Ben Kim
Skittles Dispenser by Benjamin Kim and Alex Zdanov
Dependencies: 4DGL-uLCD-SE HC_SR04_Ultrasonic_Library LSM9DS1_Library_cal Servo mbed
main.cpp
- Committer:
- bkim334
- Date:
- 2017-03-14
- Revision:
- 2:c61e6541a2b4
- Parent:
- 1:1099d4500d8a
- Child:
- 3:2087575bfd0e
File content as of revision 2:c61e6541a2b4:
#include "mbed.h"
#include "LSM9DS1.h" //Accelerometer
#include "uLCD_4DGL.h" //LCD
#include "mbed.h"
#include "Servo.h"
#include <mpr121.h>
#include <string>
#include <list>
Servo myservo(p22); //servo
uLCD_4DGL uLCD(p13, p14, p29); // serial tx, serial rx, reset pin;
//Mutex LCDMutex;
DigitalOut led1(LED1);
DigitalOut led2(LED2);
DigitalOut led3(LED3);
DigitalOut led4(LED4);
int passIndex = 0;
int password[4] = {1, 32, 1024, 2048};
int attempt[4];
int correct = 1; //correct is 1 if they havent put in 3 digits. it's 2 if they're correct and it's 3 if they are incorrect.
// Create the interrupt receiver object on pin 26
InterruptIn interrupt(p21);
// Setup the i2c bus on pins 28 and 27
I2C i2c(p28, p27);
// Setup the Mpr121:
// constructor(i2c object, i2c address of the mpr121)
Mpr121 mpr121(&i2c, Mpr121::ADD_VSS);
Serial pc(USBTX, USBRX);
AnalogIn in(p20); //Proximity
float voltage;
Serial bluemod(p9,p10);
void fallInterrupt()
{
//pc.printf("Start interrupt");
int key_code=0;
int i=0;
int value=mpr121.read(0x00);
value +=mpr121.read(0x01)<<8;
// LED demo mod by J. Hamblen
//pc.printf("MPR value: %x \r\n", value);
i=0;
// puts key number out to LEDs for demo
for (i=0; i<12; i++) {
if (((value>>i)&0x01)==1) key_code=i+1;
}
if (value !=0) {
attempt[passIndex] = value;
//uLCD.printf(" %d %x \n", passIndex, value);
uLCD.printf(" *");
passIndex++;
if (passIndex == 4) {
if (attempt[0] == password[0] && attempt[1] == password[1] && attempt[2] == password[2] && attempt[3] == password[3]) {
correct = 2;
} else {
correct = 3;
}
passIndex = 0;
for (int k = 0; k < 4; k++)
attempt[k] = NULL;
}
}
//uLCD.printf("number pressed is %d\n", key_code);
led4=key_code & 0x01;
led3=(key_code>>1) & 0x01;
led2=(key_code>>2) & 0x01;
led1=(key_code>>3) & 0x01;
}
int main()
{
/*LSM9DS1 IMU(p9, p10, 0xD6, 0x3C);
IMU.begin();
if (!IMU.begin()) {
pc.printf("Failed to communicate with LSM9DS1.\n");
}
IMU.readGyro();
float xval = IMU.calcGyro(IMU.gx);
float yval = IMU.calcGyro(IMU.gy);
float zval = IMU.calcGyro(IMU.gz);
*/
uLCD.baudrate(3000000); //jack up baud rate to max for fast display
interrupt.fall(&fallInterrupt);
interrupt.mode(PullUp);
uLCD.printf("Enter code for \n candy\n");
myservo.write(1);
while(1) {
/*//Checking if someone is skaing the machine
while(!IMU.gyroAvailable())
IMU.readGyro();
if (abs(xval - IMU.calcGyro(IMU.gx)) > 10 || abs(yval - IMU.calcGyro(IMU.gy)) > 10 || abs(zval - IMU.calcGyro(IMU.gz)) > 10) {
uLCD.cls();
uLCD.printf("Don't shake the machine!\n");
wait(2.0);
for (int i = 3; i > 0; i--) {
uLCD.cls();
uLCD.printf("Machine stopped\n for: %d Second(s)", i);
wait(1.0);
}
uLCD.cls();
uLCD.printf("Enter code for \n candy\n");
}
IMU.readGyro();
xval = IMU.calcGyro(IMU.gx);
yval = IMU.calcGyro(IMU.gy);
zval = IMU.calcGyro(IMU.gz);
*/
/*while(bluemod.readable()) {
if (bluemod.getc() == 'd') {
correct = 2;
bluemod.puts("Dispensing Candy!");
}
if (bluemod.getc() == 'c') {
voltage = in.read();
}
}*/
if(correct == 2) { // They inputted the correct password
uLCD.cls();
uLCD.printf("Correct Password! \n\n\n Dispensing Candy!");
//myservo = 0.5;
wait(3);
//myservo = 0;
uLCD.cls();
uLCD.printf("Enjoy!");
wait(2.0);
uLCD.cls();
wait(0.2);
correct = 1;
uLCD.printf("Enter code for \n candy\n");
}
if(correct == 3) { // they inputted the incorrect password
uLCD.cls();
uLCD.printf("Incorrect Password\n\n Try again, bitch.");
wait(2.0);
correct = 1;
uLCD.cls();
uLCD.printf("Enter code for \n candy\n");
}
}
}