Elixir v1.3.3 List View Source

Specialized functions that only work on lists.

In general, favor using the Enum API instead of List.

Index access for list is linear. Negative indexes are also supported but they imply the list will be iterated twice, one to calculate the proper index and another to perform the operation.

A decision was taken to delegate most functions to Erlang’s standard library but follow Elixir’s convention of receiving the subject (in this case, a list) as the first argument.

Charlists

If a list is made of non-negative integers, it can also be called as a charlist. Elixir uses single quotes to define charlists:

iex> 'héllo'
[104, 233, 108, 108, 111]

In particular, charlists may be printed back in single quotes if they contain only ASCII-printable codepoints:

iex> 'abc'
'abc'

The rationale behind this behaviour is to better support Erlang libraries which may return text as charlists instead of Elixir strings. One example of such functions is Application.loaded_applications:

Application.loaded_applications
#=>  [{:stdlib, 'ERTS  CXC 138 10', '2.6'},
      {:compiler, 'ERTS  CXC 138 10', '6.0.1'},
      {:elixir, 'elixir', '1.0.0'},
      {:kernel, 'ERTS  CXC 138 10', '4.1'},
      {:logger, 'logger', '1.0.0'}]

Link to this section Summary

Functions

Deletes the given item from the list. Returns a list without the item. If the item occurs more than once in the list, just the first occurrence is removed

Produces a new list by removing the value at the specified index. Negative indices indicate an offset from the end of the list. If index is out of bounds, the original list is returned

Duplicates the given element n times in a list

Returns the first element in list or nil if list is empty

Flattens the given list of nested lists

Flattens the given list of nested lists. The list tail will be added at the end of the flattened list

Folds (reduces) the given list from the left with a function. Requires an accumulator

Folds (reduces) the given list from the right with a function. Requires an accumulator

Returns a list with value inserted at the specified index. Note that index is capped at the list length. Negative indices indicate an offset from the end of the list

Receives a list of tuples and deletes the first tuple where the item at position matches the given key. Returns the new list

Receives a list of tuples and returns the first tuple where the item at position in the tuple matches the given key

Receives a list of tuples and returns true if there is a tuple where the item at position in the tuple matches the given key

Receives a list of tuples and replaces the item identified by key at position if it exists

Receives a list of tuples and sorts the items at position of the tuples. The sort is stable

Receives a list of tuples and replaces the item identified by key at position. If the item does not exist, it is added to the end of the list

Receives a list of tuples and returns the first tuple where the element at position in the tuple matches the given key, as well as the list without found tuple

Returns the last element in list or nil if list is empty

Returns a list with a replaced value at the specified index. Negative indices indicate an offset from the end of the list. If index is out of bounds, the original list is returned

Converts a charlist to an atom

Converts a charlist to an existing atom. Raises an ArgumentError if the atom does not exist

Returns the float whose text representation is charlist

Returns an integer whose text representation is charlist

Returns an integer whose text representation is charlist in base base

Converts a list of integers representing codepoints, lists or strings into a string

Converts a list to a tuple

Returns a list with an updated value at the specified index. Negative indices indicate an offset from the end of the list. If index is out of bounds, the original list is returned

Wraps the argument in a list. If the argument is already a list, returns the list. If the argument is nil, returns an empty list

Zips corresponding elements from each list in list_of_lists

Link to this section Functions

Link to this function delete(list, item) View Source
delete(list, any) :: list

Deletes the given item from the list. Returns a list without the item. If the item occurs more than once in the list, just the first occurrence is removed.

Examples

iex> List.delete([1, 2, 3], 1)
[2, 3]

iex> List.delete([1, 2, 2, 3], 2)
[1, 2, 3]
Link to this function delete_at(list, index) View Source
delete_at(list, integer) :: list

Produces a new list by removing the value at the specified index. Negative indices indicate an offset from the end of the list. If index is out of bounds, the original list is returned.

Examples

iex> List.delete_at([1, 2, 3], 0)
[2, 3]

iex> List.delete_at([1, 2, 3], 10)
[1, 2, 3]

iex> List.delete_at([1, 2, 3], -1)
[1, 2]
Link to this function duplicate(elem, n) View Source
duplicate(elem, non_neg_integer) :: [elem] when elem: var

Duplicates the given element n times in a list.

Examples

iex> List.duplicate("hello", 3)
["hello", "hello", "hello"]

iex> List.duplicate([1, 2], 2)
[[1, 2], [1, 2]]
Link to this function first(list) View Source
first([elem]) :: nil | elem when elem: var

Returns the first element in list or nil if list is empty.

Examples

iex> List.first([])
nil

iex> List.first([1])
1

iex> List.first([1, 2, 3])
1
Link to this function flatten(list) View Source
flatten(deep_list) :: list when deep_list: [any | deep_list]

Flattens the given list of nested lists.

Examples

iex> List.flatten([1, [[2], 3]])
[1, 2, 3]
Link to this function flatten(list, tail) View Source
flatten(deep_list, [elem]) :: [elem] when deep_list: [elem | deep_list], elem: var

Flattens the given list of nested lists. The list tail will be added at the end of the flattened list.

Examples

iex> List.flatten([1, [[2], 3]], [4, 5])
[1, 2, 3, 4, 5]
Link to this function foldl(list, acc, function) View Source
foldl([elem], acc, (elem, acc -> acc)) :: acc when elem: var, acc: var

Folds (reduces) the given list from the left with a function. Requires an accumulator.

Examples

iex> List.foldl([5, 5], 10, fn(x, acc) -> x + acc end)
20

iex> List.foldl([1, 2, 3, 4], 0, fn(x, acc) -> x - acc end)
2
Link to this function foldr(list, acc, function) View Source
foldr([elem], acc, (elem, acc -> acc)) :: acc when elem: var, acc: var

Folds (reduces) the given list from the right with a function. Requires an accumulator.

Examples

iex> List.foldr([1, 2, 3, 4], 0, fn(x, acc) -> x - acc end)
-2
Link to this function insert_at(list, index, value) View Source
insert_at(list, integer, any) :: list

Returns a list with value inserted at the specified index. Note that index is capped at the list length. Negative indices indicate an offset from the end of the list.

Examples

iex> List.insert_at([1, 2, 3, 4], 2, 0)
[1, 2, 0, 3, 4]

iex> List.insert_at([1, 2, 3], 10, 0)
[1, 2, 3, 0]

iex> List.insert_at([1, 2, 3], -1, 0)
[1, 2, 3, 0]

iex> List.insert_at([1, 2, 3], -10, 0)
[0, 1, 2, 3]
Link to this function keydelete(list, key, position) View Source
keydelete([tuple], any, non_neg_integer) :: [tuple]

Receives a list of tuples and deletes the first tuple where the item at position matches the given key. Returns the new list.

Examples

iex> List.keydelete([a: 1, b: 2], :a, 0)
[b: 2]

iex> List.keydelete([a: 1, b: 2], 2, 1)
[a: 1]

iex> List.keydelete([a: 1, b: 2], :c, 0)
[a: 1, b: 2]
Link to this function keyfind(list, key, position, default \\ nil) View Source
keyfind([tuple], any, non_neg_integer, any) :: any

Receives a list of tuples and returns the first tuple where the item at position in the tuple matches the given key.

Examples

iex> List.keyfind([a: 1, b: 2], :a, 0)
{:a, 1}

iex> List.keyfind([a: 1, b: 2], 2, 1)
{:b, 2}

iex> List.keyfind([a: 1, b: 2], :c, 0)
nil
Link to this function keymember?(list, key, position) View Source
keymember?([tuple], any, non_neg_integer) :: any

Receives a list of tuples and returns true if there is a tuple where the item at position in the tuple matches the given key.

Examples

iex> List.keymember?([a: 1, b: 2], :a, 0)
true

iex> List.keymember?([a: 1, b: 2], 2, 1)
true

iex> List.keymember?([a: 1, b: 2], :c, 0)
false
Link to this function keyreplace(list, key, position, new_tuple) View Source
keyreplace([tuple], any, non_neg_integer, tuple) :: [tuple]

Receives a list of tuples and replaces the item identified by key at position if it exists.

Examples

iex> List.keyreplace([a: 1, b: 2], :a, 0, {:a, 3})
[a: 3, b: 2]
Link to this function keysort(list, position) View Source
keysort([tuple], non_neg_integer) :: [tuple]

Receives a list of tuples and sorts the items at position of the tuples. The sort is stable.

Examples

iex> List.keysort([a: 5, b: 1, c: 3], 1)
[b: 1, c: 3, a: 5]

iex> List.keysort([a: 5, c: 1, b: 3], 0)
[a: 5, b: 3, c: 1]
Link to this function keystore(list, key, position, new_tuple) View Source
keystore([tuple], any, non_neg_integer, tuple) :: [tuple, ...]

Receives a list of tuples and replaces the item identified by key at position. If the item does not exist, it is added to the end of the list.

Examples

iex> List.keystore([a: 1, b: 2], :a, 0, {:a, 3})
[a: 3, b: 2]

iex> List.keystore([a: 1, b: 2], :c, 0, {:c, 3})
[a: 1, b: 2, c: 3]
Link to this function keytake(list, key, position) View Source
keytake([tuple], any, non_neg_integer) ::
  {tuple, [tuple]} |
  nil

Receives a list of tuples and returns the first tuple where the element at position in the tuple matches the given key, as well as the list without found tuple.

If such a tuple is not found, nil will be returned.

Examples

iex> List.keytake([a: 1, b: 2], :a, 0)
{{:a, 1}, [b: 2]}

iex> List.keytake([a: 1, b: 2], 2, 1)
{{:b, 2}, [a: 1]}

iex> List.keytake([a: 1, b: 2], :c, 0)
nil
Link to this function last(list) View Source
last([elem]) :: nil | elem when elem: var

Returns the last element in list or nil if list is empty.

Examples

iex> List.last([])
nil

iex> List.last([1])
1

iex> List.last([1, 2, 3])
3
Link to this function replace_at(list, index, value) View Source
replace_at(list, integer, any) :: list

Returns a list with a replaced value at the specified index. Negative indices indicate an offset from the end of the list. If index is out of bounds, the original list is returned.

Examples

iex> List.replace_at([1, 2, 3], 0, 0)
[0, 2, 3]

iex> List.replace_at([1, 2, 3], 10, 0)
[1, 2, 3]

iex> List.replace_at([1, 2, 3], -1, 0)
[1, 2, 0]

iex> List.replace_at([1, 2, 3], -10, 0)
[1, 2, 3]
Link to this function to_atom(charlist) View Source
to_atom(charlist) :: atom

Converts a charlist to an atom.

Currently Elixir does not support conversions from charlists which contains Unicode codepoints greater than 0xFF.

Inlined by the compiler.

Examples

iex> List.to_atom('elixir')
:elixir
Link to this function to_existing_atom(charlist) View Source
to_existing_atom(charlist) :: atom

Converts a charlist to an existing atom. Raises an ArgumentError if the atom does not exist.

Currently Elixir does not support conversions from charlists which contains Unicode codepoints greater than 0xFF.

Inlined by the compiler.

Examples

iex> _ = :my_atom
iex> List.to_existing_atom('my_atom')
:my_atom

iex> List.to_existing_atom('this_atom_will_never_exist')
** (ArgumentError) argument error
Link to this function to_float(charlist) View Source
to_float(charlist) :: float

Returns the float whose text representation is charlist.

Inlined by the compiler.

Examples

iex> List.to_float('2.2017764e+0')
2.2017764
Link to this function to_integer(charlist) View Source
to_integer(charlist) :: integer

Returns an integer whose text representation is charlist.

Inlined by the compiler.

Examples

iex> List.to_integer('123')
123
Link to this function to_integer(charlist, base) View Source
to_integer(charlist, 2..36) :: integer

Returns an integer whose text representation is charlist in base base.

Inlined by the compiler.

Examples

iex> List.to_integer('3FF', 16)
1023
Link to this function to_string(list) View Source
to_string(:unicode.charlist) :: String.t

Converts a list of integers representing codepoints, lists or strings into a string.

Notice that this function expects a list of integers representing UTF-8 codepoints. If you have a list of bytes, you must instead use the :binary module.

Examples

iex> List.to_string([0x00E6, 0x00DF])
"æß"

iex> List.to_string([0x0061, "bc"])
"abc"
Link to this function to_tuple(list) View Source
to_tuple(list) :: tuple

Converts a list to a tuple.

Inlined by the compiler.

Examples

iex> List.to_tuple([:share, [:elixir, 163]])
{:share, [:elixir, 163]}
Link to this function update_at(list, index, fun) View Source
update_at([elem], integer, (elem -> any)) :: list when elem: var

Returns a list with an updated value at the specified index. Negative indices indicate an offset from the end of the list. If index is out of bounds, the original list is returned.

Examples

iex> List.update_at([1, 2, 3], 0, &(&1 + 10))
[11, 2, 3]

iex> List.update_at([1, 2, 3], 10, &(&1 + 10))
[1, 2, 3]

iex> List.update_at([1, 2, 3], -1, &(&1 + 10))
[1, 2, 13]

iex> List.update_at([1, 2, 3], -10, &(&1 + 10))
[1, 2, 3]
Link to this function wrap(list) View Source
wrap(list | any) :: list

Wraps the argument in a list. If the argument is already a list, returns the list. If the argument is nil, returns an empty list.

Examples

iex> List.wrap("hello")
["hello"]

iex> List.wrap([1, 2, 3])
[1, 2, 3]

iex> List.wrap(nil)
[]
Link to this function zip(list_of_lists) View Source
zip([list]) :: [tuple]

Zips corresponding elements from each list in list_of_lists.

The zipping finishes as soon as any list terminates.

Examples

iex> List.zip([[1, 2], [3, 4], [5, 6]])
[{1, 3, 5}, {2, 4, 6}]

iex> List.zip([[1, 2], [3], [5, 6]])
[{1, 3, 5}]