2013-11-03 14:12:38 +00:00
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% Example with matrices,based on:
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%
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% Three jugs problem in Minzinc modelled as a shortest path problem.
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%
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% Problem from Taha "Introduction to Operations Research", page 245
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%
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% Model created by Hakan Kjellerstrand, hakank@bonetmail.com
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% See also my MiniZinc page: http://www.hakank.org/minizinc
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%
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% VSC: had to transpose the matrix, and change the constraints....
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%
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:- style_check( all ).
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:- use_module(library(gecode/clpfd)).
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:- use_module(library(maplist)).
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:- use_module(library(lists)).
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main :-
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problem(Z, X, InFlow, OutFlow, N),
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out(Z, X, InFlow, OutFlow, N),
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fail.
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main.
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problem(Z, X, InFlow, OutFlow, N) :-
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N = 15,
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Start = 1,
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End = 15,
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M = 999,
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d( M, DD ),
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2014-10-05 23:51:06 +01:00
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D <== array[1..N,1..N] of DD, % distance
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RHS <== array[1..N] of _, % requirements (right hand statement)
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X <== array[1..N, 1..N] of 0..1, % the resulting matrix, 1 if connected, 0 else
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OutFlow <== array[1..N] of 0..1,
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InFlow <== array[1..N] of 0..1,
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2013-11-03 14:12:38 +00:00
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% objective to minimize
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Z in 0..M,
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Z #= sum( [I in 1..N, J in 1..N] where D[I,J]<M,
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D[I,J]*X[I,J]),
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% solve minimize z;
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% alternative solve statements which may give faster solution
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%solve :: int_search([ x[i,j] | i,j in 1..n], first_fail, indomain_min, complete) minimize z;
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% solve minimize z;
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minimize(Z),
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% constraint
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foreach(I in 1..N,
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( I == Start ->
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RHS[I] <== 1 ;
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I == End ->
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RHS[I] <== -1 ;
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RHS[I] <== 0 )
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),
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% must be larger than 0??
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foreach( [I in 1..N, J in 1..N],
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( D[J,I] = M ->
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X[J,I] #= 0 ;
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true )
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),
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% outflow constraint
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foreach(I in 1..N,
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OutFlow[I] #= sum(J in 1..N where D[J,I]<M, X[J,I])
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),
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% inflow constraint
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foreach(J in 1..N,
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InFlow[J] #= sum(I in 1..N where D[J,I]<M, X[J,I])
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),
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% inflow = outflow
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foreach(I in 1..N, OutFlow[I]-InFlow[I]#=RHS[I]),
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% labeling
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labeling( [], X).
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% data
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d(M, [
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M, 1, M, M, M, M, M, M, 1, M, M, M, M, M, M,
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M, M, 1, M, M, M, M, M, M, M, M, M, M, M, M,
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M, M, M, 1, M, M, M, M, 1, M, M, M, M, M, M,
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M, M, M, M, 1, M, M, M, M, M, M, M, M, M, M,
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M, M, M, M, M, 1, M, M, 1, M, M, M, M, M, M,
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M, M, M, M, M, M, 1, M, M, M, M, M, M, M, M,
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M, M, M, M, M, M, M, 1, 1, M, M, M, M, M, M,
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M, M, M, M, M, M, M, M, M, M, M, M, M, M, 1,
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M, M, M, M, M, M, M, M, M, 1, M, M, M, M, M,
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M, 1, M, M, M, M, M, M, M, M, 1, M, M, M, M,
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M, M, M, M, M, M, M, M, M, M, M, 1, M, M, M,
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M, 1, M, M, M, M, M, M, M, M, M, M, 1, M, M,
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M, M, M, M, M, M, M, M, M, M, M, M, M, 1, M,
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M, 1, M, M, M, M, M, M, M, M, M, M, M, M, 1,
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M, M, M, M, M, M, M, M, M, M, M, M, M, M, M
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]).
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/*
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% shows the result matrix
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output [
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if i = 1 /\ j = 1 then
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"z: " ++ show(z) ++ "\n" ++
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"inFlow: " ++ show(inFlow) ++ "\n" ++ "outFlow: " ++ show(outFlow) ++ "\n" ++
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" 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5\n"
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else "" endif ++
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if j = 1 then show(i) ++ " : " else "" endif ++
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show(x[i,j]) ++ if j = n then "\n" else " " endif
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| i in 1..n, j in 1..n
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];
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*/
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out(Cost, Ts, Ins, Out, N) :-
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format('cost = ~d~n', [Cost]),
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InsL <== list(Ins),
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OutL <== list(Out),
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format('Inputs =', []), maplist(out, InsL), nl,
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format('Outputs =', []), maplist(out, OutL), nl,
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format('transitions =~n', []),
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foreach(I in 1..N, outl(Ts[_,I]) ).
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outl( X ) :-
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L <== X, % evaluate matrix notation to Prolog lists.
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format(' ', []),
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maplist(out, L), nl.
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out(0) :- format(' .', []).
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out(1) :- format(' 1', []).
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