View Source Tuple (Elixir v1.15.0)
Functions for working with tuples.
Please note the following functions for tuples are found in Kernel
:
elem/2
- accesses a tuple by indexput_elem/3
- inserts a value into a tuple by indextuple_size/1
- gets the number of elements in a tuple
Tuples are intended as fixed-size containers for multiple elements.
To manipulate a collection of elements, use a list instead. Enum
functions do not work on tuples.
Tuples are denoted with curly braces:
iex> {}
{}
iex> {1, :two, "three"}
{1, :two, "three"}
A tuple may contain elements of different types, which are stored contiguously in memory. Accessing any element takes constant time, but modifying a tuple, which produces a shallow copy, takes linear time. Tuples are good for reading data while lists are better for traversals.
Tuples are typically used either when a function has multiple return values
or for error handling. File.read/1
returns {:ok, contents}
if reading
the given file is successful, or else {:error, reason}
such as when
the file does not exist.
The functions in this module that add and remove elements from tuples are rarely used in practice, as they typically imply tuples are being used as collections. To append to a tuple, it is preferable to extract the elements from the old tuple with pattern matching, and then create a new tuple:
tuple = {:ok, :example}
# Avoid
result = Tuple.insert_at(tuple, 2, %{})
# Prefer
{:ok, atom} = tuple
result = {:ok, atom, %{}}
Link to this section Summary
Functions
Inserts an element at the end of a tuple.
Removes an element from a tuple.
Creates a new tuple.
Inserts an element into a tuple.
Computes a product of tuple elements.
Computes a sum of tuple elements.
Converts a tuple to a list.
Link to this section Functions
Inserts an element at the end of a tuple.
Returns a new tuple with the element appended at the end, and contains
the elements in tuple
followed by value
as the last element.
Inlined by the compiler.
examples
Examples
iex> tuple = {:foo, :bar}
iex> Tuple.append(tuple, :baz)
{:foo, :bar, :baz}
@spec delete_at(tuple(), non_neg_integer()) :: tuple()
Removes an element from a tuple.
Deletes the element at the given index
from tuple
.
Raises an ArgumentError
if index
is negative or greater than
or equal to the length of tuple
. Index is zero-based.
Inlined by the compiler.
examples
Examples
iex> tuple = {:foo, :bar, :baz}
iex> Tuple.delete_at(tuple, 0)
{:bar, :baz}
@spec duplicate(term(), non_neg_integer()) :: tuple()
Creates a new tuple.
Creates a tuple of size
containing the
given data
at every position.
Inlined by the compiler.
examples
Examples
iex> Tuple.duplicate(:hello, 3)
{:hello, :hello, :hello}
@spec insert_at(tuple(), non_neg_integer(), term()) :: tuple()
Inserts an element into a tuple.
Inserts value
into tuple
at the given index
.
Raises an ArgumentError
if index
is negative or greater than the
length of tuple
. Index is zero-based.
Inlined by the compiler.
examples
Examples
iex> tuple = {:bar, :baz}
iex> Tuple.insert_at(tuple, 0, :foo)
{:foo, :bar, :baz}
iex> Tuple.insert_at(tuple, 2, :bong)
{:bar, :baz, :bong}
Computes a product of tuple elements.
examples
Examples
iex> Tuple.product({255, 255})
65025
iex> Tuple.product({255, 1.0})
255.0
iex> Tuple.product({})
1
Computes a sum of tuple elements.
examples
Examples
iex> Tuple.sum({255, 255})
510
iex> Tuple.sum({255, 0.0})
255.0
iex> Tuple.sum({})
0
Converts a tuple to a list.
Returns a new list with all the tuple elements.
Inlined by the compiler.
examples
Examples
iex> tuple = {:foo, :bar, :baz}
iex> Tuple.to_list(tuple)
[:foo, :bar, :baz]