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I am trying to use the Camera (android.graphics.Camera not the hardware camera) to rotate a views canvas around a specific point, in this instance the middle of the canvas.

In dispatchDraw(Canvas canvas) -- for brevity I am leaving out all the non important parts.


 canvas.concat( cameraMatrix );

The canvas rotates, but always from the upper left hand corner.

NOTE: Because the canvas has been constructed to be larger than the display area I also need to translate the final result so that it is centered in the display, I can do this with either

canvas.translate(xOffset,yOffset) PRIOR to calling the camera methods


cameraMatrix.preTranslate(xOffset,yOffset) AFTER the camera methods

Both correctly center the canvas in the display but I can't seem to get the rotation point to be the center for the camera.rotateZ(angle) call, tried using the methods in the 3D android sample but while they seem to work for the X / Y axis them don't seem to affect the Z axis

Any help would be appreciated, the doc's are not exactly verbose.

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4 Answers

up vote 7 down vote accepted

Solved this, not sure if it's the best way but it works. The solution was to

Translate the canvas first to center the larger canvas in the display

Then apply the camera rotations

Then to use the pre and post translate methods on the matrix to change the rotation point similar to what the android sample did.

The missing bits were to do the canvas translation first, and I was also not using the larger canvas size to calculate the offsets for the pre and post translate methods.

Here is the modified code if it helps anyone else out.

// Center larger canvas in display (was made larger so
// corners will not show when rotated) 
canvas.translate(-translateX, -translateY); 

// Use the camera to rotate a view on any axis
    camera.rotateZ(angle); // Rotate around Z access (similar to canvas.rotate)                                 


    // This moves the center of the view into the upper left corner (0,0) 
    // which is necessary because Matrix always uses 0,0, as it's transform point 
    cameraMatrix.preTranslate(-centerScaled, -centerScaled);

    // NOTE: Camera Rotations logically happens here when the canvas has the 
    // matrix applied in the canvas.concat method 

    // This happens after the camera rotations are applied, moving the view 
    // back to where it belongs, allowing us to rotate around the center or 
    // any point we choose 
    cameraMatrix.postTranslate(centerScaled, centerScaled);


If anyone has a better way or sees a problem please leave a comment.

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Hi thanks for this post, But I am not able to understand the what will be the value of translateX, translateY and centerScaled variables. Can u please explain me? –  Dhaval Jun 27 '12 at 5:53
@Dhaval please check inter-fuser.com/2009/08/android-animations-3d-flip.html –  Ankit Mar 15 '13 at 11:06
Actually, this appears to be correct solution. Since Camera#applyToCanvas() may not work for some ICS devices –  Dmitry Zaitsev Aug 7 '13 at 14:23
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This worked for me:

public void drawPixmap3D(Pixmap pixmap, int x, int y, int r) {
    Camera camera = mCamera;
    int cx = pixmap.getWidth()/2;
    mtx.preTranslate(-cx, 0);
    mtx.postTranslate(x, y);
    canvas.drawBitmap(((AndroidPixmap)pixmap).bitmap, mtx, this.paint);
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Use this as the transformation in your animation class

protected void applyTransformation(float interpolatedTime, Transformation t) {

    final float fromDegrees = 0;

    float degrees = fromDegrees

    + ((180- fromDegrees) * interpolatedTime);

    final float centerX = mCenterX;

    final float centerY = mCenterY;

    final Camera camera = mCamera;

    final Matrix matrix = t.getMatrix();





    matrix.preTranslate(-centerX, -centerY);

    matrix.postTranslate(centerX, centerY);

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I have been using the accepted solution (slightly modified) for some time and have had zero problems with it. –  Idistic Apr 20 '12 at 17:17
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I like to do things the difficult way and "roll my own". Moreover, if you are doing animations cumulative errors can creep in concat'ing Matrix's.

float rotate; // rotation in degrees

float vcx; // center of rotation of view
float vcy;

float gcx; // center of rotation of graphic
float gcy;

float theta = (float) (Math.PI/180.0*rotate);
float sin = (float) Math.sin(theta);
float cos = (float) Math.cos(theta);

float[] a = new float[9];
a[Matrix.MSCALE_X] = cos;
a[Matrix.MSKEW_X] = sin;
a[Matrix.MTRANS_X] = vcx-gcx*cos-gcy*sin;
a[Matrix.MSCALE_Y] = cos;
a[Matrix.MSKEW_Y] = -sin;
a[Matrix.MTRANS_Y] = vcy-gcy*cos+gcx*sin;
a[Matrix.MPERSP_0] = 0.0f;
a[Matrix.MPERSP_1] = 0.0f;
a[Matrix.MPERSP_2] = 1.0f;

Matrix m = new Matrix();
view.setImageMatrix(m); // or setMatrix or whatever you're using.
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