How do i rotate a CALayer around a diagonal line?

I'm trying to implement a flip animation to be used in board game like iPhone-application. The animation is supposed to look like a game piece that rotates and changes to the color of its back (kind of like an Reversi piece). I've managed to create an animation that flips the piece around its orthogonal axis, but when I try to flip it around a diagonal axis by changing the rotation around the z-axis the actual image also gets rotated (not surprisingly). Instead I would like to rotate the image "as is" around a diagonal axis.

I have tried to change `layer.sublayerTransform` but with no success.

Here is my current implementation. It works by doing a trick to resolve the issue of getting a mirrored image at the end of the animation. The solution is to not actually rotate the layer 180 degrees, instead it rotates it 90 degrees, changes image and then rotates it back.

Final version: Based on Lorenzos suggestion to create a discrete keyed animation and calculate the transformation matrix for each frame. This version instead tries to estimate number of "guiding" frames needed based on the layer size and then uses a linear keyed animation. This version rotates with a arbitrary angle so to rotate around diagonal line use a 45 degree angle.

Example usage:

``````[someclass flipLayer:layer image:image angle:M_PI/4]
``````

Implementation:

``````- (void)animationDidStop:(CAAnimationGroup *)animation
finished:(BOOL)finished {
CALayer *layer = [animation valueForKey:@"layer"];

/* code for another animation */
} else if([[animation valueForKey:@"name"] isEqual:@"flipAnimation"]) {
layer.contents = [animation valueForKey:@"image"];
}

[layer removeAllAnimations];
}

- (void)flipLayer:(CALayer *)layer
image:(CGImageRef)image
angle:(float)angle {
const float duration = 0.5f;

CAKeyframeAnimation *rotate = [CAKeyframeAnimation
animationWithKeyPath:@"transform"];
NSMutableArray *values = [[[NSMutableArray alloc] init] autorelease];
NSMutableArray *times = [[[NSMutableArray alloc] init] autorelease];
/* bigger layers need more "guiding" values */
int frames = MAX(layer.bounds.size.width, layer.bounds.size.height) / 2;
int i;
for (i = 0; i < frames; i++) {
/* create a scale value going from 1.0 to 0.1 to 1.0 */
float scale = MAX(fabs((float)(frames-i*2)/(frames - 1)), 0.1);

CGAffineTransform t1, t2, t3;
t1 = CGAffineTransformMakeRotation(angle);
t2 = CGAffineTransformScale(t1, scale, 1.0f);
t3 = CGAffineTransformRotate(t2, -angle);
CATransform3D trans = CATransform3DMakeAffineTransform(t3);

}
rotate.values = values;
rotate.keyTimes = times;
rotate.duration = duration;
rotate.calculationMode = kCAAnimationLinear;

CAKeyframeAnimation *replace = [CAKeyframeAnimation
animationWithKeyPath:@"contents"];
replace.duration = duration / 2;
replace.beginTime = duration / 2;
replace.values = [NSArray arrayWithObjects:(id)image, nil];
replace.keyTimes = [NSArray arrayWithObjects:
[NSNumber numberWithDouble:0.0f], nil];
replace.calculationMode = kCAAnimationDiscrete;

CAAnimationGroup *group = [CAAnimationGroup animation];
group.duration = duration;
group.timingFunction = [CAMediaTimingFunction
functionWithName:kCAMediaTimingFunctionLinear];
group.animations = [NSArray arrayWithObjects:rotate, replace, nil];
group.delegate = self;
group.removedOnCompletion = NO;
group.fillMode = kCAFillModeForwards;
[group setValue:@"flipAnimation" forKey:@"name"];
[group setValue:layer forKey:@"layer"];
[group setValue:(id)image forKey:@"image"];

}
``````

Original code:

``````+ (void)flipLayer:(CALayer *)layer
toImage:(CGImageRef)image
withAngle:(double)angle {
const float duration = 0.5f;

CAKeyframeAnimation *diag = [CAKeyframeAnimation
animationWithKeyPath:@"transform.rotation.z"];
diag.duration = duration;
diag.values = [NSArray arrayWithObjects:
[NSNumber numberWithDouble:angle],
[NSNumber numberWithDouble:0.0f],
nil];
diag.keyTimes = [NSArray arrayWithObjects:
[NSNumber numberWithDouble:0.0f],
[NSNumber numberWithDouble:1.0f],
nil];
diag.calculationMode = kCAAnimationDiscrete;

CAKeyframeAnimation *flip = [CAKeyframeAnimation
animationWithKeyPath:@"transform.rotation.y"];
flip.duration = duration;
flip.values = [NSArray arrayWithObjects:
[NSNumber numberWithDouble:0.0f],
[NSNumber numberWithDouble:M_PI / 2],
[NSNumber numberWithDouble:0.0f],
nil];
flip.keyTimes = [NSArray arrayWithObjects:
[NSNumber numberWithDouble:0.0f],
[NSNumber numberWithDouble:0.5f],
[NSNumber numberWithDouble:1.0f],
nil];
flip.calculationMode = kCAAnimationLinear;

CAKeyframeAnimation *replace = [CAKeyframeAnimation
animationWithKeyPath:@"contents"];
replace.duration = duration / 2;
replace.beginTime = duration / 2;
replace.values = [NSArray arrayWithObjects:(id)image, nil];
replace.keyTimes = [NSArray arrayWithObjects:
[NSNumber numberWithDouble:0.0f], nil];
replace.calculationMode = kCAAnimationDiscrete;

CAAnimationGroup *group = [CAAnimationGroup animation];
group.removedOnCompletion = NO;
group.duration = duration;
group.timingFunction = [CAMediaTimingFunction
functionWithName:kCAMediaTimingFunctionLinear];
group.animations = [NSArray arrayWithObjects:diag, flip, replace, nil];
group.fillMode = kCAFillModeForwards;

}
``````
-
What is a diagonal axis? –  KennyTM Mar 9 '10 at 10:36
By diagonal axis I mean that the rotation should be around the diagonal of the layer. Like if you grabbed two diagonal corners of the layer and spin it around. –  Mattias Wadman Mar 9 '10 at 10:41
Like, rotate about the straight line `y = x`? –  KennyTM Mar 9 '10 at 11:06
@KennyTM: Exactly –  Mattias Wadman Mar 9 '10 at 11:07

you can fake it this way: create an affine transform that collapse the layer along it's diagonal:

``````A-----B           B
|     |          /
|     |   ->   A&D
|     |        /
C-----D       C
``````

change the image, and trasform the CALayer back in another animation. This will create the illusion of the layer rotating around its diagonal.

the matrix for that should be if I remember math correctly:

``````0.5 0.5 0
0.5 0.5 0
0   0   1
``````

Update: ok, CA doen't really likes to use degenerate transforms, but you can approximate it this way:

``````CGAffineTransform t1 = CGAffineTransformMakeRotation(M_PI/4.0f);
CGAffineTransform t2 = CGAffineTransformScale(t1, 0.001f, 1.0f);
CGAffineTransform t3 = CGAffineTransformRotate(t2,-M_PI/4.0f);
``````

in my tests on the simulator there still was a problem because the rotations happens faster than te translation so with a solid black square the effect was a bit weird. I suppose that if you have a centered sprite with transparent area around it the effect will be close to what expected. You can then tweak the value of the t3 matrix to see if you get a more appealing result.

after more research, it appears that one should animate it's own transition via keyframes to obtaim the maximum control of the transition itself. say you were to display this animation in a second, you should make ten matrix to be shown at each tenth of a second withouot interpolation using kCAAnimationDiscrete; those matrix can be generated via the code below:

``````CGAffineTransform t1 = CGAffineTransformMakeRotation(M_PI/4.0f);
CGAffineTransform t2 = CGAffineTransformScale(t1, animationStepValue, 1.0f);
CGAffineTransform t3 = CGAffineTransformRotate(t2,-M_PI/4.0f);
``````

where animationStepValue for ech of the keyFrame is taken from this progression:

``````{1 0.7 0.5 0.3 0.1 0.3 0.5 0.7 1}
``````

that is: you're generating ten different transformation matrix (actually 9), pushing them as keyframes to be shown at each tenth of a second, and then using the "don't interpolate" parameter. you can tweak the animation number for balancing smoothness and performance*

*sorry for possible errors, this last part was written without a spellchecker.

-
Thanks for your answer. Is the ASCII-art suppose to show a shear transformation? if I try to animate from identity, then to your matrix and them back to identity i get no image at all :( I looked up how to make a shear matrix and it look like this: {{1, sheary, 0}, {shearx, 1, 0}, {0, 0, 1}} If I use that in the animation it seams to work a bit but i need to shear quite much and then the image gets scaled up quite a bit too. –  Mattias Wadman Mar 18 '10 at 16:33
no shear will make a parallelogram, here we're trying to get a degenerated rhombus, with the A&D corner moving towards the center and not the A&B corners moving toward left I'll have to try this on the device tomorrow to get the actual matrix parameters –  Lorenzo Boccaccia Mar 18 '10 at 19:00
Ok. I have been reading how affine transformations actually work and the transformation you describe with the diagram should as you say be affine, preserving points on a line and ratios (as long as A and D are "opposites" i guess?). But I havent really figured how to think about the numbers in the matrix. –  Mattias Wadman Mar 18 '10 at 19:37
in term of coumpound standard transformation, it's a 45 degree rotation counterclockwise, then a scaling along the horizontal axis (which collapses the a&c vertex on the center and then a 45 degree rotatation clockwise - as I said, that should be the resulting matrix, but I'll try it and post some actual code (I'm just updating there with the theory behind) –  Lorenzo Boccaccia Mar 18 '10 at 22:12
I was fiddling around with very similar code yesterday after you commented on the compound transformations, but the animation behaves very strange. Maybe core animation does something weird when calculating values for a smooth transition? –  Mattias Wadman Mar 19 '10 at 14:50

I got it solved. You probably already have a solution as well, but here is what I have found. It is quite simple really...

You can use a CABasicAnimation to do the diagonal rotation, but it needs to be the concatenation of two matrices, namely the existing matrix of the layer, plus a CATransform3DRotate. The "trick" is, in the 3DRotate you need to specify the coordinates to rotate around.

The code looks something like this:

``````
CATransform3DConcat(theLayer.transform, CATransform3DRotate(CATransform3DIdentity, M_PI/2, -1, 1, 0));
``````

This will make a rotation that appears as though the upper-left corner of the square is rotating around the axis Y=X, and travelling to the lower-right corner.

The code to animate looks like this:

``````
CABasicAnimation *ani1 = [CABasicAnimation animationWithKeyPath:@"transform"];

// set self as the delegate so you can implement (void)animationDidStop:finished: to handle anything you might want to do upon completion
[ani1 setDelegate:self];

// set the duration of the animation - a float
[ani1 setDuration:dur];

// set the animation's "toValue" which MUST be wrapped in an NSValue instance (except special cases such as colors)
ani1.toValue = [NSValue valueWithCATransform3D:CATransform3DConcat(theLayer.transform, CATransform3DRotate(CATransform3DIdentity, M_PI/2, -1, 1, 0))];

// give the animation a name so you can check it in the animationDidStop:finished: method
[ani1 setValue:@"shrink" forKey:@"name"];

// finally, apply the animation
``````

That's it! That code will rotate the square (theLayer) to invisibility as it travels 90-degrees and presents itself orthogonally to the screen. You can then change the color, and do the exact same animation to bring it back around. The same animation works because we are concatenating the matrices, so each time you want to rotate, just do this twice, or change `M_PI/2` to `M_PI`.

Lastly, it should be noted, and this drove me nuts, that upon completion, the layer will snap back to its original state unless you explicitly set it to the end-animation state. This means, just before the line `[theLayer addAnimation:ani1 forKey@"arbitraryKey"];` you will want to add

``````
theLayer.transform = CATransform3DConcat(v.theSquare.transform, CATransform3DRotate(CATransform3DIdentity, M_PI/2, -1, 1, 0));
``````

to set its value for after the animation completes. This will prevent the snapping back to original state.

Hope this helps. If not you then perhaps someone else who was banging their head against the wall like we were! :)

Cheers,

Chris

-
I think i tried a similar solution but with the problem that the rotate transform rotates the actual image content. But if the layer is a symmetric image you will not notice it. –  Mattias Wadman Jun 25 '10 at 20:59