Specs

bilift(t(), (... -> any()), (... -> any())) :: t()

The same as bimap/3, but with the functions curried

Examples

iex> {:ok, 2, "hi"}
...> |> bilift(&*/2, &<>/2)
...> |> bimap(fn f -> f.(9) end, fn g -> g.("?!") end)
{:ok, 18, "hi?!"}

Specs

bimap(t(), (any() -> any()), (any() -> any())) :: t()

map separate fuctions over two fields in a product type.

The order of fields doesn't always matter in the map. The first/second function application is determined by the instance. It also does not have to map all fields in a product type.

Diagram

          ┌------------------------------------┐
          ↓                                    |
%Combo{a: 5, b: :ok, c: "hello"} |> bimap(&(&1 * 100), &String.upcase/1)
                            ↑                                 |
                            └---------------------------------┘
#=> %Combo{a: 500, b: :ok, c: "HELLO"}

Examples

iex> {1, "a"} |> bimap(&(&1 * 100), &(&1 <> "!"))
{100, "a!"}

iex> {:msg, 42, "number is below 50"}
...> |> bimap(&(%{subject: &1}), &String.upcase/1)
{:msg, %{subject: 42}, "NUMBER IS BELOW 50"}

Specs

lift_first(t(), (... -> any())) :: t()

The same as map_first, but with a curried function

Examples

iex> {:ok, 2, "hi"}
...> |> lift_first(&*/2)
...> |> map_first(fn f -> f.(9) end)
{:ok, 18, "hi"}

Specs

lift_second(t(), (... -> any())) :: t()

The same as map_second, but with a curried function

Examples

iex> {:ok, 2, "hi"}
...> |> lift_second(&<>/2)
...> |> map_second(fn f -> f.("?!") end)
{:ok, 2, "hi?!"}

Specs

map_first(t(), (any() -> any())) :: t()

map a function over the first value only

Examples

iex> {:ok, 2, "hi"} |> map_first(&(&1 * 100))
{:ok, 200, "hi"}

Specs

map_second(t(), (any() -> any())) :: t()

map a function over the second value only

Examples

iex> {:ok, 2, "hi"} |> map_second(&(&1 <> "!?"))
{:ok, 2, "hi!?"}