Cody Blakeney
added distance function, added turnDir function, started function that completes left turn
Fork of
TFC-TEST_TXSTATE_TEAM6v2
by 
Anthony Lamme
main.cpp
- Committer:
- codestar
- Date:
- 2015-04-04
- Revision:
- 1:4d7f3b5b7463
- Parent:
- 0:6432166d0781
- Child:
- 2:729063e39fb3
File content as of revision 1:4d7f3b5b7463:
#include "mbed.h"
#include "TFC.h"
//This macro is to maintain compatibility with Codewarrior version of the sample. This version uses the MBED libraries for serial port access
Serial PC(USBTX,USBRX);
#define TERMINAL_PRINTF PC.printf
//This ticker code is used to maintain compability with the Codewarrior version of the sample. This code uses an MBED Ticker for background timing.
#define NUM_TFC_TICKERS 4
Ticker TFC_TickerObj;
volatile uint32_t TFC_Ticker[NUM_TFC_TICKERS];
void TFC_TickerUpdate()
{
int i;
for(i=0; i<NUM_TFC_TICKERS; i++)
{
if(TFC_Ticker[i]<0xFFFFFFFF)
{
TFC_Ticker[i]++;
}
}
}
int main()
{
uint32_t i,t,time = 0;
int data[128];
int black = 0;
PC.baud(9600);
TFC_TickerObj.attach_us(&TFC_TickerUpdate,2000);
TFC_Init();
bool timeTrue = true;
for(;;)
{
//TFC_Task must be called in your main loop. This keeps certain processing happy (I.E. Serial port queue check)
// TFC_Task();
//This Demo program will look at the middle 2 switch to select one of 4 demo modes.
//Let's look at the middle 2 switches
switch((TFC_GetDIP_Switch()>>1)&0x03)
{
default:
case 0 :
TFC_HBRIDGE_ENABLE;
TFC_SetMotorPWM(.6,.6);
case 1:
//Demo mode 1 will just move the servos with the on-board potentiometers
if(TFC_Ticker[0]>=20)
{
TFC_Ticker[0] = 0; //reset the Ticker
//Every 20 mSeconds, update the Servos
TFC_SetServo(0,TFC_ReadPot(0));
TFC_SetServo(1,TFC_ReadPot(1));
}
if(TFC_PUSH_BUTTON_1_PRESSED)
{
TERMINAL_PRINTF("%f", TFC_ReadPot(0));
}
//Let's put a pattern on the LEDs
if(TFC_Ticker[1] >= 125)
{
TFC_Ticker[1] = 0;
t++;
if(t>4)
{
t=0;
}
TFC_SetBatteryLED_Level(t);
}
// TFC_SetMotorPWM(0,0); //Make sure motors are off
// TFC_HBRIDGE_DISABLE;
break;
case 2 :
//Demo Mode 3 will be in Freescale Garage Mode. It will beam data from the Camera to the
//Labview Application
if(TFC_Ticker[0]>50 && TFC_LineScanImageReady>0)
{
TFC_Ticker[0] = 0;
TFC_LineScanImageReady=0;
// TERMINAL_PRINTF("\r\n");
// TERMINAL_PRINTF("L:");
if(t==0)
t=4;
else
t--;
TFC_SetBatteryLED_Level(t);
// camera 1
if(TFC_PUSH_BUTTON_0_PRESSED)
{
//Demo Mode 3 will be in Freescale Garage Mode. It will beam data from the Camera to the
//Labview Application
int highest = 0;
// camera 1
for(i=0;i<128;i++)
{
if(i==0)
{
highest = TFC_LineScanImage0[i];
}
if(TFC_LineScanImage0[i]>highest)
{
highest = TFC_LineScanImage0[i];
}
}
black = highest;
TERMINAL_PRINTF("%i", black);
break;
case 3 :
//Demo Mode 3 will be in Freescale Garage Mode. It will beam data from the Camera to the
//Labview Application
if(TFC_Ticker[0]>50 && TFC_LineScanImageReady>0)
{
TFC_Ticker[0] = 0;
TFC_LineScanImageReady=0;
// TERMINAL_PRINTF("\r\n");
// TERMINAL_PRINTF("L:");
if(t==0)
t=4;
else
t--;
TFC_SetBatteryLED_Level(t);
// camera 1
if(TFC_PUSH_BUTTON_0_PRESSED)
{
//Demo Mode 3 will be in Freescale Garage Mode. It will beam data from the Camera to the
//Labview Application
// camera 1
for(i=0;i<128;i++)
{
if(TFC_LineScanImage0[i]<=black)
{
data[i]=0;
}
else
{
data[i]=1;
}
TERMINAL_PRINTF("%d", data[i]);
}
TERMINAL_PRINTF("\r");
// camera 2
/* for(i=0;i<128;i++)
{
if(i==127)
TERMINAL_PRINTF("%X\r\n",TFC_LineScanImage1[i]);
else
TERMINAL_PRINTF("%X,",TFC_LineScanImage1[i]);
} */
}
}
break;
}
}
}
}
}