# Enumx
Additional utility functions to extend the power of Elixir's Enum module.
## `filter_value/2`
Similar to `filter/2`, but returns the value of the function invocation instead of the element itself.
```elixir
assert Enumx.filter_value([1, 2, 3, 4, 5], &(&1 > 3 && &1 * 2)) == [8, 10]
assert Enumx.filter_value([foo: 1, bar: 2, baz: 3], fn {k, v} -> v > 1 && k end) == [:bar, :baz]
assert Enumx.filter_value(%{foo: 1, bar: 2, baz: 3}, fn {k, v} -> v > 1 && k end) == [:bar, :baz]
```
## `all_equal?/1`
Returns `true` if all elements in `enumerable` are equal.
```elixir
assert Enumx.all_equal?([1, 1])
assert Enumx.all_equal?([foo: 1, foo: 1])
```
## `unique_value!/1`
Returns the single unique element if all elements in enumerable are equal; otherwise, raises an error.
```elixir
assert Enumx.unique_value!([1, 1]) == 1
assert Enumx.unique_value!(%{foo: 1}) == {:foo, 1}
assert Enumx.unique_value!([foo: 1, foo: 1]) == {:foo, 1}
assert_raise ArgumentError, fn ->
Enumx.unique_value!([]) # raises error: cannot call `unique_value!/1` on an empty list
end
assert_raise RuntimeError, fn ->
Enumx.unique_value!([1, 2]) # raises error: elements in the list [1, 2] are not equal
end
```
## `is_plain_map/1`
Determines if the given term is a plain map (not a struct). It can be as a guard clause.
```elixir
assert Enumx.is_plain_map(%{}) == true
assert Enumx.is_plain_map(%MyStruct{}) == false
assert Enumx.is_plain_map(1..5) == false
```
## `shift_left_by_index/2` and `shift_left_by_index!/2`
Shifts the element at the given index one position to the left.
```elixir
assert Enumx.shift_left_by_index([1, 2, 3], 1) == {:ok, [2, 1, 3], :shifted}
```
## `shift_right_by_index/2` and `shift_right_by_index!/2`
Shifts the element at the given index one position to the right.
```elixir
assert Enumx.shift_right_by_index([1, 2, 3], 1) == {:ok, [1, 3, 2], :shifted}
```
## `shift_first_match_left/3` and `shift_first_match_left!/3`
Shifts the first element that matches the comparison function one position to the left.
```elixir
assert Enumx.shift_first_match_left([1, 2, 3], 2, &(&1 == &2)) == {:ok, [2, 1, 3], :shifted}
```
## `shift_first_match_right/3` and `shift_first_match_right!/3`
Shifts the first element that matches the comparison function one position to the right.
```elixir
assert Enumx.shift_first_match_right([1, 2, 3], 2, &(&1 == &2)) == {:ok, [1, 3, 2], :shifted}
```
## `swap/3` and `swap!/3`
Swaps the elements at the given indices.
```elixir
assert Enumx.swap([1, 2, 3], 0, 2) == {:ok, [3, 2, 1], :swapped}
```
## `join/3`
Joins the elements of a list into a string, using the specified delimiter between elements and a different delimiter before the last element. This function is useful for formatting lists of items in natural language.
```elixir
assert "foo, bar and baz" == Enumx.join(["foo", "bar", "baz"], ", ", " and ")
assert "foo and bar" == Enumx.join(["foo", "bar"], ", ", " and ")
assert "foo" == Enumx.join(["foo"], ", ", " and ")
assert "" == Enumx.join([], ", ", " and ")
```
## `with_index_length/2`
Returns tuples of each element, its index, and the total length of the enumerable.
```elixir
assert [{:foo, 0, 3}, {:bar, 1, 3}, {:baz, 2, 3}] ==
Enumx.with_index_length([:foo, :bar, :baz])
assert [{:foo, 5, 3}, {:bar, 6, 3}, {:baz, 7, 3}] ==
Enumx.with_index_length([:foo, :bar, :baz], 5)
assert [{3, 0, :foo}, {3, 1, :bar}, {3, 2, :baz}] ==
Enumx.with_index_length([:foo, :bar, :baz], fn el, i, length -> {length, i, el} end)
```
### Installation
Add `enumx` for Elixir as a dependency in your `mix.exs` file:
```elixir
def deps do
[
{:enumx, "~> 0.6"}
]
end
```
### HexDocs
HexDocs documentation can be found at [https://hexdocs.pm/enumx](https://hexdocs.pm/enumx).
