/*
This file is part of Ingen.
Copyright 2007-2012 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
#include
#include "raul/log.hpp"
#include "raul/Maid.hpp"
#include "ingen/shared/LV2URIMap.hpp"
#include "ingen/shared/URIs.hpp"
#include "ClientBroadcaster.hpp"
#include "ControlBindings.hpp"
#include "CreateNode.hpp"
#include "CreatePatch.hpp"
#include "CreatePort.hpp"
#include "Driver.hpp"
#include "Engine.hpp"
#include "EngineStore.hpp"
#include "GraphObjectImpl.hpp"
#include "PatchImpl.hpp"
#include "PluginImpl.hpp"
#include "PortImpl.hpp"
#include "PortType.hpp"
#include "SetMetadata.hpp"
#include "SetPortValue.hpp"
#define LOG(s) s << "[SetMetadata] "
using namespace std;
using namespace Raul;
namespace Ingen {
namespace Server {
namespace Events {
typedef Resource::Properties Properties;
SetMetadata::SetMetadata(Engine& engine,
Interface* client,
int32_t id,
SampleCount timestamp,
bool create,
Resource::Graph context,
const URI& subject,
const Properties& properties,
const Properties& remove)
: Event(engine, client, id, timestamp)
, _create_event(NULL)
, _subject(subject)
, _properties(properties)
, _remove(remove)
, _object(NULL)
, _patch(NULL)
, _compiled_patch(NULL)
, _create(create)
, _context(context)
, _lock(engine.engine_store()->lock(), Glib::NOT_LOCK)
{
if (context != Resource::DEFAULT) {
Resource::set_context(_properties, context);
}
/*
LOG(info) << "Set " << subject << " : " << context << " {" << endl;
typedef Resource::Properties::const_iterator iterator;
for (iterator i = properties.begin(); i != properties.end(); ++i)
LOG(info) << " " << i->first << " = " << i->second << " :: " << i->second.type() << endl;
LOG(info) << "}" << endl;
LOG(info) << "Unset " << subject << " {" << endl;
typedef Resource::Properties::const_iterator iterator;
for (iterator i = remove.begin(); i != remove.end(); ++i)
LOG(info) << " " << i->first << " = " << i->second << " :: " << i->second.type() << endl;
LOG(info) << "}" << endl;
*/
}
SetMetadata::~SetMetadata()
{
for (SetEvents::iterator i = _set_events.begin(); i != _set_events.end(); ++i)
delete *i;
delete _create_event;
}
void
SetMetadata::pre_process()
{
typedef Properties::const_iterator iterator;
const bool is_graph_object = Path::is_path(_subject);
_lock.acquire();
_object = is_graph_object
? _engine.engine_store()->find_object(Path(_subject.str()))
: static_cast(_engine.node_factory()->plugin(_subject));
if (!_object && (!is_graph_object || !_create)) {
_status = NOT_FOUND;
Event::pre_process();
return;
}
const Ingen::Shared::URIs& uris = *_engine.world()->uris().get();
if (is_graph_object && !_object) {
Path path(_subject.str());
bool is_patch = false, is_node = false, is_port = false, is_output = false;
Shared::ResourceImpl::type(uris, _properties, is_patch, is_node, is_port, is_output);
if (is_patch) {
uint32_t poly = 1;
iterator p = _properties.find(uris.ingen_polyphony);
if (p != _properties.end() && p->second.is_valid() && p->second.type() == uris.forge.Int)
poly = p->second.get_int32();
_create_event = new CreatePatch(_engine, _request_client, _request_id, _time,
path, poly, _properties);
} else if (is_node) {
const iterator p = _properties.find(uris.rdf_instanceOf);
_create_event = new CreateNode(_engine, _request_client, _request_id, _time,
path, p->second.get_uri(), _properties);
} else if (is_port) {
_create_event = new CreatePort(_engine, _request_client, _request_id, _time,
path, is_output, _properties);
}
if (_create_event) {
_create_event->pre_process();
// Grab the object for applying properties, if the create-event succeeded
_object = _engine.engine_store()->find_object(Path(_subject.str()));
} else {
_status = BAD_OBJECT_TYPE;
}
}
_types.reserve(_properties.size());
GraphObjectImpl* obj = dynamic_cast(_object);
#if 0
// If we're replacing (i.e. this is a PUT, not a POST), first remove all properties
// with keys we will later set. This must be done first so a PUT with several properties
// of the same predicate (e.g. rdf:type) retains the multiple values. Only previously
// existing properties should be replaced
if (_replace)
for (Properties::iterator p = _properties.begin(); p != _properties.end(); ++p)
obj->properties().erase(p->first);
#endif
for (Properties::const_iterator p = _remove.begin(); p != _remove.end(); ++p) {
const Raul::URI& key = p->first;
const Raul::Atom& value = p->second;
if (key == uris.ingen_controlBinding && value == uris.wildcard) {
PortImpl* port = dynamic_cast(_object);
if (port)
_old_bindings = _engine.control_bindings()->remove(port);
}
_object->remove_property(key, value);
}
for (Properties::iterator p = _properties.begin(); p != _properties.end(); ++p) {
const Raul::URI& key = p->first;
const Resource::Property& value = p->second;
SpecialType op = NONE;
if (obj) {
Resource& resource = *obj;
resource.add_property(key, value, value.context());
PortImpl* port = dynamic_cast(_object);
if (port) {
if (key == uris.ingen_broadcast) {
if (value.type() == uris.forge.Bool) {
op = ENABLE_BROADCAST;
} else {
_status = BAD_VALUE_TYPE;
}
} else if (key == uris.ingen_value) {
SetPortValue* ev = new SetPortValue(
_engine, _request_client, _request_id, _time, port, value);
ev->pre_process();
_set_events.push_back(ev);
} else if (key == uris.ingen_controlBinding) {
if (port->is_a(PortType::CONTROL) || port->is_a(PortType::CV)) {
if (value == uris.wildcard) {
_engine.control_bindings()->learn(port);
} else if (value.type() == uris.forge.Dict) {
op = CONTROL_BINDING;
} else {
_status = BAD_VALUE_TYPE;
}
} else {
_status = BAD_OBJECT_TYPE;
}
}
} else if ((_patch = dynamic_cast(_object))) {
if (key == uris.ingen_enabled) {
if (value.type() == uris.forge.Bool) {
op = ENABLE;
// FIXME: defer this until all other metadata has been processed
if (value.get_bool() && !_patch->enabled())
_compiled_patch = _patch->compile();
} else {
_status = BAD_VALUE_TYPE;
}
} else if (key == uris.ingen_polyphony) {
if (value.type() == uris.forge.Int) {
op = POLYPHONY;
_patch->prepare_internal_poly(*_engine.buffer_factory(), value.get_int32());
} else {
_status = BAD_VALUE_TYPE;
}
}
} else if (key == uris.ingen_polyphonic) {
PatchImpl* parent = dynamic_cast(obj->parent());
if (parent) {
if (value.type() == uris.forge.Bool) {
op = POLYPHONIC;
obj->set_property(key, value, value.context());
NodeImpl* node = dynamic_cast(obj);
if (node)
node->set_polyphonic(value.get_bool());
if (value.get_bool()) {
obj->prepare_poly(*_engine.buffer_factory(), parent->internal_poly());
} else {
obj->prepare_poly(*_engine.buffer_factory(), 1);
}
} else {
_status = BAD_VALUE_TYPE;
}
} else {
_status = BAD_OBJECT_TYPE;
}
}
}
if (_status != SUCCESS) {
_error_predicate += key.str();
break;
}
_types.push_back(op);
}
if (!_create_event) {
_lock.release();
}
Event::pre_process();
}
void
SetMetadata::execute(ProcessContext& context)
{
if (_status != SUCCESS) {
Event::execute(context);
return;
}
const Ingen::Shared::URIs& uris = *_engine.world()->uris().get();
if (_create_event) {
_create_event->execute(context);
}
for (SetEvents::iterator i = _set_events.begin(); i != _set_events.end(); ++i)
(*i)->execute(context);
GraphObjectImpl* const object = dynamic_cast(_object);
NodeImpl* const node = dynamic_cast(_object);
PortImpl* const port = dynamic_cast(_object);
std::vector::const_iterator t = _types.begin();
for (Properties::const_iterator p = _properties.begin(); p != _properties.end(); ++p, ++t) {
const Raul::URI& key = p->first;
const Raul::Atom& value = p->second;
switch (*t) {
case ENABLE_BROADCAST:
if (port)
port->broadcast(value.get_bool());
break;
case ENABLE:
if (value.get_bool()) {
if (_compiled_patch) {
_engine.maid()->push(_patch->compiled_patch());
_patch->compiled_patch(_compiled_patch);
}
_patch->enable();
} else {
_patch->disable();
}
break;
case POLYPHONIC:
{
PatchImpl* parent = reinterpret_cast(object->parent());
if (value.get_bool())
object->apply_poly(*_engine.maid(), parent->internal_poly());
else
object->apply_poly(*_engine.maid(), 1);
}
break;
case POLYPHONY:
if (_patch->internal_poly() != static_cast(value.get_int32()) &&
!_patch->apply_internal_poly(_engine.driver()->context(),
*_engine.buffer_factory(),
*_engine.maid(), value.get_int32())) {
_status = INTERNAL_ERROR;
}
break;
case CONTROL_BINDING:
if (port) {
_engine.control_bindings()->port_binding_changed(context, port, value);
} else if (node) {
if (node->plugin_impl()->type() == Plugin::Internal) {
node->learn();
}
}
break;
case NONE:
if (port) {
if (key == uris.lv2_minimum) {
port->set_minimum(value);
} else if (key == uris.lv2_maximum) {
port->set_maximum(value);
}
}
break;
}
}
Event::execute(context);
}
void
SetMetadata::post_process()
{
for (SetEvents::iterator i = _set_events.begin(); i != _set_events.end(); ++i)
(*i)->post_process();
if (!_status) {
if (_create_event) {
_create_event->post_process();
} else {
respond(SUCCESS);
if (_create) {
_engine.broadcaster()->put(_subject, _properties, _context);
} else {
_engine.broadcaster()->delta(_subject, _remove, _properties);
}
}
} else {
respond(_status);
}
if (_create_event) {
_lock.release();
}
}
} // namespace Server
} // namespace Ingen
} // namespace Events