/*
LV2 Sampler Example Plugin
Copyright 2011-2016 David Robillard <d@drobilla.net>
Copyright 2011 Gabriel M. Beddingfield <gabriel@teuton.org>
Copyright 2011 James Morris <jwm.art.net@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "atom_sink.h"
#include "peaks.h"
#include "uris.h"
#include "lv2/atom/atom.h"
#include "lv2/atom/forge.h"
#include "lv2/atom/util.h"
#include "lv2/core/lv2.h"
#include "lv2/core/lv2_util.h"
#include "lv2/log/log.h"
#include "lv2/log/logger.h"
#include "lv2/midi/midi.h"
#include "lv2/state/state.h"
#include "lv2/urid/urid.h"
#include "lv2/worker/worker.h"
#include <sndfile.h>
#include <math.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
enum { SAMPLER_CONTROL = 0, SAMPLER_NOTIFY = 1, SAMPLER_OUT = 2 };
typedef struct {
SF_INFO info; // Info about sample from sndfile
float* data; // Sample data in float
char* path; // Path of file
uint32_t path_len; // Length of path
} Sample;
typedef struct {
// Features
LV2_URID_Map* map;
LV2_Worker_Schedule* schedule;
LV2_Log_Logger logger;
// Ports
const LV2_Atom_Sequence* control_port;
LV2_Atom_Sequence* notify_port;
float* output_port;
// Communication utilities
LV2_Atom_Forge_Frame notify_frame; ///< Cached for worker replies
LV2_Atom_Forge forge; ///< Forge for writing atoms in run thread
PeaksSender psend; ///< Audio peaks sender
// URIs
SamplerURIs uris;
// Playback state
Sample* sample;
uint32_t frame_offset;
float gain;
float gain_dB;
sf_count_t frame;
bool play;
bool activated;
bool gain_changed;
bool sample_changed;
} Sampler;
/**
An atom-like message used internally to apply/free samples.
This is only used internally to communicate with the worker, it is never
sent to the outside world via a port since it is not POD. It is convenient
to use an Atom header so actual atoms can be easily sent through the same
ringbuffer.
*/
typedef struct {
LV2_Atom atom;
Sample* sample;
} SampleMessage;
/**
Load a new sample and return it.
Since this is of course not a real-time safe action, this is called in the
worker thread only. The sample is loaded and returned only, plugin state is
not modified.
*/
static Sample*
load_sample(LV2_Log_Logger* logger, const char* path)
{
lv2_log_trace(logger, "Loading %s\n", path);
const size_t path_len = strlen(path);
Sample* const sample = (Sample*)calloc(1, sizeof(Sample));
SF_INFO* const info = &sample->info;
SNDFILE* const sndfile = sf_open(path, SFM_READ, info);
float* data = NULL;
bool error = true;
if (!sndfile || !info->frames) {
lv2_log_error(logger, "Failed to open %s\n", path);
} else if (info->channels != 1) {
lv2_log_error(logger, "%s has %d channels\n", path, info->channels);
} else if (!(data = (float*)malloc(sizeof(float) * info->frames))) {
lv2_log_error(logger, "Failed to allocate memory for sample\n");
} else {
error = false;
}
if (error) {
free(sample);
free(data);
sf_close(sndfile);
return NULL;
}
sf_seek(sndfile, 0ul, SEEK_SET);
sf_read_float(sndfile, data, info->frames);
sf_close(sndfile);
// Fill sample struct and return it
sample->data = data;
sample->path = (char*)malloc(path_len + 1);
sample->path_len = (uint32_t)path_len;
memcpy(sample->path, path, path_len + 1);
return sample;
}
static void
free_sample(Sampler* self, Sample* sample)
{
if (sample) {
lv2_log_trace(&self->logger, "Freeing %s\n", sample->path);
free(sample->path);
free(sample->data);
free(sample);
}
}
/**
Do work in a non-realtime thread.
This is called for every piece of work scheduled in the audio thread using
self->schedule->schedule_work(). A reply can be sent back to the audio
thread using the provided `respond` function.
*/
static LV2_Worker_Status
work(LV2_Handle instance,
LV2_Worker_Respond_Function respond,
LV2_Worker_Respond_Handle handle,
uint32_t size,
const void* data)
{
Sampler* self = (Sampler*)instance;
const LV2_Atom* atom = (const LV2_Atom*)data;
if (atom->type == self->uris.eg_freeSample) {
// Free old sample
const SampleMessage* msg = (const SampleMessage*)data;
free_sample(self, msg->sample);
} else if (atom->type == self->forge.Object) {
// Handle set message (load sample).
const LV2_Atom_Object* obj = (const LV2_Atom_Object*)data;
const char* path = read_set_file(&self->uris, obj);
if (!path) {
lv2_log_error(&self->logger, "Malformed set file request\n");
return LV2_WORKER_ERR_UNKNOWN;
}
// Load sample.
Sample* sample = load_sample(&self->logger, path);
if (sample) {
// Send new sample to run() to be applied
respond(handle, sizeof(Sample*), &sample);
}
}
return LV2_WORKER_SUCCESS;
}
/**
Handle a response from work() in the audio thread.
When running normally, this will be called by the host after run(). When
freewheeling, this will be called immediately at the point the work was
scheduled.
*/
static LV2_Worker_Status
work_response(LV2_Handle instance, uint32_t size, const void* data)
{
Sampler* self = (Sampler*)instance;
Sample* old_sample = self->sample;
Sample* new_sample = *(Sample* const*)data;
// Install the new sample
self->sample = *(Sample* const*)data;
// Stop playing previous sample, which can be larger than new one
self->frame = 0;
self->play = false;
// Schedule work to free the old sample
SampleMessage msg = {{sizeof(Sample*), self->uris.eg_freeSample}, old_sample};
self->schedule->schedule_work(self->schedule->handle, sizeof(msg), &msg);
// Send a notification that we're using a new sample
lv2_atom_forge_frame_time(&self->forge, self->frame_offset);
write_set_file(
&self->forge, &self->uris, new_sample->path, new_sample->path_len);
return LV2_WORKER_SUCCESS;
}
static void
connect_port(LV2_Handle instance, uint32_t port, void* data)
{
Sampler* self = (Sampler*)instance;
switch (port) {
case SAMPLER_CONTROL:
self->control_port = (const LV2_Atom_Sequence*)data;
break;
case SAMPLER_NOTIFY:
self->notify_port = (LV2_Atom_Sequence*)data;
break;
case SAMPLER_OUT:
self->output_port = (float*)data;
break;
default:
break;
}
}
static LV2_Handle
instantiate(const LV2_Descriptor* descriptor,
double rate,
const char* path,
const LV2_Feature* const* features)
{
// Allocate and initialise instance structure.
Sampler* self = (Sampler*)calloc(1, sizeof(Sampler));
if (!self) {
return NULL;
}
// Get host features
// clang-format off
const char* missing = lv2_features_query(
features,
LV2_LOG__log, &self->logger.log, false,
LV2_URID__map, &self->map, true,
LV2_WORKER__schedule, &self->schedule, true,
NULL);
// clang-format on
lv2_log_logger_set_map(&self->logger, self->map);
if (missing) {
lv2_log_error(&self->logger, "Missing feature <%s>\n", missing);
free(self);
return NULL;
}
// Map URIs and initialise forge
map_sampler_uris(self->map, &self->uris);
lv2_atom_forge_init(&self->forge, self->map);
peaks_sender_init(&self->psend, self->map);
self->gain = 1.0f;
self->gain_dB = 0.0f;
return (LV2_Handle)self;
}
static void
cleanup(LV2_Handle instance)
{
Sampler* self = (Sampler*)instance;
free_sample(self, self->sample);
free(self);
}
static void
activate(LV2_Handle instance)
{
((Sampler*)instance)->activated = true;
}
static void
deactivate(LV2_Handle instance)
{
((Sampler*)instance)->activated = false;
}
/** Define a macro for converting a gain in dB to a coefficient. */
#define DB_CO(g) ((g) > -90.0f ? powf(10.0f, (g)*0.05f) : 0.0f)
/**
Handle an incoming event in the audio thread.
This performs any actions triggered by an event, such as the start of sample
playback, a sample change, or responding to requests from the UI.
*/
static void
handle_event(Sampler* self, LV2_Atom_Event* ev)
{
SamplerURIs* uris = &self->uris;
PeaksURIs* peaks_uris = &self->psend.uris;
if (ev->body.type == uris->midi_Event) {
const uint8_t* const msg = (const uint8_t*)(ev + 1);
switch (lv2_midi_message_type(msg)) {
case LV2_MIDI_MSG_NOTE_ON:
self->frame = 0;
self->play = true;
break;
default:
break;
}
} else if (lv2_atom_forge_is_object_type(&self->forge, ev->body.type)) {
const LV2_Atom_Object* obj = (const LV2_Atom_Object*)&ev->body;
if (obj->body.otype == uris->patch_Set) {
// Get the property and value of the set message
const LV2_Atom* property = NULL;
const LV2_Atom* value = NULL;
// clang-format off
lv2_atom_object_get(obj,
uris->patch_property, &property,
uris->patch_value, &value,
0);
// clang-format on
if (!property) {
lv2_log_error(&self->logger, "Set message with no property\n");
return;
} else if (property->type != uris->atom_URID) {
lv2_log_error(&self->logger, "Set property is not a URID\n");
return;
}
const uint32_t key = ((const LV2_Atom_URID*)property)->body;
if (key == uris->eg_sample) {
// Sample change, send it to the worker.
lv2_log_trace(&self->logger, "Scheduling sample change\n");
self->schedule->schedule_work(
self->schedule->handle, lv2_atom_total_size(&ev->body), &ev->body);
} else if (key == uris->param_gain) {
// Gain change
if (value->type == uris->atom_Float) {
self->gain_dB = ((LV2_Atom_Float*)value)->body;
self->gain = DB_CO(self->gain_dB);
}
}
} else if (obj->body.otype == uris->patch_Get && self->sample) {
const LV2_Atom_URID* accept = NULL;
const LV2_Atom_Int* n_peaks = NULL;
// clang-format off
lv2_atom_object_get_typed(
obj,
uris->patch_accept, &accept, uris->atom_URID,
peaks_uris->peaks_total, &n_peaks, peaks_uris->atom_Int,
0);
// clang-format on
if (accept && accept->body == peaks_uris->peaks_PeakUpdate) {
// Received a request for peaks, prepare for transmission
peaks_sender_start(&self->psend,
self->sample->data,
self->sample->info.frames,
n_peaks->body);
} else {
// Received a get message, emit our state (probably to UI)
lv2_atom_forge_frame_time(&self->forge, self->frame_offset);
write_set_file(&self->forge,
&self->uris,
self->sample->path,
self->sample->path_len);
}
} else {
lv2_log_trace(&self->logger, "Unknown object type %u\n", obj->body.otype);
}
} else {
lv2_log_trace(&self->logger, "Unknown event type %u\n", ev->body.type);
}
}
/**
Output audio for a slice of the current cycle.
*/
static void
render(Sampler* self, uint32_t start, uint32_t end)
{
float* output = self->output_port;
if (self->play && self->sample) {
// Start/continue writing sample to output
for (; start < end; ++start) {
output[start] = self->sample->data[self->frame] * self->gain;
if (++self->frame == self->sample->info.frames) {
self->play = false; // Reached end of sample
break;
}
}
}
// Write silence to remaining buffer
for (; start < end; ++start) {
output[start] = 0.0f;
}
}
static void
run(LV2_Handle instance, uint32_t sample_count)
{
Sampler* self = (Sampler*)instance;
// Set up forge to write directly to notify output port.
const uint32_t notify_capacity = self->notify_port->atom.size;
lv2_atom_forge_set_buffer(
&self->forge, (uint8_t*)self->notify_port, notify_capacity);
// Start a sequence in the notify output port.
lv2_atom_forge_sequence_head(&self->forge, &self->notify_frame, 0);
// Send update to UI if gain or sample has changed due to state restore
if (self->gain_changed || self->sample_changed) {
lv2_atom_forge_frame_time(&self->forge, 0);
if (self->gain_changed) {
write_set_gain(&self->forge, &self->uris, self->gain_dB);
self->gain_changed = false;
}
if (self->sample_changed) {
write_set_file(
&self->forge, &self->uris, self->sample->path, self->sample->path_len);
self->sample_changed = false;
}
}
// Iterate over incoming events, emitting audio along the way
self->frame_offset = 0;
LV2_ATOM_SEQUENCE_FOREACH (self->control_port, ev) {
// Render output up to the time of this event
render(self, self->frame_offset, ev->time.frames);
/* Update current frame offset to this event's time. This is stored in
the instance because it is used for synchronous worker event
execution. This allows a sample load event to be executed with
sample accuracy when running in a non-realtime context (such as
exporting a session). */
self->frame_offset = ev->time.frames;
// Process this event
handle_event(self, ev);
}
// Use available space after any emitted events to send peaks
peaks_sender_send(
&self->psend, &self->forge, sample_count, self->frame_offset);
// Render output for the rest of the cycle past the last event
render(self, self->frame_offset, sample_count);
}
static LV2_State_Status
save(LV2_Handle instance,
LV2_State_Store_Function store,
LV2_State_Handle handle,
uint32_t flags,
const LV2_Feature* const* features)
{
Sampler* self = (Sampler*)instance;
if (!self->sample) {
return LV2_STATE_SUCCESS;
}
LV2_State_Map_Path* map_path =
(LV2_State_Map_Path*)lv2_features_data(features, LV2_STATE__mapPath);
if (!map_path) {
return LV2_STATE_ERR_NO_FEATURE;
}
// Map absolute sample path to an abstract state path
char* apath = map_path->abstract_path(map_path->handle, self->sample->path);
// Store eg:sample = abstract path
store(handle,
self->uris.eg_sample,
apath,
strlen(apath) + 1,
self->uris.atom_Path,
LV2_STATE_IS_POD | LV2_STATE_IS_PORTABLE);
free(apath);
// Store the gain value
store(handle,
self->uris.param_gain,
&self->gain_dB,
sizeof(self->gain_dB),
self->uris.atom_Float,
LV2_STATE_IS_POD | LV2_STATE_IS_PORTABLE);
return LV2_STATE_SUCCESS;
}
static LV2_State_Status
restore(LV2_Handle instance,
LV2_State_Retrieve_Function retrieve,
LV2_State_Handle handle,
uint32_t flags,
const LV2_Feature* const* features)
{
Sampler* self = (Sampler*)instance;
// Get host features
LV2_Worker_Schedule* schedule = NULL;
LV2_State_Map_Path* paths = NULL;
// clang-format off
const char* missing = lv2_features_query(
features,
LV2_STATE__mapPath, &paths, true,
LV2_WORKER__schedule, &schedule, false,
NULL);
// clang-format on
if (missing) {
lv2_log_error(&self->logger, "Missing feature <%s>\n", missing);
return LV2_STATE_ERR_NO_FEATURE;
}
// Get eg:sample from state
size_t size = 0;
uint32_t type = 0;
uint32_t valflags = 0;
const void* value =
retrieve(handle, self->uris.eg_sample, &size, &type, &valflags);
if (!value) {
lv2_log_error(&self->logger, "Missing eg:sample\n");
return LV2_STATE_ERR_NO_PROPERTY;
} else if (type != self->uris.atom_Path) {
lv2_log_error(&self->logger, "Non-path eg:sample\n");
return LV2_STATE_ERR_BAD_TYPE;
}
// Map abstract state path to absolute path
const char* apath = (const char*)value;
char* path = paths->absolute_path(paths->handle, apath);
// Replace current sample with the new one
if (!self->activated || !schedule) {
// No scheduling available, load sample immediately
lv2_log_trace(&self->logger, "Synchronous restore\n");
Sample* sample = load_sample(&self->logger, path);
if (sample) {
free_sample(self, self->sample);
self->sample = sample;
self->sample_changed = true;
}
} else {
// Schedule sample to be loaded by the provided worker
lv2_log_trace(&self->logger, "Scheduling restore\n");
LV2_Atom_Forge forge;
LV2_Atom* buf = (LV2_Atom*)calloc(1, strlen(path) + 128);
lv2_atom_forge_init(&forge, self->map);
lv2_atom_forge_set_sink(&forge, atom_sink, atom_sink_deref, buf);
write_set_file(&forge, &self->uris, path, strlen(path));
const uint32_t msg_size = lv2_atom_pad_size(buf->size);
schedule->schedule_work(self->schedule->handle, msg_size, buf + 1);
free(buf);
}
free(path);
// Get param:gain from state
value = retrieve(handle, self->uris.param_gain, &size, &type, &valflags);
if (!value) {
// Not an error, since older versions did not save this property
lv2_log_note(&self->logger, "Missing param:gain\n");
return LV2_STATE_SUCCESS;
} else if (type != self->uris.atom_Float) {
lv2_log_error(&self->logger, "Non-float param:gain\n");
return LV2_STATE_ERR_BAD_TYPE;
}
self->gain_dB = *(const float*)value;
self->gain = DB_CO(self->gain_dB);
self->gain_changed = true;
return LV2_STATE_SUCCESS;
}
static const void*
extension_data(const char* uri)
{
static const LV2_State_Interface state = {save, restore};
static const LV2_Worker_Interface worker = {work, work_response, NULL};
if (!strcmp(uri, LV2_STATE__interface)) {
return &state;
} else if (!strcmp(uri, LV2_WORKER__interface)) {
return &worker;
}
return NULL;
}
static const LV2_Descriptor descriptor = {EG_SAMPLER_URI,
instantiate,
connect_port,
activate,
run,
deactivate,
cleanup,
extension_data};
LV2_SYMBOL_EXPORT
const LV2_Descriptor*
lv2_descriptor(uint32_t index)
{
return index == 0 ? &descriptor : NULL;
}