/*
This file is part of Ingen.
Copyright 2007-2016 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 "ingen/Atom.hpp"
#include "ingen/Store.hpp"
#include "ingen/URIMap.hpp"
#include "ingen/URIs.hpp"
#include "raul/Array.hpp"
#include "raul/Path.hpp"
#include "Broadcaster.hpp"
#include "BufferFactory.hpp"
#include "CreatePort.hpp"
#include "Driver.hpp"
#include "DuplexPort.hpp"
#include "Engine.hpp"
#include "GraphImpl.hpp"
#include "PortImpl.hpp"
namespace Ingen {
namespace Server {
namespace Events {
CreatePort::CreatePort(Engine& engine,
SPtr client,
int32_t id,
SampleCount timestamp,
const Raul::Path& path,
const Resource::Properties& properties)
: Event(engine, client, id, timestamp)
, _path(path)
, _port_type(PortType::UNKNOWN)
, _buf_type(0)
, _graph(NULL)
, _graph_port(NULL)
, _engine_port(NULL)
, _properties(properties)
{
const Ingen::URIs& uris = _engine.world()->uris();
typedef Resource::Properties::const_iterator Iterator;
typedef std::pair Range;
const Range types = properties.equal_range(uris.rdf_type);
for (Iterator i = types.first; i != types.second; ++i) {
const Atom& type = i->second;
if (type == uris.lv2_AudioPort) {
_port_type = PortType::AUDIO;
} else if (type == uris.lv2_ControlPort) {
_port_type = PortType::CONTROL;
} else if (type == uris.lv2_CVPort) {
_port_type = PortType::CV;
} else if (type == uris.atom_AtomPort) {
_port_type = PortType::ATOM;
} else if (type == uris.lv2_InputPort) {
_flow = Flow::INPUT;
} else if (type == uris.lv2_OutputPort) {
_flow = Flow::OUTPUT;
}
}
const Range buffer_types = properties.equal_range(uris.atom_bufferType);
for (Iterator i = buffer_types.first; i != buffer_types.second; ++i) {
if (uris.forge.is_uri(i->second)) {
_buf_type = _engine.world()->uri_map().map_uri(
uris.forge.str(i->second, false));
}
}
}
bool
CreatePort::pre_process(PreProcessContext& ctx)
{
if (_port_type == PortType::UNKNOWN) {
return Event::pre_process_done(Status::UNKNOWN_TYPE, _path);
} else if (!_flow) {
return Event::pre_process_done(Status::UNKNOWN_TYPE, _path);
} else if (_path.is_root()) {
return Event::pre_process_done(Status::BAD_URI, _path);
} else if (_engine.store()->get(_path)) {
return Event::pre_process_done(Status::EXISTS, _path);
}
const Raul::Path parent_path = _path.parent();
Node* const parent = _engine.store()->get(parent_path);
if (!parent) {
return Event::pre_process_done(Status::PARENT_NOT_FOUND, parent_path);
} else if (!(_graph = dynamic_cast(parent))) {
return Event::pre_process_done(Status::INVALID_PARENT, parent_path);
}
const URIs& uris = _engine.world()->uris();
BufferFactory& bufs = *_engine.buffer_factory();
const uint32_t buf_size = bufs.default_size(_buf_type);
const int32_t old_n_ports = _graph->num_ports_non_rt();
typedef Resource::Properties::const_iterator PropIter;
PropIter index_i = _properties.find(uris.lv2_index);
if (index_i == _properties.end()) {
// No index given, append
index_i = _properties.insert(
std::make_pair(uris.lv2_index,
_engine.world()->forge().make(old_n_ports)));
} else if (index_i->second.type() != uris.forge.Int ||
index_i->second.get() != old_n_ports) {
return Event::pre_process_done(Status::BAD_INDEX, _path);
}
const PropIter poly_i = _properties.find(uris.ingen_polyphonic);
const bool polyphonic = (poly_i != _properties.end() &&
poly_i->second.type() == uris.forge.Bool &&
poly_i->second.get());
// Create 0 value if the port requires one
Atom value;
if (_port_type == PortType::CONTROL || _port_type == PortType::CV) {
value = bufs.forge().make(0.0f);
}
// Create port
_graph_port = new DuplexPort(bufs, _graph, Raul::Symbol(_path.symbol()),
_graph->num_ports_non_rt(),
polyphonic,
_port_type, _buf_type, buf_size,
value, _flow == Flow::OUTPUT);
assert((_flow == Flow::OUTPUT && _graph_port->is_output()) ||
(_flow == Flow::INPUT && _graph_port->is_input()));
_graph_port->properties().insert(_properties.begin(), _properties.end());
_engine.store()->add(_graph_port);
if (_flow == Flow::OUTPUT) {
_graph->add_output(*_graph_port);
} else {
_graph->add_input(*_graph_port);
}
if (!_graph->parent()) {
_engine_port = _engine.driver()->create_port(_graph_port);
}
_ports_array = bufs.maid().make_managed(
old_n_ports + 1, nullptr);
_update = _graph_port->properties();
assert(_graph_port->index() == (uint32_t)index_i->second.get());
assert(_graph->num_ports_non_rt() == (uint32_t)old_n_ports + 1);
assert(_graph_port->index() == (uint32_t)old_n_ports);
assert(_ports_array->size() == _graph->num_ports_non_rt());
assert(_graph_port->index() < _ports_array->size());
return Event::pre_process_done(Status::SUCCESS);
}
void
CreatePort::execute(RunContext& context)
{
if (_status == Status::SUCCESS) {
const MPtr& old_ports = _graph->external_ports();
if (old_ports) {
for (uint32_t i = 0; i < old_ports->size(); ++i) {
(*_ports_array)[i] = (*old_ports)[i];
}
}
assert(!(*_ports_array)[_graph_port->index()]);
(*_ports_array)[_graph_port->index()] = _graph_port;
_graph->set_external_ports(std::move(_ports_array));
if (_engine_port) {
_engine.driver()->add_port(context, _engine_port);
}
}
}
void
CreatePort::post_process()
{
Broadcaster::Transfer t(*_engine.broadcaster());
if (respond() == Status::SUCCESS) {
_engine.broadcaster()->put(Node::path_to_uri(_path), _update);
}
}
void
CreatePort::undo(Interface& target)
{
target.del(_graph_port->uri());
}
} // namespace Events
} // namespace Server
} // namespace Ingen