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yap-6.3/packages/semweb/test_rdf_db.pl

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/* $Id$
Part of SWI-Prolog
Author: Jan Wielemaker
E-mail: wielemak@science.uva.nl
WWW: http://www.swi-prolog.org
Copyright (C): 1985-2007, University of Amsterdam
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
As a special exception, if you link this library with other files,
compiled with a Free Software compiler, to produce an executable, this
library does not by itself cause the resulting executable to be covered
by the GNU General Public License. This exception does not however
invalidate any other reasons why the executable file might be covered by
the GNU General Public License.
*/
:- module(test_rdf_db,
[ test_rdf_db/0
]).
:- asserta(user:file_search_path(foreign, '../sgml')).
:- asserta(user:file_search_path(library, '../sgml')).
:- asserta(user:file_search_path(library, '../plunit')).
:- asserta(user:file_search_path(foreign, '../clib')).
:- asserta(user:file_search_path(library, '../clib')).
:- asserta(user:file_search_path(library, '../RDF')).
:- asserta(user:file_search_path(foreign, '.')).
:- use_module(rdf_db).
:- use_module(rdfs).
:- use_module(library(xsdp_types)).
:- use_module(library(lists)).
:- use_module(library(plunit)).
/* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
RDF-DB test file. A test is a clause of the form:
<TestSet>(<Name>-<Number>) :- Body.
If the body fails, an appropriate error message is printed. So, all
goals are supposed to succeed. The predicate testset/1 defines the
available test sets. The public goals are:
?- runtest(+TestSet).
?- test.
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
test_rdf_db :-
test,
run_tests([ lang_matches
]).
/*******************************
* TEST DATA *
*******************************/
data(string, '').
data(string, 'This is a nice string').
data(string, '\u0411\u0435\u0441\u043f\u043b\u0430\u0442\u043d\u0430\u044f').
data(int, 0).
data(int, -67).
data(int, 327848).
data(float, 0.0).
data(float, 48.25).
data(term, [let, us, test, a, list]).
data(term, [let, us, test, another, list]).
/*******************************
* LOAD/SAVE *
*******************************/
save_reload_db :-
tmp_file(rdf, File),
rdf_save_db(File),
rdf_reset_db,
rdf_load_db(File),
delete_file(File).
save_reload :-
tmp_file(rdf, File),
rdf_save(File),
rdf_reset_db,
rdf_load(File,
[ base_uri([]), % do not qualify
convert_typed_literal(convert_typed),
format(xml)
]),
delete_file(File).
save_reload(Encoding) :-
tmp_file(rdf, File),
rdf_save(File, [encoding(Encoding)]),
rdf_reset_db,
rdf_load(File,
[ base_uri([]), % do not qualify
convert_typed_literal(convert_typed),
format(xml)
]),
delete_file(File).
% convert_typed(+Type, +Content, -Object)
%
% Convert to type(Type, PrologValue), providing the inverse of
% the default RDF as produced by rdf_db.pl
convert_typed(Type, Content, type(Type, Value)) :-
xsdp_convert(Type, Content, Value).
/*******************************
* RESOURCE *
*******************************/
resource(1) :-
rdf_assert(x, a, aap),
rdf_assert(x, a, noot),
findall(X, rdf(x, a, X), L),
L == [aap, noot].
/*******************************
* SIMPLE LITERAL *
*******************************/
literal(1) :-
findall(V, data(_, V), Vs),
forall(member(Value, Vs),
rdf_assert(x, a, literal(Value))),
findall(V, (rdf(x, a, X), X = literal(V)), V2),
V2 == Vs.
/*******************************
* UNIFYING ARGS *
*******************************/
same(1) :-
rdf_assert(a,b,c),
rdf_assert(x,x,x),
rdf(X,X,X),
X == x.
/*******************************
* TYPED LITERALS *
*******************************/
typed(1) :-
findall(type(T,V), data(T, V), TVs),
forall(member(Value, TVs),
rdf_assert(x, a, literal(Value))),
findall(V, (rdf(x, a, X), X = literal(V)), V2),
V2 == TVs.
typed(2) :-
findall(type(T,V), data(T, V), TVs),
forall(member(Value, TVs),
rdf_assert(x, a, literal(Value))),
findall(V, rdf(x, a, literal(V)), V2),
V2 == TVs.
typed(3) :-
findall(type(T,V), data(T, V), TVs),
forall(member(Value, TVs),
rdf_assert(x, a, literal(Value))),
X = type(T,V),
findall(X, rdf(x, a, literal(X)), TV2),
TV2 == TVs.
typed(save_db) :-
findall(type(T,V), data(T, V), TVs),
forall(member(Value, TVs),
rdf_assert(x, a, literal(Value))),
save_reload_db,
X = type(T,V),
findall(X, rdf(x, a, literal(X)), TV2),
TV2 == TVs.
typed(save) :-
findall(type(T,V),
( data(T, V),
T \== term,
V \== ''
), TVs),
forall(member(Value, TVs),
rdf_assert(x, a, literal(Value))),
save_reload,
findall(X, rdf(x, a, literal(X)), TV2),
( same_set(TV2, TVs)
-> true
; format('TV2 = ~q~n', [TV2]),
fail
).
typed(match) :-
rdf_assert(x, a, literal(c)),
\+ rdf(x, a, literal(type(t, c))),
\+ rdf(x, a, literal(type(t, _))).
/*******************************
* XML:LANG HANDLING *
*******************************/
lang_data :-
lang_data(x, a).
lang_data(S, A) :-
rdf_assert(S, A, literal(lang(nl, 'Jan'))),
rdf_assert(S, A, literal(lang(en, 'John'))),
rdf_assert(S, A, literal(lang(en, ''))),
rdf_assert(S, A, literal('Johannes')).
same_set(S1, S2) :-
sort(S1, Sorted1),
sort(S2, Sorted2),
Sorted1 =@= Sorted2.
lang(1) :-
lang_data,
findall(X, rdf(x, a, literal(X)), Xs),
Xs == [ lang(nl, 'Jan'),
lang(en, 'John'),
lang(en, ''),
'Johannes'
].
lang(2) :-
lang_data,
findall(X, rdf(x, a, literal(lang(nl, X))), Xs),
Xs == [ 'Jan' ].
lang(3) :-
lang_data,
X = lang(_,_),
findall(X, rdf(x, a, literal(X)), Xs),
Xs =@= [ lang(nl, 'Jan'),
lang(en, 'John'),
lang(en, ''),
lang(_, 'Johannes')
].
lang(4) :-
lang_data,
rdf(S, P, literal('Jan')), S == x, P == a,
rdf(S, P, literal('Johannes')), S == x, P == a.
lang(save_db) :-
lang_data,
save_reload_db,
X = lang(_,_),
findall(X, rdf(x, a, literal(X)), Xs),
( Xs =@= [ lang(nl, 'Jan'),
lang(en, 'John'),
lang(en, ''),
lang(_, 'Johannes')
]
-> true
; format(user_error, 'Xs = ~w~n', [Xs]),
fail
).
lang(save) :-
lang_data,
save_reload,
findall(X, rdf(x, a, literal(X)), Xs),
( same_set(Xs,
[ lang(nl, 'Jan'),
lang(en, 'John'),
lang(en, ''),
'Johannes'
])
-> true
; format(user_error, 'Xs = ~q~n', [Xs]),
fail
).
/*******************************
* NAMESPACES *
*******************************/
term_expansion(ns_data(S0,P0,O0),
ns_data(S,P,O)) :-
rdf_global_id(S0, S),
rdf_global_id(P0, P),
rdf_global_id(O0, O).
:- rdf_register_ns(dynamic, 'http://www.dynamic.org/').
ns_data(x, rdf:type, rdf:is).
ns_data(y, rdf:type, rdf:(dynamic)).
ns_data(z, rdf:type, (dynamic):rdf).
ns_data(z, (dynamic):attr1, literal(dynamic)).
ns_data(z, (dynamic):attr2, (dynamic):rdf).
namespace(save) :-
findall(rdf(S,P,O), ns_data(S,P,O), Triples),
forall(member(rdf(S,P,O), Triples), rdf_assert(S,P,O)),
save_reload,
findall(rdf(S,P,O), rdf(S,P,O), NewTriples),
( same_set(Triples, NewTriples)
-> true
; format(user_error, 'NewTriples = ~q~n', [NewTriples]),
fail
).
/*******************************
* LITERAL SHARING *
*******************************/
lshare(1) :-
rdf_assert(a,b,literal(aap)),
rdf_statistics(literals(1)).
lshare(2) :-
rdf_assert(a,b,literal(aap)),
rdf_retractall(a,b,literal(aap)),
rdf_statistics(literals(X)),
X == 0.
lshare(3) :-
rdf_assert(a,b,literal(aap)),
rdf_assert(a,c,literal(aap)), % shared
rdf_statistics(literals(1)).
lshare(4) :-
rdf_assert(a,b,literal(aap)),
rdf_assert(a,c,literal(aap)),
rdf_retractall(a,b,literal(aap)),
rdf_retractall(a,c,literal(aap)),
rdf_statistics(literals(X)),
X == 0.
lshare(5) :-
rdf_assert(a,b,literal(aap)),
rdf_assert(a,b,literal(aap)),
rdf_retractall(a,b,literal(aap)),
rdf_statistics(literals(X)),
X == 0.
/*******************************
* WIDE CHARACTERS *
*******************************/
wide_atom(A) :-
atom_codes(A, [97, 1080, 1081]).
wide(iso-object-resource) :-
wide_atom(A),
rdf_assert(aap, noot, A),
save_reload(iso_latin_1).
wide(utf8-object-resource) :-
wide_atom(A),
rdf_assert(aap, noot, A),
save_reload(utf8).
wide(iso-object-literal) :-
wide_atom(A),
rdf_assert(aap, noot, literal(A)),
save_reload(iso_latin_1).
wide(utf8-object-literal) :-
wide_atom(A),
rdf_assert(aap, noot, literal(A)),
save_reload(utf8).
%wide(iso-predicate) :- Requires XML UTF-8 names.
% wide_atom(A),
% rdf_assert(aap, A, noot),
% save_reload(iso_latin_1).
%wide(utf8-predicate) :-
% wide_atom(A),
% rdf_assert(aap, A, noot),
% save_reload(utf8).
wide(iso-subject) :-
wide_atom(A),
rdf_assert(A, aap, noot),
save_reload(iso_latin_1).
wide(utf8-subject) :-
wide_atom(A),
rdf_assert(A, aap, noot),
save_reload(utf8).
wide(db-object-literal) :-
wide_atom(A),
rdf_assert(aap, noot, literal(A)),
save_reload_db.
/*******************************
* UPDATE *
*******************************/
update(subject) :-
rdf_assert(x, a, v),
rdf_update(x, a, v, subject(y)),
rdf(y, a, v).
update(predicate) :-
rdf_assert(x, a, v),
rdf_update(x, a, v, predicate(b)),
rdf(x, b, v).
update(object-1) :-
rdf_assert(x, a, v),
rdf_update(x, a, v, object(w)),
rdf(x, a, w).
update(object-2) :-
rdf_assert(x, a, v),
rdf_update(x, a, v, object(literal(hello))),
rdf(x, a, literal(hello)).
update(object-3) :-
rdf_assert(x, a, v),
rdf_update(x, a, v, object(literal(lang(nl, hallo)))),
rdf(x, a, literal(lang(nl, hallo))).
update(object-4) :- % add lang
rdf_assert(x, a, literal(hallo)),
rdf_update(x, a, literal(hallo),
object(literal(lang(nl, hallo)))),
rdf(x, a, literal(lang(nl, hallo))).
update(object-5) :- % only change lang
rdf_assert(x, a, literal(lang(en, hallo))),
rdf_update(x, a, literal(lang(en, hallo)),
object(literal(lang(nl, hallo)))),
rdf(x, a, literal(lang(nl, hallo))).
update(object-6) :- % drop lang
rdf_assert(x, a, literal(lang(en, hallo))),
rdf_update(x, a, literal(lang(en, hallo)),
object(literal(hallo))),
rdf(x, a, literal(hallo)).
update(object-7) :- % transaction update
rdf_assert(x, a, literal(lang(en, hallo))),
rdf_transaction(rdf_update(x, a, literal(lang(en, hallo)),
object(literal(hallo)))),
rdf(x, a, literal(hallo)).
/*******************************
* TRANSACTIONS *
*******************************/
transaction(empty-1) :-
rdf_transaction(true),
findall(rdf(S,P,O), rdf(S,P,O), L),
L == [].
transaction(assert-1) :-
rdf_transaction(rdf_assert(x, a, v)),
findall(rdf(S,P,O), rdf(S,P,O), L),
L == [ rdf(x, a, v)
].
transaction(assert-2) :-
\+ rdf_transaction((rdf_assert(x, a, v), fail)),
findall(rdf(S,P,O), rdf(S,P,O), L),
L == [].
transaction(nest-1) :-
rdf_transaction( ( rdf_assert(x, a, v),
rdf_transaction(rdf_assert(x, a, v2)))),
findall(rdf(S,P,O), rdf(S,P,O), L),
L == [ rdf(x, a, v),
rdf(x, a, v2)
].
transaction(nest-2) :-
rdf_transaction( ( rdf_assert(x, a, v),
\+ rdf_transaction((rdf_assert(x, a, v2),fail)))),
findall(rdf(S,P,O), rdf(S,P,O), L),
L == [ rdf(x, a, v)
].
transaction(deadlock-1) :-
rdf_assert(x,y,z,g),
rdf_assert(x,y,z,g),
rdf_transaction(rdf(_S, _P, _O, _G)).
transaction(deadlock-2) :-
tmp_file(rdf, F1),
tmp_file(rdf, F2),
rdf_assert(a, b, c, f1),
rdf_assert(x, y, z, f2),
rdf_save_db(F1, f1),
rdf_save_db(F2, f2),
rdf_reset_db,
rdf_assert(l, f, F1),
rdf_assert(l, f, F2),
rdf_transaction(forall(rdf(l, f, F),
rdf_load_db(F))),
findall(rdf(S,P,O), rdf(S,P,O), L),
L == [ rdf(l,f,F1),
rdf(l,f,F2),
rdf(a,b,c),
rdf(x,y,z)
],
delete_file(F1),
delete_file(F2).
transaction(active-1) :-
\+ rdf_active_transaction(_).
transaction(active-2) :-
rdf_transaction(rdf_active_transaction(x), x).
transaction(active-3) :-
rdf_transaction(findall(X, rdf_active_transaction(X), Xs), x),
Xs == [x].
transaction(active-4) :-
rdf_transaction(rdf_active_transaction(Y), X),
X == Y.
transaction(active-5) :-
rdf_transaction(rdf_active_transaction(x), X),
X == x.
/*******************************
* LABELS *
*******************************/
label(1) :-
rdf_global_id(rdfs:label, Label),
lang_data(x, Label),
findall(L, rdfs_label(x, L), Ls), Ls = ['Jan', 'John', '', 'Johannes'].
label(2) :-
rdf_global_id(rdfs:label, Label),
lang_data(x, Label),
findall(L, rdfs_label(x, en, L), Ls), Ls = ['John', ''].
/*******************************
* MATCH *
*******************************/
match(1) :-
rdf_assert(a,b,literal('hello there world!')),
rdf(a,b,literal(substring('llo'), _)).
match(2) :-
rdf_assert(a,b,literal('hello there world!')),
rdf(a,b,literal(word('there'), _)).
match(3) :-
rdf_assert(a,b,literal('hello there world!')),
rdf(a,b,literal(word('hello'), _)).
match(4) :-
rdf_assert(a,b,literal('hello there world!')),
rdf(a,b,literal(word('world'), _)).
match(5) :-
rdf_assert(a,b,literal('hello there world!')),
rdf(a,b,literal(like('*there*'), _)).
match(6) :-
rdf_assert(a,b,literal('hello there world!')),
rdf(a,b,literal(like('*world!*'), _)).
match(7) :- % test backtracking
rdf_assert(a,b,literal('hello there world there universe!')),
rdf(a,b,literal(like('*th*uni*'), _)).
/*******************************
* PREFIX *
*******************************/
prefix_data(s, p1, aaaaa).
prefix_data(s, p1, aaaab).
prefix_data(s, p1, aaabb).
prefix_data(s, p1, aaacc).
prefix_data(s, p1, aaccc).
prefix_data(s, p1, adddd).
prefix_data(s, p2, 'BBBBB').
prefix_data(s, p2, 'bbbbb').
prefix_data(s, p2, 'bbbcc').
prefix_data(s, p2, 'BBBcc').
mkprefix_db(P) :-
forall(prefix_data(S,P,O),
rdf_assert(S, P, literal(O))).
tprefix(P, Prefix) :-
mkprefix_db(P),
findall(rdf(A,P,L), rdf(A,P,literal(prefix(Prefix), L)), List),
findall(rdf(A,P,L),
( prefix_data(A,P,L),
case_prefix(Prefix, L)
), L2),
% writeln(List),
L2 == List.
case_prefix(Prefix, Atom) :-
atom_codes(Prefix, PC),
atom_codes(Atom, AC),
prefix_codes(PC, AC).
prefix_codes([], _).
prefix_codes([H0|T0], [H|T]) :-
code_type(L, to_lower(H0)),
code_type(L, to_lower(H)),
prefix_codes(T0, T).
prefix(1) :- tprefix(p1, '').
prefix(2) :- tprefix(p1, a).
prefix(3) :- tprefix(p1, aa).
prefix(4) :- tprefix(p1, aaa).
prefix(5) :- tprefix(p1, aaaa).
prefix(6) :- tprefix(p1, aaaaa).
prefix(7) :- tprefix(p2, bbbb).
prefix(8) :- tprefix(p2, bbbbb).
prefix(9) :- tprefix(p2, 'Bbbbb').
prefix(10) :- tprefix(p2, 'BBBBB').
prefix(like-1) :-
mkprefix_db(_),
findall(L, rdf(_,_,literal(like('a*b'), L)), Ls),
Ls = [aaaab, aaabb].
/*******************************
* RETRACTALL *
*******************************/
rdf_retractall(nopred-1) :-
rdf_retractall(aap, noot, mies).
rdf_retractall(term) :-
rdf_assert(a, b, literal(x)),
rdf_assert(a, b, literal(x(1))),
rdf_retractall(a, b, literal(x(_))),
findall(V, rdf(a,b,V), [literal(x)]).
/*******************************
* MONITOR *
*******************************/
do_monitor(assert(S, P, O, DB)) :-
atom(O),
ip(P, IP),
rdf_transaction(rdf_assert(O, IP, S, DB)).
do_monitor(retract(S, P, O, DB)) :-
atom(O),
ip(P, IP),
rdf_transaction(rdf_retractall(O, IP, S, DB)).
ip(a, ia).
ip(b, ib).
monitor(transaction-1) :-
rdf_reset_db,
rdf_monitor(do_monitor, []),
rdf_transaction(rdf_assert(x, a, y, db)),
rdf_monitor(do_monitor, [-all]),
findall(rdf(S,P,O), rdf(S,P,O), DB),
DB == [ rdf(x, a, y),
rdf(y, ia, x)
].
/*******************************
* SUB-PROPERTY *
*******************************/
subproperty(1) :-
rdf_assert(a, p, b),
\+ rdf_has(_, p2, b, _).
/*******************************
* PROPERTY HIERACHY *
*******************************/
%% ptree/1
%
% Property hierarchy handling for rdf_has/3. The routines maintain
% clouds of connected properties and for each cloud a bitmatrix
% filled with the closure of the rdfs:subPropertyOf relation.
ptree(1) :-
rdf_assert(a, rdfs:subPropertyOf, b),
rdf_assert(x, a, y),
rdf_has(x, b, y).
ptree(2) :- % simple cycle
rdf_assert(a, rdfs:subPropertyOf, b),
rdf_assert(b, rdfs:subPropertyOf, a),
rdf_assert(x, a, y),
rdf_has(x, b, y).
ptree(3) :- % self-cycle
rdf_assert(a, rdfs:subPropertyOf, a),
rdf_assert(x, a, y),
rdf_has(x, a, y).
ptree(4) :- % two roots
rdf_assert(c, rdfs:subPropertyOf, b),
rdf_assert(c, rdfs:subPropertyOf, d),
rdf_assert(x, c, y),
rdf_has(x, b, y),
rdf_has(x, d, y).
ptree(5) :- % two roots, 2nd leg
rdf_assert(c, rdfs:subPropertyOf, b),
rdf_assert(c, rdfs:subPropertyOf, d),
rdf_assert(a, rdfs:subPropertyOf, b),
rdf_assert(x, c, y),
rdf_assert(x, a, z),
rdf_has(x, b, y),
rdf_has(x, d, y),
rdf_has(x, b, z),
\+ rdf_has(x, d, z).
ptree(6) :- % two root cycles
rdf_assert(c, rdfs:subPropertyOf, b),
rdf_assert(c, rdfs:subPropertyOf, d),
rdf_assert(b, rdfs:subPropertyOf, bc),
rdf_assert(bc, rdfs:subPropertyOf, b),
rdf_assert(d, rdfs:subPropertyOf, dc),
rdf_assert(dc, rdfs:subPropertyOf, d),
rdf_assert(x, c, y),
rdf_has(x, b, y),
rdf_has(x, d, y),
rdf_has(x, dc, y),
rdf_has(x, bc, y).
ptree(7) :- % create and break the cycles
rdf_assert(x, a, y),
rdf_assert(a, rdfs:subPropertyOf, b),
rdf_retractall(a, rdfs:subPropertyOf, b),
\+ rdf_has(x, b, y).
/*******************************
* REACHABLE *
*******************************/
graph(a, p, b).
graph(b, p, c).
graph(c, p, d).
graph(b, p, d).
graph :-
forall(graph(S,P,O),
rdf_assert(S,P,O)).
reachable(1) :-
rdf_reachable(a, x, a).
reachable(2) :-
graph,
rdf_reachable(a, p, d).
reachable(3) :-
graph,
rdf_reachable(a, p, X),
X == c, !.
reachable(4) :-
graph,
findall(O, rdf_reachable(a, p, O), Os),
Os = [a,b,c,d].
/*******************************
* DUPLICATES *
*******************************/
duplicates(1) :-
rdf_assert(a, b, literal(lang(en, l))),
rdf_assert(a, b, literal(l)),
rdf_retractall(a, b, literal(lang(en, l))).
/*******************************
* SOURCE *
*******************************/
source(1) :-
rdf_assert(a,b,c,test),
get_time(Now),
rdf_db:rdf_set_graph_source(test, 'test.rdf', Now),
rdf_source(test, X),
X == 'test.rdf'.
/*******************************
* UNLOAD *
*******************************/
unload(1) :-
rdf_load(dc),
rdf_statistics(triples(T0)),
rdf_unload(dc),
rdf_statistics(triples(T1)),
rdf_load(dc),
rdf_statistics(triples(T2)),
T0 == T2,
T1 == 0.
/*******************************
* SCRIPTS *
*******************************/
:- dynamic
script_dir/1.
set_script_dir :-
script_dir(_), !.
set_script_dir :-
find_script_dir(Dir),
assert(script_dir(Dir)).
find_script_dir(Dir) :-
prolog_load_context(file, File),
follow_links(File, RealFile),
file_directory_name(RealFile, Dir).
follow_links(File, RealFile) :-
read_link(File, _, RealFile), !.
follow_links(File, File).
:- set_script_dir.
run_test_script(Script) :-
file_base_name(Script, Base),
file_name_extension(Pred, _, Base),
load_files(Script, [silent(true)]),
Pred.
run_test_scripts(Directory) :-
( script_dir(ScriptDir),
atomic_list_concat([ScriptDir, /, Directory], Dir),
exists_directory(Dir)
-> true
; Dir = Directory
),
atom_concat(Dir, '/*.pl', Pattern),
expand_file_name(Pattern, Files),
file_base_name(Dir, BaseDir),
format('Running scripts from ~w ', [BaseDir]), flush,
run_scripts(Files),
format(' done~n').
run_scripts([]).
run_scripts([H|T]) :-
( catch(run_test_script(H), Except, true)
-> ( var(Except)
-> put(.), flush
; Except = blocked(Reason)
-> assert(blocked(H, Reason)),
put(!), flush
; script_failed(H, Except)
)
; script_failed(H, fail)
),
run_scripts(T).
script_failed(File, fail) :-
format('~NScript ~w failed~n', [File]),
assert(failed(script(File))).
script_failed(File, Except) :-
message_to_string(Except, Error),
format('~NScript ~w failed: ~w~n', [File, Error]),
assert(failed(script(File))).
/*******************************
* TEST MAIN-LOOP *
*******************************/
testset(resource).
testset(literal).
testset(lshare).
testset(same).
testset(typed).
testset(lang).
testset(wide).
testset(namespace).
testset(update).
testset(transaction).
testset(label).
testset(match).
testset(prefix).
testset(rdf_retractall).
testset(monitor).
testset(subproperty).
testset(ptree).
testset(reachable).
testset(duplicates).
testset(source).
testset(unload).
% testdir(Dir)
%
% Enumerate directories holding tests.
testdir('Tests').
:- dynamic
failed/1,
blocked/2.
watch(_).
test :-
retractall(failed(_)),
retractall(blocked(_,_)),
rdf_monitor(watch, []), % check consistency
forall(testset(Set), runtest(Set)),
scripts,
% statistics,
report_blocked,
report_failed.
scripts :-
forall(testdir(Dir), run_test_scripts(Dir)).
report_blocked :-
findall(Head-Reason, blocked(Head, Reason), L),
( L \== []
-> format('~nThe following tests are blocked:~n', []),
( member(Head-Reason, L),
format(' ~p~t~40|~w~n', [Head, Reason]),
fail
; true
)
; true
).
report_failed :-
findall(X, failed(X), L),
length(L, Len),
( Len > 0
-> format('~n*** ~w tests failed ***~n', [Len]),
fail
; format('~nAll tests passed~n', [])
).
runtest(Name) :-
format('Running test set "~w" ', [Name]),
flush,
functor(Head, Name, 1),
nth_clause(Head, _N, R),
clause(Head, _, R),
rdf_reset_db, % reset before each script
( catch(Head, Except, true)
-> ( var(Except)
-> put(.), flush
; Except = blocked(Reason)
-> assert(blocked(Head, Reason)),
put(!), flush
; test_failed(R, Except)
)
; test_failed(R, fail)
),
fail.
runtest(_) :-
format(' done.~n').
test_failed(R, Except) :-
clause(Head, _, R),
functor(Head, Name, 1),
arg(1, Head, TestName),
clause_property(R, line_count(Line)),
clause_property(R, file(File)),
( Except == fail
-> format('~N~w:~d: Test ~w(~w) failed~n',
[File, Line, Name, TestName])
; message_to_string(Except, Error),
format('~N~w:~d: Test ~w(~w):~n~t~8|ERROR: ~w~n',
[File, Line, Name, TestName, Error])
),
assert(failed(Head)).
blocked(Reason) :-
throw(blocked(Reason)).
/*******************************
* UNIT TESTS *
*******************************/
:- begin_tests(lang_matches).
test(lang_matches, true) :-
lang_matches('EN', en).
test(lang_matches, true) :-
lang_matches(en, 'EN').
test(lang_matches, fail) :-
lang_matches(nl, 'EN').
test(lang_matches, true) :-
lang_matches('en-GB', en).
test(lang_matches, fail) :-
lang_matches('en-GB', 'en-*-x').
test(lang_matches, true) :-
lang_matches('en-GB-x', 'en-*-x').
test(lang_matches, true) :-
lang_matches('en-GB-x-y', 'en-*-x-*').
test(lang_matches, true) :-
lang_matches('en-GB-x-y', 'en-*-y').
:- end_tests(lang_matches).