prism + lens
parent
231f68970f
commit
3d82c58a51
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@ -1,6 +1,6 @@
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use crate::{
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use crate::{
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lenses::{Lens, LensOver, LensView},
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lenses::{Lens, LensOver, LensView},
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prisms::Prism,
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prisms::{Prism, PrismPreview},
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traversals::{Traversal, TraversalOver, TraversalTraverse},
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traversals::{Traversal, TraversalOver, TraversalTraverse},
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};
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};
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@ -17,6 +17,14 @@ impl<A, B> std::ops::Add<Lens<B>> for Lens<A> {
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Lens(Combination(self, rhs))
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Lens(Combination(self, rhs))
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}
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}
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}
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}
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// prism + prism
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impl<A, B> std::ops::Add<Prism<B>> for Prism<A> {
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type Output = Prism<Combination<Prism<A>, Prism<B>>>;
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fn add(self, rhs: Prism<B>) -> Self::Output {
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Prism(Combination(self, rhs))
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}
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}
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// traversal + traversal
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// traversal + traversal
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impl<A, B> std::ops::Add<Traversal<B>> for Traversal<A> {
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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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type Output = Traversal<Combination<Traversal<A>, Traversal<B>>>;
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@ -57,10 +65,27 @@ impl<A, B> std::ops::Add<Traversal<B>> for Prism<A> {
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Traversal(Combination(self.to_traversal(), rhs))
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Traversal(Combination(self.to_traversal(), rhs))
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}
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}
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}
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}
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// lens + prism
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impl<A, B> std::ops::Add<Prism<B>> for Lens<A> {
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type Output = Traversal<Combination<Traversal<Lens<A>>, Traversal<Prism<B>>>>;
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fn add(self, rhs: Prism<B>) -> Self::Output {
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Traversal(Combination(self.to_traversal(), rhs.to_traversal()))
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}
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}
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// prism + traversal
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impl<A, B> std::ops::Add<Lens<B>> for Prism<A> {
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type Output = Traversal<Combination<Traversal<Prism<A>>, Traversal<Lens<B>>>>;
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fn add(self, rhs: Lens<B>) -> Self::Output {
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Traversal(Combination(self.to_traversal(), rhs.to_traversal()))
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}
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}
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// trait impls for Combination
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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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// lens + lens
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impl<A, B, T> LensView<T> for Combination<Lens<A>, Lens<B>>
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where
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where
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A: LensView<T>,
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A: LensView<T>,
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B: LensView<A::Field>,
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B: LensView<A::Field>,
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@ -68,11 +93,10 @@ where
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type Field = B::Field;
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type Field = B::Field;
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fn view(&self, thing: T) -> Self::Field {
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fn view(&self, thing: T) -> Self::Field {
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B::view(&self.1, A::view(&self.0, thing))
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B::view(&self.1 .0, A::view(&self.0 .0, thing))
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}
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}
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}
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}
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impl<A, B, T> LensOver<T> for Combination<Lens<A>, Lens<B>>
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impl<A, B, T> LensOver<T> for Combination<A, B>
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where
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where
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A: LensOver<T>,
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A: LensOver<T>,
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B: LensOver<A::Field>,
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B: LensOver<A::Field>,
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@ -81,11 +105,35 @@ where
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where
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where
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F: FnOnce(Self::Field) -> Self::Field,
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F: FnOnce(Self::Field) -> Self::Field,
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{
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{
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A::over(&self.0, thing, |b| B::over(&self.1, b, f))
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A::over(&self.0 .0, thing, |b| B::over(&self.1 .0, b, f))
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}
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}
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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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// prism + prism
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impl<A, B, T> PrismPreview<T> for Combination<Prism<A>, Prism<B>>
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where
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A: PrismPreview<T>,
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B: PrismPreview<A::Field>,
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{
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type Field = B::Field;
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fn preview(&self, thing: T) -> Option<Self::Field> {
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A::preview(&self.0 .0, thing).and_then(|a| B::preview(&self.1 .0, a))
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}
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fn review(&self, thing: Self::Field) -> T {
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A::review(&self.0 .0, B::review(&self.1 .0, thing))
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}
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}
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// traversal + traversal
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// lens + traversal
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// traversal + lens
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// prism + traversal
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// traversal + prism
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// prism + lens
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// lens + prism
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impl<A, B, T> TraversalTraverse<T> for Combination<Traversal<A>, Traversal<B>>
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where
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where
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A: TraversalTraverse<T>,
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A: TraversalTraverse<T>,
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B: TraversalTraverse<A::Field>,
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B: TraversalTraverse<A::Field>,
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@ -93,15 +141,14 @@ where
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type Field = B::Field;
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type Field = B::Field;
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fn traverse(&self, thing: T) -> Vec<Self::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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let a = A::traverse(&self.0 .0, thing);
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a.into_iter()
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a.into_iter()
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.map(|v| B::traverse(&self.1, v))
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.map(|v| B::traverse(&self.1 .0, v))
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.flatten()
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.flatten()
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.collect()
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.collect()
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}
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}
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}
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}
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impl<A, B, T> TraversalOver<T> for Combination<Traversal<A>, Traversal<B>>
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impl<A, B, T> TraversalOver<T> for Combination<A, B>
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where
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where
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A: TraversalOver<T>,
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A: TraversalOver<T>,
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B: TraversalOver<A::Field>,
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B: TraversalOver<A::Field>,
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@ -110,7 +157,7 @@ where
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where
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where
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F: FnMut(Self::Field) -> Self::Field,
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F: FnMut(Self::Field) -> Self::Field,
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{
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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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A::over(&self.0 .0, thing, |b| B::over(&self.1 .0, b, &mut f))
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}
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}
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}
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}
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@ -140,6 +187,15 @@ mod tests {
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assert_eq!(a, ((1, 3), 3));
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assert_eq!(a, ((1, 3), 3));
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}
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}
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#[test]
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fn can_combine_prisms() {
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let thing = Some(Some(3));
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// combine two traversals
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let res = (_Some + _Some)(thing, |v| v + 1);
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assert_eq!(res, Some(Some(4)));
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}
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#[test]
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#[test]
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fn can_combine_traversals() {
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fn can_combine_traversals() {
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let array = [vec![1, 2], vec![3, 4]];
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let array = [vec![1, 2], vec![3, 4]];
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@ -221,4 +277,48 @@ mod tests {
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let res = t(array, |v| v + 1);
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let res = t(array, |v| v + 1);
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assert_eq!(res, None);
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assert_eq!(res, None);
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}
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}
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#[test]
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fn can_combine_prism_with_lens() {
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let thing = Some((1, 2));
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// combine a traversal with a lens
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let t = _Some + _0;
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// NOTE: combination of a prism and a lens is a traversal
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//
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// > The optic kind resulting from a composition is the least upper bound (join)
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// > of the optic kinds being composed, if it exists.
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// > The Join type family computes the least upper bound given two optic kind tags.
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// > For example the Join of a Lens and a Prism is an AffineTraversal.
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//
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// from: https://hackage.haskell.org/package/optics-0.4/docs/Optics.html
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// traversal
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let res = t(thing);
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assert_eq!(res, vec![1]);
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// over
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let res = t(thing, |v| v + 1);
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assert_eq!(res, Some((2, 2)));
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}
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#[test]
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fn can_combine_lens_with_prism() {
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let thing = (Some(1), 2);
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// combine a traversal with a lens
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let t = _0 + _Some;
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// NOTE: combination of a lens and a prism is a traversal
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// see can_combine_prism_with_lens for more info
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// traversal
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let res = t(thing);
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assert_eq!(res, vec![1]);
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// over
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let res = t(thing, |v| v + 1);
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assert_eq!(res, (Some(2), 2));
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}
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}
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}
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@ -14,6 +14,7 @@ pub trait PrismPreview<T> {
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fn preview(&self, thing: T) -> Option<Self::Field>;
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fn preview(&self, thing: T) -> Option<Self::Field>;
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fn review(&self, thing: Self::Field) -> T;
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fn review(&self, thing: Self::Field) -> T;
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// TODO id like for this to not need clone
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// TODO id like for this to not need clone
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fn over<F>(&self, thing: T, f: F) -> T
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fn over<F>(&self, thing: T, f: F) -> T
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where
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where
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