| /**cawptest2(3,add,[[[n,[]],1,0],[[n,"_"],1,0]],4,1,4,[1,2,3],[0,1], | |
| [ | |
| [[[[[v,a],[]],[[v,b],3],[[v,c],[4,5,6]]], | |
| [[[v,d],[4,5,6]]],true]] | |
| ], | |
| [ %% Algorithm dictionary | |
| ], | |
| %% Result | |
| [[[n,add],[[v,a],[v,b],[v,c],[v,d]],":-",[[[n,[]],[[v,a]]],[[n,"_"],[[v,a]]],[[n,"_"],[[v,b]]],[[n,=],[[v,c],[v,d]]]]]] | |
| ). | |
| **/ | |
| :- dynamic debug/1. | |
| :- dynamic totalvars/1. | |
| :- dynamic outputvars/1. | |
| :- dynamic newrulenumber/1. | |
| :- dynamic maxlength/1. | |
| :- dynamic lastrule/1. | |
| :- dynamic furthest_rule/1. | |
| %%:- dynamic a/1. | |
| /** | |
| caw00(off,function3,[],5,7,[[[[a,1],[b,1]],[[c,2]],true],[[[a,1],[b,1]],[[c,2]],true],[[[a,1],[b,1]],[[c,1]],fail],[[[a,1],[b,1]],[[c,1]],fail]],[],Program),writeln(Program). | |
| VarLists is in format list of [InputVarList,OutputVarList,Positivity], where these are specification lines that are either Positivity=true or fail | |
| Notes: | |
| - true specification line in first position of varlists, otherwise will try all except the specification line | |
| - manually write a,a in algdict in a,b :- a,a,b because cawp would take too long finding all combinations including a,a | |
| - give argument values in order 3 2 1 not 1 2 3 when adding, or will try 1+1+1 instead of 3 at first | |
| **/ | |
| %%:- include('algdict.pl'). | |
| %%:- include('remove_duplicate_predicates.pl'). | |
| /**caw00a(Debug,PredicateName,Rules1,MaxLength,MaxPredicates,TotalVars,VarLists,Program1,Program2B) :- | |
| (caw00(Debug,PredicateName,Rules1,MaxLength,MaxPredicates,TotalVars,VarLists,Program1,Program2B),%%writeln("If error, returned true");(furthest_rule([Number,Rules]), | |
| writeln(["Error: No specification for predicate. Programs so far:",Rules,"\n\nPredicate number:",Number]). | |
| **/ | |
| caw000(Debug,PredicateName,Rules,MaxLength,MaxPredicates,TotalVars,NumInputs,NumOutputs,VarLists,AlgDict,Program1,Program2A) :- | |
| PredicateName=[PredicateName1], | |
| MaxLength=[MaxLength1], | |
| MaxPredicates=[MaxPredicates1], | |
| TotalVars=[TotalVars1], | |
| VarLists=[VarLists1], | |
| %%AlgDict=[AlgDict1], | |
| Program2A=[Program2A1], | |
| caw00(Debug,PredicateName1,Rules,MaxLength1,MaxPredicates1,TotalVars1,NumInputs,NumOutputs,VarLists1,AlgDict,Program1,Program2A1),!. | |
| caw000(Debug,PredicateName,Rules,MaxLength,MaxPredicates,TotalVars,NumInputs,NumOutputs,VarLists,AlgDict,Program1,Program2A) :- | |
| PredicateName=[PredicateName1|PredicateName2], | |
| MaxLength=[MaxLength1|MaxLength2], | |
| MaxPredicates=[MaxPredicates1|MaxPredicates2], | |
| TotalVars=[TotalVars1|TotalVars2], | |
| VarLists=[VarLists1|VarLists2], | |
| %%AlgDict=[AlgDict1|AlgDict2], | |
| Program2A=[Program2A1|Program2A2], | |
| caw00(Debug,PredicateName1,Rules,MaxLength1,MaxPredicates1,TotalVars1,NumInputs,NumOutputs,VarLists1,AlgDict,Program1,Program2A1), | |
| %%trace, | |
| findall(A,(member(B,Program2A1),findall(K,(member(F,NumInputs),member(G,NumOutputs),B=[[n,C],Q,D,E],K=[[[n,C],F,G],Q,D,E]),L),member(A,L)),J), | |
| append(AlgDict,J,Program2AA4), | |
| %%Program2AA3=[Program2AA4], | |
| remvdup(Program2AA4,[],Program2A3), | |
| %%trace, | |
| caw000(Debug,PredicateName2,Rules,MaxLength2,MaxPredicates2,TotalVars2,NumInputs,NumOutputs,VarLists2,Program2A3,[],Program2A2). | |
| caw00(Debug,PredicateName,Rules1,MaxLength,MaxPredicates,TotalVars,NumInputs,NumOutputs,VarLists,AlgDict,Program1,Program2B) :- | |
| PredicatesA=AlgDict, | |
| %% remove duplicate predicates | |
| %%remvdup(PredicatesA0,[],PredicatesA), | |
| split3(PredicatesA,[],Rules2), | |
| split2(PredicatesA,[],Predicates), | |
| %%writeln([Rules2,Predicates]), | |
| append(Rules1,Rules2,Rules3), | |
| %%retractall(a(_)), | |
| retractall(debug(_)), | |
| assertz(debug(Debug)), | |
| retractall(totalvars(_)), | |
| assertz(totalvars(TotalVars)), | |
| retractall(maxlength(_)), | |
| assertz(maxlength(MaxLength)), | |
| retractall(lastrule(_)), | |
| assertz(lastrule([])), | |
| retractall(furthest_rule(_)), | |
| assertz(furthest_rule([0,[]])), | |
| %%retractall(newrulenumber(_)), | |
| %%assertz(newrulenumber(0)), | |
| retractall(numInputs(_)), | |
| assertz(numInputs(NumInputs)), | |
| retractall(numOutputs(_)), | |
| assertz(numOutputs(NumOutputs)), | |
| /**catch(call_with_time_limit(10, | |
| **/caw01(VarLists,_,Predicates,PredicateName,Rules3,MaxLength,MaxPredicates,0,_,Program1,Program2B,_) | |
| %%writeln1(Program2B) | |
| /**), | |
| time_limit_exceeded, | |
| fail) | |
| **/ | |
| .%%,not(length(Program2B,1)). | |
| %%caw01([],_,_Predicates,_PredicateName,_Rules3,_MaxLength,_MaxPredicates,_New_rule_number1,_New_rule_number2,Program,Program) :- !. %% Recently added ***** | |
| caw01([],[],_Predicates,_PredicateName,_Rules3,_MaxLength,_MaxPredicates,_New_rule_number1,_New_rule_number2,_Program1,_Program2,_) :- | |
| %%writeln(here1), | |
| %%writeln1(["Error: No specification for predicate. Program so far:",Program1,"\n\nPredicate number:",New_rule_number]),abort,!. | |
| fail,!. | |
| caw01([[]],[[]],_Predicates,_PredicateName,_Rules3,_MaxLength,_MaxPredicates,_New_rule_number1,_New_rule_number2,Program,Program,_V3) :- %%writeln(here2), | |
| fail. | |
| %%caw01(_VarLists,_Predicates,_PredicateName,_Rules3,_MaxLength,MaxPredicates,New_rule_number,Program,Program) :- New_rule_number=<MaxPredicates,!. | |
| caw01(VarLists,VarLists03,Predicates,PredicateName,Rules3,MaxLength,MaxPredicates,New_rule_number1,New_rule_number2,Program1,Program2B,_V) :- | |
| %%writeln1(caw01(VarLists,_,Predicates,PredicateName,Rules3,MaxLength,MaxPredicates,New_rule_number1,New_rule_number2,Program1,Program2B)), | |
| %%(Predicates=[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add3],[[v,a],[v,b]],":-",[[[n,tail],[[v,a],[v,b]]]]]]->trace;true), | |
| VarLists=[VarLists0|VarLists02], | |
| VarLists0=[VarLists1|VarLists2], | |
| %%retractall(varlists(_)), | |
| %%assertz(varlists(VarLists02)), | |
| %%trace, | |
| %%writeln1( findall(Program2A,caw0(Predicates,PredicateName, | |
| %%Rules3,MaxLength,MaxPredicates, | |
| %%VarLists1,VarLists02,New_rule_number1,New_rule_number2,Program1,Program2A),Program2)), | |
| %%notrace, | |
| findall([Program2A,VarLists041,New_rule_number2A],caw0(Predicates,PredicateName, | |
| Rules3,MaxLength,MaxPredicates, | |
| VarLists1,VarLists02,VarLists041,New_rule_number1,New_rule_number2A,Program1,Program2A,_V),Program2VarLists04), | |
| findall(Program21,(member(MemberProgram2VarLists04,Program2VarLists04),MemberProgram2VarLists04=[Program21,_,_]),Program2), | |
| findall(VarLists041,(member(MemberProgram2VarLists041,Program2VarLists04),MemberProgram2VarLists041=[_,VarLists041,_]),VarLists04), | |
| findall(New_rule_number2A1,(member(MemberProgram2VarLists041New_rule_number2A1,Program2VarLists04),MemberProgram2VarLists041New_rule_number2A1=[_,_,New_rule_number2A1]),New_rule_number2A2), | |
| %%trace, | |
| %%writeln1( findall(Program2A,caw0(Predicates,PredicateName, | |
| %%Rules3,MaxLength,MaxPredicates, | |
| %%VarLists1,VarLists02,New_rule_number1,New_rule_number2,Program1,Program2A),Program2)), | |
| %%notrace, | |
| length(Program2,Program2L), | |
| length(Program2LList,Program2L), | |
| append(Program2LList,_,[1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100]), | |
| member(Program2LListItem,Program2LList), | |
| get_item_n(Program2,Program2LListItem,Program2B), | |
| get_item_n(VarLists04,Program2LListItem,VarLists03), | |
| get_item_n(New_rule_number2A2,Program2LListItem,New_rule_number2), | |
| %%member(Program2B,Program2), %e->1 | |
| %%member(VarLists03,VarLists04), %e->1 | |
| %%writeln1(Program2B1), | |
| %%writeln1(Program2B), | |
| %%Program2B1=[Program2B], | |
| %%trace, | |
| %%writeln1(member(Program2B,Program2)), | |
| %%notrace, | |
| aggregate_all(count,(member(Item,VarLists2), | |
| caw0(Predicates,PredicateName,Rules3,MaxLength,MaxPredicates, | |
| Item,VarLists03,_VarLists031,New_rule_number1,_New_rule_number2A3,Program1,Program2B,_V2)),Count1), | |
| %%trace, | |
| %%writeln1( aggregate_all(count,(member(Item,VarLists2), | |
| %%caw0(Predicates,PredicateName,Rules3,MaxLength,MaxPredicates, | |
| %%Item,VarLists02,New_rule_number,Program1,Program2B)),Count)), | |
| %%notrace, | |
| %%writeln1(Program2), | |
| %%trace, | |
| %%writeln1(length(VarLists2,Count)), | |
| %%notrace, | |
| %%(findall(EVM1,(everyvarmentioned(Vars2,Program5), | |
| length(VarLists2,Count2), | |
| Count1>=Count2, | |
| %%(Program2B=[[[n,1],[[v,a],[v,b],[v,c]],":-",[[[n,+],[[v,a],[v,b],[v,d]]],[[n,=],[[v,d],[v,c]]]]]]->true%%trace | |
| %%;true), | |
| !.%%!.%%!. %%Predicates->PredicatesA x | |
| get_item_n(List1,N1,Item) :- | |
| N2 is N1-1, | |
| length(List3,N2), | |
| append(List3,List4,List1), | |
| List4=[Item|_]. | |
| caw0(Algorithms,PredicateName,Rules,MaxLength,MaxPredicates,VarLists,VarLists02,VarLists03,New_rule_number1,New_rule_number2,Program1,Program2,_V3) :- | |
| VarLists=[InputVarList,OutputVarList,Positivity], | |
| varnames(InputVarList,[],InputVars,[],InputValues), | |
| varnames(OutputVarList,[],OutputVars,[],_OutputValues), | |
| %%retractall(outputvars(_)), | |
| %%assertz(outputvars(OutputVars)), | |
| append(InputVars,OutputVars,Vars11), | |
| %%Vars11=InputVars, | |
| %%Vars12=InputVars, | |
| append(InputValues,OutputVars,Vars2), | |
| %%append(InputValues,OutputValues,Values), | |
| Query=[[n,PredicateName],Vars2], | |
| %%writeln( caw(Algorithms,Query,PredicateName,Rules,MaxLength,MaxPredicates,Vars11,InputVars,InputVars,_,OutputVarList,OutputVars,Positivity,VarLists02,New_rule_number1,New_rule_number2,Program1,Program2)), | |
| caw(Algorithms,Query,PredicateName,Rules,MaxLength,MaxPredicates,Vars11,InputVars,InputVars,_,OutputVarList,OutputVars,Positivity,VarLists02,VarLists03,New_rule_number1,New_rule_number2,Program1,Program2,_V). | |
| %%caw(_,_,_,_,_,N,_,_,_,_,_,_,_,_,_,_,N,P,P) :- fail,!. %% Turn off fail,! to have all solutions | |
| /**caw(_Algorithms,_Query,_PredicateName,_Rules,_MaxLength,MaxPredicates,_Vars11,_InputVars,_InputVarsa,_InputVars2,_OutputVarList,_OutputVars,_Positivity,_VarLists02,New_rule_number1,New_rule_number2,_Program1,_Program11):- | |
| %%writeln(caw_here(Algorithms,Query,PredicateName,Rules,MaxLength,MaxPredicates,Vars11,InputVars,InputVars,InputVars2,OutputVarList,OutputVars,Positivity,VarLists02,New_rule_number1,New_rule_number2,Program1,Program1)), | |
| %%MaxPredicates1 is MaxPredicates-1, | |
| writeln(["New_rule_number>MaxPredicates1",New_rule_number,">",MaxPredicates]), | |
| New_rule_number>MaxPredicates, | |
| fail,!. | |
| **/ | |
| %%caw(_,_,_,_,_,_N,_,_,_,_,_,_,_,_,[],_,_N2?,P,P) :- !. | |
| caw(_,_,_,_,0,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_F) :- fail, !. %% Turn off fail,! to have all solutions | |
| caw(Algorithms1,Query,PredicateName,_Rules,_MaxLength,MaxPredicates,_VarList,InputVars1,InputVars2,_InputVarsa,VarLists,OutputVars,Positivity,VarLists02,VarLists02,New_rule_number1,New_rule_number1,Program1,Program2,_V) :- | |
| %%writeln1(V), | |
| %%MaxLength>0, *** | |
| %%MaxPredicates1 is MaxPredicates, | |
| New_rule_number1=<MaxPredicates, | |
| %%trace, | |
| addrules(InputVars2,OutputVars,OutputVars,[],_PenultimateVars,[],Program3),%%notrace, | |
| %%writeln([addrules(InputVars2,OutputVars,OutputVars,[],PenultimateVars,[],Program3)]), | |
| %%optimise(Program1,InputVars1,_InputVars3,PenultimateVars,Program4), %% IV2->3 | |
| %%writeln([optimise(Program1,InputVars1,InputVars3,PenultimateVars,Program4)]), | |
| append(Program1,Program3,Program5), | |
| not(Program5=[]), | |
| append(InputVars1,OutputVars,Vars2), | |
| Program22=[ | |
| [[n,PredicateName],Vars2,":-", | |
| Program5 | |
| ] | |
| ], | |
| %%writeln1(interpret-short(Program22)), | |
| %%everyvarmentioned(Vars2,Program5), | |
| %%((PredicateName=1;PredicateName=2)->trace;true), | |
| /** | |
| not(Program22=[ | |
| [[n,add],_,_, | |
| [[[n,+],_]|_] | |
| ] | |
| ]), | |
| **/ | |
| %%(Program22=[[[n,1],[[v,a],[v,b],[v,c]],":-",[[[n,+],[[v,a],[v,b],[v,d]]],[[n,=],[[v,d],[v,c]]]]]],trace), | |
| eliminate_unused_predicates(Program22,Algorithms1,Algorithms2), | |
| %%writeln(eliminate_unused_predicates(Program22,Algorithms1,Algorithms2)), | |
| %%Algorithms2=[[[n,_],_,_,Body]|_],length(Body,1), | |
| %%(Program22=[[[n,function0],[[v,a],[v,b],[v,c]],":-",[[[n,function2],[[v,a],[v,b],[v,d]]],[[n,=],[[v,c],[v,d]]]]]]->writeln(eliminate_unused_predicates(Program22,Algorithms1,Algorithms2));true), | |
| %%trace, | |
| %%writeln(["1*",append(Algorithms2,Program22,Program2)]), %% ***** swapped a2,p22 | |
| %%[Program23]=Program22, | |
| %%not(member(Program23,Algorithms2)), | |
| append(Algorithms2,Program22,Program2), %% ***** swapped a2,p22 | |
| %%remvdup(Program2a,[],Program2), | |
| %%Algorithms2=Program2, | |
| %%not(Program2=[[[n,add0],[[v,a],[v,b],[v,c]],":-",[[[n,+],[[v,a],[v,b],[v,d]]],[[n,=],[[v,d],[v,c]]]]]]), | |
| %%(Program2=[[[n,1],[[v,a],[v,b],[v,c]],":-",[[[n,+],[[v,a],[v,b],[v,d]]],[[n,=],[[v,d],[v,c]]]]]]->trace;true), | |
| %%length(Program2,Program2L),not(Program2L=1), | |
| %%not(New_rule_number=1), | |
| %%=<MaxPredicates, | |
| %%([off,[[n,add0],[[1,2,3],[v,b]]],[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,add2],[[v,a],[v,d]]],[[n,=],[[v,d],[v,b]]]]]],[[[[v,b],[]]]]]=[Debug,Query,Program2,[VarLists]]->trace;true), | |
| %%append_last_rule(Program2), | |
| /** | |
| length(Program2,Program2L),(Program2L>=2->(%%writeln(here2),trace | |
| true);true), | |
| **/ | |
| debug(Debug), | |
| %%([off,[[n,add0],[[1,2,3],[v,b]]],[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,add0],[[v,a],[v,d]]],[[n,=],[[v,d],[v,b]]]]]],[[[[v,b],[]]]]]=[Debug,Query,Program2,[VarLists]]->%%true | |
| %%trace | |
| %%;true), | |
| %%([off,[[n,function3],[1,1,[v,c]]],[[[n,function1],[[v,a],[v,b],[v,c]],":-",[[[n,+],[[v,a],[v,b],[v,c]]]]],[[n,function3],[[v,a],[v,b],[v,c]],":-",[[[n,function1],[[v,a],[v,b],[v,d]]],[[n,=],[[v,d],[v,c]]]]]],[[[[v,c],2]]]]=[Debug,Query,Program2,[VarLists]]->true | |
| %%trace | |
| %%;true), | |
| %%writeln1([V,"\n",Program2]), | |
| %%writeln1(V), | |
| %%writeln1([program2,Program2]), | |
| %%writeln1([v,V]), | |
| %% add 0s | |
| %%(var(V)->true;(member([[n,add0],[[v,a],[v,b]],":-",[[[n,add3],[[v,a],[v,c]]],[[n,add0],[[v,c],[v,d]]],[[n,=],[[v,d],[v,b]]]]],V)->writeln1("v yes");true)), | |
| %%**()(V=[[[n,add3],[[v,a],[v,b]],":-",[[[n,tail],[[v,a],[v,b]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add3],[[v,a],[v,c]]],[[n,add0],[[v,c],[v,d]]],[[n,=],[[v,d],[v,b]]]]]]->writeln1("v yes");true), | |
| %%(var(Program2)->true;(member([[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,=],[[v,c],[v,b]]]]],Program2)->writeln1("p yes");true)), | |
| %%**()(Program2=[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,=],[[v,c],[v,b]]]]]]->writeln1("p yes");true), | |
| %%vyes(Program2), | |
| %%(((var(V)->true;(member([[n,add0],[[v,a],[v,b]],":-",[[[n,add3],[[v,a],[v,c]]],[[n,add0],[[v,c],[v,d]]],[[n,=],[[v,d],[v,b]]]]],V))),(var(Program2)->true;(member([[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,=],[[v,c],[v,b]]]]],Program2))))->trace;true), | |
| %%**()((not(var(V)),V=[[[n,add3],[[v,a],[v,b]],":-",[[[n,tail],[[v,a],[v,b]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add3],[[v,a],[v,c]]],[[n,add0],[[v,c],[v,d]]],[[n,=],[[v,d],[v,b]]]]]], | |
| %%Program2=[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,=],[[v,c],[v,b]]]]]])->trace;true), | |
| %%trace; | |
| %%true), | |
| %%writeln([program2,Program2]), | |
| %%(length(Program5,4)->writeln([program2,Program2])), | |
| %%(Program2=[[[n,add0],[[v,a],[v,b],[v,c],[v,d],[v,e]],":-",[[[n,+],[[v,a],[v,b],[v,f]]],[[n,+],[[v,c],[v,f],[v,g]]],[[n,+],[[v,d],[v,g],[v,h]]],[[n,=],[[v,h],[v,e]]]]]]->trace;true), | |
| %%writeln(["Press c."]),(get_single_char(97)->true;true), | |
| %%writeln1([interpret(Debug,Query,Program2,OutputVarList)]), | |
| %writeln1(interpret(Debug,Query,Program2,VarLists)), | |
| %%([Debug,Query,Program2,[VarLists]]=[off,[[n,add],[[],[1,2],[v,d]]],[[[n,add],[[v,a],[v,c],[v,d]],":-",[[[n,[]],[[v,a]]],[[n,=],[[v,c],[v,d]]]]]],[[[[v,d],[1,2]]]]]->trace;true), | |
| %%([Debug,Query,Program2,[VarLists]]=[off,[[n,add0],[[1,2,3],[v,b]]],[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,add2],[[v,a],[v,d]]],[[n,=],[[v,d],[v,b]]]]]],[[[[v,b],[]]]]]->trace;true), | |
| %%(Program2=[[[n,add2],[[v,a],[v,b]],":-",[[[n,=],[[v,a],[]]],[[n,=],[[v,b],[]]]]],[[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,add2],[[v,a],[v,d]]],[[n,=],[[v,d],[v,b]]]]]]->trace;true), | |
| %%interpret(Debug,Query,Program2,OutputVarList). | |
| %%aggregate_all(count,(member(Item,VarLists), | |
| %%varlists(VarLists02), | |
| %%( | |
| %%notrace, | |
| try_interpret(Positivity,Debug,Query,Program2,VarLists),%%trace,%%writeln(here), | |
| %%trace, | |
| %%trace, | |
| add_furthest_rule1(New_rule_number1,Program2), | |
| %%(Program2=[[[n,add],[[v,a],[v,b],[v,c],[v,d]],":-",[[[n,=],[[v,c],[v,d]]]]]]->true%%trace | |
| %%;true), | |
| %%trace, | |
| (no_singletons(Vars2,Program5)), | |
| %%writeln1(Program2), | |
| %%writeln1([cawptest,passed,Program2]),abort, | |
| %%->true;(%%notrace,fail)), | |
| %%writeln1(interpret(Debug,Query,Program2,[VarLists])), | |
| %%(furthest_rule(A)->writeln(furthest_rule(A));true),%%notrace, | |
| %%!. | |
| !.%%!. | |
| %%-> %% *** [VarLists] ? | |
| /**(VarLists03=VarLists02, | |
| %%retractall(varlists(_)), | |
| %%assertz(varlists(VarLists03)), | |
| Program2c=Program2);%%fail%% | |
| (Program2c=[],VarLists03=VarLists02,%%append(VarLists,VarLists02,VarLists03), | |
| retractall(varlists(_)), | |
| assertz(varlists(VarLists03)),fail | |
| ) | |
| ),!.%%),Count), **** [VarLists02] to VarLists02 | |
| %%length(OutputVarList,Count),!. | |
| **/ | |
| /** | |
| vyes(P):-%%((not(var(V)), | |
| (member([[n,add0],[[v,a],[v,b]],":-",[[[n,add3],[[v,a],[v,c]]],[[n,add0],[[v,c],[v,d]]],[[n,=],[[v,d],[v,b]]]]],P),writeln("pyes*****")).%%,(var(Program2)->true;(member([[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,=],[[v,c],[v,b]]]]],Program2)))). | |
| vyes(V):-%%((not(var(V)), | |
| (member([[n,add0],[[v,a],[v,b]],":-",[[[n,add2],[[v,a],[v,c]]],[[n,=],[[v,c],[v,b]]]]],V)),writeln("vyes*****")%%,(var(Program2)->true;(member([],Program2)))). | |
| . | |
| vyes(V):- | |
| true. | |
| **/ | |
| caw(Algorithms,Query,PredicateName,Rules,MaxLength,MaxPredicates,VarList,InputVars1,InputVars2,InputVars3,VarLists,OutputVars,Positivity,VarLists02,VarLists03,New_rule_number1,New_rule_number2,Program1,Program4,_V) :- | |
| %%writeln(here4), | |
| %%trace, | |
| %%writeln1(caw(Algorithms,Query,PredicateName,Rules,MaxLength,MaxPredicates,VarList,InputVars1,InputVars2,InputVars3,VarLists,OutputVars,Positivity,VarLists02,New_rule_number1,New_rule_number2,Program1,Program4)), | |
| %%trace, | |
| %%writeln([caw(Query,PredicateName,Rules,MaxLength,MaxPredicates,VarList,InputVars1,InputVars2,OutputVarList,OutputVars,Program1,Program4)]),? | |
| MaxLength>=0, %%*** | |
| MaxLength2 is MaxLength - 1, | |
| %%reverse(InputVars2,InputVars5), | |
| %%writeln([new_rule_number,New_rule_number,maxPredicates,MaxPredicates]), | |
| %%writeln(limit_reached(New_rule_number,MaxPredicates,Rules,PredicateName,InputVars1,OutputVars,Rules1)), | |
| %%trace, | |
| limit_reached(New_rule_number1,MaxPredicates,Rules,PredicateName,InputVars1,OutputVars,Rules1), %% *** Check these | |
| %%writeln([rules1,Rules1]), | |
| %%repeat, | |
| %%writeln(limit_reached(New_rule_number,MaxPredicates,Rules,PredicateName,InputVars1,OutputVars,Rules1)), | |
| %%get_char(_), | |
| %%trace, | |
| member([RuleName0,NumInputs0,NumOutputs0],Rules1), | |
| %%[RuleName0,NumInputs0,NumOutputs0]=[other_new_branch,_,_], | |
| %% **/ | |
| %%RuleName0=newrule123, | |
| %%writeln([member([RuleName,NumInputs,NumOutputs],Rules)]), | |
| %%writeln([rule(RuleName,NumInputs,NumOutputs,VarList,VarList2,Rule)]), | |
| %%retractall(newrulenumber(_)), | |
| %%assertz(newrulenumber(Newrulenumber1)), | |
| %%[InputVars2,VarLists,Positivity]=[VarLists0311,VarLists0312,_VarLists0313], *** | |
| %% **** InputVars1 or InputVars2? | |
| %%length(VarLists0311,VarLists0311L), | |
| %%length(VarLists0312,VarLists0312L), | |
| %%***newbranchifcall(RuleName0,PredicateName,Itema), | |
| numInputs(NumInputs1a),numOutputs(NumOutputs1a), | |
| member(NumInputs1,NumInputs1a),%%[1,2,3]),%%,0,2,3]), %%*** 4 | |
| member(NumOutputs1,NumOutputs1a),%%[0,1]),%%,0,2,3]), %%*** 4 | |
| %%writeln([i,o,NumInputs1,NumOutputs1]), | |
| %%*** caw x when creates a new pred, num extra clauses 0-2, doesn't add rule to pred, returns vl03 for (rules in) this pred | |
| caw3(RuleName0,Algorithms,Algorithms2,NumInputs0,NumOutputs0,New_rule_number1,New_rule_number3,Rules,PredicateName,Program1,VarList,VarList2,InputVars2,InputVars4,OutputVars,Rule,NumInputs1,NumOutputs1,VarLists02,VarLists04,MaxPredicates,Rules2), | |
| %%->true | |
| %%; | |
| %% InputVars5->InputVars2 | |
| %%writeln([rule(RuleName,NumInputs,NumOutputs,InputVars1,InputVars3,VarList,VarList2,Rule)]), | |
| %%writeln(not(member(Rule,Program1))), | |
| not(member(Rule,Program1)), %% Need to stop repeats of arity 1 calls | |
| append(Program1,[Rule],Program3), | |
| %%writeln([inputVars3,InputVars3]), | |
| %%InputVars2=InputVars3, | |
| %%writeln([program4,Program4]), | |
| %%retractall(varlists(_)), | |
| %%assertz(varlists(VarLists02)), | |
| %%writeln1( caw(Algorithms2,Query,PredicateName,Rules2,MaxLength2,MaxPredicates,VarList2,InputVars1,InputVars4,InputVars3,VarLists,OutputVars,Positivity,VarLists02,New_rule_number3,New_rule_number2,Program3,Program4)), | |
| caw(Algorithms2,Query,PredicateName,Rules2,MaxLength2,MaxPredicates,VarList2,InputVars1,InputVars4,InputVars3,VarLists,OutputVars,Positivity,VarLists04,VarLists03,New_rule_number3,New_rule_number2,Program3,Program4,_Algorithms2). | |
| caw3(RuleName0,Algorithms,Algorithms2,NumInputs0,NumOutputs0,New_rule_number,New_rule_number1,Rules,PredicateName,Program1,VarList,VarList2,InputVars2,InputVars4,OutputVars,Rule,_NumInputs1,_NumOutputs1,VarLists02,VarLists02,_MaxPredicates,Rules2) :- | |
| %% rules_existing | |
| not(RuleName0=predicatename_new_branch),not(RuleName0=other_new_branch),not(RuleName0=[rules_new_branch,_]), | |
| not(RuleName0=predicatename_existing), | |
| %%trace, | |
| find_rule_name(RuleName0,RuleName2), | |
| Algorithms2=Algorithms,%%RuleName=RuleName0, | |
| NumInputs=NumInputs0,NumOutputs=NumOutputs0,New_rule_number1 = New_rule_number,Rules2=Rules, | |
| rulename_if_limit(RuleName2,PredicateName,RuleName), | |
| rule(Program1,RuleName,NumInputs,NumOutputs,InputVars2,InputVars4,VarList,VarList2,OutputVars,Rule). | |
| caw3(RuleName0,Algorithms,Algorithms2,NumInputs0,NumOutputs0,New_rule_number,New_rule_number1,Rules,PredicateName,Program1,VarList,VarList2,InputVars2,InputVars4,OutputVars,Rule,NumInputs1,NumOutputs1,VarLists02,VarLists03,MaxPredicates,Rules2) :- | |
| %%Number_of_clauses2=1, %% Not tested nonrecursive multiclauses - use bottom up | |
| member(Number_of_clauses1,[1]),%%,3,4]), | |
| (Number_of_clauses1>=MaxPredicates->Number_of_clauses2=MaxPredicates;Number_of_clauses2=Number_of_clauses1), | |
| create_multiple_nonrecursive_clauses(Number_of_clauses2,RuleName0,Algorithms,Algorithms2,NumInputs0,NumOutputs0,New_rule_number,New_rule_number1,Rules,PredicateName,Program1,VarList,VarList2,InputVars2,InputVars4,OutputVars,Rule,NumInputs1,NumOutputs1,VarLists02,VarLists03,MaxPredicates,Rules2). | |
| create_multiple_nonrecursive_clauses(0,_RuleName0,Algorithms,Algorithms,_NumInputs0,_NumOutputs0,New_rule_number,New_rule_number,Rules,_PredicateName,_Program1,VarList,VarList,InputVars,InputVars,_OutputVars,_Rule, _NumInputs1,_NumOutputs1,VarLists02,VarLists02,_MaxPredicates,Rules) :- | |
| !. | |
| create_multiple_nonrecursive_clauses(Number_of_clauses1,RuleName0,Algorithms,Algorithms2,NumInputs0,NumOutputs0,New_rule_number1,New_rule_number3,Rules,PredicateName,Program1,VarList,VarList2,InputVars2,InputVars4,OutputVars,Rule,NumInputs1,NumOutputs1,VarLists02,VarLists03,MaxPredicates,Rules2) :- | |
| caw4a(RuleName0,New_rule_number1,Rules,PredicateName,NumInputs0,NumOutputs0,NumInputs1,NumOutputs1,Rules3,New_rule_number4,RuleName), | |
| %%writeln(before4b), | |
| %%trace, | |
| caw4b(VarLists02,VarLists04,Algorithms,New_rule_number5,MaxPredicates,New_rule_number4,Program1,RuleName,NumInputs1,NumOutputs1,InputVars2,InputVars5,VarList,VarList3,OutputVars,Rule,Algorithms3,Rules3), | |
| %%trace, | |
| Number_of_clauses2 is Number_of_clauses1-1, | |
| create_multiple_nonrecursive_clauses(Number_of_clauses2,RuleName0,Algorithms3,Algorithms2,NumInputs0,NumOutputs0,New_rule_number5,New_rule_number3,Rules3,PredicateName,Program1,VarList3,VarList2,InputVars5,InputVars4,OutputVars,Rule,NumInputs1,NumOutputs1,VarLists04,VarLists03,MaxPredicates,Rules2). | |
| caw4a(RuleName0,New_rule_number,Rules,_PredicateName,_NumInputs0,_NumOutputs0,NumInputs1,NumOutputs1,Rules2,New_rule_number1,RuleName) :- | |
| RuleName0=other_new_branch, %% Command from Rules with new branch | |
| %%trace, | |
| New_rule_number1 is New_rule_number+1, | |
| %%not(New_rule_number1=2), | |
| RuleName=[n,New_rule_number1], | |
| append(Rules,[[RuleName,NumInputs1,NumOutputs1]],Rules2) | |
| . | |
| caw4a(RuleName0,New_rule_number,Rules,PredicateName,NumInputs0,NumOutputs0,_NumInputs1,_NumOutputs1,Rules2,New_rule_number1,RuleName) :- | |
| RuleName0=predicatename_new_branch, %% New branch with same name as current predicate | |
| RuleName=[n,PredicateName], | |
| New_rule_number1 is New_rule_number+1, | |
| append(Rules,[[RuleName,NumInputs0,NumOutputs0]],Rules2) | |
| . | |
| caw4a(RuleName0,New_rule_number,Rules,_PredicateName,NumInputs0,NumOutputs0,_NumInputs1,_NumOutputs1,Rules2,New_rule_number1,RuleName) :- | |
| RuleName0=[rules_new_branch,RuleName], %% New branch with same name as current predicate | |
| %%trace, | |
| %%RuleName=[n,RuleName1], | |
| New_rule_number1 is New_rule_number+1, | |
| append(Rules,[[RuleName,NumInputs0,NumOutputs0]],Rules2) | |
| . | |
| caw4a(RuleName0,New_rule_number,Rules,PredicateName,NumInputs0,NumOutputs0,_NumInputs1,_NumOutputs1,Rules2,New_rule_number1,RuleName) :- | |
| RuleName0=predicatename_existing, | |
| %%trace, | |
| find_rule_name(RuleName0,RuleName2), | |
| %%Algorithms2=Algorithms, | |
| %%RuleName=RuleName0, *** not this | |
| %%NumInputs1=NumInputs0,NumOutputs1=NumOutputs0,%% n i,o epsilon to 1 | |
| New_rule_number1 = New_rule_number,%%Rules2=Rules, | |
| rulename_if_limit(RuleName2,PredicateName,RuleName), | |
| append(Rules,[[RuleName,NumInputs0,NumOutputs0]],Rules2) | |
| . | |
| %%rule(Program1,RuleName,NumInputs,NumOutputs,InputVars2,InputVars4,VarList,VarList2,OutputVars,Rule). | |
| caw4b(VarLists02,VarLists03,Algorithms,New_rule_number2,MaxPredicates,New_rule_number1,Program1,RuleName,NumInputs1,NumOutputs1,InputVars2,InputVars4,VarList,VarList2,OutputVars,Rule,Algorithms2,Rules2) :- | |
| %%writeln1(append(Rules,[[RuleName,NumInputs0,NumOutputs0]],Rules2)), | |
| %%MaxPredicates2 is MaxPredicates-1, | |
| maxlength(MaxLength3), | |
| %%writeln( caw01(VarLists02,Algorithms,New_rule_number1,New_rule_number2,Rules2,MaxLength3,MaxPredicates,New_rule_number1,[],Program2)), | |
| %%writeln(here3), | |
| %%trace, | |
| %%writeln( RuleName=[_,RuleName1]), | |
| RuleName=[_,RuleName1], | |
| caw01(VarLists02,VarLists03,Algorithms,%%New_rule_number1 | |
| RuleName1 | |
| ,Rules2,MaxLength3,MaxPredicates,New_rule_number1,New_rule_number2,[],Program2,_Program12), %% *** VarLists02 | |
| %%writeln(here4), | |
| %%to [VarLists02] | |
| %%Program2=[[[[n,1],[[v,a],[v,b],[v,c]],":-",[[[n,+],[[v,a],[v,b],[v,d]]],[[n,=],[[v,d],[v,c]]]]]]], | |
| %%writeln([caw01,Program2]), | |
| %%trace, | |
| rule(Program1,RuleName,NumInputs1,NumOutputs1,InputVars2,InputVars4,VarList,VarList2,OutputVars,Rule), | |
| %%trace, | |
| %%writeln(["2*",append(Program2,Algorithms,Algorithms2)]), %% *** swapped a,p2 | |
| %%[Program2a]=Program2, | |
| %%not(member(Program2a,Algorithms)), | |
| %append(Program2,Algorithms,Algorithms2) %% *** swapped a,p2 | |
| Program2=Algorithms2 | |
| . | |
| find_rule_name(RuleName0,RuleName2) :- | |
| RuleName0=[_,RuleName1],RuleName2=RuleName1. | |
| find_rule_name(RuleName0,RuleName2) :- | |
| not(RuleName0=[_,_RuleName1]),RuleName2=RuleName0. | |
| try_interpret(Positivity,Debug,Query,Program2,VarLists) :- | |
| Positivity=true,catch(call_with_time_limit(0.05, | |
| international_interpret([lang,"en"],Debug,Query,Program2,[VarLists])), | |
| time_limit_exceeded, | |
| fail),!. | |
| try_interpret(Positivity,Debug,Query,Program2,VarLists) :- | |
| not(Positivity=true),catch(call_with_time_limit(0.05, | |
| not(international_interpret([lang,"en"],Debug,Query,Program2,[VarLists]))), | |
| time_limit_exceeded, | |
| fail),!. | |
| append_last_rule(Program2):- | |
| lastrule(LastRule1), | |
| append_last_rule1(Program2,LastRule1). | |
| %%append_last_rule1(_Program2,LastRule1) :- | |
| %% LastRule1=[],!. | |
| append_last_rule1(Program2,LastRule1) :- | |
| %% not(LastRule1=[]), | |
| not(member(Program2,LastRule1)), | |
| append(LastRule1,[Program2],LastRule2), | |
| retractall(lastrule(_)), | |
| assertz(lastrule(LastRule2)). | |
| add_furthest_rule1(New_rule_number,Program1) :- | |
| furthest_rule(Rule),Rule=[Number,Rules], | |
| add_furthest_rule2(New_rule_number,Number,Rules,Program1). | |
| /**add_furthest_rule2(New_rule_number,Number,_Rules,Program1) :- | |
| New_rule_number>Number, | |
| retractall(furthest_rule(_)), | |
| assertz(furthest_rule([New_rule_number,[Program1]])),!. | |
| **/ | |
| add_furthest_rule2(New_rule_number,_Number,Rules,Program1) :- | |
| %%trace, | |
| %%New_rule_number=Number, | |
| retractall(furthest_rule(_)), | |
| delete(Rules,Program1,Rules1), | |
| append(Rules1,[Program1],Rules2), | |
| assertz(furthest_rule([New_rule_number,Rules2])). | |
| /**add_furthest_rule2(New_rule_number,Number,_Rules,_Program1) :- | |
| New_rule_number<Number,!. | |
| **/ | |
| rulename_if_limit(RuleName0,PredicateName,RuleName) :- | |
| RuleName0=predicatename_existing,RuleName=[n,PredicateName],!. | |
| rulename_if_limit(RuleName0,_PredicateName,RuleName) :- | |
| not(RuleName0=predicatename_existing),RuleName=RuleName0. | |
| /** | |
| everyvarmentioned(Vars1,Program) :- | |
| everyvarmentioned1(Vars1,Program). | |
| %%underscore_occurs_once_per_var(Vars1,Program). | |
| everyvarmentioned1([],_Program) :- !. | |
| everyvarmentioned1(Vars1,Program) :- | |
| Vars1=[Vars2|Vars3], | |
| findall(Vars2,(member(C,Program),( | |
| %%(C=[[n,"_"],[[v,b]]]->(true);true), | |
| C=[_E,D], | |
| member(Vars2,D) | |
| %%Vars2=true | |
| )),B),not(B=[]), | |
| everyvarmentioned1(Vars3,Program). | |
| **/ | |
| no_singletons(Vars1,Program):- | |
| findall(DA,(member(C,Program),C=[_E,D],member(DA,D)),Vars2), | |
| %%append_list(Vars2,Vars2A), | |
| append(Vars1,Vars2,Vars3), | |
| findall(Count1,(member(Item,Vars3),aggregate_all(count,(member(Item,Vars3)),Count1), | |
| Count1=1),G),G=[]. | |
| /** | |
| underscore_occurs_once_per_var([],_,_Program) :- !. | |
| underscore_occurs_once_per_var(Vars1,Program) :- | |
| findall(Var,(aggregate_all(count,(member(Var,Vars1), | |
| member(C,Program),C=[[n,"_"],[Var]]),Count),Count=<1),List), | |
| not(List=[]). | |
| **/ | |
| limit_reached(New_rule_number,MaxPredicates,Rules0,PredicateName,InputVars1,OutputVars,Rules1) :- | |
| New_rule_number<MaxPredicates, | |
| length(InputVars1,InputVars1L), | |
| length(OutputVars,OutputVarsL), | |
| pred_already_in_list1(PredicateName,InputVars1L,OutputVarsL,Rules0,Rules), | |
| append(Rules,[[predicatename_new_branch,InputVars1L,OutputVarsL], %% Uncommented for test 7, commented for test 7 | |
| [other_new_branch,_,_] %% commented for test 7 | |
| ],Rules1),!. | |
| limit_reached(New_rule_number,MaxPredicates,Rules0,PredicateName,InputVars1,OutputVars,Rules1) :- | |
| New_rule_number>=MaxPredicates, | |
| length(InputVars1,InputVars1L), | |
| length(OutputVars,OutputVarsL), | |
| pred_already_in_list1(PredicateName,InputVars1L,OutputVarsL,Rules0,Rules1). | |
| pred_already_in_list1(PredicateName,InputVars1L,OutputVarsL,Rules0,Rules) :- | |
| pred_already_in_list2(PredicateName,InputVars1L,OutputVarsL,Rules0,Rules). | |
| pred_already_in_list2(PredicateName,InputVars1L,OutputVarsL,Rules0,Rules) :- | |
| member([[n,PredicateName],InputVars1L,OutputVarsL],Rules0), | |
| apply_rules_existing_and_new_branch(Rules0,Rules),!. | |
| pred_already_in_list2(PredicateName,InputVars1L,OutputVarsL,Rules0,Rules) :- | |
| not(member([[n,PredicateName],InputVars1L,OutputVarsL],Rules0)), | |
| apply_rules_existing_and_new_branch(Rules0,Rules01), | |
| append(Rules01,[[predicatename_existing,InputVars1L,OutputVarsL] %% Uncommented for test 7 | |
| ],Rules). | |
| apply_rules_existing_and_new_branch(Rules1,Rules2) :- | |
| apply_rules_existing_and_new_branch2(Rules1,Rules3), | |
| apply_rules_existing_and_new_branch3(Rules1,Rules4), | |
| append(Rules3,Rules4,Rules2). | |
| apply_rules_existing_and_new_branch2(Rules1,Rules2) :- | |
| findall([A,C1,C2],(member(B,Rules1),B=[A1,C1,C2],member(D,[rules_existing | |
| ]),A=[D,A1]),Rules2). | |
| apply_rules_existing_and_new_branch3(Rules1,Rules2) :- | |
| findall([A,C1,C2],(member(B,Rules1),B=[A1,C1,C2],member(D,[%%rules_new_branch | |
| ]),A=[D,A1]),Rules2). | |
| %%append(Rules,[[predicatename_existing,InputVars1L,OutputVarsL]%%%%,[other_existing,_,_] | |
| %%],Rules1),!. | |
| /** | |
| newbranchifcall(RuleName0,PredicateName,Itema):- | |
| RuleName0=[n,PredicateName],member(Itema,[useexisting,newbranch]). | |
| newbranchifcall(RuleName0,PredicateName,Itema):- | |
| not(RuleName0=[n,PredicateName]),Itema=useexisting. | |
| **/ | |
| varnames([],Vars,Vars,Values,Values) :- !. | |
| varnames(VarList,Vars1,Vars2,Values1,Values2) :- | |
| VarList=[Var|Vars3], | |
| Var=[VarName,Value], | |
| append(Vars1,[VarName],Vars4), | |
| append(Values1,[Value],Values3), | |
| varnames(Vars3,Vars4,Vars2,Values3,Values2),!. | |
| /** | |
| %%addrules(_,_,[],PV,PV,Program,Program) :- !. | |
| addrules(VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program3) :- | |
| writeln1(addrules(VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program3)), | |
| %%trace, | |
| OutputVars2=[],%%[OutputVar|OutputVars3], | |
| member(Var,VarList), | |
| %%member(OutputVar,OutputVars1),%%() | |
| append(VarList,OutputVars1,OutputVars4), | |
| member(Var2,OutputVars4), | |
| append(Program1,[[[n,=],[Var,Var2%%OutputVar | |
| ]]],Program3), | |
| append(PenultimateVars1,[Var],PenultimateVars2). | |
| **/ | |
| /** | |
| %%addrules(VarList,OutputVars1,OutputVars3,PenultimateVars3,PenultimateVars2,Program3,Program2). | |
| addrules(VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program2) :- | |
| %%trace, | |
| OutputVars2=[OutputVar|OutputVars3], | |
| member(Var,VarList), | |
| member(OutputVar,OutputVars1),%%() | |
| append(VarList,OutputVars1,OutputVars4), | |
| member(Var2,OutputVars4), | |
| append(Program1,[[[n,=],[Var,Var2%%OutputVar | |
| ]]],Program3), | |
| append(PenultimateVars1,[Var],PenultimateVars3), | |
| addrules(VarList,OutputVars1,OutputVars3,PenultimateVars3,PenultimateVars2,Program3,Program2). | |
| **/ | |
| addrules(VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program2) :- | |
| find_addrules_outputvars(OutputVars1,OutputVars3), | |
| addrules1(OutputVars3,VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program2).%%;( | |
| addrules1([],_VarList,_OutputVars1,_OutputVars2,PenultimateVars,PenultimateVars,Program,Program) :- !. | |
| addrules1(OutputVars3,VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program2) :- | |
| OutputVars3=[_OutputVars31|OutputVars32], | |
| addrules2(VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars3,Program1,Program3), | |
| addrules1(OutputVars32,VarList,OutputVars1,OutputVars2,PenultimateVars3,PenultimateVars2,Program3,Program2). | |
| addrules2([],_,_,PV,PV,Program,Program) :- !. | |
| addrules2([[v,_]],_,_,PV,PV,Program,Program) :- !. | |
| addrules2(VarList,OutputVars1,_OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program3) :- %%*** Underscored OutputVars2 | |
| %%writeln1(addrules(VarList,OutputVars1,OutputVars2,PenultimateVars1,PenultimateVars2,Program1,Program3)), | |
| %%trace, | |
| %%OutputVars2=[],%%[OutputVar|OutputVars3], | |
| member(Var,VarList), | |
| %%member(OutputVar,OutputVars1),%%() | |
| append(VarList,OutputVars1,OutputVars4), | |
| member(Var2,OutputVars4), | |
| not(Var=Var2), | |
| append(Program1,[[[n,=],[Var,Var2%%OutputVar | |
| ]]],Program3), | |
| append(PenultimateVars1,[Var],PenultimateVars2). | |
| find_addrules_outputvars(OutputVars1,OutputVars3) :- | |
| OutputVars1=[],OutputVars3=[_],!. | |
| find_addrules_outputvars(OutputVars1,OutputVars3) :- | |
| not(OutputVars1=[]),OutputVars3=OutputVars1. | |
| %% optimise([[append,[a,a,d]],[append,[a,a,e]],[append,[a,a,f]],[append,[a,b,g]]],[g],P). | |
| /**** | |
| optimise(Program1,InputVars1,InputVars2,PenultimateVars,Program2) :- | |
| findrulesflowingtopv1(Program1,InputVars1,InputVars2,PenultimateVars,[],Rules,true), | |
| %%findrulesflowingtopv1a(Program1,_Program32,InputVars1,InputVars2,PenultimateVars,[],_Rules1), | |
| intersection(Program1,Rules,Program3), | |
| unique1(Program3,[],Program2). | |
| findrulesflowingtopv1(_,_,_,[],Rules,Rules,false). | |
| findrulesflowingtopv1(Program0,InputVars1,InputVars2,Var,Rules1,Rules2,IV1Flag1) :- | |
| (Var=[v,_]),%%***;length(Var,1)), | |
| findrulesflowingtopv20(Program0,Program0,InputVars1,InputVars2,Var,Rules1,Rules2,IV1Flag1). | |
| findrulesflowingtopv1(Program0,InputVars1,InputVars2,Vars1,Rules1,Rules2,IV1Flag1) :- | |
| Vars1=[Var|Vars2], | |
| findrulesflowingtopv20(Program0,Program0,InputVars1,InputVars2,Var,Rules1,Rules3,IV1Flag2), | |
| findrulesflowingtopv1(Program0,InputVars1,InputVars2,Vars2,Rules3,Rules2,IV1Flag3), | |
| iv1flagdisjunction(IV1Flag2,IV1Flag3,IV1Flag1). | |
| %%findrulesflowingtopv2([],Program,Program,_,_,Rules,Rules). | |
| findrulesflowingtopv20(_,[],_InputVars1,_InputVars2,_Var,Rules,Rules,false). | |
| findrulesflowingtopv20(Program0,Rules4,InputVars1,InputVars2,Var,Rules1,Rules2,IV1Flag1) :- | |
| Rules4=[Rule|Rules], | |
| (findrulesflowingtopv2(Program0,Rule,InputVars1,InputVars2,Var,Rules1,Rules3,IV1Flag2)->true;(Rules3=Rules1,IV1Flag2=false)), | |
| %%delete(Program0,Rule,Program1), | |
| findrulesflowingtopv20(Program0,Rules,InputVars1,InputVars2,Var,Rules3,Rules2,IV1Flag3),%%p1->0 | |
| iv1flagdisjunction(IV1Flag2,IV1Flag3,IV1Flag1). | |
| %%findrulesflowingtopv2(_,[],[],_,_,_,Rules,Rules). | |
| findrulesflowingtopv2(Program0,Rule,InputVars1,InputVars2,Var,Rules1,Rules2,IV1Flag1) :- | |
| Rule=[[n,_PredicateName],Vars], | |
| restlast(Vars,[],Rest,Var), | |
| %%delete(Program1,[PredicateName,Vars],Program2), | |
| %%Program2=Program1, | |
| %%(not(intersection(Rulesx,Rules1))-> x | |
| %% append, append, unique1 | |
| %%append(Rules1,[Rule],Rules3);Rules3=Rules1), | |
| %%member(Var2,Rest), | |
| %%member(Var2,InputVars1), | |
| length(Rest,Length1), Length1>=1, | |
| subtract(Rest,InputVars1,IV3s), | |
| length(IV3s,Length3), | |
| subtract(Rest,IV3s,IV1s), | |
| length(IV1s,Length2), Length2>=1, | |
| subtract(IV3s,InputVars2,[]), | |
| IV1Flag2=true, | |
| %%delete(Program0,Rule,Program1), | |
| %%(delete(Program0,Rule,Program3), | |
| %%iv3s1(IV3s,Program3,IV3s,[]), | |
| (Length3>=1-> | |
| (findrulesflowingtopv1(Program0,InputVars1,InputVars2,IV3s,[],Rules5,IV1Flag3),not(Rules5=[])); | |
| (Rules5=[],IV1Flag3=false)), | |
| iv1flagdisjunction(IV1Flag2,IV1Flag3,IV1Flag4), | |
| %%->true; Rules5=[],IV1Flag1=IV1Flag4), | |
| ((findrulesflowingtopv1(Program0,InputVars1,InputVars2,IV1s,[],Rules6,IV1Flag5), %%iv1s->rest, etc | |
| iv1flagdisjunction(IV1Flag4,IV1Flag5,IV1Flag1))->true;(Rules6=[],IV1Flag1=IV1Flag4)), | |
| append([Rule],Rules1,Rules9), | |
| append(Rules9,Rules5,Rules7), | |
| append(Rules7,Rules6,Rules8), | |
| unique1(Rules8,[],Rules2). | |
| ** | |
| findrulesflowingtopv2(_Program0,Rule,InputVars1,InputVars2,Var,Rules1,Rules2,IV1Flag1) :- | |
| Rule=[_PredicateName,Vars], | |
| restlast(Vars,[],Rest,Var), | |
| %%delete(Program1,[PredicateName,Vars],Program2), | |
| %%Program2=Program1, | |
| (not(member(Rule,Rules1))-> | |
| append(Rules1,[Rule],Rules2);Rules2=Rules1), | |
| subset(Rest,InputVars2), | |
| intersection(Rest,InputVars1,Intersection), | |
| length(Intersection,0), | |
| %% not((member(Var2,Rest), | |
| %% member(Var2,InputVars1))), | |
| IV1Flag1=false. | |
| ** | |
| ** | |
| findrulesflowingtopv2(Program0,Rule,InputVars1,InputVars2,Var,Rules1,Rules2,IV1Flag1) :- | |
| Rule=[_PredicateName,Vars], | |
| restlast(Vars,[],Rest,Var), | |
| %%delete(Program1,[PredicateName,Vars],Program3), | |
| %%Program3=Program1, | |
| %%append(Rules1,[Rule],Rules3), | |
| subset(Rest,InputVars2), | |
| intersection(Rest,InputVars1,Intersection), | |
| length(Intersection,0), | |
| %% not((member(Var2,Rest), | |
| %% member(Var2,InputVars1))), | |
| %% delete(Program0,Rule,Program1), | |
| IV1Flag2=false, | |
| findrulesflowingtopv1(Program0,InputVars1,InputVars2,Rest,[],Rules4,IV1Flag3), | |
| %%not(Rules4=[]), | |
| iv1flagdisjunction(IV1Flag2,IV1Flag3,IV1Flag1), | |
| append(Rules1,[Rule],Rules7), | |
| append(Rules7,Rules4,Rules8), | |
| unique1(Rules8,[],Rules2). | |
| ** | |
| ** | |
| %%->true;(Program2=Program1,Rules2=Rules1)). | |
| findrulesflowingtopv2(Rule,Program0,Program1,_Program2,InputVars1,InputVars,Var,Rules1,Rules2,IV1Flag1) :- | |
| Rule=[PredicateName,Vars], | |
| restlast(Vars,[],Rest,Var), | |
| %%delete(Program1,[PredicateName,Vars],Program4), | |
| %%Program4=Program1, | |
| append(Rules1,[[PredicateName,Vars]],Rules3), | |
| findrulesflowingtopv1(Program0,Program1,_Program2,InputVars1,InputVars,Rest,Rules3,Rules2,IV1Flag3), | |
| iv1flagdisjunction(IV1Flag2,IV1Flag3,IV1Flag1). | |
| %%findrulesflowingtopv2(Program5,Program2,Rest,Rules3,Rules2). | |
| ** | |
| iv1flagdisjunction(A,B,true) :- | |
| (A=true); (B=true). | |
| iv1flagdisjunction(_,_,false). | |
| ** | |
| iv3s0([],_,IV3s1,IV3s2). | |
| iv3s0(IV3s,Program0,IV3s1,IV3s2). | |
| IV3s=[IV3|IV3s3], | |
| iv3s1(IV3,Program0,IV3s1,IV3s4), | |
| iv3s0(IV3s3,Program0,IV3s4,IV3s2). | |
| iv3s1(_,[],IV3s,IV3s). | |
| iv3s1(IV3,Program0,IV3s1,IV3s2) :- | |
| Program0=[Rule|Rules], | |
| iv3s2(IV3,Rule,IV3s1,IV3s3), | |
| iv3s1(IV3,Rules,IV3s3,IV3s2). | |
| iv3s2(IV3,Rule,IV3s,IV3s1,IV3s2). | |
| Rule=[_PredicateName,Vars], | |
| restlast(Vars,[],_Rest,IV3), | |
| delete(IV3s1,IV3,IV3s2). | |
| findrulesflowingtopv1a(_,_,_,_,[],Rules,Rules). | |
| findrulesflowingtopv1a(Program1,Program2,InputVars1,InputVars2,Var,Rules1,Rules2) :- | |
| atom(Var), | |
| findrulesflowingtopv2a(Program1,Program2,InputVars1,InputVars2,Var,Rules1,Rules2). | |
| findrulesflowingtopv1a(Program1,Program2,InputVars1,InputVars2,Vars1,Rules1,Rules2) :- | |
| Vars1=[Var|Vars2], | |
| findrulesflowingtopv2(Program1,Program3,InputVars1,InputVars2,Var,Rules1,Rules3), | |
| findrulesflowingtopv1a(Program3,Program2,InputVars1,InputVars2,Vars2,Rules3,Rules2). | |
| %%findrulesflowingtopv2([],Program,Program,_,_,Rules,Rules). | |
| findrulesflowingtopv2a([],[],_,_,_,Rules,Rules). | |
| findrulesflowingtopv2a(Program1,Program2,_InputVars1,InputVars2,Var,Rules1,Rules2) :- | |
| member([PredicateName,Vars],Program1), | |
| restlast(Vars,[],Rest,Var), | |
| ( | |
| %%delete(Program1,[PredicateName,Vars],Program2), | |
| Program2=Program1, | |
| append(Rules1,[[PredicateName,Vars]],Rules2), | |
| subset(Rest,InputVars2)). | |
| findrulesflowingtopv2a(Program1,Program2,InputVars1,InputVars2,Var,Rules1,Rules2) :- | |
| member([PredicateName,Vars],Program1), | |
| restlast(Vars,[],Rest,Var), | |
| ( | |
| %%delete(Program1,[PredicateName,Vars],Program3), | |
| Program3=Program1, | |
| append(Rules1,[[PredicateName,Vars]],Rules3), | |
| subset(Rest,InputVars2)), | |
| findrulesflowingtopv1a(Program3,Program2,InputVars1,InputVars2,Rest,Rules3,Rules2). | |
| %%->true;(Program2=Program1,Rules2=Rules1)). | |
| findrulesflowingtopv2a(Program1,Program2,InputVars1,InputVars,Var,Rules1,Rules2) :- | |
| member([PredicateName,Vars],Program1), | |
| restlast(Vars,[],Rest,Var), | |
| %%delete(Program1,[PredicateName,Vars],Program4), | |
| Program4=Program1, | |
| append(Rules1,[[PredicateName,Vars]],Rules3), | |
| findrulesflowingtopv1a(Program4,Program2,InputVars1,InputVars,Rest,Rules3,Rules2). | |
| %%findrulesflowingtopv2(Program5,Program2,Rest,Rules3,Rules2). | |
| ** | |
| **/ | |
| restlast([],_,_,_) :- fail, !. | |
| restlast([Last],Rest,Rest,Last) :- | |
| Last=[v,_],!. | |
| restlast(Last,Rest,Rest,Last) :- | |
| length(Last,1),!. | |
| restlast(Vars1,Rest1,Rest2,Last) :- | |
| Vars1=[Var|Vars2], | |
| append(Rest1,[Var],Rest3), | |
| restlast(Vars2,Rest3,Rest2,Last),!. | |
| rule(Program1,RuleName,InModes,OutModes,InputVars1,InputVars2,VarList,VarList2,OutputVars,Rule) :- | |
| /* | |
| findall(Rule_vars1,member([_Rule_name,Rule_vars1],Program1),Rule_vars2),foldr(append,Rule_vars2,Rule_vars3), | |
| % count vars | |
| sort(Rule_vars3,K), | |
| findall(G,(member(G,K),findall(G,member(G,Rule_vars3),H),length(H,J),J>2),L), | |
| % remove vars occuring more than twice | |
| %(not(InputVars10=[])->trace;true), | |
| (var(InputVars10)->InputVars10=InputVars1;subtract(InputVars10,L,InputVars1)), | |
| (var(VarList0)->VarList0=VarList;subtract(VarList0,L,VarList)), | |
| %notrace, | |
| */ | |
| %trace, | |
| %writeln1(rule(Program1,RuleName,InModes,OutModes,InputVars1,InputVars2,VarList,VarList2,OutputVars,Rule)), | |
| %notrace, | |
| rule1(RuleName,InModes,OutModes,InputVars1,InputVars2a,VarList,VarList2a,OutputVars,Rule1), | |
| ((1 is InModes+OutModes,member(Rule1,Program1))->(InputVars1=[_|InputVars3],rule(Program1,RuleName,InModes,OutModes,InputVars3,InputVars2,VarList,VarList2,OutputVars,Rule2),Rule=Rule2);(%%InputVars1=InputVars3, *** Commented out | |
| Rule=Rule1,InputVars2=InputVars2a,VarList2a=VarList2)) | |
| %%writeln1(Rule),(Rule=[[n,-],[[v,c],[v,c],[v,d]]]->true;true) | |
| .%%->writeln(rule(RuleName,InModes,OutModes,InputVars1,InputVars2,VarList,VarList2,OutputVars,Rule));true).%%(writeln(stop),abort)). | |
| %%. | |
| rule1(RuleName,InModes,OutModes,InputVars1,InputVars2,VarList,VarList2,OutputVars,Rule) :- | |
| %%writeln(rule(RuleName,InModes,OutModes,InputVars1,InputVars2,VarList,VarList2,OutputVars,Rule)), | |
| get_members(InModes,InputVars1,[],Vars1), | |
| rulea(OutModes,RuleName,Vars1,VarList,VarList2, | |
| Rule,OutputVars,Vars2), | |
| (num_modes(OutModes,Last,InputVars1), | |
| (equals_or(Vars1,Last)->true;equals_or(Vars2,Last))), | |
| append(InputVars1,Vars2,InputVars2) | |
| %%retractall(lastrule(_)), | |
| %%assertz(lastrule(Rule)), | |
| . | |
| num_modes(OutModes,Last,_InputVars1) :- | |
| OutModes=0,Last=[],!. | |
| num_modes(OutModes,Last,InputVars1) :- | |
| not(OutModes=0),restlast(InputVars1,[],_,Last),!. | |
| member_functions(Rule,Algorithms,Item) :- | |
| member(Item,Algorithms), | |
| Item=[Rule|_Rest]. | |
| %%get_members(0,_,Vars,Vars):-true. | |
| get_members(_,[],Vars,Vars). | |
| get_members(InModes1,InputVars,Vars1,Vars2) :- | |
| (not(InModes1=0)->( | |
| %%findnsols(InModes1,A,(member(A,InputVars)),Vars2). | |
| %%length(Vars2,InModes1),append(Vars2,_,InputVars). | |
| member(Var,InputVars), | |
| %%InputVars=[Var|InputVars2], | |
| %%delete(InputVars,Var,InputVars2), | |
| append(Vars1,[Var],Vars3), | |
| InModes2 is InModes1-1, | |
| get_members(InModes2,InputVars,Vars3,Vars2)); | |
| Vars1=Vars2). %%InModes2->1 | |
| equals_or([],_) :- true,!.%%fail.*** | |
| equals_or(List,Item) :- | |
| List=[Item|_Rest],!. | |
| equals_or(List,Item1) :- | |
| List=[Item2|Rest], | |
| not(Item1=Item2), | |
| equals_or(Rest,Item1),!. | |
| rulea(OutModes,RuleName,Vars1,VarList,VarList3,Rule,OutputVars,Vars2) :- | |
| get_vars(OutModes,VarList,VarList3,OutputVars,[],Vars2), | |
| append(Vars1,Vars2,Vars3), | |
| Rule=[RuleName,Vars3],!. | |
| get_vars(0,VarList,VarList,_,Vars,Vars) :- !. | |
| get_vars(OutModes1,VarList1,VarList2,OutputVars,Vars1,Vars2) :- | |
| var(VarList1,Var,VarList3,OutputVars), | |
| append(Vars1,[Var],Vars3), | |
| OutModes2 is OutModes1 - 1, | |
| get_vars(OutModes2,VarList3,VarList2,OutputVars,Vars3,Vars2),!. | |
| /** | |
| rule(RuleName,1,1,InputVars1,InputVars2,VarList,VarList2,Rule) :- | |
| member(Var,InputVars1), | |
| rule2(RuleName,Var,VarList,VarList2,Rule,Var1), | |
| append(InputVars1,[Var1],InputVars2). | |
| rule2(RuleName,Var,VarList,VarList2,Rule,Var1) :- | |
| var(VarList,Var1,VarList2), | |
| Rule=[RuleName,[Var,Var1]],!. | |
| rule(RuleName,1,2,InputVars1,InputVars2,VarList,VarList2,Rule) :- | |
| member(Var,InputVars1), | |
| rule3(RuleName,Var,VarList,VarList2,Rule,Vars), | |
| append(InputVars1,Vars,InputVars2). | |
| rule3(RuleName,Var,VarList,VarList3,Rule,[Var1,Var2]) :- | |
| var(VarList,Var1,VarList2), | |
| var(VarList2,Var2,VarList3), | |
| Rule=[RuleName,[Var,Var1,Var2]],!. | |
| rule(RuleName,2,1,InputVars1,InputVars2,VarList,VarList2,Rule) :- | |
| member(Var,InputVars1), | |
| member(Vara,InputVars1), | |
| rule4(RuleName,Var,Vara,VarList,VarList2,Rule,Var1), | |
| append(InputVars1,[Var1],InputVars2). | |
| rule4(RuleName,Var,Vara,VarList,VarList2,Rule,Var1) :- | |
| var(VarList,Var1,VarList2), | |
| Rule=[RuleName,[Var,Vara,Var1]],!. | |
| rule(RuleName,2,2,InputVars1,InputVars2,VarList,VarList2,Rule) :- | |
| member(Var,InputVars), | |
| member(Vara,InputVars), | |
| rule5(RuleName,Var,Vara,VarList,VarList2,Rule,Vars), | |
| append(InputVars1,Vars,InputVars2). | |
| rule5(RuleName,Var,Vara,VarList,VarList3,Rule,[Var1,Var2]) :- | |
| var(VarList,Var1,VarList2), | |
| var(VarList2,Var2,VarList3), | |
| Rule=[RuleName,[Var,Vara,Var1,Var2]],!. | |
| **/ | |
| %%var(Item,Var,Vars,Vars) :- | |
| %% member([Item,Var],Vars). | |
| var(Vars1,Var1,Vars2,OutputVars) :- | |
| length(Vars1,Vars1Length1), | |
| Vars1Length2 is Vars1Length1-1, | |
| length(Vars3,Vars1Length2), | |
| append(Vars3,[Var2A],Vars1), | |
| Var2A=[v,Var2], | |
| char_code(Var2,Var2Code1), | |
| Var2Code2 is Var2Code1 + 1, | |
| var2(Var2Code2,Var1A,OutputVars), | |
| Var1=[v,Var1A], | |
| append(Vars1,[Var1],Vars2),!. | |
| var2(Code,Var1,OutputVars) :- | |
| %%outputvars(OutputVars), | |
| totalvars(TotalVars), | |
| Code2 is 96+TotalVars, | |
| Code =< Code2, %% 122 | |
| char_code(Var1,Code), | |
| not(member(Var1,OutputVars)),!. | |
| var2(Var2Code,Code3,OutputVars) :- | |
| Var2Code2 is Var2Code + 1, | |
| totalvars(TotalVars), | |
| Code2 is 96+TotalVars, | |
| Var2Code2 =< Code2, | |
| var2(Var2Code2,Code3,OutputVars),!. | |
| /** | |
| algorithmstopredicates1([],Predicates1,Predicates1) :-!. | |
| algorithmstopredicates1(Algorithms1,Predicates1,Predicates2) :- | |
| Algorithms1=[Algorithm1|Algorithms2], | |
| Algorithm1=[_TestNumber,_Queries,Algorithm3], | |
| algorithmstopredicates2(Algorithm3,[],Algorithm4), | |
| append_list(Predicates1,Algorithm4,Predicates4), | |
| algorithmstopredicates1(Algorithms2,Predicates4,Predicates2). | |
| algorithmstopredicates2([],Predicates1,Predicates1) :- !. | |
| algorithmstopredicates2(Algorithms1,Predicates1,Predicates2) :- | |
| Algorithms1=[Algorithm1|Algorithms2], | |
| Algorithm1=[Name,In,Out|Rest], | |
| append(Predicates1,[[Name,In,Out|Rest]],Predicates4), | |
| algorithmstopredicates2(Algorithms2,Predicates4, | |
| Predicates2). | |
| **/ | |
| split3([],List,List) :- !. | |
| split3(Predicates1,List1,List2) :- | |
| Predicates1=[Item1|List4], | |
| Item1= [[[n,Name],In,Out]|_Rest], | |
| append(List1,[[[n,Name],In,Out]],List6), | |
| split3(List4,List6,List2),!. | |
| split2([],List,List) :- !. | |
| split2(Predicates1,List1,List2) :- | |
| Predicates1=[Item1|List4], | |
| Item1= [[[n,Name],_In,_Out]|Rest], | |
| append(List1,[[[n,Name]|Rest]],List6), | |
| split2(List4,List6,List2),!. | |
| /** | |
| split2([],List,List) :- !. | |
| split2(Predicates1,List1,List2) :- | |
| Predicates1=[Item1|List4], | |
| Item1=[[n,[Name,[[test,Test1],[numin,Numin], | |
| [numout,Numout]]]]|Rest], | |
| member([[n,[Name,[[test,_Test3],[numin,Numin], | |
| [numout,Numout]]]]|Rest],List4), | |
| delete(List4,[[n,[Name,[[test,_Test4],[numin,Numin], | |
| [numout,Numout]]]]|Rest], | |
| List7), | |
| append(List1,[[[n,[Name,[[test,Test1],[numin,Numin], | |
| [numout,Numout]]]]|Rest]],List6), | |
| split2(List7,List6,List2),!. | |
| split2(Predicates1,List1,List2) :- | |
| Predicates1=[Item1|List4], | |
| Item1=[[n,[Name,[[test,Test1],[numin,Numin], | |
| [numout,Numout]]]]|Rest], | |
| append(List1,[[[n,[Name,[[test,Test1],[numin,Numin], | |
| [numout,Numout]]]]|Rest]],List6), | |
| split2(List4,List6,List2),!. | |
| append_list(A,[],A):-!. | |
| append_list(A,List,B) :- | |
| List=[Item|Items], | |
| append(A,[Item],C), | |
| append_list(C,Items,B). | |
| **/ | |
| eliminate_unused_predicates(Program1a,Algorithms1a,Algorithms2) :- | |
| %% System calls and mode arities | |
| %%System_calls=[[is,1,1],[+,2,1],[=,2,1],[wrap,1,1], | |
| %%[unwrap,1,1],[head,1,1],[tail,1,1],[member,1,1], | |
| %%[delete,2,1],[append,2,1]], %% Ignore whether system calls are in Program and Algorithm - the interpreter will have detected whether system and user predicates clash earlier | |
| Program1a=[[[n, PredicateName], Arguments, ":-", _Body]], | |
| length(Arguments,ArgumentsLength), | |
| Start=[[[n,PredicateName],ArgumentsLength]], | |
| convert_to_grammar_part1(Program1a,[],_Program1b,Program1), | |
| %% Find calls in Program | |
| %%writeln([program1,Program1]), | |
| find_calls1(Start,Program1,[],Program2), | |
| %%writeln([program2,Program2]), | |
| %% Find calls in Algorithm | |
| convert_to_grammar_part1(Algorithms1a,[],_Algorithms1b,Algorithms1), | |
| %%writeln([algorithms1,Algorithms1]), | |
| find_calls1(Program2,Algorithms1,[],Algorithms3), | |
| %%writeln([algorithms3,Algorithms3]), | |
| append(Program2,Algorithms3,Rules), | |
| %% Eliminate user predicates mentioned in Program and Algorithms in Algorithms | |
| eliminate_unused_predicates1(Rules,Algorithms1,[], | |
| Algorithms2). | |
| find_calls1(_,[],Program,Program) :- !. | |
| find_calls1(Program0,Program1,Program2,Program3) :- | |
| Program1=[[_Program4a,Program4]|Program5], | |
| %% The first predicate in Program4 only is needed to find the calls x | |
| (findall(Program7a,(((member([[n,PredicateName],Arguments,":-",Program6],Program4)->true;((member([[n,PredicateName],Arguments],Program4),Program6=[])->true;Program4=[[n,PredicateName],Arguments,":-",Program6])), | |
| length(Arguments,ArgumentsLength), | |
| Item=[[n,PredicateName],ArgumentsLength], | |
| (member(Item,Program0)->Program6=Program6a;Program6a=[])%%->true; | |
| %%Item=Program0 | |
| ), | |
| (find_calls2(Program6a,[],Program7a))),[Program7])), | |
| %%append(Program2,Program7,Program8), | |
| %%append(Program0,Program7,Program01)); | |
| %%(Program8=Program2,Program01=Program0)), | |
| append(Program2,Program7,Program8), | |
| append(Program0,Program7,Program01), | |
| find_calls1(Program01,Program5,Program8,Program3). | |
| find_calls2([],Program,Program) :- !. | |
| /** | |
| find_calls2(Program1,Program2,Program3) :- | |
| Program1=[Line|Program41], | |
| Line=[[n,code]|Program42], | |
| find_calls2(Program41,Program2,Program5), | |
| append(Program5,Program42,Program6), | |
| find_calls2(Program6,[],Program3). | |
| **/ | |
| find_calls2(Program1,Program2,Program3) :- | |
| Program1=[Line|Program4], | |
| (Line=[[n,PredicateName],Arguments]-> | |
| length(Arguments,ArgumentsLength); | |
| (Line=[[n,PredicateName]],ArgumentsLength=0)), %% correct syntax is [true] not true | |
| Item=[[[n,PredicateName],ArgumentsLength]], | |
| append(Program2,Item,Program5), | |
| find_calls2(Program4,Program5,Program3). | |
| eliminate_unused_predicates1(_Rules,[],Algorithms,Algorithms) :- !. | |
| eliminate_unused_predicates1(Rules,Algorithms1,Algorithms2,Algorithms3) :- | |
| Algorithms1=[[Algorithms4a,Algorithms4]|Algorithms5], | |
| %%(Algorithms4a=[]-> | |
| %%eliminate_unused_predicates1(Rules,Algorithms5,Algorithms2, | |
| %%Algorithms3),%%; | |
| ((findall(Algorithms6a,(((member(Algorithms4a1,Algorithms4),Algorithms4a1=[[n,_]|_])->true;Algorithms4a1=Algorithms4), ((Algorithms4a1=[[n,PredicateName],Arguments,":-",_Program6], | |
| %%Algorithms4a1=[[n,PredicateName],Arguments])-> | |
| length(Arguments,ArgumentsLength))->true; | |
| (Algorithms4a1=[[n,PredicateName],Arguments2], | |
| length(Arguments2,ArgumentsLength)->true; | |
| (Algorithms4a1=[[n,PredicateName]],ArgumentsLength=0))), | |
| Item=[[n,PredicateName],ArgumentsLength], | |
| (member(Item,Rules)-> | |
| (Algorithms4a=[]->Algorithms2=Algorithms6a; | |
| append(Algorithms2, | |
| [Algorithms4a],Algorithms6a)); | |
| Algorithms6a=Algorithms2)),Algorithms6b)), | |
| Algorithms6b=[Algorithms6c|_], | |
| (var(Algorithms6c)->Algorithms6=[];Algorithms6=Algorithms6c), | |
| %%length(Algorithms4,Count)), | |
| eliminate_unused_predicates1(Rules,Algorithms5,Algorithms6, | |
| Algorithms3)). | |