Filter (higher-order function)
In functional programming, filter is a higher-order function that processes a data structure (usually a list) in some order to produce a new data structure containing exactly those elements of the original data structure for which a given predicate returns the boolean value true
.
Example
In Haskell, the code example
filter even [1..10]
evaluates to the list 2, 4,…10 by applying the predicate even
to every element of the list of integers 1, 2,… 10 in that order and creating a new list of those elements for which the predicate returns the boolean value true, thereby giving a list containing only the even members of that list. Conversely, the code example
filter (not . even) [1..10]
evaluates to the list 1, 3,…9 by collecting those elements of the list of integers 1, 2… 10 for which the predicate even
returns the boolean value false (with .
being the function composition operator).
Language comparison
Filter is a standard function for many programming languages, e.g.,
Haskell,[1]
OCaml,[2]
Standard ML,[3]
or Erlang.[4]
Common Lisp provides the functions remove-if
and remove-if-not
.[5]
Scheme Requests for Implementation (SRFI) 1 provides an implementation of filter for the language Scheme.[6]
C++ provides the algorithms remove_if
(mutating) and remove_copy_if
(non-mutating); C++11 additionally provides copy_if
(non-mutating).[7] Smalltalk provides the select:
method for collections. Filter can also be realized using list comprehensions in languages that support them.
In Haskell, filter
can be implemented like this:
filter :: (a -> Bool) -> [a] -> [a]
filter _ [] = []
filter p (x:xs) | p x = x : filter p xs
| otherwise = filter p xs
Here, []
denotes the empty list, and :
denotes the concatenation operator used to create a new list from a given value and an existing list.
Language | Filter | Notes | |
---|---|---|---|
C# 3.0 | ienum.Where(pred) or The where clause
|
Where is an extension method ienum is an IEnumerable Similarly in all .NET languages | |
CFML | obj.filter(func)
|
Where obj is an array or a structure. The func receives as an argument each element's value.
| |
Clojure | (filter predicate list)[8]
|
Or, via list comprehension: (for [x list :when (pred x)] x)
| |
Common Lisp | (remove-if inverted-pred list)
|
The function remove-if-not has been deprecated[5] in favor of the equivalent remove-if where the predicate is complemented.[9] Thus the filter (remove-if-not #'oddp '(0 1 2 3)) should be written (remove-if (complement #'oddp) '(0 1 2 3)) or more simply: (remove-if #'evenp '(0 1 2 3)) where evenp returns the inverted value of oddp .[10]
|
|
C++ | std::remove_copy_if(begin, end, result, prednot)
|
in header <algorithm> begin, end, result are iterators predicate is reversed | |
D | std.algorithm.filter!(pred)(list)
| ||
Erlang | lists:filter(Fun, List)
|
Or, via list comprehension: [ X || X <- List, Fun(X) ]
| |
Haskell | filter pred list
|
Or, via list comprehension: [x | x <- list, pred x]
| |
Haxe | list.filter(pred) Lambda.filter(list, pred)
|
Or, via list comprehension: [x | x <- list, pred x]
| |
J | (#~ pred) list
|
An example of a monadic hook. # is copy, ~ reverses arguments. (f g) y = y f (g y)
| |
Java 8+ | stream.filter(pred)
|
||
JavaScript 1.6 | array.filter(pred)
|
||
Mathematica | Select[list, pred]
|
||
Objective-C (Cocoa in Mac OS X 10.4+) | [array filteredArrayUsingPredicate:pred]
|
pred is an NSPredicate object, which may be limited in expressiveness
| |
F#, OCaml, Standard ML | List.filter pred list
|
||
PARI/GP | select(expr, list)
|
The order of arguments is reversed in v. 2.4.2. | |
Perl | grep block list
|
||
PHP | array_filter(array, pred)
|
||
Prolog | filter(+Closure,+List,-List)
|
Since ISO/IEC 13211-1:1995/Cor.2:2012[11] the core standard contains closure application via call/N [12]
| |
Python | filter(func, list)
|
Or, via list comprehension: [x for x in list if pred(x)] . In Python 3.x, filter was changed to return an iterator rather than a list. The complementary functionality, returning an iterator over elements for which the predicate is false, is also available in the standard library as filterfalse in the itertools module.
| |
Ruby | enum.find_all {block}
|
enum is an Enumeration
| |
S, R | Filter(pred,array)
|
In the second case, pred must be a vectorized function | |
Scala | list.filter(pred)
|
Or, via for-comprehension: for(x <- list; if pred) yield x
| |
Scheme R6RS | (filter pred list)
|
||
Smalltalk | aCollection select: aBlock
|
||
Swift | array.filter(pred)
|
||
XPath, XQuery | list[block] filter(list, func)
|
In block the context item . holds the current value
|
Variants
Filter creates its result without modifying the original list. Many programming languages also provide variants that destructively modify the list argument instead for faster performance. Other variants of filter (e.g., Haskell dropWhile
[13] and partition
[14]) are also common. A common memory optimization for purely functional programming languages is to have the input list and filtered result share the longest common tail (tail-sharing).
See also
References
- ^
filter
in the Haskell Standard Prelude - ^
filter
in the OCaml standard library modulelist
- ^ "The List structure". The Standard ML Basis Library. Retrieved 2007-09-25.
- ^
filter/2
in the Erlang STDLIB Reference Manual documentation of the modulelists
- ^ a b Function REMOVE, REMOVE-IF, REMOVE-IF-NOT, DELETE, DELETE-IF, DELETE-IF-NOT in the Common Lisp HyperSpec
- ^
filter
in SRFI 1 - ^
remove_if
andremove_copy_if
in the SGI Standard Template Library (STL) spec - ^ clojure.core/filter on ClojureDocs
- ^ Function COMPLEMENT in the Common Lisp HyperSpec
- ^ Function EVENP, ODDP in the Common Lisp HyperSpec
- ^ ISO/IEC 13211-1:1995/Cor 2:2012
- ^ http://www.complang.tuwien.ac.at/ulrich/iso-prolog/dtc2#call
- ^ Haskell filter dropWhile
- ^ Haskell filter partition