-color BLACK = color(0, 0, 0);
+color BLACK = #000000;
class Gimbal extends SCPattern {
float a = 0, b = 0, g = 0;
- public void run(int deltaMs) {
+ public void run(double deltaMs) {
if (DEBUG_MANUAL_ABG) {
a = aP.getValuef() * (2 * PI);
Ring ring2 = new Ring((hue + hue_delta * 1) % 360, radius2, girth);
Ring ring3 = new Ring((hue + hue_delta * 2) % 360, radius3, girth);
- projection.reset(model)
+ projection.reset()
// Translate so the center of the car is the origin
- .translateCenter(model, 0, 0, 0);
+ .center();
for (Coord c : projection) {
//if (first_run) println(c.x + "," + c.y + "," + c.z);
+ pow(nearest_circle_z - c.z * ringExtendParam.getValuef(), 2));
float xy_distance = sqrt(c.x*c.x + c.y*c.y);
- return color(this.hue, 100, (1 - distance_to_circle / girth * fadeFromCoreParam.getValuef()) * 100);
+ return lx.hsb(this.hue, 100, (1 - distance_to_circle / girth * fadeFromCoreParam.getValuef()) * 100);
}
}
int stripe_count = 12;
float stripe_width = model.xMax / (float)stripe_count;
if (Math.floor((c.x) / stripe_width) % 2 == 0) {
- return color(hue, 100, 100);
+ return lx.hsb(hue, 100, 100);
} else {
- return color((hue + 90) % 360, 100, 100);
+ return lx.hsb((hue + 90) % 360, 100, 100);
}
/* OCTANTS
if ((isPositiveBit(c.x) + isPositiveBit(c.y) + isPositiveBit(c.z)) % 2 == 0) {
- return color(lx.getBaseHuef(), 100, 100);
+ return lx.hsb(lx.getBaseHuef(), 100, 100);
} else {
- return color(0, 0, 0);
+ return lx.hsb(0, 0, 0);
}
*/
}
return f > 0 ? 1 : 0;
}
- public void run(int deltaMs) {
+ public void run(double deltaMs) {
float a = (millis() / 1000.f) % (2 * PI);
float b = (millis() / 1200.f) % (2 * PI);
float g = (millis() / 1600.f) % (2 * PI);
- projection.reset(model)
+ projection.reset()
// Translate so the center of the car is the origin
- .translateCenter(model, 0, 0, 0);
+ .center();
for (Coord c : projection) {
// rotate3d(c, a, b, g);
float relative_b2 = b2 / (b1 + b2 + b3);
float relative_b3 = b3 / (b1 + b2 + b3);
- return color(
+ return lx.hsb(
(h1 * relative_b1 + h2 * relative_b1 + h3 * relative_b3) % 360,
s1 * relative_b1 + s2 * relative_b2 + s3 * relative_b3,
max(max(b1, b2), b3)