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// Change the following to change the clock frequency
#define CRYSTAL_FREQ    16000000
// Change the following to change between 16 or 20 column display
#define DISPLAY_COLS    20
// Speed units are "1" (nautical knots), "2" (metric kph), or "3" (statute mph)
#define SPEED_UNITS     1

/****************************************************************************
GPS18.c

This program receives NMEA-0183 data from a GPS and displays it.
Meant for large display version still in 16F876.
Three buttons
Automicaly resets if main loop stops (not the best solution, still don't know why it's stopping)

Next: don't display GPS screens unless GPS is active
      detect display needing reset
      preset data eeprom for first-time operation
      don't display init stuff if reseting from main loop



                 +5                       +5+5
                  |                        | |
                  20                      15 2
                ----------             ----------
~SerIn -----18-|          |-24-----11-|DB4 A Vdd |
               |          |-25-----12-|DB5       |
  ADC0 ------2-|          |-26-----13-|DB6       |
  ADC1 ------3-|  16F876  |-27-----14-|DB7     Vo| 3--
  ADC2 ------5-|          |           |    LCD   |    |
               |          |-14------6-|EN        |    |
       XTAL--9-|          |-15------4-|R/S       |    |
       XTAL-10-|          |-28-FET-16-|K         |    |
               |          |           |  RW  Vss |    |
 BUTTON 1---21-|          |            ----------     |
 BUTTON 2---22-|          |              1   5        |
 BUTTON 3---23-|          |              |   |        |
               |          |             Gnd Gnd       |
               |          |                           |
               |          |-11----------R/C-----------
               |          |
               |          |
                ----------
                  8    19
                  |     |
                 Gnd   Gnd

***************************************************************************/
#case
#include <16F876.h>
#include <jonsinc.h>
#device = *=16 ADC=10                /* allow RAM addresses over 255 */

#if ( ( CRYSTAL_FREQ < 4000000) || ( CRYSTAL_FREQ > 20000000 ) )
#error "CRYSTAL FREQ" not defined to between 8000000 and 20000000
#endif
#if ( ( DISPLAY_COLS != 16 ) && ( DISPLAY_COLS != 20 ) )
#error "DISPLAY COLS" not defined to 16 or 20
#endif

// RMC_TIME = 1 per clock megahertz, rounded
#define RMC_TIME        CRYSTAL_FREQ/1000000

#define LCD_D0          PIN_B3
#define LCD_D1          PIN_B4
#define LCD_D2          PIN_B5
#define LCD_D3          PIN_B6
#define LCD_EN          PIN_C3
#define LCD_RS          PIN_C4
#define RX_IN           PIN_C7
#define BUTTON_1        PIN_B0
#define BUTTON_2        PIN_B1
#define BUTTON_3        PIN_B2
#define LCD_BACKLITE    PIN_B7
#define LINE_1          0x00
#define LINE_2          0x40
#if DISPLAY_COLS == 20
#define LINE_3          0x14
#define LINE_4          0x54
#endif
#if DISPLAY_COLS == 16
#define LINE_3          0x10
#define LINE_4          0x50
#endif
#define CLEAR_DISP      0x01
#define EOF             0x00
#define COMMA           ','
#define CR              13
#define SPACE           ' '
#define PERIOD          '.'
#define DEGREE          0xdf
#define DOLLAR          '$'
#define NULL            0
#define GPRMC_CODE      75
#define GPRMB_CODE      74
#define RX_BUFFER_SIZE  70
#define POSITION_SCREEN 1
#define WAYPOINT_SCREEN 2
#define BATTERY_SCREEN  3
#define HIDDEN_RMC      5
#define WARNING_MSG     0
#define NODATA_MSG      1
#define ACTIVITY_SYMBOL 0xFF
#define MAX_VOLTS       15
#define EEPROM_CONTRAST 0
#define EEPROM_INITIAL  1

/* Set the following define to "YES" to display XOR'ed GPS sentence code */
/* such as GPRMC and the display will read out the value of 74. */
#define GET_GPS_CODE    NO

#separate void Display ( void );
#separate void LCD_Init ( void );
#separate void LCD_SetPosition ( unsigned int cX );
#separate void LCD_PutChar ( unsigned int cX );
#separate void LCD_PutCmd ( unsigned int cX );
#separate void LCD_PulseEnable ( void );
#separate void LCD_SetData ( unsigned int cX );
#separate void SkipField ( char cCnt );
#separate char GetField ( void );
#separate void InitRxBuffer ( char cCode );
#separate char GetRxChar ( void );
#separate void DisplayLatLon ( void );
#separate void DisplayWaypoint ( void );
#separate void DisplayLatitude ( char cLine );
#separate void DisplayLongitude ( char cLine );
#separate void DisplayHeading ( char cLine );
#separate void DisplaySpeed ( char cLine );
#separate void DisplaySteer ( char cLine, char cX );
#separate void DisplayWaypointName ( char cLine, char cX );
#separate void DisplayDistance ( char cLine, char cX );
#separate void DisplayBearing ( char cLine, char cX );
#separate void GetUtcAndMagVar ( void );
#separate long TrueToMag ( long iH );
#separate long FieldFiveToLong ( void );
#separate void DisplayAnalog ( void );
#separate void DisplayScaledVoltage ( long iV, char cScale );
#separate void DisplayArrival ( char cLine );
#separate void DisplayMessage ( char cMsgNum );
#separate void DisplayTemplateLatLon ( void );
#separate void DisplayTemplateWaypoint ( void );
#separate void DisplayTemplateAnalog ( void );
#separate void Delay5mS ( char cCnt );

#fuses HS, NOPROTECT, PUT, NOWDT, BROWNOUT, NOLVP, NOCPD
#use standard_io ( A )
#use standard_io ( B )
#use standard_io ( C )
#use delay ( clock = CRYSTAL_FREQ )
#use rs232 ( baud=4800, xmit=PIN_C6, rcv=PIN_C7, ERRORS )    // XMIT must be assigned to enable hardward USART
#priority RDA, RTCC, EXT

static char cC [ 10 ];      // local buffer
static char cTimeOut;
static char cRxBuffer [ RX_BUFFER_SIZE ];    // Fifo
static char cRxByteCnt;         // Number of bytes in the recv fifo
static char *cRxBufferWritePtr;    // Pointers for the Rx buffer
static char *cRxBufferReadPtr;
static char cRxIsrState, cRxMsgTypeReceived, cRxMsgTypeDesired;
static char cRxMsgReady, cReceiveFlag;
static long iVar, iLastRange, iTimeOut;
static char cVarDir, cScreenChanged, cAdcDone;
static char cButtonPressed, cSkip, cButtonCount;
static char cScreen, cSavedScreen, cRmcTimer1, cRmcTimer2;
static char cToFrom [ 5 ], cIndicator, cIllumination, cRxErrorFlag;
static char cDone, cContrast;

/*******************************************************************/
#int_ad
void AdcInterrupt ( void )
    {
    /* Gets here when ADC is done conversion, sets flag */
    cAdcDone = YES;
    }

#int_timer1
void Timer1Interrupt ( void )
    {
    /* Periodic RMC data timer, gets here every 204mS */
    /* This routine forces RMC to run every 10 minutes to update */
    /* magnetic variation */
    if ( cRmcTimer1-- == 0 )
        {
        cRmcTimer1 = 255;               // 52 seconds @ 10.240MHz
        if ( cRmcTimer2-- == 0 )
            {
            cRmcTimer2 = RMC_TIME;      // triggers every 10 minutes
            cSavedScreen = cScreen;     // save current screen type
            cScreen = HIDDEN_RMC;       // force RMC to run
            }
        }
    }

#int_rtcc
void Timer0Interrupt ( void )
    {
    // Gets here every 16.4mS at 8MHz, 8.2mS at 16MHz
    // Handles data timeout and switch debounce.

    // DATA TIMEOUT TIMER
    if ( cTimeOut != 0 )
        {
        cTimeOut--;
        }

    // This timer is preset by the normal operating loop, unless the operating
    // loop stops looping, at which point iTimeOut finally decrements to zero
    // and resets CPU.
    if ( iTimeOut != 0 )
        {
        iTimeOut--;
        }
    else
        {
        reset_cpu();                // force reset
        }

    if ( input ( BUTTON_2 ) == LOW )  // if button still pressed
        {
        cScreen = WAYPOINT_SCREEN;
        cSkip = YES;                // skip out of anything in process
        cScreenChanged = YES;       // repaint complete screen
        }

    if ( input ( BUTTON_3 ) == LOW )  // if button still pressed
        {
        cScreen = BATTERY_SCREEN;
        cSkip = YES;                // skip out of anything in process
        cScreenChanged = YES;       // repaint complete screen
        }

    // SWITCH DEBOUNCE
    if ( input ( BUTTON_1 ) == LOW )  // if button still pressed
        {
        if ( cButtonCount < 255 )   // hold at 255
            {
            cButtonCount++;         // otherwise increment
            }
        }
    else            // if button is unpressed
        {
        if ( cButtonCount > 2 )     // filter out glitches
            {
            //If button press is greater than 3.3 seconds, cold reset
            if ( cButtonCount == 255 )
                {
                reset_cpu();
                }
            if ( ( cButtonCount > 57 ) && ( cButtonCount < 255 ) )
                {
                if ( cScreen != HIDDEN_RMC )       // if not in the middle of getting magnetic variation
                    {
                    // cIllumination ^= ON;
                    output_bit ( LCD_BACKLITE, cIllumination ^= ON );
                    }
                }
            // If button press is less than 0.5 second
            if ( cButtonCount <= 57 )
                {
                if ( cScreen != HIDDEN_RMC )       // if not in the middle of getting magnetic variation
                    {
                    //if ( cScreen++ >= BATTERY_SCREEN )   // increment to next screen
                        {
                        cScreen = POSITION_SCREEN;                    // wrap
                        }
                    cSkip = YES;                // skip out of anything in process
                    cScreenChanged = YES;       // repaint complete screen
                    }
                }
            }
        cButtonCount = 0;       // restart
        }
    }

#int_rda
void SerialInterrupt ( void )
    {
    /*
    Reads incoming data from the USART and puts in in a rolling buffer
    ( but in this application, it should never roll.)
    If the buffer is full, this routine just discards the received byte.
    Not checking the LRC byte at the end of the NMEA-0183 sentence.
    */
    char cChar;

    if ( rs232_errors & 0x04 )  // get framing error bit from Rx status reg
        {
        cRxErrorFlag = ON;
        }
    cChar = getchar();       // get char from UART, clear any errors

    if ( cRxByteCnt == RX_BUFFER_SIZE ) // is recv fifo full ???
        {
        goto done;
        }
    switch ( cRxIsrState )
        {
        case 0:
            {
            if ( cChar == DOLLAR )  // if start of NMEA0183 message
                {
                cRxByteCnt = 0;     // reset byte count
                cReceiveFlag = OFF;     // default to off
                cRxMsgTypeReceived = NULL;  // set hashed value to null
                cRxIsrState++;                 // next state
                }
            break;
            }
        case 1:                           // five type characters to obtain
        case 2:
        case 3:
        case 4:
        case 5:
            {
            cRxMsgTypeReceived ^= cChar;      // hash in msg type
            if ( cRxIsrState++ == 5 )        // if time to check message type
                {
                if ( cRxMsgTypeReceived == cRxMsgTypeDesired )  // if good
                    {
                    cReceiveFlag = YES;            // enable receiving
                    cRxBufferWritePtr = cRxBuffer;    // reset to beginning of buffer
                    }
                else                    // don't want this message
                    {
                    cRxIsrState = 0;    // reset to look for next msg
                    }
                }
            break;
            }
        case 6:
            {
            /* Case 6 skips the comma character following msg type */
            cRxIsrState++;
            break;
            }
        default:                          // remainder of characters
            {
            if ( cReceiveFlag == YES )        // if this message is wanted
                {
                *cRxBufferWritePtr = cChar;     // put char in fifo
                cRxBufferWritePtr++;            // increment pointer
                if ( cRxBufferWritePtr == ( cRxBuffer + RX_BUFFER_SIZE ) ) // pointer past end ?
                    {
                    cRxBufferWritePtr = cRxBuffer;      // set pointer to start of fifo
                    }
                cRxByteCnt++;              // Increment byte count
                if ( cChar == CR )
                    {
                    cRxMsgReady = YES;         // signal that message is ready
                    cReceiveFlag = NO;      // no more receive
                    }
                }
            }
        }
    done:;
    }

/*******************************************************************/

void main ( void )
    {
    char cX;

    iTimeOut = 65535;                       // default to very long to get by init
    /* INITIALIZE */
    output_float ( RX_IN );             // ensure Rx input is HiZ
    output_float ( BUTTON_1 );          // ensure switch input is HiZ
    output_float ( BUTTON_2 );          // ensure switch input is HiZ
    output_float ( BUTTON_3 );          // ensure switch input is HiZ
    output_low ( LCD_BACKLITE );        // turn off backlighting
    port_b_pullups ( ON );              // enable pullups on switches

    // GET SAVED SETTINGS
    cContrast = read_eeprom ( EEPROM_CONTRAST );        // get stored value

    // PWM is for display contrast
    setup_ccp2 ( CCP_PWM );                     // set for PWM mode
    //The cycle time will be (1/clock)*4*t2div*(period+1)
    // 1/8000000 * 4 * 1 * 128 = 51.2uS = 19.5KHz
    setup_timer_2 ( T2_DIV_BY_1, 255, 1 );      // set PWM period
    // duty cycle = value*(1/clock)*t2div
    // 10 * 1/8000000 * 1 = 1.2uS
    set_pwm2_duty ( cContrast );                // set contrast duty cycle

    // SETUP TIMER 0
    // Need 8-bit Timer0 to roll over every 13mS, approximately.
    // Roll time = 256 * 1 / ( clock_freq / prescaler setting / 4 )
    #if CRYSTAL_FREQ >= 15000000
    setup_counters ( RTCC_INTERNAL, RTCC_DIV_256 );   // ~13mS timer wrap
    #elif CRYSTAL_FREQ >= 8000000
    setup_counters ( RTCC_INTERNAL, RTCC_DIV_128 );   // ~13mS timer wrap
    #elif CRYSTAL_FREQ < 8000000
    setup_counters ( RTCC_INTERNAL, RTCC_DIV_64 );    // ~13mS timer wrap
    #endif

    // Timer 1 roll time = 65536 * 1 / ( clock_freq / prescaler setting / 4 )
    setup_timer_1 ( T1_INTERNAL | T1_DIV_BY_8 );    // 16-bit timer

    setup_adc_ports ( RA0_RA1_RA3_ANALOG );  /* these three statements set up the ADC */
    setup_adc ( ADC_CLOCK_INTERNAL );
    cIllumination = OFF;

    LCD_Init();                        // set up LCD for 4-wire bus, etc.

    /* INIT MESSAGE */
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( LINE_1 + 0 );
    printf ( LCD_PutChar, "   Northern Light   " );   // welcome screen
    LCD_SetPosition ( LINE_2 + 2 );
    printf ( LCD_PutChar, "Monitor/Repeater" );
    LCD_SetPosition ( LINE_3 + 3 );
    printf ( LCD_PutChar, "v18   06/21/03" );
    LCD_SetPosition ( LINE_4 + 5 );
    printf ( LCD_PutChar, "c Jon Fick" );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( LINE_1 + 0);
    printf ( LCD_PutChar, " Northern Light " );       // welcome screen
    LCD_SetPosition ( LINE_2 + 2 );
    printf ( LCD_PutChar, "GPS Repeater" );
    LCD_SetPosition ( LINE_3 + 1 );
    printf ( LCD_PutChar, "v18   06/21/03" );
    LCD_SetPosition ( LINE_4 + 3 );
    printf ( LCD_PutChar, "c Jon Fick" );
    #endif
    delay_ms ( 1000 );

    /* INSTRUCTION MESSAGE */
    LCD_PutCmd ( CLEAR_DISP );
    LCD_SetPosition ( LINE_1 + 0 );
    printf ( LCD_PutChar, "BUTTONS:" );
    LCD_SetPosition ( LINE_2 + 0 );
    printf ( LCD_PutChar, "<-- Lat/Lon" );
    LCD_SetPosition ( LINE_3 + 0 );
    printf ( LCD_PutChar, "<-- Waypoint" );
    LCD_SetPosition ( LINE_4 + 0 );
    printf ( LCD_PutChar, "<-- Battery" );
    delay_ms ( 2000 );

    /* SETUP MODE */
    if ( input ( BUTTON_1 ) == LOW )  // if button is pressed
        {
        LCD_PutCmd ( CLEAR_DISP );
        LCD_SetPosition ( LINE_1 + 0 );
        printf ( LCD_PutChar, "Set contrast:" );
        LCD_SetPosition ( LINE_2 + 0 );
        printf ( LCD_PutChar, "<-- More" );
        LCD_SetPosition ( LINE_3 + 0 );
        printf ( LCD_PutChar, "<-- DONE" );
        LCD_SetPosition ( LINE_4 + 0 );
        printf ( LCD_PutChar, "<-- Less" );
        while ( input ( BUTTON_1 ) == LOW );    // wait for switch to be released after entering SETUP mode
        cContrast = 120;          // start at full contrast
        cDone = NO;
        while ( cDone == NO )
            {
            set_pwm2_duty ( cContrast );        // update contrast
            if ( input ( BUTTON_1 ) == LOW )
                {
                if ( cContrast > 0 )
                    {
                    cContrast--;            // more
                    }
                }
            if ( input ( BUTTON_2 ) == LOW )
                {
                cDone = YES;                // done
                }
            if ( input ( BUTTON_3 ) == LOW )
                {
                if ( cContrast < 255 )
                    {
                    cContrast++;        // less
                    }
                }
            delay_ms ( 30 );                   // autorepeat
            }
        write_eeprom ( EEPROM_CONTRAST, cContrast );    // save CONTRAST to EEPROM

        LCD_PutCmd ( CLEAR_DISP );
        LCD_SetPosition ( LINE_2 + 0 );
        printf ( LCD_PutChar, "<- Press initial" );
        LCD_SetPosition ( LINE_3 + 0 );
        printf ( LCD_PutChar, "   bootup screen" );
        while ( input ( BUTTON_1 ) == LOW );  // wait until button not pressed
        cX = POSITION_SCREEN;
        while ( TRUE )
            {
            LCD_SetPosition ( LINE_4 + 3 );
            switch ( cX )
                {
                case POSITION_SCREEN:
                    {
                    printf ( LCD_PutChar, "POSITION " );
                    break;
                    }
                case WAYPOINT_SCREEN:
                    {
                    printf ( LCD_PutChar, "WAYPOINT " );
                    break;
                    }
                case BATTERY_SCREEN:
                    {
                    printf ( LCD_PutChar, "BATTERY  " );
                    break;
                    }
                }
            delay_ms ( 750 );
            if ( input ( BUTTON_1 ) == LOW )  // if button is pressed
                {
                write_eeprom ( EEPROM_INITIAL, cX );   // save screen number to EEPROM
                break;
                }
            if ( cX++ == BATTERY_SCREEN )
                {
                cX = POSITION_SCREEN;
                }
            }
        LCD_PutCmd ( CLEAR_DISP );
        }

    /* This IF/ENDIF is a tool for getting the $GP... codes */
    /* that are used in the switch/case in the main loop. */
    #if ( GET_GPS_CODE == YES )
    printf ( LCD_PutChar, "%u", 'G'^'P'^'R'^'M'^'B');
    while ( TRUE );
    #endif

    /* INTERRUPTS */
    ext_int_edge ( H_TO_L );            // set falling edge ext interrupt
    enable_interrupts ( INT_TIMER1 );   // enable Timer1 interrupt
    enable_interrupts ( INT_RDA );      // enable serial interrupt
    enable_interrupts ( INT_RTCC );     // enable Timer0 interrupt
    enable_interrupts ( INT_AD );       // enable ADC interrupt
    enable_interrupts ( GLOBAL );       // enable all interrupts

    /* VARIABLES */
    iVar = NULL;                        // default, no variation yet
    cVarDir = SPACE;                    // default, no variation yet
    cRmcTimer1 = 255;                   // initialize to 52 seconds
    cRmcTimer2 = RMC_TIME;              // trigger forced RMC after 10 minutes
    cScreen = HIDDEN_RMC;               // default screen, get magnetic variation first
    cSavedScreen = read_eeprom ( EEPROM_INITIAL ); // restore initial screen
    iLastRange = 65535;                 // make max by default
    strcpy ( cToFrom, "  " );           // blank by default
    cScreenChanged = YES;
    cIndicator = 0;
    cButtonCount = 0;
    cButtonPressed = NO;
    cRxErrorFlag = OFF;

    /* MAIN LOOP */
    while ( TRUE )
        {
        cTimeOut = 188;        // 231 * 0.013mS = 3 seconds
        switch ( cScreen )
            {
            case HIDDEN_RMC:
                {
                InitRxBuffer( GPRMC_CODE );     // set code and turn on serial interrupt
                while ( ( cRxMsgReady == NO ) && ( cTimeOut != 0 ) );
                disable_interrupts ( INT_RDA );         // ignore rest of messages
                if ( cTimeOut != 0 )            // if not timed out
                    {
                    GetUtcAndMagVar();             // get and store the magnetic variation
                    }
                cScreen = cSavedScreen;         // revert to previous screen
                break;
                }
            case POSITION_SCREEN:
                {
                if ( cScreenChanged == YES )
                    {
                    disable_interrupts ( INT_RDA );
                    cScreenChanged = NO;
                    cSkip = NO;
                    LCD_PutCmd ( CLEAR_DISP );
                    DisplayTemplateLatLon();
                    enable_interrupts ( INT_RDA );
                    }
                InitRxBuffer( GPRMC_CODE );     // set code and turn on serial interrupt
                while ( ( cRxMsgReady == NO ) && ( cTimeOut != 0 ) && ( cScreenChanged != YES ) );
                disable_interrupts ( INT_RDA );         // ignore rest of messages
                if ( cScreenChanged == NO )
                    {
                    if ( cTimeOut != 0 )
                        {
                        DisplayLatLon();
                        }
                    else
                        {
                        DisplayMessage ( NODATA_MSG );
                        }
                    }
                cRxErrorFlag = OFF;
                break;
                }
            case WAYPOINT_SCREEN:
                {
                if ( cScreenChanged == YES )
                    {
                    disable_interrupts ( INT_RDA );
                    cScreenChanged = NO;
                    cSkip = NO;
                    LCD_PutCmd ( CLEAR_DISP );
                    DisplayTemplateWaypoint();
                    enable_interrupts ( INT_RDA );
                    }
                cSkip = NO;
                InitRxBuffer( GPRMB_CODE );     // set code and turn on serial interrupt
                while ( ( cRxMsgReady == NO ) && ( cTimeOut != 0 ) && ( cScreenChanged != YES ) );
                disable_interrupts ( INT_RDA );         // ignore rest of messages
                if ( cScreenChanged == NO )
                    {
                    if ( cTimeOut != 0 )
                        {
                        DisplayWaypoint();
                        }
                    else
                        {
                        DisplayMessage ( NODATA_MSG );
                        }
                    }
                break;
                }
            case BATTERY_SCREEN:
                {
                if ( cScreenChanged == YES )
                    {
                    disable_interrupts ( INT_RDA );
                    cScreenChanged = NO;
                    cSkip = NO;
                    LCD_PutCmd ( CLEAR_DISP );
                    DisplayTemplateAnalog();
                    }
                DisplayAnalog();
                break;
                }
            }

        // Preset timeout counter each loop; RTCC interrupt decrements, resets if zero is reached
        iTimeOut = 2000;     // ~ 30 seconds

        /* Flashing activity indicator in lower right of screen. */
        cIndicator ^= 1;
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( LINE_4 + 19 );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( LINE_4 + 15 );
        #endif
        if ( cIndicator == 1 )
            {
            printf ( LCD_PutChar, "%c", ACTIVITY_SYMBOL );
            }
        else
            {
            printf ( LCD_PutChar, " " );
            }
        }
    }

#separate void DisplayTemplateLatLon ( void )
    {
    LCD_SetPosition ( LINE_1 );
    printf ( LCD_PutChar, "LAT" );
    LCD_SetPosition ( LINE_2 );
    printf ( LCD_PutChar, "LON" );
    LCD_SetPosition ( LINE_3 );
    #if ( DISPLAY_COLS == 20 )
    printf ( LCD_PutChar, "SPEED" );
    LCD_SetPosition ( LINE_4 );
    printf ( LCD_PutChar, "HEADING" );
    #elif ( DISPLAY_COLS == 16 )
    printf ( LCD_PutChar, "SPD" );
    LCD_SetPosition ( LINE_4 );
    printf ( LCD_PutChar, "HDG" );
    #endif
    }

#separate void DisplayTemplateWaypoint ( void )
    {
    LCD_SetPosition ( LINE_1 );
    #if ( DISPLAY_COLS == 20 )
    printf ( LCD_PutChar, "WAYPOINT" );
    #elif ( DISPLAY_COLS == 16 )
    printf ( LCD_PutChar, "WAYPT" );
    #endif
    LCD_SetPosition ( LINE_2 );
    printf ( LCD_PutChar, "STEER" );
    LCD_SetPosition ( LINE_3 );
    printf ( LCD_PutChar, "DIST" );
    LCD_SetPosition ( LINE_4 );
    printf ( LCD_PutChar, "BEARING" );
    }

#separate void DisplayTemplateAnalog ( void )
    {
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( LINE_1 + 3 );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( LINE_1 + 1 );
    #endif
    printf ( LCD_PutChar, "BATTERY STATUS" );
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( LINE_2 );
    printf ( LCD_PutChar, "Primary" );
    LCD_SetPosition ( LINE_3 );
    printf ( LCD_PutChar, "Secondary" );
    LCD_SetPosition ( LINE_4 );
    printf ( LCD_PutChar, "Refrigerator" );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( LINE_2 );
    printf ( LCD_PutChar, "Main#1 " );
    LCD_SetPosition ( LINE_3 );
    printf ( LCD_PutChar, "Main#2 " );
    LCD_SetPosition ( LINE_4 );
    printf ( LCD_PutChar, "Refrig " );
    #endif
    }

#separate void DisplayLatLon ( void )
    {
    SkipField ( 1 );   // skip UTC
    GetField();        // A = OK, V = warning
    if ( ( cC [ 0 ] == 'A' ) && ( !cSkip ) )
        {
        GetField();                   // LAT
        if ( !cSkip )
            {
            DisplayLatitude ( LINE_1 );
            }
        GetField();                   // LON
        if ( !cSkip )
            {
            DisplayLongitude ( LINE_2 );
            }
        GetField();                   // SPEED
        if ( !cSkip )
            {
            DisplaySpeed ( LINE_3 );
            }
        GetField();                   // HEADING
        if ( !cSkip )
            {
            DisplayHeading ( LINE_4 );
            }
        }
    else
        {
        DisplayMessage( WARNING_MSG );
        }
    }

#separate void DisplayWaypoint ( void )
    {
    char cX;

    GetField();        // A = OK, V = warning
    if ( ( cC [ 0 ] == 'A' ) && ( !cSkip ) )
        {
        cX = GetField();        // XTE
        if ( !cSkip )
            {
            DisplaySteer ( LINE_2, cX );
            }
        SkipField ( 1 );        // skip origin WP ID
        GetField();                     // DEST WP ID
        if ( !cSkip )
            {
            DisplayWaypointName ( LINE_1, cX );
            }
        SkipField ( 4 );        // skip LAT, NS, LON, EW
        cX = GetField();                     // RANGE
        if ( !cSkip )
            {
            DisplayDistance ( LINE_3, cX );
            }
        cX = GetField();                     // BEARING
        if ( !cSkip )
            {
            DisplayBearing ( LINE_4, cX );
            }
        SkipField ( 1 );        // skip SPEED TO DEST
        GetField();                     // ARRIVAL FLAG
        if ( !cSkip )
            {
            DisplayArrival ( LINE_1 );    // overwrite RANGE if arrived
            }
        }
    else
        {
        DisplayMessage( WARNING_MSG );
        }
    }

#separate void DisplayAnalog ( void )
    {
    long iX;
    char cCnt;

    set_adc_channel ( 0 );                      // set channel
    delay_us ( 100 );                           // wait aquisition time
    cAdcDone = NO;
    if ( !cSkip )
        {
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( LINE_2 + 13 );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( LINE_2 + 8 );
        #endif
        DisplayScaledVoltage ( read_adc(), MAX_VOLTS );
        printf ( LCD_PutChar, " V " );
        }
    set_adc_channel ( 1 );
    delay_us ( 100 );
    cAdcDone = NO;
    if ( !cSkip )
        {
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( LINE_3 + 13 );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( LINE_3 + 8 );
        #endif
        DisplayScaledVoltage ( read_adc(), MAX_VOLTS );
        printf ( LCD_PutChar, " V " );
        }
    set_adc_channel ( 3 );
    delay_us ( 100 );
    cAdcDone = NO;
    if ( !cSkip )
        {
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( LINE_4 + 13 );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( LINE_4 + 8 );
        #endif
        DisplayScaledVoltage ( read_adc(), MAX_VOLTS );
        printf ( LCD_PutChar, " V " );
        }
    Delay5mS ( 100 );         // slow loop down a bit
    }

#separate void GetUtcAndMagVar ( void )
    {
    /*
    This is a non-display version of the RMC sentence
    to get the A/V warning, the magnetic variation, and the
    magnetic direction.
    */

    GetField();              // get UTC
    GetField();        // A = OK, V = warning
    if ( cC [ 0 ] == 'A' )
        {
        SkipField ( 7 );   // skip fields
        GetField();             // MAGNETIC VARIATION
        iVar = FieldFiveToLong();     // save to global variable, used in other sentences
        GetField();     // EW
        cVarDir = cC [ 0 ];     // save direction
        }
    else
        {
        iVar = NULL;              // invalid
        cVarDir = SPACE;
        }
    }

/******************************************************************/

#separate void DisplayScaledVoltage ( long iV, char cScale )
    {
    float fX;

    /*
    0 to 5V input at pin 2 results in 0 - 1023.  This routine
    scales it to something else.
    */
    while ( cAdcDone == NO );         // wait for completion by ADC interrupt
    if ( iV == 1023 )
        {
        printf ( LCD_PutChar, "O/L" );  /* print it to the screen */
        }
    else
        {
        fX = ( ( float ) iV ) / 1023 * ( float ) cScale;   // scale to proper range, 1023 leaves room for out-of-range
        printf ( LCD_PutChar, "%2.1f", fX );  /* print it to the screen */
        }
    }

#separate void DisplayArrival ( char cLine )
    {
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( cLine + 11 );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( cLine + 9 );
    #endif
    if ( cC [ 0 ] == 'A' )
        {
        printf ( LCD_PutChar, "Arrived" );
        }
    else
        {
        printf ( LCD_PutChar, "       " );
        }
    }

#separate void DisplayWaypointName ( char cLine, char cX )
    {
    /* Displays waypoint name, pads field with blanks */
    char cChar, cI;

    LCD_SetPosition ( cLine );
    if ( cX != 0 )
        {
        printf ( LCD_PutChar, "\"" );
        for ( cI = 0; cI < 6; cI++ )
            {
            cChar = cC [ cI ];
            if ( cChar == EOF )
                {
                break;
                }
            printf ( LCD_PutChar, "%c", cChar );
            }
        printf ( LCD_PutChar, "\"" );
        // Blank remainder of field
        cChar = SPACE;
        for ( ; cI < 6; cI++ )
            {
            printf ( LCD_PutChar, "%c", cChar );
            }
        }
    else
        {
        printf ( LCD_PutChar, "- none -" );
        }
    }

#separate void DisplaySteer ( char cLine, char cX )
    {
    /*
    Displays A.BC literals, appends 'L' or 'R'.
    If less than 1.0, displays feet rather than nm.
    Doesn't display distance if on track.
    */
    long iX;
    char cCnt;

    if ( cX != 0 )
        {
        if ( ( cC [ 0 ] != '0' ) || ( cC [ 2 ] != '0' ) || ( cC [ 3 ] != '0' ) )   // if not 0.00
            {
            LCD_SetPosition ( cLine + 14 );
            #if ( DISPLAY_COLS == 20 )
            printf ( LCD_PutChar, "      " );         // blank possible characters
            LCD_SetPosition ( cLine + 11 );
            #elif ( DISPLAY_COLS == 16 )
            printf ( LCD_PutChar, "  " );         // blank possible characters
            LCD_SetPosition ( cLine + 8);
            #endif
            if ( cC [ 0 ] == '0' )          // if less than 1.0 nm, display as feet
                {
                iX = ( 528 * ( long ) ( cC [ 2 ] - 0x30 ) ) + ( 52 * ( long ) ( cC [ 3 ] - 0x30 ) );
                printf ( LCD_PutChar, "%luft  ", iX );
                }
            else                             // if 1.0 nm or greater, display as nautical miles
                {
                printf ( LCD_PutChar, "%c%c%c%cmi  ", cC [ 0 ], cC [ 1 ], cC [ 2 ] , cC [ 3 ] );
                }
            GetField();              // L or R
            LCD_SetPosition ( cLine + 6 );
            if ( cC [ 0 ] == 'L' )
                {
                #if ( DISPLAY_COLS == 20 )
                printf ( LCD_PutChar, "PORT " );
                #elif ( DISPLAY_COLS == 16 )
                printf ( LCD_PutChar, "L" );
                #endif
                }
            else
                {
                #if ( DISPLAY_COLS == 20 )
                printf ( LCD_PutChar, "STBD " );
                #elif ( DISPLAY_COLS == 16 )
                printf ( LCD_PutChar, "R" );
                #endif
                }
            }
        else           // if 0.00
            {
            #if ( DISPLAY_COLS == 20 )
            LCD_SetPosition ( cLine + 11 );
            printf ( LCD_PutChar, "On track " );
            #elif ( DISPLAY_COLS == 16 )
            LCD_SetPosition ( cLine + 6 );
            printf ( LCD_PutChar, "  On track" );
            #endif
            GetField();              // dummy L or R
            }
        }
    else
        {
        LCD_SetPosition ( cLine + 6 );
        printf ( LCD_PutChar, "              " );
        }
    }

#separate void DisplayDistance ( char cLine, char cX )
    {
    /* Format: ABC.D nautical miles */
    char cChar, cI;
    long iThisRange;

    if ( cX != 0 )           // if waypoint data to display
        {
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( cLine + 11 );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( cLine + 8 );
        #endif
        cI = 0;
        for ( cI = 0; cI < 2; cI++ )    // find first non-zero
            {
            cChar = cC [ cI ];
            if ( cChar != '0' )
                {
                break;
                }
            }
        for ( ; cI < 5; cI++ )    // display from there on
            {
            printf ( LCD_PutChar, "%c", cC [ cI ] );
            }
        printf ( LCD_PutChar, "nm  " );     // pad with blanks

        /*
        The least significant character from the GPS is 0.1 nm.
        Multiply whole thing by 10 and make it type long.
        Discern if increasing (FROM) or decreasing (TO).
        */
        iThisRange = 1000 * ( long ) ( cC [ 0 ] - 0x30 );
        iThisRange += 100 * ( long ) ( cC [ 1 ] - 0x30 );
        iThisRange += 10 * ( long ) ( cC [ 2 ] - 0x30 );
        iThisRange += ( long ) ( cC [ 4 ] - 0x30 );
        if ( iThisRange < iLastRange )
            {
            #if ( DISPLAY_COLS == 20 )
            strcpy ( cToFrom, "TO  " );
            #elif ( DISPLAY_COLS == 16 )
            strcpy ( cToFrom, "TO" );
            #endif
            }
        if ( iThisRange > iLastRange )
            {
            #if ( DISPLAY_COLS == 20 )
            strcpy ( cToFrom, "FROM" );
            #elif ( DISPLAY_COLS == 16 )
            strcpy ( cToFrom, "FM" );
            #endif
            }
        iLastRange = iThisRange;    // save this range to compare next time
        LCD_SetPosition ( cLine + 5 );
        printf ( LCD_PutChar, cToFrom );
        }
    else
        {
        LCD_SetPosition ( cLine + 5 );
        #if ( DISPLAY_COLS == 20 )
        printf ( LCD_PutChar, "               " );
        #elif ( DISPLAY_COLS == 16 )
        printf ( LCD_PutChar, "          " );
        #endif
        }
    }

#separate void DisplayBearing ( char cLine, char cX )
    {
    /*
    Compass variation comes from RMC sentence.  If RMC has not run yet
    then "T" is displayed after bearing.
    */
    long iHdg;
    char cTrueIndicator;

    if ( cX != 0 )           // if waypoint data to display
        {
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( cLine + 11 );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( cLine + 8 );
        #endif
        iHdg = FieldFiveToLong();
        iHdg = TrueToMag ( iHdg );    // factor variation into heading
        if ( ( iVar == NULL ) || ( cVarDir == SPACE ) )
            {
            cTrueIndicator = 'T';
            }
        else
            {
            cTrueIndicator = ' ';
            }
        printf ( LCD_PutChar, "%lu%c%c  ", iHdg, DEGREE, cTrueIndicator );   // pad with blanks
        }
    else
        {
        #if ( DISPLAY_COLS == 20 )
        LCD_SetPosition ( cLine + 11 );
        printf ( LCD_PutChar, "         " );
        #elif ( DISPLAY_COLS == 16 )
        LCD_SetPosition ( cLine + 8 );
        printf ( LCD_PutChar, "        " );
        #endif
        }
    }

#separate void DisplayLatitude ( char cLine )
    {
    /* Displays latitude ABCD.EF as AB CD.EF, appends 'N' or 'S' */
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( cLine + 8 );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( cLine + 5 );
    #endif
    if ( cC [ 0 ] == '0' )
        {
        cC [ 0 ] = SPACE;
        }
    printf ( LCD_PutChar, "%c%c%c", cC [ 0 ], cC [ 1 ], DEGREE );
    printf ( LCD_PutChar, "%c%c%c%c%c%c", cC [ 2 ], cC [ 3 ], cC [ 4 ], cC [ 5 ], cC [ 6 ], cC [ 7 ] );
    GetField();              // NS
    printf ( LCD_PutChar, " %c", cC [ 0 ] );
    }

#separate void DisplayLongitude ( char cLine )
    {
    /* Displays longitude ABCDE.FG as ABC DE.FG, appends 'E' or 'W' */
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( cLine + 7 );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( cLine + 4 );
    #endif
    if ( cC [ 0 ] == '0' )
        {
        cC [ 0 ] = SPACE;
        }
    if ( cC [ 1 ] == '0' )
        {
        cC [ 1 ] = SPACE;
        }
    printf ( LCD_PutChar, "%c%c%c%c", cC [ 0 ], cC [ 1 ], cC [ 2 ], DEGREE );
    printf ( LCD_PutChar, "%c%c%c%c%c%c", cC [ 3 ], cC [ 4 ], cC [ 5 ], cC [ 6 ], cC [ 7 ], cC [ 8 ] );
    GetField();              // EW
    printf ( LCD_PutChar, " %c", cC [ 0 ] );
    }

#separate void DisplaySpeed ( char cLine )
    {
    float fX;

    // Format ABC.D
    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( cLine + 8 );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( cLine + 5 );
    #endif
    fX = 100 * ( cC [ 0 ] - 0x30 );
    fX += 10 * ( cC [ 1 ] - 0x30 );
    fX += 1 * ( cC [ 2 ] - 0x30 );
    fX += 0.1 * ( cC [ 4 ] - 0x30 );
    #if SPEED_UNITS == 2
    fX *= 1.852;        // convert knots to km/h
    #endif
    #if SPEED_UNITS == 3
    fX *= 1.151;        // convert knots to mi/h
    #endif
    printf ( LCD_PutChar, "%3.1f ", fX );  // print it to the screen
    #if SPEED_UNITS == 1
    printf ( LCD_PutChar, "kts    " );     // print it to the screen
    #endif
    #if SPEED_UNITS == 2
    printf ( LCD_PutChar, "kph    " );     // print it to the screen
    #endif
    #if SPEED_UNITS == 3
    printf ( LCD_PutChar, "mph    " );     // print it to the screen
    #endif
    }

#separate void DisplayHeading ( char cLine )
    {
    long iHdg;

    #if ( DISPLAY_COLS == 20 )
    LCD_SetPosition ( cLine + 8 );
    #elif ( DISPLAY_COLS == 16 )
    LCD_SetPosition ( cLine + 5 );
    #endif
    iHdg = FieldFiveToLong();
    SkipField ( 1 );     // skip fix date
    GetField();             // MAGNETIC VARIATION
    iVar = FieldFiveToLong();     // save to global variable, used in other sentences
    GetField();     // EW
    cVarDir = cC [ 0 ];     // save direction
    iHdg = TrueToMag ( iHdg );    // factor variation into heading
    printf ( LCD_PutChar, "%lu%c  ", iHdg, DEGREE );    // pad with blanks
    }

#separate long FieldFiveToLong ( void )
    {
    /* Converts ABC.D to long, rounds decimal up or down */
    long iX;

    iX = 100 * ( long ) ( cC [ 0 ] - 0x30 );
    iX += 10 * ( long ) ( cC [ 1 ] - 0x30 );
    iX += ( long ) ( cC [ 2 ] - 0x30 );
    if ( ( cC [ 3 ] == PERIOD ) && ( cC [ 4 ] >= '5' ) )
        {
        iX++;           // round up
        }
    return ( iX );
    }

#separate long TrueToMag ( long iH )
    {
    /* Magnetic variation information comes from the RMC sentence */

    if ( cVarDir == 'W' )
        {
        iH += iVar;
        }
    else
        {
        if ( iH >= iVar )
            {
            iH -= iVar;     // OK as-is
            }
        else
            {
            iH = iH + 360 - iVar;   // correct for below zero
            }
        }
    if ( iH >= 360 )
        {
        iH -= 360;
        }
    return ( iH );
    }

#separate void DisplayMessage ( char cMsgNum )
    {
    LCD_PutCmd ( CLEAR_DISP );
    LCD_SetPosition ( LINE_2 );
    switch ( cMsgNum )
        {
        case WARNING_MSG:
            {
            #if ( DISPLAY_COLS == 20 )
            printf ( LCD_PutChar,     "    GPS warning   " );
            #elif ( DISPLAY_COLS == 16 )
            printf ( LCD_PutChar, "  GPS warning" );
            #endif
            break;
            }
        case NODATA_MSG:
            {
            if ( cRxErrorFlag == OFF )    // is it a framing error problem ?
                {
                #if ( DISPLAY_COLS == 20 )
                printf ( LCD_PutChar, "  No data from GPS" );
                #elif ( DISPLAY_COLS == 16 )
                printf ( LCD_PutChar, "No data from GPS" );
                #endif
                }
            else
                {
                #if ( DISPLAY_COLS == 20 )
                printf ( LCD_PutChar, "     Baud error" );
                #elif ( DISPLAY_COLS == 16 )
                printf ( LCD_PutChar, "   Baud error" );
                #endif
                cRxErrorFlag = OFF;
                }
            break;
            }
        }
    Delay5mS ( 255 );                   // delay 1.25 seconds
    iVar = NULL;
    cVarDir = SPACE;                     // signal "no magnetic variation" yet
    cScreenChanged = YES;
    }

#separate void Delay5mS ( char cCnt )
    {
    char cX;

    /* This variable-count 5mS delay is interruptable by a button press */
    for ( cX = 0; cX < cCnt; cX++ )
        {
        if ( cScreenChanged == YES )
            {
            break;
            }
        delay_ms ( 5 );
        }
    }

#separate char GetField ( void )
    {
    char cX, cIndex;

    cX = NULL;
    cIndex = 0;
    while ( !cSkip )
        {
        cX = GetRxChar();
        if ( ( cX == COMMA ) || ( cX == CR ) )
            {
            break;
            }
        cC [ cIndex++ ] = cX;
        }
    cC [ cIndex ] = EOF;
    return ( cIndex );         // return number of characters in field
    }

#separate void SkipField ( char cCnt )
    {
    char cX;

    for ( cX = 0; cX < cCnt; cX++ )
        {
        while ( GetRxChar() != COMMA );
        }
    }

/* RS232 FUNCTIONS ================================================== */

#separate void InitRxBuffer ( char cCode )
    {
    disable_interrupts ( INT_RDA );
    cRxBufferWritePtr = cRxBuffer;      // point to beginning of buffer
    cRxBufferReadPtr = cRxBuffer;
    cRxByteCnt = 0;
    cRxIsrState = 0;
    cRxMsgReady = NO;
    cRxMsgTypeDesired = cCode;
    enable_interrupts ( INT_RDA );
    }

#separate char GetRxChar ( void )
    {
    // Get the next available byte in the recv fifo.
    // Call this function ONLY if the recv fifo contains data.
    char cValue;

    cValue = 0;
    if ( cRxByteCnt > 0 )       // For safety, check if there is any data
        {
        cValue = *cRxBufferReadPtr++;     // Read byte from fifo
        if ( cRxBufferReadPtr == ( cRxBuffer + RX_BUFFER_SIZE ) ) // Did tail ptr wrap ?
            {
            cRxBufferReadPtr = cRxBuffer;    // If so, reset it to start of buffer
            }
        cRxByteCnt--; // Decrement byte count
        }
    return ( cValue );
    }

/* LCD FUNCTIONS ================================= */

#separate void LCD_Init ( void )
    {
    LCD_SetData ( 0x00 );
    delay_ms ( 200 );       /* wait enough time after Vdd rise */
    output_low ( LCD_RS );
    LCD_SetData ( 0x03 );   /* init with specific nibbles to start 4-bit mode */
    LCD_PulseEnable();
    LCD_PulseEnable();
    LCD_PulseEnable();
    LCD_SetData ( 0x02 );   /* set 4-bit interface */
    LCD_PulseEnable();      /* send dual nibbles hereafter, MSN first */
    LCD_PutCmd ( 0x2C );    /* function set (all lines, 5x7 characters) */
    LCD_PutCmd ( 0x0C );    /* display ON, cursor off, no blink */
    LCD_PutCmd ( 0x01 );    /* clear display */
    LCD_PutCmd ( 0x06 );    /* entry mode set, increment & scroll left */
    }

#separate void LCD_SetPosition ( unsigned int cX )
    {
    /* this subroutine works specifically for 4-bit Port A */
    LCD_SetData ( swap ( cX ) | 0x08 );
    LCD_PulseEnable();
    LCD_SetData ( swap ( cX ) );
    LCD_PulseEnable();
    }

#separate void LCD_PutChar ( unsigned int cX )
    {
    /* this subroutine works specifically for 4-bit Port A */
    if ( !cSkip )
        {
        output_high ( LCD_RS );
        LCD_SetData ( swap ( cX ) );     /* send high nibble */
        LCD_PulseEnable();
        LCD_SetData ( swap ( cX ) );     /* send low nibble */
        LCD_PulseEnable();
        output_low ( LCD_RS );
        }
    }

#separate void LCD_PutCmd ( unsigned int cX )
    {
    /* this subroutine works specifically for 4-bit Port A */
    LCD_SetData ( swap ( cX ) );     /* send high nibble */
    LCD_PulseEnable();
    LCD_SetData ( swap ( cX ) );     /* send low nibble */
    LCD_PulseEnable();
    }

#separate void LCD_PulseEnable ( void )
    {
    output_high ( LCD_EN );
    delay_us ( 3 );         // was 10
    output_low ( LCD_EN );
    delay_ms ( 3 );         // was 5
    }

#separate void LCD_SetData ( unsigned int cX )
    {
    output_bit ( LCD_D0, cX & 0x01 );
    output_bit ( LCD_D1, cX & 0x02 );
    output_bit ( LCD_D2, cX & 0x04 );
    output_bit ( LCD_D3, cX & 0x08 );
    }