/*-----------------------------------------------------------------------------+ Copyright (c) 2008-2010: Joachim Faulhaber +------------------------------------------------------------------------------+ Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENCE.txt or copy at http://www.boost.org/LICENSE_1_0.txt) +-----------------------------------------------------------------------------*/ #ifndef LIBS_ICL_TEST_TEST_QUANTIFIER_MAP_SHARED_HPP_JOFA_090119 #define LIBS_ICL_TEST_TEST_QUANTIFIER_MAP_SHARED_HPP_JOFA_090119 //------------------------------------------------------------------------------ // Monoid EAN //------------------------------------------------------------------------------ template void itv_quantifier_check_monoid_plus_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_MONOID_INSTANCE_WRT(plus) (map_a, map_b, map_c, val_pair, map_pair); CHECK_MONOID_INSTANCE_WRT(pipe) (map_a, map_b, map_c, val_pair, map_pair); } template void itv_quantifier_check_monoid_et_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_MONOID_INSTANCE_WRT(et) (map_a, map_b, map_c, val_pair, map_pair); CHECK_MONOID_INSTANCE_WRT(caret)(map_a, map_b, map_c, val_pair, map_pair); } //------------------------------------------------------------------------------ // Abelian monoid EANC //------------------------------------------------------------------------------ template void itv_quantifier_check_abelian_monoid_plus_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_ABELIAN_MONOID_INSTANCE_WRT(plus) (map_a, map_b, map_c, val_pair, map_pair); CHECK_ABELIAN_MONOID_INSTANCE_WRT(pipe) (map_a, map_b, map_c, val_pair, map_pair); } template void itv_quantifier_check_abelian_monoid_et_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_ABELIAN_MONOID_INSTANCE_WRT(et) (map_a, map_b, map_c, val_pair, map_pair); CHECK_ABELIAN_MONOID_INSTANCE_WRT(caret)(map_a, map_b, map_c, val_pair, map_pair); } //------------------------------------------------------------------------------ // Abelian partial invertive monoid //------------------------------------------------------------------------------ template void itv_quantifier_check_partial_invertive_monoid_plus_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_PARTIAL_INVERTIVE_MONOID_INSTANCE_WRT(plus) (map_a, map_b, map_c, val_pair, map_pair); CHECK_PARTIAL_INVERTIVE_MONOID_INSTANCE_WRT(pipe) (map_a, map_b, map_c, val_pair, map_pair); } //------------------------------------------------------------------------------ // Abelian partial invertive monoid with distinct equality for inversion //------------------------------------------------------------------------------ template void itv_quantifier_check_partial_invertive_monoid_plus_prot_inv_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_ABELIAN_MONOID_INSTANCE_WRT(plus)(map_a, map_b, map_c, val_pair, map_pair); CHECK_ABELIAN_MONOID_INSTANCE_WRT(pipe)(map_a, map_b, map_c, val_pair, map_pair); #if !defined(_MSC_VER) || (_MSC_VER >= 1400) // 1310==MSVC-7.1 1400 ==MSVC-8.0 CHECK_PARTIAL_INVERTIVE_MONOID_INSTANCE_WRT_EQUAL(plus)(is_distinct_equal, map_a, map_b, map_c, val_pair, map_pair); CHECK_PARTIAL_INVERTIVE_MONOID_INSTANCE_WRT_EQUAL(pipe)(is_distinct_equal, map_a, map_b, map_c, val_pair, map_pair); #endif } //------------------------------------------------------------------------------ // Abelian group EANIC //------------------------------------------------------------------------------ template void itv_quantifier_check_abelian_group_plus_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_ABELIAN_GROUP_INSTANCE_WRT(plus) (map_a, map_b, map_c, val_pair, map_pair); CHECK_ABELIAN_GROUP_INSTANCE_WRT(pipe) (map_a, map_b, map_c, val_pair, map_pair); } //------------------------------------------------------------------------------ // (0 - x) + x =d= 0 | //------------------------------------------------------------------------------ template void itv_quantifier_check_abelian_group_plus_prot_inv_4_bicremental_types() { typedef IntervalMap IntervalMapT; IntervalMapT map_a, map_b, map_c; map_a.add(IDv(3,6,1)).add(IIv(5,7,1)); map_b.add(CDv(1,3,1)).add(IDv(8,9,1)); map_c.add(IDv(0,9,2)).add(IIv(3,6,1)).add(IDv(5,7,1)); typename IntervalMapT::interval_mapping_type val_pair = IDv(6,9,1); mapping_pair map_pair = K_v(5,1); CHECK_ABELIAN_MONOID_INSTANCE_WRT(plus) (map_a, map_b, map_c, val_pair, map_pair); CHECK_ABELIAN_MONOID_INSTANCE_WRT(pipe) (map_a, map_b, map_c, val_pair, map_pair); #if !defined(_MSC_VER) || (_MSC_VER >= 1400) // 1310==MSVC-7.1 1400 ==MSVC-8.0 CHECK_ABELIAN_GROUP_INSTANCE_WRT_EQUAL(plus) (is_distinct_equal, map_a, map_b, map_c, val_pair, map_pair); CHECK_ABELIAN_GROUP_INSTANCE_WRT_EQUAL(pipe) (is_distinct_equal, map_a, map_b, map_c, val_pair, map_pair); #endif } #endif // LIBS_ICL_TEST_TEST_QUANTIFIER_MAP_SHARED_HPP_JOFA_090119