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SideboardLED/SideboardLED.ino

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/*
Fuses:
avrdude -c avrispmkii -p atmega8 -U lfuse:w:0xee:m -U hfuse:w:0xd9:m -U efuse:w:0xfc:m
Arduino Settings:
Board: Arduino NG / or older
Processor: Atmega8
*/
#include <FastLED.h>
/****************** LED output ***********************/
#define LED_PIN 3
// Information about the LED strip itself
#define NUM_LEDS 45 /* aka 75cm at 60LEDs per 100cm */
#define CHIPSET WS2812
#define COLOR_ORDER GRB
CRGB leds[NUM_LEDS];
CRGBSet ledset(leds, NUM_LEDS);
#define BRIGHTNESS 128 /** Average brightness, that shall not exeeded */
#define FADEBLACK -2
#define PIN_BUTTON 4 /** PD4 = Input for button */
/****************** Command line ***********************/
int CMD_MAX = 128;
char myCmd[128];
void setup() {
// start serial port at 9600 bps:
Serial.begin(9600);
Serial.println("Sideboard LED running...");
// It's important to set the color correction for your LED strip here,
// so that colors can be more accurately rendered through the 'temperature' profiles
FastLED.addLeds<CHIPSET, LED_PIN, COLOR_ORDER>(leds, NUM_LEDS);
pinMode(PIN_BUTTON, INPUT); // sets the digital pin 7 as input
// Turn the LED on, then pause
leds[0] = CRGB::Red;
FastLED.show();
delay(500);
// Now turn the LED off, then pause
leds[0] = CRGB::Black;
FastLED.show();
delay(500);
}
void clearCmdArray(){
//clear the cmd array
for (int i = 0; i < CMD_MAX; i++){
myCmd[i] = '\0';
}
}
//returns number of read bytes
int readFromSerialIntoCmdArray(){
//read from the serial buffer and flush
int inputSize = Serial.available();
//give serial a chance to receive all bytes
if(inputSize > 0){
delay(100);
inputSize = Serial.available();
}
if(inputSize > 0 && inputSize < CMD_MAX){
Serial.print("inputSize: ");
Serial.println(inputSize);
for (int i = 0; i < inputSize; i++){
myCmd[i] = Serial.read();
}
}else if(inputSize >= CMD_MAX){
Serial.flush();
Serial.println("too much data, flush");
}
return inputSize;
}
//check if command has the required prefix
int checkCmdArrayForPrefix(){
if (myCmd[0] == 'o'
&& myCmd[1] == 'l'
&& myCmd[2] == 'l'
&& myCmd[3] == 'p'
&& myCmd[4] == 'e'){
return 1;
}
return 0;
}
void sendAckOverSerial(){
Serial.println(F("ACK"));
}
void sendNackOverSerial(){
Serial.println(F("NACK"));
}
void sendPingAckOverSerial(){
Serial.println(F("PACK"));
}
/**
* Extract the color from the given LED command
*/
void parseColor(char* pCmd, CRGB *pColor) {
unsigned int colorParts[3]; /* 0: red, 1: green, 2: blue */
unsigned int colorSum = 0;
for(int i=0; i < (2*3); i+= 2) {
colorParts[i/2] = (pCmd[i] <= '9') ? ((pCmd[i]-'0') << 4) : (((pCmd[i]-'A')+10) << 4);
if (colorParts[i/2] < 0) { Serial.print("calcErr:"); Serial.println(colorParts[i/2]); }
colorParts[i/2] += (pCmd[i+1] <= '9') ? ((pCmd[i+1]-'0')) : (((pCmd[i+1]-'A')+10));
}
pColor->r = colorParts[0]; /* fill red */
pColor->g = colorParts[1]; /* fill green */
pColor->b = colorParts[2]; /* fill blue */
colorSum = pColor->r;
colorSum += pColor->g;
colorSum += pColor->b;
/* Generate the average brightness */
colorSum = (colorSum / 3);
if (colorSum > BRIGHTNESS) {
/* scale the brightness, if the values are too high */
pColor->r = pColor->r * BRIGHTNESS / colorSum;
pColor->g = pColor->g * BRIGHTNESS / colorSum;
pColor->b = pColor->b * BRIGHTNESS / colorSum;
}
}
/*
* Give the user some helpfull advice.
* (Text is stored in the flash to save RAM of the Arduino)
*/
void sendHelpOverSerial()
{
Serial.println(F("----help is coming----"));
Serial.println(F("all commands must be prefixed with \"ollpe\""));
Serial.println(F("----commands----"));
Serial.println(F("axxxxxx\t set all leds to RRGGBB (hex: 0-9A-F)"));
Serial.println(F("w00xxxxxx\t set led 0 (first) to RRGGBB (hex: 0-9A-F)"));
Serial.println(F("r00\t returns state of led 0 (first)"));
Serial.println(F("c\t clear all leds (000000h)"));
Serial.println(F("m\t magic rainbow for all leds until next command is received"));
Serial.println(F("ping\t returns \"PACK\""));
Serial.println(F("help\t prints this help"));
Serial.println(F("----help end----"));
}
void loop() {
/* spcial rainbow mode */
static int rainbowIndex = -1;
static CRGB color;
if (rainbowIndex < 0) {
//delay needed to have a chance to get the whole message
delay(200);
clearCmdArray();
if (rainbowIndex == FADEBLACK) {
ledset.fadeToBlackBy(40);
}
FastLED.show();
} else {
if (rainbowIndex >= 255) {
/* one byte used -> simulate overflow */
rainbowIndex=0;
}
ledset.fill_rainbow(rainbowIndex++);
// Dim a color by 25% (64/256ths)
ledset.fadeLightBy( 60 );
FastLED.delay(30);
}
// check if button was pressed
if (digitalRead(PIN_BUTTON)) {
Serial.println(F("BTN"));
rainbowIndex=0; /* activate rainbow */
}
int inputSize = readFromSerialIntoCmdArray();
if (inputSize > 0)
{
rainbowIndex=-1; /* command -> deactivate rainbow */
int checkCmd = checkCmdArrayForPrefix();
if(checkCmd == 0){
Serial.println(F("if you dont know what to do type \"ollpehelp\""));
sendNackOverSerial();
return;
} else if(myCmd[5] == 'p'
&& myCmd[6] == 'i'
&& myCmd[7] == 'n'
&& myCmd[8] == 'g')
{
sendPingAckOverSerial();
}
else if(myCmd[5] == 'h'
&& myCmd[6] == 'e'
&& myCmd[7] == 'l'
&& myCmd[8] == 'p')
{
sendHelpOverSerial();
}
else if(myCmd[5] == 'a')
{
parseColor(myCmd+6, &color);
ledset.fill_solid(color);
sendAckOverSerial();
}
else if(myCmd[5] == 'c')
{
rainbowIndex = FADEBLACK;
sendAckOverSerial();
}
else if(myCmd[5] == 'm')
{
rainbowIndex=0; /* activate rainbow */
Serial.println(F("Rainbow"));
sendAckOverSerial();
}
else if(myCmd[5] == 'w')
{
int index = (myCmd[6]-'0') * 10 + (myCmd[7]-'0');
if (index > NUM_LEDS) {
Serial.println(F("Index too large"));
sendNackOverSerial();
} else {
parseColor(myCmd+8, &color);
leds[index] = color;
sendAckOverSerial();
}
}
else if(myCmd[5] == 'r')
{
int index = (myCmd[6]-'0') * 10 + (myCmd[7]-'0');
if (index > NUM_LEDS) {
sendNackOverSerial();
} else {
Serial.println(leds[index]);
sendAckOverSerial();
}
}
}
}
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