- Documentation
- Reference manual
- The SWI-Prolog library
- library(aggregate): Aggregation operators on backtrackable predicates
- library(ansi_term): Print decorated text to ANSI consoles
- library(apply): Apply predicates on a list
- library(assoc): Association lists
- library(broadcast): Broadcast and receive event notifications
- library(charsio): I/O on Lists of Character Codes
- library(check): Consistency checking
- library(clpb): CLP(B): Constraint Logic Programming over Boolean Variables
- library(clpfd): CLP(FD): Constraint Logic Programming over Finite Domains
- library(clpqr): Constraint Logic Programming over Rationals and Reals
- library(csv): Process CSV (Comma-Separated Values) data
- library(dcg/basics): Various general DCG utilities
- library(dcg/high_order): High order grammar operations
- library(debug): Print debug messages and test assertions
- library(dicts): Dict utilities
- library(error): Error generating support
- library(gensym): Generate unique identifiers
- library(intercept): Intercept and signal interface
- library(iostream): Utilities to deal with streams
- library(listing): List programs and pretty print clauses
- library(lists): List Manipulation
- library(main): Provide entry point for scripts
- library(nb_set): Non-backtrackable set
- library(www_browser): Activating your Web-browser
- library(occurs): Finding and counting sub-terms
- library(option): Option list processing
- library(optparse): command line parsing
- library(ordsets): Ordered set manipulation
- library(pairs): Operations on key-value lists
- library(persistency): Provide persistent dynamic predicates
- library(pio): Pure I/O
- library(predicate_options): Declare option-processing of predicates
- library(prolog_jiti): Just In Time Indexing (JITI) utilities
- library(prolog_pack): A package manager for Prolog
- library(prolog_xref): Prolog cross-referencer data collection
- library(quasi_quotations): Define Quasi Quotation syntax
- library(random): Random numbers
- library(readutil): Read utilities
- library(record): Access named fields in a term
- library(registry): Manipulating the Windows registry
- library(settings): Setting management
- library(strings): String utilities
- library(simplex): Solve linear programming problems
- library(solution_sequences): Modify solution sequences
- library(tables): XSB interface to tables
- library(terms): Term manipulation
- library(thread): High level thread primitives
- library(thread_pool): Resource bounded thread management
- library(ugraphs): Unweighted Graphs
- library(url): Analysing and constructing URL
- library(varnumbers): Utilities for numbered terms
- library(yall): Lambda expressions
- The SWI-Prolog library
- Packages
- Reference manual
A.3 library(apply): Apply predicates on a list
- See also
- -
apply_macros.pl
provides compile-time expansion for part of this library.
- http://www.cs.otago.ac.nz/staffpriv/ok/pllib.htm
- Unit test code insrc/Tests/library/test_apply.pl
- To be done
- Add include/4, include/5, exclude/4, exclude/5
This module defines meta-predicates that apply a predicate on all members of a list.
All predicates support partial application in the Goal argument. This means that these calls are identical:
?- maplist(=, [foo, foo], [X, Y]). ?- maplist(=(foo), [X, Y]).
- [det]include(:Goal, +List1, ?List2)
- Filter elements for which Goal succeeds. True if List2
contains those elements Xi of List1 for which
call(Goal, Xi)
succeeds.- See also
- exclude/3, partition/4, convlist/3.
- Compatibility
- Older versions of SWI-Prolog had sublist/3 with the same arguments and semantics.
- [det]exclude(:Goal, +List1, ?List2)
- Filter elements for which Goal fails. True if List2
contains those elements Xi of List1 for which
call(Goal, Xi)
fails.- See also
- include/3, partition/4
- [det]partition(:Pred, +List, ?Included, ?Excluded)
- Filter elements of List according to Pred. True if Included
contains all elements for which
call(Pred, X)
succeeds and Excluded contains the remaining elements.- See also
- include/3, exclude/3, partition/5.
- [semidet]partition(:Pred, +List, ?Less, ?Equal, ?Greater)
- Filter List according to Pred in three sets. For
each element Xi of List, its destination is determined by
call(Pred, Xi, Place)
, where Place must be unified to one of<
,=
or>
. Pred must be deterministic.- See also
- partition/4
- maplist(:Goal, ?List1)
- maplist(:Goal, ?List1, ?List2)
- maplist(:Goal, ?List1, ?List2, ?List3)
- maplist(:Goal, ?List1, ?List2, ?List3, ?List4)
- True if Goal is successfully applied on all matching elements
of the list. The maplist family of predicates is defined as:
maplist(G, [X_11, ..., X_1n], [X_21, ..., X_2n], ..., [X_m1, ..., X_mn]) :- call(G, X_11, ..., X_m1), call(G, X_12, ..., X_m2), ... call(G, X_1n, ..., X_mn).
This family of predicates is deterministic iff Goal is deterministic and List1 is a proper list, i.e., a list that ends in
[]
. - [det]convlist(:Goal, +ListIn, -ListOut)
- Similar to maplist/3,
but elements for which
call(Goal, ElemIn, _)
fails are omitted from ListOut. For example (usinglibrary(yall)
):?- convlist([X,Y]>>(integer(X), Y is X^2), [3, 5, foo, 2], L). L = [9, 25, 4].
- Compatibility
- Also appears in YAP
library(maplist)
and SICStuslibrary(lists)
.
- foldl(:Goal, +List, +V0, -V)
- foldl(:Goal, +List1, +List2, +V0, -V)
- foldl(:Goal, +List1, +List2, +List3, +V0, -V)
- foldl(:Goal, +List1, +List2, +List3, +List4, +V0, -V)
- Fold an ensemble of m (0
<=
m<=
4) lists of length n head-to-tail ("fold-left"), using columns of m list elements as arguments for Goal. Thefoldl
family of predicates is defined as follows, with V0 an initial value and V the final value of the folding operation:foldl(G, [X_11, ..., X_1n], [X_21, ..., X_2n], ..., [X_m1, ..., X_mn], V0, V) :- call(G, X_11, ..., X_m1, V0, V1), call(G, X_12, ..., X_m2, V1, V2), ... call(G, X_1n, ..., X_mn, V<n-1>, V).
No implementation for a corresponding
foldr
is given. Afoldr
implementation would consist in first calling reverse/2 on each of the m input lists, then applying the appropriatefoldl
. This is actually more efficient than using a properly programmed-out recursive algorithm that cannot be tail-call optimized. - scanl(:Goal, +List, +V0, -Values)
- scanl(:Goal, +List1, +List2, +V0, -Values)
- scanl(:Goal, +List1, +List2, +List3, +V0, -Values)
- scanl(:Goal, +List1, +List2, +List3, +List4, +V0, -Values)
- Scan an ensemble of m (0
<=
m<=
4) lists of length n head-to-tail ("scan-left"), using columns of m list elements as arguments for Goal. Thescanl
family of predicates is defined as follows, with V0 an initial value and V the final value of the scanning operation:scanl(G, [X_11, ..., X_1n], [X_21, ..., X_2n], ..., [X_m1, ..., X_mn], V0, [V0, V1, ..., Vn] ) :- call(G, X_11, ..., X_m1, V0, V1), call(G, X_12, ..., X_m2, V1, V2), ... call(G, X_1n, ..., X_mn, V<n-1>, Vn).
scanl
behaves like afoldl
that collects the sequence of values taken on by the Vx accumulator into a list.