/* Test BD_Shape::limited_CC76_extrapolation_assign(). Copyright (C) 2001-2010 Roberto Bagnara Copyright (C) 2010-2016 BUGSENG srl (http://bugseng.com) This file is part of the Parma Polyhedra Library (PPL). The PPL is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. The PPL 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 General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1307, USA. For the most up-to-date information see the Parma Polyhedra Library site: http://bugseng.com/products/ppl/ . */ #include "ppl_test.hh" namespace { bool test01() { TBD_Shape bds1(0); TBD_Shape bds2(0); Constraint_System cs; print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); BD_Shape known_result(bds1); bds1.limited_CC76_extrapolation_assign(bds2, cs); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2) ***"); return ok; } bool test02() { Variable A(0); Variable B(1); TBD_Shape bds1(2); bds1.add_constraint(A == -2); TBD_Shape bds2(2); bds2.add_constraint(A == -2); bds2.add_constraint(B == 3); Constraint_System cs; cs.insert(A <= 0); cs.insert(A - B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); BD_Shape known_result(bds1); bds1.limited_CC76_extrapolation_assign(bds2, cs); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test03() { Variable A(0); Variable B(1); TBD_Shape bds1(2); bds1.add_constraint(A <= 4); TBD_Shape bds2(2); bds2.add_constraint(A == -2); Constraint_System cs; cs.insert(A <= 0); cs.insert(A - B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(2); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test04() { Variable A(0); Variable B(1); Variable C(2); TBD_Shape bds1(3); bds1.add_constraint(A <= 4); bds1.add_constraint(B >= 1); TBD_Shape bds2(3); bds2.add_constraint(A <= -2); bds2.add_constraint(B >= 4); Constraint_System cs; cs.insert(A <= 5); cs.insert(A - B + C <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(3); known_result.add_constraint(A <= 5); known_result.add_constraint(B >= 1); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test05() { Variable A(0); Variable B(1); TBD_Shape bds1(2); bds1.add_constraint(A <= 4); bds1.add_constraint(B >= 1); TBD_Shape bds2(2); bds2.add_constraint(A <= -2); bds2.add_constraint(B >= 4); Constraint_System cs; cs.insert(A >= 0); cs.insert(A + B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(2); known_result.add_constraint(B >= 1); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test06() { Variable A(0); Variable B(1); TBD_Shape bds1(2); bds1.add_constraint(A <= 4); bds1.add_constraint(B >= 1); TBD_Shape bds2(2); bds2.add_constraint(A <= -2); bds2.add_constraint(B >= 4); Constraint_System cs; cs.insert(A >= 0); cs.insert(A - B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(2); known_result.add_constraint(B >= 1); known_result.add_constraint(A - B <= 6); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test07() { Variable A(0); Variable B(1); TBD_Shape bds1(2); bds1.add_constraint(A <= 4); bds1.add_constraint(A >= 5); bds1.add_constraint(B >= 1); TBD_Shape bds2(2); bds2.add_constraint(A <= -2); bds2.add_constraint(A >= 3); bds2.add_constraint(B >= 4); Constraint_System cs; cs.insert(A >= 0); cs.insert(A - B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(2, EMPTY); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test08() { Variable A(0); Variable B(1); TBD_Shape bds1(2); bds1.add_constraint(A <= 4); bds1.add_constraint(B >= 1); TBD_Shape bds2(2); bds2.add_constraint(A <= -2); bds2.add_constraint(A >= 3); bds2.add_constraint(B >= 4); Constraint_System cs; cs.insert(A >= 0); cs.insert(A - B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); BD_Shape known_result(bds1); bds1.limited_CC76_extrapolation_assign(bds2, cs); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test09() { Variable A(0); Variable B(1); Variable C(2); Variable D(3); TBD_Shape bds1(4); bds1.add_constraint(A <= 4); bds1.add_constraint(B <= 6); bds1.add_constraint(C - D == 5); TBD_Shape bds2(4); bds2.add_constraint(A <= 4); bds2.add_constraint(C - D == 5); bds2.add_constraint(B <= 5); Constraint_System cs; cs.insert(A == 4); cs.insert(C - D == 5); cs.insert(A - B <= 6); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(4); known_result.add_constraint(A <= 4); known_result.add_constraint(C - D == 5); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs) ***"); return ok; } bool test10() { Variable x(0); Variable y(1); Constraint_System cs1; cs1.insert(x <= 1); cs1.insert(y >= 4); Constraint_System cs2; cs2.insert(x == 0); cs2.insert(y >= 5); TBD_Shape bds1(cs1); TBD_Shape bds2(cs2); Constraint_System cs; cs.insert(x >= 20); cs.insert(y >= 3); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); bds1.limited_CC76_extrapolation_assign(bds2, cs); BD_Shape known_result(2); known_result.add_constraint(x <= 1); known_result.add_constraint(y >= 3); known_result.add_constraint(y - x >= 2); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2) ***"); return ok; } bool test11() { Variable x(0); Variable y(1); TBD_Shape bds1(3, EMPTY); TBD_Shape bds2(3, EMPTY); Constraint_System cs; cs.insert(x <= 1); cs.insert(y >= 4); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs, "*** cs ***"); BD_Shape known_result(bds1); bds1.limited_CC76_extrapolation_assign(bds2, cs); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2) ***"); return ok; } bool test12() { Variable x(0); Variable y(1); Constraint_System cs1; cs1.insert(x <= 1); cs1.insert(y >= 4); cs1.insert(x - y >= 2); TBD_Shape bds1(cs1); TBD_Shape bds2(2, EMPTY); Constraint_System cs2; cs2.insert(x <= 0); cs2.insert(y >= 3); print_constraints(bds1, "*** bds1 ***"); print_constraints(bds2, "*** bds2 ***"); print_constraints(cs2, "*** cs2 ***"); BD_Shape known_result(bds1); bds1.limited_CC76_extrapolation_assign(bds2, cs2); bool ok = check_result(bds1, known_result); print_constraints(bds1, "*** bds1.limited_CC76_extrapolation_assign(bds2, cs2) ***"); return ok; } bool test13() { Variable y(1); TBD_Shape bds1(1); TBD_Shape bds2(2); Constraint_System cs; cs.insert(y <= 9); try { // This is an invalid use of the method // BD_Shape::limited_CC76_extrapolation_assign(bds2, cs): it is // illegal to apply the method to two polyhedra that are not // dimension-compatible. bds2.limited_CC76_extrapolation_assign(bds1, cs); } catch (std::invalid_argument& e) { nout << "std::invalid_argument: " << endl; return true; } catch (...) { } return false; } bool test14() { Variable x(0); Variable y(1); Variable z(2); TBD_Shape bds1(2); bds1.add_constraint(x - y >= 0); bds1.add_constraint(x >= 0); bds1.add_constraint(x <= 2); TBD_Shape bds2(2); bds2.add_constraint(x - y >= 0); bds2.add_constraint(x >= 0); bds2.add_constraint(x <= 5); Constraint_System cs; cs.insert(z <= 5); try { // This is an invalid use of the method // BD_Shape::limited_CC76_extrapolation_assign(bds, cs): it is // illegal to apply the method to a system of constraints that // is not dimension-compatible with the two polyhedra. bds2.limited_CC76_extrapolation_assign(bds1, cs); } catch (std::invalid_argument& e) { nout << "std::invalid_argument: " << endl; return true; } catch (...) { } return false; } bool test15() { Variable x(0); Variable y(1); TBD_Shape bds1(2); bds1.add_constraint(x - y >= 0); bds1.add_constraint(x >= 0); bds1.add_constraint(x <= 2); TBD_Shape bds2(2); bds2.add_constraint(x - y >= 0); bds2.add_constraint(x >= 0); bds2.add_constraint(x <= 5); Constraint_System cs; cs.insert(x < 5); try { // This is an invalid use of the method // BD_Shape::limited_CC76_extrapolation_assign(bds, cs): it is // illegal to apply the method to a system of constraints that // in which there is a strict inequality. bds2.limited_CC76_extrapolation_assign(bds1, cs); } catch (std::invalid_argument& e) { nout << "std::invalid_argument: " << endl; return true; } catch (...) { } return false; } } // namespace BEGIN_MAIN DO_TEST(test01); DO_TEST(test02); DO_TEST(test03); DO_TEST(test04); DO_TEST(test05); DO_TEST(test06); DO_TEST(test07); DO_TEST(test08); DO_TEST(test09); DO_TEST(test10); DO_TEST(test11); DO_TEST(test12); DO_TEST(test13); DO_TEST(test14); DO_TEST(test15); END_MAIN