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Googles.ino
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Googles.ino
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const int row[] = {2,3,4,5,6,7,8};
const int col[] = {9,10,11,12};
struct led { int row; int col; };
led lights[28];
int dTime = 800;
//This will setup the outputs as 7 rows / 4 columns
void setup() {
for(int c = 0; c<4; c++) {
pinMode(col[c], OUTPUT);
digitalWrite(col[c], HIGH);
}
for(int r=0; r<7; r++){
pinMode(row[r], OUTPUT);
digitalWrite(row[r], LOW);
}
//Light Mapping
lights[0] = {row[0],col[0]}; lights[1] = {row[1],col[0]};lights[2] = {row[2],col[0]}; lights[3] = {row[3],col[0]}; lights[4] = {row[4],col[0]}; lights[5] = {row[5],col[0]}; lights[6] = {row[6],col[0]};
lights[7] = {row[6],col[1]}; lights[8] = {row[5],col[1]};lights[9] = {row[4],col[1]}; lights[10] = {row[3],col[1]}; lights[11] = {row[2],col[1]}; lights[12] = {row[1],col[1]}; lights[13] = {row[0],col[1]};
lights[14] = {row[0],col[2]}; lights[15] = {row[1],col[2]};lights[16] = {row[2],col[2]}; lights[17] = {row[3],col[2]}; lights[18] = {row[4],col[2]}; lights[19] = {row[5],col[2]};lights[20] = {row[6],col[2]};
lights[21] = {row[6],col[3]}; lights[22] = {row[5],col[3]};lights[23] = {row[4],col[3]}; lights[24] = {row[3],col[3]}; lights[25] = {row[2],col[3]}; lights[26] = {row[0],col[3]};lights[27] = {row[1],col[3]};
Serial.begin(115200);
}
void loop() {
//Raw writing an LED On
//digitalWrite(2,HIGH); //ROWS GO HIGH
//digitalWrite(9,LOW); //COLUMNS GO LOW
Spiral();
allOff();
for(int i = 0; i<10; i++){
Alternate();
}
allOff();
for(int i = 0; i<10; i++){
Centric();
}
for(int i = 0; i<10; i++){
PinWheel();
}
allOff();
}
void turnOn(led l) {
digitalWrite(l.row,HIGH);
digitalWrite(l.col,LOW);
}
void turnOff(led l){
digitalWrite(l.row,LOW);
digitalWrite(l.col,HIGH);
}
void Spiral() {
for(int i = 0; i < 28; i++){
for(int t =0; t<dTime*5; t++){
turnOn(lights[i]);
turnOff(lights[i]);
}
}
allOff();
for(int i = 27; i >=0; i--){
for(int t =0; t<dTime*5; t++){
turnOn(lights[i]);
turnOff(lights[i]);
}
}
}
void allOff(){
for(int i = 0; i < 28; i++){
turnOff(lights[i]);
}
}
void PinWheel(){
//Twisty Arm 1
int centerMod = 4;
for(int i = 0; i<dTime; i++){
//Center Array
turnOn(lights[25]);
turnOff(lights[25]);
turnOn(lights[26]);
turnOff(lights[26]);
turnOn(lights[27]);
turnOff(lights[27]);
turnOn(lights[24]);
turnOff(lights[24]);
turnOn(lights[0]);
turnOff(lights[0]);
turnOn(lights[16]);
turnOff(lights[16]);
turnOn(lights[8]);
turnOff(lights[8]);
turnOn(lights[20]);
turnOff(lights[20]);
turnOn(lights[4]);
turnOff(lights[4]);
turnOn(lights[18]);
turnOff(lights[18]);
turnOn(lights[22]);
turnOff(lights[22]);
turnOn(lights[12]);
turnOff(lights[12]); }
//Twisty Arm 2
for(int i = 0; i<dTime; i++){
//Center Array
turnOn(lights[25]);
turnOff(lights[25]);
turnOn(lights[26]);
turnOff(lights[26]);
turnOn(lights[27]);
turnOff(lights[27]);
turnOn(lights[24]);
turnOff(lights[24]);
//twitsting arms 1
turnOn(lights[2]);
turnOff(lights[2]);
turnOn(lights[17]);
turnOff(lights[17]);
turnOn(lights[21]);
turnOff(lights[21]);
turnOn(lights[10]);
turnOff(lights[10]);
turnOn(lights[14]);
turnOff(lights[14]);
turnOn(lights[23]);
turnOff(lights[23]);
turnOn(lights[19]);
turnOff(lights[19]);
turnOn(lights[6]);
turnOff(lights[6]);
}
}
void Centric() {
for(int t = 0; t<dTime; t++){
for (int i =0; i < 16; i++){
turnOn(lights[i]);
turnOff(lights[i]);
}
}
for(int t = 0; t<dTime; t++){
for (int i =16; i < 24; i++){
turnOn(lights[i]);
turnOff(lights[i]);
}
}
for(int t = 0; t<dTime*2; t++){
for (int i =24; i < 28; i++){
turnOn(lights[i]);
turnOff(lights[i]);
}
}
for(int t = 0; t<dTime; t++){
for (int i =16; i < 24; i++){
turnOn(lights[i]);
turnOff(lights[i]);
}
}
}
void Alternate() {
int midTrack = 24;
for(int i=0; i<4; i++){
for(int t=0; t<dTime; t++){
//Outer Ring
for(int r = 0; r< 15; r+=2) {
turnOn(lights[(i%2)+r]);
turnOff(lights[(i%2)+r]);
}
for(int r = 22; r >=16; r-=2) {
turnOn(lights[(i%2)+r]);
turnOff(lights[(i%2)+r]);
}
if(midTrack == 28) { midTrack = 24;}
turnOn(lights[midTrack]);
turnOff(lights[midTrack]);
}
midTrack++;
}
}