View Source Comp (ash v3.4.28)

Provides utilities to implement and work with Comparable types

Summary

Functions

Compare left and right term

Helper to define ordering relation for pair of types, accepts two term :: type pairs and block of code where relation is described.

Is left term equal to right term?

Is left term greater or equal to right term?

Is left term greater than right term?

Is left term less or equal to right term?

Is left term less than right term?

Returns the biggest of the two given terms, if terms are equal - then the first one is returned

Returns the smallest of the two given terms, if terms are equal - then the first one is returned

Is left term not equal to right term?

Types

@type left() :: term()
@type right() :: term()

Functions

@spec compare(left(), right()) :: Comparable.ord()

Compare left and right term

Examples

iex> Comp.compare(1, 2)
:lt
iex> Comp.compare(2, 1)
:gt
iex> Comp.compare(1, 1)
:eq
Link to this macro

defcomparable(arg1, arg2, list)

View Source (macro)

Helper to define ordering relation for pair of types, accepts two term :: type pairs and block of code where relation is described.

Examples

iex> quote do
...>   use Comp
...>   defmodule Foo do
...>     defstruct [:value, :meta]
...>   end
...>   defmodule Bar do
...>     defstruct [:value, :meta]
...>   end
...>   defcomparable %Foo{value: left} :: Foo, %Foo{value: right} :: Foo do
...>     Comp.compare(left, right)
...>   end
...>   defcomparable %Foo{value: left} :: Foo, %Bar{value: right} :: Bar do
...>     Comp.compare(left, right)
...>   end
...>   defcomparable %Foo{value: left} :: Foo, right :: Integer do
...>     Comp.compare(left, right)
...>   end
...> end
...> |> Code.compile_quoted
iex> quote do
...>   x = %Foo{value: 1, meta: 1}
...>   y = %Foo{value: 1, meta: 2}
...>   Comp.equal?(x, y) && Comp.equal?(y, x)
...> end
...> |> Code.eval_quoted
...> |> elem(0)
true
iex> quote do
...>   x = %Foo{value: 1, meta: 1}
...>   y = %Bar{value: 1, meta: 2}
...>   Comp.equal?(x, y) && Comp.equal?(y, x)
...> end
...> |> Code.eval_quoted
...> |> elem(0)
true
iex> quote do
...>   x = %Foo{value: 1, meta: 1}
...>   y = 1
...>   Comp.equal?(x, y) && Comp.equal?(y, x)
...> end
...> |> Code.eval_quoted
...> |> elem(0)
true
@spec equal?(left(), right()) :: boolean()

Is left term equal to right term?

Examples

iex> Comp.equal?(1, 1)
true
iex> Comp.equal?(1, :hello)
false
Link to this function

greater_or_equal?(left, right)

View Source
@spec greater_or_equal?(left(), right()) :: boolean()

Is left term greater or equal to right term?

Examples

iex> Comp.greater_or_equal?(1, 1)
true
iex> Comp.greater_or_equal?(1, 2)
false
iex> Comp.greater_or_equal?(2, 1)
true
Link to this function

greater_than?(left, right)

View Source
@spec greater_than?(left(), right()) :: boolean()

Is left term greater than right term?

Examples

iex> Comp.greater_than?(1, 1)
false
iex> Comp.greater_than?(1, 2)
false
iex> Comp.greater_than?(2, 1)
true
Link to this function

less_or_equal?(left, right)

View Source
@spec less_or_equal?(left(), right()) :: boolean()

Is left term less or equal to right term?

Examples

iex> Comp.less_or_equal?(1, 1)
true
iex> Comp.less_or_equal?(1, 2)
true
iex> Comp.less_or_equal?(2, 1)
false
@spec less_than?(left(), right()) :: boolean()

Is left term less than right term?

Examples

iex> Comp.less_than?(1, 1)
false
iex> Comp.less_than?(1, 2)
true
iex> Comp.less_than?(2, 1)
false
@spec max(left(), right()) :: left() | right()

Returns the biggest of the two given terms, if terms are equal - then the first one is returned

Examples

iex> Comp.max(1, 1)
1
iex> Comp.max(1, 2)
2
iex> Comp.max(2, 1)
2
@spec min(left(), right()) :: left() | right()

Returns the smallest of the two given terms, if terms are equal - then the first one is returned

Examples

iex> Comp.min(1, 1)
1
iex> Comp.min(1, 2)
1
iex> Comp.min(2, 1)
1
@spec not_equal?(left(), right()) :: boolean()

Is left term not equal to right term?

Examples

iex> Comp.not_equal?(1, 1)
false
iex> Comp.not_equal?(1, :hello)
true