Comment faire pivoter une image dans WinForms

C’est un vieux sujet, et il existe plusieurs autres sujets sur la rotation d’image C # WinForms, mais maintenant que j’ai trouvé ma solution, j’imagine que c’est le meilleur endroit pour le poster. 

  /// <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)
           graphicsObject.Clear(backgroundColor);

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

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

     return newBitmap;
  }

C’est le résultat de nombreuses sources d’inspiration, ici, chez StackOverflow et ailleurs. La réponse de Naveen sur ce fil était particulièrement utile.

Méthode simple:

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

    using (Graphics gfx = Graphics.FromImage(bmp))
    {
        gfx.Clear(Color.White);
        gfx.DrawImage(img, 0, 0, img.Width, img.Height);
    }

    bmp.RotateFlip(RotateFlipType.Rotate270FlipNone);
    return bmp;
}

J'ai trouvé cet article 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
        g.RotateTransform(angle);

        //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;
    }

J'ai écrit un cours simple pour la rotation d'image. Tout ce que vous avez à faire est de saisir l’image et l’angle de rotation en degrés. L'angle doit être compris entre -90 et +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.RotateTransform(GetDegree(radAngle));
        g.DrawImage(image, new RectangleF(0, 0, size.Width, size.Height));

        g.Dispose();
        return rotatedBmp;
    }


    public static class Builder
    {
        public static ImageRotator CreateInstance(Image image)
        {
            ImageRotator rotator = new ImageRotator(image as Bitmap);
            return rotator;
        }
    }
}

Faire pivoter une image est une chose, les limites d’une image dans une autre. Voici un code qui peut aider n'importe qui. J'ai créé cette base sur une recherche sur internet il y a longtemps.

    /// <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) });
            gp.Transform(mRotate);
            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)
                {
                    gDest.Clear(extendedBitmapBackground.Value);
                }
                // 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 });
        gp.Transform(matrix);
        return Rectangle.Round(gp.GetBounds());
    }

Richard Cox a une bonne solution à cela https://stackoverflow.com/a/5200280/1171321 J'ai déjà utilisé. Il est également intéressant de noter que le DPI doit être 96 pour que cela fonctionne correctement. Plusieurs solutions sur cette page ne fonctionnent pas du tout.

Ancienne question mais je devais répondre au commentaire de MrFox dans la réponse acceptée. La rotation d'une image lorsque la taille change, coupe les bords de l'image. Une solution consiste à redessiner l'original sur une image plus grande, centrée, où les dimensions de l'image plus grande compensent le besoin de ne pas écrêter les bords. Par exemple, je voulais pouvoir concevoir les tuiles d’un jeu à un angle normal, mais les dessiner à nouveau à un angle de 45 degrés pour obtenir une vue isométrique.

Voici des exemples d’images (les bordures jaunes facilitent la lecture ici).

L'image originale:  

La tuile centrée dans une image plus grande:  

L'image pivotée (où vous faites pivoter l'image plus grande, pas l'original):  

Le code (basé en partie sur cette réponse dans une autre question ):

private Bitmap RotateImage(Bitmap rotateMe, float angle)
{
    //First, re-center the image in a larger image that has a margin/frame
    //to compensate for the rotated image's increased size

    var bmp = new Bitmap(rotateMe.Width + (rotateMe.Width / 2), rotateMe.Height + (rotateMe.Height / 2));

    using (Graphics g = Graphics.FromImage(bmp))
        g.DrawImageUnscaled(rotateMe, (rotateMe.Width / 4), (rotateMe.Height / 4), bmp.Width, bmp.Height);

    bmp.Save("moved.png");
    rotateMe = bmp;

    //Now, actually rotate the image
    Bitmap rotatedImage = new Bitmap(rotateMe.Width, rotateMe.Height);

    using (Graphics g = Graphics.FromImage(rotatedImage))
    {
        g.TranslateTransform(rotateMe.Width / 2, rotateMe.Height / 2);   //set the rotation point as the center into the matrix
        g.RotateTransform(angle);                                        //rotate
        g.TranslateTransform(-rotateMe.Width / 2, -rotateMe.Height / 2); //restore rotation point into the matrix
        g.DrawImage(rotateMe, new Point(0, 0));                          //draw the image on the new bitmap
    }

    rotatedImage.Save("rotated.png");
    return rotatedImage;
}

Vous pouvez facilement le faire en appelant cette méthode:

public static Bitmap RotateImage(Image image, float angle)
{
    if (image == null)
        throw new ArgumentNullException("image");

    PointF offset = new PointF((float)image.Width / 2, (float)image.Height / 2);

    //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
    g.RotateTransform(angle);

    //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;
}

n'oubliez pas d'ajouter une référence à System.Drawing.dll sur votre projet  

Exemple d'appel de méthode:

Image image = new Bitmap("waves.png");
Image newImage = RotateImage(image, 360);
newImage.Save("newWaves.png");

Cela fonctionnera tant que l'image que vous souhaitez faire pivoter est déjà dans votre dossier de ressources Propriétés. 

En classe partielle:

Bitmap bmp2;

En charge:

 bmp2 = new Bitmap(Tycoon.Properties.Resources.save2);
            pictureBox6.SizeMode = PictureBoxSizeMode.StretchImage;
            pictureBox6.Image = bmp2;

Bouton ou Onclick 

private void pictureBox6_Click(object sender, EventArgs e)
        {
            if (bmp2 != null)
            {
                bmp2.RotateFlip(RotateFlipType.Rotate90FlipNone);
                pictureBox6.Image = bmp2;
            }
        }

J'ai modifié la fonction de Mr.net_prog qui récupère uniquement le bloc d'image et y fait pivoter l'image.

    public static void RotateImage(PictureBox picBox)
    {

        Image img = picBox.Image;
        var bmp = new Bitmap(img);

        using (Graphics gfx = Graphics.FromImage(bmp))
        {
            gfx.Clear(Color.White);
            gfx.DrawImage(img, 0, 0, img.Width, img.Height);
        }

        bmp.RotateFlip(RotateFlipType.Rotate270FlipNone);
        picBox.Image = bmp;
    }