unit ATmega32A; {$goto on} interface var // EEPROM EEAR : word absolute $00+$3E; // EEPROM Read/Write Access Bytes EEARL : byte absolute $00+$3E; // EEPROM Read/Write Access Bytes EEARH : byte absolute $00+$3E+1; // EEPROM Read/Write Access Bytes EEDR : byte absolute $00+$3D; // EEPROM Data Register EECR : byte absolute $00+$3C; // EEPROM Control Register // WATCHDOG WDTCR : byte absolute $00+$41; // Watchdog Timer Control Register // EXTERNAL_INTERRUPT GICR : byte absolute $00+$5B; // General Interrupt Control Register GIFR : byte absolute $00+$5A; // General Interrupt Flag Register MCUCR : byte absolute $00+$55; // General Interrupt Control Register MCUCSR : byte absolute $00+$54; // MCU Control And Status Register // TIMER_COUNTER_0 TCCR0 : byte absolute $00+$53; // Timer/Counter Control Register TCNT0 : byte absolute $00+$52; // Timer/Counter Register OCR0 : byte absolute $00+$5C; // Output Compare Register TIMSK : byte absolute $00+$59; // Timer/Counter Interrupt Mask Register TIFR : byte absolute $00+$58; // Timer/Counter Interrupt Flag register // TIMER_COUNTER_2 TCCR2 : byte absolute $00+$45; // Timer/Counter2 Control Register TCNT2 : byte absolute $00+$44; // Timer/Counter2 OCR2 : byte absolute $00+$43; // Timer/Counter2 Output Compare Register ASSR : byte absolute $00+$42; // Asynchronous Status Register // TIMER_COUNTER_1 TCCR1A : byte absolute $00+$4F; // Timer/Counter1 Control Register A TCCR1B : byte absolute $00+$4E; // Timer/Counter1 Control Register B TCNT1 : word absolute $00+$4C; // Timer/Counter1 Bytes TCNT1L : byte absolute $00+$4C; // Timer/Counter1 Bytes TCNT1H : byte absolute $00+$4C+1; // Timer/Counter1 Bytes OCR1A : word absolute $00+$4A; // Timer/Counter1 Output Compare Register Bytes OCR1AL : byte absolute $00+$4A; // Timer/Counter1 Output Compare Register Bytes OCR1AH : byte absolute $00+$4A+1; // Timer/Counter1 Output Compare Register Bytes OCR1B : word absolute $00+$48; // Timer/Counter1 Output Compare Register Bytes OCR1BL : byte absolute $00+$48; // Timer/Counter1 Output Compare Register Bytes OCR1BH : byte absolute $00+$48+1; // Timer/Counter1 Output Compare Register Bytes ICR1 : word absolute $00+$46; // Timer/Counter1 Input Capture Register Bytes ICR1L : byte absolute $00+$46; // Timer/Counter1 Input Capture Register Bytes ICR1H : byte absolute $00+$46+1; // Timer/Counter1 Input Capture Register Bytes // SPI SPDR : byte absolute $00+$2F; // SPI Data Register SPSR : byte absolute $00+$2E; // SPI Status Register SPCR : byte absolute $00+$2D; // SPI Control Register // USART UDR : byte absolute $00+$2C; // USART I/O Data Register UCSRA : byte absolute $00+$2B; // USART Control and Status Register A UCSRB : byte absolute $00+$2A; // USART Control and Status Register B UCSRC : byte absolute $00+$40; // USART Control and Status Register C UBRRH : byte absolute $00+$40; // USART Baud Rate Register Hight Byte UBRRL : byte absolute $00+$29; // USART Baud Rate Register Low Byte // ANALOG_COMPARATOR SFIOR : byte absolute $00+$50; // Special Function IO Register ACSR : byte absolute $00+$28; // Analog Comparator Control And Status Register // AD_CONVERTER ADMUX : byte absolute $00+$27; // The ADC multiplexer Selection Register ADCSRA : byte absolute $00+$26; // The ADC Control and Status register ADC : word absolute $00+$24; // ADC Data Register Bytes ADCL : byte absolute $00+$24; // ADC Data Register Bytes ADCH : byte absolute $00+$24+1; // ADC Data Register Bytes // PORTA PORTA : byte absolute $00+$3B; // Port A Data Register DDRA : byte absolute $00+$3A; // Port A Data Direction Register PINA : byte absolute $00+$39; // Port A Input Pins // PORTB PORTB : byte absolute $00+$38; // Port B Data Register DDRB : byte absolute $00+$37; // Port B Data Direction Register PINB : byte absolute $00+$36; // Port B Input Pins // PORTC PORTC : byte absolute $00+$35; // Port C Data Register DDRC : byte absolute $00+$34; // Port C Data Direction Register PINC : byte absolute $00+$33; // Port C Input Pins // PORTD PORTD : byte absolute $00+$32; // Port D Data Register DDRD : byte absolute $00+$31; // Port D Data Direction Register PIND : byte absolute $00+$30; // Port D Input Pins // CPU SREG : byte absolute $00+$5F; // Status Register SP : word absolute $00+$5D; // Stack Pointer SPL : byte absolute $00+$5D; // Stack Pointer SPH : byte absolute $00+$5D+1; // Stack Pointer OSCCAL : byte absolute $00+$51; // Oscillator Calibration Value // BOOT_LOAD SPMCR : byte absolute $00+$57; // Store Program Memory Control Register // TWI TWBR : byte absolute $00+$20; // TWI Bit Rate register TWCR : byte absolute $00+$56; // TWI Control Register TWSR : byte absolute $00+$21; // TWI Status Register TWDR : byte absolute $00+$23; // TWI Data register TWAR : byte absolute $00+$22; // TWI (Slave) Address register const // EECR EERIE = 3; // EEPROM Ready Interrupt Enable EEMWE = 2; // EEPROM Master Write Enable EEWE = 1; // EEPROM Write Enable EERE = 0; // EEPROM Read Enable // WDTCR WDTOE = 4; // RW WDE = 3; // Watch Dog Enable WDP = 0; // Watch Dog Timer Prescaler bits // GICR INT = 6; // External Interrupt Request 1 Enable INT2 = 5; // External Interrupt Request 2 Enable IVSEL = 1; // Interrupt Vector Select IVCE = 0; // Interrupt Vector Change Enable // GIFR INTF = 6; // External Interrupt Flags INTF2 = 5; // External Interrupt Flag 2 // MCUCR ISC1 = 2; // Interrupt Sense Control 1 Bits ISC0 = 0; // Interrupt Sense Control 0 Bits // MCUCSR ISC2 = 6; // Interrupt Sense Control 2 // TCCR0 FOC0 = 7; // Force Output Compare WGM00 = 6; // Waveform Generation Mode COM0 = 4; // Compare Match Output Modes WGM01 = 3; // Waveform Generation Mode 1 CS0 = 0; // Clock Selects // TIMSK OCIE0 = 1; // Timer/Counter0 Output Compare Match Interrupt register TOIE0 = 0; // Timer/Counter0 Overflow Interrupt Enable // TIFR OCF0 = 1; // Output Compare Flag 0 TOV0 = 0; // Timer/Counter0 Overflow Flag // TIMSK OCIE2 = 7; // Timer/Counter2 Output Compare Match Interrupt Enable TOIE2 = 6; // Timer/Counter2 Overflow Interrupt Enable // TIFR OCF2 = 7; // Output Compare Flag 2 TOV2 = 6; // Timer/Counter2 Overflow Flag // TCCR2 FOC2 = 7; // Force Output Compare WGM20 = 6; // Pulse Width Modulator Enable COM2 = 4; // Compare Output Mode bits WGM21 = 3; // Clear Timer/Counter2 on Compare Match CS2 = 0; // Clock Select bits // ASSR AS2 = 3; // Asynchronous Timer/counter2 TCN2UB = 2; // Timer/Counter2 Update Busy OCR2UB = 1; // Output Compare Register2 Update Busy TCR2UB = 0; // Timer/counter Control Register2 Update Busy // TIMSK TICIE1 = 5; // Timer/Counter1 Input Capture Interrupt Enable OCIE1A = 4; // Timer/Counter1 Output CompareA Match Interrupt Enable OCIE1B = 3; // Timer/Counter1 Output CompareB Match Interrupt Enable TOIE1 = 2; // Timer/Counter1 Overflow Interrupt Enable // TIFR ICF1 = 5; // Input Capture Flag 1 OCF1A = 4; // Output Compare Flag 1A OCF1B = 3; // Output Compare Flag 1B TOV1 = 2; // Timer/Counter1 Overflow Flag // TCCR1A COM1A = 6; // Compare Output Mode 1A, bits COM1B = 4; // Compare Output Mode 1B, bits FOC1A = 3; // Force Output Compare 1A FOC1B = 2; // Force Output Compare 1B WGM1 = 0; // Waveform Generation Mode // TCCR1B ICNC1 = 7; // Input Capture 1 Noise Canceler ICES1 = 6; // Input Capture 1 Edge Select CS1 = 0; // Prescaler source of Timer/Counter 1 // SPSR SPIF = 7; // SPI Interrupt Flag WCOL = 6; // Write Collision Flag SPI2X = 0; // Double SPI Speed Bit // SPCR SPIE = 7; // SPI Interrupt Enable SPE = 6; // SPI Enable DORD = 5; // Data Order MSTR = 4; // Master/Slave Select CPOL = 3; // Clock polarity CPHA = 2; // Clock Phase SPR = 0; // SPI Clock Rate Selects // UCSRA RXC = 7; // USART Receive Complete TXC = 6; // USART Transmitt Complete UDRE = 5; // USART Data Register Empty FE = 4; // Framing Error DOR = 3; // Data overRun UPE = 2; // Parity Error U2X = 1; // Double the USART transmission speed MPCM = 0; // Multi-processor Communication Mode // UCSRB RXCIE = 7; // RX Complete Interrupt Enable TXCIE = 6; // TX Complete Interrupt Enable UDRIE = 5; // USART Data register Empty Interrupt Enable RXEN = 4; // Receiver Enable TXEN = 3; // Transmitter Enable UCSZ2 = 2; // Character Size RXB8 = 1; // Receive Data Bit 8 TXB8 = 0; // Transmit Data Bit 8 // UCSRC URSEL = 7; // Register Select UMSEL = 6; // USART Mode Select UPM = 4; // Parity Mode Bits USBS = 3; // Stop Bit Select UCSZ = 1; // Character Size UCPOL = 0; // Clock Polarity // SFIOR ACME = 3; // Analog Comparator Multiplexer Enable // ACSR ACD = 7; // Analog Comparator Disable ACBG = 6; // Analog Comparator Bandgap Select ACO = 5; // Analog Compare Output ACI = 4; // Analog Comparator Interrupt Flag ACIE = 3; // Analog Comparator Interrupt Enable ACIC = 2; // Analog Comparator Input Capture Enable ACIS = 0; // Analog Comparator Interrupt Mode Select bits // ADMUX REFS = 6; // Reference Selection Bits ADLAR = 5; // Left Adjust Result MUX = 0; // Analog Channel and Gain Selection Bits // ADCSRA ADEN = 7; // ADC Enable ADSC = 6; // ADC Start Conversion ADATE = 5; // When this bit is written to one,the Timer/Counter2 prescaler will be reset.The bit will be cleared by hardware after the operation is performed.Writing a zero to this bit will have no effect.This bit will always be read as zero if Timer/Counter2 is clocked by the internal CPU clock.If this bit is written when Timer/Counter2 is operating in asynchronous mode,the bit will remain one until the prescaler has been reset. ADIF = 4; // ADC Interrupt Flag ADIE = 3; // ADC Interrupt Enable ADPS = 0; // ADC Prescaler Select Bits // SFIOR ADTS = 5; // ADC Auto Trigger Sources // SREG I = 7; // Global Interrupt Enable T = 6; // Bit Copy Storage H = 5; // Half Carry Flag S = 4; // Sign Bit V = 3; // Two's Complement Overflow Flag N = 2; // Negative Flag Z = 1; // Zero Flag C = 0; // Carry Flag // MCUCR SE = 7; // Sleep Enable SM = 4; // Sleep Mode Select // MCUCSR JTD = 7; // JTAG Interface Disable JTRF = 4; // JTAG Reset Flag WDRF = 3; // Watchdog Reset Flag BORF = 2; // Brown-out Reset Flag EXTRF = 1; // External Reset Flag PORF = 0; // Power-on reset flag // SPMCR SPMIE = 7; // SPM Interrupt Enable RWWSB = 6; // Read While Write Section Busy RWWSRE = 4; // Read While Write secion read enable BLBSET = 3; // Boot Lock Bit Set PGWRT = 2; // Page Write PGERS = 1; // Page Erase SPMEN = 0; // Store Program Memory Enable // TWCR TWINT = 7; // TWI Interrupt Flag TWEA = 6; // TWI Enable Acknowledge Bit TWSTA = 5; // TWI Start Condition Bit TWSTO = 4; // TWI Stop Condition Bit TWWC = 3; // TWI Write Collition Flag TWEN = 2; // TWI Enable Bit TWIE = 0; // TWI Interrupt Enable // TWSR TWS = 3; // TWI Status TWPS = 0; // TWI Prescaler bits implementation {$i avrcommon.inc} procedure INT0_ISR; external name 'INT0_ISR'; // Interrupt 1 External Interrupt Request 0 procedure INT1_ISR; external name 'INT1_ISR'; // Interrupt 2 External Interrupt Request 1 procedure INT2_ISR; external name 'INT2_ISR'; // Interrupt 3 External Interrupt Request 2 procedure TIMER2_COMP_ISR; external name 'TIMER2_COMP_ISR'; // Interrupt 4 Timer/Counter2 Compare Match procedure TIMER2_OVF_ISR; external name 'TIMER2_OVF_ISR'; // Interrupt 5 Timer/Counter2 Overflow procedure TIMER1_CAPT_ISR; external name 'TIMER1_CAPT_ISR'; // Interrupt 6 Timer/Counter1 Capture Event procedure TIMER1_COMPA_ISR; external name 'TIMER1_COMPA_ISR'; // Interrupt 7 Timer/Counter1 Compare Match A procedure TIMER1_COMPB_ISR; external name 'TIMER1_COMPB_ISR'; // Interrupt 8 Timer/Counter1 Compare Match B procedure TIMER1_OVF_ISR; external name 'TIMER1_OVF_ISR'; // Interrupt 9 Timer/Counter1 Overflow procedure TIMER0_COMP_ISR; external name 'TIMER0_COMP_ISR'; // Interrupt 10 Timer/Counter0 Compare Match procedure TIMER0_OVF_ISR; external name 'TIMER0_OVF_ISR'; // Interrupt 11 Timer/Counter0 Overflow procedure SPI__STC_ISR; external name 'SPI__STC_ISR'; // Interrupt 12 Serial Transfer Complete procedure USART__RXC_ISR; external name 'USART__RXC_ISR'; // Interrupt 13 USART, Rx Complete procedure USART__UDRE_ISR; external name 'USART__UDRE_ISR'; // Interrupt 14 USART Data Register Empty procedure USART__TXC_ISR; external name 'USART__TXC_ISR'; // Interrupt 15 USART, Tx Complete procedure ADC_ISR; external name 'ADC_ISR'; // Interrupt 16 ADC Conversion Complete procedure EE_RDY_ISR; external name 'EE_RDY_ISR'; // Interrupt 17 EEPROM Ready procedure ANA_COMP_ISR; external name 'ANA_COMP_ISR'; // Interrupt 18 Analog Comparator procedure TWI_ISR; external name 'TWI_ISR'; // Interrupt 19 2-wire Serial Interface procedure SPM_RDY_ISR; external name 'SPM_RDY_ISR'; // Interrupt 20 Store Program Memory Ready procedure _FPC_start; assembler; nostackframe; label _start; asm .init .globl _start jmp _start jmp INT0_ISR jmp INT1_ISR jmp INT2_ISR jmp TIMER2_COMP_ISR jmp TIMER2_OVF_ISR jmp TIMER1_CAPT_ISR jmp TIMER1_COMPA_ISR jmp TIMER1_COMPB_ISR jmp TIMER1_OVF_ISR jmp TIMER0_COMP_ISR jmp TIMER0_OVF_ISR jmp SPI__STC_ISR jmp USART__RXC_ISR jmp USART__UDRE_ISR jmp USART__TXC_ISR jmp ADC_ISR jmp EE_RDY_ISR jmp ANA_COMP_ISR jmp TWI_ISR jmp SPM_RDY_ISR {$i start.inc} .weak INT0_ISR .weak INT1_ISR .weak INT2_ISR .weak TIMER2_COMP_ISR .weak TIMER2_OVF_ISR .weak TIMER1_CAPT_ISR .weak TIMER1_COMPA_ISR .weak TIMER1_COMPB_ISR .weak TIMER1_OVF_ISR .weak TIMER0_COMP_ISR .weak TIMER0_OVF_ISR .weak SPI__STC_ISR .weak USART__RXC_ISR .weak USART__UDRE_ISR .weak USART__TXC_ISR .weak ADC_ISR .weak EE_RDY_ISR .weak ANA_COMP_ISR .weak TWI_ISR .weak SPM_RDY_ISR .set INT0_ISR, Default_IRQ_handler .set INT1_ISR, Default_IRQ_handler .set INT2_ISR, Default_IRQ_handler .set TIMER2_COMP_ISR, Default_IRQ_handler .set TIMER2_OVF_ISR, Default_IRQ_handler .set TIMER1_CAPT_ISR, Default_IRQ_handler .set TIMER1_COMPA_ISR, Default_IRQ_handler .set TIMER1_COMPB_ISR, Default_IRQ_handler .set TIMER1_OVF_ISR, Default_IRQ_handler .set TIMER0_COMP_ISR, Default_IRQ_handler .set TIMER0_OVF_ISR, Default_IRQ_handler .set SPI__STC_ISR, Default_IRQ_handler .set USART__RXC_ISR, Default_IRQ_handler .set USART__UDRE_ISR, Default_IRQ_handler .set USART__TXC_ISR, Default_IRQ_handler .set ADC_ISR, Default_IRQ_handler .set EE_RDY_ISR, Default_IRQ_handler .set ANA_COMP_ISR, Default_IRQ_handler .set TWI_ISR, Default_IRQ_handler .set SPM_RDY_ISR, Default_IRQ_handler end; end.