/*
This file is part of Ingen.
Copyright 2007-2015 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
#include
#include
#include "lv2/lv2plug.in/ns/ext/morph/morph.h"
#include "lv2/lv2plug.in/ns/ext/presets/presets.h"
#include "lv2/lv2plug.in/ns/ext/options/options.h"
#include "lv2/lv2plug.in/ns/ext/resize-port/resize-port.h"
#include "lv2/lv2plug.in/ns/ext/state/state.h"
#include "raul/Maid.hpp"
#include "raul/Array.hpp"
#include "ingen/Log.hpp"
#include "ingen/URIMap.hpp"
#include "ingen/URIs.hpp"
#include "Buffer.hpp"
#include "Driver.hpp"
#include "Engine.hpp"
#include "GraphImpl.hpp"
#include "InputPort.hpp"
#include "LV2Block.hpp"
#include "LV2Plugin.hpp"
#include "OutputPort.hpp"
#include "ProcessContext.hpp"
using namespace std;
namespace Ingen {
namespace Server {
/** Partially construct a LV2Block.
*
* Object is not usable until instantiate() is called with success.
* (It _will_ crash!)
*/
LV2Block::LV2Block(LV2Plugin* plugin,
const Raul::Symbol& symbol,
bool polyphonic,
GraphImpl* parent,
SampleRate srate)
: BlockImpl(plugin, symbol, polyphonic, parent, srate)
, _lv2_plugin(plugin)
, _instances(NULL)
, _prepared_instances(NULL)
, _worker_iface(NULL)
{
assert(_lv2_plugin);
}
LV2Block::~LV2Block()
{
delete _instances;
}
SPtr
LV2Block::make_instance(URIs& uris,
SampleRate rate,
uint32_t voice,
bool preparing)
{
LilvWorld* lworld = _lv2_plugin->lv2_info()->lv2_world();
const LilvPlugin* lplug = _lv2_plugin->lilv_plugin();
LilvInstance* inst = lilv_plugin_instantiate(
lplug, rate, _features->array());
if (!inst) {
parent_graph()->engine().log().error(
fmt("Failed to instantiate <%1%>\n")
% _lv2_plugin->uri().c_str());
return SPtr();
}
LilvNode* opt_interface = lilv_new_uri(lworld, LV2_OPTIONS__interface);
const LV2_Options_Interface* options_iface = NULL;
if (lilv_plugin_has_extension_data(lplug, opt_interface)) {
options_iface = (const LV2_Options_Interface*)
lilv_instance_get_extension_data(inst, LV2_OPTIONS__interface);
}
lilv_node_free(opt_interface);
for (uint32_t p = 0; p < num_ports(); ++p) {
PortImpl* const port = _ports->at(p);
Buffer* const buffer = (preparing)
? port->prepared_buffer(voice).get()
: port->buffer(voice).get();
if (port->is_morph() && port->is_a(PortType::CV)) {
if (options_iface) {
const LV2_URID port_type = uris.lv2_CVPort;
const LV2_Options_Option options[] = {
{ LV2_OPTIONS_PORT, p, uris.morph_currentType,
sizeof(LV2_URID), uris.atom_URID, &port_type },
{ LV2_OPTIONS_INSTANCE, 0, 0, 0, 0, NULL }
};
options_iface->set(inst->lv2_handle, options);
}
}
if (buffer) {
if (port->is_a(PortType::CV) || port->is_a(PortType::CONTROL)) {
buffer->set_block(port->value().get(), 0, buffer->nframes());
} else {
buffer->clear();
}
}
}
if (options_iface) {
for (uint32_t p = 0; p < num_ports(); ++p) {
PortImpl* const port = _ports->at(p);
if (port->is_auto_morph()) {
LV2_Options_Option options[] = {
{ LV2_OPTIONS_PORT, p, uris.morph_currentType, 0, 0, NULL },
{ LV2_OPTIONS_INSTANCE, 0, 0, 0, 0, 0 }
};
options_iface->get(inst->lv2_handle, options);
if (options[0].value) {
LV2_URID type = *(const LV2_URID*)options[0].value;
if (type == _uris.lv2_ControlPort) {
port->set_type(PortType::CONTROL, 0);
} else if (type == _uris.lv2_CVPort) {
port->set_type(PortType::CV, 0);
} else {
parent_graph()->engine().log().error(
fmt("%1% auto-morphed to unknown type %2%\n")
% port->path().c_str() % type);
return SPtr();
}
} else {
parent_graph()->engine().log().error(
fmt("Failed to get auto-morphed type of %1%\n")
% port->path().c_str());
}
}
}
}
return SPtr(inst, lilv_instance_free);
}
bool
LV2Block::prepare_poly(BufferFactory& bufs, uint32_t poly)
{
if (!_polyphonic)
poly = 1;
BlockImpl::prepare_poly(bufs, poly);
if (_polyphony == poly)
return true;
const SampleRate rate = bufs.engine().driver()->sample_rate();
assert(!_prepared_instances);
_prepared_instances = new Instances(poly, *_instances, SPtr());
for (uint32_t i = _polyphony; i < _prepared_instances->size(); ++i) {
SPtr inst = make_instance(bufs.uris(), rate, i, true);
if (!inst) {
delete _prepared_instances;
_prepared_instances = NULL;
return false;
}
_prepared_instances->at(i) = inst;
if (_activated) {
lilv_instance_activate(inst.get());
}
}
return true;
}
bool
LV2Block::apply_poly(ProcessContext& context, Raul::Maid& maid, uint32_t poly)
{
if (!_polyphonic)
poly = 1;
if (_prepared_instances) {
maid.dispose(_instances);
_instances = _prepared_instances;
_prepared_instances = NULL;
}
assert(poly <= _instances->size());
return BlockImpl::apply_poly(context, maid, poly);
}
/** Instantiate self from LV2 plugin descriptor.
*
* Implemented as a seperate function (rather than in the constructor) to
* allow graceful error-catching of broken plugins.
*
* Returns whether or not plugin was successfully instantiated. If return
* value is false, this object may not be used.
*/
bool
LV2Block::instantiate(BufferFactory& bufs)
{
const Ingen::URIs& uris = bufs.uris();
SPtr info = _lv2_plugin->lv2_info();
const LilvPlugin* plug = _lv2_plugin->lilv_plugin();
Ingen::Forge& forge = bufs.forge();
const uint32_t num_ports = lilv_plugin_get_num_ports(plug);
LilvNode* lv2_connectionOptional = lilv_new_uri(
bufs.engine().world()->lilv_world(), LV2_CORE__connectionOptional);
_ports = new Raul::Array(num_ports, NULL);
bool ret = true;
float* min_values = new float[num_ports];
float* max_values = new float[num_ports];
float* def_values = new float[num_ports];
lilv_plugin_get_port_ranges_float(plug, min_values, max_values, def_values);
uint32_t max_sequence_size = 0;
// Get all the necessary information about ports
for (uint32_t j = 0; j < num_ports; ++j) {
const LilvPort* id = lilv_plugin_get_port_by_index(plug, j);
/* LV2 port symbols are guaranteed to be unique, valid C identifiers,
and Lilv guarantees that lilv_port_get_symbol() is valid. */
const Raul::Symbol port_sym(
lilv_node_as_string(lilv_port_get_symbol(plug, id)));
// Get port type
Atom val;
PortType port_type = PortType::UNKNOWN;
LV2_URID buffer_type = 0;
bool is_morph = false;
bool is_auto_morph = false;
if (lilv_port_is_a(plug, id, info->lv2_ControlPort)) {
if (lilv_port_is_a(plug, id, info->morph_MorphPort)) {
is_morph = true;
LilvNodes* types = lilv_port_get_value(
plug, id, info->morph_supportsType);
LILV_FOREACH(nodes, i, types) {
const LilvNode* type = lilv_nodes_get(types, i);
if (lilv_node_equals(type, info->lv2_CVPort)) {
port_type = PortType::CV;
buffer_type = uris.atom_Sound;
}
}
lilv_nodes_free(types);
}
if (port_type == PortType::UNKNOWN) {
port_type = PortType::CONTROL;
buffer_type = uris.atom_Float;
}
} else if (lilv_port_is_a(plug, id, info->lv2_CVPort)) {
port_type = PortType::CV;
buffer_type = uris.atom_Sound;
} else if (lilv_port_is_a(plug, id, info->lv2_AudioPort)) {
port_type = PortType::AUDIO;
buffer_type = uris.atom_Sound;
} else if (lilv_port_is_a(plug, id, info->atom_AtomPort)) {
port_type = PortType::ATOM;
}
if (lilv_port_is_a(plug, id, info->morph_AutoMorphPort)) {
is_auto_morph = true;
}
// Get buffer type if necessary (atom ports)
if (!buffer_type) {
LilvNodes* types = lilv_port_get_value(
plug, id, info->atom_bufferType);
LILV_FOREACH(nodes, i, types) {
const LilvNode* type = lilv_nodes_get(types, i);
if (lilv_node_is_uri(type)) {
buffer_type = bufs.engine().world()->uri_map().map_uri(
lilv_node_as_uri(type));
}
}
lilv_nodes_free(types);
}
const bool optional = lilv_port_has_property(
plug, id, lv2_connectionOptional);
uint32_t port_buffer_size = bufs.default_size(buffer_type);
if (port_buffer_size == 0 && !optional) {
parent_graph()->engine().log().error(
fmt("<%1%> port `%2%' has unknown buffer type\n")
% _lv2_plugin->uri().c_str() % port_sym.c_str());
ret = false;
break;
}
if (port_type == PortType::ATOM) {
// Get default value, and its length
LilvNodes* defaults = lilv_port_get_value(plug, id, info->lv2_default);
LILV_FOREACH(nodes, i, defaults) {
const LilvNode* d = lilv_nodes_get(defaults, i);
if (lilv_node_is_string(d)) {
const char* str_val = lilv_node_as_string(d);
const uint32_t str_val_len = strlen(str_val);
val = forge.alloc(str_val);
port_buffer_size = std::max(port_buffer_size, str_val_len);
} else if (lilv_node_is_uri(d)) {
const char* uri_val = lilv_node_as_uri(d);
val = forge.make_urid(
bufs.engine().world()->uri_map().map_uri(uri_val));
}
}
lilv_nodes_free(defaults);
if (!val.type() && buffer_type == _uris.atom_URID) {
val = forge.make_urid(0);
}
// Get minimum size, if set in data
LilvNodes* sizes = lilv_port_get_value(plug, id, info->rsz_minimumSize);
LILV_FOREACH(nodes, i, sizes) {
const LilvNode* d = lilv_nodes_get(sizes, i);
if (lilv_node_is_int(d)) {
uint32_t size_val = lilv_node_as_int(d);
port_buffer_size = std::max(port_buffer_size, size_val);
}
}
lilv_nodes_free(sizes);
max_sequence_size = std::max(port_buffer_size, max_sequence_size);
bufs.set_seq_size(max_sequence_size);
}
enum { UNKNOWN, INPUT, OUTPUT } direction = UNKNOWN;
if (lilv_port_is_a(plug, id, info->lv2_InputPort)) {
direction = INPUT;
} else if (lilv_port_is_a(plug, id, info->lv2_OutputPort)) {
direction = OUTPUT;
}
if ((port_type == PortType::UNKNOWN && !optional) ||
direction == UNKNOWN) {
parent_graph()->engine().log().error(
fmt("<%1%> port `%2%' has unknown type or direction\n")
% _lv2_plugin->uri().c_str() % port_sym.c_str());
ret = false;
break;
}
if (!val.type() && (port_type != PortType::ATOM)) {
// Ensure numeric ports have a value, use 0 by default
val = forge.make(isnan(def_values[j]) ? 0.0f : def_values[j]);
}
PortImpl* port = (direction == INPUT)
? static_cast(
new InputPort(bufs, this, port_sym, j, _polyphony,
port_type, buffer_type, val))
: static_cast(
new OutputPort(bufs, this, port_sym, j, _polyphony,
port_type, buffer_type, val));
port->set_morphable(is_morph, is_auto_morph);
if (direction == INPUT && (port_type == PortType::CONTROL
|| port_type == PortType::CV)) {
port->set_value(val);
if (!isnan(min_values[j])) {
port->set_minimum(forge.make(min_values[j]));
}
if (!isnan(max_values[j])) {
port->set_maximum(forge.make(max_values[j]));
}
}
// Inherit certain properties from plugin port
const LilvNode* preds[] = { info->lv2_designation,
info->lv2_portProperty,
info->atom_supports,
0 };
for (int p = 0; preds[p]; ++p) {
LilvNodes* values = lilv_port_get_value(plug, id, preds[p]);
LILV_FOREACH(nodes, v, values) {
const LilvNode* val = lilv_nodes_get(values, v);
if (lilv_node_is_uri(val)) {
port->add_property(Raul::URI(lilv_node_as_uri(preds[p])),
forge.alloc_uri(lilv_node_as_uri(val)));
}
}
lilv_nodes_free(values);
}
port->cache_properties();
_ports->at(j) = port;
}
delete[] min_values;
delete[] max_values;
delete[] def_values;
lilv_node_free(lv2_connectionOptional);
if (!ret) {
delete _ports;
_ports = NULL;
return ret;
}
_features = info->world().lv2_features().lv2_features(&info->world(), this);
// Actually create plugin instances and port buffers.
const SampleRate rate = bufs.engine().driver()->sample_rate();
_instances = new Instances(_polyphony, SPtr());
for (uint32_t i = 0; i < _polyphony; ++i) {
_instances->at(i) = make_instance(bufs.uris(), rate, i, false);
if (!_instances->at(i)) {
return false;
}
}
// FIXME: Polyphony + worker?
if (lilv_plugin_has_feature(plug, info->work_schedule)) {
_worker_iface = (const LV2_Worker_Interface*)
lilv_instance_get_extension_data(instance(0),
LV2_WORKER__interface);
}
return ret;
}
BlockImpl*
LV2Block::duplicate(Engine& engine,
const Raul::Symbol& symbol,
GraphImpl* parent)
{
const SampleRate rate = engine.driver()->sample_rate();
// Duplicate and instantiate block
LV2Block* dup = new LV2Block(_lv2_plugin, symbol, _polyphonic, parent, rate);
if (!dup->instantiate(*engine.buffer_factory())) {
delete dup;
return NULL;
}
dup->set_properties(properties());
// Set duplicate port values and properties to the same as ours
for (uint32_t p = 0; p < num_ports(); ++p) {
const Atom& val = port_impl(p)->value();
if (val.is_valid()) {
dup->port_impl(p)->set_value(val);
}
dup->port_impl(p)->set_properties(port_impl(p)->properties());
}
// Copy internal plugin state
for (uint32_t v = 0; v < _polyphony; ++v) {
LilvState* state = lilv_state_new_from_instance(
_lv2_plugin->lilv_plugin(), instance(v),
&engine.world()->uri_map().urid_map_feature()->urid_map,
NULL, NULL, NULL, NULL, NULL, NULL, LV2_STATE_IS_NATIVE, NULL);
if (state) {
lilv_state_restore(state, dup->instance(v),
NULL, NULL, LV2_STATE_IS_NATIVE, NULL);
lilv_state_free(state);
}
}
return dup;
}
void
LV2Block::activate(BufferFactory& bufs)
{
BlockImpl::activate(bufs);
for (uint32_t i = 0; i < _polyphony; ++i)
lilv_instance_activate(instance(i));
}
void
LV2Block::deactivate()
{
BlockImpl::deactivate();
for (uint32_t i = 0; i < _polyphony; ++i)
lilv_instance_deactivate(instance(i));
}
LV2_Worker_Status
LV2Block::work_respond(LV2_Worker_Respond_Handle handle,
uint32_t size,
const void* data)
{
LV2Block* block = (LV2Block*)handle;
LV2Block::Response* r = new LV2Block::Response(size, data);
block->_responses.push_back(*r);
return LV2_WORKER_SUCCESS;
}
void
LV2Block::work(uint32_t size, const void* data)
{
if (_worker_iface) {
LV2_Handle inst = lilv_instance_get_handle(instance(0));
if (_worker_iface->work(inst, work_respond, this, size, data)) {
parent_graph()->engine().log().error(
fmt("Error calling %1% work method\n") % _path);
}
}
}
void
LV2Block::run(ProcessContext& context)
{
for (uint32_t i = 0; i < _polyphony; ++i)
lilv_instance_run(instance(i), context.nframes());
}
void
LV2Block::post_process(ProcessContext& context)
{
BlockImpl::post_process(context);
if (_worker_iface) {
LV2_Handle inst = lilv_instance_get_handle(instance(0));
while (!_responses.empty()) {
Response& r = _responses.front();
_worker_iface->work_response(inst, r.size, r.data);
_responses.pop_front();
context.engine().maid()->dispose(&r);
}
if (_worker_iface->end_run) {
_worker_iface->end_run(inst);
}
}
}
LilvState*
LV2Block::load_preset(const Raul::URI& uri)
{
World* world = &_lv2_plugin->lv2_info()->world();
LilvWorld* lworld = _lv2_plugin->lv2_info()->lv2_world();
LilvNode* preset = lilv_new_uri(lworld, uri.c_str());
// Load preset into world if necessary
lilv_world_load_resource(lworld, preset);
// Load preset from world
LV2_URID_Map* map = &world->uri_map().urid_map_feature()->urid_map;
LilvState* state = lilv_state_new_from_world(lworld, map, preset);
lilv_node_free(preset);
return state;
}
void
LV2Block::apply_state(LilvState* state)
{
for (uint32_t v = 0; v < _polyphony; ++v) {
lilv_state_restore(state, instance(v), NULL, NULL, 0, NULL);
}
}
static const void*
get_port_value(const char* port_symbol,
void* user_data,
uint32_t* size,
uint32_t* type)
{
LV2Block* const block = (LV2Block*)user_data;
PortImpl* const port = block->port_by_symbol(port_symbol);
if (port && port->is_input() && port->value().is_valid()) {
*size = port->value().size();
*type = port->value().type();
return port->value().get_body();
}
return NULL;
}
boost::optional
LV2Block::save_preset(const Raul::URI& uri,
const Properties& props)
{
World* world = parent_graph()->engine().world();
LilvWorld* lworld = _lv2_plugin->lv2_info()->lv2_world();
LV2_URID_Map* lmap = &world->uri_map().urid_map_feature()->urid_map;
LV2_URID_Unmap* lunmap = &world->uri_map().urid_unmap_feature()->urid_unmap;
const std::string path = Glib::filename_from_uri(uri);
const std::string dirname = Glib::path_get_dirname(path);
const std::string basename = Glib::path_get_basename(path);
LilvState* state = lilv_state_new_from_instance(
_lv2_plugin->lilv_plugin(), instance(0), lmap,
NULL, NULL, NULL, path.c_str(),
get_port_value, this, LV2_STATE_IS_NATIVE, NULL);
if (state) {
const Properties::const_iterator l = props.find(_uris.rdfs_label);
if (l != props.end() && l->second.type() == _uris.atom_String) {
lilv_state_set_label(state, l->second.ptr());
}
lilv_state_save(lworld, lmap, lunmap, state, NULL,
dirname.c_str(), basename.c_str());
const Raul::URI uri(lilv_node_as_uri(lilv_state_get_uri(state)));
const std::string label(lilv_state_get_label(state)
? lilv_state_get_label(state)
: basename);
lilv_state_free(state);
Resource preset(_uris, uri);
preset.set_property(_uris.rdf_type, _uris.pset_Preset);
preset.set_property(_uris.rdfs_label, world->forge().alloc(label));
preset.set_property(_uris.lv2_appliesTo,
world->forge().make_urid(_lv2_plugin->uri()));
LilvNode* lbundle = lilv_new_uri(
lworld, Glib::filename_to_uri(dirname + "/").c_str());
lilv_world_load_bundle(lworld, lbundle);
lilv_node_free(lbundle);
return preset;
}
return boost::optional();
}
void
LV2Block::set_port_buffer(uint32_t voice,
uint32_t port_num,
BufferRef buf,
SampleCount offset)
{
BlockImpl::set_port_buffer(voice, port_num, buf, offset);
lilv_instance_connect_port(
instance(voice),
port_num,
buf ? buf->port_data(_ports->at(port_num)->type(), offset) : NULL);
}
} // namespace Server
} // namespace Ingen