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weasley-clock-photon.ino
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weasley-clock-photon.ino
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#include statement was automatically added by the Particle IDE.
#include "neopixel/neopixel.h"
//#include <SPI.h>
//#include "Adafruit_GFX.h"
//#include "Adafruit_RA8875.h"
// Define PINS ****************//
#define NEOPIXEL D0
#define MOSIDISPLAY D2
#define MISODISPLAY D3
#define SCKDISPLAY D4
#define SSDISPLAY D5 // Might not need
#define RANGEFINDER A0
#define AMBIENTLIGHT A2
#define LEDDRIVER DAC1
// Define Cool Variables and constants **//
#define NUMPIXELS 48
int ambientLight = 0;
bool movement = false;
int neopixelBrightness = 0;
int presence = 0;
int waiting = 0;
Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, NEOPIXEL);
// Define Cool Functions *********//
int MeasureAmbientLight();
bool CheckForMovement();
void SetBrightness();
int setCurrentUser(String);
int updateLocation(String);
void UpdateLED();
struct Location {
String name;
int clock_position;
};
struct User {
String name;
String location;
};
int testLED = D7;
User user1; //test
User users[4];
User user2;
User current_user;
//********************** SETUP ********************************//
//*************************************************************//
void setup() {
// Setup PIN Modes
pinMode(A2, INPUT);
pinMode(RANGEFINDER, INPUT);
pinMode(LEDDRIVER, OUTPUT);
pinMode(MISODISPLAY, OUTPUT);
pinMode(MOSIDISPLAY, OUTPUT);
pinMode(SCKDISPLAY, OUTPUT);
pinMode(SSDISPLAY, OUTPUT);
pinMode(NEOPIXEL, OUTPUT);
pinMode(LEDDRIVER, OUTPUT);
Serial.begin(9600);
pixels.begin();
//Cool setup light show
analogWrite(LEDDRIVER,800);
delay(300);
analogWrite(LEDDRIVER,900);
delay(300);
analogWrite(LEDDRIVER,950);
delay(300);
analogWrite(LEDDRIVER,1000);
delay(300);
analogWrite(LEDDRIVER,1100);
delay(300);
for(int i = 0; i<NUMPIXELS; i++){
pixels.setPixelColor(i, pixels.Color(0,0,0));
pixels.show();
}
user1 = {"Michelle", "Bug"};
users[0] = user1;
user2 = {"Brad" , "Bug"};
users[1] = user2;
// this is what the iosApp can access
Spark.function("setUser", setCurrentUser);
Spark.function("update", updateLocation);
Spark.variable("userLoc", current_user.location);
//DisplayNames(); //TODO
//HARD CODED JUNK
pixels.setPixelColor(0, pixels.Color(0,0,100));
pixels.show();
pixels.setPixelColor(1, pixels.Color(100,0,0));
pixels.show();
pixels.setPixelColor(14, pixels.Color(0,100,0));
pixels.show();
pixels.setPixelColor(3, pixels.Color(50,50,50));
pixels.show();
}
//********************** LOOP *********************************//
//*************************************************************//
void loop() {
ambientLight = MeasureAmbientLight();
movement = CheckForMovement();
SetBrightness();
delay(300);
}
int MeasureAmbientLight() {
return analogRead(A2);
}
bool CheckForMovement() {
int range = analogRead(RANGEFINDER);
Serial.print("RANGE IS:");
Serial.println(range);
if (range < 200) {
presence = 1;
waiting = 10;
} else {
presence = 0;
}
if (waiting > 0) {
presence = 1;
waiting--;
}
return true;
}
void SetBrightness() {
if (ambientLight >= 0 && ambientLight <=1000) {
analogWrite(LEDDRIVER,200*presence + 900);
neopixelBrightness = 50;
} else if (ambientLight > 1000 && ambientLight <=1500) {
analogWrite(LEDDRIVER,100*presence + 900);
neopixelBrightness = 50;
} else if (ambientLight > 1500 && ambientLight <=2000) {
analogWrite(DAC1,100*presence + 500);
neopixelBrightness = 50;
} else {
analogWrite(LEDDRIVER,50*presence + 800);
neopixelBrightness = 25;
}
}
int setCurrentUser(String username) {
User user;
for (int i = 0; i < 4; i++) {
if (username == users[i].name) { // found the user
user = users[i];
digitalWrite(testLED, HIGH);
current_user = user;
return 1;
}
}
return -1;
}
// call this after setCurrentUser
int updateLocation(String location) {
current_user.location = location;
UpdateLED();
Particle.publish("update all");
return 1;
}
void UpdateLED() {
int user_no;
int red = 0;
int green = 0;
int blue = 0;
for (int i = 0; i < 4; i++) {
if (current_user.name == users[i].name) { // found the user
user_no = i;
}
}
if (user_no == 0) {
red = 0;
green = 0;
blue = 2;
} else if (user_no == 1) {
red = 2;
green = 0;
blue = 0;
} else if (user_no == 2) {
red = 0;
green = 2;
blue = 0;
} else {
red = 1;
green = 1;
blue = 1;
}
int clock_no;
if (current_user.location == "Truck") {
clock_no = 2;
} else if (current_user.location == "Lab") {
clock_no = 3;
} else if (current_user.location == "Coffee") {
clock_no = 4;
} else if (current_user.location == "Plane") {
clock_no = 5;
} else if (current_user.location == "Work") {
clock_no = 6;
} else if (current_user.location == "Book") {
clock_no = 7;
} else if (current_user.location == "Dinner") {
clock_no = 8;
} else if (current_user.location == "Concert") {
clock_no = 9;
} else if (current_user.location == "Building") {
clock_no = 10;
} else if (current_user.location == "Bug") {
clock_no = 11;
} else if (current_user.location == "Drinks") {
clock_no = 12;
} else if (current_user.location == "Home") {
clock_no = 1;
}
// turn off old LED location
for(int i = user_no; i<NUMPIXELS; i = i + 4){
pixels.setPixelColor(i, pixels.Color(0,0,0));
pixels.show();
}
// write the new value
// TO DO Figure out color
int pixelLocation = 4*(clock_no-1) + (user_no);
pixels.setPixelColor(pixelLocation, pixels.Color(red*neopixelBrightness,green*neopixelBrightness,blue*neopixelBrightness));
pixels.show();
}