d8p2 final optimized general solution
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08/part2.pl
62
08/part2.pl
@ -5,51 +5,32 @@ From r To :- From to _-To.
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answer(Answer) :-
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starts(Starts),
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routes(Starts, Routes),
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collapse_routes(Routes, _-(_-Answer-_)).
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collapse_routes([X], X).
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collapse_routes(Routes, Collapsed) :-
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writef('Collapsing: %t\n', [Routes]),
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sort(2, @=<, Routes, [Route1, Route2 | CdrRoutes]),
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unify2(Route1, Route2, NewRoute),
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collapse_routes([NewRoute | CdrRoutes], Collapsed).
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routes(Starts, [Route1 | RestOfRoutes]),
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foldl(unify2, RestOfRoutes, Route1, Answer).
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% unify2 combines 2 routes into one with its own stride-offsets-dests
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unify2(Route1, Route2, Route12) :- unify2(Route1, Route2, 0-0-0-0, [], Route12).
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unify2(Route1, Route2, N1-Dest1-N2-Dest2, Founds, NewRoute) :-
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unify2(Route1, Route2, NewRoute) :-
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once(findnsols(2, S, converge(Route1, Route2, S), SolutionPair)),
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SolutionPair = [NewA-LenA-NewZ, _-LenB-_],
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NewStride is LenB - LenA,
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NewRoute = NewA-(NewStride-LenA-[0-NewZ]).
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% Len = Stride1*X1 + Offset1 + Dest1 = Stride2*X2 + Offset2 + Dest2
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% For performance, Route1's Stride should =< Route2's Stride
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converge(Route1, Route2, NewA-Len-NewZ) :-
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writef('Combining %t - %t\n', [Route1, Route2]),
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Route1 = A1-(Stride1-Offset1-Dests1),
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Route2 = A2-(Stride2-Offset2-Dests2),
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nth0(Dest1, Dests1, C1-Z1),
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nth0(Dest2, Dests2, C2-Z2),
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Len1 is Offset1 + Stride1*N1 + C1,
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Len2 is Offset2 + Stride2*N2 + C2,
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next(Dests1, N1-Dest1, NextN1-NextDest1),
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( Len1 =:= Len2
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-> ( Founds = [OldLen]
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-> atom_concat(A1, A2, NewA), atom_concat(Z1, Z2, NewZ),
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NewStride is Len1 - OldLen,
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NewRoute = NewA-(NewStride-OldLen-[0-NewZ]),
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!
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; unify2(Route1, Route2, NextN1-NextDest1-N2-Dest2, [Len1], NewRoute)
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)
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; Len1 < Len2
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-> unify2(Route1, Route2, NextN1-NextDest1-N2-Dest2, Founds, NewRoute)
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; next(Dests2, N2-Dest2, NextN2-NextDest2),
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unify2(Route1, Route2, N1-Dest1-NextN2-NextDest2, Founds, NewRoute)
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).
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% next(Dests, NumberOfLoops-WhichInternalZ, NextNumberOfLoops-NextInternalZ)
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next(Dests, NLoops-Dest, NextNLoops-NextDest) :-
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length(Dests, DestsLen),
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( Dest < DestsLen - 1
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-> NextNLoops is NLoops, NextDest is Dest + 1
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; NextNLoops is NLoops + 1, NextDest is 0).
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natnum(X2),
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pick([Dests1, Dests2], [Dest1-Z1, Dest2-Z2]),
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0 is (Stride2*X2 + Offset2 + Dest2 - Offset1 - Dest1) mod Stride1,
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Len is Stride2*X2 + Offset2 + Dest2,
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atom_concat(A1, A2, NewA), atom_concat(Z1, Z2, NewZ).
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routes(Starts, Routes) :-
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maplist([S, S-Route]>>(zloop(S, Route)), Starts, Routes).
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% zloop builds a route (Stride-Offset-Internals for a particular starting node.
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% zloop builds a route (Stride-Offset-Internals) for a particular starting node.
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zloop(Node, Route) :- zloop([], Node, 0, [], Route).
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zloop(_Direction, _Node, _Index, Zs, Stride-Offset-Dests) :-
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Zs = [FirstZIndex-Z | _], reverse(Zs, [LastZIndex-Z | ReversedZs]),
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@ -81,3 +62,10 @@ next_step([], Move, Remain) :- direction_list([Move | Remain]).
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direction_list(Dir) :- direction(Str), atom_chars(Str, Dir).
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direction_len(Len) :- direction_list(D), length(D, Len).
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% pick([[1,2,3], [4], [5,6]], X). X = [1,4,5]; X = [1,4,6]; X = [2,4,5]; ...
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pick(ListOfLists, Items) :-
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maplist([SubList, X]>>(member(X, SubList)), ListOfLists, Items).
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natnum(0).
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natnum(N) :- natnum(N0), N is N0 + 1.
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@ -8,4 +8,12 @@ nna to nnb-xxx.
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nnb to nnc-nnc.
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nnc to nnz-nnz.
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nnz to nnb-nnb.
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ooa to ooz-oob.
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oob to ood-ooc.
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ooc to ooa-oox.
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ood to ooz-ood.
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ooz to oob-ooz.
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xxx to xxx-xxx.
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% Routes = [mma-(2-2-[0-mmz]), nna-(6-3-[0-nnz, 3-nnz]), ooa-(8-1-[0-ooz, 1-ooz])].
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% X = mmannaooa-(24-18-[0-mmznnzooz]).
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