static public void Main(string[] args) { ConfirmQuickSyncReadiness.HaltIfNotReady(); Environment.CurrentDirectory = AppDomain.CurrentDomain.BaseDirectory; // keep ascending directories until 'media' folder is found for (int i = 0; i < 10 && !Directory.Exists("Media"); i++) { Directory.SetCurrentDirectory(".."); } Directory.SetCurrentDirectory("Media"); mfxIMPL impl = mfxIMPL.MFX_IMPL_AUTO; CodecId inputCodecId = CodecId.MFX_CODEC_JPEG; CodecId outputCodecId = CodecId.MFX_CODEC_JPEG; string outputExtension = ".transcoded.264";//this should match codecld above string inFilename; inFilename = @"C:\x\core-imaging-playground\images\IMG_2301.jpg"; // inFilename = "BigBuckBunny_320x180.264"; //inFilename = "BigBuckBunny_1920x1080.264"; //inFilename = "BigBuckBunny_3840x2160.264"; string outFilename = Path.ChangeExtension(inFilename, outputExtension); Console.WriteLine("Working directory: {0}", Environment.CurrentDirectory); Console.WriteLine("Input filename: {0}", inFilename); Console.WriteLine(); if (!File.Exists(inFilename)) { Console.WriteLine("Input file not found. Press any key to exit."); Console.ReadKey(); return; } Stream infs, outfs; BenchmarkTimer bt = null; #if !ENABLE_BENCHMARK infs = File.Open(inFilename, FileMode.Open); outfs = File.Open(outFilename, FileMode.Create); #else // delete this code for most simple example // * Benchmark Mode * // this block does a couple things: // 1. causes the file to be pre-read into memory so we are not timing disk reads. // 2. replaces the output stream with a NullStream so nothing gets written to disk. // 3. Starts the timer for benchmarking // this pre-reads file into memory for benchmarking // maximumMemoryToAllocate = (long)4L * 1024 * 1024 * 1024; Console.WriteLine("Pre-reading input"); infs = new PreReadLargeMemoryStream(File.Open(inFilename, FileMode.Open)); Console.WriteLine("Input read"); outfs = new NullStream(); bt = new BenchmarkTimer(); bt.Start(); //int minimumFrames = 4000; #endif Console.WriteLine("Output filename: {0}", Path.GetFileName((outfs as FileStream)?.Name ?? "NO OUTPUT")); Console.WriteLine(); var config = TranscoderConfiguration.BuildTranscoderConfigurationFromStream(infs, inputCodecId, outputCodecId); var transcoder = new StreamTranscoder(infs, config, impl, false); string impltext = QuickSyncStatic.ImplementationString(transcoder.lowLevelTranscoder.session); Console.WriteLine("Implementation = {0}", impltext); //string memtext = QuickSyncStatic.ImplementationString(transcoder.lowLevelTranscoder.deviceSetup.memType); //Console.WriteLine("Memory type = {0}", memtext); int modulo = 100; int count = 0; foreach (var item in transcoder.GetFrames()) { outfs.Write(item.bitstream, 0, item.bytesAvailable); if (++count % modulo == 0) { Console.Write("Frames transcoded {0}\r", count); } } Console.WriteLine("Frames transcoded {0}", count); Console.WriteLine(); if (bt != null) { bt.StopAndReport(count, infs.Position, outfs.Position); } infs.Close(); outfs.Close(); if (Debugger.IsAttached) { Console.WriteLine("done - press a key to exit"); Console.ReadKey(); } }
static void Main(string[] args) { ConfirmQuickSyncReadiness.HaltIfNotReady(); Environment.CurrentDirectory = AppDomain.CurrentDomain.BaseDirectory; // keep ascending directories until 'media' folder is found for (int i = 0; i < 10 && !Directory.Exists("Media"); i++) { Directory.SetCurrentDirectory(".."); } Directory.SetCurrentDirectory("Media"); int width, height; string inFilename; mfxIMPL impl = mfxIMPL.MFX_IMPL_AUTO; FourCC fourcc = FourCC.NV12; // supported: RGB3 RGB4 BGR4 BGR3 NV12 I420 IYUV YUY2 UYVY YV12 P411 P422 inFilename = "BigBuckBunny_320x180." + fourcc + ".yuv"; width = 320; height = 180; //inFilename = "BigBuckBunny_1920x1080." + fourcc + ".yuv"; width = 1920; height = 1080; string outFilename = Path.ChangeExtension(inFilename, "enc.264"); Console.WriteLine("Working directory: {0}", Environment.CurrentDirectory); Console.WriteLine("Input filename: {0}", inFilename); Console.WriteLine("Input width: {0} Input height: {1}", width, height); Console.WriteLine(); if (!File.Exists(inFilename)) { Console.WriteLine("Input file not found."); Console.WriteLine("Please let Decoder1 run to completion to create input file"); Console.WriteLine("Press any key to exit."); Console.ReadKey(); return; } Stream infs, outfs; BenchmarkTimer bt = null; #if !ENABLE_BENCHMARK infs = File.Open(inFilename, FileMode.Open); outfs = File.Open(outFilename, FileMode.Create); #else // delete this code for most simple example // * Benchmark Mode * // this block does a couple things: // 1. causes the file to be pre-read into memory so we are not timing disk reads. // 2. replaces the output stream with a NullStream so nothing gets written to disk. // 3. Starts the timer for benchmarking // this pre-reads file into memory for benchmarking long maximumMemoryToAllocate = (long)4L * 1024 * 1024 * 1024; Console.WriteLine("Pre-reading input"); infs = new PreReadLargeMemoryStream(File.Open(inFilename, FileMode.Open), maximumMemoryToAllocate); Console.WriteLine("Input read"); outfs = new NullStream(); bt = new BenchmarkTimer(); bt.Start(); int minimumFrames = 4000; #endif Console.WriteLine("Output filename: {0}", Path.GetFileName((outfs as FileStream)?.Name ?? "NO OUTPUT")); Console.WriteLine(); mfxVideoParam mfxEncParams = new mfxVideoParam(); mfxEncParams.mfx.CodecId = CodecId.MFX_CODEC_AVC; mfxEncParams.mfx.TargetUsage = TargetUsage.MFX_TARGETUSAGE_BALANCED; mfxEncParams.mfx.TargetKbps = 2000; mfxEncParams.mfx.RateControlMethod = RateControlMethod.MFX_RATECONTROL_VBR; mfxEncParams.mfx.FrameInfo.FrameRateExtN = 30; mfxEncParams.mfx.FrameInfo.FrameRateExtD = 1; mfxEncParams.mfx.FrameInfo.FourCC = FourCC.NV12; mfxEncParams.mfx.FrameInfo.ChromaFormat = ChromaFormat.MFX_CHROMAFORMAT_YUV420; mfxEncParams.mfx.FrameInfo.PicStruct = PicStruct.MFX_PICSTRUCT_PROGRESSIVE; mfxEncParams.mfx.FrameInfo.CropX = 0; mfxEncParams.mfx.FrameInfo.CropY = 0; mfxEncParams.mfx.FrameInfo.CropW = (ushort)width; mfxEncParams.mfx.FrameInfo.CropH = (ushort)height; // Width must be a multiple of 16 // Height must be a multiple of 16 in case of frame picture and a multiple of 32 in case of field picture mfxEncParams.mfx.FrameInfo.Width = QuickSyncStatic.ALIGN16(width); mfxEncParams.mfx.FrameInfo.Height = QuickSyncStatic.AlignHeightTo32or16(height, mfxEncParams.mfx.FrameInfo.PicStruct); mfxEncParams.IOPattern = IOPattern.MFX_IOPATTERN_IN_SYSTEM_MEMORY; // must be 'in system memory' mfxEncParams.AsyncDepth = 4; // Pipeline depth. Best at 4 BitStreamChunk bsc = new BitStreamChunk(); //where we receive compressed frame data //var encoder = new LowLevelEncoder2(mfxEncParams, impl); ILowLevelEncoder encoder = new LowLevelEncoder(mfxEncParams, impl); string impltext = QuickSyncStatic.ImplementationString(encoder.session); Console.WriteLine("Implementation = {0}", impltext); //string memtext = QuickSyncStatic.ImplementationString(encoder.deviceSetup.memType); //Console.WriteLine("Memory type = {0}", memtext); var formatConverter = new NV12FromXXXXConverter(fourcc, width, height); int inputFrameLength = width * height * VideoUtility.GetBitsPerPixel(fourcc) / 8; byte[] uncompressed = new byte[inputFrameLength]; int count = 0; while (infs.Read(uncompressed, 0, inputFrameLength) == inputFrameLength) { int ix = encoder.GetFreeFrameIndex(); //get index of free surface formatConverter.ConvertToNV12FrameSurface(ref encoder.Frames[ix], uncompressed, 0); encoder.EncodeFrame(ix, ref bsc); if (bsc.bytesAvailable > 0) { outfs.Write(bsc.bitstream, 0, bsc.bytesAvailable); if (++count % 100 == 0) { Console.Write("Frame {0}\r", count); } } #if ENABLE_BENCHMARK // delete this code for most simple example if (infs.Position + inputFrameLength - 1 >= infs.Length) { infs.Position = 0; } if (count >= minimumFrames) { break; } #endif } while (encoder.Flush(ref bsc)) { if (bsc.bytesAvailable > 0) { outfs.Write(bsc.bitstream, 0, bsc.bytesAvailable); if (++count % 100 == 0) { Console.Write("Frame {0}\r", count); } } } if (bt != null) { bt.StopAndReport(count, infs.Position, outfs.Position); } infs.Close(); outfs.Close(); encoder.Dispose(); Console.WriteLine("Encoded {0} frames", count); if (Debugger.IsAttached) { Console.WriteLine("done - press a key to exit"); Console.ReadKey(); } }
unsafe static void Main(string[] args) { ConfirmQuickSyncReadiness.HaltIfNotReady(); Environment.CurrentDirectory = AppDomain.CurrentDomain.BaseDirectory; // keep ascending directories until 'media' folder is found for (int i = 0; i < 10 && !Directory.Exists("Media"); i++) { Directory.SetCurrentDirectory(".."); } Directory.SetCurrentDirectory("Media"); CodecId codecId = CodecId.MFX_CODEC_JPEG; FourCC fourcc = FourCC.UYVY; // supported: RGB4, YUY2 NV12 [UYVY through tricks! see below] mfxIMPL impl = mfxIMPL.MFX_IMPL_AUTO; int width, height; string inFilename; //inFilename = "BigBuckBunny_320x180." + fourcc + ".yuv"; width = 320; height = 180; inFilename = "BigBuckBunny_1920x1080." + fourcc + ".yuv"; width = 1920; height = 1080; string outFilename = Path.ChangeExtension(inFilename, "enc.jpeg"); Console.WriteLine("Working directory: {0}", Environment.CurrentDirectory); Console.WriteLine("Input filename: {0}", inFilename); Console.WriteLine("Input width: {0} Input height: {1}", width, height); if (!File.Exists(inFilename)) { Console.WriteLine("Input file not found."); Console.WriteLine("Please let Decoder1 run to completion to create input file"); Console.WriteLine("Press any key to exit."); Console.ReadKey(); return; } Stream infs, outfs; BenchmarkTimer bt = null; #if !ENABLE_BENCHMARK infs = File.Open(inFilename, FileMode.Open); outfs = File.Open(outFilename, FileMode.Create); #else // delete this code for most simple example // * Benchmark Mode * // this block does a couple things: // 1. causes the file to be pre-read into memory so we are not timing disk reads. // 2. replaces the output stream with a NullStream so nothing gets written to disk. // 3. Starts the timer for benchmarking // this pre-reads file into memory for benchmarking long maximumMemoryToAllocate = (long)4L * 1024 * 1024 * 1024; Console.WriteLine("Pre-reading input"); infs = new PreReadLargeMemoryStream(File.Open(inFilename, FileMode.Open), maximumMemoryToAllocate); Console.WriteLine("Input read"); outfs = new NullStream(); bt = new BenchmarkTimer(); bt.Start(); int minimumFrames = 4000; #endif Console.WriteLine("Output filename: {0}", Path.GetFileName((outfs as FileStream)?.Name ?? "NO OUTPUT")); Console.WriteLine(); // The encoder cannot encode UYVY, but if you are the only decoder of the JPEG // files, you can encode UYVY as YUY2 and everything is good. if (fourcc == FourCC.UYVY) { fourcc = FourCC.YUY2; } mfxVideoParam mfxEncParams = new mfxVideoParam(); mfxEncParams.mfx.CodecId = codecId; mfxEncParams.mfx.TargetUsage = TargetUsage.MFX_TARGETUSAGE_BALANCED; //mfxEncParams.mfx.TargetKbps = 2000; //mfxEncParams.mfx.RateControlMethod = RateControlMethod.MFX_RATECONTROL_VBR; mfxEncParams.mfx.Quality = 90; mfxEncParams.mfx.Interleaved = 1; mfxEncParams.mfx.FrameInfo.FrameRateExtN = 30; mfxEncParams.mfx.FrameInfo.FrameRateExtD = 1; mfxEncParams.mfx.FrameInfo.FourCC = fourcc; switch (fourcc) { case FourCC.NV12: case FourCC.YV12: mfxEncParams.mfx.FrameInfo.ChromaFormat = ChromaFormat.MFX_CHROMAFORMAT_YUV420; break; case FourCC.YUY2: mfxEncParams.mfx.FrameInfo.ChromaFormat = ChromaFormat.MFX_CHROMAFORMAT_YUV422V; // fatal on SKYLAKE! mfxEncParams.mfx.FrameInfo.ChromaFormat = ChromaFormat.MFX_CHROMAFORMAT_YUV422; break; case FourCC.RGB4: mfxEncParams.mfx.FrameInfo.ChromaFormat = ChromaFormat.MFX_CHROMAFORMAT_YUV444; break; default: Trace.Assert(false); break; } mfxEncParams.mfx.FrameInfo.PicStruct = PicStruct.MFX_PICSTRUCT_PROGRESSIVE; mfxEncParams.mfx.FrameInfo.CropX = 0; mfxEncParams.mfx.FrameInfo.CropY = 0; mfxEncParams.mfx.FrameInfo.CropW = (ushort)width; mfxEncParams.mfx.FrameInfo.CropH = (ushort)height; // Width must be a multiple of 16 // Height must be a multiple of 16 in case of frame picture and a multiple of 32 in case of field picture mfxEncParams.mfx.FrameInfo.Width = QuickSyncStatic.ALIGN16(width); mfxEncParams.mfx.FrameInfo.Height = QuickSyncStatic.AlignHeightTo32or16(height, mfxEncParams.mfx.FrameInfo.PicStruct); mfxEncParams.IOPattern = IOPattern.MFX_IOPATTERN_IN_SYSTEM_MEMORY; // must be 'in system memory' mfxEncParams.AsyncDepth = 4; // Pipeline depth. Best at 4 mfxEncParams.mfx.FrameInfo.Width = QuickSyncStatic.ALIGN32(width); mfxEncParams.mfx.FrameInfo.Height = QuickSyncStatic.ALIGN32(height); BitStreamChunk bsc = new BitStreamChunk(); //where we receive compressed frame data ILowLevelEncoder encoder = new LowLevelEncoder(mfxEncParams, impl); //ILowLevelEncoder encoder = new LowLevelEncoder(mfxEncParams, impl); string impltext = QuickSyncStatic.ImplementationString(encoder.session); Console.WriteLine("Implementation = {0}", impltext); // not needed for YUY2 encoding //var formatConverter = new NV12FromXXXXConverter(fileFourcc, width, height); int inputFrameLength = width * height * VideoUtility.GetBitsPerPixel(fourcc) / 8; byte[] uncompressed = new byte[inputFrameLength]; int count = 0; // we do not call encoder.LockFrame() and encoder.UnlockFrame() as this example is // for system memory. while (infs.Read(uncompressed, 0, inputFrameLength) == inputFrameLength) { int ix = encoder.GetFreeFrameIndex(); //this call relys locks in authoritative array of surf //formatConverter.ConvertToNV12FrameSurface(ref encoder.Frames[ix], uncompressed, 0); mfxFrameSurface1 *f = (mfxFrameSurface1 *)encoder.Frames[ix]; switch (fourcc) { case FourCC.NV12: Trace.Assert(f->Data.Pitch == width * 1); fixed(byte *aa = &uncompressed[0]) FastMemcpyMemmove.memcpy(f->Data.Y, (IntPtr)aa, height * width); fixed(byte *aa = &uncompressed[height * width]) FastMemcpyMemmove.memcpy(f->Data.UV, (IntPtr)aa, height / 2 * width); break; case FourCC.YUY2: Trace.Assert(f->Data.Pitch == width * 2); fixed(byte *aa = &uncompressed[0]) FastMemcpyMemmove.memcpy(f->Data.Y, (IntPtr)aa, height * width * 2); break; default: Trace.Assert(false); break; } encoder.EncodeFrame(ix, ref bsc); if (bsc.bytesAvailable > 0) { outfs.Write(bsc.bitstream, 0, bsc.bytesAvailable); if (++count % 100 == 0) { Console.Write("Frame {0}\r", count); } } #if ENABLE_BENCHMARK // delete this code for most simple example if (infs.Position + inputFrameLength - 1 >= infs.Length) { infs.Position = 0; } if (count >= minimumFrames) { break; } #endif } while (encoder.Flush(ref bsc)) { if (bsc.bytesAvailable > 0) { outfs.Write(bsc.bitstream, 0, bsc.bytesAvailable); if (++count % 100 == 0) { Console.Write("Frame {0}\r", count); } } } if (bt != null) { bt.StopAndReport(count, infs.Position, outfs.Position); } infs.Close(); outfs.Close(); encoder.Dispose(); Console.WriteLine("Encoded {0} frames", count); // make sure program always waits for user, except F5-Release run if (Debugger.IsAttached || Environment.GetEnvironmentVariable("VisualStudioVersion") == null) { Console.WriteLine("done - press a key to exit"); Console.ReadKey(); } }
static public void Main() { ConfirmQuickSyncReadiness.HaltIfNotReady(); Environment.CurrentDirectory = AppDomain.CurrentDomain.BaseDirectory; // keep ascending directories until 'media' folder is found for (int i = 0; i < 10 && !Directory.Exists("Media"); i++) { Directory.SetCurrentDirectory(".."); } Directory.SetCurrentDirectory("Media"); mfxIMPL impl = mfxIMPL.MFX_IMPL_AUTO; //automatic GPU/CPU mode CodecId codecId = CodecId.MFX_CODEC_AVC; // avc fourcc supported: RGB3 RGB4 BGR4 BGR3 NV12 I420 IYUV YUY2 UYVY YV12 P411 P422 FourCC fourcc = FourCC.NV12; string fourccString = fourcc.ToString().Substring(0, 4); string inFilename; inFilename = "BigBuckBunny_320x180.264"; //inFilename = "BigBuckBunny_1920x1080.264"; //inFilename = "BigBuckBunny_3840x2160.264"; string outFilename = Path.ChangeExtension(inFilename, fourccString + ".yuv"); Console.WriteLine("Working directory: {0}", Environment.CurrentDirectory); Console.WriteLine("Input filename: {0}", inFilename); Console.WriteLine(); if (!File.Exists(inFilename)) { Console.WriteLine("Input file not found. Press any key to exit."); Console.ReadKey(); return; } Stream infs, outfs; BenchmarkTimer bt = null; #if !ENABLE_BENCHMARK infs = File.Open(inFilename, FileMode.Open); outfs = File.Open(outFilename, FileMode.Create); #else // delete this code for most simple example // * Benchmark Mode * // this block does a couple things: // 1. causes the file to be pre-read into memory so we are not timing disk reads. // 2. replaces the output stream with a NullStream so nothing gets written to disk. // 3. Starts the timer for benchmarking // this pre-reads file into memory for benchmarking // maximumMemoryToAllocate = (long)4L * 1024 * 1024 * 1024; Console.WriteLine("Pre-reading input"); infs = new PreReadLargeMemoryStream(File.Open(inFilename, FileMode.Open)); Console.WriteLine("Input read"); outfs = new NullStream(); bt = new BenchmarkTimer(); bt.Start(); //int minimumFrames = 4000; #endif Console.WriteLine("Output filename: {0}", Path.GetFileName((outfs as FileStream)?.Name ?? "NO OUTPUT")); Console.WriteLine(); var outIOPattern = IOPattern.MFX_IOPATTERN_OUT_SYSTEM_MEMORY; mfxVideoParam decoderParameters = QuickSyncStatic.ReadFileHeaderInfo(codecId, impl, infs, outIOPattern); decoderParameters.mfx.FrameInfo.FourCC = fourcc; var decoder = new StreamDecoder(infs, CodecId.MFX_CODEC_AVC, impl, outIOPattern); string impltext = QuickSyncStatic.ImplementationString(decoder.lowLevelDecoder.session); Console.WriteLine("Implementation = {0}", impltext); var formatConverter = new NV12ToXXXXConverter(fourcc, decoder.width, decoder.height); int count = 0; foreach (var frame in decoder.GetFrames()) { var frameBytes = formatConverter.ConvertFromNV12(frame.Data); // Convert to format requested outfs.Write(frameBytes, 0, frameBytes.Length); if (++count % 100 == 0) { Console.Write("Frame {0}\r", count); } } Console.WriteLine("Decoded {0} frames", count); Console.WriteLine(); if (bt != null) { bt.StopAndReport(count, infs.Position, outfs.Position); } infs.Close(); outfs.Close(); // make sure program always waits for user, except F5-Release run if (!UnitTest.IsRunning && Debugger.IsAttached || Environment.GetEnvironmentVariable("VisualStudioVersion") == null) { Console.WriteLine("done - press a key to exit"); Console.ReadKey(); } }
unsafe static void Main(string[] args) { ConfirmQuickSyncReadiness.HaltIfNotReady(); Environment.CurrentDirectory = AppDomain.CurrentDomain.BaseDirectory; // keep ascending directories until 'media' folder is found for (int i = 0; i < 10 && !Directory.Exists("Media"); i++) { Directory.SetCurrentDirectory(".."); } Directory.SetCurrentDirectory("Media"); CodecId codecId = CodecId.MFX_CODEC_JPEG; FourCC fourcc = FourCC.UYVY; // supported: RGB4, YUY2 NV12 [UYVY through tricks! see below] mfxIMPL impl = mfxIMPL.MFX_IMPL_AUTO; string fourccString = fourcc.ToString().Substring(0, 4); string inFilename; //inFilename = "BigBuckBunny_320x180.UYVY.enc.jpeg"; inFilename = "BigBuckBunny_1920x1080.UYVY.enc.jpeg"; //inFilename = "BigBuckBunny_3840x2160.UYVY.enc.jpeg"; string outFilename = Path.ChangeExtension(inFilename, ".yuv"); Console.WriteLine("Working directory: {0}", Environment.CurrentDirectory); Console.WriteLine("Input filename: {0}", inFilename); Console.WriteLine(); if (!File.Exists(inFilename)) { Console.WriteLine("Input file not found. Press any key to exit."); Console.ReadKey(); return; } Stream infs, outfs; BenchmarkTimer bt = null; #if !ENABLE_BENCHMARK infs = File.Open(inFilename, FileMode.Open); outfs = File.Open(outFilename, FileMode.Create); #else // delete this code for most simple example // * Benchmark Mode * // this block does a couple things: // 1. causes the file to be pre-read into memory so we are not timing disk reads. // 2. replaces the output stream with a NullStream so nothing gets written to disk. // 3. Starts the timer for benchmarking // this pre-reads file into memory for benchmarking long maximumMemoryToAllocate = (long)4L * 1024 * 1024 * 1024; Console.WriteLine("Pre-reading input"); infs = new PreReadLargeMemoryStream(File.Open(inFilename, FileMode.Open), maximumMemoryToAllocate); Console.WriteLine("Input read"); outfs = new NullStream(); bt = new BenchmarkTimer(); bt.Start(); int minimumFrames = 4000; #endif Console.WriteLine("Output filename: {0}", Path.GetFileName((outfs as FileStream)?.Name ?? "NO OUTPUT")); Console.WriteLine(); var outIOPattern = IOPattern.MFX_IOPATTERN_OUT_SYSTEM_MEMORY; // The encoder cannot encode UYVY, but if you are the only decoder of the JPEG // files, you can encode UYVY as YUY2 and everything is good. if (fourcc == FourCC.UYVY) { fourcc = FourCC.YUY2; } mfxVideoParam decoderParameters = QuickSyncStatic.ReadFileHeaderInfo(codecId, impl, infs, outIOPattern); decoderParameters.mfx.FrameInfo.FourCC = fourcc; AssignChromaFormat(fourcc, ref decoderParameters); var decoder = new StreamDecoder(infs, decoderParameters, null, impl); #if ENABLE_BENCHMARK // delete this code for most simple example decoder.benchmarkNeverStopMode = true; #endif string impltext = QuickSyncStatic.ImplementationString(decoder.lowLevelDecoder.session); Console.WriteLine("Implementation = {0}", impltext); // not needed //var formatConverter = new NV12ToXXXXConverter(fourcc, decoder.width, decoder.height); int width = decoderParameters.mfx.FrameInfo.CropW; int height = decoderParameters.mfx.FrameInfo.CropH; var tmpbuf = new byte[width * height * 2]; int count = 0; foreach (var frame in decoder.GetFrames()) { //var frameBytes = formatConverter.ConvertFromNV12(frame.Data); // Convert to format requested Trace.Assert(frame.Data.Pitch == width * 2); // yuy2 only fixed(byte *aa = &tmpbuf[0]) FastMemcpyMemmove.memcpy((IntPtr)aa, frame.Data.Y, height * width * 2); outfs.Write(tmpbuf, 0, tmpbuf.Length); if (++count % 100 == 0) { Console.Write("Frame {0}\r", count); } #if ENABLE_BENCHMARK // delete this code for most simple example if (count > minimumFrames) { break; } #endif } if (bt != null) { bt.StopAndReport(count, infs.Position, outfs.Position); } infs.Close(); outfs.Close(); Console.WriteLine("Decoded {0} frames", count); // make sure program always waits for user, except F5-Release run if (Debugger.IsAttached || Environment.GetEnvironmentVariable("VisualStudioVersion") == null) { Console.WriteLine("done - press a key to exit"); Console.ReadKey(); } }