/*
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 "ingen/Store.hpp"
#include "raul/Maid.hpp"
#include "raul/Path.hpp"
#include "ArcImpl.hpp"
#include "Broadcaster.hpp"
#include "BufferFactory.hpp"
#include "Connect.hpp"
#include "Engine.hpp"
#include "GraphImpl.hpp"
#include "InputPort.hpp"
#include "PortImpl.hpp"
#include "PreProcessContext.hpp"
#include "internals/BlockDelay.hpp"
#include "types.hpp"
namespace Ingen {
namespace Server {
namespace Events {
Connect::Connect(Engine& engine,
SPtr client,
int32_t id,
SampleCount timestamp,
const Raul::Path& tail_path,
const Raul::Path& head_path)
: Event(engine, client, id, timestamp)
, _tail_path(tail_path)
, _head_path(head_path)
, _graph(NULL)
, _head(NULL)
{}
bool
Connect::pre_process(PreProcessContext& ctx)
{
std::lock_guard lock(_engine.store()->mutex());
Node* tail = _engine.store()->get(_tail_path);
if (!tail) {
return Event::pre_process_done(Status::NOT_FOUND, _tail_path);
}
Node* head = _engine.store()->get(_head_path);
if (!head) {
return Event::pre_process_done(Status::NOT_FOUND, _head_path);
}
PortImpl* tail_output = dynamic_cast(tail);
_head = dynamic_cast(head);
if (!tail_output || !_head) {
return Event::pre_process_done(Status::BAD_REQUEST, _head_path);
}
BlockImpl* const tail_block = tail_output->parent();
BlockImpl* const head_block = _head->parent();
if (!tail_block || !head_block) {
return Event::pre_process_done(Status::PARENT_NOT_FOUND, _head_path);
}
if (tail_block->parent() != head_block->parent()
&& tail_block != head_block->parent()
&& tail_block->parent() != head_block) {
return Event::pre_process_done(Status::PARENT_DIFFERS, _head_path);
}
if (!ArcImpl::can_connect(tail_output, _head)) {
return Event::pre_process_done(Status::TYPE_MISMATCH, _head_path);
}
if (tail_block->parent_graph() != head_block->parent_graph()) {
// Arc to a graph port from inside the graph
assert(tail_block->parent() == head_block || head_block->parent() == tail_block);
if (tail_block->parent() == head_block) {
_graph = dynamic_cast(head_block);
} else {
_graph = dynamic_cast(tail_block);
}
} else if (tail_block == head_block && dynamic_cast(tail_block)) {
// Arc from a graph input to a graph output (pass through)
_graph = dynamic_cast(tail_block);
} else {
// Normal arc between blocks with the same parent
_graph = tail_block->parent_graph();
}
if (_graph->has_arc(tail_output, _head)) {
return Event::pre_process_done(Status::EXISTS, _head_path);
}
_arc = SPtr(new ArcImpl(tail_output, _head));
/* Need to be careful about graph port arcs here and adding a
block's parent as a dependant/provider, or adding a graph as its own
provider...
*/
if (tail_block != head_block && tail_block->parent() == head_block->parent()) {
// Connection is between blocks inside a graph, compile graph
// The tail block is now a dependency (provider) of the head block
head_block->providers().insert(tail_block);
if (!dynamic_cast(tail_block)) {
/* Arcs leaving a delay node are ignored for the purposes of
compilation, since the output is from the previous cycle and
does not affect execution order. Otherwise, the head block is
now a dependant of the head block. */
tail_block->dependants().insert(head_block);
}
if (ctx.must_compile(*_graph)) {
if (!(_compiled_graph = CompiledGraph::compile(
*_engine.maid(), *_graph))) {
head_block->providers().erase(tail_block);
tail_block->dependants().erase(head_block);
return Event::pre_process_done(Status::COMPILATION_FAILED);
}
}
}
_graph->add_arc(_arc);
_head->increment_num_arcs();
if (!_head->is_driver_port()) {
BufferFactory& bufs = *_engine.buffer_factory();
_voices = bufs.maid().make_managed(_head->poly());
_head->pre_get_buffers(bufs, _voices, _head->poly());
}
tail_output->inherit_neighbour(_head, _tail_remove, _tail_add);
_head->inherit_neighbour(tail_output, _head_remove, _head_add);
return Event::pre_process_done(Status::SUCCESS);
}
void
Connect::execute(RunContext& context)
{
if (_status == Status::SUCCESS) {
_head->add_arc(context, *_arc.get());
if (!_head->is_driver_port()) {
_head->set_voices(context, std::move(_voices));
}
_head->connect_buffers();
if (_compiled_graph) {
_graph->set_compiled_graph(std::move(_compiled_graph));
}
}
}
void
Connect::post_process()
{
Broadcaster::Transfer t(*_engine.broadcaster());
if (respond() == Status::SUCCESS) {
_engine.broadcaster()->connect(_tail_path, _head_path);
if (!_tail_remove.empty() || !_tail_add.empty()) {
_engine.broadcaster()->delta(
path_to_uri(_tail_path), _tail_remove, _tail_add);
}
if (!_tail_remove.empty() || !_tail_add.empty()) {
_engine.broadcaster()->delta(
path_to_uri(_tail_path), _tail_remove, _tail_add);
}
}
}
void
Connect::undo(Interface& target)
{
target.disconnect(_tail_path, _head_path);
}
} // namespace Events
} // namespace Server
} // namespace Ingen