Using separate animation frame for rainbow to prevent reset during indicators.

QuadLightsV3.ino

@@ -74,11 +74,12 @@ enum Mode {
   MODE_HAZARD,
   MODE_POLICE,
   MODE_RAINBOW,
+  MODE_KITT,
   MODE_COUNT,
 };
 
 // Mode activeMode = MODE_HEAD;
-Mode activeMode = MODE_RAINBOW;
+Mode activeMode = MODE_KITT;
 
 uint32_t colorHSV(float hue, float sat = 1.0, float val = 1.0) {
   return Adafruit_NeoPixel::ColorHSV(
@@ -99,6 +100,7 @@ const uint32_t COLOR_POLICE_BLUE = ledsTail.Color(0, 0, 255, 0);
 const uint32_t COLOR_POLICE_RED = ledsTail.Color(255, 0, 0, 0);
 
 unsigned long animationFrame = 0;
+unsigned long stableAnimationFrame = 0;
 unsigned long lastFrame = 0;
 
 unsigned long lastPedalPress = millis();
@@ -234,10 +236,6 @@ void animateIndicator(Direction direction) {
     }
   }
 
-  const int* tailRange = direction == LEFT
-    ? LEDS_TAIL_LEFT_RANGE
-    : LEDS_TAIL_RIGHT_RANGE;
-
   void (*animateTailSide)(uint32_t, bool) = direction == LEFT
     ? animateLeftTailSide
     : animateRightTailSide;
@@ -322,32 +320,37 @@ void animatePolice() {
 }
 
 constexpr float RAINBOW_SPEED = 2.0;
-constexpr float RAINBOW_DENSITY = 5.0;
+constexpr float RAINBOW_DENSITY = 10.0;
 
 void animateRainbow() {
-  for (int ledIndex = 0; ledIndex < LEDS_HEAD_LENGTH; ledIndex++) {
-    const uint32_t pixelColor = colorHSV((animationFrame * RAINBOW_SPEED) + (ledIndex * RAINBOW_DENSITY));
+  // EDGES, flowing color
+  for (int ledIndex = LEDS_TOP_LENGTH - 1; ledIndex >= 0; ledIndex--) {
+    const uint32_t pixelColor = colorHSV((stableAnimationFrame * RAINBOW_SPEED) + (ledIndex * RAINBOW_DENSITY));
 
     ledsHeadLeft.setPixelColor(ledIndex, pixelColor);
+    ledsHeadLeft.setPixelColor(LEDS_EDGE_LENGTH - ledIndex, pixelColor);
+
     ledsHeadRight.setPixelColor(ledIndex, pixelColor);
+    ledsHeadRight.setPixelColor(LEDS_EDGE_LENGTH - ledIndex, pixelColor);
   }
 
-  /*
+  // RINGS, single color
+  ledsHeadLeft.fill(colorHSV(stableAnimationFrame * RAINBOW_SPEED), LEDS_EDGE_LENGTH, LEDS_RING_LENGTH);
+  ledsHeadRight.fill(colorHSV(stableAnimationFrame * RAINBOW_SPEED), LEDS_EDGE_LENGTH, LEDS_RING_LENGTH);
+
   for (int ledIndex = 0; ledIndex < LEDS_TAIL_LENGTH; ledIndex++) {
-    const uint32_t pixelColor = ledsHeadLeft.ColorHSV((animationFrame * 1000 * RAINBOW_SPEED) + (ledIndex * 1000 * RAINBOW_DENSITY * 5), 255, 255);
+    const int distFromCenter = abs(ledIndex * 2 - (LEDS_TAIL_LENGTH - 1));
+    const uint32_t pixelColor = colorHSV((stableAnimationFrame * RAINBOW_SPEED) - (distFromCenter * RAINBOW_DENSITY * 2));
 
-    if (ledIndex <= 5) {
-      ledsTail.setPixelColor(ledIndex, pixelColor);
-    } else {
-      ledsTail.setPixelColor(LEDS_TAIL_LENGTH - ledIndex, pixelColor);
-    }
+    ledsTail.setPixelColor(ledIndex, pixelColor);
   }
-  */
 
-  ledsTail.fill(colorHSV(animationFrame * RAINBOW_SPEED));
+  ledsDash.setPixelColor(1, colorHSV(stableAnimationFrame * RAINBOW_SPEED));
+  ledsDash.setPixelColor(0, colorHSV(stableAnimationFrame * RAINBOW_SPEED + 90));
+}
 
-  ledsDash.setPixelColor(1, colorHSV(animationFrame * RAINBOW_SPEED));
-  ledsDash.setPixelColor(0, colorHSV(animationFrame * RAINBOW_SPEED + 90));
+void animateKitt() {
+  // not implemented
 }
 
 void animate(long now) {
@@ -369,6 +372,10 @@ void animate(long now) {
     animateIndicator(RIGHT);
   }
 
+  if (activeMode == MODE_KITT) {
+    animateKitt();
+  }
+
   if (now - lastPedalRelease < 1500) {
     animateBrake();
   }
@@ -415,6 +422,7 @@ void shutdown() {
 void restart() {
   lastFrame = millis();
   animationFrame = 0;
+  stableAnimationFrame = 0;
   isOff = false;
 
   digitalWrite(PIN_BUCK, BUCK_ON);
@@ -500,6 +508,7 @@ void loop() {
   if (!isOff && now - lastFrame >= ANIMATION_INTERVAL) {
     lastFrame += ANIMATION_INTERVAL;
     animationFrame += 1;
+    stableAnimationFrame += 1;
 
     animate(now);
     render();