%% -*- prolog -*- %%============================================================================= %% Copyright (C) 2011 by Denys Duchier %% %% This program is free software: you can redistribute it and/or modify it %% under the terms of the GNU Lesser General Public License as published by the %% Free Software Foundation, either version 3 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 Lesser General Public License %% along with this program. If not, see . %%============================================================================= :- module(gecode, [(:=)/2, op(500, xfx, ':='), (+=)/2, op(500, xfx, '+=')]). :- use_module(library(debug)). :- op(500, xfx, ':='). :- op(500, xfx, '+='). :- load_foreign_files([gecode_yap],[],gecode_init). is_int(X,Y) :- integer(X), Y=X. is_int(X) :- integer(X). is_bool_(true,true). is_bool_(false,false). is_bool(X,Y) :- nonvar(X), Y=X. is_bool(X) :- is_bool(X,_). is_IntVar_('IntVar'(I,K),N) :- integer(I), integer(K), nb_getval(gecode_space_use_keep_index,B), (B=true -> N=K ; N=I). is_IntVarBranch_('IntVarBranch'(I,K),N) :- integer(I), integer(K), nb_getval(gecode_space_use_keep_index,B), (B=true -> N=K ; N=I). is_FloatVar_('FloatVar'(I,K),N) :- integer(I), integer(K), nb_getval(gecode_space_use_keep_index,B), (B=true -> N=K ; N=I). is_BoolVar_('BoolVar'(I,K),N) :- integer(I), integer(K), nb_getval(gecode_space_use_keep_index,B), (B=true -> N=K ; N=I). is_SetVar_('SetVar'(I,K),N) :- integer(I), integer(K), nb_getval(gecode_space_use_keep_index,B), (B=true -> N=K ; N=I). is_IntVar(X,I) :- nonvar(X), is_IntVar_(X,I). is_BoolVar(X,I) :- nonvar(X), is_BoolVar_(X,I). is_FloatVar(X,I) :- nonvar(X), is_FloatVar_(X,I). is_SetVar(X,I) :- nonvar(X), is_SetVar_(X,I). is_IntVarBranch(X,I) :- nonvar(X), is_IntVarBranch_(X,I). is_IntVar(X) :- is_IntVar(X,_). is_IntVarBranch(X) :- is_IntVarBranch(X,_). is_BoolVar(X) :- is_BoolVar(X,_). is_FloatVar(X) :- is_FloatVar(X,_). is_SetVar(X) :- is_SetVar(X,_). is_IntVarArgs_([],[]). is_IntVarArgs_([H|T],[H2|T2]) :- is_IntVar(H,H2), is_IntVarArgs(T,T2). is_IntVarArgs(X,Y) :- nonvar(X), is_IntVarArgs_(X,Y). is_IntVarArgs(X) :- \+ \+ is_IntVarArgs(X,_). is_BoolVarArgs_([],[]). is_BoolVarArgs_([H|T],[H2|T2]) :- is_BoolVar(H,H2), is_BoolVarArgs(T,T2). is_BoolVarArgs(X,Y) :- nonvar(X), is_BoolVarArgs_(X,Y). is_BoolVarArgs(X) :- \+ \+ is_BoolVarArgs(X,_). is_FloatVarArgs_([],[]). is_FloatVarArgs_([H|T],[H2|T2]) :- is_FloatVar(H,H2), is_FloatVarArgs(T,T2). is_FloatVarArgs(X,Y) :- nonvar(X), is_FloatVarArgs_(X,Y). is_FloatVarArgs(X) :- \+ \+ is_FloatVarArgs(X,_). is_FloatValArgs_([],[]). is_FloatValArgs_([H|T],[H2|T2]) :- is_FloatVar(H,H2), is_FloatValArgs(T,T2). is_FloatValArgs(X,Y) :- nonvar(X), is_FloatValArgs_(X,Y). is_FloatValArgs(X) :- \+ \+ is_FloatValArgs(X,_). is_SetVarArgs_([],[]). is_SetVarArgs_([H|T],[H2|T2]) :- is_SetVar(H,H2), is_SetVarArgs(T,T2). is_SetVarArgs(X,Y) :- nonvar(X), is_SetVarArgs_(X,Y). is_SetVarArgs(X) :- \+ \+ is_SetVarArgs(X,_). is_IntArgs_([],[]). is_IntArgs_([H|T],[H|T2]) :- integer(H), is_IntArgs(T,T2). is_IntArgs(X,Y) :- nonvar(X), is_IntArgs_(X,Y). is_IntArgs(X) :- \+ \+ is_IntArgs(X,_). is_IntSharedArray(X) :- is_IntArgs(X). is_IntSharedArray(X,Y) :- is_IntArgs(X,Y). is_TaskTypeArgs_([],[]). is_TaskTypeArgs_([H|T],[H2|T2]) :- is_TaskType(H,H2), is_TaskTypeArgs(T,T2). is_TaskTypeArgs(X,Y) :- nonvar(X), is_TaskTypeArgs_(X,Y). is_TaskTypeArgs(X) :- \+ \+ is_TaskTypeArgs(X,_). is_IntSet_('IntSet'(L),L). is_IntSet(X,Y) :- nonvar(X), is_IntSet_(X,Y). is_IntSet(X) :- is_IntSet(X,_). is_IntSetArgs_([],[]). is_IntSetArgs_([H|T],[H2|T2]) :- is_IntSet(H,H2), is_IntSetArgs(T,T2). is_IntSetArgs(X,Y) :- nonvar(X), is_IntSetArgs_(X,Y). is_IntSetArgs(X) :- \+ \+ is_IntSetArgs(X,_). new_intset(X,I,J) :- intset(X,I,J). new_intset(X,L) :- intset(X,L). intset(X, I, J) :- integer(I), integer(J), X='IntSet'([(I,J)]). intset(X, L) :- is_list_of_intset_specs(L,L2), X='IntSet'(L2). is_list_of_intset_specs(X,Y) :- nonvar(X), is_list_of_intset_specs_(X,Y). is_list_of_intset_specs_([],[]). is_list_of_intset_specs_([H|T],[H2|T2]) :- is_intset_spec(H,H2), is_list_of_intset_specs(T,T2). is_intset_spec(X,Y) :- nonvar(X), is_intset_spec_(X,Y). is_intset_spec_((I,J),(I,J)) :- !, integer(I), integer(J). is_intset_spec_(I,(I,I)) :- integer(I). assert_var(X,Y) :- var(X) -> X=Y; throw(gecode_error(expected(var))). assert_is_int(X,Y) :- integer(X) -> X=Y ; throw(gecode_error(expected(int))). assert_is_float(X,Y) :- float(X) -> X=Y ; throw(gecode_error(expected(int))). assert_is_Space(X,Y) :- is_Space(X,Y) -> true ; throw(gecode_error(expected(space))). assert_is_IntSet(X,Y) :- is_IntSet(X,Y) -> true ; throw(gecode_error(expected(intset))). assert_is_IntVar(X,Y) :- is_IntVar(X,Y) -> true ; throw(gecode_error(expected(intvar))). assert_is_BoolVar(X,Y) :- is_BoolVar(X,Y) -> true ; throw(gecode_error(expected(boolvar))). assert_is_FloatVar(X,Y) :- is_FloatVar(X,Y) -> true ; throw(gecode_error(expected(floatvar))). assert_is_SetVar(X,Y) :- is_SetVar(X,Y) -> true ; throw(gecode_error(expected(setvar))). assert_is_IntArgs(X,Y) :- is_IntArgs(X,Y) -> true ; throw(gecode_error(expected(intargs))). assert_is_IntVarArgs(X,Y) :- is_IntVarArgs(X,Y) -> true ; throw(gecode_error(expected(intvarargs))). assert_is_BoolVarArgs(X,Y) :- is_BoolVarArgs(X,Y) -> true ; throw(gecode_error(expected(boolvarargs))). assert_is_FloatVarArgs(X,Y) :- is_FloatVarArgs(X,Y) -> true ; throw(gecode_error(expected(floatvarargs))). assert_is_FloatValArgs(X,Y) :- is_FloatValArgs(X,Y) -> true ; throw(gecode_error(expected(floatvarargs))). assert_is_SetVarArgs(X,Y) :- is_SetVarArgs(X,Y) -> true ; throw(gecode_error(expected(setvarargs))). assert_is_ReifyMode(X,Y) :- is_ReifyMode(X,Y) -> true ; throw(gecode_error(expected(reifymode))). assert_var(X) :- assert_var(X,_). assert_is_int(X) :- assert_is_int(X,_). assert_is_float(X) :- assert_is_float(X,_). assert_is_Space(X) :- assert_is_Space(X,_). assert_is_IntSet(X) :- assert_is_IntSet(X,_). assert_is_IntVar(X) :- assert_is_IntVar(X,_). assert_is_BoolVar(X) :- assert_is_BoolVar(X,_). assert_is_FloatVar(X) :- assert_is_FloatVar(X,_). assert_is_SetVar(X) :- assert_is_SetVar(X,_). assert_is_IntArgs(X) :- assert_is_IntArgs(X,_). assert_is_IntVarArgs(X) :- assert_is_IntVarArgs(X,_). assert_is_BoolVarArgs(X) :- assert_is_BoolVarArgs(X,_). assert_is_FloatVarArgs(X) :- assert_is_FloatVarArgs(X,_). assert_is_FloatValArgs(X) :- assert_is_FloatValArgs(X,_). assert_is_SetVarArgs(X) :- assert_is_SetVarArgs(X,_). %% Var and Val Branching changed in Gecode 4 to be done as a set of functions, %% not as an enum. is_IntVarBranch_('INT_VAR_NONE'). is_IntVarBranch_('INT_VAR_RND'(_)). is_IntVarBranch_('INT_VAR_MERIT_MIN'(_)). is_IntVarBranch_('INT_VAR_MERIT_MAX'(_)). is_IntVarBranch_('INT_VAR_DEGREE_MIN'). is_IntVarBranch_('INT_VAR_DEGREE_MAX'). is_IntVarBranch_('INT_VAR_AFC_MIN'(_)). is_IntVarBranch_('INT_VAR_AFC_MAX'(_)). is_IntVarBranch_('INT_VAR_ACTIVITY_MIN'(_)). is_IntVarBranch_('INT_VAR_ACTIVITY_MAX'(_)). is_IntVarBranch_('INT_VAR_MIN_MIN'). is_IntVarBranch_('INT_VAR_MIN_MAX'). is_IntVarBranch_('INT_VAR_MAX_MIN'). is_IntVarBranch_('INT_VAR_MAX_MAX'). is_IntVarBranch_('INT_VAR_SIZE_MIN'). is_IntVarBranch_('INT_VAR_SIZE_MAX'). is_IntVarBranch_('INT_VAR_DEGREE_SIZE_MIN'). is_IntVarBranch_('INT_VAR_DEGREE_SIZE_MAX'). is_IntVarBranch_('INT_VAR_AFC_SIZE_MIN'(_)). is_IntVarBranch_('INT_VAR_AFC_SIZE_MAX'(_)). is_IntVarBranch_('INT_VAR_ACTIVITY_SIZE_MIN'(_)). is_IntVarBranch_('INT_VAR_ACTIVITY_SIZE_MAX'(_)). is_IntVarBranch_('INT_VAR_REGRET_MIN_MIN'). is_IntVarBranch_('INT_VAR_REGRET_MIN_MAX'). is_IntVarBranch_('INT_VAR_REGRET_MAX_MIN'). is_IntVarBranch_('INT_VAR_REGRET_MAX_MAX'). is_IntVarBranch_(X, X) :- is_IntVarBranch_(X). is_IntVarBranch(X,Y) :- nonvar(X), is_IntVarBranch_(X,Y). is_IntVarBranch(X) :- is_IntVarBranch(X,_). is_SetVarBranch_('SET_VAR_NONE'). is_SetVarBranch_('SET_VAR_RND'(_)). is_SetVarBranch_('SET_VAR_MERIT_MIN'(_)). is_SetVarBranch_('SET_VAR_MERIT_MAX'(_)). is_SetVarBranch_('SET_VAR_DEGREE_MIN'). is_SetVarBranch_('SET_VAR_DEGREE_MAX'). is_SetVarBranch_('SET_VAR_AFC_MIN'(_)). is_SetVarBranch_('SET_VAR_AFC_MAX'(_)). is_SetVarBranch_('SET_VAR_ACTIVITY_MIN'(_)). is_SetVarBranch_('SET_VAR_ACTIVITY_MAX'(_)). is_SetVarBranch_('SET_VAR_MIN_MIN'). is_SetVarBranch_('SET_VAR_MIN_MAX'). is_SetVarBranch_('SET_VAR_MAX_MIN'). is_SetVarBranch_('SET_VAR_MAX_MAX'). is_SetVarBranch_('SET_VAR_SIZE_MIN'). is_SetVarBranch_('SET_VAR_SIZE_MAX'). is_SetVarBranch_('SET_VAR_DEGREE_SIZE_MIN'). is_SetVarBranch_('SET_VAR_DEGREE_SIZE_MAX'). is_SetVarBranch_('SET_VAR_AFC_SIZE_MIN'(_)). is_SetVarBranch_('SET_VAR_AFC_SIZE_MAX'(_)). is_SetVarBranch_('SET_VAR_ACTIVITY_SIZE_MIN'(_)). is_SetVarBranch_('SET_VAR_ACTIVITY_SIZE_MAX'(_)). is_SetVarBranch_(X, X) :- is_SetVarBranch_(X). is_SetVarBranch(X,Y) :- nonvar(X), is_SetVarBranch_(X,Y). is_SetVarBranch(X) :- is_SetVarBranch(X,_). is_FloatVarBranch_('FLOAT_VAR_NONE'). is_FloatVarBranch_('FLOAT_VAR_RND'(_)). is_FloatVarBranch_('FLOAT_VAR_MERIT_MIN'(_)). is_FloatVarBranch_('FLOAT_VAR_MERIT_MAX'(_)). is_FloatVarBranch_('FLOAT_VAR_DEGREE_MIN'). is_FloatVarBranch_('FLOAT_VAR_DEGREE_MAX'). is_FloatVarBranch_('FLOAT_VAR_AFC_MIN'(_)). is_FloatVarBranch_('FLOAT_VAR_AFC_MAX'(_)). is_FloatVarBranch_('FLOAT_VAR_ACTIVITY_MIN'(_)). is_FloatVarBranch_('FLOAT_VAR_ACTIVITY_MAX'(_)). is_FloatVarBranch_('FLOAT_VAR_MIN_MIN'). is_FloatVarBranch_('FLOAT_VAR_MIN_MAX'). is_FloatVarBranch_('FLOAT_VAR_MAX_MIN'). is_FloatVarBranch_('FLOAT_VAR_MAX_MAX'). is_FloatVarBranch_('FLOAT_VAR_SIZE_MIN'). is_FloatVarBranch_('FLOAT_VAR_SIZE_MAX'). is_FloatVarBranch_('FLOAT_VAR_DEGREE_SIZE_MIN'). is_FloatVarBranch_('FLOAT_VAR_DEGREE_SIZE_MAX'). is_FloatVarBranch_('FLOAT_VAR_AFC_SIZE_MIN'(_)). is_FloatVarBranch_('FLOAT_VAR_AFC_SIZE_MAX'(_)). is_FloatVarBranch_('FLOAT_VAR_ACTIVITY_SIZE_MIN'(_)). is_FloatVarBranch_('FLOAT_VAR_ACTIVITY_SIZE_MAX'(_)). is_FloatVarBranch_(X, X) :- is_FloatVarBranch_(X). is_FloatVarBranch(X,Y) :- nonvar(X), is_FloatVarBranch_(X,Y). is_FloatVarBranch(X) :- is_FloatVarBranch(X,_). is_IntValBranch_('INT_VAL_RND'(_)). is_IntValBranch_('INT_VAL'(_,_)). is_IntValBranch_('INT_VAL_MIN'). is_IntValBranch_('INT_VAL_MED'). is_IntValBranch_('INT_VAL_MAX'). is_IntValBranch_('INT_VAL_SPLIT_MIN'). is_IntValBranch_('INT_VAL_SPLIT_MAX'). is_IntValBranch_('INT_VAL_RANGE_MIN'). is_IntValBranch_('INT_VAL_RANGE_MAX'). is_IntValBranch_('INT_VALUES_MIN'). is_IntValBranch_('INT_NEAR_MIN'(_)). is_IntValBranch_('INT_NEAR_MAX'(_)). is_IntValBranch_('INT_NEAR_INC'(_)). is_IntValBranch_('INT_NEAR_DEC'(_)). is_IntValBranch_(X,X) :- is_IntValBranch_(X). is_IntValBranch(X,Y) :- nonvar(X), is_IntValBranch_(X,Y). is_IntValBranch(X) :- is_IntValBranch(X,_). is_SetValBranch_('SET_VAL_RND_INC'(_)). is_SetValBranch_('SET_VAL_RND_EXC'(_)). is_SetValBranch_('SET_VAL'(_,_)). is_SetValBranch_('SET_VAL_MIN_INC'). is_SetValBranch_('SET_VAL_MIN_EXC'). is_SetValBranch_('SET_VAL_MED_INC'). is_SetValBranch_('SET_VAL_MED_EXC'). is_SetValBranch_('SET_VAL_MAX_INC'). is_SetValBranch_('SET_VAL_MAX_EXC'). is_SetValBranch_(X,X) :- is_SetValBranch_(X). is_SetValBranch(X,Y) :- nonvar(X), is_SetValBranch_(X,Y). is_SetValBranch(X) :- is_SetValBranch(X,_). is_FloatValBranch_('FLOAT_VAL'(_,_)). is_FloatValBranch_('FLOAT_VAL_SPLIT_RND'(_)). is_FloatValBranch_('FLOAT_VAL_SPLIT_MIN'). is_FloatValBranch_('FLOAT_VAL_SLIT_MAX'). is_FloatValBranch_(X,X) :- is_FloatValBranch_(X). is_FloatValBranch(X,Y) :- nonvar(X), is_FloatValBranch_(X,Y). is_FloatValBranch(X) :- is_FloatValBranch(X,_). new_space(Space) :- assert_var(Space), gecode_new_space(Space_), Space='Space'(Space_). %% checking that an argument is a space sets a global variable %% indicating whether variables need to be translated to their %% original index or to their "keep" index. %% %% these bindings are going to take advantage of the fact that, %% when a space is involved, it is checked first, thus setting %% this global variable. subsequent accesses to variables are %% then correctly translated. is_Space_('Space'(X),X) :- gecode_space_use_keep_index(X,B), nb_setval(gecode_space_use_keep_index,B). is_Space(X,Y) :- nonvar(X), is_Space_(X,Y). is_Space(X) :- is_Space(X,_). is_Reify_('Reify'(X),X). is_Reify(X,Y) :- nonvar(X), is_Reify_(X,Y). is_Reify(X) :- is_Reify(X,_). %% AUTOGENERATE ALL VARIANTS LATER! new_intvars([], Space, Lo, Hi). new_intvars([IVar|IVars], Space, Lo, Hi) :- new_intvar(IVar, Space, Lo, Hi), new_intvars(IVars, Space, Lo, Hi). new_intvars([], Space, IntSet). new_intvars([IVar|IVars], Space, IntSet) :- new_intvar(IVar, Space, IntSet), new_intvars(IVars, Space, IntSet). new_boolvars([], Space). new_boolvars([BVar|BVars], Space) :- new_boolvar(BVar, Space), new_boolvars(BVars, Space). new_setvars([], Space, X1, X2, X3, X4, X5, X6). new_setvars([SVar|SVars], Space, X1, X2, X3, X4, X5, X6) :- new_setvar(SVar, Space, X1, X2, X3, X4, X5, X6), new_setvars(SVars, Space, X1, X2, X3, X4, X5, X6). new_setvars([], Space, X1, X2, X3, X4, X5). new_setvars([SVar|SVars], Space, X1, X2, X3, X4, X5) :- new_setvar(SVar, Space, X1, X2, X3, X4, X5), new_setvars(SVars, Space, X1, X2, X3, X4, X5). new_setvars([], Space, X1, X2, X3, X4). new_setvars([SVar|SVars], Space, X1, X2, X3, X4) :- new_setvar(SVar, Space, X1, X2, X3, X4), new_setvars(SVars, Space, X1, X2, X3, X4). new_setvars([], Space, X1, X2, X3). new_setvars([SVar|SVars], Space, X1, X2, X3) :- new_setvar(SVar, Space, X1, X2, X3), new_setvars(SVars, Space, X1, X2, X3). new_setvars([], Space, X1, X2). new_setvars([SVar|SVars], Space, X1, X2) :- new_setvar(SVar, Space, X1, X2), new_setvars(SVars, Space, X1, X2). %% AUTOGENERATE LATER assert_integer(X) :- assert_is_int(X). new_intvar(IVar, Space, Lo, Hi) :- !, assert_var(IVar), assert_is_Space_or_Clause(Space,Space_), assert_integer(Lo), assert_integer(Hi), gecode_new_intvar_from_bounds(Idx,Space_,Lo,Hi), IVar='IntVar'(Idx,-1). new_intvar(IVar, Space, IntSet) :- !, assert_var(IVar), assert_is_Space_or_Clause(Space,Space_), assert_is_IntSet(IntSet, L), gecode_new_intvar_from_intset(Idx,Space_,L), IVar='IntVar'(Idx,-1). new_floatvar(FVar, Space, Lo, Hi) :- !, assert_var(IVar), assert_is_Space_or_Clause(Space,Space_), assert_float(Lo), assert_float(Hi), gecode_new_floatvar_from_bounds(Idx,Space_,Lo,Hi), FVar='FloatVar'(Idx,-1). new_boolvar(BVar, Space) :- !, assert_var(BVar), assert_is_Space_or_Clause(Space,Space_), gecode_new_boolvar(Idx,Space_), BVar='BoolVar'(Idx,-1). %% (GlbMin,GlbMax,LubMin,LubMax,CardMin,CardMax) 6 new_setvar_1 %% (GlbMin,GlbMax,LubMin,LubMax,CardMin) 5 new_setvar_2 %% (GlbMin,GlbMax,LubMin,LubMax) 4 new_setvar_3 %% (Glb,LubMin,LubMax,CardMin,CardMax) 5 new_setvar_4 %% (Glb,LubMin,LubMax,CardMin) 4 new_setvar_5 %% (Glb,LubMin,LubMax) 3 new_setvar_6 %% (GlbMin,GlbMax,Lub,CardMin,CardMax) 5 new_setvar_7 %% (GlbMin,GlbMax,Lub,CardMin) 4 new_setvar_8 %% (GlbMin,GlbMax,Lub) 3 new_setvar_9 %% (Glb,Lub,CardMin,CardMax) 4 new_setvar_10 %% (Glb,Lub,CardMin) 3 new_setvar_11 %% (Glb,Lub) 2 new_setvar_12 %% 6 arguments %% (GlbMin,GlbMax,LubMin,LubMax,CardMin,CardMax) 6 new_setvar_1 new_setvar(SVar, Space, GlbMin, GlbMax, LubMin, LubMax, CardMin, CardMax) :- assert_var(SVar), assert_is_Space_or_Clause(Space,Space_), assert_integer(GlbMin), assert_integer(GlbMax), assert_integer(LubMin), assert_integer(LubMax), assert_integer(CardMin), assert_integer(CardMax), gecode_new_setvar(Idx, Space_, GlbMin, GlbMax, LubMib, LubMax, CardMin, CardMax), SVar='SetVar'(Idx,-1). %% 5 arguments %% (GlbMin,GlbMax,LubMin,LubMax,CardMin) 5 new_setvar_2 %% (Glb,LubMin,LubMax,CardMin,CardMax) 5 new_setvar_4 %% (GlbMin,GlbMax,Lub,CardMin,CardMax) 5 new_setvar_7 new_setvar(SVar, Space, X1, X2, X3, X4, X5) :- assert_var(SVar), assert_is_Space_or_Clause(Space,Space_), (integer(X1) -> assert_integer(X2), assert_integer(X4), assert_integer(X5), (is_IntSet(X3,X3_) -> gecode_new_setvar_7(Idx,Space_,X1,X2,X3_,X4,X5) ; gecode_new_setvar_2(Idx,Space_,X1,X2,X3,X4,X5)) ; assert_is_IntSet(X1,X1_), assert_integer(X2), assert_integer(X3), assert_integer(X4), assert_integer(X5), gecode_new_setvar_4(Idx,Space_,X1_,X2,X3,X4,X5)), SVar='SetVar'(Idx,-1). %% 4 arguments %% (GlbMin,GlbMax,LubMin,LubMax) 4 new_setvar_3 %% (Glb,LubMin,LubMax,CardMin) 4 new_setvar_5 %% (GlbMin,GlbMax,Lub,CardMin) 4 new_setvar_8 %% (Glb,Lub,CardMin,CardMax) 4 new_setvar_10 new_setvar(SVar,Space,X1,X2,X3,X4) :- assert_var(SVar), assert_is_Space_or_Clause(Space,Space_), assert_integer(X4), (is_IntSet(X1,X1_) -> (is_IntSet(X2,X2_) -> assert_integer(X3), gecode_new_setvar_10(Idx,Space_,X1_,X2_,X3,X4) ; assert_integer(X2), assert_integer(X3), gecode_new_setvar_5(Idx,Space_,X1_,X2,X3,X4)) ; assert_integer(X1), assert_integer(X2), (is_IntSet(X3,X3_) -> gecode_new_setvar_8(Idx,Space_,X1,X2,X3_,X4) ; assert_integer(X3), gecode_new_setvar_3(Idx,Space_,X1,X2,X3,X4))), SVar='SetVar'(Idx,-1). %% 3 arguments %% (Glb,LubMin,LubMax) 3 new_setvar_6 %% (GlbMin,GlbMax,Lub) 3 new_setvar_9 %% (Glb,Lub,CardMin) 3 new_setvar_11 new_setvar(SVar,Space,X1,X2,X3) :- assert_var(SVar), assert_is_Space_or_Clause(Space,Space_), (is_IntSet(X1,X1_) -> (is_IntSet(X2,X2_) -> assert_integer(X3), gecode_new_setvar_11(Idx,Space_,X1_,X2_,X3) ; assert_integer(X2), assert_integer(X3), gecode_new_setvar_6(Idx,Space_,X1_,X2,X3)) ; assert_integer(X1), assert_integer(X2), assert_is_IntSet(X3,X3_), gecode_new_setvar_9(Idx,Space_,X1,X2,X3_)), SVar='SetVar'(Idx,-1). %% 2 arguments %% (Glb,Lub) 2 new_setvar_12 new_setvar(SVar,Space,X1,X2) :- assert_var(SVar), assert_is_Space_or_Clause(Space,Space_), assert_is_IntSet(X1,X1_), assert_is_IntSet(X2,X2_), gecode_new_setvar_12(Idx,Space_,X1_,X2_), SVar='SetVar'(Idx,-1). minimize(Space,IVar) :- assert_is_Space(Space,Space_), assert_is_IntVar(IVar,IVar_), gecode_space_minimize(Space_,IVar_). maximize(Space,IVar) :- assert_is_Space(Space,Space_), assert_is_IntVar(IVar,IVar_), gecode_space_maximize(Space_,IVar_). minimize(Space,IVar1,IVar2) :- assert_is_Space(Space,Space_), assert_is_IntVar(IVar1,IVar1_), assert_is_IntVar(IVar2,IVar2_), gecode_space_minimize_ratio(Space_,IVar1_,IVar2_). maximize(Space,IVar1,IVar2) :- assert_is_Space(Space,Space_), assert_is_IntVar(IVar1,IVar1_), assert_is_IntVar(IVar2,IVar2_), gecode_space_maximize_ratio(Space_,IVar1_,IVar2_). reify(Space,BVar,Mode,R) :- assert_is_Space(Space,Space_), assert_is_BoolVar(BVar,BVar_), assert_is_ReifyMode(Mode,Mode_), assert_var(R), gecode_new_reify(Space_,BVar_,Mode_,R_), R = 'Reify'(R_). gecode_search_options_init(search_options(0,1.0,8,2,'RM_NONE',0,1,0)). gecode_search_options_offset(restart,1). gecode_search_options_offset(threads,2). gecode_search_options_offset(c_d ,3). gecode_search_options_offset(a_d ,4). gecode_search_options_offset(cutoff, 5). gecode_search_options_offset(nogoods_limit, 6). gecode_search_options_offset(clone, 7). gecode_search_options_offset(stop, 8). % unimplemented gecode_search_option_set(O,V,R) :- gecode_search_options_offset(O,I), setarg(I,R,V). gecode_search_options_from_alist(L,R) :- gecode_search_options_init(R), gecode_search_options_process_alist(L,R). gecode_search_options_process_alist([],R). gecode_search_options_process_alist([H|T],R) :- !, gecode_search_options_process1(H,R), gecode_search_options_process_alist(T,R). gecode_search_options_process1(restart,R) :- !, gecode_search_option_set(restart,1,R). gecode_search_options_process1(threads=N,R) :- !, (integer(N) -> V is float(N) ; (float(N) -> V=N ; throw(bad_search_option_value(threads=N)))), gecode_search_option_set(threads,V,R). gecode_search_options_process1(c_d=N,R) :- !, (integer(N) -> V=N ; throw(bad_search_option_value(c_d=N))), gecode_search_option_set(c_d,V,R). gecode_search_options_process1(a_d=N,R) :- !, (integer(N) -> V=N ; throw(bad_search_option_value(a_d=N))), gecode_search_option_set(a_d,V,R). gecode_search_options_process1(cutoff=C,R) :- !, (is_RestartMode(C,C_) -> V=C_ ; throw(bad_search_option_value(cutoff=C))), gecode_search_option_set(cutoff,C_,R). gecode_search_options_process1(nogoods_limit=N,R) :- !, (integer(N), N >= 0 -> V=N ; throw(bad_search_option_value(nogoods_limit=N))), gecode_search_option_set(nogoods_limit,N,R). gecode_search_options_process1(clone=N,R) :- !, ((N == 0 ; N == 1)-> V=N ; throw(bad_search_option_value(clone=N))), gecode_search_option_set(clone,N,R). gecode_search_options_process1(O,_) :- throw(gecode_error(unrecognized_search_option(O))). search(Space, Solution) :- search(Space, Solution, []). search(Space, Solution, Alist) :- assert_is_Space(Space,Space_), assert_var(Solution), gecode_search_options_from_alist(Alist,O), gecode_new_engine(Space_,Engine_,O), gecode_engine_search(Engine_,Solution_), Solution='Space'(Solution_). %% INSPECTING VARIABLES get_for_vars([],Space,[],F). get_for_vars([V|Vs],Space,[V2|V2s],F) :- call_with_args(F,V,Space,V2), get_for_vars(Vs,Space,V2s,F). get_assigned(Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_assigned(Space_,Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_assigned(Space_,Var_) ; is_FloatVar(Var,Var_) -> gecode_floatvar_assigned(Space_,Var_) ; is_SetVar(Var,Var_) -> gecode_setvar_assigned(Space_,Var_) ; throw(gecode_error(expected(variable)))). get_min(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_min(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_min(X, Space_, Var_) ; is_FloatVar(Var,Var_) -> gecode_floatvar_min(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_min)). get_max(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_max(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_max(X, Space_, Var_) ; is_FloatVar(Var,Var_) -> gecode_floatvar_max(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_max)). get_med(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_med(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_med(X, Space_, Var_) ; is_FloatVar(Var,Var_) -> gecode_floatvar_med(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_med)). get_val(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_val(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_val(X, Space_, Var_) ; is_FloatVar(Var,Var_) -> gecode_floatvar_val(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_val)). get_size(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_size(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_size(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_size)). get_width(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_width(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_width(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_width)). get_regret_min(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_regret_min(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_regret_min(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_regret_min)). get_regret_max(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_regret_max(X, Space_, Var_) ; is_BoolVar(Var,Var_) -> gecode_boolvar_regret_max(X, Space_, Var_) ; get_for_vars(X, Space, Var, gecode:get_regret_max)). get_glbSize(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_glbSize(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_glbSize)). get_lubSize(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_lubSize(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_lubSize)). get_unknownSize(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_unknownSize(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_unknownSize)). get_cardMin(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_cardMin(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_cardMin)). get_cardMax(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_cardMax(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_cardMax)). get_lubMin(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_lubMin(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_lubMin)). get_lubMax(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_lubMax(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_lubMax)). get_glbMin(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_glbMin(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_glbMin)). get_glbMax(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_glbMax(X,Space_,Var_) ; get_for_vars(X, Space, Var, gecode:get_glbMax)). get_glb_ranges(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_glb_ranges(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_glb_ranges)). get_lub_ranges(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_lub_ranges(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_lub_ranges)). get_unknown_ranges(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_unknown_ranges(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_unknown_ranges)). get_glb_values(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_glb_values(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_glb_values)). get_lub_values(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_lub_values(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_lub_values)). get_unknown_values(X, Space, Var) :- assert_is_Space(Space,Space_), (is_SetVar(Var,Var_) -> gecode_setvar_unknown_values(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_unknown_values)). get_ranges(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_ranges(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_ranges)). get_values(X, Space, Var) :- assert_is_Space(Space,Space_), (is_IntVar(Var,Var_) -> gecode_intvar_values(X,Space_,Var_) ; get_for_vars(X,Space,Var,gecode:get_values)). new_disjunctor(X, Space) :- assert_is_Space(Space,Space_), gecode_new_disjunctor(D,Space_), X='Disjunctor'(D). is_Disjunctor_('Disjunctor'(D),D). is_Disjunctor(X,Y) :- nonvar(X), is_Disjunctor_(X,Y). is_Disjunctor(X) :- is_Disjunctor(X,_). assert_is_Disjunctor(X,Y) :- is_Disjunctor(X,Y) -> true ; throw(gecode_error(expected(disjunctor))). new_clause(X, Disj) :- assert_is_Disjunctor(Disj,Disj_), gecode_new_clause(C, Disj_), X='Clause'(C). is_Clause_('Clause'(C),C) :- gecode_space_use_keep_index(C,B), nb_setval(gecode_space_use_keep_index,B). is_Clause(X,Y) :- nonvar(X), is_Clause_(X,Y). is_Clause(X) :- is_Clause(X,_). assert_is_Clause(X,Y) :- is_Clause(X,Y) -> true ; throw(gecode_error(expected(clause))). is_Space_or_Clause(X,Y) :- (is_Space(X,Y);is_Clause(X,Y)), !. assert_is_Space_or_Clause(X,Y) :- is_Space_or_Clause(X,Y) -> true ; throw(gecode_error(expected(space,clause))). new_forward(Clause, X, Y) :- assert_is_Clause(Clause, Clause_), (is_IntVar(X,X_) -> (is_IntVar(Y,Y_) -> gecode_clause_intvar_forward(Clause_,X_,Y_) ; throw(gecode_error(forward))) ; (is_BoolVar(X,X_) -> (is_BoolVar(Y,Y_) -> gecode_clause_boolvar_forward(Clause_,X_,Y_) ; throw(gecode_error(forward))) ; (is_SetVar(X,X_) -> (is_SetVar(Y,Y_) -> gecode_clause_setvar_forward(Clause_,X_,Y_) ; throw(gecode_error(forward))) ; (X=[] -> Y=[] ;(X=[H1|T1],Y=[H2|T2]) -> (new_forward(Clause,H1,H2), new_forward(Clause,T1,T2)) ; throw(gecode_error(forward)))))). new_intvars_(L,Space,N,I,J) :- length(L,N), new_intvars(L,Space,I,J). new_intvars_(L,Space,N,IntSet) :- length(L,N), new_intvars(L,Space,IntSet). new_boolvars_(L,Space,N) :- length(L,N), new_boolvars(L,Space). new_setvars_(L,Space,N,X1,X2,X3,X4,X5,X6) :- length(L,N), new_setvars(L,Space,X1,X2,X3,X4,X5,X6). new_setvars_(L,Space,N,X1,X2,X3,X4,X5) :- length(L,N), new_setvars(L,Space,X1,X2,X3,X4,X5). new_setvars_(L,Space,N,X1,X2,X3,X4) :- length(L,N), new_setvars(L,Space,X1,X2,X3,X4). new_setvars_(L,Space,N,X1,X2,X3) :- length(L,N), new_setvars(L,Space,X1,X2,X3). new_setvars_(L,Space,N,X1,X2) :- length(L,N), new_setvars(L,Space,X1,X2). keep_(Space, Var) :- (Var = 'IntVar'(I,J) -> (J = -1 -> (gecode_intvar_keep(Space,I,K),setarg(2,Var,K)) ; throw(gecode_error(variable_already_kept(Var)))) ; (Var = 'BoolVar'(I,J) -> (J = -1 -> (gecode_boolvar_keep(Space,I,K),setarg(2,Var,K)) ; throw(gecode_error(variable_already_kept(Var)))) ; (Var = 'SetVar'(I,J) -> (J = -1 -> (gecode_setvar_keep(Space,I,K),setarg(2,Var,K)) ; throw(gecode_error(variable_already_kept(Var)))) ; keep_list_(Space,Var)))). keep_list_(Space, []) :- !. keep_list_(Space, [H|T]) :- !, keep_(Space,H), keep_list_(Space,T). keep_list_(_, X) :- throw(gecode_error(not_a_variable(X))). %% more concise interface: (X := Y) :- var(Y), !, throw(gecode_error((X := Y))). (X := intset(I,J)) :- !, new_intset(X,I,J). (X := intset(L)) :- !, new_intset(X,L). (X := space) :- !, new_space(X). (X := intvar(Space,I,J)) :- !, new_intvar(X,Space,I,J). (X := intvar(Space,IntSet)) :- !, new_intvar(X,Space,IntSet). (X := boolvar(Space)) :- !, new_boolvar(X,Space). (X := setvar(Space,X1,X2,X3,X4,X5,X6)) :- !, new_setvar(X,Space,X1,X2,X3,X4,X5,X6). (X := setvar(Space,X1,X2,X3,X4,X5)) :- !, new_setvar(X,Space,X1,X2,X3,X4,X5). (X := setvar(Space,X1,X2,X3,X4)) :- !, new_setvar(X,Space,X1,X2,X3,X4). (X := setvar(Space,X1,X2,X3)) :- !, new_setvar(X,Space,X1,X2,X3). (X := setvar(Space,X1,X2)) :- !, new_setvar(X,Space,X1,X2). (X := intvars(Space,N,I,J)) :- !, new_intvars_(X,Space,N,I,J). (X := intvars(Space,N,IntSet)) :- !, new_intvars_(X,Space,N,IntSet). (X := boolvars(Space,N)) :- !, new_boolvars_(X,Space,N). (X := setvars(Space,N,X1,X2,X3,X4,X5,X6)) :- !, new_setvars_(X,Space,N,X1,X2,X3,X4,X5,X6). (X := setvars(Space,N,X1,X2,X3,X4,X5)) :- !, new_setvars_(X,Space,N,X1,X2,X3,X4,X5). (X := setvars(Space,N,X1,X2,X3,X4)) :- !, new_setvars_(X,Space,N,X1,X2,X3,X4). (X := setvars(Space,N,X1,X2,X3)) :- !, new_setvars_(X,Space,N,X1,X2,X3). (X := setvars(Space,N,X1,X2)) :- !, new_setvars_(X,Space,N,X1,X2). (X := min(Space,Var)) :- !, get_min(X,Space,Var). (X := max(Space,Var)) :- !, get_max(X,Space,Var). (X := med(Space,Var)) :- !, get_med(X,Space,Var). (X := val(Space,Var)) :- !, get_val(X,Space,Var). (X := size(Space,Var)) :- !, get_size(X,Space,Var). (X := width(Space,Var)) :- !, get_width(X,Space,Var). (X := regret_min(Space,Var)) :- !, get_regret_min(X,Space,Var). (X := regret_max(Space,Var)) :- !, get_regret_max(X,Space,Var). (X := ranges(Space,Var)) :- !, get_ranges(X,Space,Var). (X := values(Space,Var)) :- !, get_values(X,Space,Var). (X := glbSize(Space,Var)) :- !, get_glbSize(X,Space,Var). (X := lubSize(Space,Var)) :- !, get_lubSize(X,Space,Var). (X := unknownSize(Space,Var)) :- !, get_unknownSize(X,Space,Var). (X := cardMin(Space,Var)) :- !, get_cardMin(X,Space,Var). (X := cardMax(Space,Var)) :- !, get_cardMax(X,Space,Var). (X := lubMin(Space,Var)) :- !, get_lubMin(X,Space,Var). (X := lubMax(Space,Var)) :- !, get_lubMax(X,Space,Var). (X := glbMin(Space,Var)) :- !, get_glbMin(X,Space,Var). (X := glbMax(Space,Var)) :- !, get_glbMax(X,Space,Var). (X := glb_ranges(Space,Var)) :- !, get_glb_ranges(X,Space,Var). (X := lub_ranges(Space,Var)) :- !, get_lub_ranges(X,Space,Var). (X := unknown_ranges(Space,Var)) :- !, get_unknown_ranges(X,Space,Var). (X := glb_values(Space,Var)) :- !, get_glb_values(X,Space,Var). (X := lub_values(Space,Var)) :- !, get_lub_values(X,Space,Var). (X := unknown_values(Space,Var)) :- !, get_unknown_values(X,Space,Var). (X := disjunctor(Space)) :- !, new_disjunctor(X,Space). (X := clause(Disj)) :- !, new_clause(X,Disj). (X := search(Y)) :- !, search(Y,X). (X := search(Y,L)) :- !, search(Y,X,L). % these should be autogenerated: (C += forward(X,Y)) :- !, new_forward(C,X,Y). (Space += abs(X1,X2)) :- !, abs(Space,X1,X2). (Space += abs(X1,X2,X3)) :- !, abs(Space,X1,X2,X3). (Space += assign(X1,X2)) :- !, assign(Space,X1,X2). (Space += atmostOne(X1,X2)) :- !, atmostOne(Space,X1,X2). (Space += binpacking(X1,X2,X3)) :- !, binpacking(Space,X1,X2,X3). (Space += binpacking(X1,X2,X3,X4)) :- !, binpacking(Space,X1,X2,X3,X4). (Space += branch(X1,X2)) :- !, branch(Space,X1,X2). (Space += branch(X1,X2,X3)) :- !, branch(Space,X1,X2,X3). (Space += cardinality(X1,X2)) :- !, cardinality(Space,X1,X2). (Space += cardinality(X1,X2,X3)) :- !, cardinality(Space,X1,X2,X3). (Space += channel(X1,X2)) :- !, channel(Space,X1,X2). (Space += channel(X1,X2,X3)) :- !, channel(Space,X1,X2,X3). (Space += channel(X1,X2,X3,X4)) :- !, channel(Space,X1,X2,X3,X4). (Space += channel(X1,X2,X3,X4,X5)) :- !, channel(Space,X1,X2,X3,X4,X5). (Space += channelSorted(X1,X2)) :- !, channelSorted(Space,X1,X2). (Space += circuit(X1)) :- !, circuit(Space,X1). (Space += circuit(X1,X2)) :- !, circuit(Space,X1,X2). (Space += circuit(X1,X2,X3)) :- !, circuit(Space,X1,X2,X3). (Space += circuit(X1,X2,X3,X4)) :- !, circuit(Space,X1,X2,X3,X4). (Space += circuit(X1,X2,X3,X4,X5)) :- !, circuit(Space,X1,X2,X3,X4,X5). (Space += circuit(X1,X2,X3,X4,X5,X6)) :- !, circuit(Space,X1,X2,X3,X4,X5,X6). (Space += clause(X1,X2,X3,X4)) :- !, clause(Space,X1,X2,X3,X4). (Space += clause(X1,X2,X3,X4,X5)) :- !, clause(Space,X1,X2,X3,X4,X5). (Space += convex(X1)) :- !, convex(Space,X1). (Space += convex(X1,X2)) :- !, convex(Space,X1,X2). (Space += count(X1,X2)) :- !, count(Space,X1,X2). (Space += count(X1,X2,X3)) :- !, count(Space,X1,X2,X3). (Space += count(X1,X2,X3,X4)) :- !, count(Space,X1,X2,X3,X4). (Space += count(X1,X2,X3,X4,X5)) :- !, count(Space,X1,X2,X3,X4,X5). (Space += cumulative(X1,X2,X3,X4)) :- !, cumulative(Space,X1,X2,X3,X4). (Space += cumulative(X1,X2,X3,X4,X5)) :- !, cumulative(Space,X1,X2,X3,X4,X5). (Space += cumulative(X1,X2,X3,X4,X5,X6)) :- !, cumulative(Space,X1,X2,X3,X4,X5,X6). (Space += cumulative(X1,X2,X3,X4,X5,X6,X7)) :- !, cumulative(Space,X1,X2,X3,X4,X5,X6,X7). (Space += cumulatives(X1,X2,X3,X4,X5,X6,X7)) :- !, cumulatives(Space,X1,X2,X3,X4,X5,X6,X7). (Space += cumulatives(X1,X2,X3,X4,X5,X6,X7,X8)) :- !, cumulatives(Space,X1,X2,X3,X4,X5,X6,X7,X8). (Space += distinct(X1)) :- !, distinct(Space,X1). (Space += distinct(X1,X2)) :- !, distinct(Space,X1,X2). (Space += distinct(X1,X2,X3)) :- !, distinct(Space,X1,X2,X3). (Space += div(X1,X2,X3)) :- !, div(Space,X1,X2,X3). (Space += div(X1,X2,X3,X4)) :- !, div(Space,X1,X2,X3,X4). (Space += divmod(X1,X2,X3,X4)) :- !, divmod(Space,X1,X2,X3,X4). (Space += divmod(X1,X2,X3,X4,X5)) :- !, divmod(Space,X1,X2,X3,X4,X5). (Space += dom(X1,X2)) :- !, dom(Space,X1,X2). (Space += dom(X1,X2,X3)) :- !, dom(Space,X1,X2,X3). (Space += dom(X1,X2,X3,X4)) :- !, dom(Space,X1,X2,X3,X4). (Space += dom(X1,X2,X3,X4,X5)) :- !, dom(Space,X1,X2,X3,X4,X5). (Space += element(X1,X2,X3)) :- !, element(Space,X1,X2,X3). (Space += element(X1,X2,X3,X4)) :- !, element(Space,X1,X2,X3,X4). (Space += element(X1,X2,X3,X4,X5)) :- !, element(Space,X1,X2,X3,X4,X5). (Space += element(X1,X2,X3,X4,X5,X6)) :- !, element(Space,X1,X2,X3,X4,X5,X6). (Space += element(X1,X2,X3,X4,X5,X6,X7)) :- !, element(Space,X1,X2,X3,X4,X5,X6,X7). (Space += linear(X1,X2,X3)) :- !, linear(Space,X1,X2,X3). (Space += linear(X1,X2,X3,X4)) :- !, linear(Space,X1,X2,X3,X4). (Space += linear(X1,X2,X3,X4,X5)) :- !, linear(Space,X1,X2,X3,X4,X5). (Space += linear(X1,X2,X3,X4,X5,X6)) :- !, linear(Space,X1,X2,X3,X4,X5,X6). (Space += max(X1,X2)) :- !, max(Space,X1,X2). (Space += max(X1,X2,X3)) :- !, max(Space,X1,X2,X3). (Space += max(X1,X2,X3,X4)) :- !, max(Space,X1,X2,X3,X4). (Space += min(X1,X2)) :- !, min(Space,X1,X2). (Space += min(X1,X2,X3)) :- !, min(Space,X1,X2,X3). (Space += min(X1,X2,X3,X4)) :- !, min(Space,X1,X2,X3,X4). (Space += mod(X1,X2,X3)) :- !, mod(Space,X1,X2,X3). (Space += mod(X1,X2,X3,X4)) :- !, mod(Space,X1,X2,X3,X4). (Space += mult(X1,X2,X3)) :- !, mult(Space,X1,X2,X3). (Space += mult(X1,X2,X3,X4)) :- !, mult(Space,X1,X2,X3,X4). (Space += nooverlap(X1,X2,X3,X4)) :- !, nooverlap(Space,X1,X2,X3,X4). (Space += nooverlap(X1,X2,X3,X4,X5)) :- !, nooverlap(Space,X1,X2,X3,X4,X5). (Space += nooverlap(X1,X2,X3,X4,X5,X6)) :- !, nooverlap(Space,X1,X2,X3,X4,X5,X6). (Space += nooverlap(X1,X2,X3,X4,X5,X6,X7)) :- !, nooverlap(Space,X1,X2,X3,X4,X5,X6,X7). (Space += nooverlap(X1,X2,X3,X4,X5,X6,X7,X8)) :- !, nooverlap(Space,X1,X2,X3,X4,X5,X6,X7,X8). (Space += notMax(X1,X2)) :- !, notMax(Space,X1,X2). (Space += notMin(X1,X2)) :- !, notMin(Space,X1,X2). (Space += path(X1,X2,X3)) :- !, path(Space,X1,X2,X3). (Space += path(X1,X2,X3,X4)) :- !, path(Space,X1,X2,X3,X4). (Space += path(X1,X2,X3,X4,X5)) :- !, path(Space,X1,X2,X3,X4,X5). (Space += path(X1,X2,X3,X4,X5,X6)) :- !, path(Space,X1,X2,X3,X4,X5,X6). (Space += path(X1,X2,X3,X4,X5,X6,X7)) :- !, path(Space,X1,X2,X3,X4,X5,X6,X7). (Space += path(X1,X2,X3,X4,X5,X6,X7,X8)) :- !, path(Space,X1,X2,X3,X4,X5,X6,X7,X8). (Space += precede(X1,X2)) :- !, precede(Space,X1,X2). (Space += precede(X1,X2,X3)) :- !, precede(Space,X1,X2,X3). (Space += precede(X1,X2,X3,X4)) :- !, precede(Space,X1,X2,X3,X4). (Space += reify(X1,X2,X3)) :- !, reify(Space,X1,X2,X3). (Space += rel(X1,X2)) :- !, rel(Space,X1,X2). (Space += rel(X1,X2,X3)) :- !, rel(Space,X1,X2,X3). (Space += rel(X1,X2,X3,X4)) :- !, rel(Space,X1,X2,X3,X4). (Space += rel(X1,X2,X3,X4,X5)) :- !, rel(Space,X1,X2,X3,X4,X5). (Space += rel(X1,X2,X3,X4,X5,X6)) :- !, rel(Space,X1,X2,X3,X4,X5,X6). (Space += sequence(X1)) :- !, sequence(Space,X1). (Space += sequence(X1,X2)) :- !, sequence(Space,X1,X2). (Space += sequence(X1,X2,X3,X4,X5)) :- !, sequence(Space,X1,X2,X3,X4,X5). (Space += sequence(X1,X2,X3,X4,X5,X6)) :- !, sequence(Space,X1,X2,X3,X4,X5,X6). (Space += sorted(X1,X2)) :- !, sorted(Space,X1,X2). (Space += sorted(X1,X2,X3)) :- !, sorted(Space,X1,X2,X3). (Space += sorted(X1,X2,X3,X4)) :- !, sorted(Space,X1,X2,X3,X4). (Space += sqr(X0,X1,X2,X3)) :- !, sqr(Space,X0,X1,X2,X3). (Space += sqr(X1,X2)) :- !, sqr(Space,X1,X2). (Space += sqrt(X1,X2)) :- !, sqrt(Space,X1,X2). (Space += sqrt(X1,X2,X3)) :- !, sqrt(Space,X1,X2,X3). (Space += unary(X1,X2)) :- !, unary(Space,X1,X2). (Space += unary(X1,X2,X3)) :- !, unary(Space,X1,X2,X3). (Space += unary(X1,X2,X3,X4)) :- !, unary(Space,X1,X2,X3,X4). (Space += unary(X1,X2,X3,X4,X5)) :- !, unary(Space,X1,X2,X3,X4,X5). (Space += unshare(X1)) :- !, unshare(Space,X1). (Space += unshare(X1,X2)) :- !, unshare(Space,X1,X2). (Space += weights(X1,X2,X3,X4)) :- !; weights(Space,X1,X2,X3,X4). (Space += minimize(X)) :- !, minimize(Space,X). (Space += maximize(X)) :- !, maximize(Space,X). (Space += minimize(X,Y)) :- !, minimize(Space,X,Y). (Space += maximize(X,Y)) :- !, maximize(Space,X,Y). (Space += keep(X)) :- !, keep_(Space,X).