// -*- c++ -*- //============================================================================= // 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 . //============================================================================= static YAP_Term gecode_RM_NONE; static YAP_Term gecode_RM_CONSTANT; static YAP_Term gecode_RM_LINEAR; static YAP_Term gecode_RM_LUBY; static YAP_Term gecode_RM_GEOMETRIC; static RestartMode gecode_RestartMode_from_term(YAP_Term X) { if (X==gecode_RM_NONE) return RM_NONE; if (X==gecode_RM_CONSTANT) return RM_CONSTANT; if (X==gecode_RM_LINEAR) return RM_LINEAR; if (X==gecode_RM_LUBY) return RM_LUBY; if (X==gecode_RM_GEOMETRIC) return RM_GEOMETRIC; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_FRT_EQ; static YAP_Term gecode_FRT_NQ; static YAP_Term gecode_FRT_LQ; static YAP_Term gecode_FRT_LE; static YAP_Term gecode_FRT_GQ; static YAP_Term gecode_FRT_GR; static FloatRelType gecode_FloatRelType_from_term(YAP_Term X) { if (X==gecode_FRT_EQ) return FRT_EQ; if (X==gecode_FRT_NQ) return FRT_NQ; if (X==gecode_FRT_LQ) return FRT_LQ; if (X==gecode_FRT_LE) return FRT_LE; if (X==gecode_FRT_GQ) return FRT_GQ; if (X==gecode_FRT_GR) return FRT_GR; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_RM_EQV; static YAP_Term gecode_RM_IMP; static YAP_Term gecode_RM_PMI; static ReifyMode gecode_ReifyMode_from_term(YAP_Term X) { if (X==gecode_RM_EQV) return RM_EQV; if (X==gecode_RM_IMP) return RM_IMP; if (X==gecode_RM_PMI) return RM_PMI; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_IRT_EQ; static YAP_Term gecode_IRT_NQ; static YAP_Term gecode_IRT_LQ; static YAP_Term gecode_IRT_LE; static YAP_Term gecode_IRT_GQ; static YAP_Term gecode_IRT_GR; static IntRelType gecode_IntRelType_from_term(YAP_Term X) { if (X==gecode_IRT_EQ) return IRT_EQ; if (X==gecode_IRT_NQ) return IRT_NQ; if (X==gecode_IRT_LQ) return IRT_LQ; if (X==gecode_IRT_LE) return IRT_LE; if (X==gecode_IRT_GQ) return IRT_GQ; if (X==gecode_IRT_GR) return IRT_GR; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_BOT_AND; static YAP_Term gecode_BOT_OR; static YAP_Term gecode_BOT_IMP; static YAP_Term gecode_BOT_EQV; static YAP_Term gecode_BOT_XOR; static BoolOpType gecode_BoolOpType_from_term(YAP_Term X) { if (X==gecode_BOT_AND) return BOT_AND; if (X==gecode_BOT_OR) return BOT_OR; if (X==gecode_BOT_IMP) return BOT_IMP; if (X==gecode_BOT_EQV) return BOT_EQV; if (X==gecode_BOT_XOR) return BOT_XOR; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_IPL_DEF; static YAP_Term gecode_IPL_VAL; static YAP_Term gecode_IPL_BND; static YAP_Term gecode_IPL_DOM; static YAP_Term gecode_IPL_SPEED; static YAP_Term gecode_IPL_MEMORY; static YAP_Term gecode_IPL_BASIC; static YAP_Term gecode_IPL_ADVANCED; static YAP_Term gecode_IPL_BASIC_ADVANCED; static IntPropLevel gecode_IntPropLevel_from_term(YAP_Term X) { if (X==gecode_IPL_DEF) return IPL_DEF; if (X==gecode_IPL_VAL) return IPL_VAL; if (X==gecode_IPL_BND) return IPL_BND; if (X==gecode_IPL_DOM) return IPL_DOM; if (X==gecode_IPL_SPEED) return IPL_SPEED; if (X==gecode_IPL_MEMORY) return IPL_MEMORY; if (X==gecode_IPL_BASIC) return IPL_BASIC; if (X==gecode_IPL_ADVANCED) return IPL_ADVANCED; if (X==gecode_IPL_BASIC_ADVANCED) return IPL_BASIC_ADVANCED; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_TT_FIXP; static YAP_Term gecode_TT_FIXS; static YAP_Term gecode_TT_FIXE; static TaskType gecode_TaskType_from_term(YAP_Term X) { if (X==gecode_TT_FIXP) return TT_FIXP; if (X==gecode_TT_FIXS) return TT_FIXS; if (X==gecode_TT_FIXE) return TT_FIXE; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_TE_INIT; static YAP_Term gecode_TE_PRUNE; static YAP_Term gecode_TE_FIX; static YAP_Term gecode_TE_FAIL; static YAP_Term gecode_TE_DONE; static YAP_Term gecode_TE_PROPAGATE; static YAP_Term gecode_TE_COMMIT; static TraceEvent gecode_TraceEvent_from_term(YAP_Term X) { if (X==gecode_TE_INIT) return TE_INIT; if (X==gecode_TE_PRUNE) return TE_PRUNE; if (X==gecode_TE_FIX) return TE_FIX; if (X==gecode_TE_FAIL) return TE_FAIL; if (X==gecode_TE_DONE) return TE_DONE; if (X==gecode_TE_PROPAGATE) return TE_PROPAGATE; if (X==gecode_TE_COMMIT) return TE_COMMIT; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_SRT_EQ; static YAP_Term gecode_SRT_NQ; static YAP_Term gecode_SRT_SUB; static YAP_Term gecode_SRT_SUP; static YAP_Term gecode_SRT_DISJ; static YAP_Term gecode_SRT_CMPL; static YAP_Term gecode_SRT_LQ; static YAP_Term gecode_SRT_LE; static YAP_Term gecode_SRT_GQ; static YAP_Term gecode_SRT_GR; static SetRelType gecode_SetRelType_from_term(YAP_Term X) { if (X==gecode_SRT_EQ) return SRT_EQ; if (X==gecode_SRT_NQ) return SRT_NQ; if (X==gecode_SRT_SUB) return SRT_SUB; if (X==gecode_SRT_SUP) return SRT_SUP; if (X==gecode_SRT_DISJ) return SRT_DISJ; if (X==gecode_SRT_CMPL) return SRT_CMPL; if (X==gecode_SRT_LQ) return SRT_LQ; if (X==gecode_SRT_LE) return SRT_LE; if (X==gecode_SRT_GQ) return SRT_GQ; if (X==gecode_SRT_GR) return SRT_GR; cerr << "this should never happen" << endl; exit(1); } static YAP_Term gecode_SOT_UNION; static YAP_Term gecode_SOT_DUNION; static YAP_Term gecode_SOT_INTER; static YAP_Term gecode_SOT_MINUS; static SetOpType gecode_SetOpType_from_term(YAP_Term X) { if (X==gecode_SOT_UNION) return SOT_UNION; if (X==gecode_SOT_DUNION) return SOT_DUNION; if (X==gecode_SOT_INTER) return SOT_INTER; if (X==gecode_SOT_MINUS) return SOT_MINUS; cerr << "this should never happen" << endl; exit(1); } static YAP_Bool gecode_constraint_unary_471(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); TaskTypeArgs X2 = gecode_TaskTypeArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); BoolVarArgs X5 = gecode_BoolVarArgs_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); unary(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_unary_467(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); BoolVarArgs X5 = gecode_BoolVarArgs_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); unary(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_nvalues_361(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); nvalues(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_nvalues_363(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); nvalues(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_nvalues_357(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); nvalues(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_nvalues_359(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); nvalues(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_max_321(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); max(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_max_325(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); max(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_max_320(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); max(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_219(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); dom(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_dom_225(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); dom(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_argmin_13(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); argmin(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_convex_3(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetVar X3 = gecode_SetVar_from_term(space,YAP_ARG3); convex(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_345(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); nooverlap(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_assign_21(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatAssign X3 = gecode_FloatAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_30(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatAssign X3 = gecode_FloatAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_27(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolAssign X3 = gecode_BoolAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_19(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolAssign X3 = gecode_BoolAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_33(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntAssign X3 = gecode_IntAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_23(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntAssign X3 = gecode_IntAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_36(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetAssign X3 = gecode_SetAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_assign_25(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetAssign X3 = gecode_SetAssign_from_term(YAP_ARG3); assign(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_element_260(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_262(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_256(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_254(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_246(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_248(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_244(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); element(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_ite_277(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); ite(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_ite_274(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); BoolVar X5 = gecode_BoolVar_from_term(space,YAP_ARG5); ite(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_ite_276(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); FloatVar X5 = gecode_FloatVar_from_term(space,YAP_ARG5); ite(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_ite_279(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); SetVar X3 = gecode_SetVar_from_term(space,YAP_ARG3); SetVar X4 = gecode_SetVar_from_term(space,YAP_ARG4); SetVar X5 = gecode_SetVar_from_term(space,YAP_ARG5); ite(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_unary_460(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); unary(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_nroot_355(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); nroot(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_circuit_115(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); circuit(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_circuit_104(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); circuit(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_217(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_218(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_215(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_211(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_242(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_239(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_202(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatNum X3 = gecode_FloatNum_from_term(YAP_ARG3); FloatNum X4 = gecode_FloatNum_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_224(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_223(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_221(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); IntSet X4 = gecode_IntSet_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); dom(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_argmax_12(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); bool X5 = gecode_bool_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); argmax(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_350(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntVarArgs X7 = gecode_IntVarArgs_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); nooverlap(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_351(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntVarArgs X7 = gecode_IntVarArgs_from_term(space,YAP_ARG7); BoolVarArgs X8 = gecode_BoolVarArgs_from_term(space,YAP_ARG8); nooverlap(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_element_264(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); element(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_element_258(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); BoolVar X7 = gecode_BoolVar_from_term(space,YAP_ARG7); element(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_element_252(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); element(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_element_250(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); BoolVar X7 = gecode_BoolVar_from_term(space,YAP_ARG7); element(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_max_323(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); max(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_max_324(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); max(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_unshare_474(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); unshare(*space,X2); return TRUE; } static YAP_Bool gecode_constraint_unshare_472(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); unshare(*space,X2); return TRUE; } static YAP_Bool gecode_constraint_path_374(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); path(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_path_373(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); path(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_72(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarBranch X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); IntBranchFilter X6 = gecode_IntBranchFilter_from_term(YAP_ARG6); IntVarValPrint X7 = gecode_IntVarValPrint_from_term(YAP_ARG7); branch(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_branch_78(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); IntBranchFilter X6 = gecode_IntBranchFilter_from_term(YAP_ARG6); IntVarValPrint X7 = gecode_IntVarValPrint_from_term(YAP_ARG7); branch(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_branch_60(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); BoolBranchFilter X6 = gecode_BoolBranchFilter_from_term(YAP_ARG6); BoolVarValPrint X7 = gecode_BoolVarValPrint_from_term(YAP_ARG7); branch(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_branch_54(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarBranch X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); BoolBranchFilter X6 = gecode_BoolBranchFilter_from_term(YAP_ARG6); BoolVarValPrint X7 = gecode_BoolVarValPrint_from_term(YAP_ARG7); branch(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_branch_90(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); SetBranchFilter X6 = gecode_SetBranchFilter_from_term(YAP_ARG6); SetVarValPrint X7 = gecode_SetVarValPrint_from_term(YAP_ARG7); branch(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_branch_84(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarBranch X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); SetBranchFilter X6 = gecode_SetBranchFilter_from_term(YAP_ARG6); SetVarValPrint X7 = gecode_SetVarValPrint_from_term(YAP_ARG7); branch(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_mult_343(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); mult(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_mult_342(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); mult(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_clause_119(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); clause(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_clause_117(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); BoolVar X5 = gecode_BoolVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); clause(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_precede_382(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); precede(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_argmax_7(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); argmax(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_distinct_190(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); distinct(*space,X2); return TRUE; } static YAP_Bool gecode_constraint_member_331(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); member(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_member_332(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); member(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_member_327(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); member(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_member_328(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); member(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_mod_341(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); mod(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_292(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVal X4 = gecode_FloatVal_from_term(YAP_ARG4); linear(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_linear_294(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); linear(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_linear_280(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); linear(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_linear_284(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); linear(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_linear_312(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); linear(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_linear_316(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); linear(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_circuit_112(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); circuit(*space,X2); return TRUE; } static YAP_Bool gecode_constraint_rel_400(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVal X4 = gecode_FloatVal_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_402(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_434(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_432(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_428(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_424(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_420(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_426(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_396(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_397(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_392(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_393(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_389(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolOpType X3 = gecode_BoolOpType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_387(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolOpType X3 = gecode_BoolOpType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); BoolVar X5 = gecode_BoolVar_from_term(space,YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_438(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_444(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_442(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_440(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_404(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_405(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_408(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_409(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_412(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); SetVar X4 = gecode_SetVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_414(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_416(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_418(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); SetVar X4 = gecode_SetVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_386(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_rel_384(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); rel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_min_335(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); min(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_min_339(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); min(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_min_334(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); min(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_when_477(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); std::function X3 = gecode_std_function_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); when(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_when_478(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); std::function X3 = gecode_std_function_from_term(YAP_ARG3); std::function X4 = gecode_std_function_from_term(YAP_ARG4); when(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_cardinality_92(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); cardinality(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_cardinality_91(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); cardinality(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_count_139(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); count(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_count_140(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); count(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_count_132(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); count(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_count_135(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSetArgs X3 = gecode_IntSetArgs_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); count(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_count_136(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSetArgs X3 = gecode_IntSetArgs_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); count(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_sqrt_458(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); sqrt(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_sqrt_457(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); sqrt(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_185(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_183(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_181(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_179(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_177(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_175(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_173(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_171(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_nvalues_360(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); nvalues(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_nvalues_362(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); nvalues(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_nvalues_356(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); nvalues(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_nvalues_358(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); nvalues(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_binpacking_39(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); binpacking(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_linear_307(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); linear(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_linear_311(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); linear(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_linear_299(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); linear(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_linear_303(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); linear(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_abs_6(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); abs(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_convex_2(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); convex(*space,X2); return TRUE; } static YAP_Bool gecode_constraint_div_195(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); div(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_div_194(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); div(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_406(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); rel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_rel_410(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); rel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_rel_398(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); rel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_rel_394(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); rel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_rel_390(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolOpType X3 = gecode_BoolOpType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); rel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_rel_388(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolOpType X3 = gecode_BoolOpType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); BoolVar X5 = gecode_BoolVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); rel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_max_322(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); max(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_path_371(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); IntVarArgs X7 = gecode_IntVarArgs_from_term(space,YAP_ARG7); IntVar X8 = gecode_IntVar_from_term(space,YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); path(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_unary_468(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); TaskTypeArgs X2 = gecode_TaskTypeArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); unary(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_unary_464(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); unary(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_unary_461(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); unary(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_unary_462(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); unary(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_nroot_354(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); nroot(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_nroot_353(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); nroot(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_sorted_453(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); sorted(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_circuit_108(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); circuit(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_circuit_105(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); circuit(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_circuit_106(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); circuit(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_dom_204(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVal X3 = gecode_FloatVal_from_term(YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_201(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatNum X3 = gecode_FloatNum_from_term(YAP_ARG3); FloatNum X4 = gecode_FloatNum_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_229(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatNum X3 = gecode_FloatNum_from_term(YAP_ARG3); FloatNum X4 = gecode_FloatNum_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_228(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_200(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_238(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_237(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_235(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_233(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_207(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_216(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_213(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_214(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_209(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_210(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_241(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_240(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); IntSet X4 = gecode_IntSet_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_222(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_dom_220(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); IntSet X4 = gecode_IntSet_from_term(YAP_ARG4); dom(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_abs_5(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); abs(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_abs_4(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); abs(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_channel_102(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); channel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_channel_99(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); channel(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_assign_32(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatAssign X3 = gecode_FloatAssign_from_term(YAP_ARG3); FloatBranchFilter X4 = gecode_FloatBranchFilter_from_term(YAP_ARG4); FloatVarValPrint X5 = gecode_FloatVarValPrint_from_term(YAP_ARG5); assign(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_assign_29(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolAssign X3 = gecode_BoolAssign_from_term(YAP_ARG3); BoolBranchFilter X4 = gecode_BoolBranchFilter_from_term(YAP_ARG4); BoolVarValPrint X5 = gecode_BoolVarValPrint_from_term(YAP_ARG5); assign(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_assign_35(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntAssign X3 = gecode_IntAssign_from_term(YAP_ARG3); IntBranchFilter X4 = gecode_IntBranchFilter_from_term(YAP_ARG4); IntVarValPrint X5 = gecode_IntVarValPrint_from_term(YAP_ARG5); assign(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_assign_38(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetAssign X3 = gecode_SetAssign_from_term(YAP_ARG3); SetBranchFilter X4 = gecode_SetBranchFilter_from_term(YAP_ARG4); SetVarValPrint X5 = gecode_SetVarValPrint_from_term(YAP_ARG5); assign(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_when_476(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); std::function X3 = gecode_std_function_from_term(YAP_ARG3); when(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_rel_435(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); rel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_rel_421(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); rel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_path_372(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); path(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_44(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatValBranch X3 = gecode_FloatValBranch_from_term(YAP_ARG3); FloatVarValPrint X4 = gecode_FloatVarValPrint_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_64(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_FloatVarBranch_from_term(YAP_ARG3); FloatValBranch X4 = gecode_FloatValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_61(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVarBranch X3 = gecode_FloatVarBranch_from_term(YAP_ARG3); FloatValBranch X4 = gecode_FloatValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_55(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_49(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarBranch X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_42(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolValBranch X3 = gecode_BoolValBranch_from_term(YAP_ARG3); BoolVarValPrint X4 = gecode_BoolVarValPrint_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_67(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarBranch X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_73(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_46(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntValBranch X3 = gecode_IntValBranch_from_term(YAP_ARG3); IntVarValPrint X4 = gecode_IntVarValPrint_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_85(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_79(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarBranch X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_branch_48(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetValBranch X3 = gecode_SetValBranch_from_term(YAP_ARG3); SetVarValPrint X4 = gecode_SetVarValPrint_from_term(YAP_ARG4); branch(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_mult_344(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); mult(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_circuit_109(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); circuit(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_circuit_110(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); circuit(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_circuit_107(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); circuit(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_clause_118(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); clause(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_clause_116(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); BoolVar X5 = gecode_BoolVar_from_term(space,YAP_ARG5); clause(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_precede_381(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); precede(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_precede_380(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); precede(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_channel_103(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); channel(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_155(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_156(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_151(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_152(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_149(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); BoolVarArgs X6 = gecode_BoolVarArgs_from_term(space,YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_167(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_168(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_163(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_164(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_cumulative_161(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); BoolVarArgs X6 = gecode_BoolVarArgs_from_term(space,YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); cumulative(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_distinct_192(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); distinct(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_distinct_191(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntPropLevel X3 = gecode_IntPropLevel_from_term(YAP_ARG3); distinct(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_distinct_186(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); distinct(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_distinct_188(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); distinct(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_member_333(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); member(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_member_329(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); Reify X4 = gecode_Reify_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); member(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_mod_340(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); mod(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_sqr_455(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); sqr(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_sqr_454(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); sqr(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_sequence_449(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); sequence(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_sequence_447(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); sequence(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_path_368(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); path(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_path_365(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); path(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_path_366(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); path(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_divmod_198(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); divmod(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_sorted_450(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); sorted(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_extensional_273(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TupleSet X3 = gecode_TupleSet_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); extensional(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_extensional_271(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); DFA X3 = gecode_DFA_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); extensional(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_extensional_269(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TupleSet X3 = gecode_TupleSet_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); extensional(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_extensional_267(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); DFA X3 = gecode_DFA_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); extensional(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_circuit_114(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); circuit(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_circuit_113(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntPropLevel X3 = gecode_IntPropLevel_from_term(YAP_ARG3); circuit(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_argmin_14(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); bool X4 = gecode_bool_from_term(YAP_ARG4); argmin(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_argmin_16(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); argmin(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_channel_100(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); channel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_channel_97(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); channel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_channel_93(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); channel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_channel_96(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); channel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_channel_95(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); channel(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_when_479(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); std::function X3 = gecode_std_function_from_term(YAP_ARG3); std::function X4 = gecode_std_function_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); when(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_124(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_126(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_142(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_144(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_128(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_130(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_133(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_137(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSetArgs X3 = gecode_IntSetArgs_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_141(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_120(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_122(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); count(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_184(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_182(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_180(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_178(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_176(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_174(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_172(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulatives_170(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); IntArgs X7 = gecode_IntArgs_from_term(YAP_ARG7); bool X8 = gecode_bool_from_term(YAP_ARG8); cumulatives(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_binpacking_40(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); binpacking(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_1(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); std::function X2 = gecode_std_function_from_term(YAP_ARG2); branch(*space,X2); return TRUE; } static YAP_Bool gecode_constraint_extensional_272(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TupleSet X3 = gecode_TupleSet_from_term(YAP_ARG3); extensional(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_extensional_270(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); DFA X3 = gecode_DFA_from_term(YAP_ARG3); extensional(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_extensional_268(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TupleSet X3 = gecode_TupleSet_from_term(YAP_ARG3); extensional(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_extensional_266(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); DFA X3 = gecode_DFA_from_term(YAP_ARG3); extensional(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_linear_315(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_319(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_283(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_287(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_289(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatValArgs X2 = gecode_FloatValArgs_from_term(YAP_ARG2); FloatVarArgs X3 = gecode_FloatVarArgs_from_term(space,YAP_ARG3); FloatRelType X4 = gecode_FloatRelType_from_term(YAP_ARG4); FloatVal X5 = gecode_FloatVal_from_term(YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_291(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatValArgs X2 = gecode_FloatValArgs_from_term(YAP_ARG2); FloatVarArgs X3 = gecode_FloatVarArgs_from_term(space,YAP_ARG3); FloatRelType X4 = gecode_FloatRelType_from_term(YAP_ARG4); FloatVar X5 = gecode_FloatVar_from_term(space,YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_305(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_306(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_309(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_310(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_297(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_298(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_301(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_linear_302(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); Reify X6 = gecode_Reify_from_term(YAP_ARG6); linear(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_349(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntVarArgs X7 = gecode_IntVarArgs_from_term(space,YAP_ARG7); nooverlap(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_348(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); BoolVarArgs X6 = gecode_BoolVarArgs_from_term(space,YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); nooverlap(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_div_196(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); div(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_sqr_456(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); sqr(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_channel_101(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); channel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_channel_98(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); channel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_channel_94(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); channel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_path_369(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); path(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_path_370(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); IntVarArgs X7 = gecode_IntVarArgs_from_term(space,YAP_ARG7); IntVar X8 = gecode_IntVar_from_term(space,YAP_ARG8); path(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_path_367(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); path(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_unary_469(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); TaskTypeArgs X2 = gecode_TaskTypeArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); unary(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_unary_470(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); TaskTypeArgs X2 = gecode_TaskTypeArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); BoolVarArgs X5 = gecode_BoolVarArgs_from_term(space,YAP_ARG5); unary(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_unary_465(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); unary(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_unary_466(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); BoolVarArgs X5 = gecode_BoolVarArgs_from_term(space,YAP_ARG5); unary(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_unary_463(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); unary(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_sorted_451(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); sorted(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_sorted_452(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); sorted(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_265(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); element(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_element_259(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); BoolVar X7 = gecode_BoolVar_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); element(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_element_253(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); IntVar X7 = gecode_IntVar_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); element(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_element_251(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); BoolVar X7 = gecode_BoolVar_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); element(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_assign_22(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatAssign X3 = gecode_FloatAssign_from_term(YAP_ARG3); FloatVarValPrint X4 = gecode_FloatVarValPrint_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_31(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatAssign X3 = gecode_FloatAssign_from_term(YAP_ARG3); FloatBranchFilter X4 = gecode_FloatBranchFilter_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_28(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolAssign X3 = gecode_BoolAssign_from_term(YAP_ARG3); BoolBranchFilter X4 = gecode_BoolBranchFilter_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_20(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolAssign X3 = gecode_BoolAssign_from_term(YAP_ARG3); BoolVarValPrint X4 = gecode_BoolVarValPrint_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_34(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntAssign X3 = gecode_IntAssign_from_term(YAP_ARG3); IntBranchFilter X4 = gecode_IntBranchFilter_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_24(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntAssign X3 = gecode_IntAssign_from_term(YAP_ARG3); IntVarValPrint X4 = gecode_IntVarValPrint_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_37(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetAssign X3 = gecode_SetAssign_from_term(YAP_ARG3); SetBranchFilter X4 = gecode_SetBranchFilter_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_assign_26(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetAssign X3 = gecode_SetAssign_from_term(YAP_ARG3); SetVarValPrint X4 = gecode_SetVarValPrint_from_term(YAP_ARG4); assign(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_element_261(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_element_263(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_element_257(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_element_255(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_element_247(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_element_249(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_element_245(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); element(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_65(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_FloatVarBranch_from_term(YAP_ARG3); FloatValBranch X4 = gecode_FloatValBranch_from_term(YAP_ARG4); FloatBranchFilter X5 = gecode_FloatBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_62(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVarBranch X3 = gecode_FloatVarBranch_from_term(YAP_ARG3); FloatValBranch X4 = gecode_FloatValBranch_from_term(YAP_ARG4); FloatBranchFilter X5 = gecode_FloatBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_58(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_56(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); BoolBranchFilter X5 = gecode_BoolBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_52(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarBranch X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_50(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarBranch X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); BoolBranchFilter X5 = gecode_BoolBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_70(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarBranch X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_68(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarBranch X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); IntBranchFilter X5 = gecode_IntBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_76(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_74(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); IntBranchFilter X5 = gecode_IntBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_86(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); SetBranchFilter X5 = gecode_SetBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_88(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_80(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarBranch X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); SetBranchFilter X5 = gecode_SetBranchFilter_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_82(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarBranch X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); branch(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_relax_445(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarArgs X3 = gecode_SetVarArgs_from_term(space,YAP_ARG3); Rnd X4 = gecode_Rnd_from_term(YAP_ARG4); double X5 = gecode_double_from_term(YAP_ARG5); relax(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_circuit_111(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); IntPropLevel X7 = gecode_IntPropLevel_from_term(YAP_ARG7); circuit(*space,X2,X3,X4,X5,X6,X7); return TRUE; } static YAP_Bool gecode_constraint_pow_377(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); pow(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_pow_376(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); pow(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_precede_379(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); precede(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_argmax_9(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); bool X4 = gecode_bool_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); argmax(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_argmax_11(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); bool X5 = gecode_bool_from_term(YAP_ARG5); argmax(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_cumulative_154(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_150(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_147(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_148(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); BoolVarArgs X6 = gecode_BoolVarArgs_from_term(space,YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_166(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_162(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_159(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_cumulative_160(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); BoolVarArgs X6 = gecode_BoolVarArgs_from_term(space,YAP_ARG6); cumulative(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_distinct_193(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); distinct(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_distinct_187(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); distinct(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_distinct_189(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); distinct(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_min_337(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); min(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_min_338(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); min(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_sqrt_459(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); sqrt(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_sequence_448(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); sequence(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_sequence_446(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); int X6 = gecode_int_from_term(YAP_ARG6); sequence(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_unshare_475(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntPropLevel X3 = gecode_IntPropLevel_from_term(YAP_ARG3); unshare(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_unshare_473(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntPropLevel X3 = gecode_IntPropLevel_from_term(YAP_ARG3); unshare(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_path_375(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); path(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_path_364(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntVar X6 = gecode_IntVar_from_term(space,YAP_ARG6); path(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_divmod_197(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); divmod(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_branch_66(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_FloatVarBranch_from_term(YAP_ARG3); FloatValBranch X4 = gecode_FloatValBranch_from_term(YAP_ARG4); FloatBranchFilter X5 = gecode_FloatBranchFilter_from_term(YAP_ARG5); FloatVarValPrint X6 = gecode_FloatVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_63(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVarBranch X3 = gecode_FloatVarBranch_from_term(YAP_ARG3); FloatValBranch X4 = gecode_FloatValBranch_from_term(YAP_ARG4); FloatBranchFilter X5 = gecode_FloatBranchFilter_from_term(YAP_ARG5); FloatVarValPrint X6 = gecode_FloatVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_59(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); BoolBranchFilter X6 = gecode_BoolBranchFilter_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_57(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); BoolBranchFilter X5 = gecode_BoolBranchFilter_from_term(YAP_ARG5); BoolVarValPrint X6 = gecode_BoolVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_53(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarBranch X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); BoolBranchFilter X6 = gecode_BoolBranchFilter_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_51(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarBranch X3 = gecode_BoolVarBranch_from_term(YAP_ARG3); BoolValBranch X4 = gecode_BoolValBranch_from_term(YAP_ARG4); BoolBranchFilter X5 = gecode_BoolBranchFilter_from_term(YAP_ARG5); BoolVarValPrint X6 = gecode_BoolVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_71(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarBranch X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); IntBranchFilter X6 = gecode_IntBranchFilter_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_69(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarBranch X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); IntBranchFilter X5 = gecode_IntBranchFilter_from_term(YAP_ARG5); IntVarValPrint X6 = gecode_IntVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_77(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); IntBranchFilter X6 = gecode_IntBranchFilter_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_75(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_IntVarBranch_from_term(YAP_ARG3); IntValBranch X4 = gecode_IntValBranch_from_term(YAP_ARG4); IntBranchFilter X5 = gecode_IntBranchFilter_from_term(YAP_ARG5); IntVarValPrint X6 = gecode_IntVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_87(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); SetBranchFilter X5 = gecode_SetBranchFilter_from_term(YAP_ARG5); SetVarValPrint X6 = gecode_SetVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_89(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); TieBreak X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); SetBranchFilter X6 = gecode_SetBranchFilter_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_81(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarBranch X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); SetBranchFilter X5 = gecode_SetBranchFilter_from_term(YAP_ARG5); SetVarValPrint X6 = gecode_SetVarValPrint_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_branch_83(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarBranch X3 = gecode_SetVarBranch_from_term(YAP_ARG3); SetValBranch X4 = gecode_SetValBranch_from_term(YAP_ARG4); Symmetries X5 = gecode_Symmetries_from_term(YAP_ARG5); SetBranchFilter X6 = gecode_SetBranchFilter_from_term(YAP_ARG6); branch(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_352(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntVarArgs X6 = gecode_IntVarArgs_from_term(space,YAP_ARG6); IntVarArgs X7 = gecode_IntVarArgs_from_term(space,YAP_ARG7); BoolVarArgs X8 = gecode_BoolVarArgs_from_term(space,YAP_ARG8); IntPropLevel X9 = gecode_IntPropLevel_from_term(YAP_ARG9); nooverlap(*space,X2,X3,X4,X5,X6,X7,X8,X9); return TRUE; } static YAP_Bool gecode_constraint_argmin_15(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); bool X4 = gecode_bool_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); argmin(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_argmin_17(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); bool X5 = gecode_bool_from_term(YAP_ARG5); argmin(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_cumulative_146(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); cumulative(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_cumulative_158(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); cumulative(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_member_330(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); member(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_member_326(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); member(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_count_121(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_123(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_143(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_145(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_129(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_131(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_125(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_count_127(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); count(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_pow_378(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); pow(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_cumulative_157(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); cumulative(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulative_153(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); cumulative(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulative_169(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); TaskTypeArgs X3 = gecode_TaskTypeArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); cumulative(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_cumulative_165(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); int X2 = gecode_int_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntVarArgs X5 = gecode_IntVarArgs_from_term(space,YAP_ARG5); IntArgs X6 = gecode_IntArgs_from_term(YAP_ARG6); BoolVarArgs X7 = gecode_BoolVarArgs_from_term(space,YAP_ARG7); IntPropLevel X8 = gecode_IntPropLevel_from_term(YAP_ARG8); cumulative(*space,X2,X3,X4,X5,X6,X7,X8); return TRUE; } static YAP_Bool gecode_constraint_branch_45(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntValBranch X3 = gecode_IntValBranch_from_term(YAP_ARG3); branch(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_branch_41(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolValBranch X3 = gecode_BoolValBranch_from_term(YAP_ARG3); branch(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_branch_43(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatValBranch X3 = gecode_FloatValBranch_from_term(YAP_ARG3); branch(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_branch_47(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetValBranch X3 = gecode_SetValBranch_from_term(YAP_ARG3); branch(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_203(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVal X3 = gecode_FloatVal_from_term(YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_205(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatVar X3 = gecode_FloatVar_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_231(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVarArgs X3 = gecode_FloatVarArgs_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_230(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatVal X3 = gecode_FloatVal_from_term(YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_227(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_199(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_236(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_234(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_232(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_206(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_212(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_208(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntSet X3 = gecode_IntSet_from_term(YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_243(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVarArgs X2 = gecode_SetVarArgs_from_term(space,YAP_ARG2); SetVarArgs X3 = gecode_SetVarArgs_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_dom_226(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetVar X3 = gecode_SetVar_from_term(space,YAP_ARG3); dom(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_linear_313(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_314(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_317(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_318(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_293(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVal X4 = gecode_FloatVal_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_295(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_281(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_282(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_285(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_286(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); Reify X5 = gecode_Reify_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_288(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatValArgs X2 = gecode_FloatValArgs_from_term(YAP_ARG2); FloatVarArgs X3 = gecode_FloatVarArgs_from_term(space,YAP_ARG3); FloatRelType X4 = gecode_FloatRelType_from_term(YAP_ARG4); FloatVal X5 = gecode_FloatVal_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_290(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatValArgs X2 = gecode_FloatValArgs_from_term(YAP_ARG2); FloatVarArgs X3 = gecode_FloatVarArgs_from_term(space,YAP_ARG3); FloatRelType X4 = gecode_FloatRelType_from_term(YAP_ARG4); FloatVar X5 = gecode_FloatVar_from_term(space,YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_304(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_308(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_296(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_linear_300(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); IntRelType X4 = gecode_IntRelType_from_term(YAP_ARG4); int X5 = gecode_int_from_term(YAP_ARG5); linear(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_argmin_18(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); bool X5 = gecode_bool_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); argmin(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_346(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); nooverlap(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_nooverlap_347(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntArgs X3 = gecode_IntArgs_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); IntArgs X5 = gecode_IntArgs_from_term(YAP_ARG5); BoolVarArgs X6 = gecode_BoolVarArgs_from_term(space,YAP_ARG6); nooverlap(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_rel_399(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVal X4 = gecode_FloatVal_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_401(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVar X2 = gecode_FloatVar_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_433(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_431(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntArgs X2 = gecode_IntArgs_from_term(YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_429(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVal X4 = gecode_FloatVal_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_430(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); FloatVarArgs X2 = gecode_FloatVarArgs_from_term(space,YAP_ARG2); FloatRelType X3 = gecode_FloatRelType_from_term(YAP_ARG3); FloatVar X4 = gecode_FloatVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_427(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_422(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_423(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVarArgs X4 = gecode_BoolVarArgs_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_419(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_425(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVarArgs X2 = gecode_BoolVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_395(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_391(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_437(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_443(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_436(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntPropLevel X4 = gecode_IntPropLevel_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_441(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVarArgs X4 = gecode_IntVarArgs_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_439(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntArgs X4 = gecode_IntArgs_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_403(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_407(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_411(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); SetVar X4 = gecode_SetVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_413(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); IntRelType X3 = gecode_IntRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_415(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_417(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); SetVar X2 = gecode_SetVar_from_term(space,YAP_ARG2); SetRelType X3 = gecode_SetRelType_from_term(YAP_ARG3); SetVar X4 = gecode_SetVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_385(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); int X4 = gecode_int_from_term(YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_rel_383(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolOpType X2 = gecode_BoolOpType_from_term(YAP_ARG2); BoolVarArgs X3 = gecode_BoolVarArgs_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); rel(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_min_336(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVar X2 = gecode_IntVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntPropLevel X5 = gecode_IntPropLevel_from_term(YAP_ARG5); min(*space,X2,X3,X4,X5); return TRUE; } static YAP_Bool gecode_constraint_count_138(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVarArgs X3 = gecode_IntVarArgs_from_term(space,YAP_ARG3); count(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_count_134(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntSetArgs X3 = gecode_IntSetArgs_from_term(YAP_ARG3); count(*space,X2,X3); return TRUE; } static YAP_Bool gecode_constraint_argmax_8(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); bool X4 = gecode_bool_from_term(YAP_ARG4); argmax(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_argmax_10(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); IntVarArgs X2 = gecode_IntVarArgs_from_term(space,YAP_ARG2); int X3 = gecode_int_from_term(YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); argmax(*space,X2,X3,X4); return TRUE; } static YAP_Bool gecode_constraint_ite_278(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); IntVar X3 = gecode_IntVar_from_term(space,YAP_ARG3); IntVar X4 = gecode_IntVar_from_term(space,YAP_ARG4); IntVar X5 = gecode_IntVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); ite(*space,X2,X3,X4,X5,X6); return TRUE; } static YAP_Bool gecode_constraint_ite_275(void) { GenericSpace* space = gecode_Space_from_term(YAP_ARG1); BoolVar X2 = gecode_BoolVar_from_term(space,YAP_ARG2); BoolVar X3 = gecode_BoolVar_from_term(space,YAP_ARG3); BoolVar X4 = gecode_BoolVar_from_term(space,YAP_ARG4); BoolVar X5 = gecode_BoolVar_from_term(space,YAP_ARG5); IntPropLevel X6 = gecode_IntPropLevel_from_term(YAP_ARG6); ite(*space,X2,X3,X4,X5,X6); return TRUE; }