Severity Code Description Project File Line Column Error undefined reference to `i2c_init' menu C:\Users\Student\Desktop\Lab_5\menu\menu\main.c 58 1 Error recipe for target 'menu.elf' failed menu C:\Users\Student\Desktop\Lab_5\menu\menu\Debug\Makefile 154 1 Error ld returned 1 exit status menu collect2.exe 0 0 /* * menu.c * * Created: 30.05.2025 08:26:15 * Author : Student */ #include #define F_CPU 11059200UL #include #include #include #include "lcd.h" #include "ds18b20.h" #include "spi.h" #include "I2C.h" #define HIH8120_ADDR 0x27 volatile int8_t ekran = 0; // 0..4 volatile int8_t subscreen = 0; // 0 lub 1 volatile uint8_t running = 1; // sekundnik ON/OFF // --- Enkoder INT0 --- // PD2 - A (CLK) // PD3 - B (DT) // PD4 - SW (przycisk) void encoder_init(void) { DDRD &= ~((1 << PD2) | (1 << PD3) | (1 << PD4)); PORTD |= (1 << PD2) | (1 << PD3) | (1 << PD4); // Pull-up MCUCR |= (1 << ISC01); MCUCR &= ~(1 << ISC00); // INT0 on falling edge GICR |= (1 << INT0); sei(); } ISR(INT0_vect) { if (subscreen == 1) { subscreen = 0; // wyj�cie z podmenu return; } if (PIND & (1 << PD3)) ekran++; else ekran--; if (ekran > 6) ekran = 0; if (ekran < 0) ekran = 6; subscreen = 0; } int main(void) { lcd_init(); encoder_init(); ds18b20_init(); SPI_MasterInit(); i2c_init(); _delay_ms(50); uint16_t sekundy = 0; char buf[17]; while (1) { lcd_clear(); if (!(PIND & (1 << PD4))) { _delay_ms(300); if (ekran == 2) { lcd_show_startstop(running); running = !running; } else if (ekran != 3) { lcd_show_loading(); subscreen = 1; } while (!(PIND & (1 << PD4))) _delay_ms(10); } switch (ekran) { case 0: if (subscreen == 0) { lcd_gotoxy(0, 0); lcd_puts("Imie, nazwisko"); } else { lcd_gotoxy(0, 0); lcd_puts("Daniel"); lcd_gotoxy(0, 1); lcd_send_byte(0, 1); // � lcd_puts("wi"); lcd_send_byte(1, 1); // "�" lcd_puts("cki"); } break; case 1: if (subscreen == 0) { lcd_gotoxy(0, 0); lcd_puts("Numer indeksu"); } else { lcd_gotoxy(0, 0); lcd_puts("275777"); } break; case 2: lcd_gotoxy(0, 0); lcd_puts("Czas:"); lcd_gotoxy(0, 1); sprintf(buf, "%us", sekundy); lcd_puts(buf); if (running) sekundy++; _delay_ms(1000); break; case 3: lcd_gotoxy(0, 0); lcd_puts("Resetuj czas"); lcd_gotoxy(0, 1); lcd_puts("Wcisnij przycisk"); break; case 4: if (subscreen == 0) { lcd_gotoxy(0, 0); lcd_puts("Temperatura"); } else { lcd_gotoxy(0, 0); lcd_puts("Temperatura:"); int16_t temp_raw = ds18b20_read_temp(); if (temp_raw == -1000) { lcd_gotoxy(0, 1); lcd_puts("Brak czujnika"); } else { int16_t temp_c = temp_raw / 16; uint16_t temp_frac = ((temp_raw & 0x0F) * 625) / 100; lcd_gotoxy(0, 1); sprintf(buf, "%d.%02d%cC", temp_c, temp_frac, 223); lcd_puts(buf); } } break; case 5: if (subscreen == 0) { lcd_gotoxy(0, 0); lcd_puts("Temp z czujnika"); lcd_gotoxy(0, 1); lcd_puts("SPI TC77"); } else { lcd_gotoxy(0, 0); lcd_puts("Temperatura:"); int16_t raw = readTemperatureRaw_TC77(); if (raw == 0xFFFF) { lcd_gotoxy(0, 1); lcd_puts("Brak SPI danych"); } else { float temp = raw * 0.0625; int8_t cal = (int8_t)temp; uint8_t frac = (uint8_t)((temp - cal) * 100); lcd_gotoxy(0, 1); sprintf(buf, "%d.%02d%cC", cal, frac, 223); lcd_puts(buf); } } break; case 6: if (subscreen == 0) { lcd_gotoxy(0, 0); lcd_puts("Czujnik HIH8120"); lcd_gotoxy(0, 1); lcd_puts("I2C - wilg/temp"); } else { // Zmienna na dane uint8_t data[4]; volatile uint16_t res_H, res_T; volatile uint16_t humidity, temperature; // *100 // Sekwencja I2C — na bazie działającego kodu: TWI_start(); TWI_address_transmit(); TWI_stop(); _delay_ms(50); // minimum 36 ms — spokojnie 50 ms OK TWI_start(); TWI_address_receive(); data[0] = TWI_receive_ACK(); data[1] = TWI_receive_ACK(); data[2] = TWI_receive_ACK(); data[3] = TWI_receive_NACK(); TWI_stop(); // Konwersja danych (z Twojego prostego kodu): res_H = ((uint16_t)(data[0] & 0x3F) << 8) | data[1]; humidity = (uint16_t)(((float)res_H / 16382.0f) * 10000.0f); // *100 res_T = ((uint16_t)(data[2]) << 6) | (data[3] >> 2); temperature = (uint16_t)(((float)res_T / 16382.0f) * 16500.0f - 4000.0f); // *100 lcd_gotoxy(0, 0); char buf[32]; sprintf(buf, "Wilg: %d.%02d %%", humidity / 100, humidity % 100); lcd_puts(buf); lcd_gotoxy(0, 1); sprintf(buf, "Temp: %d.%02d C", temperature / 100, temperature % 100); lcd_puts(buf); } break; } _delay_ms(300); } }