| // Signature format: 3.0 |
| package androidx.animation { |
| |
| public abstract class AnimatedFloat extends androidx.animation.BaseAnimatedValue<java.lang.Float,androidx.animation.AnimationVector1D> { |
| ctor public AnimatedFloat(androidx.animation.AnimationClockObservable clock, float visibilityThreshold); |
| method public final float getMax(); |
| method public final float getMin(); |
| method public final float getVelocity(); |
| method public final void setBounds(float min = Float.NEGATIVE_INFINITY, float max = Float.POSITIVE_INFINITY); |
| method public void snapTo(float targetValue); |
| property public final float max; |
| property public final float min; |
| property public final float velocity; |
| } |
| |
| public abstract class AnimatedValue<T, V extends androidx.animation.AnimationVector> extends androidx.animation.BaseAnimatedValue<T,V> { |
| ctor public AnimatedValue(androidx.animation.TwoWayConverter<T,V> typeConverter, androidx.animation.AnimationClockObservable clock, V? visibilityThreshold); |
| method public final V getVelocity(); |
| property public final V velocity; |
| } |
| |
| public final class AnimatedValueKt { |
| method public static androidx.animation.AnimatedFloat AnimatedFloat(float initVal, androidx.animation.AnimationClockObservable clock, float visibilityThreshold = 0.01f); |
| method public static <T, V extends androidx.animation.AnimationVector> androidx.animation.AnimatedValue<T,V> AnimatedValue(T? initVal, androidx.animation.TwoWayConverter<T,V> typeConverter, androidx.animation.AnimationClockObservable clock, V visibilityThreshold = typeConverter.invoke(initVal).newInstanceOfValue(Spring.DefaultDisplacementThreshold)); |
| method public static <V extends androidx.animation.AnimationVector> androidx.animation.AnimatedValue<V,V> AnimatedVector(V initVal, androidx.animation.AnimationClockObservable clock, V visibilityThreshold = initVal.newInstanceOfValue(Spring.DefaultDisplacementThreshold)); |
| method public static void fling(androidx.animation.AnimatedFloat, float startVelocity, androidx.animation.FloatDecayAnimationSpec decay = androidx.animation.ExponentialDecay(), kotlin.jvm.functions.Function3<? super androidx.animation.AnimationEndReason,? super java.lang.Float,? super java.lang.Float,kotlin.Unit>? onEnd = null); |
| method public static void fling(androidx.animation.AnimatedFloat, float startVelocity, androidx.animation.FloatDecayAnimationSpec decay = androidx.animation.ExponentialDecay(), kotlin.jvm.functions.Function1<? super java.lang.Float,androidx.animation.TargetAnimation> adjustTarget, kotlin.jvm.functions.Function3<? super androidx.animation.AnimationEndReason,? super java.lang.Float,? super java.lang.Float,kotlin.Unit>? onEnd = null); |
| } |
| |
| public interface Animation<T, V extends androidx.animation.AnimationVector> { |
| method public androidx.animation.TwoWayConverter<T,V> getConverter(); |
| method public long getDurationMillis(); |
| method public T! getValue(long playTime); |
| method public V getVelocityVector(long playTime); |
| method public default boolean isFinished(long playTime); |
| property public abstract androidx.animation.TwoWayConverter<T,V> converter; |
| property public abstract long durationMillis; |
| } |
| |
| public abstract class AnimationBuilder<T> { |
| ctor public AnimationBuilder(); |
| method public abstract <V extends androidx.animation.AnimationVector> androidx.animation.AnimationSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| } |
| |
| public final class AnimationBuilderKt { |
| field public static final long DefaultDuration = 300L; // 0x12cL |
| field public static final int Infinite = 2147483647; // 0x7fffffff |
| } |
| |
| public final class AnimationClockKt { |
| } |
| |
| public interface AnimationClockObservable { |
| method public void subscribe(androidx.animation.AnimationClockObserver observer); |
| method public void unsubscribe(androidx.animation.AnimationClockObserver observer); |
| } |
| |
| public interface AnimationClockObserver { |
| method public void onAnimationFrame(long frameTimeMillis); |
| } |
| |
| public enum AnimationEndReason { |
| method public static androidx.animation.AnimationEndReason valueOf(String name) throws java.lang.IllegalArgumentException; |
| method public static androidx.animation.AnimationEndReason[] values(); |
| enum_constant public static final androidx.animation.AnimationEndReason BoundReached; |
| enum_constant public static final androidx.animation.AnimationEndReason Interrupted; |
| enum_constant public static final androidx.animation.AnimationEndReason TargetReached; |
| } |
| |
| public final class AnimationKt { |
| method public static <V extends androidx.animation.AnimationVector> androidx.animation.TargetBasedAnimation<V,V> createAnimation(androidx.animation.AnimationSpec<V>, V startValue, V endValue, V startVelocity); |
| method public static <T, V extends androidx.animation.AnimationVector> androidx.animation.TargetBasedAnimation<T,V> createAnimation(androidx.animation.AnimationSpec<V>, T? startValue, T? endValue, V startVelocityVector, androidx.animation.TwoWayConverter<T,V> converter); |
| method public static <T, V extends androidx.animation.AnimationVector> T! getVelocity(androidx.animation.Animation<T,V>, long playTime); |
| } |
| |
| public interface AnimationSpec<V extends androidx.animation.AnimationVector> { |
| method public long getDurationMillis(V start, V end, V startVelocity); |
| method public default V getEndVelocity(V start, V end, V startVelocity); |
| method public V getValue(long playTime, V start, V end, V startVelocity); |
| method public V getVelocity(long playTime, V start, V end, V startVelocity); |
| } |
| |
| public final class AnimationSpecKt { |
| } |
| |
| public abstract sealed class AnimationVector { |
| } |
| |
| public final class AnimationVector1D extends androidx.animation.AnimationVector { |
| ctor public AnimationVector1D(float initVal); |
| method public float get$lintWithKotlin(int index); |
| method public int getSize$lintWithKotlin(); |
| method public float getValue(); |
| method public androidx.animation.AnimationVector1D newVector$lintWithKotlin(); |
| method public void reset$lintWithKotlin(); |
| method public void set$lintWithKotlin(int index, float value); |
| property public int size; |
| property public final float value; |
| } |
| |
| public final class AnimationVector2D extends androidx.animation.AnimationVector { |
| ctor public AnimationVector2D(float v1, float v2); |
| method public float get$lintWithKotlin(int index); |
| method public int getSize$lintWithKotlin(); |
| method public float getV1(); |
| method public float getV2(); |
| method public androidx.animation.AnimationVector2D newVector$lintWithKotlin(); |
| method public void reset$lintWithKotlin(); |
| method public void set$lintWithKotlin(int index, float value); |
| property public int size; |
| property public final float v1; |
| property public final float v2; |
| } |
| |
| public final class AnimationVector3D extends androidx.animation.AnimationVector { |
| ctor public AnimationVector3D(float v1, float v2, float v3); |
| method public float get$lintWithKotlin(int index); |
| method public int getSize$lintWithKotlin(); |
| method public float getV1(); |
| method public float getV2(); |
| method public float getV3(); |
| method public androidx.animation.AnimationVector3D newVector$lintWithKotlin(); |
| method public void reset$lintWithKotlin(); |
| method public void set$lintWithKotlin(int index, float value); |
| property public int size; |
| property public final float v1; |
| property public final float v2; |
| property public final float v3; |
| } |
| |
| public final class AnimationVector4D extends androidx.animation.AnimationVector { |
| ctor public AnimationVector4D(float v1, float v2, float v3, float v4); |
| method public float get$lintWithKotlin(int index); |
| method public int getSize$lintWithKotlin(); |
| method public float getV1(); |
| method public float getV2(); |
| method public float getV3(); |
| method public float getV4(); |
| method public androidx.animation.AnimationVector4D newVector$lintWithKotlin(); |
| method public void reset$lintWithKotlin(); |
| method public void set$lintWithKotlin(int index, float value); |
| property public int size; |
| property public final float v1; |
| property public final float v2; |
| property public final float v3; |
| property public final float v4; |
| } |
| |
| public final class AnimationVectorsKt { |
| method public static androidx.animation.AnimationVector1D AnimationVector(float v1); |
| method public static androidx.animation.AnimationVector2D AnimationVector(float v1, float v2); |
| method public static androidx.animation.AnimationVector3D AnimationVector(float v1, float v2, float v3); |
| method public static androidx.animation.AnimationVector4D AnimationVector(float v1, float v2, float v3, float v4); |
| } |
| |
| public abstract sealed class BaseAnimatedValue<T, V extends androidx.animation.AnimationVector> { |
| method public final void animateTo(T? targetValue, androidx.animation.AnimationBuilder<T> anim = defaultPhysicsBuilder(), kotlin.jvm.functions.Function2<? super androidx.animation.AnimationEndReason,? super T,kotlin.Unit>? onEnd = null); |
| method protected void checkFinished(long playtime); |
| method public final T! getTargetValue(); |
| method public abstract T! getValue(); |
| method public final boolean isRunning(); |
| method protected abstract void setValue(T! p); |
| method public void snapTo(T? targetValue); |
| method public final void stop(); |
| property public final boolean isRunning; |
| property public final T! targetValue; |
| property public abstract T! value; |
| } |
| |
| public abstract class BaseAnimationClock implements androidx.animation.AnimationClockObservable { |
| ctor public BaseAnimationClock(); |
| method public void subscribe(androidx.animation.AnimationClockObserver observer); |
| method public void unsubscribe(androidx.animation.AnimationClockObserver observer); |
| field @Deprecated public static final androidx.animation.BaseAnimationClock.Companion Companion; |
| } |
| |
| public final class ComplexDoubleKt { |
| } |
| |
| public final class CubicBezierEasing implements kotlin.jvm.functions.Function1<java.lang.Float,java.lang.Float> { |
| ctor public CubicBezierEasing(float a, float b, float c, float d); |
| method public Float! invoke(float fraction); |
| } |
| |
| public final class DecayAnimation implements androidx.animation.Animation<java.lang.Float,androidx.animation.AnimationVector1D> { |
| ctor public DecayAnimation(androidx.animation.FloatDecayAnimationSpec anim, float startValue, float startVelocity); |
| method public androidx.animation.TwoWayConverter<java.lang.Float,androidx.animation.AnimationVector1D> getConverter(); |
| method public long getDurationMillis(); |
| method public Float! getValue(long playTime); |
| method public androidx.animation.AnimationVector1D getVelocityVector(long playTime); |
| property public androidx.animation.TwoWayConverter<java.lang.Float,androidx.animation.AnimationVector1D> converter; |
| property public long durationMillis; |
| } |
| |
| public final class DefaultAnimationClock extends androidx.animation.BaseAnimationClock { |
| ctor public DefaultAnimationClock(); |
| method public void dispatchTime$lintWithKotlin(long frameTimeMillis); |
| } |
| |
| public abstract class DurationBasedAnimationBuilder<T> extends androidx.animation.AnimationBuilder<T> { |
| ctor public DurationBasedAnimationBuilder(); |
| method public abstract <V extends androidx.animation.AnimationVector> androidx.animation.DurationBasedAnimationSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| method public final int getDelay(); |
| method public final int getDuration(); |
| method public final void setDelay(int value); |
| method public final void setDuration(int value); |
| property public final int delay; |
| property public final int duration; |
| } |
| |
| public interface DurationBasedAnimationSpec<V extends androidx.animation.AnimationVector> extends androidx.animation.AnimationSpec<V> { |
| method public long getDelay(); |
| method public long getDuration(); |
| method public default long getDurationMillis(V start, V end, V startVelocity); |
| property public abstract long delay; |
| property public abstract long duration; |
| } |
| |
| public final class EasingKt { |
| method public static androidx.animation.CubicBezierEasing getFastOutLinearInEasing(); |
| method public static androidx.animation.CubicBezierEasing getFastOutSlowInEasing(); |
| method public static kotlin.jvm.functions.Function1<java.lang.Float,java.lang.Float> getLinearEasing(); |
| method public static androidx.animation.CubicBezierEasing getLinearOutSlowInEasing(); |
| } |
| |
| public final class ExponentialDecay implements androidx.animation.FloatDecayAnimationSpec { |
| ctor public ExponentialDecay(@FloatRange(from=null, to=null, fromInclusive=null) float frictionMultiplier, @FloatRange(from=null, to=null, fromInclusive=null) float absVelocityThreshold); |
| ctor public ExponentialDecay(); |
| method public float getAbsVelocityThreshold(); |
| method public long getDurationMillis(float start, float startVelocity); |
| method public float getTarget(float start, float startVelocity); |
| method public float getValue(long playTime, float start, float startVelocity); |
| method public float getVelocity(long playTime, float start, float startVelocity); |
| property public float absVelocityThreshold; |
| } |
| |
| public interface FloatAnimationSpec { |
| method public long getDurationMillis(float start, float end, float startVelocity); |
| method public default float getEndVelocity(float start, float end, float startVelocity); |
| method public float getValue(long playTime, float start, float end, float startVelocity); |
| method public float getVelocity(long playTime, float start, float end, float startVelocity); |
| } |
| |
| public final class FloatAnimationSpecKt { |
| method public static <V extends androidx.animation.AnimationVector> androidx.animation.AnimationSpec<V> vectorize(androidx.animation.FloatAnimationSpec); |
| } |
| |
| public interface FloatDecayAnimationSpec { |
| method public float getAbsVelocityThreshold(); |
| method public long getDurationMillis(float start, float startVelocity); |
| method public float getTarget(float start, float startVelocity); |
| method public float getValue(long playTime, float start, float startVelocity); |
| method public float getVelocity(long playTime, float start, float startVelocity); |
| property public abstract float absVelocityThreshold; |
| } |
| |
| public final class FloatDecayAnimationSpecKt { |
| method public static androidx.animation.Animation<java.lang.Float,androidx.animation.AnimationVector1D> createAnimation(androidx.animation.FloatDecayAnimationSpec, float startValue, float startVelocity = 0f); |
| } |
| |
| public final class FloatPropKey implements androidx.animation.PropKey<java.lang.Float,androidx.animation.AnimationVector1D> { |
| ctor public FloatPropKey(String label); |
| ctor public FloatPropKey(); |
| method public androidx.animation.TwoWayConverter<java.lang.Float,androidx.animation.AnimationVector1D> getTypeConverter(); |
| property public androidx.animation.TwoWayConverter<java.lang.Float,androidx.animation.AnimationVector1D> typeConverter; |
| } |
| |
| public final class FloatSpringSpec implements androidx.animation.FloatAnimationSpec { |
| ctor public FloatSpringSpec(float dampingRatio, float stiffness, float displacementThreshold); |
| ctor public FloatSpringSpec(); |
| method public long getDurationMillis(float start, float end, float startVelocity); |
| method public float getValue(long playTime, float start, float end, float startVelocity); |
| method public float getVelocity(long playTime, float start, float end, float startVelocity); |
| } |
| |
| public final class FloatTweenSpec implements androidx.animation.FloatAnimationSpec { |
| ctor public FloatTweenSpec(long duration, long delay, kotlin.jvm.functions.Function1<? super java.lang.Float,java.lang.Float> easing); |
| ctor public FloatTweenSpec(); |
| method public long getDelay(); |
| method public long getDuration(); |
| method public long getDurationMillis(float start, float end, float startVelocity); |
| method public float getValue(long playTime, float start, float end, float startVelocity); |
| method public float getVelocity(long playTime, float start, float end, float startVelocity); |
| } |
| |
| public final class IntPropKey implements androidx.animation.PropKey<java.lang.Integer,androidx.animation.AnimationVector1D> { |
| ctor public IntPropKey(String label); |
| ctor public IntPropKey(); |
| method public androidx.animation.TwoWayConverter<java.lang.Integer,androidx.animation.AnimationVector1D> getTypeConverter(); |
| property public androidx.animation.TwoWayConverter<java.lang.Integer,androidx.animation.AnimationVector1D> typeConverter; |
| } |
| |
| @kotlin.RequiresOptIn(message="This API is internal to library.") @kotlin.annotation.Target(allowedTargets={AnnotationTarget.CLASS, AnnotationTarget.FUNCTION, AnnotationTarget.PROPERTY}) public @interface InternalAnimationApi { |
| } |
| |
| public enum InterruptionHandling { |
| method public static androidx.animation.InterruptionHandling valueOf(String name) throws java.lang.IllegalArgumentException; |
| method public static androidx.animation.InterruptionHandling[] values(); |
| enum_constant public static final androidx.animation.InterruptionHandling PHYSICS; |
| enum_constant public static final androidx.animation.InterruptionHandling SNAP_TO_END; |
| enum_constant public static final androidx.animation.InterruptionHandling TWEEN; |
| enum_constant public static final androidx.animation.InterruptionHandling UNINTERRUPTIBLE; |
| } |
| |
| public final class KeyframesBuilder<T> extends androidx.animation.DurationBasedAnimationBuilder<T> { |
| ctor public KeyframesBuilder(); |
| method public infix androidx.animation.KeyframesBuilder<T>.KeyframeEntity<T> at(T?, int timeStamp); |
| method public <V extends androidx.animation.AnimationVector> androidx.animation.DurationBasedAnimationSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| method public infix void with(androidx.animation.KeyframesBuilder<T>.KeyframeEntity<T>, kotlin.jvm.functions.Function1<? super java.lang.Float,java.lang.Float> easing); |
| } |
| |
| public final class KeyframesBuilder.KeyframeEntity<T> { |
| } |
| |
| public final class KeyframesSpec<V extends androidx.animation.AnimationVector> implements androidx.animation.DurationBasedAnimationSpec<V> { |
| ctor public KeyframesSpec(java.util.Map<java.lang.Long,? extends kotlin.Pair<? extends V,? extends kotlin.jvm.functions.Function1<? super java.lang.Float,java.lang.Float>>> keyframes, long duration, long delay); |
| method public long getDelay(); |
| method public long getDuration(); |
| method public V getValue(long playTime, V start, V end, V startVelocity); |
| method public V getVelocity(long playTime, V start, V end, V startVelocity); |
| } |
| |
| public final class ManualAnimationClock extends androidx.animation.BaseAnimationClock { |
| ctor public ManualAnimationClock(long initTimeMillis, boolean dispatchOnSubscribe); |
| method public long getClockTimeMillis(); |
| method public boolean getHasObservers(); |
| method public void setClockTimeMillis(long value); |
| property public final long clockTimeMillis; |
| property public final boolean hasObservers; |
| } |
| |
| public interface MutableTransitionState { |
| method public operator <T, V extends androidx.animation.AnimationVector> void set(androidx.animation.PropKey<T,V> propKey, T? prop); |
| } |
| |
| public final class PhysicsBuilder<T> extends androidx.animation.AnimationBuilder<T> { |
| ctor public PhysicsBuilder(float dampingRatio, float stiffness, T? displacementThreshold); |
| ctor public PhysicsBuilder(); |
| method public <V extends androidx.animation.AnimationVector> androidx.animation.SpringSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| method public float getDampingRatio(); |
| method public float getStiffness(); |
| method public void setDampingRatio(float p); |
| method public void setStiffness(float p); |
| } |
| |
| public interface PropKey<T, V extends androidx.animation.AnimationVector> { |
| method public default String getLabel(); |
| method public androidx.animation.TwoWayConverter<T,V> getTypeConverter(); |
| property public default String label; |
| property public abstract androidx.animation.TwoWayConverter<T,V> typeConverter; |
| } |
| |
| public final class PropKeyKt { |
| method public static <T, V extends androidx.animation.AnimationVector> androidx.animation.TwoWayConverter<T,V> TwoWayConverter(kotlin.jvm.functions.Function1<? super T,? extends V> convertToVector, kotlin.jvm.functions.Function1<? super V,? extends T> convertFromVector); |
| method public static androidx.animation.TwoWayConverter<java.lang.Float,androidx.animation.AnimationVector1D> getFloatToVectorConverter(); |
| method public static androidx.animation.TwoWayConverter<java.lang.Integer,androidx.animation.AnimationVector1D> getIntToVectorConverter(); |
| } |
| |
| public final class RepeatableBuilder<T> extends androidx.animation.AnimationBuilder<T> { |
| ctor public RepeatableBuilder(); |
| method public <V extends androidx.animation.AnimationVector> androidx.animation.AnimationSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| method public androidx.animation.DurationBasedAnimationBuilder<T>? getAnimation(); |
| method public Integer? getIterations(); |
| method public void setAnimation(androidx.animation.DurationBasedAnimationBuilder<T>? p); |
| method public void setIterations(Integer? value); |
| property public final androidx.animation.DurationBasedAnimationBuilder<T>? animation; |
| property public final Integer? iterations; |
| } |
| |
| public final class RepeatableSpec<V extends androidx.animation.AnimationVector> implements androidx.animation.AnimationSpec<V> { |
| ctor public RepeatableSpec(long iterationCount, androidx.animation.DurationBasedAnimationSpec<V> animation); |
| method public long getDurationMillis(V start, V end, V startVelocity); |
| method public V getValue(long playTime, V start, V end, V startVelocity); |
| method public V getVelocity(long playTime, V start, V end, V startVelocity); |
| } |
| |
| public final class SnapBuilder<T> extends androidx.animation.AnimationBuilder<T> { |
| ctor public SnapBuilder(); |
| method public <V extends androidx.animation.AnimationVector> androidx.animation.SnapSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| method public int getDelay(); |
| method public void setDelay(int p); |
| property public final int delay; |
| } |
| |
| public final class SnapSpec<V extends androidx.animation.AnimationVector> implements androidx.animation.DurationBasedAnimationSpec<V> { |
| ctor public SnapSpec(long delay); |
| ctor public SnapSpec(); |
| method public long getDelay(); |
| method public long getDuration(); |
| method public V getValue(long playTime, V start, V end, V startVelocity); |
| method public V getVelocity(long playTime, V start, V end, V startVelocity); |
| property public long duration; |
| } |
| |
| public final class Spring { |
| field public static final float DampingRatioHighBouncy = 0.2f; |
| field public static final float DampingRatioLowBouncy = 0.75f; |
| field public static final float DampingRatioMediumBouncy = 0.5f; |
| field public static final float DampingRatioNoBouncy = 1.0f; |
| field public static final float DefaultDisplacementThreshold = 0.01f; |
| field public static final androidx.animation.Spring INSTANCE; |
| field public static final float StiffnessHigh = 10000.0f; |
| field public static final float StiffnessLow = 200.0f; |
| field public static final float StiffnessMedium = 1500.0f; |
| field public static final float StiffnessVeryLow = 50.0f; |
| } |
| |
| public final class SpringEstimationKt { |
| method @VisibleForTesting(otherwise=3) public static long estimateAnimationDurationMillis(float stiffness, float dampingRatio, float initialVelocity, float initialDisplacement, float delta); |
| method @VisibleForTesting(otherwise=3) public static long estimateAnimationDurationMillis(double stiffness, double dampingRatio, double initialVelocity, double initialDisplacement, double delta); |
| method @VisibleForTesting(otherwise=3) public static long estimateAnimationDurationMillis(double springConstant, double dampingCoefficient, double mass, double initialVelocity, double initialDisplacement, double delta); |
| } |
| |
| public final class SpringSimulationKt { |
| } |
| |
| public final class SpringSpec<V extends androidx.animation.AnimationVector> implements androidx.animation.AnimationSpec<V> { |
| ctor public SpringSpec(float dampingRatio, float stiffness, V? visibilityThreshold); |
| method public float getDampingRatio(); |
| method public float getStiffness(); |
| } |
| |
| public final class TargetAnimation { |
| ctor public TargetAnimation(float target, androidx.animation.AnimationBuilder<java.lang.Float> animation); |
| method public float component1(); |
| method public androidx.animation.AnimationBuilder<java.lang.Float> component2(); |
| method public androidx.animation.TargetAnimation copy(float target, androidx.animation.AnimationBuilder<java.lang.Float> animation); |
| method public androidx.animation.AnimationBuilder<java.lang.Float> getAnimation(); |
| method public float getTarget(); |
| } |
| |
| public final class TargetBasedAnimation<T, V extends androidx.animation.AnimationVector> implements androidx.animation.Animation<T,V> { |
| ctor public TargetBasedAnimation(androidx.animation.AnimationSpec<V> animationSpec, T! startValue, T! endValue, V startVelocityVector, androidx.animation.TwoWayConverter<T,V> converter); |
| ctor public TargetBasedAnimation(androidx.animation.AnimationSpec<V> animationSpec, T! startValue, T! endValue, T! startVelocity, androidx.animation.TwoWayConverter<T,V> converter); |
| method public androidx.animation.TwoWayConverter<T,V> getConverter(); |
| method public long getDurationMillis(); |
| method public T! getEndValue(); |
| method public T! getValue(long playTime); |
| method public V getVelocityVector(long playTime); |
| property public long durationMillis; |
| } |
| |
| public final class ToolingGlueKt { |
| } |
| |
| public final class TransitionAnimation<T> implements androidx.animation.TransitionState { |
| ctor public TransitionAnimation(internal androidx.animation.TransitionDefinition<T> def, androidx.animation.AnimationClockObservable clock, T? initState); |
| method public operator <T, V extends androidx.animation.AnimationVector> T! get(androidx.animation.PropKey<T,V> propKey); |
| method public kotlin.jvm.functions.Function1<T,kotlin.Unit>? getOnStateChangeFinished(); |
| method public kotlin.jvm.functions.Function0<kotlin.Unit>? getOnUpdate(); |
| method public boolean isRunning(); |
| method public void setOnStateChangeFinished(kotlin.jvm.functions.Function1<? super T,kotlin.Unit>? p); |
| method public void setOnUpdate(kotlin.jvm.functions.Function0<kotlin.Unit>? p); |
| method public void toState(T? name); |
| property public final boolean isRunning; |
| property public final kotlin.jvm.functions.Function1<T,kotlin.Unit>? onStateChangeFinished; |
| property public final kotlin.jvm.functions.Function0<kotlin.Unit>? onUpdate; |
| } |
| |
| public final class TransitionAnimationKt { |
| } |
| |
| public final class TransitionDefinition<T> { |
| ctor public TransitionDefinition(); |
| method public androidx.animation.TransitionState getStateFor(T? name); |
| method public void snapTransition(kotlin.Pair<? extends T,? extends T>![] fromToPairs, T? nextState = null); |
| method public void state(T? name, kotlin.jvm.functions.Function1<? super androidx.animation.MutableTransitionState,kotlin.Unit> init); |
| method public void transition(T? fromState = null, T? toState = null, kotlin.jvm.functions.Function1<? super androidx.animation.TransitionSpec<T>,kotlin.Unit> init); |
| method public void transition(kotlin.Pair<? extends T,? extends T>![] fromToPairs, kotlin.jvm.functions.Function1<? super androidx.animation.TransitionSpec<T>,kotlin.Unit> init); |
| } |
| |
| public final class TransitionDefinitionKt { |
| method public static <T> androidx.animation.TransitionAnimation<T> createAnimation(androidx.animation.TransitionDefinition<T>, androidx.animation.AnimationClockObservable clock, T? initState = null); |
| method public static <T> androidx.animation.TransitionDefinition<T> transitionDefinition(@kotlin.BuilderInference kotlin.jvm.functions.Function1<? super androidx.animation.TransitionDefinition<T>,kotlin.Unit> init); |
| } |
| |
| public final class TransitionSpec<S> { |
| method public androidx.animation.InterruptionHandling getInterruptionHandling(); |
| method public S? getNextState(); |
| method public <T> androidx.animation.KeyframesBuilder<T> keyframes(kotlin.jvm.functions.Function1<? super androidx.animation.KeyframesBuilder<T>,kotlin.Unit> init); |
| method public <T> androidx.animation.AnimationBuilder<T> physics(kotlin.jvm.functions.Function1<? super androidx.animation.PhysicsBuilder<T>,kotlin.Unit> init); |
| method public <T> androidx.animation.AnimationBuilder<T> repeatable(kotlin.jvm.functions.Function1<? super androidx.animation.RepeatableBuilder<T>,kotlin.Unit> init); |
| method public void setInterruptionHandling(androidx.animation.InterruptionHandling p); |
| method public void setNextState(S? p); |
| method public <T> androidx.animation.AnimationBuilder<T> snap(); |
| method public <T> androidx.animation.DurationBasedAnimationBuilder<T> tween(kotlin.jvm.functions.Function1<? super androidx.animation.TweenBuilder<T>,kotlin.Unit> init); |
| method public infix <T, V extends androidx.animation.AnimationVector> void using(androidx.animation.PropKey<T,V>, androidx.animation.AnimationBuilder<T> builder); |
| property public final androidx.animation.InterruptionHandling interruptionHandling; |
| property public final S? nextState; |
| } |
| |
| public interface TransitionState { |
| method public operator <T, V extends androidx.animation.AnimationVector> T! get(androidx.animation.PropKey<T,V> propKey); |
| } |
| |
| public final class TweenBuilder<T> extends androidx.animation.DurationBasedAnimationBuilder<T> { |
| ctor public TweenBuilder(); |
| method public <V extends androidx.animation.AnimationVector> androidx.animation.TweenSpec<V> build(androidx.animation.TwoWayConverter<T,V> converter); |
| method public kotlin.jvm.functions.Function1<java.lang.Float,java.lang.Float> getEasing(); |
| method public void setEasing(kotlin.jvm.functions.Function1<? super java.lang.Float,java.lang.Float> p); |
| property public final kotlin.jvm.functions.Function1<java.lang.Float,java.lang.Float> easing; |
| } |
| |
| public final class TweenSpec<V extends androidx.animation.AnimationVector> implements androidx.animation.DurationBasedAnimationSpec<V> { |
| ctor public TweenSpec(long duration, long delay, kotlin.jvm.functions.Function1<? super java.lang.Float,java.lang.Float> easing); |
| ctor public TweenSpec(); |
| method public long getDelay(); |
| method public long getDuration(); |
| method public kotlin.jvm.functions.Function1<java.lang.Float,java.lang.Float> getEasing(); |
| method public V getValue(long playTime, V start, V end, V startVelocity); |
| method public V getVelocity(long playTime, V start, V end, V startVelocity); |
| } |
| |
| public interface TwoWayConverter<T, V extends androidx.animation.AnimationVector> { |
| method public kotlin.jvm.functions.Function1<V,T> getConvertFromVector(); |
| method public kotlin.jvm.functions.Function1<T,V> getConvertToVector(); |
| property public abstract kotlin.jvm.functions.Function1<V,T> convertFromVector; |
| property public abstract kotlin.jvm.functions.Function1<T,V> convertToVector; |
| } |
| |
| } |
| |