// // Programmer: Craig Stuart Sapp // Creation Date: Sat Nov 27 16:15:50 PST 1999 // Last Modified: Mon Nov 29 14:07:19 PST 1999 // Last Modified: Tue Nov 30 17:05:16 PST 1999 (added MIDI input control) // Filename: ...sig/doc/examples/all/midiperform/midiperform.cpp // Syntax: C++ // // Description: plays a MIDI file with basic impulse conducting controls. // #include "MidiPerform.h" #include "MidiInput.h" #include "MidiMessage.h" #include "Options.h" #include "KeyboardInput.h" #include "Idler.h" #ifndef OLDCPP #include using namespace std; #else #include #endif // function declarations: int checkKeyboard(void); void checkOptions(Options& opts); void example(void); void keyboardCommand(int command); void processMidiCommand(MidiMessage& message); void usage(const char* command); // Global variables: SigTimer keyboardTimer; // for polling the keyboard for keys KeyboardInput keyboard; // for computer keyboard controls MidiPerform performance; // performance interface Idler eventIdler; // for multi-tasking courtesy // command-line variables int tempoMethod = TEMPO_METHOD_AUTOMATIC; // -a -c -t options int outport = 0; // -p option int inport = 0; // -p option int maxamp = 64; // -m option /////////////////////////////////////////////////////////////////////////// int main(int argc, char** argv) { Options options(argc, argv); checkOptions(options); keyboardTimer.setPeriod(10); int command = 0; MidiInput midiin; midiin.setPort(inport); midiin.open(); MidiMessage midimessage; performance.read(options.getArg(1)); performance.setPort(outport); performance.setMaxAmp(maxamp); performance.open(); performance.setTempoMethod(tempoMethod); performance.play(); while (command != 'Q') { while (midiin.getCount() > 0) { midimessage = midiin.extract(); processMidiCommand(midimessage); } performance.xcheck(); eventIdler.sleep(); if (keyboardTimer.expired()) { keyboardTimer.reset(); command = checkKeyboard(); if (command == 'Q') { break; } else { keyboardCommand(command); } } } return 0; } /////////////////////////////////////////////////////////////////////////// ////////////////////////////// // // checkKeyboard -- check the keyboard for a key hit and return it // if there was any, otherwise returns -1. // int checkKeyboard(void) { int output = -1; if (keyboard.hit()) { output = keyboard.getch(); } return output; } ////////////////////////////// // // checkOptions -- handle command-line options. // void checkOptions(Options& opts) { opts.define("a|auto|automatic=b"); opts.define("c|const|constant=b"); opts.define("t|tempo|tempo-average=i:1"); opts.define("m|max|max-amplitude=i:64"); opts.define("p|port|out-port=i:0"); opts.define("i|inport|in-port=i:0"); opts.define("1|z|channel-collapse=b"); opts.define("author=b"); opts.define("version=b"); opts.define("example=b"); opts.define("help=b"); opts.process(); if (opts.getBoolean("author")) { cout << "Written by Craig Stuart Sapp, " << "craig@ccrma.stanford.edu, Nov 1999" << endl; exit(0); } if (opts.getBoolean("version")) { cout << "midiplay version 1.0" << endl; cout << "compiled: " << __DATE__ << endl; } if (opts.getBoolean("help")) { usage(opts.getCommand()); exit(0); } if (opts.getBoolean("example")) { example(); exit(0); } // can only have one output filename if (opts.getArgCount() != 1) { cout << "Error: need one input MIDI file for performance." << endl; usage(opts.getCommand()); exit(1); } // figure out the tempo performance method if (opts.getBoolean("automatic")) { tempoMethod = TEMPO_METHOD_AUTOMATIC; } else if (opts.getBoolean("constant")) { tempoMethod = TEMPO_METHOD_CONSTANT; } else { switch (opts.getInteger("tempo-average")) { case 1: tempoMethod = TEMPO_METHOD_ONEBACK; break; case 2: tempoMethod = TEMPO_METHOD_TWOBACK; break; case 3: tempoMethod = TEMPO_METHOD_THREEBACK; break; case 4: tempoMethod = TEMPO_METHOD_FOURBACK; break; default: tempoMethod = TEMPO_METHOD_ONEBACK; break; } } outport = opts.getInteger("out-port"); inport = opts.getInteger("in-port"); maxamp = opts.getInteger("max-amplitude"); performance.channelCollapse(opts.getBoolean("channel-collapse")); } ////////////////////////////// // // example -- gives example calls to the midiplay program. // void example(void) { cout << "# textmidi examples: \n" " midiplay midifile.mid \n" << endl; } ////////////////////////////// // // keyboardCommand -- process a computer keyboard command character. // void keyboardCommand(int command) { switch (command) { case ' ': performance.beat(); break; case 'b': // print beat location in performance cout << "Current beat is: " << performance.getBeatLocation() << endl; break; case 'z': // toggle MIDI collapsing { int setting = performance.channelCollapse(); setting = !setting; performance.channelCollapse(setting); if (setting) { cout << "All notes going to channel 1" << endl; } else { cout << "All channel settings are unmodified" << endl; } } break; case '[': // set performance volume lower { double amp = performance.getAmp(); amp /= 1.15; performance.setAmp(amp); cout << "Amplitude scaling = " << performance.getAmp() << endl; } break; case ']': // set performance volume higher { double amp = performance.getAmp(); amp *= 1.15; performance.setAmp(amp); cout << "Amplitude scaling = " << performance.getAmp() << endl; } break; case 't': // current tempo display cout << "The Current tempo is: " << performance.getTempo() << endl; break; case '-': // slow down the tempo { double tempo = performance.getTempo(); tempo /= 1.03; performance.setTempo(tempo); cout << "The Tempo was set on the keyboard to : " << tempo << endl; } break; case '=': // speed up the tempo { double tempo = performance.getTempo(); tempo *= 1.03; performance.setTempo(tempo); cout << "The Tempo was set on the keyboard to : " << tempo << endl; } break; case '0': // automatic tempo control performance.setTempoMethod(TEMPO_METHOD_AUTOMATIC); cout << "Automatic Tempo Setting at tempo = " << performance.getTempo() << endl; break; case '9': // constant tempo control performance.setTempoMethod(TEMPO_METHOD_CONSTANT); cout << "Constant Tempo Contro at tempo = " << performance.getTempo() << endl; break; case '1': // 1 beat history average tempo performance.setTempoMethod(TEMPO_METHOD_ONEBACK); cout << "One beat tempo history" << endl; break; case '2': // 2 beat history average tempo performance.setTempoMethod(TEMPO_METHOD_TWOBACK); cout << "Two beat tempo history" << endl; break; case '3': // 3 beat history average tempo performance.setTempoMethod(TEMPO_METHOD_THREEBACK); cout << "Three beat tempo history" << endl; break; case '4': // 4 beat history average tempo performance.setTempoMethod(TEMPO_METHOD_FOURBACK); cout << "Four beat tempo history" << endl; break; } } ////////////////////////////// // // processMidiCommand -- how to run the textmidi program on the command line. // void processMidiCommand(MidiMessage& message) { if (message.p0() != 0x90 || message.p2() == 0) { return; } switch (message.p1()) { case 60: // Middle C = beat keyboardCommand(' '); break; case 61: // C# = amplitude control { double amp = performance.getAmp(); amp = amp * message.p2() / 64; if (amp < 0) { amp = 0; } else if (amp > 127) { amp = 127; } performance.setAmp((int)amp); } break; case 71: // B = 1 beat tempo follow keyboardCommand('1'); break; case 72: // C = 2 beat tempo follow keyboardCommand('2'); break; case 73: // C# = 3 beat tempo follow keyboardCommand('3'); break; case 74: // D = 4 beat tempo follow keyboardCommand('4'); break; case 79: // G = constant tempo follow keyboardCommand('9'); break; case 80: // G# = automatic keyboardCommand('0'); break; case 62: // amplitude decrease keyboardCommand('['); break; case 63: // amplitude increase keyboardCommand(']'); break; case 64: // tempo decrease keyboardCommand('-'); break; case 65: // tempo increase keyboardCommand('='); break; } } ////////////////////////////// // // usage -- how to run the textmidi program on the command line. // void usage(const char* command) { cout << " \n" "Plays a MIDI file. \n" " \n" "Usage: " << command << " midifile \n" " \n" "Options: \n" " --options = list of all options, aliases and default values. \n" " \n" " \n" << endl; } // md5sum: fe33e4858d695ca9ebe7cb4c17c901f6 midiperform.cpp [20050403]