/*-----------------------------------------------------------------------------+ 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 BOOST_LIBS_ICL_TEST_ICL_LAWS_HPP_JOFA_090119 #define BOOST_LIBS_ICL_TEST_ICL_LAWS_HPP_JOFA_090119 #include #include namespace boost{namespace icl { template struct equality { typedef Type first_argument_type; typedef Type second_argument_type; typedef bool result_type; typedef bool (type)(const Type&, const Type&); }; //------------------------------------------------------------------------------ // Associativity //------------------------------------------------------------------------------ // The definition of a boost test via a macro, that allows to be instantiated for // different operator signs 'op_sign'. For every 'op_sign' a separate function // template is generated by appending the suffic 'op_tag' to the function // name. // So this is the function template via macro that checks the law // associativity for an operator 'op_sign' #define DEFINE_ASSOCIATIVITY_CHECK_WRT(op_tag, op_sign) \ template \ void check_associativity_wrt_##op_tag(const Type& a, const TypeB& b, const TypeC& c) \ { \ Type left = (a op_sign b) op_sign c; \ Type right = a op_sign (b op_sign c); \ BOOST_CHECK(left==right); \ } #define DEFINE_ASSOCIATIVITY_CHECK_WRT_EQUAL(op_tag, op_sign) \ template \ void check_associativity_wrt_equal_##op_tag \ (typename equality::type* equal, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ Type left = (a op_sign b) op_sign c; \ Type right = a op_sign (b op_sign c); \ BOOST_CHECK((*equal)(left,right)); \ } // Here we define the call of the test function thats definition // template has been generated by the macro above. #define CHECK_ASSOCIATIVITY_WRT(op_tag) check_associativity_wrt_##op_tag #define CHECK_ASSOCIATIVITY_WRT_EQUAL(op_tag) check_associativity_wrt_equal_##op_tag // Here we actually generate function templates by calling the defining // macros. DEFINE_ASSOCIATIVITY_CHECK_WRT (plus, + ) DEFINE_ASSOCIATIVITY_CHECK_WRT_EQUAL(plus, + ) DEFINE_ASSOCIATIVITY_CHECK_WRT (pipe, | ) DEFINE_ASSOCIATIVITY_CHECK_WRT_EQUAL(pipe, | ) DEFINE_ASSOCIATIVITY_CHECK_WRT (et, & ) DEFINE_ASSOCIATIVITY_CHECK_WRT_EQUAL(et, & ) DEFINE_ASSOCIATIVITY_CHECK_WRT (caret, ^ ) DEFINE_ASSOCIATIVITY_CHECK_WRT_EQUAL(caret, ^ ) //------------------------------------------------------------------------------ // Neutrality //------------------------------------------------------------------------------ #define DEFINE_RIGHT_NEUTRALITY_CHECK_WRT_EQUAL(op_tag, op_sign) \ template \ void check_right_neutrality_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& a, const Type& identity_element) \ { \ Type left = a op_sign identity_element; \ Type right = identity_element; \ BOOST_CHECK((*equal)(left,right)); \ } #define DEFINE_RIGHT_NEUTRALITY_CHECK_WRT(op_tag, op_sign) \ template \ void check_right_neutrality_wrt_##op_tag \ (typename equality::type* equal, const Type& a, const Type& identity_element) \ { \ Type left = a op_sign identity_element; \ Type right = identity_element; \ BOOST_CHECK(left==right); \ } #define DEFINE_NEUTRALITY_CHECK_WRT_EQUAL(op_tag, op_sign) \ template \ void check_neutrality_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& a, const Type& identity_element) \ { \ Type left = a op_sign identity_element; \ Type right = identity_element op_sign a; \ BOOST_CHECK((*equal)(left,right)); \ } #define DEFINE_NEUTRALITY_CHECK_WRT(op_tag, op_sign) \ template \ void check_neutrality_wrt_##op_tag \ (const Type& a, const Type& identity_element) \ { \ Type left = a op_sign identity_element; \ Type right = identity_element op_sign a; \ BOOST_CHECK(left==right); \ } #define CHECK_NEUTRALITY_WRT(op_tag) check_neutrality_wrt_##op_tag #define CHECK_NEUTRALITY_WRT_EQUAL(op_tag) check_neutrality_wrt_equal_##op_tag DEFINE_NEUTRALITY_CHECK_WRT (plus, + ) DEFINE_NEUTRALITY_CHECK_WRT_EQUAL(plus, + ) DEFINE_NEUTRALITY_CHECK_WRT (pipe, | ) DEFINE_NEUTRALITY_CHECK_WRT_EQUAL(pipe, | ) DEFINE_NEUTRALITY_CHECK_WRT (minus, - ) DEFINE_NEUTRALITY_CHECK_WRT_EQUAL(minus, - ) DEFINE_NEUTRALITY_CHECK_WRT (et, & ) DEFINE_NEUTRALITY_CHECK_WRT_EQUAL(et, & ) DEFINE_NEUTRALITY_CHECK_WRT (caret, ^ ) DEFINE_NEUTRALITY_CHECK_WRT_EQUAL(caret, ^ ) //------------------------------------------------------------------------------ // Commutativity //------------------------------------------------------------------------------ #define DEFINE_COMMUTATIVITY_CHECK_WRT_EQUAL(op_tag, op_sign) \ template \ void check_commutativity_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& a, const TypeB& b) \ { \ Type left = a op_sign b; \ Type right = b op_sign a; \ BOOST_CHECK((*equal)(left,right)); \ } #define DEFINE_COMMUTATIVITY_CHECK_WRT(op_tag, op_sign) \ template \ void check_commutativity_wrt_##op_tag(const Type& a, const TypeB& b) \ { \ Type left = a op_sign b; \ Type right = b op_sign a; \ BOOST_CHECK(left==right); \ } #define CHECK_COMMUTATIVITY_WRT_EQUAL(op_tag) check_commutativity_wrt_equal_##op_tag #define CHECK_COMMUTATIVITY_WRT(op_tag) check_commutativity_wrt_##op_tag DEFINE_COMMUTATIVITY_CHECK_WRT (plus, + ) DEFINE_COMMUTATIVITY_CHECK_WRT_EQUAL(plus, + ) DEFINE_COMMUTATIVITY_CHECK_WRT (pipe, | ) DEFINE_COMMUTATIVITY_CHECK_WRT_EQUAL(pipe, | ) DEFINE_COMMUTATIVITY_CHECK_WRT (et, & ) DEFINE_COMMUTATIVITY_CHECK_WRT_EQUAL(et, & ) DEFINE_COMMUTATIVITY_CHECK_WRT (caret, ^ ) DEFINE_COMMUTATIVITY_CHECK_WRT_EQUAL(caret, ^ ) //------------------------------------------------------------------------------ // Natural inversion //------------------------------------------------------------------------------ #define DEFINE_PARTIAL_INVERSION_CHECK_WRT_EQUAL(plus_tag, plus_sign) \ template \ void check_partial_inversion_wrt_equal_##plus_tag \ (typename equality::type* equal, const Type& identity_element, const Type& var_a) \ { \ Type positive_difference = var_a - var_a; \ BOOST_CHECK((*equal)(positive_difference, identity_element)); \ } #define DEFINE_PARTIAL_INVERSION_CHECK_WRT(plus_tag, plus_sign) \ template \ void check_partial_inversion_wrt_##plus_tag \ (const Type& identity_element, const Type& var_a) \ { \ Type positive_difference = var_a - var_a; \ BOOST_CHECK(positive_difference==identity_element); \ } #define CHECK_PARTIAL_INVERSION_WRT_EQUAL(plus_tag) check_partial_inversion_wrt_equal_##plus_tag #define CHECK_PARTIAL_INVERSION_WRT(plus_tag) check_partial_inversion_wrt_##plus_tag DEFINE_PARTIAL_INVERSION_CHECK_WRT (plus, + ) DEFINE_PARTIAL_INVERSION_CHECK_WRT_EQUAL(plus, + ) DEFINE_PARTIAL_INVERSION_CHECK_WRT (pipe, | ) DEFINE_PARTIAL_INVERSION_CHECK_WRT_EQUAL(pipe, | ) //------------------------------------------------------------------------------ // Inverse //------------------------------------------------------------------------------ #define DEFINE_INVERSE_CHECK_WRT_EQUAL(plus_tag, plus_sign) \ template \ void check_inverse_wrt_equal_##plus_tag \ (typename equality::type* equal, const Type& identity_element, const Type& var_a) \ { \ Type positive_difference = var_a - var_a; \ BOOST_CHECK((*equal)(positive_difference, identity_element)); \ Type negative_difference = (identity_element - var_a) plus_sign var_a; \ BOOST_CHECK((*equal)(negative_difference, identity_element)); \ } #define DEFINE_INVERSE_CHECK_WRT(plus_tag, plus_sign) \ template \ void check_inverse_wrt_##plus_tag \ (const Type& identity_element, const Type& var_a) \ { \ Type positive_difference = var_a - var_a; \ BOOST_CHECK(positive_difference==identity_element); \ Type negative_difference = (identity_element - var_a) plus_sign var_a; \ BOOST_CHECK(negative_difference==identity_element); \ } #define CHECK_INVERSE_WRT_EQUAL(plus_tag) check_inverse_wrt_equal_##plus_tag #define CHECK_INVERSE_WRT(plus_tag) check_inverse_wrt_##plus_tag DEFINE_INVERSE_CHECK_WRT (plus, + ) DEFINE_INVERSE_CHECK_WRT_EQUAL(plus, + ) DEFINE_INVERSE_CHECK_WRT (pipe, | ) DEFINE_INVERSE_CHECK_WRT_EQUAL(pipe, | ) //------------------------------------------------------------------------------ // Containedness laws (Valid for sets, NOT for maps) //------------------------------------------------------------------------------ template void check_intersection_containedness(const Type& a, const TypeB& b) { BOOST_CHECK_EQUAL(contains(a, a & b), true); BOOST_CHECK_EQUAL(contains(a, b & a), true); BOOST_CHECK_EQUAL(within(a & b, a), true); BOOST_CHECK_EQUAL(within(b & a, a), true); } template void check_union_containedness(const Type& a, const TypeB& b) { BOOST_CHECK_EQUAL(within(a, a + b), true); BOOST_CHECK_EQUAL(within(a, b + a), true); BOOST_CHECK_EQUAL(contains(a + b, a), true); BOOST_CHECK_EQUAL(contains(b + a, a), true); } template void check_domain_containedness(const MapT& a) { typedef typename MapT::set_type set_type; set_type dom; domain(dom, a); BOOST_CHECK_EQUAL(within(dom, a), true); BOOST_CHECK_EQUAL(contains(a, dom), true); if(!dom.empty()) { typename MapT::domain_type a1 = *dom.begin(); BOOST_CHECK_EQUAL(within(a1, a), true); BOOST_CHECK_EQUAL(contains(a, a1), true); } } //------------------------------------------------------------------------------ // Laws on inner complement, between and distance //------------------------------------------------------------------------------ template bool check_length_as_distance( const Type& object , SetT& in_between , typename Type::difference_type& between_len , typename Type::difference_type& obj_dist ) { //LAW LengthAsDistance: distance(x) == length(between(x)) icl::between(in_between, object); between_len = icl::length(in_between); obj_dist = icl::distance(object); BOOST_CHECK_EQUAL(obj_dist, between_len); return obj_dist == between_len; } template bool has_length_as_distance(const Type& object) { typedef typename Type::difference_type DiffT; SetT in_between; DiffT between_len, obj_dist; return check_length_as_distance(object, in_between, between_len, obj_dist); } template bool check_length_complementarity( const Type& object , typename Type::difference_type& obj_len , typename Type::difference_type& obj_dist , typename Type::difference_type& hull_len ) { //LAW Length Complementarity: length(x) + distance(x) == length(hull(x)) obj_len = icl::length(object); obj_dist = icl::distance(object); hull_len = icl::length(hull(object)); BOOST_CHECK_EQUAL(obj_len + obj_dist, hull_len); return obj_len + obj_dist == hull_len; } template bool has_length_complementarity(const Type& object) { typedef typename Type::difference_type DiffT; DiffT obj_len, obj_dist, hull_len; return check_length_complementarity(object, obj_len, obj_dist, hull_len); } template bool check_inner_complementarity(const Type& object, SetT& in_between, SetT& lhs, SetT& rhs) { //LAW Inner Complementarity1: domain(x) + between(x) =e= hull(x) //LAW Inner Complementarity2: join(domain(x) + between(x)) == hull(x) SetT dom; icl::domain(dom, object); lhs = dom + between(in_between, object); join(lhs); rhs = SetT(hull(object)); BOOST_CHECK_EQUAL(lhs, rhs); return lhs == rhs; } template bool has_inner_complementarity(const Type& object) { SetT in_between, lhs, rhs; return check_inner_complementarity(object, in_between, lhs, rhs); } //============================================================================== // Law tests are now combined to test algebraic concepts. //------------------------------------------------------------------------------ // Monodid EAN //------------------------------------------------------------------------------ #define DEFINE_MONOID_CHECK_WRT_EQUAL(op_tag) \ template \ void check_monoid_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ASSOCIATIVITY_WRT_EQUAL(op_tag)(equal,a,b,c); \ CHECK_NEUTRALITY_WRT_EQUAL(op_tag)(equal,a,identity_element); \ } #define DEFINE_MONOID_CHECK_WRT(op_tag) \ template \ void check_monoid_wrt_##op_tag \ (const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ASSOCIATIVITY_WRT(op_tag)(a,b,c); \ CHECK_NEUTRALITY_WRT(op_tag)(a,identity_element); \ } DEFINE_MONOID_CHECK_WRT (plus) DEFINE_MONOID_CHECK_WRT_EQUAL(plus) DEFINE_MONOID_CHECK_WRT (pipe) DEFINE_MONOID_CHECK_WRT_EQUAL(pipe) DEFINE_MONOID_CHECK_WRT (et) DEFINE_MONOID_CHECK_WRT_EQUAL(et) DEFINE_MONOID_CHECK_WRT (caret) DEFINE_MONOID_CHECK_WRT_EQUAL(caret) #define CHECK_MONOID_WRT(op_tag) check_monoid_wrt_##op_tag #define CHECK_MONOID_WRT_EQUAL(op_tag) check_monoid_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Commutative or Abelian monodid EANC //------------------------------------------------------------------------------ #define DEFINE_ABELIAN_MONOID_CHECK_WRT_EQUAL(op_tag) \ template \ void check_abelian_monoid_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ASSOCIATIVITY_WRT_EQUAL(op_tag)(equal,a,b,c); \ CHECK_NEUTRALITY_WRT_EQUAL(op_tag)(equal,a,identity_element); \ CHECK_COMMUTATIVITY_WRT_EQUAL(op_tag)(equal,a,b); \ CHECK_COMMUTATIVITY_WRT_EQUAL(op_tag)(equal,a,c); \ } #define DEFINE_ABELIAN_MONOID_CHECK_WRT(op_tag) \ template \ void check_abelian_monoid_wrt_##op_tag \ (const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ASSOCIATIVITY_WRT(op_tag)(a,b,c); \ CHECK_NEUTRALITY_WRT(op_tag)(a,identity_element); \ CHECK_COMMUTATIVITY_WRT(op_tag)(a,b); \ CHECK_COMMUTATIVITY_WRT(op_tag)(a,c); \ } DEFINE_ABELIAN_MONOID_CHECK_WRT (plus) DEFINE_ABELIAN_MONOID_CHECK_WRT_EQUAL(plus) DEFINE_ABELIAN_MONOID_CHECK_WRT (pipe) DEFINE_ABELIAN_MONOID_CHECK_WRT_EQUAL(pipe) DEFINE_ABELIAN_MONOID_CHECK_WRT (et) DEFINE_ABELIAN_MONOID_CHECK_WRT_EQUAL(et) DEFINE_ABELIAN_MONOID_CHECK_WRT (caret) DEFINE_ABELIAN_MONOID_CHECK_WRT_EQUAL(caret) #define CHECK_ABELIAN_MONOID_WRT(op_tag) check_abelian_monoid_wrt_##op_tag #define CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag) check_abelian_monoid_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian monodid EANC with partial inversion //------------------------------------------------------------------------------ #define DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT_EQUAL(op_tag) \ template \ void check_partial_invertive_monoid_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag)(equal,identity_element,a,b,c); \ CHECK_PARTIAL_INVERSION_WRT_EQUAL(op_tag)(equal,identity_element,a); \ } #define DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT(op_tag) \ template \ void check_partial_invertive_monoid_wrt_##op_tag \ (const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ABELIAN_MONOID_WRT(op_tag)(identity_element,a,b,c); \ CHECK_PARTIAL_INVERSION_WRT(op_tag)(identity_element,a); \ } DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT (plus) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT_EQUAL(plus) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT (pipe) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT_EQUAL(pipe) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT (et) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT_EQUAL(et) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT (caret) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_WRT_EQUAL(caret) #define CHECK_PARTIAL_INVERTIVE_MONOID_WRT(op_tag) check_partial_invertive_monoid_wrt_##op_tag #define CHECK_PARTIAL_INVERTIVE_MONOID_WRT_EQUAL(op_tag) check_partial_invertive_monoid_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian group EANIC //------------------------------------------------------------------------------ #define DEFINE_ABELIAN_GROUP_CHECK_WRT_EQUAL(op_tag) \ template \ void check_abelian_group_wrt_equal_##op_tag \ (typename equality::type* equal, const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag)(equal,identity_element,a,b,c); \ CHECK_INVERSE_WRT_EQUAL(op_tag)(equal,identity_element,a); \ } #define DEFINE_ABELIAN_GROUP_CHECK_WRT(op_tag) \ template \ void check_abelian_group_wrt_##op_tag \ (const Type& identity_element, \ const Type& a, const TypeB& b, const TypeC& c) \ { \ CHECK_ABELIAN_MONOID_WRT(op_tag)(identity_element,a,b,c); \ CHECK_INVERSE_WRT(op_tag)(identity_element,a); \ } DEFINE_ABELIAN_GROUP_CHECK_WRT (plus) DEFINE_ABELIAN_GROUP_CHECK_WRT_EQUAL(plus) DEFINE_ABELIAN_GROUP_CHECK_WRT (pipe) DEFINE_ABELIAN_GROUP_CHECK_WRT_EQUAL(pipe) #define CHECK_ABELIAN_GROUP_WRT(op_tag) check_abelian_group_wrt_##op_tag #define CHECK_ABELIAN_GROUP_WRT_EQUAL(op_tag) check_abelian_group_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Modoid permuted //------------------------------------------------------------------------------ #define DEFINE_MONOID_CHECK_PERMUTED_WRT_EQUAL(op_tag) \ template \ void check_monoid_permuted_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, assoc, var_a);\ } #define DEFINE_MONOID_CHECK_PERMUTED_WRT(op_tag) \ template \ void check_monoid_permuted_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_MONOID_WRT(op_tag)(icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_MONOID_WRT(op_tag)(icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_MONOID_WRT(op_tag)(icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_MONOID_WRT(op_tag)(icl::identity_element::value(), var_b, assoc, var_a);\ } DEFINE_MONOID_CHECK_PERMUTED_WRT (plus) DEFINE_MONOID_CHECK_PERMUTED_WRT_EQUAL(plus) DEFINE_MONOID_CHECK_PERMUTED_WRT (pipe) DEFINE_MONOID_CHECK_PERMUTED_WRT_EQUAL(pipe) DEFINE_MONOID_CHECK_PERMUTED_WRT (et) DEFINE_MONOID_CHECK_PERMUTED_WRT_EQUAL(et) DEFINE_MONOID_CHECK_PERMUTED_WRT (caret) DEFINE_MONOID_CHECK_PERMUTED_WRT_EQUAL(caret) #define CHECK_MONOID_PERMUTED_WRT(op_tag) check_monoid_permuted_wrt_##op_tag #define CHECK_MONOID_PERMUTED_WRT_EQUAL(op_tag) check_monoid_permuted_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian modoid permuted //------------------------------------------------------------------------------ #define DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT_EQUAL(op_tag) \ template \ void check_abelian_monoid_permuted_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_ABELIAN_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, assoc, var_a);\ } #define DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT(op_tag) \ template \ void check_abelian_monoid_permuted_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_ABELIAN_MONOID_WRT(op_tag)(icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_ABELIAN_MONOID_WRT(op_tag)(icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_ABELIAN_MONOID_WRT(op_tag)(icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_ABELIAN_MONOID_WRT(op_tag)(icl::identity_element::value(), var_b, assoc, var_a);\ } DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT (plus) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT_EQUAL(plus) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT (pipe) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT_EQUAL(pipe) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT (et) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT_EQUAL(et) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT (caret) DEFINE_ABELIAN_MONOID_CHECK_PERMUTED_WRT_EQUAL(caret) #define CHECK_ABELIAN_MONOID_PERMUTED_WRT(op_tag) check_abelian_monoid_permuted_wrt_##op_tag #define CHECK_ABELIAN_MONOID_PERMUTED_WRT_EQUAL(op_tag) check_abelian_monoid_permuted_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian modoid with partial inversion permuted //------------------------------------------------------------------------------ #define DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT_EQUAL(op_tag) \ template \ void check_partial_invertive_monoid_permuted_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_PARTIAL_INVERTIVE_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_PARTIAL_INVERTIVE_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_PARTIAL_INVERTIVE_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_PARTIAL_INVERTIVE_MONOID_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, assoc, var_a);\ } #define DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT(op_tag) \ template \ void check_partial_invertive_monoid_permuted_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_PARTIAL_INVERTIVE_MONOID_WRT(op_tag)(icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_PARTIAL_INVERTIVE_MONOID_WRT(op_tag)(icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_PARTIAL_INVERTIVE_MONOID_WRT(op_tag)(icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_PARTIAL_INVERTIVE_MONOID_WRT(op_tag)(icl::identity_element::value(), var_b, assoc, var_a);\ } DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT (plus) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT_EQUAL(plus) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT (pipe) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT_EQUAL(pipe) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT (et) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT_EQUAL(et) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT (caret) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_PERMUTED_WRT_EQUAL(caret) #define CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT(op_tag) check_partial_invertive_monoid_permuted_wrt_##op_tag #define CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT_EQUAL(op_tag) check_partial_invertive_monoid_permuted_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian group permuted //------------------------------------------------------------------------------ #define DEFINE_ABELIAN_GROUP_CHECK_PERMUTED_WRT_EQUAL(op_tag) \ template \ void check_abelian_group_permuted_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_ABELIAN_GROUP_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_ABELIAN_GROUP_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_ABELIAN_GROUP_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_ABELIAN_GROUP_WRT_EQUAL(op_tag)(equal, icl::identity_element::value(), var_b, assoc, var_a);\ } #define DEFINE_ABELIAN_GROUP_CHECK_PERMUTED_WRT(op_tag) \ template \ void check_abelian_group_permuted_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const Assoc& assoc) \ { \ CHECK_ABELIAN_GROUP_WRT(op_tag)(icl::identity_element::value(), var_a, var_b, assoc);\ CHECK_ABELIAN_GROUP_WRT(op_tag)(icl::identity_element::value(), var_a, assoc, var_b);\ CHECK_ABELIAN_GROUP_WRT(op_tag)(icl::identity_element::value(), var_b, var_a, assoc);\ CHECK_ABELIAN_GROUP_WRT(op_tag)(icl::identity_element::value(), var_b, assoc, var_a);\ } DEFINE_ABELIAN_GROUP_CHECK_PERMUTED_WRT (plus) DEFINE_ABELIAN_GROUP_CHECK_PERMUTED_WRT_EQUAL(plus) DEFINE_ABELIAN_GROUP_CHECK_PERMUTED_WRT (pipe) DEFINE_ABELIAN_GROUP_CHECK_PERMUTED_WRT_EQUAL(pipe) #define CHECK_ABELIAN_GROUP_PERMUTED_WRT(op_tag) check_abelian_group_permuted_wrt_##op_tag #define CHECK_ABELIAN_GROUP_PERMUTED_WRT_EQUAL(op_tag) check_abelian_group_permuted_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Modoid instance //------------------------------------------------------------------------------ #define DEFINE_MONOID_CHECK_INSTANCE_WRT_EQUAL(op_tag) \ template \ void check_monoid_instance_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, var_c);\ CHECK_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_a);\ CHECK_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_b);\ } #define DEFINE_MONOID_CHECK_INSTANCE_WRT(op_tag) \ template \ void check_monoid_instance_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, var_c);\ CHECK_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, ass_a);\ CHECK_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, ass_b);\ } DEFINE_MONOID_CHECK_INSTANCE_WRT (plus) DEFINE_MONOID_CHECK_INSTANCE_WRT_EQUAL(plus) DEFINE_MONOID_CHECK_INSTANCE_WRT (pipe) DEFINE_MONOID_CHECK_INSTANCE_WRT_EQUAL(pipe) DEFINE_MONOID_CHECK_INSTANCE_WRT (et) DEFINE_MONOID_CHECK_INSTANCE_WRT_EQUAL(et) DEFINE_MONOID_CHECK_INSTANCE_WRT (caret) DEFINE_MONOID_CHECK_INSTANCE_WRT_EQUAL(caret) #define CHECK_MONOID_INSTANCE_WRT(op_tag) check_monoid_instance_wrt_##op_tag #define CHECK_MONOID_INSTANCE_WRT_EQUAL(op_tag) check_monoid_instance_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian modoid instance //------------------------------------------------------------------------------ #define DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT_EQUAL(op_tag) \ template \ void check_abelian_monoid_instance_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_ABELIAN_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, var_c);\ CHECK_ABELIAN_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_a);\ CHECK_ABELIAN_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_b);\ } #define DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT(op_tag) \ template \ void check_abelian_monoid_instance_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_ABELIAN_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, var_c);\ CHECK_ABELIAN_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, ass_a);\ CHECK_ABELIAN_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, ass_b);\ } DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT (plus) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT_EQUAL(plus) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT (pipe) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT_EQUAL(pipe) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT (et) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT_EQUAL(et) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT (caret) DEFINE_ABELIAN_MONOID_CHECK_INSTANCE_WRT_EQUAL(caret) #define CHECK_ABELIAN_MONOID_INSTANCE_WRT(op_tag) check_abelian_monoid_instance_wrt_##op_tag #define CHECK_ABELIAN_MONOID_INSTANCE_WRT_EQUAL(op_tag) check_abelian_monoid_instance_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian partial invertive modoid instance //------------------------------------------------------------------------------ #define DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT_EQUAL(op_tag) \ template \ void check_partial_invertive_monoid_instance_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, var_c);\ CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_a);\ CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_b);\ } #define DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT(op_tag) \ template \ void check_partial_invertive_monoid_instance_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, var_c);\ CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, ass_a);\ CHECK_PARTIAL_INVERTIVE_MONOID_PERMUTED_WRT(op_tag)(var_a, var_b, ass_b);\ } DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT (plus) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT_EQUAL(plus) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT (pipe) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT_EQUAL(pipe) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT (et) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT_EQUAL(et) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT (caret) DEFINE_PARTIAL_INVERTIVE_MONOID_CHECK_INSTANCE_WRT_EQUAL(caret) #define CHECK_PARTIAL_INVERTIVE_MONOID_INSTANCE_WRT(op_tag) check_partial_invertive_monoid_instance_wrt_##op_tag #define CHECK_PARTIAL_INVERTIVE_MONOID_INSTANCE_WRT_EQUAL(op_tag) check_partial_invertive_monoid_instance_wrt_equal_##op_tag //------------------------------------------------------------------------------ // Abelian group instance //------------------------------------------------------------------------------ #define DEFINE_ABELIAN_GROUP_CHECK_INSTANCE_WRT_EQUAL(op_tag) \ template \ void check_abelian_group_instance_wrt_equal_##op_tag \ (typename equality::type* equal, const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_ABELIAN_GROUP_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, var_c);\ CHECK_ABELIAN_GROUP_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_a);\ CHECK_ABELIAN_GROUP_PERMUTED_WRT_EQUAL(op_tag)(equal, var_a, var_b, ass_b);\ } #define DEFINE_ABELIAN_GROUP_CHECK_INSTANCE_WRT(op_tag) \ template \ void check_abelian_group_instance_wrt_##op_tag \ (const TypeA& var_a, const TypeB& var_b, const TypeC& var_c, \ const AssocA& ass_a, const AssocB& ass_b) \ { \ CHECK_ABELIAN_GROUP_PERMUTED_WRT(op_tag)(var_a, var_b, var_c);\ CHECK_ABELIAN_GROUP_PERMUTED_WRT(op_tag)(var_a, var_b, ass_a);\ CHECK_ABELIAN_GROUP_PERMUTED_WRT(op_tag)(var_a, var_b, ass_b);\ } DEFINE_ABELIAN_GROUP_CHECK_INSTANCE_WRT (plus) DEFINE_ABELIAN_GROUP_CHECK_INSTANCE_WRT_EQUAL(plus) DEFINE_ABELIAN_GROUP_CHECK_INSTANCE_WRT (pipe) DEFINE_ABELIAN_GROUP_CHECK_INSTANCE_WRT_EQUAL(pipe) #define CHECK_ABELIAN_GROUP_INSTANCE_WRT(op_tag) check_abelian_group_instance_wrt_##op_tag #define CHECK_ABELIAN_GROUP_INSTANCE_WRT_EQUAL(op_tag) check_abelian_group_instance_wrt_equal_##op_tag }} // namespace icl boost #endif // BOOST_LIBS_ICL_TEST_ICL_LAWS_HPP_JOFA_090119