[SugarCubes.git] / _Internals.pde

/**
 *     DOUBLE BLACK DIAMOND        DOUBLE BLACK DIAMOND
 *
 *         //\\   //\\                 //\\   //\\  
 *        ///\\\ ///\\\               ///\\\ ///\\\
 *        \\\/// \\\///               \\\/// \\\///
 *         \\//   \\//                 \\//   \\//
 *
 *        EXPERTS ONLY!!              EXPERTS ONLY!!
 *
 * If you are an artist, you may ignore this file! It just sets
 * up the framework to run the patterns. Should not need modification
 * for general animation work.
 */

import glucose.*;
import glucose.control.*;
import glucose.effect.*;
import glucose.model.*;
import glucose.pattern.*;
import glucose.transform.*;
import glucose.transition.*;
import heronarts.lx.*;
import heronarts.lx.control.*;
import heronarts.lx.effect.*;
import heronarts.lx.modulator.*;
import heronarts.lx.pattern.*;
import heronarts.lx.transition.*;
import ddf.minim.*;
import ddf.minim.analysis.*;
import processing.opengl.*;
import rwmidi.*;

final int VIEWPORT_WIDTH = 900;
final int VIEWPORT_HEIGHT = 700;

int targetFramerate = 45;

int startMillis, lastMillis;
GLucose glucose;
HeronLX lx;
MappingTool mappingTool;
LXPattern[] patterns;
LXTransition[] transitions;
LXEffect[] effects;
OverlayUI ui;
ControlUI controlUI;
MappingUI mappingUI;
PandaDriver pandaFront;
PandaDriver pandaRear;
boolean mappingMode = false;

boolean pandaBoardsEnabled = false;

boolean debugMode = false;

// Camera variables
float eyeR, eyeA, eyeX, eyeY, eyeZ, midX, midY, midZ;

void setup() {
  startMillis = lastMillis = millis();

  // Initialize the Processing graphics environment
  size(VIEWPORT_WIDTH, VIEWPORT_HEIGHT, OPENGL);
  frameRate(targetFramerate);
  noSmooth();
  // hint(ENABLE_OPENGL_4X_SMOOTH); // no discernable improvement?
  logTime("Created viewport");

  // Create the GLucose engine to run the cubes
  glucose = new GLucose(this, new SCMapping());
  lx = glucose.lx;
  lx.enableKeyboardTempo();
  logTime("Built GLucose engine");
  
  // Set the patterns
  glucose.lx.setPatterns(patterns = patterns(glucose));
  logTime("Built patterns");
  glucose.lx.addEffects(effects = effects(glucose));
  logTime("Built effects");
  glucose.setTransitions(transitions = transitions(glucose));
  logTime("Built transitions");
    
  // Build output driver
  int[][] frontChannels = glucose.mapping.buildFrontChannelList();
  int[][] rearChannels = glucose.mapping.buildRearChannelList();
  int[][] flippedRGB = glucose.mapping.buildFlippedRGBList();
  mappingTool = new MappingTool(glucose, frontChannels, rearChannels);
  pandaFront = new PandaDriver(new NetAddress("192.168.1.28", 9001), glucose.model, frontChannels, flippedRGB);
  pandaRear = new PandaDriver(new NetAddress("192.168.1.29", 9001), glucose.model, rearChannels, flippedRGB);
  logTime("Build PandaDriver");
  
  // Build overlay UI
  ui = controlUI = new ControlUI();
  mappingUI = new MappingUI(mappingTool);
  logTime("Built overlay UI");
    
  // MIDI devices
  for (MidiInputDevice d : RWMidi.getInputDevices()) {
    d.createInput(this);
  }
  SCMidiDevices.initializeStandardDevices(glucose);
  logTime("Setup MIDI devices");
  
  // Setup camera
  midX = glucose.model.xMax/2 + 20;
  midY = glucose.model.yMax/2;
  midZ = glucose.model.zMax/2;
  eyeR = -270;
  eyeA = .15;
  eyeY = midY + 20;
  eyeX = midX + eyeR*sin(eyeA);
  eyeZ = midZ + eyeR*cos(eyeA);
  addMouseWheelListener(new java.awt.event.MouseWheelListener() { 
    public void mouseWheelMoved(java.awt.event.MouseWheelEvent mwe) { 
      mouseWheel(mwe.getWheelRotation());
  }}); 
  
  
  println("Total setup: " + (millis() - startMillis) + "ms");
  println("Hit the 'p' key to toggle Panda Board output");
}

void controllerChangeReceived(rwmidi.Controller cc) {
  if (debugMode) {
    println("CC: " + cc.toString());
  }
}

void noteOnReceived(Note note) {
  if (debugMode) {
    println("Note On: " + note.toString());
  }
}

void noteOffReceived(Note note) {
  if (debugMode) {
    println("Note Off: " + note.toString());
  }
}

void logTime(String evt) {
  int now = millis();
  println(evt + ": " + (now - lastMillis) + "ms");
  lastMillis = now;
}

void draw() {
  // Draws the simulation and the 2D UI overlay
  background(40);
  color[] colors = glucose.getColors();
  camera(
    eyeX, eyeY, eyeZ,
    midX, midY, midZ,
    0, -1, 0
  );
  stroke(#333333);
  fill(#292929);
  float yFloor = -3;
  beginShape();
  vertex(0, yFloor, 0);
  vertex(glucose.model.xMax, yFloor, 0);
  vertex(glucose.model.xMax, yFloor, glucose.model.zMax);
  vertex(0, yFloor, glucose.model.zMax);  
  endShape(CLOSE);
  
  noFill();
  strokeWeight(2);
  beginShape(POINTS);
  for (Point p : glucose.model.points) {
    stroke(colors[p.index]);
    vertex(p.fx, p.fy, p.fz);
  }
  endShape();
  
  // 2D Overlay
  camera();
  javax.media.opengl.GL gl= ((PGraphicsOpenGL)g).beginGL();
  gl.glClear(javax.media.opengl.GL.GL_DEPTH_BUFFER_BIT);
  ((PGraphicsOpenGL)g).endGL();
  strokeWeight(1);
  drawUI();
  
  // TODO(mcslee): move into GLucose engine
  if (pandaBoardsEnabled) {
    pandaFront.send(colors);
    pandaRear.send(colors);
  }
}

void drawUI() {
  if (uiOn) {
    ui.draw();
  } else {
    ui.drawHelpTip();
  }
  ui.drawFPS();
}

boolean uiOn = true;
int restoreToIndex = -1;

void keyPressed() {
  if (mappingMode) {
    mappingTool.keyPressed();
  }
  switch (key) {
    case '-':
    case '_':
      frameRate(--targetFramerate);
      break;
    case '=':
    case '+':
      frameRate(++targetFramerate);
      break;
    case 'd':
      debugMode = !debugMode;
      println("Debug output: " + (debugMode ? "ON" : "OFF"));
    case 'm':
      mappingMode = !mappingMode;
      if (mappingMode) {
        LXPattern pattern = lx.getPattern();
        for (int i = 0; i < patterns.length; ++i) {
          if (pattern == patterns[i]) {
            restoreToIndex = i;
            break;
          }
        }
        ui = mappingUI;
        lx.setPatterns(new LXPattern[] { mappingTool });
      } else {
        ui = controlUI;
        lx.setPatterns(patterns);
        lx.goIndex(restoreToIndex);
      }
      break;
    case 'p':
      pandaBoardsEnabled = !pandaBoardsEnabled;
      println("PandaBoard Output: " + (pandaBoardsEnabled ? "ON" : "OFF"));
      break;
    case 'u':
      uiOn = !uiOn;
      break;
  }
}

int mx, my;

void mousePressed() {
  if (mouseX > ui.leftPos) {
    ui.mousePressed();
  } else {
    mx = mouseX;
    my = mouseY;
  }
}

void mouseDragged() {
  if (mouseX > ui.leftPos) {
    ui.mouseDragged();
  } else {
    int dx = mouseX - mx;
    int dy = mouseY - my;
    mx = mouseX;
    my = mouseY;
    eyeA += dx*.003;
    eyeX = midX + eyeR*sin(eyeA);
    eyeZ = midZ + eyeR*cos(eyeA);
    eyeY += dy;
  }
}

void mouseReleased() {
  if (mouseX > ui.leftPos) {
    ui.mouseReleased();
  }
}
 
void mouseWheel(int delta) {
  eyeR = constrain(eyeR - delta, -500, -80);
  eyeX = midX + eyeR*sin(eyeA);
  eyeZ = midZ + eyeR*cos(eyeA);
}
Commit	Line	Data
	1	/**
	2	* DOUBLE BLACK DIAMOND DOUBLE BLACK DIAMOND
	3	*
	4	* //\\ //\\ //\\ //\\
	5	* ///\\\ ///\\\ ///\\\ ///\\\
	6	* \\\/// \\\/// \\\/// \\\///
	7	* \\// \\// \\// \\//
	8	*
	9	* EXPERTS ONLY!! EXPERTS ONLY!!
	10	*
	11	* If you are an artist, you may ignore this file! It just sets
	12	* up the framework to run the patterns. Should not need modification
	13	* for general animation work.
	14	*/
	15
	16	import glucose.*;
	17	import glucose.control.*;
	18	import glucose.effect.*;
	19	import glucose.model.*;
	20	import glucose.pattern.*;
	21	import glucose.transform.*;
	22	import glucose.transition.*;
	23	import heronarts.lx.*;
	24	import heronarts.lx.control.*;
	25	import heronarts.lx.effect.*;
	26	import heronarts.lx.modulator.*;
	27	import heronarts.lx.pattern.*;
	28	import heronarts.lx.transition.*;
	29	import ddf.minim.*;
	30	import ddf.minim.analysis.*;
	31	import processing.opengl.*;
	32	import rwmidi.*;
	33
	34	final int VIEWPORT_WIDTH = 900;
	35	final int VIEWPORT_HEIGHT = 700;
	36
	37	int targetFramerate = 45;
	38
	39	int startMillis, lastMillis;
	40	GLucose glucose;
	41	HeronLX lx;
	42	MappingTool mappingTool;
	43	LXPattern[] patterns;
	44	LXTransition[] transitions;
	45	LXEffect[] effects;
	46	OverlayUI ui;
	47	ControlUI controlUI;
	48	MappingUI mappingUI;
	49	PandaDriver pandaFront;
	50	PandaDriver pandaRear;
	51	boolean mappingMode = false;
	52
	53	boolean pandaBoardsEnabled = false;
	54
	55	boolean debugMode = false;
	56
	57	// Camera variables
	58	float eyeR, eyeA, eyeX, eyeY, eyeZ, midX, midY, midZ;
	59
	60	void setup() {
	61	startMillis = lastMillis = millis();
	62
	63	// Initialize the Processing graphics environment
	64	size(VIEWPORT_WIDTH, VIEWPORT_HEIGHT, OPENGL);
	65	frameRate(targetFramerate);
	66	noSmooth();
	67	// hint(ENABLE_OPENGL_4X_SMOOTH); // no discernable improvement?
	68	logTime("Created viewport");
	69
	70	// Create the GLucose engine to run the cubes
	71	glucose = new GLucose(this, new SCMapping());
	72	lx = glucose.lx;
	73	lx.enableKeyboardTempo();
	74	logTime("Built GLucose engine");
	75
	76	// Set the patterns
	77	glucose.lx.setPatterns(patterns = patterns(glucose));
	78	logTime("Built patterns");
	79	glucose.lx.addEffects(effects = effects(glucose));
	80	logTime("Built effects");
	81	glucose.setTransitions(transitions = transitions(glucose));
	82	logTime("Built transitions");
	83
	84	// Build output driver
	85	int[][] frontChannels = glucose.mapping.buildFrontChannelList();
	86	int[][] rearChannels = glucose.mapping.buildRearChannelList();
	87	int[][] flippedRGB = glucose.mapping.buildFlippedRGBList();
	88	mappingTool = new MappingTool(glucose, frontChannels, rearChannels);
	89	pandaFront = new PandaDriver(new NetAddress("192.168.1.28", 9001), glucose.model, frontChannels, flippedRGB);
	90	pandaRear = new PandaDriver(new NetAddress("192.168.1.29", 9001), glucose.model, rearChannels, flippedRGB);
	91	logTime("Build PandaDriver");
	92
	93	// Build overlay UI
	94	ui = controlUI = new ControlUI();
	95	mappingUI = new MappingUI(mappingTool);
	96	logTime("Built overlay UI");
	97
	98	// MIDI devices
	99	for (MidiInputDevice d : RWMidi.getInputDevices()) {
	100	d.createInput(this);
	101	}
	102	SCMidiDevices.initializeStandardDevices(glucose);
	103	logTime("Setup MIDI devices");
	104
	105	// Setup camera
	106	midX = glucose.model.xMax/2 + 20;
	107	midY = glucose.model.yMax/2;
	108	midZ = glucose.model.zMax/2;
	109	eyeR = -270;
	110	eyeA = .15;
	111	eyeY = midY + 20;
	112	eyeX = midX + eyeR*sin(eyeA);
	113	eyeZ = midZ + eyeR*cos(eyeA);
	114	addMouseWheelListener(new java.awt.event.MouseWheelListener() {
	115	public void mouseWheelMoved(java.awt.event.MouseWheelEvent mwe) {
	116	mouseWheel(mwe.getWheelRotation());
	117	}});
	118
	119
	120	println("Total setup: " + (millis() - startMillis) + "ms");
	121	println("Hit the 'p' key to toggle Panda Board output");
	122	}
	123
	124	void controllerChangeReceived(rwmidi.Controller cc) {
	125	if (debugMode) {
	126	println("CC: " + cc.toString());
	127	}
	128	}
	129
	130	void noteOnReceived(Note note) {
	131	if (debugMode) {
	132	println("Note On: " + note.toString());
	133	}
	134	}
	135
	136	void noteOffReceived(Note note) {
	137	if (debugMode) {
	138	println("Note Off: " + note.toString());
	139	}
	140	}
	141
	142	void logTime(String evt) {
	143	int now = millis();
	144	println(evt + ": " + (now - lastMillis) + "ms");
	145	lastMillis = now;
	146	}
	147
	148	void draw() {
	149	// Draws the simulation and the 2D UI overlay
	150	background(40);
	151	color[] colors = glucose.getColors();
	152	camera(
	153	eyeX, eyeY, eyeZ,
	154	midX, midY, midZ,
	155	0, -1, 0
	156	);
	157	stroke(#333333);
	158	fill(#292929);
	159	float yFloor = -3;
	160	beginShape();
	161	vertex(0, yFloor, 0);
	162	vertex(glucose.model.xMax, yFloor, 0);
	163	vertex(glucose.model.xMax, yFloor, glucose.model.zMax);
	164	vertex(0, yFloor, glucose.model.zMax);
	165	endShape(CLOSE);
	166
	167	noFill();
	168	strokeWeight(2);
	169	beginShape(POINTS);
	170	for (Point p : glucose.model.points) {
	171	stroke(colors[p.index]);
	172	vertex(p.fx, p.fy, p.fz);
	173	}
	174	endShape();
	175
	176	// 2D Overlay
	177	camera();
	178	javax.media.opengl.GL gl= ((PGraphicsOpenGL)g).beginGL();
	179	gl.glClear(javax.media.opengl.GL.GL_DEPTH_BUFFER_BIT);
	180	((PGraphicsOpenGL)g).endGL();
	181	strokeWeight(1);
	182	drawUI();
	183
	184	// TODO(mcslee): move into GLucose engine
	185	if (pandaBoardsEnabled) {
	186	pandaFront.send(colors);
	187	pandaRear.send(colors);
	188	}
	189	}
	190
	191	void drawUI() {
	192	if (uiOn) {
	193	ui.draw();
	194	} else {
	195	ui.drawHelpTip();
	196	}
	197	ui.drawFPS();
	198	}
	199
	200	boolean uiOn = true;
	201	int restoreToIndex = -1;
	202
	203	void keyPressed() {
	204	if (mappingMode) {
	205	mappingTool.keyPressed();
	206	}
	207	switch (key) {
	208	case '-':
	209	case '_':
	210	frameRate(--targetFramerate);
	211	break;
	212	case '=':
	213	case '+':
	214	frameRate(++targetFramerate);
	215	break;
	216	case 'd':
	217	debugMode = !debugMode;
	218	println("Debug output: " + (debugMode ? "ON" : "OFF"));
	219	case 'm':
	220	mappingMode = !mappingMode;
	221	if (mappingMode) {
	222	LXPattern pattern = lx.getPattern();
	223	for (int i = 0; i < patterns.length; ++i) {
	224	if (pattern == patterns[i]) {
	225	restoreToIndex = i;
	226	break;
	227	}
	228	}
	229	ui = mappingUI;
	230	lx.setPatterns(new LXPattern[] { mappingTool });
	231	} else {
	232	ui = controlUI;
	233	lx.setPatterns(patterns);
	234	lx.goIndex(restoreToIndex);
	235	}
	236	break;
	237	case 'p':
	238	pandaBoardsEnabled = !pandaBoardsEnabled;
	239	println("PandaBoard Output: " + (pandaBoardsEnabled ? "ON" : "OFF"));
	240	break;
	241	case 'u':
	242	uiOn = !uiOn;
	243	break;
	244	}
	245	}
	246
	247	int mx, my;
	248
	249	void mousePressed() {
	250	if (mouseX > ui.leftPos) {
	251	ui.mousePressed();
	252	} else {
	253	mx = mouseX;
	254	my = mouseY;
	255	}
	256	}
	257
	258	void mouseDragged() {
	259	if (mouseX > ui.leftPos) {
	260	ui.mouseDragged();
	261	} else {
	262	int dx = mouseX - mx;
	263	int dy = mouseY - my;
	264	mx = mouseX;
	265	my = mouseY;
	266	eyeA += dx*.003;
	267	eyeX = midX + eyeR*sin(eyeA);
	268	eyeZ = midZ + eyeR*cos(eyeA);
	269	eyeY += dy;
	270	}
	271	}
	272
	273	void mouseReleased() {
	274	if (mouseX > ui.leftPos) {
	275	ui.mouseReleased();
	276	}
	277	}
	278
	279	void mouseWheel(int delta) {
	280	eyeR = constrain(eyeR - delta, -500, -80);
	281	eyeX = midX + eyeR*sin(eyeA);
	282	eyeZ = midZ + eyeR*cos(eyeA);
	283	}
	284