File content as of revision 27:949a31d30439:

#include "robot.h"
#include "my_functions.h"

/*
 * This function will be called at approximately 50 hz when the control mode is LINE_FOLLOW_MODE
 */
void line_follow_loop(){
    led4 = 1;
    
    int sensors[5];
    float position = 0;

    //get sensors
    pi.sensor_reading(sensors);
    
    //line position
    position = pi.line_position();
    
    // Do your control calculations here
    ////////////////////////////////////
    

    // set motor speeds here
    // leftspeed = ???;
    // rightspeed = ???;
    ////////////////////////////////////
    
    // set mode to MANUAL_MODE when the end is detected
    // mode = MANUAL_MODE;
    
    led4 = 0;
}


// INPUT COMMANDS
// l:<float>    set left wheel speed (only effective in MANUAL_MODE)
// r:<float>    set right wheel speed (only effective in MANUAL_MODE)
// c:<int>      change mode
// g:<p|i|d>:<float>
//              change gains
// b:           check battery

// OUTPUT MESSAGES
// p:<float>    line position
// s:<int>,<int>,<int>,<int>,<int>
//              light sensor values
// m:<int>      mode
// a:<message>  acknowledge
void communicate()
{
    led1 = 1;
    __disable_irq();
    pi.sensor_reading(sensors);
    __enable_irq();
    int* s = sensors; // just to make the next line more compact
    xbee.printf("s:%i,%i,%i,%i,%i\n", s[0], s[1], s[2], s[3], s[4]);
    __disable_irq();
    xbee.printf("p:%f\n", pi.line_position());
    __enable_irq();
    xbee.printf("m:%d\n", mode);
    led1 = 0;
}

void signal_comm(){
    comm_time = true;
}

int parse_command(const char* cmd)
{
    if(cmd[1]==':'){
        // left motor
        if(cmd[0]=='l'){
            if(mode==MANUAL_MODE){
                leftspeed = atof(&cmd[2]);
            }
        // right motor
        }else if(cmd[0]=='r'){
            if(mode==MANUAL_MODE){
                rightspeed = atof(&cmd[2]);
            }
        // mode
        }else if(cmd[0]=='c'){
            mode = atoi(&cmd[2]);
            xbee.printf("a:c:%d\n", mode);// acknowledge the mode change
            // xbee.printf("mode set to %d\n", mode);
        // gains
        }else if(cmd[0]=='g'){
            if(cmd[2]=='p'){
                k_p = atof(&cmd[4]);
            }else if(cmd[2]=='i'){
                k_i = atof(&cmd[4]);
            }else if(cmd[2]=='d'){
                k_d = atof(&cmd[4]);
            }
            xbee.printf("gains p:%f, i:%f, d:%f\n", k_p, k_i, k_d);
  
        // battery
        }else if(cmd[0]=='b'){
            __disable_irq();
            xbee.printf("battery voltage: %f\n", pi.battery());
            __enable_irq();
        }else{
            xbee.printf("%s\n",cmd);
        }
    }else{
        xbee.printf("%s\n",cmd);
    }
    return 0;
}

void check_incoming(){
    led2 = 1;
    char read;

    while(xbee.readable()){
        read = xbee.getc();
        if(read=='\n'){
            received[r_index]='\0'; // put a null character at the end
            parse_command(received);
            r_index=0;
        } else {
            if(r_index >= 80){
                r_index=0;
            }
            received[r_index]=read;
            r_index++;
        }
    }
    led2=0;
}

void control()
{
    if(mode==LINE_FOLLOW_MODE){
        line_follow_loop();
    }
    pi.left_motor(rightspeed);
    pi.right_motor(leftspeed);
}

int main() {
    
    // xbee.attach(&Rx_interrupt, Serial::RxIrq);
    xbeeReset = 0;
    wait(2);
    xbeeReset = 1;
    pi.sensor_auto_calibrate();
    leftspeed = 0.0;
    rightspeed = 0.0;
   
    r_index = 0;
    received[0] = '\0';
    mode = MANUAL_MODE;
    
    communication.attach(&signal_comm, 0.1);
    controls.attach(&control, 0.02);

    // main loop
    while(1){
        led3 = mode;

        check_incoming();

        if(comm_time){
            communicate();
            comm_time = false;
        }

    }

    return 0;
}