/*
This file is part of Ingen.
Copyright 2007-2012 David Robillard <http://drobilla.net/>
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 <http://www.gnu.org/licenses/>.
*/
#include <map>
#include <set>
#include <string>
#include <utility>
#include <glibmm/convert.h>
#include <glibmm/fileutils.h>
#include <glibmm/miscutils.h>
#include <glibmm/ustring.h>
#include "ingen/Atom.hpp"
#include "ingen/Interface.hpp"
#include "ingen/Log.hpp"
#include "ingen/URIMap.hpp"
#include "ingen/URIs.hpp"
#include "ingen/World.hpp"
#include "ingen/serialisation/Parser.hpp"
#include "lv2/lv2plug.in/ns/ext/atom/atom.h"
#include "serd/serd.h"
#include "sord/sordmm.hpp"
#include "sratom/sratom.h"
using namespace std;
typedef set<Sord::Node> RDFNodes;
namespace Ingen {
namespace Serialisation {
static Glib::ustring
relative_uri(Glib::ustring base, const Glib::ustring uri, bool leading_slash)
{
Glib::ustring ret;
if (uri != base) {
SerdURI base_uri;
serd_uri_parse((const uint8_t*)base.c_str(), &base_uri);
SerdURI normal_base_uri;
SerdNode normal_base_uri_node = serd_node_new_uri_from_string(
(const uint8_t*)".", &base_uri, &normal_base_uri);
Glib::ustring normal_base_str((const char*)normal_base_uri_node.buf);
ret = uri;
if (uri.length() >= normal_base_str.length()
&& uri.substr(0, normal_base_str.length()) == normal_base_str) {
ret = uri.substr(normal_base_str.length());
if (leading_slash && ret[0] != '/')
ret = Glib::ustring("/") + ret;
}
serd_node_free(&normal_base_uri_node);
}
if (leading_slash && ret[0] != '/') {
ret = Glib::ustring("/").append(ret);
}
return ret;
}
static std::string
get_basename(const std::string& uri)
{
std::string ret = Glib::path_get_basename(uri);
ret = ret.substr(0, ret.find_last_of('.'));
return ret;
}
static bool
skip_property(Ingen::URIs& uris, const Sord::Node& predicate)
{
return (predicate.to_string() == INGEN__file ||
predicate.to_string() == uris.ingen_arc ||
predicate.to_string() == uris.ingen_block ||
predicate.to_string() == uris.lv2_port);
}
static Resource::Properties
get_properties(Ingen::World* world,
Sord::Model& model,
const Sord::Node& subject)
{
SerdChunk out = { NULL, 0 };
LV2_URID_Map* map = &world->uri_map().urid_map_feature()->urid_map;
LV2_URID_Unmap* unmap = &world->uri_map().urid_unmap_feature()->urid_unmap;
Sratom* sratom = sratom_new(map);
LV2_Atom_Forge forge;
lv2_atom_forge_init(&forge, map);
lv2_atom_forge_set_sink(&forge, sratom_forge_sink, sratom_forge_deref, &out);
const Sord::Node nil;
Resource::Properties props;
for (Sord::Iter i = model.find(subject, nil, nil); !i.end(); ++i) {
if (!skip_property(world->uris(), i.get_predicate())) {
out.len = 0;
sratom_read(sratom, &forge, world->rdf_world()->c_obj(),
model.c_obj(), i.get_object().c_obj());
const LV2_Atom* atom = (const LV2_Atom*)out.buf;
Atom atomm;
// FIXME: Don't bloat out all URIs
if (atom->type == forge.URID) {
atomm = world->forge().alloc_uri(
unmap->unmap(unmap->handle,
((const LV2_Atom_URID*)atom)->body));
} else {
atomm = world->forge().alloc(
atom->size, atom->type, LV2_ATOM_BODY_CONST(atom));
}
props.insert(make_pair(Raul::URI(i.get_predicate().to_string()),
atomm));
}
}
free((uint8_t*)out.buf);
sratom_free(sratom);
return props;
}
typedef std::pair<Raul::Path, Resource::Properties> PortRecord;
static boost::optional<PortRecord>
get_port(Ingen::World* world,
Sord::Model& model,
const Sord::Node& subject,
const Raul::Path& parent,
uint32_t* index)
{
const URIs& uris = world->uris();
// Get all properties
Resource::Properties props = get_properties(world, model, subject);
// Get index if requested (for Graphs)
if (index) {
Resource::Properties::const_iterator i = props.find(uris.lv2_index);
if (i == props.end()
|| i->second.type() != world->forge().Int
|| i->second.get<int32_t>() < 0) {
world->log().error(fmt("Port %1% has no valid index\n") % subject);
return boost::optional<PortRecord>();
}
*index = i->second.get<int32_t>();
}
// Get symbol
Resource::Properties::const_iterator s = props.find(uris.lv2_symbol);
std::string sym;
if (s != props.end()) {
sym = s->second.ptr<char>();
} else {
const std::string subject_str = subject.to_string();
const size_t last_slash = subject_str.find_last_of("/");
sym = ((last_slash == string::npos)
? subject_str
: subject_str.substr(last_slash + 1));
}
if (!Raul::Symbol::is_valid(sym)) {
world->log().error(fmt("Port %1% has invalid symbol `%2%'\n")
% subject % sym);
return boost::optional<PortRecord>();
}
const Raul::Symbol port_sym(sym);
const Raul::Path port_path(parent.child(port_sym));
return make_pair(port_path, props);
}
static boost::optional<Raul::Path>
parse(
World* world,
Interface* target,
Sord::Model& model,
Glib::ustring document_uri,
Sord::Node& subject,
boost::optional<Raul::Path> parent = boost::optional<Raul::Path>(),
boost::optional<Raul::Symbol> symbol = boost::optional<Raul::Symbol>(),
boost::optional<Resource::Properties> data = boost::optional<Resource::Properties>());
static boost::optional<Raul::Path>
parse_graph(
World* world,
Interface* target,
Sord::Model& model,
const Sord::Node& subject,
boost::optional<Raul::Path> parent = boost::optional<Raul::Path>(),
boost::optional<Raul::Symbol> symbol = boost::optional<Raul::Symbol>(),
boost::optional<Resource::Properties> data = boost::optional<Resource::Properties>());
static boost::optional<Raul::Path>
parse_block(
World* world,
Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::Path& path,
boost::optional<Resource::Properties> data = boost::optional<Resource::Properties>());
static bool
parse_properties(
World* world,
Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::URI& uri,
boost::optional<Resource::Properties> data = boost::optional<Resource::Properties>());
static bool
parse_arcs(
World* world,
Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::Path& graph);
static boost::optional<Raul::Path>
parse_block(Ingen::World* world,
Ingen::Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::Path& path,
boost::optional<Node::Properties> data)
{
const URIs& uris = world->uris();
const Sord::URI ingen_prototype(*world->rdf_world(), uris.ingen_prototype);
const Sord::Node nil;
Sord::Iter i = model.find(subject, ingen_prototype, nil);
if (i.end() || i.get_object().type() != Sord::Node::URI) {
if (!i.end()) {
std::cerr << "type: " << i.get_object().type() << std::endl;
}
world->log().error(
fmt("Block %1% (%2%) missing mandatory ingen:prototype\n") %
subject.to_string() % path);
return boost::optional<Raul::Path>();
}
const std::string type_uri = relative_uri(
model.base_uri().to_string(),
i.get_object().to_string(),
false);
if (!serd_uri_string_has_scheme((const uint8_t*)type_uri.c_str())) {
SerdURI base_uri;
serd_uri_parse(model.base_uri().to_u_string(), &base_uri);
SerdURI ignored;
SerdNode sub_uri = serd_node_new_uri_from_string(
i.get_object().to_u_string(),
&base_uri,
&ignored);
const std::string sub_uri_str((const char*)sub_uri.buf);
std::string basename = get_basename(sub_uri_str);
const std::string sub_file =
string((const char*)sub_uri.buf) + "/" + basename + ".ttl";
const SerdNode sub_base = serd_node_from_string(
SERD_URI, (const uint8_t*)sub_file.c_str());
Sord::Model sub_model(*world->rdf_world(), sub_file);
SerdEnv* env = serd_env_new(&sub_base);
sub_model.load_file(env, SERD_TURTLE, sub_file);
serd_env_free(env);
Sord::URI sub_node(*world->rdf_world(), sub_file);
parse_graph(world, target, sub_model, sub_node,
path.parent(), Raul::Symbol(path.symbol()));
parse_graph(world, target, model, subject,
path.parent(), Raul::Symbol(path.symbol()));
} else {
Resource::Properties props = get_properties(world, model, subject);
props.insert(make_pair(uris.rdf_type,
uris.forge.alloc_uri(uris.ingen_Block)));
target->put(Node::path_to_uri(path), props);
}
return path;
}
static boost::optional<Raul::Path>
parse_graph(Ingen::World* world,
Ingen::Interface* target,
Sord::Model& model,
const Sord::Node& subject_node,
boost::optional<Raul::Path> parent,
boost::optional<Raul::Symbol> a_symbol,
boost::optional<Node::Properties> data)
{
URIs& uris = world->uris();
const Sord::URI ingen_block(*world->rdf_world(), uris.ingen_block);
const Sord::URI ingen_polyphony(*world->rdf_world(), uris.ingen_polyphony);
const Sord::URI lv2_port(*world->rdf_world(), LV2_CORE__port);
const Sord::Node& graph = subject_node;
const Sord::Node nil;
const Glib::ustring base_uri = model.base_uri().to_string();
Raul::Symbol symbol("_");
if (a_symbol) {
symbol = *a_symbol;
} else {
const std::string basename = get_basename(base_uri);
}
string graph_path_str = relative_uri(base_uri, subject_node.to_string(), true);
if (parent && a_symbol)
graph_path_str = parent->child(*a_symbol);
if (!Raul::Path::is_valid(graph_path_str)) {
world->log().error(fmt("Graph %1% has invalid path\n")
% graph_path_str);
return boost::optional<Raul::Path>();
}
// Create graph
Raul::Path graph_path(graph_path_str);
Resource::Properties props = get_properties(world, model, subject_node);
target->put(Node::path_to_uri(graph_path), props);
// For each block in this graph
for (Sord::Iter n = model.find(subject_node, ingen_block, nil); !n.end(); ++n) {
Sord::Node node = n.get_object();
const Raul::Path block_path = graph_path.child(
Raul::Symbol(get_basename(node.to_string())));
// Parse and create block
parse_block(world, target, model, node, block_path,
boost::optional<Node::Properties>());
// For each port on this block
for (Sord::Iter p = model.find(node, lv2_port, nil); !p.end(); ++p) {
Sord::Node port = p.get_object();
// Get all properties
boost::optional<PortRecord> port_record = get_port(
world, model, port, block_path, NULL);
if (!port_record) {
world->log().error(fmt("Invalid port %1%\n") % port);
return boost::optional<Raul::Path>();
}
// Create port and/or set all port properties
target->put(Node::path_to_uri(port_record->first),
port_record->second);
}
}
// For each port on this graph
typedef std::map<uint32_t, PortRecord> PortRecords;
PortRecords ports;
for (Sord::Iter p = model.find(graph, lv2_port, nil); !p.end(); ++p) {
Sord::Node port = p.get_object();
// Get all properties
uint32_t index = 0;
boost::optional<PortRecord> port_record = get_port(
world, model, port, graph_path, &index);
if (!port_record) {
world->log().error(fmt("Invalid port %1%\n") % port);
return boost::optional<Raul::Path>();
}
// Store port information in ports map
ports[index] = *port_record;
}
// Create ports in order by index
for (const auto& p : ports) {
target->put(Node::path_to_uri(p.second.first),
p.second.second);
}
parse_arcs(world, target, model, subject_node, graph_path);
return graph_path;
}
static bool
parse_arc(Ingen::World* world,
Ingen::Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::Path& graph)
{
URIs& uris = world->uris();
const Sord::URI ingen_tail(*world->rdf_world(), uris.ingen_tail);
const Sord::URI ingen_head(*world->rdf_world(), uris.ingen_head);
const Sord::Node nil;
Sord::Iter t = model.find(subject, ingen_tail, nil);
Sord::Iter h = model.find(subject, ingen_head, nil);
const Glib::ustring& base_uri = model.base_uri().to_string();
if (t.end()) {
world->log().error("Arc has no tail");
return false;
} else if (h.end()) {
world->log().error("Arc has no head");
return false;
}
const std::string tail_str = relative_uri(
base_uri, t.get_object().to_string(), true);
if (!Raul::Path::is_valid(tail_str)) {
world->log().error("Arc tail has invalid URI");
return false;
}
const std::string head_str = relative_uri(
base_uri, h.get_object().to_string(), true);
if (!Raul::Path::is_valid(head_str)) {
world->log().error("Arc head has invalid URI");
return false;
}
if (!(++t).end()) {
world->log().error("Arc has multiple tails");
return false;
} else if (!(++h).end()) {
world->log().error("Arc has multiple heads");
return false;
}
target->connect(graph.child(Raul::Path(tail_str)),
graph.child(Raul::Path(head_str)));
return true;
}
static bool
parse_arcs(Ingen::World* world,
Ingen::Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::Path& graph)
{
const Sord::URI ingen_arc(*world->rdf_world(), world->uris().ingen_arc);
const Sord::Node nil;
for (Sord::Iter i = model.find(subject, ingen_arc, nil); !i.end(); ++i) {
parse_arc(world, target, model, i.get_object(), graph);
}
return true;
}
static bool
parse_properties(Ingen::World* world,
Ingen::Interface* target,
Sord::Model& model,
const Sord::Node& subject,
const Raul::URI& uri,
boost::optional<Node::Properties> data)
{
Resource::Properties properties = get_properties(world, model, subject);
target->put(uri, properties);
// Set passed properties last to override any loaded values
if (data)
target->put(uri, data.get());
return true;
}
static boost::optional<Raul::Path>
parse(Ingen::World* world,
Ingen::Interface* target,
Sord::Model& model,
Glib::ustring document_uri,
Sord::Node& subject,
boost::optional<Raul::Path> parent,
boost::optional<Raul::Symbol> symbol,
boost::optional<Node::Properties> data)
{
URIs& uris = world->uris();
const Sord::URI graph_class (*world->rdf_world(), uris.ingen_Graph);
const Sord::URI block_class (*world->rdf_world(), uris.ingen_Block);
const Sord::URI arc_class (*world->rdf_world(), uris.ingen_Arc);
const Sord::URI internal_class(*world->rdf_world(), uris.ingen_Internal);
const Sord::URI in_port_class (*world->rdf_world(), LV2_CORE__InputPort);
const Sord::URI out_port_class(*world->rdf_world(), LV2_CORE__OutputPort);
const Sord::URI lv2_class (*world->rdf_world(), LV2_CORE__Plugin);
const Sord::URI rdf_type (*world->rdf_world(), uris.rdf_type);
const Sord::Node nil;
// Parse explicit subject graph
if (subject.is_valid()) {
return parse_graph(world, target, model, subject, parent, symbol, data);
}
// Get all subjects and their types (?subject a ?type)
typedef std::map< Sord::Node, std::set<Sord::Node> > Subjects;
Subjects subjects;
for (Sord::Iter i = model.find(subject, rdf_type, nil); !i.end(); ++i) {
const Sord::Node& subject = i.get_subject();
const Sord::Node& rdf_class = i.get_object();
assert(rdf_class.is_uri());
Subjects::iterator s = subjects.find(subject);
if (s == subjects.end()) {
std::set<Sord::Node> types;
types.insert(rdf_class);
subjects.insert(make_pair(subject, types));
} else {
s->second.insert(rdf_class);
}
}
// Parse and create each subject
for (const auto& i : subjects) {
const Sord::Node& s = i.first;
const std::set<Sord::Node>& types = i.second;
boost::optional<Raul::Path> ret;
const Raul::Path path(
relative_uri( model.base_uri().to_string(), s.to_string(), true));
if (types.find(graph_class) != types.end()) {
ret = parse_graph(world, target, model, s, parent, symbol, data);
} else if (types.find(block_class) != types.end()) {
ret = parse_block(world, target, model, s, path, data);
} else if (types.find(in_port_class) != types.end() ||
types.find(out_port_class) != types.end()) {
parse_properties(
world, target, model, s, Node::path_to_uri(path), data);
ret = path;
} else if (types.find(arc_class) != types.end()) {
Raul::Path parent_path(parent ? parent.get() : Raul::Path("/"));
parse_arc(world, target, model, s, parent_path);
} else {
world->log().error("Subject has no known types\n");
}
}
return boost::optional<Raul::Path>();
}
/** Parse a graph from RDF into a Interface (engine or client).
* @return whether or not load was successful.
*/
bool
Parser::parse_file(Ingen::World* world,
Ingen::Interface* target,
Glib::ustring path,
boost::optional<Raul::Path> parent,
boost::optional<Raul::Symbol> symbol,
boost::optional<Node::Properties> data)
{
if (Glib::file_test(path, Glib::FILE_TEST_IS_DIR)) {
// This is a bundle, append "/name.ttl" to get graph file path
path = Glib::build_filename(path, get_basename(path) + ".ttl");
}
if (!Glib::path_is_absolute(path)) {
path = Glib::build_filename(Glib::get_current_dir(), path);
}
std::string uri;
try {
uri = Glib::filename_to_uri(path, "");
} catch (const Glib::ConvertError& e) {
world->log().error(fmt("Path to URI conversion error: %1%\n")
% e.what());
return false;
}
const uint8_t* uri_c_str = (const uint8_t*)uri.c_str();
SerdNode base_node = serd_node_from_string(SERD_URI, uri_c_str);
SerdEnv* env = serd_env_new(&base_node);
// Load graph file into model
Sord::Model model(*world->rdf_world(), uri, SORD_SPO|SORD_PSO, false);
model.load_file(env, SERD_TURTLE, uri);
serd_env_free(env);
world->log().info(fmt("Parsing %1%\n") % path);
if (parent)
world->log().info(fmt("Parent: %1%\n") % parent->c_str());
if (symbol)
world->log().info(fmt("Symbol: %1%\n") % symbol->c_str());
Sord::Node subject(*world->rdf_world(), Sord::Node::URI, uri);
boost::optional<Raul::Path> parsed_path
= parse(world, target, model, path, subject, parent, symbol, data);
if (parsed_path) {
target->set_property(Node::path_to_uri(*parsed_path),
Raul::URI(INGEN__file),
world->forge().alloc_uri(uri));
} else {
world->log().warn("Document URI lost\n");
}
return parsed_path;
}
bool
Parser::parse_string(Ingen::World* world,
Ingen::Interface* target,
const Glib::ustring& str,
const Glib::ustring& base_uri,
boost::optional<Raul::Path> parent,
boost::optional<Raul::Symbol> symbol,
boost::optional<Node::Properties> data)
{
// Load string into model
Sord::Model model(*world->rdf_world(), base_uri, SORD_SPO|SORD_PSO, false);
const SerdNode base = serd_node_from_string(
SERD_URI, (const uint8_t*)base_uri.c_str());
SerdEnv* env = serd_env_new(&base);
model.load_string(env, SERD_TURTLE, str.c_str(), str.length(), base_uri);
serd_env_free(env);
world->log().info(fmt("Parsing string (base %1%)\n") % base_uri);
Sord::Node subject;
return parse(world, target, model, base_uri, subject, parent, symbol, data);
}
} // namespace Serialisation
} // namespace Ingen