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I want to have one picture in my application that I can rotate to indicate directions, like wind direction. Or even the time. What code do I use to rotate the picture? Thanks

Update: I am using .NET 2.0, Windows 2000, VS C# 2005

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Are you using WinForms or WPF? –  RandomEngy Jan 29 '10 at 17:35
Not WPF, I don't think winforms. –  Arlen Beiler Jan 29 '10 at 17:37
If you're not using WPF (with .xaml files and the like) and you're developing UI in C# in Visual Studio, you're developing in WinForms. It's short for Windows Forms. –  RandomEngy Jan 29 '10 at 18:15

8 Answers 8

up vote 19 down vote accepted

Here's a method you can use to rotate an image in C#:

/// <summary>
/// method to rotate an image either clockwise or counter-clockwise
/// </summary>
/// <param name="img">the image to be rotated</param>
/// <param name="rotationAngle">the angle (in degrees).
/// NOTE: 
/// Positive values will rotate clockwise
/// negative values will rotate counter-clockwise
/// </param>
/// <returns></returns>
public static Image RotateImage(Image img, float rotationAngle)
    //create an empty Bitmap image
    Bitmap bmp = new Bitmap(img.Width, img.Height);

    //turn the Bitmap into a Graphics object
    Graphics gfx = Graphics.FromImage(bmp);

    //now we set the rotation point to the center of our image
    gfx.TranslateTransform((float)bmp.Width / 2, (float)bmp.Height / 2);

    //now rotate the image

    gfx.TranslateTransform(-(float)bmp.Width / 2, -(float)bmp.Height / 2);

    //set the InterpolationMode to HighQualityBicubic so to ensure a high
    //quality image once it is transformed to the specified size
    gfx.InterpolationMode = InterpolationMode.HighQualityBicubic;

    //now draw our new image onto the graphics object
    gfx.DrawImage(img, new Point(0, 0));

    //dispose of our Graphics object

    //return the image
    return bmp;
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have you tried this code ? it doesnt work properly –  Orhan Cinar Sep 25 '11 at 21:41
Nice, compact implementation. –  TheBlastOne Oct 7 '11 at 12:35
A rotated image can be bigger than the original, if you rotate between 0 and 90 degrees, say 45 degrees it flows over the edges, you must make room for this. –  MrFox Aug 1 '12 at 18:33
@Orhan Cinar add the following line right below the creation of the new bmp. bmp.SetResolution(img.HorizontalResolution, img.VerticalResolution); that line will set the new image resolution as the original image. –  jmelosegui Aug 6 '14 at 20:07
Tried the code, somehow my image is getting big. It's an arrow inside a perfect circle. The arrow point to the right, when i click the button i rotate it 180 degree to point it to the left, but the image is bigger –  PL Audet Aug 20 '14 at 14:04

Simple method:

public Image RotateImage(Image img)
    var bmp = new Bitmap(img);

    using (Graphics gfx = Graphics.FromImage(bmp))
        gfx.DrawImage(img, 0, 0, img.Width, img.Height);

    return bmp;
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Um, why create the Graphics object and use it to clear and redraw the Bitmap object? Isn't that unnecessary? Code seems to work fine without that, at least for the situations where Bitmap.RotateFlip() can be used. –  RenniePet Apr 13 '13 at 15:19
That works great! If you want to rotate to 90 degrees, you should use bmp.RotateFlip(RotateFlipType.Rotate90FlipNone); –  Oleg Sep 22 '13 at 12:21
Totally a lot of extra effort here. We can do this without inflating it to a Bitmap and back to an Image. img.RotateFlip(RotateFlipType.Rotate270FlipNone); –  psyklopz Jun 9 at 16:57

I've written a simple glass for rotating image. All you've to do is input the image and angle of rotation in Degree. Angle must be between -90 and +90.

public class ImageRotator
    private readonly Bitmap image;
    public Image OriginalImage
        get { return image; }

    private ImageRotator(Bitmap image)
        this.image = image;

    private double GetRadian(double degree)
        return degree * Math.PI / (double)180;

    private Size CalculateSize(double angle)
        double radAngle = GetRadian(angle);
        int width = (int)(image.Width * Math.Cos(radAngle) + image.Height * Math.Sin(radAngle));
        int height = (int)(image.Height * Math.Cos(radAngle) + image.Width * Math.Sin(radAngle));
        return new Size(width, height);

    private PointF GetTopCoordinate(double radAngle)
        Bitmap image = CurrentlyViewedMappedImage.BitmapImage;
        double topX = 0;
        double topY = 0;

        if (radAngle > 0)
            topX = image.Height * Math.Sin(radAngle);
        if (radAngle < 0)
            topY = image.Width * Math.Sin(-radAngle);
        return new PointF((float)topX, (float)topY);

    public Bitmap RotateImage(double angle)
        SizeF size = CalculateSize(radAngle);
        Bitmap rotatedBmp = new Bitmap((int)size.Width, (int)size.Height);

        Graphics g = Graphics.FromImage(rotatedBmp);
        g.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;
        g.CompositingQuality = CompositingQuality.HighQuality;
        g.SmoothingMode = SmoothingMode.HighQuality;
        g.PixelOffsetMode = PixelOffsetMode.HighQuality;

        g.TranslateTransform(topPoint.X, topPoint.Y);
        g.DrawImage(image, new RectangleF(0, 0, size.Width, size.Height));

        return rotatedBmp;

    public static class Builder
        public static ImageRotator CreateInstance(Image image)
            ImageRotator rotator = new ImageRotator(image as Bitmap);
            return rotator;
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This doesn't compile - there are two undefined variables and one undefined method. –  RenniePet Apr 14 '13 at 19:35

This is an old thread, and there are several other threads about C# WinForms image rotation, but now that I've come up with my solution I figure this is as good a place to post it as any.

  /// <summary>
  /// Method to rotate an Image object. The result can be one of three cases:
  /// - upsizeOk = true: output image will be larger than the input, and no clipping occurs 
  /// - upsizeOk = false & clipOk = true: output same size as input, clipping occurs
  /// - upsizeOk = false & clipOk = false: output same size as input, image reduced, no clipping
  /// A background color must be specified, and this color will fill the edges that are not 
  /// occupied by the rotated image. If color = transparent the output image will be 32-bit, 
  /// otherwise the output image will be 24-bit.
  /// Note that this method always returns a new Bitmap object, even if rotation is zero - in 
  /// which case the returned object is a clone of the input object. 
  /// </summary>
  /// <param name="inputImage">input Image object, is not modified</param>
  /// <param name="angleDegrees">angle of rotation, in degrees</param>
  /// <param name="upsizeOk">see comments above</param>
  /// <param name="clipOk">see comments above, not used if upsizeOk = true</param>
  /// <param name="backgroundColor">color to fill exposed parts of the background</param>
  /// <returns>new Bitmap object, may be larger than input image</returns>
  public static Bitmap RotateImage(Image inputImage, float angleDegrees, bool upsizeOk, 
                                   bool clipOk, Color backgroundColor)
     // Test for zero rotation and return a clone of the input image
     if (angleDegrees == 0f)
        return (Bitmap)inputImage.Clone();

     // Set up old and new image dimensions, assuming upsizing not wanted and clipping OK
     int oldWidth = inputImage.Width;
     int oldHeight = inputImage.Height;
     int newWidth = oldWidth;
     int newHeight = oldHeight;
     float scaleFactor = 1f;

     // If upsizing wanted or clipping not OK calculate the size of the resulting bitmap
     if (upsizeOk || !clipOk)
        double angleRadians = angleDegrees * Math.PI / 180d;

        double cos = Math.Abs(Math.Cos(angleRadians));
        double sin = Math.Abs(Math.Sin(angleRadians));
        newWidth = (int)Math.Round(oldWidth * cos + oldHeight * sin);
        newHeight = (int)Math.Round(oldWidth * sin + oldHeight * cos);

     // If upsizing not wanted and clipping not OK need a scaling factor
     if (!upsizeOk && !clipOk)
        scaleFactor = Math.Min((float)oldWidth / newWidth, (float)oldHeight / newHeight);
        newWidth = oldWidth;
        newHeight = oldHeight;

     // Create the new bitmap object. If background color is transparent it must be 32-bit, 
     //  otherwise 24-bit is good enough.
     Bitmap newBitmap = new Bitmap(newWidth, newHeight, backgroundColor == Color.Transparent ? 
                                      PixelFormat.Format32bppArgb : PixelFormat.Format24bppRgb);
     newBitmap.SetResolution(inputImage.HorizontalResolution, inputImage.VerticalResolution);

     // Create the Graphics object that does the work
     using (Graphics graphicsObject = Graphics.FromImage(newBitmap))
        graphicsObject.InterpolationMode = InterpolationMode.HighQualityBicubic;
        graphicsObject.PixelOffsetMode = PixelOffsetMode.HighQuality;
        graphicsObject.SmoothingMode = SmoothingMode.HighQuality;

        // Fill in the specified background color if necessary
        if (backgroundColor != Color.Transparent)

        // Set up the built-in transformation matrix to do the rotation and maybe scaling
        graphicsObject.TranslateTransform(newWidth / 2f, newHeight / 2f);

        if (scaleFactor != 1f)
           graphicsObject.ScaleTransform(scaleFactor, scaleFactor);

        graphicsObject.TranslateTransform(-oldWidth / 2f, -oldHeight / 2f);

        // Draw the result 
        graphicsObject.DrawImage(inputImage, 0, 0);

     return newBitmap;

This is the result of many sources of inspiration, here at StackOverflow and elsewhere. Naveen's answer on this thread was especially helpful.

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I found this article

  /// <summary>
    /// Creates a new Image containing the same image only rotated
    /// </summary>
    /// <param name=""image"">The <see cref=""System.Drawing.Image"/"> to rotate
    /// <param name=""offset"">The position to rotate from.
    /// <param name=""angle"">The amount to rotate the image, clockwise, in degrees
    /// <returns>A new <see cref=""System.Drawing.Bitmap"/"> of the same size rotated.</see>
    /// <exception cref=""System.ArgumentNullException"">Thrown if <see cref=""image"/"> 
    /// is null.</see>
    public static Bitmap RotateImage(Image image, PointF offset, float angle)
        if (image == null)
            throw new ArgumentNullException("image");

        //create a new empty bitmap to hold rotated image
        Bitmap rotatedBmp = new Bitmap(image.Width, image.Height);
        rotatedBmp.SetResolution(image.HorizontalResolution, image.VerticalResolution);

        //make a graphics object from the empty bitmap
        Graphics g = Graphics.FromImage(rotatedBmp);

        //Put the rotation point in the center of the image
        g.TranslateTransform(offset.X, offset.Y);

        //rotate the image

        //move the image back
        g.TranslateTransform(-offset.X, -offset.Y);

        //draw passed in image onto graphics object
        g.DrawImage(image, new PointF(0, 0));

        return rotatedBmp;
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Rotating image is one thing, proper image boundaries in another. Here is a code which can help anyone. I created this based on some search on internet long ago.

    /// <summary>
    /// Rotates image in radian angle
    /// </summary>
    /// <param name="bmpSrc"></param>
    /// <param name="theta">in radian</param>
    /// <param name="extendedBitmapBackground">Because of rotation returned bitmap can have different boundaries from original bitmap. This color is used for filling extra space in bitmap</param>
    /// <returns></returns>
    public static Bitmap RotateImage(Bitmap bmpSrc, double theta, Color? extendedBitmapBackground = null)
        theta = Convert.ToSingle(theta * 180 / Math.PI);
        Matrix mRotate = new Matrix();
        mRotate.Translate(bmpSrc.Width / -2, bmpSrc.Height / -2, MatrixOrder.Append);
        mRotate.RotateAt((float)theta, new Point(0, 0), MatrixOrder.Append);
        using (GraphicsPath gp = new GraphicsPath())
        {  // transform image points by rotation matrix
            gp.AddPolygon(new Point[] { new Point(0, 0), new Point(bmpSrc.Width, 0), new Point(0, bmpSrc.Height) });
            PointF[] pts = gp.PathPoints;

            // create destination bitmap sized to contain rotated source image
            Rectangle bbox = BoundingBox(bmpSrc, mRotate);
            Bitmap bmpDest = new Bitmap(bbox.Width, bbox.Height);

            using (Graphics gDest = Graphics.FromImage(bmpDest))
                if (extendedBitmapBackground != null)
                // draw source into dest
                Matrix mDest = new Matrix();
                mDest.Translate(bmpDest.Width / 2, bmpDest.Height / 2, MatrixOrder.Append);
                gDest.Transform = mDest;
                gDest.DrawImage(bmpSrc, pts);
                return bmpDest;

    private static Rectangle BoundingBox(Image img, Matrix matrix)
        GraphicsUnit gu = new GraphicsUnit();
        Rectangle rImg = Rectangle.Round(img.GetBounds(ref gu));

        // Transform the four points of the image, to get the resized bounding box.
        Point topLeft = new Point(rImg.Left, rImg.Top);
        Point topRight = new Point(rImg.Right, rImg.Top);
        Point bottomRight = new Point(rImg.Right, rImg.Bottom);
        Point bottomLeft = new Point(rImg.Left, rImg.Bottom);
        Point[] points = new Point[] { topLeft, topRight, bottomRight, bottomLeft };
        GraphicsPath gp = new GraphicsPath(points, new byte[] { (byte)PathPointType.Start, (byte)PathPointType.Line, (byte)PathPointType.Line, (byte)PathPointType.Line });
        return Rectangle.Round(gp.GetBounds());
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look at http://www.codeproject.com/KB/graphics/JPEGviewer.aspx

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I haven't downloaded the source, but from the article it looks like it can only rotate by 90 degrees. –  RenniePet Apr 14 '13 at 19:43

Richard Cox has a good solution to this http://stackoverflow.com/a/5200280/1171321 I have used in the past. It is also worth noting the DPI must be 96 for this to work correctly. Several of the solutions on this page do not work at all.

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