/* Copyright (C) 2013 Waves Audio Ltd. 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include "waves_midi_device.h" #include "waves_midi_event.h" // use non-zero latency because we want output to be timestapmed #define LATENCY 0 #define QUEUE_LENGTH 1024 using namespace ARDOUR; WavesMidiDevice::WavesMidiDevice (const std::string& device_name) : _pm_input_id (pmNoDevice) , _pm_output_id (pmNoDevice) , _name (device_name) , _input_queue (NULL) , _output_queue (NULL) , _input_pm_stream (NULL) , _output_pm_stream (NULL) , _incomplete_waves_midi_event (NULL) { validate (); } WavesMidiDevice::~WavesMidiDevice () { // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::~WavesMidiDevice ():" << name () << std::endl; close (); } void WavesMidiDevice::validate () { _pm_input_id = _pm_output_id = pmNoDevice; int count = Pm_CountDevices (); for (int i = 0; i < count; i++) { const PmDeviceInfo* pm_device_info = Pm_GetDeviceInfo (i); if (pm_device_info == NULL) { continue; } if (name () == pm_device_info->name) { if (pm_device_info->input){ _pm_input_id = i; } if (pm_device_info->output){ _pm_output_id = i; } } } } int WavesMidiDevice::open (PmTimeProcPtr time_proc, void* time_info) { DEBUG_TRACE (DEBUG::WavesMIDI, string_compose ("WavesMidiDevice::open (): %1", name ())); if (is_input () ) { std::cout << "WavesMidiDevice::open (): INPUT" << _pm_input_id << "-[" << name () << "]!" << std::endl; if (!_input_queue) { _input_queue = Pm_QueueCreate (QUEUE_LENGTH, sizeof (const WavesMidiEvent*)); if (NULL == _input_queue) { std::cerr << "WavesMidiDevice::open (): _input_queue = Pm_QueueCreate () failed for " << _pm_input_id << "-[" << name () << "]!" << std::endl; return -1; } } if (!_input_pm_stream) { if (pmNoError != Pm_OpenInput (&_input_pm_stream, _pm_input_id, NULL, 1024, time_proc, time_info)) { char* err_msg = new char[256]; Pm_GetHostErrorText(err_msg, 256); std::cerr << "WavesMidiDevice::open (): Pm_OpenInput () failed for " << _pm_input_id << "-[" << name () << "]!" << std::endl; std::cerr << "Error: " << err_msg << std::endl; _input_pm_stream = NULL; _pm_input_id = pmNoDevice; close (); return -1; } } } if (is_output () ) { std::cout << "WavesMidiDevice::open (): OUTPUT" << _pm_output_id << "-[" << name () << "]!" << std::endl; if (!_output_queue) { _output_queue = Pm_QueueCreate (QUEUE_LENGTH, sizeof (const WavesMidiEvent*)); if (NULL == _output_queue) { std::cerr << "WavesMidiDevice::open (): _output_queue = Pm_QueueCreate () failed for " << _pm_output_id << "-[" << name () << "]!" << std::endl; return -1; } } if (!_output_pm_stream) { if (pmNoError != Pm_OpenOutput (&_output_pm_stream, _pm_output_id, NULL, 1024, time_proc, time_info, LATENCY)) { char* err_msg = new char[256]; Pm_GetHostErrorText(err_msg, 256); std::cerr << "WavesMidiDevice::open (): Pm_OpenOutput () failed for " << _pm_output_id << "-[" << name () << "]!" << std::endl; std::cerr << "Error: " << err_msg << std::endl; _output_pm_stream = NULL; _pm_output_id = pmNoDevice; return -1; } } } return 0; } void WavesMidiDevice::close () { } void WavesMidiDevice::do_io () { read_midi (); write_midi (); } void WavesMidiDevice::read_midi () { if (NULL == _input_pm_stream) { return; } // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_read_midi (): " << _pm_device_id << "-[" << name () << "]" << std::endl; while (Pm_Poll (_input_pm_stream) > 0) { PmEvent pm_event; // just one message at a time int result = Pm_Read (_input_pm_stream, &pm_event, 1); if (result < 0) { std::cerr << "WavesMidiDevice::_read_midi (): Pm_Read () failed (" << result << ") for [" << name () << "]!" << std::endl; break; } // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_read_midi (): " << _pm_device_id << "-[" << name () << "] evt-tm:" << pm_event.timestamp << std::endl; if (_incomplete_waves_midi_event == NULL ) { // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_read_midi (): " << _pm_device_id << "-[" << name () << "] : new _incomplete_waves_midi_event" << std::endl; _incomplete_waves_midi_event = new WavesMidiEvent (pm_event.timestamp); } WavesMidiEvent *nested_pm_event = _incomplete_waves_midi_event->append_data (pm_event); if (nested_pm_event) { Pm_Enqueue (_input_queue, &nested_pm_event); // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_read_midi (): " << _pm_device_id << "-[" << name () << "] : Pm_Enqueue (_input_queue, nested_pm_event)" << std::endl; } switch ( _incomplete_waves_midi_event->state ()) { case WavesMidiEvent::BROKEN: delete _incomplete_waves_midi_event; _incomplete_waves_midi_event = NULL; // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_read_midi (): " << _pm_device_id << "-[" << name () << "] : case WavesMidiEvent::BROKEN:" << std::endl; break; case WavesMidiEvent::COMPLETE: // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_read_midi (): " << _pm_device_id << "-[" << name () << "] : Pm_Enqueue (_input_queue, _incomplete_waves_midi_event); " << std::hex << (void*)_incomplete_waves_midi_event << std::dec << std::endl; Pm_Enqueue (_input_queue, &_incomplete_waves_midi_event); _incomplete_waves_midi_event = NULL; break; default: break; } } } void WavesMidiDevice::write_midi () { if (NULL == _output_pm_stream) { return; } // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_write_midi (): " << _pm_device_id << "-[" << name () << "]" << std::endl; PmError err; WavesMidiEvent *waves_midi_event; while (1 == Pm_Dequeue (_output_queue, &waves_midi_event)) { if (waves_midi_event->sysex ()) { // LATENCY compensation err = Pm_WriteSysEx (_output_pm_stream, waves_midi_event->timestamp () - LATENCY, waves_midi_event->data ()); if (0 > err) { std::cout << "WavesMidiDevice::write_event_to_device (): [" << name () << "] Pm_WriteSysEx () failed (" << err << ")!" << std::endl; }; // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_write_midi (): SYSEX used, ev->tm:" << waves_midi_event->timestamp () - LATENCY << std::endl; } else { err = Pm_WriteShort (_output_pm_stream, waves_midi_event->timestamp () - LATENCY, * (PmMessage*)waves_midi_event->data ()); if (0 > err) { std::cout << "WavesMidiDevice::write_event_to_device (): [" << name () << "] Pm_WriteShort () failed (" << err << ")!" << std::endl; } // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::_write_midi (): SHORTMSG used, ev->tm:" << waves_midi_event->timestamp () - LATENCY << std::endl; } } return; } int WavesMidiDevice::enqueue_output_waves_midi_event (const WavesMidiEvent* waves_midi_event) { // COMMENTED DBG LOGS */ std::cout << "WavesMidiDevice::enqueue_output_waves_midi_event (): " << _pm_device_id << "-[" << name () << "]" << std::endl; if (waves_midi_event == NULL) { std::cerr << "WavesMidiDevice::put_event_to_callback (): 'waves_midi_event' is NULL!" << std::endl; return -1; } PmError err = Pm_Enqueue (_output_queue, &waves_midi_event); if (0 > err) { std::cerr << "WavesMidiDevice::put_event_to_callback (): Pm_Enqueue () failed (" << err << ")!" << std::endl; return -1; }; return 0; } WavesMidiEvent* WavesMidiDevice::dequeue_input_waves_midi_event () { WavesMidiEvent* waves_midi_event; if (Pm_Dequeue (_input_queue, &waves_midi_event) == 1) { return waves_midi_event; } return NULL; }