/*
This file is part of Ingen.
Copyright 2007-2015 David Robillard
Ingen is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License as published by the Free
Software Foundation, either version 3 of the License, or any later version.
Ingen 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 Affero General Public License for details.
You should have received a copy of the GNU Affero General Public License
along with Ingen. If not, see .
*/
#include "ingen/Forge.hpp"
#include "ingen/Log.hpp"
#include "ingen/Resource.hpp"
#include "ingen/World.hpp"
#include "ingen/client/ObjectModel.hpp"
#include "lilv/lilv.h"
#include "RDFS.hpp"
namespace Ingen {
namespace GUI {
namespace RDFS {
std::string
label(World* world, const LilvNode* node)
{
LilvNode* rdfs_label = lilv_new_uri(
world->lilv_world(), LILV_NS_RDFS "label");
LilvNodes* labels = lilv_world_find_nodes(
world->lilv_world(), node, rdfs_label, nullptr);
const LilvNode* first = lilv_nodes_get_first(labels);
std::string label = first ? lilv_node_as_string(first) : "";
lilv_nodes_free(labels);
lilv_node_free(rdfs_label);
return label;
}
std::string
comment(World* world, const LilvNode* node)
{
LilvNode* rdfs_comment = lilv_new_uri(
world->lilv_world(), LILV_NS_RDFS "comment");
LilvNodes* comments = lilv_world_find_nodes(
world->lilv_world(), node, rdfs_comment, nullptr);
const LilvNode* first = lilv_nodes_get_first(comments);
std::string comment = first ? lilv_node_as_string(first) : "";
lilv_nodes_free(comments);
lilv_node_free(rdfs_comment);
return comment;
}
static void
closure(World* world, const LilvNode* pred, URISet& types, bool super)
{
unsigned added = 0;
do {
added = 0;
URISet klasses;
for (const auto& t : types) {
LilvNode* type = lilv_new_uri(world->lilv_world(), t.c_str());
LilvNodes* matches = (super)
? lilv_world_find_nodes(
world->lilv_world(), type, pred, nullptr)
: lilv_world_find_nodes(
world->lilv_world(), nullptr, pred, type);
LILV_FOREACH(nodes, m, matches) {
const LilvNode* klass_node = lilv_nodes_get(matches, m);
if (lilv_node_is_uri(klass_node)) {
Raul::URI klass(lilv_node_as_uri(klass_node));
if (!types.count(klass)) {
++added;
klasses.insert(klass);
}
}
}
lilv_nodes_free(matches);
lilv_node_free(type);
}
types.insert(klasses.begin(), klasses.end());
} while (added > 0);
}
void
classes(World* world, URISet& types, bool super)
{
LilvNode* rdfs_subClassOf = lilv_new_uri(
world->lilv_world(), LILV_NS_RDFS "subClassOf");
closure(world, rdfs_subClassOf, types, super);
lilv_node_free(rdfs_subClassOf);
}
void
datatypes(World* world, URISet& types, bool super)
{
LilvNode* owl_onDatatype = lilv_new_uri(
world->lilv_world(), LILV_NS_OWL "onDatatype");
closure(world, owl_onDatatype, types, super);
lilv_node_free(owl_onDatatype);
}
URISet
types(World* world, SPtr model)
{
typedef Properties::const_iterator PropIter;
typedef std::pair PropRange;
// Start with every rdf:type
URISet types;
types.insert(Raul::URI(LILV_NS_RDFS "Resource"));
PropRange range = model->properties().equal_range(world->uris().rdf_type);
for (auto t = range.first; t != range.second; ++t) {
if (t->second.type() == world->forge().URI ||
t->second.type() == world->forge().URID) {
const Raul::URI type(world->forge().str(t->second, false));
types.insert(type);
if (world->uris().ingen_Graph == type) {
// Add lv2:Plugin as a type for graphs so plugin properties show up
types.insert(world->uris().lv2_Plugin);
}
} else {
world->log().error(fmt("<%1%> has non-URI type\n") % model->uri());
}
}
// Add every superclass of every type, recursively
RDFS::classes(world, types, true);
return types;
}
URISet
properties(World* world, SPtr model)
{
URISet properties;
URISet types = RDFS::types(world, model);
LilvNode* rdf_type = lilv_new_uri(world->lilv_world(),
LILV_NS_RDF "type");
LilvNode* rdf_Property = lilv_new_uri(world->lilv_world(),
LILV_NS_RDF "Property");
LilvNode* rdfs_domain = lilv_new_uri(world->lilv_world(),
LILV_NS_RDFS "domain");
LilvNodes* props = lilv_world_find_nodes(
world->lilv_world(), nullptr, rdf_type, rdf_Property);
LILV_FOREACH(nodes, p, props) {
const LilvNode* prop = lilv_nodes_get(props, p);
if (lilv_node_is_uri(prop)) {
LilvNodes* domains = lilv_world_find_nodes(
world->lilv_world(), prop, rdfs_domain, nullptr);
unsigned n_matching_domains = 0;
LILV_FOREACH(nodes, d, domains) {
const LilvNode* domain_node = lilv_nodes_get(domains, d);
if (!lilv_node_is_uri(domain_node)) {
// TODO: Blank node domains (e.g. unions)
continue;
}
const Raul::URI domain(lilv_node_as_uri(domain_node));
if (types.count(domain)) {
++n_matching_domains;
}
}
if (lilv_nodes_size(domains) == 0 || (
n_matching_domains > 0 &&
n_matching_domains == lilv_nodes_size(domains))) {
properties.insert(Raul::URI(lilv_node_as_uri(prop)));
}
lilv_nodes_free(domains);
}
}
lilv_node_free(rdfs_domain);
lilv_node_free(rdf_Property);
lilv_node_free(rdf_type);
return properties;
}
Objects
instances(World* world, const URISet& types)
{
LilvNode* rdf_type = lilv_new_uri(
world->lilv_world(), LILV_NS_RDF "type");
Objects result;
for (const auto& t : types) {
LilvNode* type = lilv_new_uri(world->lilv_world(), t.c_str());
LilvNodes* objects = lilv_world_find_nodes(
world->lilv_world(), nullptr, rdf_type, type);
LILV_FOREACH(nodes, o, objects) {
const LilvNode* object = lilv_nodes_get(objects, o);
if (!lilv_node_is_uri(object)) {
continue;
}
const std::string label = RDFS::label(world, object);
result.insert(
std::make_pair(label,
Raul::URI(lilv_node_as_string(object))));
}
lilv_node_free(type);
}
lilv_node_free(rdf_type);
return result;
}
URISet
range(World* world, const LilvNode* prop, bool recursive)
{
LilvNode* rdfs_range = lilv_new_uri(
world->lilv_world(), LILV_NS_RDFS "range");
LilvNodes* nodes = lilv_world_find_nodes(
world->lilv_world(), prop, rdfs_range, nullptr);
URISet ranges;
LILV_FOREACH(nodes, n, nodes) {
ranges.insert(Raul::URI(lilv_node_as_string(lilv_nodes_get(nodes, n))));
}
if (recursive) {
RDFS::classes(world, ranges, false);
}
lilv_nodes_free(nodes);
lilv_node_free(rdfs_range);
return ranges;
}
bool
is_a(World* world, const LilvNode* inst, const LilvNode* klass)
{
LilvNode* rdf_type = lilv_new_uri(world->lilv_world(), LILV_NS_RDF "type");
const bool is_instance = lilv_world_ask(
world->lilv_world(), inst, rdf_type, klass);
lilv_node_free(rdf_type);
return is_instance;
}
} // namespace RDFS
} // namespace GUI
} // namespace Ingen