7-segmentový displej na futbal: Rozdiel medzi revíziami
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Záverečný projekt predmetu MIPS / LS2024 - ''' | Záverečný projekt predmetu MIPS / LS2024 - '''Daniel Žula''' | ||
Verzia z 07:45, 4. máj 2024
Záverečný projekt predmetu MIPS / LS2024 - Daniel Žula
Zadanie
Sem príde text zadania, ak bolo len voľne formulované, rozpíšte ho podrobnejšie
Literatúra:
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Algoritmus a program
Algoritmus programu je....
#include <avr/io.h>
#define F_CPU 16000000UL // Define CPU frequency
// Required libraries
#include <stdio.h>
#include <avr/io.h>
#include <util/delay.h>
#include <avr/interrupt.h>
#define set_bit(ADDRESS,BIT) (ADDRESS |= (1<<BIT))
#define clear_bit(ADDRESS,BIT) (ADDRESS &= ~(1<<BIT))
#define CLK PD5 // CLK -> pin 5 portD.5
#define DIO PD4 // DIO -> pin 4 portD.4
#define LEFT_START_STOP_PIN PD2 // Left team score button
#define RIGHT_START_STOP_PIN PD3 // Right team score button
#define RESTART_PIN PD6 // Restart button
#define BIT_DELAY 100 // Delay 100ms
// Define for TM1637
#define TM1637_I2C_COMM1 0x40
#define TM1637_I2C_COMM2 0xC0
#define TM1637_I2C_COMM3 0x80
// 7-segment display digit mapping
const uint8_t digitToSegment[] = {
// XGFEDCBA
0b00111111, // 0
0b00000110, // 1
0b01011011, // 2
0b01001111, // 3
0b01100110, // 4
0b01101101, // 5
0b01111101, // 6
0b00000111, // 7
0b01111111, // 8
0b01101111, // 9
0b01110111, // A
0b01111100, // b
0b00111001, // C
0b01011110, // d
0b01111001, // E
0b01110001 // F
};
static const uint8_t minusSegments = 0b01000000;
uint8_t brightness = (0x7 & 0x7) | 0x08;
void comunication_start(){
set_bit(DDRD, DIO); // Set DIO as output
clear_bit(PORTD, DIO); // Set DIO as output
_delay_us(BIT_DELAY);
}
void comunication_stop(){
set_bit(DDRD, DIO); // Set DIO as output
clear_bit(PORTD, DIO); // Set DIO as output
_delay_us(BIT_DELAY);
clear_bit(DDRD, CLK); // Set CLK as input
set_bit(PORTD, CLK); // CLK as input pull-up on
_delay_us(BIT_DELAY);
clear_bit(DDRD, DIO); // Set DIO as input
set_bit(PORTD, DIO); // DIO as input pull-up on
_delay_us(BIT_DELAY);
}
int inicialize_bit(uint8_t byte){
uint8_t data = byte;
// 8 Data Bits
for(uint8_t i = 0; i < 8; i++) {
// CLK low
set_bit(DDRD, CLK);
clear_bit(PORTD, CLK);
_delay_us(BIT_DELAY);
// Set data bit
if (data & 0x01){
clear_bit(DDRD, DIO); // Set DIO as input
set_bit(PORTD, DIO); // DIO as input pull-up on
} else{
set_bit(DDRD, DIO); // Set DIO as output
clear_bit(PORTD, DIO); // Set DIO low
}
_delay_us(BIT_DELAY);
// CLK high
clear_bit(DDRD, CLK); // Set CLK as input
set_bit(PORTD, CLK); // CLK as input pull-up on
_delay_us(BIT_DELAY);
data = data >> 1;
}
// Wait for acknowledge
// CLK to zero
set_bit(DDRD, CLK); // Set CLK as output
clear_bit(PORTD, CLK); // Set CLK low
clear_bit(DDRD, DIO); // Set DIO as input
set_bit(PORTD, DIO); // DIO as input pull-up on
_delay_us(BIT_DELAY);
// CLK to high
clear_bit(DDRD, CLK); // Set CLK as input
set_bit(PORTD, CLK); // Set CLK high
_delay_us(BIT_DELAY);
uint8_t ack = !bit_is_clear(PIND, DIO);
if (ack == 0)
set_bit(DDRD, DIO); // Set DIO as output
clear_bit(PORTD, DIO); // Set DIO low
_delay_us(BIT_DELAY);
set_bit(DDRD, CLK); // Set CLK as output
clear_bit(PORTD, CLK); // Set CLK low
_delay_us(BIT_DELAY);
return ack;
}
void displayShowDots(uint8_t dots, uint8_t* digits){
for(int i = 0; i < 4; ++i)
{
digits[i] |= (dots & 0x80);
dots <<= 1;
}
}
void set_segments(const uint8_t segments[], uint8_t length, uint8_t pos){
// Write COMM1
comunication_start();
inicialize_bit(TM1637_I2C_COMM1);
comunication_stop();
// Write COMM2 + first digit address
comunication_start();
inicialize_bit(TM1637_I2C_COMM2 + (pos & 0x03));
// Write the data bytes
for (uint8_t k=0; k < length; k++)
inicialize_bit(segments[k]);
comunication_stop();
// Write COMM3 + brightness
comunication_start();
inicialize_bit(TM1637_I2C_COMM3 + (brightness & 0x0f));
comunication_stop();
}
// Function to display a number in a given base with custom options
void display_number(int8_t base, uint16_t num, uint8_t dots, const int leading_zero,
uint8_t length, uint8_t pos)
{
int negative = 0; // False
if (base < 0) {
base = -base;
negative = 1; // True
}
uint8_t digits[4];
if (num == 0 && !leading_zero) {
// Singular case - take care separately
for(uint8_t i = 0; i < (length-1); i++)
digits[i] = 0;
digits[length-1] = digitToSegment[0 & 0x0f];;
}
else {
for(int i = length-1; i >= 0; --i)
{
uint8_t digit = num % base;
if (digit == 0 && num == 0 && leading_zero == 0)
// Leading zero is blank
digits[i] = 0;
else
digits[i] = digitToSegment[digit & 0x0f];;
if (digit == 0 && num == 0 && negative) {
digits[i] = minusSegments;
negative = 0;
}
num /= base;
}
}
if(dots != 0)
{
displayShowDots(dots, digits);
}
set_segments(digits, length, pos);
}
// Function to display a middle dots
void display_middle_dots(int num, uint8_t dots, const int leading_zero,
uint8_t length, uint8_t pos){
display_number(num < 0? -10 : 10, num < 0? -num : num, dots, leading_zero, length, pos);
}
// Function to display a decimal number with default options
void display_number_segment(int num, const int leading_zero, uint8_t length, uint8_t pos){
display_middle_dots(num, 0x40, leading_zero, length, pos);
}
volatile uint8_t count_left = 0; // Counter for the left displays
volatile uint8_t count_right = 0; // Counter for the right displays
// External interrupt 0 (button for the left team)
ISR (INT0_vect)
{
_delay_ms(10);
if(bit_is_clear(PIND, LEFT_START_STOP_PIN)){
// Increase left count and reset if it reaches 100
count_left++;
if (count_left >= 100) count_left = 0;
}
_delay_ms(150);
}
// External interrupt 1 (button for the right team)
ISR (INT1_vect)
{
_delay_ms(10);
if(bit_is_clear(PIND, RIGHT_START_STOP_PIN)){
// Increase right count and reset if it reaches 100
count_right++;
if (count_right >= 100) count_right = 0;
}
_delay_ms(150);
}
int main(void){
clear_bit(DDRD, CLK); // Set CLK as input
set_bit(PORTD, CLK); // CLK as input pull-up on
clear_bit(DDRD, DIO); // Set DIO as input
set_bit(PORTD, DIO); // DIO as input pull-up o
clear_bit(DDRD, LEFT_START_STOP_PIN); // Set LEFT_START_STOP_PIN as input
set_bit(PORTD, LEFT_START_STOP_PIN); // LEFT_START_STOP_PIN as input pull-up on
clear_bit(DDRD, RIGHT_START_STOP_PIN); // Set RIGHT_START_STOP_PIN as input
set_bit(PORTD, RIGHT_START_STOP_PIN); // RIGHT_START_STOP_PIN as input pull-up on
clear_bit(DDRD, RESTART_PIN); // set RESET_PIN as input
set_bit(PORTD, RESTART_PIN); // RESET_PIN as input pull-up on
uint8_t data[] = { 0, 0, 0, 0 };
set_segments(data, 4, 0);
EIMSK = 0b00000011; // Enable INT0, INT1
EICRA = 0b00001010; // Detect falling edge on both pins
sei(); // Enable interrupts
set_bit(DDRB, PB5);
while (1) {
if (bit_is_clear(PIND, RESTART_PIN)) {
// Perform reset operation
count_left = 0; // Reset the left count
count_right = 0; // Reset the right count
}
// Display left count on left two displays and right count on right two displays
display_number_segment(count_right, 0, 2, 2);
display_number_segment(count_left, 0, 2, 0);
}
return 0;
}
Pridajte sem aj zbalený kompletný projekt, napríklad takto (použite jednoznačné pomenovanie, nemôžeme mať na serveri 10x zdrojaky.zip:
Zdrojový kód: zdrojaky.zip
Overenie
Na zobrazovanie aktuálneho skóre používame dve tlačidlá, jedným, ktorý je vľavo meníme skóre tímu vľavo, a druhým, ktorý je v strede meníme skóre tímu ktorý je napravo, posledným tlačidlom ktoré je vpravo skóre resetujeme.
Video:
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