# How to create custom easing function with Core Animation?

I am animating a `CALayer` along a `CGPath` (QuadCurve) quite nicely in iOS. But I'd like to use a more interesting easing function than the few provided by Apple (EaseIn/EaseOut etc). For instance, a bounce or elastic function.

These things are possible to do with MediaTimingFunction (bezier):

But I'd like to create timing functions that are more complex. Problem is that media timing seems to require a cubic bezier which is not powerful enough to create these effects:

http://wiki.sparrow-framework.org/_media/manual/transitions.png

The code to create the above is simple enough in other frameworks, which makes this very frustrating. Note that the curves are mapping input time to output time (T-t curve) and not time-position curves. For instance, easeOutBounce(T) = t returns a new t. Then that t is used to plot the movement (or whatever property we should animate).

So, I'd like to create a complex custom `CAMediaTimingFunction` but I have no clue how to do that, or if it's even possible? Are there any alternatives?

EDIT:

Here is a concrete example in to steps. Very educational :)

1. I want to animate an object along a line from point a to b, but I want it to "bounce" its movement along the line using the easeOutBounce curve above. This means it will follow the exact line from a to b, but will accelerate and decelerate in a more complex way than what is possible using the current bezier-based CAMediaTimingFunction.

2. Lets make that line any arbitrary curve movement specified with CGPath. It should still move along that curve, but it should accelerate and decelerate the same way as in the line example.

In theory I think it should work like this:

Lets describe the movement curve as a keyframe animation move(t) = p, where t is time [0..1], p is position calculated at time t. So move(0) returns the position at the start of curve, move(0.5) the exact middle and move(1) at end. Using a an timing function time(T) = t to provide the t values for move should give me what I want. For a bouncing effect, the timing function should return the same t values for time(0.8) and time(0.8) (just an example). Just replace the timing function to get a different effect.

(Yes, it's possible to do line-bouncing by creating and joining four line segments which goes back and forth, but that shouldn't be necessary. After all, it's just a simple linear function which maps time values to positions.)

I hope I'm making sense here.

I found this:

Cocoa with Love - Parametric acceleration curves in Core Animation

But I think it can be made a little simpler and more readable by using blocks. So we can define a category on CAKeyframeAnimation that looks something like this:

CAKeyframeAnimation+Parametric.h:

``````// this should be a function that takes a time value between
//  0.0 and 1.0 (where 0.0 is the beginning of the animation
//  and 1.0 is the end) and returns a scale factor where 0.0
//  would produce the starting value and 1.0 would produce the
//  ending value
typedef double (^KeyframeParametricBlock)(double);

@interface CAKeyframeAnimation (Parametric)

+ (id)animationWithKeyPath:(NSString *)path
function:(KeyframeParametricBlock)block
fromValue:(double)fromValue
toValue:(double)toValue;
``````

CAKeyframeAnimation+Parametric.m:

``````@implementation CAKeyframeAnimation (Parametric)

+ (id)animationWithKeyPath:(NSString *)path
function:(KeyframeParametricBlock)block
fromValue:(double)fromValue
toValue:(double)toValue {
// get a keyframe animation to set up
CAKeyframeAnimation *animation =
[CAKeyframeAnimation animationWithKeyPath:path];
// break the time into steps
//  (the more steps, the smoother the animation)
NSUInteger steps = 100;
NSMutableArray *values = [NSMutableArray arrayWithCapacity:steps];
double time = 0.0;
double timeStep = 1.0 / (double)(steps - 1);
for(NSUInteger i = 0; i < steps; i++) {
double value = fromValue + (block(time) * (toValue - fromValue));
time += timeStep;
}
// we want linear animation between keyframes, with equal time steps
animation.calculationMode = kCAAnimationLinear;
// set keyframes and we're done
[animation setValues:values];
return(animation);
}

@end
``````

Now usage will look something like this:

``````// define a parametric function
KeyframeParametricBlock function = ^double(double time) {
return(1.0 - pow((1.0 - time), 2.0));
};

if (layer) {
[CATransaction begin];
[CATransaction
setValue:[NSNumber numberWithFloat:2.5]
forKey:kCATransactionAnimationDuration];

// make an animation
CAAnimation *drop = [CAKeyframeAnimation
animationWithKeyPath:@"position.y"
function:function fromValue:30.0 toValue:450.0];
// use it

[CATransaction commit];
}
``````

I know it might not be quite as simple as what you wanted, but it's a start.

From iOS 10 it became possible to create custom timing function easier using two new timing objects.

1) UICubicTimingParameters allows to define cubic Bézier curve as an easing function.

``````let cubicTimingParameters = UICubicTimingParameters(controlPoint1: CGPoint(x: 0.25, y: 0.1), controlPoint2: CGPoint(x: 0.25, y: 1))
let animator = UIViewPropertyAnimator(duration: 0.3, timingParameters: cubicTimingParameters)
``````

or simply using control points on animator initialization

``````let controlPoint1 = CGPoint(x: 0.25, y: 0.1)
let controlPoint2 = CGPoint(x: 0.25, y: 1)
let animator = UIViewPropertyAnimator(duration: 0.3, controlPoint1: controlPoint1, controlPoint2: controlPoint2)
``````

This awesome service is going to help to choose control points for your curves.

2) UISpringTimingParameters lets developers manipulate damping ratio, mass, stiffness, and initial velocity to create desired spring behavior.

``````let velocity = CGVector(dx: 1, dy: 0)
let springParameters = UISpringTimingParameters(mass: 1.8, stiffness: 330, damping: 33, initialVelocity: velocity)
let springAnimator = UIViewPropertyAnimator(duration: 0.0, timingParameters: springParameters)
``````

Duration parameter is still presented in Animator, but will be ignored for spring timing.

If these two options are not enough you also can implement your own timing curve by confirming to the UITimingCurveProvider protocol.

More details, how to create animations with different timing parameters, you can find in the documentation.

Also, please, see Advances in UIKit Animations and Transitions presentation from WWDC 2016.

• You can find examples of using Timing functions in iOS10-animations-demo repository. – Olga Konoreva Jul 5 '17 at 12:49
• Can you please elaborate on "If these two options are not enough you also can implement your own timing curve by confirming to the UITimingCurveProvider protocol." ? – Christian Schnorr Mar 18 '18 at 13:12
• Awesome! And the `CoreAnimation` version of `UISpringTimingParameters` (`CASpringAnimation`) is supported back to iOS 9! – Rhythmic Fistman Nov 27 '18 at 10:35

A way to create a custom timing function is by using the functionWithControlPoints:::: factory method in CAMediaTimingFunction (there is a corresponding initWithControlPoints:::: init method as well). What this does is create a Bézier curve for your timing function. It is not an arbitrary curve, but Bézier curves are very powerful and flexible. It takes a little practice to get the hang of the control points. A tip: most drawing programs can create Bézier curves. Playing with those will give you a visual feedback on the curve you are representing with the control points.

The this link points to apple's documentation. There is a short but useful section on how the pre-build functions are constructed from curves.

Edit: The following code shows a simple bounce animation. For doing so, I created a composed timing function (values and timing NSArray properties) and gave each segment of the animation a different time length (keytimes property). In this way you can compose Bézier curves to compose more sophisticated timing for animations. This is a good article on this type of animations with a nice sample code.

``````- (void)viewDidLoad {
UIView *v = [[UIView alloc] initWithFrame:CGRectMake(0.0, 0.0, 50.0, 50.0)];

v.backgroundColor = [UIColor redColor];
CGFloat y = self.view.bounds.size.height;
v.center = CGPointMake(self.view.bounds.size.width/2.0, 50.0/2.0);

//[CATransaction begin];

CAKeyframeAnimation * animation;
animation = [CAKeyframeAnimation animationWithKeyPath:@"position.y"];
animation.duration = 3.0;
animation.removedOnCompletion = NO;
animation.fillMode = kCAFillModeForwards;

NSMutableArray *values = [NSMutableArray array];
NSMutableArray *timings = [NSMutableArray array];
NSMutableArray *keytimes = [NSMutableArray array];

//Start

//Drop down

// bounce up

// fihish down

animation.values = values;
animation.timingFunctions = timings;
animation.keyTimes = keytimes;

//[CATransaction commit];

}
``````
• Problem is that cubic beziers are limited and it's not possible to create for instance "bounce" effects with them. – Martin Wickman Mar 2 '11 at 7:54
• Yes that is true. You can combine multiple timing functions using the values and timingFunctions properties of CAKeyframeAnimation to achieve what you want. I'll work out an example and put the code in a bit. – fsaint Mar 2 '11 at 10:30
• A rather long bit ... but posted the code! – fsaint Mar 3 '11 at 9:32
• Thanks for you efforts, and points for trying :) That approach may work in theory, but it needs to be customized for each use. I'm looking for a general solution which works for all animations as a timing function. To be honest it doesn't look that good piecing lines and curves together. The "jack in a box" example also suffers from this. – Martin Wickman Mar 3 '11 at 19:41
• You can specify a CGPathRef instead of an array of values to a keyframe animation, but in the end Felz is correct--CAKeyframeAnimation and timingFunctions will give you everything you need. I'm not sure why you think that's not a "general solution" that has to be "customized for each use". You build up the keyframe animation once in a factory method or something and you can then add that animation to any layer over and over as many times as you like. Why would it need customized for each use? Seems to me it's no different from your notion of how timing functions ought to work. – Matt Long Mar 3 '11 at 23:16

Not sure if you're still looking, but PRTween looks fairly impressive in terms of its ability to go beyond what Core Animation gives you out of the box, most notably, custom timing functions. It also comes packaged with many—if not all—of the popular easing curves that various web frameworks provide.

• Looks very promising indeed! – Martin Wickman Oct 18 '12 at 7:08
• Just looked at PRTween - it's been a long time since I've seen 'goto' used in code!. The animations work pretty well in the demo though. The bounce looks good. – bandejapaisa Jun 28 '13 at 15:12

I took Jesse Crossen's response, and expanded on it a bit. You can use it to animate CGPoints, and CGSize for example. As of iOS 7, you can also use arbitrary time functions with UIView animations.

You can check out the results at https://github.com/jjackson26/JMJParametricAnimation

A swift version implementation is TFAnimation.The demo is a sin curve animation.Use `TFBasicAnimation` just like `CABasicAnimation` except assign `timeFunction` with a block other than `timingFunction`.

The key point is subclass `CAKeyframeAnimation` and calculate frames position by `timeFunction` in `1 / 60fps` s interval .After all add all the calculated value to `values` of `CAKeyframeAnimation` and the times by interval to `keyTimes` too.

I created a blocks based approach, that generates an animation group, with multiple animations.

Each animation, per property, can use 1 of 33 different parametric curves, a Decay timing function with initial velocity, or a custom spring configured to your needs.

Once the group is generated, it's cached on the View, and can be triggered using an AnimationKey, with or without the animation. Once triggered the animation is synchronized accordingly the presentation layer's values, and applied accordingly.

The framework can be found here FlightAnimator

Here is an example below:

``````struct AnimationKeys {
static let StageOneAnimationKey  = "StageOneAnimationKey"
static let StageTwoAnimationKey  = "StageTwoAnimationKey"
}

...

view.registerAnimation(forKey: AnimationKeys.StageOneAnimationKey, maker:  { (maker) in

maker.animateBounds(toValue: newBounds,
duration: 0.5,
easingFunction: .EaseOutCubic)

maker.animatePosition(toValue: newPosition,
duration: 0.5,
easingFunction: .EaseOutCubic)

maker.triggerTimedAnimation(forKey: AnimationKeys.StageTwoAnimationKey,
onView: self.secondaryView,
atProgress: 0.5,
maker: { (makerStageTwo) in

makerStageTwo.animateBounds(withDuration: 0.5,
easingFunction: .EaseOutCubic,
toValue: newSecondaryBounds)

makerStageTwo.animatePosition(withDuration: 0.5,
easingFunction: .EaseOutCubic,
toValue: newSecondaryCenter)
})
})
``````

To trigger the animation

``````view.applyAnimation(forKey: AnimationKeys.StageOneAnimationKey)
``````