src/utils/TestUtils.cpp - dawn - Git at Google

 // Copyright 2020 The Dawn Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "utils/TestUtils.h"

 #include "common/Assert.h"
 #include "common/Constants.h"
 #include "common/Math.h"
 #include "utils/TextureUtils.h"
 #include "utils/WGPUHelpers.h"

 #include <vector>

 namespace utils {

     uint32_t GetMinimumBytesPerRow(wgpu::TextureFormat format, uint32_t width) {
         const uint32_t bytesPerBlock = utils::GetTexelBlockSizeInBytes(format);
         const uint32_t blockWidth = utils::GetTextureFormatBlockWidth(format);
         ASSERT(width % blockWidth == 0);
         return Align(bytesPerBlock * (width / blockWidth), kTextureBytesPerRowAlignment);
     }

     TextureDataCopyLayout GetTextureDataCopyLayoutForTextureAtLevel(
         wgpu::TextureFormat format,
         wgpu::Extent3D textureSizeAtLevel0,
         uint32_t mipmapLevel,
         wgpu::TextureDimension dimension,
         uint32_t rowsPerImage) {
         // Compressed texture formats not supported in this function yet.
         ASSERT(utils::GetTextureFormatBlockWidth(format) == 1);

         TextureDataCopyLayout layout;

         layout.mipSize = {std::max(textureSizeAtLevel0.width >> mipmapLevel, 1u),
                           std::max(textureSizeAtLevel0.height >> mipmapLevel, 1u),
                           textureSizeAtLevel0.depthOrArrayLayers};

         if (dimension == wgpu::TextureDimension::e3D) {
             layout.mipSize.depthOrArrayLayers =
                 std::max(textureSizeAtLevel0.depthOrArrayLayers >> mipmapLevel, 1u);
         }

         layout.bytesPerRow = GetMinimumBytesPerRow(format, layout.mipSize.width);

         if (rowsPerImage == wgpu::kCopyStrideUndefined) {
             rowsPerImage = layout.mipSize.height;
         }
         layout.rowsPerImage = rowsPerImage;

         uint32_t appliedRowsPerImage = rowsPerImage > 0 ? rowsPerImage : layout.mipSize.height;
         layout.bytesPerImage = layout.bytesPerRow * appliedRowsPerImage;

         layout.byteLength =
             RequiredBytesInCopy(layout.bytesPerRow, appliedRowsPerImage, layout.mipSize, format);

         const uint32_t bytesPerTexel = utils::GetTexelBlockSizeInBytes(format);
         layout.texelBlocksPerRow = layout.bytesPerRow / bytesPerTexel;
         layout.texelBlocksPerImage = layout.bytesPerImage / bytesPerTexel;
         layout.texelBlockCount = layout.byteLength / bytesPerTexel;

         return layout;
     }

     uint64_t RequiredBytesInCopy(uint64_t bytesPerRow,
                                  uint64_t rowsPerImage,
                                  wgpu::Extent3D copyExtent,
                                  wgpu::TextureFormat textureFormat) {
         uint32_t blockSize = utils::GetTexelBlockSizeInBytes(textureFormat);
         uint32_t blockWidth = utils::GetTextureFormatBlockWidth(textureFormat);
         uint32_t blockHeight = utils::GetTextureFormatBlockHeight(textureFormat);
         ASSERT(copyExtent.width % blockWidth == 0);
         uint32_t widthInBlocks = copyExtent.width / blockWidth;
         ASSERT(copyExtent.height % blockHeight == 0);
         uint32_t heightInBlocks = copyExtent.height / blockHeight;
         return RequiredBytesInCopy(bytesPerRow, rowsPerImage, widthInBlocks, heightInBlocks,
                                    copyExtent.depthOrArrayLayers, blockSize);
     }

     uint64_t RequiredBytesInCopy(uint64_t bytesPerRow,
                                  uint64_t rowsPerImage,
                                  uint64_t widthInBlocks,
                                  uint64_t heightInBlocks,
                                  uint64_t depth,
                                  uint64_t bytesPerBlock) {
         if (depth == 0) {
             return 0;
         }

         uint64_t bytesPerImage = bytesPerRow * rowsPerImage;
         uint64_t requiredBytesInCopy = bytesPerImage * (depth - 1);
         if (heightInBlocks != 0) {
             uint64_t lastRowBytes = widthInBlocks * bytesPerBlock;
             uint64_t lastImageBytes = bytesPerRow * (heightInBlocks - 1) + lastRowBytes;
             requiredBytesInCopy += lastImageBytes;
         }
         return requiredBytesInCopy;
     }

     uint64_t GetTexelCountInCopyRegion(uint64_t bytesPerRow,
                                        uint64_t rowsPerImage,
                                        wgpu::Extent3D copyExtent,
                                        wgpu::TextureFormat textureFormat) {
         return RequiredBytesInCopy(bytesPerRow, rowsPerImage, copyExtent, textureFormat) /
                utils::GetTexelBlockSizeInBytes(textureFormat);
     }

     void UnalignDynamicUploader(wgpu::Device device) {
         std::vector<uint8_t> data = {1};

         wgpu::TextureDescriptor descriptor = {};
         descriptor.size = {1, 1, 1};
         descriptor.format = wgpu::TextureFormat::R8Unorm;
         descriptor.usage = wgpu::TextureUsage::CopyDst | wgpu::TextureUsage::CopySrc;
         wgpu::Texture texture = device.CreateTexture(&descriptor);

         wgpu::ImageCopyTexture imageCopyTexture =
             utils::CreateImageCopyTexture(texture, 0, {0, 0, 0});
         wgpu::TextureDataLayout textureDataLayout =
             utils::CreateTextureDataLayout(0, wgpu::kCopyStrideUndefined);
         wgpu::Extent3D copyExtent = {1, 1, 1};

         // WriteTexture with exactly 1 byte of data.
         device.GetQueue().WriteTexture(&imageCopyTexture, data.data(), 1, &textureDataLayout,
                                        &copyExtent);
     }

     uint32_t VertexFormatSize(wgpu::VertexFormat format) {
         switch (format) {
             case wgpu::VertexFormat::Uint8x2:
             case wgpu::VertexFormat::Sint8x2:
             case wgpu::VertexFormat::Unorm8x2:
             case wgpu::VertexFormat::Snorm8x2:
                 return 2;
             case wgpu::VertexFormat::Uint8x4:
             case wgpu::VertexFormat::Sint8x4:
             case wgpu::VertexFormat::Unorm8x4:
             case wgpu::VertexFormat::Snorm8x4:
             case wgpu::VertexFormat::Uint16x2:
             case wgpu::VertexFormat::Sint16x2:
             case wgpu::VertexFormat::Unorm16x2:
             case wgpu::VertexFormat::Snorm16x2:
             case wgpu::VertexFormat::Float16x2:
             case wgpu::VertexFormat::Float32:
             case wgpu::VertexFormat::Uint32:
             case wgpu::VertexFormat::Sint32:
                 return 4;
             case wgpu::VertexFormat::Uint16x4:
             case wgpu::VertexFormat::Sint16x4:
             case wgpu::VertexFormat::Unorm16x4:
             case wgpu::VertexFormat::Snorm16x4:
             case wgpu::VertexFormat::Float16x4:
             case wgpu::VertexFormat::Float32x2:
             case wgpu::VertexFormat::Uint32x2:
             case wgpu::VertexFormat::Sint32x2:
                 return 8;
             case wgpu::VertexFormat::Float32x3:
             case wgpu::VertexFormat::Uint32x3:
             case wgpu::VertexFormat::Sint32x3:
                 return 12;
             case wgpu::VertexFormat::Float32x4:
             case wgpu::VertexFormat::Uint32x4:
             case wgpu::VertexFormat::Sint32x4:
                 return 16;
             case wgpu::VertexFormat::Undefined:
                 break;
         }
         UNREACHABLE();
     }

 }  // namespace utils
	// Copyright 2020 The Dawn Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "utils/TestUtils.h"

	#include "common/Assert.h"
	#include "common/Constants.h"
	#include "common/Math.h"
	#include "utils/TextureUtils.h"
	#include "utils/WGPUHelpers.h"

	#include <vector>

	namespace utils {

	uint32_t GetMinimumBytesPerRow(wgpu::TextureFormat format, uint32_t width) {
	const uint32_t bytesPerBlock = utils::GetTexelBlockSizeInBytes(format);
	const uint32_t blockWidth = utils::GetTextureFormatBlockWidth(format);
	ASSERT(width % blockWidth == 0);
	return Align(bytesPerBlock * (width / blockWidth), kTextureBytesPerRowAlignment);
	}

	TextureDataCopyLayout GetTextureDataCopyLayoutForTextureAtLevel(
	wgpu::TextureFormat format,
	wgpu::Extent3D textureSizeAtLevel0,
	uint32_t mipmapLevel,
	wgpu::TextureDimension dimension,
	uint32_t rowsPerImage) {
	// Compressed texture formats not supported in this function yet.
	ASSERT(utils::GetTextureFormatBlockWidth(format) == 1);

	TextureDataCopyLayout layout;

	layout.mipSize = {std::max(textureSizeAtLevel0.width >> mipmapLevel, 1u),
	std::max(textureSizeAtLevel0.height >> mipmapLevel, 1u),
	textureSizeAtLevel0.depthOrArrayLayers};

	if (dimension == wgpu::TextureDimension::e3D) {
	layout.mipSize.depthOrArrayLayers =
	std::max(textureSizeAtLevel0.depthOrArrayLayers >> mipmapLevel, 1u);
	}

	layout.bytesPerRow = GetMinimumBytesPerRow(format, layout.mipSize.width);

	if (rowsPerImage == wgpu::kCopyStrideUndefined) {
	rowsPerImage = layout.mipSize.height;
	}
	layout.rowsPerImage = rowsPerImage;

	uint32_t appliedRowsPerImage = rowsPerImage > 0 ? rowsPerImage : layout.mipSize.height;
	layout.bytesPerImage = layout.bytesPerRow * appliedRowsPerImage;

	layout.byteLength =
	RequiredBytesInCopy(layout.bytesPerRow, appliedRowsPerImage, layout.mipSize, format);

	const uint32_t bytesPerTexel = utils::GetTexelBlockSizeInBytes(format);
	layout.texelBlocksPerRow = layout.bytesPerRow / bytesPerTexel;
	layout.texelBlocksPerImage = layout.bytesPerImage / bytesPerTexel;
	layout.texelBlockCount = layout.byteLength / bytesPerTexel;

	return layout;
	}

	uint64_t RequiredBytesInCopy(uint64_t bytesPerRow,
	uint64_t rowsPerImage,
	wgpu::Extent3D copyExtent,
	wgpu::TextureFormat textureFormat) {
	uint32_t blockSize = utils::GetTexelBlockSizeInBytes(textureFormat);
	uint32_t blockWidth = utils::GetTextureFormatBlockWidth(textureFormat);
	uint32_t blockHeight = utils::GetTextureFormatBlockHeight(textureFormat);
	ASSERT(copyExtent.width % blockWidth == 0);
	uint32_t widthInBlocks = copyExtent.width / blockWidth;
	ASSERT(copyExtent.height % blockHeight == 0);
	uint32_t heightInBlocks = copyExtent.height / blockHeight;
	return RequiredBytesInCopy(bytesPerRow, rowsPerImage, widthInBlocks, heightInBlocks,
	copyExtent.depthOrArrayLayers, blockSize);
	}

	uint64_t RequiredBytesInCopy(uint64_t bytesPerRow,
	uint64_t rowsPerImage,
	uint64_t widthInBlocks,
	uint64_t heightInBlocks,
	uint64_t depth,
	uint64_t bytesPerBlock) {
	if (depth == 0) {
	return 0;
	}

	uint64_t bytesPerImage = bytesPerRow * rowsPerImage;
	uint64_t requiredBytesInCopy = bytesPerImage * (depth - 1);
	if (heightInBlocks != 0) {
	uint64_t lastRowBytes = widthInBlocks * bytesPerBlock;
	uint64_t lastImageBytes = bytesPerRow * (heightInBlocks - 1) + lastRowBytes;
	requiredBytesInCopy += lastImageBytes;
	}
	return requiredBytesInCopy;
	}

	uint64_t GetTexelCountInCopyRegion(uint64_t bytesPerRow,
	uint64_t rowsPerImage,
	wgpu::Extent3D copyExtent,
	wgpu::TextureFormat textureFormat) {
	return RequiredBytesInCopy(bytesPerRow, rowsPerImage, copyExtent, textureFormat) /
	utils::GetTexelBlockSizeInBytes(textureFormat);
	}

	void UnalignDynamicUploader(wgpu::Device device) {
	std::vector<uint8_t> data = {1};

	wgpu::TextureDescriptor descriptor = {};
	descriptor.size = {1, 1, 1};
	descriptor.format = wgpu::TextureFormat::R8Unorm;
	descriptor.usage = wgpu::TextureUsage::CopyDst \| wgpu::TextureUsage::CopySrc;
	wgpu::Texture texture = device.CreateTexture(&descriptor);

	wgpu::ImageCopyTexture imageCopyTexture =
	utils::CreateImageCopyTexture(texture, 0, {0, 0, 0});
	wgpu::TextureDataLayout textureDataLayout =
	utils::CreateTextureDataLayout(0, wgpu::kCopyStrideUndefined);
	wgpu::Extent3D copyExtent = {1, 1, 1};

	// WriteTexture with exactly 1 byte of data.
	device.GetQueue().WriteTexture(&imageCopyTexture, data.data(), 1, &textureDataLayout,
	&copyExtent);
	}

	uint32_t VertexFormatSize(wgpu::VertexFormat format) {
	switch (format) {
	case wgpu::VertexFormat::Uint8x2:
	case wgpu::VertexFormat::Sint8x2:
	case wgpu::VertexFormat::Unorm8x2:
	case wgpu::VertexFormat::Snorm8x2:
	return 2;
	case wgpu::VertexFormat::Uint8x4:
	case wgpu::VertexFormat::Sint8x4:
	case wgpu::VertexFormat::Unorm8x4:
	case wgpu::VertexFormat::Snorm8x4:
	case wgpu::VertexFormat::Uint16x2:
	case wgpu::VertexFormat::Sint16x2:
	case wgpu::VertexFormat::Unorm16x2:
	case wgpu::VertexFormat::Snorm16x2:
	case wgpu::VertexFormat::Float16x2:
	case wgpu::VertexFormat::Float32:
	case wgpu::VertexFormat::Uint32:
	case wgpu::VertexFormat::Sint32:
	return 4;
	case wgpu::VertexFormat::Uint16x4:
	case wgpu::VertexFormat::Sint16x4:
	case wgpu::VertexFormat::Unorm16x4:
	case wgpu::VertexFormat::Snorm16x4:
	case wgpu::VertexFormat::Float16x4:
	case wgpu::VertexFormat::Float32x2:
	case wgpu::VertexFormat::Uint32x2:
	case wgpu::VertexFormat::Sint32x2:
	return 8;
	case wgpu::VertexFormat::Float32x3:
	case wgpu::VertexFormat::Uint32x3:
	case wgpu::VertexFormat::Sint32x3:
	return 12;
	case wgpu::VertexFormat::Float32x4:
	case wgpu::VertexFormat::Uint32x4:
	case wgpu::VertexFormat::Sint32x4:
	return 16;
	case wgpu::VertexFormat::Undefined:
	break;
	}
	UNREACHABLE();
	}

	} // namespace utils