/*
This file is part of Ingen.
Copyright 2007-2017 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/client/ClientStore.hpp"
#include "ingen/Atom.hpp"
#include "ingen/Forge.hpp"
#include "ingen/Log.hpp"
#include "ingen/Node.hpp"
#include "ingen/Properties.hpp"
#include "ingen/Resource.hpp"
#include "ingen/URIs.hpp"
#include "ingen/client/ArcModel.hpp"
#include "ingen/client/BlockModel.hpp"
#include "ingen/client/GraphModel.hpp"
#include "ingen/client/ObjectModel.hpp"
#include "ingen/client/PluginModel.hpp"
#include "ingen/client/PortModel.hpp"
#include "ingen/client/SigClientInterface.hpp"
#include "ingen/paths.hpp"
#include "raul/Path.hpp"
#include
#include
#include
#include
#include
#include
#include
namespace ingen {
namespace client {
ClientStore::ClientStore(URIs& uris,
Log& log,
const std::shared_ptr& emitter)
: _uris(uris)
, _log(log)
, _emitter(emitter)
, _plugins(new Plugins())
{
if (emitter) {
emitter->signal_message().connect(
sigc::mem_fun(this, &ClientStore::message));
}
}
void
ClientStore::clear()
{
Store::clear();
_plugins->clear();
}
void
ClientStore::add_object(const std::shared_ptr& object)
{
// If we already have "this" object, merge the existing one into the new
// one (with precedence to the new values).
auto existing = find(object->path());
if (existing != end()) {
std::dynamic_pointer_cast(existing->second)->set(object);
} else {
if (!object->path().is_root()) {
std::shared_ptr parent = _object(object->path().parent());
if (parent) {
assert(object->path().is_child_of(parent->path()));
object->set_parent(parent);
parent->add_child(object);
assert(parent && (object->parent() == parent));
(*this)[object->path()] = object;
_signal_new_object.emit(object);
} else {
_log.error("Object %1% with no parent\n", object->path());
}
} else {
(*this)[object->path()] = object;
_signal_new_object.emit(object);
}
}
for (const auto& p : object->properties()) {
object->signal_property().emit(p.first, p.second);
}
}
std::shared_ptr
ClientStore::remove_object(const raul::Path& path)
{
// Find the object, the "top" of the tree to remove
const iterator top = find(path);
if (top == end()) {
return nullptr;
}
auto object = std::dynamic_pointer_cast(top->second);
// Remove object and any adjacent arcs from parent if applicable
if (object && object->parent()) {
auto port = std::dynamic_pointer_cast(object);
if (port && std::dynamic_pointer_cast(port->parent())) {
disconnect_all(port->parent()->path(), path);
if (port->parent()->parent()) {
disconnect_all(port->parent()->parent()->path(), path);
}
} else if (port && port->parent()->parent()) {
disconnect_all(port->parent()->parent()->path(), path);
} else {
disconnect_all(object->parent()->path(), path);
}
object->parent()->remove_child(object);
}
// Remove the object and all its descendants
Objects removed;
remove(top, removed);
// Notify everything that needs to know this object has been removed
if (object) {
object->signal_destroyed().emit();
}
return object;
}
std::shared_ptr
ClientStore::_plugin(const URI& uri)
{
const Plugins::iterator i = _plugins->find(uri);
return (i == _plugins->end()) ? std::shared_ptr() : (*i).second;
}
std::shared_ptr
ClientStore::_plugin(const Atom& uri)
{
/* FIXME: Should probably be stored with URIs rather than strings, to make
this a fast case. */
const Plugins::iterator i = _plugins->find(URI(_uris.forge.str(uri, false)));
return (i == _plugins->end()) ? std::shared_ptr() : (*i).second;
}
std::shared_ptr
ClientStore::plugin(const URI& uri) const
{
return const_cast(this)->_plugin(uri);
}
std::shared_ptr
ClientStore::_object(const raul::Path& path)
{
const iterator i = find(path);
if (i == end()) {
return nullptr;
} else {
auto model = std::dynamic_pointer_cast(i->second);
assert(model);
assert(model->path().is_root() || model->parent());
return model;
}
}
std::shared_ptr
ClientStore::object(const raul::Path& path) const
{
return const_cast(this)->_object(path);
}
std::shared_ptr
ClientStore::_resource(const URI& uri)
{
if (uri_is_path(uri)) {
return _object(uri_to_path(uri));
} else {
return _plugin(uri);
}
}
std::shared_ptr
ClientStore::resource(const URI& uri) const
{
return const_cast(this)->_resource(uri);
}
void
ClientStore::add_plugin(const std::shared_ptr& pm)
{
std::shared_ptr existing = _plugin(pm->uri());
if (existing) {
existing->set(pm);
} else {
_plugins->emplace(pm->uri(), pm);
_signal_new_plugin.emit(pm);
}
}
/* ****** Signal Handlers ******** */
void
ClientStore::operator()(const Del& del)
{
if (uri_is_path(del.uri)) {
remove_object(uri_to_path(del.uri));
} else {
auto p = _plugins->find(del.uri);
if (p != _plugins->end()) {
_plugins->erase(p);
_signal_plugin_deleted.emit(del.uri);
}
}
}
void
ClientStore::operator()(const Copy&)
{
_log.error("Client store copy unsupported\n");
}
void
ClientStore::operator()(const Move& msg)
{
const iterator top = find(msg.old_path);
if (top != end()) {
rename(top, msg.new_path);
}
}
void
ClientStore::message(const Message& msg)
{
boost::apply_visitor(*this, msg);
}
void
ClientStore::operator()(const Put& msg)
{
using Iterator = Properties::const_iterator;
const auto& uri = msg.uri;
const auto& properties = msg.properties;
bool is_block = false;
bool is_graph = false;
bool is_output = false;
bool is_port = false;
Resource::type(uris(), properties,
is_graph, is_block, is_port, is_output);
// Check for specially handled types
const Iterator t = properties.find(_uris.rdf_type);
if (t != properties.end()) {
const Atom& type(t->second);
if (_uris.pset_Preset == type) {
const Iterator p = properties.find(_uris.lv2_appliesTo);
const Iterator l = properties.find(_uris.rdfs_label);
std::shared_ptr plug;
if (p == properties.end()) {
_log.error("Preset <%1%> with no plugin\n", uri.c_str());
} else if (l == properties.end()) {
_log.error("Preset <%1%> with no label\n", uri.c_str());
} else if (l->second.type() != _uris.forge.String) {
_log.error("Preset <%1%> label is not a string\n", uri.c_str());
} else if (!(plug = _plugin(p->second))) {
_log.error("Preset <%1%> for unknown plugin %2%\n",
uri.c_str(), _uris.forge.str(p->second, true));
} else {
plug->add_preset(uri, l->second.ptr());
}
return;
} else if (_uris.ingen_Graph == type) {
is_graph = true;
} else if (_uris.ingen_Internal == type || _uris.lv2_Plugin == type) {
std::shared_ptr p(new PluginModel(uris(), uri, type, properties));
add_plugin(p);
return;
}
}
if (!uri_is_path(uri)) {
_log.error("Put for unknown subject <%1%>\n", uri.c_str());
return;
}
const raul::Path path(uri_to_path(uri));
auto obj = std::dynamic_pointer_cast(_object(path));
if (obj) {
obj->set_properties(properties);
return;
}
if (path.is_root()) {
is_graph = true;
}
if (is_graph) {
std::shared_ptr model(new GraphModel(uris(), path));
model->set_properties(properties);
add_object(model);
} else if (is_block) {
auto p = properties.find(_uris.lv2_prototype);
if (p == properties.end()) {
p = properties.find(_uris.ingen_prototype);
}
std::shared_ptr plug;
if (p->second.is_valid() && (p->second.type() == _uris.forge.URI ||
p->second.type() == _uris.forge.URID)) {
const URI plugin_uri(_uris.forge.str(p->second, false));
if (!(plug = _plugin(plugin_uri))) {
plug = std::make_shared(uris(),
plugin_uri,
Atom(),
Properties());
add_plugin(plug);
}
std::shared_ptr bm(new BlockModel(uris(), plug, path));
bm->set_properties(properties);
add_object(bm);
} else {
_log.warn("Block %1% has no prototype\n", path.c_str());
}
} else if (is_port) {
PortModel::Direction pdir = (is_output)
? PortModel::Direction::OUTPUT
: PortModel::Direction::INPUT;
uint32_t index = 0;
const Iterator i = properties.find(_uris.lv2_index);
if (i != properties.end() && i->second.type() == _uris.forge.Int) {
index = i->second.get();
}
std::shared_ptr p(new PortModel(uris(), path, index, pdir));
p->set_properties(properties);
add_object(p);
} else {
_log.warn("Ignoring %1% of unknown type\n", path.c_str());
}
}
void
ClientStore::operator()(const Delta& msg)
{
const auto& uri = msg.uri;
if (uri == URI("ingen:/clients/this")) {
// Client property, which we don't store (yet?)
return;
}
if (!uri_is_path(uri)) {
_log.error("Delta for unknown subject <%1%>\n", uri.c_str());
return;
}
const raul::Path path(uri_to_path(uri));
std::shared_ptr obj = _object(path);
if (obj) {
obj->remove_properties(msg.remove);
obj->add_properties(msg.add);
} else {
_log.warn("Failed to find object `%1%'\n", path.c_str());
}
}
void
ClientStore::operator()(const SetProperty& msg)
{
const auto& subject_uri = msg.subject;
const auto& predicate = msg.predicate;
const auto& value = msg.value;
if (subject_uri == URI("ingen:/engine")) {
_log.info("Engine property <%1%> = %2%\n",
predicate.c_str(), _uris.forge.str(value, false));
return;
}
std::shared_ptr subject = _resource(subject_uri);
if (subject) {
if (predicate == _uris.ingen_activity) {
/* Activity is transient, trigger any live actions (like GUI
blinkenlights) but do not store the property. */
subject->on_property(predicate, value);
} else {
subject->set_property(predicate, value, msg.ctx);
}
} else {
std::shared_ptr plugin = _plugin(subject_uri);
if (plugin) {
plugin->set_property(predicate, value);
} else if (predicate != _uris.ingen_activity) {
_log.warn("Property <%1%> for unknown object %2%\n",
predicate.c_str(), subject_uri.c_str());
}
}
}
std::shared_ptr
ClientStore::connection_graph(const raul::Path& tail_path,
const raul::Path& head_path)
{
std::shared_ptr graph;
if (tail_path.parent() == head_path.parent()) {
graph = std::dynamic_pointer_cast(_object(tail_path.parent()));
}
if (!graph && tail_path.parent() == head_path.parent().parent()) {
graph = std::dynamic_pointer_cast(_object(tail_path.parent()));
}
if (!graph && tail_path.parent().parent() == head_path.parent()) {
graph = std::dynamic_pointer_cast(_object(head_path.parent()));
}
if (!graph) {
graph = std::dynamic_pointer_cast(_object(tail_path.parent().parent()));
}
if (!graph) {
_log.error("Unable to find graph for arc %1% => %2%\n",
tail_path, head_path);
}
return graph;
}
bool
ClientStore::attempt_connection(const raul::Path& tail_path,
const raul::Path& head_path)
{
auto tail = std::dynamic_pointer_cast(_object(tail_path));
auto head = std::dynamic_pointer_cast(_object(head_path));
if (tail && head) {
std::shared_ptr graph = connection_graph(tail_path, head_path);
std::shared_ptr arc(new ArcModel(tail, head));
graph->add_arc(arc);
return true;
} else {
_log.warn("Failed to connect %1% => %2%\n", tail_path, head_path);
return false;
}
}
void
ClientStore::operator()(const Connect& msg)
{
attempt_connection(msg.tail, msg.head);
}
void
ClientStore::operator()(const Disconnect& msg)
{
auto tail = std::dynamic_pointer_cast(_object(msg.tail));
auto head = std::dynamic_pointer_cast(_object(msg.head));
auto graph = connection_graph(msg.tail, msg.head);
if (graph) {
graph->remove_arc(tail.get(), head.get());
}
}
void
ClientStore::operator()(const DisconnectAll& msg)
{
auto graph = std::dynamic_pointer_cast(_object(msg.graph));
auto object = _object(msg.path);
if (!graph || !object) {
_log.error("Bad disconnect all notification %1% in %2%\n",
msg.path, msg.graph);
return;
}
const GraphModel::Arcs arcs = graph->arcs();
for (const auto& a : arcs) {
auto arc = std::dynamic_pointer_cast(a.second);
if (arc->tail()->parent() == object
|| arc->head()->parent() == object
|| arc->tail()->path() == msg.path
|| arc->head()->path() == msg.path) {
graph->remove_arc(arc->tail().get(), arc->head().get());
}
}
}
} // namespace client
} // namespace ingen