main.cpp

Committer:
marcbax
Date:
2011-03-28
Revision:
0:fd45411cac49

File content as of revision 0:fd45411cac49:

//Firmware to drive Eton bee trainer breadboard
char* fwversion = "0.90";                                          //For published versions use format "n.nn"
                                                                    //For development versions add "D" to end of string
//This version published on 28/03/2011

//Include libraries
#include "mbed.h"
#include "Servo.h"                                                  //need this library to control servos

//Pin assignments and external functions
DigitalOut led1(LED1), led2(LED2), led3(LED3), led4(LED4);          //for debugging purposes only
DigitalOut buzzer(p5);                                              //pin high means buzzer on
DigitalOut airswitcher(p7);                                         //pin high shorts coax for air switcher valve
Serial display(p9,p10);                                             //serial display controller by ByVAC BV4618 controller
AnalogOut irLED(p18);                                               //only one analog out controls both IR LEDS in parallel
AnalogIn ptor1(p19), ptor2(p20);                                    //analog input for beeholder phototransistors
Servo arm1(p21), elbow1(p22);                                       //servos for station 1 robot arm
Servo arm2(p23), elbow2(p24);                                       //servos for station 2 robot arm
I2C beeholder(p28,p27);                                             //set up I2C communication to read beeholder serial no
DigitalOut bhsel1(p29), bhsel2(p30);                                //select lines for station 1 and station 2 - pull low to select holder
DigitalIn upsw(p13), risw(p14), dnsw(p15), lesw(p16), oksw(p17);    //footswitch connected parallel to OK switch
LocalFileSystem local("local");                                     //allow access to the mbed "thumbdrive" as a file system
FILE *logfile = fopen("/local/etonlog.csv","w");                    //creates new file etonlog.csv and set for writing. Overwrites existing file!

//Definition of global constants
    //station 1 (left) robot arm positions
    float arm1basepos = 0.4;
    float elbow1basepos = 0.07;
    float arm1dippos = 0.2;
    float elbow1dippos = 0.6;
    float arm1ticklepos = 0.65;
    float elbow1ticklepos = 0.07;
    float arm1feedpos = 0.7;
    float elbow1feedpos = 0.4;

    //station 2 (right) robot arm positions
    float arm2basepos = 0.4;
    float elbow2basepos = 0.07;
    float arm2dippos = 0.2;
    float elbow2dippos = 0.07;
    float arm2ticklepos = 0.2;
    float elbow2ticklepos = 0.07;
    float arm2feedpos = 0.2;
    float elbow2feedpos = 0.07;
    
    //robot arm hold and move times                                   all times are in seconds
    float diptime = 1;                                              //time that brush stays down dipped in sugar water
    float tickletimeout = 3;                                        //maximum time to tickle if no PER is detected
    float feedtime = 3;                                             //feeding time
    
    //PER detection parameters
    float calsetval = 1.4;                                          //voltage to which phototransistor output will be calibrated  
    float PERsetval = 2.1;                                          //phototransistor output needs to be above this voltage for PER
    float PERtime = 0.2;                                            //phototransistor output needs to stay high this long in seconds
    
    //I2C address
    int addr = 0xA2;                                                //address is actually 0x51, but mbed expects left-shifted address   

//Definition of global variables

struct holderrecord {                                               //used to hold data on beeholder
    int serialno;                                                   //beeholder serial number 0-9999
    float calvalue;                                                 //IR-LED calibration value
    char cycleno;                                                   //number of cycles gone through in this session
    char reslastcycle;                                              //result of last cycle, 1 for PER
    char ticklenextcycle;                                           //whether tickling was done for last cycle
    time_t tstamp;                                                  //timestamp when last cycle was run
};

holderrecord currentholder;                                         //struct record for the current beeholder
holderrecord sessionrecord[30];                                     //sessionrecord contains holderrecords for up to 30 beeholders

int numbeeholders;                                                  //number of beeholders used in current session
int station;                                                        //which station is used in this session

//Substance strings

struct submenuitem {
    char* displaystring;                                            //keep display string to 19 characters or less, otherwise display screws up
    char* logstring;                                                //this is the string that gets printed in the logfile, and can be longer then 19 characters
};

submenuitem submenu[11];
int substanceindex;                                                 //this variable contains the index number (in the list) of the selected substance

//Function declarations

//Short beep
void beeponce() {
    buzzer = 1;
    wait(0.1);
    buzzer = 0;
}

//beep beep beep
void multibeeps(int number, float interval) {
    for(int i=0;i<number;i++){
        beeponce();
        wait(interval);
    }
}

//Clears and homes the display
void cleardisplay() {
    display.printf("\e[2J\e[H");
}

//Returns both robot arms to base position
void armstobase() {
    elbow1 = elbow1basepos;
    elbow2 = elbow2basepos;
    wait(0.5);                                                      //need this delay to avoid snagging brush on IR LED
    arm1 = arm1basepos;
    arm2 = arm2basepos;
}

//Fills the substance menu array with text
void fillsubstancemenu() {
    submenu[0].displaystring = "No substance";
    submenu[0].logstring = "Lack of substance";
    
    submenu[1].displaystring = "Coffee";
    submenu[1].logstring = "Espresso macchiato";
    
    submenu[2].displaystring = "Earl Grey";
    submenu[2].logstring = "Nice cup of tea";
    
    submenu[3].displaystring = "Apple Pie";
    submenu[3].logstring = "Mom's homemade apple pie - longer then 19 characters";
    
    submenu[4].displaystring = "Substance 04";
    submenu[4].logstring = "Substance 4";
    
    submenu[5].displaystring = "Substance 05";
    submenu[5].logstring = "Substance 5";
    
    submenu[6].displaystring = "Substance 06";
    submenu[6].logstring = "Substance 6";
    
    submenu[7].displaystring = "Substance 07";
    submenu[7].logstring = "Substance 7";
    
    submenu[8].displaystring = "Substance 08";
    submenu[8].logstring = "Substance 8";
    
    submenu[9].displaystring = "Substance 09";
    submenu[9].logstring = "Substance 9";
    
    submenu[10].displaystring = "Red Roses";
    submenu[10].logstring = "I never promised you a rose garden";
}

//Initialises sessionrecords
void sessionrecordinit() {
    for (int i=0; i<30; i++) {                                      //set base values for all possible beeholders
        sessionrecord[i].serialno = 0;                              //set serialno to 0 so we can detect a unresponsive holder
        sessionrecord[i].calvalue = 0;
        sessionrecord[i].cycleno = 0;
        sessionrecord[i].reslastcycle = 0;
        sessionrecord[i].ticklenextcycle = 1;                       //default is to tickle on each cycle
    }
}

//Initialisation on power-on
void initialise() {

    //Set pins to a defined state
    led1 = led2 = led3 = led4 =0;                                   //internal LEDs only used for debugging purposes
    buzzer = 0;                                                     //buzzer off
    airswitcher = 0;                                                //relay contacts open, clean air position
    bhsel1 = bhsel2 = 1;                                            //I2C select lines high to deselect both beeholders
    upsw.mode(PullUp);                                              //set pull-up on all frontpanel switches
    risw.mode(PullUp);
    dnsw.mode(PullUp);
    lesw.mode(PullUp);
    oksw.mode(PullUp);
    
    //Set robot arms to base positions
    armstobase();
    
    //initialise the display
    display.baud(19200);                                            //set display baud rate to 19200
    display.putc(0x0d);                                             //send CR to display - this needs to be first character sent after power-up
    wait(0.5);                                                      //wait for display to adjust to serial baud rate
    display.printf("\e[4L\e[20c");                                  //set display to 4 lines of 20 characters
    cleardisplay();                                                 //clear screen and home cursor
    
    //display splash screen with time
    display.printf("Eton trainer v%s\r", fwversion);                //show firmware release version
    time_t seconds = time(NULL);                                    //creates timestamp
    char bufferd[20], buffert[20];
    strftime(bufferd, 20, "%d/%m/%Y", localtime(&seconds));         //formats date part of timestamp
    display.printf("Date: %s\r", bufferd);                          //displays date
    strftime(buffert, 20, "%X", localtime(&seconds));               //formats time part of timestamp
    display.printf("Time: %s\r", buffert);                          //displays time
    wait(3);                                                        //display splash screen
    cleardisplay();                                                 //clear screen and home cursor
    
    //initialise sessionrecord
    sessionrecordinit();
    
    //initialise substance menu
    fillsubstancemenu();
    
    //enter info in logfile.csv
    fprintf(logfile, "%s\r", bufferd);                              //writes date, time and firmware version
    fprintf(logfile, "%s\r", buffert);
    fprintf(logfile, "v%s\r", fwversion);
    
    beeponce();                                                       //three beeps to signal initialisation ready
}

//Returns the index of the selected substance menu item
int subchoice(submenuitem submenu[11]) {
    bool up, down, done;
    int i;
    up = down = done = 0;
    i = 0;
    cleardisplay();
    display.printf("Substance selection");
    wait(3);
    cleardisplay();
    while (!done) {
        display.printf("%s\r", submenu[i].displaystring);
        display.printf("\rUP/DOWN to scroll\rOK to select");
        while (!up && !down && !done) {
            up = !upsw;
            down = !dnsw;
            done = !oksw;
        }
        if (up) {
            i++;
            if (i==11) i = 0;
        }
        if (down) {
            if (i==0) i = 11;
            i--;
        }
        cleardisplay();
    }
    return i;
}

//Converts the last 4 digits in the serial number string into a integer 0-9999
int serialstring2int(char bser[8]) {
    int tempserial = 0;    
    tempserial = tempserial + (bser[4]-0x30)*1000;                  //5th digit is thousands
    tempserial = tempserial + (bser[5]-0x30)*100;                   //6th digit is hundreds
    tempserial = tempserial + (bser[6]-0x30)*10;                    //7th digit is tens
    tempserial = tempserial + (bser[7]-0x30);                       //8th digit is units
    return tempserial;
}

//beeholder resets on rising edge of select line
void resetbeeholder() {                                             //need this as mounting beeholder causes undefined start of beeholder firmware
    bhsel1 = bhsel2 = 0;
    wait(0.1);
    bhsel1 = bhsel2 = 1;
    wait(0.3);
}

//Reads beeholder serial number from station 1 or 2
int getserialno(int station) {
    char bser[8];                                                   //define 8-byte serial number string to read
    resetbeeholder();                                               //does not work without this!!
    for (int i=0;i<8;i++) bser[i]=0x30;
    if (station==1) bhsel1=0;                                       //pull select line station 1 low
    if (station==2) bhsel2=0;                                       //pull select line station 2 low
    wait(0.2);
    beeholder.stop();                                               //I2C stop condition
    wait(0.2);                                                      //delay for beeholder to respond
    beeholder.write(addr,0x0,1);                                    //initial write before read
    beeholder.read(addr,bser,8);                                    //read 8 byte serial number
    bhsel1 = bhsel2= 1;                                             //pull both select lines high
    int serialno = serialstring2int(bser);                          //translate serial number string to integer
    return serialno;
}    

//Returns 1 if a PER is detected on this beeholder within timeout seconds
int detectPER(int station, float timeout) {
    Timer ttotal, tper;
    ttotal.start();                                                 //start timers for time-out and PER-detect
    ttotal.reset();
    tper.start();
    tper.reset();
    if (station == 1) {
        while ((ttotal.read() < timeout) && (tper.read() < PERtime)) {        //loop until timeout or PER detected
            wait_ms(10);
            if (ptor1 * 3.3 < PERsetval) tper.reset();              //if phototransistor voltage below treshold keep PER timer in reset
                                                                    //if above treshold let timer run until it reaches PERtime
        }
    }
    if (station == 2) {
         while ((ttotal.read() < timeout) && (tper.read() < PERtime)) {
            if (ptor2 * 3.3 < PERsetval) tper.reset();
        }
    }
    ttotal.stop();
    tper.stop();
    return (tper.read() >= PERtime);                                //if the loop exit condition was a PER, return a TRUE value
}

//Checks if bee shows PER when stimulated with odour but without feeding
int checktrained(int station) {
    airswitcher = 1;
    int responded = detectPER(station, 6);                          //PER needs to be detected within 6 seconds
    airswitcher = 0;
    return responded;
}

//Function performs beeholder/IR-led calibration
float calibrate(int station, int runs) {
    float tempcal;
    tempcal=0.5;                                                    //start calibration at 50% voltage
    irLED=tempcal;
    float calstep;                                                  //start calstep at 25% voltage
    calstep = tempcal/2;
    for (int i=0; i<10; i++) {                                      //does a "10-bit binary search" for the correct voltage to get a good response
        irLED = tempcal;
        wait(0.1);                                                  //important to allow AD converter to settle
        if (ptor1 < calsetval/3.3) {                                //check phototransistor voltage against desired value
            tempcal = tempcal - calstep;                            //if phototransistor voltage is too low then reduce brightness
        }
        else {
            tempcal = tempcal + calstep;                            //if phototransistor voltage is too high then increase brightness
        }
        calstep = calstep/2;                                        //on each loop of the for-cycle make smaller changes to IR LED voltage
    }
    float calib;
    calib = tempcal;                                                //set preliminary calibration to the value just measured
    for (int j=1; j<runs; j++) {                                    //run another j-1 runs, this corrects for antennae-movement as
        tempcal=0.5;                                                //we use the lowest calibration value from j runs
        irLED=tempcal;                                              //this is similar to what we do in the cassettes
        calstep = tempcal/2;
        for (int i=0;i<10;i++) {
            irLED = tempcal;
            wait(0.1);
            if (ptor1 < calsetval/3.3) {
                tempcal = tempcal - calstep;
            }
            else {
                tempcal = tempcal + calstep;
            }
            calstep = calstep/2;
        }
        if (tempcal < calib) calib = tempcal;                       //use the lowest of j calibration values
    }
    return calib;
}

//switches the IR LED on at the right brightness level for the beeholder
void IRledON(int i) {
    irLED = sessionrecord[i].calvalue;
 }
 
//moves arm1 to a position in a specified time, allowing speed control
void arm1move (float endpos, float movetime) {
    float startpos = arm1.read();
    int numsteps = (movetime * 50);                                 //50 pulses/second, so each step is 1 servo pulse
    for (int i=0; i<numsteps; i++) {
        arm1 = startpos + i * (endpos - startpos)/numsteps;
        wait(movetime/numsteps);
    }
    arm1 = endpos;
}

//moves arm2 to a position in a specified time, allowing speed control
void arm2move (float endpos, float movetime) {
    float startpos = arm2.read();
    int numsteps = (movetime * 50);                                 //50 pulses/second, so each step is 1 servo pulse
    for (int i=0; i<numsteps; i++) {
        arm2 = startpos + i * (endpos - startpos)/numsteps;
        wait(movetime/numsteps);
    }
    arm2 = endpos;
}

//moves elbow1 to a position in a specified time, allowing speed control
void elbow1move (float endpos, float movetime) {
    float startpos = elbow1.read();
    int numsteps = (movetime * 50);                                 //50 pulses/second, so each step is 1 servo pulse
    for (int i=0; i<numsteps; i++) {
        elbow1 = startpos + i * (endpos - startpos)/numsteps;
        wait(movetime/numsteps);
    }
    elbow1 = endpos;
}

//moves elbow2 to a position in a specified time, allowing speed control
void elbow2move (float endpos, float movetime) {
    float startpos = elbow2.read();
    int numsteps = (movetime * 50);                                 //50 pulses/second, so each step is 1 servo pulse
    for (int i=0; i<numsteps; i++) {
        elbow2 = startpos + i * (endpos - startpos)/numsteps;
        wait(movetime/numsteps);
    }
    elbow2 = endpos;
}

//Performs a conditioning cycle. if tickle==0, no tickling takes place. Return==1 if a PER has been detected
int condcycle(int station, int tickle) {
    int perseen;
    perseen = 0;
    //for station 1
    if (station == 1) {
        //dip brush
        arm1move(arm1dippos, 0.5);
        elbow1move(elbow1dippos, 0.3);
        wait(diptime);
        elbow1move(elbow1basepos, 0.3);
        arm1move(arm1basepos, 0.5);
        //switch air to supply trace vapour
        airswitcher = 1;                                            //air contains target vapour
        display.printf("Vapour ON");
        wait (0.5);
        //tickle
        if (tickle) {                                               //if tickling, first tickle then wait for PER or timeout
            elbow1move(elbow1ticklepos, 0.2);
            arm1move(arm1ticklepos, 1.5);                           //slower move of arm towards bee
            perseen = detectPER(1, tickletimeout);                  //tickle until timeout or PER detected
        }
        //or not tickle
        else {
            perseen = detectPER(1, tickletimeout);                  //if not tickling, wait for PER or timeout then move to pre-feeding position
            arm1move(arm1ticklepos-0.05, 1);                        //move to position between LED and holder
            elbow1move(elbow1ticklepos, 0.3);
        }
        //feeding only if you have tickled or a PER has been detected
        if (tickle || perseen) {                                    //only feed if a PER has been detector, or "tickle" is true
            elbow1move(elbow1feedpos, 0.3);
            arm1move(arm1feedpos, 0.3);
            wait(feedtime);
            arm1move(arm1ticklepos -0.05, 0.3);
            elbow1move(elbow1ticklepos, 0.3);
        }
        //move back to base position
        arm1 = arm1basepos;                                         //use fast move here
        elbow1 = elbow1basepos;                                     //use fast move here
        airswitcher = 0;                                            //air valve to clean air
        display.printf("\e[DFF\r");                                 //rewrite "ON" to "OFF" on display
    }
    //for station 2
    if (station == 2) {
        //dip brush
        arm2move(arm2dippos, 0.5);
        elbow2move(elbow2dippos, 0.3);
        wait(diptime);
        elbow2move(elbow2basepos, 0.3);
        arm2move(arm2basepos, 0.5);
        //switch air to supply trace vapour
        //airswitcher = 1;                                          //no air switching for station 2
        wait (0.5);
        //tickle
        if (tickle) {                                               //if tickling, first tickle then wait for PER or timeout
            elbow2move(elbow2ticklepos, 0.2);
            arm2move(arm2ticklepos, 1.5);                           //slower move of arm towards bee
            perseen = detectPER(1, tickletimeout);                  //tickle until timeout or PER detected
        }
        //or not tickle
        else {
            perseen = detectPER(1, tickletimeout);                  //if not tickling, wait for PER or timeout then move to pre-feeding position
            arm2move(arm2ticklepos-0.05, 1);                        //move to position between LED and holder
            elbow2move(elbow2ticklepos, 0.3);
        }
       //feeding only if you have tickled or a PER has been detected
       if (tickle || perseen) {                                    //only feed if a PER has been detector, or "tickle" is true
            elbow2move(elbow2feedpos, 0.3);
            arm2move(arm2feedpos, 0.3);
            wait(feedtime);
            arm2move(arm2ticklepos -0.05, 0.3);
            elbow2move(elbow2ticklepos, 0.3);
        }
        //move back to base position
        arm2 = arm2basepos;
        elbow2 = elbow2basepos;
    }
    return perseen;
}

//User to input choice between station 1 and 2 for this session
int stationchoice() {
    int station;
    station = 1;
    cleardisplay();                                                 //clear screen and home cursor
    display.printf(" Station selection  ");
    display.printf("Left=1       2=Right");
    while (lesw && risw) {                                          //lesw and risw become false when pressed!
        wait(0.02);
        if (!lesw) station=1;                                       //on LEFT select station 1
        if (!risw) station=2;                                       //on RIGHT select station 2
    }
    display.printf("\rStation %1u selected", station);
    fprintf(logfile, "%3u, station selected\r", station);
    return station;
}

//Registers and calibrates all beeholders used in this session
int registerbeeholders() {
    int i;
    bool done;
    char buffert[30];
    i = done = 0;
    cleardisplay();                                                 //clear screen and home cursor
    fprintf(logfile, "calibration record:\r");
    fprintf(logfile, "i, serialno, LED V, time\r");
    while (i<30 && !done) {                                         //register and calibrate a maximum of 30 beeholders
        display.printf("calibrating %u\r",i+1);
        sessionrecord[i].serialno = getserialno(station);           //read serial number
        if (sessionrecord[i].serialno != 0) {                       //check if serial number correctly read - if not it will be 0000
            sessionrecord[i].calvalue = calibrate(station, 5);      //5 calibration cycles
            if ((sessionrecord[i].calvalue > 0.25) && (sessionrecord[i].calvalue < 0.97)) {     //check that calvalue is in expected range
                sessionrecord[i].tstamp = time(NULL);                   //create timestamp NOW
                strftime(buffert, 20, "%X", localtime(&sessionrecord[i].tstamp));               //formats time part of timestamp
                cleardisplay();
                display.printf("SN %4u - cal %4.2fV\r", sessionrecord[i].serialno, sessionrecord[i].calvalue*3.3);
                display.printf("OK for next\r");
                display.printf("DOWN for training");
                fprintf(logfile, "%4u,%6u,%6.2f,  %s,  calibrate\r", i, sessionrecord[i].serialno, sessionrecord[i].calvalue*3.3, buffert);
                i++;
            }
            else {
                cleardisplay();
                display.printf("SN %4u - cal %4.2fV\r", sessionrecord[i].serialno, sessionrecord[i].calvalue*3.3);
                display.printf("Cal out of range!\r");
                multibeeps(2,0.5);
                display.printf("OK to recalibrate\r");
                fprintf(logfile, "%4u,%6u,%6.2f,  %s,  out of range\r", i, sessionrecord[i].serialno, sessionrecord[i].calvalue*3.3, buffert);
            }
            while (!done && oksw) {                                 //loop until OK or DOWN are pressed
                wait(0.02);
                done = !dnsw;                                       //DOWN exits registration cycle and moves to training
            }
        }
        else {                                                      //retry when serialno can't be read (is 0000)
            cleardisplay();
            multibeeps(3,0.3);                                      //beep-beep-beep when beeholder not correctly read
            display.printf("invalid serial no\r");
            display.printf("reseat beeholder\r");
            display.printf("press OK");
            while (oksw) wait(0.02);                                //loop until OK is pressed to start calibration loop again
        }
        cleardisplay();
    }
    return i;                                                       //upon done condition, i== number of beeholders calibrated
}

//gets holderrecord for the holder with a certain serial number
int getholderindex(int serialno) {
    for (int i=0; i<numbeeholders; i++) {                           //reverse lookup of index for a certain serial number
        if (sessionrecord[i].serialno == serialno) return i;
    }
    return 29;                                                      //if the record is not found, returns i==29
}

//all the elements making up a single training cycle with one beeholder
void trainingcycle() {
    wait(0.2);
    time_t tstamp = time(NULL);                                     //create timestamp NOW
    char buffert[30];
    strftime(buffert, 20, "%X", localtime(&tstamp));                //format timestamp to time string
    bool invalidserial;
    invalidserial = 1;
    int serialno;
    serialno = 0;
    while (invalidserial) {                                         //loop until a serial number is read correctly
        cleardisplay();
        int serialno = getserialno(station);                        //read serial number
        invalidserial = (serialno == 0);                            //if the serialno is 0, then it's invalid
        if (invalidserial) {
            display.printf("Invalid serialno\rReseat holder\rUP to retry");
            while (upsw) wait(0.02);                                //loop until UP switch is pressed
        }
    }
    int i = getholderindex(serialno);                               //get index i for serial number
    IRledON(i);                                                     //switch IR LED on at correct brightness
    sessionrecord[i].cycleno++;                                     //increment cycle number for this beeholder
    cleardisplay();
    display.printf("SN: %4u, cycle %u\r", serialno, sessionrecord[i].cycleno);
    sessionrecord[i].reslastcycle = condcycle(station, sessionrecord[i].ticklenextcycle);       //do a conditioning cycle
    fprintf(logfile, "%s,",buffert);
    fprintf(logfile, "  %4u,",serialno);
    fprintf(logfile, "  %2u,", sessionrecord[i].cycleno);
    if (sessionrecord[i].reslastcycle) {                            //log PER or TimeOut
        fprintf(logfile, "  PER,");
    }
    else {
        fprintf(logfile, "   TO,");
    }
    fprintf(logfile, " training\r");
    if (sessionrecord[i].reslastcycle) {
        display.printf("PER detected\r");
    }
    else {
        display.printf("PER time-out\r");
    }
    display.printf("mount holder + OK\r");
    display.printf("DOWN to finish");
}

//main program
int main() {
    initialise();                                                   //initialise a new session
    
    //Choose which station this session will use
    station = stationchoice ();                                     //menu to let user select station 1 or 2
    cleardisplay();
    
    //Choose substance string
    substanceindex = subchoice(submenu);                            //menu to let use chose substance
    fprintf(logfile, "%s\r", submenu[substanceindex].logstring);    //prints the substance log string to the logfile
    
    //Register and calibrate beeholders used in this session
    display.printf("Now register holders\r");
    display.printf("seat first holder\rpress OK\r");
    while (oksw) wait(0.02);                                        //loop so first beeholder can be mounted, then OK pressed
    numbeeholders = registerbeeholders();
    display.printf("%2u holders entered\r", numbeeholders);
    wait(3);
    cleardisplay();
    
    //Conduct training
    display.printf("Start training cycle\r");
    display.printf("mount holder + OK\r");
    display.printf("DOWN to finish");
    fprintf(logfile, "Training started\r");
    fprintf(logfile, "time, serial, cycleno, result\r");
    wait(1);
    InterruptIn oksw(p17);                                          //redefine OK and footswitch as interrupts
    oksw.mode(PullUp);
    bool finishsession;
    finishsession = 0;
    oksw.fall(&trainingcycle);                                      //call subroutine "trainingcycle" on OK/footswitch interrupt
    while (!finishsession) {                                        //loop while servicing interrupts
        wait(0.02);
        finishsession = !dnsw;                                      //until DOWN button is pressed, which exits to program close
    }
    
    //Close logfile
    fprintf(logfile, "session closed");
    fclose(logfile);                                                //close logfile for reading
    cleardisplay();
    display.printf("Session finished\r\rdownload etonlog.csvand rename");
}