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

 Title  :   C  file for the HD44780U LCD library (lcd_io.c)

 Author:    Chris efstathiou hendrix@otenet.gr

 Date:      1/Jul/2002

 Software:  AVR-GCC with AVR-AS

 Target:    any AVR device

 Comments:  This software is FREE.

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

#ifndef _IO_REG_MACRO_MODE_

#define _IO_REG_MACRO_MODE_  1     /* In case you have the new assignment mode io headers */

#endif

#ifndef  _SFR_ASM_COMPAT

#define  _SFR_ASM_COMPAT     1     /* This is for GCC 3.2 */

#endif

#include <io.h>

#include <progmem.h>

#include <eeprom.h>

#include "lcd_io.h"

/* constants/macros */

#ifndef CONCAT1

#define CONCAT1(a, b) CONCAT2(a, b)

#endif

#ifndef CONCAT2

#define CONCAT2(a, b) a ## b

#endif

#define LCD_POWER_ON_DELAY ( (20000*(F_CPU/60000))/100 )    /* 20 milliseconds */

#define LCD_INIT_DELAY     ( (5000*(F_CPU/60000))/100 )     /* 5 milliseconds */

#define INIT_MODE   2

#define DATA_MODE   1

#define CMD_MODE    0

/* CONVERSION OF LCD_DELAY_TIME TO TRUE MICROSECONDS */

#if LCD_READ_REQUIRED == 0 || LCD_IO_MODE == 2 || LCD_IO_MODE == 7

#define LCD_DELAY_SHORT ( (LCD_DELAY_TIME*(F_CPU/60000))/100 )

#define LCD_DELAY_LONG  ( LCD_DELAY_SHORT*40 )

#endif

/*######################################################################################################*/

#if LCD_IO_MODE == 2

/*######################################################################################################*/

#define LCD_DATA_PORT_IS_IO   1

#define LCD_CLOCK_PORT_IS_IO  1

#define LCD_DATA_PORT         CONCAT1(PORT,LCD_DATA_SIGNAL_PORT)

#define LCD_DATA_DDR_REG      CONCAT1(DDR,LCD_DATA_SIGNAL_PORT)

#define LCD_CLOCK_PORT        CONCAT1(PORT,LCD_CLOCK_SIGNAL_PORT) 

#define LCD_CLOCK_DDR_REG     CONCAT1(DDR,LCD_CLOCK_SIGNAL_PORT) 

#define LCD_READ_REQUIRED 0

#if defined(__AVR_ATmega103__)

#if LCD_DATA_PORT == PORTC 

#undef  LCD_DATA_PORT_IS_IO

#undef  LCD_DATA_DDR_REG

#define LCD_DATA_PORT_IS_IO   0

#endif

#if LCD_CLOCK_PORT == PORTC 

#undef  LCD_CLOCK_PORT_IS_IO

#undef  LCD_CLOCK_DDR_REG

#define LCD_CLOCK_PORT_IS_IO  0

#endif

#endif /* #if defined(__AVR_ATmega103__) */

/*######################################################################################################*/

#elif LCD_IO_MODE == 6

/*######################################################################################################*/

#define lcd_toggle_e()   ({ cbi(LCD_E_PORT, LCD_E_PIN); delay(F_CPU/6000000); \

                            sbi(LCD_E_PORT, LCD_E_PIN);  })

#if LCD_READ_REQUIRED == 1  

#undef  LCD_MULTIPLEX_REQUIRED

#define LCD_MULTIPLEX_REQUIRED   0

#define BUSY_FLAG   0

#define DATA        1

#endif

#if LCD_LINES == 1 || LCD_LINES == 2 || LCD_LINES == 4

#else

#error THE LCD LINES MUST BE 1 OR 2 OR 4 !

#endif

#define LCD_D4_PORT_IS_IO     1   

#define LCD_D5_PORT_IS_IO     1   

#define LCD_D6_PORT_IS_IO     1 

#define LCD_D7_PORT_IS_IO     1

#define LCD_RS_PORT_IS_IO     1

#define LCD_RW_PORT_IS_IO     1

#define LCD_E_PORT_IS_IO      1

#define LCD_D4_PORT           CONCAT1(PORT, LCD_DATA4_PORT)

#define LCD_D5_PORT           CONCAT1(PORT, LCD_DATA5_PORT)

#define LCD_D6_PORT           CONCAT1(PORT, LCD_DATA6_PORT)

#define LCD_D7_PORT           CONCAT1(PORT, LCD_DATA7_PORT)

#define LCD_RS_PORT           CONCAT1(PORT, LCD_RS_SIGNAL_PORT)

#define LCD_RW_PORT           CONCAT1(PORT, LCD_RW_SIGNAL_PORT)

#define LCD_E_PORT            CONCAT1(PORT, LCD_E_SIGNAL_PORT)

#define LCD_D4_DDR_REG        CONCAT1(DDR, LCD_DATA4_PORT)

#define LCD_D5_DDR_REG        CONCAT1(DDR, LCD_DATA5_PORT)

#define LCD_D6_DDR_REG        CONCAT1(DDR, LCD_DATA6_PORT)

#define LCD_D7_DDR_REG        CONCAT1(DDR, LCD_DATA7_PORT)

#define LCD_RS_DDR_REG        CONCAT1(DDR, LCD_RS_SIGNAL_PORT)

#define LCD_RW_DDR_REG        CONCAT1(DDR, LCD_RW_SIGNAL_PORT)

#define LCD_E_DDR_REG         CONCAT1(DDR, LCD_E_SIGNAL_PORT)

#if   LCD_READ_REQUIRED == 1

#define LCD_D4_PIN_REG        CONCAT1(PIN, LCD_DATA4_PORT)

#define LCD_D5_PIN_REG        CONCAT1(PIN, LCD_DATA5_PORT)

#define LCD_D6_PIN_REG        CONCAT1(PIN, LCD_DATA6_PORT)

#define LCD_D7_PIN_REG        CONCAT1(PIN, LCD_DATA7_PORT)

#elif LCD_READ_REQUIRED == 0

#undef LCD_RW_PORT

#undef LCD_RW_DDR_REG

#undef LCD_RW_PORT_IS_IO

#endif

#if defined(__AVR_ATmega103__)

#if LCD_D4_PORT == PORTC 

#if LCD_READ_REQUIRED == 1

#error THE PORT FOR LCD_D4 IS OUTPUT ONLY!

#endif

#undef  LCD_D4_PORT_IS_IO

#undef  LCD_D4_DDR_REG 

#define LCD_D4_PORT_IS_IO   0

#endif

#if LCD_D5_PORT == PORTC 

#if LCD_READ_REQUIRED == 1

#error THE PORT FOR LCD_D5 IS OUTPUT ONLY!

#endif

#undef  LCD_D5_PORT_IS_IO

#undef  LCD_D5_DDR_REG 

#define LCD_D5_PORT_IS_IO   0

#endif

#if LCD_D6_PORT == PORTC 

#if LCD_READ_REQUIRED == 1

#error THE PORT FOR LCD_D6 IS OUTPUT ONLY!

#endif

#undef  LCD_D6_PORT_IS_IO

#undef  LCD_D6_DDR_REG 

#define LCD_D6_PORT_IS_IO   0

#endif

#if LCD_D7_PORT == PORTC 

#if LCD_READ_REQUIRED == 1

#error THE PORT FOR LCD_D7 IS OUTPUT ONLY!

#endif

#undef  LCD_D7_PORT_IS_IO

#undef  LCD_D7_DDR_REG 

#define LCD_D7_PORT_IS_IO   0

#endif

#if LCD_RS_PORT == PORTC 

#undef  LCD_RS_PORT_IS_IO

#undef  LCD_RS_DDR_REG 

#define LCD_RS_PORT_IS_IO   0

#endif

#if LCD_READ_REQUIRED == 1 

#if LCD_RW_PORT == PORTC 

#undef  LCD_RW_PORT_IS_IO

#undef  LCD_RW_DDR_REG 

#define LCD_RW_PORT_IS_IO   0

#endif 

#endif

#if LCD_E_PORT == PORTC 

#undef  LCD_E_PORT_IS_IO

#undef  LCD_E_DDR_REG 

#define LCD_E_PORT_IS_IO    0

#endif

#endif /* #if defined(__AVR_ATmega103__) */

/*######################################################################################################*/

#elif LCD_IO_MODE == 7

/*######################################################################################################*/

#define lcd_toggle_e()   ({ cbivar(lcd_E_port, lcd_E_pin); delay(F_CPU/6000000); \

                            sbivar(lcd_E_port, lcd_E_pin);  })

#if SREG > 0X3F

#define IO_TO_MEM_OFFSET  0

#else

#define IO_TO_MEM_OFFSET  0X20

#endif

#define LCD_READ_REQUIRED 0  

#if LCD_0_LINES == 1 || LCD_0_LINES == 2 || LCD_0_LINES == 4

#else

#error THE LCD LINES MUST BE 1 OR 2 OR 4 !

#endif

#if LCD_1_LINES == 1 || LCD_1_LINES == 2 || LCD_1_LINES == 4

#else

#error THE LCD LINES MUST BE 1 OR 2 OR 4 !

#endif

#if NUMBER_OF_LCD_UNITS >= 3

#if LCD_2_LINES == 1 || LCD_2_LINES == 2 || LCD_2_LINES == 4

#else

#error THE LCD LINES MUST BE 1 OR 2 OR 4 !

#endif

#endif

#define LCD_D4_PORT_IS_IO     1   

#define LCD_D5_PORT_IS_IO     1   

#define LCD_D6_PORT_IS_IO     1 

#define LCD_D7_PORT_IS_IO     1

#define LCD_RS_PORT_IS_IO     1

#define LCD_0_E_PORT_IS_IO    1

#define LCD_1_E_PORT_IS_IO    1

#if NUMBER_OF_LCD_UNITS >=3

#define LCD_2_E_PORT_IS_IO    1

#endif

#define LCD_D4_PORT           CONCAT1(PORT, LCD_DATA4_PORT)

#define LCD_D5_PORT           CONCAT1(PORT, LCD_DATA5_PORT)

#define LCD_D6_PORT           CONCAT1(PORT, LCD_DATA6_PORT)

#define LCD_D7_PORT           CONCAT1(PORT, LCD_DATA7_PORT)

#define LCD_RS_PORT           CONCAT1(PORT, LCD_RS_SIGNAL_PORT)

#define LCD_0_E_PORT          CONCAT1(PORT, LCD_0_E_SIGNAL_PORT)

#define LCD_1_E_PORT          CONCAT1(PORT, LCD_1_E_SIGNAL_PORT)

#if NUMBER_OF_LCD_UNITS >=3

#define LCD_2_E_PORT          CONCAT1(PORT, LCD_2_E_SIGNAL_PORT)

#endif

#define LCD_D4_DDR_REG        CONCAT1(DDR, LCD_DATA4_PORT)

#define LCD_D5_DDR_REG        CONCAT1(DDR, LCD_DATA5_PORT)

#define LCD_D6_DDR_REG        CONCAT1(DDR, LCD_DATA6_PORT)

#define LCD_D7_DDR_REG        CONCAT1(DDR, LCD_DATA7_PORT)

#define LCD_RS_DDR_REG        CONCAT1(DDR, LCD_RS_SIGNAL_PORT)

#define LCD_0_E_DDR_REG       CONCAT1(DDR, LCD_0_E_SIGNAL_PORT)

#define LCD_1_E_DDR_REG       CONCAT1(DDR, LCD_1_E_SIGNAL_PORT)

#if NUMBER_OF_LCD_UNITS >=3

#define LCD_2_E_DDR_REG       CONCAT1(DDR, LCD_2_E_SIGNAL_PORT)

#endif

#if defined(__AVR_ATmega103__)

#if LCD_D4_PORT == PORTC 

#undef  LCD_D4_PORT_IS_IO

#undef  LCD_D4_DDR_REG 

#define LCD_D4_PORT_IS_IO   0

#endif

#if LCD_D5_PORT == PORTC 

#undef  LCD_D5_PORT_IS_IO

#undef  LCD_D5_DDR_REG 

#define LCD_D5_PORT_IS_IO   0

#endif

#if LCD_D6_PORT == PORTC 

#undef  LCD_D6_PORT_IS_IO

#undef  LCD_D6_DDR_REG 

#define LCD_D6_PORT_IS_IO   0

#endif

#if LCD_D7_PORT == PORTC 

#undef  LCD_D7_PORT_IS_IO

#undef  LCD_D7_DDR_REG 

#define LCD_D7_PORT_IS_IO   0

#endif

#if LCD_RS_PORT == PORTC 

#undef  LCD_RS_PORT_IS_IO

#undef  LCD_RS_DDR_REG 

#define LCD_RS_PORT_IS_IO   0

#endif

#if LCD_0_E_PORT == PORTC 

#undef  LCD_0_E_PORT_IS_IO

#undef  LCD_0_E_DDR_REG 

#define LCD_0_E_PORT_IS_IO  0

#endif

#if LCD_1_E_PORT == PORTC 

#undef  LCD_1_E_PORT_IS_IO

#undef  LCD_1_E_DDR_REG 

#define LCD_1_E_PORT_IS_IO  0

#endif

#if NUMBER_OF_LCD_UNITS >=3

#if LCD_2_E_PORT == PORTC 

#undef  LCD_2_E_PORT_IS_IO

#undef  LCD_2_E_DDR_REG 

#define LCD_2_E_PORT_IS_IO  0

#endif

#endif  /*  #if NUMBER_OF_LCD_UNITS >=3  */

#endif  /*  #if defined(__AVR_ATmega103__)  */

#endif  /*  #elif LCD_IO_MODE == 7 */   

/*######################################################################################################*/

/* type definitions */

typedef unsigned char  u08;

typedef unsigned short u16;

/*######################################################################################################*/

/* FUNCTION PROTOTYPES                                                                                  */

/*######################################################################################################*/

#if LCD_IO_MODE == 7

static void sbivar(unsigned char port, unsigned char bit);

static void cbivar(unsigned char port, unsigned char bit);

#endif

#if  LCD_READ_REQUIRED == 1

static unsigned char lcd_read(unsigned char rs);

static inline unsigned char lcd_waitbusy(void);

#endif

static void delay(unsigned long int us);

/*######################################################################################################*/

/* GLOBAL variables                                                                                     */

/*######################################################################################################*/

static unsigned char x,y, putc_lock=0;

#if LCD_IO_MODE == 7

static unsigned char lcd_E_port=0, lcd_E_pin=0, lcd_chars_per_line=0, lcd_lines=0, current_lcd_unit=0;

static struct xy {

                   unsigned char x;

                   unsigned char y;

                 } xy_coordinates[NUMBER_OF_LCD_UNITS];

#endif

/*######################################################################################################*/

/* local functions */

/*######################################################################################################*/

static void delay(unsigned long int us)

/* delay for a minimum of <us> microseconds (with a 6 Mhz crystal, the resolution is 1 us) */

{

   while ( us ) { us--; }  /* 6 cpu cycles per loop */

} 

/*######################################################################################################*/

#if LCD_IO_MODE == 7   /* lcd_write() function for 6 bit i/o one lcd unit */

/*######################################################################################################*/

static void sbivar(unsigned char port, unsigned char bit)

{

register unsigned char temp=0;

    temp=*((unsigned char*)(port+IO_TO_MEM_OFFSET));

    temp|= (1<<bit);

    *((unsigned char*)(port+IO_TO_MEM_OFFSET))=temp;

return;

}

/*######################################################################################################*/

static void cbivar(unsigned char port, unsigned char bit)

{

register unsigned char temp=0;

    temp=*((unsigned char*)(port+IO_TO_MEM_OFFSET));

    temp &= ~(1<<bit);

    *((unsigned char*)(port+IO_TO_MEM_OFFSET))=temp;

return;

}

/*######################################################################################################*/

static void lcd_write(unsigned char data, unsigned char mode) 

{

register unsigned char rs=0; 

       if(mode==DATA_MODE) rs=1; else rs=0;          /* set the rs value */

       /* output high nibble first */ 

       if(data&0x10) sbi(LCD_D4_PORT, LCD_D4_PIN);   else cbi(LCD_D4_PORT, LCD_D4_PIN);

       if(data&0x20) sbi(LCD_D5_PORT, LCD_D5_PIN);   else cbi(LCD_D5_PORT, LCD_D5_PIN);

       if(data&0x40) sbi(LCD_D6_PORT, LCD_D6_PIN);   else cbi(LCD_D6_PORT, LCD_D6_PIN);

       if(data&0x80) sbi(LCD_D7_PORT, LCD_D7_PIN);   else cbi(LCD_D7_PORT, LCD_D7_PIN);

       if(rs) sbi(LCD_RS_PORT, LCD_RS_PIN);          else cbi(LCD_RS_PORT, LCD_RS_PIN);

       lcd_toggle_e();

       /* output low nibble */

       /* if INIT_MODE skip this section else execute it */

       if(mode!=INIT_MODE)

        {

          if(data&0x01) sbi(LCD_D4_PORT, LCD_D4_PIN);   else cbi(LCD_D4_PORT, LCD_D4_PIN);

          if(data&0x02) sbi(LCD_D5_PORT, LCD_D5_PIN);   else cbi(LCD_D5_PORT, LCD_D5_PIN);

          if(data&0x04) sbi(LCD_D6_PORT, LCD_D6_PIN);   else cbi(LCD_D6_PORT, LCD_D6_PIN);

          if(data&0x08) sbi(LCD_D7_PORT, LCD_D7_PIN);   else cbi(LCD_D7_PORT, LCD_D7_PIN);

          if(rs) sbi(LCD_RS_PORT, LCD_RS_PIN);          else cbi(LCD_RS_PORT, LCD_RS_PIN);

          lcd_toggle_e();

        }

 delay(LCD_DELAY_SHORT);

}

/*------------------------------------------------------------------------------------------------------*/

void  select_lcd(unsigned char lcd_unit)

{

/* Save the current lcd unit x,y coordinates */

   xy_coordinates[current_lcd_unit].x=x;

   xy_coordinates[current_lcd_unit].y=y;

   if(lcd_unit==0)

    {

       lcd_E_port= LCD_0_E_PORT;

       lcd_E_pin = LCD_0_E_PIN;

       lcd_chars_per_line = LCD_0_CHARS_PER_LINE;

       lcd_lines = LCD_0_LINES;

       current_lcd_unit=lcd_unit;     /* Make the requested lcd unit current (active) */

       x=xy_coordinates[lcd_unit].x;  /* Load the saved x,y coordinates of the specified lcd unit */

       y=xy_coordinates[lcd_unit].y;

    }

   else if(lcd_unit==1)

         {

            lcd_E_port= LCD_1_E_PORT;

            lcd_E_pin = LCD_1_E_PIN;

            lcd_chars_per_line = LCD_1_CHARS_PER_LINE;

            lcd_lines = LCD_1_LINES;

            current_lcd_unit=lcd_unit;

            x=xy_coordinates[lcd_unit].x;

            y=xy_coordinates[lcd_unit].y;

         }

#if NUMBER_OF_LCD_UNITS >=3

   else if(lcd_unit==2)

         {

            lcd_E_port= LCD_2_E_PORT;

            lcd_E_pin = LCD_2_E_PIN;

            lcd_chars_per_line = LCD_2_CHARS_PER_LINE;

            lcd_lines = LCD_2_LINES;

            current_lcd_unit=lcd_unit;

            x=xy_coordinates[lcd_unit].x;

            y=xy_coordinates[lcd_unit].y;

         }

#endif

return;

}

/*######################################################################################################*/

#elif LCD_IO_MODE == 6   /* lcd_write() function for 6 bit i/o  with multi lcd units */

/*######################################################################################################*/

#if LCD_READ_REQUIRED == 1 

#define LCD_READ_DELAY  ( (10*(F_CPU/60000))/100 )

static unsigned char lcd_read(unsigned char rs) 

{

register unsigned char data=0;

/* RS=1: read data, RS=0: read busy flag, RW=1  read mode */  

    if (rs) sbi(LCD_RS_PORT, LCD_RS_PIN); else cbi(LCD_RS_PORT, LCD_RS_PIN);    

    /* configure data pins as input */

    cbi(LCD_D4_DDR_REG, LCD_D4_PIN );

    cbi(LCD_D5_DDR_REG, LCD_D5_PIN );

    cbi(LCD_D6_DDR_REG, LCD_D6_PIN );

    cbi(LCD_D7_DDR_REG, LCD_D7_PIN );

    /* set R/W pin for reading from LCD */

    sbi(LCD_RW_PORT, LCD_RW_PIN); 

    delay(LCD_READ_DELAY);

    if(bit_is_set(LCD_D7_PIN_REG, LCD_D7_PIN)) { data+=1; }

    data=(data<<1);

    if(bit_is_set(LCD_D6_PIN_REG, LCD_D6_PIN)) { data+=1; }

    data=(data<<1);

    if(bit_is_set(LCD_D5_PIN_REG, LCD_D5_PIN)) { data+=1; }

    data=(data<<1);

    if(bit_is_set(LCD_D4_PIN_REG, LCD_D4_PIN)) { data+=1; }

    data=(data<<1);

    lcd_toggle_e();

    delay(LCD_READ_DELAY);

    if(bit_is_set(LCD_D7_PIN_REG, LCD_D7_PIN)) { data+=1; }

    data=(data<<1);

    if(bit_is_set(LCD_D6_PIN_REG, LCD_D6_PIN)) { data+=1; }

    data=(data<<1);

    if(bit_is_set(LCD_D5_PIN_REG, LCD_D5_PIN)) { data+=1; }

    data=(data<<1);

    if(bit_is_set(LCD_D4_PIN_REG, LCD_D4_PIN)) { data+=1; }

    lcd_toggle_e();

    /* clear R/W pin for writting to LCD */

    cbi(LCD_RW_PORT, LCD_RW_PIN);      

    /* configure data pins as outputs */

    sbi(LCD_D4_DDR_REG, LCD_D4_PIN );

    sbi(LCD_D5_DDR_REG, LCD_D5_PIN );

    sbi(LCD_D6_DDR_REG, LCD_D6_PIN );

    sbi(LCD_D7_DDR_REG, LCD_D7_PIN );

return (data);

}

/*######################################################################################################*/

static inline unsigned char lcd_waitbusy(void)

/* loops while lcd is busy, reads address counter */

{

register unsigned char c;

    while ( (c=lcd_read(BUSY_FLAG) & (1<<LCD_BUSY)) ); 

    return (c);  // return address counter

}

#endif  /* #if LCD_READ_REQUIRED == 1  */

/*######################################################################################################*/

static void lcd_write(unsigned char data, unsigned char mode) 

{

register unsigned char rs=0; 

 /* save and set DDR(X) register(s) in case another program altered those values */

#if LCD_MULTIPLEX_ENABLE == 1

#if LCD_D4_PORT_IS_IO==1

unsigned char d4_is_output=0;

if(inp(LCD_D4_DDR_REG)&(1<<LCD_D4_PIN)) { d4_is_output=1; }

sbi(LCD_D4_DDR_REG, LCD_D4_PIN );

#endif

#if LCD_D5_PORT_IS_IO==1

unsigned char d5_is_output=0;

if(inp(LCD_D5_DDR_REG)&(1<<LCD_D5_PIN)) { d5_is_output=1; }

sbi(LCD_D5_DDR_REG, LCD_D5_PIN );

#endif

#if LCD_D6_PORT_IS_IO==1

unsigned char d6_is_output=0;

if(inp(LCD_D6_DDR_REG)&(1<<LCD_D6_PIN)) { d6_is_output=1; }

sbi(LCD_D6_DDR_REG, LCD_D6_PIN );

#endif

#if LCD_D7_PORT_IS_IO==1

unsigned char d7_is_output=0;

if(inp(LCD_D7_DDR_REG)&(1<<LCD_D7_PIN)) { d7_is_output=1; }

sbi(LCD_D7_DDR_REG, LCD_D7_PIN );

#endif

#if LCD_RS_PORT_IS_IO==1

unsigned char rs_is_output=0;

if(inp(LCD_RS_DDR_REG)&(1<<LCD_RS_PIN)) { rs_is_output=1; }

sbi(LCD_RS_DDR_REG, LCD_RS_PIN );

#endif

#endif  /* LCD_MULTIPLEX_ENABLE == 1 */

       if(mode==DATA_MODE) rs=1; else rs=0;          /* set the rs value */

       /* output high nibble first */ 

       if(data&0x10) sbi(LCD_D4_PORT, LCD_D4_PIN);   else cbi(LCD_D4_PORT, LCD_D4_PIN);

       if(data&0x20) sbi(LCD_D5_PORT, LCD_D5_PIN);   else cbi(LCD_D5_PORT, LCD_D5_PIN);

       if(data&0x40) sbi(LCD_D6_PORT, LCD_D6_PIN);   else cbi(LCD_D6_PORT, LCD_D6_PIN);

       if(data&0x80) sbi(LCD_D7_PORT, LCD_D7_PIN);   else cbi(LCD_D7_PORT, LCD_D7_PIN);

       if(rs) sbi(LCD_RS_PORT, LCD_RS_PIN);          else cbi(LCD_RS_PORT, LCD_RS_PIN);

       lcd_toggle_e();

       /* output low nibble */

       /* if INIT_MODE skip this section else execute it */

       if(mode!=INIT_MODE)

        {

          if(data&0x01) sbi(LCD_D4_PORT, LCD_D4_PIN);   else cbi(LCD_D4_PORT, LCD_D4_PIN);

          if(data&0x02) sbi(LCD_D5_PORT, LCD_D5_PIN);   else cbi(LCD_D5_PORT, LCD_D5_PIN);

          if(data&0x04) sbi(LCD_D6_PORT, LCD_D6_PIN);   else cbi(LCD_D6_PORT, LCD_D6_PIN);

          if(data&0x08) sbi(LCD_D7_PORT, LCD_D7_PIN);   else cbi(LCD_D7_PORT, LCD_D7_PIN);

          if(rs) sbi(LCD_RS_PORT, LCD_RS_PIN);          else cbi(LCD_RS_PORT, LCD_RS_PIN);

          lcd_toggle_e();

        }

#if   LCD_READ_REQUIRED == 0

 delay(LCD_DELAY_SHORT);

#elif LCD_READ_REQUIRED == 1

 lcd_waitbusy();

#endif

/* Restore the DDR registers, if multiplexing wanted */     

#if LCD_MULTIPLEX_ENABLE == 1 

#if LCD_D4_PORT_IS_IO==1

if(!d4_is_output) { cbi(LCD_D4_DDR_REG, LCD_D4_PIN ); } 

#endif

#if LCD_D5_PORT_IS_IO==1

if(!d5_is_output) { cbi(LCD_D5_DDR_REG, LCD_D5_PIN ); }

#endif

#if LCD_D6_PORT_IS_IO==1

if(!d6_is_output) { cbi(LCD_D6_DDR_REG, LCD_D6_PIN ); }

#endif

#if LCD_D7_PORT_IS_IO==1

if(!d7_is_output) { cbi(LCD_D7_DDR_REG, LCD_D7_PIN ); }

#endif

#if LCD_RS_PORT_IS_IO==1

if(!rs_is_output) { cbi(LCD_RS_DDR_REG, LCD_RS_PIN ); }

#endif

#endif  /* LCD_MULTIPLEX_ENABLE == 1 */

}

/*######################################################################################################*/

#elif LCD_IO_MODE == 2  /* lcd_write() function for 2 bit i/o */

/*######################################################################################################*/

static void lcd_write(unsigned char lcd_data,unsigned char mode) 

{

#define toggle_clock() ({ sbi(LCD_CLOCK_PORT, LCD_CLOCK_PIN); cbi(LCD_CLOCK_PORT, LCD_CLOCK_PIN); }) 

#define data(x) ({ if(x) sbi(LCD_DATA_PORT, LCD_DATA_PIN); else cbi(LCD_DATA_PORT, LCD_DATA_PIN); })        

#define toggle_data()       ({ data(1); delay(F_CPU/6000000); data(0); })

register unsigned char x=0, rs=0;

       /* INITIALIZATION */

       /* Set clock and data pins as outputs, at low state and set rs value */ 

#if LCD_CLOCK_PORT_IS_IO

  sbi(LCD_CLOCK_DDR_REG, LCD_CLOCK_PIN); 

#endif

#if LCD_DATA_PORT_IS_IO

  sbi(LCD_DATA_DDR_REG, LCD_DATA_PIN);

#endif

       cbi(LCD_CLOCK_PORT, LCD_CLOCK_PIN); cbi(LCD_DATA_PORT, LCD_DATA_PIN); 

       if(mode==DATA_MODE) rs=1; else rs=0;

       /* send high nibble first */

       x=6; while(x--)   {  toggle_clock();  }           /* clear shift register */           

       data(1);             toggle_clock();              /* send E "AND" signal */

       data(rs);            toggle_clock();              /* send RS signal */

       x=0x80; while(x>=0x10) { data(lcd_data&x); toggle_clock(); x=(x>>1); }

       /* Strobe E pin making sure that the pulse is 450 ns min */

       toggle_data();   

       /* send low nibble  Clock and Data are already low */

       x=6; while(x--)   {  toggle_clock();  }           /* clear shift register */       

       data(1);             toggle_clock();              /* send E "AND" signal */

       data(rs);            toggle_clock();              /* send RS signal */

       x=0x08; while(x>=0x01) { data(lcd_data&x); toggle_clock(); x=(x>>1); }

       /* if INIT_MODE do NOT strobe the E pin else strobe it */

       if(mode!=INIT_MODE) { toggle_data(); }       

       delay(LCD_DELAY_SHORT);     /* wait for command to execute  */     

}

/*######################################################################################################*/

#endif /* #elif LCD_IO_MODE == 2 */

/*######################################################################################################*/

/*######################################################################################################*/

/* PUBLIC FUNCTIONS */

/*######################################################################################################*/

void lcd_command(unsigned char cmd)

/* send command <cmd> to LCD */

{

    lcd_write(cmd,CMD_MODE);

}

/*######################################################################################################*/

void lcd_gotoxy(unsigned char lcd_x, unsigned char lcd_y)

/* goto position (x,y) */

{

#if LCD_IO_MODE == 7 

if(lcd_x >= lcd_chars_per_line || lcd_y >= lcd_lines) { putc_lock=1; return; }

else putc_lock=0;

    if (lcd_y==0 )    { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE1+lcd_x); }

    else if(lcd_y==1) { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE2+lcd_x); }

    else if(lcd_y==2) { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE3+lcd_x); }

    else              { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE4+lcd_x); }

/*------------------------------------------------------------------------------------------------------*/

#elif LCD_IO_MODE == 6 || LCD_IO_MODE == 2

/*------------------------------------------------------------------------------------------------------*/

if(lcd_x >= LCD_CHARS_PER_LINE || lcd_y >= LCD_LINES) { putc_lock=1; return; }

else putc_lock=0;

#if LCD_LINES==1

    if (lcd_y==0 ) { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE1+lcd_x); }

#endif

#if LCD_LINES==2

    if (lcd_y==0 ) { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE1+lcd_x);  }

    else           { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE2+lcd_x);  }

#endif

#if LCD_LINES==4

    if (lcd_y==0 )    { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE1+lcd_x); }

    else if(lcd_y==1) { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE2+lcd_x); }

    else if(lcd_y==2) { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE3+lcd_x); }

    else              { lcd_command((1<<LCD_DDRAM)+LCD_START_LINE4+lcd_x); }

#endif

#endif

    x=lcd_x;

    y=lcd_y;

}/* lcd_gotoxy */

/*######################################################################################################*/

unsigned int lcd_getxy(void)

{

  return((y*100)+x); 

}

/*######################################################################################################*/

void lcd_clrscr(void)

/* clear lcd and set cursor to home position */

{

   lcd_command(1<<LCD_CLR);

#if LCD_READ_REQUIRED == 0 || LCD_IO_MODE == 2 || LCD_IO_MODE == 7

   delay(LCD_DELAY_LONG);       /* this command needs more waiting time to execute */

#elif LCD_READ_REQUIRED == 1 && LCD_IO_MODE == 6  

   lcd_waitbusy();

#endif

   x=0; y=0;

}

/*######################################################################################################*/

void lcd_clrline(unsigned char line)

/* clear a specific lcd line and set cursor at the start of the line */

{

#if LCD_IO_MODE == 7

   if(lcd_lines==1)

    {

       lcd_gotoxy(0, 0);

       while(x<lcd_chars_per_line) { lcd_putc(' '); }

       lcd_gotoxy(0, 0);

    }    

   if(line<lcd_lines)

    {

       lcd_gotoxy(0, line);

       while(x<lcd_chars_per_line) { lcd_putc(' '); }

       lcd_gotoxy(0, line);

    }   

#elif LCD_IO_MODE == 6 || LCD_IO_MODE == 2

#if LCD_LINES == 1

  lcd_gotoxy(0, 0);

  while(x<LCD_CHARS_PER_LINE) { lcd_putc(' '); }

  lcd_gotoxy(0, 0);

#else  /* #if LCD_LINES == 1 */

  if(line<LCD_LINES)

   {

      lcd_gotoxy(0, line);

      while(x<LCD_CHARS_PER_LINE) { lcd_putc(' '); }

      lcd_gotoxy(0, line);

   }   

#endif  /*  #if LCD_LINES == 1  */

#endif  /*  #if LCD_IO_MODE == 7 */

}

/*######################################################################################################*/

void lcd_home(void)

/* set cursor to home position */

{

    lcd_command(1<<LCD_HOME);

#if LCD_READ_REQUIRED == 0 || LCD_IO_MODE == 2 || LCD_IO_MODE == 7

    delay(LCD_DELAY_LONG);       /* this command needs more waiting time to execute */

#elif LCD_READ_REQUIRED == 1 && LCD_IO_MODE == 6 

    lcd_waitbusy();

#endif    

    x=0; y=0;

}

/*######################################################################################################*/

void lcd_putc(unsigned char c)

/* print character at current cursor position */

{

 if(!putc_lock)

  {

#if LCD_IO_MODE == 7

   if(lcd_lines !=1)

    {  if(c=='\n') { if(y<lcd_lines-1) lcd_gotoxy(0,(y+1)); }

       else if(x<lcd_chars_per_line) { lcd_write(c, DATA_MODE); x++; }

#if LCD_AUTO_LINE_FEED == 1

       else if(y<lcd_lines-1) { lcd_gotoxy(0,(y+1)); lcd_write(c, DATA_MODE); x++; }

       else { lcd_gotoxy(0,0); lcd_write(c, DATA_MODE); x++; }

#endif

    }

   else{

         if(c=='\n') { return; }

         if(x<lcd_chars_per_line) { lcd_write(c, DATA_MODE); x++; }

       }

#elif LCD_IO_MODE == 6 || LCD_IO_MODE == 2

#if LCD_LINES!=1

       if(c=='\n') { if(y<LCD_LINES-1) lcd_gotoxy(0,(y+1)); }

       else if(x<LCD_CHARS_PER_LINE) { lcd_write(c, DATA_MODE); x++; }

#if LCD_AUTO_LINE_FEED == 1

       else if(y<LCD_LINES-1) { lcd_gotoxy(0,(y+1)); lcd_write(c, DATA_MODE); x++; }

       else { lcd_gotoxy(0,0); lcd_write(c, DATA_MODE); x++; }

#endif

#else

       if(c=='\n') { return; }

       if(x<LCD_CHARS_PER_LINE) { lcd_write(c, DATA_MODE); x++; }

#endif

#endif  /*   #if LCD_IO_MODE == 7  */       

  }  

}

/*######################################################################################################*/

void lcd_puts(const unsigned char *s)

/* print string on lcd (no auto linefeed) */

{

    register unsigned char c;

    while ( (c = *s++) ) { lcd_putc(c);  }

}

/*######################################################################################################*/

void lcd_puts_p(const unsigned char *progmem_s)

/* print string from program memory on lcd (no auto linefeed) */

{

    register unsigned char c;

    while ( (c = PRG_RDB(progmem_s++)) ) { lcd_putc(c);  }

}

/*######################################################################################################*/

void lcd_puts_e(unsigned char *eeprom_s)

/* print string from eeprom on lcd (no auto linefeed) */

{

 register unsigned char c;

    while( (c=eeprom_rb((unsigned int)eeprom_s++))&& c!=0xFF ) { lcd_putc(c);  }

    /*{ if(c==0xFF) break; lcd_putc(c);  }*/               

}

/*######################################################################################################*/

void lcd_puti(int value, unsigned char dot_position)

/* print signed integer on lcd with or without comma (no auto linefeed) */

{

unsigned char lcd_data[6]={'0','0','0','0','0','0' }, position=sizeof(lcd_data), radix=10; 

        /* convert int to ascii  */ 

        if(value<0) { lcd_putc('-'); value=-value; }    

        do { position--; *(lcd_data+position)=(value%radix)+'0'; value/=radix;  } while(value); 

        /* some fractional digit corrections  */

        if( dot_position>=sizeof(lcd_data) ) return;

        while( (sizeof(lcd_data)-dot_position)<=position )  position--; 

        /* start displaying the number */

        for(;position<=(sizeof(lcd_data)-1);position++)

          {

            if( position==sizeof(lcd_data)-dot_position ) lcd_putc(',');  

            lcd_putc(lcd_data[position]);

          }

return;

}

/*######################################################################################################*/

#if LCD_IO_MODE == 6 || LCD_IO_MODE == 2

/*######################################################################################################*/

void lcd_init(void)

{

/* initialize display and select type of cursor */

/* dispAttr: LCD_DISP_OFF, LCD_DISP_ON, LCD_DISP_ON_CURSOR, LCD_DISP_CURSOR_BLINK */

#if LCD_LINES==1

#define LCD_FUNCTION_DEFAULT    LCD_FUNCTION_4BIT_1LINE 

#else

#define LCD_FUNCTION_DEFAULT    LCD_FUNCTION_4BIT_2LINES 

#endif 

#if LCD_IO_MODE == 6  

#if LCD_E_PORT_IS_IO==1

sbi(LCD_E_DDR_REG, LCD_E_PIN  );

#endif        

sbi(LCD_E_PORT, LCD_E_PIN  ); 

#if LCD_MULTIPLEX_ENABLE == 0 

#if LCD_D4_PORT_IS_IO==1

sbi(LCD_D4_DDR_REG, LCD_D4_PIN );

#endif

#if LCD_D5_PORT_IS_IO==1

sbi(LCD_D5_DDR_REG, LCD_D5_PIN );

#endif

#if LCD_D6_PORT_IS_IO==1

sbi(LCD_D6_DDR_REG, LCD_D6_PIN );

#endif

#if LCD_D7_PORT_IS_IO==1

sbi(LCD_D7_DDR_REG, LCD_D7_PIN );

#endif

#if LCD_RS_PORT_IS_IO==1

sbi(LCD_RS_DDR_REG, LCD_RS_PIN );

#endif

#if LCD_READ_REQUIRED == 1 

#if  LCD_RW_PORT_IS_IO == 1

sbi(LCD_RW_DDR_REG, LCD_RW_PIN  );

#endif

cbi(LCD_RW_PORT, LCD_RW_PIN  ); 

#endif

#endif  /* #if LCD_MULTIPLEX_ENABLE == 0 */

#endif  /* #if LCD_IO_MODE == 6 */

/*------ Initialize lcd to 4 bit i/o mode -------*/

/* initial write to lcd is 8bit using delay since busy flag can't be checked here anyway */

    delay(LCD_POWER_ON_DELAY);                          /* Wait 20 milliseconds  */

    lcd_write(LCD_FUNCTION_8BIT_1LINE, INIT_MODE);

    delay(LCD_INIT_DELAY);                              /* Wait 5 milliseconds */

    lcd_write(LCD_FUNCTION_8BIT_1LINE, INIT_MODE);

    lcd_write(LCD_FUNCTION_8BIT_1LINE, INIT_MODE);

    lcd_write(LCD_FUNCTION_4BIT_1LINE, INIT_MODE);      /* set IO mode to 4bit */

    /* from now on the lcd accepts only 4 bit I/O, so we can use lcd_command() */    

    lcd_command(LCD_FUNCTION_DEFAULT);      /* function set: display lines  */

    lcd_command(LCD_DISP_OFF);              /* display off                  */

    lcd_clrscr();                           /* display clear                */ 

    lcd_command(LCD_MODE_DEFAULT);          /* set entry mode               */

    lcd_command(LCD_DISP_ON);               /* LCD DISPLAY ON (DEFAULT)     */

}/* lcd_init */

/*######################################################################################################*/

#elif LCD_IO_MODE == 7 

/*######################################################################################################*/

void lcd_init(void)

{

unsigned char lcd_unit=0;

/* initialize display and select type of cursor */

/* dispAttr: LCD_DISP_OFF, LCD_DISP_ON, LCD_DISP_ON_CURSOR, LCD_DISP_CURSOR_BLINK */

#if LCD_D4_PORT_IS_IO == 1

sbi(LCD_D4_DDR_REG, LCD_D4_PIN );

#endif

#if LCD_D5_PORT_IS_IO == 1

sbi(LCD_D5_DDR_REG, LCD_D5_PIN );

#endif

#if LCD_D6_PORT_IS_IO == 1

sbi(LCD_D6_DDR_REG, LCD_D6_PIN );

#endif

#if LCD_D7_PORT_IS_IO == 1

sbi(LCD_D7_DDR_REG, LCD_D7_PIN );

#endif

#if LCD_RS_PORT_IS_IO == 1

sbi(LCD_RS_DDR_REG, LCD_RS_PIN );

#endif

#if LCD_0_E_PORT_IS_IO == 1

sbi(LCD_0_E_DDR_REG, LCD_0_E_PIN  );                 

#endif        

sbi(LCD_0_E_PORT, LCD_0_E_PIN  ); 

#if LCD_1_E_PORT_IS_IO == 1

sbi(LCD_1_E_DDR_REG, LCD_1_E_PIN  );                 

#endif        

sbi(LCD_1_E_PORT, LCD_1_E_PIN  ); 

#if NUMBER_OF_LCD_UNITS >= 3

#if LCD_2_E_PORT_IS_IO == 1

sbi(LCD_2_E_DDR_REG, LCD_2_E_PIN  );                 

#endif        

sbi(LCD_2_E_PORT, LCD_2_E_PIN  );

#endif 

/*------ Initialize lcd to 4 bit i/o mode -------*/

/* initial write to lcd is 8bit using delay since busy flag can't be checked here anyway */

    xy_coordinates[LCD_0].x=0;

    xy_coordinates[LCD_0].y=0;

    xy_coordinates[LCD_1].x=0;

    xy_coordinates[LCD_1].y=0;

#if NUMBER_OF_LCD_UNITS >=3

    xy_coordinates[LCD_2].x=0;

    xy_coordinates[LCD_2].y=0;

#endif

for(lcd_unit=0; lcd_unit<NUMBER_OF_LCD_UNITS; lcd_unit++)

  {

      select_lcd(lcd_unit);