The Dream Team
/
first_test
Pop lock n drop it
main.cpp
- Committer:
- rachelka
- Date:
- 2014-05-22
- Revision:
- 6:36c597e4d07a
- Parent:
- 5:f3805a1f9047
File content as of revision 6:36c597e4d07a:
#include "mbed.h" #include "m3pi_ng.h" #include "DigitalIn.h" #include "btbee.h" DigitalOut myled(LED1); m3pi huey; btbee btbee; DigitalIn m3pi_IN[]={(p12),(p21)}; // IR-Sensor DigitalOut mbed_led[] = {(LED1), (LED2),(LED3), (LED4)}; DigitalOut m3pi_led[] = {(p13), (p14), (p15), (p16), (p17), (p18), (p19), (p20)}; DigitalIn m3pi_pb(p21); void printBattery() { //prints battery voltage on led screen float bat = huey.battery(); huey.printf("Bat volt"); huey.locate(0,1); huey.printf("%f",bat); } float myLinePos(void) { int sensors[5]; huey.calibrated_sensor(sensors); float leftSen, rightSen, midSen; leftSen = sensors[1] / 1000; rightSen = sensors[3] / 1000; midSen = sensors[2] / 1000; return rightSen - leftSen; } void smoothFollow(float position, float speed) { float u = speed; u = u * position; if(speed+u > 1) { huey.stop(); huey.printf("Fast Er"); } else { huey.right_motor(speed-u); huey.left_motor(speed+u); } } void slowStop(float speed, float waitTime, int steps) { float i; for(i = speed; i > 0; i = i - (speed/steps)) { smoothFollow(huey.line_position(),i); wait(waitTime); } huey.stop(); } int pushToStart(void) { DigitalIn button(p21); int value = button.read(); return value; } ///////////////////////////////////////////////////////////////// int main() { //btbee trial // initialization stuff //////////////////////////////////////////////////////////////////////////////////////////////////// huey.locate(0,1); btbee.reset(); for (int i = 0; i <4; i++) { mbed_led[i] = 0; } for (int i = 0; i <8; i++) { m3pi_led[i]=0; } m3pi_pb.mode(PullUp); // expected would be 1 when pb is pressed, 0 when not, opposite is the case // end initialization stuff //////////////////////////////////////////////////////////////////////////////////////////////// huey.locate(0,0); huey.printf("B:%0.3f%V",huey.battery()); wait(0.3); huey.locate(0,0); huey.printf("%s","btTest"); huey.locate(0,1); huey.printf("%s","PBonLNK"); // wait for the user to push P21, should be pressed when the bt link is established (green led "link") while(m3pi_pb) { m3pi_led[0]=!m3pi_led[0]; wait(0.1); } int iline=1; char arr_read[30]; // this should be long enough to store any reply coming in over bt. int chars_read; // number of chars read in a bt reply while (true) { // this writes "Line 001\n" to "Line 005\n" and then "end\n" to the btbee if ( btbee.writeable() ) { if (iline==6) { btbee.printf("end\n"); iline++; }//if else { if (iline <6){ btbee.printf("Line %0.3d \n",iline); m3pi_led[0]=0; huey.locate(0,0); huey.printf("Sent %0.3d",iline); iline++; } }//else }//if_write // check for answers after each write /not write while ( btbee.readable() ) { m3pi_led[7]=1; btbee.read_all(arr_read, 30, &chars_read ); m3pi_led[6]=1; huey.locate(0,1); huey.print(arr_read,chars_read); m3pi_led[5]=1; }//while_readable wait(0.1); }//while_true //main //end of btbee trial m3pi_IN[0].mode(PullUp); m3pi_IN[1].mode(PullUp); int start; do { start = pushToStart(); }while(start == 1); wait(1); //calibrates sensors huey.sensor_auto_calibrate(); printBattery(); float speed = 0.25; float pos; int z=1; while(z==1) { //huey.right_motor(speed); pos = myLinePos();//huey.line_position(); smoothFollow(pos, speed); if(m3pi_IN[0]==0) { slowStop(speed, 0.05, 3); huey.stop(); while(m3pi_IN[0]==0) { huey.printf("Stuck"); } } } while(1) { myled = 1; wait(0.2); myled = 0; wait(0.2); } }