path: root/Tests/ca.mcgill.ecse.dslreasoner.vampire.test/output/FAMTest/vampireProblem.tptp

% This is an initial Test Comment
fof ( typeDef_FunctionType , axiom , ! [ A ] : ( t_FunctionType ( A ) <=> ( object ( A ) & ( ( e_Root_FunctionType ( A ) & ( ~ e_Intermediate_FunctionType ( A ) & ~ e_Leaf_FunctionType ( A ) ) ) | ( ( ~ e_Root_FunctionType ( A ) & ( e_Intermediate_FunctionType ( A ) & ~ e_Leaf_FunctionType ( A ) ) ) | ( ~ e_Root_FunctionType ( A ) & ( ~ e_Intermediate_FunctionType ( A ) & e_Leaf_FunctionType ( A ) ) ) ) ) ) ) ) .
fof ( enumScope_FunctionType_Root , axiom , ! [ A ] : ( A = eo1 <=> e_Root_FunctionType ( A ) ) ) .
fof ( enumScope_FunctionType_Intermediate , axiom , ! [ A ] : ( A = eo2 <=> e_Intermediate_FunctionType ( A ) ) ) .
fof ( enumScope_FunctionType_Leaf , axiom , ! [ A ] : ( A = eo3 <=> e_Leaf_FunctionType ( A ) ) ) .
fof ( notObjectHandler , axiom , ! [ A ] : ( ~ object ( A ) <=> ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_Function ( A ) & ( ~ t_FAMTerminator ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_FunctionalInput ( A ) & ( ~ t_FunctionalOutput ( A ) & ( ~ t_FunctionalData ( A ) & ~ t_FunctionType ( A ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( inheritanceHierarchyHandler , axiom , ! [ A ] : ( object ( A ) <=> ( ( t_FAMTerminator ( A ) & ( ~ t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ( ~ t_FAMTerminator ( A ) & ( ~ t_FunctionalData ( A ) & ( t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ( ~ t_FAMTerminator ( A ) & ( ~ t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ( ~ t_FAMTerminator ( A ) & ( ~ t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ( ~ t_FAMTerminator ( A ) & ( ~ t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ( ~ t_FAMTerminator ( A ) & ( ~ t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ( ~ t_FAMTerminator ( A ) & ( t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( t_FunctionalInput ( A ) & ~ t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) | ( ~ t_FAMTerminator ( A ) & ( t_FunctionalData ( A ) & ( ~ t_FunctionalInterface ( A ) & ( ~ t_Function ( A ) & ( ~ t_InformationLink ( A ) & ( ~ t_FunctionalElement ( A ) & ( ~ t_FunctionalArchitectureModel ( A ) & ( ~ t_FunctionType ( A ) & ( ~ t_FunctionalInput ( A ) & t_FunctionalOutput ( A ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( typeScope_min_object , axiom , ! [ A ] : ( ( A = o1 | ( A = o2 | ( A = o3 | ( A = o4 | ( A = eo1 | ( A = eo2 | A = eo3 ) ) ) ) ) ) => object ( A ) ) ) .
fof ( typeScope_max_object , axiom , ! [ A ] : ( object ( A ) => ( A = eo1 | ( A = eo2 | ( A = eo3 | ( A = o1 | ( A = o2 | ( A = o3 | ( A = o4 | ( A = o5 | ( A = o6 | ( A = o7 | ( A = o8 | ( A = o9 | ( A = o10 | ( A = o11 | ( A = o12 | ( A = o13 | ( A = o14 | ( A = o15 | ( A = o16 | ( A = o17 | ( A = o18 | ( A = o19 | ( A = o20 | ( A = o21 | ( A = o22 | ( A = o23 | ( A = o24 | A = o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( typeScope_min_t_FunctionalInterface , axiom , ! [ A ] : ( ( A = o2 | A = o3 ) => ( t_FunctionalInterface ( A ) & object ( A ) ) ) ) .
fof ( typeScope_min_t_Function , axiom , ! [ A ] : ( A = o4 => ( t_Function ( A ) & object ( A ) ) ) ) .
fof ( typeScope_min_t_FunctionalOutput , axiom , ! [ A ] : ( ( A = o5 | ( A = o6 | A = o7 ) ) => ( t_FunctionalOutput ( A ) & object ( A ) ) ) ) .
fof ( typeScope_max_t_Function , axiom , ! [ A ] : ( ( t_Function ( A ) & object ( A ) ) => ( A = o4 | ( A = o8 | ( A = o9 | ( A = o10 | A = o11 ) ) ) ) ) ) .
fof ( typeScope_max_t_FunctionalOutput , axiom , ! [ A ] : ( ( t_FunctionalOutput ( A ) & object ( A ) ) => ( A = o5 | ( A = o6 | ( A = o7 | A = o8 ) ) ) ) ) .
fof ( t_uniqueness_eo1 , axiom , eo1 != eo2 & ( eo1 != eo3 & ( eo1 != o1 & ( eo1 != o2 & ( eo1 != o3 & ( eo1 != o4 & ( eo1 != o5 & ( eo1 != o6 & ( eo1 != o7 & ( eo1 != o8 & ( eo1 != o9 & ( eo1 != o10 & ( eo1 != o11 & ( eo1 != o12 & ( eo1 != o13 & ( eo1 != o14 & ( eo1 != o15 & ( eo1 != o16 & ( eo1 != o17 & ( eo1 != o18 & ( eo1 != o19 & ( eo1 != o20 & ( eo1 != o21 & ( eo1 != o22 & ( eo1 != o23 & ( eo1 != o24 & eo1 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_eo2 , axiom , eo2 != eo3 & ( eo2 != o1 & ( eo2 != o2 & ( eo2 != o3 & ( eo2 != o4 & ( eo2 != o5 & ( eo2 != o6 & ( eo2 != o7 & ( eo2 != o8 & ( eo2 != o9 & ( eo2 != o10 & ( eo2 != o11 & ( eo2 != o12 & ( eo2 != o13 & ( eo2 != o14 & ( eo2 != o15 & ( eo2 != o16 & ( eo2 != o17 & ( eo2 != o18 & ( eo2 != o19 & ( eo2 != o20 & ( eo2 != o21 & ( eo2 != o22 & ( eo2 != o23 & ( eo2 != o24 & eo2 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_eo3 , axiom , eo3 != o1 & ( eo3 != o2 & ( eo3 != o3 & ( eo3 != o4 & ( eo3 != o5 & ( eo3 != o6 & ( eo3 != o7 & ( eo3 != o8 & ( eo3 != o9 & ( eo3 != o10 & ( eo3 != o11 & ( eo3 != o12 & ( eo3 != o13 & ( eo3 != o14 & ( eo3 != o15 & ( eo3 != o16 & ( eo3 != o17 & ( eo3 != o18 & ( eo3 != o19 & ( eo3 != o20 & ( eo3 != o21 & ( eo3 != o22 & ( eo3 != o23 & ( eo3 != o24 & eo3 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o1 , axiom , o1 != o2 & ( o1 != o3 & ( o1 != o4 & ( o1 != o5 & ( o1 != o6 & ( o1 != o7 & ( o1 != o8 & ( o1 != o9 & ( o1 != o10 & ( o1 != o11 & ( o1 != o12 & ( o1 != o13 & ( o1 != o14 & ( o1 != o15 & ( o1 != o16 & ( o1 != o17 & ( o1 != o18 & ( o1 != o19 & ( o1 != o20 & ( o1 != o21 & ( o1 != o22 & ( o1 != o23 & ( o1 != o24 & o1 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o2 , axiom , o2 != o3 & ( o2 != o4 & ( o2 != o5 & ( o2 != o6 & ( o2 != o7 & ( o2 != o8 & ( o2 != o9 & ( o2 != o10 & ( o2 != o11 & ( o2 != o12 & ( o2 != o13 & ( o2 != o14 & ( o2 != o15 & ( o2 != o16 & ( o2 != o17 & ( o2 != o18 & ( o2 != o19 & ( o2 != o20 & ( o2 != o21 & ( o2 != o22 & ( o2 != o23 & ( o2 != o24 & o2 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o3 , axiom , o3 != o4 & ( o3 != o5 & ( o3 != o6 & ( o3 != o7 & ( o3 != o8 & ( o3 != o9 & ( o3 != o10 & ( o3 != o11 & ( o3 != o12 & ( o3 != o13 & ( o3 != o14 & ( o3 != o15 & ( o3 != o16 & ( o3 != o17 & ( o3 != o18 & ( o3 != o19 & ( o3 != o20 & ( o3 != o21 & ( o3 != o22 & ( o3 != o23 & ( o3 != o24 & o3 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o4 , axiom , o4 != o5 & ( o4 != o6 & ( o4 != o7 & ( o4 != o8 & ( o4 != o9 & ( o4 != o10 & ( o4 != o11 & ( o4 != o12 & ( o4 != o13 & ( o4 != o14 & ( o4 != o15 & ( o4 != o16 & ( o4 != o17 & ( o4 != o18 & ( o4 != o19 & ( o4 != o20 & ( o4 != o21 & ( o4 != o22 & ( o4 != o23 & ( o4 != o24 & o4 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o5 , axiom , o5 != o6 & ( o5 != o7 & ( o5 != o8 & ( o5 != o9 & ( o5 != o10 & ( o5 != o11 & ( o5 != o12 & ( o5 != o13 & ( o5 != o14 & ( o5 != o15 & ( o5 != o16 & ( o5 != o17 & ( o5 != o18 & ( o5 != o19 & ( o5 != o20 & ( o5 != o21 & ( o5 != o22 & ( o5 != o23 & ( o5 != o24 & o5 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o6 , axiom , o6 != o7 & ( o6 != o8 & ( o6 != o9 & ( o6 != o10 & ( o6 != o11 & ( o6 != o12 & ( o6 != o13 & ( o6 != o14 & ( o6 != o15 & ( o6 != o16 & ( o6 != o17 & ( o6 != o18 & ( o6 != o19 & ( o6 != o20 & ( o6 != o21 & ( o6 != o22 & ( o6 != o23 & ( o6 != o24 & o6 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o7 , axiom , o7 != o8 & ( o7 != o9 & ( o7 != o10 & ( o7 != o11 & ( o7 != o12 & ( o7 != o13 & ( o7 != o14 & ( o7 != o15 & ( o7 != o16 & ( o7 != o17 & ( o7 != o18 & ( o7 != o19 & ( o7 != o20 & ( o7 != o21 & ( o7 != o22 & ( o7 != o23 & ( o7 != o24 & o7 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o8 , axiom , o8 != o9 & ( o8 != o10 & ( o8 != o11 & ( o8 != o12 & ( o8 != o13 & ( o8 != o14 & ( o8 != o15 & ( o8 != o16 & ( o8 != o17 & ( o8 != o18 & ( o8 != o19 & ( o8 != o20 & ( o8 != o21 & ( o8 != o22 & ( o8 != o23 & ( o8 != o24 & o8 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o9 , axiom , o9 != o10 & ( o9 != o11 & ( o9 != o12 & ( o9 != o13 & ( o9 != o14 & ( o9 != o15 & ( o9 != o16 & ( o9 != o17 & ( o9 != o18 & ( o9 != o19 & ( o9 != o20 & ( o9 != o21 & ( o9 != o22 & ( o9 != o23 & ( o9 != o24 & o9 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o10 , axiom , o10 != o11 & ( o10 != o12 & ( o10 != o13 & ( o10 != o14 & ( o10 != o15 & ( o10 != o16 & ( o10 != o17 & ( o10 != o18 & ( o10 != o19 & ( o10 != o20 & ( o10 != o21 & ( o10 != o22 & ( o10 != o23 & ( o10 != o24 & o10 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o11 , axiom , o11 != o12 & ( o11 != o13 & ( o11 != o14 & ( o11 != o15 & ( o11 != o16 & ( o11 != o17 & ( o11 != o18 & ( o11 != o19 & ( o11 != o20 & ( o11 != o21 & ( o11 != o22 & ( o11 != o23 & ( o11 != o24 & o11 != o25 ) ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o12 , axiom , o12 != o13 & ( o12 != o14 & ( o12 != o15 & ( o12 != o16 & ( o12 != o17 & ( o12 != o18 & ( o12 != o19 & ( o12 != o20 & ( o12 != o21 & ( o12 != o22 & ( o12 != o23 & ( o12 != o24 & o12 != o25 ) ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o13 , axiom , o13 != o14 & ( o13 != o15 & ( o13 != o16 & ( o13 != o17 & ( o13 != o18 & ( o13 != o19 & ( o13 != o20 & ( o13 != o21 & ( o13 != o22 & ( o13 != o23 & ( o13 != o24 & o13 != o25 ) ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o14 , axiom , o14 != o15 & ( o14 != o16 & ( o14 != o17 & ( o14 != o18 & ( o14 != o19 & ( o14 != o20 & ( o14 != o21 & ( o14 != o22 & ( o14 != o23 & ( o14 != o24 & o14 != o25 ) ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o15 , axiom , o15 != o16 & ( o15 != o17 & ( o15 != o18 & ( o15 != o19 & ( o15 != o20 & ( o15 != o21 & ( o15 != o22 & ( o15 != o23 & ( o15 != o24 & o15 != o25 ) ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o16 , axiom , o16 != o17 & ( o16 != o18 & ( o16 != o19 & ( o16 != o20 & ( o16 != o21 & ( o16 != o22 & ( o16 != o23 & ( o16 != o24 & o16 != o25 ) ) ) ) ) ) ) ) .
fof ( t_uniqueness_o17 , axiom , o17 != o18 & ( o17 != o19 & ( o17 != o20 & ( o17 != o21 & ( o17 != o22 & ( o17 != o23 & ( o17 != o24 & o17 != o25 ) ) ) ) ) ) ) .
fof ( t_uniqueness_o18 , axiom , o18 != o19 & ( o18 != o20 & ( o18 != o21 & ( o18 != o22 & ( o18 != o23 & ( o18 != o24 & o18 != o25 ) ) ) ) ) ) .
fof ( t_uniqueness_o19 , axiom , o19 != o20 & ( o19 != o21 & ( o19 != o22 & ( o19 != o23 & ( o19 != o24 & o19 != o25 ) ) ) ) ) .
fof ( t_uniqueness_o20 , axiom , o20 != o21 & ( o20 != o22 & ( o20 != o23 & ( o20 != o24 & o20 != o25 ) ) ) ) .
fof ( t_uniqueness_o21 , axiom , o21 != o22 & ( o21 != o23 & ( o21 != o24 & o21 != o25 ) ) ) .
fof ( t_uniqueness_o22 , axiom , o22 != o23 & ( o22 != o24 & o22 != o25 ) ) .
fof ( t_uniqueness_o23 , axiom , o23 != o24 & o23 != o25 ) .
fof ( t_uniqueness_o24 , axiom , o24 != o25 ) .
fof ( compliance_interface_FunctionalElement , axiom , ! [ V_0 , V_1 ] : ( r_interface_FunctionalElement ( V_0 , V_1 ) => ( t_FunctionalElement ( V_0 ) & t_FunctionalInterface ( V_1 ) ) ) ) .
fof ( compliance_model_FunctionalElement , axiom , ! [ V_0 , V_1 ] : ( r_model_FunctionalElement ( V_0 , V_1 ) => ( t_FunctionalElement ( V_0 ) & t_FunctionalArchitectureModel ( V_1 ) ) ) ) .
fof ( compliance_parent_FunctionalElement , axiom , ! [ V_0 , V_1 ] : ( r_parent_FunctionalElement ( V_0 , V_1 ) => ( t_FunctionalElement ( V_0 ) & t_Function ( V_1 ) ) ) ) .
fof ( compliance_rootElements_FunctionalArchitectureModel , axiom , ! [ V_0 , V_1 ] : ( r_rootElements_FunctionalArchitectureModel ( V_0 , V_1 ) => ( t_FunctionalArchitectureModel ( V_0 ) & t_FunctionalElement ( V_1 ) ) ) ) .
fof ( compliance_subElements_Function , axiom , ! [ V_0 , V_1 ] : ( r_subElements_Function ( V_0 , V_1 ) => ( t_Function ( V_0 ) & t_FunctionalElement ( V_1 ) ) ) ) .
fof ( compliance_data_FAMTerminator , axiom , ! [ V_0 , V_1 ] : ( r_data_FAMTerminator ( V_0 , V_1 ) => ( t_FAMTerminator ( V_0 ) & t_FunctionalData ( V_1 ) ) ) ) .
fof ( compliance_from_InformationLink , axiom , ! [ V_0 , V_1 ] : ( r_from_InformationLink ( V_0 , V_1 ) => ( t_InformationLink ( V_0 ) & t_FunctionalOutput ( V_1 ) ) ) ) .
fof ( compliance_to_InformationLink , axiom , ! [ V_0 , V_1 ] : ( r_to_InformationLink ( V_0 , V_1 ) => ( t_InformationLink ( V_0 ) & t_FunctionalInput ( V_1 ) ) ) ) .
fof ( compliance_data_FunctionalInterface , axiom , ! [ V_0 , V_1 ] : ( r_data_FunctionalInterface ( V_0 , V_1 ) => ( t_FunctionalInterface ( V_0 ) & t_FunctionalData ( V_1 ) ) ) ) .
fof ( compliance_element_FunctionalInterface , axiom , ! [ V_0 , V_1 ] : ( r_element_FunctionalInterface ( V_0 , V_1 ) => ( t_FunctionalInterface ( V_0 ) & t_FunctionalElement ( V_1 ) ) ) ) .
fof ( compliance_IncomingLinks_FunctionalInput , axiom , ! [ V_0 , V_1 ] : ( r_IncomingLinks_FunctionalInput ( V_0 , V_1 ) => ( t_FunctionalInput ( V_0 ) & t_InformationLink ( V_1 ) ) ) ) .
fof ( compliance_outgoingLinks_FunctionalOutput , axiom , ! [ V_0 , V_1 ] : ( r_outgoingLinks_FunctionalOutput ( V_0 , V_1 ) => ( t_FunctionalOutput ( V_0 ) & t_InformationLink ( V_1 ) ) ) ) .
fof ( compliance_terminator_FunctionalData , axiom , ! [ V_0 , V_1 ] : ( r_terminator_FunctionalData ( V_0 , V_1 ) => ( t_FunctionalData ( V_0 ) & t_FAMTerminator ( V_1 ) ) ) ) .
fof ( compliance_interface_FunctionalData , axiom , ! [ V_0 , V_1 ] : ( r_interface_FunctionalData ( V_0 , V_1 ) => ( t_FunctionalData ( V_0 ) & t_FunctionalInterface ( V_1 ) ) ) ) .
fof ( compliance_type_Function , axiom , ! [ V_0 , V_1 ] : ( r_type_Function ( V_0 , V_1 ) => ( t_Function ( V_0 ) & t_FunctionType ( V_1 ) ) ) ) .
fof ( containment_topLevel_t_FunctionalArchitectureModel , axiom , ! [ A ] : ( t_FunctionalArchitectureModel ( A ) <=> A = o1 ) ) .
fof ( containment_noDup_r_interface_FunctionalElement , axiom , ? [ A , B ] : ( r_interface_FunctionalElement ( A , B ) => ~ ? [ C , B ] : r_interface_FunctionalElement ( C , B ) ) ) .
fof ( containment_noDup_r_rootElements_FunctionalArchitectureModel , axiom , ? [ A , B ] : ( r_rootElements_FunctionalArchitectureModel ( A , B ) => ~ ? [ C , B ] : r_rootElements_FunctionalArchitectureModel ( C , B ) ) ) .
fof ( containment_noDup_r_subElements_Function , axiom , ? [ A , B ] : ( r_subElements_Function ( A , B ) => ~ ? [ C , B ] : r_subElements_Function ( C , B ) ) ) .
fof ( containment_noDup_r_data_FunctionalInterface , axiom , ? [ A , B ] : ( r_data_FunctionalInterface ( A , B ) => ~ ? [ C , B ] : r_data_FunctionalInterface ( C , B ) ) ) .
fof ( containment_noDup_r_outgoingLinks_FunctionalOutput , axiom , ? [ A , B ] : ( r_outgoingLinks_FunctionalOutput ( A , B ) => ~ ? [ C , B ] : r_outgoingLinks_FunctionalOutput ( C , B ) ) ) .
fof ( containment_noDup_r_terminator_FunctionalData , axiom , ? [ A , B ] : ( r_terminator_FunctionalData ( A , B ) => ~ ? [ C , B ] : r_terminator_FunctionalData ( C , B ) ) ) .
fof ( containment_t_FunctionalElement , axiom , ! [ A ] : ( t_FunctionalElement ( A ) => ? [ B ] : ( ( r_rootElements_FunctionalArchitectureModel ( B , A ) & ~ r_subElements_Function ( B , A ) ) | ( ~ r_rootElements_FunctionalArchitectureModel ( B , A ) & r_subElements_Function ( B , A ) ) ) ) ) .
fof ( containment_t_FunctionalData , axiom , ! [ A ] : ( t_FunctionalData ( A ) => ? [ B ] : r_data_FunctionalInterface ( B , A ) ) ) .
fof ( containment_t_InformationLink , axiom , ! [ A ] : ( t_InformationLink ( A ) => ? [ B ] : r_outgoingLinks_FunctionalOutput ( B , A ) ) ) .
fof ( containment_t_FAMTerminator , axiom , ! [ A ] : ( t_FAMTerminator ( A ) => ? [ B ] : r_terminator_FunctionalData ( B , A ) ) ) .
fof ( containment_t_FunctionalInterface , axiom , ! [ A ] : ( t_FunctionalInterface ( A ) => ? [ B ] : r_interface_FunctionalElement ( B , A ) ) ) .
fof ( containment_noCycle_1 , axiom , ~ ? [ V1 ] : ( r_interface_FunctionalElement ( V1 , V1 ) | ( r_rootElements_FunctionalArchitectureModel ( V1 , V1 ) | ( r_subElements_Function ( V1 , V1 ) | ( r_data_FunctionalInterface ( V1 , V1 ) | ( r_outgoingLinks_FunctionalOutput ( V1 , V1 ) | r_terminator_FunctionalData ( V1 , V1 ) ) ) ) ) ) ) .
fof ( containment_noCycle_2 , axiom , ~ ? [ V1 , V2 ] : ( ( r_interface_FunctionalElement ( V1 , V2 ) | ( r_rootElements_FunctionalArchitectureModel ( V1 , V2 ) | ( r_subElements_Function ( V1 , V2 ) | ( r_data_FunctionalInterface ( V1 , V2 ) | ( r_outgoingLinks_FunctionalOutput ( V1 , V2 ) | r_terminator_FunctionalData ( V1 , V2 ) ) ) ) ) ) & ( r_interface_FunctionalElement ( V2 , V1 ) | ( r_rootElements_FunctionalArchitectureModel ( V2 , V1 ) | ( r_subElements_Function ( V2 , V1 ) | ( r_data_FunctionalInterface ( V2 , V1 ) | ( r_outgoingLinks_FunctionalOutput ( V2 , V1 ) | r_terminator_FunctionalData ( V2 , V1 ) ) ) ) ) ) ) ) .
fof ( containment_noCycle_3 , axiom , ~ ? [ V1 , V2 , V3 ] : ( ( r_interface_FunctionalElement ( V1 , V2 ) | ( r_rootElements_FunctionalArchitectureModel ( V1 , V2 ) | ( r_subElements_Function ( V1 , V2 ) | ( r_data_FunctionalInterface ( V1 , V2 ) | ( r_outgoingLinks_FunctionalOutput ( V1 , V2 ) | r_terminator_FunctionalData ( V1 , V2 ) ) ) ) ) ) & ( ( r_interface_FunctionalElement ( V2 , V3 ) | ( r_rootElements_FunctionalArchitectureModel ( V2 , V3 ) | ( r_subElements_Function ( V2 , V3 ) | ( r_data_FunctionalInterface ( V2 , V3 ) | ( r_outgoingLinks_FunctionalOutput ( V2 , V3 ) | r_terminator_FunctionalData ( V2 , V3 ) ) ) ) ) ) & ( r_interface_FunctionalElement ( V3 , V1 ) | ( r_rootElements_FunctionalArchitectureModel ( V3 , V1 ) | ( r_subElements_Function ( V3 , V1 ) | ( r_data_FunctionalInterface ( V3 , V1 ) | ( r_outgoingLinks_FunctionalOutput ( V3 , V1 ) | r_terminator_FunctionalData ( V3 , V1 ) ) ) ) ) ) ) ) ) .
fof ( containment_noCycle_4 , axiom , ~ ? [ V1 , V2 , V3 , V4 ] : ( ( r_interface_FunctionalElement ( V1 , V2 ) | ( r_rootElements_FunctionalArchitectureModel ( V1 , V2 ) | ( r_subElements_Function ( V1 , V2 ) | ( r_data_FunctionalInterface ( V1 , V2 ) | ( r_outgoingLinks_FunctionalOutput ( V1 , V2 ) | r_terminator_FunctionalData ( V1 , V2 ) ) ) ) ) ) & ( ( r_interface_FunctionalElement ( V2 , V3 ) | ( r_rootElements_FunctionalArchitectureModel ( V2 , V3 ) | ( r_subElements_Function ( V2 , V3 ) | ( r_data_FunctionalInterface ( V2 , V3 ) | ( r_outgoingLinks_FunctionalOutput ( V2 , V3 ) | r_terminator_FunctionalData ( V2 , V3 ) ) ) ) ) ) & ( ( r_interface_FunctionalElement ( V3 , V4 ) | ( r_rootElements_FunctionalArchitectureModel ( V3 , V4 ) | ( r_subElements_Function ( V3 , V4 ) | ( r_data_FunctionalInterface ( V3 , V4 ) | ( r_outgoingLinks_FunctionalOutput ( V3 , V4 ) | r_terminator_FunctionalData ( V3 , V4 ) ) ) ) ) ) & ( r_interface_FunctionalElement ( V4 , V1 ) | ( r_rootElements_FunctionalArchitectureModel ( V4 , V1 ) | ( r_subElements_Function ( V4 , V1 ) | ( r_data_FunctionalInterface ( V4 , V1 ) | ( r_outgoingLinks_FunctionalOutput ( V4 , V1 ) | r_terminator_FunctionalData ( V4 , V1 ) ) ) ) ) ) ) ) ) ) .
fof ( containment_noCycle_5 , axiom , ~ ? [ V1 , V2 , V3 , V4 , V5 ] : ( ( r_interface_FunctionalElement ( V1 , V2 ) | ( r_rootElements_FunctionalArchitectureModel ( V1 , V2 ) | ( r_subElements_Function ( V1 , V2 ) | ( r_data_FunctionalInterface ( V1 , V2 ) | ( r_outgoingLinks_FunctionalOutput ( V1 , V2 ) | r_terminator_FunctionalData ( V1 , V2 ) ) ) ) ) ) & ( ( r_interface_FunctionalElement ( V2 , V3 ) | ( r_rootElements_FunctionalArchitectureModel ( V2 , V3 ) | ( r_subElements_Function ( V2 , V3 ) | ( r_data_FunctionalInterface ( V2 , V3 ) | ( r_outgoingLinks_FunctionalOutput ( V2 , V3 ) | r_terminator_FunctionalData ( V2 , V3 ) ) ) ) ) ) & ( ( r_interface_FunctionalElement ( V3 , V4 ) | ( r_rootElements_FunctionalArchitectureModel ( V3 , V4 ) | ( r_subElements_Function ( V3 , V4 ) | ( r_data_FunctionalInterface ( V3 , V4 ) | ( r_outgoingLinks_FunctionalOutput ( V3 , V4 ) | r_terminator_FunctionalData ( V3 , V4 ) ) ) ) ) ) & ( ( r_interface_FunctionalElement ( V4 , V5 ) | ( r_rootElements_FunctionalArchitectureModel ( V4 , V5 ) | ( r_subElements_Function ( V4 , V5 ) | ( r_data_FunctionalInterface ( V4 , V5 ) | ( r_outgoingLinks_FunctionalOutput ( V4 , V5 ) | r_terminator_FunctionalData ( V4 , V5 ) ) ) ) ) ) & ( r_interface_FunctionalElement ( V5 , V1 ) | ( r_rootElements_FunctionalArchitectureModel ( V5 , V1 ) | ( r_subElements_Function ( V5 , V1 ) | ( r_data_FunctionalInterface ( V5 , V1 ) | ( r_outgoingLinks_FunctionalOutput ( V5 , V1 ) | r_terminator_FunctionalData ( V5 , V1 ) ) ) ) ) ) ) ) ) ) ) .
fof ( upperMultiplicity_interface_FunctionalElement , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FunctionalElement ( V_src ) & ( t_FunctionalInterface ( V_trg_1 ) & t_FunctionalInterface ( V_trg_2 ) ) ) => ( ( r_interface_FunctionalElement ( V_src , V_trg_1 ) & r_interface_FunctionalElement ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( lowerMultiplicity_model_FunctionalElement , axiom , ! [ V_src ] : ( t_FunctionalElement ( V_src ) => ? [ V_trg_1 ] : ( t_FunctionalArchitectureModel ( V_trg_1 ) & r_model_FunctionalElement ( V_src , V_trg_1 ) ) ) ) .
fof ( upperMultiplicity_model_FunctionalElement , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FunctionalElement ( V_src ) & ( t_FunctionalArchitectureModel ( V_trg_1 ) & t_FunctionalArchitectureModel ( V_trg_2 ) ) ) => ( ( r_model_FunctionalElement ( V_src , V_trg_1 ) & r_model_FunctionalElement ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( upperMultiplicity_parent_FunctionalElement , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FunctionalElement ( V_src ) & ( t_Function ( V_trg_1 ) & t_Function ( V_trg_2 ) ) ) => ( ( r_parent_FunctionalElement ( V_src , V_trg_1 ) & r_parent_FunctionalElement ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( upperMultiplicity_data_FAMTerminator , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FAMTerminator ( V_src ) & ( t_FunctionalData ( V_trg_1 ) & t_FunctionalData ( V_trg_2 ) ) ) => ( ( r_data_FAMTerminator ( V_src , V_trg_1 ) & r_data_FAMTerminator ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( upperMultiplicity_from_InformationLink , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_InformationLink ( V_src ) & ( t_FunctionalOutput ( V_trg_1 ) & t_FunctionalOutput ( V_trg_2 ) ) ) => ( ( r_from_InformationLink ( V_src , V_trg_1 ) & r_from_InformationLink ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( lowerMultiplicity_to_InformationLink , axiom , ! [ V_src ] : ( t_InformationLink ( V_src ) => ? [ V_trg_1 ] : ( t_FunctionalInput ( V_trg_1 ) & r_to_InformationLink ( V_src , V_trg_1 ) ) ) ) .
fof ( upperMultiplicity_to_InformationLink , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_InformationLink ( V_src ) & ( t_FunctionalInput ( V_trg_1 ) & t_FunctionalInput ( V_trg_2 ) ) ) => ( ( r_to_InformationLink ( V_src , V_trg_1 ) & r_to_InformationLink ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( upperMultiplicity_element_FunctionalInterface , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FunctionalInterface ( V_src ) & ( t_FunctionalElement ( V_trg_1 ) & t_FunctionalElement ( V_trg_2 ) ) ) => ( ( r_element_FunctionalInterface ( V_src , V_trg_1 ) & r_element_FunctionalInterface ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( upperMultiplicity_terminator_FunctionalData , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FunctionalData ( V_src ) & ( t_FAMTerminator ( V_trg_1 ) & t_FAMTerminator ( V_trg_2 ) ) ) => ( ( r_terminator_FunctionalData ( V_src , V_trg_1 ) & r_terminator_FunctionalData ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( upperMultiplicity_interface_FunctionalData , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_FunctionalData ( V_src ) & ( t_FunctionalInterface ( V_trg_1 ) & t_FunctionalInterface ( V_trg_2 ) ) ) => ( ( r_interface_FunctionalData ( V_src , V_trg_1 ) & r_interface_FunctionalData ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .
fof ( oppositeReference_interface_FunctionalElement , axiom , ! [ V_src , V_trg ] : ( ( t_FunctionalElement ( V_src ) & t_FunctionalInterface ( V_trg ) ) => ( r_interface_FunctionalElement ( V_src , V_trg ) <=> r_element_FunctionalInterface ( V_trg , V_src ) ) ) ) .
fof ( oppositeReference_parent_FunctionalElement , axiom , ! [ V_src , V_trg ] : ( ( t_FunctionalElement ( V_src ) & t_Function ( V_trg ) ) => ( r_parent_FunctionalElement ( V_src , V_trg ) <=> r_subElements_Function ( V_trg , V_src ) ) ) ) .
fof ( oppositeReference_data_FAMTerminator , axiom , ! [ V_src , V_trg ] : ( ( t_FAMTerminator ( V_src ) & t_FunctionalData ( V_trg ) ) => ( r_data_FAMTerminator ( V_src , V_trg ) <=> r_terminator_FunctionalData ( V_trg , V_src ) ) ) ) .
fof ( oppositeReference_from_InformationLink , axiom , ! [ V_src , V_trg ] : ( ( t_InformationLink ( V_src ) & t_FunctionalOutput ( V_trg ) ) => ( r_from_InformationLink ( V_src , V_trg ) <=> r_outgoingLinks_FunctionalOutput ( V_trg , V_src ) ) ) ) .
fof ( oppositeReference_to_InformationLink , axiom , ! [ V_src , V_trg ] : ( ( t_InformationLink ( V_src ) & t_FunctionalInput ( V_trg ) ) => ( r_to_InformationLink ( V_src , V_trg ) <=> r_IncomingLinks_FunctionalInput ( V_trg , V_src ) ) ) ) .
fof ( oppositeReference_data_FunctionalInterface , axiom , ! [ V_src , V_trg ] : ( ( t_FunctionalInterface ( V_src ) & t_FunctionalData ( V_trg ) ) => ( r_data_FunctionalInterface ( V_src , V_trg ) <=> r_interface_FunctionalData ( V_trg , V_src ) ) ) ) .
fof ( lowerMultiplicity_type_Function , axiom , ! [ V_src ] : ( t_Function ( V_src ) => ? [ V_trg_1 ] : ( t_FunctionType ( V_trg_1 ) & r_type_Function ( V_src , V_trg_1 ) ) ) ) .
fof ( upperMultiplicity_type_Function , axiom , ! [ V_src , V_trg_1 , V_trg_2 ] : ( ( t_Function ( V_src ) & ( t_FunctionType ( V_trg_1 ) & t_FunctionType ( V_trg_2 ) ) ) => ( ( r_type_Function ( V_src , V_trg_1 ) & r_type_Function ( V_src , V_trg_2 ) ) => ~ V_trg_1 != V_trg_2 ) ) ) .