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PIC12F675+PCF8574+LCD 16x2+ RTC DS1307
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mahatia



Joined: 14 Nov 2016
Posts: 23

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PIC12F675+PCF8574+LCD 16x2+ RTC DS1307
PostPosted: Tue Nov 15, 2016 2:41 am     Reply with quote

Hello everybody! Is someone could help me to display date and time from RTC DS1307 on LCD ? I have to use PIC12F675 and my LCD is connected with PCF8574! What should I do! I have already used the code that someone has posted here to display something on lcd by using PCF8574 and PIC12F675 and its works, but now, I have to display time and date, what should I do?
Mike Walne



Joined: 19 Feb 2004
Posts: 1785
Location: Boston Spa UK

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PostPosted: Tue Nov 15, 2016 3:15 am     Reply with quote

Work out what you want to put on the display, then write your own code.

Mike
mahatia



Joined: 14 Nov 2016
Posts: 23

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PostPosted: Tue Nov 15, 2016 4:13 am     Reply with quote

Ok! This is my schematic capture from Proteus.
[https://drive.google.com/file/d/0BwhZ3_I-f9gham9iMExDUjBNbHc/view?usp=sharing]
and this is my code:
[https://drive.google.com/drive/folders/0BwhZ3_I-f9ghUGFpY3kzeGQyd1k?usp=sharing]
Thank you.
temtronic



Joined: 01 Jul 2010
Posts: 9229
Location: Greensville,Ontario

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PostPosted: Tue Nov 15, 2016 5:57 am     Reply with quote

Well I'd use the 'search' feature of this forum and find the DS1307 'driver'. There's 2 or 3 ... 2 for sure, I know they both work though I modified one for my use. If the Ext_int pin of the 12F675 is available, I'd connect the DS1307 to it and use an ISR to display the date/time information. I use the 1Hz interrupt from the 1307 this way.

Jay
Mike Walne



Joined: 19 Feb 2004
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PostPosted: Tue Nov 15, 2016 6:25 am     Reply with quote

Your link expects me to create or sign in to an account.
I'm not going to do it.

Mike
mahatia



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PostPosted: Tue Nov 15, 2016 10:11 am     Reply with quote

I'm so sorry, I'll post it here soon,thanks
mahatia



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PostPosted: Tue Nov 15, 2016 1:11 pm     Reply with quote

these are my code, i saw them in this forum and I want to add an RTC ds1307.
I2C_LCD.c

Code:
#include <12F675.h>
#device *= 16
#fuses NOWDT, PROTECT, CPD, NOMCLR, INTRC_IO, BROWNOUT, PUT
#use delay (internal = 4MHz)   
#include "lcd.c"                         

void setup();                       
                                                                       
void main()
{                       
   unsigned char i = 0;     
   
    char txt1[] = {"RAMANANTSOA"};
   char txt2[] = {"Projet 2"};
    //char txt[6];
                                   
    setup();                   

    while(TRUE)
    {                                                                                     
        LCD_clear_home();   
             
       for(i = 0; i <= 10; i++)
        {                 
         
           LCD_goto((i), 0);
           LCD_putchar(txt1[i]);
           delay_ms(99);
        }                                               
       for(i = 0; i <= 9; i++)                                   
       {           
           LCD_goto((i), 1);                                                         
           LCD_putchar(txt2[i]);                                         
          // delay_ms(99);
        }         
                                 
       
    };
   

}                                                                             
void setup()
{
    disable_interrupts(GLOBAL);
    setup_comparator(NC_NC_NC_NC);                   
    setup_ADC(ADC_off);
    setup_ADC_ports(no_analogs);
    setup_timer_0(T0_internal);     
    setup_timer_1(T1_disabled);
    set_timer0(0); 
    set_timer1(0);
    LCD_init(); 
    delay_ms(100);       
}                         

lcd.c

Code:
#include "lcd.h"
                             

void LCD_init()
{                                     
    unsigned char t = 0x1A; 

    data_value = 0x08;
    PCF8574_write(data_value);     
    while(t > 0x00)
    {   
            delay_ms(dly);
            t--;
    };     
   
    data_value = 0x30;
    PCF8574_write(data_value); 
                             
    data_value |= 0x08;
    PCF8574_write(data_value);     
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);
             
    data_value = 0x30;
    PCF8574_write(data_value); 
                   
    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);

    data_value = 0x30;
    PCF8574_write(data_value); 

    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);

    data_value = 0x20;
    PCF8574_write(data_value); 
                   
    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);

    LCD_command(_4_pin_interface | _2_row_display | _5x7_dots);         
    LCD_command(display_on | cursor_off | blink_off);     
    LCD_command(clear_display);                           
    LCD_command(cursor_direction_inc | display_no_shift);       
}   


void LCD_command(unsigned char value)
{                                   
    data_value &= 0xFB;
    PCF8574_write(data_value); 
    LCD_4bit_send(value);           
}
   

void LCD_send_data(unsigned char value)
{                               
    data_value |= 0x04;
    PCF8574_write(data_value); 
    LCD_4bit_send(value);
}                                       
   

void LCD_4bit_send(unsigned char lcd_data)       
{
    unsigned char temp = 0x00;
     
    temp = (lcd_data & 0xF0);
    data_value &= 0x0F;   
    data_value |= temp;   
    PCF8574_write(data_value); 
                                         
    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);
   
    temp = (lcd_data & 0x0F);
    temp <<= 0x04;     
    data_value &= 0x0F; 
    data_value |= temp;                           
    PCF8574_write(data_value); 
               
    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);



void LCD_putstr(char *lcd_string)
{
    while (*lcd_string != '\0')   
    {
        LCD_send_data(*lcd_string);
        lcd_string++;
    };
}


void LCD_putchar(char char_data)
{
    LCD_send_data(char_data);
}


void LCD_clear_home()
{
    LCD_command(clear_display);
    LCD_command(goto_home);
}


void LCD_goto(unsigned char x_pos,unsigned char y_pos)
{                                                   
    if(y_pos == 0)   
    {                             
        LCD_command(0x80 | x_pos);
    }
    else
    {                                             
        LCD_command(0x80 | 0x40 | x_pos);
    }
}

lcd.h
Code:
#include "PCF8574.c"


#define clear_display                           0x01
#define goto_home                               0x02
         
#define cursor_direction_inc                    (0x04 | 0x02)
#define cursor_direction_dec                    (0x04 | 0x00)
#define display_shift                           (0x04 | 0x01)
#define display_no_shift                        (0x04 | 0x00)

#define display_on                              (0x08 | 0x04)
#define display_off                             (0x08 | 0x02)
#define cursor_on                               (0x08 | 0x02)                           
#define cursor_off                              (0x08 | 0x00)
#define blink_on                                (0x08 | 0x01)
#define blink_off                               (0x08 | 0x00)
                                   
#define _8_pin_interface                        (0x20 | 0x10)
#define _4_pin_interface                        (0x20 | 0x00)
#define _2_row_display                          (0x20 | 0x08)
#define _1_row_display                          (0x20 | 0x00)
#define _5x10_dots                              (0x20 | 0x40)
#define _5x7_dots                               (0x20 | 0x00)
                                                   
#define dly                                     0x01


unsigned char data_value = 0x00;
                                   
                                                                         
void LCD_init(); 
void LCD_command(unsigned char value);
void LCD_send_data(unsigned char value);
void LCD_4bit_send(unsigned char lcd_data);                                     
void LCD_putstr(char *lcd_string);               
void LCD_putchar(char char_data);             
void LCD_clear_home();           
void LCD_goto(unsigned char x_pos, unsigned char y_pos);

PCF8574.c
Code:
#include "PCF8574.h"
     
                                       
unsigned char PCF8574_read()
{
    unsigned char port_byte = 0;       
    i2c_start();                             
    i2c_write(PCF8574_read_cmd);       
    port_byte = i2c_read(0);             
    i2c_stop();
    return port_byte;
}                                                         


void PCF8574_write(unsigned char data_byte)                     
{
    i2c_start();
    i2c_write(PCF8574_write_cmd);               
    i2c_write(data_byte);
    i2c_stop();
}                             

PCF8574
Code:
#define PCF8574_address       0x40

#define PCF8574_write_cmd      PCF8574_address             
#define PCF8574_read_cmd      (PCF8574_address + 1)   

#define SDA_pin               pin_A5
#define SCL_pin                 pin_A4     


#use I2C(Master, SDA = SDA_pin, SCL = SCL_pin)

             
unsigned char PCF8574_read();               
void PCF8574_write(unsigned char data_byte);                                   

I use PIC12F675, what should I do if I want to display date and time from RTC?
I found this driver in this forum but I get many errors when I use it with my code
DS1307.c
Code:

#define RTC_SDA  pin_A5
#define RTC_SCL  pin_A4

#use i2c(master, sda=RTC_SDA, scl=RTC_SCL)

BYTE bin2bcd(BYTE binary_value);
BYTE bcd2bin(BYTE bcd_value);

void ds1307_init(void)
{
   BYTE seconds = 0;

   i2c_start();
   i2c_write(0xD0);      // WR to RTC
   i2c_write(0x00);      // REG 0
   i2c_start();
   i2c_write(0xD1);      // RD from RTC
   seconds = bcd2bin(i2c_read(0)); // Read current "seconds" in DS1307
   i2c_stop();
   seconds &= 0x7F;

   delay_us(3);

   i2c_start();
   i2c_write(0xD0);      // WR to RTC
   i2c_write(0x00);      // REG 0
   i2c_write(bin2bcd(seconds));     // Start oscillator with current "seconds value
   i2c_start();
   i2c_write(0xD0);      // WR to RTC
   i2c_write(0x07);      // Control Register
   i2c_write(0x10);     // Disable squarewave output pin
   i2c_stop();

}

void ds1307_set_date_time(BYTE day, BYTE mth, BYTE year, BYTE dow, BYTE hr, BYTE min, BYTE sec)
{
  sec &= 0x7F;
  hr &= 0x3F;

  i2c_start();
  i2c_write(0xD0);            // I2C write address
  delay_us(1);
  i2c_write(0x00);            // Start at REG 0 - Seconds
  i2c_write(bin2bcd(sec));      // REG 0
  i2c_write(bin2bcd(min));      // REG 1
  i2c_write(bin2bcd(hr));      // REG 2
  i2c_write(bin2bcd(dow));      // REG 3
  i2c_write(bin2bcd(day));      // REG 4
  i2c_write(bin2bcd(mth));      // REG 5
  i2c_write(bin2bcd(year));      // REG 6
  //i2c_write(0x80);            // REG 7 - Disable squarewave output pin
  i2c_write(0x10);
  i2c_stop();
}

void ds1307_get_date(BYTE &day, BYTE &mth, BYTE &year, BYTE &dow)
{
  i2c_start();
  i2c_write(0xD0);
  delay_us(1);
  i2c_write(0x03);            // Start at REG 3 - Day of week
  i2c_start();
  i2c_write(0xD1);
  dow  = bcd2bin(i2c_read() & 0x7f);   // REG 3
  day  = bcd2bin(i2c_read() & 0x3f);   // REG 4
  mth  = bcd2bin(i2c_read() & 0x1f);   // REG 5
  year = bcd2bin(i2c_read(0));            // REG 6
  i2c_stop();
}

void ds1307_get_time(BYTE &hr, BYTE &min, BYTE &sec)
{
  i2c_start();
  i2c_write(0xD0);
  i2c_write(0x00);            // Start at REG 0 - Seconds
  i2c_start();
  i2c_write(0xD1);
  sec = bcd2bin(i2c_read() & 0x7f);
  min = bcd2bin(i2c_read() & 0x7f);
  hr  = bcd2bin(i2c_read(0) & 0x3f);
  i2c_stop();

}

BYTE bin2bcd(BYTE binary_value)
{
  BYTE temp;
  BYTE retval;

  temp = binary_value;
  retval = 0;

  //while(1) IO NO TEO
  while(TRUE)
  {
    // Get the tens digit by doing multiple subtraction
    // of 10 from the binary value.
    if(temp >= 10)
    {
      temp -= 10;
      retval += 0x10;
    }
    else // Get the ones digit by adding the remainder.
    {
      retval += temp;
      break;
    }
  };

  return(retval);
}


// Input range - 00 to 99.
BYTE bcd2bin(BYTE bcd_value)
{
  BYTE temp;

  temp = bcd_value;
  // Shifting upper digit right by 1 is same as multiplying by 8.
  temp >>= 1;
  // Isolate the bits for the upper digit.
  temp &= 0x78;

  // Now return: (Tens * 8) + (Tens * 2) + Ones

  return(temp + (temp >> 2) + (bcd_value & 0x0f));

DS1307.h
Code:

#ifndef __DS1307_H
#define __DS1307_H


// Define DS1307 i2c device address
#define Device_Address_DS1307_EEPROM   0xD0

// Define Time Modes
#define AM_Time               0
#define PM_Time               1
#define TwentyFourHoursMode      2

// Define days
#define Monday      1
#define Tuesday      2
#define Wednesday   3
#define Thursday   4
#define Friday      5
#define Saturday   6
#define Sunday      7

// Function Declarations
void Write_Byte_To_DS1307_RTC(unsigned char, unsigned char);
unsigned char Read_Byte_From_DS1307_RTC(unsigned char);
void Write_Bytes_To_DS1307_RTC(unsigned char,unsigned char*,unsigned char);
void Read_Bytes_From_DS1307_RTC(unsigned char,unsigned char*,unsigned int);
void Set_DS1307_RTC_Time(unsigned char,unsigned char,unsigned char,unsigned char);
unsigned char* Get_DS1307_RTC_Time(void);
void Set_DS1307_RTC_Date(unsigned char,unsigned char,unsigned char,unsigned char);
unsigned char* Get_DS1307_RTC_Date(void);

#endif


Thank you!
PCM programmer



Joined: 06 Sep 2003
Posts: 21708

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PostPosted: Tue Nov 15, 2016 2:12 pm     Reply with quote

This block of code will display the date and time from the ds1307 on an lcd:
Code:
ds1307_get_date(day,month,yr,dow);  // Read date
ds1307_get_time(hrs,min,sec);    // Read Time
lcd_gotoxy(1,1);
printf(lcd_Putc,"\%02d/\%02d/\%02d",day,month,yr); // Display date
lcd_gotoxy(1,2);
printf(lcd_Putc," %02d:\%02d:\%02d", hrs,min,sec); // Display time
mahatia



Joined: 14 Nov 2016
Posts: 23

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PostPosted: Tue Nov 15, 2016 5:18 pm     Reply with quote

Thank you for helping me; I have tried the code, I do it like that
I2C_LCD.c
Code:
#include "DS1307.c"
#include <12F675.h>
#device *= 16
#fuses NOWDT, PROTECT, CPD, NOMCLR, INTRC_IO, BROWNOUT, PUT
#use delay (internal = 4MHz)   
#include "lcd.c"                         

void setup();                       
                                                                       
void main()
{                       
   unsigned char i = 0;     
   
    char txt1[] = {"RAMANANTSOA"};
   char txt2[] = {"Projet 2"};
    //char txt[6];
                                   
    setup();                   

    while(TRUE)
    {                                                                                     
        LCD_clear_home();   
             
       for(i = 0; i <= 10; i++)
        {                 
         
           LCD_goto((i), 0);
           LCD_putchar(txt1[i]);
           delay_ms(99);
        }                                               
       for(i = 0; i <= 9; i++)                                   
       {           
           LCD_goto((i), 1);                                                         
           LCD_putchar(txt2[i]);                                         
          // delay_ms(99);
        }         
    ds1307_init();                             
   ds1307_get_date(day,month,yr,dow);  // Read date
   ds1307_get_time(hrs,min,sec);    // Read Time
   lcd_goto(1,1);
   printf(lcd_putchar,"\%02d/\%02d/\%02d",day,month,yr); // Display date
   lcd_goto(1,2);
   printf(lcd_putchar," %02d:\%02d:\%02d", hrs,min,sec); // Display time
    };
   

}                                                                             
void setup()
{
    disable_interrupts(GLOBAL);
    setup_comparator(NC_NC_NC_NC);                   
    setup_ADC(ADC_off);
    setup_ADC_ports(no_analogs);
    setup_timer_0(T0_internal);     
    setup_timer_1(T1_disabled);
    set_timer0(0); 
    set_timer1(0);
    LCD_init(); 
    delay_ms(100);       
}                           

DS1307.c
Code:


#define RTC_SDA  pin_A5
#define RTC_SCL  pin_A4

#use i2c(master, sda=RTC_SDA, scl=RTC_SCL)

BYTE bin2bcd(BYTE binary_value);
BYTE bcd2bin(BYTE bcd_value);

void ds1307_init(void)
{
   BYTE seconds = 0;

   i2c_start();
   i2c_write(0xD0);      // WR to RTC
   i2c_write(0x00);      // REG 0
   i2c_start();
   i2c_write(0xD1);      // RD from RTC
   seconds = bcd2bin(i2c_read(0)); // Read current "seconds" in DS1307
   i2c_stop();
   seconds &= 0x7F;

   delay_us(3);

   i2c_start();
   i2c_write(0xD0);      // WR to RTC
   i2c_write(0x00);      // REG 0
   i2c_write(bin2bcd(seconds));     // Start oscillator with current "seconds value
   i2c_start();
   i2c_write(0xD0);      // WR to RTC
   i2c_write(0x07);      // Control Register
   i2c_write(0x10);     // Disable squarewave output pin
   i2c_stop();

}

void ds1307_set_date_time(BYTE day, BYTE mth, BYTE year, BYTE dow, BYTE hr, BYTE min, BYTE sec)
{
  sec &= 0x7F;
  hr &= 0x3F;

  i2c_start();
  i2c_write(0xD0);            // I2C write address
  delay_us(1);
  i2c_write(0x00);            // Start at REG 0 - Seconds
  i2c_write(bin2bcd(sec));      // REG 0
  i2c_write(bin2bcd(min));      // REG 1
  i2c_write(bin2bcd(hr));      // REG 2
  i2c_write(bin2bcd(dow));      // REG 3
  i2c_write(bin2bcd(day));      // REG 4
  i2c_write(bin2bcd(mth));      // REG 5
  i2c_write(bin2bcd(year));      // REG 6
  //i2c_write(0x80);            // REG 7 - Disable squarewave output pin
  i2c_write(0x10);
  i2c_stop();
}

void ds1307_get_date(BYTE &day, BYTE &mth, BYTE &year, BYTE &dow)
{
  i2c_start();
  i2c_write(0xD0);
  delay_us(1);
  i2c_write(0x03);            // Start at REG 3 - Day of week
  i2c_start();
  i2c_write(0xD1);
  dow  = bcd2bin(i2c_read() & 0x7f);   // REG 3
  day  = bcd2bin(i2c_read() & 0x3f);   // REG 4
  mth  = bcd2bin(i2c_read() & 0x1f);   // REG 5
  year = bcd2bin(i2c_read(0));            // REG 6
  i2c_stop();
}

void ds1307_get_time(BYTE &hr, BYTE &min, BYTE &sec)
{
  i2c_start();
  i2c_write(0xD0);
  i2c_write(0x00);            // Start at REG 0 - Seconds
  i2c_start();
  i2c_write(0xD1);
  sec = bcd2bin(i2c_read() & 0x7f);
  min = bcd2bin(i2c_read() & 0x7f);
  hr  = bcd2bin(i2c_read(0) & 0x3f);
  i2c_stop();

}

BYTE bin2bcd(BYTE binary_value)
{
  BYTE temp;
  BYTE retval;

  temp = binary_value;
  retval = 0;

  //while(1) IO NO TEO
  while(TRUE)
  {
    // Get the tens digit by doing multiple subtraction
    // of 10 from the binary value.
    if(temp >= 10)
    {
      temp -= 10;
      retval += 0x10;
    }
    else // Get the ones digit by adding the remainder.
    {
      retval += temp;
      break;
    }
  };

  return(retval);
}


// Input range - 00 to 99.
BYTE bcd2bin(BYTE bcd_value)
{
  BYTE temp;

  temp = bcd_value;
  // Shifting upper digit right by 1 is same as multiplying by 8.
  temp >>= 1;
  // Isolate the bits for the upper digit.
  temp &= 0x78;

  // Now return: (Tens * 8) + (Tens * 2) + Ones

  return(temp + (temp >> 2) + (bcd_value & 0x0f));

And after compiling, he asked me to put #DEVICE before this line
Code:
#use i2c(master, sda=RTC_SDA, scl=RTC_SCL)

thank you! I am losed Crying or Very sad Crying or Very sad
jeremiah



Joined: 20 Jul 2010
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PostPosted: Wed Nov 16, 2016 7:58 am     Reply with quote

Your program's first include MUST always be the the chip's header file. In your posted code it is not. General order:

Chip include file
#device statments
#fuses
#use delay() setup
other #use or includes
remaining code.
mahatia



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Posts: 23

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PostPosted: Wed Nov 16, 2016 9:19 am     Reply with quote

ok! let me try it! thank you very much for the idea!
mahatia



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PostPosted: Wed Nov 16, 2016 3:02 pm     Reply with quote

I have done what you suggest me to do:
I2C_LCD.c
Code:
#include <12F675.h>
#device *= 16
#fuses NOWDT, PROTECT, CPD, NOMCLR, INTRC_IO, BROWNOUT, PUT
#use delay (internal = 4MHz)

#include "lcd.c"                         
#include "DS1307.c"
                   
 void setup();                                                                       
void main()
{                       
   unsigned char i = 0;     
   
    char txt1[] = {"hello"};
   char txt2[] = {"Projet 2"};
   
         byte day;
        byte mth;
        byte year;
        byte dow;
        byte hr;
        byte min;
        byte sec;
       
    setup();                   

    while(TRUE)
    {                                                                                     
        LCD_clear_home();   
             
       for(i = 0; i <= 10; i++)
        {                 
         
           LCD_goto((i), 0);
           LCD_putchar(txt1[i]);
           delay_ms(99);
        }                                               
       for(i = 0; i <= 9; i++)                                   
       {           
           LCD_goto((i), 1);                                                         
           LCD_putchar(txt2[i]);                                         
           delay_ms(99);
        }
         
       
   while(TRUE)
    {     
    ds1307_init();                             
   ds1307_get_date(day,mth,year,dow);  // Read date
   ds1307_get_time(hr,min,sec);    // Read Time
   LCD_goto(1,1);
   printf(LCD_putchar,"\%02d/\%02d/\%02d",day,mth,year); // Display date
   LCD_goto(1,2);
   printf(LCD_putchar," %02d:\%02d:\%02d",hr,min,sec); // Display time
    };
   };

}                                                                             
 void setup()
{
    disable_interrupts(GLOBAL);
    setup_comparator(NC_NC_NC_NC);                   
    setup_ADC(ADC_off);
    setup_ADC_ports(no_analogs);
    setup_timer_0(T0_internal);     
    setup_timer_1(T1_disabled);
    set_timer0(0); 
    set_timer1(0);
    LCD_init(); 
    delay_ms(100);       
}         
                 


After running and building, they send me this error message: Functions may not be nested. He underlines in red the void setup(); and void main() and setup();
I have tried to solve the problem but I couldn't find it! I am a beginner in CCS, could you help me for the last time please?
PCM programmer



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PostPosted: Wed Nov 16, 2016 4:59 pm     Reply with quote

Look at this function at the end of ds1307.c
Quote:
BYTE bcd2bin(BYTE bcd_value)

You left off the ending brace on that function. You left off this:
Quote:
}
mahatia



Joined: 14 Nov 2016
Posts: 23

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PostPosted: Mon Nov 21, 2016 10:32 am     Reply with quote

thank you PCM programmer. I have tried the code and it works! But could tell me why the seconds takes a long time to increments when I simulate it with proteus? this is my code:
I2C_LCD.c
Code:
#include <12F675.h>
#device *= 16
#fuses NOWDT, PROTECT, CPD, NOMCLR, INTRC_IO, BROWNOUT, PUT
#use delay (internal = 4MHz)

#include "lcd.c"                         
#include "DS1307.c"
                   
 void setup();                                                                       
void main()
{   
 byte day;
        byte mth;
        byte year;
        byte hr;
        byte min;
        byte sec;
       
    setup();   
 while(TRUE)
    {
   
    ds1307_init();
   
   ds1307_get_date(day,mth,year);  // Read date
   ds1307_get_time(hr,min,sec);    // Read Time
   LCD_goto(0,0);
   printf(LCD_putchar," %02d:\%02d:\%02d",hr,min,sec); // Display time
   LCD_goto(0,1);
   printf(LCD_putchar,"\%02d/\%02d/20\%02d",day,mth,year); // Display date
   
    };
while(TRUE)
    {
   
    };
}                                                                             
 void setup()
{
    disable_interrupts(GLOBAL);
    setup_comparator(NC_NC_NC_NC);                   
    setup_ADC(ADC_off);
    setup_ADC_ports(no_analogs);
    setup_timer_0(T0_internal);     
    setup_timer_1(T1_disabled);
    set_timer0(0); 
    set_timer1(0);
    LCD_init(); 
    delay_ms(100);       
}         

lcd.c
Code:
#include "lcd.h"
                             

void LCD_init()
{   
data_value = 0x30;
    PCF8574_write(data_value); 
 data_value = 0x20;
    PCF8574_write(data_value); 
                   
    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);

    LCD_command(_4_pin_interface | _2_row_display | _5x7_dots);         
    LCD_command(display_on | cursor_off | blink_off);     
    LCD_command(clear_display);                           
    LCD_command(cursor_direction_inc | display_no_shift);       
}   


void LCD_command(unsigned char value)
{                                   
    data_value &= 0xFB;
    PCF8574_write(data_value); 
    LCD_4bit_send(value);           
}
   

void LCD_send_data(unsigned char value)
{                               
    data_value |= 0x04;
    PCF8574_write(data_value); 
    LCD_4bit_send(value);
}                                       
   

void LCD_4bit_send(unsigned char lcd_data)       
{
    unsigned char temp = 0x00;
     
    temp = (lcd_data & 0xF0);
    data_value &= 0x0F;   
    data_value |= temp;   
    PCF8574_write(data_value); 
                                         
    data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);
   
   
   
    temp = (lcd_data & 0x0F);
    temp <<= 0x04;     
    data_value &= 0x0F; 
    data_value |= temp;                           
    PCF8574_write(data_value); 
               
     data_value |= 0x08;
    PCF8574_write(data_value); 
    delay_ms(dly);
    data_value &= 0xF7;
    PCF8574_write(data_value); 
    delay_ms(dly);



//void LCD_putstr(char *lcd_string)
//{
   // while (*lcd_string != '\0')   
   // {
       // LCD_send_data(*lcd_string);
       // lcd_string++;
   // };
//}


void LCD_putchar(char char_data)
{
    LCD_send_data(char_data);
}


void LCD_clear_home()
{
    LCD_command(clear_display);
    LCD_command(goto_home);
}


void LCD_goto(unsigned char x_pos,unsigned char y_pos)
{                                                   
    if(y_pos == 0)   
    {                             
        LCD_command(0x80 | x_pos);
       
    }
    else
    {                                             
        LCD_command(0x80 | 0x40 | x_pos);
    }
}

lcd.h
Code:
#include "PCF8574.c"


#define clear_display                           0x01
#define goto_home                               0x02
         
#define cursor_direction_inc                    (0x04 | 0x02)
#define cursor_direction_dec                    (0x04 | 0x00)
#define display_shift                           (0x04 | 0x01)
#define display_no_shift                        (0x04 | 0x00)

#define display_on                              (0x08 | 0x04)
#define display_off                             (0x08 | 0x02)
#define cursor_on                               (0x08 | 0x02)                           
#define cursor_off                              (0x08 | 0x00)
#define blink_on                                (0x08 | 0x01)
#define blink_off                               (0x08 | 0x00)
                                   
#define _8_pin_interface                        (0x20 | 0x10)
#define _4_pin_interface                        (0x20 | 0x00)
#define _2_row_display                          (0x20 | 0x08)
#define _1_row_display                          (0x20 | 0x00)
#define _5x10_dots                              (0x20 | 0x40)
#define _5x7_dots                               (0x20 | 0x00)
                                                   
#define dly                                     0x01
       


unsigned char data_value = 0x00;
                                   
                                                                         
void LCD_init(); 
void LCD_command(unsigned char value);
void LCD_send_data(unsigned char value);
void LCD_4bit_send(unsigned char lcd_data);                                     
void LCD_putstr(char *lcd_string);               
void LCD_putchar(char char_data);             
void LCD_clear_home();           
void LCD_goto(unsigned char x_pos, unsigned char y_pos);

PCF8574.c
Code:

#include "PCF8574.h"
                                       
unsigned char PCF8574_read()
{
    unsigned char port_byte = 0;       
    i2c_start();                             
    i2c_write(PCF8574_read_cmd);       
    port_byte = i2c_read(0);             
    i2c_stop();
    return port_byte;
}                                                         


void PCF8574_write(unsigned char data_byte)                     
{
    i2c_start();
    i2c_write(PCF8574_write_cmd);               
    i2c_write(data_byte);
    i2c_stop();
}     

PCF8574.h
Code:
#define PCF8574_address       0x40 //A2, A1, A0, vers la masse

#define PCF8574_write_cmd      PCF8574_address             
#define PCF8574_read_cmd      (PCF8574_address + 1)   

#define SDA_pin               pin_A5
#define SCL_pin                 pin_A4     


#use I2C(Master, SDA = SDA_pin, SCL = SCL_pin)

             
unsigned char PCF8574_read();               
void PCF8574_write(unsigned char data_byte);

DS1307.C
Code:
#include <DS1307.h>
#define RTC_SDA  pin_A5
#define RTC_SCL  pin_A4

#use i2c(master, sda=RTC_SDA, scl=RTC_SCL)

byte bin2bcd(byte binary_value);
byte bcd2bin(byte bcd_value);

void ds1307_init(void)
{
 output_float(RTC_SCL);
   output_float(RTC_SDA);
}
void ds1307_get_date(byte &day, byte &mth, byte &year)
{
  i2c_start();
  i2c_write(0xD0);
  delay_us(1);
  i2c_write(0x04);            // Start at REG 3 - Day of week
  i2c_start();
  i2c_write(0xD1);
 // dow  = bcd2bin(i2c_read(1) & 0x7f);   // REG 3
  day  = bcd2bin(i2c_read(1) & 0x3f);   // REG 4
  mth  = bcd2bin(i2c_read(1) & 0x1f);   // REG 5
  year = bcd2bin(i2c_read(0));            // REG 6
  i2c_stop();
}

void ds1307_get_time(byte &hr, byte &min, byte &sec)
{
  i2c_start();
  i2c_write(0xD0);
  i2c_write(0x00);            // Start at REG 0 - Seconds
  i2c_start();
  i2c_write(0xD1);
  sec = bcd2bin(i2c_read(1) & 0x7f);
  min = bcd2bin(i2c_read(1) & 0x7f);
  hr  = bcd2bin(i2c_read(0) & 0x3f);
  i2c_stop();

}

byte bin2bcd(byte binary_value)
{
  byte temp;
  byte retval;

  temp = binary_value;
  retval = 0;

  //while(1) IO NO TEO
  while(TRUE)
  {
    // Get the tens digit by doing multiple subtraction
    // of 10 from the binary value.
    if(temp >= 10)
    {
      temp -= 10;
      retval += 0x10;
    }
    else // Get the ones digit by adding the remainder.
    {
      retval += temp;
      break;
    }
  };

  return(retval);
}


// Input range - 00 to 99.
byte bcd2bin(byte bcd_value)
{
  byte temp;

  temp = bcd_value;
  // Shifting upper digit right by 1 is same as multiplying by 8.
  temp >>= 1;
  // Isolate the bits for the upper digit.
  temp &= 0x78;

  // Now return: (Tens * 8) + (Tens * 2) + Ones

  return(temp + (temp >> 2) + (bcd_value & 0x0f));
  }

DS1307.h
Code:
#ifndef __DS1307_H
#define __DS1307_H


// Define DS1307 i2c device address
#define Device_Address_DS1307_EEPROM   0xD0
void Write_Byte_To_DS1307_RTC(unsigned char, unsigned char);
unsigned char Read_Byte_From_DS1307_RTC(unsigned char);
void Write_Bytes_To_DS1307_RTC(unsigned char,unsigned char*,unsigned char);
void Read_Bytes_From_DS1307_RTC(unsigned char,unsigned char*,unsigned int);
void Set_DS1307_RTC_Time(unsigned char,unsigned char,unsigned char,unsigned char);
unsigned char* Get_DS1307_RTC_Time(void);
void Set_DS1307_RTC_Date(unsigned char,unsigned char,unsigned char,unsigned char);
unsigned char* Get_DS1307_RTC_Date(void);

#endif

Any help is appreciated! thank you!
And what should I do if I want to add some push button connected to the PIC to adjust time and date?
mahatia



Joined: 14 Nov 2016
Posts: 23

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PostPosted: Mon Nov 21, 2016 10:38 am     Reply with quote

Crying or Very sad Crying or Very sad Crying or Very sad Rolling Eyes
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