Serpentine
Final Version of food controller
Dependencies: MMA8451Q TSI mbed
Fork of
foodcontroller_NoWiFi
by 
Serpentine
main.cpp
- Committer:
- danlock10y
- Date:
- 2016-06-09
- Revision:
- 4:1961b60aa8fb
- Parent:
- 3:768cca7d53fe
- Child:
- 5:c4bc5a92390a
File content as of revision 4:1961b60aa8fb:
#include "mbed.h"
#include "TSISensor.h"
#include "MMA8451Q.h"
#define MMA8451_I2C_ADDRESS (0x1d<<1)
Serial pc(USBTX, USBRX); // tx, rx
PwmOut gled(LED_GREEN); //Indicator for touch sensor Output
TSISensor tsi; //Setup touch sensor
MMA8451Q acc(PTE25, PTE24, MMA8451_I2C_ADDRESS); //Setup accelerometer
DigitalOut lefthigh(PTC11); //Test LED for left
DigitalOut leftlow(PTC9);
DigitalOut righthigh(PTC5); //Test LED for right
DigitalOut rightlow(PTA4);
DigitalOut forwardhigh(PTC16); //Test LED for forward
DigitalOut forwardlow(PTD0);
DigitalOut backwardhigh(PTA17); //Test LED for backward
DigitalOut backwardlow(PTD1);
float accX=acc.getAccX(); //Measure acceleration in X direction
float accY=acc.getAccY(); //Measure acceleration in Y direction
int Direction; //2 bit number to describe direction 0 forward assigned CW
int Velocity; //2 bit number to vary velocity in game
bool right; //Right or left? right = 1
bool forward; //Forward or Backward? forward = 1
int main()
{
while (1)
{
float accX=acc.getAccX(); //Measure acceleration in X direction
float accY=acc.getAccY(); //Measure acceleration in Y direction
if (tsi.readDistance() != 0)
{
// gled = 1.0 - tsi.readPercentage();
if (tsi.readDistance() <= 13)
{
Velocity = 3;
}
if (tsi.readDistance() > 13 && tsi.readDistance() < 26)
{
Velocity = 2;
}
if (tsi.readDistance() >= 26)
{
Velocity = 1;
}
printf("x=%d\r\n",Velocity);
wait(0.2);
}//endif touch sensor
if((accX <= 0.1f) && (accX >= -0.1f))
{
if (right == false)
{
righthigh = 1;
rightlow = 0;
} //endif
else
{
lefthigh = 1;
leftlow = 0;
}//endelse
}//endif
if (accX > 0.1)
{
lefthigh = 0;
leftlow = 0;
righthigh = 1;
rightlow = 0;
forwardhigh = 0;
forwardlow = 0;
backwardhigh = 0;
backwardlow = 0;
right = false;
printf("left \r\n");
}//endif
if (accX < -0.1)
{
lefthigh = 1;
leftlow = 0;
righthigh = 0;
rightlow = 0;
forwardhigh = 0;
forwardlow = 0;
backwardhigh = 0;
backwardlow = 0;
right = true;
printf("right \r\n");
}//endif
wait(0.1);
if((accY <= 0.1) && (accY >= -0.1))
{
if (forward == false)
{
forwardhigh = 1;
forwardlow = 0;
}//endif
else
{
backwardhigh = 1;
backwardlow = 0;
}//endelse
}//endif
if (accY > 0.1)
{
lefthigh = 0;
leftlow = 0;
righthigh = 0;
rightlow = 0;
forwardhigh = 1;
forwardlow = 0;
backwardhigh = 0;
backwardlow = 0;
forward = false;
printf("back \r\n");
}//endif
if (accY < -0.1)
{
lefthigh = 0;
leftlow = 0;
righthigh = 0;
rightlow = 0;
forwardhigh = 0;
forwardlow = 0;
backwardhigh = 1;
backwardlow = 0;
forward = true;
printf("for \r\n");
}//endif
wait(0.1);
if(abs(accY) > abs(accX))
{
if(forward == true)
{
Direction = 0;
}//endif
else
{
Direction = 2;
}//endelse
}//endif
else
{
if(right == true)
{
Direction = 1;
}//endif
else
{
Direction = 3;
}//endelse
}//endelse
printf("Direction = %d \r\n", Direction);
}//endwhile
}//endmain