Пример #1
0
void mainloopalgorithms(void) { 
   if (synth.getNoteCount() > 0) {
      processKeyboard();
   }

   if (offTimer.expired()) {
      checkBuffers();
      checkOffNotes();
      offTimer.reset();
   }

   if (batonTimer.expired()) {
      processBaton();
      batonTimer.reset();
   }

   voicePeriod = (int)(avgDur - avgDurRange);
   if (voicePeriod <= 50) {
      voicePeriod = 50;
   }

   voiceTimer.setPeriod(voicePeriod);
   if (voiceTimer.expired()) {
      generateVoices();
      voiceTimer.reset();
   }

   if (controlDisplayQ && controlDisplayTimer.expired()) {
      displayVariables();
      controlDisplayTimer.reset();
   }

}
Пример #2
0
void playdata(HumdrumFile& data, int& linenum, SigTimer& timer) {
	double duration = 0;     // duration of the current line;

	if (data.getNumLines() == 0) {
		// ignore empty files.
		return;
	}

	int type = data[linenum].getType();

	while (linenum < data.getNumLines() && duration == 0.0) {
		duration = data[linenum].getDuration();

		if (type == E_humrec_data) {
			processNotes(data[linenum]);
		} else if (type == E_humrec_interpretation) {
			if (strncmp(data[linenum][0], "*MM", 3) == 0) {
				tempo = atoi(&data[linenum][0][3]);
			}
		}
		if (echoTextQ) {
			printInputLine(data, linenum);
		}
		if (duration > 0.0) {
			timer.setPeriod(60000 / tempo / tempoScale * duration);
			timer.reset();
		}
		linenum++;
		if (linenum < data.getNumLines()) {
			type = data[linenum].getType();
		}
	}
}
Пример #3
0
void initialization(void) { 
   notetimer.setPeriod(period); // set the period in ms between MIDI events.
   notetimer.reset();

   sentout.setSize(1024);       // store up to 1024 MIDI output bytes 
   receivedin.setSize(1024);    // store up to 1024 MIDI input bytes
   description();

   synth.makeOrphanBuffer();
   start();
}
Пример #4
0
void mainloopalgorithms(void) { 
   sensor.checkPoll();   // see if it is time to check for new data frame
   makeNote();           // check if it is time to play a MIDI note

   if (display && displayTimer.expired()) {
      displayTimer.reset();
      cout << "\r\t\t\t\t\t\t\t\t\t";
      cout << "\rkey0= " << (int)(100 * keymin)/100.0 
           << "  keyx= " << (int)(100 * keymax)/100.0
           << "  keyc= " << (int)(100 * sensor[keychan][0])/100.0 
           << "   \tvel0= " << (int)(100 * velmin)/100.0 
           << "  velx= " << (int)(100 * velmax)/100.0 
           << "  velc= " << (int)(100 * sensor[velchan][0])/100.0  
           << "   " << flush;
   }
}
Пример #5
0
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();
   MidiEvent midimessage;

   performance.read(options.getArg(1).data());
   performance.setPort(outport);
   performance.setMaxAmp(maxamp);
   performance.open();
   performance.setTempoMethod(tempoMethod);
   performance.play();
   while (command != 'Q') {
      while (midiin.getCount() > 0) {
         midiin.extract(midimessage);
         processMidiCommand(midimessage);
      }
      performance.xcheck();
      eventIdler.sleep();

      if (keyboardTimer.expired()) {
         keyboardTimer.reset();
         command = checkKeyboard();
         if (command == 'Q') {
            break;
         } else {
            keyboardCommand(command);
         }
      }

   }

   return 0;
}
Пример #6
0
void initialization(void) {
	checkOptions();
	timer.setPeriod(500);
	timer.reset();
	eventIdler.setPeriod(0);
	eventBuffer.setPollPeriod(10);
	eventBuffer.setPort(synth.getOutputPort());
	if (colorQ) {
		colormessage(cout, COLOR_INIT, colormode, colorQ);
		colormessage(cout, COLOR_CLEAR_SCREEN, colormode, colorQ);
		//if (!options.getBoolean("Q")) {
		//   print_commands();
		//}
		//sleep(1);
	}
	trackmute.resize(1000); // maximum track in humdrum file assumed to be 1000
							       // space 1000-10 is used for a special purpose.
	std::fill(trackmute.begin(), trackmute.end(), 0);

	markers.resize(1001);
	std::fill(markers.begin(), markers.end(), 0);
	markerindex = 0;
}
Пример #7
0
void keyboardchar(int key) {
	static int lastkeytime = 0;
	static int number      = 0;

	if (t_time - lastkeytime > 5000) {
		// reset the number value if more than 5 seconds has elapsed
		// since the last key press.
		number = 0;
	}
	lastkeytime = t_time;

	if (isdigit(key)) {
		number = number * 10 + (key - '0');
		return;
	}
	switch (key) {
	// case 'a': break;
		case 'b':               // set color mode to black
			colorQ = 1;          // turn on colorization automatically
			colormode = 'b';
			colormessage(cout, COLOR_INIT, colormode, colorQ);
			cout << "!! CHANGING TO BLACK BACKGROUND" << endl;
			break;
		case 'c':               // toggle colorization
			colorQ = !colorQ;
			if (colorQ) {
				colormessage(cout, COLOR_INIT, colormode, colorQ);
				cout << "!! COLORIZATION TURNED ON" << endl;
			} else {
				colormessage(cout, COLOR_RESET, colormode, !colorQ);
				cout << "!! COLORIZATION TURNED OFF" << endl;
			}
			break;
	// case 'd': break;
		case 'e':               // print exclusive interpretation info for spines
			printExclusiveInterpLine(linenum, data);
			break;
	// case 'f': break;
	// case 'g': break;

		case 'h':               // hide/unhide non-kern spine (remove later)
		case 'k':               // hide/unhide non-kern spine
			hideQ = !hideQ;
			if (hideQ) {
				cout << "!! Hiding non-kern spines" << endl;
			} else {
				cout << "!! Showing all spines" << endl;
			}
			break;
	// case 'i': break;
	// case 'j': break;
	// case 'k': break;
		case 'l':               // transpose up specified number of semitones
			if (number < 100) {
				transpose = number;
				cout << "!! Transposing " << transpose << " steps up" << endl;
			}
			break;
		case 'L':               // transpose down specified number of semitones
			if (number < 100) {
				transpose = -number;
				cout << "!! Transposing " << -transpose << " steps down" << endl;
			}
			break;
		case 'm':               // mute or unmute all tracks
			if (number == 0) {
				std::fill(trackmute.begin(), trackmute.end(), 
						!trackmute[(int)trackmute.size()-1]);
				if (trackmute[0]) {
					cout << "!! All spines are muted" << endl;
				} else {
					cout << "!! All spines are unmuted" << endl;
				}
			} else {
				int tracknum = getKernTrack(number, data);
				trackmute[tracknum] = !trackmute[tracknum];
				if (trackmute[tracknum]) {
					cout << "!! **kern spine " << number << " is muted" << endl;
				} else {
					cout << "!! **kern spine " << number << " is unmuted" << endl;
				}
			}
			break;
			break;
		case 'n':     // toggle display of note only (supression
						  // of beam and stem display
						  // Also, don't display ![!]LO: lines.
			noteonlyQ = !noteonlyQ;
			if (noteonlyQ) {
				cout << "!! Notes only: supressing beams and stems in **kern data"
					  << endl;
			} else {
				cout << "!! Displaying **kern data unmodified" << endl;
			}
			break;
		case 'o':               // set the tempo to a particular value
			if (number > 20 && number < 601) {
				cout << "!! TEMPO SET TO " << number << endl;
				tempo = number;
				tempoScale = 1.0;
			} else if (number == 0) {
				cout << "!! Current tempo: " << tempo * tempoScale << endl;
			}
			break;
		case 'p':               // toggle music pausing
			eventBuffer.off();
			timer.reset();
			pauseQ = !pauseQ;
			if (pauseQ) {
				cout << "!! Paused" << endl;
			}
			break;
		case 'q':               // toggle display of file while playing
			echoTextQ = !echoTextQ;
			if (echoTextQ) {
				cout << "!! FILE DISPLAY TURNED ON" << endl;
			} else {
				cout << "!! FILE DISPLAY TURNED OFF" << endl;
			}
			break;
		case 'r':               // return to a marker
			if (number == 0) {
				linenum = markers[0];
				cout << "!! Going to line " << linenum << endl;
				eventBuffer.off();
				timer.reset();
			} else if (number < (int)markers.size()) {
				linenum = markers[number];
				cout << "!! Going to line " << linenum << endl;
				eventBuffer.off();
				timer.reset();
			}
			break;
		case 'R':               // Print a list of all markers
			printAllMarkers(cout, markers, data);
			break;
		case 's':    // silence notes
			eventBuffer.off();
			break;
		case 't':    // increase tab size
			tabsize++;
			// cout << "!! tabsize = " << tabsize << endl;
			break;
		case 'T':    // decrease tab size
			tabsize--;
			if (tabsize < 3) {
				tabsize = 3;
			}
			// cout << "!! tabsize = " << tabsize << endl;
			break;
	// case 'u': break;
	// case 'v': break;
		case 'w':               // set color mode to white
			colorQ = 1;          // turn on colorization automatically
			colormode = 'w';
			colormessage(cout, COLOR_INIT, colormode, colorQ);
			cout << "!! CHANGING TO WHITE BACKGROUND" << endl;
			break;
		case 'x':               // clear the screen
			colormessage(cout, COLOR_CLEAR_SCREEN, colormode, 1);
			printInputLine(data, linenum-1);
			break;
	// case 'y': break;
	// case 'z': break;

		case ' ':               // mark the measure/beat/line of the music
			if ((number != 0) && (number < (int)markers.size())) {
				markerindex = number;
			} else {
				markerindex++;
				if (markerindex > (int)markers.size()-1) {
					markerindex = 1;
				}
			}
			printMarkLocation(data, linenum == 0 ? 0 : linenum-1, markerindex);
			break;
		case ',':    // slow down tempo
			tempoScale *= 0.97;
			cout << "!! TEMPO SET TO " << (int)(tempo * tempoScale) << endl;
			break;
		case '<':
			tempoScale *= 0.93;
			cout << "!! TEMPO SET TO " << (int)(tempo * tempoScale) << endl;
			break;
		case '.':    // speed up tempo
			tempoScale *= 1.03;
			cout << "!! TEMPO SET TO " << (int)(tempo * tempoScale) << endl;
			break;
		case '>':
			tempoScale *= 1.07;
			cout << "!! TEMPO SET TO " << (int)(tempo * tempoScale) << endl;
			break;
		case '=':
			{
				int newline = 0;
				if (number == 0) {
					newline = 0;
				} else {
					newline = getMeasureLine(data, number);
				}
				if (newline >= 0) {
					cout << "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"
						  << " =" << number
						  << endl;
					linenum = newline;
					eventBuffer.off();
					timer.reset();
				}
			}
			break;
		case '(':
			{
				int newline = goBackMeasures(data, linenum, number);
				cout << "!! back " << number << " measure"
		 << (number==1? "":"s") << endl;
				linenum = newline;
				eventBuffer.off();
				timer.reset();
			}
			break;
		case ')':
			{
				int newline = goForwardMeasures(data, linenum, number);
				cout << "!! forward " << number << " measure"
					  << (number==1? "":"s") << endl;
				linenum = newline;
				eventBuffer.off();
				timer.reset();
			}
			break;
		case '+':    // louder
			velocity++;
			if (velocity > 127) {
				velocity = 127;
			}
			cout << "!! velocity = " << velocity << endl;
			break;

		case '_':    // sofer
			velocity--;
			if (velocity < 1) {
				velocity = 1;
			}
			cout << "!! velocity = " << velocity << endl;
			break;

		case '^':    // go to the start of the file
			linenum = 0;
			cout << "!! Going to start of file" << endl;
			break;

		case '$':    // go to the end of the file
			linenum = data.getNumLines() - 1;
			cout << "!! Going to end of file" << endl;
			break;
	}

	if (!isdigit(key)) {
		number = 0;
	}
}
Пример #8
0
void stick2trig(void) {
   if (triggerTimer.expired()) {
      performance.beat();
      triggerTimer.reset();
   }
}
Пример #9
0
void mainloopalgorithms(void) { 
   if (comparestate && notetimer.expired()) {
      if (notetimer.expired() > 2) {
         notetimer.reset();
      } else {
         notetimer.update();
      }

      notestate = !notestate;
      if (notestate == 1 || notestate == -1) {
         synth.play(0, note, 64);
         data = 0x90; sentout.insert(data);
         data = note; sentout.insert(data);
         data = 64;   sentout.insert(data);
      } else {
         synth.play(0, note, 0);
         data = 0x90; sentout.insert(data);
         data = note; sentout.insert(data);
         data = 0;    sentout.insert(data);
         note += step * direction;
         if (note > highestnote) {
            note = lowestnote;
         }
         if (note < lowestnote) {
            note = highestnote;
         }
      }
   }

   if (midiinput.getCount() > 0) {
      message = midiinput.extract();
      receivedin.insert(message.p0());
      receivedin.insert(message.p1());
      receivedin.insert(message.p2());

      // check that the messages are identical
      if (receivedin.getCount() < 3) {
         cout << "Error: not enough received data" << endl;
      } else {
         checkin[0] = receivedin.extract();
         checkin[1] = receivedin.extract();
         checkin[2] = receivedin.extract();
      }

      if (sentout.getCount() < 3) {
         cout << "Error: not enough sent data" << endl;
      } else {
         checkout[0] = sentout.extract();
         checkout[1] = sentout.extract();
         checkout[2] = sentout.extract();
      }

      if ((checkout[0] != checkin[0]) || (checkout[1] != checkin[1]) ||
          (checkout[2] != checkin[2])) {
         synth.rawsend(0xaa, 0x7f, 0x00);
         cout << "Error " 
              << "output was = (" << hex << (int)checkout[0] << ") "
              << dec << (int)checkout[1] << " "
              << dec << (int)checkout[2] << "\tbut input is = ("
              << hex << (int)checkin[0] << ") "
              << dec << (int)checkin[1] << " "
              << dec << (int)checkin[2] << " "
              << endl;

         // assume that a note message was missed.
         if (sentout.getCount() < 3) {
            cout << "Error: not enough sent data during error" << endl;
         } else {
            checkout[0] = sentout.extract();
            checkout[1] = sentout.extract();
            checkout[2] = sentout.extract();
         }

         stop();  
         cout << "Press space to restart testing, "
                 "or press 'S' to silence synth" << endl;
      }

   }
 
}