1 files changed, 336 insertions, 0 deletions
diff --git a/Arduino/i2cPixelSlave/i2cPixelSlave.ino b/Arduino/i2cPixelSlave/i2cPixelSlave.ino
new file mode 100644
index 0000000..bc7dc56
--- /dev/null
+++ b/Arduino/i2cPixelSlave/i2cPixelSlave.ino
@@ -0,0 +1,336 @@
+#include <Wire.h>
+#include <Adafruit_NeoPixel.h>
+
+#define PIN 6
+#define PIXELS 348 // Set this to the number of pixels in yout strip
+#define SLAVE_ADDRESS 0x04
+
+// Parameter 1 = number of pixels in strip
+// Parameter 2 = pin number (most are valid)
+// Parameter 3 = pixel type flags, add together as needed:
+//   NEO_KHZ800  800 KHz bitstream (most NeoPixel products w/WS2812 LEDs)
+//   NEO_KHZ400  400 KHz (classic 'v1' (not v2) FLORA pixels, WS2811 drivers)
+//   NEO_GRB     Pixels are wired for GRB bitstream (most NeoPixel products)
+//   NEO_RGB     Pixels are wired for RGB bitstream (v1 FLORA pixels, not v2)
+Adafruit_NeoPixel strip = Adafruit_NeoPixel(PIXELS, PIN, NEO_GRB + NEO_KHZ800);
+
+// Timer
+unsigned long previousMillis = 0;
+long millisLockTime = 60000;
+
+// i2c Config
+int number = 0;
+int state = 0;
+
+// PIR Config
+long calibrationTime = 60000;  // How long the sensors need to calibrate
+long unsigned int lowIn;
+long unsigned int pause = 5000; // How long time before we assume no motion
+
+  // Sensor 1
+int pir1 = 7; // choose the input pin (for First sensor)
+int pir1State = LOW;  // we start, assuming no motion detected
+int val1 = 0; // variable for reading the pin status
+boolean lockLow1 = true;
+boolean takeLowTime1;  
+
+  // Sensor 2
+int pir2 = 8; // choose the input pin (for Second sensor)
+int pir2State = LOW;  // we start, assuming no motion detected  
+int val2 = 0; // variable for reading the pin status
+boolean lockLow2 = true;
+boolean takeLowTime2;  
+
+boolean timeoutHappened = false;
+boolean timeoutEnabled = true;
+
+// pixelInt
+long pixelInt = 0;
+
+void setup() {
+
+  // Set pins
+  pinMode(13, OUTPUT);
+  pinMode(pir1, INPUT);
+  pinMode(pir2, INPUT);
+
+  // Open Serial port (not really neccesary)
+  Serial.begin(9600);
+
+  // Initiate Neopixels
+  strip.begin();
+  strip.show(); // Initialize all pixels to 'off'
+
+  // Set all pixels to white
+  for (int i = 0; i <= PIXELS; i++) {
+      strip.setPixelColor(i, 255, 255, 255);
+  }
+  strip.show();
+  
+  //give the sensor some time to calibrate. Animate with neopixels
+  Serial.print("calibrating sensor ");
+  
+  long delayTime = calibrationTime/PIXELS;
+  
+  for(int i = 0; i < PIXELS; i++){
+    strip.setPixelColor(PIXELS-i, 0, 0, 0);
+    strip.show();
+    
+    Serial.print(".");
+    delay(delayTime);
+  }
+
+  strip.setPixelColor(0, 0, 0, 0);
+  strip.show();
+  
+  Serial.println(" done");
+  Serial.println("SENSOR ACTIVE");
+  delay(50);
+
+  // Open i2c connection
+  Wire.setClock(400000L);
+  Wire.begin(SLAVE_ADDRESS);
+  
+  Wire.onReceive(receiveData);
+  Wire.onRequest(sendData);
+
+  // Done booting!
+  Serial.println("Ready!");
+  
+  // Flash once Red
+  // flashColor(0, 5, 165, 70);
+  
+}
+
+void loop() {
+
+      if(!timeoutEnabled) {
+      unsigned long currentMillis = millis();
+
+      if (currentMillis-previousMillis >= millisLockTime) {
+          for(int j=0; j < PIXELS; j++) {
+            if (!timeoutHappened) {
+              fadeFromBlack(255, 0, 0, 30);
+              timeoutHappened = true;
+            }
+          }
+          strip.show();
+      } else {
+        timeoutHappened = false;
+      }
+     }
+     // Sensor 1 //
+     if(digitalRead(pir1) == HIGH){
+       digitalWrite(13, HIGH);   //the led visualizes the sensors output pin state
+       number = 2;
+       sendData();
+       if(lockLow1){  
+         //makes sure we wait for a transition to LOW before any further output is made:
+         lockLow1 = false;            
+         Serial.println("---");
+         Serial.print("motion detected at ");
+         Serial.print(millis()/1000);
+         Serial.println(" sec"); 
+         delay(50);
+         }         
+         takeLowTime1 = true;
+       }
+
+     if(digitalRead(pir1) == LOW){       
+       digitalWrite(13, LOW);  //the led visualizes the sensors output pin state
+       number = 0;
+       if(takeLowTime1){
+        lowIn = millis();          //save the time of the transition from high to LOW
+        takeLowTime1 = false;       //make sure this is only done at the start of a LOW phase
+        }
+       //if the sensor is low for more than the given pause, 
+       //we assume that no more motion is going to happen
+       if(!lockLow1 && millis() - lowIn > pause){  
+           //makes sure this block of code is only executed again after 
+           //a new motion sequence has been detected
+           lockLow1 = true;                        
+           Serial.print("motion ended at ");      //output
+           Serial.print((millis() - pause)/1000);
+           Serial.println(" sec");
+           delay(50);
+           }
+       }
+      // ./Sensor 1 //
+
+
+
+      // Sensor 2 //
+       if(digitalRead(pir2) == HIGH){
+       digitalWrite(13, HIGH);   //the led visualizes the sensors output pin state
+       number = 3;
+       sendData();
+       if(lockLow2){  
+         //makes sure we wait for a transition to LOW before any further output is made:
+         lockLow2 = false;            
+         Serial.println("---");
+         Serial.print("motion detected at ");
+         Serial.print(millis()/1000);
+         Serial.println(" sec"); 
+         delay(50);
+         }         
+         takeLowTime2 = true;
+       }
+
+     if(digitalRead(pir2) == LOW){       
+       digitalWrite(13, LOW);  //the led visualizes the sensors output pin state
+       number = 0;
+       if(takeLowTime2){
+        lowIn = millis();          //save the time of the transition from high to LOW
+        takeLowTime2 = false;       //make sure this is only done at the start of a LOW phase
+        }
+       //if the sensor is low for more than the given pause, 
+       //we assume that no more motion is going to happen
+       if(!lockLow2 && millis() - lowIn > pause){  
+           //makes sure this block of code is only executed again after 
+           //a new motion sequence has been detected
+           lockLow2 = true;                        
+           Serial.print("motion ended at ");      //output
+           Serial.print((millis() - pause)/1000);
+           Serial.println(" sec");
+           delay(50);
+           }
+       }
+    // ./Sensor 2 //
+}
+
+void receiveData(int byteCount) {
+  previousMillis = millis();
+  
+  digitalWrite(13, HIGH);
+  int bytes[byteCount];
+  int i = 0;
+  
+  while (Wire.available()) {
+    number = Wire.read();
+    bytes[i] = number;
+    
+    Serial.println(number); 
+    i++;
+  }
+
+
+  switch (bytes[0]) {
+    
+    case 0x01:
+      Serial.println("Life is discovered");
+      number = 1;
+      flashColor(0, 204, 0, 30);
+      break;
+      
+    case 0x02:
+      pixelInt = bytes[2] + bytes[3];
+      strip.setPixelColor(pixelInt, bytes[4], bytes[5], bytes[6]);
+      break;
+
+     case 0x03:
+      strip.show();
+      break;
+
+     case 0x04:
+      flashColor(bytes[2], bytes[3], bytes[4], bytes[5]);
+      break;
+
+     case 0x05:
+      timeoutEnabled = false;
+      break;
+
+    case 0x06:
+      strip.setBrightness(bytes[2]);
+      break;
+
+    case 0x07:
+      number = 42;
+      break;
+      
+      
+    default:
+      Serial.println("Nothing New");
+      break;
+      
+  }
+  
+  digitalWrite(13, LOW);
+}
+
+void sendData() {
+  previousMillis = millis();
+  Wire.write(number);
+}
+
+void sendString(int Data) {
+  Wire.write(Data);
+}
+
+void fadeFromBlack(byte Red, byte Green, byte Blue, long n) {
+  byte Rstart=0;
+  byte Gstart=0;
+  byte Bstart=0;
+  byte Rend=Red;
+  byte Gend=Green;
+  byte Bend=Blue;
+ 
+  for(long i = 0; i < n; i++) // larger values of 'n' will give a smoother/slower transition.
+  {
+    byte Rnew = Rstart + (Rend - Rstart) * i / n;
+    byte Gnew = Gstart + (Gend - Gstart) * i / n;
+    byte Bnew = Bstart + (Bend - Bstart) * i / n;
+    // set pixel color here
+    for(int j=0; j < PIXELS; j++) {
+      strip.setPixelColor(j, strip.Color(Rnew, Gnew, Bnew));
+    }
+    strip.show();
+  }
+}
+
+void flashColor(byte Red, byte Green, byte Blue, long n) {
+
+  byte Rstart=0;
+  byte Gstart=0;
+  byte Bstart=0;
+  byte Rend=Red;
+  byte Gend=Green;
+  byte Bend=Blue;
+ 
+  for(long i = 0; i < n; i++) // larger values of 'n' will give a smoother/slower transition.
+  {
+    byte Rnew = Rstart + (Rend - Rstart) * i / n;
+    byte Gnew = Gstart + (Gend - Gstart) * i / n;
+    byte Bnew = Bstart + (Bend - Bstart) * i / n;
+    // set pixel color here
+    for(int j=0; j < PIXELS; j++) {
+      strip.setPixelColor(j, strip.Color(Rnew, Gnew, Bnew));
+    }
+    strip.show();
+  }
+
+  Rstart=Red;
+  Gstart=Green;
+  Bstart=Blue;
+  Rend=0;
+  Gend=0;
+  Bend=0;
+
+  for(long i = 0; i < n; i++) // larger values of 'n' will give a smoother/slower transition.
+  {
+    byte Rnew = Rstart + (Rend - Rstart) * i / n;
+    byte Gnew = Gstart + (Gend - Gstart) * i / n;
+    byte Bnew = Bstart + (Bend - Bstart) * i / n;
+    // set pixel color here
+    for(int j=0; j < PIXELS; j++) {
+      strip.setPixelColor(j, strip.Color(Rnew, Gnew, Bnew));
+    }
+    strip.show();
+  }
+
+   for(int i = 0; i < PIXELS; i++) {
+        strip.setPixelColor(i, 0, 0, 0);
+   }
+   strip.show();
+
+}
+