/// <summary> /// Decompress a JPEG image to an RGB, grayscale, or CMYK image. /// </summary> /// <param name="jpegBuf">Pointer to a buffer containing the JPEG image to decompress. This buffer is not modified.</param> /// <param name="jpegBufSize">Size of the JPEG image (in bytes).</param> /// <param name="outBuf">The buffer into which to store the decompressed JPEG image.</param> /// <param name="outBufSize">Size of <paramref name="outBuf"/> (in bytes).</param> /// <param name="destPixelFormat">Pixel format of the destination image (see <see cref="PixelFormat"/> "Pixel formats".)</param> /// <param name="flags">The bitwise OR of one or more of the <see cref="TJFlags"/> "flags".</param> /// <param name="width">Width of image in pixels.</param> /// <param name="height">Height of image in pixels.</param> /// <param name="stride">Bytes per line in the destination image.</param> public unsafe void Decompress(IntPtr jpegBuf, ulong jpegBufSize, IntPtr outBuf, int outBufSize, TJPixelFormat destPixelFormat, TJFlags flags, out int width, out int height, out int stride) { if (this.isDisposed) { throw new ObjectDisposedException("this"); } int subsampl; int colorspace; var funcResult = TurboJpegImport.TjDecompressHeader( this.decompressorHandle, jpegBuf, jpegBufSize, out width, out height, out subsampl, out colorspace); if (funcResult == -1) { TJUtils.GetErrorAndThrow(); } var targetFormat = destPixelFormat; stride = TurboJpegImport.TJPAD(width * TurboJpegImport.PixelSizes[targetFormat]); var bufSize = stride * height; if (outBufSize < bufSize) { throw new ArgumentOutOfRangeException(nameof(outBufSize)); } funcResult = TurboJpegImport.TjDecompress( this.decompressorHandle, jpegBuf, jpegBufSize, outBuf, width, stride, height, (int)targetFormat, (int)flags); if (funcResult == -1) { TJUtils.GetErrorAndThrow(); } }
/// <summary> /// Retrieve information about a JPEG image without decompressing it. /// </summary> /// <param name="jpegBuf"> /// Pointer to a buffer containing a JPEG image. This buffer is not modified. /// </param> /// <param name="jpegBufSize"> /// Size of the JPEG image (in bytes). /// </param> /// <param name="destPixelFormat"> /// The pixel format of the uncompressed image. /// </param> /// <param name="width"> /// Pointer to an integer variable that will receive the width (in pixels) of the JPEG image. /// </param> /// <param name="height"> /// Pointer to an integer variable that will receive the height (in pixels) of the JPEG image. /// </param> /// <param name="stride"> /// Pointer to an integer variable that will receive the stride (in bytes) of the JPEG image. /// </param> /// <param name="bufSize"> /// The size of a buffer that can receive the uncompressed JPEG image. /// </param> public void GetImageInfo(IntPtr jpegBuf, ulong jpegBufSize, TJPixelFormat destPixelFormat, out int width, out int height, out int stride, out int bufSize) { int subsampl; int colorspace; var funcResult = TurboJpegImport.TjDecompressHeader( this.decompressorHandle, jpegBuf, jpegBufSize, out width, out height, out subsampl, out colorspace); stride = TurboJpegImport.TJPAD(width * TurboJpegImport.PixelSizes[destPixelFormat]); bufSize = stride * height; }
/// <summary>Transforms input image into one or several destinations.</summary> /// <param name="jpegBuf">Pointer to a buffer containing the JPEG image to decompress. This buffer is not modified.</param> /// <param name="jpegBufSize">Size of the JPEG image (in bytes).</param> /// <param name="transforms">Array of transform descriptions to be applied to the source image. </param> /// <param name="flags">The bitwise OR of one or more of the <see cref="TJFlags"/> "flags".</param> /// <returns>Array of transformed jpeg images.</returns> /// <exception cref="ArgumentNullException"><paramref name="transforms"/> is <see langword="null" />.</exception> /// <exception cref="ArgumentException">Transforms can not be empty.</exception> /// <exception cref="TJException"> Throws if low level turbo jpeg function fails. </exception> public byte[][] Transform(IntPtr jpegBuf, ulong jpegBufSize, TJTransformDescription[] transforms, TJFlags flags) { if (transforms == null) { throw new ArgumentNullException(nameof(transforms)); } if (transforms.Length == 0) { throw new ArgumentException("Transforms can not be empty", nameof(transforms)); } // ReSharper disable once ExceptionNotDocumented var count = transforms.Length; var destBufs = new IntPtr[count]; var destSizes = new ulong[count]; int subsampl; int colorspace; int width; int height; var funcResult = TurboJpegImport.TjDecompressHeader( this.transformHandle, jpegBuf, jpegBufSize, out width, out height, out subsampl, out colorspace); if (funcResult == -1) { TJUtils.GetErrorAndThrow(); } TjSize tjSize; if (!TurboJpegImport.MCUSizes.TryGetValue((TJSubsamplingOption)subsampl, out tjSize)) { throw new TJException("Unable to read Subsampling Options from jpeg header"); } var tjTransforms = new TjTransform[count]; for (var i = 0; i < count; i++) { var x = CorrectRegionCoordinate(transforms[i].Region.X, tjSize.Width); var y = CorrectRegionCoordinate(transforms[i].Region.Y, tjSize.Height); var w = CorrectRegionSize(transforms[i].Region.X, x, transforms[i].Region.W, width); var h = CorrectRegionSize(transforms[i].Region.Y, y, transforms[i].Region.H, height); tjTransforms[i] = new TjTransform { Op = (int)transforms[i].Operation, Options = (int)transforms[i].Options, R = new TJRegion { X = x, Y = y, W = w, H = h, }, Data = transforms[i].CallbackData, CustomFilter = transforms[i].CustomFilter, }; } var transformsPtr = TJUtils.StructArrayToIntPtr(tjTransforms); try { funcResult = TurboJpegImport.TjTransform( this.transformHandle, jpegBuf, jpegBufSize, count, destBufs, destSizes, transformsPtr, (int)flags); if (funcResult == -1) { TJUtils.GetErrorAndThrow(); } var result = new List <byte[]>(); for (var i = 0; i < destBufs.Length; i++) { var ptr = destBufs[i]; var size = destSizes[i]; var item = new byte[size]; Marshal.Copy(ptr, item, 0, (int)size); result.Add(item); TurboJpegImport.TjFree(ptr); } return(result.ToArray()); } finally { TJUtils.FreePtr(transformsPtr); } }