/* This file is part of Machina. * Copyright (C) 2007 Dave Robillard * * Machina 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. * * Machina 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 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 St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include "machina/JackDriver.hpp" #include "machina/MidiAction.hpp" using namespace Raul; namespace Machina { JackDriver::JackDriver() : _input_port(NULL) , _output_port(NULL) , _cycle_time(1/48000.0, 120.0) , _bpm(120.0) , _quantization(120.0) { } void JackDriver::attach(const std::string& client_name) { Raul::JackDriver::attach(client_name); if (jack_client()) { _cycle_time.set_tick_rate(1/(double)sample_rate()); _input_port = jack_port_register(jack_client(), "in", JACK_DEFAULT_MIDI_TYPE, JackPortIsInput, 0); if (!_input_port) std:: cerr << "WARNING: Failed to create MIDI input port." << std::endl; _output_port = jack_port_register(jack_client(), "out", JACK_DEFAULT_MIDI_TYPE, JackPortIsOutput, 0); if (!_output_port) std::cerr << "WARNING: Failed to create MIDI output port." << std::endl; } } void JackDriver::detach() { if (_input_port) { jack_port_unregister(jack_client(), _input_port); _input_port = NULL; } if (_output_port) { jack_port_unregister(jack_client(), _output_port); _output_port = NULL; } Raul::JackDriver::detach(); } void JackDriver::process_input(const TimeSlice& time) { // We only actually read Jack input at the beginning of a cycle assert(time.offset_ticks() == 0); using namespace std; //if (_learn_node) { const jack_nframes_t nframes = time.length_ticks(); void* jack_buffer = jack_port_get_buffer(_input_port, nframes); const jack_nframes_t event_count = jack_midi_get_event_count(jack_buffer, nframes); for (jack_nframes_t i=0; i < event_count; ++i) { jack_midi_event_t ev; jack_midi_event_get(&ev, jack_buffer, i, nframes); if (ev.buffer[0] == 0x90) { const SharedPtr learn = _machine->pending_learn(); if (learn) { learn->enter_action()->set_event(ev.size, ev.buffer); cerr << "LEARN START\n"; learn->start(_quantization.get(), time.ticks_to_beats(jack_last_frame_time(_client) + ev.time)); //LearnRecord learn = _machine->pop_learn(); } } else if (ev.buffer[0] == 0x80) { const SharedPtr learn = _machine->pending_learn(); if (learn) { if (learn->started()) { learn->exit_action()->set_event(ev.size, ev.buffer); learn->finish( time.ticks_to_beats(jack_last_frame_time(_client) + ev.time)); _machine->clear_pending_learn(); cerr << "LEARNED!\n"; } } } //std::cerr << "EVENT: " << std::hex << (int)ev.buffer[0] << "\n"; } //} } void JackDriver::write_event(Raul::BeatTime time, size_t size, const byte* event) { const TickCount nframes = _cycle_time.length_ticks(); const TickCount offset = _cycle_time.beats_to_ticks(time) + _cycle_time.offset_ticks() - _cycle_time.start_ticks(); assert(_output_port); if ( ! (offset < _cycle_time.offset_ticks() + nframes)) { std::cerr << "ERROR: Event offset " << offset << " outside cycle " << "\n\tbpm: " << _cycle_time.bpm() << "\n\tev time: " << _cycle_time.beats_to_ticks(time) << "\n\tcycle_start: " << _cycle_time.start_ticks() << "\n\tcycle_end: " << _cycle_time.start_ticks() + _cycle_time.length_ticks() << "\n\tcycle_length: " << _cycle_time.length_ticks() << std::endl; } else { jack_midi_event_write( jack_port_get_buffer(_output_port, nframes), offset, event, size, nframes); } } void JackDriver::on_process(jack_nframes_t nframes) { using namespace std; //std::cerr << "> ======================================================\n"; _cycle_time.set_bpm(_bpm.get()); // Start time set at end of previous cycle _cycle_time.set_offset(0); _cycle_time.set_length(nframes); assert(_output_port); jack_midi_clear_buffer(jack_port_get_buffer(_output_port, nframes), nframes); process_input(_cycle_time); if (_machine->is_empty()) { //cerr << "EMPTY\n"; return; } while (true) { const BeatCount run_dur_beats = _machine->run(_cycle_time); const TickCount run_dur_ticks = _cycle_time.beats_to_ticks(run_dur_beats); // Machine didn't run at all (empty, or no initial states) if (run_dur_ticks == 0) { _machine->reset(); // Try again next cycle _cycle_time.set_start(0); return; // Machine ran for portion of cycle (finished) } else if (run_dur_ticks < _cycle_time.length_ticks()) { const TickCount finish_offset = _cycle_time.offset_ticks() + run_dur_ticks; assert(finish_offset < nframes); _machine->reset(); _cycle_time.set_start(0); _cycle_time.set_length(nframes - finish_offset); _cycle_time.set_offset(finish_offset); // Machine ran for entire cycle } else { if (_machine->is_finished()) { _machine->reset(); _cycle_time.set_start(0); } else { _cycle_time.set_start( _cycle_time.start_ticks() + _cycle_time.length_ticks()); } break; } } //std::cerr << "< ======================================================\n"; } } // namespace Machina