combination of traversals
parent
f73c2ad5b6
commit
6b339ddde1
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@ -1,8 +1,13 @@
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use crate::lenses::{Lens, LensOver, LensView};
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use crate::{
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lenses::{Lens, LensOver, LensView},
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traversals::{Traversal, TraversalOver, TraversalTraverse},
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};
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#[derive(Clone, Copy)]
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pub struct Combination<A, B>(A, B);
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// additions
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impl<A, B> std::ops::Add<Lens<B>> for Lens<A> {
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type Output = Lens<Combination<Lens<A>, Lens<B>>>;
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@ -10,6 +15,29 @@ impl<A, B> std::ops::Add<Lens<B>> for Lens<A> {
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Lens(Combination(self, rhs))
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}
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}
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impl<A, B> std::ops::Add<Traversal<B>> for Traversal<A> {
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type Output = Traversal<Combination<Traversal<A>, Traversal<B>>>;
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fn add(self, rhs: Traversal<B>) -> Self::Output {
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Traversal(Combination(self, rhs))
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}
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}
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impl<A, B> std::ops::Add<Lens<B>> for Traversal<A> {
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type Output = Traversal<Combination<Traversal<A>, Traversal<Lens<B>>>>;
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fn add(self, rhs: Lens<B>) -> Self::Output {
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Traversal(Combination(self, rhs.to_traversal()))
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}
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}
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impl<A, B> std::ops::Add<Traversal<B>> for Lens<A> {
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type Output = Traversal<Combination<Traversal<Lens<A>>, Traversal<B>>>;
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fn add(self, rhs: Traversal<B>) -> Self::Output {
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Traversal(Combination(self.to_traversal(), rhs))
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}
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}
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// trait impls for Combination
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impl<A, B, T> LensView<T> for Combination<A, B>
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where
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@ -35,3 +63,32 @@ where
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A::over(&self.0, thing, |b| B::over(&self.1, b, f))
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}
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}
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impl<A, B, T> TraversalTraverse<T> for Combination<A, B>
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where
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A: TraversalTraverse<T>,
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B: TraversalTraverse<A::Field>,
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{
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type Field = B::Field;
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fn traverse(&self, thing: T) -> Vec<Self::Field> {
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let a = A::traverse(&self.0, thing);
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a.into_iter()
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.map(|v| B::traverse(&self.1, v))
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.flatten()
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.collect()
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}
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}
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impl<A, B, T> TraversalOver<T> for Combination<A, B>
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where
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A: TraversalOver<T>,
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B: TraversalOver<A::Field>,
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{
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fn over<F>(&self, thing: T, mut f: F) -> T
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where
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F: FnMut(Self::Field) -> Self::Field,
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{
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A::over(&self.0, thing, |b| B::over(&self.1, b, &mut f))
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}
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}
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@ -3,16 +3,16 @@ use crate::lenses::{Lens, LensOver, LensView};
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type Getter<T, U> = dyn Fn(T) -> U;
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type Setter<T, U> = dyn Fn(T, U) -> T;
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pub struct LensInner<T, U>(pub(crate) Box<Getter<T, U>>, pub(crate) Box<Setter<T, U>>);
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pub struct FuncLens<T, U>(pub(crate) Box<Getter<T, U>>, pub(crate) Box<Setter<T, U>>);
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impl<T, U> LensView<T> for LensInner<T, U> {
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impl<T, U> LensView<T> for FuncLens<T, U> {
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type Field = U;
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fn view(&self, thing: T) -> Self::Field {
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(self.0)(thing)
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}
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}
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impl<T: Clone, U> LensOver<T> for LensInner<T, U> {
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impl<T: Clone, U> LensOver<T> for FuncLens<T, U> {
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fn over<F>(&self, thing: T, f: F) -> T
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where
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F: FnOnce(Self::Field) -> Self::Field,
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@ -30,13 +30,13 @@ impl<T: Clone, U> LensOver<T> for LensInner<T, U> {
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pub fn lens_from_boxed<T, U>(
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getter: Box<Getter<T, U>>,
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setter: Box<Setter<T, U>>,
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) -> Lens<LensInner<T, U>> {
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Lens(LensInner(getter, setter))
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) -> Lens<FuncLens<T, U>> {
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Lens(FuncLens(getter, setter))
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}
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/// Makes a lens that implements `LensView<T>` and `LensOver<T>` with the provided functions
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pub fn lens<T, U>(
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getter: impl Fn(T) -> U + 'static,
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setter: impl Fn(T, U) -> T + 'static,
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) -> Lens<LensInner<T, U>> {
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Lens(LensInner(Box::new(getter), Box::new(setter)))
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) -> Lens<FuncLens<T, U>> {
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Lens(FuncLens(Box::new(getter), Box::new(setter)))
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}
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@ -11,28 +11,11 @@ pub use to::{to, to_from_boxed};
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mod lens;
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pub use lens::{lens, lens_from_boxed};
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use crate::traversals::Traversal;
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/// Wrapper type
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#[derive(Clone, Copy)]
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#[repr(transparent)]
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pub struct Lens<L>(pub(crate) L);
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// all lenses are traversals, so we can freely transform them into a traversal
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impl<L> Lens<L> {
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/// Returns this lens as a traversal
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pub fn to_traversal(self) -> Traversal<Lens<L>> {
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Traversal(self)
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}
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}
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// we can go back to a lens from a "traversal-ed" lens
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impl<L> Traversal<Lens<L>> {
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/// Returns the wrapped lens
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pub fn to_lens(self) -> Lens<L> {
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self.0
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}
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}
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/// For lenses that allow viewing
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pub trait LensView<T> {
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type Field;
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@ -1,6 +1,6 @@
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use crate::lenses::{Lens, LensView};
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use super::lens::LensInner;
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use super::lens::FuncLens;
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pub struct ToInner<T, U>(Box<dyn Fn(T) -> U>);
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@ -23,7 +23,7 @@ pub fn to<T, U>(f: impl Fn(T) -> U + 'static) -> Lens<ToInner<T, U>> {
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impl<T, U> Lens<ToInner<T, U>> {
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/// Makes a full lens that implements `LensView<T>` and `LensOver<T>` with the provided functions
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pub fn make_lens(self, setter: impl Fn(T, U) -> T + 'static) -> Lens<LensInner<T, U>> {
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Lens(LensInner((self.0).0, Box::new(setter)))
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pub fn make_lens(self, setter: impl Fn(T, U) -> T + 'static) -> Lens<FuncLens<T, U>> {
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Lens(FuncLens((self.0).0, Box::new(setter)))
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}
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}
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@ -4,6 +4,8 @@ pub use both::both;
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mod each;
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pub use each::each;
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use crate::lenses::{Lens, LensOver, LensView};
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/// Wrapper type
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#[derive(Clone, Copy)]
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#[repr(transparent)]
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@ -14,7 +16,6 @@ pub trait TraversalTraverse<T> {
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fn traverse(&self, thing: T) -> Vec<Self::Field>;
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}
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pub trait TraversalOver<T>: TraversalTraverse<T> {
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fn over<F>(&self, thing: T, f: F) -> T
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where
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@ -27,6 +28,7 @@ pub trait TraversalOver<T>: TraversalTraverse<T> {
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Self::over(self, thing, move |_| v.clone())
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}
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}
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impl<L, T> TraversalTraverse<T> for Traversal<L>
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where
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L: TraversalTraverse<T>,
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@ -49,6 +51,42 @@ where
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}
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}
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// all lenses are traversals, so we can freely transform them into a traversal
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impl<L> Lens<L> {
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/// Returns this lens as a traversal
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pub fn to_traversal(self) -> Traversal<Lens<L>> {
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Traversal(self)
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}
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}
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// we can go back to a lens from a "traversal-ed" lens
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impl<L> Traversal<Lens<L>> {
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/// Returns the wrapped lens
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pub fn to_lens(self) -> Lens<L> {
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self.0
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}
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}
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impl<L, T> TraversalTraverse<T> for Lens<L>
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where
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L: LensView<T>,
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{
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type Field = L::Field;
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fn traverse(&self, thing: T) -> Vec<Self::Field> {
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vec![L::view(&self.0, thing)]
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}
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}
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impl<L, T> TraversalOver<T> for Lens<L>
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where
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L: LensView<T> + LensOver<T>,
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{
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fn over<F>(&self, thing: T, f: F) -> T
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where
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F: FnMut(Self::Field) -> Self::Field,
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{
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L::over(&self.0, thing, f)
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}
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}
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pub fn traverse<T, L: TraversalTraverse<T>>(lens: L, thing: T) -> Vec<L::Field> {
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L::traverse(&lens, thing)
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}
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@ -64,13 +102,59 @@ pub fn over<T, L: TraversalOver<T>>(lens: L, thing: T, f: impl FnMut(L::Field) -
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#[cfg(test)]
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mod tests {
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use crate::lenses::_0;
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use super::*;
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#[test]
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fn traverse_each_works_on_arrays() {
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let array = [1, 2, 3, 4];
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let res = each(array);
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assert_eq!(res, vec![1, 2, 3, 4,]);
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let res = each(array, |v| v + 1);
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assert_eq!(res, [2, 3, 4, 5]);
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}
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#[test]
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fn can_combine_traversals() {
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let array = [vec![1, 2], vec![3, 4]];
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// combine two traversals
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let res = (each + each)(array, |v| v + 1);
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assert_eq!(res, [vec![2, 3], vec![4, 5]]);
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}
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#[test]
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fn can_combine_traversal_with_lens() {
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let array = [(1, 2), (3, 4), (5, 6)];
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// combine a traversal with a lens
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let t = each + _0;
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// traverse
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let res = t(array);
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assert_eq!(res, vec![1, 3, 5]);
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// over
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let res = t(array, |v| v + 1);
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assert_eq!(res, [(2, 2), (4, 4), (6, 6)]);
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}
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#[test]
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fn can_combine_lens_with_traversal() {
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let array = [(1, 2), (3, 4), (5, 6)];
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// combine a traversal with a lens
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let t = _0 + each;
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// traverse
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let res = t(array);
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assert_eq!(res, vec![1, 2]);
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// over
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let res = t(array, |v| v + 1);
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assert_eq!(res, [(2, 3), (3, 4), (5, 6)]);
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}
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}
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