/*  Part of SWI-Prolog

    Author:        Jan Wielemaker
    E-mail:        J.Wielemaker@vu.nl
    WWW:           http://www.swi-prolog.org
    Copyright (c)  2010-2012, University of Amsterdam
    All rights reserved.

    Redistribution and use in source and binary forms, with or without
    modification, are permitted provided that the following conditions
    are met:

    1. Redistributions of source code must retain the above copyright
       notice, this list of conditions and the following disclaimer.

    2. Redistributions in binary form must reproduce the above copyright
       notice, this list of conditions and the following disclaimer in
       the documentation and/or other materials provided with the
       distribution.

    THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
    "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
    LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
    FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
    COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
    INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
    BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
    LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
    CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
    LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
    ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
    POSSIBILITY OF SUCH DAMAGE.
*/

:- module(test_rdf,
          [ suite/1,                    % +Test-number
            test_dir/1,                 % +Directory
            test_file/1,                % +File
            time_file/1,                % +File
            passed/1,                   % +Test-numberOrFile
            test_rdf/0,                 % run whole suite
            show_ok/1                   % +Test
          ]).

:- multifile
    user:file_search_path/2.

user:file_search_path(library, .).
user:file_search_path(library, '../sgml').
user:file_search_path(library, '../clib').
user:file_search_path(library, '..').
user:file_search_path(foreign, '../sgml').
user:file_search_path(foreign, '../clib').
user:file_search_path(foreign, '../semweb').

:- use_module(library(sgml)).
:- use_module(library(semweb/rdf_compare)).
:- use_module(library(rdf_parser)).
:- use_module(library(rdf_triple)).
:- use_module(library(rdf)).
:- use_module(library(apply)).
:- use_module(library(pprint)).

/* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Test file for the SWI-Prolog RDF parser.  Toplevel predicates:

        # test/0
        Run all tests from the `suite' directory and validate the
        the result if the correct result is stored in a .ok file.

        # suite(N)
        Run test on suite/t<N>.rdf, showing RDF, intermediate
        representation and triples on the console.

        # passed(N)
        Parse suite/t<N>.rdf and save the result in suite/t<N>.ok

The intention is to write  tests,  use   suite/1  to  make sure they are
parsed correctly and then run passed/1 to   save  the correct answer, so
running test/0 can validate all results.
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */

suite(N) :-
    atomic_list_concat(['suite/t', N, '.rdf'], File),
    test_file(File).

test_file(File) :-
    rdf_reset_ids,
    format('************* Test ~w ***~n', [File]),
    cat(File),
    load_structure(File,
                   [ RDFElement ],
                   [ dialect(xmlns),
                     space(sgml)
                   ]),
    rdf_start_file([], Cleanup),
    make_rdf_state([base_uri('http://test.org/test/')], State, _),
    xml_to_plrdf(RDFElement, RDF, State),
    rdf_end_file(Cleanup),
    format('============= Prolog term ==============~n', []),
    print_term(RDF, []),
    rdf_triples(RDF, Triples),
    format('============= Triples ==================~n', []),
    write_triples(Triples).

time_file(File) :-
    time(load_rdf(File, Triples)),
    length(Triples, Len),
    format('Created ~w triples~n', [Len]).

passed(Id) :-
    integer(Id),
    !,
    atomic_list_concat(['suite/t', Id, '.rdf'], File),
    passed(File).
passed(File) :-
    rdf_reset_ids,
    ok_file(File, OkFile),
    load_rdf(File, Triples),
    open(OkFile, write, Fd, [encoding(utf8)]),
    save_triples(Triples, Fd),
    close(Fd),
    length(Triples, N),
    format('Saved ~d triples to ~w~n', [N, OkFile]).

:- dynamic failed/1.

test_rdf :-
    test(load_rdf),
    test(process_rdf).

test(How) :-
    retractall(failed(_)),
    test_dir(suite, How),
    findall(F, failed(F), Failed),
    (   Failed == []
    ->  true
    ;   length(Failed, N),
        format('ERROR: ~w tests failed~n', [N]),
        fail
    ).


test_dir(Dir) :-
    test_dir(Dir, load_rdf).

test_dir(Dir, How) :-
    format('Tests from "~w" [~w]: ', [Dir, How]),
    atom_concat(Dir, '/*.rdf', Pattern),
    expand_file_name(Pattern, TestFiles),
    maplist(test(How), TestFiles),
    format(' done~n').

test(How, File) :-
    format('.'), flush_output,
    rdf_reset_ids,
    ok_file(File, OkFile),
    (   call(How, File, Triples)
    ->  (   catch(open(OkFile, read, Fd, [encoding(utf8)]), _, fail)
        ->  (   read_triples(Fd, OkTriples),
                close(Fd),
                rdf_equal_graphs(Triples, OkTriples, _Subst)
            ->  true
            ;   assert(failed(File)),
                format('~N~w: WRONG ANSWER~n', [File])
            )
        ;   format('~N~w: (no .ok file)~n', [File])
        )
    ;   assert(failed(File)),
        format('~N~w: PARSE FAILED~n', [File])
    ).

ok_file(File, OkFile) :-
    file_base_name(File, BaseFile),
    file_name_extension(Base, _, BaseFile),
    file_directory_name(File, Dir),
    atomic_list_concat([Dir, /, ok, /, Base, '.ok'], OkFile).


save_triples([], _).
save_triples([H|T], Fd) :-
    format(Fd, '~q.~n', [H]),
    save_triples(T, Fd).

read_triples(Fd, Terms) :-
    read(Fd, T0),
    read_triples(T0, Fd, Terms).

read_triples(end_of_file, _, []) :- !.
read_triples(rdf(S0,P0,O0), Fd, [rdf(S,P,O)|R]) :-
    global_ref(S0, S),
    global_ref(P0, P),
    global_obj(O0, O),
    read(Fd, T1),
    read_triples(T1, Fd, R).

global_ref(rdf:Local, Global) :-
    rdf_name_space(NS),
    !,
    atom_concat(NS, Local, Global).
global_ref(NS:Local, Global) :-
    !,
    atom_concat(NS, Local, Global).
global_ref(URI, URI).

global_obj(literal(X), literal(X)) :- !.
global_obj(Local, Global) :-
    global_ref(Local, Global).


write_triples([]) :- !.
write_triples([H|T]) :-
    !,
    write_triple(H),
    write_triples(T).

write_triple(Triple) :-
    is_rdf_triple(Triple),
    !,
    Triple = rdf(S,P,O),
    format('{~q, ~q, ~q}~n', [S,P,O]).
write_triple(Triple) :-
    format('@@@@@ Bad Triple: ~p~n', [Triple]),
    fail.

cat(File) :-
    open(File, read, Fd),
    copy_stream_data(Fd, user_output),
    close(Fd).

:- dynamic triple/1.

process_rdf(File, Triples) :-
    retractall(triple(_)),
    process_rdf(File, assert_triples, []),
    findall(T, retract(triple(T)), Triples).

assert_triples([], _).
assert_triples([H|T], Loc) :-
    assert(triple(H)),
    assert_triples(T, Loc).


                 /*******************************
                 *            VALIDATE          *
                 *******************************/

is_rdf_triple(rdf(Subject, Predicate, Object)) :-
    is_subject(Subject),
    is_predicate(Predicate),
    is_object(Object).

is_subject(0) :- !, fail.               % Variables
is_subject(URI) :- is_uri(URI), !.
is_subject(each(URI)) :- is_uri(URI), !.
is_subject(prefix(Pattern)) :-
    atom(Pattern),
    !.

is_predicate(0) :- !, fail.
is_predicate(rdf:RdfPred) :-
    !,
    is_rdf_predicate(RdfPred).
is_predicate(NS:Pred) :-
    !,
    atom(NS),
    atom(Pred).
is_predicate(Pred) :-
    atom(Pred).

is_object(0) :-
    !,
    fail.
is_object(literal(XML)) :-
    !,
    is_xml(XML).
is_object(rdf:RdfType) :-
    !,
    is_rdf_type(RdfType).
is_object(URI) :-
    is_uri(URI).

is_object(Subject) :-
    is_subject(Subject),
    !.
is_object(Pred) :-
    is_predicate(Pred),
    !.

is_uri(URI) :- atom(URI).

is_xml(_XML). % for now

is_rdf_predicate(RdfPred) :- atom(RdfPred).

is_rdf_type(RdfType) :- atom(RdfType).

                 /*******************************
                 *             UTIL             *
                 *******************************/

%       find_rdf(+XMLTerm, -RDFTerm)
%
%       If the document contains an embedded RDF term, return it, else
%       return the whole document.  The latter is a bit dubious, but good
%       for the purpose of this test-file

find_rdf(Term, RDFTerm) :-
    RDFTerm = element(NS:'RDF', _, _),
    term_member(RDFTerm, Term),
    !,
    (   rdf_name_space(NS)
    ->  true
    ;   assert(rdf_parser:rdf_name_space(NS)),
        assert(new_rdf_namespace(NS))
    ).
find_rdf(Term, Term).

term_member(X, X).
term_member(X, Compound) :-
    compound(Compound),
    arg(_, Compound, Arg),
    term_member(X, Arg).


                 /*******************************
                 *          SHOW DIAGRAM        *
                 *******************************/

show_ok(Test) :-
    ok_file(Test, File),
    open(File, read, Fd, [encoding(utf8)]),
    read_triples(Fd, OkTriples),
    close(Fd),
    new(D, rdf_diagram(string('Ok for %s', File))),
    send(D, triples, OkTriples),
    send(D, open).