/usr/lib/swi-prolog/library/random.pl is in swi-prolog-nox 6.6.6-5.
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Author: R.A. O'Keefe, V.S. Costa, L. Damas, Jan Wielemaker
E-mail: J.Wielemaker@vu.nl
WWW: http://www.swi-prolog.org
Copyright (C): Universidade do Porto, University of Amsterdam,
VU University Amsterdam.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
As a special exception, if you link this library with other files,
compiled with a Free Software compiler, to produce an executable, this
library does not by itself cause the resulting executable to be covered
by the GNU General Public License. This exception does not however
invalidate any other reasons why the executable file might be covered by
the GNU General Public License.
Alternatively, this program may be distributed under the Perl
Artistic License, version 2.0.
*/
:- module(random,
[ random/1, % -Float (0,1)
random_between/3, % +Low, +High, -Random
getrand/1, % -State
setrand/1, % +State
maybe/0,
maybe/1, % +P
maybe/2, % +K, +N
random_perm2/4, % A,B, X,Y
random_member/2, % -Element, +List
random_select/3, % ?Element, +List, -Rest
randseq/3, % +Size, +Max, -Set
randset/3, % +Size, +Max, -List
random_permutation/2, % ?List, ?Permutation
% deprecated interface
random/3 % +Low, +High, -Random
]).
:- use_module(library(pairs)).
:- use_module(library(error)).
:- use_module(library(lists)).
/** <module> Random numbers
This library is derived from the DEC10 library random. Later, the core
random generator was moved to C. The current version uses the SWI-Prolog
arithmetic functions to realise this library. These functions are based
on the GMP library.
@author R.A. O'Keefe, V.S. Costa, L. Damas, Jan Wielemaker
@see Built-in function random/1: A is random(10)
*/
check_gmp :-
current_arithmetic_function(random_float), !.
check_gmp :-
print_message(warning, random(no_gmp)).
:- initialization check_gmp.
/*******************************
* PRIMITIVES *
*******************************/
%% random(-R:float) is det.
%
% Binds R to a new random float in the _open_ interval (0.0,1.0).
%
% @see setrand/1, getrand/1 may be used to fetch/set the state.
% @see In SWI-Prolog, random/1 is implemented by the function
% random_float/0.
random(R) :-
R is random_float.
%% random_between(+L:int, +U:int, -R:int) is semidet.
%
% Binds R to a random integer in [L,U] (i.e., including both L and
% U). Fails silently if U<L.
random_between(L, U, R) :-
integer(L), integer(U), !,
U >= L,
R is L+random((U+1)-L).
random_between(L, U, _) :-
must_be(integer, L),
must_be(integer, U).
%% random(+L:int, +U:int, -R:int) is det.
%% random(+L:float, +U:float, -R:float) is det.
%
% Generate a random integer or float in a range. If L and U are
% both integers, R is a random integer in the half open interval
% [L,U). If L and U are both floats, R is a float in the open
% interval (L,U).
%
% @deprecated Please use random/1 for generating a random float
% and random_between/3 for generating a random integer. Note that
% the random_between/3 includes the upper bound, while this
% predicate excludes the upper bound.
random(L, U, R) :-
integer(L), integer(U), !,
R is L+random(U-L).
random(L, U, R) :-
number(L), number(U), !,
R is L+((U-L)*random_float).
random(L, U, _) :-
must_be(number, L),
must_be(number, U).
/*******************************
* STATE *
*******************************/
%% setrand(+State) is det.
%% getrand(-State) is det.
%
% Query/set the state of the random generator. This is intended
% for restarting the generator at a known state only. The
% predicate setrand/1 accepts an opaque term returned by
% getrand/1. This term may be asserted, written and read. The
% application may not make other assumptions about this term.
%
% For compatibility reasons with older versions of this library,
% setrand/1 also accepts a term rand(A,B,C), where A, B and C are
% integers in the range 1..30,000. This argument is used to seed
% the random generator. Deprecated.
%
% @see set_random/1 and random_property/1 provide the SWI-Prolog
% native implementation.
% @error existence_error(random_state, _) is raised if the
% underlying infrastructure cannot fetch the random state.
% This is currently the case if SWI-Prolog is not compiled
% with the GMP library.
setrand(rand(A,B,C)) :- !,
Seed is A<<30+B<<15+C,
set_random(seed(Seed)).
setrand(State) :-
set_random(state(State)).
:- if(current_predicate(random_property/1)).
getrand(State) :-
random_property(state(State)).
:- else.
getrand(State) :-
existence_error(random_state, State).
:- endif.
/*******************************
* MAYBE *
*******************************/
%% maybe is semidet.
%
% Succeed/fail with equal probability (variant of maybe/1).
maybe :-
random(2) =:= 0.
%% maybe(+P) is semidet.
%
% Succeed with probability P, fail with probability 1-P
maybe(P) :-
must_be(between(0.0,1.0), P),
random_float < P.
%% maybe(+K, +N) is semidet.
%
% Succeed with probability K/N (variant of maybe/1)
maybe(K, N) :-
integer(K), integer(N),
between(0, N, K), !,
random(N) < K.
maybe(K, N) :-
must_be(nonneg, K),
must_be(nonneg, N),
domain_error(not_less_than_zero,N-K).
/*******************************
* PERMUTATION *
*******************************/
%% random_perm2(?A, ?B, ?X, ?Y) is semidet.
%
% Does X=A,Y=B or X=B,Y=A with equal probability.
random_perm2(A,B, X,Y) :-
( maybe
-> X = A, Y = B
; X = B, Y = A
).
/*******************************
* SET AND LIST OPERATIONS *
*******************************/
%% random_member(-X, +List:list) is semidet.
%
% X is a random member of List. Equivalent to random_between(1,
% |List|), followed by nth1/3. Fails of List is the empty list.
%
% @compat Quintus and SICStus libraries.
random_member(X, List) :-
List \== [],
length(List, Len),
N is random(Len),
nth0(N, List, X).
%% random_select(-X, +List, -Rest) is semidet.
%% random_select(+X, -List, +Rest) is det.
%
% Randomly select or insert an element. Either List or Rest must
% be a list. Fails if List is the empty list.
%
% @compat Quintus and SICStus libraries.
random_select(X, List, Rest) :-
( '$skip_list'(Len, List, Tail),
Tail == []
-> true
; '$skip_list'(RLen, Rest, Tail),
Tail == []
-> Len is RLen+1
), !,
Len > 0,
N is random(Len),
nth0(N, List, X, Rest).
random_select(_, List, Rest) :-
partial_list(List), partial_list(Rest),
instantiation_error(List+Rest).
random_select(_, List, Rest) :-
must_be(list, List),
must_be(list, Rest).
%% randset(+K:int, +N:int, -S:list(int)) is det.
%
% S is a sorted list of K unique random integers in the range
% 1..N. Implemented by enumerating 1..N and deciding whether or
% not the number should be part of the set. For example:
%
% ==
% ?- randset(5, 5, S).
% S = [1, 2, 3, 4, 5]. (always)
% ?- randset(5, 20, S).
% S = [2, 7, 10, 19, 20].
% ==
%
% @see randseq/3.
% @bug Slow if N is large and K is small.
randset(K, N, S) :-
must_be(nonneg, K),
K =< N,
randset(K, N, [], S).
randset(0, _, S, S) :- !.
randset(K, N, Si, So) :-
random(N) < K, !,
J is K-1,
M is N-1,
randset(J, M, [N|Si], So).
randset(K, N, Si, So) :-
M is N-1,
randset(K, M, Si, So).
%% randseq(+K:int, +N:int, -List:list(int)) is det.
%
% S is a list of K unique random integers in the range 1..N. The
% order is random. Works as if defined by the following code.
%
% ==
% randseq(K, N, List) :-
% randset(K, N, Set),
% random_permutation(Set, List).
% ==
%
% @see randset/3.
randseq(K, N, S) :-
randseq(K, N, L, []),
keysort(L, R),
pairs_values(R, S).
randseq(0, _, S, S) :- !.
randseq(K, N, [Y-N|Si], So) :-
random(N) < K, !,
random(Y),
J is K-1,
M is N-1,
randseq(J, M, Si, So).
randseq(K, N, Si, So) :-
M is N-1,
randseq(K, M, Si, So).
%% random_permutation(+List, -Permutation) is det.
%% random_permutation(-List, +Permutation) is det.
%
% Permutation is a random permutation of List. This is intended to
% process the elements of List in random order. The predicate is
% symmetric.
%
% @error instantiation_error, type_error(list, _).
random_permutation(List1, List2) :-
is_list(List1), !,
random_permutation_(List1, List2).
random_permutation(List1, List2) :-
is_list(List2), !,
random_permutation_(List2, List1).
random_permutation(List1, List2) :-
partial_list(List1), partial_list(List2), !,
instantiation_error(List1+List2).
random_permutation(List1, List2) :-
must_be(list, List1),
must_be(list, List2).
random_permutation_(List, RandomPermutation) :-
key_random(List, Keyed),
keysort(Keyed, Sorted),
pairs_values(Sorted, RandomPermutation).
key_random([], []).
key_random([H|T0], [K-H|T]) :-
random(K),
key_random(T0, T).
%% partial_list(@Term) is semidet.
%
% True if Term is a partial list.
partial_list(List) :-
'$skip_list'(_, List, Tail),
var(Tail).
:- multifile
prolog:message//1.
prolog:message(random(no_gmp)) -->
[ 'This version of SWI-Prolog is not compiled with GMP support.'-[], nl,
'Floating point random operations are not supported.'-[]
].
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