Exemple #1
0
 TexturePitches StreamingTexture::GetPitches(SubResource subRes) const
 {
     auto arrayIndex = subRes >> 16u, mip = subRes & 0xffffu;
     auto* image = _image.GetImage(mip, arrayIndex, 0);
     if (image) return TexturePitches(unsigned(image->rowPitch), unsigned(image->slicePitch));
     return TexturePitches();
 }
Exemple #2
0
 size_t StreamingTexture::GetDataSize(SubResource subRes) const
 {
     auto arrayIndex = subRes >> 16u, mip = subRes & 0xffffu;
     auto* image = _image.GetImage(mip, arrayIndex, 0);
     if (image) return image->slicePitch;
     return 0;
 }
Exemple #3
0
 void* StreamingTexture::GetData(SubResource subRes)
 {
     auto arrayIndex = subRes >> 16u, mip = subRes & 0xffffu;
     auto* image = _image.GetImage(mip, arrayIndex, 0);
     if (image) return image->pixels;
     return nullptr;
 }
void convertTexture(const std::wstring& source, const std::wstring& dest, TextureFormat sourceFormat, TextureFormat destFormat, bool alpha){
	DirectX::ScratchImage srcImg;
	DirectX::TexMetadata srcMetadata;
	switch (sourceFormat)
	{	
	case TextureFormat::Dds:
		DirectX::LoadFromDDSFile(source.c_str(), 0, &srcMetadata, srcImg);
		break;
	case TextureFormat::Tga:
		DirectX::LoadFromTGAFile(source.c_str(), &srcMetadata, srcImg);
		break;
	default:
		DirectX::LoadFromWICFile(source.c_str(), 0, &srcMetadata, srcImg);
		break;
	}

	switch (destFormat)
	{
	case TextureFormat::Jpg:
		DirectX::SaveToWICFile(*srcImg.GetImage(0, 0, 0), 0, DirectX::GetWICCodec(DirectX::WICCodecs::WIC_CODEC_JPEG), dest.c_str());
		break;
	case TextureFormat::Png:
		DirectX::SaveToWICFile(*srcImg.GetImage(0, 0, 0), 0, DirectX::GetWICCodec(DirectX::WICCodecs::WIC_CODEC_PNG), dest.c_str());
		break;
	case TextureFormat::Dds:
	{
		DirectX::ScratchImage imgWithMipMaps;
		auto hr = DirectX::GenerateMipMaps(*srcImg.GetImage(0, 0, 0), DirectX::TEX_FILTER_FLAGS::TEX_FILTER_CUBIC, 0, imgWithMipMaps);

		DirectX::ScratchImage imgInBC2;
		//hr = DirectX::Convert(imgWithMipMaps.GetImages(), imgWithMipMaps.GetImageCount(), srcMetadata, DXGI_FORMAT_BC2_UNORM, DirectX::TEX_FILTER_FLAGS::TEX_FILTER_CUBIC, 0.5f, imgInBC2);
		hr = DirectX::Compress(imgWithMipMaps.GetImages(), imgWithMipMaps.GetImageCount(), imgWithMipMaps.GetMetadata(), alpha ? DXGI_FORMAT_BC3_UNORM : DXGI_FORMAT_BC1_UNORM, DirectX::TEX_COMPRESS_FLAGS::TEX_COMPRESS_DEFAULT | DirectX::TEX_COMPRESS_PARALLEL, 0.5f, imgInBC2);
		
		hr = DirectX::SaveToDDSFile(imgInBC2.GetImages(), imgInBC2.GetImageCount(), imgInBC2.GetMetadata(), 0, dest.c_str());
	}
		break;
	default:
		break;
	}
}
// -------------------------------------------------------------------------------------------------
bool TextureFactory::LoadResource(Resource* resource, const WCHAR * filename)
{

    if(!FileUtils::Exists(filename)) return false;
    HRESULT hr = S_OK;
    DirectX::TexMetadata metadata;
    DirectX::ScratchImage sourceScratch;
    hr = DXUtil::LoadTexture(filename,&metadata,sourceScratch);    
    if (Logger::IsFailureLog(hr, L"LoadTexture"))
    {
        return false;
    }

    ID3D11Texture2D* dxtex = NULL;
    std::wstring ext = FileUtils::GetExtensionLower(filename);
    // generate full mip chains for non dds file.
    if(ext != L".dds")
    {
        const DirectX::Image* srcImage = sourceScratch.GetImage(0, 0, 0);
        DirectX::ScratchImage mipScratch;
        hr = DirectX::GenerateMipMaps(*srcImage, DirectX::TEX_FILTER_LINEAR, 0, mipScratch, false);
        if (Logger::IsFailureLog(hr, L"DirectX::GenerateMipMaps"))
            return false;    

        hr = DirectX::CreateTexture(m_device, mipScratch.GetImages(), mipScratch.GetImageCount(), mipScratch.GetMetadata(),
                                    (ID3D11Resource**)&dxtex);
       

    }
    else
    {
        hr = DirectX::CreateTexture(m_device, sourceScratch.GetImages(), sourceScratch.GetImageCount(), metadata,(ID3D11Resource**)&dxtex);
    }

    if (Logger::IsFailureLog(hr, L"DirectX::CreateTexture"))
            return false;    
    
    ID3D11ShaderResourceView* texview = CreateTextureView(m_device, dxtex);
    if(!dxtex) return false;

    Texture* tex = (Texture*)resource;    
    tex->Set(dxtex,texview);    
    return true;
}
LVEDRENDERINGENGINE_API bool __stdcall LvEd_SaveRenderSurfaceToFile(ObjectGUID renderSurfaceId, wchar_t *fileName)
{
    ErrorHandler::ClearError();
       
    if(fileName == NULL || wcslen(fileName) == 0 )
    {
        ErrorHandler::SetError(ErrorType::UnknownError, L"%s: filename is empty", __WFUNCTION__);
        return false;
    }

    DirectX::ScratchImage scratchImg; 
    RenderSurface* renderSurface = reinterpret_cast<RenderSurface*>(renderSurfaceId);
    
    HRESULT hr = CaptureTexture(gD3D11->GetDevice(),::gD3D11->GetImmediateContext(),
        (ID3D11Resource*)renderSurface->GetColorBuffer()->GetTex(),scratchImg);
    if(FAILED(hr)) return false;
        
    const DirectX::Image* img = scratchImg.GetImage(0,0,0);

    ImageData imgdata;
    imgdata.InitFrom(img);
    imgdata.SaveToFile(fileName);   
    return SUCCEEDED(hr);
}
Exemple #7
0
inline void images_to_gv(std::string output_path, std::vector<std::string> imagePaths, float fps, int *done_frames, bool hasAlpha, std::shared_ptr<Dx11> dx, ofxCoroutine::Yield &yield) {
	if (imagePaths.empty()) {
		return;
	}

	// memory
	uint32_t _width = 0;
	uint32_t _height = 0;
	float _fps = fps;
	uint32_t _bufferSize = 0;

	std::vector<uint8_t> _lz4CompressBuffer;
	std::vector<Lz4Block> _lz4blocks;
	std::unique_ptr<GpuVideoIO> _io;

	int _index = 0;

	int width;
	int height;
	ofPixels img;
	ofLoadImage(img, imagePaths[0]);
	width = img.getWidth();
	height = img.getHeight();

	_width = width;
	_height = height;

	int blockcount = ((_width + 3) / 4) * ((_height + 3) / 4);
	int blocksize = 16;
	_bufferSize = blockcount * blocksize;

	// 書き出し開始
	_io = std::unique_ptr<GpuVideoIO>(new GpuVideoIO(output_path.c_str(), "wb"));

	// ヘッダー情報書き出し
#define W(v) if(_io->write(&v, sizeof(v)) != sizeof(v)) { assert(0); }
	W(_width);
	W(_height);

	uint32_t frameCount = (uint32_t)imagePaths.size();
	W(frameCount);
	W(_fps);
	uint32_t videoFmt = GPU_COMPRESS_BC7;
	W(videoFmt);
	W(_bufferSize);
#undef W

	int compressBound = LZ4_compressBound(_bufferSize);
	_lz4CompressBuffer.resize(compressBound);

	for (int i = 0; i < imagePaths.size(); ++i) {
		DirectX::TexMetadata metadata;
		DirectX::ScratchImage image;

		auto imgPath = ofToDataPath(imagePaths[i]);
		HRESULT hr = DirectX::LoadFromWICFile(to_wstring(imgPath).c_str(), 0, &metadata, image);
		if (FAILED(hr)) {
			abort();
		}


		DWORD flags = DirectX::TEX_COMPRESS_DEFAULT;
		flags |= DirectX::TEX_COMPRESS_PARALLEL;
		flags |= DirectX::TEX_COMPRESS_BC7_USE_3SUBSETS;
		flags |= DirectX::TEX_COMPRESS_UNIFORM;

		flags |= DirectX::TEX_COMPRESS_SRGB_IN;
		flags |= DirectX::TEX_COMPRESS_SRGB_OUT;

		float alphaWeight = hasAlpha ? 1.0f : 0.0f;
		DirectX::ScratchImage cImage;
		hr = DirectX::Compress(dx11->device(), *image.GetImage(0, 0, 0), DXGI_FORMAT_BC7_UNORM_SRGB, flags, alphaWeight, cImage);

		int src = cImage.GetPixelsSize();
		if (_bufferSize != cImage.GetPixelsSize()) {
			abort();
		}
		int compressed = LZ4_compress_HC((char *)cImage.GetPixels(),
						(char *)_lz4CompressBuffer.data(),
						_bufferSize, compressBound, LZ4HC_CLEVEL_MAX);

		// 住所を記録しつつ
		uint64_t head = _lz4blocks.empty() ? kRawMemoryAt : (_lz4blocks[_lz4blocks.size() - 1].address + _lz4blocks[_lz4blocks.size() - 1].size);
		Lz4Block lz4block;
		lz4block.address = head;
		lz4block.size = compressed;
		_lz4blocks.push_back(lz4block);

		// 書き込み
		if (_io->write(_lz4CompressBuffer.data(), compressed) != compressed) {
			assert(0);
		}

		(*done_frames)++;

		yield();
	}

	// 最後に住所を記録
	uint64_t size = _lz4blocks.size() * sizeof(Lz4Block);
	if (_io->write(_lz4blocks.data(), size) != size) {
		abort();
	}

	// ファイルをクローズ
	_io.reset();
	
	//for (;;) {
	//	if (_index < imagePaths.size()) {
	//		auto compress = [imagePaths, _width, _height, _squishFlag](int index, uint8_t *dst) {
	//			std::string src = imagePaths[index];

	//			ofPixels img;
	//			ofLoadImage(img, src);
	//			img.setImageType(OF_IMAGE_COLOR_ALPHA);

	//			squish::CompressImage(img.getData(), _width, _height, dst, _squishFlag);
	//		};

	//		const int kBatchCount = 32;
	//		int workCount = std::min((int)imagePaths.size() - _index, kBatchCount);

	//		uint32_t lz4sizes[kBatchCount];
	//		int compressBound = LZ4_compressBound(_bufferSize);

	//		_gpuCompressBuffer.resize(workCount * _bufferSize);
	//		_lz4CompressBuffer.resize(workCount * compressBound);

	//		tbb::parallel_for(tbb::blocked_range<int>(0, workCount, 1), [compress, _index, _bufferSize, compressBound, &lz4sizes, &_gpuCompressBuffer, &_lz4CompressBuffer, &done_frames](const tbb::blocked_range< int >& range) {
	//			for (int i = range.begin(); i != range.end(); i++) {
	//				compress(_index + i, _gpuCompressBuffer.data() + i * _bufferSize);
	//				lz4sizes[i] = LZ4_compress_HC((char *)_gpuCompressBuffer.data() + i * _bufferSize,
	//					(char *)_lz4CompressBuffer.data() + i * compressBound,
	//					_bufferSize, compressBound, 16);

	//				done_frames++;
	//			}
	//		});

	//		uint64_t head = _lz4blocks.empty() ? kRawMemoryAt : (_lz4blocks[_lz4blocks.size() - 1].address + _lz4blocks[_lz4blocks.size() - 1].size);
	//		for (int i = 0; i < workCount; i++) {
	//			// 住所を記録しつつ
	//			Lz4Block lz4block;
	//			lz4block.address = head;
	//			lz4block.size = lz4sizes[i];
	//			head += lz4block.size;
	//			_lz4blocks.push_back(lz4block);

	//			// 書き込み
	//			if (_io->write(_lz4CompressBuffer.data() + i * compressBound, lz4sizes[i]) != lz4sizes[i]) {
	//				assert(0);
	//			}
	//		}

	//		_index += workCount;

	//		// 強制離脱
	//		if (interrupt) {
	//			_io.reset();
	//			::remove(output_path.c_str());
	//			break;
	//		}
	//	}
	//	else {
	//		// 最後に住所を記録
	//		uint64_t size = _lz4blocks.size() * sizeof(Lz4Block);
	//		if (_io->write(_lz4blocks.data(), size) != size) {
	//			assert(0);
	//		}

	//		// ファイルをクローズ
	//		_io.reset();

	//		// 終了
	//		break;
	//	}
	//}
}