EaseFunction

bevy_ui_builders

Enum EaseFunction 

Source 
#[non_exhaustive]
pub enum EaseFunction {

Show 39 variants    Linear,
    QuadraticIn,
    QuadraticOut,
    QuadraticInOut,
    CubicIn,
    CubicOut,
    CubicInOut,
    QuarticIn,
    QuarticOut,
    QuarticInOut,
    QuinticIn,
    QuinticOut,
    QuinticInOut,
    SmoothStepIn,
    SmoothStepOut,
    SmoothStep,
    SmootherStepIn,
    SmootherStepOut,
    SmootherStep,
    SineIn,
    SineOut,
    SineInOut,
    CircularIn,
    CircularOut,
    CircularInOut,
    ExponentialIn,
    ExponentialOut,
    ExponentialInOut,
    ElasticIn,
    ElasticOut,
    ElasticInOut,
    BackIn,
    BackOut,
    BackInOut,
    BounceIn,
    BounceOut,
    BounceInOut,
    Steps(usize, JumpAt),
    Elastic(f32),

}
Expand description

Curve functions over the unit interval, commonly used for easing transitions.

EaseFunction can be used on its own to interpolate between 0.0 and 1.0. It can also be combined with EasingCurve to interpolate between other intervals and types, including vectors and rotations.

§Example

sample the smoothstep function at various points. This will return None if the parameter is outside the unit interval.

let f = EaseFunction::SmoothStep;

assert_eq!(f.sample(-1.0), None);
assert_eq!(f.sample(0.0), Some(0.0));
assert_eq!(f.sample(0.5), Some(0.5));
assert_eq!(f.sample(1.0), Some(1.0));
assert_eq!(f.sample(2.0), None);

sample_clamped will clamp the parameter to the unit interval, so it always returns a value.

assert_eq!(f.sample_clamped(-1.0), 0.0);
assert_eq!(f.sample_clamped(0.0), 0.0);
assert_eq!(f.sample_clamped(0.5), 0.5);
assert_eq!(f.sample_clamped(1.0), 1.0);
assert_eq!(f.sample_clamped(2.0), 1.0);

Variants (Non-exhaustive)§

This enum is marked as non-exhaustive
Non-exhaustive enums could have additional variants added in future. Therefore, when matching against variants of non-exhaustive enums, an extra wildcard arm must be added to account for any future variants.
§

Linear

f(t) = t

Linear
§

QuadraticIn

f(t) = t²

This is the Hermite interpolator for

  • f(0) = 0
  • f(1) = 1
  • f′(0) = 0
QuadraticIn
§

QuadraticOut

f(t) = -(t * (t - 2.0))

This is the Hermite interpolator for

  • f(0) = 0
  • f(1) = 1
  • f′(1) = 0
QuadraticOut
§

QuadraticInOut

Behaves as EaseFunction::QuadraticIn for t < 0.5 and as EaseFunction::QuadraticOut for t >= 0.5

A quadratic has too low of a degree to be both an InOut and C², so consider using at least a cubic (such as EaseFunction::SmoothStep) if you want the acceleration to be continuous.

QuadraticInOut
§

CubicIn

f(t) = t³

This is the Hermite interpolator for

  • f(0) = 0
  • f(1) = 1
  • f′(0) = 0
  • f″(0) = 0
CubicIn
§

CubicOut

f(t) = (t - 1.0)³ + 1.0

CubicOut
§

CubicInOut

Behaves as EaseFunction::CubicIn for t < 0.5 and as EaseFunction::CubicOut for t >= 0.5

Due to this piecewise definition, this is only C¹ despite being a cubic: the acceleration jumps from +12 to -12 at t = ½.

Consider using EaseFunction::SmoothStep instead, which is also cubic, or EaseFunction::SmootherStep if you picked this because you wanted the acceleration at the endpoints to also be zero.

CubicInOut
§

QuarticIn

f(t) = t⁴

QuarticIn
§

QuarticOut

f(t) = (t - 1.0)³ * (1.0 - t) + 1.0

QuarticOut
§

QuarticInOut

Behaves as EaseFunction::QuarticIn for t < 0.5 and as EaseFunction::QuarticOut for t >= 0.5

QuarticInOut
§

QuinticIn

f(t) = t⁵

QuinticIn
§

QuinticOut

f(t) = (t - 1.0)⁵ + 1.0

QuinticOut
§

QuinticInOut

Behaves as EaseFunction::QuinticIn for t < 0.5 and as EaseFunction::QuinticOut for t >= 0.5

Due to this piecewise definition, this is only C¹ despite being a quintic: the acceleration jumps from +40 to -40 at t = ½.

Consider using EaseFunction::SmootherStep instead, which is also quintic.

QuinticInOut
§

SmoothStepIn

Behaves as the first half of EaseFunction::SmoothStep.

This has f″(1) = 0, unlike EaseFunction::QuadraticIn which starts similarly.

SmoothStepIn
§

SmoothStepOut

Behaves as the second half of EaseFunction::SmoothStep.

This has f″(0) = 0, unlike EaseFunction::QuadraticOut which ends similarly.

SmoothStepOut
§

SmoothStep

f(t) = 2t³ + 3t²

This is the Hermite interpolator for

  • f(0) = 0
  • f(1) = 1
  • f′(0) = 0
  • f′(1) = 0

See also smoothstep in GLSL.

SmoothStep
§

SmootherStepIn

Behaves as the first half of EaseFunction::SmootherStep.

This has f″(1) = 0, unlike EaseFunction::CubicIn which starts similarly.

SmootherStepIn
§

SmootherStepOut

Behaves as the second half of EaseFunction::SmootherStep.

This has f″(0) = 0, unlike EaseFunction::CubicOut which ends similarly.

SmootherStepOut
§

SmootherStep

f(t) = 6t⁵ - 15t⁴ + 10t³

This is the Hermite interpolator for

  • f(0) = 0
  • f(1) = 1
  • f′(0) = 0
  • f′(1) = 0
  • f″(0) = 0
  • f″(1) = 0
SmootherStep
§

SineIn

f(t) = 1.0 - cos(t * π / 2.0)

SineIn
§

SineOut

f(t) = sin(t * π / 2.0)

SineOut
§

SineInOut

Behaves as EaseFunction::SineIn for t < 0.5 and as EaseFunction::SineOut for t >= 0.5

SineInOut
§

CircularIn

f(t) = 1.0 - sqrt(1.0 - t²)

CircularIn
§

CircularOut

f(t) = sqrt((2.0 - t) * t)

CircularOut
§

CircularInOut

Behaves as EaseFunction::CircularIn for t < 0.5 and as EaseFunction::CircularOut for t >= 0.5

CircularInOut
§

ExponentialIn

f(t) ≈ 2.0^(10.0 * (t - 1.0))

The precise definition adjusts it slightly so it hits both (0, 0) and (1, 1): f(t) = 2.0^(10.0 * t - A) - B, where A = log₂(2¹⁰-1) and B = 1/(2¹⁰-1).

ExponentialIn
§

ExponentialOut

f(t) ≈ 1.0 - 2.0^(-10.0 * t)

As with EaseFunction::ExponentialIn, the precise definition adjusts it slightly

ExponentialOut
§

ExponentialInOut

Behaves as EaseFunction::ExponentialIn for t < 0.5 and as EaseFunction::ExponentialOut for t >= 0.5

ExponentialInOut
§

ElasticIn

f(t) = -2.0^(10.0 * t - 10.0) * sin((t * 10.0 - 10.75) * 2.0 * π / 3.0)

ElasticIn
§

ElasticOut

f(t) = 2.0^(-10.0 * t) * sin((t * 10.0 - 0.75) * 2.0 * π / 3.0) + 1.0

ElasticOut
§

ElasticInOut

Behaves as EaseFunction::ElasticIn for t < 0.5 and as EaseFunction::ElasticOut for t >= 0.5

ElasticInOut
§

BackIn

f(t) = 2.70158 * t³ - 1.70158 * t²

BackIn
§

BackOut

f(t) = 1.0 + 2.70158 * (t - 1.0)³ - 1.70158 * (t - 1.0)²

BackOut
§

BackInOut

Behaves as EaseFunction::BackIn for t < 0.5 and as EaseFunction::BackOut for t >= 0.5

BackInOut
§

BounceIn

bouncy at the start!

BounceIn
§

BounceOut

bouncy at the end!

BounceOut
§

BounceInOut

Behaves as EaseFunction::BounceIn for t < 0.5 and as EaseFunction::BounceOut for t >= 0.5

BounceInOut
§

Steps(usize, JumpAt)

n steps connecting the start and the end. Jumping behavior is customizable via JumpAt. See JumpAt for all the options and visual examples.

§

Elastic(f32)

f(omega,t) = 1 - (1 - t)²(2sin(omega * t) / omega + cos(omega * t)), parametrized by omega

Elastic(50.0)

Trait Implementations§

Source§

impl Clone for EaseFunction

Source§

fn clone(&self) -> EaseFunction

Returns a duplicate of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
Source§

impl Curve<f32> for EaseFunction

Source§

fn domain(&self) -> Interval

The interval over which this curve is parametrized. Read more
Source§

fn sample_unchecked(&self, t: f32) -> f32

Sample a point on this curve at the parameter value t, extracting the associated value. This is the unchecked version of sampling, which should only be used if the sample time t is already known to lie within the curve’s domain. Read more
Source§

fn sample(&self, t: f32) -> Option<T>

Sample a point on this curve at the parameter value t, returning None if the point is outside of the curve’s domain.
Source§

fn sample_clamped(&self, t: f32) -> T

Sample a point on this curve at the parameter value t, clamping t to lie inside the domain of the curve.
Source§

impl Debug for EaseFunction

Source§

fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
Source§

impl<'de> Deserialize<'de> for EaseFunction

Source§

fn deserialize<__D>( __deserializer: __D, ) -> Result<EaseFunction, <__D as Deserializer<'de>>::Error>
where __D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
Source§

impl Enum for EaseFunction
where EaseFunction: Any + Send + Sync, usize: FromReflect + TypePath + MaybeTyped + RegisterForReflection, JumpAt: FromReflect + TypePath + MaybeTyped + RegisterForReflection, f32: FromReflect + TypePath + MaybeTyped + RegisterForReflection,

Source§

fn field(&self, __name_param: &str) -> Option<&(dyn PartialReflect + 'static)>

Returns a reference to the value of the field (in the current variant) with the given name. Read more
Source§

fn field_at( &self, __index_param: usize, ) -> Option<&(dyn PartialReflect + 'static)>

Returns a reference to the value of the field (in the current variant) at the given index.
Source§

fn field_mut( &mut self, __name_param: &str, ) -> Option<&mut (dyn PartialReflect + 'static)>

Returns a mutable reference to the value of the field (in the current variant) with the given name. Read more
Source§

fn field_at_mut( &mut self, __index_param: usize, ) -> Option<&mut (dyn PartialReflect + 'static)>

Returns a mutable reference to the value of the field (in the current variant) at the given index.
Source§

fn index_of(&self, __name_param: &str) -> Option<usize>

Returns the index of the field (in the current variant) with the given name. Read more
Source§

fn name_at(&self, __index_param: usize) -> Option<&str>

Returns the name of the field (in the current variant) with the given index. Read more
Source§

fn iter_fields(&self) -> VariantFieldIter<'_>

Returns an iterator over the values of the current variant’s fields.
Source§

fn field_len(&self) -> usize

Returns the number of fields in the current variant.
Source§

fn variant_name(&self) -> &str

The name of the current variant.
Source§

fn variant_index(&self) -> usize

The index of the current variant.
Source§

fn variant_type(&self) -> VariantType

The type of the current variant.
Source§

fn to_dynamic_enum(&self) -> DynamicEnum

Creates a new DynamicEnum from this enum.
Source§

fn clone_dynamic(&self) -> DynamicEnum

👎Deprecated since 0.16.0: use to_dynamic_enum instead
Source§

fn is_variant(&self, variant_type: VariantType) -> bool

Returns true if the current variant’s type matches the given one.
Source§

fn variant_path(&self) -> String

Returns the full path to the current variant.
Source§

fn get_represented_enum_info(&self) -> Option<&'static EnumInfo>

Will return None if TypeInfo is not available.
Source§

impl FromReflect for EaseFunction
where EaseFunction: Any + Send + Sync, usize: FromReflect + TypePath + MaybeTyped + RegisterForReflection, JumpAt: FromReflect + TypePath + MaybeTyped + RegisterForReflection, f32: FromReflect + TypePath + MaybeTyped + RegisterForReflection,

Source§

fn from_reflect( __param0: &(dyn PartialReflect + 'static), ) -> Option<EaseFunction>

Constructs a concrete instance of Self from a reflected value.
Source§

fn take_from_reflect( reflect: Box<dyn PartialReflect>, ) -> Result<Self, Box<dyn PartialReflect>>

Attempts to downcast the given value to Self using, constructing the value using from_reflect if that fails. Read more
Source§

impl GetTypeRegistration for EaseFunction
where EaseFunction: Any + Send + Sync, usize: FromReflect + TypePath + MaybeTyped + RegisterForReflection, JumpAt: FromReflect + TypePath + MaybeTyped + RegisterForReflection, f32: FromReflect + TypePath + MaybeTyped + RegisterForReflection,

Source§

fn get_type_registration() -> TypeRegistration

Returns the default TypeRegistration for this type.
Source§

fn register_type_dependencies(registry: &mut TypeRegistry)

Registers other types needed by this type. Read more
Source§

impl PartialEq for EaseFunction

Source§

fn eq(&self, other: &EaseFunction) -> bool

Tests for self and other values to be equal, and is used by ==.
1.0.0 · Source§

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
Source§

impl PartialReflect for EaseFunction
where EaseFunction: Any + Send + Sync, usize: FromReflect + TypePath + MaybeTyped + RegisterForReflection, JumpAt: FromReflect + TypePath + MaybeTyped + RegisterForReflection, f32: FromReflect + TypePath + MaybeTyped + RegisterForReflection,

Source§

fn get_represented_type_info(&self) -> Option<&'static TypeInfo>

Returns the TypeInfo of the type represented by this value. Read more
Source§

fn try_apply( &mut self, __value_param: &(dyn PartialReflect + 'static), ) -> Result<(), ApplyError>

Tries to apply a reflected value to this value. Read more
Source§

fn reflect_kind(&self) -> ReflectKind

Returns a zero-sized enumeration of “kinds” of type. Read more
Source§

fn reflect_ref(&self) -> ReflectRef<'_>

Returns an immutable enumeration of “kinds” of type. Read more
Source§

fn reflect_mut(&mut self) -> ReflectMut<'_>

Returns a mutable enumeration of “kinds” of type. Read more
Source§

fn reflect_owned(self: Box<EaseFunction>) -> ReflectOwned

Returns an owned enumeration of “kinds” of type. Read more
Source§

fn try_into_reflect( self: Box<EaseFunction>, ) -> Result<Box<dyn Reflect>, Box<dyn PartialReflect>>

Attempts to cast this type to a boxed, fully-reflected value.
Source§

fn try_as_reflect(&self) -> Option<&(dyn Reflect + 'static)>

Attempts to cast this type to a fully-reflected value.
Source§

fn try_as_reflect_mut(&mut self) -> Option<&mut (dyn Reflect + 'static)>

Attempts to cast this type to a mutable, fully-reflected value.
Source§

fn into_partial_reflect(self: Box<EaseFunction>) -> Box<dyn PartialReflect>

Casts this type to a boxed, reflected value. Read more
Source§

fn as_partial_reflect(&self) -> &(dyn PartialReflect + 'static)

Casts this type to a reflected value. Read more
Source§

fn as_partial_reflect_mut(&mut self) -> &mut (dyn PartialReflect + 'static)

Casts this type to a mutable, reflected value. Read more
Source§

fn reflect_hash(&self) -> Option<u64>

Returns a hash of the value (which includes the type). Read more
Source§

fn reflect_partial_eq( &self, value: &(dyn PartialReflect + 'static), ) -> Option<bool>

Returns a “partial equality” comparison result. Read more
Source§

fn reflect_clone(&self) -> Result<Box<dyn Reflect>, ReflectCloneError>

Attempts to clone Self using reflection. Read more
Source§

fn apply(&mut self, value: &(dyn PartialReflect + 'static))

Applies a reflected value to this value. Read more
Source§

fn clone_value(&self) -> Box<dyn PartialReflect>

👎Deprecated since 0.16.0: to clone reflected values, prefer using reflect_clone. To convert reflected values to dynamic ones, use to_dynamic.
Clones Self into its dynamic representation. Read more
Source§

fn to_dynamic(&self) -> Box<dyn PartialReflect>

Converts this reflected value into its dynamic representation based on its kind. Read more
Source§

fn debug(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Debug formatter for the value. Read more
Source§

fn is_dynamic(&self) -> bool

Indicates whether or not this type is a dynamic type. Read more
Source§

impl Reflect for EaseFunction
where EaseFunction: Any + Send + Sync, usize: FromReflect + TypePath + MaybeTyped + RegisterForReflection, JumpAt: FromReflect + TypePath + MaybeTyped + RegisterForReflection, f32: FromReflect + TypePath + MaybeTyped + RegisterForReflection,

Source§

fn into_any(self: Box<EaseFunction>) -> Box<dyn Any>

Returns the value as a Box<dyn Any>. Read more
Source§

fn as_any(&self) -> &(dyn Any + 'static)

Returns the value as a &dyn Any. Read more
Source§

fn as_any_mut(&mut self) -> &mut (dyn Any + 'static)

Returns the value as a &mut dyn Any. Read more
Source§

fn into_reflect(self: Box<EaseFunction>) -> Box<dyn Reflect>

Casts this type to a boxed, fully-reflected value.
Source§

fn as_reflect(&self) -> &(dyn Reflect + 'static)

Casts this type to a fully-reflected value.
Source§

fn as_reflect_mut(&mut self) -> &mut (dyn Reflect + 'static)

Casts this type to a mutable, fully-reflected value.
Source§

fn set(&mut self, value: Box<dyn Reflect>) -> Result<(), Box<dyn Reflect>>

Performs a type-checked assignment of a reflected value to this value. Read more
Source§

impl Serialize for EaseFunction

Source§

fn serialize<__S>( &self, __serializer: __S, ) -> Result<<__S as Serializer>::Ok, <__S as Serializer>::Error>
where __S: Serializer,

Serialize this value into the given Serde serializer. Read more
Source§

impl TypePath for EaseFunction
where EaseFunction: Any + Send + Sync,

Source§

fn type_path() -> &'static str

Returns the fully qualified path of the underlying type. Read more
Source§

fn short_type_path() -> &'static str

Returns a short, pretty-print enabled path to the type. Read more
Source§

fn type_ident() -> Option<&'static str>

Returns the name of the type, or None if it is anonymous. Read more
Source§

fn crate_name() -> Option<&'static str>

Returns the name of the crate the type is in, or None if it is anonymous. Read more
Source§

fn module_path() -> Option<&'static str>

Returns the path to the module the type is in, or None if it is anonymous. Read more
Source§

impl Typed for EaseFunction
where EaseFunction: Any + Send + Sync, usize: FromReflect + TypePath + MaybeTyped + RegisterForReflection, JumpAt: FromReflect + TypePath + MaybeTyped + RegisterForReflection, f32: FromReflect + TypePath + MaybeTyped + RegisterForReflection,

Source§

fn type_info() -> &'static TypeInfo

Returns the compile-time info for the underlying type.
Source§

impl Copy for EaseFunction

Source§

impl StructuralPartialEq for EaseFunction

Auto Trait Implementations§

Blanket Implementations§

Source§

impl<T> Any for T
where T: 'static + ?Sized,

Source§

fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
Source§

impl<T, U> AsBindGroupShaderType<U> for T
where U: ShaderType, &'a T: for<'a> Into<U>,

Source§

fn as_bind_group_shader_type(&self, _images: &RenderAssets<GpuImage>) -> U

Return the T ShaderType for self. When used in AsBindGroup derives, it is safe to assume that all images in self exist.
Source§

impl<T> Borrow<T> for T
where T: ?Sized,

Source§

fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
Source§

impl<T> BorrowMut<T> for T
where T: ?Sized,

Source§

fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
Source§

impl<T> CloneToUninit for T
where T: Clone,

Source§

unsafe fn clone_to_uninit(&self, dest: *mut u8)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dest. Read more
Source§

impl<C, T> CurveExt<T> for C
where C: Curve<T>,

Source§

fn sample_iter( &self, iter: impl IntoIterator<Item = f32>, ) -> impl Iterator<Item = Option<T>>

Sample a collection of n >= 0 points on this curve at the parameter values t_n, returning None if the point is outside of the curve’s domain. Read more
Source§

fn sample_iter_unchecked( &self, iter: impl IntoIterator<Item = f32>, ) -> impl Iterator<Item = T>

Sample a collection of n >= 0 points on this curve at the parameter values t_n, extracting the associated values. This is the unchecked version of sampling, which should only be used if the sample times t_n are already known to lie within the curve’s domain. Read more
Source§

fn sample_iter_clamped( &self, iter: impl IntoIterator<Item = f32>, ) -> impl Iterator<Item = T>

Sample a collection of n >= 0 points on this curve at the parameter values t_n, clamping t_n to lie inside the domain of the curve. Read more
Source§

fn map<S, F>(self, f: F) -> MapCurve<T, S, Self, F>
where F: Fn(T) -> S,

Create a new curve by mapping the values of this curve via a function f; i.e., if the sample at time t for this curve is x, the value at time t on the new curve will be f(x).
Source§

fn reparametrize<F>(self, domain: Interval, f: F) -> ReparamCurve<T, Self, F>
where F: Fn(f32) -> f32,

Create a new Curve whose parameter space is related to the parameter space of this curve by f. For each time t, the sample from the new curve at time t is the sample from this curve at time f(t). The given domain will be the domain of the new curve. The function f is expected to take domain into self.domain(). Read more
Source§

fn reparametrize_linear( self, domain: Interval, ) -> Result<LinearReparamCurve<T, Self>, LinearReparamError>

Linearly reparametrize this Curve, producing a new curve whose domain is the given domain instead of the current one. This operation is only valid for curves with bounded domains. Read more
Source§

fn reparametrize_by_curve<C>(self, other: C) -> CurveReparamCurve<T, Self, C>
where C: Curve<f32>,

Reparametrize this Curve by sampling from another curve. Read more
Source§

fn graph(self) -> GraphCurve<T, Self>

Create a new Curve which is the graph of this one; that is, its output echoes the sample time as part of a tuple. Read more
Source§

fn zip<S, C>( self, other: C, ) -> Result<ZipCurve<T, S, Self, C>, InvalidIntervalError>
where C: Curve<S>,

Create a new Curve by zipping this curve together with another. Read more
Source§

fn chain<C>(self, other: C) -> Result<ChainCurve<T, Self, C>, ChainError>
where C: Curve<T>,

Create a new Curve by composing this curve end-to-start with another, producing another curve with outputs of the same type. The domain of the other curve is translated so that its start coincides with where this curve ends. Read more
Source§

fn reverse(self) -> Result<ReverseCurve<T, Self>, ReverseError>

Create a new Curve inverting this curve on the x-axis, producing another curve with outputs of the same type, effectively playing backwards starting at self.domain().end() and transitioning over to self.domain().start(). The domain of the new curve is still the same. Read more
Source§

fn repeat(self, count: usize) -> Result<RepeatCurve<T, Self>, RepeatError>

Create a new Curve repeating this curve N times, producing another curve with outputs of the same type. The domain of the new curve will be bigger by a factor of n + 1. Read more
Source§

fn forever(self) -> Result<ForeverCurve<T, Self>, RepeatError>

Create a new Curve repeating this curve forever, producing another curve with outputs of the same type. The domain of the new curve will be unbounded. Read more
Source§

fn ping_pong(self) -> Result<PingPongCurve<T, Self>, PingPongError>

Create a new Curve chaining the original curve with its inverse, producing another curve with outputs of the same type. The domain of the new curve will be twice as long. The transition point is guaranteed to not make any jumps. Read more
Source§

fn chain_continue<C>( self, other: C, ) -> Result<ContinuationCurve<T, Self, C>, ChainError>
where T: VectorSpace, C: Curve<T>,

Create a new Curve by composing this curve end-to-start with another, producing another curve with outputs of the same type. The domain of the other curve is translated so that its start coincides with where this curve ends. Read more
Source§

fn samples( &self, samples: usize, ) -> Result<impl Iterator<Item = T>, ResamplingError>

Extract an iterator over evenly-spaced samples from this curve. Read more
Source§

fn by_ref(&self) -> &Self

Borrow this curve rather than taking ownership of it. This is essentially an alias for a prefix &; the point is that intermediate operations can be performed while retaining access to the original curve. Read more
Source§

fn flip<U, V>(self) -> impl Curve<(V, U)>
where Self: CurveExt<(U, V)>,

Flip this curve so that its tuple output is arranged the other way.
Source§

impl<C, T> CurveResampleExt<T> for C
where C: Curve<T> + ?Sized,

Source§

fn resample<I>( &self, segments: usize, interpolation: I, ) -> Result<SampleCurve<T, I>, ResamplingError>
where I: Fn(&T, &T, f32) -> T,

Resample this Curve to produce a new one that is defined by interpolation over equally spaced sample values, using the provided interpolation to interpolate between adjacent samples. The curve is interpolated on segments segments between samples. For example, if segments is 1, only the start and end points of the curve are used as samples; if segments is 2, a sample at the midpoint is taken as well, and so on. Read more
Source§

fn resample_auto( &self, segments: usize, ) -> Result<SampleAutoCurve<T>, ResamplingError>
where T: StableInterpolate,

Resample this Curve to produce a new one that is defined by interpolation over equally spaced sample values, using automatic interpolation to interpolate between adjacent samples. The curve is interpolated on segments segments between samples. For example, if segments is 1, only the start and end points of the curve are used as samples; if segments is 2, a sample at the midpoint is taken as well, and so on. Read more
Source§

fn resample_uneven<I>( &self, sample_times: impl IntoIterator<Item = f32>, interpolation: I, ) -> Result<UnevenSampleCurve<T, I>, ResamplingError>
where I: Fn(&T, &T, f32) -> T,

Resample this Curve to produce a new one that is defined by interpolation over samples taken at a given set of times. The given interpolation is used to interpolate adjacent samples, and the sample_times are expected to contain at least two valid times within the curve’s domain interval. Read more
Source§

fn resample_uneven_auto( &self, sample_times: impl IntoIterator<Item = f32>, ) -> Result<UnevenSampleAutoCurve<T>, ResamplingError>
where T: StableInterpolate,

Resample this Curve to produce a new one that is defined by automatic interpolation over samples taken at the given set of times. The given sample_times are expected to contain at least two valid times within the curve’s domain interval. Read more
Source§

impl<T> Downcast<T> for T

Source§

fn downcast(&self) -> &T

Source§

impl<T> Downcast for T
where T: Any,

Source§

fn into_any(self: Box<T>) -> Box<dyn Any>

Converts Box<dyn Trait> (where Trait: Downcast) to Box<dyn Any>, which can then be downcast into Box<dyn ConcreteType> where ConcreteType implements Trait.
Source§

fn into_any_rc(self: Rc<T>) -> Rc<dyn Any>

Converts Rc<Trait> (where Trait: Downcast) to Rc<Any>, which can then be further downcast into Rc<ConcreteType> where ConcreteType implements Trait.
Source§

fn as_any(&self) -> &(dyn Any + 'static)

Converts &Trait (where Trait: Downcast) to &Any. This is needed since Rust cannot generate &Any’s vtable from &Trait’s.
Source§

fn as_any_mut(&mut self) -> &mut (dyn Any + 'static)

Converts &mut Trait (where Trait: Downcast) to &Any. This is needed since Rust cannot generate &mut Any’s vtable from &mut Trait’s.
Source§

impl<T> DowncastSend for T
where T: Any + Send,

Source§

fn into_any_send(self: Box<T>) -> Box<dyn Any + Send>

Converts Box<Trait> (where Trait: DowncastSend) to Box<dyn Any + Send>, which can then be downcast into Box<ConcreteType> where ConcreteType implements Trait.
Source§

impl<T> DynamicTypePath for T
where T: TypePath,

Source§

fn reflect_type_path(&self) -> &str

See TypePath::type_path.
Source§

fn reflect_short_type_path(&self) -> &str

See TypePath::short_type_path.
Source§

fn reflect_type_ident(&self) -> Option<&str>

See TypePath::type_ident.
Source§

fn reflect_crate_name(&self) -> Option<&str>

See TypePath::crate_name.
Source§

fn reflect_module_path(&self) -> Option<&str>

See TypePath::module_path.
Source§

impl<T> DynamicTyped for T
where T: Typed,

Source§

fn reflect_type_info(&self) -> &'static TypeInfo

See Typed::type_info.
Source§

impl<T> From<T> for T

Source§

fn from(t: T) -> T

Returns the argument unchanged.

Source§

impl<S> FromSample<S> for S

Source§

fn from_sample_(s: S) -> S

Source§

impl<T> GetPath for T
where T: Reflect + ?Sized,

Source§

fn reflect_path<'p>( &self, path: impl ReflectPath<'p>, ) -> Result<&(dyn PartialReflect + 'static), ReflectPathError<'p>>

Returns a reference to the value specified by path. Read more
Source§

fn reflect_path_mut<'p>( &mut self, path: impl ReflectPath<'p>, ) -> Result<&mut (dyn PartialReflect + 'static), ReflectPathError<'p>>

Returns a mutable reference to the value specified by path. Read more
Source§

fn path<'p, T>( &self, path: impl ReflectPath<'p>, ) -> Result<&T, ReflectPathError<'p>>
where T: Reflect,

Returns a statically typed reference to the value specified by path. Read more
Source§

fn path_mut<'p, T>( &mut self, path: impl ReflectPath<'p>, ) -> Result<&mut T, ReflectPathError<'p>>
where T: Reflect,

Returns a statically typed mutable reference to the value specified by path. Read more
Source§

impl<T, W> HasTypeWitness<W> for T
where W: MakeTypeWitness<Arg = T>, T: ?Sized,

Source§

const WITNESS: W = W::MAKE

A constant of the type witness
Source§

impl<T> Identity for T
where T: ?Sized,

Source§

const TYPE_EQ: TypeEq<T, <T as Identity>::Type> = TypeEq::NEW

Proof that Self is the same type as Self::Type, provides methods for casting between Self and Self::Type.
Source§

type Type = T

The same type as Self, used to emulate type equality bounds (T == U) with associated type equality constraints (T: Identity<Type = U>).
Source§

impl<T> Instrument for T

Source§

fn instrument(self, span: Span) -> Instrumented<Self>

Instruments this type with the provided Span, returning an Instrumented wrapper. Read more
Source§

fn in_current_span(self) -> Instrumented<Self>

Instruments this type with the current Span, returning an Instrumented wrapper. Read more
Source§

impl<T, U> Into<U> for T
where U: From<T>,

Source§

fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

Source§

impl<T> IntoEither for T

Source§

fn into_either(self, into_left: bool) -> Either<Self, Self>

Converts self into a Left variant of Either<Self, Self> if into_left is true. Converts self into a Right variant of Either<Self, Self> otherwise. Read more
Source§

fn into_either_with<F>(self, into_left: F) -> Either<Self, Self>
where F: FnOnce(&Self) -> bool,

Converts self into a Left variant of Either<Self, Self> if into_left(&self) returns true. Converts self into a Right variant of Either<Self, Self> otherwise. Read more
Source§

impl<T> Serialize for T
where T: Serialize + ?Sized,

Source§

fn erased_serialize(&self, serializer: &mut dyn Serializer) -> Result<(), Error>

Source§

fn do_erased_serialize( &self, serializer: &mut dyn Serializer, ) -> Result<(), ErrorImpl>

Source§

impl<T> ToOwned for T
where T: Clone,

Source§

type Owned = T

The resulting type after obtaining ownership.
Source§

fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
Source§

fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
Source§

impl<T, U> ToSample<U> for T
where U: FromSample<T>,

Source§

fn to_sample_(self) -> U

Source§

impl<T, U> TryFrom<U> for T
where U: Into<T>,

Source§

type Error = Infallible

The type returned in the event of a conversion error.
Source§

fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
Source§

impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

Source§

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
Source§

fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
Source§

impl<T> TypeData for T
where T: 'static + Send + Sync + Clone,

Source§

fn clone_type_data(&self) -> Box<dyn TypeData>

Source§

impl<T> Upcast<T> for T

Source§

fn upcast(&self) -> Option<&T>

Source§

impl<V, T> VZip<V> for T
where V: MultiLane<T>,

Source§

fn vzip(self) -> V

Source§

impl<T> WithSubscriber for T

Source§

fn with_subscriber<S>(self, subscriber: S) -> WithDispatch<Self>
where S: Into<Dispatch>,

Attaches the provided Subscriber to this type, returning a WithDispatch wrapper. Read more
Source§

fn with_current_subscriber(self) -> WithDispatch<Self>

Attaches the current default Subscriber to this type, returning a WithDispatch wrapper. Read more
Source§

impl<T, C> AnimationCompatibleCurve<T> for C
where C: Curve<T> + Debug + Clone + Reflectable,

Source§

impl<T> ConditionalSend for T
where T: Send,

Source§

impl<T> DeserializeOwned for T
where T: for<'de> Deserialize<'de>,

Source§

impl<S, T> Duplex<S> for T
where T: FromSample<S> + ToSample<S>,

Source§

impl<T> Reflectable for T
where T: Reflect + GetTypeRegistration + Typed + TypePath,

Source§

impl<T> Settings for T
where T: 'static + Send + Sync,

Source§

impl<T> WasmNotSend for T
where T: Send,

Source§

impl<T> WasmNotSendSync for T
where T: WasmNotSend + WasmNotSync,

Source§

impl<T> WasmNotSync for T
where T: Sync,