final float TRAILER_HEIGHT = 33;
int targetFramerate = 60;
-
int startMillis, lastMillis;
+
+// Core engine variables
GLucose glucose;
HeronLX lx;
-MappingTool mappingTool;
LXPattern[] patterns;
-LXTransition[] transitions;
-LXEffect[] effects;
-OverlayUI ui;
-ControlUI controlUI;
-MappingUI mappingUI;
+MappingTool mappingTool;
PandaDriver[] pandaBoards;
+SCMidiInput midiQwertyKeys;
+SCMidiInput midiQwertyAPC;
+
+// Display configuration mode
boolean mappingMode = false;
boolean debugMode = false;
DebugUI debugUI;
+boolean uiOn = true;
+LXPattern restoreToPattern = null;
+PImage logo;
+
+// Handles to UI objects
+UIContext[] overlays;
+UIPatternDeck uiPatternA;
+UICrossfader uiCrossfader;
+UIMidi uiMidi;
+UIMapping uiMapping;
+UIDebugText uiDebugText;
// Camera variables
float eyeR, eyeA, eyeX, eyeY, eyeZ, midX, midY, midZ;
+/**
+ * Engine construction and initialization.
+ */
+LXPattern[] _patterns(GLucose glucose) {
+ LXPattern[] patterns = patterns(glucose);
+ for (LXPattern p : patterns) {
+ p.setTransition(new DissolveTransition(glucose.lx).setDuration(1000));
+ }
+ return patterns;
+}
+
+void logTime(String evt) {
+ int now = millis();
+ println(evt + ": " + (now - lastMillis) + "ms");
+ lastMillis = now;
+}
+
void setup() {
startMillis = lastMillis = millis();
logTime("Built GLucose engine");
// Set the patterns
- glucose.lx.setPatterns(patterns = patterns(glucose));
+ Engine engine = lx.engine;
+ engine.setPatterns(patterns = _patterns(glucose));
+ engine.addDeck(_patterns(glucose));
logTime("Built patterns");
- glucose.lx.addEffects(effects = effects(glucose));
- logTime("Built effects");
- glucose.setTransitions(transitions = transitions(glucose));
+ glucose.setTransitions(transitions(glucose));
logTime("Built transitions");
+ glucose.lx.addEffects(effects(glucose));
+ logTime("Built effects");
// Build output driver
PandaMapping[] pandaMappings = buildPandaList();
}
mappingTool = new MappingTool(glucose, pandaMappings);
logTime("Built PandaDriver");
-
- // Build overlay UI
- ui = controlUI = new ControlUI();
- mappingUI = new MappingUI(mappingTool);
- debugUI = new DebugUI(pandaMappings);
- logTime("Built overlay UI");
-
+
// MIDI devices
- for (MidiInputDevice d : RWMidi.getInputDevices()) {
- d.createInput(this);
+ List<SCMidiInput> midiControllers = new ArrayList<SCMidiInput>();
+ midiControllers.add(midiQwertyKeys = new SCMidiInput(SCMidiInput.KEYS));
+ midiControllers.add(midiQwertyAPC = new SCMidiInput(SCMidiInput.APC));
+ for (MidiInputDevice device : RWMidi.getInputDevices()) {
+ boolean enableDevice = device.getName().contains("APC");
+ midiControllers.add(new SCMidiInput(device).setEnabled(enableDevice));
}
SCMidiDevices.initializeStandardDevices(glucose);
logTime("Setup MIDI devices");
+
+ // Build overlay UI
+ debugUI = new DebugUI(pandaMappings);
+ overlays = new UIContext[] {
+ uiPatternA = new UIPatternDeck(lx.engine.getDeck(0), "PATTERN A", 4, 4, 140, 324),
+ new UIBlendMode(4, 332, 140, 86),
+ new UIEffects(4, 422, 140, 144),
+ new UITempo(4, 570, 140, 50),
+ new UISpeed(4, 624, 140, 50),
+
+ new UIPatternDeck(lx.engine.getDeck(1), "PATTERN B", width-144, 4, 140, 324),
+ uiMidi = new UIMidi(midiControllers, width-144, 332, 140, 158),
+ new UIOutput(width-144, 494, 140, 106),
+ uiCrossfader = new UICrossfader(width/2-90, height-90, 180, 86),
+
+ uiDebugText = new UIDebugText(148, height-138, width-304, 44),
+ uiMapping = new UIMapping(mappingTool, 4, 4, 140, 324),
+ };
+ uiMapping.setVisible(false);
+ logTime("Built overlay UI");
+
+ // Load logo image
+ logo = loadImage("data/logo.png");
+
// Setup camera
- midX = TRAILER_WIDTH/2. + 20;
+ midX = TRAILER_WIDTH/2.;
midY = glucose.model.yMax/2;
midZ = TRAILER_DEPTH/2.;
eyeR = -290;
eyeA = .15;
- eyeY = midY + 20;
+ eyeY = midY + 70;
eyeX = midX + eyeR*sin(eyeA);
eyeZ = midZ + eyeR*cos(eyeA);
addMouseWheelListener(new java.awt.event.MouseWheelListener() {
println("Hit the 'p' key to toggle Panda Board output");
}
-void controllerChangeReceived(rwmidi.Controller cc) {
- if (debugMode) {
- println("CC: " + cc.toString());
- }
+public interface SCMidiInputListener {
+ public void onEnabled(SCMidiInput controller, boolean enabled);
}
-void noteOnReceived(Note note) {
- if (debugMode) {
- println("Note On: " + note.toString());
+public class SCMidiInput extends AbstractScrollItem {
+
+ public static final int MIDI = 0;
+ public static final int KEYS = 1;
+ public static final int APC = 2;
+
+ private boolean enabled = false;
+ private final String name;
+ private final int mode;
+ private int octaveShift = 0;
+
+ class NoteMeta {
+ int channel;
+ int number;
+ NoteMeta(int channel, int number) {
+ this.channel = channel;
+ this.number = number;
+ }
+ }
+
+ final Map<Character, NoteMeta> keyToNote = new HashMap<Character, NoteMeta>();
+
+ final List<SCMidiInputListener> listeners = new ArrayList<SCMidiInputListener>();
+
+ public SCMidiInput addListener(SCMidiInputListener l) {
+ listeners.add(l);
+ return this;
}
-}
-void noteOffReceived(Note note) {
- if (debugMode) {
- println("Note Off: " + note.toString());
+ public SCMidiInput removeListener(SCMidiInputListener l) {
+ listeners.remove(l);
+ return this;
+ }
+
+ SCMidiInput(MidiInputDevice d) {
+ mode = MIDI;
+ d.createInput(this);
+ name = d.getName().replace("Unknown vendor","");
+ }
+
+ SCMidiInput(int mode) {
+ this.mode = mode;
+ switch (mode) {
+ case APC:
+ name = "QWERTY (APC Mode)";
+ mapAPC();
+ break;
+ default:
+ case KEYS:
+ name = "QWERTY (Key Mode)";
+ mapKeys();
+ break;
+ }
+ }
+
+ private void mapAPC() {
+ mapNote('1', 0, 53);
+ mapNote('2', 1, 53);
+ mapNote('3', 2, 53);
+ mapNote('4', 3, 53);
+ mapNote('5', 4, 53);
+ mapNote('6', 5, 53);
+ mapNote('q', 0, 54);
+ mapNote('w', 1, 54);
+ mapNote('e', 2, 54);
+ mapNote('r', 3, 54);
+ mapNote('t', 4, 54);
+ mapNote('y', 5, 54);
+ mapNote('a', 0, 55);
+ mapNote('s', 1, 55);
+ mapNote('d', 2, 55);
+ mapNote('f', 3, 55);
+ mapNote('g', 4, 55);
+ mapNote('h', 5, 55);
+ mapNote('z', 0, 56);
+ mapNote('x', 1, 56);
+ mapNote('c', 2, 56);
+ mapNote('v', 3, 56);
+ mapNote('b', 4, 56);
+ mapNote('n', 5, 56);
+ registerKeyEvent(this);
+ }
+
+ private void mapKeys() {
+ int note = 48;
+ mapNote('a', 1, note++);
+ mapNote('w', 1, note++);
+ mapNote('s', 1, note++);
+ mapNote('e', 1, note++);
+ mapNote('d', 1, note++);
+ mapNote('f', 1, note++);
+ mapNote('t', 1, note++);
+ mapNote('g', 1, note++);
+ mapNote('y', 1, note++);
+ mapNote('h', 1, note++);
+ mapNote('u', 1, note++);
+ mapNote('j', 1, note++);
+ mapNote('k', 1, note++);
+ mapNote('o', 1, note++);
+ mapNote('l', 1, note++);
+ registerKeyEvent(this);
+ }
+
+ void mapNote(char ch, int channel, int number) {
+ keyToNote.put(ch, new NoteMeta(channel, number));
+ }
+
+ public String getLabel() {
+ return name;
+ }
+
+ public void keyEvent(KeyEvent e) {
+ if (!enabled) {
+ return;
+ }
+ char c = Character.toLowerCase(e.getKeyChar());
+ NoteMeta nm = keyToNote.get(c);
+ if (nm != null) {
+ switch (e.getID()) {
+ case KeyEvent.KEY_PRESSED:
+ noteOnReceived(new Note(Note.NOTE_ON, nm.channel, nm.number + octaveShift*12, 127));
+ break;
+ case KeyEvent.KEY_RELEASED:
+ noteOffReceived(new Note(Note.NOTE_OFF, nm.channel, nm.number + octaveShift*12, 0));
+ break;
+ }
+ }
+ if ((mode == KEYS) && (e.getID() == KeyEvent.KEY_PRESSED)) {
+ switch (c) {
+ case 'z':
+ octaveShift = constrain(octaveShift-1, -4, 4);
+ break;
+ case 'x':
+ octaveShift = constrain(octaveShift+1, -4, 4);
+ break;
+ }
+ }
+ }
+
+ public boolean isEnabled() {
+ return enabled;
+ }
+
+ public boolean isSelected() {
+ return enabled;
+ }
+
+ public void onMousePressed() {
+ setEnabled(!enabled);
+ }
+
+ public SCMidiInput setEnabled(boolean enabled) {
+ if (enabled != this.enabled) {
+ this.enabled = enabled;
+ for (SCMidiInputListener l : listeners) {
+ l.onEnabled(this, enabled);
+ }
+ }
+ return this;
+ }
+
+ private SCPattern getFocusedPattern() {
+ Engine.Deck focusedDeck = (uiMidi != null) ? uiMidi.getFocusedDeck() : lx.engine.getDefaultDeck();
+ return (SCPattern) focusedDeck.getActivePattern();
+ }
+
+ private boolean logMidi() {
+ return (uiMidi != null) && uiMidi.logMidi();
+ }
+
+ void programChangeReceived(ProgramChange pc) {
+ if (!enabled) {
+ return;
+ }
+ if (logMidi()) {
+ println(getLabel() + " :: Program Change :: " + pc.getNumber());
+ }
+ }
+
+ void controllerChangeReceived(rwmidi.Controller cc) {
+ if (!enabled) {
+ return;
+ }
+ if (logMidi()) {
+ println(getLabel() + " :: Controller :: " + cc.getCC() + ":" + cc.getValue());
+ }
+ getFocusedPattern().controllerChangeReceived(cc);
+ }
+
+ void noteOnReceived(Note note) {
+ if (!enabled) {
+ return;
+ }
+ if (logMidi()) {
+ println(getLabel() + " :: Note On :: " + note.getChannel() + ":" + note.getPitch() + ":" + note.getVelocity());
+ }
+ getFocusedPattern().noteOnReceived(note);
+ }
+
+ void noteOffReceived(Note note) {
+ if (!enabled) {
+ return;
+ }
+ if (logMidi()) {
+ println(getLabel() + " :: Note Off :: " + note.getChannel() + ":" + note.getPitch() + ":" + note.getVelocity());
+ }
+ getFocusedPattern().noteOffReceived(note);
}
-}
-void logTime(String evt) {
- int now = millis();
- println(evt + ": " + (now - lastMillis) + "ms");
- lastMillis = now;
}
+/**
+ * Core render loop and drawing functionality.
+ */
void draw() {
// Draws the simulation and the 2D UI overlay
background(40);
color[] colors = glucose.getColors();
+
+ String displayMode = uiCrossfader.getDisplayMode();
+ if (displayMode == "A") {
+ colors = lx.engine.getDeck(0).getColors();
+ } else if (displayMode == "B") {
+ colors = lx.engine.getDeck(1).getColors();
+ }
if (debugMode) {
debugUI.maskColors(colors);
}
0, -1, 0
);
+ translate(0, 40, 0);
+
noStroke();
fill(#141414);
drawBox(0, -TRAILER_HEIGHT, 0, 0, 0, 0, TRAILER_WIDTH, TRAILER_HEIGHT, TRAILER_DEPTH, TRAILER_HEIGHT/2.);
vertex(TRAILER_WIDTH, 0, TRAILER_DEPTH);
vertex(0, 0, TRAILER_DEPTH);
endShape();
+
+ // Draw the logo on the front of platform
+ pushMatrix();
+ translate(0, 0, -1);
+ float s = .07;
+ scale(s, -s, s);
+ image(logo, TRAILER_WIDTH/2/s-logo.width/2, TRAILER_HEIGHT/2/s-logo.height/2-2/s);
+ popMatrix();
noStroke();
- drawBassBox(glucose.model.bassBox);
- for (Speaker s : glucose.model.speakers) {
- drawSpeaker(s);
- }
+// drawBassBox(glucose.model.bassBox);
+// for (Speaker s : glucose.model.speakers) {
+// drawSpeaker(s);
+// }
for (Cube c : glucose.model.cubes) {
drawCube(c);
}
noFill();
strokeWeight(2);
beginShape(POINTS);
- for (Point p : glucose.model.points) {
- stroke(colors[p.index]);
- vertex(p.fx, p.fy, p.fz);
+ // TODO(mcslee): restore when bassBox/speakers are right again
+ // for (Point p : glucose.model.points) {
+ for (Cube cube : glucose.model.cubes) {
+ for (Point p : cube.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);
+ // 2D Overlay UI
drawUI();
-
+
+ // Send output colors
+ color[] sendColors = glucose.getColors();
if (debugMode) {
- debugUI.draw();
+ debugUI.maskColors(colors);
}
- // TODO(dan): if you want to, here would be a good place to
- // put in gamma correction, modifying the colors that get
- // sent to the pandaboards, without mucking up the UI here
+ // Gamma correction here. Apply a cubic to the brightness
+ // for better representation of dynamic range
+ for (int i = 0; i < colors.length; ++i) {
+ float b = brightness(colors[i]) / 100.f;
+ colors[i] = color(
+ hue(colors[i]),
+ saturation(colors[i]),
+ (b*b*b) * 100.
+ );
+ }
// TODO(mcslee): move into GLucose engine
for (PandaDriver p : pandaBoards) {
noStroke();
fill(#393939);
drawBox(s.x+in, s.y+in, s.z+in, 0, s.ry, 0, Speaker.EDGE_WIDTH-in*2, Speaker.EDGE_HEIGHT-in*2, Speaker.EDGE_DEPTH-in*2, Cube.CHANNEL_WIDTH-in);
-}
-
+}
void drawBox(float x, float y, float z, float rx, float ry, float rz, float xd, float yd, float zd, float sw) {
pushMatrix();
}
void drawUI() {
+ camera();
+ javax.media.opengl.GL gl = ((PGraphicsOpenGL)g).beginGL();
+ gl.glClear(javax.media.opengl.GL.GL_DEPTH_BUFFER_BIT);
+ ((PGraphicsOpenGL)g).endGL();
+ strokeWeight(1);
+
if (uiOn) {
- ui.draw();
- } else {
- ui.drawHelpTip();
+ for (UIContext context : overlays) {
+ context.draw();
+ }
+ }
+
+ // Always draw FPS meter
+ fill(#555555);
+ textSize(9);
+ textAlign(LEFT, BASELINE);
+ text("FPS: " + ((int) (frameRate*10)) / 10. + " / " + targetFramerate + " (-/+)", 4, height-4);
+
+ if (debugMode) {
+ debugUI.draw();
}
- ui.drawFPS();
}
-boolean uiOn = true;
-int restoreToIndex = -1;
+/**
+ * Top-level keyboard event handling
+ */
void keyPressed() {
if (mappingMode) {
- mappingTool.keyPressed();
+ mappingTool.keyPressed(uiMapping);
}
switch (key) {
case '-':
case '=':
case '+':
frameRate(++targetFramerate);
- break;
+ break;
case 'd':
- debugMode = !debugMode;
- println("Debug output: " + (debugMode ? "ON" : "OFF"));
+ if (!midiQwertyAPC.isEnabled() && !midiQwertyKeys.isEnabled()) {
+ debugMode = !debugMode;
+ println("Debug output: " + (debugMode ? "ON" : "OFF"));
+ }
break;
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;
- }
+ if (!midiQwertyAPC.isEnabled() && !midiQwertyKeys.isEnabled()) {
+ mappingMode = !mappingMode;
+ uiPatternA.setVisible(!mappingMode);
+ uiMapping.setVisible(mappingMode);
+ if (mappingMode) {
+ restoreToPattern = lx.getPattern();
+ lx.setPatterns(new LXPattern[] { mappingTool });
+ } else {
+ lx.setPatterns(patterns);
+ LXTransition pop = restoreToPattern.getTransition();
+ restoreToPattern.setTransition(null);
+ lx.goPattern(restoreToPattern);
+ restoreToPattern.setTransition(pop);
}
- ui = mappingUI;
- lx.setPatterns(new LXPattern[] { mappingTool });
- } else {
- ui = controlUI;
- lx.setPatterns(patterns);
- lx.goIndex(restoreToIndex);
}
break;
case 'p':
}
break;
case 'u':
- uiOn = !uiOn;
+ if (!midiQwertyAPC.isEnabled() && !midiQwertyKeys.isEnabled()) {
+ uiOn = !uiOn;
+ }
break;
}
}
+/**
+ * Top-level mouse event handling
+ */
int mx, my;
void mousePressed() {
- ui.mousePressed();
- if (mouseX < ui.leftPos) {
- if (debugMode) {
- debugUI.mousePressed();
- }
- mx = mouseX;
- my = mouseY;
+ boolean debugged = false;
+ if (debugMode) {
+ debugged = debugUI.mousePressed();
}
+ if (!debugged) {
+ for (UIContext context : overlays) {
+ context.mousePressed(mouseX, mouseY);
+ }
+ }
+ mx = mouseX;
+ my = mouseY;
}
void mouseDragged() {
- if (mouseX > ui.leftPos) {
- ui.mouseDragged();
- } else {
+ boolean dragged = false;
+ for (UIContext context : overlays) {
+ dragged |= context.mouseDragged(mouseX, mouseY);
+ }
+ if (!dragged) {
int dx = mouseX - mx;
int dy = mouseY - my;
mx = mouseX;
}
void mouseReleased() {
- ui.mouseReleased();
+ for (UIContext context : overlays) {
+ context.mouseReleased(mouseX, mouseY);
+ }
}
void mouseWheel(int delta) {
- if (mouseX > ui.leftPos) {
- ui.mouseWheel(delta);
- } else {
+ boolean wheeled = false;
+ for (UIContext context : overlays) {
+ wheeled |= context.mouseWheel(mouseX, mouseY, delta);
+ }
+
+ if (!wheeled) {
eyeR = constrain(eyeR - delta, -500, -80);
eyeX = midX + eyeR*sin(eyeA);
eyeZ = midZ + eyeR*cos(eyeA);
}
}
-