hsiboy/animation.ino

## animation.ino
//	FUNCTION-BASED ANIMATION SEQUENCES FOR WS2812 LED STRIPS
//	Using FastLED library
//  	Author: Dave Morris:	http://www.google.com/+DaveMorris128
//	Version 1.0 (2014-07-31)
//
//
//  	The following code includes "primitive animations" which are the base effect and
//	"aggregate animations" which are combinations of one or more primitive animations
//	Feel free to combine different primitives each loop for synergistic results but:
//		-If using an aggregate animation make sure your primatives don't clear the buffer each frame (FastLED.clear())
//		otherwise one animation will clear out any upstream animations before the loop sends the frame (FastLED.show())
//	This code is designed to handle multiple LED strips, each with its own animation....
//  e.g.
//		void loop()
//		{
//			Ring(stripA, frame, 30);
//			Spark(stripB, frame, 245);
//			FastLED.show();
//			frame += animateSpeed;
//		}


#include "FastLED.h"

#define LED_COUNT 60    	//Length of your LED strip
#define MAX_INT_VALUE 65536
#define LED_PIN 13 // hardware SPI pin SCK
#define NUM_LEDS 250
#define COLOR_ORDER RGB
#define LED_TYPE WS2811
#define MAX_BRIGHTNESS 255 // watch the power!

CRGB strip[NUM_LEDS];
uint16_t frame = 0;			//I think I might be able to move this variable to the void loop() scope and save some CPU
uint16_t animateSpeed = 100;          	//Number of frames to increment per loop
uint8_t  animation = 10;		//Active animation
uint8_t brightness = 50;		//Global brightness percentage

void setup()
{
	LEDS.addLeds<LED_TYPE, LED_PIN, COLOR_ORDER>(leds, NUM_LEDS).setCorrection(TypicalLEDStrip);
  FastLED.setBrightness(MAX_BRIGHTNESS);
 	FastLED.clear();
}

void loop()
{


	//Each animation adjusts the "targetStrip" specified in its parameter.
	//Animations are a function of the current animation frame "frame"
	//Once you've applied the animation to the current strip/frame, Its up to the main loop to send the data to the strip(s)

	switch(animation)
	{
	case 0:
		RingPair(strip, frame);
		break;
	case 1:
		DoubleChaser(strip,frame);
		break;
	case 2:
		TripleBounce(strip,frame);
		break;
	case 3:
		WaveInt(strip,frame,180);
		break;
	case 4:
		Wave(strip,frame,180);
		break;
	case 5:  //Blue spark (Slow)
		Spark(strip,frame,255,188);		//Overloaded version of "Spark" with Hue value, 255 for fade is the slowest fade possible. 256 is on/off
		delay(2);				//Slow things down a bit more for Slow Spark
		break;
	case 6:	//Blue spark (fast)
		Spark(strip,frame,246,188);		//Overloaded version of "Spark" with Hue value, 246 fade is faster which makes for a sharper dropoff
		break;
	case 7:  //White spark (Slow)
		Spark(strip,frame,255);			//"Spark" function without hue make a white spark, 255 for fade is the slowest fade possible.
		delay(2);				//Slow things down a bit more for Slow Spark
		break;
	case 8:	//White spark (fast)			//"Spark" function without hue make a white spark, 246 fade is faster which makes for a sharper dropoff
		Spark(strip,frame,245);
		break;
	case 9:
		RainbowSpark(strip,frame,240);		//240 for dropoff is a pretty sharp fade, good for this animation
		break;
	 default:
		delay(100);   				//Animation OFF
	}

	FastLED.show();					//All animations are applied!..send the results to the strip(s)
	frame += animateSpeed;

}


//#######################################################################################################
//##                                      AGGREGATE ANIMATIONS                                         ##
//#######################################################################################################
void TripleBounce(CRGB strip[], uint16_t frame)		//3 chaser animations offset by 120 degrees each
{
	FastLED.clear();		//Clear previous buffer
	Bounce(strip,frame,0);
	Bounce(strip,frame+(MAX_INT_VALUE/3),100);
	Bounce(strip,frame+(MAX_INT_VALUE/3)*2,150);
}

void DoubleChaser(CRGB strip[], uint16_t frame)		//2 chaser animations offset 180 degrees
{
	FastLED.clear();		//Clear previous buffer
	frame = frame * 2;
	Ring(strip, frame, 0);
	Ring(strip, frame + (MAX_INT_VALUE / 2), 150);
}

void RingPair(CRGB strip[], uint16_t frame)			//2 rings animations at inverse phases
{
	FastLED.clear();		//Clear previous buffer
	Ring(strip, frame, 30);
	Ring(strip, MAX_INT_VALUE - frame, 150);
}


void RainbowSpark(CRGB targetStrip[], uint16_t animationFrame,uint8_t fade){    //Color spark where hue is function of frame
	Spark(targetStrip,animationFrame,fade,animationFrame/255);
	delay(20);
}


//#######################################################################################################
//##                                PRIMATIVE ANIMATION FUNCTIONS                                      ##
//#######################################################################################################


//*********************     Bounce      ***************************
// Linear "Larson scanner" (or knight rider effect) with anti-aliasing
// Color is determined by "hue"
//*****************************************************************
void Bounce(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue)
{
	uint16_t pos16;
	if (animationFrame < (MAX_INT_VALUE / 2))
	{
		pos16 = animationFrame * 2;

	}else{
		pos16 = MAX_INT_VALUE - ((animationFrame - (MAX_INT_VALUE/2))*2);
	}

	int position = map(pos16, 0, MAX_INT_VALUE, 0, ((LED_COUNT) * 16));
	drawFractionalBar(targetStrip, position, 3, hue,0);
}


//************************          Ring           ******************************
// Anti-aliased cyclical chaser, 3 pixels wide
// Color is determined by "hue"
//*****************************************************
void Ring(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue)
{
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	int pos16 = map(animationFrame, 0, MAX_INT_VALUE, 0, ((stripLength) * 16));
	drawFractionalBar(targetStrip, pos16, 3, hue,1);
}

//***************************   Wave [Float Math]  *******************************
// Squeezed sine wave
// Uses slow, Arduino sin() function
// Squeezing achieved by using an exponential (^8) sin value
// Color is determined by "hue"
//***********************************************************************************
void Wave(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue){
	FastLED.clear();		//Clear previous buffer
	float deg;
	float value;
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	for(uint8_t i=0;i<stripLength;i++)
	{
		deg=float(animationFrame+((MAX_INT_VALUE/stripLength)*i))/(float(MAX_INT_VALUE)) * 360.0;
		value = pow(sin(radians(deg)),8);    //Squeeeeeeze

		if(value>=0){		//Chop sine wave (no negative values)
			targetStrip[i] += CHSV(hue,255,value*256);
		}
	}
}


//***************************   Wave [Integer Math]  *******************************
// unadulterated sine wave.
// Uses FastLED sin16() and no float math for efficiency.
// Since im stuck with integer values, exponential wave-forming is not possible (unless i'm wrong???)
// Color is determined by "hue"
//***********************************************************************************
void WaveInt(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue){
	FastLED.clear();
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint8_t value;
	for(uint8_t i=0;i<stripLength;i++)
	{
		value=(sin16(animationFrame+((MAX_INT_VALUE/stripLength)*i)) + (MAX_INT_VALUE/2))/256;
		if(value>=0){
			targetStrip[i] += CHSV(hue,255,value);
		}
	}
}


//********************************   Color Spark  ***********************************
// Color of the sparks is determined by "hue"
// Frequency of sparks is determined by global var "animateSpeed"
// "animateSpeed" var contrained from 1 - 255 (0.4% - 100%)
// "fade" parameter specifies dropoff (next frame brightness = current frame brightness * (x/256)
// fade = 256 means no dropoff, pixels are on or off
// NOTE: this animation doesnt clear the previous buffer because the fade/dropoff is a function of the previous LED state
//***********************************************************************************
void Spark(CRGB targetStrip[], uint16_t animationFrame,uint8_t fade, uint8_t hue){

	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint16_t rand = random16();

		for(int i=0;i<stripLength;i++)
		{
			targetStrip[i].nscale8(fade);
		}


	if(rand < (MAX_INT_VALUE / (256 - (constrain(animateSpeed,1,256)))))	;
	{
		targetStrip[rand % stripLength].setHSV(hue,255,255);
	}
}


//******************************       Spark       **********************************
// Same as color spark but no hue value, // in HSV white is any hue with 0 saturation
// Frequency of sparks is a percentage mapped to global var "animateSpeed"
// "animateSpeed" var contrained from 1 - 255 (0.4% - 100%)
// "fade" parameter specifies dropoff (next frame brightness = current frame brightness * (x/256)
// fade = 256 means no dropoff, pixels are on or off
// NOTE: this animation doesnt clear the previous buffer because the fade/dropoff is a function of the previous LED state
//***********************************************************************************
void Spark(CRGB targetStrip[], uint16_t animationFrame,uint8_t fade){
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint16_t rand = random16();

	for(int i=0;i<stripLength;i++)
		{
			targetStrip[i].nscale8(fade);
		}


	if(rand < (MAX_INT_VALUE / (256 - (constrain(animateSpeed,1,255)))))
	{
		targetStrip[rand % stripLength].setHSV(0,0,255);
	}

}


//Anti-aliasing code care of Mark Kriegsman Google+: https://plus.google.com/112916219338292742137/posts/2VYNQgD38Pw
void drawFractionalBar(CRGB targetStrip[], int pos16, int width, uint8_t hue, bool wrap)
{
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint8_t i = pos16 / 16; // convert from pos to raw pixel number

	uint8_t frac = pos16 & 0x0F; // extract the 'factional' part of the position
	uint8_t firstpixelbrightness = 255 - (frac * 16);

	uint8_t lastpixelbrightness = 255 - firstpixelbrightness;

	uint8_t bright;
	for (int n = 0; n <= width; n++) {
		if (n == 0) {
			// first pixel in the bar
			bright = firstpixelbrightness;
		}
		else if (n == width) {
			// last pixel in the bar
			bright = lastpixelbrightness;
		}
		else {
			// middle pixels
			bright = 255;
		}

		targetStrip[i] += CHSV(hue, 255, bright );
		i++;
		if (i == stripLength)
		{
			if (wrap == 1) {
				i = 0; // wrap around
			}
			else{
				return;
			}
		}
	}
}
	// FUNCTION-BASED ANIMATION SEQUENCES FOR WS2812 LED STRIPS
	// Using FastLED library
	// Author: Dave Morris: http://www.google.com/+DaveMorris128
	// Version 1.0 (2014-07-31)
	//
	//
	// The following code includes "primitive animations" which are the base effect and
	// "aggregate animations" which are combinations of one or more primitive animations
	// Feel free to combine different primitives each loop for synergistic results but:
	// -If using an aggregate animation make sure your primatives don't clear the buffer each frame (FastLED.clear())
	// otherwise one animation will clear out any upstream animations before the loop sends the frame (FastLED.show())
	// This code is designed to handle multiple LED strips, each with its own animation....
	// e.g.
	// void loop()
	// {
	// Ring(stripA, frame, 30);
	// Spark(stripB, frame, 245);
	// FastLED.show();
	// frame += animateSpeed;
	// }


	#include "FastLED.h"

	#define LED_COUNT 60 //Length of your LED strip
	#define MAX_INT_VALUE 65536
	#define LED_PIN 13 // hardware SPI pin SCK
	#define NUM_LEDS 250
	#define COLOR_ORDER RGB
	#define LED_TYPE WS2811
	#define MAX_BRIGHTNESS 255 // watch the power!

	CRGB strip[NUM_LEDS];
	uint16_t frame = 0; //I think I might be able to move this variable to the void loop() scope and save some CPU
	uint16_t animateSpeed = 100; //Number of frames to increment per loop
	uint8_t animation = 10; //Active animation
	uint8_t brightness = 50; //Global brightness percentage

	void setup()
	{
	LEDS.addLeds<LED_TYPE, LED_PIN, COLOR_ORDER>(leds, NUM_LEDS).setCorrection(TypicalLEDStrip);
	FastLED.setBrightness(MAX_BRIGHTNESS);
	FastLED.clear();
	}

	void loop()
	{


	//Each animation adjusts the "targetStrip" specified in its parameter.
	//Animations are a function of the current animation frame "frame"
	//Once you've applied the animation to the current strip/frame, Its up to the main loop to send the data to the strip(s)

	switch(animation)
	{
	case 0:
	RingPair(strip, frame);
	break;
	case 1:
	DoubleChaser(strip,frame);
	break;
	case 2:
	TripleBounce(strip,frame);
	break;
	case 3:
	WaveInt(strip,frame,180);
	break;
	case 4:
	Wave(strip,frame,180);
	break;
	case 5: //Blue spark (Slow)
	Spark(strip,frame,255,188); //Overloaded version of "Spark" with Hue value, 255 for fade is the slowest fade possible. 256 is on/off
	delay(2); //Slow things down a bit more for Slow Spark
	break;
	case 6: //Blue spark (fast)
	Spark(strip,frame,246,188); //Overloaded version of "Spark" with Hue value, 246 fade is faster which makes for a sharper dropoff
	break;
	case 7: //White spark (Slow)
	Spark(strip,frame,255); //"Spark" function without hue make a white spark, 255 for fade is the slowest fade possible.
	delay(2); //Slow things down a bit more for Slow Spark
	break;
	case 8: //White spark (fast) //"Spark" function without hue make a white spark, 246 fade is faster which makes for a sharper dropoff
	Spark(strip,frame,245);
	break;
	case 9:
	RainbowSpark(strip,frame,240); //240 for dropoff is a pretty sharp fade, good for this animation
	break;
	default:
	delay(100); //Animation OFF
	}

	FastLED.show(); //All animations are applied!..send the results to the strip(s)
	frame += animateSpeed;

	}


	//#######################################################################################################
	//## AGGREGATE ANIMATIONS ##
	//#######################################################################################################
	void TripleBounce(CRGB strip[], uint16_t frame) //3 chaser animations offset by 120 degrees each
	{
	FastLED.clear(); //Clear previous buffer
	Bounce(strip,frame,0);
	Bounce(strip,frame+(MAX_INT_VALUE/3),100);
	Bounce(strip,frame+(MAX_INT_VALUE/3)*2,150);
	}

	void DoubleChaser(CRGB strip[], uint16_t frame) //2 chaser animations offset 180 degrees
	{
	FastLED.clear(); //Clear previous buffer
	frame = frame * 2;
	Ring(strip, frame, 0);
	Ring(strip, frame + (MAX_INT_VALUE / 2), 150);
	}

	void RingPair(CRGB strip[], uint16_t frame) //2 rings animations at inverse phases
	{
	FastLED.clear(); //Clear previous buffer
	Ring(strip, frame, 30);
	Ring(strip, MAX_INT_VALUE - frame, 150);
	}


	void RainbowSpark(CRGB targetStrip[], uint16_t animationFrame,uint8_t fade){ //Color spark where hue is function of frame
	Spark(targetStrip,animationFrame,fade,animationFrame/255);
	delay(20);
	}




	//#######################################################################################################
	//## PRIMATIVE ANIMATION FUNCTIONS ##
	//#######################################################################################################



	//******************* Bounce *************************
	// Linear "Larson scanner" (or knight rider effect) with anti-aliasing
	// Color is determined by "hue"
	//*****************************************************************
	void Bounce(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue)
	{
	uint16_t pos16;
	if (animationFrame < (MAX_INT_VALUE / 2))
	{
	pos16 = animationFrame * 2;

	}else{
	pos16 = MAX_INT_VALUE - ((animationFrame - (MAX_INT_VALUE/2))*2);
	}

	int position = map(pos16, 0, MAX_INT_VALUE, 0, ((LED_COUNT) * 16));
	drawFractionalBar(targetStrip, position, 3, hue,0);
	}




	//********************** Ring ****************************
	// Anti-aliased cyclical chaser, 3 pixels wide
	// Color is determined by "hue"
	//*****************************************************
	void Ring(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue)
	{
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	int pos16 = map(animationFrame, 0, MAX_INT_VALUE, 0, ((stripLength) * 16));
	drawFractionalBar(targetStrip, pos16, 3, hue,1);
	}

	//************************* Wave [Float Math] *****************************
	// Squeezed sine wave
	// Uses slow, Arduino sin() function
	// Squeezing achieved by using an exponential (^8) sin value
	// Color is determined by "hue"
	//***********************************************************************************
	void Wave(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue){
	FastLED.clear(); //Clear previous buffer
	float deg;
	float value;
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	for(uint8_t i=0;i<stripLength;i++)
	{
	deg=float(animationFrame+((MAX_INT_VALUE/stripLength)i))/(float(MAX_INT_VALUE)) 360.0;
	value = pow(sin(radians(deg)),8); //Squeeeeeeze

	if(value>=0){ //Chop sine wave (no negative values)
	targetStrip[i] += CHSV(hue,255,value*256);
	}
	}
	}


	//************************* Wave [Integer Math] *****************************
	// unadulterated sine wave.
	// Uses FastLED sin16() and no float math for efficiency.
	// Since im stuck with integer values, exponential wave-forming is not possible (unless i'm wrong???)
	// Color is determined by "hue"
	//***********************************************************************************
	void WaveInt(CRGB targetStrip[], uint16_t animationFrame, uint8_t hue){
	FastLED.clear();
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint8_t value;
	for(uint8_t i=0;i<stripLength;i++)
	{
	value=(sin16(animationFrame+((MAX_INT_VALUE/stripLength)*i)) + (MAX_INT_VALUE/2))/256;
	if(value>=0){
	targetStrip[i] += CHSV(hue,255,value);
	}
	}
	}


	//****************************** Color Spark *********************************
	// Color of the sparks is determined by "hue"
	// Frequency of sparks is determined by global var "animateSpeed"
	// "animateSpeed" var contrained from 1 - 255 (0.4% - 100%)
	// "fade" parameter specifies dropoff (next frame brightness = current frame brightness * (x/256)
	// fade = 256 means no dropoff, pixels are on or off
	// NOTE: this animation doesnt clear the previous buffer because the fade/dropoff is a function of the previous LED state
	//***********************************************************************************
	void Spark(CRGB targetStrip[], uint16_t animationFrame,uint8_t fade, uint8_t hue){

	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint16_t rand = random16();

	for(int i=0;i<stripLength;i++)
	{
	targetStrip[i].nscale8(fade);
	}


	if(rand < (MAX_INT_VALUE / (256 - (constrain(animateSpeed,1,256))))) ;
	{
	targetStrip[rand % stripLength].setHSV(hue,255,255);
	}
	}


	//**************************** Spark ********************************
	// Same as color spark but no hue value, // in HSV white is any hue with 0 saturation
	// Frequency of sparks is a percentage mapped to global var "animateSpeed"
	// "animateSpeed" var contrained from 1 - 255 (0.4% - 100%)
	// "fade" parameter specifies dropoff (next frame brightness = current frame brightness * (x/256)
	// fade = 256 means no dropoff, pixels are on or off
	// NOTE: this animation doesnt clear the previous buffer because the fade/dropoff is a function of the previous LED state
	//***********************************************************************************
	void Spark(CRGB targetStrip[], uint16_t animationFrame,uint8_t fade){
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint16_t rand = random16();

	for(int i=0;i<stripLength;i++)
	{
	targetStrip[i].nscale8(fade);
	}


	if(rand < (MAX_INT_VALUE / (256 - (constrain(animateSpeed,1,255)))))
	{
	targetStrip[rand % stripLength].setHSV(0,0,255);
	}

	}



	//Anti-aliasing code care of Mark Kriegsman Google+: https://plus.google.com/112916219338292742137/posts/2VYNQgD38Pw
	void drawFractionalBar(CRGB targetStrip[], int pos16, int width, uint8_t hue, bool wrap)
	{
	uint8_t stripLength = sizeof(strip)/sizeof(CRGB);
	uint8_t i = pos16 / 16; // convert from pos to raw pixel number

	uint8_t frac = pos16 & 0x0F; // extract the 'factional' part of the position
	uint8_t firstpixelbrightness = 255 - (frac * 16);

	uint8_t lastpixelbrightness = 255 - firstpixelbrightness;

	uint8_t bright;
	for (int n = 0; n <= width; n++) {
	if (n == 0) {
	// first pixel in the bar
	bright = firstpixelbrightness;
	}
	else if (n == width) {
	// last pixel in the bar
	bright = lastpixelbrightness;
	}
	else {
	// middle pixels
	bright = 255;
	}

	targetStrip[i] += CHSV(hue, 255, bright );
	i++;
	if (i == stripLength)
	{
	if (wrap == 1) {
	i = 0; // wrap around
	}
	else{
	return;
	}
	}
	}
	}