// Last module patch version validated against: 3.0.1
// --------------------------------------------------------------------------
// Easing Functions
// --------------------------------------------------------------------------
/**
* Linear easing; the identity function; linear(t) returns t.
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeLinear(normalizedTime: number): number;
/**
* Symmetric quadratic easing; scales quadIn for t in [0, 0.5] and quadOut for t in [0.5, 1]. Also equivalent to poly.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuad(normalizedTime: number): number;
/**
* Quadratic easing; equivalent to polyIn.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuadIn(normalizedTime: number): number;
/**
* Reverse quadratic easing; equivalent to 1 - quadIn(1 - t). Also equivalent to polyOut.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuadOut(normalizedTime: number): number;
/**
* Symmetric quadratic easing; scales quadIn for t in [0, 0.5] and quadOut for t in [0.5, 1]. Also equivalent to poly.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuadInOut(normalizedTime: number): number;
/**
* Symmetric cubic easing; scales cubicIn for t in [0, 0.5] and cubicOut for t in [0.5, 1]. Also equivalent to poly.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubic(normalizedTime: number): number;
/**
* Cubic easing; equivalent to polyIn.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubicIn(normalizedTime: number): number;
/**
* Reverse cubic easing; equivalent to 1 - cubicIn(1 - t). Also equivalent to polyOut.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubicOut(normalizedTime: number): number;
/**
* Symmetric cubic easing; scales cubicIn for t in [0, 0.5] and cubicOut for t in [0.5, 1]. Also equivalent to poly.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubicInOut(normalizedTime: number): number;
/**
* Polynomial easing function factory
*/
export interface PolynomialEasingFactory {
/**
* Calculate eased time.
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
(normalizedTime: number): number;
/**
* Returns a new polynomial easing with the specified exponent e.
* If the exponent is not specified, it defaults to 3, equivalent to cubic.
*
* @param e Exponent for polynomial easing.
*/
exponent(e: number): PolynomialEasingFactory;
}
/**
* Symmetric polynomial easing/easing factory; scales polyIn for t in [0, 0.5] and polyOut for t in [0.5, 1].
* If the exponent is not specified, it defaults to 3, equivalent to cubic.
*/
export const easePoly: PolynomialEasingFactory;
/**
* Polynomial easing/easing factory; raises t to the specified exponent.
* If the exponent is not specified, it defaults to 3, equivalent to cubicIn.
*/
export const easePolyIn: PolynomialEasingFactory;
/**
* Reverse polynomial easing/easing factory; equivalent to 1 - polyIn(1 - t).
* If the exponent is not specified, it defaults to 3, equivalent to cubicOut.
*/
export const easePolyOut: PolynomialEasingFactory;
/**
* Symmetric polynomial easing/easing factory; scales polyIn for t in [0, 0.5] and polyOut for t in [0.5, 1].
* If the exponent is not specified, it defaults to 3, equivalent to cubic.
*/
export const easePolyInOut: PolynomialEasingFactory;
/**
* Symmetric sinusoidal easing; scales sinIn for t in [0, 0.5] and sinOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSin(normalizedTime: number): number;
/**
* Sinusoidal easing; returns sin(t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSinIn(normalizedTime: number): number;
/**
* Reverse sinusoidal easing; equivalent to 1 - sinIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSinOut(normalizedTime: number): number;
/**
* Symmetric sinusoidal easing; scales sinIn for t in [0, 0.5] and sinOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSinInOut(normalizedTime: number): number;
/**
* Symmetric exponential easing; scales expIn for t in [0, 0.5] and expOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExp(normalizedTime: number): number;
/**
* Exponential easing; raises 2 to the exponent 10 * (t - 1).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExpIn(normalizedTime: number): number;
/**
* Reverse exponential easing; equivalent to 1 - expIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExpOut(normalizedTime: number): number;
/**
* Symmetric exponential easing; scales expIn for t in [0, 0.5] and expOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExpInOut(normalizedTime: number): number;
/**
* Symmetric circular easing; scales circleIn for t in [0, 0.5] and circleOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircle(normalizedTime: number): number;
/**
* Circular easing.
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircleIn(normalizedTime: number): number;
/**
* Reverse circular easing; equivalent to 1 - circleIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircleOut(normalizedTime: number): number;
/**
* Symmetric circular easing; scales circleIn for t in [0, 0.5] and circleOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircleInOut(normalizedTime: number): number;
/**
* Reverse bounce easing; equivalent to 1 - bounceIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounce(normalizedTime: number): number;
/**
* Bounce easing, like a rubber ball.
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounceIn(normalizedTime: number): number;
/**
* Reverse bounce easing; equivalent to 1 - bounceIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounceOut(normalizedTime: number): number;
/**
* Symmetric bounce easing; scales bounceIn for t in [0, 0.5] and bounceOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounceInOut(normalizedTime: number): number;
/**
* Anticipatory easing function factory
*/
export interface BackEasingFactory {
/**
* Calculate eased time.
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
(normalizedTime: number): number;
/**
* Returns a new back easing with the specified overshoot s.
* The degree of overshoot is configurable; if not specified, it defaults to 1.70158.
*
* @param s Overshoot parameter
*/
overshoot(s: number): BackEasingFactory;
}
/**
* Symmetric anticipatory easing; scales backIn for t in [0, 0.5] and backOut for t in [0.5, 1].
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBack: BackEasingFactory;
/**
* Anticipatory easing, like a dancer bending their knees before jumping off the floor.
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBackIn: BackEasingFactory;
/**
* Reverse anticipatory easing; equivalent to 1 - backIn(1 - t).
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBackOut: BackEasingFactory;
/**
* Symmetric anticipatory easing; scales backIn for t in [0, 0.5] and backOut for t in [0.5, 1].
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBackInOut: BackEasingFactory;
/**
* Elastic easing function factory
*/
export interface ElasticEasingFactory {
/**
* Calculate eased time.
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
(normalizedTime: number): number;
/**
* Returns a new elastic easing with the specified amplitude a.
* Defaults to 1,if not specified.
*
* @param a Amplitude for elastic easing.
*/
amplitude(a: number): ElasticEasingFactory;
/**
* Returns a new elastic easing with the specified amplitude a.
* Defaults to 0.3,if not specified.
*
* @param p Period for elastic easing.
*/
period(p: number): ElasticEasingFactory;
}
/**
* Reverse elastic easing; equivalent to 1 - elasticIn(1 - t).
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElastic: ElasticEasingFactory;
/**
* Elastic easing, like a rubber band.
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElasticIn: ElasticEasingFactory;
/**
* Reverse elastic easing; equivalent to 1 - elasticIn(1 - t).
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElasticOut: ElasticEasingFactory;
/**
* Symmetric elastic easing; scales elasticIn for t in [0, 0.5] and elasticOut for t in [0.5, 1].
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElasticInOut: ElasticEasingFactory;