}
}
+class TestStripPattern extends TestPattern {
+
+ SinLFO d = new SinLFO(4, 40, 4000);
+
+ public TestStripPattern(GLucose glucose) {
+ super(glucose);
+ addModulator(d).trigger();
+ }
+
+ public void run(int deltaMs) {
+ for (Strip s : model.strips) {
+ for (Point p : s.points) {
+ colors[p.index] = color(
+ lx.getBaseHuef(),
+ 100,
+ max(0, 100 - d.getValuef()*dist(p.x, p.y, s.cx, s.cy))
+ );
+ }
+ }
+ }
+}
+
/**
* Simplest demonstration of using the rotating master hue.
* All pixels are full-on the same color.
for (Coord c : projection) {
float d = sqrt(c.x*c.x + c.y*c.y + c.z*c.z); // distance from origin
// d = abs(d-60) + max(0, abs(c.z) - 20); // life saver / ring thing
- d = max(0, abs(c.y) - 10 + .3*abs(c.z) + .08*abs(c.x)); // plane / spear thing
+ d = max(0, abs(c.y) - 10 + .1*abs(c.z) + .02*abs(c.x)); // plane / spear thing
colors[c.index] = color(
(hv + .6*abs(c.x) + abs(c.z)) % 360,
100,
- constrain(140 - 10*d, 0, 100)
+ constrain(140 - 40*d, 0, 100)
);
}
}
private final int numChannels;
private final PandaMapping[] pandaMappings;
- private PandaMapping activeMapping;
- private int mappingChannelIndex;
+ private PandaMapping activePanda;
+ private ChannelMapping activeChannel;
MappingTool(GLucose glucose, PandaMapping[] pandaMappings) {
super(glucose);
}
private void setChannel() {
- mappingChannelIndex = channelIndex % PandaMapping.CHANNELS_PER_BOARD;
- activeMapping = pandaMappings[channelIndex / PandaMapping.CHANNELS_PER_BOARD];
+ activePanda = pandaMappings[channelIndex / PandaMapping.CHANNELS_PER_BOARD];
+ activeChannel = activePanda.channelList[channelIndex % PandaMapping.CHANNELS_PER_BOARD];
}
- private int cubeInChannel(Cube c) {
- int i = 1;
- for (int index : activeMapping.channelList[mappingChannelIndex]) {
- if (c == model.getCubeByRawIndex(index)) {
- return i;
+ private int indexOfCubeInChannel(Cube c) {
+ if (activeChannel.mode == ChannelMapping.MODE_CUBES) {
+ int i = 1;
+ for (int index : activeChannel.objectIndices) {
+ if (c == model.getCubeByRawIndex(index)) {
+ return i;
+ }
+ ++i;
}
- ++i;
}
return 0;
}
int ci = 0;
for (Cube cube : model.cubes) {
boolean cubeOn = false;
- int channelIndex = cubeInChannel(cube);
+ int indexOfCubeInChannel = indexOfCubeInChannel(cube);
switch (mappingMode) {
case MAPPING_MODE_ALL: cubeOn = true; break;
case MAPPING_MODE_SINGLE_CUBE: cubeOn = (cubeIndex == ci); break;
if (cubeOn) {
if (mappingMode == MAPPING_MODE_CHANNEL) {
color cc = off;
- switch (channelIndex) {
+ switch (indexOfCubeInChannel) {
case 1: cc = r; break;
case 2: cc = r|g; break;
case 3: cc = g; break;
}
public void incStrip() {
- int stripsPerCube = Cube.FACES_PER_CUBE * Face.STRIPS_PER_FACE;
- stripIndex = (stripIndex + 1) % stripsPerCube;
+ stripIndex = (stripIndex + 1) % Cube.STRIPS_PER_CUBE;
}
public void decStrip() {
- int stripsPerCube = Cube.FACES_PER_CUBE * Face.STRIPS_PER_FACE;
--stripIndex;
if (stripIndex < 0) {
- stripIndex += stripsPerCube;
+ stripIndex += Cube.STRIPS_PER_CUBE;
}
}