protected final int scrollWidth = 14;
protected final color lightBlue = #666699;
protected final color lightGreen = #669966;
+ protected final int toggleButtonSize = 10;
private PImage logo;
protected final int STATE_PENDING = 2;
protected int[] pandaLeft = new int[pandaBoards.length];
- protected final int pandaWidth = 56;
+ protected final int pandaWidth = 64;
protected final int pandaHeight = 13;
protected final int pandaTop = height-16;
+ protected int eligibleLeft;
+
protected OverlayUI() {
leftPos = width - w;
leftTextPos = leftPos + 4;
textFont(titleFont);
textAlign(LEFT);
fill(#666666);
- text("FPS: " + (((int)(frameRate * 10)) / 10.), 4, height-6);
- text("Target (-/+):", 50, height-6);
+ int lPos = 4;
+ String fps = "FPS: " + (((int)(frameRate * 10)) / 10.);
+ text(fps, lPos, height-6);
+ lPos += 48;
+
+ String target = "Target (-/+):";
+ text(target, lPos, height-6);
fill(#000000);
- rect(104, height-16, 20, 13);
+ lPos += textWidth(target) + 4;
+ rect(lPos, height-16, 24, 13);
fill(#666666);
- text("" + targetFramerate, 108, height-6);
- text("PandaOutput (p):", 134, height-6);
- int lPos = 214;
+ text("" + targetFramerate, lPos + (24 - textWidth("" + targetFramerate))/2, height-6);
+ lPos += 32;
+ String pandaOutput = "PandaOutput (p):";
+ text(pandaOutput, lPos, height-6);
+ lPos += textWidth(pandaOutput)+4;
int pi = 0;
for (PandaDriver p : pandaBoards) {
pandaLeft[pi++] = lPos;
fill(p.enabled ? #666666 : #000000);
rect(lPos, pandaTop, pandaWidth, pandaHeight);
fill(p.enabled ? #000000 : #666666);
- text(p.ip, lPos + 4, height-6);
- lPos += 60;
+ text(p.ip, lPos + (pandaWidth - textWidth(p.ip)) / 2, height-6);
+ lPos += pandaWidth + 8;
}
}
return drawObjectList(yPos, title, items, names, stateMethod, sz, 0);
}
+ protected void drawToggleButton(float x, float y, boolean eligible, color textColor) {
+ noFill();
+ stroke(textColor);
+ rect(x, y, toggleButtonSize, toggleButtonSize);
+ if (eligible) {
+ noStroke();
+ fill(textColor);
+ rect(x + 2, y + 2, toggleButtonSize - 4, toggleButtonSize - 4);
+ }
+ }
+
protected int drawObjectList(int yPos, String title, Object[] items, String[] names, Method stateMethod, int scrollLength, int scrollPos) {
noStroke();
fill(titleColor);
textAlign(LEFT);
text(title, leftTextPos, yPos += lineHeight);
if (items != null) {
+ boolean hasScroll = (scrollPos > 0) || (scrollLength < items.length);
textFont(itemFont);
color textColor;
boolean even = true;
fill(even ? #666666 : #777777);
break;
}
+ noStroke();
rect(leftPos, yPos+6, w, lineHeight);
fill(textColor);
text(names[i], leftTextPos, yPos += lineHeight);
+ if (lx.isAutoTransitionEnabled() && items[i] instanceof LXPattern) {
+ boolean eligible = ((LXPattern)items[i]).isEligible();
+ eligibleLeft = leftPos + w - (hasScroll ? scrollWidth : 0) - 15;
+ drawToggleButton(eligibleLeft, yPos-8, eligible, textColor);
+ }
even = !even;
}
- if ((scrollPos > 0) || (scrollLength < items.length)) {
+ if (hasScroll) {
int yHere = yPos+6;
noStroke();
fill(color(0, 0, 0, 50));
private int firstEffectY;
private int firstEffectKnobY;
+ private int autoRotateX;
+ private int autoRotateY;
+
private final int PATTERN_LIST_LENGTH = 8;
private int patternScrollPos = 0;
public void draw() {
drawLogoAndBackground();
int yPos = 0;
+ autoRotateX = leftPos + w - 29;
+ autoRotateY = yPos + 12;
+ drawToggleButton(autoRotateX, autoRotateY, lx.isAutoTransitionEnabled(), #999999);
+ fill(lx.isAutoTransitionEnabled() ? #222222: #999999);
+ text("A", autoRotateX + 2, autoRotateY + 9);
firstPatternY = yPos + lineHeight + 6;
yPos = drawObjectList(yPos, "PATTERN", patterns, patternNames, patternStateMethod, PATTERN_LIST_LENGTH, patternScrollPos);
yPos += controlSpacing;
return;
}
+ if ((mouseX >= autoRotateX) &&
+ (mouseX < autoRotateX + toggleButtonSize) &&
+ (mouseY >= autoRotateY) &&
+ (mouseY < autoRotateY + toggleButtonSize)) {
+ if (lx.isAutoTransitionEnabled()) {
+ lx.disableAutoTransition();
+ println("Auto pattern transition disabled");
+ } else {
+ lx.enableAutoTransition(60000);
+ println("Auto pattern transition enabled");
+ }
+ return;
+ }
+
if (mouseY > tempoY) {
if (mouseY - tempoY < tempoHeight) {
lx.tempo.tap();
} else {
int patternIndex = objectClickIndex(firstPatternY);
if (patternIndex < patterns.length) {
- lx.goIndex(patternIndex + patternScrollPos);
+ if (lx.isAutoTransitionEnabled() && (mouseX > eligibleLeft)) {
+ patterns[patternIndex + patternScrollPos].toggleEligible();
+ } else {
+ lx.goIndex(patternIndex + patternScrollPos);
+ }
}
}
}
class DebugUI {
- final int[][] channelList;
+ final ChannelMapping[] channelList;
final int debugX = 10;
final int debugY = 42;
final int debugXSpacing = 28;
DebugUI(PandaMapping[] pandaMappings) {
int totalChannels = pandaMappings.length * PandaMapping.CHANNELS_PER_BOARD;
- channelList = new int[totalChannels][];
+ channelList = new ChannelMapping[totalChannels];
int channelIndex = 0;
for (PandaMapping pm : pandaMappings) {
- for (int[] channel : pm.channelList) {
+ for (ChannelMapping channel : pm.channelList) {
channelList[channelIndex++] = channel;
}
}
rect(4, 32, 172, 388);
int channelNum = 0;
- for (int[] channel : channelList) {
+ for (ChannelMapping channel : channelList) {
int xPos = xBase;
drawNumBox(xPos, yPos, channelNum+1, debugState[channelNum][0]);
+ xPos += debugXSpacing;
- boolean first = true;
- int cubeNum = 0;
- for (int cube : channel) {
- if (cube == 0) {
+ switch (channel.mode) {
+ case ChannelMapping.MODE_CUBES:
+ int stateIndex = 0;
+ boolean first = true;
+ for (int rawCubeIndex : channel.objectIndices) {
+ if (rawCubeIndex < 0) {
+ break;
+ }
+ if (first) {
+ first = false;
+ } else {
+ stroke(#999999);
+ line(xPos - 12, yPos + 8, xPos, yPos + 8);
+ }
+ drawNumBox(xPos, yPos, rawCubeIndex, debugState[channelNum][stateIndex+1]);
+ ++stateIndex;
+ xPos += debugXSpacing;
+ }
break;
- }
- xPos += debugXSpacing;
- if (first) {
- first = false;
- } else {
- stroke(#999999);
- line(xPos - 12, yPos + 8, xPos, yPos + 8);
- }
- drawNumBox(xPos, yPos, cube, debugState[channelNum][cubeNum+1]);
- ++cubeNum;
- }
+ case ChannelMapping.MODE_BASS:
+ drawNumBox(xPos, yPos, "B", debugState[channelNum][1]);
+ break;
+ case ChannelMapping.MODE_SPEAKER:
+ drawNumBox(xPos, yPos, "S" + channel.objectIndices[0], debugState[channelNum][1]);
+ break;
+ case ChannelMapping.MODE_FLOOR:
+ drawNumBox(xPos, yPos, "F", debugState[channelNum][1]);
+ break;
+ case ChannelMapping.MODE_NULL:
+ break;
+ default:
+ throw new RuntimeException("Unhandled channel mapping mode: " + channel.mode);
+ }
yPos += debugYSpacing;
++channelNum;
color white = #FFFFFF;
color off = #000000;
int channelIndex = 0;
- for (int[] channel : channelList) {
- int cubeIndex = 1;
- for (int rawCubeIndex : channel) {
- if (rawCubeIndex > 0) {
- int state = debugState[channelIndex][cubeIndex];
- if (state != DEBUG_STATE_ANIM) {
- color debugColor = (state == DEBUG_STATE_WHITE) ? white : off;
- Cube cube = glucose.model.getCubeByRawIndex(rawCubeIndex);
- for (Point p : cube.points) {
- colors[p.index] = debugColor;
+ int state;
+ for (ChannelMapping channel : channelList) {
+ switch (channel.mode) {
+ case ChannelMapping.MODE_CUBES:
+ int cubeIndex = 1;
+ for (int rawCubeIndex : channel.objectIndices) {
+ if (rawCubeIndex >= 0) {
+ state = debugState[channelIndex][cubeIndex];
+ if (state != DEBUG_STATE_ANIM) {
+ color debugColor = (state == DEBUG_STATE_WHITE) ? white : off;
+ Cube cube = glucose.model.getCubeByRawIndex(rawCubeIndex);
+ for (Point p : cube.points) {
+ colors[p.index] = debugColor;
+ }
+ }
}
+ ++cubeIndex;
}
- }
- ++cubeIndex;
+ break;
+
+ case ChannelMapping.MODE_BASS:
+ state = debugState[channelIndex][1];
+ if (state != DEBUG_STATE_ANIM) {
+ color debugColor = (state == DEBUG_STATE_WHITE) ? white : off;
+ for (Point p : glucose.model.bassBox.points) {
+ colors[p.index] = debugColor;
+ }
+ }
+ break;
+
+ case ChannelMapping.MODE_FLOOR:
+ state = debugState[channelIndex][1];
+ if (state != DEBUG_STATE_ANIM) {
+ color debugColor = (state == DEBUG_STATE_WHITE) ? white : off;
+ for (Point p : glucose.model.boothFloor.points) {
+ colors[p.index] = debugColor;
+ }
+ }
+ break;
+
+ case ChannelMapping.MODE_SPEAKER:
+ state = debugState[channelIndex][1];
+ if (state != DEBUG_STATE_ANIM) {
+ color debugColor = (state == DEBUG_STATE_WHITE) ? white : off;
+ for (Point p : glucose.model.speakers.get(channel.objectIndices[0]).points) {
+ colors[p.index] = debugColor;
+ }
+ }
+ break;
+
+ case ChannelMapping.MODE_NULL:
+ break;
+
+ default:
+ throw new RuntimeException("Unhandled channel mapping mode: " + channel.mode);
}
++channelIndex;
}