/*
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 "ingen/URIs.hpp"
#include "lv2/lv2plug.in/ns/ext/atom/util.h"
#include "raul/Array.hpp"
#include "raul/Maid.hpp"
#include "BufferFactory.hpp"
#include "Engine.hpp"
#include "NodeImpl.hpp"
#include "PortImpl.hpp"
#include "PortType.hpp"
#include "ThreadManager.hpp"
using namespace std;
namespace Ingen {
namespace Server {
PortImpl::PortImpl(BufferFactory& bufs,
NodeImpl* const node,
const Raul::Symbol& name,
uint32_t index,
uint32_t poly,
PortType type,
LV2_URID buffer_type,
const Raul::Atom& value,
size_t buffer_size)
: GraphObjectImpl(bufs.uris(), node, name)
, _bufs(bufs)
, _index(index)
, _poly(poly)
, _buffer_size(buffer_size)
, _type(type)
, _buffer_type(buffer_type)
, _value(value)
, _min(bufs.forge().make(0.0f))
, _max(bufs.forge().make(1.0f))
, _last_broadcasted_value(value)
, _set_states(new Raul::Array(static_cast(poly)))
, _prepared_set_states(NULL)
, _buffers(new Raul::Array(static_cast(poly)))
, _prepared_buffers(NULL)
, _broadcast(false)
, _set_by_user(false)
, _is_morph(false)
, _is_auto_morph(false)
, _is_logarithmic(false)
, _is_sample_rate(false)
, _is_toggled(false)
{
assert(node != NULL);
assert(_poly > 0);
const Ingen::URIs& uris = bufs.uris();
set_type(type, buffer_type);
add_property(uris.atom_bufferType, bufs.forge().make_urid(buffer_type));
add_property(uris.rdf_type, bufs.forge().alloc_uri(type.uri().str()));
set_property(uris.lv2_index, bufs.forge().make((int32_t)index));
}
void
PortImpl::set_type(PortType port_type, LV2_URID buffer_type)
{
_type = port_type;
_buffer_type = buffer_type;
if (!_buffer_type) {
switch (_type.symbol()) {
case PortType::CONTROL:
_buffer_type = _bufs.uris().atom_Float;
break;
case PortType::AUDIO:
case PortType::CV:
_buffer_type = _bufs.uris().atom_Sound;
break;
default:
break;
}
}
_buffer_size = _bufs.default_size(_buffer_type);
}
PortImpl::~PortImpl()
{
delete _buffers;
}
bool
PortImpl::supports(const Raul::URI& value_type) const
{
return has_property(_bufs.uris().atom_supports,
_bufs.forge().alloc_uri(value_type.str()));
}
Raul::Array*
PortImpl::set_buffers(ProcessContext& context, Raul::Array* buffers)
{
Raul::Array* ret = NULL;
if (buffers != _buffers) {
ret = _buffers;
_buffers = buffers;
}
connect_buffers();
return ret;
}
void
PortImpl::cache_properties()
{
_is_logarithmic = has_property(_bufs.uris().lv2_portProperty,
_bufs.uris().pprops_logarithmic);
_is_sample_rate = has_property(_bufs.uris().lv2_portProperty,
_bufs.uris().lv2_sampleRate);
_is_toggled = has_property(_bufs.uris().lv2_portProperty,
_bufs.uris().lv2_toggled);
}
void
PortImpl::set_control_value(Context& context, FrameTime time, Sample value)
{
for (uint32_t v = 0; v < poly(); ++v) {
set_voice_value(context, v, time, value);
}
}
void
PortImpl::set_voice_value(Context& context, uint32_t voice, FrameTime time, Sample value)
{
// Time may be at end so internal nodes can set single sample triggers
assert(time >= context.start());
assert(time <= context.start() + context.nframes());
if (_type == PortType::CONTROL) {
time = context.start();
}
FrameTime offset = time - context.start();
FrameTime last = (_type == PortType::CONTROL) ? 0 : context.nframes() - 1;
if (offset < context.nframes()) {
buffer(voice)->set_block(value, offset, last);
} // else trigger at very end of block, and set to 0 at start of next block
SetState& state = _set_states->at(voice);
state.state = (offset == 0) ? SetState::SET : SetState::HALF_SET_CYCLE_1;
state.time = time;
state.value = value;
}
void
PortImpl::update_set_state(Context& context, uint32_t voice)
{
SetState& state = _set_states->at(voice);
switch (state.state) {
case SetState::HALF_SET_CYCLE_1:
if (context.start() > state.time) {
state.state = SetState::HALF_SET_CYCLE_2;
}
break;
case SetState::HALF_SET_CYCLE_2: {
buffer(voice)->set_block(state.value, 0, context.nframes() - 1);
state.state = SetState::SET;
break;
}
default:
break;
}
}
bool
PortImpl::prepare_poly(BufferFactory& bufs, uint32_t poly)
{
ThreadManager::assert_thread(THREAD_PRE_PROCESS);
if (_type != PortType::CONTROL &&
_type != PortType::CV &&
_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_set_states && _prepared_set_states->size() != poly) {
delete _prepared_set_states;
_prepared_set_states = NULL;
}
if (!_prepared_buffers)
_prepared_buffers = new Raul::Array(poly, *_buffers, NULL);
if (!_prepared_set_states)
_prepared_set_states = new Raul::Array(poly, *_set_states, SetState());
get_buffers(bufs.engine().message_context(),
bufs,
_prepared_buffers,
_prepared_buffers->size());
return true;
}
bool
PortImpl::apply_poly(ProcessContext& context, Raul::Maid& maid, uint32_t poly)
{
if (_type != PortType::CONTROL &&
_type != PortType::CV &&
_type != PortType::AUDIO) {
return false;
}
if (!_prepared_buffers) {
return true;
}
assert(poly == _prepared_buffers->size());
assert(poly == _prepared_set_states->size());
_poly = poly;
// Apply a new set of buffers from a preceding call to prepare_poly
maid.push(set_buffers(context, _prepared_buffers));
assert(_buffers == _prepared_buffers);
_prepared_buffers = NULL;
maid.push(_set_states);
_set_states = _prepared_set_states;
_prepared_set_states = NULL;
if (is_a(PortType::CONTROL) || is_a(PortType::CV)) {
set_control_value(context, context.start(), _value.get_float());
}
assert(_buffers->size() >= poly);
assert(_set_states->size() >= poly);
assert(this->poly() == poly);
assert(!_prepared_buffers);
assert(!_prepared_set_states);
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()
{
switch (_type.symbol()) {
case PortType::AUDIO:
case PortType::CONTROL:
case PortType::CV:
for (uint32_t v = 0; v < _poly; ++v) {
Buffer* buf = buffer(v).get();
buf->set_block(_value.get_float(), 0, buf->nframes() - 1);
SetState& state = _set_states->at(v);
state.state = SetState::SET;
state.value = _value.get_float();
state.time = 0;
}
break;
default:
for (uint32_t v = 0; v < _poly; ++v) {
buffer(v)->clear();
}
}
}
void
PortImpl::broadcast_value(Context& context, bool force)
{
Forge& forge = context.engine().world()->forge();
URIs& uris = context.engine().world()->uris();
LV2_URID key = 0;
Raul::Atom val;
switch (_type.symbol()) {
case PortType::UNKNOWN:
break;
case PortType::AUDIO:
key = uris.ingen_activity;
val = forge.make(buffer(0)->peak(context));
break;
case PortType::CONTROL:
case PortType::CV:
key = uris.ingen_value;
val = forge.make(buffer(0)->value_at(0));
break;
case PortType::ATOM:
if (_buffer_type == _bufs.uris().atom_Sequence) {
LV2_Atom_Sequence* seq = (LV2_Atom_Sequence*)buffer(0)->atom();
// TODO: Filter events, or only send one activity for blinkenlights
LV2_ATOM_SEQUENCE_FOREACH(seq, ev) {
context.notify(uris.ingen_activity,
context.start() + ev->time.frames,
this,
ev->body.size,
ev->body.type,
LV2_ATOM_BODY(&ev->body));
}
}
break;
}
if (val.is_valid() && (force || val != _last_broadcasted_value)) {
_last_broadcasted_value = val;
context.notify(key, context.start(), this,
val.size(), val.type(), val.get_body());
}
}
} // namespace Server
} // namespace Ingen