/*
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/URIs.hpp"
#include "Buffer.hpp"
#include "Driver.hpp"
#include "DuplexPort.hpp"
#include "Engine.hpp"
#include "GraphImpl.hpp"
using namespace std;
namespace Ingen {
namespace Server {
DuplexPort::DuplexPort(BufferFactory& bufs,
GraphImpl* parent,
const Raul::Symbol& symbol,
uint32_t index,
bool polyphonic,
PortType type,
LV2_URID buf_type,
size_t buf_size,
const Atom& value,
bool is_output)
: InputPort(bufs, parent, symbol, index, parent->polyphony(), type, buf_type, value, buf_size)
{
if (polyphonic) {
set_property(bufs.uris().ingen_polyphonic, bufs.forge().make(true));
}
if (!parent->parent() ||
_poly != parent->parent_graph()->internal_poly()) {
_poly = 1;
}
// Set default control range
if (!is_output && value.type() == bufs.uris().atom_Float) {
set_property(bufs.uris().lv2_minimum, bufs.forge().make(0.0f));
set_property(bufs.uris().lv2_maximum, bufs.forge().make(1.0f));
}
_is_output = is_output;
if (is_output) {
if (!dynamic_cast(parent)) {
remove_property(bufs.uris().rdf_type, bufs.uris().lv2_InputPort.urid);
add_property(bufs.uris().rdf_type, bufs.uris().lv2_OutputPort.urid);
}
}
get_buffers(bufs, &BufferFactory::get_buffer,
_voices, parent->polyphony(), 0);
}
DuplexPort::~DuplexPort()
{
if (is_linked()) {
parent_graph()->remove_port(*this);
}
}
DuplexPort*
DuplexPort::duplicate(Engine& engine,
const Raul::Symbol& symbol,
GraphImpl* parent)
{
BufferFactory& bufs = *engine.buffer_factory();
const Atom polyphonic = get_property(bufs.uris().ingen_polyphonic);
DuplexPort* dup = new DuplexPort(
bufs, parent, symbol, _index,
polyphonic.type() == bufs.uris().atom_Bool && polyphonic.get(),
_type, _buffer_type, _buffer_size,
_value, _is_output);
dup->set_properties(properties());
return dup;
}
void
DuplexPort::inherit_neighbour(const PortImpl* port,
Properties& remove,
Properties& add)
{
const URIs& uris = _bufs.uris();
/* TODO: This needs to become more sophisticated, and correct the situation
if the port is disconnected. */
if (_type == PortType::CONTROL || _type == PortType::CV) {
if (port->minimum().get() < _min.get()) {
_min = port->minimum();
remove.insert(std::make_pair(uris.lv2_minimum, uris.patch_wildcard));
add.insert(std::make_pair(uris.lv2_minimum, port->minimum()));
}
if (port->maximum().get() > _max.get()) {
_max = port->maximum();
remove.insert(std::make_pair(uris.lv2_maximum, uris.patch_wildcard));
add.insert(std::make_pair(uris.lv2_maximum, port->maximum()));
}
} else if (_type == PortType::ATOM) {
for (Properties::const_iterator i = port->properties().find(
uris.atom_supports);
i != port->properties().end() && i->first == uris.atom_supports;
++i) {
set_property(i->first, i->second);
add.insert(*i);
}
}
}
void
DuplexPort::on_property(const Raul::URI& uri, const Atom& value)
{
_bufs.engine().driver()->port_property(_path, uri, value);
}
bool
DuplexPort::get_buffers(BufferFactory& bufs,
PortImpl::GetFn get,
const MPtr& voices,
uint32_t poly,
size_t num_in_arcs) const
{
if (!_is_driver_port && is_output()) {
return InputPort::get_buffers(bufs, get, voices, poly, num_in_arcs);
} else if (!_is_driver_port && is_input()) {
return PortImpl::get_buffers(bufs, get, voices, poly, num_in_arcs);
}
return false;
}
bool
DuplexPort::setup_buffers(RunContext& ctx, BufferFactory& bufs, uint32_t poly)
{
if (!_is_driver_port && is_output()) {
return InputPort::setup_buffers(ctx, bufs, poly);
} else if (!_is_driver_port && is_input()) {
return PortImpl::setup_buffers(ctx, bufs, poly);
}
return false;
}
void
DuplexPort::set_is_driver_port(BufferFactory& bufs)
{
_voices->at(0).buffer = new Buffer(bufs, buffer_type(), _value.type(), 0, true, NULL);
PortImpl::set_is_driver_port(bufs);
}
void
DuplexPort::set_driver_buffer(void* buf, uint32_t capacity)
{
_voices->at(0).buffer->set_buffer(buf);
_voices->at(0).buffer->set_capacity(capacity);
}
uint32_t
DuplexPort::max_tail_poly(RunContext& context) const
{
return std::max(_poly, parent_graph()->internal_poly_process());
}
bool
DuplexPort::prepare_poly(BufferFactory& bufs, uint32_t poly)
{
if (!parent()->parent() ||
poly != parent()->parent_graph()->internal_poly()) {
return false;
}
return PortImpl::prepare_poly(bufs, poly);
}
bool
DuplexPort::apply_poly(RunContext& context, uint32_t poly)
{
if (!parent()->parent() ||
poly != parent()->parent_graph()->internal_poly()) {
return false;
}
return PortImpl::apply_poly(context, poly);
}
void
DuplexPort::pre_process(RunContext& context)
{
if (_is_output) {
/* This is a graph output, which is an input from the internal
perspective. Prepare buffers for write so plugins can deliver to
them */
for (uint32_t v = 0; v < _poly; ++v) {
_voices->at(v).buffer->prepare_write(context);
}
} else {
/* This is a a graph input, which is an output from the internal
perspective. Do whatever a normal block's input port does to
prepare input for reading. */
InputPort::pre_process(context);
InputPort::pre_run(context);
}
}
void
DuplexPort::post_process(RunContext& context)
{
if (_is_output) {
/* This is a graph output, which is an input from the internal
perspective. Mix down input delivered by plugins so output
(external perspective) is ready. */
InputPort::pre_process(context);
InputPort::pre_run(context);
}
monitor(context);
}
SampleCount
DuplexPort::next_value_offset(SampleCount offset, SampleCount end) const
{
return PortImpl::next_value_offset(offset, end);
}
} // namespace Server
} // namespace Ingen