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417 lines
17 KiB
C++
417 lines
17 KiB
C++
/**************************************************************************/
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/* pixel_formats.h */
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/**************************************************************************/
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/* This file is part of: */
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/* GODOT ENGINE */
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/* https://godotengine.org */
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/**************************************************************************/
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/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
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/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
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/* */
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/* Permission is hereby granted, free of charge, to any person obtaining */
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/* a copy of this software and associated documentation files (the */
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/* "Software"), to deal in the Software without restriction, including */
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/* without limitation the rights to use, copy, modify, merge, publish, */
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/* distribute, sublicense, and/or sell copies of the Software, and to */
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/* permit persons to whom the Software is furnished to do so, subject to */
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/* the following conditions: */
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/* */
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/* The above copyright notice and this permission notice shall be */
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/* included in all copies or substantial portions of the Software. */
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/* */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
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/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
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/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
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/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
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/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
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/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
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/**************************************************************************/
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/**************************************************************************/
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/* */
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/* Portions of this code were derived from MoltenVK. */
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/* */
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/* Copyright (c) 2015-2023 The Brenwill Workshop Ltd. */
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/* (http://www.brenwill.com) */
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/* */
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/* Licensed under the Apache License, Version 2.0 (the "License"); */
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/* you may not use this file except in compliance with the License. */
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/* You may obtain a copy of the License at */
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/* */
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/* http://www.apache.org/licenses/LICENSE-2.0 */
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/* */
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/* Unless required by applicable law or agreed to in writing, software */
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/* distributed under the License is distributed on an "AS IS" BASIS, */
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/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
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/* implied. See the License for the specific language governing */
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/* permissions and limitations under the License. */
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/**************************************************************************/
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#ifndef PIXEL_FORMATS_H
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#define PIXEL_FORMATS_H
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#pragma clang diagnostic push
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#pragma clang diagnostic ignored "-Wdeprecated-declarations"
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#import "servers/rendering/rendering_device.h"
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#import <Metal/Metal.h>
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static const uint32_t _mtlPixelFormatCount = 256;
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static const uint32_t _mtlPixelFormatCoreCount = MTLPixelFormatX32_Stencil8 + 2; // The actual last enum value is not available on iOS.
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static const uint32_t _mtlVertexFormatCount = MTLVertexFormatHalf + 1;
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#pragma mark -
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#pragma mark Metal format capabilities
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typedef enum : uint16_t {
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kMTLFmtCapsNone = 0,
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/*! The format can be used in a shader read operation. */
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kMTLFmtCapsRead = (1 << 0),
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/*! The format can be used in a shader filter operation during sampling. */
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kMTLFmtCapsFilter = (1 << 1),
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/*! The format can be used in a shader write operation. */
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kMTLFmtCapsWrite = (1 << 2),
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/*! The format can be used with atomic operations. */
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kMTLFmtCapsAtomic = (1 << 3),
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/*! The format can be used as a color attachment. */
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kMTLFmtCapsColorAtt = (1 << 4),
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/*! The format can be used as a depth-stencil attachment. */
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kMTLFmtCapsDSAtt = (1 << 5),
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/*! The format can be used with blend operations. */
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kMTLFmtCapsBlend = (1 << 6),
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/*! The format can be used as a destination for multisample antialias (MSAA) data. */
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kMTLFmtCapsMSAA = (1 << 7),
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/*! The format can be used as a resolve attachment. */
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kMTLFmtCapsResolve = (1 << 8),
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kMTLFmtCapsVertex = (1 << 9),
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kMTLFmtCapsRF = (kMTLFmtCapsRead | kMTLFmtCapsFilter),
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kMTLFmtCapsRC = (kMTLFmtCapsRead | kMTLFmtCapsColorAtt),
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kMTLFmtCapsRCB = (kMTLFmtCapsRC | kMTLFmtCapsBlend),
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kMTLFmtCapsRCM = (kMTLFmtCapsRC | kMTLFmtCapsMSAA),
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kMTLFmtCapsRCMB = (kMTLFmtCapsRCM | kMTLFmtCapsBlend),
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kMTLFmtCapsRWC = (kMTLFmtCapsRC | kMTLFmtCapsWrite),
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kMTLFmtCapsRWCB = (kMTLFmtCapsRWC | kMTLFmtCapsBlend),
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kMTLFmtCapsRWCM = (kMTLFmtCapsRWC | kMTLFmtCapsMSAA),
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kMTLFmtCapsRWCMB = (kMTLFmtCapsRWCM | kMTLFmtCapsBlend),
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kMTLFmtCapsRFCMRB = (kMTLFmtCapsRCMB | kMTLFmtCapsFilter | kMTLFmtCapsResolve),
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kMTLFmtCapsRFWCMB = (kMTLFmtCapsRWCMB | kMTLFmtCapsFilter),
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kMTLFmtCapsAll = (kMTLFmtCapsRFWCMB | kMTLFmtCapsResolve),
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kMTLFmtCapsDRM = (kMTLFmtCapsDSAtt | kMTLFmtCapsRead | kMTLFmtCapsMSAA),
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kMTLFmtCapsDRFM = (kMTLFmtCapsDRM | kMTLFmtCapsFilter),
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kMTLFmtCapsDRMR = (kMTLFmtCapsDRM | kMTLFmtCapsResolve),
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kMTLFmtCapsDRFMR = (kMTLFmtCapsDRFM | kMTLFmtCapsResolve),
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kMTLFmtCapsChromaSubsampling = kMTLFmtCapsRF,
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kMTLFmtCapsMultiPlanar = kMTLFmtCapsChromaSubsampling,
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} MTLFmtCaps;
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inline MTLFmtCaps operator|(MTLFmtCaps p_left, MTLFmtCaps p_right) {
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return static_cast<MTLFmtCaps>(static_cast<uint32_t>(p_left) | p_right);
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}
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inline MTLFmtCaps &operator|=(MTLFmtCaps &p_left, MTLFmtCaps p_right) {
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return (p_left = p_left | p_right);
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}
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#pragma mark -
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#pragma mark Metal view classes
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enum class MTLViewClass : uint8_t {
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None,
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Color8,
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Color16,
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Color32,
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Color64,
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Color128,
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PVRTC_RGB_2BPP,
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PVRTC_RGB_4BPP,
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PVRTC_RGBA_2BPP,
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PVRTC_RGBA_4BPP,
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EAC_R11,
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EAC_RG11,
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EAC_RGBA8,
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ETC2_RGB8,
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ETC2_RGB8A1,
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ASTC_4x4,
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ASTC_5x4,
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ASTC_5x5,
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ASTC_6x5,
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ASTC_6x6,
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ASTC_8x5,
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ASTC_8x6,
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ASTC_8x8,
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ASTC_10x5,
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ASTC_10x6,
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ASTC_10x8,
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ASTC_10x10,
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ASTC_12x10,
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ASTC_12x12,
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BC1_RGBA,
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BC2_RGBA,
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BC3_RGBA,
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BC4_R,
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BC5_RG,
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BC6H_RGB,
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BC7_RGBA,
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Depth24_Stencil8,
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Depth32_Stencil8,
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BGRA10_XR,
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BGR10_XR
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};
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#pragma mark -
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#pragma mark Format descriptors
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/** Enumerates the data type of a format. */
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enum class MTLFormatType {
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None, /**< Format type is unknown. */
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ColorHalf, /**< A 16-bit floating point color. */
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ColorFloat, /**< A 32-bit floating point color. */
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ColorInt8, /**< A signed 8-bit integer color. */
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ColorUInt8, /**< An unsigned 8-bit integer color. */
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ColorInt16, /**< A signed 16-bit integer color. */
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ColorUInt16, /**< An unsigned 16-bit integer color. */
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ColorInt32, /**< A signed 32-bit integer color. */
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ColorUInt32, /**< An unsigned 32-bit integer color. */
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DepthStencil, /**< A depth and stencil value. */
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Compressed, /**< A block-compressed color. */
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};
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typedef struct Extent2D {
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uint32_t width;
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uint32_t height;
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} Extent2D;
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/** Describes the properties of a DataFormat, including the corresponding Metal pixel and vertex format. */
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typedef struct DataFormatDesc {
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RD::DataFormat dataFormat;
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MTLPixelFormat mtlPixelFormat;
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MTLPixelFormat mtlPixelFormatSubstitute;
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MTLVertexFormat mtlVertexFormat;
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MTLVertexFormat mtlVertexFormatSubstitute;
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uint8_t chromaSubsamplingPlaneCount;
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uint8_t chromaSubsamplingComponentBits;
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Extent2D blockTexelSize;
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uint32_t bytesPerBlock;
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MTLFormatType formatType;
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const char *name;
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bool hasReportedSubstitution;
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inline double bytesPerTexel() const { return (double)bytesPerBlock / (double)(blockTexelSize.width * blockTexelSize.height); }
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inline bool isSupported() const { return (mtlPixelFormat != MTLPixelFormatInvalid || chromaSubsamplingPlaneCount > 1); }
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inline bool isSupportedOrSubstitutable() const { return isSupported() || (mtlPixelFormatSubstitute != MTLPixelFormatInvalid); }
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inline bool vertexIsSupported() const { return (mtlVertexFormat != MTLVertexFormatInvalid); }
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inline bool vertexIsSupportedOrSubstitutable() const { return vertexIsSupported() || (mtlVertexFormatSubstitute != MTLVertexFormatInvalid); }
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} DataFormatDesc;
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/** Describes the properties of a MTLPixelFormat or MTLVertexFormat. */
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typedef struct MTLFormatDesc {
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union {
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MTLPixelFormat mtlPixelFormat;
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MTLVertexFormat mtlVertexFormat;
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};
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RD::DataFormat dataFormat;
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MTLFmtCaps mtlFmtCaps;
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MTLViewClass mtlViewClass;
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MTLPixelFormat mtlPixelFormatLinear;
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const char *name = nullptr;
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inline bool isSupported() const { return (mtlPixelFormat != MTLPixelFormatInvalid) && (mtlFmtCaps != kMTLFmtCapsNone); }
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} MTLFormatDesc;
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class API_AVAILABLE(macos(11.0), ios(14.0)) PixelFormats {
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using DataFormat = RD::DataFormat;
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public:
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/** Returns whether the DataFormat is supported by the GPU bound to this instance. */
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bool isSupported(DataFormat p_format);
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/** Returns whether the DataFormat is supported by this implementation, or can be substituted by one that is. */
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bool isSupportedOrSubstitutable(DataFormat p_format);
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/** Returns whether the specified Metal MTLPixelFormat can be used as a depth format. */
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_FORCE_INLINE_ bool isDepthFormat(MTLPixelFormat p_format) {
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switch (p_format) {
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case MTLPixelFormatDepth32Float:
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case MTLPixelFormatDepth16Unorm:
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case MTLPixelFormatDepth32Float_Stencil8:
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#if TARGET_OS_OSX
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case MTLPixelFormatDepth24Unorm_Stencil8:
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#endif
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return true;
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default:
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return false;
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}
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}
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/** Returns whether the specified Metal MTLPixelFormat can be used as a stencil format. */
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_FORCE_INLINE_ bool isStencilFormat(MTLPixelFormat p_format) {
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switch (p_format) {
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case MTLPixelFormatStencil8:
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#if TARGET_OS_OSX
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case MTLPixelFormatDepth24Unorm_Stencil8:
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case MTLPixelFormatX24_Stencil8:
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#endif
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case MTLPixelFormatDepth32Float_Stencil8:
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case MTLPixelFormatX32_Stencil8:
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return true;
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default:
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return false;
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}
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}
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/** Returns whether the specified Metal MTLPixelFormat is a PVRTC format. */
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bool isPVRTCFormat(MTLPixelFormat p_format);
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/** Returns the format type corresponding to the specified Godot pixel format, */
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MTLFormatType getFormatType(DataFormat p_format);
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/** Returns the format type corresponding to the specified Metal MTLPixelFormat, */
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MTLFormatType getFormatType(MTLPixelFormat p_formt);
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/**
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* Returns the Metal MTLPixelFormat corresponding to the specified Godot pixel
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* or returns MTLPixelFormatInvalid if no corresponding MTLPixelFormat exists.
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*/
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MTLPixelFormat getMTLPixelFormat(DataFormat p_format);
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/**
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* Returns the DataFormat corresponding to the specified Metal MTLPixelFormat,
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* or returns DATA_FORMAT_MAX if no corresponding DataFormat exists.
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*/
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DataFormat getDataFormat(MTLPixelFormat p_format);
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/**
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* Returns the size, in bytes, of a texel block of the specified Godot pixel.
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* For uncompressed formats, the returned value corresponds to the size in bytes of a single texel.
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*/
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uint32_t getBytesPerBlock(DataFormat p_format);
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/**
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* Returns the size, in bytes, of a texel block of the specified Metal format.
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* For uncompressed formats, the returned value corresponds to the size in bytes of a single texel.
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*/
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uint32_t getBytesPerBlock(MTLPixelFormat p_format);
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/** Returns the number of planes of the specified chroma-subsampling (YCbCr) DataFormat */
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uint8_t getChromaSubsamplingPlaneCount(DataFormat p_format);
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/** Returns the number of bits per channel of the specified chroma-subsampling (YCbCr) DataFormat */
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uint8_t getChromaSubsamplingComponentBits(DataFormat p_format);
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/**
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* Returns the size, in bytes, of a texel of the specified Godot format.
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* The returned value may be fractional for certain compressed formats.
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*/
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float getBytesPerTexel(DataFormat p_format);
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/**
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* Returns the size, in bytes, of a texel of the specified Metal format.
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* The returned value may be fractional for certain compressed formats.
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*/
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float getBytesPerTexel(MTLPixelFormat p_format);
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/**
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* Returns the size, in bytes, of a row of texels of the specified Godot pixel format.
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*
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* For compressed formats, this takes into consideration the compression block size,
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* and p_texels_per_row should specify the width in texels, not blocks. The result is rounded
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* up if p_texels_per_row is not an integer multiple of the compression block width.
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*/
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size_t getBytesPerRow(DataFormat p_format, uint32_t p_texels_per_row);
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/**
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* Returns the size, in bytes, of a row of texels of the specified Metal format.
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*
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* For compressed formats, this takes into consideration the compression block size,
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* and texelsPerRow should specify the width in texels, not blocks. The result is rounded
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* up if texelsPerRow is not an integer multiple of the compression block width.
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*/
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size_t getBytesPerRow(MTLPixelFormat p_format, uint32_t p_texels_per_row);
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/**
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* Returns the size, in bytes, of a texture layer of the specified Godot pixel format.
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*
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* For compressed formats, this takes into consideration the compression block size,
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* and p_texel_rows_per_layer should specify the height in texels, not blocks. The result is
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* rounded up if p_texel_rows_per_layer is not an integer multiple of the compression block height.
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*/
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size_t getBytesPerLayer(DataFormat p_format, size_t p_bytes_per_row, uint32_t p_texel_rows_per_layer);
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/**
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* Returns the size, in bytes, of a texture layer of the specified Metal format.
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* For compressed formats, this takes into consideration the compression block size,
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* and p_texel_rows_per_layer should specify the height in texels, not blocks. The result is
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* rounded up if p_texel_rows_per_layer is not an integer multiple of the compression block height.
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*/
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size_t getBytesPerLayer(MTLPixelFormat p_format, size_t p_bytes_per_row, uint32_t p_texel_rows_per_layer);
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/** Returns the Metal format capabilities supported by the specified Godot format, without substitution. */
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MTLFmtCaps getCapabilities(DataFormat p_format, bool p_extended = false);
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/** Returns the Metal format capabilities supported by the specified Metal format. */
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MTLFmtCaps getCapabilities(MTLPixelFormat p_format, bool p_extended = false);
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/**
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* Returns the Metal MTLVertexFormat corresponding to the specified
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* DataFormat as used as a vertex attribute format.
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*/
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MTLVertexFormat getMTLVertexFormat(DataFormat p_format);
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#pragma mark Construction
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explicit PixelFormats(id<MTLDevice> p_device);
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protected:
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id<MTLDevice> device;
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DataFormatDesc &getDataFormatDesc(DataFormat p_format);
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DataFormatDesc &getDataFormatDesc(MTLPixelFormat p_format);
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MTLFormatDesc &getMTLPixelFormatDesc(MTLPixelFormat p_format);
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MTLFormatDesc &getMTLVertexFormatDesc(MTLVertexFormat p_format);
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void initDataFormatCapabilities();
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void initMTLPixelFormatCapabilities();
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void initMTLVertexFormatCapabilities();
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void buildMTLFormatMaps();
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void buildDFFormatMaps();
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void modifyMTLFormatCapabilities();
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void modifyMTLFormatCapabilities(id<MTLDevice> p_device);
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void addMTLPixelFormatCapabilities(id<MTLDevice> p_device,
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MTLFeatureSet p_feature_set,
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MTLPixelFormat p_format,
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MTLFmtCaps p_caps);
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void addMTLPixelFormatCapabilities(id<MTLDevice> p_device,
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MTLGPUFamily p_family,
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MTLPixelFormat p_format,
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MTLFmtCaps p_caps);
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void disableMTLPixelFormatCapabilities(MTLPixelFormat p_format,
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MTLFmtCaps p_caps);
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void disableAllMTLPixelFormatCapabilities(MTLPixelFormat p_format);
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void addMTLVertexFormatCapabilities(id<MTLDevice> p_device,
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MTLFeatureSet p_feature_set,
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MTLVertexFormat p_format,
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MTLFmtCaps p_caps);
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DataFormatDesc _dataFormatDescriptions[RD::DATA_FORMAT_MAX];
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MTLFormatDesc _mtlPixelFormatDescriptions[_mtlPixelFormatCount];
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MTLFormatDesc _mtlVertexFormatDescriptions[_mtlVertexFormatCount];
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// Most Metal formats have small values and are mapped by simple lookup array.
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// Outliers are mapped by a map.
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uint16_t _mtlFormatDescIndicesByMTLPixelFormatsCore[_mtlPixelFormatCoreCount];
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HashMap<uint32_t, uint32_t> _mtlFormatDescIndicesByMTLPixelFormatsExt;
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uint16_t _mtlFormatDescIndicesByMTLVertexFormats[_mtlVertexFormatCount];
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};
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#pragma clang diagnostic pop
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#endif // PIXEL_FORMATS_H
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