/* -*- mode: C++; c-basic-offset: 2; indent-tabs-mode: nil -*- */ /* * Main authors: * Christian Schulte * Guido Tack * * Copyright: * Christian Schulte, 2004 * Guido Tack, 2006 * * Last modified: * $Date: 2008-02-06 18:48:22 +0100 (Wed, 06 Feb 2008) $ by $Author: schulte $ * $Revision: 6102 $ * * This file is part of Gecode, the generic constraint * development environment: * http://www.gecode.org * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * */ #include namespace Gecode { namespace Int { namespace Arithmetic { template class Eq> ExecStatus prop_bnd(Space* home, Propagator* p, View x0, View x1) { if (x0.assigned()) { GECODE_ME_CHECK(x1.eq(home,(x0.val() < 0) ? -x0.val() : x0.val())); return ES_SUBSUMED(p,sizeof(*p)); } if (x1.assigned()) { if (x0.min() >= 0) { GECODE_ME_CHECK(x0.eq(home,x1.val())); return ES_SUBSUMED(p,sizeof(*p)); } else if (x0.max() <= 0) { GECODE_ME_CHECK(x0.eq(home,-x1.val())); return ES_SUBSUMED(p,sizeof(*p)); } else if (x1.val() == 0) { GECODE_ME_CHECK(x0.eq(home,0)); return ES_SUBSUMED(p,sizeof(*p)); } else { int mp[2] = {-x1.val(),x1.val()}; Iter::Values::Array i(mp,2); GECODE_ME_CHECK(x0.inter_v(home,i,false)); return ES_SUBSUMED(p,home); } } if (x0.min() >= 0) GECODE_REWRITE(p,(Eq::post(home,x0,x1))); if (x0.max() <= 0) GECODE_REWRITE(p,(Eq::post(home,x0,x1))); GECODE_ME_CHECK(x1.lq(home,std::max(x0.max(),-x0.min()))); GECODE_ME_CHECK(x0.lq(home,x1.max())); GECODE_ME_CHECK(x0.gq(home,-x1.max())); return ES_NOFIX; } template forceinline AbsBnd::AbsBnd(Space* home, View x0, View x1) : BinaryPropagator(home,x0,x1) {} template ExecStatus AbsBnd::post(Space* home, View x0, View x1) { if (x0.min() >= 0) { return Rel::EqBnd::post(home,x0,x1); } else if (x0.max() <= 0) { return Rel::EqBnd::post(home,x0,x1); } else { assert(!x0.assigned()); GECODE_ME_CHECK(x1.gq(home,0)); if (x1.assigned()) { int mp[2] = {-x1.val(),x1.val()}; Iter::Values::Array i(mp,2); GECODE_ME_CHECK(x0.inter_v(home,i,false)); } else if (!same(x0,x1)) { (void) new (home) AbsBnd(home,x0,x1); } } return ES_OK; } template forceinline void AbsBnd::post(Space* home, Reflection::VarMap& vars, const Reflection::ActorSpec& spec) { spec.checkArity(2); View x0(home, vars, spec[0]); View x1(home, vars, spec[1]); (void) new (home) AbsBnd(home,x0,x1); } template forceinline AbsBnd::AbsBnd(Space* home, bool share, AbsBnd& p) : BinaryPropagator(home,share,p) {} template Actor* AbsBnd::copy(Space* home,bool share) { return new (home) AbsBnd(home,share,*this); } template PropCost AbsBnd::cost(ModEventDelta med) const { if (View::me(med) == ME_INT_VAL) return PC_UNARY_LO; return PC_BINARY_LO; } template ExecStatus AbsBnd::propagate(Space* home, ModEventDelta) { return prop_bnd(home, this, x0, x1); } template Support::Symbol AbsBnd::ati(void) { return Reflection::mangle("Gecode::Int::Arithmetic::AbsBnd"); } template Reflection::ActorSpec AbsBnd::spec(const Space* home, Reflection::VarMap& m) const { return BinaryPropagator::spec(home, m, ati()); } template forceinline AbsDom::AbsDom(Space* home, View x0, View x1) : BinaryPropagator(home,x0,x1) {} template ExecStatus AbsDom::post(Space* home, View x0, View x1) { if (x0.min() >= 0) { return Rel::EqDom::post(home,x0,x1); } else if (x0.max() <= 0) { return Rel::EqDom::post(home,x0,x1); } else { assert(!x0.assigned()); GECODE_ME_CHECK(x1.gq(home,0)); if (x1.assigned()) { int mp[2] = {-x1.val(),x1.val()}; Iter::Values::Array i(mp,2); GECODE_ME_CHECK(x0.inter_v(home,i,false)); } else if (!same(x0,x1)) { (void) new (home) AbsDom(home,x0,x1); } } return ES_OK; } template forceinline void AbsDom::post(Space* home, Reflection::VarMap& vars, const Reflection::ActorSpec& spec) { spec.checkArity(2); View x0(home, vars, spec[0]); View x1(home, vars, spec[1]); (void) new (home) AbsDom(home,x0,x1); } template forceinline AbsDom::AbsDom(Space* home, bool share, AbsDom& p) : BinaryPropagator(home,share,p) {} template Actor* AbsDom::copy(Space* home,bool share) { return new (home) AbsDom(home,share,*this); } template PropCost AbsDom::cost(ModEventDelta med) const { if (View::me(med) == ME_INT_VAL) return PC_UNARY_LO; if (View::me(med) == ME_INT_DOM) return PC_BINARY_HI; return PC_BINARY_LO; } template ExecStatus AbsDom::propagate(Space* home, ModEventDelta med) { if (View::me(med) != ME_INT_DOM) { GECODE_ES_CHECK((prop_bnd(home, this, x0, x1))); return ES_NOFIX_PARTIAL(this,View::med(ME_INT_DOM)); } Iter::Ranges::Singleton positive(0, Limits::max); Iter::Ranges::Singleton negative(Limits::min, 0); IntVarRanges xr1(x0); IntVarRanges xr2(x0); Iter::Ranges::Inter posInter(positive, xr1); Iter::Ranges::Inter negInter(negative, xr2); Iter::Ranges::Minus > mneg(negInter); Iter::Ranges::Union, Iter::Ranges::Minus > > u(posInter, mneg); GECODE_ME_CHECK(x1.inter_r(home, u)); IntVarRanges x1r1(x1); IntVarRanges x1r2(x1); Iter::Ranges::Minus x1m(x1r2); Iter::Ranges::Union > u2(x1r1,x1m); GECODE_ME_CHECK(x0.inter_r(home, u2)); if (x1.assigned()) return ES_SUBSUMED(this,home); if (x0.min() >= 0) GECODE_REWRITE(this,(Rel::EqDom::post(home,x0,x1))); if (x0.max() <= 0) { MinusView mx0(x0); GECODE_REWRITE(this,(Rel::EqDom::post(home,mx0,x1))); } return ES_FIX; } template Support::Symbol AbsDom::ati(void) { return Reflection::mangle("Gecode::Int::Arithmetic::AbsDom"); } template Reflection::ActorSpec AbsDom::spec(const Space* home, Reflection::VarMap& m) const { return BinaryPropagator::spec(home, m, ati()); } }}} // STATISTICS: int-prop