// NeoPixelFunLoop // This example will move a trail of light around a series of pixels. // A ring formation of pixels looks best. // The trail will have a slowly fading tail. // // This will demonstrate the use of the NeoPixelAnimator. // It shows the advanced use an animation to control the modification and // starting of other animations. // It also shows the normal use of animating colors. // It also demonstrates the ability to share an animation channel rather than // hard code them to pixels. // #include #include const uint16_t PixelCount = 16; // make sure to set this to the number of pixels in your strip const uint16_t PixelPin = 2; // make sure to set this to the correct pin, ignored for Esp8266 const uint16_t AnimCount = PixelCount / 5 * 2 + 1; // we only need enough animations for the tail and one extra const uint16_t PixelFadeDuration = 300; // third of a second // one second divide by the number of pixels = loop once a second const uint16_t NextPixelMoveDuration = 1000 / PixelCount; // how fast we move through the pixels NeoGamma colorGamma; // for any fade animations, best to correct gamma NeoPixelBus strip(PixelCount, PixelPin); // For Esp8266, the Pin is omitted and it uses GPIO3 due to DMA hardware use. // There are other Esp8266 alternative methods that provide more pin options, but also have // other side effects. //NeoPixelBus strip(PixelCount); // // NeoEsp8266Uart800KbpsMethod uses GPI02 instead // what is stored for state is specific to the need, in this case, the colors and // the pixel to animate; // basically what ever you need inside the animation update function struct MyAnimationState { RgbColor StartingColor; RgbColor EndingColor; uint16_t IndexPixel; // which pixel this animation is effecting }; NeoPixelAnimator animations(AnimCount); // NeoPixel animation management object MyAnimationState animationState[AnimCount]; uint16_t frontPixel = 0; // the front of the loop RgbColor frontColor; // the color at the front of the loop void SetRandomSeed() { uint32_t seed; // random works best with a seed that can use 31 bits // analogRead on a unconnected pin tends toward less than four bits seed = analogRead(0); delay(1); for (int shifts = 3; shifts < 31; shifts += 3) { seed ^= analogRead(0) << shifts; delay(1); } // Serial.println(seed); randomSeed(seed); } void FadeOutAnimUpdate(const AnimationParam& param) { // this gets called for each animation on every time step // progress will start at 0.0 and end at 1.0 // we use the blend function on the RgbColor to mix // color based on the progress given to us in the animation RgbColor updatedColor = RgbColor::LinearBlend( animationState[param.index].StartingColor, animationState[param.index].EndingColor, param.progress); // apply the color to the strip strip.SetPixelColor(animationState[param.index].IndexPixel, colorGamma.Correct(updatedColor)); } void LoopAnimUpdate(const AnimationParam& param) { // wait for this animation to complete, // we are using it as a timer of sorts if (param.state == AnimationState_Completed) { // done, time to restart this position tracking animation/timer animations.RestartAnimation(param.index); // pick the next pixel inline to start animating // frontPixel = (frontPixel + 1) % PixelCount; // increment and wrap if (frontPixel == 0) { // we looped, lets pick a new front color frontColor = HslColor(random(360) / 360.0f, 1.0f, 0.25f); } uint16_t indexAnim; // do we have an animation available to use to animate the next front pixel? // if you see skipping, then either you are going to fast or need to increase // the number of animation channels if (animations.NextAvailableAnimation(&indexAnim, 1)) { animationState[indexAnim].StartingColor = frontColor; animationState[indexAnim].EndingColor = RgbColor(0, 0, 0); animationState[indexAnim].IndexPixel = frontPixel; animations.StartAnimation(indexAnim, PixelFadeDuration, FadeOutAnimUpdate); } } } void setup() { strip.Begin(); strip.Show(); SetRandomSeed(); // we use the index 0 animation to time how often we move to the next // pixel in the strip animations.StartAnimation(0, NextPixelMoveDuration, LoopAnimUpdate); } void loop() { // this is all that is needed to keep it running // and avoiding using delay() is always a good thing for // any timing related routines animations.UpdateAnimations(); strip.Show(); }