/* This file is part of Ingen. * Copyright 2007-2011 David Robillard * * Ingen is free software; you can redistribute it and/or modify it under the * terms of the GNU General Public License as published by the Free Software * Foundation; either version 2 of the License, or (at your option) 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 General Public License for details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "lv2/lv2plug.in/ns/ext/contexts/contexts.h" #include "raul/Array.hpp" #include "raul/Maid.hpp" #include "shared/LV2URIMap.hpp" #include "AudioBuffer.hpp" #include "BufferFactory.hpp" #include "Engine.hpp" #include "EventBuffer.hpp" #include "LV2Atom.hpp" #include "NodeImpl.hpp" #include "Notification.hpp" #include "ObjectBuffer.hpp" #include "PortImpl.hpp" #include "PortType.hpp" #include "ThreadManager.hpp" using namespace std; using namespace Raul; namespace Ingen { namespace Server { PortImpl::PortImpl(BufferFactory& bufs, NodeImpl* const node, const Raul::Symbol& name, uint32_t index, uint32_t poly, PortType type, const Atom& value, size_t buffer_size) : GraphObjectImpl(bufs.uris(), node, name) , _bufs(bufs) , _index(index) , _poly(poly) , _buffer_size(buffer_size) , _type(type) , _value(value) , _min(0.0f) , _max(1.0f) , _last_broadcasted_value(value) , _context(Context::AUDIO) , _buffers(new Array(static_cast(poly))) , _prepared_buffers(NULL) , _broadcast(false) , _set_by_user(false) { assert(node != NULL); assert(_poly > 0); if (_buffer_size == 0) _buffer_size = bufs.default_buffer_size(type); const Ingen::Shared::LV2URIMap& uris = bufs.uris(); add_property(uris.rdf_type, type.uri()); set_property(uris.lv2_index, Atom((int32_t)index)); set_context(_context); } PortImpl::~PortImpl() { delete _buffers; } bool PortImpl::supports(const Raul::URI& value_type) const { return has_property(_bufs.uris().atom_supports, value_type); } Raul::Array* PortImpl::set_buffers(Raul::Array* buffers) { ThreadManager::assert_thread(THREAD_PROCESS); Raul::Array* ret = NULL; if (buffers != _buffers) { ret = _buffers; _buffers = buffers; } connect_buffers(); return ret; } bool PortImpl::prepare_poly(BufferFactory& bufs, uint32_t poly) { ThreadManager::assert_thread(THREAD_PRE_PROCESS); if (buffer_type() != PortType::CONTROL && buffer_type() != PortType::AUDIO) return false; if (_poly == poly) return true; if (_prepared_buffers && _prepared_buffers->size() != poly) { delete _prepared_buffers; _prepared_buffers = NULL; } if (!_prepared_buffers) _prepared_buffers = new Array(poly, *_buffers, NULL); return true; } void PortImpl::prepare_poly_buffers(BufferFactory& bufs) { if (_prepared_buffers) get_buffers(bufs, _prepared_buffers, _prepared_buffers->size()); } bool PortImpl::apply_poly(Maid& maid, uint32_t poly) { ThreadManager::assert_thread(THREAD_PROCESS); if (buffer_type() != PortType::CONTROL && buffer_type() != PortType::AUDIO) return false; if (!_prepared_buffers) return true; assert(poly == _prepared_buffers->size()); _poly = poly; // Apply a new set of buffers from a preceding call to prepare_poly maid.push(set_buffers(_prepared_buffers)); assert(_buffers == _prepared_buffers); _prepared_buffers = NULL; if (is_a(PortType::CONTROL)) for (uint32_t v = 0; v < _poly; ++v) if (_buffers->at(v)) boost::static_pointer_cast(_buffers->at(v))->set_value( _value.get_float(), 0, 0); assert(_buffers->size() >= poly); assert(this->poly() == poly); assert(!_prepared_buffers); return true; } void PortImpl::set_buffer_size(Context& context, BufferFactory& bufs, size_t size) { _buffer_size = size; for (uint32_t v = 0; v < _poly; ++v) _buffers->at(v)->resize(size); connect_buffers(); } void PortImpl::connect_buffers(SampleCount offset) { for (uint32_t v = 0; v < _poly; ++v) PortImpl::parent_node()->set_port_buffer(v, _index, buffer(v), offset); } void PortImpl::recycle_buffers() { for (uint32_t v = 0; v < _poly; ++v) _buffers->at(v) = NULL; } void PortImpl::clear_buffers() { for (uint32_t v = 0; v < _poly; ++v) buffer(v)->clear(); } void PortImpl::broadcast_value(Context& context, bool force) { Raul::Atom val; switch (_type.symbol()) { case PortType::UNKNOWN: break; case PortType::AUDIO: val = ((AudioBuffer*)buffer(0).get())->peak(context); { const Notification note = Notification::make( Notification::PORT_ACTIVITY, context.start(), this, val); context.event_sink().write(sizeof(note), ¬e); } return; case PortType::CONTROL: val = ((AudioBuffer*)buffer(0).get())->value_at(0); break; case PortType::EVENTS: if (((EventBuffer*)buffer(0).get())->event_count() > 0) { const Notification note = Notification::make( Notification::PORT_ACTIVITY, context.start(), this, Atom(true)); context.event_sink().write(sizeof(note), ¬e); } break; case PortType::VALUE: case PortType::MESSAGE: Ingen::Shared::LV2Atom::to_atom(_bufs.uris(), ((ObjectBuffer*)buffer(0).get())->atom(), val); break; } if (val.is_valid() && (force || val != _last_broadcasted_value)) { _last_broadcasted_value = val; const Notification note = Notification::make( Notification::PORT_VALUE, context.start(), this, val); context.event_sink().write(sizeof(note), ¬e); } } void PortImpl::set_context(Context::ID c) { const Ingen::Shared::LV2URIMap& uris = _bufs.uris(); _context = c; switch (c) { case Context::AUDIO: remove_property(uris.ctx_context, uris.wildcard); break; case Context::MESSAGE: set_property(uris.ctx_context, uris.ctx_MessageContext); break; } } PortType PortImpl::buffer_type() const { return _type; } } // namespace Server } // namespace Ingen