Sooner Competitive Robotics
/
IEEE_14_Freescale
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IEEE_14_Freescale
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IEEE 2014 Mbed
main.cpp
- Committer:
- soonerbot
- Date:
- 2014-03-07
- Revision:
- 14:a30aa3b29a2e
- Parent:
- 12:925f52da3ba9
- Child:
- 15:b10859606504
File content as of revision 14:a30aa3b29a2e:
#include "mbed.h"
#include "dbgprint.h"
#include "robot.h"
#include "hcsr04.h"
BusOut leds(LED_RED,LED_GREEN,LED_BLUE);
Serial pc(USBTX, USBRX);
robot bot;
/*
//actual competition code, kinda
int firstSection(){ // drive forward and measure distance
tmpOut = bot.absDriveForward(targetAngle,3000);
// ping sensor
tmpOut = bot.absDriveForward(targetAngle,3000);
// ping sensor
}
int secondsection(){
// second step
// etc
}
*/
int main() {
// Initialize variables
leds = 0x2;
char tmpchar = 0;
const int* constbuf; // displays values
int tmpOut;
double targetAngle=0.0;
DBGPRINT("AA\n\r",1); // to see if robot powers up at least
// Initialize sensors
//hcsr04(2,1) : trigger_out(trigger);
// Loop
while(1) {
DBGPRINT("BB\n\r",1);
leds = leds^0x7; // toggle the LEDs for each loop
tmpchar = pc.getc();
// all of these movement commands are blocking, so they can't be easily stopped short of resetting the microcontroller
switch(tmpchar){
case 'e': //drive in a smallish square
bot.driveForward(0,3000);
bot.driveForward(-90,0);
bot.driveForward(-90,3000);
bot.driveForward(-180,0);
bot.driveForward(-180,3000);
bot.driveForward(-270,0);
bot.driveForward(-270,3000);
bot.driveForward(0,0);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'q': //poll the encoders
constbuf = bot.bigenc.getVals();
DBGPRINT("\n\r%d\t%d\t%d\t%d\n\r",constbuf[0],constbuf[1],constbuf[2],constbuf[3]);
break;
case 'z': //set the current direction to "forward" for the following "go forward/reverse" commands
targetAngle = bot.gyro.getZDegrees();
break;
case 'w': // turn 90 degrees counter clockwise from the starting rotation
bot.driveForward(90,0);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'x': // turn 90 degrees clockwise from the starting rotation
bot.driveForward(-90,0);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'a': // turn the opposite direction from the starting one
bot.driveForward(180,0);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'd': // turn back to starting rotation
bot.driveForward(0,0);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'W': // drive forward a small bit
//bot.driveForward(targetAngle,1000);
//bot.motors.moveForward(100);
tmpOut = bot.absDriveForward(targetAngle,3000);
DBGPRINT("W -> %d\n\r",tmpOut);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'E': //drive forward five times as much
bot.driveForward(targetAngle,5000);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'X': // small reverse
//bot.driveForward(targetAngle,-1000);
tmpOut = bot.absDriveForward(targetAngle,-3000);
DBGPRINT("X -> %d\n\r",tmpOut);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'C': // big reverse
bot.driveForward(targetAngle,-5000);
DBGPRINT("={%f,\t%f,\t%f}\n\r",bot.x,bot.y,bot.rot*180.0/3.14159);
break;
case 'p': // poll the gyro
DBGPRINT("%d\r\n",bot.gyro.getZ());
break;
case 'l': //calibrate the gyro ( caution, only use after resetting and before moving, otherwise will break any calibration)
bot.gyro.calibrate();
break;
// these are all control system modifications which should be fairly well locked down at this point
case 't':
bot.pfac*=2;
DBGPRINT("pfac = %f\r\n",bot.pfac);
break;
case 'g':
bot.pfac/=2;
DBGPRINT("pfac = %f\r\n",bot.pfac);
break;
case 'y':
bot.ifac*=2;
DBGPRINT("ifac = %f\r\n",bot.ifac);
break;
case 'h':
bot.ifac/=2;
DBGPRINT("ifac = %f\r\n",bot.ifac);
break;
case 'u':
bot.dfac*=2;
DBGPRINT("dfac = %f\r\n",bot.dfac);
break;
case 'j':
bot.dfac/=2;
DBGPRINT("dfac = %f\r\n",bot.dfac);
break;
case 'i':
//put distance ping here
bot.pingLeft.trigger();
wait(1);
float pingresult = bot.pingLeft.inches();
DBGPRINT("Distance = %f\r\n",pingresult);
break;
case 'k':
bot.angfac/=2;
DBGPRINT("angfac = %f\r\n",bot.angfac);
break;
case 'T':
bot.pfac*=1.05;
DBGPRINT("pfac = %f\r\n",bot.pfac);
break;
case 'G':
bot.pfac/=1.05;
DBGPRINT("pfac = %f\r\n",bot.pfac);
break;
case 'Y':
bot.ifac*=1.05;
DBGPRINT("ifac = %f\r\n",bot.ifac);
break;
case 'H':
bot.ifac/=1.05;
DBGPRINT("ifac = %f\r\n",bot.ifac);
break;
case 'U':
bot.dfac*=1.05;
DBGPRINT("dfac = %f\r\n",bot.dfac);
break;
case 'J':
bot.dfac/=1.05;
DBGPRINT("dfac = %f\r\n",bot.dfac);
break;
// poll the compass ( currently gives bad values )
case 'Q':
DBGPRINT("Compass vector = %d\t%d\t%d\r\n",bot.gyro.xmag,bot.gyro.ymag,bot.gyro.zmag);
break;
// brake if we get an unknown command
default:
bot.left.brake();
bot.right.brake();
break;
}
}
}