import TypeClass defclass Witchcraft.Traversable do @moduledoc """ Walk through a data structure from left to right, running some action on each element in turn. Similar to applicatives, it can be used to do things like collecting some effect while performing other actions. ## Type Class An instance of `Witchcraft.Traversable` must also implement `Witchcraft.Foldable` and `Witchcraft.Functor`, and define `Witchcraft.Foldable.right_fold/3`. [right_fold/3] Foldable Functor [map/2] ↓ ↓ Traversable [right_fold/3] """ alias __MODULE__ alias Witchcraft.Foldable extend Witchcraft.Foldable extend Witchcraft.Functor use Witchcraft.Internal, deps: [Witchcraft.Foldable, Witchcraft.Functor] use Witchcraft.Applicative use Witchcraft.Foldable, except: [equal?: 2] use Quark @type t :: any() @type link :: (any() -> Traversable.t()) where do @doc """ Convert elements to actions, and then evaluate the actions from left-to-right, and accumulate the results. For a version without accumulation, see `then_traverse/2`. ## Examples iex> traverse([1, 2, 3], fn x -> {x, x * 2, x * 10} end) {6, 12, [10, 20, 30]} iex> traverse({1, 2, 3}, fn x -> [x] end) [{1, 2, 3}] iex> traverse({1, 2, 3}, fn x -> [x, x * 5, x * 10] end) [ {1, 2, 3}, {1, 2, 15}, {1, 2, 30} ] iex> traverse([1, 2, 3], fn x -> [x, x * 5, x * 10] end) [ # [1, 2, 3], [1, 2, 15], [1, 2, 30], [1, 10, 3], [1, 10, 15], [1, 10, 30], [1, 20, 3], [1, 20, 15], [1, 20, 30], # [5, 2, 3], [5, 2, 15], [5, 2, 30], [5, 10, 3], [5, 10, 15], [5, 10, 30], [5, 20, 3], [5, 20, 15], [5, 20, 30], # [10, 2, 3], [10, 2, 15], [10, 2, 30], [10, 10, 3], [10, 10, 15], [10, 10, 30], [10, 20, 3], [10, 20, 15], [10, 20, 30] ] traverse([1, 2, 3], fn x -> %Algae.Maybe.Just{just: x} end) #=> %Algae.Maybe.Just{just: [1, 2, 3]} traverse(%Algae.Maybe.Just{just: 4}, fn x -> [x, x * 10] end) #=> [ # %Algae.Maybe.Just{just: 4}, # %Algae.Maybe.Just{just: 40} # ] traverse([1, 2, 3], fn x -> if is_even(x) do %Algae.Maybe.Just{just: x} else %Algae.Maybe.Nothing{} end end) #=> %Algae.Maybe.Nothing{} """ @spec traverse(Traversable.t(), Traversable.link()) :: Traversable.t() def traverse(data, link) end properties do def naturality(data) do a = generate(data) f = fn x -> [x] end g = &Quark.id/1 a |> Traversable.traverse(f) |> g.() |> equal?(Traversable.traverse(a, fn x -> x |> f.() |> g.() end)) end def identity(data) do a = generate(data) a |> Traversable.traverse(fn x -> {x} end) |> equal?({a}) end def composition(_data) do # traverse (Compose . fmap g . f) = Compose . fmap (traverse g) . traverse f # MAINTAINER COMMENT # ================== # # I cannot get this working. After throwing 1.5 days at this *one* prop, # I'm walking away for now. If someone has an implementation that works, # it would be greatly appreciated. # # I've implemented %Endo{} and %Compose{}, but Compose's Foldable refused # to work because there is no Foldable instance for functions (AFAIK). # # I believe that the Hakell version works because of the lazy # recursive call to foldMap in `Foldable f, Foldable g => Compose (f g)`, # which in Elixir is trying to get dispatched on the partial function. # # It's very possible that there's a simple solution that I'm just not seeing # after staring at the problem for too long # # PRs gladly accepted here: https://github.com/expede/witchcraft/compare # # ~ Brooklyn Zelenka, @expede true end end @doc """ `traverse/2` with arguments reversed. ## Examples iex> fn x -> {x, x * 2, x * 10} end |> through([1, 2, 3]) {6, 12, [10, 20, 30]} iex> fn x -> [x] end |> through({1, 2, 3}) [{1, 2, 3}] iex> fn x -> [x, x * 5, x * 10] end |> through({1, 2, 3}) [ {1, 2, 3}, {1, 2, 15}, {1, 2, 30} ] iex> fn x -> [x, x * 5, x * 10] end |> through([1, 2, 3]) [ # [1, 2, 3], [1, 2, 15], [1, 2, 30], [1, 10, 3], [1, 10, 15], [1, 10, 30], [1, 20, 3], [1, 20, 15], [1, 20, 30], # [5, 2, 3], [5, 2, 15], [5, 2, 30], [5, 10, 3], [5, 10, 15], [5, 10, 30], [5, 20, 3], [5, 20, 15], [5, 20, 30], # [10, 2, 3], [10, 2, 15], [10, 2, 30], [10, 10, 3], [10, 10, 15], [10, 10, 30], [10, 20, 3], [10, 20, 15], [10, 20, 30] ] """ @spec through(Traversable.link(), Traversable.t()) :: Traversable.t() def through(link, traversable), do: traverse(traversable, link) @doc """ Run each action/effect in sequence (from left to right), and accumulate values along the way. ## Examples iex> sequence([{1, 2, 3}, {4, 5, 6}]) {5, 7, [3, 6]} iex> [ ...> [1, 2, 3], ...> [4, 5, 6] ...> ] ...> |> sequence() [ [1, 4], [1, 5], [1, 6], [2, 4], [2, 5], [2, 6], [3, 4], [3, 5], [3, 6] ] """ @spec sequence(Traversable.t()) :: Foldable.t() def sequence(traversable), do: traverse(traversable, &Quark.id/1) end definst Witchcraft.Traversable, for: Tuple do use Witchcraft.Functor def traverse(tuple, link) do last_index = tuple_size(tuple) - 1 tuple |> elem(last_index) |> link.() ~> fn last -> put_elem(tuple, last_index, last) end end end definst Witchcraft.Traversable, for: List do use Witchcraft.Applicative use Witchcraft.Foldable def traverse([], link), do: of(link.([]), []) def traverse(list = [head | _], link) do right_fold(list, of(link.(head), []), fn x, acc -> # credo:disable-for-lines:2 Credo.Check.Refactor.PipeChainStart fn link_head, link_tail -> [link_head | link_tail] end |> over(link.(x), acc) end) end end