mirror of
https://github.com/tildearrow/furnace.git
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231 lines
5.4 KiB
C++
231 lines
5.4 KiB
C++
//*****************************************//
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// midiclock.cpp
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//
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// Simple program to test MIDI clock sync. Run midiclock_in in one
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// console and midiclock_out in the other, make sure to choose
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// options that connect the clocks between programs on your platform.
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//
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// (C)2016 Refer to README.md in this archive for copyright.
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//
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//*****************************************//
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#include <iostream>
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#include <cstdlib>
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#include "RtMidi.h"
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// Platform-dependent sleep routines.
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#if defined(WIN32)
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#include <windows.h>
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#define SLEEP( milliseconds ) Sleep( (DWORD) milliseconds )
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#else // Unix variants
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#include <unistd.h>
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#define SLEEP( milliseconds ) usleep( (unsigned long) (milliseconds * 1000.0) )
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#endif
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// These functions should be embedded in a try/catch block in case of
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// an exception. It offers the user a choice of MIDI ports to open.
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// It returns false if there are no ports available.
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bool chooseInputPort( RtMidiIn *rtmidi );
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bool chooseOutputPort( RtMidiOut *rtmidi );
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void mycallback( double deltatime, std::vector< unsigned char > *message, void *user )
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{
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unsigned int *clock_count = reinterpret_cast<unsigned int*>(user);
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// Ignore longer messages
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if (message->size() != 1)
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return;
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unsigned int msg = message->at(0);
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if (msg == 0xFA)
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std::cout << "START received" << std::endl;
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if (msg == 0xFB)
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std::cout << "CONTINUE received" << std::endl;
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if (msg == 0xFC)
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std::cout << "STOP received" << std::endl;
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if (msg == 0xF8) {
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if (++*clock_count == 24) {
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double bpm = 60.0 / 24.0 / deltatime;
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std::cout << "One beat, estimated BPM = " << bpm <<std::endl;
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*clock_count = 0;
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}
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}
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else
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*clock_count = 0;
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}
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int clock_in()
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{
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RtMidiIn *midiin = 0;
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unsigned int clock_count = 0;
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try {
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// RtMidiIn constructor
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midiin = new RtMidiIn();
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// Call function to select port.
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if ( chooseInputPort( midiin ) == false ) goto cleanup;
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// Set our callback function. This should be done immediately after
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// opening the port to avoid having incoming messages written to the
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// queue instead of sent to the callback function.
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midiin->setCallback( &mycallback, &clock_count );
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// Don't ignore sysex, timing, or active sensing messages.
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midiin->ignoreTypes( false, false, false );
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std::cout << "\nReading MIDI input ... press <enter> to quit.\n";
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char input;
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std::cin.get(input);
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} catch ( RtMidiError &error ) {
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error.printMessage();
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}
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cleanup:
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delete midiin;
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return 0;
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}
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int clock_out()
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{
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RtMidiOut *midiout = 0;
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std::vector<unsigned char> message;
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int sleep_ms = 0, k = 0, j = 0;
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// RtMidiOut constructor
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try {
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midiout = new RtMidiOut();
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}
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catch ( RtMidiError &error ) {
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error.printMessage();
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exit( EXIT_FAILURE );
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}
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// Call function to select port.
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try {
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if ( chooseOutputPort( midiout ) == false ) goto cleanup;
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}
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catch ( RtMidiError &error ) {
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error.printMessage();
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goto cleanup;
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}
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// Period in ms = 100 BPM
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// 100*24 ticks / 1 minute, so (60*1000) / (100*24) = 25 ms / tick
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sleep_ms = 25;
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std::cout << "Generating clock at "
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<< (60.0 / 24.0 / sleep_ms * 1000.0)
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<< " BPM." << std::endl;
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// Send out a series of MIDI clock messages.
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// MIDI start
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message.clear();
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message.push_back( 0xFA );
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midiout->sendMessage( &message );
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std::cout << "MIDI start" << std::endl;
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for (j=0; j < 8; j++)
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{
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if (j > 0)
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{
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// MIDI continue
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message.clear();
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message.push_back( 0xFB );
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midiout->sendMessage( &message );
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std::cout << "MIDI continue" << std::endl;
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}
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for (k=0; k < 96; k++) {
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// MIDI clock
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message.clear();
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message.push_back( 0xF8 );
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midiout->sendMessage( &message );
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if (k % 24 == 0)
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std::cout << "MIDI clock (one beat)" << std::endl;
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SLEEP( sleep_ms );
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}
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// MIDI stop
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message.clear();
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message.push_back( 0xFC );
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midiout->sendMessage( &message );
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std::cout << "MIDI stop" << std::endl;
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SLEEP( 500 );
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}
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// MIDI stop
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message.clear();
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message.push_back( 0xFC );
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midiout->sendMessage( &message );
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std::cout << "MIDI stop" << std::endl;
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SLEEP( 500 );
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std::cout << "Done!" << std::endl;
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// Clean up
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cleanup:
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delete midiout;
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return 0;
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}
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int main( int, const char *argv[] )
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{
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std::string prog(argv[0]);
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if (prog.find("midiclock_in") != prog.npos) {
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clock_in();
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}
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else if (prog.find("midiclock_out") != prog.npos) {
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clock_out();
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}
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else {
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std::cout << "Don't know what to do as " << prog << std::endl;
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}
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return 0;
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}
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template<typename RT>
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bool choosePort( RT *rtmidi, const char *dir )
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{
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std::string portName;
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unsigned int i = 0, nPorts = rtmidi->getPortCount();
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if ( nPorts == 0 ) {
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std::cout << "No " << dir << " ports available!" << std::endl;
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return false;
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}
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if ( nPorts == 1 ) {
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std::cout << "\nOpening " << rtmidi->getPortName() << std::endl;
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}
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else {
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for ( i=0; i<nPorts; i++ ) {
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portName = rtmidi->getPortName(i);
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std::cout << " " << dir << " port #" << i << ": " << portName << '\n';
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}
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do {
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std::cout << "\nChoose a port number: ";
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std::cin >> i;
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} while ( i >= nPorts );
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}
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std::cout << "\n";
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rtmidi->openPort( i );
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return true;
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}
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bool chooseInputPort( RtMidiIn *rtmidi )
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{
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return choosePort<RtMidiIn>( rtmidi, "input" );
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}
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bool chooseOutputPort( RtMidiOut *rtmidi )
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{
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return choosePort<RtMidiOut>( rtmidi, "output" );
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}
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