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livetrax/libs/ardour/midi_port.cc
Todd Naugle 89eab2714f Fix double call error in midi tracer handling
Only basic midi ports use the _trace_parser and they enter
here via cycle_start which will pass the _trace_parser to
this function. No need to double up calls.
2021-06-23 17:54:58 -05:00

420 lines
11 KiB
C++

/*
* Copyright (C) 2006-2016 David Robillard <d@drobilla.net>
* Copyright (C) 2007-2012 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2007-2018 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2008 Hans Baier <hansfbaier@googlemail.com>
* Copyright (C) 2013-2019 Robin Gareus <robin@gareus.org>
*
* This program 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.
*
* This program 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 more 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 Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <cassert>
#include <iostream>
#include "pbd/compose.h"
#include "pbd/debug.h"
#include "ardour/audioengine.h"
#include "ardour/data_type.h"
#include "ardour/debug.h"
#include "ardour/midi_buffer.h"
#include "ardour/midi_port.h"
#include "ardour/session.h"
using namespace std;
using namespace ARDOUR;
using namespace PBD;
#define port_engine AudioEngine::instance()->port_engine()
MidiPort::MidiPort (const std::string& name, PortFlags flags)
: Port (name, DataType::MIDI, flags)
, _resolve_required (false)
, _input_active (true)
, _trace_parser (0)
, _data_fetched_for_cycle (false)
{
_buffer = new MidiBuffer (AudioEngine::instance()->raw_buffer_size (DataType::MIDI));
}
MidiPort::~MidiPort()
{
if (_shadow_port) {
AudioEngine::instance()->unregister_port (_shadow_port);
_shadow_port.reset ();
}
delete _buffer;
}
void
MidiPort::parse_input (pframes_t nframes, MIDI::Parser& parser)
{
}
void
MidiPort::cycle_start (pframes_t nframes)
{
Port::cycle_start (nframes);
_buffer->clear ();
if (sends_output () && _port_handle) {
port_engine.midi_clear (port_engine.get_buffer (_port_handle, nframes));
}
if (receives_input() && _trace_parser) {
read_and_parse_entire_midi_buffer_with_no_speed_adjustment (nframes, *_trace_parser, AudioEngine::instance()->sample_time_at_cycle_start());
}
if (_inbound_midi_filter) {
MidiBuffer& mb (get_midi_buffer (nframes));
_inbound_midi_filter (mb, mb);
}
if (_shadow_port) {
MidiBuffer& mb (get_midi_buffer (nframes));
if (_shadow_midi_filter (mb, _shadow_port->get_midi_buffer (nframes))) {
_shadow_port->flush_buffers (nframes);
}
}
}
MidiBuffer &
MidiPort::get_midi_buffer (pframes_t nframes)
{
if (_data_fetched_for_cycle) {
return *_buffer;
}
if (receives_input () && _input_active) {
_buffer->clear ();
void* buffer = port_engine.get_buffer (_port_handle, nframes);
const pframes_t event_count = port_engine.get_midi_event_count (buffer);
/* suck all MIDI events for this cycle of nframes from
the MIDI port buffer into our MidiBuffer.
*/
for (pframes_t i = 0; i < event_count; ++i) {
pframes_t timestamp;
size_t size;
uint8_t const* buf;
port_engine.midi_event_get (timestamp, size, &buf, buffer, i);
if (buf[0] == 0xfe) {
/* throw away active sensing */
continue;
}
timestamp = floor (timestamp * _speed_ratio);
/* check that the event is in the acceptable time range */
if ((timestamp < (_global_port_buffer_offset)) ||
(timestamp >= (_global_port_buffer_offset + nframes))) {
/* This is normal after a split cycles.
*
* The engine buffer contains the data for the
* complete cycle, but only the part after
* _global_port_buffer_offset is needed.
*
* But of course ... if
* _global_port_buffer_offset is zero,
* something wierd is happening.
*/
#ifndef NDEBUG
if (_global_port_buffer_offset == 0) {
cerr << "Ignored incoming MIDI at time " << timestamp << "; offset="
<< _global_port_buffer_offset << " limit="
<< (_global_port_buffer_offset + nframes)
<< " = (" << _global_port_buffer_offset
<< " + " << nframes
<< ")";
for (size_t xx = 0; xx < size; ++xx) {
cerr << ' ' << hex << (int) buf[xx];
}
cerr << dec << endl;
}
#endif
continue;
}
timestamp -= _global_port_buffer_offset;
if ((buf[0] & 0xF0) == 0x90 && buf[2] == 0) {
/* normalize note on with velocity 0 to proper note off */
uint8_t ev[3];
ev[0] = 0x80 | (buf[0] & 0x0F); /* note off */
ev[1] = buf[1];
ev[2] = 0x40; /* default velocity */
_buffer->push_back (timestamp, Evoral::LIVE_MIDI_EVENT, size, ev);
} else {
_buffer->push_back (timestamp, Evoral::LIVE_MIDI_EVENT, size, buf);
}
}
} else {
_buffer->silence (nframes);
}
if (nframes) {
_data_fetched_for_cycle = true;
}
return *_buffer;
}
void
MidiPort::read_and_parse_entire_midi_buffer_with_no_speed_adjustment (pframes_t nframes, MIDI::Parser& parser, samplepos_t now)
{
void* buffer = port_engine.get_buffer (_port_handle, nframes);
const pframes_t event_count = port_engine.get_midi_event_count (buffer);
for (pframes_t i = 0; i < event_count; ++i) {
pframes_t timestamp;
size_t size;
uint8_t const* buf;
port_engine.midi_event_get (timestamp, size, &buf, buffer, i);
if (buf[0] == 0xfe) {
/* throw away active sensing */
continue;
}
parser.set_timestamp (now + timestamp);
/* During this parsing stage, signals will be emitted from the
* Parser, which will update anything connected to it.
*
* As of July 2018, this is only used by TransportMasters which
* read MIDI before the process() cycle really gets started.
*/
if ((buf[0] & 0xF0) == 0x90 && buf[2] == 0) {
/* normalize note on with velocity 0 to proper note off */
parser.scanner (0x80 | (buf[0] & 0x0F)); /* note off */
parser.scanner (buf[1]);
parser.scanner (0x40); /* default (off) velocity */
} else {
for (size_t n = 0; n < size; ++n) {
parser.scanner (buf[n]);
}
}
}
}
void
MidiPort::cycle_end (pframes_t /*nframes*/)
{
_data_fetched_for_cycle = false;
}
void
MidiPort::cycle_split ()
{
_data_fetched_for_cycle = false;
}
void
MidiPort::resolve_notes (void* port_buffer, MidiBuffer::TimeType when)
{
for (uint8_t channel = 0; channel <= 0xF; channel++) {
uint8_t ev[3] = { ((uint8_t) (MIDI_CMD_CONTROL | channel)), MIDI_CTL_SUSTAIN, 0 };
pframes_t tme = floor (when / _speed_ratio);
/* we need to send all notes off AND turn the
* sustain/damper pedal off to handle synths
* that prioritize sustain over AllNotesOff
*/
if (port_engine.midi_event_put (port_buffer, tme, ev, 3) != 0) {
cerr << "failed to deliver sustain-zero on channel " << (int)channel << " on port " << name() << endl;
}
ev[1] = MIDI_CTL_ALL_NOTES_OFF;
if (port_engine.midi_event_put (port_buffer, tme, ev, 3) != 0) {
cerr << "failed to deliver ALL NOTES OFF on channel " << (int)channel << " on port " << name() << endl;
}
}
}
void
MidiPort::flush_buffers (pframes_t nframes)
{
if (sends_output ()) {
void* port_buffer = 0;
if (_resolve_required) {
port_buffer = port_engine.get_buffer (_port_handle, nframes);
/* resolve all notes at the start of the buffer */
resolve_notes (port_buffer, _global_port_buffer_offset);
_resolve_required = false;
}
if (_buffer->empty()) {
return;
}
if (!port_buffer) {
port_buffer = port_engine.get_buffer (_port_handle, nframes);
}
double speed_ratio = (flags () & TransportGenerator) ? 1.0 : _speed_ratio;
for (MidiBuffer::iterator i = _buffer->begin(); i != _buffer->end(); ++i) {
const Evoral::Event<MidiBuffer::TimeType> ev (*i, false);
const samplepos_t adjusted_time = ev.time() + _global_port_buffer_offset;
if (sends_output() && _trace_parser) {
uint8_t const * const buf = ev.buffer();
const samplepos_t now = AudioEngine::instance()->sample_time_at_cycle_start();
_trace_parser->set_timestamp (now + adjusted_time / speed_ratio);
uint32_t limit = ev.size();
for (size_t n = 0; n < limit; ++n) {
_trace_parser->scanner (buf[n]);
}
}
// event times are in samples, relative to cycle start
#ifndef NDEBUG
if (DEBUG_ENABLED (DEBUG::MidiIO)) {
const Session* s = AudioEngine::instance()->session();
const samplepos_t now = (s ? s->transport_sample() : 0);
DEBUG_STR_DECL(a);
DEBUG_STR_APPEND(a, string_compose ("MidiPort %7 %1 pop event @ %2[%7] (global %4, within %5 gpbo %6 sz %3 ", _buffer, adjusted_time, ev.size(),
now + adjusted_time, nframes, _global_port_buffer_offset, name(), ev.time()));
for (size_t i=0; i < ev.size(); ++i) {
DEBUG_STR_APPEND(a,hex);
DEBUG_STR_APPEND(a,"0x");
DEBUG_STR_APPEND(a,(int)(ev.buffer()[i]));
DEBUG_STR_APPEND(a,' ');
}
DEBUG_STR_APPEND(a,'\n');
DEBUG_TRACE (DEBUG::MidiIO, DEBUG_STR(a).str());
}
#endif
// XXX consider removing this check for optimized builds
// and just send 'em all, at cycle_end
// see AudioEngine::split_cycle (), PortManager::cycle_end()
if ((adjusted_time >= _global_port_buffer_offset) && (adjusted_time < _global_port_buffer_offset + nframes)) {
pframes_t tme = floor (adjusted_time / speed_ratio);
if (port_engine.midi_event_put (port_buffer, tme, ev.buffer(), ev.size()) != 0) {
cerr << "write failed, dropped event, time " << adjusted_time << '/' << ev.time() << endl;
}
} else {
pframes_t tme = floor (adjusted_time / speed_ratio);
cerr << "Dropped outgoing MIDI event. time " << adjusted_time
<< " (" << ev.time() << ") @" << speed_ratio << " = " << tme
<< " out of range [" << _global_port_buffer_offset
<< " .. " << _global_port_buffer_offset + nframes
<< "]";
for (size_t xx = 0; xx < ev.size(); ++xx) {
cerr << ' ' << hex << (int) ev.buffer()[xx];
}
cerr << dec << endl;
}
}
/* done.. the data has moved to the port buffer, mark it so */
_buffer->clear ();
}
}
void
MidiPort::require_resolve ()
{
_resolve_required = true;
}
void
MidiPort::transport_stopped ()
{
_resolve_required = true;
}
void
MidiPort::realtime_locate (bool)
{
_resolve_required = true;
}
void
MidiPort::reset ()
{
Port::reset ();
delete _buffer;
cerr << name() << " new MIDI buffer of size " << AudioEngine::instance()->raw_buffer_size (DataType::MIDI) << endl;
_buffer = new MidiBuffer (AudioEngine::instance()->raw_buffer_size (DataType::MIDI));
}
void
MidiPort::set_input_active (bool yn)
{
_input_active = yn;
}
void
MidiPort::set_trace (MIDI::Parser * p)
{
_trace_parser = p;
}
int
MidiPort::add_shadow_port (string const & name, MidiFilter mf)
{
if (!ARDOUR::Port::receives_input()) {
return -1;
}
if (_shadow_port) {
return -2;
}
_shadow_midi_filter = mf;
if (!(_shadow_port = boost::dynamic_pointer_cast<MidiPort> (AudioEngine::instance()->register_output_port (DataType::MIDI, name, false, PortFlags (Shadow|IsTerminal))))) {
return -3;
}
/* forward on our port latency to the shadow port.
XXX: need to capture latency changes and forward them too.
*/
LatencyRange latency = private_latency_range (false);
_shadow_port->set_private_latency_range (latency, false);
return 0;
}