Elixir v1.5.0-rc.2 Tuple View Source
Functions for working with tuples.
Tuples are ordered collections of elements; tuples can contain elements of any type, and a tuple can contain elements of different types. Curly braces can be used to create tuples:
iex> {}
{}
iex> {1, :two, "three"}
{1, :two, "three"}
Tuples store elements contiguously in memory; this means that accessing a
tuple element by index (which can be done through the Kernel.elem/2
function) is a constant-time operation:
iex> tuple = {1, :two, "three"}
iex> elem(tuple, 0)
1
iex> elem(tuple, 2)
"three"
Same goes for getting the tuple size (via Kernel.tuple_size/1
):
iex> tuple_size({})
0
iex> tuple_size({1, 2, 3})
3
Tuples being stored contiguously in memory also means that updating a tuple
(for example replacing an element with Kernel.put_elem/3
) will make a copy
of the whole tuple.
Tuples are not meant to be used as a “collection” type (which is also
suggested by the absence of an implementation of the Enumerable
protocol for
tuples): they’re mostly meant to be used as a fixed-size container for
multiple elements. For example, tuples are often used to have functions return
“enriched” values: a common pattern is for functions to return {:ok, value}
for successful cases and {:error, reason}
for unsuccessful cases. For
example, this is exactly what File.read/1
does: it returns {:ok, contents}
if reading the given file is successful, or {:error, reason}
otherwise
(e.g., {:error, :enoent}
if the file doesn’t exist).
This module provides functions to work with tuples; some more functions to
work with tuples can be found in Kernel
(Kernel.tuple_size/1
,
Kernel.elem/2
, Kernel.put_elem/3
, and others).
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
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
iex> tuple = {:foo, :bar}
iex> Tuple.append(tuple, :baz)
{:foo, :bar, :baz}
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
iex> tuple = {:foo, :bar, :baz}
iex> Tuple.delete_at(tuple, 0)
{:bar, :baz}
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
iex> Tuple.duplicate(:hello, 3)
{:hello, :hello, :hello}
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
iex> tuple = {:bar, :baz}
iex> Tuple.insert_at(tuple, 0, :foo)
{:foo, :bar, :baz}
iex> Tuple.insert_at(tuple, 2, :bong)
{:bar, :baz, :bong}