/*
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
#include "ingen/Log.hpp"
#include "ingen/URIs.hpp"
#include "ingen/World.hpp"
#include "raul/Maid.hpp"
#include "ArcImpl.hpp"
#include "BlockImpl.hpp"
#include "BufferFactory.hpp"
#include "DuplexPort.hpp"
#include "Engine.hpp"
#include "GraphImpl.hpp"
#include "GraphPlugin.hpp"
#include "PortImpl.hpp"
#include "ThreadManager.hpp"
using namespace std;
namespace Ingen {
namespace Server {
GraphImpl::GraphImpl(Engine& engine,
const Raul::Symbol& symbol,
uint32_t poly,
GraphImpl* parent,
SampleRate srate,
uint32_t internal_poly)
: BlockImpl(new GraphPlugin(engine.world()->uris(),
engine.world()->uris().ingen_Graph,
Raul::Symbol("graph"),
"Ingen Graph"),
symbol, poly, parent, srate)
, _engine(engine)
, _poly_pre(internal_poly)
, _poly_process(internal_poly)
, _process(false)
{
assert(internal_poly >= 1);
assert(internal_poly <= 128);
}
GraphImpl::~GraphImpl()
{
delete _plugin;
}
BlockImpl*
GraphImpl::duplicate(Engine& engine,
const Raul::Symbol& symbol,
GraphImpl* parent)
{
BufferFactory& bufs = *engine.buffer_factory();
const SampleRate rate = engine.sample_rate();
// Duplicate graph
GraphImpl* dup = new GraphImpl(
engine, symbol, _polyphony, parent, rate, _poly_process);
Properties props = properties();
props.erase(bufs.uris().lv2_symbol);
props.insert({bufs.uris().lv2_symbol, bufs.forge().alloc(symbol.c_str())});
dup->set_properties(props);
// We need a map of port duplicates to duplicate arcs
typedef std::unordered_map PortMap;
PortMap port_map;
// Add duplicates of all ports
dup->_ports = bufs.maid().make_managed(num_ports(), nullptr);
for (PortList::iterator p = _inputs.begin(); p != _inputs.end(); ++p) {
DuplexPort* p_dup = p->duplicate(engine, p->symbol(), dup);
dup->_inputs.push_front(*p_dup);
(*dup->_ports)[p->index()] = p_dup;
port_map.insert({&*p, p_dup});
}
for (PortList::iterator p = _outputs.begin(); p != _outputs.end(); ++p) {
DuplexPort* p_dup = p->duplicate(engine, p->symbol(), dup);
dup->_outputs.push_front(*p_dup);
(*dup->_ports)[p->index()] = p_dup;
port_map.insert({&*p, p_dup});
}
// Add duplicates of all blocks
for (auto& b : _blocks) {
BlockImpl* b_dup = b.duplicate(engine, b.symbol(), dup);
dup->add_block(*b_dup);
b_dup->activate(*engine.buffer_factory());
for (uint32_t p = 0; p < b.num_ports(); ++p) {
port_map.insert({b.port_impl(p), b_dup->port_impl(p)});
}
}
// Add duplicates of all arcs
for (const auto& a : _arcs) {
SPtr arc = dynamic_ptr_cast(a.second);
if (arc) {
PortMap::iterator t = port_map.find(arc->tail());
PortMap::iterator h = port_map.find(arc->head());
if (t != port_map.end() && h != port_map.end()) {
dup->add_arc(SPtr(new ArcImpl(t->second, h->second)));
}
}
}
return dup;
}
void
GraphImpl::activate(BufferFactory& bufs)
{
BlockImpl::activate(bufs);
for (auto& b : _blocks) {
b.activate(bufs);
}
assert(_activated);
}
void
GraphImpl::deactivate()
{
if (_activated) {
BlockImpl::deactivate();
for (auto& b : _blocks) {
if (b.activated()) {
b.deactivate();
}
}
}
}
void
GraphImpl::disable(RunContext& context)
{
_process = false;
for (auto& o : _outputs) {
o.clear_buffers(context);
}
}
bool
GraphImpl::prepare_internal_poly(BufferFactory& bufs, uint32_t poly)
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
// TODO: Subgraph dynamic polyphony (i.e. changing port polyphony)
for (auto& b : _blocks) {
b.prepare_poly(bufs, poly);
}
_poly_pre = poly;
return true;
}
bool
GraphImpl::apply_internal_poly(RunContext& context,
BufferFactory& bufs,
Raul::Maid& maid,
uint32_t poly)
{
// TODO: Subgraph dynamic polyphony (i.e. changing port polyphony)
for (auto& b : _blocks) {
b.apply_poly(context, poly);
}
for (auto& b : _blocks) {
for (uint32_t j = 0; j < b.num_ports(); ++j) {
PortImpl* const port = b.port_impl(j);
if (port->is_input() && dynamic_cast(port)->direct_connect()) {
port->setup_buffers(context, bufs, port->poly());
}
port->connect_buffers();
}
}
const bool polyphonic = parent_graph() && (poly == parent_graph()->internal_poly_process());
for (auto& o : _outputs) {
o.setup_buffers(context, bufs, polyphonic ? poly : 1);
}
_poly_process = poly;
return true;
}
void
GraphImpl::pre_process(RunContext& context)
{
// Mix down input ports and connect buffers
for (uint32_t i = 0; i < num_ports(); ++i) {
PortImpl* const port = _ports->at(i);
if (!port->is_driver_port()) {
port->pre_process(context);
port->pre_run(context);
port->connect_buffers();
}
}
}
void
GraphImpl::process(RunContext& context)
{
if (!_process)
return;
pre_process(context);
run(context);
post_process(context);
}
void
GraphImpl::run(RunContext& context)
{
if (_compiled_graph) {
_compiled_graph->run(context);
}
}
void
GraphImpl::set_buffer_size(RunContext& context,
BufferFactory& bufs,
LV2_URID type,
uint32_t size)
{
BlockImpl::set_buffer_size(context, bufs, type, size);
if (_compiled_graph) {
// FIXME
// for (size_t i = 0; i < _compiled_graph->size(); ++i) {
// const CompiledBlock& block = (*_compiled_graph)[i];
// block.block()->set_buffer_size(context, bufs, type, size);
// }
}
}
void
GraphImpl::add_block(BlockImpl& block)
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
_blocks.push_front(block);
}
void
GraphImpl::remove_block(BlockImpl& block)
{
_blocks.erase(_blocks.iterator_to(block));
}
void
GraphImpl::add_arc(SPtr a)
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
_arcs.insert(make_pair(make_pair(a->tail(), a->head()), a));
}
SPtr
GraphImpl::remove_arc(const PortImpl* tail, const PortImpl* dst_port)
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
Arcs::iterator i = _arcs.find(make_pair(tail, dst_port));
if (i != _arcs.end()) {
SPtr arc = dynamic_ptr_cast(i->second);
_arcs.erase(i);
return arc;
} else {
return SPtr();
}
}
bool
GraphImpl::has_arc(const PortImpl* tail, const PortImpl* dst_port) const
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
Arcs::const_iterator i = _arcs.find(make_pair(tail, dst_port));
return (i != _arcs.end());
}
void
GraphImpl::set_compiled_graph(MPtr&& cg)
{
if (_compiled_graph && _compiled_graph != cg) {
_engine.reset_load();
}
_compiled_graph = std::move(cg);
}
uint32_t
GraphImpl::num_ports_non_rt() const
{
ThreadManager::assert_not_thread(THREAD_PROCESS);
return _inputs.size() + _outputs.size();
}
void
GraphImpl::remove_port(DuplexPort& port)
{
if (port.is_input()) {
_inputs.erase(_inputs.iterator_to(port));
} else {
_outputs.erase(_outputs.iterator_to(port));
}
}
void
GraphImpl::clear_ports()
{
_inputs.clear();
_outputs.clear();
}
MPtr
GraphImpl::build_ports_array(Raul::Maid& maid)
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
const size_t n = _inputs.size() + _outputs.size();
MPtr result = maid.make_managed(n);
size_t i = 0;
for (PortList::iterator p = _inputs.begin(); p != _inputs.end(); ++p, ++i)
result->at(i) = &*p;
for (PortList::iterator p = _outputs.begin(); p != _outputs.end(); ++p, ++i)
result->at(i) = &*p;
assert(i == n);
return result;
}
} // namespace Server
} // namespace Ingen