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Does anyone know how to create an animated gif using c#? Ideally I would have some control over the color reduction used.

Is using imagemagick (as an external started process) the best choice?


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imagemagick still seems to have the best options (dithering, color reduction, etc). The suggested lib and other creation method are of quite poor quality – The dude Jul 29 '09 at 17:30

Whether or not calling imagemagick is the best choice is kind of hard to awnser without knowing the quality parameters that are important. Some other options would be:

these have the advantage that you don't have a dependency on a third partly library which might or might not be available on all systems executing your code.

This article at MS Support explains how to save a gif with a custom color table (this does require full trust). A animated gif is just a set of gifs for each image with some additional information in the header. So combining these two articles should get you what you need.

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There is a built in .NET class which will encode GIF files. GifBitmapEncode MSDN

System.Windows.Media.Imaging.GifBitmapEncoder gEnc = new GifBitmapEncoder();

foreach (System.Drawing.Bitmap bmpImage in images)
    var src = System.Windows.Interop.Imaging.CreateBitmapSourceFromHBitmap(
using(FileStream fs = new FileStream(path, FileMode.Create))
share|improve this answer
is there a way using this code to have a certain delay between each frame or set a frame rate? – Jase Oct 14 '13 at 3:49
Um. This code fails massively. All it does is place a bunch of images ontop of one another and saves it as a single image. – Jase Oct 14 '13 at 4:32
It worked for me. – John Gietzen Mar 8 '15 at 8:23

You might also consider using the ImageMagick library.

There are two .net wrappers for the library listed at

Here is an example on how to do it using the wrapper:

using (MagickImageCollection collection = new MagickImageCollection())
  // Add first image and set the animation delay to 100ms
  collection[0].AnimationDelay = 100;

  // Add second image, set the animation delay to 100ms and flip the image
  collection[1].AnimationDelay = 100;

  // Optionally reduce colors
  QuantizeSettings settings = new QuantizeSettings();
  settings.Colors = 256;

  // Optionally optimize the images (images should have the same size).

  // Save gif
share|improve this answer

This Gif Animation Creater code can set Delay foreach Frame:

using System;
using System.Collections;
using System.Collections.Generic;
using System.Drawing;
using System.Drawing.Imaging;
using System.IO;

/// <summary>
/// Uses default .net GIF encoding and adds animation headers.
/// </summary>
public class Gif : IDisposable, IEnumerable<Image>
    #region Header Constants
    const byte FileTrailer = 0x3b,
        ApplicationBlockSize = 0x0b,
        GraphicControlExtensionBlockSize = 0x04;

    const int ApplicationExtensionBlockIdentifier = 0xff21,
        GraphicControlExtensionBlockIdentifier = 0xf921;

    const long SourceGlobalColorInfoPosition = 10,
        SourceGraphicControlExtensionPosition = 781,
        SourceGraphicControlExtensionLength = 8,
        SourceImageBlockPosition = 789,
        SourceImageBlockHeaderLength = 11,
        SourceColorBlockPosition = 13,
        SourceColorBlockLength = 768;

    const string ApplicationIdentification = "NETSCAPE2.0",
        FileType = "GIF",
        FileVersion = "89a";

    class GifFrame
        public GifFrame(Image image, double delay, int xOffset, int yOffset)
            Image = image;
            Delay = delay;
            XOffset = xOffset;
            YOffset = yOffset;

        public Image Image;
        public double Delay;
        public int XOffset, YOffset;

    List<GifFrame> Frames = new List<GifFrame>();

    public Gif() { DefaultFrameDelay = 500; }

    public Gif(Stream InStream, int Repeat = 0, int Delay = 500)
        using (Image Animation = Bitmap.FromStream(InStream))
            int Length = Animation.GetFrameCount(FrameDimension.Time);

            DefaultFrameDelay = Delay;
            this.Repeat = Repeat;

            for (int i = 0; i < Length; ++i)
                Animation.SelectActiveFrame(FrameDimension.Time, i);

                var Frame = new Bitmap(Animation.Size.Width, Animation.Size.Height);

                Graphics.FromImage(Frame).DrawImage(Animation, new Point(0, 0));

                Frames.Add(new GifFrame(Frame, Delay, 0, 0));

    #region Properties
    public int DefaultWidth { get; set; }

    public int DefaultHeight { get; set; }

    public int Count { get { return Frames.Count; } }

    /// <summary>
    /// Default Delay in Milliseconds
    /// </summary>
    public int DefaultFrameDelay { get; set; }

    public int Repeat { get; private set; }

    /// <summary>
    /// Adds a frame to this animation.
    /// </summary>
    /// <param name="Image">The image to add</param>
    /// <param name="XOffset">The positioning x offset this image should be displayed at.</param>
    /// <param name="YOffset">The positioning y offset this image should be displayed at.</param>
    public void AddFrame(Image Image, double? frameDelay = null, int XOffset = 0, int YOffset = 0)
        Frames.Add(new GifFrame(Image, frameDelay ?? DefaultFrameDelay, XOffset, YOffset));

    public void AddFrame(string FilePath, double? frameDelay = null, int XOffset = 0, int YOffset = 0)
        AddFrame(new Bitmap(FilePath), frameDelay, XOffset, YOffset);

    public void RemoveAt(int Index) { Frames.RemoveAt(Index); }

    public void Clear() { Frames.Clear(); }

    public void Save(Stream OutStream)
        using (var Writer = new BinaryWriter(OutStream))
            for (int i = 0; i < Count; ++i)
                var Frame = Frames[i];

                using (var gifStream = new MemoryStream())
                    Frame.Image.Save(gifStream, ImageFormat.Gif);

                    // Steal the global color table info
                    if (i == 0) InitHeader(gifStream, Writer, Frame.Image.Width, Frame.Image.Height);

                    WriteGraphicControlBlock(gifStream, Writer, Frame.Delay);
                    WriteImageBlock(gifStream, Writer, i != 0, Frame.XOffset, Frame.YOffset, Frame.Image.Width, Frame.Image.Height);

            // Complete File

    #region Write
    void InitHeader(Stream sourceGif, BinaryWriter Writer, int w, int h)
        // File Header

        Writer.Write((short)(DefaultWidth == 0 ? w : DefaultWidth)); // Initial Logical Width
        Writer.Write((short)(DefaultHeight == 0 ? h : DefaultHeight)); // Initial Logical Height

        sourceGif.Position = SourceGlobalColorInfoPosition;
        Writer.Write((byte)sourceGif.ReadByte()); // Global Color Table Info
        Writer.Write((byte)0); // Background Color Index
        Writer.Write((byte)0); // Pixel aspect ratio
        WriteColorTable(sourceGif, Writer);

        // App Extension Header
        unchecked { Writer.Write((short)ApplicationExtensionBlockIdentifier); };
        Writer.Write((byte)3); // Application block length
        Writer.Write((short)Repeat); // Repeat count for images.
        Writer.Write((byte)0); // terminator

    void WriteColorTable(Stream sourceGif, BinaryWriter Writer)
        sourceGif.Position = SourceColorBlockPosition; // Locating the image color table
        var colorTable = new byte[SourceColorBlockLength];
        sourceGif.Read(colorTable, 0, colorTable.Length);
        Writer.Write(colorTable, 0, colorTable.Length);

    void WriteGraphicControlBlock(Stream sourceGif, BinaryWriter Writer, double frameDelay)
        sourceGif.Position = SourceGraphicControlExtensionPosition; // Locating the source GCE
        var blockhead = new byte[SourceGraphicControlExtensionLength];
        sourceGif.Read(blockhead, 0, blockhead.Length); // Reading source GCE

        unchecked { Writer.Write((short)GraphicControlExtensionBlockIdentifier); }; // Identifier
        Writer.Write((byte)GraphicControlExtensionBlockSize); // Block Size
        Writer.Write((byte)(blockhead[3] & 0xf7 | 0x08)); // Setting disposal flag
        Writer.Write((short)(frameDelay / 10)); // Setting frame delay
        Writer.Write((byte)blockhead[6]); // Transparent color index
        Writer.Write((byte)0); // Terminator

    void WriteImageBlock(Stream sourceGif, BinaryWriter Writer, bool includeColorTable, int x, int y, int w, int h)
        sourceGif.Position = SourceImageBlockPosition; // Locating the image block
        var header = new byte[SourceImageBlockHeaderLength];
        sourceGif.Read(header, 0, header.Length);
        Writer.Write((byte)header[0]); // Separator
        Writer.Write((short)x); // Position X
        Writer.Write((short)y); // Position Y
        Writer.Write((short)w); // Width
        Writer.Write((short)h); // Height

        if (includeColorTable) // If first frame, use global color table - else use local
            sourceGif.Position = SourceGlobalColorInfoPosition;
            Writer.Write((byte)(sourceGif.ReadByte() & 0x3f | 0x80)); // Enabling local color table
            WriteColorTable(sourceGif, Writer);
        else Writer.Write((byte)(header[9] & 0x07 | 0x07)); // Disabling local color table

        Writer.Write((byte)header[10]); // LZW Min Code Size

        // Read/Write image data
        sourceGif.Position = SourceImageBlockPosition + SourceImageBlockHeaderLength;

        var dataLength = sourceGif.ReadByte();
        while (dataLength > 0)
            var imgData = new byte[dataLength];
            sourceGif.Read(imgData, 0, dataLength);

            Writer.Write(imgData, 0, dataLength);
            dataLength = sourceGif.ReadByte();

        Writer.Write((byte)0); // Terminator

    public void Dispose()
        Frames = null;

    public Image this[int Index] { get { return Frames[Index].Image; } }

    public IEnumerator<Image> GetEnumerator() { foreach (var Frame in Frames) yield return Frame.Image; }

    IEnumerator IEnumerable.GetEnumerator() { return GetEnumerator(); }
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To use the sample from a Windows Forms app, add references to these assemblies:

C:\Program Files\Reference Assemblies\Microsoft\Framework.NETFramework\v4.0\PresentationCore.dll C:\Program Files\Reference Assemblies\Microsoft\Framework.NETFramework\v4.0\System.Xaml.dll C:\Program Files\Reference Assemblies\Microsoft\Framework.NETFramework\v4.0\WindowsBase.dll


  • Int32Rect is in the System.Windows namespace

  • BitmapSizeOptions is in the System.Windows.Media.Imaging namespace

  • BitmapFrame is in the System.Windows.Media.Imaging namespace

Also, don't forget to close the file stream (something like this):

using(FileStream targetFile = new FileStream(path, FileMode.Create))
share|improve this answer

I noticed that one more great alternative to ImageMagic and NGif is not listed in answers yet.

FFMpeg can be used for creating animated GIFs from:

  • sequence of images (files)
  • existing video clip (say, mp4 or avi)
  • from C# bitmap objects by providing input data as "ravvideo" through stdin (without using any temp files)

You can start ffmpeg.exe directly from C# code (with System.Diagnostics.Process) or use one of the existing .NET ffmpeg wrappers:

var ffmpeg = new NReco.VideoConverter.FFMpegConverter();
ffmpeg.ConvertMedia("your_clip.mp4", null, "result.gif", null, new ConvertSettings() );

(this code example uses free NReco VideoConverter - I'm an author of this component, feel free to ask any questions about its usage).

GIF size can be easily reduced by decreasing frame rate and/or frame size. Also it is possible to get fine-looking animated GIFs with 2-pass approach that generates optimal GIF palette.

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Hey, I was looking for a code to convert multiple Images to an MP4 (h.264) format with NReco. I couldn't find any working example out there. Would you please help me through this? Thanks! – Moji Jan 20 at 6:56

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