ROOT_SIGNATURE_FLAG_ALLOW_INPUT_ASSEMBLER_INPUT_LAYOUT ;
}
root_sig_desc . Init_1_1 ( root_params . size ( ) , root_params . ptr ( ) , 0 , nullptr , root_sig_flags ) ;
ComPtr < ID3DBlob > error_blob ;
HRESULT res = D3DX12SerializeVersionedRootSignature ( & root_sig_desc , D3D_ROOT_SIGNATURE_VERSION_1_1 , root_sig_blob . GetAddressOf ( ) , error_blob . GetAddressOf ( ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , Vector < uint8_t > ( ) ,
" Serialization of root signature failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " and the following message: \n " + String ( ( char * ) error_blob - > GetBufferPointer ( ) , error_blob - > GetBufferSize ( ) ) ) ;
binary_data . root_signature_crc = crc32 ( 0 , nullptr , 0 ) ;
binary_data . root_signature_crc = crc32 ( binary_data . root_signature_crc , ( const Bytef * ) root_sig_blob - > GetBufferPointer ( ) , root_sig_blob - > GetBufferSize ( ) ) ;
}
Vector < Vector < uint8_t > > compressed_stages ;
Vector < uint32_t > zstd_size ;
uint32_t stages_binary_size = 0 ;
for ( uint32_t i = 0 ; i < p_spirv . size ( ) ; i + + ) {
Vector < uint8_t > zstd ;
Vector < uint8_t > & dxil_blob = dxil_blobs [ p_spirv [ i ] . shader_stage ] ;
zstd . resize ( Compression : : get_max_compressed_buffer_size ( dxil_blob . size ( ) , Compression : : MODE_ZSTD ) ) ;
int dst_size = Compression : : compress ( zstd . ptrw ( ) , dxil_blob . ptr ( ) , dxil_blob . size ( ) , Compression : : MODE_ZSTD ) ;
zstd_size . push_back ( dst_size ) ;
zstd . resize ( dst_size ) ;
compressed_stages . push_back ( zstd ) ;
uint32_t s = compressed_stages [ i ] . size ( ) ;
if ( s % 4 ! = 0 ) {
s + = 4 - ( s % 4 ) ;
}
stages_binary_size + = s ;
}
CharString shader_name_utf = p_shader_name . utf8 ( ) ;
binary_data . shader_name_len = shader_name_utf . length ( ) ;
uint32_t total_size = sizeof ( uint32_t ) * 3 ; // Header + version + main datasize;.
total_size + = sizeof ( ShaderBinary : : Data ) ;
total_size + = binary_data . shader_name_len ;
if ( ( binary_data . shader_name_len % 4 ) ! = 0 ) { // Alignment rules are really strange.
total_size + = 4 - ( binary_data . shader_name_len % 4 ) ;
}
for ( int i = 0 ; i < sets_bindings . size ( ) ; i + + ) {
total_size + = sizeof ( uint32_t ) ;
total_size + = sets_bindings [ i ] . size ( ) * sizeof ( ShaderBinary : : DataBinding ) ;
}
total_size + = sizeof ( ShaderBinary : : SpecializationConstant ) * specialization_constants . size ( ) ;
total_size + = compressed_stages . size ( ) * sizeof ( uint32_t ) * 3 ; // Sizes.
total_size + = stages_binary_size ;
binary_data . root_signature_len = root_sig_blob - > GetBufferSize ( ) ;
total_size + = binary_data . root_signature_len ;
Vector < uint8_t > ret ;
ret . resize ( total_size ) ;
{
uint32_t offset = 0 ;
uint8_t * binptr = ret . ptrw ( ) ;
binptr [ 0 ] = ' G ' ;
binptr [ 1 ] = ' S ' ;
binptr [ 2 ] = ' B ' ;
binptr [ 3 ] = ' D ' ; // Godot shader binary data.
offset + = 4 ;
encode_uint32 ( ShaderBinary : : VERSION , binptr + offset ) ;
offset + = sizeof ( uint32_t ) ;
encode_uint32 ( sizeof ( ShaderBinary : : Data ) , binptr + offset ) ;
offset + = sizeof ( uint32_t ) ;
memcpy ( binptr + offset , & binary_data , sizeof ( ShaderBinary : : Data ) ) ;
offset + = sizeof ( ShaderBinary : : Data ) ;
if ( binary_data . shader_name_len > 0 ) {
memcpy ( binptr + offset , shader_name_utf . ptr ( ) , binary_data . shader_name_len ) ;
offset + = binary_data . shader_name_len ;
if ( ( binary_data . shader_name_len % 4 ) ! = 0 ) { // Alignment rules are really strange.
offset + = 4 - ( binary_data . shader_name_len % 4 ) ;
}
}
for ( int i = 0 ; i < sets_bindings . size ( ) ; i + + ) {
int count = sets_bindings [ i ] . size ( ) ;
encode_uint32 ( count , binptr + offset ) ;
offset + = sizeof ( uint32_t ) ;
if ( count > 0 ) {
memcpy ( binptr + offset , sets_bindings [ i ] . ptr ( ) , sizeof ( ShaderBinary : : DataBinding ) * count ) ;
offset + = sizeof ( ShaderBinary : : DataBinding ) * count ;
}
}
if ( specialization_constants . size ( ) ) {
memcpy ( binptr + offset , specialization_constants . ptr ( ) , sizeof ( ShaderBinary : : SpecializationConstant ) * specialization_constants . size ( ) ) ;
offset + = sizeof ( ShaderBinary : : SpecializationConstant ) * specialization_constants . size ( ) ;
}
for ( int i = 0 ; i < compressed_stages . size ( ) ; i + + ) {
encode_uint32 ( p_spirv [ i ] . shader_stage , binptr + offset ) ;
offset + = sizeof ( uint32_t ) ;
encode_uint32 ( dxil_blobs [ p_spirv [ i ] . shader_stage ] . size ( ) , binptr + offset ) ;
offset + = sizeof ( uint32_t ) ;
encode_uint32 ( zstd_size [ i ] , binptr + offset ) ;
offset + = sizeof ( uint32_t ) ;
memcpy ( binptr + offset , compressed_stages [ i ] . ptr ( ) , compressed_stages [ i ] . size ( ) ) ;
uint32_t s = compressed_stages [ i ] . size ( ) ;
if ( s % 4 ! = 0 ) {
s + = 4 - ( s % 4 ) ;
}
offset + = s ;
}
memcpy ( binptr + offset , root_sig_blob - > GetBufferPointer ( ) , root_sig_blob - > GetBufferSize ( ) ) ;
offset + = root_sig_blob - > GetBufferSize ( ) ;
ERR_FAIL_COND_V ( offset ! = ( uint32_t ) ret . size ( ) , Vector < uint8_t > ( ) ) ;
}
return ret ;
}
RDD : : ShaderID RenderingDeviceDriverD3D12 : : shader_create_from_bytecode ( const Vector < uint8_t > & p_shader_binary , ShaderDescription & r_shader_desc , String & r_name ) {
r_shader_desc = { } ; // Driver-agnostic.
ShaderInfo shader_info_in ; // Driver-specific.
const uint8_t * binptr = p_shader_binary . ptr ( ) ;
uint32_t binsize = p_shader_binary . size ( ) ;
uint32_t read_offset = 0 ;
// Consistency check.
ERR_FAIL_COND_V ( binsize < sizeof ( uint32_t ) * 3 + sizeof ( ShaderBinary : : Data ) , ShaderID ( ) ) ;
ERR_FAIL_COND_V ( binptr [ 0 ] ! = ' G ' | | binptr [ 1 ] ! = ' S ' | | binptr [ 2 ] ! = ' B ' | | binptr [ 3 ] ! = ' D ' , ShaderID ( ) ) ;
uint32_t bin_version = decode_uint32 ( binptr + 4 ) ;
ERR_FAIL_COND_V ( bin_version ! = ShaderBinary : : VERSION , ShaderID ( ) ) ;
uint32_t bin_data_size = decode_uint32 ( binptr + 8 ) ;
const ShaderBinary : : Data & binary_data = * ( reinterpret_cast < const ShaderBinary : : Data * > ( binptr + 12 ) ) ;
r_shader_desc . push_constant_size = binary_data . push_constant_size ;
shader_info_in . dxil_push_constant_size = binary_data . dxil_push_constant_stages ? binary_data . push_constant_size : 0 ;
shader_info_in . nir_runtime_data_root_param_idx = binary_data . nir_runtime_data_root_param_idx ;
r_shader_desc . vertex_input_mask = binary_data . vertex_input_mask ;
r_shader_desc . fragment_output_mask = binary_data . fragment_output_mask ;
r_shader_desc . is_compute = binary_data . is_compute ;
shader_info_in . is_compute = binary_data . is_compute ;
r_shader_desc . compute_local_size [ 0 ] = binary_data . compute_local_size [ 0 ] ;
r_shader_desc . compute_local_size [ 1 ] = binary_data . compute_local_size [ 1 ] ;
r_shader_desc . compute_local_size [ 2 ] = binary_data . compute_local_size [ 2 ] ;
read_offset + = sizeof ( uint32_t ) * 3 + bin_data_size ;
if ( binary_data . shader_name_len ) {
r_name . parse_utf8 ( ( const char * ) ( binptr + read_offset ) , binary_data . shader_name_len ) ;
read_offset + = binary_data . shader_name_len ;
if ( ( binary_data . shader_name_len % 4 ) ! = 0 ) { // Alignment rules are really strange.
read_offset + = 4 - ( binary_data . shader_name_len % 4 ) ;
}
}
r_shader_desc . uniform_sets . resize ( binary_data . set_count ) ;
shader_info_in . sets . resize ( binary_data . set_count ) ;
for ( uint32_t i = 0 ; i < binary_data . set_count ; i + + ) {
ERR_FAIL_COND_V ( read_offset + sizeof ( uint32_t ) > = binsize , ShaderID ( ) ) ;
uint32_t set_count = decode_uint32 ( binptr + read_offset ) ;
read_offset + = sizeof ( uint32_t ) ;
const ShaderBinary : : DataBinding * set_ptr = reinterpret_cast < const ShaderBinary : : DataBinding * > ( binptr + read_offset ) ;
uint32_t set_size = set_count * sizeof ( ShaderBinary : : DataBinding ) ;
ERR_FAIL_COND_V ( read_offset + set_size > = binsize , ShaderID ( ) ) ;
shader_info_in . sets [ i ] . bindings . reserve ( set_count ) ;
for ( uint32_t j = 0 ; j < set_count ; j + + ) {
ShaderUniform info ;
info . type = UniformType ( set_ptr [ j ] . type ) ;
info . writable = set_ptr [ j ] . writable ;
info . length = set_ptr [ j ] . length ;
info . binding = set_ptr [ j ] . binding ;
ShaderInfo : : UniformBindingInfo binding ;
binding . stages = set_ptr [ j ] . dxil_stages ;
binding . res_class = ( ResourceClass ) set_ptr [ j ] . res_class ;
binding . type = info . type ;
binding . length = info . length ;
# ifdef DEV_ENABLED
binding . writable = set_ptr [ j ] . writable ;
# endif
static_assert ( sizeof ( ShaderInfo : : UniformBindingInfo : : root_sig_locations ) = = sizeof ( ShaderBinary : : DataBinding : : root_sig_locations ) ) ;
memcpy ( ( void * ) & binding . root_sig_locations , ( void * ) & set_ptr [ j ] . root_sig_locations , sizeof ( ShaderInfo : : UniformBindingInfo : : root_sig_locations ) ) ;
if ( binding . root_sig_locations . resource . root_param_idx ! = UINT32_MAX ) {
shader_info_in . sets [ i ] . num_root_params . resources + + ;
}
if ( binding . root_sig_locations . sampler . root_param_idx ! = UINT32_MAX ) {
shader_info_in . sets [ i ] . num_root_params . samplers + + ;
}
r_shader_desc . uniform_sets . write [ i ] . push_back ( info ) ;
shader_info_in . sets [ i ] . bindings . push_back ( binding ) ;
}
read_offset + = set_size ;
}
ERR_FAIL_COND_V ( read_offset + binary_data . specialization_constants_count * sizeof ( ShaderBinary : : SpecializationConstant ) > = binsize , ShaderID ( ) ) ;
r_shader_desc . specialization_constants . resize ( binary_data . specialization_constants_count ) ;
shader_info_in . specialization_constants . resize ( binary_data . specialization_constants_count ) ;
for ( uint32_t i = 0 ; i < binary_data . specialization_constants_count ; i + + ) {
const ShaderBinary : : SpecializationConstant & src_sc = * ( reinterpret_cast < const ShaderBinary : : SpecializationConstant * > ( binptr + read_offset ) ) ;
ShaderSpecializationConstant sc ;
sc . type = PipelineSpecializationConstantType ( src_sc . type ) ;
sc . constant_id = src_sc . constant_id ;
sc . int_value = src_sc . int_value ;
sc . stages = src_sc . stage_flags ;
r_shader_desc . specialization_constants . write [ i ] = sc ;
ShaderInfo : : SpecializationConstant ssc ;
ssc . constant_id = src_sc . constant_id ;
ssc . int_value = src_sc . int_value ;
memcpy ( ssc . stages_bit_offsets , src_sc . stages_bit_offsets , sizeof ( ssc . stages_bit_offsets ) ) ;
shader_info_in . specialization_constants [ i ] = ssc ;
read_offset + = sizeof ( ShaderBinary : : SpecializationConstant ) ;
}
shader_info_in . spirv_specialization_constants_ids_mask = binary_data . spirv_specialization_constants_ids_mask ;
for ( uint32_t i = 0 ; i < binary_data . stage_count ; i + + ) {
ERR_FAIL_COND_V ( read_offset + sizeof ( uint32_t ) * 3 > = binsize , ShaderID ( ) ) ;
uint32_t stage = decode_uint32 ( binptr + read_offset ) ;
read_offset + = sizeof ( uint32_t ) ;
uint32_t dxil_size = decode_uint32 ( binptr + read_offset ) ;
read_offset + = sizeof ( uint32_t ) ;
uint32_t zstd_size = decode_uint32 ( binptr + read_offset ) ;
read_offset + = sizeof ( uint32_t ) ;
// Decompress.
Vector < uint8_t > dxil ;
dxil . resize ( dxil_size ) ;
int dec_dxil_size = Compression : : decompress ( dxil . ptrw ( ) , dxil . size ( ) , binptr + read_offset , zstd_size , Compression : : MODE_ZSTD ) ;
ERR_FAIL_COND_V ( dec_dxil_size ! = ( int32_t ) dxil_size , ShaderID ( ) ) ;
shader_info_in . stages_bytecode [ ShaderStage ( stage ) ] = dxil ;
if ( zstd_size % 4 ! = 0 ) {
zstd_size + = 4 - ( zstd_size % 4 ) ;
}
ERR_FAIL_COND_V ( read_offset + zstd_size > binsize , ShaderID ( ) ) ;
read_offset + = zstd_size ;
}
const uint8_t * root_sig_data_ptr = binptr + read_offset ;
HRESULT res = D3D12CreateRootSignatureDeserializer ( root_sig_data_ptr , binary_data . root_signature_len , IID_PPV_ARGS ( shader_info_in . root_signature_deserializer . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ShaderID ( ) , " D3D12CreateRootSignatureDeserializer failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
read_offset + = binary_data . root_signature_len ;
ERR_FAIL_COND_V ( read_offset ! = binsize , ShaderID ( ) ) ;
ComPtr < ID3D12RootSignature > root_signature ;
res = device - > CreateRootSignature ( 0 , root_sig_data_ptr , binary_data . root_signature_len , IID_PPV_ARGS ( shader_info_in . root_signature . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ShaderID ( ) , " CreateRootSignature failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
shader_info_in . root_signature_desc = shader_info_in . root_signature_deserializer - > GetRootSignatureDesc ( ) ;
shader_info_in . root_signature_crc = binary_data . root_signature_crc ;
// Bookkeep.
ShaderInfo * shader_info_ptr = VersatileResource : : allocate < ShaderInfo > ( resources_allocator ) ;
* shader_info_ptr = shader_info_in ;
return ShaderID ( shader_info_ptr ) ;
}
uint32_t RenderingDeviceDriverD3D12 : : shader_get_layout_hash ( ShaderID p_shader ) {
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
return shader_info_in - > root_signature_crc ;
}
void RenderingDeviceDriverD3D12 : : shader_free ( ShaderID p_shader ) {
ShaderInfo * shader_info_in = ( ShaderInfo * ) p_shader . id ;
VersatileResource : : free ( resources_allocator , shader_info_in ) ;
}
/*********************/
/**** UNIFORM SET ****/
/*********************/
static void _add_descriptor_count_for_uniform ( RenderingDevice : : UniformType p_type , uint32_t p_binding_length , bool p_dobule_srv_uav_ambiguous , uint32_t & r_num_resources , uint32_t & r_num_samplers , bool & r_srv_uav_ambiguity ) {
r_srv_uav_ambiguity = false ;
// Some resource types can be SRV or UAV, depending on what NIR-DXIL decided for a specific shader variant.
// The goal is to generate both SRV and UAV for the descriptor sets' heaps and copy only the relevant one
// to the frame descriptor heap at binding time.
// [[SRV_UAV_AMBIGUITY]]
switch ( p_type ) {
case RenderingDevice : : UNIFORM_TYPE_SAMPLER : {
r_num_samplers + = p_binding_length ;
} break ;
case RenderingDevice : : UNIFORM_TYPE_SAMPLER_WITH_TEXTURE :
case RenderingDevice : : UNIFORM_TYPE_SAMPLER_WITH_TEXTURE_BUFFER : {
r_num_resources + = p_binding_length ;
r_num_samplers + = p_binding_length ;
} break ;
case RenderingDevice : : UNIFORM_TYPE_UNIFORM_BUFFER : {
r_num_resources + = 1 ;
} break ;
case RenderingDevice : : UNIFORM_TYPE_STORAGE_BUFFER : {
r_num_resources + = p_dobule_srv_uav_ambiguous ? 2 : 1 ;
r_srv_uav_ambiguity = true ;
} break ;
case RenderingDevice : : UNIFORM_TYPE_IMAGE : {
r_num_resources + = p_binding_length * ( p_dobule_srv_uav_ambiguous ? 2 : 1 ) ;
r_srv_uav_ambiguity = true ;
} break ;
default : {
r_num_resources + = p_binding_length ;
}
}
}
RDD : : UniformSetID RenderingDeviceDriverD3D12 : : uniform_set_create ( VectorView < BoundUniform > p_uniforms , ShaderID p_shader , uint32_t p_set_index ) {
// Pre-bookkeep.
UniformSetInfo * uniform_set_info = VersatileResource : : allocate < UniformSetInfo > ( resources_allocator ) ;
// Do a first pass to count resources and samplers.
uint32_t num_resource_descs = 0 ;
uint32_t num_sampler_descs = 0 ;
for ( uint32_t i = 0 ; i < p_uniforms . size ( ) ; i + + ) {
const BoundUniform & uniform = p_uniforms [ i ] ;
// Since the uniform set may be created for a shader different than the one that will be actually bound,
// which may have a different set of uniforms optimized out, the stages mask we can check now is not reliable.
// Therefore, we can't make any assumptions here about descriptors that we may not need to create,
// pixel or vertex-only shader resource states, etc.
bool srv_uav_ambiguity = false ;
uint32_t binding_length = uniform . ids . size ( ) ;
if ( uniform . type = = UNIFORM_TYPE_SAMPLER_WITH_TEXTURE | | uniform . type = = UNIFORM_TYPE_SAMPLER_WITH_TEXTURE_BUFFER ) {
binding_length / = 2 ;
}
_add_descriptor_count_for_uniform ( uniform . type , binding_length , true , num_resource_descs , num_sampler_descs , srv_uav_ambiguity ) ;
}
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . reserve ( num_resource_descs ) ;
# endif
if ( num_resource_descs ) {
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Error err = uniform_set_info - > desc_heaps . resources . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV , num_resource_descs , false ) ;
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if ( err ) {
VersatileResource : : free ( resources_allocator , uniform_set_info ) ;
ERR_FAIL_V ( UniformSetID ( ) ) ;
}
}
if ( num_sampler_descs ) {
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Error err = uniform_set_info - > desc_heaps . samplers . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_SAMPLER , num_sampler_descs , false ) ;
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if ( err ) {
VersatileResource : : free ( resources_allocator , uniform_set_info ) ;
ERR_FAIL_V ( UniformSetID ( ) ) ;
}
}
struct {
DescriptorsHeap : : Walker resources ;
DescriptorsHeap : : Walker samplers ;
} desc_heap_walkers ;
desc_heap_walkers . resources = uniform_set_info - > desc_heaps . resources . make_walker ( ) ;
desc_heap_walkers . samplers = uniform_set_info - > desc_heaps . samplers . make_walker ( ) ;
struct NeededState {
bool is_buffer = false ;
uint64_t shader_uniform_idx_mask = 0 ;
D3D12_RESOURCE_STATES states = { } ;
} ;
HashMap < ResourceInfo * , NeededState > resource_states ;
for ( uint32_t i = 0 ; i < p_uniforms . size ( ) ; i + + ) {
const BoundUniform & uniform = p_uniforms [ i ] ;
# ifdef DEV_ENABLED
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
const ShaderInfo : : UniformBindingInfo & shader_uniform = shader_info_in - > sets [ p_set_index ] . bindings [ i ] ;
bool is_compute = shader_info_in - > stages_bytecode . has ( SHADER_STAGE_COMPUTE ) ;
DEV_ASSERT ( ! ( is_compute & & ( shader_uniform . stages & ( SHADER_STAGE_VERTEX_BIT | SHADER_STAGE_FRAGMENT_BIT ) ) ) ) ;
DEV_ASSERT ( ! ( ! is_compute & & ( shader_uniform . stages & SHADER_STAGE_COMPUTE_BIT ) ) ) ;
# endif
switch ( uniform . type ) {
case UNIFORM_TYPE_SAMPLER : {
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + + ) {
const D3D12_SAMPLER_DESC & sampler_desc = samplers [ uniform . ids [ j ] . id ] ;
device - > CreateSampler ( & sampler_desc , desc_heap_walkers . samplers . get_curr_cpu_handle ( ) ) ;
desc_heap_walkers . samplers . advance ( ) ;
}
} break ;
case UNIFORM_TYPE_SAMPLER_WITH_TEXTURE : {
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + = 2 ) {
const D3D12_SAMPLER_DESC & sampler_desc = samplers [ uniform . ids [ j ] . id ] ;
TextureInfo * texture_info = ( TextureInfo * ) uniform . ids [ j + 1 ] . id ;
device - > CreateSampler ( & sampler_desc , desc_heap_walkers . samplers . get_curr_cpu_handle ( ) ) ;
desc_heap_walkers . samplers . advance ( ) ;
device - > CreateShaderResourceView ( texture_info - > resource , & texture_info - > view_descs . srv , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_SRV , texture_info - > view_descs . srv . ViewDimension } ) ;
# endif
desc_heap_walkers . resources . advance ( ) ;
NeededState & ns = resource_states [ texture_info ] ;
ns . shader_uniform_idx_mask | = ( ( uint64_t ) 1 < < i ) ;
ns . states | = D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ;
}
} break ;
case UNIFORM_TYPE_TEXTURE : {
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + + ) {
TextureInfo * texture_info = ( TextureInfo * ) uniform . ids [ j ] . id ;
device - > CreateShaderResourceView ( texture_info - > resource , & texture_info - > view_descs . srv , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_SRV , texture_info - > view_descs . srv . ViewDimension } ) ;
# endif
desc_heap_walkers . resources . advance ( ) ;
NeededState & ns = resource_states [ texture_info ] ;
ns . shader_uniform_idx_mask | = ( ( uint64_t ) 1 < < i ) ;
ns . states | = D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ;
}
} break ;
case UNIFORM_TYPE_IMAGE : {
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + + ) {
TextureInfo * texture_info = ( TextureInfo * ) uniform . ids [ j ] . id ;
NeededState & ns = resource_states [ texture_info ] ;
ns . shader_uniform_idx_mask | = ( ( uint64_t ) 1 < < i ) ;
ns . states | = ( D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE | D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ;
}
// SRVs first. [[SRV_UAV_AMBIGUITY]]
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + + ) {
TextureInfo * texture_info = ( TextureInfo * ) uniform . ids [ j ] . id ;
device - > CreateShaderResourceView ( texture_info - > resource , & texture_info - > view_descs . srv , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_SRV , texture_info - > view_descs . srv . ViewDimension } ) ;
# endif
desc_heap_walkers . resources . advance ( ) ;
}
// UAVs then. [[SRV_UAV_AMBIGUITY]]
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + + ) {
TextureInfo * texture_info = ( TextureInfo * ) uniform . ids [ j ] . id ;
device - > CreateUnorderedAccessView ( texture_info - > resource , nullptr , & texture_info - > view_descs . uav , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_UAV , { } } ) ;
# endif
desc_heap_walkers . resources . advance ( ) ;
}
} break ;
case UNIFORM_TYPE_TEXTURE_BUFFER :
case UNIFORM_TYPE_SAMPLER_WITH_TEXTURE_BUFFER : {
CRASH_NOW_MSG ( " Unimplemented! " ) ;
} break ;
case UNIFORM_TYPE_IMAGE_BUFFER : {
CRASH_NOW_MSG ( " Unimplemented! " ) ;
} break ;
case UNIFORM_TYPE_UNIFORM_BUFFER : {
BufferInfo * buf_info = ( BufferInfo * ) uniform . ids [ 0 ] . id ;
D3D12_CONSTANT_BUFFER_VIEW_DESC cbv_desc = { } ;
cbv_desc . BufferLocation = buf_info - > resource - > GetGPUVirtualAddress ( ) ;
cbv_desc . SizeInBytes = STEPIFY ( buf_info - > size , 256 ) ;
device - > CreateConstantBufferView ( & cbv_desc , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
desc_heap_walkers . resources . advance ( ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_CBV , { } } ) ;
# endif
NeededState & ns = resource_states [ buf_info ] ;
ns . is_buffer = true ;
ns . shader_uniform_idx_mask | = ( ( uint64_t ) 1 < < i ) ;
ns . states | = D3D12_RESOURCE_STATE_VERTEX_AND_CONSTANT_BUFFER ;
} break ;
case UNIFORM_TYPE_STORAGE_BUFFER : {
BufferInfo * buf_info = ( BufferInfo * ) uniform . ids [ 0 ] . id ;
// SRV first. [[SRV_UAV_AMBIGUITY]]
{
D3D12_SHADER_RESOURCE_VIEW_DESC srv_desc = { } ;
srv_desc . Format = DXGI_FORMAT_R32_TYPELESS ;
srv_desc . ViewDimension = D3D12_SRV_DIMENSION_BUFFER ;
srv_desc . Shader4ComponentMapping = D3D12_DEFAULT_SHADER_4_COMPONENT_MAPPING ;
srv_desc . Buffer . FirstElement = 0 ;
srv_desc . Buffer . NumElements = ( buf_info - > size + 3 ) / 4 ;
srv_desc . Buffer . StructureByteStride = 0 ;
srv_desc . Buffer . Flags = D3D12_BUFFER_SRV_FLAG_RAW ;
device - > CreateShaderResourceView ( buf_info - > resource , & srv_desc , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_SRV , srv_desc . ViewDimension } ) ;
# endif
desc_heap_walkers . resources . advance ( ) ;
}
// UAV then. [[SRV_UAV_AMBIGUITY]]
{
if ( buf_info - > flags . usable_as_uav ) {
D3D12_UNORDERED_ACCESS_VIEW_DESC uav_desc = { } ;
uav_desc . Format = DXGI_FORMAT_R32_TYPELESS ;
uav_desc . ViewDimension = D3D12_UAV_DIMENSION_BUFFER ;
uav_desc . Buffer . FirstElement = 0 ;
uav_desc . Buffer . NumElements = ( buf_info - > size + 3 ) / 4 ;
uav_desc . Buffer . StructureByteStride = 0 ;
uav_desc . Buffer . CounterOffsetInBytes = 0 ;
uav_desc . Buffer . Flags = D3D12_BUFFER_UAV_FLAG_RAW ;
device - > CreateUnorderedAccessView ( buf_info - > resource , nullptr , & uav_desc , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_UAV , { } } ) ;
# endif
} else {
// If can't transition to UAV, leave this one empty since it won't be
// used, and trying to create an UAV view would trigger a validation error.
}
desc_heap_walkers . resources . advance ( ) ;
}
NeededState & ns = resource_states [ buf_info ] ;
ns . shader_uniform_idx_mask | = ( ( uint64_t ) 1 < < i ) ;
ns . is_buffer = true ;
ns . states | = ( D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE | D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ;
} break ;
case UNIFORM_TYPE_INPUT_ATTACHMENT : {
for ( uint32_t j = 0 ; j < uniform . ids . size ( ) ; j + + ) {
TextureInfo * texture_info = ( TextureInfo * ) uniform . ids [ j ] . id ;
device - > CreateShaderResourceView ( texture_info - > resource , & texture_info - > view_descs . srv , desc_heap_walkers . resources . get_curr_cpu_handle ( ) ) ;
# ifdef DEV_ENABLED
uniform_set_info - > resources_desc_info . push_back ( { D3D12_DESCRIPTOR_RANGE_TYPE_SRV , texture_info - > view_descs . srv . ViewDimension } ) ;
# endif
desc_heap_walkers . resources . advance ( ) ;
NeededState & ns = resource_states [ texture_info ] ;
ns . shader_uniform_idx_mask | = ( ( uint64_t ) 1 < < i ) ;
ns . states | = D3D12_RESOURCE_STATE_PIXEL_SHADER_RESOURCE ;
}
} break ;
default : {
DEV_ASSERT ( false ) ;
}
}
}
DEV_ASSERT ( desc_heap_walkers . resources . is_at_eof ( ) ) ;
DEV_ASSERT ( desc_heap_walkers . samplers . is_at_eof ( ) ) ;
{
uniform_set_info - > resource_states . reserve ( resource_states . size ( ) ) ;
uint32_t i = 0 ;
for ( const KeyValue < ResourceInfo * , NeededState > & E : resource_states ) {
UniformSetInfo : : StateRequirement sr ;
sr . resource = E . key ;
sr . is_buffer = E . value . is_buffer ;
sr . states = E . value . states ;
sr . shader_uniform_idx_mask = E . value . shader_uniform_idx_mask ;
uniform_set_info - > resource_states . push_back ( sr ) ;
i + + ;
}
}
return UniformSetID ( uniform_set_info ) ;
}
void RenderingDeviceDriverD3D12 : : uniform_set_free ( UniformSetID p_uniform_set ) {
UniformSetInfo * uniform_set_info = ( UniformSetInfo * ) p_uniform_set . id ;
VersatileResource : : free ( resources_allocator , uniform_set_info ) ;
}
// ----- COMMANDS -----
void RenderingDeviceDriverD3D12 : : command_uniform_set_prepare_for_use ( CommandBufferID p_cmd_buffer , UniformSetID p_uniform_set , ShaderID p_shader , uint32_t p_set_index ) {
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// Perform pending blackouts.
{
SelfList < TextureInfo > * E = textures_pending_clear . first ( ) ;
while ( E ) {
TextureSubresourceRange subresources ;
subresources . layer_count = E - > self ( ) - > layers ;
subresources . mipmap_count = E - > self ( ) - > mipmaps ;
command_clear_color_texture ( p_cmd_buffer , TextureID ( E - > self ( ) ) , TEXTURE_LAYOUT_GENERAL , Color ( ) , subresources ) ;
SelfList < TextureInfo > * next = E - > next ( ) ;
E - > remove_from_list ( ) ;
E = next ;
}
}
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const UniformSetInfo * uniform_set_info = ( const UniformSetInfo * ) p_uniform_set . id ;
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
const ShaderInfo : : UniformSet & shader_set = shader_info_in - > sets [ p_set_index ] ;
for ( const UniformSetInfo : : StateRequirement & sr : uniform_set_info - > resource_states ) {
# ifdef DEV_ENABLED
{
uint32_t stages = 0 ;
D3D12_RESOURCE_STATES wanted_state = { } ;
bool writable = false ;
// Doing the full loop for debugging since the real one below may break early,
// but we want an exhaustive check
uint64_t inv_uniforms_mask = ~ sr . shader_uniform_idx_mask ; // Inverting the mask saves operations.
for ( uint8_t bit = 0 ; inv_uniforms_mask ! = UINT64_MAX ; bit + + ) {
uint64_t bit_mask = ( ( uint64_t ) 1 < < bit ) ;
if ( likely ( ( inv_uniforms_mask & bit_mask ) ) ) {
continue ;
}
inv_uniforms_mask | = bit_mask ;
const ShaderInfo : : UniformBindingInfo & binding = shader_set . bindings [ bit ] ;
if ( unlikely ( ! binding . stages ) ) {
continue ;
}
D3D12_RESOURCE_STATES required_states = sr . states ;
// Resolve a case of SRV/UAV ambiguity now. [[SRV_UAV_AMBIGUITY]]
if ( ( required_states & D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ) & & ( required_states & D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ) {
if ( binding . res_class = = RES_CLASS_SRV ) {
required_states & = ~ D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
} else {
required_states = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
}
}
if ( stages ) { // Second occurrence at least?
CRASH_COND_MSG ( binding . writable ! = writable , " A resource is used in the same uniform set both as R/O and R/W. That's not supported and shouldn't happen. " ) ;
CRASH_COND_MSG ( required_states ! = wanted_state , " A resource is used in the same uniform set with different resource states. The code needs to be enhanced to support that. " ) ;
} else {
wanted_state = required_states ;
stages | = binding . stages ;
writable = binding . writable ;
}
DEV_ASSERT ( ( wanted_state = = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) = = ( bool ) ( wanted_state & D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ) ;
}
}
# endif
// We may have assumed D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE for a resource,
// because at uniform set creation time we couldn't know for sure which stages
// it would be used in (due to the fact that a set can be created against a different,
// albeit compatible, shader, which may make a different usage in the end).
// However, now we know and can exclude up to one unneeded states.
// TODO: If subresources involved already in the needed states, or scheduled for it,
// maybe it's more optimal not to do anything here
uint32_t stages = 0 ;
D3D12_RESOURCE_STATES wanted_state = { } ;
uint64_t inv_uniforms_mask = ~ sr . shader_uniform_idx_mask ; // Inverting the mask saves operations.
for ( uint8_t bit = 0 ; inv_uniforms_mask ! = UINT64_MAX ; bit + + ) {
uint64_t bit_mask = ( ( uint64_t ) 1 < < bit ) ;
if ( likely ( ( inv_uniforms_mask & bit_mask ) ) ) {
continue ;
}
inv_uniforms_mask | = bit_mask ;
const ShaderInfo : : UniformBindingInfo & binding = shader_set . bindings [ bit ] ;
if ( unlikely ( ! binding . stages ) ) {
continue ;
}
if ( ! stages ) {
D3D12_RESOURCE_STATES required_states = sr . states ;
// Resolve a case of SRV/UAV ambiguity now. [[SRV_UAV_AMBIGUITY]]
if ( ( required_states & D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ) & & ( required_states & D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ) {
if ( binding . res_class = = RES_CLASS_SRV ) {
required_states & = ~ D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
} else {
required_states = D3D12_RESOURCE_STATE_UNORDERED_ACCESS ;
}
}
wanted_state = required_states ;
if ( ! ( wanted_state & D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ) ) {
// By now, we already know the resource is used, and with no PS/NON_PS disjuntive; no need to check further.
break ;
}
}
stages | = binding . stages ;
if ( stages = = ( SHADER_STAGE_VERTEX_BIT | SHADER_STAGE_FRAGMENT_BIT ) | | stages = = SHADER_STAGE_COMPUTE_BIT ) {
// By now, we already know the resource is used, and as both PS/NON_PS; no need to check further.
break ;
}
}
if ( likely ( wanted_state ) ) {
if ( ( wanted_state & D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ) ) {
if ( stages = = SHADER_STAGE_VERTEX_BIT | | stages = = SHADER_STAGE_COMPUTE_BIT ) {
D3D12_RESOURCE_STATES unneeded_states = D3D12_RESOURCE_STATE_PIXEL_SHADER_RESOURCE ;
wanted_state & = ~ unneeded_states ;
} else if ( stages = = SHADER_STAGE_FRAGMENT_BIT ) {
D3D12_RESOURCE_STATES unneeded_states = D3D12_RESOURCE_STATE_NON_PIXEL_SHADER_RESOURCE ;
wanted_state & = ~ unneeded_states ;
}
}
if ( likely ( wanted_state ) ) {
if ( sr . is_buffer ) {
_resource_transition_batch ( sr . resource , 0 , 1 , wanted_state ) ;
} else {
TextureInfo * tex_info = ( TextureInfo * ) sr . resource ;
uint32_t planes = 1 ;
if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
planes = format_get_plane_count ( tex_info - > format ) ;
}
for ( uint32_t i = 0 ; i < tex_info - > layers ; i + + ) {
for ( uint32_t j = 0 ; j < tex_info - > mipmaps ; j + + ) {
uint32_t subresource = D3D12CalcSubresource ( tex_info - > base_mip + j , tex_info - > base_layer + i , 0 , tex_info - > desc . MipLevels , tex_info - > desc . ArraySize ( ) ) ;
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if ( ( wanted_state & D3D12_RESOURCE_STATE_ALL_SHADER_RESOURCE ) ) {
// [[CROSS_FAMILY_FALLBACK]].
if ( tex_info - > owner_info . resource & & tex_info - > main_texture & & tex_info - > main_texture ! = tex_info ) {
uint32_t subres_qword = subresource / 64 ;
uint64_t subres_mask = ( uint64_t ( 1 ) < < ( subresource % 64 ) ) ;
if ( ( tex_info - > main_texture - > states_ptr - > xfamily_fallback . subresources_dirty [ subres_qword ] & subres_mask ) ) {
// Prepare for copying the write-to texture to this one, if out-of-date.
_resource_transition_batch ( tex_info - > main_texture , subresource , planes , D3D12_RESOURCE_STATE_COPY_SOURCE ) ;
_resource_transition_batch ( tex_info , subresource , planes , D3D12_RESOURCE_STATE_COPY_DEST ) ;
CommandBufferInfo : : FamilyFallbackCopy ffc ;
ffc . texture = tex_info ;
ffc . subresource = subresource ;
ffc . mipmap = j ;
ffc . dst_wanted_state = wanted_state ;
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
cmd_buf_info - > family_fallback_copies . resize ( cmd_buf_info - > family_fallback_copies . size ( ) + 1 ) ;
cmd_buf_info - > family_fallback_copies [ cmd_buf_info - > family_fallback_copy_count ] = ffc ;
cmd_buf_info - > family_fallback_copy_count + + ;
tex_info - > main_texture - > states_ptr - > xfamily_fallback . subresources_dirty [ subres_qword ] & = ~ subres_mask ;
}
continue ;
}
}
_resource_transition_batch ( tex_info , subresource , planes , wanted_state ) ;
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}
}
}
}
}
}
if ( p_set_index = = shader_info_in - > sets . size ( ) - 1 ) {
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CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
// [[CROSS_FAMILY_FALLBACK]].
for ( uint32_t i = 0 ; i < cmd_buf_info - > family_fallback_copy_count ; i + + ) {
const CommandBufferInfo : : FamilyFallbackCopy & ffc = cmd_buf_info - > family_fallback_copies [ i ] ;
D3D12_TEXTURE_COPY_LOCATION dst_tex = { } ;
dst_tex . pResource = ffc . texture - > resource ;
dst_tex . Type = D3D12_TEXTURE_COPY_TYPE_SUBRESOURCE_INDEX ;
dst_tex . SubresourceIndex = ffc . subresource ;
D3D12_TEXTURE_COPY_LOCATION src_tex = { } ;
src_tex . pResource = ffc . texture - > main_texture - > resource ;
src_tex . Type = D3D12_TEXTURE_COPY_TYPE_SUBRESOURCE_INDEX ;
src_tex . SubresourceIndex = ffc . subresource ;
const ResourceInfo : : States : : CrossFamillyFallback & xfamily = ffc . texture - > main_texture - > owner_info . states . xfamily_fallback ;
if ( xfamily . interim_buffer . Get ( ) ) {
// Must copy via a buffer due to reinterpret-copy known not to be available for these data types.
D3D12_TEXTURE_COPY_LOCATION buf_loc = { } ;
buf_loc . pResource = xfamily . interim_buffer . Get ( ) ;
buf_loc . Type = D3D12_TEXTURE_COPY_TYPE_PLACED_FOOTPRINT ;
buf_loc . PlacedFootprint . Offset = 0 ;
buf_loc . PlacedFootprint . Footprint . Format = ffc . texture - > main_texture - > desc . Format ;
buf_loc . PlacedFootprint . Footprint . Width = MAX ( 1u , ffc . texture - > main_texture - > desc . Width > > ffc . mipmap ) ;
buf_loc . PlacedFootprint . Footprint . Height = MAX ( 1u , ffc . texture - > main_texture - > desc . Height > > ffc . mipmap ) ;
buf_loc . PlacedFootprint . Footprint . Depth = MAX ( 1u , ( uint32_t ) ffc . texture - > main_texture - > desc . Depth ( ) > > ffc . mipmap ) ;
buf_loc . PlacedFootprint . Footprint . RowPitch = STEPIFY ( buf_loc . PlacedFootprint . Footprint . Width * sizeof ( uint16_t ) , D3D12_TEXTURE_DATA_PITCH_ALIGNMENT ) ;
D3D12_RESOURCE_BARRIER barrier = CD3DX12_RESOURCE_BARRIER : : Transition ( xfamily . interim_buffer . Get ( ) , D3D12_RESOURCE_STATE_COPY_SOURCE , D3D12_RESOURCE_STATE_COPY_DEST ) ;
cmd_buf_info - > cmd_list - > ResourceBarrier ( 1 , & barrier ) ;
cmd_buf_info - > cmd_list - > CopyTextureRegion ( & buf_loc , 0 , 0 , 0 , & src_tex , nullptr ) ;
barrier = CD3DX12_RESOURCE_BARRIER : : Transition ( xfamily . interim_buffer . Get ( ) , D3D12_RESOURCE_STATE_COPY_DEST , D3D12_RESOURCE_STATE_COPY_SOURCE ) ;
cmd_buf_info - > cmd_list - > ResourceBarrier ( 1 , & barrier ) ;
buf_loc . PlacedFootprint . Footprint . Format = ffc . texture - > desc . Format ;
cmd_buf_info - > cmd_list - > CopyTextureRegion ( & dst_tex , 0 , 0 , 0 , & buf_loc , nullptr ) ;
} else {
// Direct copy is possible.
cmd_buf_info - > cmd_list - > CopyTextureRegion ( & dst_tex , 0 , 0 , 0 , & src_tex , nullptr ) ;
}
// Set the specific SRV state we wanted from the beginning to the alternative version of the texture.
_resource_transition_batch ( ffc . texture , ffc . subresource , 1 , ffc . dst_wanted_state ) ;
}
cmd_buf_info - > family_fallback_copy_count = 0 ;
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_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
}
}
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void RenderingDeviceDriverD3D12 : : _command_check_descriptor_sets ( CommandBufferID p_cmd_buffer ) {
DEV_ASSERT ( segment_begun & & " Unable to use commands that rely on descriptors because a segment was never begun. " ) ;
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
if ( ! cmd_buf_info - > descriptor_heaps_set ) {
// Set descriptor heaps for the command buffer if they haven't been set yet.
ID3D12DescriptorHeap * heaps [ ] = {
frames [ frame_idx ] . desc_heaps . resources . get_heap ( ) ,
frames [ frame_idx ] . desc_heaps . samplers . get_heap ( ) ,
} ;
cmd_buf_info - > cmd_list - > SetDescriptorHeaps ( 2 , heaps ) ;
cmd_buf_info - > descriptor_heaps_set = true ;
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}
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}
void RenderingDeviceDriverD3D12 : : _command_bind_uniform_set ( CommandBufferID p_cmd_buffer , UniformSetID p_uniform_set , ShaderID p_shader , uint32_t p_set_index , bool p_for_compute ) {
_command_check_descriptor_sets ( p_cmd_buffer ) ;
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UniformSetInfo * uniform_set_info = ( UniformSetInfo * ) p_uniform_set . id ;
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
const ShaderInfo : : UniformSet & shader_set = shader_info_in - > sets [ p_set_index ] ;
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
using SetRootDescriptorTableFn = void ( STDMETHODCALLTYPE ID3D12GraphicsCommandList : : * ) ( UINT , D3D12_GPU_DESCRIPTOR_HANDLE ) ;
SetRootDescriptorTableFn set_root_desc_table_fn = p_for_compute ? & ID3D12GraphicsCommandList : : SetComputeRootDescriptorTable : & ID3D12GraphicsCommandList1 : : SetGraphicsRootDescriptorTable ;
// If this set's descriptors have already been set for the current execution and a compatible root signature, reuse!
uint32_t root_sig_crc = p_for_compute ? cmd_buf_info - > compute_root_signature_crc : cmd_buf_info - > graphics_root_signature_crc ;
UniformSetInfo : : RecentBind * last_bind = nullptr ;
for ( int i = 0 ; i < ( int ) ARRAY_SIZE ( uniform_set_info - > recent_binds ) ; i + + ) {
if ( uniform_set_info - > recent_binds [ i ] . segment_serial = = frames [ frame_idx ] . segment_serial ) {
if ( uniform_set_info - > recent_binds [ i ] . root_signature_crc = = root_sig_crc ) {
for ( const RootDescriptorTable & table : uniform_set_info - > recent_binds [ i ] . root_tables . resources ) {
( cmd_buf_info - > cmd_list . Get ( ) - > * set_root_desc_table_fn ) ( table . root_param_idx , table . start_gpu_handle ) ;
}
for ( const RootDescriptorTable & table : uniform_set_info - > recent_binds [ i ] . root_tables . samplers ) {
( cmd_buf_info - > cmd_list . Get ( ) - > * set_root_desc_table_fn ) ( table . root_param_idx , table . start_gpu_handle ) ;
}
# ifdef DEV_ENABLED
uniform_set_info - > recent_binds [ i ] . uses + + ;
frames [ frame_idx ] . uniform_set_reused + + ;
# endif
return ;
} else {
if ( ! last_bind | | uniform_set_info - > recent_binds [ i ] . uses < last_bind - > uses ) {
// Prefer this one since it's been used less or we still haven't a better option.
last_bind = & uniform_set_info - > recent_binds [ i ] ;
}
}
} else {
// Prefer this one since it's unused.
last_bind = & uniform_set_info - > recent_binds [ i ] ;
last_bind - > uses = 0 ;
}
}
struct {
DescriptorsHeap : : Walker * resources = nullptr ;
DescriptorsHeap : : Walker * samplers = nullptr ;
} frame_heap_walkers ;
frame_heap_walkers . resources = & frames [ frame_idx ] . desc_heap_walkers . resources ;
frame_heap_walkers . samplers = & frames [ frame_idx ] . desc_heap_walkers . samplers ;
struct {
DescriptorsHeap : : Walker resources ;
DescriptorsHeap : : Walker samplers ;
} set_heap_walkers ;
set_heap_walkers . resources = uniform_set_info - > desc_heaps . resources . make_walker ( ) ;
set_heap_walkers . samplers = uniform_set_info - > desc_heaps . samplers . make_walker ( ) ;
# ifdef DEV_ENABLED
// Whether we have stages where the uniform is actually used should match
// whether we have any root signature locations for it.
for ( uint32_t i = 0 ; i < shader_set . bindings . size ( ) ; i + + ) {
bool has_rs_locations = false ;
if ( shader_set . bindings [ i ] . root_sig_locations . resource . root_param_idx ! = UINT32_MAX | |
shader_set . bindings [ i ] . root_sig_locations . sampler . root_param_idx ! = UINT32_MAX ) {
has_rs_locations = true ;
break ;
}
bool has_stages = shader_set . bindings [ i ] . stages ;
DEV_ASSERT ( has_rs_locations = = has_stages ) ;
}
# endif
last_bind - > root_tables . resources . reserve ( shader_set . num_root_params . resources ) ;
last_bind - > root_tables . resources . clear ( ) ;
last_bind - > root_tables . samplers . reserve ( shader_set . num_root_params . samplers ) ;
last_bind - > root_tables . samplers . clear ( ) ;
last_bind - > uses + + ;
struct {
RootDescriptorTable * resources = nullptr ;
RootDescriptorTable * samplers = nullptr ;
} tables ;
for ( uint32_t i = 0 ; i < shader_set . bindings . size ( ) ; i + + ) {
const ShaderInfo : : UniformBindingInfo & binding = shader_set . bindings [ i ] ;
uint32_t num_resource_descs = 0 ;
uint32_t num_sampler_descs = 0 ;
bool srv_uav_ambiguity = false ;
_add_descriptor_count_for_uniform ( binding . type , binding . length , false , num_resource_descs , num_sampler_descs , srv_uav_ambiguity ) ;
bool resource_used = false ;
if ( shader_set . bindings [ i ] . stages ) {
{
const ShaderInfo : : UniformBindingInfo : : RootSignatureLocation & rs_loc_resource = shader_set . bindings [ i ] . root_sig_locations . resource ;
if ( rs_loc_resource . root_param_idx ! = UINT32_MAX ) { // Location used?
DEV_ASSERT ( num_resource_descs ) ;
DEV_ASSERT ( ! ( srv_uav_ambiguity & & ( shader_set . bindings [ i ] . res_class ! = RES_CLASS_SRV & & shader_set . bindings [ i ] . res_class ! = RES_CLASS_UAV ) ) ) ; // [[SRV_UAV_AMBIGUITY]]
bool must_flush_table = tables . resources & & rs_loc_resource . root_param_idx ! = tables . resources - > root_param_idx ;
if ( must_flush_table ) {
// Check the root signature data has been filled ordered.
DEV_ASSERT ( rs_loc_resource . root_param_idx > tables . resources - > root_param_idx ) ;
( cmd_buf_info - > cmd_list . Get ( ) - > * set_root_desc_table_fn ) ( tables . resources - > root_param_idx , tables . resources - > start_gpu_handle ) ;
tables . resources = nullptr ;
}
if ( unlikely ( frame_heap_walkers . resources - > get_free_handles ( ) < num_resource_descs ) ) {
if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . resources ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . resources = true ;
ERR_FAIL_MSG ( " Cannot bind uniform set because there's no enough room in current frame's RESOURCES descriptor heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_resource_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
if ( ! tables . resources ) {
DEV_ASSERT ( last_bind - > root_tables . resources . size ( ) < last_bind - > root_tables . resources . get_capacity ( ) ) ;
last_bind - > root_tables . resources . resize ( last_bind - > root_tables . resources . size ( ) + 1 ) ;
tables . resources = & last_bind - > root_tables . resources [ last_bind - > root_tables . resources . size ( ) - 1 ] ;
tables . resources - > root_param_idx = rs_loc_resource . root_param_idx ;
tables . resources - > start_gpu_handle = frame_heap_walkers . resources - > get_curr_gpu_handle ( ) ;
}
// If there is ambiguity and it didn't clarify as SRVs, skip them, which come first. [[SRV_UAV_AMBIGUITY]]
if ( srv_uav_ambiguity & & shader_set . bindings [ i ] . res_class ! = RES_CLASS_SRV ) {
set_heap_walkers . resources . advance ( num_resource_descs ) ;
}
// TODO: Batch to avoid multiple calls where possible (in any case, flush before setting root descriptor tables, or even batch that as well).
device - > CopyDescriptorsSimple (
num_resource_descs ,
frame_heap_walkers . resources - > get_curr_cpu_handle ( ) ,
set_heap_walkers . resources . get_curr_cpu_handle ( ) ,
D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV ) ;
frame_heap_walkers . resources - > advance ( num_resource_descs ) ;
// If there is ambiguity and it didn't clarify as UAVs, skip them, which come later. [[SRV_UAV_AMBIGUITY]]
if ( srv_uav_ambiguity & & shader_set . bindings [ i ] . res_class ! = RES_CLASS_UAV ) {
set_heap_walkers . resources . advance ( num_resource_descs ) ;
}
resource_used = true ;
}
}
{
const ShaderInfo : : UniformBindingInfo : : RootSignatureLocation & rs_loc_sampler = shader_set . bindings [ i ] . root_sig_locations . sampler ;
if ( rs_loc_sampler . root_param_idx ! = UINT32_MAX ) { // Location used?
DEV_ASSERT ( num_sampler_descs ) ;
DEV_ASSERT ( ! srv_uav_ambiguity ) ; // [[SRV_UAV_AMBIGUITY]]
bool must_flush_table = tables . samplers & & rs_loc_sampler . root_param_idx ! = tables . samplers - > root_param_idx ;
if ( must_flush_table ) {
// Check the root signature data has been filled ordered.
DEV_ASSERT ( rs_loc_sampler . root_param_idx > tables . samplers - > root_param_idx ) ;
( cmd_buf_info - > cmd_list . Get ( ) - > * set_root_desc_table_fn ) ( tables . samplers - > root_param_idx , tables . samplers - > start_gpu_handle ) ;
tables . samplers = nullptr ;
}
if ( unlikely ( frame_heap_walkers . samplers - > get_free_handles ( ) < num_sampler_descs ) ) {
if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . samplers ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . samplers = true ;
ERR_FAIL_MSG ( " Cannot bind uniform set because there's no enough room in current frame's SAMPLERS descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_sampler_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
if ( ! tables . samplers ) {
DEV_ASSERT ( last_bind - > root_tables . samplers . size ( ) < last_bind - > root_tables . samplers . get_capacity ( ) ) ;
last_bind - > root_tables . samplers . resize ( last_bind - > root_tables . samplers . size ( ) + 1 ) ;
tables . samplers = & last_bind - > root_tables . samplers [ last_bind - > root_tables . samplers . size ( ) - 1 ] ;
tables . samplers - > root_param_idx = rs_loc_sampler . root_param_idx ;
tables . samplers - > start_gpu_handle = frame_heap_walkers . samplers - > get_curr_gpu_handle ( ) ;
}
// TODO: Batch to avoid multiple calls where possible (in any case, flush before setting root descriptor tables, or even batch that as well).
device - > CopyDescriptorsSimple (
num_sampler_descs ,
frame_heap_walkers . samplers - > get_curr_cpu_handle ( ) ,
set_heap_walkers . samplers . get_curr_cpu_handle ( ) ,
D3D12_DESCRIPTOR_HEAP_TYPE_SAMPLER ) ;
frame_heap_walkers . samplers - > advance ( num_sampler_descs ) ;
}
}
}
// Uniform set descriptor heaps are always full (descriptors are created for every uniform in them) despite
// the shader variant a given set is created upon may not need all of them due to DXC optimizations.
// Therefore, at this point we have to advance through the descriptor set descriptor's heap unconditionally.
set_heap_walkers . resources . advance ( num_resource_descs ) ;
if ( srv_uav_ambiguity ) {
DEV_ASSERT ( num_resource_descs ) ;
if ( ! resource_used ) {
set_heap_walkers . resources . advance ( num_resource_descs ) ; // Additional skip, since both SRVs and UAVs have to be bypassed.
}
}
set_heap_walkers . samplers . advance ( num_sampler_descs ) ;
}
DEV_ASSERT ( set_heap_walkers . resources . is_at_eof ( ) ) ;
DEV_ASSERT ( set_heap_walkers . samplers . is_at_eof ( ) ) ;
{
bool must_flush_table = tables . resources ;
if ( must_flush_table ) {
( cmd_buf_info - > cmd_list . Get ( ) - > * set_root_desc_table_fn ) ( tables . resources - > root_param_idx , tables . resources - > start_gpu_handle ) ;
}
}
{
bool must_flush_table = tables . samplers ;
if ( must_flush_table ) {
( cmd_buf_info - > cmd_list . Get ( ) - > * set_root_desc_table_fn ) ( tables . samplers - > root_param_idx , tables . samplers - > start_gpu_handle ) ;
}
}
last_bind - > root_signature_crc = root_sig_crc ;
last_bind - > segment_serial = frames [ frame_idx ] . segment_serial ;
}
/******************/
/**** TRANSFER ****/
/******************/
void RenderingDeviceDriverD3D12 : : command_clear_buffer ( CommandBufferID p_cmd_buffer , BufferID p_buffer , uint64_t p_offset , uint64_t p_size ) {
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_command_check_descriptor_sets ( p_cmd_buffer ) ;
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const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
BufferInfo * buf_info = ( BufferInfo * ) p_buffer . id ;
if ( frames [ frame_idx ] . desc_heap_walkers . resources . is_at_eof ( ) ) {
if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . resources ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . resources = true ;
ERR_FAIL_MSG (
" Cannot clear buffer because there's no enough room in current frame's RESOURCE descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_resource_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
if ( frames [ frame_idx ] . desc_heap_walkers . aux . is_at_eof ( ) ) {
if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . aux ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . aux = true ;
ERR_FAIL_MSG (
" Cannot clear buffer because there's no enough room in current frame's AUX descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_misc_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
_resource_transition_batch ( buf_info , 0 , 1 , D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
D3D12_UNORDERED_ACCESS_VIEW_DESC uav_desc = { } ;
uav_desc . Format = DXGI_FORMAT_R32_TYPELESS ;
uav_desc . ViewDimension = D3D12_UAV_DIMENSION_BUFFER ;
uav_desc . Buffer . FirstElement = 0 ;
uav_desc . Buffer . NumElements = ( buf_info - > size + 3 ) / 4 ;
uav_desc . Buffer . StructureByteStride = 0 ;
uav_desc . Buffer . CounterOffsetInBytes = 0 ;
uav_desc . Buffer . Flags = D3D12_BUFFER_UAV_FLAG_RAW ;
device - > CreateUnorderedAccessView (
buf_info - > resource ,
nullptr ,
& uav_desc ,
frames [ frame_idx ] . desc_heap_walkers . aux . get_curr_cpu_handle ( ) ) ;
device - > CopyDescriptorsSimple (
1 ,
frames [ frame_idx ] . desc_heap_walkers . resources . get_curr_cpu_handle ( ) ,
frames [ frame_idx ] . desc_heap_walkers . aux . get_curr_cpu_handle ( ) ,
D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV ) ;
static const UINT values [ 4 ] = { } ;
cmd_buf_info - > cmd_list - > ClearUnorderedAccessViewUint (
frames [ frame_idx ] . desc_heap_walkers . resources . get_curr_gpu_handle ( ) ,
frames [ frame_idx ] . desc_heap_walkers . aux . get_curr_cpu_handle ( ) ,
buf_info - > resource ,
values ,
0 ,
nullptr ) ;
frames [ frame_idx ] . desc_heap_walkers . resources . advance ( ) ;
frames [ frame_idx ] . desc_heap_walkers . aux . advance ( ) ;
}
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void RenderingDeviceDriverD3D12 : : command_copy_buffer ( CommandBufferID p_cmd_buffer , BufferID p_src_buffer , BufferID p_buf_locfer , VectorView < BufferCopyRegion > p_regions ) {
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const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
BufferInfo * src_buf_info = ( BufferInfo * ) p_src_buffer . id ;
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BufferInfo * buf_loc_info = ( BufferInfo * ) p_buf_locfer . id ;
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_resource_transition_batch ( src_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_COPY_SOURCE ) ;
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_resource_transition_batch ( buf_loc_info , 0 , 1 , D3D12_RESOURCE_STATE_COPY_DEST ) ;
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_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
for ( uint32_t i = 0 ; i < p_regions . size ( ) ; i + + ) {
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cmd_buf_info - > cmd_list - > CopyBufferRegion ( buf_loc_info - > resource , p_regions [ i ] . dst_offset , src_buf_info - > resource , p_regions [ i ] . src_offset , p_regions [ i ] . size ) ;
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}
}
void RenderingDeviceDriverD3D12 : : command_copy_texture ( CommandBufferID p_cmd_buffer , TextureID p_src_texture , TextureLayout p_src_texture_layout , TextureID p_dst_texture , TextureLayout p_dst_texture_layout , VectorView < TextureCopyRegion > p_regions ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
TextureInfo * src_tex_info = ( TextureInfo * ) p_src_texture . id ;
TextureInfo * dst_tex_info = ( TextureInfo * ) p_dst_texture . id ;
for ( uint32_t i = 0 ; i < p_regions . size ( ) ; i + + ) {
UINT src_subresource = D3D12CalcSubresource (
p_regions [ i ] . src_subresources . mipmap ,
p_regions [ i ] . src_subresources . base_layer ,
_compute_plane_slice ( src_tex_info - > format , p_regions [ i ] . src_subresources . aspect ) ,
src_tex_info - > desc . MipLevels ,
src_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( src_tex_info , src_subresource , 1 , D3D12_RESOURCE_STATE_COPY_SOURCE ) ;
UINT dst_subresource = D3D12CalcSubresource (
p_regions [ i ] . dst_subresources . mipmap ,
p_regions [ i ] . dst_subresources . base_layer ,
_compute_plane_slice ( dst_tex_info - > format , p_regions [ i ] . dst_subresources . aspect ) ,
dst_tex_info - > desc . MipLevels ,
dst_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( dst_tex_info , dst_subresource , 1 , D3D12_RESOURCE_STATE_COPY_DEST ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
CD3DX12_TEXTURE_COPY_LOCATION src_location ( src_tex_info - > resource , src_subresource ) ;
CD3DX12_TEXTURE_COPY_LOCATION dst_location ( dst_tex_info - > resource , dst_subresource ) ;
CD3DX12_BOX src_box (
p_regions [ i ] . src_offset . x ,
p_regions [ i ] . src_offset . y ,
p_regions [ i ] . src_offset . z ,
p_regions [ i ] . src_offset . x + p_regions [ i ] . size . x ,
p_regions [ i ] . src_offset . y + p_regions [ i ] . size . y ,
p_regions [ i ] . src_offset . z + p_regions [ i ] . size . z ) ;
cmd_buf_info - > cmd_list - > CopyTextureRegion (
& dst_location ,
p_regions [ i ] . dst_offset . x ,
p_regions [ i ] . dst_offset . y ,
p_regions [ i ] . dst_offset . z ,
& src_location ,
& src_box ) ;
}
}
void RenderingDeviceDriverD3D12 : : command_resolve_texture ( CommandBufferID p_cmd_buffer , TextureID p_src_texture , TextureLayout p_src_texture_layout , uint32_t p_src_layer , uint32_t p_src_mipmap , TextureID p_dst_texture , TextureLayout p_dst_texture_layout , uint32_t p_dst_layer , uint32_t p_dst_mipmap ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
TextureInfo * src_tex_info = ( TextureInfo * ) p_src_texture . id ;
TextureInfo * dst_tex_info = ( TextureInfo * ) p_dst_texture . id ;
UINT src_subresource = D3D12CalcSubresource ( p_src_mipmap , p_src_layer , 0 , src_tex_info - > desc . MipLevels , src_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( src_tex_info , src_subresource , 1 , D3D12_RESOURCE_STATE_RESOLVE_SOURCE ) ;
UINT dst_subresource = D3D12CalcSubresource ( p_dst_mipmap , p_dst_layer , 0 , dst_tex_info - > desc . MipLevels , dst_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( dst_tex_info , dst_subresource , 1 , D3D12_RESOURCE_STATE_RESOLVE_DEST ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > ResolveSubresource ( dst_tex_info - > resource , dst_subresource , src_tex_info - > resource , src_subresource , RD_TO_D3D12_FORMAT [ src_tex_info - > format ] . general_format ) ;
}
void RenderingDeviceDriverD3D12 : : command_clear_color_texture ( CommandBufferID p_cmd_buffer , TextureID p_texture , TextureLayout p_texture_layout , const Color & p_color , const TextureSubresourceRange & p_subresources ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
TextureInfo * tex_info = ( TextureInfo * ) p_texture . id ;
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if ( tex_info - > main_texture ) {
tex_info = tex_info - > main_texture ;
}
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auto _transition_subresources = [ & ] ( D3D12_RESOURCE_STATES p_new_state ) {
for ( uint32_t i = 0 ; i < p_subresources . layer_count ; i + + ) {
for ( uint32_t j = 0 ; j < p_subresources . mipmap_count ; j + + ) {
UINT subresource = D3D12CalcSubresource (
p_subresources . base_mipmap + j ,
p_subresources . base_layer + i ,
0 ,
tex_info - > desc . MipLevels ,
tex_info - > desc . ArraySize ( ) ) ;
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_resource_transition_batch ( tex_info , subresource , 1 , p_new_state ) ;
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}
}
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
} ;
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if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ) ) {
// Clear via RTV.
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if ( frames [ frame_idx ] . desc_heap_walkers . rtv . get_free_handles ( ) < p_subresources . mipmap_count ) {
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if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . rtv ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . rtv = true ;
ERR_FAIL_MSG (
" Cannot clear texture because there's no enough room in current frame's RENDER TARGET descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_misc_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
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_transition_subresources ( D3D12_RESOURCE_STATE_RENDER_TARGET ) ;
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for ( uint32_t i = 0 ; i < p_subresources . mipmap_count ; i + + ) {
D3D12_RENDER_TARGET_VIEW_DESC rtv_desc = _make_rtv_for_texture ( tex_info , p_subresources . base_mipmap + i , p_subresources . base_layer , p_subresources . layer_count , false ) ;
rtv_desc . Format = tex_info - > view_descs . uav . Format ;
device - > CreateRenderTargetView (
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tex_info - > resource ,
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& rtv_desc ,
frames [ frame_idx ] . desc_heap_walkers . rtv . get_curr_cpu_handle ( ) ) ;
cmd_buf_info - > cmd_list - > ClearRenderTargetView (
frames [ frame_idx ] . desc_heap_walkers . rtv . get_curr_cpu_handle ( ) ,
p_color . components ,
0 ,
nullptr ) ;
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frames [ frame_idx ] . desc_heap_walkers . rtv . advance ( ) ;
}
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} else {
// Clear via UAV.
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_command_check_descriptor_sets ( p_cmd_buffer ) ;
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if ( frames [ frame_idx ] . desc_heap_walkers . resources . get_free_handles ( ) < p_subresources . mipmap_count ) {
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if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . resources ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . resources = true ;
ERR_FAIL_MSG (
" Cannot clear texture because there's no enough room in current frame's RESOURCE descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_resource_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
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if ( frames [ frame_idx ] . desc_heap_walkers . aux . get_free_handles ( ) < p_subresources . mipmap_count ) {
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if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . aux ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . aux = true ;
ERR_FAIL_MSG (
" Cannot clear texture because there's no enough room in current frame's AUX descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_misc_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
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_transition_subresources ( D3D12_RESOURCE_STATE_UNORDERED_ACCESS ) ;
for ( uint32_t i = 0 ; i < p_subresources . mipmap_count ; i + + ) {
D3D12_UNORDERED_ACCESS_VIEW_DESC uav_desc = _make_ranged_uav_for_texture ( tex_info , p_subresources . base_mipmap + i , p_subresources . base_layer , p_subresources . layer_count , false ) ;
device - > CreateUnorderedAccessView (
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tex_info - > resource ,
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nullptr ,
& uav_desc ,
frames [ frame_idx ] . desc_heap_walkers . aux . get_curr_cpu_handle ( ) ) ;
device - > CopyDescriptorsSimple (
1 ,
frames [ frame_idx ] . desc_heap_walkers . resources . get_curr_cpu_handle ( ) ,
frames [ frame_idx ] . desc_heap_walkers . aux . get_curr_cpu_handle ( ) ,
D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV ) ;
UINT values [ 4 ] = {
( UINT ) p_color . get_r8 ( ) ,
( UINT ) p_color . get_g8 ( ) ,
( UINT ) p_color . get_b8 ( ) ,
( UINT ) p_color . get_a8 ( ) ,
} ;
cmd_buf_info - > cmd_list - > ClearUnorderedAccessViewUint (
frames [ frame_idx ] . desc_heap_walkers . resources . get_curr_gpu_handle ( ) ,
frames [ frame_idx ] . desc_heap_walkers . aux . get_curr_cpu_handle ( ) ,
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tex_info - > resource ,
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values ,
0 ,
nullptr ) ;
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frames [ frame_idx ] . desc_heap_walkers . resources . advance ( ) ;
frames [ frame_idx ] . desc_heap_walkers . aux . advance ( ) ;
}
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}
}
void RenderingDeviceDriverD3D12 : : command_copy_buffer_to_texture ( CommandBufferID p_cmd_buffer , BufferID p_src_buffer , TextureID p_dst_texture , TextureLayout p_dst_texture_layout , VectorView < BufferTextureCopyRegion > p_regions ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
BufferInfo * buf_info = ( BufferInfo * ) p_src_buffer . id ;
TextureInfo * tex_info = ( TextureInfo * ) p_dst_texture . id ;
if ( buf_info - > flags . is_for_upload ) {
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_resource_transition_batch ( buf_info , 0 , 1 , D3D12_RESOURCE_STATE_COPY_SOURCE ) ;
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}
uint32_t pixel_size = get_image_format_pixel_size ( tex_info - > format ) ;
uint32_t block_w = 0 , block_h = 0 ;
get_compressed_image_format_block_dimensions ( tex_info - > format , block_w , block_h ) ;
for ( uint32_t i = 0 ; i < p_regions . size ( ) ; i + + ) {
uint32_t region_pitch = ( p_regions [ i ] . texture_region_size . x * pixel_size * block_w ) > > get_compressed_image_format_pixel_rshift ( tex_info - > format ) ;
region_pitch = STEPIFY ( region_pitch , D3D12_TEXTURE_DATA_PITCH_ALIGNMENT ) ;
D3D12_PLACED_SUBRESOURCE_FOOTPRINT src_footprint = { } ;
src_footprint . Offset = p_regions [ i ] . buffer_offset ;
src_footprint . Footprint = CD3DX12_SUBRESOURCE_FOOTPRINT (
RD_TO_D3D12_FORMAT [ tex_info - > format ] . family ,
STEPIFY ( p_regions [ i ] . texture_region_size . x , block_w ) ,
STEPIFY ( p_regions [ i ] . texture_region_size . y , block_h ) ,
p_regions [ i ] . texture_region_size . z ,
region_pitch ) ;
CD3DX12_TEXTURE_COPY_LOCATION copy_src ( buf_info - > resource , src_footprint ) ;
CD3DX12_BOX src_box (
0 , 0 , 0 ,
STEPIFY ( p_regions [ i ] . texture_region_size . x , block_w ) ,
STEPIFY ( p_regions [ i ] . texture_region_size . y , block_h ) ,
p_regions [ i ] . texture_region_size . z ) ;
for ( uint32_t j = 0 ; j < p_regions [ i ] . texture_subresources . layer_count ; j + + ) {
UINT dst_subresource = D3D12CalcSubresource (
p_regions [ i ] . texture_subresources . mipmap ,
p_regions [ i ] . texture_subresources . base_layer + j ,
_compute_plane_slice ( tex_info - > format , p_regions [ i ] . texture_subresources . aspect ) ,
tex_info - > desc . MipLevels ,
tex_info - > desc . ArraySize ( ) ) ;
CD3DX12_TEXTURE_COPY_LOCATION copy_dst ( tex_info - > resource , dst_subresource ) ;
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_resource_transition_batch ( tex_info , dst_subresource , 1 , D3D12_RESOURCE_STATE_COPY_DEST ) ;
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}
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
for ( uint32_t j = 0 ; j < p_regions [ i ] . texture_subresources . layer_count ; j + + ) {
UINT dst_subresource = D3D12CalcSubresource (
p_regions [ i ] . texture_subresources . mipmap ,
p_regions [ i ] . texture_subresources . base_layer + j ,
_compute_plane_slice ( tex_info - > format , p_regions [ i ] . texture_subresources . aspect ) ,
tex_info - > desc . MipLevels ,
tex_info - > desc . ArraySize ( ) ) ;
CD3DX12_TEXTURE_COPY_LOCATION copy_dst ( tex_info - > resource , dst_subresource ) ;
cmd_buf_info - > cmd_list - > CopyTextureRegion (
& copy_dst ,
p_regions [ i ] . texture_offset . x ,
p_regions [ i ] . texture_offset . y ,
p_regions [ i ] . texture_offset . z ,
& copy_src ,
& src_box ) ;
}
}
}
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void RenderingDeviceDriverD3D12 : : command_copy_texture_to_buffer ( CommandBufferID p_cmd_buffer , TextureID p_src_texture , TextureLayout p_src_texture_layout , BufferID p_buf_locfer , VectorView < BufferTextureCopyRegion > p_regions ) {
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const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
TextureInfo * tex_info = ( TextureInfo * ) p_src_texture . id ;
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BufferInfo * buf_info = ( BufferInfo * ) p_buf_locfer . id ;
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_resource_transition_batch ( buf_info , 0 , 1 , D3D12_RESOURCE_STATE_COPY_DEST ) ;
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uint32_t block_w = 0 , block_h = 0 ;
get_compressed_image_format_block_dimensions ( tex_info - > format , block_w , block_h ) ;
for ( uint32_t i = 0 ; i < p_regions . size ( ) ; i + + ) {
for ( uint32_t j = 0 ; j < p_regions [ i ] . texture_subresources . layer_count ; j + + ) {
UINT src_subresource = D3D12CalcSubresource (
p_regions [ i ] . texture_subresources . mipmap ,
p_regions [ i ] . texture_subresources . base_layer + j ,
_compute_plane_slice ( tex_info - > format , p_regions [ i ] . texture_subresources . aspect ) ,
tex_info - > desc . MipLevels ,
tex_info - > desc . ArraySize ( ) ) ;
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_resource_transition_batch ( tex_info , src_subresource , 1 , D3D12_RESOURCE_STATE_COPY_SOURCE ) ;
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}
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
for ( uint32_t j = 0 ; j < p_regions [ i ] . texture_subresources . layer_count ; j + + ) {
UINT src_subresource = D3D12CalcSubresource (
p_regions [ i ] . texture_subresources . mipmap ,
p_regions [ i ] . texture_subresources . base_layer + j ,
_compute_plane_slice ( tex_info - > format , p_regions [ i ] . texture_subresources . aspect ) ,
tex_info - > desc . MipLevels ,
tex_info - > desc . ArraySize ( ) ) ;
CD3DX12_TEXTURE_COPY_LOCATION copy_src ( tex_info - > resource , src_subresource ) ;
uint32_t computed_d = MAX ( 1 , tex_info - > desc . DepthOrArraySize > > p_regions [ i ] . texture_subresources . mipmap ) ;
uint32_t image_size = get_image_format_required_size (
tex_info - > format ,
MAX ( 1u , tex_info - > desc . Width > > p_regions [ i ] . texture_subresources . mipmap ) ,
MAX ( 1u , tex_info - > desc . Height > > p_regions [ i ] . texture_subresources . mipmap ) ,
computed_d ,
1 ) ;
uint32_t row_pitch = image_size / ( p_regions [ i ] . texture_region_size . y * computed_d ) * block_h ;
row_pitch = STEPIFY ( row_pitch , D3D12_TEXTURE_DATA_PITCH_ALIGNMENT ) ;
D3D12_PLACED_SUBRESOURCE_FOOTPRINT dst_footprint = { } ;
dst_footprint . Offset = p_regions [ i ] . buffer_offset ;
dst_footprint . Footprint . Width = STEPIFY ( p_regions [ i ] . texture_region_size . x , block_w ) ;
dst_footprint . Footprint . Height = STEPIFY ( p_regions [ i ] . texture_region_size . y , block_h ) ;
dst_footprint . Footprint . Depth = p_regions [ i ] . texture_region_size . z ;
dst_footprint . Footprint . RowPitch = row_pitch ;
dst_footprint . Footprint . Format = RD_TO_D3D12_FORMAT [ tex_info - > format ] . family ;
CD3DX12_TEXTURE_COPY_LOCATION copy_dst ( buf_info - > resource , dst_footprint ) ;
cmd_buf_info - > cmd_list - > CopyTextureRegion ( & copy_dst , 0 , 0 , 0 , & copy_src , nullptr ) ;
}
}
}
/******************/
/**** PIPELINE ****/
/******************/
void RenderingDeviceDriverD3D12 : : pipeline_free ( PipelineID p_pipeline ) {
ID3D12PipelineState * pso = ( ID3D12PipelineState * ) p_pipeline . id ;
pso - > Release ( ) ;
pipelines_shaders . erase ( pso ) ;
render_psos_extra_info . erase ( pso ) ;
}
// ----- BINDING -----
void RenderingDeviceDriverD3D12 : : command_bind_push_constants ( CommandBufferID p_cmd_buffer , ShaderID p_shader , uint32_t p_dst_first_index , VectorView < uint32_t > p_data ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
if ( ! shader_info_in - > dxil_push_constant_size ) {
return ;
}
if ( shader_info_in - > is_compute ) {
cmd_buf_info - > cmd_list - > SetComputeRoot32BitConstants ( 0 , p_data . size ( ) , p_data . ptr ( ) , p_dst_first_index ) ;
} else {
cmd_buf_info - > cmd_list - > SetGraphicsRoot32BitConstants ( 0 , p_data . size ( ) , p_data . ptr ( ) , p_dst_first_index ) ;
}
}
// ----- CACHE -----
bool RenderingDeviceDriverD3D12 : : pipeline_cache_create ( const Vector < uint8_t > & p_data ) {
WARN_PRINT ( " PSO caching is not implemented yet in the Direct3D 12 driver. " ) ;
return false ;
}
void RenderingDeviceDriverD3D12 : : pipeline_cache_free ( ) {
ERR_FAIL_MSG ( " Not implemented. " ) ;
}
size_t RenderingDeviceDriverD3D12 : : pipeline_cache_query_size ( ) {
ERR_FAIL_V_MSG ( 0 , " Not implemented. " ) ;
}
Vector < uint8_t > RenderingDeviceDriverD3D12 : : pipeline_cache_serialize ( ) {
ERR_FAIL_V_MSG ( Vector < uint8_t > ( ) , " Not implemented. " ) ;
}
/*******************/
/**** RENDERING ****/
/*******************/
// ----- SUBPASS -----
RDD : : RenderPassID RenderingDeviceDriverD3D12 : : render_pass_create ( VectorView < Attachment > p_attachments , VectorView < Subpass > p_subpasses , VectorView < SubpassDependency > p_subpass_dependencies , uint32_t p_view_count ) {
// Pre-bookkeep.
RenderPassInfo * pass_info = VersatileResource : : allocate < RenderPassInfo > ( resources_allocator ) ;
pass_info - > attachments . resize ( p_attachments . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_attachments . size ( ) ; i + + ) {
pass_info - > attachments [ i ] = p_attachments [ i ] ;
}
pass_info - > subpasses . resize ( p_subpasses . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_subpasses . size ( ) ; i + + ) {
pass_info - > subpasses [ i ] = p_subpasses [ i ] ;
}
pass_info - > view_count = p_view_count ;
DXGI_FORMAT * formats = ALLOCA_ARRAY ( DXGI_FORMAT , p_attachments . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_attachments . size ( ) ; i + + ) {
const D3D12Format & format = RD_TO_D3D12_FORMAT [ p_attachments [ i ] . format ] ;
if ( format . dsv_format ! = DXGI_FORMAT_UNKNOWN ) {
formats [ i ] = format . dsv_format ;
} else {
formats [ i ] = format . general_format ;
}
}
pass_info - > max_supported_sample_count = _find_max_common_supported_sample_count ( VectorView ( formats , p_attachments . size ( ) ) ) ;
return RenderPassID ( pass_info ) ;
}
void RenderingDeviceDriverD3D12 : : render_pass_free ( RenderPassID p_render_pass ) {
RenderPassInfo * pass_info = ( RenderPassInfo * ) p_render_pass . id ;
VersatileResource : : free ( resources_allocator , pass_info ) ;
}
// ----- COMMANDS -----
void RenderingDeviceDriverD3D12 : : command_begin_render_pass ( CommandBufferID p_cmd_buffer , RenderPassID p_render_pass , FramebufferID p_framebuffer , CommandBufferType p_cmd_buffer_type , const Rect2i & p_rect , VectorView < RenderPassClearValue > p_attachment_clears ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
const RenderPassInfo * pass_info = ( const RenderPassInfo * ) p_render_pass . id ;
const FramebufferInfo * fb_info = ( const FramebufferInfo * ) p_framebuffer . id ;
DEV_ASSERT ( cmd_buf_info - > render_pass_state . current_subpass = = UINT32_MAX ) ;
auto _transition_subresources = [ & ] ( TextureInfo * p_texture_info , D3D12_RESOURCE_STATES p_states ) {
uint32_t planes = 1 ;
if ( ( p_texture_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
planes = format_get_plane_count ( p_texture_info - > format ) ;
}
for ( uint32_t i = 0 ; i < p_texture_info - > layers ; i + + ) {
for ( uint32_t j = 0 ; j < p_texture_info - > mipmaps ; j + + ) {
uint32_t subresource = D3D12CalcSubresource (
p_texture_info - > base_mip + j ,
p_texture_info - > base_layer + i ,
0 ,
p_texture_info - > desc . MipLevels ,
p_texture_info - > desc . ArraySize ( ) ) ;
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_resource_transition_batch ( p_texture_info , subresource , planes , p_states ) ;
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}
}
} ;
for ( uint32_t i = 0 ; i < fb_info - > attachments . size ( ) ; i + + ) {
TextureInfo * tex_info = ( TextureInfo * ) fb_info - > attachments [ i ] . id ;
if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ) ) {
_transition_subresources ( tex_info , D3D12_RESOURCE_STATE_RENDER_TARGET ) ;
} else if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
_transition_subresources ( tex_info , D3D12_RESOURCE_STATE_DEPTH_WRITE ) ;
} else {
DEV_ASSERT ( false ) ;
}
}
if ( fb_info - > vrs_attachment ) {
TextureInfo * tex_info = ( TextureInfo * ) fb_info - > vrs_attachment . id ;
_transition_subresources ( tex_info , D3D12_RESOURCE_STATE_SHADING_RATE_SOURCE ) ;
}
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > render_pass_state . region_rect = CD3DX12_RECT (
p_rect . position . x ,
p_rect . position . y ,
p_rect . position . x + p_rect . size . x ,
p_rect . position . y + p_rect . size . y ) ;
cmd_buf_info - > render_pass_state . region_is_all = ! (
cmd_buf_info - > render_pass_state . region_rect . left = = 0 & &
cmd_buf_info - > render_pass_state . region_rect . top = = 0 & &
cmd_buf_info - > render_pass_state . region_rect . right = = fb_info - > size . x & &
cmd_buf_info - > render_pass_state . region_rect . bottom = = fb_info - > size . y ) ;
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for ( uint32_t i = 0 ; i < pass_info - > attachments . size ( ) ; i + + ) {
if ( pass_info - > attachments [ i ] . load_op = = ATTACHMENT_LOAD_OP_DONT_CARE ) {
const TextureInfo * tex_info = ( const TextureInfo * ) fb_info - > attachments [ i ] . id ;
_discard_texture_subresources ( tex_info , cmd_buf_info ) ;
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}
}
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if ( fb_info - > vrs_attachment & & vrs_capabilities . ss_image_supported ) {
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ComPtr < ID3D12GraphicsCommandList5 > cmd_list_5 ;
cmd_buf_info - > cmd_list - > QueryInterface ( cmd_list_5 . GetAddressOf ( ) ) ;
if ( cmd_list_5 ) {
static const D3D12_SHADING_RATE_COMBINER COMBINERS [ D3D12_RS_SET_SHADING_RATE_COMBINER_COUNT ] = {
D3D12_SHADING_RATE_COMBINER_PASSTHROUGH ,
D3D12_SHADING_RATE_COMBINER_OVERRIDE ,
} ;
cmd_list_5 - > RSSetShadingRate ( D3D12_SHADING_RATE_1X1 , COMBINERS ) ;
}
}
cmd_buf_info - > render_pass_state . current_subpass = UINT32_MAX ;
cmd_buf_info - > render_pass_state . fb_info = fb_info ;
cmd_buf_info - > render_pass_state . pass_info = pass_info ;
command_next_render_subpass ( p_cmd_buffer , p_cmd_buffer_type ) ;
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AttachmentClear * clears = ALLOCA_ARRAY ( AttachmentClear , pass_info - > attachments . size ( ) ) ;
Rect2i * clear_rects = ALLOCA_ARRAY ( Rect2i , pass_info - > attachments . size ( ) ) ;
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uint32_t num_clears = 0 ;
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for ( uint32_t i = 0 ; i < pass_info - > attachments . size ( ) ; i + + ) {
TextureInfo * tex_info = ( TextureInfo * ) fb_info - > attachments [ i ] . id ;
if ( ! tex_info ) {
continue ;
}
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AttachmentClear clear ;
if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET ) ) {
if ( pass_info - > attachments [ i ] . load_op = = ATTACHMENT_LOAD_OP_CLEAR ) {
clear . aspect . set_flag ( TEXTURE_ASPECT_COLOR_BIT ) ;
clear . color_attachment = i ;
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}
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} else if ( ( tex_info - > desc . Flags & D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL ) ) {
if ( pass_info - > attachments [ i ] . stencil_load_op = = ATTACHMENT_LOAD_OP_CLEAR ) {
clear . aspect . set_flag ( TEXTURE_ASPECT_DEPTH_BIT ) ;
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}
}
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if ( ! clear . aspect . is_empty ( ) ) {
clear . value = p_attachment_clears [ i ] ;
clears [ num_clears ] = clear ;
clear_rects [ num_clears ] = p_rect ;
num_clears + + ;
}
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}
if ( num_clears ) {
command_render_clear_attachments ( p_cmd_buffer , VectorView ( clears , num_clears ) , VectorView ( clear_rects , num_clears ) ) ;
}
}
void RenderingDeviceDriverD3D12 : : _end_render_pass ( CommandBufferID p_cmd_buffer ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
DEV_ASSERT ( cmd_buf_info - > render_pass_state . current_subpass ! = UINT32_MAX ) ;
const FramebufferInfo * fb_info = cmd_buf_info - > render_pass_state . fb_info ;
const RenderPassInfo * pass_info = cmd_buf_info - > render_pass_state . pass_info ;
const Subpass & subpass = pass_info - > subpasses [ cmd_buf_info - > render_pass_state . current_subpass ] ;
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if ( fb_info - > is_screen ) {
// Screen framebuffers must transition back to present state when the render pass is finished.
for ( uint32_t i = 0 ; i < fb_info - > attachments . size ( ) ; i + + ) {
TextureInfo * src_tex_info = ( TextureInfo * ) ( fb_info - > attachments [ i ] . id ) ;
uint32_t src_subresource = D3D12CalcSubresource ( src_tex_info - > base_mip , src_tex_info - > base_layer , 0 , src_tex_info - > desc . MipLevels , src_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( src_tex_info , src_subresource , 1 , D3D12_RESOURCE_STATE_PRESENT ) ;
}
}
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struct Resolve {
ID3D12Resource * src_res = nullptr ;
uint32_t src_subres = 0 ;
ID3D12Resource * dst_res = nullptr ;
uint32_t dst_subres = 0 ;
DXGI_FORMAT format = DXGI_FORMAT_UNKNOWN ;
} ;
Resolve * resolves = ALLOCA_ARRAY ( Resolve , subpass . resolve_references . size ( ) ) ;
uint32_t num_resolves = 0 ;
for ( uint32_t i = 0 ; i < subpass . resolve_references . size ( ) ; i + + ) {
uint32_t color_index = subpass . color_references [ i ] . attachment ;
uint32_t resolve_index = subpass . resolve_references [ i ] . attachment ;
DEV_ASSERT ( ( color_index = = AttachmentReference : : UNUSED ) = = ( resolve_index = = AttachmentReference : : UNUSED ) ) ;
if ( color_index = = AttachmentReference : : UNUSED | | ! fb_info - > attachments [ color_index ] ) {
continue ;
}
TextureInfo * src_tex_info = ( TextureInfo * ) fb_info - > attachments [ color_index ] . id ;
uint32_t src_subresource = D3D12CalcSubresource ( src_tex_info - > base_mip , src_tex_info - > base_layer , 0 , src_tex_info - > desc . MipLevels , src_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( src_tex_info , src_subresource , 1 , D3D12_RESOURCE_STATE_RESOLVE_SOURCE ) ;
TextureInfo * dst_tex_info = ( TextureInfo * ) fb_info - > attachments [ resolve_index ] . id ;
uint32_t dst_subresource = D3D12CalcSubresource ( dst_tex_info - > base_mip , dst_tex_info - > base_layer , 0 , dst_tex_info - > desc . MipLevels , dst_tex_info - > desc . ArraySize ( ) ) ;
_resource_transition_batch ( dst_tex_info , dst_subresource , 1 , D3D12_RESOURCE_STATE_RESOLVE_DEST ) ;
resolves [ num_resolves ] . src_res = src_tex_info - > resource ;
resolves [ num_resolves ] . src_subres = src_subresource ;
resolves [ num_resolves ] . dst_res = dst_tex_info - > resource ;
resolves [ num_resolves ] . dst_subres = dst_subresource ;
resolves [ num_resolves ] . format = RD_TO_D3D12_FORMAT [ src_tex_info - > format ] . general_format ;
num_resolves + + ;
}
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
for ( uint32_t i = 0 ; i < num_resolves ; i + + ) {
cmd_buf_info - > cmd_list - > ResolveSubresource ( resolves [ i ] . dst_res , resolves [ i ] . dst_subres , resolves [ i ] . src_res , resolves [ i ] . src_subres , resolves [ i ] . format ) ;
}
}
void RenderingDeviceDriverD3D12 : : command_end_render_pass ( CommandBufferID p_cmd_buffer ) {
_end_render_pass ( p_cmd_buffer ) ;
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
DEV_ASSERT ( cmd_buf_info - > render_pass_state . current_subpass ! = UINT32_MAX ) ;
const FramebufferInfo * fb_info = cmd_buf_info - > render_pass_state . fb_info ;
const RenderPassInfo * pass_info = cmd_buf_info - > render_pass_state . pass_info ;
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if ( vrs_capabilities . ss_image_supported ) {
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ComPtr < ID3D12GraphicsCommandList5 > cmd_list_5 ;
cmd_buf_info - > cmd_list - > QueryInterface ( cmd_list_5 . GetAddressOf ( ) ) ;
if ( cmd_list_5 ) {
cmd_list_5 - > RSSetShadingRateImage ( nullptr ) ;
}
}
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for ( uint32_t i = 0 ; i < pass_info - > attachments . size ( ) ; i + + ) {
if ( pass_info - > attachments [ i ] . store_op = = ATTACHMENT_STORE_OP_DONT_CARE ) {
const TextureInfo * tex_info = ( const TextureInfo * ) fb_info - > attachments [ i ] . id ;
_discard_texture_subresources ( tex_info , cmd_buf_info ) ;
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}
}
cmd_buf_info - > render_pass_state . current_subpass = UINT32_MAX ;
}
void RenderingDeviceDriverD3D12 : : command_next_render_subpass ( CommandBufferID p_cmd_buffer , CommandBufferType p_cmd_buffer_type ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
if ( cmd_buf_info - > render_pass_state . current_subpass = = UINT32_MAX ) {
cmd_buf_info - > render_pass_state . current_subpass = 0 ;
} else {
_end_render_pass ( p_cmd_buffer ) ;
cmd_buf_info - > render_pass_state . current_subpass + + ;
}
const FramebufferInfo * fb_info = cmd_buf_info - > render_pass_state . fb_info ;
const RenderPassInfo * pass_info = cmd_buf_info - > render_pass_state . pass_info ;
const Subpass & subpass = pass_info - > subpasses [ cmd_buf_info - > render_pass_state . current_subpass ] ;
D3D12_CPU_DESCRIPTOR_HANDLE * rtv_handles = ALLOCA_ARRAY ( D3D12_CPU_DESCRIPTOR_HANDLE , subpass . color_references . size ( ) ) ;
DescriptorsHeap : : Walker rtv_heap_walker = fb_info - > rtv_heap . make_walker ( ) ;
for ( uint32_t i = 0 ; i < subpass . color_references . size ( ) ; i + + ) {
uint32_t attachment = subpass . color_references [ i ] . attachment ;
if ( attachment = = AttachmentReference : : UNUSED ) {
if ( ! frames [ frame_idx ] . null_rtv_handle . ptr ) {
// No null descriptor-handle created for this frame yet.
if ( frames [ frame_idx ] . desc_heap_walkers . rtv . is_at_eof ( ) ) {
if ( ! frames [ frame_idx ] . desc_heaps_exhausted_reported . rtv ) {
frames [ frame_idx ] . desc_heaps_exhausted_reported . rtv = true ;
ERR_FAIL_MSG ( " Cannot begin subpass because there's no enough room in current frame's RENDER TARGET descriptors heap. \n "
" Please increase the value of the rendering/rendering_device/d3d12/max_misc_descriptors_per_frame project setting. " ) ;
} else {
return ;
}
}
D3D12_RENDER_TARGET_VIEW_DESC rtv_desc_null = { } ;
rtv_desc_null . Format = DXGI_FORMAT_R8_UINT ;
rtv_desc_null . ViewDimension = D3D12_RTV_DIMENSION_TEXTURE2D ;
frames [ frame_idx ] . null_rtv_handle = frames [ frame_idx ] . desc_heap_walkers . rtv . get_curr_cpu_handle ( ) ;
device - > CreateRenderTargetView ( nullptr , & rtv_desc_null , frames [ frame_idx ] . null_rtv_handle ) ;
frames [ frame_idx ] . desc_heap_walkers . rtv . advance ( ) ;
}
rtv_handles [ i ] = frames [ frame_idx ] . null_rtv_handle ;
} else {
uint32_t rt_index = fb_info - > attachments_handle_inds [ attachment ] ;
rtv_heap_walker . rewind ( ) ;
rtv_heap_walker . advance ( rt_index ) ;
rtv_handles [ i ] = rtv_heap_walker . get_curr_cpu_handle ( ) ;
}
}
D3D12_CPU_DESCRIPTOR_HANDLE dsv_handle = { } ;
{
DescriptorsHeap : : Walker dsv_heap_walker = fb_info - > dsv_heap . make_walker ( ) ;
if ( subpass . depth_stencil_reference . attachment ! = AttachmentReference : : UNUSED ) {
uint32_t ds_index = fb_info - > attachments_handle_inds [ subpass . depth_stencil_reference . attachment ] ;
dsv_heap_walker . rewind ( ) ;
dsv_heap_walker . advance ( ds_index ) ;
dsv_handle = dsv_heap_walker . get_curr_cpu_handle ( ) ;
}
}
cmd_buf_info - > cmd_list - > OMSetRenderTargets ( subpass . color_references . size ( ) , rtv_handles , false , dsv_handle . ptr ? & dsv_handle : nullptr ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_set_viewport ( CommandBufferID p_cmd_buffer , VectorView < Rect2i > p_viewports ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
D3D12_VIEWPORT * d3d12_viewports = ALLOCA_ARRAY ( D3D12_VIEWPORT , p_viewports . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_viewports . size ( ) ; i + + ) {
d3d12_viewports [ i ] = CD3DX12_VIEWPORT (
p_viewports [ i ] . position . x ,
p_viewports [ i ] . position . y ,
p_viewports [ i ] . size . x ,
p_viewports [ i ] . size . y ) ;
}
cmd_buf_info - > cmd_list - > RSSetViewports ( p_viewports . size ( ) , d3d12_viewports ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_set_scissor ( CommandBufferID p_cmd_buffer , VectorView < Rect2i > p_scissors ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
D3D12_RECT * d3d12_scissors = ALLOCA_ARRAY ( D3D12_RECT , p_scissors . size ( ) ) ;
for ( uint32_t i = 0 ; i < p_scissors . size ( ) ; i + + ) {
d3d12_scissors [ i ] = CD3DX12_RECT (
p_scissors [ i ] . position . x ,
p_scissors [ i ] . position . y ,
p_scissors [ i ] . position . x + p_scissors [ i ] . size . x ,
p_scissors [ i ] . position . y + p_scissors [ i ] . size . y ) ;
}
cmd_buf_info - > cmd_list - > RSSetScissorRects ( p_scissors . size ( ) , d3d12_scissors ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_clear_attachments ( CommandBufferID p_cmd_buffer , VectorView < AttachmentClear > p_attachment_clears , VectorView < Rect2i > p_rects ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
DEV_ASSERT ( cmd_buf_info - > render_pass_state . current_subpass ! = UINT32_MAX ) ;
const FramebufferInfo * fb_info = cmd_buf_info - > render_pass_state . fb_info ;
const RenderPassInfo * pass_info = cmd_buf_info - > render_pass_state . pass_info ;
DescriptorsHeap : : Walker rtv_heap_walker = fb_info - > rtv_heap . make_walker ( ) ;
DescriptorsHeap : : Walker dsv_heap_walker = fb_info - > dsv_heap . make_walker ( ) ;
for ( uint32_t i = 0 ; i < p_attachment_clears . size ( ) ; i + + ) {
uint32_t attachment = UINT32_MAX ;
bool is_render_target = false ;
if ( p_attachment_clears [ i ] . aspect . has_flag ( TEXTURE_ASPECT_COLOR_BIT ) ) {
attachment = p_attachment_clears [ i ] . color_attachment ;
is_render_target = true ;
} else {
attachment = pass_info - > subpasses [ cmd_buf_info - > render_pass_state . current_subpass ] . depth_stencil_reference . attachment ;
}
for ( uint32_t j = 0 ; j < p_rects . size ( ) ; j + + ) {
D3D12_RECT rect = CD3DX12_RECT (
p_rects [ j ] . position . x ,
p_rects [ j ] . position . y ,
p_rects [ j ] . position . x + p_rects [ j ] . size . x ,
p_rects [ j ] . position . y + p_rects [ j ] . size . y ) ;
const D3D12_RECT * rect_ptr = cmd_buf_info - > render_pass_state . region_is_all ? nullptr : & rect ;
if ( is_render_target ) {
uint32_t color_idx = fb_info - > attachments_handle_inds [ attachment ] ;
rtv_heap_walker . rewind ( ) ;
rtv_heap_walker . advance ( color_idx ) ;
cmd_buf_info - > cmd_list - > ClearRenderTargetView (
rtv_heap_walker . get_curr_cpu_handle ( ) ,
p_attachment_clears [ i ] . value . color . components ,
rect_ptr ? 1 : 0 ,
rect_ptr ) ;
} else {
uint32_t depth_stencil_idx = fb_info - > attachments_handle_inds [ attachment ] ;
dsv_heap_walker . rewind ( ) ;
dsv_heap_walker . advance ( depth_stencil_idx ) ;
D3D12_CLEAR_FLAGS flags = { } ;
if ( p_attachment_clears [ i ] . aspect . has_flag ( TEXTURE_ASPECT_DEPTH_BIT ) ) {
flags | = D3D12_CLEAR_FLAG_DEPTH ;
}
if ( p_attachment_clears [ i ] . aspect . has_flag ( TEXTURE_ASPECT_STENCIL_BIT ) ) {
flags | = D3D12_CLEAR_FLAG_STENCIL ;
}
cmd_buf_info - > cmd_list - > ClearDepthStencilView (
dsv_heap_walker . get_curr_cpu_handle ( ) ,
flags ,
p_attachment_clears [ i ] . value . depth ,
p_attachment_clears [ i ] . value . stencil ,
rect_ptr ? 1 : 0 ,
rect_ptr ) ;
}
}
}
}
void RenderingDeviceDriverD3D12 : : command_bind_render_pipeline ( CommandBufferID p_cmd_buffer , PipelineID p_pipeline ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
ID3D12PipelineState * pso = ( ID3D12PipelineState * ) p_pipeline . id ;
if ( cmd_buf_info - > graphics_pso = = pso ) {
return ;
}
const ShaderInfo * shader_info_in = pipelines_shaders [ pso ] ;
const RenderPipelineExtraInfo & pso_extra_info = render_psos_extra_info [ pso ] ;
cmd_buf_info - > cmd_list - > SetPipelineState ( pso ) ;
if ( cmd_buf_info - > graphics_root_signature_crc ! = shader_info_in - > root_signature_crc ) {
cmd_buf_info - > cmd_list - > SetGraphicsRootSignature ( shader_info_in - > root_signature . Get ( ) ) ;
cmd_buf_info - > graphics_root_signature_crc = shader_info_in - > root_signature_crc ;
}
cmd_buf_info - > cmd_list - > IASetPrimitiveTopology ( pso_extra_info . dyn_params . primitive_topology ) ;
cmd_buf_info - > cmd_list - > OMSetBlendFactor ( pso_extra_info . dyn_params . blend_constant . components ) ;
cmd_buf_info - > cmd_list - > OMSetStencilRef ( pso_extra_info . dyn_params . stencil_reference ) ;
ComPtr < ID3D12GraphicsCommandList1 > command_list_1 ;
cmd_buf_info - > cmd_list - > QueryInterface ( command_list_1 . GetAddressOf ( ) ) ;
if ( command_list_1 ) {
command_list_1 - > OMSetDepthBounds ( pso_extra_info . dyn_params . depth_bounds_min , pso_extra_info . dyn_params . depth_bounds_max ) ;
}
cmd_buf_info - > render_pass_state . vf_info = pso_extra_info . vf_info ;
cmd_buf_info - > graphics_pso = pso ;
cmd_buf_info - > compute_pso = nullptr ;
}
void RenderingDeviceDriverD3D12 : : command_bind_render_uniform_set ( CommandBufferID p_cmd_buffer , UniformSetID p_uniform_set , ShaderID p_shader , uint32_t p_set_index ) {
_command_bind_uniform_set ( p_cmd_buffer , p_uniform_set , p_shader , p_set_index , false ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_draw ( CommandBufferID p_cmd_buffer , uint32_t p_vertex_count , uint32_t p_instance_count , uint32_t p_base_vertex , uint32_t p_first_instance ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_bind_vertex_buffers ( cmd_buf_info ) ;
cmd_buf_info - > cmd_list - > DrawInstanced ( p_vertex_count , p_instance_count , p_base_vertex , p_first_instance ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_draw_indexed ( CommandBufferID p_cmd_buffer , uint32_t p_index_count , uint32_t p_instance_count , uint32_t p_first_index , int32_t p_vertex_offset , uint32_t p_first_instance ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_bind_vertex_buffers ( cmd_buf_info ) ;
cmd_buf_info - > cmd_list - > DrawIndexedInstanced ( p_index_count , p_instance_count , p_first_index , p_vertex_offset , p_first_instance ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_draw_indexed_indirect ( CommandBufferID p_cmd_buffer , BufferID p_indirect_buffer , uint64_t p_offset , uint32_t p_draw_count , uint32_t p_stride ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_bind_vertex_buffers ( cmd_buf_info ) ;
BufferInfo * indirect_buf_info = ( BufferInfo * ) p_indirect_buffer . id ;
_resource_transition_batch ( indirect_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > ExecuteIndirect ( indirect_cmd_signatures . draw_indexed . Get ( ) , p_draw_count , indirect_buf_info - > resource , p_offset , nullptr , 0 ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_draw_indexed_indirect_count ( CommandBufferID p_cmd_buffer , BufferID p_indirect_buffer , uint64_t p_offset , BufferID p_count_buffer , uint64_t p_count_buffer_offset , uint32_t p_max_draw_count , uint32_t p_stride ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_bind_vertex_buffers ( cmd_buf_info ) ;
BufferInfo * indirect_buf_info = ( BufferInfo * ) p_indirect_buffer . id ;
BufferInfo * count_buf_info = ( BufferInfo * ) p_count_buffer . id ;
_resource_transition_batch ( indirect_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transition_batch ( count_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > ExecuteIndirect ( indirect_cmd_signatures . draw_indexed . Get ( ) , p_max_draw_count , indirect_buf_info - > resource , p_offset , count_buf_info - > resource , p_count_buffer_offset ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_draw_indirect ( CommandBufferID p_cmd_buffer , BufferID p_indirect_buffer , uint64_t p_offset , uint32_t p_draw_count , uint32_t p_stride ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_bind_vertex_buffers ( cmd_buf_info ) ;
BufferInfo * indirect_buf_info = ( BufferInfo * ) p_indirect_buffer . id ;
_resource_transition_batch ( indirect_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > ExecuteIndirect ( indirect_cmd_signatures . draw . Get ( ) , p_draw_count , indirect_buf_info - > resource , p_offset , nullptr , 0 ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_draw_indirect_count ( CommandBufferID p_cmd_buffer , BufferID p_indirect_buffer , uint64_t p_offset , BufferID p_count_buffer , uint64_t p_count_buffer_offset , uint32_t p_max_draw_count , uint32_t p_stride ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
_bind_vertex_buffers ( cmd_buf_info ) ;
BufferInfo * indirect_buf_info = ( BufferInfo * ) p_indirect_buffer . id ;
BufferInfo * count_buf_info = ( BufferInfo * ) p_count_buffer . id ;
_resource_transition_batch ( indirect_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transition_batch ( count_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > ExecuteIndirect ( indirect_cmd_signatures . draw . Get ( ) , p_max_draw_count , indirect_buf_info - > resource , p_offset , count_buf_info - > resource , p_count_buffer_offset ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_bind_vertex_buffers ( CommandBufferID p_cmd_buffer , uint32_t p_binding_count , const BufferID * p_buffers , const uint64_t * p_offsets ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
DEV_ASSERT ( cmd_buf_info - > render_pass_state . current_subpass ! = UINT32_MAX ) ;
// Vertex buffer views are set deferredly, to be sure we already know the strides by then,
// which is only true once the pipeline has been bound. Otherwise, we'd need that the pipeline
// is always bound first, which would be not kind of us. [[DEFERRED_VERTEX_BUFFERS]]
DEV_ASSERT ( p_binding_count < = ARRAY_SIZE ( cmd_buf_info - > render_pass_state . vertex_buffer_views ) ) ;
for ( uint32_t i = 0 ; i < p_binding_count ; i + + ) {
BufferInfo * buffer_info = ( BufferInfo * ) p_buffers [ i ] . id ;
cmd_buf_info - > render_pass_state . vertex_buffer_views [ i ] = { } ;
cmd_buf_info - > render_pass_state . vertex_buffer_views [ i ] . BufferLocation = buffer_info - > resource - > GetGPUVirtualAddress ( ) + p_offsets [ i ] ;
cmd_buf_info - > render_pass_state . vertex_buffer_views [ i ] . SizeInBytes = buffer_info - > size - p_offsets [ i ] ;
_resource_transition_batch ( buffer_info , 0 , 1 , D3D12_RESOURCE_STATE_VERTEX_AND_CONSTANT_BUFFER ) ;
}
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > render_pass_state . vertex_buffer_count = p_binding_count ;
}
void RenderingDeviceDriverD3D12 : : command_render_bind_index_buffer ( CommandBufferID p_cmd_buffer , BufferID p_buffer , IndexBufferFormat p_format , uint64_t p_offset ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
BufferInfo * buffer_info = ( BufferInfo * ) p_buffer . id ;
D3D12_INDEX_BUFFER_VIEW d3d12_ib_view = { } ;
d3d12_ib_view . BufferLocation = buffer_info - > resource - > GetGPUVirtualAddress ( ) + p_offset ;
d3d12_ib_view . SizeInBytes = buffer_info - > size - p_offset ;
d3d12_ib_view . Format = p_format = = INDEX_BUFFER_FORMAT_UINT16 ? DXGI_FORMAT_R16_UINT : DXGI_FORMAT_R32_UINT ;
_resource_transition_batch ( buffer_info , 0 , 1 , D3D12_RESOURCE_STATE_INDEX_BUFFER ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > IASetIndexBuffer ( & d3d12_ib_view ) ;
}
// [[DEFERRED_VERTEX_BUFFERS]]
void RenderingDeviceDriverD3D12 : : _bind_vertex_buffers ( CommandBufferInfo * p_cmd_buf_info ) {
RenderPassState & render_pass_state = p_cmd_buf_info - > render_pass_state ;
if ( render_pass_state . vertex_buffer_count & & render_pass_state . vf_info ) {
for ( uint32_t i = 0 ; i < render_pass_state . vertex_buffer_count ; i + + ) {
render_pass_state . vertex_buffer_views [ i ] . StrideInBytes = render_pass_state . vf_info - > vertex_buffer_strides [ i ] ;
}
p_cmd_buf_info - > cmd_list - > IASetVertexBuffers ( 0 , render_pass_state . vertex_buffer_count , render_pass_state . vertex_buffer_views ) ;
render_pass_state . vertex_buffer_count = 0 ;
}
}
void RenderingDeviceDriverD3D12 : : command_render_set_blend_constants ( CommandBufferID p_cmd_buffer , const Color & p_constants ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
cmd_buf_info - > cmd_list - > OMSetBlendFactor ( p_constants . components ) ;
}
void RenderingDeviceDriverD3D12 : : command_render_set_line_width ( CommandBufferID p_cmd_buffer , float p_width ) {
if ( ! Math : : is_equal_approx ( p_width , 1.0f ) ) {
ERR_FAIL_MSG ( " Setting line widths other than 1.0 is not supported by the Direct3D 12 rendering driver. " ) ;
}
}
// ----- PIPELINE -----
static const D3D12_PRIMITIVE_TOPOLOGY_TYPE RD_PRIMITIVE_TO_D3D12_TOPOLOGY_TYPE [ RDD : : RENDER_PRIMITIVE_MAX ] = {
D3D12_PRIMITIVE_TOPOLOGY_TYPE_POINT ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_LINE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_LINE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_LINE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_LINE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_TRIANGLE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_TRIANGLE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_TRIANGLE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_TRIANGLE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_TRIANGLE ,
D3D12_PRIMITIVE_TOPOLOGY_TYPE_PATCH ,
} ;
static const D3D12_PRIMITIVE_TOPOLOGY RD_PRIMITIVE_TO_D3D12_TOPOLOGY [ RDD : : RENDER_PRIMITIVE_MAX ] = {
D3D_PRIMITIVE_TOPOLOGY_POINTLIST ,
D3D_PRIMITIVE_TOPOLOGY_LINELIST ,
D3D_PRIMITIVE_TOPOLOGY_LINELIST_ADJ ,
D3D_PRIMITIVE_TOPOLOGY_LINESTRIP ,
D3D_PRIMITIVE_TOPOLOGY_LINESTRIP_ADJ ,
D3D_PRIMITIVE_TOPOLOGY_TRIANGLELIST ,
D3D_PRIMITIVE_TOPOLOGY_TRIANGLELIST_ADJ ,
D3D_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP ,
D3D_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP_ADJ ,
D3D_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP ,
D3D_PRIMITIVE_TOPOLOGY_1_CONTROL_POINT_PATCHLIST ,
} ;
static const D3D12_CULL_MODE RD_POLYGON_CULL_TO_D3D12_CULL_MODE [ RDD : : POLYGON_CULL_MAX ] = {
D3D12_CULL_MODE_NONE ,
D3D12_CULL_MODE_FRONT ,
D3D12_CULL_MODE_BACK ,
} ;
static const D3D12_STENCIL_OP RD_TO_D3D12_STENCIL_OP [ RDD : : STENCIL_OP_MAX ] = {
D3D12_STENCIL_OP_KEEP ,
D3D12_STENCIL_OP_ZERO ,
D3D12_STENCIL_OP_REPLACE ,
D3D12_STENCIL_OP_INCR_SAT ,
D3D12_STENCIL_OP_DECR_SAT ,
D3D12_STENCIL_OP_INVERT ,
D3D12_STENCIL_OP_INCR ,
D3D12_STENCIL_OP_DECR ,
} ;
static const D3D12_LOGIC_OP RD_TO_D3D12_LOGIC_OP [ RDD : : LOGIC_OP_MAX ] = {
D3D12_LOGIC_OP_CLEAR ,
D3D12_LOGIC_OP_AND ,
D3D12_LOGIC_OP_AND_REVERSE ,
D3D12_LOGIC_OP_COPY ,
D3D12_LOGIC_OP_AND_INVERTED ,
D3D12_LOGIC_OP_NOOP ,
D3D12_LOGIC_OP_XOR ,
D3D12_LOGIC_OP_OR ,
D3D12_LOGIC_OP_NOR ,
D3D12_LOGIC_OP_EQUIV ,
D3D12_LOGIC_OP_INVERT ,
D3D12_LOGIC_OP_OR_REVERSE ,
D3D12_LOGIC_OP_COPY_INVERTED ,
D3D12_LOGIC_OP_OR_INVERTED ,
D3D12_LOGIC_OP_NAND ,
D3D12_LOGIC_OP_SET ,
} ;
static const D3D12_BLEND RD_TO_D3D12_BLEND_FACTOR [ RDD : : BLEND_FACTOR_MAX ] = {
D3D12_BLEND_ZERO ,
D3D12_BLEND_ONE ,
D3D12_BLEND_SRC_COLOR ,
D3D12_BLEND_INV_SRC_COLOR ,
D3D12_BLEND_DEST_COLOR ,
D3D12_BLEND_INV_DEST_COLOR ,
D3D12_BLEND_SRC_ALPHA ,
D3D12_BLEND_INV_SRC_ALPHA ,
D3D12_BLEND_DEST_ALPHA ,
D3D12_BLEND_INV_DEST_ALPHA ,
D3D12_BLEND_BLEND_FACTOR ,
D3D12_BLEND_INV_BLEND_FACTOR ,
D3D12_BLEND_BLEND_FACTOR ,
D3D12_BLEND_INV_BLEND_FACTOR ,
D3D12_BLEND_SRC_ALPHA_SAT ,
D3D12_BLEND_SRC1_COLOR ,
D3D12_BLEND_INV_SRC1_COLOR ,
D3D12_BLEND_SRC1_ALPHA ,
D3D12_BLEND_INV_SRC1_ALPHA ,
} ;
static const D3D12_BLEND_OP RD_TO_D3D12_BLEND_OP [ RDD : : BLEND_OP_MAX ] = {
D3D12_BLEND_OP_ADD ,
D3D12_BLEND_OP_SUBTRACT ,
D3D12_BLEND_OP_REV_SUBTRACT ,
D3D12_BLEND_OP_MIN ,
D3D12_BLEND_OP_MAX ,
} ;
RDD : : PipelineID RenderingDeviceDriverD3D12 : : render_pipeline_create (
ShaderID p_shader ,
VertexFormatID p_vertex_format ,
RenderPrimitive p_render_primitive ,
PipelineRasterizationState p_rasterization_state ,
PipelineMultisampleState p_multisample_state ,
PipelineDepthStencilState p_depth_stencil_state ,
PipelineColorBlendState p_blend_state ,
VectorView < int32_t > p_color_attachments ,
BitField < PipelineDynamicStateFlags > p_dynamic_state ,
RenderPassID p_render_pass ,
uint32_t p_render_subpass ,
VectorView < PipelineSpecializationConstant > p_specialization_constants ) {
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
CD3DX12_PIPELINE_STATE_STREAM pipeline_desc = { } ;
RenderPipelineExtraInfo pso_extra_info ;
const RenderPassInfo * pass_info = ( const RenderPassInfo * ) p_render_pass . id ;
// Attachments.
LocalVector < uint32_t > color_attachments ;
{
const Subpass & subpass = pass_info - > subpasses [ p_render_subpass ] ;
for ( uint32_t i = 0 ; i < ARRAY_SIZE ( ( & pipeline_desc . RTVFormats ) - > RTFormats ) ; i + + ) {
( & pipeline_desc . RTVFormats ) - > RTFormats [ i ] = DXGI_FORMAT_UNKNOWN ;
}
for ( uint32_t i = 0 ; i < subpass . color_references . size ( ) ; i + + ) {
const AttachmentReference & ref = subpass . color_references [ i ] ;
if ( ref . attachment ! = AttachmentReference : : UNUSED ) {
const Attachment & attachment = pass_info - > attachments [ ref . attachment ] ;
DEV_ASSERT ( ( & pipeline_desc . RTVFormats ) - > RTFormats [ i ] = = DXGI_FORMAT_UNKNOWN ) ;
( & pipeline_desc . RTVFormats ) - > RTFormats [ i ] = RD_TO_D3D12_FORMAT [ attachment . format ] . general_format ;
}
}
( & pipeline_desc . RTVFormats ) - > NumRenderTargets = p_color_attachments . size ( ) ;
if ( subpass . depth_stencil_reference . attachment ! = AttachmentReference : : UNUSED ) {
const Attachment & attachment = pass_info - > attachments [ subpass . depth_stencil_reference . attachment ] ;
pipeline_desc . DSVFormat = RD_TO_D3D12_FORMAT [ attachment . format ] . dsv_format ;
} else {
pipeline_desc . DSVFormat = DXGI_FORMAT_UNKNOWN ;
}
}
// Vertex.
if ( p_vertex_format ) {
const VertexFormatInfo * vf_info = ( const VertexFormatInfo * ) p_vertex_format . id ;
( & pipeline_desc . InputLayout ) - > pInputElementDescs = vf_info - > input_elem_descs . ptr ( ) ;
( & pipeline_desc . InputLayout ) - > NumElements = vf_info - > input_elem_descs . size ( ) ;
pso_extra_info . vf_info = vf_info ;
}
// Input assembly & tessellation.
pipeline_desc . PrimitiveTopologyType = RD_PRIMITIVE_TO_D3D12_TOPOLOGY_TYPE [ p_render_primitive ] ;
if ( p_render_primitive = = RENDER_PRIMITIVE_TESSELATION_PATCH ) {
// Is there any way to get the true point count limit?
ERR_FAIL_COND_V ( p_rasterization_state . patch_control_points < 1 | | p_rasterization_state . patch_control_points > 32 , PipelineID ( ) ) ;
pso_extra_info . dyn_params . primitive_topology = ( D3D12_PRIMITIVE_TOPOLOGY ) ( ( int ) D3D_PRIMITIVE_TOPOLOGY_1_CONTROL_POINT_PATCHLIST + p_rasterization_state . patch_control_points ) ;
} else {
pso_extra_info . dyn_params . primitive_topology = RD_PRIMITIVE_TO_D3D12_TOPOLOGY [ p_render_primitive ] ;
}
if ( p_render_primitive = = RENDER_PRIMITIVE_TRIANGLE_STRIPS_WITH_RESTART_INDEX ) {
// TODO: This is right for 16-bit indices; for 32-bit there's a different enum value to set, but we don't know at this point.
pipeline_desc . IBStripCutValue = D3D12_INDEX_BUFFER_STRIP_CUT_VALUE_0xFFFF ;
} else {
pipeline_desc . IBStripCutValue = D3D12_INDEX_BUFFER_STRIP_CUT_VALUE_DISABLED ;
}
// Rasterization.
( & pipeline_desc . RasterizerState ) - > DepthClipEnable = ! p_rasterization_state . enable_depth_clamp ;
// In D3D12, discard can be supported with some extra effort (empty pixel shader + disable depth/stencil test); that said, unsupported by now.
ERR_FAIL_COND_V ( p_rasterization_state . discard_primitives , PipelineID ( ) ) ;
( & pipeline_desc . RasterizerState ) - > FillMode = p_rasterization_state . wireframe ? D3D12_FILL_MODE_WIREFRAME : D3D12_FILL_MODE_SOLID ;
( & pipeline_desc . RasterizerState ) - > CullMode = RD_POLYGON_CULL_TO_D3D12_CULL_MODE [ p_rasterization_state . cull_mode ] ;
( & pipeline_desc . RasterizerState ) - > FrontCounterClockwise = p_rasterization_state . front_face = = POLYGON_FRONT_FACE_COUNTER_CLOCKWISE ;
// In D3D12, there's still a point in setting up depth bias with no depth buffer, but just zeroing (disabling) it all in such case is closer to Vulkan.
if ( p_rasterization_state . depth_bias_enabled & & pipeline_desc . DSVFormat ! = DXGI_FORMAT_UNKNOWN ) {
( & pipeline_desc . RasterizerState ) - > DepthBias = p_rasterization_state . depth_bias_constant_factor ;
( & pipeline_desc . RasterizerState ) - > DepthBiasClamp = p_rasterization_state . depth_bias_clamp ;
( & pipeline_desc . RasterizerState ) - > SlopeScaledDepthBias = p_rasterization_state . depth_bias_slope_factor ;
( & pipeline_desc . RasterizerState ) - > DepthBias = 0 ;
( & pipeline_desc . RasterizerState ) - > DepthBiasClamp = 0.0f ;
( & pipeline_desc . RasterizerState ) - > SlopeScaledDepthBias = 0.0f ;
}
( & pipeline_desc . RasterizerState ) - > ForcedSampleCount = 0 ;
( & pipeline_desc . RasterizerState ) - > ConservativeRaster = D3D12_CONSERVATIVE_RASTERIZATION_MODE_OFF ;
( & pipeline_desc . RasterizerState ) - > MultisampleEnable = TEXTURE_SAMPLES_COUNT [ p_multisample_state . sample_count ] ! = 1 ;
( & pipeline_desc . RasterizerState ) - > AntialiasedLineEnable = true ;
// In D3D12, there's no line width.
ERR_FAIL_COND_V ( ! Math : : is_equal_approx ( p_rasterization_state . line_width , 1.0f ) , PipelineID ( ) ) ;
// Multisample.
ERR_FAIL_COND_V ( p_multisample_state . enable_sample_shading , PipelineID ( ) ) ; // How one enables this in D3D12?
if ( ( & pipeline_desc . RTVFormats ) - > NumRenderTargets | | pipeline_desc . DSVFormat ! = DXGI_FORMAT_UNKNOWN ) {
uint32_t sample_count = MIN (
pass_info - > max_supported_sample_count ,
TEXTURE_SAMPLES_COUNT [ p_multisample_state . sample_count ] ) ;
( & pipeline_desc . SampleDesc ) - > Count = sample_count ;
} else {
( & pipeline_desc . SampleDesc ) - > Count = 1 ;
}
if ( ( & pipeline_desc . SampleDesc ) - > Count > 1 ) {
( & pipeline_desc . SampleDesc ) - > Quality = DXGI_STANDARD_MULTISAMPLE_QUALITY_PATTERN ;
} else {
( & pipeline_desc . SampleDesc ) - > Quality = 0 ;
}
if ( p_multisample_state . sample_mask . size ( ) ) {
for ( int i = 1 ; i < p_multisample_state . sample_mask . size ( ) ; i + + ) {
// In D3D12 there's a single sample mask for every pixel.
ERR_FAIL_COND_V ( p_multisample_state . sample_mask [ i ] ! = p_multisample_state . sample_mask [ 0 ] , PipelineID ( ) ) ;
}
pipeline_desc . SampleMask = p_multisample_state . sample_mask [ 0 ] ;
} else {
pipeline_desc . SampleMask = 0xffffffff ;
}
// Depth stencil.
if ( pipeline_desc . DSVFormat = = DXGI_FORMAT_UNKNOWN ) {
( & pipeline_desc . DepthStencilState ) - > DepthEnable = false ;
( & pipeline_desc . DepthStencilState ) - > StencilEnable = false ;
} else {
( & pipeline_desc . DepthStencilState ) - > DepthEnable = p_depth_stencil_state . enable_depth_test ;
( & pipeline_desc . DepthStencilState ) - > DepthWriteMask = p_depth_stencil_state . enable_depth_write ? D3D12_DEPTH_WRITE_MASK_ALL : D3D12_DEPTH_WRITE_MASK_ZERO ;
( & pipeline_desc . DepthStencilState ) - > DepthFunc = RD_TO_D3D12_COMPARE_OP [ p_depth_stencil_state . depth_compare_operator ] ;
( & pipeline_desc . DepthStencilState ) - > DepthBoundsTestEnable = p_depth_stencil_state . enable_depth_range ;
( & pipeline_desc . DepthStencilState ) - > StencilEnable = p_depth_stencil_state . enable_stencil ;
// In D3D12 some elements can't be different across front and back.
ERR_FAIL_COND_V ( p_depth_stencil_state . front_op . compare_mask ! = p_depth_stencil_state . back_op . compare_mask , PipelineID ( ) ) ;
ERR_FAIL_COND_V ( p_depth_stencil_state . front_op . write_mask ! = p_depth_stencil_state . back_op . write_mask , PipelineID ( ) ) ;
ERR_FAIL_COND_V ( p_depth_stencil_state . front_op . reference ! = p_depth_stencil_state . back_op . reference , PipelineID ( ) ) ;
( & pipeline_desc . DepthStencilState ) - > StencilReadMask = p_depth_stencil_state . front_op . compare_mask ;
( & pipeline_desc . DepthStencilState ) - > StencilWriteMask = p_depth_stencil_state . front_op . write_mask ;
( & pipeline_desc . DepthStencilState ) - > FrontFace . StencilFailOp = RD_TO_D3D12_STENCIL_OP [ p_depth_stencil_state . front_op . fail ] ;
( & pipeline_desc . DepthStencilState ) - > FrontFace . StencilPassOp = RD_TO_D3D12_STENCIL_OP [ p_depth_stencil_state . front_op . pass ] ;
( & pipeline_desc . DepthStencilState ) - > FrontFace . StencilDepthFailOp = RD_TO_D3D12_STENCIL_OP [ p_depth_stencil_state . front_op . depth_fail ] ;
( & pipeline_desc . DepthStencilState ) - > FrontFace . StencilFunc = RD_TO_D3D12_COMPARE_OP [ p_depth_stencil_state . front_op . compare ] ;
( & pipeline_desc . DepthStencilState ) - > BackFace . StencilFailOp = RD_TO_D3D12_STENCIL_OP [ p_depth_stencil_state . back_op . fail ] ;
( & pipeline_desc . DepthStencilState ) - > BackFace . StencilPassOp = RD_TO_D3D12_STENCIL_OP [ p_depth_stencil_state . back_op . pass ] ;
( & pipeline_desc . DepthStencilState ) - > BackFace . StencilDepthFailOp = RD_TO_D3D12_STENCIL_OP [ p_depth_stencil_state . back_op . depth_fail ] ;
( & pipeline_desc . DepthStencilState ) - > BackFace . StencilFunc = RD_TO_D3D12_COMPARE_OP [ p_depth_stencil_state . back_op . compare ] ;
pso_extra_info . dyn_params . depth_bounds_min = p_depth_stencil_state . enable_depth_range ? p_depth_stencil_state . depth_range_min : 0.0f ;
pso_extra_info . dyn_params . depth_bounds_max = p_depth_stencil_state . enable_depth_range ? p_depth_stencil_state . depth_range_max : 1.0f ;
pso_extra_info . dyn_params . stencil_reference = p_depth_stencil_state . front_op . reference ;
}
// Blend states.
( & pipeline_desc . BlendState ) - > AlphaToCoverageEnable = p_multisample_state . enable_alpha_to_coverage ;
{
bool all_attachments_same_blend = true ;
for ( int i = 0 ; i < p_blend_state . attachments . size ( ) ; i + + ) {
const PipelineColorBlendState : : Attachment & bs = p_blend_state . attachments [ i ] ;
D3D12_RENDER_TARGET_BLEND_DESC & bd = ( & pipeline_desc . BlendState ) - > RenderTarget [ i ] ;
bd . BlendEnable = bs . enable_blend ;
bd . LogicOpEnable = p_blend_state . enable_logic_op ;
bd . LogicOp = RD_TO_D3D12_LOGIC_OP [ p_blend_state . logic_op ] ;
bd . SrcBlend = RD_TO_D3D12_BLEND_FACTOR [ bs . src_color_blend_factor ] ;
bd . DestBlend = RD_TO_D3D12_BLEND_FACTOR [ bs . dst_color_blend_factor ] ;
bd . BlendOp = RD_TO_D3D12_BLEND_OP [ bs . color_blend_op ] ;
bd . SrcBlendAlpha = RD_TO_D3D12_BLEND_FACTOR [ bs . src_alpha_blend_factor ] ;
bd . DestBlendAlpha = RD_TO_D3D12_BLEND_FACTOR [ bs . dst_alpha_blend_factor ] ;
bd . BlendOpAlpha = RD_TO_D3D12_BLEND_OP [ bs . alpha_blend_op ] ;
if ( bs . write_r ) {
bd . RenderTargetWriteMask | = D3D12_COLOR_WRITE_ENABLE_RED ;
}
if ( bs . write_g ) {
bd . RenderTargetWriteMask | = D3D12_COLOR_WRITE_ENABLE_GREEN ;
}
if ( bs . write_b ) {
bd . RenderTargetWriteMask | = D3D12_COLOR_WRITE_ENABLE_BLUE ;
}
if ( bs . write_a ) {
bd . RenderTargetWriteMask | = D3D12_COLOR_WRITE_ENABLE_ALPHA ;
}
if ( i > 0 & & all_attachments_same_blend ) {
all_attachments_same_blend = & ( & pipeline_desc . BlendState ) - > RenderTarget [ i ] = = & ( & pipeline_desc . BlendState ) - > RenderTarget [ 0 ] ;
}
}
// Per D3D12 docs, if logic op used, independent blending is not supported.
ERR_FAIL_COND_V ( p_blend_state . enable_logic_op & & ! all_attachments_same_blend , PipelineID ( ) ) ;
( & pipeline_desc . BlendState ) - > IndependentBlendEnable = ! all_attachments_same_blend ;
}
pso_extra_info . dyn_params . blend_constant = p_blend_state . blend_constant ;
// Stages bytecodes + specialization constants.
pipeline_desc . pRootSignature = shader_info_in - > root_signature . Get ( ) ;
HashMap < ShaderStage , Vector < uint8_t > > final_stages_bytecode ;
bool ok = _shader_apply_specialization_constants ( shader_info_in , p_specialization_constants , final_stages_bytecode ) ;
ERR_FAIL_COND_V ( ! ok , PipelineID ( ) ) ;
pipeline_desc . VS = D3D12_SHADER_BYTECODE {
final_stages_bytecode [ SHADER_STAGE_VERTEX ] . ptr ( ) ,
( SIZE_T ) final_stages_bytecode [ SHADER_STAGE_VERTEX ] . size ( )
} ;
pipeline_desc . PS = D3D12_SHADER_BYTECODE {
final_stages_bytecode [ SHADER_STAGE_FRAGMENT ] . ptr ( ) ,
( SIZE_T ) final_stages_bytecode [ SHADER_STAGE_FRAGMENT ] . size ( )
} ;
ComPtr < ID3D12Device2 > device_2 ;
device - > QueryInterface ( device_2 . GetAddressOf ( ) ) ;
ID3D12PipelineState * pso = nullptr ;
HRESULT res = E_FAIL ;
if ( device_2 ) {
D3D12_PIPELINE_STATE_STREAM_DESC pssd = { } ;
pssd . pPipelineStateSubobjectStream = & pipeline_desc ;
pssd . SizeInBytes = sizeof ( pipeline_desc ) ;
res = device_2 - > CreatePipelineState ( & pssd , IID_PPV_ARGS ( & pso ) ) ;
} else {
D3D12_GRAPHICS_PIPELINE_STATE_DESC desc = pipeline_desc . GraphicsDescV0 ( ) ;
res = device - > CreateGraphicsPipelineState ( & desc , IID_PPV_ARGS ( & pso ) ) ;
}
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , PipelineID ( ) , " Create(Graphics)PipelineState failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
// Bookkeep ancillary info.
pipelines_shaders [ pso ] = shader_info_in ;
render_psos_extra_info [ pso ] = pso_extra_info ;
return PipelineID ( pso ) ;
}
/*****************/
/**** COMPUTE ****/
/*****************/
// ----- COMMANDS -----
void RenderingDeviceDriverD3D12 : : command_bind_compute_pipeline ( CommandBufferID p_cmd_buffer , PipelineID p_pipeline ) {
CommandBufferInfo * cmd_buf_info = ( CommandBufferInfo * ) p_cmd_buffer . id ;
ID3D12PipelineState * pso = ( ID3D12PipelineState * ) p_pipeline . id ;
const ShaderInfo * shader_info_in = pipelines_shaders [ pso ] ;
if ( cmd_buf_info - > compute_pso = = pso ) {
return ;
}
cmd_buf_info - > cmd_list - > SetPipelineState ( pso ) ;
if ( cmd_buf_info - > compute_root_signature_crc ! = shader_info_in - > root_signature_crc ) {
cmd_buf_info - > cmd_list - > SetComputeRootSignature ( shader_info_in - > root_signature . Get ( ) ) ;
cmd_buf_info - > compute_root_signature_crc = shader_info_in - > root_signature_crc ;
}
cmd_buf_info - > compute_pso = pso ;
cmd_buf_info - > graphics_pso = nullptr ;
}
void RenderingDeviceDriverD3D12 : : command_bind_compute_uniform_set ( CommandBufferID p_cmd_buffer , UniformSetID p_uniform_set , ShaderID p_shader , uint32_t p_set_index ) {
_command_bind_uniform_set ( p_cmd_buffer , p_uniform_set , p_shader , p_set_index , true ) ;
}
void RenderingDeviceDriverD3D12 : : command_compute_dispatch ( CommandBufferID p_cmd_buffer , uint32_t p_x_groups , uint32_t p_y_groups , uint32_t p_z_groups ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > Dispatch ( p_x_groups , p_y_groups , p_z_groups ) ;
}
void RenderingDeviceDriverD3D12 : : command_compute_dispatch_indirect ( CommandBufferID p_cmd_buffer , BufferID p_indirect_buffer , uint64_t p_offset ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
BufferInfo * indirect_buf_info = ( BufferInfo * ) p_indirect_buffer . id ;
_resource_transition_batch ( indirect_buf_info , 0 , 1 , D3D12_RESOURCE_STATE_INDIRECT_ARGUMENT ) ;
_resource_transitions_flush ( cmd_buf_info - > cmd_list . Get ( ) ) ;
cmd_buf_info - > cmd_list - > ExecuteIndirect ( indirect_cmd_signatures . dispatch . Get ( ) , 1 , indirect_buf_info - > resource , p_offset , nullptr , 0 ) ;
}
// ----- PIPELINE -----
RDD : : PipelineID RenderingDeviceDriverD3D12 : : compute_pipeline_create ( ShaderID p_shader , VectorView < PipelineSpecializationConstant > p_specialization_constants ) {
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_shader . id ;
CD3DX12_PIPELINE_STATE_STREAM pipeline_desc = { } ;
// Stages bytecodes + specialization constants.
pipeline_desc . pRootSignature = shader_info_in - > root_signature . Get ( ) ;
HashMap < ShaderStage , Vector < uint8_t > > final_stages_bytecode ;
bool ok = _shader_apply_specialization_constants ( shader_info_in , p_specialization_constants , final_stages_bytecode ) ;
ERR_FAIL_COND_V ( ! ok , PipelineID ( ) ) ;
pipeline_desc . CS = D3D12_SHADER_BYTECODE {
final_stages_bytecode [ SHADER_STAGE_COMPUTE ] . ptr ( ) ,
( SIZE_T ) final_stages_bytecode [ SHADER_STAGE_COMPUTE ] . size ( )
} ;
ComPtr < ID3D12Device2 > device_2 ;
device - > QueryInterface ( device_2 . GetAddressOf ( ) ) ;
ID3D12PipelineState * pso = nullptr ;
HRESULT res = E_FAIL ;
if ( device_2 ) {
D3D12_PIPELINE_STATE_STREAM_DESC pssd = { } ;
pssd . pPipelineStateSubobjectStream = & pipeline_desc ;
pssd . SizeInBytes = sizeof ( pipeline_desc ) ;
res = device_2 - > CreatePipelineState ( & pssd , IID_PPV_ARGS ( & pso ) ) ;
} else {
D3D12_COMPUTE_PIPELINE_STATE_DESC desc = pipeline_desc . ComputeDescV0 ( ) ;
res = device - > CreateComputePipelineState ( & desc , IID_PPV_ARGS ( & pso ) ) ;
}
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , PipelineID ( ) , " Create(Compute)PipelineState failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
// Bookkeep ancillary info.
pipelines_shaders [ pso ] = shader_info_in ;
return PipelineID ( pso ) ;
}
/*****************/
/**** QUERIES ****/
/*****************/
// ----- TIMESTAMP -----
RDD : : QueryPoolID RenderingDeviceDriverD3D12 : : timestamp_query_pool_create ( uint32_t p_query_count ) {
ComPtr < ID3D12QueryHeap > query_heap ;
{
D3D12_QUERY_HEAP_DESC qh_desc = { } ;
qh_desc . Type = D3D12_QUERY_HEAP_TYPE_TIMESTAMP ;
qh_desc . Count = p_query_count ;
qh_desc . NodeMask = 0 ;
HRESULT res = device - > CreateQueryHeap ( & qh_desc , IID_PPV_ARGS ( query_heap . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , QueryPoolID ( ) , " CreateQueryHeap failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
ComPtr < D3D12MA : : Allocation > results_buffer_allocation ;
{
D3D12MA : : ALLOCATION_DESC allocation_desc = { } ;
allocation_desc . HeapType = D3D12_HEAP_TYPE_READBACK ;
CD3DX12_RESOURCE_DESC resource_desc = CD3DX12_RESOURCE_DESC : : Buffer ( sizeof ( uint64_t ) * p_query_count ) ;
ComPtr < ID3D12Resource > results_buffer ;
HRESULT res = allocator - > CreateResource (
& allocation_desc ,
& resource_desc ,
D3D12_RESOURCE_STATE_COPY_DEST ,
nullptr ,
results_buffer_allocation . GetAddressOf ( ) ,
IID_PPV_ARGS ( results_buffer . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , QueryPoolID ( ) , " D3D12MA::CreateResource failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
// Bookkeep.
TimestampQueryPoolInfo * tqp_info = VersatileResource : : allocate < TimestampQueryPoolInfo > ( resources_allocator ) ;
tqp_info - > query_heap = query_heap ;
tqp_info - > query_count = p_query_count ;
tqp_info - > results_buffer_allocation = results_buffer_allocation ;
return RDD : : QueryPoolID ( tqp_info ) ;
}
void RenderingDeviceDriverD3D12 : : timestamp_query_pool_free ( QueryPoolID p_pool_id ) {
TimestampQueryPoolInfo * tqp_info = ( TimestampQueryPoolInfo * ) p_pool_id . id ;
VersatileResource : : free ( resources_allocator , tqp_info ) ;
}
void RenderingDeviceDriverD3D12 : : timestamp_query_pool_get_results ( QueryPoolID p_pool_id , uint32_t p_query_count , uint64_t * r_results ) {
TimestampQueryPoolInfo * tqp_info = ( TimestampQueryPoolInfo * ) p_pool_id . id ;
ID3D12Resource * results_buffer = tqp_info - > results_buffer_allocation - > GetResource ( ) ;
void * results_buffer_data = nullptr ;
results_buffer - > Map ( 0 , & VOID_RANGE , & results_buffer_data ) ;
memcpy ( r_results , results_buffer_data , sizeof ( uint64_t ) * p_query_count ) ;
results_buffer - > Unmap ( 0 , & VOID_RANGE ) ;
}
uint64_t RenderingDeviceDriverD3D12 : : timestamp_query_result_to_time ( uint64_t p_result ) {
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return p_result / ( double ) device_limits . timestamp_frequency * 1000000000.0 ;
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}
void RenderingDeviceDriverD3D12 : : command_timestamp_query_pool_reset ( CommandBufferID p_cmd_buffer , QueryPoolID p_pool_id , uint32_t p_query_count ) {
}
void RenderingDeviceDriverD3D12 : : command_timestamp_write ( CommandBufferID p_cmd_buffer , QueryPoolID p_pool_id , uint32_t p_index ) {
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
TimestampQueryPoolInfo * tqp_info = ( TimestampQueryPoolInfo * ) p_pool_id . id ;
ID3D12Resource * results_buffer = tqp_info - > results_buffer_allocation - > GetResource ( ) ;
cmd_buf_info - > cmd_list - > EndQuery ( tqp_info - > query_heap . Get ( ) , D3D12_QUERY_TYPE_TIMESTAMP , p_index ) ;
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cmd_buf_info - > cmd_list - > ResolveQueryData ( tqp_info - > query_heap . Get ( ) , D3D12_QUERY_TYPE_TIMESTAMP , p_index , 1 , results_buffer , p_index * sizeof ( uint64_t ) ) ;
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}
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void RenderingDeviceDriverD3D12 : : command_begin_label ( CommandBufferID p_cmd_buffer , const char * p_label_name , const Color & p_color ) {
# ifdef PIX_ENABLED
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
PIXBeginEvent ( cmd_buf_info - > cmd_list . Get ( ) , p_color . to_argb32 ( ) , p_label_name ) ;
# endif
}
void RenderingDeviceDriverD3D12 : : command_end_label ( CommandBufferID p_cmd_buffer ) {
# ifdef PIX_ENABLED
const CommandBufferInfo * cmd_buf_info = ( const CommandBufferInfo * ) p_cmd_buffer . id ;
PIXEndEvent ( cmd_buf_info - > cmd_list . Get ( ) ) ;
# endif
}
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/********************/
/**** SUBMISSION ****/
/********************/
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void RenderingDeviceDriverD3D12 : : begin_segment ( uint32_t p_frame_index , uint32_t p_frames_drawn ) {
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frame_idx = p_frame_index ;
frames_drawn = p_frames_drawn ;
allocator - > SetCurrentFrameIndex ( p_frames_drawn ) ;
frames [ frame_idx ] . desc_heap_walkers . resources . rewind ( ) ;
frames [ frame_idx ] . desc_heap_walkers . samplers . rewind ( ) ;
frames [ frame_idx ] . desc_heap_walkers . aux . rewind ( ) ;
frames [ frame_idx ] . desc_heap_walkers . rtv . rewind ( ) ;
frames [ frame_idx ] . desc_heaps_exhausted_reported = { } ;
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frames [ frame_idx ] . null_rtv_handle = CD3DX12_CPU_DESCRIPTOR_HANDLE { } ;
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frames [ frame_idx ] . segment_serial = segment_serial ;
segment_begun = true ;
}
void RenderingDeviceDriverD3D12 : : end_segment ( ) {
segment_serial + + ;
segment_begun = false ;
}
/**************/
/**** MISC ****/
/**************/
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void RenderingDeviceDriverD3D12 : : _set_object_name ( ID3D12Object * p_object , String p_object_name ) {
ERR_FAIL_NULL ( p_object ) ;
int name_len = p_object_name . size ( ) ;
WCHAR * name_w = ( WCHAR * ) alloca ( sizeof ( WCHAR ) * ( name_len + 1 ) ) ;
MultiByteToWideChar ( CP_UTF8 , 0 , p_object_name . utf8 ( ) . get_data ( ) , - 1 , name_w , name_len ) ;
p_object - > SetName ( name_w ) ;
}
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void RenderingDeviceDriverD3D12 : : set_object_name ( ObjectType p_type , ID p_driver_id , const String & p_name ) {
switch ( p_type ) {
case OBJECT_TYPE_TEXTURE : {
const TextureInfo * tex_info = ( const TextureInfo * ) p_driver_id . id ;
if ( tex_info - > owner_info . allocation ) {
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_set_object_name ( tex_info - > resource , p_name ) ;
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}
} break ;
case OBJECT_TYPE_SAMPLER : {
} break ;
case OBJECT_TYPE_BUFFER : {
const BufferInfo * buf_info = ( const BufferInfo * ) p_driver_id . id ;
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_set_object_name ( buf_info - > resource , p_name ) ;
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} break ;
case OBJECT_TYPE_SHADER : {
const ShaderInfo * shader_info_in = ( const ShaderInfo * ) p_driver_id . id ;
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_set_object_name ( shader_info_in - > root_signature . Get ( ) , p_name ) ;
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} break ;
case OBJECT_TYPE_UNIFORM_SET : {
const UniformSetInfo * uniform_set_info = ( const UniformSetInfo * ) p_driver_id . id ;
if ( uniform_set_info - > desc_heaps . resources . get_heap ( ) ) {
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_set_object_name ( uniform_set_info - > desc_heaps . resources . get_heap ( ) , p_name + " resources heap " ) ;
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}
if ( uniform_set_info - > desc_heaps . samplers . get_heap ( ) ) {
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_set_object_name ( uniform_set_info - > desc_heaps . samplers . get_heap ( ) , p_name + " samplers heap " ) ;
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}
} break ;
case OBJECT_TYPE_PIPELINE : {
ID3D12PipelineState * pso = ( ID3D12PipelineState * ) p_driver_id . id ;
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_set_object_name ( pso , p_name ) ;
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} break ;
default : {
DEV_ASSERT ( false ) ;
}
}
}
uint64_t RenderingDeviceDriverD3D12 : : get_resource_native_handle ( DriverResource p_type , ID p_driver_id ) {
switch ( p_type ) {
case DRIVER_RESOURCE_LOGICAL_DEVICE : {
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return ( uint64_t ) device . Get ( ) ;
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}
case DRIVER_RESOURCE_PHYSICAL_DEVICE : {
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return ( uint64_t ) adapter . Get ( ) ;
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}
case DRIVER_RESOURCE_TOPMOST_OBJECT : {
return 0 ;
}
case DRIVER_RESOURCE_COMMAND_QUEUE : {
return ( uint64_t ) p_driver_id . id ;
}
case DRIVER_RESOURCE_QUEUE_FAMILY : {
return 0 ;
}
case DRIVER_RESOURCE_TEXTURE : {
const TextureInfo * tex_info = ( const TextureInfo * ) p_driver_id . id ;
return ( uint64_t ) tex_info - > main_texture ;
} break ;
case DRIVER_RESOURCE_TEXTURE_VIEW : {
const TextureInfo * tex_info = ( const TextureInfo * ) p_driver_id . id ;
return ( uint64_t ) tex_info - > resource ;
}
case DRIVER_RESOURCE_TEXTURE_DATA_FORMAT : {
const TextureInfo * tex_info = ( const TextureInfo * ) p_driver_id . id ;
return ( uint64_t ) tex_info - > desc . Format ;
}
case DRIVER_RESOURCE_SAMPLER :
case DRIVER_RESOURCE_UNIFORM_SET :
return 0 ;
case DRIVER_RESOURCE_BUFFER : {
const TextureInfo * tex_info = ( const TextureInfo * ) p_driver_id . id ;
return ( uint64_t ) tex_info - > resource ;
} break ;
case DRIVER_RESOURCE_COMPUTE_PIPELINE :
case DRIVER_RESOURCE_RENDER_PIPELINE : {
return p_driver_id . id ;
}
default : {
return 0 ;
}
}
}
uint64_t RenderingDeviceDriverD3D12 : : get_total_memory_used ( ) {
D3D12MA : : TotalStatistics stats ;
allocator - > CalculateStatistics ( & stats ) ;
return stats . Total . Stats . BlockBytes ;
}
uint64_t RenderingDeviceDriverD3D12 : : limit_get ( Limit p_limit ) {
uint64_t safe_unbounded = ( ( uint64_t ) 1 < < 30 ) ;
switch ( p_limit ) {
case LIMIT_MAX_BOUND_UNIFORM_SETS :
return safe_unbounded ;
case LIMIT_MAX_TEXTURES_PER_SHADER_STAGE :
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return device_limits . max_srvs_per_shader_stage ;
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case LIMIT_MAX_UNIFORM_BUFFER_SIZE :
return 65536 ;
case LIMIT_MAX_VIEWPORT_DIMENSIONS_X :
case LIMIT_MAX_VIEWPORT_DIMENSIONS_Y :
return 16384 ; // Based on max. texture size. Maybe not correct.
case LIMIT_MAX_COMPUTE_WORKGROUP_COUNT_X :
return D3D12_CS_DISPATCH_MAX_THREAD_GROUPS_PER_DIMENSION ;
case LIMIT_MAX_COMPUTE_WORKGROUP_COUNT_Y :
return D3D12_CS_DISPATCH_MAX_THREAD_GROUPS_PER_DIMENSION ;
case LIMIT_MAX_COMPUTE_WORKGROUP_COUNT_Z :
return D3D12_CS_DISPATCH_MAX_THREAD_GROUPS_PER_DIMENSION ;
case LIMIT_MAX_COMPUTE_WORKGROUP_SIZE_X :
return D3D12_CS_THREAD_GROUP_MAX_X ;
case LIMIT_MAX_COMPUTE_WORKGROUP_SIZE_Y :
return D3D12_CS_THREAD_GROUP_MAX_Y ;
case LIMIT_MAX_COMPUTE_WORKGROUP_SIZE_Z :
return D3D12_CS_THREAD_GROUP_MAX_Z ;
case LIMIT_SUBGROUP_SIZE :
// Note in min/max. Shader model 6.6 supports it (see https://microsoft.github.io/DirectX-Specs/d3d/HLSL_SM_6_6_WaveSize.html),
// but at this time I don't know the implications on the transpilation to DXIL, etc.
case LIMIT_SUBGROUP_MIN_SIZE :
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case LIMIT_SUBGROUP_MAX_SIZE :
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return subgroup_capabilities . size ;
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case LIMIT_SUBGROUP_IN_SHADERS :
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return subgroup_capabilities . supported_stages_flags_rd ( ) ;
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case LIMIT_SUBGROUP_OPERATIONS :
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return subgroup_capabilities . supported_operations_flags_rd ( ) ;
case LIMIT_VRS_TEXEL_WIDTH :
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case LIMIT_VRS_TEXEL_HEIGHT :
return vrs_capabilities . ss_image_tile_size ;
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default : {
# ifdef DEV_ENABLED
WARN_PRINT ( " Returning maximum value for unknown limit " + itos ( p_limit ) + " . " ) ;
# endif
return safe_unbounded ;
}
}
}
uint64_t RenderingDeviceDriverD3D12 : : api_trait_get ( ApiTrait p_trait ) {
switch ( p_trait ) {
case API_TRAIT_HONORS_PIPELINE_BARRIERS :
// TODO:
// 1. Map fine/Vulkan/enhanced barriers to legacy barriers as closely as possible
// so there's still some advantage even without enhanced barriers available.
// 2. Implement enhanced barriers and return true where available.
return 0 ;
case API_TRAIT_SHADER_CHANGE_INVALIDATION :
return ( uint64_t ) SHADER_CHANGE_INVALIDATION_ALL_OR_NONE_ACCORDING_TO_LAYOUT_HASH ;
case API_TRAIT_TEXTURE_TRANSFER_ALIGNMENT :
return D3D12_TEXTURE_DATA_PLACEMENT_ALIGNMENT ;
case API_TRAIT_TEXTURE_DATA_ROW_PITCH_STEP :
return D3D12_TEXTURE_DATA_PITCH_ALIGNMENT ;
case API_TRAIT_SECONDARY_VIEWPORT_SCISSOR :
return false ;
default :
return RenderingDeviceDriver : : api_trait_get ( p_trait ) ;
}
}
bool RenderingDeviceDriverD3D12 : : has_feature ( Features p_feature ) {
switch ( p_feature ) {
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case SUPPORTS_MULTIVIEW :
return multiview_capabilities . is_supported & & multiview_capabilities . max_view_count > 1 ;
case SUPPORTS_FSR_HALF_FLOAT :
return shader_capabilities . native_16bit_ops & & storage_buffer_capabilities . storage_buffer_16_bit_access_is_supported ;
case SUPPORTS_ATTACHMENT_VRS :
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return vrs_capabilities . ss_image_supported ;
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case SUPPORTS_FRAGMENT_SHADER_WITH_ONLY_SIDE_EFFECTS :
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return true ;
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default :
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return false ;
}
}
const RDD : : MultiviewCapabilities & RenderingDeviceDriverD3D12 : : get_multiview_capabilities ( ) {
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return multiview_capabilities ;
}
String RenderingDeviceDriverD3D12 : : get_api_name ( ) const {
return " D3D12 " ;
}
String RenderingDeviceDriverD3D12 : : get_api_version ( ) const {
return vformat ( " %d_%d " , feature_level / 10 , feature_level % 10 ) ;
}
String RenderingDeviceDriverD3D12 : : get_pipeline_cache_uuid ( ) const {
return pipeline_cache_id ;
}
const RDD : : Capabilities & RenderingDeviceDriverD3D12 : : get_capabilities ( ) const {
return device_capabilities ;
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}
/******************/
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RenderingDeviceDriverD3D12 : : RenderingDeviceDriverD3D12 ( RenderingContextDriverD3D12 * p_context_driver ) {
DEV_ASSERT ( p_context_driver ! = nullptr ) ;
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this - > context_driver = p_context_driver ;
}
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RenderingDeviceDriverD3D12 : : ~ RenderingDeviceDriverD3D12 ( ) {
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{
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MutexLock lock ( dxil_mutex ) ;
for ( const KeyValue < int , dxil_validator * > & E : dxil_validators ) {
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if ( E . value ) {
dxil_destroy_validator ( E . value ) ;
}
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}
}
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glsl_type_singleton_decref ( ) ;
}
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bool RenderingDeviceDriverD3D12 : : is_in_developer_mode ( ) {
HKEY hkey = NULL ;
LSTATUS result = RegOpenKeyExW ( HKEY_LOCAL_MACHINE , L " SOFTWARE \\ Microsoft \\ Windows \\ CurrentVersion \\ AppModelUnlock " , 0 , KEY_READ , & hkey ) ;
if ( result ! = ERROR_SUCCESS ) {
return false ;
}
DWORD value = 0 ;
DWORD dword_size = sizeof ( DWORD ) ;
result = RegQueryValueExW ( hkey , L " AllowDevelopmentWithoutDevLicense " , nullptr , nullptr , ( PBYTE ) & value , & dword_size ) ;
RegCloseKey ( hkey ) ;
if ( result ! = ERROR_SUCCESS ) {
return false ;
}
return ( value ! = 0 ) ;
}
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Error RenderingDeviceDriverD3D12 : : _initialize_device ( ) {
HRESULT res ;
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if ( is_in_developer_mode ( ) ) {
UUID experimental_features [ ] = { D3D12ExperimentalShaderModels } ;
D3D12EnableExperimentalFeatures ( 1 , experimental_features , nullptr , nullptr ) ;
}
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ID3D12DeviceFactory * device_factory = context_driver - > device_factory_get ( ) ;
if ( device_factory ! = nullptr ) {
res = device_factory - > CreateDevice ( adapter . Get ( ) , D3D_FEATURE_LEVEL_11_0 , IID_PPV_ARGS ( device . GetAddressOf ( ) ) ) ;
} else {
res = D3D12CreateDevice ( adapter . Get ( ) , D3D_FEATURE_LEVEL_11_0 , IID_PPV_ARGS ( device . GetAddressOf ( ) ) ) ;
}
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE , " D3D12CreateDevice failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
if ( context_driver - > use_validation_layers ( ) ) {
ComPtr < ID3D12InfoQueue > info_queue ;
res = device . As ( & info_queue ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
# if CUSTOM_INFO_QUEUE_ENABLED
ComPtr < ID3D12InfoQueue1 > info_queue_1 ;
device . As ( & info_queue_1 ) ;
if ( info_queue_1 ) {
// Custom printing supported (added in Windows 10 Release Preview build 20236). Even if the callback cookie is unused, it seems the
// argument is not optional and the function will fail if it's not specified.
DWORD callback_cookie ;
info_queue_1 - > SetMuteDebugOutput ( TRUE ) ;
res = info_queue_1 - > RegisterMessageCallback ( & _debug_message_func , D3D12_MESSAGE_CALLBACK_IGNORE_FILTERS , nullptr , & callback_cookie ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
} else
# endif
{
// Rely on D3D12's own debug printing.
if ( Engine : : get_singleton ( ) - > is_abort_on_gpu_errors_enabled ( ) ) {
res = info_queue - > SetBreakOnSeverity ( D3D12_MESSAGE_SEVERITY_WARNING , TRUE ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
res = info_queue - > SetBreakOnSeverity ( D3D12_MESSAGE_SEVERITY_ERROR , TRUE ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
res = info_queue - > SetBreakOnSeverity ( D3D12_MESSAGE_SEVERITY_CORRUPTION , TRUE ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
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}
}
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D3D12_MESSAGE_SEVERITY severities_to_mute [ ] = {
D3D12_MESSAGE_SEVERITY_INFO ,
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} ;
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D3D12_MESSAGE_ID messages_to_mute [ ] = {
D3D12_MESSAGE_ID_CLEARRENDERTARGETVIEW_MISMATCHINGCLEARVALUE ,
D3D12_MESSAGE_ID_CLEARDEPTHSTENCILVIEW_MISMATCHINGCLEARVALUE ,
// These happen due to how D3D12MA manages buffers; seems benign.
D3D12_MESSAGE_ID_HEAP_ADDRESS_RANGE_HAS_NO_RESOURCE ,
D3D12_MESSAGE_ID_HEAP_ADDRESS_RANGE_INTERSECTS_MULTIPLE_BUFFERS ,
} ;
D3D12_INFO_QUEUE_FILTER filter = { } ;
filter . DenyList . NumSeverities = ARRAY_SIZE ( severities_to_mute ) ;
filter . DenyList . pSeverityList = severities_to_mute ;
filter . DenyList . NumIDs = ARRAY_SIZE ( messages_to_mute ) ;
filter . DenyList . pIDList = messages_to_mute ;
res = info_queue - > PushStorageFilter ( & filter ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
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}
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return OK ;
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}
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Error RenderingDeviceDriverD3D12 : : _check_capabilities ( ) {
// Check feature levels.
const D3D_FEATURE_LEVEL FEATURE_LEVELS [ ] = {
D3D_FEATURE_LEVEL_11_0 ,
D3D_FEATURE_LEVEL_11_1 ,
D3D_FEATURE_LEVEL_12_0 ,
D3D_FEATURE_LEVEL_12_1 ,
D3D_FEATURE_LEVEL_12_2 ,
} ;
D3D12_FEATURE_DATA_FEATURE_LEVELS feat_levels = { } ;
feat_levels . NumFeatureLevels = ARRAY_SIZE ( FEATURE_LEVELS ) ;
feat_levels . pFeatureLevelsRequested = FEATURE_LEVELS ;
HRESULT res = device - > CheckFeatureSupport ( D3D12_FEATURE_FEATURE_LEVELS , & feat_levels , sizeof ( feat_levels ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_UNAVAILABLE , " CheckFeatureSupport failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
// Example: D3D_FEATURE_LEVEL_12_1 = 0xc100.
uint32_t feat_level_major = feat_levels . MaxSupportedFeatureLevel > > 12 ;
uint32_t feat_level_minor = ( feat_levels . MaxSupportedFeatureLevel > > 16 ) & 0xff ;
feature_level = feat_level_major * 10 + feat_level_minor ;
// Fill device capabilities.
device_capabilities . device_family = DEVICE_DIRECTX ;
device_capabilities . version_major = feature_level / 10 ;
device_capabilities . version_minor = feature_level % 10 ;
// Assume not supported until proven otherwise.
vrs_capabilities . draw_call_supported = false ;
vrs_capabilities . primitive_supported = false ;
vrs_capabilities . primitive_in_multiviewport = false ;
vrs_capabilities . ss_image_supported = false ;
vrs_capabilities . ss_image_tile_size = 1 ;
vrs_capabilities . additional_rates_supported = false ;
multiview_capabilities . is_supported = false ;
multiview_capabilities . geometry_shader_is_supported = false ;
multiview_capabilities . tessellation_shader_is_supported = false ;
multiview_capabilities . max_view_count = 0 ;
multiview_capabilities . max_instance_count = 0 ;
multiview_capabilities . is_supported = false ;
subgroup_capabilities . size = 0 ;
subgroup_capabilities . wave_ops_supported = false ;
shader_capabilities . shader_model = D3D_SHADER_MODEL_6_0 ;
shader_capabilities . native_16bit_ops = false ;
storage_buffer_capabilities . storage_buffer_16_bit_access_is_supported = false ;
format_capabilities . relaxed_casting_supported = false ;
// Check shader model.
D3D12_FEATURE_DATA_SHADER_MODEL shader_model = { } ;
shader_model . HighestShaderModel = MIN ( D3D_HIGHEST_SHADER_MODEL , D3D_SHADER_MODEL_6_6 ) ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_SHADER_MODEL , & shader_model , sizeof ( shader_model ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE , " CheckFeatureSupport failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
shader_capabilities . shader_model = shader_model . HighestShaderModel ;
print_verbose ( " - Shader: " ) ;
print_verbose ( " model: " + itos ( shader_capabilities . shader_model > > 4 ) + " . " + itos ( shader_capabilities . shader_model & 0xf ) ) ;
D3D12_FEATURE_DATA_D3D12_OPTIONS options = { } ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS , & options , sizeof ( options ) ) ;
if ( SUCCEEDED ( res ) ) {
storage_buffer_capabilities . storage_buffer_16_bit_access_is_supported = options . TypedUAVLoadAdditionalFormats ;
}
D3D12_FEATURE_DATA_D3D12_OPTIONS1 options1 = { } ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS1 , & options1 , sizeof ( options1 ) ) ;
if ( SUCCEEDED ( res ) ) {
subgroup_capabilities . size = options1 . WaveLaneCountMin ;
subgroup_capabilities . wave_ops_supported = options1 . WaveOps ;
}
D3D12_FEATURE_DATA_D3D12_OPTIONS3 options3 = { } ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS3 , & options3 , sizeof ( options3 ) ) ;
if ( SUCCEEDED ( res ) ) {
// https://docs.microsoft.com/en-us/windows/win32/api/d3d12/ne-d3d12-d3d12_view_instancing_tier
// https://microsoft.github.io/DirectX-Specs/d3d/ViewInstancing.html#sv_viewid
if ( options3 . ViewInstancingTier > = D3D12_VIEW_INSTANCING_TIER_1 ) {
multiview_capabilities . is_supported = true ;
multiview_capabilities . geometry_shader_is_supported = options3 . ViewInstancingTier > = D3D12_VIEW_INSTANCING_TIER_3 ;
multiview_capabilities . tessellation_shader_is_supported = options3 . ViewInstancingTier > = D3D12_VIEW_INSTANCING_TIER_3 ;
multiview_capabilities . max_view_count = D3D12_MAX_VIEW_INSTANCE_COUNT ;
multiview_capabilities . max_instance_count = UINT32_MAX ;
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}
}
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D3D12_FEATURE_DATA_D3D12_OPTIONS4 options4 = { } ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS4 , & options4 , sizeof ( options4 ) ) ;
if ( SUCCEEDED ( res ) ) {
shader_capabilities . native_16bit_ops = options4 . Native16BitShaderOpsSupported ;
}
D3D12_FEATURE_DATA_D3D12_OPTIONS6 options6 = { } ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS6 , & options6 , sizeof ( options6 ) ) ;
if ( SUCCEEDED ( res ) ) {
if ( options6 . VariableShadingRateTier > = D3D12_VARIABLE_SHADING_RATE_TIER_1 ) {
vrs_capabilities . draw_call_supported = true ;
if ( options6 . VariableShadingRateTier > = D3D12_VARIABLE_SHADING_RATE_TIER_2 ) {
vrs_capabilities . primitive_supported = true ;
vrs_capabilities . primitive_in_multiviewport = options6 . PerPrimitiveShadingRateSupportedWithViewportIndexing ;
vrs_capabilities . ss_image_supported = true ;
vrs_capabilities . ss_image_tile_size = options6 . ShadingRateImageTileSize ;
vrs_capabilities . additional_rates_supported = options6 . AdditionalShadingRatesSupported ;
}
}
}
D3D12_FEATURE_DATA_D3D12_OPTIONS12 options12 = { } ;
res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS12 , & options12 , sizeof ( options12 ) ) ;
if ( SUCCEEDED ( res ) ) {
format_capabilities . relaxed_casting_supported = options12 . RelaxedFormatCastingSupported ;
}
if ( vrs_capabilities . draw_call_supported | | vrs_capabilities . primitive_supported | | vrs_capabilities . ss_image_supported ) {
print_verbose ( " - D3D12 Variable Rate Shading supported: " ) ;
if ( vrs_capabilities . draw_call_supported ) {
print_verbose ( " Draw call " ) ;
}
if ( vrs_capabilities . primitive_supported ) {
print_verbose ( String ( " Per-primitive (multi-viewport: " ) + ( vrs_capabilities . primitive_in_multiviewport ? " yes " : " no " ) + " ) " ) ;
}
if ( vrs_capabilities . ss_image_supported ) {
print_verbose ( String ( " Screen-space image (tile size: " ) + itos ( vrs_capabilities . ss_image_tile_size ) + " ) " ) ;
}
if ( vrs_capabilities . additional_rates_supported ) {
print_verbose ( String ( " Additional rates: " ) + ( vrs_capabilities . additional_rates_supported ? " yes " : " no " ) ) ;
}
} else {
print_verbose ( " - D3D12 Variable Rate Shading not supported " ) ;
}
if ( multiview_capabilities . is_supported ) {
print_verbose ( " - D3D12 multiview supported: " ) ;
print_verbose ( " max view count: " + itos ( multiview_capabilities . max_view_count ) ) ;
//print_verbose(" max instances: " + itos(multiview_capabilities.max_instance_count)); // Hardcoded; not very useful at the moment.
} else {
print_verbose ( " - D3D12 multiview not supported " ) ;
}
if ( format_capabilities . relaxed_casting_supported ) {
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#if 0
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print_verbose ( " - Relaxed casting supported " ) ;
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# else
// Certain configurations (Windows 11 with an updated Nvida driver) crash when using relaxed casting.
// Therefore, we disable it temporarily until we can assure that it's reliable.
// There are fallbacks in place that work in every case, if less efficient.
format_capabilities . relaxed_casting_supported = false ;
print_verbose ( " - Relaxed casting supported (but disabled for now) " ) ;
# endif
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} else {
print_verbose ( " - Relaxed casting not supported " ) ;
}
print_verbose ( String ( " - D3D12 16-bit ops supported: " ) + ( shader_capabilities . native_16bit_ops ? " yes " : " no " ) ) ;
return OK ;
}
Error RenderingDeviceDriverD3D12 : : _get_device_limits ( ) {
D3D12_FEATURE_DATA_D3D12_OPTIONS options = { } ;
HRESULT res = device - > CheckFeatureSupport ( D3D12_FEATURE_D3D12_OPTIONS , & options , sizeof ( options ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_UNAVAILABLE , " CheckFeatureSupport failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
// https://docs.microsoft.com/en-us/windows/win32/direct3d12/hardware-support
device_limits . max_srvs_per_shader_stage = options . ResourceBindingTier = = D3D12_RESOURCE_BINDING_TIER_1 ? 128 : UINT64_MAX ;
device_limits . max_cbvs_per_shader_stage = options . ResourceBindingTier < = D3D12_RESOURCE_BINDING_TIER_2 ? 14 : UINT64_MAX ;
device_limits . max_samplers_across_all_stages = options . ResourceBindingTier = = D3D12_RESOURCE_BINDING_TIER_1 ? 16 : 2048 ;
if ( options . ResourceBindingTier = = D3D12_RESOURCE_BINDING_TIER_1 ) {
device_limits . max_uavs_across_all_stages = feature_level < = 110 ? 8 : 64 ;
} else if ( options . ResourceBindingTier = = D3D12_RESOURCE_BINDING_TIER_2 ) {
device_limits . max_uavs_across_all_stages = 64 ;
} else {
device_limits . max_uavs_across_all_stages = UINT64_MAX ;
}
// Retrieving the timestamp frequency requires creating a command queue that will be discarded immediately.
ComPtr < ID3D12CommandQueue > unused_command_queue ;
D3D12_COMMAND_QUEUE_DESC queue_desc = { } ;
queue_desc . Type = D3D12_COMMAND_LIST_TYPE_DIRECT ;
res = device - > CreateCommandQueue ( & queue_desc , IID_PPV_ARGS ( unused_command_queue . GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
res = unused_command_queue - > GetTimestampFrequency ( & device_limits . timestamp_frequency ) ;
if ( ! SUCCEEDED ( res ) ) {
print_verbose ( " D3D12: GetTimestampFrequency failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . Timestamps will be inaccurate. " ) ;
}
return OK ;
}
Error RenderingDeviceDriverD3D12 : : _initialize_allocator ( ) {
D3D12MA : : ALLOCATOR_DESC allocator_desc = { } ;
allocator_desc . pDevice = device . Get ( ) ;
allocator_desc . pAdapter = adapter . Get ( ) ;
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allocator_desc . Flags = D3D12MA : : ALLOCATOR_FLAG_DEFAULT_POOLS_NOT_ZEROED ;
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HRESULT res = D3D12MA : : CreateAllocator ( & allocator_desc , & allocator ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE , " D3D12MA::CreateAllocator failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return OK ;
}
static Error create_command_signature ( ID3D12Device * device , D3D12_INDIRECT_ARGUMENT_TYPE p_type , uint32_t p_stride , ComPtr < ID3D12CommandSignature > * r_cmd_sig ) {
D3D12_INDIRECT_ARGUMENT_DESC iarg_desc = { } ;
iarg_desc . Type = p_type ;
D3D12_COMMAND_SIGNATURE_DESC cs_desc = { } ;
cs_desc . ByteStride = p_stride ;
cs_desc . NumArgumentDescs = 1 ;
cs_desc . pArgumentDescs = & iarg_desc ;
cs_desc . NodeMask = 0 ;
HRESULT res = device - > CreateCommandSignature ( & cs_desc , nullptr , IID_PPV_ARGS ( r_cmd_sig - > GetAddressOf ( ) ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE , " CreateCommandSignature failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
return OK ;
} ;
Error RenderingDeviceDriverD3D12 : : _initialize_frames ( uint32_t p_frame_count ) {
Error err ;
D3D12MA : : ALLOCATION_DESC allocation_desc = { } ;
allocation_desc . HeapType = D3D12_HEAP_TYPE_DEFAULT ;
CD3DX12_RESOURCE_DESC resource_desc = CD3DX12_RESOURCE_DESC : : Buffer ( D3D12_CONSTANT_BUFFER_DATA_PLACEMENT_ALIGNMENT ) ;
uint32_t resource_descriptors_per_frame = GLOBAL_GET ( " rendering/rendering_device/d3d12/max_resource_descriptors_per_frame " ) ;
uint32_t sampler_descriptors_per_frame = GLOBAL_GET ( " rendering/rendering_device/d3d12/max_sampler_descriptors_per_frame " ) ;
uint32_t misc_descriptors_per_frame = GLOBAL_GET ( " rendering/rendering_device/d3d12/max_misc_descriptors_per_frame " ) ;
frames . resize ( p_frame_count ) ;
for ( uint32_t i = 0 ; i < frames . size ( ) ; i + + ) {
err = frames [ i ] . desc_heaps . resources . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV , resource_descriptors_per_frame , true ) ;
ERR_FAIL_COND_V_MSG ( err ! = OK , ERR_CANT_CREATE , " Creating the frame's RESOURCE descriptors heap failed. " ) ;
err = frames [ i ] . desc_heaps . samplers . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_SAMPLER , sampler_descriptors_per_frame , true ) ;
ERR_FAIL_COND_V_MSG ( err ! = OK , ERR_CANT_CREATE , " Creating the frame's SAMPLER descriptors heap failed. " ) ;
err = frames [ i ] . desc_heaps . aux . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV , misc_descriptors_per_frame , false ) ;
ERR_FAIL_COND_V_MSG ( err ! = OK , ERR_CANT_CREATE , " Creating the frame's AUX descriptors heap failed. " ) ;
err = frames [ i ] . desc_heaps . rtv . allocate ( device . Get ( ) , D3D12_DESCRIPTOR_HEAP_TYPE_RTV , misc_descriptors_per_frame , false ) ;
ERR_FAIL_COND_V_MSG ( err ! = OK , ERR_CANT_CREATE , " Creating the frame's RENDER TARGET descriptors heap failed. " ) ;
frames [ i ] . desc_heap_walkers . resources = frames [ i ] . desc_heaps . resources . make_walker ( ) ;
frames [ i ] . desc_heap_walkers . samplers = frames [ i ] . desc_heaps . samplers . make_walker ( ) ;
frames [ i ] . desc_heap_walkers . aux = frames [ i ] . desc_heaps . aux . make_walker ( ) ;
frames [ i ] . desc_heap_walkers . rtv = frames [ i ] . desc_heaps . rtv . make_walker ( ) ;
ID3D12Resource * resource = nullptr ;
HRESULT res = allocator - > CreateResource ( & allocation_desc , & resource_desc , D3D12_RESOURCE_STATE_COMMON , nullptr , & frames [ frame_idx ] . aux_resource , IID_PPV_ARGS ( & resource ) ) ;
ERR_FAIL_COND_V_MSG ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE , " D3D12MA::CreateResource failed with error " + vformat ( " 0x%08ux " , ( uint64_t ) res ) + " . " ) ;
}
return OK ;
}
Error RenderingDeviceDriverD3D12 : : _initialize_command_signatures ( ) {
Error err = create_command_signature ( device . Get ( ) , D3D12_INDIRECT_ARGUMENT_TYPE_DRAW , sizeof ( D3D12_DRAW_ARGUMENTS ) , & indirect_cmd_signatures . draw ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = create_command_signature ( device . Get ( ) , D3D12_INDIRECT_ARGUMENT_TYPE_DRAW_INDEXED , sizeof ( D3D12_DRAW_INDEXED_ARGUMENTS ) , & indirect_cmd_signatures . draw_indexed ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = create_command_signature ( device . Get ( ) , D3D12_INDIRECT_ARGUMENT_TYPE_DISPATCH , sizeof ( D3D12_DISPATCH_ARGUMENTS ) , & indirect_cmd_signatures . dispatch ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
return OK ;
}
Error RenderingDeviceDriverD3D12 : : initialize ( uint32_t p_device_index , uint32_t p_frame_count ) {
context_device = context_driver - > device_get ( p_device_index ) ;
adapter = context_driver - > create_adapter ( p_device_index ) ;
ERR_FAIL_NULL_V ( adapter , ERR_CANT_CREATE ) ;
HRESULT res = adapter - > GetDesc ( & adapter_desc ) ;
ERR_FAIL_COND_V ( ! SUCCEEDED ( res ) , ERR_CANT_CREATE ) ;
// Set the pipeline cache ID based on the adapter information.
pipeline_cache_id = String : : hex_encode_buffer ( ( uint8_t * ) & adapter_desc . AdapterLuid , sizeof ( LUID ) ) ;
pipeline_cache_id + = " -driver- " + itos ( adapter_desc . Revision ) ;
Error err = _initialize_device ( ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = _check_capabilities ( ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = _get_device_limits ( ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = _initialize_allocator ( ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = _initialize_frames ( p_frame_count ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
err = _initialize_command_signatures ( ) ;
ERR_FAIL_COND_V ( err ! = OK , ERR_CANT_CREATE ) ;
glsl_type_singleton_init_or_ref ( ) ;
return OK ;
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}