| /***************************************************************** |
| Time-stamp: <2008-10-29 10:42:42 banbara> |
| |
| NAME |
| am2j: Translating WAM-based Intermediate Code into Java |
| |
| USAGE |
| # sicstus |
| ?- [am2j]. |
| ?- am2j([File]). |
| |
| # sicstus |
| ?- [am2j]. |
| ?- am2j([File, Dir]). |
| |
| PARAMETERS |
| File is an input WAM-based Intermediate file name. |
| |
| DESCRIPTION |
| This program translates WAM-based intermediate codes into Java. |
| For each predicate p/n, the file named "PRED_p_n.java" is generated. |
| Generated files can be compiled and executed by usual |
| java utilities (ex. javac) with the Prolog Cafe runtime system. |
| |
| COPYRIGHT |
| am2j (Translating WAM-based Intermediate Code into Java) |
| Copyright (C) 1997-2008 by |
| Mutsunori Banbara (banbara@kobe-u.ac.jp) and |
| Naoyuki Tamura (tamura@kobe-u.ac.jp) |
| |
| SEE ALSO |
| http://kaminari.istc.kobe-u.ac.jp/PrologCafe/ |
| *****************************************************************/ |
| |
| /***************************************************************** |
| Declarations |
| *****************************************************************/ |
| :- op(1170, xfx, (:-)). |
| :- op(1170, xfx, (-->)). |
| :- op(1170, fx, (:-)). |
| :- op(1170, fx, (?-)). |
| :- op(1150, fx, (public)). |
| :- op(1150, fx, (package)). % Prolog Cafe specific |
| |
| :- dynamic dest_dir/1. |
| :- dynamic current_arity/1. |
| :- dynamic current_package/1. |
| |
| % :- module('com.googlecode.prolog_cafe.compiler.am2j', [main/0,am2j/1]). |
| package(_). |
| :- package 'com.googlecode.prolog_cafe.compiler.am2j'. |
| :- public main/0, am2j/1. |
| /***************************************************************** |
| Main |
| *****************************************************************/ |
| main :- |
| read(X), |
| am2j(X). |
| |
| am2j([File]) :- !, am2j([File, '.']). |
| am2j([File,Dir]) :- |
| retractall(dest_dir(_)), |
| assert(dest_dir(Dir)), |
| open(File, read, In), |
| repeat, |
| read(In, X), |
| write_java(X, In), |
| X == end_of_file, |
| !, |
| close(In). |
| |
| write_java(X, _) :- var(X), !, |
| am2j_error([unbound,variable,is,found]), |
| fail. |
| write_java(end_of_file, _) :- !. |
| write_java((:- G), _) :- !, call(G). |
| write_java(begin_predicate(P, F/A), In) :- |
| clause(dest_dir(Dir), _), |
| retractall(current_package(_)), |
| retractall(current_arity(_)), |
| assert(current_package(P)), |
| assert(current_arity(A)), |
| predicate_encoding(F, F1), |
| package_encoding(P, PDir), |
| list_to_string([Dir,'/',PDir], SrcDir), |
| list_to_string([SrcDir,'/','PRED_',F1,'_',A,'.java'], SrcFile), |
| mkdirs(SrcDir), |
| open(SrcFile, write, Out), |
| write(Out, 'package '), |
| write_package(P, Out), |
| write(Out, ';'), |
| nl(Out), |
| repeat, |
| read(In, X), |
| write_java0(X, In, Out), |
| X == end_predicate(P, F/A), |
| close(Out), |
| !. |
| write_java(X, _) :- |
| am2j_error([X,is,an,invalid,argument,in,write_java/2]), |
| fail. |
| |
| /***************************************************************** |
| Write Java |
| *****************************************************************/ |
| write_java0(X, _, _) :- var(X), !, |
| am2j_error([unbound,variable,is,found]), |
| fail. |
| write_java0([], _, _) :- !. |
| write_java0([X|Xs], In, Out) :- !, |
| write_java0(X, In, Out), |
| write_java0(Xs, In, Out). |
| write_java0(end_predicate(_, _), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, '}'), nl(Out), |
| write(Out, '}'), nl(Out). |
| write_java0(comment(Comment), _, Out) :- !, |
| numbervars(Comment, 0, _), |
| tab(Out, 4), |
| write(Out, '// '), |
| writeq(Out, Comment), nl(Out). |
| write_java0(debug(Comment), _, Out) :- !, |
| numbervars(Comment, 0, _), |
| write(Out, '// '), |
| writeq(Out, Comment), nl(Out). |
| write_java0(info([FA,File|_]), _, Out) :- !, |
| write(Out, '/*'), nl(Out), |
| write(Out, ' '), writeq(Out, FA), |
| write(Out, ' defined in '), write(Out, File), nl(Out), |
| write(Out, ' This file is generated by Prolog Cafe.'), nl(Out), |
| write(Out, ' PLEASE DO NOT EDIT!'), nl(Out), |
| write(Out, '*/'), nl(Out). |
| write_java0(import_package(P), _, Out) :- !, |
| write(Out, 'import '), |
| write_package(P, Out), |
| write(Out, '.*;'), nl(Out). |
| write_java0(import_package(P,FA), _, Out) :- !, |
| write(Out, 'import '), |
| write_package(P, Out), |
| write(Out, '.'), |
| (FA = _/_ -> |
| write_class_name(FA, Out) |
| ; |
| write_package(FA, Out) |
| ), |
| write(Out, ';'), nl(Out). |
| write_java0((Label: Instruction), In, Out) :- !, |
| write_label(Label, Out), |
| write_java0(Instruction, In, Out). |
| write_java0(label(fail/0), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static final Operation '), |
| write_index(fail/0, Out), |
| write(Out, ' = com.googlecode.prolog_cafe.lang.Failure.FAIL_0'), |
| write(Out, ';'), nl(Out). |
| write_java0(label(L), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static final Operation '), |
| write_index(L, Out), |
| write(Out, ' = new '), |
| write_class_name(L, Out), |
| write(Out, '();'), nl(Out). |
| write_java0(goto(L), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'return '), |
| write_index(L, Out), |
| write(Out, ';'), nl(Out). |
| write_java0(setB0, _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'engine.setB0();'), nl(Out). |
| write_java0(deref(_,void), _, _) :- !. |
| write_java0(deref(Ri,Rj), _, Out) :- !, |
| tab(Out, 8), |
| write_reg(Rj, Out), |
| write(Out, ' = '), |
| write_reg(Ri, Out), |
| write(Out, '.dereference();'), nl(Out). |
| write_java0(set(_,void), _, _) :- !. |
| write_java0(set(Ri,Rj), _, Out) :- !, |
| tab(Out, 8), |
| write_reg(Rj, Out), |
| write(Out, ' = '), |
| write_reg(Ri, Out), |
| write(Out, ';'), nl(Out). |
| write_java0(decl_term_vars([]), _, _) :- !. |
| write_java0(decl_term_vars(L), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'Term '), |
| write_reg_args(L, Out), |
| write(Out, ';'), nl(Out). |
| write_java0(decl_pred_vars([]), _, _) :- !. |
| write_java0(decl_pred_vars(L), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'Operation '), |
| write_reg_args(L, Out), |
| write(Out, ';'), nl(Out). |
| write_java0(put_cont(BinG,C), _, Out) :- !, |
| (BinG = P:G -> true ; BinG = G), |
| functor(G, F, A0), |
| A is A0-1, |
| G =.. [F|Args], |
| tab(Out, 8), |
| write_reg(C, Out), |
| write(Out, ' = new '), |
| (nonvar(P) -> write_package(P, Out), write(Out, '.') ; true), |
| write_class_name(F/A, Out), |
| write(Out, '('), |
| write_reg_args(Args, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(execute(cont), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'return cont;'), nl(Out). |
| write_java0(execute(BinG), _, Out) :- !, |
| (BinG = P:G -> true ; BinG = G), |
| functor(G, F, A0), |
| A is A0-1, |
| G =.. [F|Args], |
| tab(Out, 8), |
| write(Out, 'return new '), |
| (nonvar(P) -> write_package(P, Out), write(Out, '.') ; true), |
| write_class_name(F/A, Out), |
| write(Out, '('), |
| write_reg_args(Args, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(inline(G), In, Out) :- |
| write_inline(G, In, Out), |
| !. |
| write_java0(new_hash(Tag,I), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static final java.util.HashMap<Term, Operation> '), |
| (Tag == int -> write(Out, 'Int') ; write(Out, Tag)), |
| write(Out, ' = new java.util.HashMap<Term, Operation>('), |
| write(Out, I), |
| write(Out, ');'), nl(Out). |
| write_java0(put_hash(X,L,Tag), _, Out) :- !, |
| tab(Out, 8), |
| (Tag == int -> write(Out, 'Int') ; write(Out, Tag)), |
| write(Out, '.put('), |
| write_reg(X, Out), |
| write(Out, ', '), |
| write_index(L, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(static(Instrs), In, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static {'), nl(Out), |
| write_java0(Instrs, In, Out), |
| tab(Out, 4), |
| write(Out, '}'), nl(Out). |
| %%% Put Instructions |
| write_java0(put_var(X), _, Out) :- !, |
| tab(Out, 8), |
| write_reg(X, Out), |
| write(Out, ' = new VariableTerm(engine);'), nl(Out). |
| write_java0(put_int(I,X), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static final IntegerTerm '), |
| write_reg(X, Out), |
| write(Out, ' = new IntegerTerm('), |
| (java_integer(I) -> true; write(Out, 'new java.math.BigInteger("')), |
| write(Out, I), |
| (java_integer(I) -> true; write(Out, '")')), |
| write(Out, ');'), nl(Out). |
| write_java0(put_float(F,X), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static final DoubleTerm '), |
| write_reg(X, Out), |
| write(Out, ' = new DoubleTerm('), |
| write(Out, F), |
| write(Out, ');'), nl(Out). |
| write_java0(put_con(C,X), _, Out) :- !, |
| tab(Out, 4), |
| write(Out, 'static final SymbolTerm '), |
| write_reg(X, Out), |
| write(Out, ' = SymbolTerm.intern("'), |
| (C = F/A -> |
| write_constant(F, Out), write(Out, '", '), write(Out, A), write(Out, ');') |
| ; |
| write_constant(C, Out), write(Out, '");') |
| ), |
| nl(Out). |
| write_java0(put_list(Xi,Xj,Xk), _, Out) :- !, |
| (Xk = s(_) -> |
| tab(Out, 4), write(Out, 'static final ListTerm ') |
| ; |
| tab(Out, 8) |
| ), |
| write_reg(Xk, Out), |
| write(Out, ' = new ListTerm('), |
| write_reg(Xi, Out), |
| write(Out, ', '), |
| write_reg(Xj, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(put_str(Xi,Y,Xj), _, Out) :- !, |
| (Xj = s(_) -> |
| tab(Out, 4), write(Out, 'static final StructureTerm ') |
| ; |
| tab(Out, 8) |
| ), |
| write_reg(Xj, Out), |
| write(Out, ' = new StructureTerm('), |
| write_reg(Xi, Out), |
| write(Out, ', '), |
| write_reg(Y, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(put_str_args(Xs,Y), _, Out) :- !, |
| (Y = s(_) -> |
| tab(Out, 4), write(Out, 'static final ') |
| ; |
| tab(Out, 8) |
| ), |
| write(Out, 'Term[] '), |
| write_reg(Y, Out), |
| write(Out, ' = {'), |
| write_reg_args(Xs, Out), |
| write(Out, '};'), nl(Out). |
| write_java0(put_clo(G0, X), _, Out) :- !, |
| (G0 = P:G -> true ; G0 = G), |
| functor(G, F, A), |
| G =.. [F|Args0], |
| am2j_append(Args0, ['null'], Args), |
| tab(Out, 8), |
| write_reg(X, Out), |
| write(Out, ' = new ClosureTerm(new '), |
| (nonvar(P) -> write_package(P, Out), write(Out, '.') ; true), |
| write_class_name(F/A, Out), |
| write(Out, '('), |
| write_reg_args(Args, Out), |
| write(Out, '));'), nl(Out). |
| %%% Get Instructions |
| write_java0(get_val(Xi,Xj), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'if (! '), write_reg(Xi, Out), write(Out, '.unify('), |
| write_reg(Xj, Out), write(Out, ', engine.trail))'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'return engine.fail();'), nl(Out). |
| %write_java0(get_int(_,Xi,Xj), In, Out) :- !, |
| % write_java0(get_val(Xi, Xj), In, Out). |
| write_java0(get_int(N,Xi,Xj), In, Out) :- !, |
| write_java0(deref(Xj,Xj), In, Out), |
| % read mode |
| tab(Out, 8), |
| write(Out, 'if ('), write_reg(Xj, Out), write(Out, '.isInteger()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'if (((IntegerTerm) '), write_reg(Xj, Out), write(Out, ').intValue() != '), |
| write(Out, N), write(Out, ')'), nl(Out), |
| tab(Out, 16), |
| write(Out, 'return engine.fail();'), nl(Out), |
| % write mode |
| tab(Out, 8), |
| write(Out, '} else if ('), write_reg(Xj, Out), write(Out, '.isVariable()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, '((VariableTerm) '), write_reg(Xj, Out), write(Out, ').bind('), |
| write_reg(Xi, Out), write(Out, ', engine.trail);'), nl(Out), |
| tab(Out, 8), |
| % otherwise fail |
| write(Out, '} else {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'return engine.fail();'), nl(Out), |
| tab(Out, 8), |
| write(Out, '}'), nl(Out). |
| %write_java0(get_float(_,Xi,Xj), In, Out) :- !, |
| % write_java0(get_val(Xi, Xj), In, Out). |
| write_java0(get_float(N,Xi,Xj), In, Out) :- !, |
| write_java0(deref(Xj,Xj), In, Out), |
| % read mode |
| tab(Out, 8), |
| write(Out, 'if ('), write_reg(Xj, Out), write(Out, '.isDouble()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'if (((DoubleTerm) '), write_reg(Xj, Out), write(Out, ').doubleValue() != '), |
| write(Out, N), write(Out, ')'), nl(Out), |
| tab(Out, 16), |
| write(Out, 'return engine.fail();'), nl(Out), |
| % write mode |
| tab(Out, 8), |
| write(Out, '} else if ('), write_reg(Xj, Out), write(Out, '.isVariable()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, '((VariableTerm) '), write_reg(Xj, Out), write(Out, ').bind('), |
| write_reg(Xi, Out), write(Out, ', engine.trail);'), nl(Out), |
| tab(Out, 8), |
| % otherwise fail |
| write(Out, '} else {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'return engine.fail();'), nl(Out), |
| tab(Out, 8), |
| write(Out, '}'), nl(Out). |
| %write_java0(get_con(_,Xi,Xj), In, Out) :- !, |
| % write_java0(get_val(Xi, Xj), In, Out). |
| write_java0(get_con(_,Xi,Xj), In, Out) :- !, |
| write_java0(deref(Xj,Xj), In, Out), |
| % read mode |
| tab(Out, 8), |
| write(Out, 'if ('), write_reg(Xj, Out), write(Out, '.isSymbol()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'if (! '), |
| write_reg(Xj, Out), write(Out, '.equals('), write_reg(Xi, Out), |
| write(Out, '))'), nl(Out), |
| tab(Out, 16), |
| write(Out, 'return engine.fail();'), nl(Out), |
| % write mode |
| tab(Out, 8), |
| write(Out, '} else if ('), write_reg(Xj, Out), write(Out, '.isVariable()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, '((VariableTerm) '), write_reg(Xj, Out), write(Out, ').bind('), |
| write_reg(Xi, Out), write(Out, ', engine.trail);'), nl(Out), |
| tab(Out, 8), |
| % otherwise fail |
| write(Out, '} else {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'return engine.fail();'), nl(Out), |
| tab(Out, 8), |
| write(Out, '}'), nl(Out). |
| write_java0(get_ground(_,Xi,Xj), In, Out) :- !, |
| write_java0(get_val(Xi, Xj), In, Out). |
| write_java0(get_list(X), In, Out) :- !, |
| write_java0(deref(X,X), In, Out), |
| read_instructions(2, In, Us), |
| % read mode |
| tab(Out, 8), |
| write(Out, 'if ('), write_reg(X, Out), write(Out, '.isList()){'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'Term[] args = {((ListTerm)'), |
| write_reg(X, Out), write(Out, ').car(), ((ListTerm)'), |
| write_reg(X, Out), write(Out, ').cdr()};'), nl(Out), |
| write_unify_read(Us, 0, Out), |
| % write mode |
| tab(Out, 8), |
| write(Out, '} else if ('), write_reg(X, Out), write(Out, '.isVariable()){'), nl(Out), |
| write_unify_write(Us, Rs, Out), |
| tab(Out, 12), |
| write(Out, '((VariableTerm) '), write_reg(X, Out), write(Out, ').bind(new ListTerm('), |
| write_reg_args(Rs, Out), write(Out, '), engine.trail);'), nl(Out), |
| % otherwise fail |
| tab(Out, 8), |
| write(Out, '} else {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'return engine.fail();'), nl(Out), |
| tab(Out, 8), |
| write(Out, '}'), nl(Out). |
| write_java0(get_str(_F/A,Xi,Xj), In, Out) :- !, |
| write_java0(deref(Xj,Xj), In, Out), |
| read_instructions(A, In, Us), |
| % read mode |
| tab(Out, 8), |
| write(Out, 'if ('), write_reg(Xj, Out), write(Out, '.isStructure()){'), nl(Out), %??? == F |
| tab(Out, 12), |
| write(Out, 'if (! '), write_reg(Xi, Out), |
| write(Out, '.equals(((StructureTerm)'), write_reg(Xj, Out), |
| write(Out, ').functor()))'), nl(Out), |
| tab(Out, 16), |
| write(Out, 'return engine.fail();'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'Term[] args = ((StructureTerm)'), |
| write_reg(Xj, Out), write(Out, ').args();'), nl(Out), |
| write_unify_read(Us, 0, Out), |
| % write mode |
| tab(Out, 8), |
| write(Out, '} else if ('), write_reg(Xj, Out), write(Out, '.isVariable()){'), nl(Out), |
| write_unify_write(Us, Rs, Out), |
| tab(Out, 12), |
| write(Out, 'Term[] args = {'), write_reg_args(Rs, Out), write(Out, '};'), nl(Out), |
| tab(Out, 12), |
| write(Out, '((VariableTerm) '), write_reg(Xj, Out), write(Out, ').bind(new StructureTerm('), |
| write_reg(Xi, Out), write(Out, ', args), engine.trail);'), nl(Out), |
| % otherwise fail |
| tab(Out, 8), |
| write(Out, '} else {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'return engine.fail();'), nl(Out), |
| tab(Out, 8), |
| write(Out, '}'), nl(Out). |
| %%% Choice Instructions |
| write_java0(try(Li,Lj), _, Out) :- !, |
| clause(current_arity(A), _), |
| tab(Out, 8), |
| write(Out, 'return engine.jtry'), |
| ( A =< 8 -> |
| write(Out, A), write(Out, '(') |
| ; |
| write(Out, '('), write(Out, A), write(Out, ', ') |
| ), |
| write_index(Li, Out), |
| write(Out, ', '), |
| write_index(Lj, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(retry(Li,Lj), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'return engine.retry('), |
| write_index(Li, Out), |
| write(Out, ', '), |
| write_index(Lj, Out), |
| write(Out, ');'), nl(Out). |
| write_java0(trust(L), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'return engine.trust('), |
| write_index(L, Out), |
| write(Out, ');'), nl(Out). |
| %%% Indexing Instructions |
| write_java0(switch_on_term(Lv,Li,Lf,Lc,Ls,Ll), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'return engine.switch_on_term('), |
| write_index(Lv, Out), write(Out, ', '), |
| write_index(Li, Out), write(Out, ', '), |
| write_index(Lf, Out), write(Out, ', '), |
| write_index(Lc, Out), write(Out, ', '), |
| write_index(Ls, Out), write(Out, ', '), |
| write_index(Ll, Out), write(Out, ');'), nl(Out). |
| write_java0(switch_on_hash(Tag,_,L, _), _, Out) :- !, |
| tab(Out, 8), |
| write(Out, 'return engine.switch_on_hash('), |
| (Tag == int -> write(Out, 'Int') ; write(Out, Tag)), |
| write(Out, ', '), |
| write_index(L, Out), write(Out, ');'), nl(Out). |
| write_java0(Instruction, _, _) :- |
| am2j_error([Instruction,is,an,invalid,instruction]), |
| fail. |
| |
| /***************************************************************** |
| Write Label |
| *****************************************************************/ |
| write_label(main(F/A, Modifier), Out) :- !, |
| % Import class constants within translation unit |
| clause(current_package(P), _), |
| nl(Out), |
| write(Out, 'import static '), write_package(P, Out), write(Out, '.'), |
| write_class_name(F/A, Out), write(Out, '.*;'), |
| nl(Out), |
| nl(Out), |
| % Class definition |
| (Modifier == (public) -> write(Out, 'public ') ; true), |
| write(Out, 'final class '), |
| write_class_name(F/A, Out), |
| write(Out, ' extends '), |
| write_predicate_base_class(A, Out), |
| write(Out, ' {'), nl(Out). |
| write_label(F/A, Out) :- !, |
| % instance variable declaration |
| (A > 4 -> |
| nl(Out), |
| write_enum('private final Term ', arg, 5, A, ', ', ';', 4, Out), nl(Out) |
| ; |
| true |
| ), |
| % constructor |
| nl(Out), |
| write_constructor(F/A, Out), nl(Out), |
| % exec method |
| nl(Out), |
| tab(Out, 4), write(Out, '@Override'), nl(Out), |
| tab(Out, 4), |
| write(Out, 'public Operation exec(Prolog engine) {'), nl(Out). |
| write_label(L, Out) :- |
| tab(Out, 4), |
| write(Out, '}'), nl(Out), |
| write(Out, '}'), nl(Out), |
| nl(Out), |
| % class for control instructions and clauses |
| write(Out, 'final class '), |
| write_class_name(L, Out), |
| write(Out, ' extends Operation {'), nl(Out), |
| tab(Out, 4), write(Out, '@Override'), nl(Out), |
| tab(Out, 4), |
| write(Out, 'public Operation exec(Prolog engine) {'), nl(Out), !. |
| write_label(Instruction, _, _) :- |
| am2j_error([Instruction,is,an,invalid,instruction]), |
| fail. |
| |
| /***************************************************************** |
| Write Constructor |
| *****************************************************************/ |
| write_constructor(F/A, Out) :- |
| tab(Out, 4), write(Out, 'public '), |
| write_class_name(F/A, Out), write(Out, '('), |
| (A > 0 -> |
| write_enum('', 'Term a', 1, A, ', ', ', ', 0, Out) |
| ; |
| true |
| ), |
| write(Out, 'Operation cont) {'), nl(Out), |
| A > 0, |
| for(I, 1, A), |
| tab(Out, 8), |
| write(Out, 'this.'), write(Out, arg), write(Out, I), |
| write(Out, ' = '), |
| write(Out, a), write(Out, I), |
| write(Out, ';'), nl(Out), |
| fail. |
| write_constructor(_, Out) :- |
| tab(Out, 8), |
| write(Out, 'this.cont = cont;'), nl(Out), |
| tab(Out, 4), |
| write(Out, '}'). |
| |
| write_enum(Head, Sym, SN, EN, Delim, _, Tab, Out) :- |
| SN =< EN, |
| tab(Out, Tab), |
| write(Out, Head), |
| for(I, SN, EN), |
| write(Out, Sym), |
| write(Out, I), |
| (I < EN -> write(Out, Delim) ; true), |
| fail. |
| write_enum(_, _, SN, EN, _, Tail, _, Out) :- |
| SN =< EN, |
| write(Out, Tail). |
| |
| /***************************************************************** |
| Write Unify Instructions |
| *****************************************************************/ |
| %%% Read Mode |
| write_unify_read([], _, _) :- !. |
| write_unify_read([unify_void(I)|Xs], N, Out) :- !, |
| N1 is N+I, |
| write_unify_read(Xs, N1, Out). |
| write_unify_read([X|Xs], N, Out) :- |
| write_unify_r(X, N, Out), |
| N1 is N+1, |
| write_unify_read(Xs, N1, Out). |
| |
| write_unify_r(X, _, _) :- var(X), !, |
| am2j_error([unbound,variable,is,found]), |
| fail. |
| write_unify_r(unify_var(X), N, Out) :- !, |
| tab(Out, 12), |
| write_reg(X, Out), |
| write(Out, ' = '), |
| write_reg(args(N), Out), |
| write(Out, ';'), nl(Out). |
| write_unify_r(unify_val(X), N, Out) :- !, |
| tab(Out, 12), |
| write(Out, 'if (! '), |
| write_reg(X, Out), |
| write(Out, '.unify('), |
| write_reg(args(N), Out), |
| write(Out, ', engine.trail))'), nl(Out), |
| tab(Out, 16), |
| write(Out, 'return engine.fail();'), nl(Out). |
| write_unify_r(unify_int(_,X), N, Out) :- !, %??? |
| write_unify_r(unify_val(X), N, Out). |
| write_unify_r(unify_float(_,X), N, Out) :- !, %??? |
| write_unify_r(unify_val(X), N, Out). |
| write_unify_r(unify_con(_,X), N, Out) :- !, %??? |
| write_unify_r(unify_val(X), N, Out). |
| write_unify_r(unify_ground(_,X), N, Out) :- !, |
| write_unify_r(unify_val(X), N, Out). |
| write_unify_r(X, _, _) :- |
| am2j_error([X,is,an,invalid,instruction]), |
| fail. |
| |
| %%% Write Mode |
| write_unify_write([], [], _) :- !. |
| write_unify_write([unify_void(0)|Xs], Rs, Out) :- !, |
| write_unify_write(Xs, Rs, Out). |
| write_unify_write([unify_void(I)|Xs], [void|Rs], Out) :- |
| I > 0, |
| !, |
| I1 is I-1, |
| write_unify_write([unify_void(I1)|Xs], Rs, Out). |
| write_unify_write([X|Xs], [R|Rs], Out) :- |
| write_unify_w(X, R, Out), |
| write_unify_write(Xs, Rs, Out). |
| |
| write_unify_w(X, _, _) :- var(X), !, |
| am2j_error([unbound,variable,is,found]), |
| fail. |
| write_unify_w(unify_var(X), X, Out) :- !, |
| tab(Out, 12), |
| write_reg(X, Out), |
| write(Out, ' = new VariableTerm(engine);'), nl(Out). |
| write_unify_w(unify_val(X), X, _) :- !. |
| write_unify_w(unify_int(_,X), X, _) :- !. |
| write_unify_w(unify_float(_,X), X, _) :- !. |
| write_unify_w(unify_con(_,X), X, _) :- !. |
| write_unify_w(unify_ground(_,X), X, _) :- !. |
| write_unify_w(X, _, _) :- |
| am2j_error([X,is,an,invalid,instruction]), |
| fail. |
| |
| /***************************************************************** |
| Write Inline |
| *****************************************************************/ |
| write_inline(X, In, Out) :- |
| write_inline_start(X, Out), |
| write_inline0(X, In, Out), |
| write_inline_end(Out). |
| |
| write_inline_start(Goal, Out) :- |
| tab(Out, 8), |
| write(Out, '//START inline expansion of '), write(Out, Goal), nl(Out). |
| write_inline_end(Out) :- |
| tab(Out, 8), |
| write(Out, '//END inline expansion'), nl(Out). |
| |
| % Control constructs |
| write_inline0(fail, _, Out) :- !, |
| tab(Out, 8), write(Out, 'return engine.fail();'), nl(Out). |
| write_inline0('$get_level'(X), _, Out) :- !, |
| write_if_fail(op('!', unify(X,#('new IntegerTerm'('engine.B0')))), [], 8, Out). |
| write_inline0('$neck_cut', _, Out) :- !, |
| tab(Out, 8), write(Out, 'engine.neckCut();'), nl(Out). |
| write_inline0('$cut'(X), _, Out) :- !, |
| write_deref_args([X], Out), |
| tab(Out, 8), |
| write(Out, 'if (! '), write_reg(X, Out), write(Out, '.isInteger()) {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'throw new IllegalTypeException("integer", '), |
| write_reg(X, Out), write(Out, ');'), nl(Out), |
| tab(Out, 8), |
| write(Out, '} else {'), nl(Out), |
| tab(Out, 12), |
| write(Out, 'engine.cut(((IntegerTerm) '), write_reg(X, Out), |
| write(Out, ').intValue());'), nl(Out), |
| tab(Out, 8), |
| write(Out, '}'), nl(Out). |
| % Term unification |
| write_inline0('$unify'(X,Y), _, Out) :- !, write_if_fail(op('!', unify(X,Y)), [], 8, Out). |
| write_inline0('$not_unifiable'(X,Y), _, Out) :- !, write_if_fail(unify(X,Y), [], 8, Out). |
| % Type testing |
| write_inline0(var(X), _, Out) :- !, write_if_fail(op('!', @('isVariable'(X))), [X], 8, Out). |
| write_inline0(atom(X), _, Out) :- !, write_if_fail(op('!', @('isSymbol'(X))), [X], 8, Out). |
| write_inline0(integer(X), _, Out) :- !, write_if_fail(op('!', @('isInteger'(X))), [X], 8, Out). |
| write_inline0(float(X), _, Out) :- !, write_if_fail(op('!', @('isDouble'(X))), [X], 8, Out). |
| write_inline0(nonvar(X), _, Out) :- !, write_if_fail(@('isVariable'(X)), [X], 8, Out). |
| write_inline0(number(X), _, Out) :- !, write_if_fail(op('!', @('isNumber'(X))), [X], 8, Out). |
| write_inline0(java(X), _, Out) :- !, write_if_fail(op('!', @('isJavaObject'(X))), [X], 8, Out). |
| write_inline0(closure(X), _, Out) :- !, write_if_fail(op('!', @('isClosure'(X))), [X], 8, Out). |
| write_inline0(atomic(X), _, Out) :- !, |
| write_if_fail(op('&&',op('!',@('isSymbol'(X))), op('!',@('isNumber'(X)))), [X], 8, Out). |
| write_inline0(java(X,Y), _, Out) :- !, |
| write_if_fail(op('!', @('isJavaObject'(X))), [X], 8, Out), |
| EXP = #('SymbolTerm.create'(@(getName(@(getClass(@(object(cast('JavaObjectTerm',X))))))))), |
| write_if_fail(op('!', unify(Y,EXP)), [], 8, Out). |
| write_inline0(ground(X), _, Out) :- !, write_if_fail(op('!', @('isGround'(X))), [X], 8, Out). |
| % Term comparison |
| write_inline0('$equality_of_term'(X,Y), _, Out) :- !, write_if_fail(op('!',@('equals'(X,Y))), [X,Y], 8, Out). |
| write_inline0('$inequality_of_term'(X,Y), _, Out) :- !, write_if_fail(@('equals'(X,Y)), [X,Y], 8, Out). |
| write_inline0('$after'(X,Y), _, Out) :- !, write_if_fail(op('<=',@('compareTo'(X,Y)),0), [X,Y], 8, Out). |
| write_inline0('$before'(X,Y), _, Out) :- !, write_if_fail(op('>=',@('compareTo'(X,Y)),0), [X,Y], 8, Out). |
| write_inline0('$not_after'(X,Y), _, Out) :- !, write_if_fail(op('>', @('compareTo'(X,Y)),0), [X,Y], 8, Out). |
| write_inline0('$not_before'(X,Y), _, Out) :- !, write_if_fail(op('<', @('compareTo'(X,Y)),0), [X,Y], 8, Out). |
| write_inline0('$identical_or_cannot_unify'(X,Y), _, Out) :- !, |
| write_if_fail(op('&&', op('!',@('equals'(X,Y))), unify(X,Y)), [X,Y], 8, Out). |
| % Term creation and decomposition |
| write_inline0(copy_term(X,Y), _, Out) :- nonvar(X), nonvar(Y), !, |
| write_if_fail(op('!', unify(Y, #('engine.copy'(X)))), [X], 8, Out). |
| % Arithmetic evaluation |
| write_inline0(is(X,Y), _, Out) :- !, write_arith(_, Y, X, 8, Out). |
| write_inline0('$abs'(X,Y), _, Out) :- !, write_arith('abs', X, Y, 8, Out). |
| write_inline0('$asin'(X,Y), _, Out) :- !, write_arith('asin', X, Y, 8, Out). |
| write_inline0('$acos'(X,Y), _, Out) :- !, write_arith('acos', X, Y, 8, Out). |
| write_inline0('$atan'(X,Y), _, Out) :- !, write_arith('atan', X, Y, 8, Out). |
| write_inline0('$bitwise_conj'(X,Y,Z), _, Out) :- !, write_arith('and', X, Y, Z, 8, Out). |
| write_inline0('$bitwise_disj'(X,Y,Z), _, Out) :- !, write_arith('or', X, Y, Z, 8, Out). |
| write_inline0('$bitwise_exclusive_or'(X,Y,Z), _, Out) :- !, write_arith('xor', X, Y, Z, 8, Out). |
| write_inline0('$bitwise_neg'(X,Y), _, Out) :- !, write_arith('not', X, Y, 8, Out). |
| write_inline0('$ceil'(X,Y), _, Out) :- !, write_arith('ceil', X, Y, 8, Out). |
| write_inline0('$cos'(X,Y), _, Out) :- !, write_arith('cos', X, Y, 8, Out). |
| write_inline0('$degrees'(X,Y), _, Out) :- !, write_arith('toDegrees', X, Y, 8, Out). |
| write_inline0('$exp'(X,Y), _, Out) :- !, write_arith('exp', X, Y, 8, Out). |
| write_inline0('$float'(X,Y), _, Out) :- !, write_arith('toFloat', X, Y, 8, Out). |
| write_inline0('$float_integer_part'(X,Y), _, Out) :- !, write_arith('floatIntPart', X, Y, 8, Out). |
| write_inline0('$float_fractional_part'(X,Y), _, Out) :- !, write_arith('floatFractPart', X, Y, 8, Out). |
| write_inline0('$float_quotient'(X,Y,Z), _, Out) :- !, write_arith('divide', X, Y, Z, 8, Out). |
| write_inline0('$floor'(X,Y), _, Out) :- !, write_arith('floor', X, Y, 8, Out). |
| write_inline0('$int_quotient'(X,Y,Z), _, Out) :- !, write_arith('intDivide', X, Y, Z, 8, Out). |
| write_inline0('$log'(X,Y), _, Out) :- !, write_arith('log', X, Y, 8, Out). |
| write_inline0('$max'(X,Y,Z), _, Out) :- !, write_arith('max', X, Y, Z, 8, Out). |
| write_inline0('$min'(X,Y,Z), _, Out) :- !, write_arith('min', X, Y, Z, 8, Out). |
| write_inline0('$minus'(X,Y,Z), _, Out) :- !, write_arith('subtract', X, Y, Z, 8, Out). |
| write_inline0('$mod'(X,Y,Z), _, Out) :- !, write_arith('mod', X, Y, Z, 8, Out). |
| write_inline0('$multi'(X,Y,Z), _, Out) :- !, write_arith('multiply', X, Y, Z, 8, Out). |
| write_inline0('$plus'(X,Y,Z), _, Out) :- !, write_arith('add', X, Y, Z, 8, Out). |
| write_inline0('$pow'(X,Y,Z), _, Out) :- !, write_arith('pow', X, Y, Z, 8, Out). |
| write_inline0('$radians'(X,Y), _, Out) :- !, write_arith('toRadians', X, Y, 8, Out). |
| write_inline0('$rint'(X,Y), _, Out) :- !, write_arith('rint', X, Y, 8, Out). |
| write_inline0('$round'(X,Y), _, Out) :- !, write_arith('round', X, Y, 8, Out). |
| write_inline0('$shift_left'(X,Y,Z), _, Out) :- !, write_arith('shiftLeft', X, Y, Z, 8, Out). |
| write_inline0('$shift_right'(X,Y,Z), _, Out) :- !, write_arith('shiftRight', X, Y, Z, 8, Out). |
| write_inline0('$sign'(X,Y), _, Out) :- !, write_arith('signum', X, Y, 8, Out). |
| write_inline0('$sin'(X,Y), _, Out) :- !, write_arith('sin', X, Y, 8, Out). |
| write_inline0('$sqrt'(X,Y), _, Out) :- !, write_arith('sqrt', X, Y, 8, Out). |
| write_inline0('$tan'(X,Y), _, Out) :- !, write_arith('tan', X, Y, 8, Out). |
| write_inline0('$truncate'(X,Y), _, Out) :- !, write_arith('truncate', X, Y, 8, Out). |
| % Arithmetic comparison |
| write_inline0('$arith_equal'(X,Y), _, Out) :- !, write_arith_compare('!=', X, Y, 8, Out). |
| write_inline0('$arith_not_equal'(X,Y), _, Out) :- !, write_arith_compare('==', X, Y, 8, Out). |
| write_inline0('$greater_or_equal'(X,Y), _, Out) :- !, write_arith_compare('<', X, Y, 8, Out). |
| write_inline0('$greater_than'(X,Y), _, Out) :- !, write_arith_compare('<=', X, Y, 8, Out). |
| write_inline0('$less_or_equal'(X,Y), _, Out) :- !, write_arith_compare('>', X, Y, 8, Out). |
| write_inline0('$less_than'(X,Y), _, Out) :- !, write_arith_compare('>=', X, Y, 8, Out). |
| |
| write_deref_args([], _) :- !. |
| write_deref_args([s(_)|Xs], Out) :- !, |
| write_deref_args(Xs, Out). |
| write_deref_args([si(_)|Xs], Out) :- !, % ??? |
| write_deref_args(Xs, Out). |
| write_deref_args([sf(_)|Xs], Out) :- !, % ??? |
| write_deref_args(Xs, Out). |
| write_deref_args([X|Xs], Out) :- |
| write_java0(deref(X,X), _, Out), |
| write_deref_args(Xs, Out). |
| |
| write_if_fail(Cond, Args, Tab, Out) :- nonvar(Cond), ground(Args), !, |
| EXP = if_then(Cond, 'return engine.fail()'), |
| write_deref_args(Args, Out), |
| write_inline_java(EXP, Tab, Out). |
| |
| make_arith_arg(E, _) :- var(E), !, fail. |
| make_arith_arg(E, E) :- E = si(_), !. |
| make_arith_arg(E, E) :- E = sf(_), !. |
| %make_arith_arg(E, cast('NumberTerm',E)) :- E = a(_), !. %??? |
| make_arith_arg(E, #('Arithmetic.evaluate'(E))). |
| |
| write_arith(M, E, V, Tab, Out) :- |
| make_arith_arg(E, A1), |
| nonvar(V), |
| ( nonvar(M) -> A0 =.. [M,A1], A = @(A0) |
| ; A = A1 |
| ), |
| EXP = try_catch(SENT, 'BuiltinException', ['e.goal = this','throw e']), |
| SENT = if_then(op('!', unify(V,A)), 'return engine.fail()'), |
| %write_deref_args([E], Out), |
| write_inline_java(EXP, Tab, Out). |
| |
| write_arith(M, E1, E2, V, Tab, Out) :- |
| nonvar(M), |
| make_arith_arg(E1, A1), |
| make_arith_arg(E2, A2), |
| nonvar(V), |
| A0 =.. [M,A1,A2], |
| A = @(A0), |
| EXP = try_catch(SENT, 'BuiltinException', ['e.goal = this','throw e']), |
| SENT = if_then(op('!', unify(V,A)), 'return engine.fail()'), |
| %write_deref_args([E1,E2], Out), |
| write_inline_java(EXP, Tab, Out). |
| |
| write_arith_compare(M, E1, E2, Tab, Out) :- |
| nonvar(M), |
| make_arith_arg(E1, A1), |
| make_arith_arg(E2, A2), |
| A0 =.. ['arithCompareTo',A1,A2], |
| A = @(A0), |
| EXP = try_catch(SENT, 'BuiltinException', ['e.goal = this','throw e']), |
| SENT = if_then(op(M, A, 0), 'return engine.fail()'), |
| %write_deref_args([E1,E2], Out), |
| write_inline_java(EXP, Tab, Out). |
| |
| write_inline_java(X, _, _) :- var(X), !, fail. |
| write_inline_java([], _, _) :- !. |
| write_inline_java([X|Xs], Tab, Out) :- !, |
| write_inline_java(X, Tab, Out), |
| write_inline_java(Xs, Tab, Out). |
| write_inline_java(try_catch(TRY,EXCEPT,CATCH), Tab, Out) :- !, |
| tab(Out, Tab), |
| write(Out, 'try {'), nl(Out), |
| Tab1 is Tab + 4, |
| write_inline_java(TRY, Tab1, Out), |
| tab(Out, Tab), |
| write(Out, '} catch ('), write(Out, EXCEPT), write(Out, ' e) {'), nl(Out), |
| write_inline_java(CATCH, Tab1, Out), |
| tab(Out, Tab), |
| write(Out, '}'), nl(Out). |
| write_inline_java(if_then(IF, THEN), Tab, Out) :- !, |
| tab(Out, Tab), |
| write(Out, 'if ('), write_inline_exp(IF, 0, Out), write(Out, ') {'), nl(Out), |
| Tab1 is Tab + 4, |
| write_inline_java(THEN, Tab1, Out), |
| tab(Out, Tab), |
| write(Out, '}'), nl(Out). |
| write_inline_java(if_then_else(IF, THEN, ELSE), Tab, Out) :- !, |
| tab(Out, Tab), |
| write(Out, 'if ('), write_inline_exp(IF, 0, Out), write(Out, ') {'), nl(Out), |
| Tab1 is Tab + 4, |
| write_inline_java(THEN, Tab1, Out), |
| tab(Out, Tab), |
| write(Out, '} else {'), nl(Out), |
| write_inline_java(ELSE, Tab1, Out), |
| tab(Out, Tab), |
| write(Out, '}'), nl(Out). |
| write_inline_java(X, Tab, Out) :- |
| tab(Out, Tab), |
| write(Out, X), write(Out, ';'), nl(Out). |
| |
| write_inline_exp(X, _, _) :- var(X), !, fail. |
| write_inline_exp([], _, _) :- !. |
| write_inline_exp([X], Tab, Out) :- !, |
| write_inline_exp(X, Tab, Out). |
| write_inline_exp([X|Xs], Tab, Out) :- !, |
| write_inline_exp(X, Tab, Out), |
| write(Out, ','), |
| write_inline_exp(Xs, 0, Out). |
| write_inline_exp(bracket(Exp), Tab, Out) :- !, |
| tab(Out, Tab), |
| write(Out, '('), |
| write_inline_exp(Exp, 0, Out), |
| write(Out, ')'). |
| write_inline_exp(op(Op, Exp), Tab, Out) :- !, |
| tab(Out, Tab), |
| write(Out, Op), write(Out, ' '), write_inline_exp(Exp, 0, Out). |
| write_inline_exp(op(Op, Exp1, Exp2), Tab, Out) :- !, |
| tab(Out, Tab), |
| write_inline_exp(Exp1, 0, Out), |
| write(Out, ' '), |
| write(Out, Op), |
| write(Out, ' '), |
| write_inline_exp(Exp2, 0, Out). |
| write_inline_exp(cast(Class,Exp), Tab, Out) :- !, |
| tab(Out, Tab), |
| write(Out, '(('), write(Out, Class), write(Out, ') '), |
| write_inline_exp(Exp, 0, Out), write(Out, ')'). |
| write_inline_exp(unify(X,Y), Tab, Out) :- !, |
| tab(Out, Tab), |
| write_inline_exp(X, 0, Out), |
| write(Out, '.unify('), |
| write_inline_exp(Y, 0, Out), |
| write(Out, ', engine.trail)'). |
| write_inline_exp(#(X), Tab, Out) :- !, |
| X =.. [F|As], |
| tab(Out, Tab), |
| write(Out, F), write(Out, '('), |
| write_inline_exp(As, 0, Out), |
| write(Out, ')'). |
| write_inline_exp(@(X), Tab, Out) :- !, |
| X =.. [F|As], |
| write_inline_method(F, As, Tab, Out). |
| write_inline_exp(X, Tab, Out) :- X = s(_), !, |
| tab(Out, Tab), write_reg(X, Out). |
| write_inline_exp(X, Tab, Out) :- X = si(_), !, % ??? |
| tab(Out, Tab), write_reg(X, Out). |
| write_inline_exp(X, Tab, Out) :- X = sf(_), !, % ??? |
| tab(Out, Tab), write_reg(X, Out). |
| write_inline_exp(X, Tab, Out) :- X = a(_), !, |
| tab(Out, Tab), write_reg(X, Out). |
| write_inline_exp(X, Tab, Out) :- X == void, !, % ??? |
| tab(Out, Tab), write_reg(X, Out). |
| write_inline_exp(X, Tab, Out) :- |
| tab(Out, Tab), write(Out, X). |
| |
| write_inline_method(F, _, _, _) :- var(F), !, fail. |
| write_inline_method(_, A, _, _) :- var(A), !, fail. |
| write_inline_method(F, [A], Tab, Out) :- !, |
| tab(Out, Tab), |
| write_inline_exp(A, 0, Out), |
| write(Out, '.'), write(Out, F), write(Out, '()'). |
| write_inline_method(F, [A,B], Tab, Out) :- |
| tab(Out, Tab), |
| write_inline_exp(A, 0, Out), |
| write(Out, '.'), write(Out, F), write(Out, '('), |
| write_inline_exp(B, 0, Out), write(Out, ')'). |
| |
| |
| /***************************************************************** |
| Write Insert |
| *****************************************************************/ |
| write_insert(X, _, _) :- var(X), !, fail. |
| write_insert([], _, _) :- !. |
| write_insert([X|Xs], _, Out) :- |
| atom(X), |
| write(Out, X), nl(Out), |
| write_insert(Xs, _, Out). |
| |
| /***************************************************************** |
| Auxiliaries |
| *****************************************************************/ |
| |
| % Create a directory if missing |
| mkdirs(Dir) :- exists_directory(Dir), !. |
| mkdirs(Dir) :- |
| file_directory_name(Dir, Parent), |
| mkdirs(Parent), |
| make_directory(Dir). |
| |
| % int |
| java_integer(X) :- integer(X), -2147483648 =< X, X =< 2147483647. |
| |
| % Read Instructions |
| read_instructions(0, _, []) :- !. |
| read_instructions(N, In, [X|Xs]) :- |
| N > 0, |
| read(In, X), |
| N1 is N-1, |
| read_instructions(N1, In, Xs). |
| |
| % Write package name |
| write_package(P, Out) :- !, |
| write(Out, P). |
| |
| % Write class name |
| write_class_name(L, Out) :- |
| write(Out, 'PRED_'), write_index(L, Out). |
| |
| % Write out base class name |
| write_predicate_base_class(0, Out) :- !, write(Out, 'Predicate'). |
| write_predicate_base_class(1, Out) :- !, write(Out, 'Predicate.P1'). |
| write_predicate_base_class(2, Out) :- !, write(Out, 'Predicate.P2'). |
| write_predicate_base_class(3, Out) :- !, write(Out, 'Predicate.P3'). |
| write_predicate_base_class(4, Out) :- !, write(Out, 'Predicate.P4'). |
| write_predicate_base_class(_, Out) :- !, write(Out, 'Predicate.P4'). |
| |
| % Write label |
| write_index(F/A, Out) :- !, |
| write_pred_spec(F/A, Out). |
| write_index(L+I, Out) :- |
| write_index(L, Out), write(Out, '_'), write(Out, I). |
| |
| % Write constant name |
| write_constant(X, Out) :- |
| constant_encoding(X, Y), |
| write(Out, Y). |
| |
| % Write predicate specification |
| write_pred_spec(F/A, Out) :- |
| predicate_encoding(F, F1), |
| write(Out, F1), write(Out, '_'), write(Out, A). |
| |
| % Package name as directory |
| package_encoding(P, Dir) :- |
| atom_codes(P, Chs0), |
| package_encoding(Chs0, Chs, []), |
| atom_codes(Dir, Chs). |
| |
| package_encoding([]) --> !. |
| package_encoding([46|Xs]) --> !, [47], package_encoding(Xs). |
| package_encoding([X|Xs]) --> !, [X] , package_encoding(Xs). |
| |
| % Predicate Encoding |
| predicate_encoding(X, Y) :- |
| atom_codes(X, Chs0), |
| pred_encoding(Chs0, Chs, []), |
| atom_codes(Y, Chs). |
| |
| pred_encoding([]) --> !. |
| pred_encoding([X|Xs]) --> |
| pred_encoding_char(X), |
| pred_encoding(Xs). |
| |
| pred_encoding_char(X) --> {97 =< X, X =< 122}, !, [X]. % a..z |
| pred_encoding_char(X) --> {65 =< X, X =< 90}, !, [X]. % A..Z |
| pred_encoding_char(X) --> {48 =< X, X =< 57}, !, [X]. % 0..9 |
| pred_encoding_char(95) --> !, [95]. % '_' |
| pred_encoding_char(36) --> !, [36]. % '$' ??? |
| pred_encoding_char(X) --> {0 =< X, X =< 65535}, !, |
| [36], % '$' |
| pred_encoding_hex(X). |
| pred_encoding_char(X) --> |
| {am2j_error([X,is,an,invalid,character,code]), fail}. |
| |
| pred_encoding_hex(X) --> |
| {int_to_hex(X, [], H)}, |
| pred_encoding_hex_char(H). |
| |
| pred_encoding_hex_char([]) --> !, [48,48,48,48]. % 0000 |
| pred_encoding_hex_char([X]) --> !, [48,48,48, X]. % 000X |
| pred_encoding_hex_char([X,Y]) --> !, [48,48, X, Y]. % 00XY |
| pred_encoding_hex_char([X,Y,Z]) --> !, [48, X, Y, Z]. % 0XYZ |
| pred_encoding_hex_char([X,Y,Z,W]) --> !, [ X, Y, Z, W]. % XYZW |
| |
| int_to_hex(0, H, H) :- !. |
| int_to_hex(D, H0, H) :- |
| R is D mod 16, |
| D1 is D//16, |
| hex_map(R, R1), |
| int_to_hex(D1, [R1|H0], H). |
| |
| hex_map(10, 65) :- !. % 'A' |
| hex_map(11, 66) :- !. % 'B' |
| hex_map(12, 67) :- !. % 'C' |
| hex_map(13, 68) :- !. % 'D' |
| hex_map(14, 69) :- !. % 'E' |
| hex_map(15, 70) :- !. % 'F' |
| hex_map(X, Y) :- 0 =< X, X =< 9, number_codes(X, [Y]). |
| |
| % Constant Encoding (especially, escape sequence) |
| constant_encoding(X, Y) :- |
| atom_codes(X, Chs0), |
| con_encoding(Chs0, Chs), %??? |
| atom_codes(Y, Chs). |
| |
| con_encoding([], []) :- !. |
| con_encoding([ 7|Xs], [92, 97|Ys]):- !, con_encoding(Xs, Ys). % \a |
| con_encoding([ 8|Xs], [92, 98|Ys]):- !, con_encoding(Xs, Ys). % \b |
| con_encoding([ 9|Xs], [92,116|Ys]):- !, con_encoding(Xs, Ys). % \t |
| con_encoding([10|Xs], [92,110|Ys]):- !, con_encoding(Xs, Ys). % \n |
| con_encoding([11|Xs], [92,118|Ys]):- !, con_encoding(Xs, Ys). % \v |
| con_encoding([12|Xs], [92,102|Ys]):- !, con_encoding(Xs, Ys). % \f |
| con_encoding([13|Xs], [92,114|Ys]):- !, con_encoding(Xs, Ys). % \r |
| con_encoding([34|Xs], [92, 34|Ys]):- !, con_encoding(Xs, Ys). % \" |
| con_encoding([39|Xs], [92, 39|Ys]):- !, con_encoding(Xs, Ys). % \' |
| con_encoding([92|Xs], [92, 92|Ys]):- !, con_encoding(Xs, Ys). % \\ |
| con_encoding([X|Xs], [X|Ys]):- con_encoding(Xs, Ys). |
| |
| % Write Register name |
| write_reg(X, _) :- var(X), !, |
| am2j_error([register,expression,must,not,be,unbound,variable]), |
| fail. |
| write_reg(void, Out) :- !, write(Out, 'new VariableTerm(engine)'). |
| write_reg(ea(1), Out) :- !, write(Out, 'engine.areg1'). |
| write_reg(ea(2), Out) :- !, write(Out, 'engine.areg2'). |
| write_reg(ea(3), Out) :- !, write(Out, 'engine.areg3'). |
| write_reg(ea(4), Out) :- !, write(Out, 'engine.areg4'). |
| write_reg(ea(5), Out) :- !, write(Out, 'engine.areg5'). |
| write_reg(ea(6), Out) :- !, write(Out, 'engine.areg6'). |
| write_reg(ea(7), Out) :- !, write(Out, 'engine.areg7'). |
| write_reg(ea(8), Out) :- !, write(Out, 'engine.areg8'). |
| write_reg(ea(X), Out) :- !, write(Out, 'engine.aregs['), Y is X - 9, write(Out, Y), write(Out, ']'). |
| write_reg(econt, Out) :- !, write(Out, 'engine.cont'). |
| write_reg(arg(X), Out) :- !, write(Out, arg), write(Out, X). |
| write_reg(a(X), Out) :- !, write(Out, a), write(Out, X). |
| write_reg(s(X), Out) :- !, write(Out, s), write(Out, X). |
| write_reg(si(X), Out) :- !, write(Out, si), write(Out, X). % ??? |
| write_reg(sf(X), Out) :- !, write(Out, sf), write(Out, X). % ??? |
| write_reg(y(X), Out) :- !, write(Out, y), write(Out, X). |
| write_reg(p(X), Out) :- !, write(Out, p), write(Out, X). |
| write_reg(cont, Out) :- !, write(Out, cont). |
| write_reg(null, Out) :- !, write(Out, null). |
| % am2j only |
| write_reg(args(X),Out) :- !, write(Out, 'args['), write(Out, X), write(Out, ']'). |
| write_reg(X, _) :- |
| am2j_error([X,is,an,invalid,register,expression]), |
| fail. |
| |
| write_reg_args([], _) :- !. |
| write_reg_args([X], Out) :- !, |
| write_reg(X, Out). |
| write_reg_args([X|Xs], Out) :- |
| write_reg(X, Out), |
| write(Out, ', '), |
| write_reg_args(Xs, Out). |
| |
| /***************************************************************** |
| WAM-BASED INTERMEDIATE INSTRUCTIONS |
| |
| Put Instructions |
| ================ |
| + put_var(X) |
| + put_int(i, X) |
| + put_float(f, X) |
| + put_con(f/n, X) |
| + put_con(c, X), |
| + put_list(Xi, Xj, Xk) |
| + put_str(Xi, Y, Xj) |
| + put_str_args([Xi,..,Xn], Y) |
| + put_clo(p:G, X) |
| |
| Get Instructions |
| ================ |
| + get_val(Xi, Xj) |
| + get_int(i, Xi, Xj) |
| + get_float(f, Xi, Xj) |
| + get_con(c, Xi, Xj) |
| + get_ground(g, Xi, Xj) |
| + get_list(X) |
| + get_str(f/n, Xi, Xj) |
| |
| Unify Instructions |
| ================== |
| + unify_var(X) |
| + unify_val(X) |
| + unify_int(i, X) |
| + unify_float(f, X) |
| + unify_con(c, X) |
| + unify_ground(g, X) |
| + unify_void(i) |
| |
| Choice Instructions |
| =================== |
| + try(Li, Lj) |
| + retry(Li, Lj) |
| + trust(L) |
| |
| Indexing Instructions |
| ===================== |
| + switch_on_term(Lv, Li, Lf, Lc, Ls, Ll) |
| + switch_on_hash(TAG, i, L, hashtable) |
| |
| Other Instructions |
| ================== |
| + comment(Message) |
| + debug(Message) |
| |
| + begin_predicate(p, f/n) |
| + end_predicate(p, f/n) |
| |
| + import_package(p) |
| + import_package(p, f/n) |
| |
| + main(f/n, public): [Instructions] |
| + main(f/n, non-public): [Instructions] |
| + L: [Instructions] |
| |
| + label(L) |
| + setB0 |
| + goto(L) |
| + deref(Ri, Rj) |
| + set(Ri, Rj) |
| |
| + decl_term_vars([R1,...,Rn]) |
| + decl_pred_vars([R1,...,Rn]) |
| |
| + put_cont(p:BinG, C) |
| + put_cont(BinG, C) |
| + execute(p:BinG) |
| + execute(BinG) |
| + inline(G) |
| |
| + new_hash(TAG, i) |
| + put_hash(X, L, TAG) |
| |
| + static([Instructions]) |
| |
| Notation |
| ******** |
| X ::= a(i) | S |
| Y ::= y(i) | S |
| S ::= s(i) | si(i) | sf(i) |
| L ::= f/n | f/n+i | f/n+TAG | f/n+TAG+i | f/n+TAG+i+i |
| TAG ::= var | int | flo | con | str | lis | top | sub | nil |
| BinG ::= C | f(A1,..,An, C) |
| G ::= f(A1,..,An) |
| A ::= void | X |
| C ::= cont | p(N) |
| R ::= cont | econt | a(i) | arg(i) | ea(i) |
| |
| *****************************************************************/ |
| |
| /***************************************************************** |
| Utilities |
| *****************************************************************/ |
| for(M, M, N) :- M =< N. |
| for(I, M, N) :- M =< N, M1 is M + 1, for(I, M1, N). |
| |
| %%% print |
| am2j_error(M) :- am2j_message(['***','AM2JAVA','ERROR'|M]). |
| |
| am2j_message([]) :- nl, flush_output(user_output). |
| am2j_message([M|Ms]) :- write(M), write(' '), am2j_message(Ms). |
| |
| %%% list |
| am2j_append([], Zs, Zs). |
| am2j_append([X|Xs], Ys, [X|Zs]) :- am2j_append(Xs, Ys, Zs). |
| |
| flatten_list([]) --> !. |
| flatten_list([L1|L2]) --> !, flatten_list(L1), flatten_list(L2). |
| flatten_list(L) --> [L]. |
| |
| list_to_string(List, String) :- |
| list_to_chars(List, Chars0), |
| flatten_list(Chars0, Chars, []), |
| atom_codes(String, Chars). |
| |
| list_to_chars([], []) :- !. |
| list_to_chars([L|Ls], [C|Cs]) :- atom(L), !, |
| atom_codes(L, C), |
| list_to_chars(Ls, Cs). |
| list_to_chars([L|Ls], [C|Cs]) :- number(L), !, |
| number_codes(L, C), |
| list_to_chars(Ls, Cs). |
| |
| % END |
| % written by SICStus Prolog 3.12.8 |