kolibrios-fun/contrib/toolchain/avra/includes/m32def.inc
Serhii Sakhno 7c539d8e19 upload avra
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;***** THIS IS A MACHINE GENERATED FILE - DO NOT EDIT ********************
;***** Created: 2005-01-11 10:31 ******* Source: ATmega32.xml ************
;*************************************************************************
;* A P P L I C A T I O N N O T E F O R T H E A V R F A M I L Y
;*
;* Number : AVR000
;* File Name : "m32def.inc"
;* Title : Register/Bit Definitions for the ATmega32
;* Date : 2005-01-11
;* Version : 2.14
;* Support E-mail : avr@atmel.com
;* Target MCU : ATmega32
;*
;* DESCRIPTION
;* When including this file in the assembly program file, all I/O register
;* names and I/O register bit names appearing in the data book can be used.
;* In addition, the six registers forming the three data pointers X, Y and
;* Z have been assigned names XL - ZH. Highest RAM address for Internal
;* SRAM is also defined
;*
;* The Register names are represented by their hexadecimal address.
;*
;* The Register Bit names are represented by their bit number (0-7).
;*
;* Please observe the difference in using the bit names with instructions
;* such as "sbr"/"cbr" (set/clear bit in register) and "sbrs"/"sbrc"
;* (skip if bit in register set/cleared). The following example illustrates
;* this:
;*
;* in r16,PORTB ;read PORTB latch
;* sbr r16,(1<<PB6)+(1<<PB5) ;set PB6 and PB5 (use masks, not bit#)
;* out PORTB,r16 ;output to PORTB
;*
;* in r16,TIFR ;read the Timer Interrupt Flag Register
;* sbrc r16,TOV0 ;test the overflow flag (use bit#)
;* rjmp TOV0_is_set ;jump if set
;* ... ;otherwise do something else
;*************************************************************************
#ifndef _M32DEF_INC_
#define _M32DEF_INC_
#pragma partinc 0
; ***** SPECIFY DEVICE ***************************************************
.device ATmega32
#pragma AVRPART ADMIN PART_NAME ATmega32
.equ SIGNATURE_000 = 0x1e
.equ SIGNATURE_001 = 0x95
.equ SIGNATURE_002 = 0x02
#pragma AVRPART CORE CORE_VERSION V2E
; ***** I/O REGISTER DEFINITIONS *****************************************
; NOTE:
; Definitions marked "MEMORY MAPPED"are extended I/O ports
; and cannot be used with IN/OUT instructions
.equ SREG = 0x3f
.equ SPH = 0x3e
.equ SPL = 0x3d
.equ OCR0 = 0x3c
.equ GICR = 0x3b
.equ GIFR = 0x3a
.equ TIMSK = 0x39
.equ TIFR = 0x38
.equ SPMCR = 0x37
.equ TWCR = 0x36
.equ MCUCR = 0x35
.equ MCUCSR = 0x34
.equ TCCR0 = 0x33
.equ TCNT0 = 0x32
.equ OSCCAL = 0x31
.equ OCDR = 0x31
.equ SFIOR = 0x30
.equ TCCR1A = 0x2f
.equ TCCR1B = 0x2e
.equ TCNT1H = 0x2d
.equ TCNT1L = 0x2c
.equ OCR1AH = 0x2b
.equ OCR1AL = 0x2a
.equ OCR1BH = 0x29
.equ OCR1BL = 0x28
.equ ICR1H = 0x27
.equ ICR1L = 0x26
.equ TCCR2 = 0x25
.equ TCNT2 = 0x24
.equ OCR2 = 0x23
.equ ASSR = 0x22
.equ WDTCR = 0x21
.equ UBRRH = 0x20
.equ UCSRC = 0x20
.equ EEARH = 0x1f
.equ EEARL = 0x1e
.equ EEDR = 0x1d
.equ EECR = 0x1c
.equ PORTA = 0x1b
.equ DDRA = 0x1a
.equ PINA = 0x19
.equ PORTB = 0x18
.equ DDRB = 0x17
.equ PINB = 0x16
.equ PORTC = 0x15
.equ DDRC = 0x14
.equ PINC = 0x13
.equ PORTD = 0x12
.equ DDRD = 0x11
.equ PIND = 0x10
.equ SPDR = 0x0f
.equ SPSR = 0x0e
.equ SPCR = 0x0d
.equ UDR = 0x0c
.equ UCSRA = 0x0b
.equ UCSRB = 0x0a
.equ UBRRL = 0x09
.equ ACSR = 0x08
.equ ADMUX = 0x07
.equ ADCSRA = 0x06
.equ ADCH = 0x05
.equ ADCL = 0x04
.equ TWDR = 0x03
.equ TWAR = 0x02
.equ TWSR = 0x01
.equ TWBR = 0x00
; ***** BIT DEFINITIONS **************************************************
; ***** EEPROM ***********************
; EEDR - EEPROM Data Register
.equ EEDR0 = 0 ; EEPROM Data Register bit 0
.equ EEDR1 = 1 ; EEPROM Data Register bit 1
.equ EEDR2 = 2 ; EEPROM Data Register bit 2
.equ EEDR3 = 3 ; EEPROM Data Register bit 3
.equ EEDR4 = 4 ; EEPROM Data Register bit 4
.equ EEDR5 = 5 ; EEPROM Data Register bit 5
.equ EEDR6 = 6 ; EEPROM Data Register bit 6
.equ EEDR7 = 7 ; EEPROM Data Register bit 7
; EECR - EEPROM Control Register
.equ EERE = 0 ; EEPROM Read Enable
.equ EEWE = 1 ; EEPROM Write Enable
.equ EEMWE = 2 ; EEPROM Master Write Enable
.equ EERIE = 3 ; EEPROM Ready Interrupt Enable
; ***** WATCHDOG *********************
; WDTCR - Watchdog Timer Control Register
.equ WDP0 = 0 ; Watch Dog Timer Prescaler bit 0
.equ WDP1 = 1 ; Watch Dog Timer Prescaler bit 1
.equ WDP2 = 2 ; Watch Dog Timer Prescaler bit 2
.equ WDE = 3 ; Watch Dog Enable
.equ WDTOE = 4 ; RW
.equ WDDE = WDTOE ; For compatibility
; ***** EXTERNAL_INTERRUPT ***********
; GICR - General Interrupt Control Register
.equ GIMSK = GICR ; For compatibility
.equ IVCE = 0 ; Interrupt Vector Change Enable
.equ IVSEL = 1 ; Interrupt Vector Select
.equ INT2 = 5 ; External Interrupt Request 2 Enable
.equ INT0 = 6 ; External Interrupt Request 0 Enable
.equ INT1 = 7 ; External Interrupt Request 1 Enable
; GIFR - General Interrupt Flag Register
.equ INTF2 = 5 ; External Interrupt Flag 2
.equ INTF0 = 6 ; External Interrupt Flag 0
.equ INTF1 = 7 ; External Interrupt Flag 1
; MCUCR - General Interrupt Control Register
.equ ISC00 = 0 ; Interrupt Sense Control 0 Bit 0
.equ ISC01 = 1 ; Interrupt Sense Control 0 Bit 1
.equ ISC10 = 2 ; Interrupt Sense Control 1 Bit 0
.equ ISC11 = 3 ; Interrupt Sense Control 1 Bit 1
; MCUCSR - MCU Control And Status Register
.equ ISC2 = 6 ; Interrupt Sense Control 2
; ***** TIMER_COUNTER_0 **************
; TCCR0 - Timer/Counter Control Register
.equ CS00 = 0 ; Clock Select 1
.equ CS01 = 1 ; Clock Select 1
.equ CS02 = 2 ; Clock Select 2
.equ WGM01 = 3 ; Waveform Generation Mode 1
.equ CTC0 = WGM01 ; For compatibility
.equ COM00 = 4 ; Compare match Output Mode 0
.equ COM01 = 5 ; Compare Match Output Mode 1
.equ WGM00 = 6 ; Waveform Generation Mode
.equ PWM0 = WGM00 ; For compatibility
.equ FOC0 = 7 ; Force Output Compare
; TCNT0 - Timer/Counter Register
.equ TCNT0_0 = 0 ;
.equ TCNT0_1 = 1 ;
.equ TCNT0_2 = 2 ;
.equ TCNT0_3 = 3 ;
.equ TCNT0_4 = 4 ;
.equ TCNT0_5 = 5 ;
.equ TCNT0_6 = 6 ;
.equ TCNT0_7 = 7 ;
; OCR0 - Output Compare Register
.equ OCR0_0 = 0 ;
.equ OCR0_1 = 1 ;
.equ OCR0_2 = 2 ;
.equ OCR0_3 = 3 ;
.equ OCR0_4 = 4 ;
.equ OCR0_5 = 5 ;
.equ OCR0_6 = 6 ;
.equ OCR0_7 = 7 ;
; TIMSK - Timer/Counter Interrupt Mask Register
.equ TOIE0 = 0 ; Timer/Counter0 Overflow Interrupt Enable
.equ OCIE0 = 1 ; Timer/Counter0 Output Compare Match Interrupt register
; TIFR - Timer/Counter Interrupt Flag register
.equ TOV0 = 0 ; Timer/Counter0 Overflow Flag
.equ OCF0 = 1 ; Output Compare Flag 0
; ***** TIMER_COUNTER_2 **************
; TIMSK - Timer/Counter Interrupt Mask register
.equ TOIE2 = 6 ; Timer/Counter2 Overflow Interrupt Enable
.equ OCIE2 = 7 ; Timer/Counter2 Output Compare Match Interrupt Enable
; TIFR - Timer/Counter Interrupt Flag Register
.equ TOV2 = 6 ; Timer/Counter2 Overflow Flag
.equ OCF2 = 7 ; Output Compare Flag 2
; TCCR2 - Timer/Counter2 Control Register
.equ CS20 = 0 ; Clock Select bit 0
.equ CS21 = 1 ; Clock Select bit 1
.equ CS22 = 2 ; Clock Select bit 2
.equ CTC2 = 3 ; Clear Timer/Counter2 on Compare Match
.equ COM20 = 4 ; Compare Output Mode bit 0
.equ COM21 = 5 ; Compare Output Mode bit 1
.equ PWM2 = 6 ; Pulse Width Modulator Enable
.equ FOC2 = 7 ; Force Output Compare
; TCNT2 - Timer/Counter2
.equ TCNT2_0 = 0 ; Timer/Counter 2 bit 0
.equ TCNT2_1 = 1 ; Timer/Counter 2 bit 1
.equ TCNT2_2 = 2 ; Timer/Counter 2 bit 2
.equ TCNT2_3 = 3 ; Timer/Counter 2 bit 3
.equ TCNT2_4 = 4 ; Timer/Counter 2 bit 4
.equ TCNT2_5 = 5 ; Timer/Counter 2 bit 5
.equ TCNT2_6 = 6 ; Timer/Counter 2 bit 6
.equ TCNT2_7 = 7 ; Timer/Counter 2 bit 7
; OCR2 - Timer/Counter2 Output Compare Register
.equ OCR2_0 = 0 ; Timer/Counter2 Output Compare Register Bit 0
.equ OCR2_1 = 1 ; Timer/Counter2 Output Compare Register Bit 1
.equ OCR2_2 = 2 ; Timer/Counter2 Output Compare Register Bit 2
.equ OCR2_3 = 3 ; Timer/Counter2 Output Compare Register Bit 3
.equ OCR2_4 = 4 ; Timer/Counter2 Output Compare Register Bit 4
.equ OCR2_5 = 5 ; Timer/Counter2 Output Compare Register Bit 5
.equ OCR2_6 = 6 ; Timer/Counter2 Output Compare Register Bit 6
.equ OCR2_7 = 7 ; Timer/Counter2 Output Compare Register Bit 7
; ASSR - Asynchronous Status Register
.equ TCR2UB = 0 ; Timer/counter Control Register2 Update Busy
.equ OCR2UB = 1 ; Output Compare Register2 Update Busy
.equ TCN2UB = 2 ; Timer/Counter2 Update Busy
.equ AS2 = 3 ; Asynchronous Timer/counter2
; ***** TIMER_COUNTER_1 **************
; TIMSK - Timer/Counter Interrupt Mask Register
.equ TOIE1 = 2 ; Timer/Counter1 Overflow Interrupt Enable
.equ OCIE1B = 3 ; Timer/Counter1 Output CompareB Match Interrupt Enable
.equ OCIE1A = 4 ; Timer/Counter1 Output CompareA Match Interrupt Enable
.equ TICIE1 = 5 ; Timer/Counter1 Input Capture Interrupt Enable
; TIFR - Timer/Counter Interrupt Flag register
.equ TOV1 = 2 ; Timer/Counter1 Overflow Flag
.equ OCF1B = 3 ; Output Compare Flag 1B
.equ OCF1A = 4 ; Output Compare Flag 1A
.equ ICF1 = 5 ; Input Capture Flag 1
; TCCR1A - Timer/Counter1 Control Register A
.equ WGM10 = 0 ; Waveform Generation Mode
.equ PWM10 = WGM10 ; For compatibility
.equ WGM11 = 1 ; Waveform Generation Mode
.equ PWM11 = WGM11 ; For compatibility
.equ FOC1B = 2 ; Force Output Compare 1B
.equ FOC1A = 3 ; Force Output Compare 1A
.equ COM1B0 = 4 ; Compare Output Mode 1B, bit 0
.equ COM1B1 = 5 ; Compare Output Mode 1B, bit 1
.equ COM1A0 = 6 ; Comparet Ouput Mode 1A, bit 0
.equ COM1A1 = 7 ; Compare Output Mode 1A, bit 1
; TCCR1B - Timer/Counter1 Control Register B
.equ CS10 = 0 ; Prescaler source of Timer/Counter 1
.equ CS11 = 1 ; Prescaler source of Timer/Counter 1
.equ CS12 = 2 ; Prescaler source of Timer/Counter 1
.equ WGM12 = 3 ; Waveform Generation Mode
.equ CTC10 = WGM12 ; For compatibility
.equ CTC1 = WGM12 ; For compatibility
.equ WGM13 = 4 ; Waveform Generation Mode
.equ CTC11 = WGM13 ; For compatibility
.equ ICES1 = 6 ; Input Capture 1 Edge Select
.equ ICNC1 = 7 ; Input Capture 1 Noise Canceler
; ***** SPI **************************
; SPDR - SPI Data Register
.equ SPDR0 = 0 ; SPI Data Register bit 0
.equ SPDR1 = 1 ; SPI Data Register bit 1
.equ SPDR2 = 2 ; SPI Data Register bit 2
.equ SPDR3 = 3 ; SPI Data Register bit 3
.equ SPDR4 = 4 ; SPI Data Register bit 4
.equ SPDR5 = 5 ; SPI Data Register bit 5
.equ SPDR6 = 6 ; SPI Data Register bit 6
.equ SPDR7 = 7 ; SPI Data Register bit 7
; SPSR - SPI Status Register
.equ SPI2X = 0 ; Double SPI Speed Bit
.equ WCOL = 6 ; Write Collision Flag
.equ SPIF = 7 ; SPI Interrupt Flag
; SPCR - SPI Control Register
.equ SPR0 = 0 ; SPI Clock Rate Select 0
.equ SPR1 = 1 ; SPI Clock Rate Select 1
.equ CPHA = 2 ; Clock Phase
.equ CPOL = 3 ; Clock polarity
.equ MSTR = 4 ; Master/Slave Select
.equ DORD = 5 ; Data Order
.equ SPE = 6 ; SPI Enable
.equ SPIE = 7 ; SPI Interrupt Enable
; ***** USART ************************
; UDR - USART I/O Data Register
.equ UDR0 = 0 ; USART I/O Data Register bit 0
.equ UDR1 = 1 ; USART I/O Data Register bit 1
.equ UDR2 = 2 ; USART I/O Data Register bit 2
.equ UDR3 = 3 ; USART I/O Data Register bit 3
.equ UDR4 = 4 ; USART I/O Data Register bit 4
.equ UDR5 = 5 ; USART I/O Data Register bit 5
.equ UDR6 = 6 ; USART I/O Data Register bit 6
.equ UDR7 = 7 ; USART I/O Data Register bit 7
; UCSRA - USART Control and Status Register A
.equ USR = UCSRA ; For compatibility
.equ MPCM = 0 ; Multi-processor Communication Mode
.equ U2X = 1 ; Double the USART transmission speed
.equ UPE = 2 ; Parity Error
.equ PE = UPE ; For compatibility
.equ DOR = 3 ; Data overRun
.equ FE = 4 ; Framing Error
.equ UDRE = 5 ; USART Data Register Empty
.equ TXC = 6 ; USART Transmitt Complete
.equ RXC = 7 ; USART Receive Complete
; UCSRB - USART Control and Status Register B
.equ UCR = UCSRB ; For compatibility
.equ TXB8 = 0 ; Transmit Data Bit 8
.equ RXB8 = 1 ; Receive Data Bit 8
.equ UCSZ2 = 2 ; Character Size
.equ CHR9 = UCSZ2 ; For compatibility
.equ TXEN = 3 ; Transmitter Enable
.equ RXEN = 4 ; Receiver Enable
.equ UDRIE = 5 ; USART Data register Empty Interrupt Enable
.equ TXCIE = 6 ; TX Complete Interrupt Enable
.equ RXCIE = 7 ; RX Complete Interrupt Enable
; UCSRC - USART Control and Status Register C
.equ UCPOL = 0 ; Clock Polarity
.equ UCSZ0 = 1 ; Character Size
.equ UCSZ1 = 2 ; Character Size
.equ USBS = 3 ; Stop Bit Select
.equ UPM0 = 4 ; Parity Mode Bit 0
.equ UPM1 = 5 ; Parity Mode Bit 1
.equ UMSEL = 6 ; USART Mode Select
.equ URSEL = 7 ; Register Select
.equ UBRRHI = UBRRH ; For compatibility
; ***** TWI **************************
; TWBR - TWI Bit Rate register
.equ TWBR0 = 0 ;
.equ TWBR1 = 1 ;
.equ TWBR2 = 2 ;
.equ TWBR3 = 3 ;
.equ TWBR4 = 4 ;
.equ TWBR5 = 5 ;
.equ TWBR6 = 6 ;
.equ TWBR7 = 7 ;
; TWCR - TWI Control Register
.equ TWIE = 0 ; TWI Interrupt Enable
.equ TWEN = 2 ; TWI Enable Bit
.equ TWWC = 3 ; TWI Write Collition Flag
.equ TWSTO = 4 ; TWI Stop Condition Bit
.equ TWSTA = 5 ; TWI Start Condition Bit
.equ TWEA = 6 ; TWI Enable Acknowledge Bit
.equ TWINT = 7 ; TWI Interrupt Flag
; TWSR - TWI Status Register
.equ TWS3 = 3 ; TWI Status
.equ TWS4 = 4 ; TWI Status
.equ TWS5 = 5 ; TWI Status
.equ TWS6 = 6 ; TWI Status
.equ TWS7 = 7 ; TWI Status
; TWDR - TWI Data register
.equ TWD0 = 0 ; TWI Data Register Bit 0
.equ TWD1 = 1 ; TWI Data Register Bit 1
.equ TWD2 = 2 ; TWI Data Register Bit 2
.equ TWD3 = 3 ; TWI Data Register Bit 3
.equ TWD4 = 4 ; TWI Data Register Bit 4
.equ TWD5 = 5 ; TWI Data Register Bit 5
.equ TWD6 = 6 ; TWI Data Register Bit 6
.equ TWD7 = 7 ; TWI Data Register Bit 7
; TWAR - TWI (Slave) Address register
.equ TWGCE = 0 ; TWI General Call Recognition Enable Bit
.equ TWA0 = 1 ; TWI (Slave) Address register Bit 0
.equ TWA1 = 2 ; TWI (Slave) Address register Bit 1
.equ TWA2 = 3 ; TWI (Slave) Address register Bit 2
.equ TWA3 = 4 ; TWI (Slave) Address register Bit 3
.equ TWA4 = 5 ; TWI (Slave) Address register Bit 4
.equ TWA5 = 6 ; TWI (Slave) Address register Bit 5
.equ TWA6 = 7 ; TWI (Slave) Address register Bit 6
; ***** ANALOG_COMPARATOR ************
; SFIOR - Special Function IO Register
.equ ACME = 3 ; Analog Comparator Multiplexer Enable
; ACSR - Analog Comparator Control And Status Register
.equ ACIS0 = 0 ; Analog Comparator Interrupt Mode Select bit 0
.equ ACIS1 = 1 ; Analog Comparator Interrupt Mode Select bit 1
.equ ACIC = 2 ; Analog Comparator Input Capture Enable
.equ ACIE = 3 ; Analog Comparator Interrupt Enable
.equ ACI = 4 ; Analog Comparator Interrupt Flag
.equ ACO = 5 ; Analog Compare Output
.equ ACBG = 6 ; Analog Comparator Bandgap Select
.equ ACD = 7 ; Analog Comparator Disable
; ***** AD_CONVERTER *****************
; ADMUX - The ADC multiplexer Selection Register
.equ MUX0 = 0 ; Analog Channel and Gain Selection Bits
.equ MUX1 = 1 ; Analog Channel and Gain Selection Bits
.equ MUX2 = 2 ; Analog Channel and Gain Selection Bits
.equ MUX3 = 3 ; Analog Channel and Gain Selection Bits
.equ MUX4 = 4 ; Analog Channel and Gain Selection Bits
.equ ADLAR = 5 ; Left Adjust Result
.equ REFS0 = 6 ; Reference Selection Bit 0
.equ REFS1 = 7 ; Reference Selection Bit 1
; ADCSRA - The ADC Control and Status register
.equ ADPS0 = 0 ; ADC Prescaler Select Bits
.equ ADPS1 = 1 ; ADC Prescaler Select Bits
.equ ADPS2 = 2 ; ADC Prescaler Select Bits
.equ ADIE = 3 ; ADC Interrupt Enable
.equ ADIF = 4 ; ADC Interrupt Flag
.equ 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.
.equ ADFR = ADATE ; For compatibility
.equ ADSC = 6 ; ADC Start Conversion
.equ ADEN = 7 ; ADC Enable
; ADCH - ADC Data Register High Byte
.equ ADCH0 = 0 ; ADC Data Register High Byte Bit 0
.equ ADCH1 = 1 ; ADC Data Register High Byte Bit 1
.equ ADCH2 = 2 ; ADC Data Register High Byte Bit 2
.equ ADCH3 = 3 ; ADC Data Register High Byte Bit 3
.equ ADCH4 = 4 ; ADC Data Register High Byte Bit 4
.equ ADCH5 = 5 ; ADC Data Register High Byte Bit 5
.equ ADCH6 = 6 ; ADC Data Register High Byte Bit 6
.equ ADCH7 = 7 ; ADC Data Register High Byte Bit 7
; ADCL - ADC Data Register Low Byte
.equ ADCL0 = 0 ; ADC Data Register Low Byte Bit 0
.equ ADCL1 = 1 ; ADC Data Register Low Byte Bit 1
.equ ADCL2 = 2 ; ADC Data Register Low Byte Bit 2
.equ ADCL3 = 3 ; ADC Data Register Low Byte Bit 3
.equ ADCL4 = 4 ; ADC Data Register Low Byte Bit 4
.equ ADCL5 = 5 ; ADC Data Register Low Byte Bit 5
.equ ADCL6 = 6 ; ADC Data Register Low Byte Bit 6
.equ ADCL7 = 7 ; ADC Data Register Low Byte Bit 7
; ***** PORTA ************************
; PORTA - Port A Data Register
.equ PORTA0 = 0 ; Port A Data Register bit 0
.equ PA0 = 0 ; For compatibility
.equ PORTA1 = 1 ; Port A Data Register bit 1
.equ PA1 = 1 ; For compatibility
.equ PORTA2 = 2 ; Port A Data Register bit 2
.equ PA2 = 2 ; For compatibility
.equ PORTA3 = 3 ; Port A Data Register bit 3
.equ PA3 = 3 ; For compatibility
.equ PORTA4 = 4 ; Port A Data Register bit 4
.equ PA4 = 4 ; For compatibility
.equ PORTA5 = 5 ; Port A Data Register bit 5
.equ PA5 = 5 ; For compatibility
.equ PORTA6 = 6 ; Port A Data Register bit 6
.equ PA6 = 6 ; For compatibility
.equ PORTA7 = 7 ; Port A Data Register bit 7
.equ PA7 = 7 ; For compatibility
; DDRA - Port A Data Direction Register
.equ DDA0 = 0 ; Data Direction Register, Port A, bit 0
.equ DDA1 = 1 ; Data Direction Register, Port A, bit 1
.equ DDA2 = 2 ; Data Direction Register, Port A, bit 2
.equ DDA3 = 3 ; Data Direction Register, Port A, bit 3
.equ DDA4 = 4 ; Data Direction Register, Port A, bit 4
.equ DDA5 = 5 ; Data Direction Register, Port A, bit 5
.equ DDA6 = 6 ; Data Direction Register, Port A, bit 6
.equ DDA7 = 7 ; Data Direction Register, Port A, bit 7
; PINA - Port A Input Pins
.equ PINA0 = 0 ; Input Pins, Port A bit 0
.equ PINA1 = 1 ; Input Pins, Port A bit 1
.equ PINA2 = 2 ; Input Pins, Port A bit 2
.equ PINA3 = 3 ; Input Pins, Port A bit 3
.equ PINA4 = 4 ; Input Pins, Port A bit 4
.equ PINA5 = 5 ; Input Pins, Port A bit 5
.equ PINA6 = 6 ; Input Pins, Port A bit 6
.equ PINA7 = 7 ; Input Pins, Port A bit 7
; ***** PORTB ************************
; PORTB - Port B Data Register
.equ PORTB0 = 0 ; Port B Data Register bit 0
.equ PB0 = 0 ; For compatibility
.equ PORTB1 = 1 ; Port B Data Register bit 1
.equ PB1 = 1 ; For compatibility
.equ PORTB2 = 2 ; Port B Data Register bit 2
.equ PB2 = 2 ; For compatibility
.equ PORTB3 = 3 ; Port B Data Register bit 3
.equ PB3 = 3 ; For compatibility
.equ PORTB4 = 4 ; Port B Data Register bit 4
.equ PB4 = 4 ; For compatibility
.equ PORTB5 = 5 ; Port B Data Register bit 5
.equ PB5 = 5 ; For compatibility
.equ PORTB6 = 6 ; Port B Data Register bit 6
.equ PB6 = 6 ; For compatibility
.equ PORTB7 = 7 ; Port B Data Register bit 7
.equ PB7 = 7 ; For compatibility
; DDRB - Port B Data Direction Register
.equ DDB0 = 0 ; Port B Data Direction Register bit 0
.equ DDB1 = 1 ; Port B Data Direction Register bit 1
.equ DDB2 = 2 ; Port B Data Direction Register bit 2
.equ DDB3 = 3 ; Port B Data Direction Register bit 3
.equ DDB4 = 4 ; Port B Data Direction Register bit 4
.equ DDB5 = 5 ; Port B Data Direction Register bit 5
.equ DDB6 = 6 ; Port B Data Direction Register bit 6
.equ DDB7 = 7 ; Port B Data Direction Register bit 7
; PINB - Port B Input Pins
.equ PINB0 = 0 ; Port B Input Pins bit 0
.equ PINB1 = 1 ; Port B Input Pins bit 1
.equ PINB2 = 2 ; Port B Input Pins bit 2
.equ PINB3 = 3 ; Port B Input Pins bit 3
.equ PINB4 = 4 ; Port B Input Pins bit 4
.equ PINB5 = 5 ; Port B Input Pins bit 5
.equ PINB6 = 6 ; Port B Input Pins bit 6
.equ PINB7 = 7 ; Port B Input Pins bit 7
; ***** PORTC ************************
; PORTC - Port C Data Register
.equ PORTC0 = 0 ; Port C Data Register bit 0
.equ PC0 = 0 ; For compatibility
.equ PORTC1 = 1 ; Port C Data Register bit 1
.equ PC1 = 1 ; For compatibility
.equ PORTC2 = 2 ; Port C Data Register bit 2
.equ PC2 = 2 ; For compatibility
.equ PORTC3 = 3 ; Port C Data Register bit 3
.equ PC3 = 3 ; For compatibility
.equ PORTC4 = 4 ; Port C Data Register bit 4
.equ PC4 = 4 ; For compatibility
.equ PORTC5 = 5 ; Port C Data Register bit 5
.equ PC5 = 5 ; For compatibility
.equ PORTC6 = 6 ; Port C Data Register bit 6
.equ PC6 = 6 ; For compatibility
.equ PORTC7 = 7 ; Port C Data Register bit 7
.equ PC7 = 7 ; For compatibility
; DDRC - Port C Data Direction Register
.equ DDC0 = 0 ; Port C Data Direction Register bit 0
.equ DDC1 = 1 ; Port C Data Direction Register bit 1
.equ DDC2 = 2 ; Port C Data Direction Register bit 2
.equ DDC3 = 3 ; Port C Data Direction Register bit 3
.equ DDC4 = 4 ; Port C Data Direction Register bit 4
.equ DDC5 = 5 ; Port C Data Direction Register bit 5
.equ DDC6 = 6 ; Port C Data Direction Register bit 6
.equ DDC7 = 7 ; Port C Data Direction Register bit 7
; PINC - Port C Input Pins
.equ PINC0 = 0 ; Port C Input Pins bit 0
.equ PINC1 = 1 ; Port C Input Pins bit 1
.equ PINC2 = 2 ; Port C Input Pins bit 2
.equ PINC3 = 3 ; Port C Input Pins bit 3
.equ PINC4 = 4 ; Port C Input Pins bit 4
.equ PINC5 = 5 ; Port C Input Pins bit 5
.equ PINC6 = 6 ; Port C Input Pins bit 6
.equ PINC7 = 7 ; Port C Input Pins bit 7
; ***** PORTD ************************
; PORTD - Port D Data Register
.equ PORTD0 = 0 ; Port D Data Register bit 0
.equ PD0 = 0 ; For compatibility
.equ PORTD1 = 1 ; Port D Data Register bit 1
.equ PD1 = 1 ; For compatibility
.equ PORTD2 = 2 ; Port D Data Register bit 2
.equ PD2 = 2 ; For compatibility
.equ PORTD3 = 3 ; Port D Data Register bit 3
.equ PD3 = 3 ; For compatibility
.equ PORTD4 = 4 ; Port D Data Register bit 4
.equ PD4 = 4 ; For compatibility
.equ PORTD5 = 5 ; Port D Data Register bit 5
.equ PD5 = 5 ; For compatibility
.equ PORTD6 = 6 ; Port D Data Register bit 6
.equ PD6 = 6 ; For compatibility
.equ PORTD7 = 7 ; Port D Data Register bit 7
.equ PD7 = 7 ; For compatibility
; DDRD - Port D Data Direction Register
.equ DDD0 = 0 ; Port D Data Direction Register bit 0
.equ DDD1 = 1 ; Port D Data Direction Register bit 1
.equ DDD2 = 2 ; Port D Data Direction Register bit 2
.equ DDD3 = 3 ; Port D Data Direction Register bit 3
.equ DDD4 = 4 ; Port D Data Direction Register bit 4
.equ DDD5 = 5 ; Port D Data Direction Register bit 5
.equ DDD6 = 6 ; Port D Data Direction Register bit 6
.equ DDD7 = 7 ; Port D Data Direction Register bit 7
; PIND - Port D Input Pins
.equ PIND0 = 0 ; Port D Input Pins bit 0
.equ PIND1 = 1 ; Port D Input Pins bit 1
.equ PIND2 = 2 ; Port D Input Pins bit 2
.equ PIND3 = 3 ; Port D Input Pins bit 3
.equ PIND4 = 4 ; Port D Input Pins bit 4
.equ PIND5 = 5 ; Port D Input Pins bit 5
.equ PIND6 = 6 ; Port D Input Pins bit 6
.equ PIND7 = 7 ; Port D Input Pins bit 7
; ***** CPU **************************
; SREG - Status Register
.equ SREG_C = 0 ; Carry Flag
.equ SREG_Z = 1 ; Zero Flag
.equ SREG_N = 2 ; Negative Flag
.equ SREG_V = 3 ; Two's Complement Overflow Flag
.equ SREG_S = 4 ; Sign Bit
.equ SREG_H = 5 ; Half Carry Flag
.equ SREG_T = 6 ; Bit Copy Storage
.equ SREG_I = 7 ; Global Interrupt Enable
; MCUCR - MCU Control Register
;.equ ISC00 = 0 ; Interrupt Sense Control 0 Bit 0
;.equ ISC01 = 1 ; Interrupt Sense Control 0 Bit 1
;.equ ISC10 = 2 ; Interrupt Sense Control 1 Bit 0
;.equ ISC11 = 3 ; Interrupt Sense Control 1 Bit 1
.equ SM0 = 4 ; Sleep Mode Select
.equ SM1 = 5 ; Sleep Mode Select
.equ SM2 = 6 ; Sleep Mode Select
.equ SE = 7 ; Sleep Enable
; MCUCSR - MCU Control And Status Register
.equ MCUSR = MCUCSR ; For compatibility
.equ PORF = 0 ; Power-on reset flag
.equ EXTRF = 1 ; External Reset Flag
.equ BORF = 2 ; Brown-out Reset Flag
.equ WDRF = 3 ; Watchdog Reset Flag
.equ JTRF = 4 ; JTAG Reset Flag
.equ JTD = 7 ; JTAG Interface Disable
; OSCCAL - Oscillator Calibration Value
.equ CAL0 = 0 ; Oscillator Calibration Value Bit0
.equ CAL1 = 1 ; Oscillator Calibration Value Bit1
.equ CAL2 = 2 ; Oscillator Calibration Value Bit2
.equ CAL3 = 3 ; Oscillator Calibration Value Bit3
.equ CAL4 = 4 ; Oscillator Calibration Value Bit4
.equ CAL5 = 5 ; Oscillator Calibration Value Bit5
.equ CAL6 = 6 ; Oscillator Calibration Value Bit6
.equ CAL7 = 7 ; Oscillator Calibration Value Bit7
; SFIOR - Special Function IO Register
.equ PSR10 = 0 ; Prescaler Reset Timer/Counter1&0
.equ PSR2 = 1 ; Prescaler Reset Timer/Counter2
.equ PUD = 2 ; Pull-up Disable
.equ ADTS0 = 5 ; ADC Auto Trigger Source 0
.equ ADTS1 = 6 ; ADC Auto Trigger Source 1
.equ ADTS2 = 7 ; ADC Auto Trigger Source 2
; ***** BOOT_LOAD ********************
; SPMCR - Store Program Memory Control Register
.equ SPMEN = 0 ; Store Program Memory Enable
.equ PGERS = 1 ; Page Erase
.equ PGWRT = 2 ; Page Write
.equ BLBSET = 3 ; Boot Lock Bit Set
.equ RWWSRE = 4 ; Read While Write secion read enable
.equ ASRE = RWWSRE ; For compatibility
.equ RWWSB = 6 ; Read While Write Section Busy
.equ ASB = RWWSB ; For compatibility
.equ SPMIE = 7 ; SPM Interrupt Enable
; ***** LOCKSBITS ********************************************************
.equ LB1 = 0 ; Lock bit
.equ LB2 = 1 ; Lock bit
.equ BLB01 = 2 ; Boot Lock bit
.equ BLB02 = 3 ; Boot Lock bit
.equ BLB11 = 4 ; Boot lock bit
.equ BLB12 = 5 ; Boot lock bit
; ***** FUSES ************************************************************
; LOW fuse bits
.equ CKSEL0 = 0 ; Select Clock Source
.equ CKSEL1 = 1 ; Select Clock Source
.equ CKSEL2 = 2 ; Select Clock Source
.equ CKSEL3 = 3 ; Select Clock Source
.equ BODEN = 6 ; Brown out detector enable
.equ BODLEVEL = 7 ; Brown out detector trigger level
; HIGH fuse bits
.equ BOOTRST = 0 ; Select Reset Vector
.equ BOOTSZ0 = 1 ; Select Boot Size
.equ BOOTSZ1 = 2 ; Select Boot Size
.equ EESAVE = 3 ; EEPROM memory is preserved through chip erase
.equ SPIEN = 5 ; Enable Serial programming and Data Downloading
.equ JTAGEN = 6 ; Enable JTAG
.equ OCDEN = 7 ; Enable OCD
; ***** CPU REGISTER DEFINITIONS *****************************************
.def XH = r27
.def XL = r26
.def YH = r29
.def YL = r28
.def ZH = r31
.def ZL = r30
; ***** DATA MEMORY DECLARATIONS *****************************************
.equ FLASHEND = 0x3fff ; Note: Word address
.equ IOEND = 0x003f
.equ SRAM_START = 0x0060
.equ SRAM_SIZE = 2048
.equ RAMEND = 0x085f
.equ XRAMEND = 0x0000
.equ E2END = 0x03ff
.equ EEPROMEND = 0x03ff
.equ EEADRBITS = 10
#pragma AVRPART MEMORY PROG_FLASH 32768
#pragma AVRPART MEMORY EEPROM 1024
#pragma AVRPART MEMORY INT_SRAM SIZE 2048
#pragma AVRPART MEMORY INT_SRAM START_ADDR 0x60
; ***** BOOTLOADER DECLARATIONS ******************************************
.equ NRWW_START_ADDR = 0x3800
.equ NRWW_STOP_ADDR = 0x3fff
.equ RWW_START_ADDR = 0x0
.equ RWW_STOP_ADDR = 0x37ff
.equ PAGESIZE = 64
.equ FIRSTBOOTSTART = 0x3f00
.equ SECONDBOOTSTART = 0x3e00
.equ THIRDBOOTSTART = 0x3c00
.equ FOURTHBOOTSTART = 0x3800
.equ SMALLBOOTSTART = FIRSTBOOTSTART
.equ LARGEBOOTSTART = FOURTHBOOTSTART
; ***** INTERRUPT VECTORS ************************************************
.equ INT0addr = 0x0002 ; External Interrupt Request 0
.equ INT1addr = 0x0004 ; External Interrupt Request 1
.equ INT2addr = 0x0006 ; External Interrupt Request 2
.equ OC2addr = 0x0008 ; Timer/Counter2 Compare Match
.equ OVF2addr = 0x000a ; Timer/Counter2 Overflow
.equ ICP1addr = 0x000c ; Timer/Counter1 Capture Event
.equ OC1Aaddr = 0x000e ; Timer/Counter1 Compare Match A
.equ OC1Baddr = 0x0010 ; Timer/Counter1 Compare Match B
.equ OVF1addr = 0x0012 ; Timer/Counter1 Overflow
.equ OC0addr = 0x0014 ; Timer/Counter0 Compare Match
.equ OVF0addr = 0x0016 ; Timer/Counter0 Overflow
.equ SPIaddr = 0x0018 ; Serial Transfer Complete
.equ URXCaddr = 0x001a ; USART, Rx Complete
.equ UDREaddr = 0x001c ; USART Data Register Empty
.equ UTXCaddr = 0x001e ; USART, Tx Complete
.equ ADCCaddr = 0x0020 ; ADC Conversion Complete
.equ ERDYaddr = 0x0022 ; EEPROM Ready
.equ ACIaddr = 0x0024 ; Analog Comparator
.equ TWIaddr = 0x0026 ; 2-wire Serial Interface
.equ SPMRaddr = 0x0028 ; Store Program Memory Ready
.equ INT_VECTORS_SIZE = 42 ; size in words
#endif /* _M32DEF_INC_ */
; ***** END OF FILE ******************************************************