سلام به دوستان عزیز من یک lcd از eca.ir خریدم.برنامه یک تقویم رو نوشتم برای نمایش رو این ال سی دی.
اما جواب نمیگیرم.
http://eshop.eca.ir/lcd/405-GLCD-64x128-گرافیکی-بک-لایت-آبی.html
این ال سی دی به گفته سایت درایور ks0108 دارد.
لطفا کمک کنید.
در ضمن برای نوشتن از codevision 3.2 استفاده کردم.
اینم کدی که نوشتم که با 2 اینتراپت خارجی مقادیر ثانیه و دقیقه و ... تغییر می کند.
...
#include <mega32a.h>
#include <stdio.h>
#include <delay.h>
// Graphic Display functions
#include <glcd.h>
// Font used for displaying text
// on the graphic display
#include <font5x7.h>
// Declare your global variables here
int sec=0,min1=0,hour=0,day=1,month=1,year=1394,m=0;
unsigned char time[];
unsigned char date[];
// External Interrupt 0 service routine
interrupt [EXT_INT0] void ext_int0_isr(void)
{
// Place your code here
m=m+1;
if(m>6){m=0;}
}
// External Interrupt 1 service routine
interrupt [EXT_INT1] void ext_int1_isr(void)
{
// Place your code here
if(m==1){sec=sec+1;if(sec>59){sec=0;}}
if(m==2){min1=min1+1;if(min1>59){min1=0;}}
if(m==3){hour=hour+1;if(hour>23){hour=0;}}
if(m==4){day=day+1;if(day>30){day=1;}}
if(m==5){month=month+1;if(month>12){month=1;}}
if(m==6){year=year+1;if(year>1410){year=1394;}}
}
// Timer1 overflow interrupt service routine
interrupt [TIM1_OVF] void timer1_ovf_isr(void)
{
// Reinitialize Timer1 value
TCNT1H=0x85EE >> 8;
TCNT1L=0x85EE & 0xff;
// Place your code here
sec=sec+1;
}
void main(void)
{
// Declare your local variables here
// Variable used to store graphic display
// controller initialization data
GLCDINIT_t glcd_init_data;
// Input/Output Ports initialization
// Port A initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRA=(0<<DDA7) | (0<<DDA6) | (0<<DDA5) | (0<<DDA4) | (0<<DDA3) | (0<<DDA2) | (0<<DDA1) | (0<<DDA0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTA=(0<<PORTA7) | (0<<PORTA6) | (0<<PORTA5) | (0<<PORTA4) | (0<<PORTA3) | (0<<PORTA2) | (0<<PORTA1) | (0<<PORTA0);
// Port B initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRB=(0<<DDB7) | (0<<DDB6) | (0<<DDB5) | (0<<DDB4) | (0<<DDB3) | (0<<DDB2) | (0<<DDB1) | (0<<DDB0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTB=(0<<PORTB7) | (0<<PORTB6) | (0<<PORTB5) | (0<<PORTB4) | (0<<PORTB3) | (0<<PORTB2) | (0<<PORTB1) | (0<<PORTB0);
// Port C initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRC=(0<<DDC7) | (0<<DDC6) | (0<<DDC5) | (0<<DDC4) | (0<<DDC3) | (0<<DDC2) | (0<<DDC1) | (0<<DDC0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTC=(0<<PORTC7) | (0<<PORTC6) | (0<<PORTC5) | (0<<PORTC4) | (0<<PORTC3) | (0<<PORTC2) | (0<<PORTC1) | (0<<PORTC0);
// Port D initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRD=(0<<DDD7) | (0<<DDD6) | (0<<DDD5) | (0<<DDD4) | (0<<DDD3) | (0<<DDD2) | (0<<DDD1) | (0<<DDD0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTD=(0<<PORTD7) | (0<<PORTD6) | (0<<PORTD5) | (0<<PORTD4) | (0<<PORTD3) | (0<<PORTD2) | (0<<PORTD1) | (0<<PORTD0);
// Timer/Counter 0 initialization
// Clock source: System Clock
// Clock value: Timer 0 Stopped
// Mode: Normal top=0xFF
// OC0 output: Disconnected
TCCR0=(0<<WGM00) | (0<<COM01) | (0<<COM00) | (0<<WGM01) | (0<<CS02) | (0<<CS01) | (0<<CS00);
TCNT0=0x00;
OCR0=0x00;
// Timer/Counter 1 initialization
// Clock source: System Clock
// Clock value: 31.250 kHz
// Mode: Normal top=0xFFFF
// OC1A output: Disconnected
// OC1B output: Disconnected
// Noise Canceler: Off
// Input Capture on Falling Edge
// Timer Period: 1 s
// Timer1 Overflow Interrupt: On
// Input Capture Interrupt: Off
// Compare A Match Interrupt: Off
// Compare B Match Interrupt: Off
TCCR1A=(0<<COM1A1) | (0<<COM1A0) | (0<<COM1B1) | (0<<COM1B0) | (0<<WGM11) | (0<<WGM10);
TCCR1B=(0<<ICNC1) | (0<<ICES1) | (0<<WGM13) | (0<<WGM12) | (1<<CS12) | (0<<CS11) | (0<<CS10);
TCNT1H=0x85;
TCNT1L=0xEE;
ICR1H=0x00;
ICR1L=0x00;
OCR1AH=0x00;
OCR1AL=0x00;
OCR1BH=0x00;
OCR1BL=0x00;
// Timer/Counter 2 initialization
// Clock source: System Clock
// Clock value: Timer2 Stopped
// Mode: Normal top=0xFF
// OC2 output: Disconnected
ASSR=0<<AS2;
TCCR2=(0<<PWM2) | (0<<COM21) | (0<<COM20) | (0<<CTC2) | (0<<CS22) | (0<<CS21) | (0<<CS20);
TCNT2=0x00;
OCR2=0x00;
// Timer(s)/Counter(s) Interrupt(s) initialization
TIMSK=(0<<OCIE2) | (0<<TOIE2) | (0<<TICIE1) | (0<<OCIE1A) | (0<<OCIE1B) | (1<<TOIE1) | (0<<OCIE0) | (0<<TOIE0);
// External Interrupt(s) initialization
// INT0: On
// INT0 Mode: Falling Edge
// INT1: On
// INT1 Mode: Falling Edge
// INT2: Off
GICR|=(1<<INT1) | (1<<INT0) | (0<<INT2);
MCUCR=(1<<ISC11) | (0<<ISC10) | (1<<ISC01) | (0<<ISC00);
MCUCSR=(0<<ISC2);
GIFR=(1<<INTF1) | (1<<INTF0) | (0<<INTF2);
// USART initialization
// USART disabled
UCSRB=(0<<RXCIE) | (0<<TXCIE) | (0<<UDRIE) | (0<<RXEN) | (0<<TXEN) | (0<<UCSZ2) | (0<<RXB8) | (0<<TXB8);
// Analog Comparator initialization
// Analog Comparator: Off
// The Analog Comparator's positive input is
// connected to the AIN0 pin
// The Analog Comparator's negative input is
// connected to the AIN1 pin
ACSR=(1<<ACD) | (0<<ACBG) | (0<<ACO) | (0<<ACI) | (0<<ACIE) | (0<<ACIC) | (0<<ACIS1) | (0<<ACIS0);
SFIOR=(0<<ACME);
// ADC initialization
// ADC disabled
ADCSRA=(0<<ADEN) | (0<<ADSC) | (0<<ADATE) | (0<<ADIF) | (0<<ADIE) | (0<<ADPS2) | (0<<ADPS1) | (0<<ADPS0);
// SPI initialization
// SPI disabled
SPCR=(0<<SPIE) | (0<<SPE) | (0<<DORD) | (0<<MSTR) | (0<<CPOL) | (0<<CPHA) | (0<<SPR1) | (0<<SPR0);
// TWI initialization
// TWI disabled
TWCR=(0<<TWEA) | (0<<TWSTA) | (0<<TWSTO) | (0<<TWEN) | (0<<TWIE);
// Graphic Display Controller initialization
// The KS0108 connections are specified in the
// Project|Configure|C Compiler|Libraries|Graphic Display menu:
// DB0 - PORTA Bit 7
// DB1 - PORTA Bit 6
// DB2 - PORTA Bit 5
// DB3 - PORTA Bit 4
// DB4 - PORTA Bit 3
// DB5 - PORTA Bit 2
// DB6 - PORTA Bit 1
// DB7 - PORTA Bit 0
// E - PORTC Bit 7
// RD /WR - PORTC Bit 6
// RS - PORTC Bit 5
// /RST - PORTC Bit 4
// CS1 - PORTC Bit 2
// CS2 - PORTC Bit 3
// Specify the current font for displaying text
glcd_init_data.font=font5x7;
// No function is used for reading
// image data from external memory
glcd_init_data.readxmem=NULL;
// No function is used for writing
// image data to external memory
glcd_init_data.writexmem=NULL;
glcd_init(&glcd_init_data);
// Global enable interrupts
#asm("sei"
while (1)
{
// Place your code here
while(m==1){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:",hour,min1);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==2){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d: :%02d",hour,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==3){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time," :%02d:%02d",min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==4){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date,"%04d/%02d/ ",year,month);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==5){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date,"%04d/ /%02d",year,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==6){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date," /%02d/%02d",month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
//................................
while(m==0){if(sec>59){min1=min1+1;sec=0;}
if(min1>59){hour=hour+1;min1=0;}
if(hour>23){hour=0;day=day+1;}
if(day>30){month=month+1;day=1;}
if(month>12){year=year+1;month=1;}
if(year>1410){year=1394;}
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
}
}
}
.................................................. .................
اما جواب نمیگیرم.
http://eshop.eca.ir/lcd/405-GLCD-64x128-گرافیکی-بک-لایت-آبی.html
این ال سی دی به گفته سایت درایور ks0108 دارد.
لطفا کمک کنید.
در ضمن برای نوشتن از codevision 3.2 استفاده کردم.
اینم کدی که نوشتم که با 2 اینتراپت خارجی مقادیر ثانیه و دقیقه و ... تغییر می کند.
...
#include <mega32a.h>
#include <stdio.h>
#include <delay.h>
// Graphic Display functions
#include <glcd.h>
// Font used for displaying text
// on the graphic display
#include <font5x7.h>
// Declare your global variables here
int sec=0,min1=0,hour=0,day=1,month=1,year=1394,m=0;
unsigned char time[];
unsigned char date[];
// External Interrupt 0 service routine
interrupt [EXT_INT0] void ext_int0_isr(void)
{
// Place your code here
m=m+1;
if(m>6){m=0;}
}
// External Interrupt 1 service routine
interrupt [EXT_INT1] void ext_int1_isr(void)
{
// Place your code here
if(m==1){sec=sec+1;if(sec>59){sec=0;}}
if(m==2){min1=min1+1;if(min1>59){min1=0;}}
if(m==3){hour=hour+1;if(hour>23){hour=0;}}
if(m==4){day=day+1;if(day>30){day=1;}}
if(m==5){month=month+1;if(month>12){month=1;}}
if(m==6){year=year+1;if(year>1410){year=1394;}}
}
// Timer1 overflow interrupt service routine
interrupt [TIM1_OVF] void timer1_ovf_isr(void)
{
// Reinitialize Timer1 value
TCNT1H=0x85EE >> 8;
TCNT1L=0x85EE & 0xff;
// Place your code here
sec=sec+1;
}
void main(void)
{
// Declare your local variables here
// Variable used to store graphic display
// controller initialization data
GLCDINIT_t glcd_init_data;
// Input/Output Ports initialization
// Port A initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRA=(0<<DDA7) | (0<<DDA6) | (0<<DDA5) | (0<<DDA4) | (0<<DDA3) | (0<<DDA2) | (0<<DDA1) | (0<<DDA0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTA=(0<<PORTA7) | (0<<PORTA6) | (0<<PORTA5) | (0<<PORTA4) | (0<<PORTA3) | (0<<PORTA2) | (0<<PORTA1) | (0<<PORTA0);
// Port B initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRB=(0<<DDB7) | (0<<DDB6) | (0<<DDB5) | (0<<DDB4) | (0<<DDB3) | (0<<DDB2) | (0<<DDB1) | (0<<DDB0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTB=(0<<PORTB7) | (0<<PORTB6) | (0<<PORTB5) | (0<<PORTB4) | (0<<PORTB3) | (0<<PORTB2) | (0<<PORTB1) | (0<<PORTB0);
// Port C initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRC=(0<<DDC7) | (0<<DDC6) | (0<<DDC5) | (0<<DDC4) | (0<<DDC3) | (0<<DDC2) | (0<<DDC1) | (0<<DDC0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTC=(0<<PORTC7) | (0<<PORTC6) | (0<<PORTC5) | (0<<PORTC4) | (0<<PORTC3) | (0<<PORTC2) | (0<<PORTC1) | (0<<PORTC0);
// Port D initialization
// Function: Bit7=In Bit6=In Bit5=In Bit4=In Bit3=In Bit2=In Bit1=In Bit0=In
DDRD=(0<<DDD7) | (0<<DDD6) | (0<<DDD5) | (0<<DDD4) | (0<<DDD3) | (0<<DDD2) | (0<<DDD1) | (0<<DDD0);
// State: Bit7=T Bit6=T Bit5=T Bit4=T Bit3=T Bit2=T Bit1=T Bit0=T
PORTD=(0<<PORTD7) | (0<<PORTD6) | (0<<PORTD5) | (0<<PORTD4) | (0<<PORTD3) | (0<<PORTD2) | (0<<PORTD1) | (0<<PORTD0);
// Timer/Counter 0 initialization
// Clock source: System Clock
// Clock value: Timer 0 Stopped
// Mode: Normal top=0xFF
// OC0 output: Disconnected
TCCR0=(0<<WGM00) | (0<<COM01) | (0<<COM00) | (0<<WGM01) | (0<<CS02) | (0<<CS01) | (0<<CS00);
TCNT0=0x00;
OCR0=0x00;
// Timer/Counter 1 initialization
// Clock source: System Clock
// Clock value: 31.250 kHz
// Mode: Normal top=0xFFFF
// OC1A output: Disconnected
// OC1B output: Disconnected
// Noise Canceler: Off
// Input Capture on Falling Edge
// Timer Period: 1 s
// Timer1 Overflow Interrupt: On
// Input Capture Interrupt: Off
// Compare A Match Interrupt: Off
// Compare B Match Interrupt: Off
TCCR1A=(0<<COM1A1) | (0<<COM1A0) | (0<<COM1B1) | (0<<COM1B0) | (0<<WGM11) | (0<<WGM10);
TCCR1B=(0<<ICNC1) | (0<<ICES1) | (0<<WGM13) | (0<<WGM12) | (1<<CS12) | (0<<CS11) | (0<<CS10);
TCNT1H=0x85;
TCNT1L=0xEE;
ICR1H=0x00;
ICR1L=0x00;
OCR1AH=0x00;
OCR1AL=0x00;
OCR1BH=0x00;
OCR1BL=0x00;
// Timer/Counter 2 initialization
// Clock source: System Clock
// Clock value: Timer2 Stopped
// Mode: Normal top=0xFF
// OC2 output: Disconnected
ASSR=0<<AS2;
TCCR2=(0<<PWM2) | (0<<COM21) | (0<<COM20) | (0<<CTC2) | (0<<CS22) | (0<<CS21) | (0<<CS20);
TCNT2=0x00;
OCR2=0x00;
// Timer(s)/Counter(s) Interrupt(s) initialization
TIMSK=(0<<OCIE2) | (0<<TOIE2) | (0<<TICIE1) | (0<<OCIE1A) | (0<<OCIE1B) | (1<<TOIE1) | (0<<OCIE0) | (0<<TOIE0);
// External Interrupt(s) initialization
// INT0: On
// INT0 Mode: Falling Edge
// INT1: On
// INT1 Mode: Falling Edge
// INT2: Off
GICR|=(1<<INT1) | (1<<INT0) | (0<<INT2);
MCUCR=(1<<ISC11) | (0<<ISC10) | (1<<ISC01) | (0<<ISC00);
MCUCSR=(0<<ISC2);
GIFR=(1<<INTF1) | (1<<INTF0) | (0<<INTF2);
// USART initialization
// USART disabled
UCSRB=(0<<RXCIE) | (0<<TXCIE) | (0<<UDRIE) | (0<<RXEN) | (0<<TXEN) | (0<<UCSZ2) | (0<<RXB8) | (0<<TXB8);
// Analog Comparator initialization
// Analog Comparator: Off
// The Analog Comparator's positive input is
// connected to the AIN0 pin
// The Analog Comparator's negative input is
// connected to the AIN1 pin
ACSR=(1<<ACD) | (0<<ACBG) | (0<<ACO) | (0<<ACI) | (0<<ACIE) | (0<<ACIC) | (0<<ACIS1) | (0<<ACIS0);
SFIOR=(0<<ACME);
// ADC initialization
// ADC disabled
ADCSRA=(0<<ADEN) | (0<<ADSC) | (0<<ADATE) | (0<<ADIF) | (0<<ADIE) | (0<<ADPS2) | (0<<ADPS1) | (0<<ADPS0);
// SPI initialization
// SPI disabled
SPCR=(0<<SPIE) | (0<<SPE) | (0<<DORD) | (0<<MSTR) | (0<<CPOL) | (0<<CPHA) | (0<<SPR1) | (0<<SPR0);
// TWI initialization
// TWI disabled
TWCR=(0<<TWEA) | (0<<TWSTA) | (0<<TWSTO) | (0<<TWEN) | (0<<TWIE);
// Graphic Display Controller initialization
// The KS0108 connections are specified in the
// Project|Configure|C Compiler|Libraries|Graphic Display menu:
// DB0 - PORTA Bit 7
// DB1 - PORTA Bit 6
// DB2 - PORTA Bit 5
// DB3 - PORTA Bit 4
// DB4 - PORTA Bit 3
// DB5 - PORTA Bit 2
// DB6 - PORTA Bit 1
// DB7 - PORTA Bit 0
// E - PORTC Bit 7
// RD /WR - PORTC Bit 6
// RS - PORTC Bit 5
// /RST - PORTC Bit 4
// CS1 - PORTC Bit 2
// CS2 - PORTC Bit 3
// Specify the current font for displaying text
glcd_init_data.font=font5x7;
// No function is used for reading
// image data from external memory
glcd_init_data.readxmem=NULL;
// No function is used for writing
// image data to external memory
glcd_init_data.writexmem=NULL;
glcd_init(&glcd_init_data);
// Global enable interrupts
#asm("sei"
while (1)
{
// Place your code here
while(m==1){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:",hour,min1);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==2){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d: :%02d",hour,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==3){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time," :%02d:%02d",min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==4){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date,"%04d/%02d/ ",year,month);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==5){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date,"%04d/ /%02d",year,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
while(m==6){sprintf(time,"%02d:%02d:%02d" ;,hour,min1,sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date," /%02d/%02d",month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
delay_ms(200);}
//................................
while(m==0){if(sec>59){min1=min1+1;sec=0;}
if(min1>59){hour=hour+1;min1=0;}
if(hour>23){hour=0;day=day+1;}
if(day>30){month=month+1;day=1;}
if(month>12){year=year+1;month=1;}
if(year>1410){year=1394;}
sprintf(time,"%02d:%02d:%02d",hour,min1, sec);
sprintf(date,"%04d/%02d/%02d",year,month,day);
glcd_clear();
glcd_setlinestyle(3,GLCD_LINE_SOLID);
glcd_rectrel(0,0,255,63);
glcd_outtextxy(5,50,time);
glcd_outtextxy(5,5,date);
}
}
}
.................................................. .................
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