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/*
Magic sequence problem in B-Prolog.
http://www.dcs.st-and.ac.uk/~ianm/CSPLib/prob/prob019/spec.html
"""
A magic sequence of length n is a sequence of integers x0 . . xn-1 between
0 and n-1, such that for all i in 0 to n-1, the number i occurs exactly xi
times in the sequence. For instance, 6,2,1,0,0,0,1,0,0,0 is a magic sequence
since 0 occurs 6 times in it, 1 occurs twice, ...
"""
Model created by Hakan Kjellerstrand, hakank@gmail.com
See also my B-Prolog page: http://www.hakank.org/bprolog/
*/
% Licenced under CC-BY-4.0 : http://creativecommons.org/licenses/by/4.0/
%
% Reporting both time and backtracks
%
time2(Goal):-
cputime(Start),
statistics(backtracks, Backtracks1),
call(Goal),
statistics(backtracks, Backtracks2),
cputime(End),
T is (End-Start)/1000,
Backtracks is Backtracks2 - Backtracks1,
format('CPU time ~w seconds. Backtracks: ~d\n', [T, Backtracks]).
go :-
time2(solve(400,_Sequence)).
go2 :-
foreach(N in 4..40,
[Sequence],
time2(solve(N,Sequence))
).
solve(N, Sequence) :-
format('\n~d: ',[N]),
length(Sequence, N),
Sequence :: 0..N-1,
% Note: I would like to use global_cardinality/2 instead
% but didn't get it right.
foreach(I in 0..N-1, count(I,Sequence,#=,Sequence[I+1])),
% Alternative
% foreach(I in 0..N-1, exactly(Sequence[I+1],Sequence,I)),
N #= sum(Sequence),
Integers @= [ I : I in 0..N-1],
scalar_product(Integers, Sequence, #=, N),
% labeling([inout],Sequence) ->
labeling([degree],Sequence) ->
% labeling([ff],Sequence) ->
writeln(Sequence)
;
writeln('Something wrong happened.'),
true.
This work is licensed under a Creative Commons Attribution 4.0 International License.