mirror of
https://gitlab.com/freepascal.org/fpc/source.git
synced 2025-04-08 07:48:08 +02:00
55669f62b1
Made absolutevarsym use PUint instead of AWord for its offset to fix range errors. git-svn-id: trunk@31242 -
839 lines
31 KiB
ObjectPascal
839 lines
31 KiB
ObjectPascal
unit AT90USB646;
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{$goto on}
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interface
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var
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// WATCHDOG
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WDTCSR : byte absolute $00+$60; // Watchdog Timer Control Register
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// PORTA
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PORTA : byte absolute $00+$22; // Port A Data Register
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DDRA : byte absolute $00+$21; // Port A Data Direction Register
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PINA : byte absolute $00+$20; // Port A Input Pins
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// PORTB
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PORTB : byte absolute $00+$25; // Port B Data Register
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DDRB : byte absolute $00+$24; // Port B Data Direction Register
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PINB : byte absolute $00+$23; // Port B Input Pins
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// PORTC
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PORTC : byte absolute $00+$28; // Port C Data Register
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DDRC : byte absolute $00+$27; // Port C Data Direction Register
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PINC : byte absolute $00+$26; // Port C Input Pins
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// PORTD
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PORTD : byte absolute $00+$2B; // Port D Data Register
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DDRD : byte absolute $00+$2A; // Port D Data Direction Register
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PIND : byte absolute $00+$29; // Port D Input Pins
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// PORTE
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PORTE : byte absolute $00+$2E; // Data Register, Port E
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DDRE : byte absolute $00+$2D; // Data Direction Register, Port E
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PINE : byte absolute $00+$2C; // Input Pins, Port E
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// PORTF
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PORTF : byte absolute $00+$31; // Data Register, Port F
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DDRF : byte absolute $00+$30; // Data Direction Register, Port F
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PINF : byte absolute $00+$2F; // Input Pins, Port F
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// CPU
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SREG : byte absolute $00+$5F; // Status Register
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SP : word absolute $00+$5D; // Stack Pointer
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SPL : byte absolute $00+$5D; // Stack Pointer
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SPH : byte absolute $00+$5D+1; // Stack Pointer
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MCUCR : byte absolute $00+$55; // MCU Control Register
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MCUSR : byte absolute $00+$54; // MCU Status Register
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XMCRA : byte absolute $00+$74; // External Memory Control Register A
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XMCRB : byte absolute $00+$75; // External Memory Control Register B
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OSCCAL : byte absolute $00+$66; // Oscillator Calibration Value
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CLKPR : byte absolute $00+$61; //
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SMCR : byte absolute $00+$53; // Sleep Mode Control Register
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EIND : byte absolute $00+$5C; // Extended Indirect Register
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RAMPZ : byte absolute $00+$5B; // RAM Page Z Select Register
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GPIOR2 : byte absolute $00+$4B; // General Purpose IO Register 2
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GPIOR1 : byte absolute $00+$4A; // General Purpose IO Register 1
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GPIOR0 : byte absolute $00+$3E; // General Purpose IO Register 0
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PRR1 : byte absolute $00+$65; // Power Reduction Register1
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PRR0 : byte absolute $00+$64; // Power Reduction Register0
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// TWI
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TWAMR : byte absolute $00+$BD; // TWI (Slave) Address Mask Register
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TWBR : byte absolute $00+$B8; // TWI Bit Rate register
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TWCR : byte absolute $00+$BC; // TWI Control Register
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TWSR : byte absolute $00+$B9; // TWI Status Register
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TWDR : byte absolute $00+$BB; // TWI Data register
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TWAR : byte absolute $00+$BA; // TWI (Slave) Address register
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// SPI
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SPCR : byte absolute $00+$4C; // SPI Control Register
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SPSR : byte absolute $00+$4D; // SPI Status Register
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SPDR : byte absolute $00+$4E; // SPI Data Register
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// USART1
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UDR1 : byte absolute $00+$CE; // USART I/O Data Register
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UCSR1A : byte absolute $00+$C8; // USART Control and Status Register A
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UCSR1B : byte absolute $00+$C9; // USART Control and Status Register B
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UCSR1C : byte absolute $00+$CA; // USART Control and Status Register C
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UBRR1 : word absolute $00+$CC; // USART Baud Rate Register Bytes
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UBRR1L : byte absolute $00+$CC; // USART Baud Rate Register Bytes
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UBRR1H : byte absolute $00+$CC+1; // USART Baud Rate Register Bytes
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// USB_DEVICE
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UEINT : byte absolute $00+$F4; //
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UEBCHX : byte absolute $00+$F3; //
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UEBCLX : byte absolute $00+$F2; //
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UEDATX : byte absolute $00+$F1; //
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UEIENX : byte absolute $00+$F0; //
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UESTA1X : byte absolute $00+$EF; //
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UESTA0X : byte absolute $00+$EE; //
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UECFG1X : byte absolute $00+$ED; //
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UECFG0X : byte absolute $00+$EC; //
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UECONX : byte absolute $00+$EB; //
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UERST : byte absolute $00+$EA; //
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UENUM : byte absolute $00+$E9; //
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UEINTX : byte absolute $00+$E8; //
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UDMFN : byte absolute $00+$E6; //
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UDFNUM : word absolute $00+$E4; //
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UDFNUML : byte absolute $00+$E4; //
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UDFNUMH : byte absolute $00+$E4+1; //
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UDADDR : byte absolute $00+$E3; //
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UDIEN : byte absolute $00+$E2; //
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UDINT : byte absolute $00+$E1; //
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UDCON : byte absolute $00+$E0; //
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// USB_GLOBAL
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OTGINT : byte absolute $00+$DF; //
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OTGIEN : byte absolute $00+$DE; //
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OTGCON : byte absolute $00+$DD; //
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OTGTCON : byte absolute $00+$F9; //
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USBINT : byte absolute $00+$DA; //
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USBSTA : byte absolute $00+$D9; //
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USBCON : byte absolute $00+$D8; // USB General Control Register
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UHWCON : byte absolute $00+$D7; // USB Hardware Configuration Register
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// USB_HOST
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UPERRX : byte absolute $00+$F5; //
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UPINT : byte absolute $00+$F8; //
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UPBCHX : byte absolute $00+$F7; //
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UPBCLX : byte absolute $00+$F6; //
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UPDATX : byte absolute $00+$AF; //
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UPIENX : byte absolute $00+$AE; //
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UPCFG2X : byte absolute $00+$AD; //
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UPSTAX : byte absolute $00+$AC; //
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UPCFG1X : byte absolute $00+$AB; //
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UPCFG0X : byte absolute $00+$AA; //
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UPCONX : byte absolute $00+$A9; //
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UPRST : byte absolute $00+$A8; //
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UPNUM : byte absolute $00+$A7; //
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UPINTX : byte absolute $00+$A6; //
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UPINRQX : byte absolute $00+$A5; //
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UHFLEN : byte absolute $00+$A4; //
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UHFNUM : word absolute $00+$A2; //
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UHFNUML : byte absolute $00+$A2; //
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UHFNUMH : byte absolute $00+$A2+1; //
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UHADDR : byte absolute $00+$A1; //
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UHIEN : byte absolute $00+$A0; //
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UHINT : byte absolute $00+$9F; //
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UHCON : byte absolute $00+$9E; //
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// BOOT_LOAD
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SPMCSR : byte absolute $00+$57; // Store Program Memory Control Register
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// EEPROM
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EEAR : word absolute $00+$41; // EEPROM Address Register Low Bytes
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EEARL : byte absolute $00+$41; // EEPROM Address Register Low Bytes
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EEARH : byte absolute $00+$41+1; // EEPROM Address Register Low Bytes
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EEDR : byte absolute $00+$40; // EEPROM Data Register
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EECR : byte absolute $00+$3F; // EEPROM Control Register
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// TIMER_COUNTER_0
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OCR0B : byte absolute $00+$48; // Timer/Counter0 Output Compare Register
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OCR0A : byte absolute $00+$47; // Timer/Counter0 Output Compare Register
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TCNT0 : byte absolute $00+$46; // Timer/Counter0
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TCCR0B : byte absolute $00+$45; // Timer/Counter Control Register B
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TCCR0A : byte absolute $00+$44; // Timer/Counter Control Register A
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TIMSK0 : byte absolute $00+$6E; // Timer/Counter0 Interrupt Mask Register
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TIFR0 : byte absolute $00+$35; // Timer/Counter0 Interrupt Flag register
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GTCCR : byte absolute $00+$43; // General Timer/Counter Control Register
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// TIMER_COUNTER_2
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TIMSK2 : byte absolute $00+$70; // Timer/Counter Interrupt Mask register
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TIFR2 : byte absolute $00+$37; // Timer/Counter Interrupt Flag Register
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TCCR2A : byte absolute $00+$B0; // Timer/Counter2 Control Register A
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TCCR2B : byte absolute $00+$B1; // Timer/Counter2 Control Register B
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TCNT2 : byte absolute $00+$B2; // Timer/Counter2
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OCR2B : byte absolute $00+$B4; // Timer/Counter2 Output Compare Register B
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OCR2A : byte absolute $00+$B3; // Timer/Counter2 Output Compare Register A
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ASSR : byte absolute $00+$B6; // Asynchronous Status Register
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// TIMER_COUNTER_3
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TCCR3A : byte absolute $00+$90; // Timer/Counter3 Control Register A
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TCCR3B : byte absolute $00+$91; // Timer/Counter3 Control Register B
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TCCR3C : byte absolute $00+$92; // Timer/Counter 3 Control Register C
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TCNT3 : word absolute $00+$94; // Timer/Counter3 Bytes
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TCNT3L : byte absolute $00+$94; // Timer/Counter3 Bytes
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TCNT3H : byte absolute $00+$94+1; // Timer/Counter3 Bytes
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OCR3A : word absolute $00+$98; // Timer/Counter3 Output Compare Register A Bytes
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OCR3AL : byte absolute $00+$98; // Timer/Counter3 Output Compare Register A Bytes
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OCR3AH : byte absolute $00+$98+1; // Timer/Counter3 Output Compare Register A Bytes
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OCR3B : word absolute $00+$9A; // Timer/Counter3 Output Compare Register B Bytes
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OCR3BL : byte absolute $00+$9A; // Timer/Counter3 Output Compare Register B Bytes
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OCR3BH : byte absolute $00+$9A+1; // Timer/Counter3 Output Compare Register B Bytes
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OCR3C : word absolute $00+$9C; // Timer/Counter3 Output Compare Register B Bytes
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OCR3CL : byte absolute $00+$9C; // Timer/Counter3 Output Compare Register B Bytes
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OCR3CH : byte absolute $00+$9C+1; // Timer/Counter3 Output Compare Register B Bytes
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ICR3 : word absolute $00+$96; // Timer/Counter3 Input Capture Register Bytes
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ICR3L : byte absolute $00+$96; // Timer/Counter3 Input Capture Register Bytes
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ICR3H : byte absolute $00+$96+1; // Timer/Counter3 Input Capture Register Bytes
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TIMSK3 : byte absolute $00+$71; // Timer/Counter3 Interrupt Mask Register
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TIFR3 : byte absolute $00+$38; // Timer/Counter3 Interrupt Flag register
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// TIMER_COUNTER_1
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TCCR1A : byte absolute $00+$80; // Timer/Counter1 Control Register A
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TCCR1B : byte absolute $00+$81; // Timer/Counter1 Control Register B
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TCCR1C : byte absolute $00+$82; // Timer/Counter 1 Control Register C
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TCNT1 : word absolute $00+$84; // Timer/Counter1 Bytes
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TCNT1L : byte absolute $00+$84; // Timer/Counter1 Bytes
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TCNT1H : byte absolute $00+$84+1; // Timer/Counter1 Bytes
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OCR1A : word absolute $00+$88; // Timer/Counter1 Output Compare Register A Bytes
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OCR1AL : byte absolute $00+$88; // Timer/Counter1 Output Compare Register A Bytes
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OCR1AH : byte absolute $00+$88+1; // Timer/Counter1 Output Compare Register A Bytes
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OCR1B : word absolute $00+$8A; // Timer/Counter1 Output Compare Register B Bytes
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OCR1BL : byte absolute $00+$8A; // Timer/Counter1 Output Compare Register B Bytes
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OCR1BH : byte absolute $00+$8A+1; // Timer/Counter1 Output Compare Register B Bytes
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OCR1C : word absolute $00+$8C; // Timer/Counter1 Output Compare Register C Bytes
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OCR1CL : byte absolute $00+$8C; // Timer/Counter1 Output Compare Register C Bytes
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OCR1CH : byte absolute $00+$8C+1; // Timer/Counter1 Output Compare Register C Bytes
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ICR1 : word absolute $00+$86; // Timer/Counter1 Input Capture Register Bytes
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ICR1L : byte absolute $00+$86; // Timer/Counter1 Input Capture Register Bytes
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ICR1H : byte absolute $00+$86+1; // Timer/Counter1 Input Capture Register Bytes
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TIMSK1 : byte absolute $00+$6F; // Timer/Counter1 Interrupt Mask Register
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TIFR1 : byte absolute $00+$36; // Timer/Counter1 Interrupt Flag register
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// JTAG
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OCDR : byte absolute $00+$51; // On-Chip Debug Related Register in I/O Memory
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// EXTERNAL_INTERRUPT
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EICRA : byte absolute $00+$69; // External Interrupt Control Register A
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EICRB : byte absolute $00+$6A; // External Interrupt Control Register B
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EIMSK : byte absolute $00+$3D; // External Interrupt Mask Register
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EIFR : byte absolute $00+$3C; // External Interrupt Flag Register
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PCMSK0 : byte absolute $00+$6B; // Pin Change Mask Register 0
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PCIFR : byte absolute $00+$3B; // Pin Change Interrupt Flag Register
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PCICR : byte absolute $00+$68; // Pin Change Interrupt Control Register
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// AD_CONVERTER
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ADMUX : byte absolute $00+$7C; // The ADC multiplexer Selection Register
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ADCSRA : byte absolute $00+$7A; // The ADC Control and Status register
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ADC : word absolute $00+$78; // ADC Data Register Bytes
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ADCL : byte absolute $00+$78; // ADC Data Register Bytes
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ADCH : byte absolute $00+$78+1; // ADC Data Register Bytes
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ADCSRB : byte absolute $00+$7B; // ADC Control and Status Register B
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DIDR0 : byte absolute $00+$7E; // Digital Input Disable Register 1
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// ANALOG_COMPARATOR
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ACSR : byte absolute $00+$50; // Analog Comparator Control And Status Register
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DIDR1 : byte absolute $00+$7F; //
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// PLL
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PLLCSR : byte absolute $00+$49; // PLL Status and Control register
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const
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// WDTCSR
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WDIF = 7; // Watchdog Timeout Interrupt Flag
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WDIE = 6; // Watchdog Timeout Interrupt Enable
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WDP = 0; // Watchdog Timer Prescaler Bits
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WDCE = 4; // Watchdog Change Enable
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WDE = 3; // Watch Dog Enable
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// SREG
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I = 7; // Global Interrupt Enable
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T = 6; // Bit Copy Storage
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H = 5; // Half Carry Flag
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S = 4; // Sign Bit
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V = 3; // Two's Complement Overflow Flag
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N = 2; // Negative Flag
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Z = 1; // Zero Flag
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C = 0; // Carry Flag
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// MCUCR
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JTD = 7; // JTAG Interface Disable
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PUD = 4; // Pull-up disable
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IVSEL = 1; // Interrupt Vector Select
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IVCE = 0; // Interrupt Vector Change Enable
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// MCUSR
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JTRF = 4; // JTAG Reset Flag
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WDRF = 3; // Watchdog Reset Flag
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BORF = 2; // Brown-out Reset Flag
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EXTRF = 1; // External Reset Flag
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PORF = 0; // Power-on reset flag
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// XMCRA
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SRE = 7; // External SRAM Enable
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SRL = 4; // Wait state page limit
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SRW1 = 2; // Wait state select bit upper page
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SRW0 = 0; // Wait state select bit lower page
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// XMCRB
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XMBK = 7; // External Memory Bus Keeper Enable
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XMM = 0; // External Memory High Mask
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// CLKPR
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CLKPCE = 7; //
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CLKPS = 0; //
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// SMCR
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SM = 1; // Sleep Mode Select bits
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SE = 0; // Sleep Enable
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// GPIOR2
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GPIOR = 0; // General Purpose IO Register 2 bis
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// GPIOR1
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// GPIOR0
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GPIOR07 = 7; // General Purpose IO Register 0 bit 7
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GPIOR06 = 6; // General Purpose IO Register 0 bit 6
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GPIOR05 = 5; // General Purpose IO Register 0 bit 5
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GPIOR04 = 4; // General Purpose IO Register 0 bit 4
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GPIOR03 = 3; // General Purpose IO Register 0 bit 3
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GPIOR02 = 2; // General Purpose IO Register 0 bit 2
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GPIOR01 = 1; // General Purpose IO Register 0 bit 1
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GPIOR00 = 0; // General Purpose IO Register 0 bit 0
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// PRR1
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PRUSB = 7; // Power Reduction USB
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PRTIM3 = 3; // Power Reduction Timer/Counter3
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PRUSART1 = 0; // Power Reduction USART1
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// PRR0
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PRTWI = 7; // Power Reduction TWI
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PRTIM2 = 6; // Power Reduction Timer/Counter2
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PRTIM0 = 5; // Power Reduction Timer/Counter0
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PRTIM1 = 3; // Power Reduction Timer/Counter1
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PRSPI = 2; // Power Reduction Serial Peripheral Interface
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PRADC = 0; // Power Reduction ADC
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// TWAMR
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TWAM = 1; //
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// TWCR
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TWINT = 7; // TWI Interrupt Flag
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TWEA = 6; // TWI Enable Acknowledge Bit
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TWSTA = 5; // TWI Start Condition Bit
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TWSTO = 4; // TWI Stop Condition Bit
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TWWC = 3; // TWI Write Collition Flag
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TWEN = 2; // TWI Enable Bit
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TWIE = 0; // TWI Interrupt Enable
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// TWSR
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TWS = 3; // TWI Status
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TWPS = 0; // TWI Prescaler
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// TWAR
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TWA = 1; // TWI (Slave) Address register Bits
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TWGCE = 0; // TWI General Call Recognition Enable Bit
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// SPCR
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SPIE = 7; // SPI Interrupt Enable
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SPE = 6; // SPI Enable
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DORD = 5; // Data Order
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MSTR = 4; // Master/Slave Select
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CPOL = 3; // Clock polarity
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CPHA = 2; // Clock Phase
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SPR = 0; // SPI Clock Rate Selects
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// SPSR
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SPIF = 7; // SPI Interrupt Flag
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WCOL = 6; // Write Collision Flag
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SPI2X = 0; // Double SPI Speed Bit
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// UCSR1A
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RXC1 = 7; // USART Receive Complete
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TXC1 = 6; // USART Transmitt Complete
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UDRE1 = 5; // USART Data Register Empty
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FE1 = 4; // Framing Error
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DOR1 = 3; // Data overRun
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UPE1 = 2; // Parity Error
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U2X1 = 1; // Double the USART transmission speed
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MPCM1 = 0; // Multi-processor Communication Mode
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// UCSR1B
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RXCIE1 = 7; // RX Complete Interrupt Enable
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TXCIE1 = 6; // TX Complete Interrupt Enable
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UDRIE1 = 5; // USART Data register Empty Interrupt Enable
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RXEN1 = 4; // Receiver Enable
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TXEN1 = 3; // Transmitter Enable
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UCSZ12 = 2; // Character Size
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RXB81 = 1; // Receive Data Bit 8
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TXB81 = 0; // Transmit Data Bit 8
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// UCSR1C
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UMSEL1 = 6; // USART Mode Select
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UPM1 = 4; // Parity Mode Bits
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USBS1 = 3; // Stop Bit Select
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UCSZ1 = 1; // Character Size
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UCPOL1 = 0; // Clock Polarity
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// UEIENX
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FLERRE = 7; //
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NAKINE = 6; //
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NAKOUTE = 4; //
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RXSTPE = 3; //
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RXOUTE = 2; //
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STALLEDE = 1; //
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TXINE = 0; //
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// UESTA1X
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CTRLDIR = 2; //
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CURRBK = 0; //
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// UESTA0X
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CFGOK = 7; //
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OVERFI = 6; //
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UNDERFI = 5; //
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DTSEQ = 2; //
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NBUSYBK = 0; //
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// UECFG1X
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EPSIZE = 4; //
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EPBK = 2; //
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ALLOC = 1; //
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// UECFG0X
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EPTYPE = 6; //
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EPDIR = 0; //
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// UECONX
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STALLRQ = 5; //
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STALLRQC = 4; //
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RSTDT = 3; //
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EPEN = 0; //
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// UERST
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EPRST = 0; //
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// UEINTX
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FIFOCON = 7; //
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NAKINI = 6; //
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RWAL = 5; //
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NAKOUTI = 4; //
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RXSTPI = 3; //
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RXOUTI = 2; //
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STALLEDI = 1; //
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TXINI = 0; //
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// UDMFN
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FNCERR = 4; //
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// UDADDR
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ADDEN = 7; //
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UADD = 0; //
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// UDIEN
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UPRSME = 6; //
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EORSME = 5; //
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WAKEUPE = 4; //
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EORSTE = 3; //
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SOFE = 2; //
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SUSPE = 0; //
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// UDINT
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UPRSMI = 6; //
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EORSMI = 5; //
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WAKEUPI = 4; //
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EORSTI = 3; //
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SOFI = 2; //
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SUSPI = 0; //
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// UDCON
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LSM = 2; //
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RMWKUP = 1; //
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DETACH = 0; //
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// OTGINT
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STOI = 5; //
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HNPERRI = 4; //
|
|
ROLEEXI = 3; //
|
|
BCERRI = 2; //
|
|
VBERRI = 1; //
|
|
SRPI = 0; //
|
|
// OTGIEN
|
|
STOE = 5; //
|
|
HNPERRE = 4; //
|
|
ROLEEXE = 3; //
|
|
BCERRE = 2; //
|
|
VBERRE = 1; //
|
|
SRPE = 0; //
|
|
// OTGCON
|
|
HNPREQ = 5; //
|
|
SRPREQ = 4; //
|
|
SRPSEL = 3; //
|
|
VBUSHWC = 2; //
|
|
VBUSREQ = 1; //
|
|
VBUSRQC = 0; //
|
|
// OTGTCON
|
|
OTGTCON_7 = 7; //
|
|
PAGE = 5; //
|
|
VALUE_2 = 0; //
|
|
// USBINT
|
|
IDTI = 1; //
|
|
VBUSTI = 0; //
|
|
// USBSTA
|
|
SPEED = 3; //
|
|
ID = 1; //
|
|
VBUS = 0; //
|
|
// USBCON
|
|
USBE = 7; //
|
|
HOST = 6; //
|
|
FRZCLK = 5; //
|
|
OTGPADE = 4; //
|
|
IDTE = 1; //
|
|
VBUSTE = 0; //
|
|
// UHWCON
|
|
UIMOD = 7; //
|
|
UIDE = 6; //
|
|
UVCONE = 4; //
|
|
UVREGE = 0; //
|
|
// UPERRX
|
|
COUNTER = 5; //
|
|
CRC16 = 4; //
|
|
TIMEOUT = 3; //
|
|
PID = 2; //
|
|
DATAPID = 1; //
|
|
DATATGL = 0; //
|
|
// UPIENX
|
|
NAKEDE = 6; //
|
|
PERRE = 4; //
|
|
TXSTPE = 3; //
|
|
TXOUTE = 2; //
|
|
RXSTALLE = 1; //
|
|
RXINE = 0; //
|
|
// UPSTAX
|
|
NBUSYK = 0; //
|
|
// UPCFG1X
|
|
PSIZE = 4; //
|
|
PBK = 2; //
|
|
// UPCFG0X
|
|
PTYPE = 6; //
|
|
PTOKEN = 4; //
|
|
PEPNUM = 0; //
|
|
// UPCONX
|
|
PFREEZE = 6; //
|
|
INMODE = 5; //
|
|
PEN = 0; //
|
|
// UPRST
|
|
PRST = 0; //
|
|
// UPINTX
|
|
NAKEDI = 6; //
|
|
PERRI = 4; //
|
|
TXSTPI = 3; //
|
|
TXOUTI = 2; //
|
|
RXSTALLI = 1; //
|
|
RXINI = 0; //
|
|
// UHIEN
|
|
HWUPE = 6; //
|
|
HSOFE = 5; //
|
|
RXRSME = 4; //
|
|
RSMEDE = 3; //
|
|
RSTE = 2; //
|
|
DDISCE = 1; //
|
|
DCONNE = 0; //
|
|
// UHINT
|
|
UHUPI = 6; //
|
|
HSOFI = 5; //
|
|
RXRSMI = 4; //
|
|
RSMEDI = 3; //
|
|
RSTI = 2; //
|
|
DDISCI = 1; //
|
|
DCONNI = 0; //
|
|
// UHCON
|
|
RESUME = 2; //
|
|
RESET = 1; //
|
|
SOFEN = 0; //
|
|
// SPMCSR
|
|
SPMIE = 7; // SPM Interrupt Enable
|
|
RWWSB = 6; // Read While Write Section Busy
|
|
SIGRD = 5; // Signature Row Read
|
|
RWWSRE = 4; // Read While Write section read enable
|
|
BLBSET = 3; // Boot Lock Bit Set
|
|
PGWRT = 2; // Page Write
|
|
PGERS = 1; // Page Erase
|
|
SPMEN = 0; // Store Program Memory Enable
|
|
// EECR
|
|
EEPM = 4; // EEPROM Programming Mode Bits
|
|
EERIE = 3; // EEPROM Ready Interrupt Enable
|
|
EEMPE = 2; // EEPROM Master Write Enable
|
|
EEPE = 1; // EEPROM Write Enable
|
|
EERE = 0; // EEPROM Read Enable
|
|
// TCCR0B
|
|
FOC0A = 7; // Force Output Compare A
|
|
FOC0B = 6; // Force Output Compare B
|
|
WGM02 = 3; //
|
|
CS0 = 0; // Clock Select
|
|
// TCCR0A
|
|
COM0A = 6; // Compare Output Mode, Phase Correct PWM Mode
|
|
COM0B = 4; // Compare Output Mode, Fast PWm
|
|
WGM0 = 0; // Waveform Generation Mode
|
|
// TIMSK0
|
|
OCIE0B = 2; // Timer/Counter0 Output Compare Match B Interrupt Enable
|
|
OCIE0A = 1; // Timer/Counter0 Output Compare Match A Interrupt Enable
|
|
TOIE0 = 0; // Timer/Counter0 Overflow Interrupt Enable
|
|
// TIFR0
|
|
OCF0B = 2; // Timer/Counter0 Output Compare Flag 0B
|
|
OCF0A = 1; // Timer/Counter0 Output Compare Flag 0A
|
|
TOV0 = 0; // Timer/Counter0 Overflow Flag
|
|
// GTCCR
|
|
TSM = 7; // Timer/Counter Synchronization Mode
|
|
PSRSYNC = 0; // Prescaler Reset Timer/Counter1 and Timer/Counter0
|
|
// TIMSK2
|
|
OCIE2B = 2; // Timer/Counter2 Output Compare Match B Interrupt Enable
|
|
OCIE2A = 1; // Timer/Counter2 Output Compare Match A Interrupt Enable
|
|
TOIE2 = 0; // Timer/Counter2 Overflow Interrupt Enable
|
|
// TIFR2
|
|
OCF2B = 2; // Output Compare Flag 2B
|
|
OCF2A = 1; // Output Compare Flag 2A
|
|
TOV2 = 0; // Timer/Counter2 Overflow Flag
|
|
// TCCR2A
|
|
COM2A = 6; // Compare Output Mode bits
|
|
COM2B = 4; // Compare Output Mode bits
|
|
WGM2 = 0; // Waveform Genration Mode
|
|
// TCCR2B
|
|
FOC2A = 7; // Force Output Compare A
|
|
FOC2B = 6; // Force Output Compare B
|
|
WGM22 = 3; // Waveform Generation Mode
|
|
CS2 = 0; // Clock Select bits
|
|
// ASSR
|
|
EXCLK = 6; // Enable External Clock Input
|
|
AS2 = 5; // Asynchronous Timer/Counter2
|
|
TCN2UB = 4; // Timer/Counter2 Update Busy
|
|
OCR2AUB = 3; // Output Compare Register2 Update Busy
|
|
OCR2BUB = 2; // Output Compare Register 2 Update Busy
|
|
TCR2AUB = 1; // Timer/Counter Control Register2 Update Busy
|
|
TCR2BUB = 0; // Timer/Counter Control Register2 Update Busy
|
|
// GTCCR
|
|
PSRASY = 1; // Prescaler Reset Timer/Counter2
|
|
// TCCR3A
|
|
COM3A = 6; // Compare Output Mode 1A, bits
|
|
COM3B = 4; // Compare Output Mode 3B, bits
|
|
COM3C = 2; // Compare Output Mode 3C, bits
|
|
WGM3 = 0; // Waveform Generation Mode
|
|
// TCCR3B
|
|
ICNC3 = 7; // Input Capture 3 Noise Canceler
|
|
ICES3 = 6; // Input Capture 3 Edge Select
|
|
CS3 = 0; // Prescaler source of Timer/Counter 3
|
|
// TCCR3C
|
|
FOC3A = 7; // Force Output Compare 3A
|
|
FOC3B = 6; // Force Output Compare 3B
|
|
FOC3C = 5; // Force Output Compare 3C
|
|
// TIMSK3
|
|
ICIE3 = 5; // Timer/Counter3 Input Capture Interrupt Enable
|
|
OCIE3C = 3; // Timer/Counter3 Output Compare C Match Interrupt Enable
|
|
OCIE3B = 2; // Timer/Counter3 Output Compare B Match Interrupt Enable
|
|
OCIE3A = 1; // Timer/Counter3 Output Compare A Match Interrupt Enable
|
|
TOIE3 = 0; // Timer/Counter3 Overflow Interrupt Enable
|
|
// TIFR3
|
|
ICF3 = 5; // Input Capture Flag 3
|
|
OCF3C = 3; // Output Compare Flag 3C
|
|
OCF3B = 2; // Output Compare Flag 3B
|
|
OCF3A = 1; // Output Compare Flag 3A
|
|
TOV3 = 0; // Timer/Counter3 Overflow Flag
|
|
// TCCR1A
|
|
COM1A = 6; // Compare Output Mode 1A, bits
|
|
COM1B = 4; // Compare Output Mode 1B, bits
|
|
COM1C = 2; // Compare Output Mode 1C, bits
|
|
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
|
|
// TCCR1C
|
|
FOC1A = 7; // Force Output Compare 1A
|
|
FOC1B = 6; // Force Output Compare 1B
|
|
FOC1C = 5; // Force Output Compare 1C
|
|
// TIMSK1
|
|
ICIE1 = 5; // Timer/Counter1 Input Capture Interrupt Enable
|
|
OCIE1C = 3; // Timer/Counter1 Output Compare C Match Interrupt Enable
|
|
OCIE1B = 2; // Timer/Counter1 Output Compare B Match Interrupt Enable
|
|
OCIE1A = 1; // Timer/Counter1 Output Compare A Match Interrupt Enable
|
|
TOIE1 = 0; // Timer/Counter1 Overflow Interrupt Enable
|
|
// TIFR1
|
|
ICF1 = 5; // Input Capture Flag 1
|
|
OCF1C = 3; // Output Compare Flag 1C
|
|
OCF1B = 2; // Output Compare Flag 1B
|
|
OCF1A = 1; // Output Compare Flag 1A
|
|
TOV1 = 0; // Timer/Counter1 Overflow Flag
|
|
// MCUCR
|
|
// MCUSR
|
|
// EICRA
|
|
ISC3 = 6; // External Interrupt Sense Control Bit
|
|
ISC2 = 4; // External Interrupt Sense Control Bit
|
|
ISC1 = 2; // External Interrupt Sense Control Bit
|
|
ISC0 = 0; // External Interrupt Sense Control Bit
|
|
// EICRB
|
|
ISC7 = 6; // External Interrupt 7-4 Sense Control Bit
|
|
ISC6 = 4; // External Interrupt 7-4 Sense Control Bit
|
|
ISC5 = 2; // External Interrupt 7-4 Sense Control Bit
|
|
ISC4 = 0; // External Interrupt 7-4 Sense Control Bit
|
|
// EIMSK
|
|
INT = 0; // External Interrupt Request 7 Enable
|
|
// EIFR
|
|
INTF = 0; // External Interrupt Flags
|
|
// PCIFR
|
|
PCIF0 = 0; // Pin Change Interrupt Flag 0
|
|
// PCICR
|
|
PCIE0 = 0; // Pin Change Interrupt Enable 0
|
|
// 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; // ADC Auto Trigger Enable
|
|
ADIF = 4; // ADC Interrupt Flag
|
|
ADIE = 3; // ADC Interrupt Enable
|
|
ADPS = 0; // ADC Prescaler Select Bits
|
|
// ADCSRB
|
|
ADHSM = 7; // ADC High Speed Mode
|
|
ADTS = 0; // ADC Auto Trigger Sources
|
|
// DIDR0
|
|
ADC7D = 7; // ADC7 Digital input Disable
|
|
ADC6D = 6; // ADC6 Digital input Disable
|
|
ADC5D = 5; // ADC5 Digital input Disable
|
|
ADC4D = 4; // ADC4 Digital input Disable
|
|
ADC3D = 3; // ADC3 Digital input Disable
|
|
ADC2D = 2; // ADC2 Digital input Disable
|
|
ADC1D = 1; // ADC1 Digital input Disable
|
|
ADC0D = 0; // ADC0 Digital input Disable
|
|
// ADCSRB
|
|
ACME = 6; // 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
|
|
// DIDR1
|
|
AIN1D = 1; // AIN1 Digital Input Disable
|
|
AIN0D = 0; // AIN0 Digital Input Disable
|
|
// PLLCSR
|
|
PLLP = 2; // PLL prescaler Bits
|
|
PLLE = 1; // PLL Enable Bit
|
|
PLOCK = 0; // PLL Lock Status Bit
|
|
|
|
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 INT3_ISR; external name 'INT3_ISR'; // Interrupt 4 External Interrupt Request 3
|
|
procedure INT4_ISR; external name 'INT4_ISR'; // Interrupt 5 External Interrupt Request 4
|
|
procedure INT5_ISR; external name 'INT5_ISR'; // Interrupt 6 External Interrupt Request 5
|
|
procedure INT6_ISR; external name 'INT6_ISR'; // Interrupt 7 External Interrupt Request 6
|
|
procedure INT7_ISR; external name 'INT7_ISR'; // Interrupt 8 External Interrupt Request 7
|
|
procedure PCINT0_ISR; external name 'PCINT0_ISR'; // Interrupt 9 Pin Change Interrupt Request 0
|
|
procedure USB_GEN_ISR; external name 'USB_GEN_ISR'; // Interrupt 10 USB General Interrupt Request
|
|
procedure USB_COM_ISR; external name 'USB_COM_ISR'; // Interrupt 11 USB Endpoint/Pipe Interrupt Communication Request
|
|
procedure WDT_ISR; external name 'WDT_ISR'; // Interrupt 12 Watchdog Time-out Interrupt
|
|
procedure TIMER2_COMPA_ISR; external name 'TIMER2_COMPA_ISR'; // Interrupt 13 Timer/Counter2 Compare Match A
|
|
procedure TIMER2_COMPB_ISR; external name 'TIMER2_COMPB_ISR'; // Interrupt 14 Timer/Counter2 Compare Match B
|
|
procedure TIMER2_OVF_ISR; external name 'TIMER2_OVF_ISR'; // Interrupt 15 Timer/Counter2 Overflow
|
|
procedure TIMER1_CAPT_ISR; external name 'TIMER1_CAPT_ISR'; // Interrupt 16 Timer/Counter1 Capture Event
|
|
procedure TIMER1_COMPA_ISR; external name 'TIMER1_COMPA_ISR'; // Interrupt 17 Timer/Counter1 Compare Match A
|
|
procedure TIMER1_COMPB_ISR; external name 'TIMER1_COMPB_ISR'; // Interrupt 18 Timer/Counter1 Compare Match B
|
|
procedure TIMER1_COMPC_ISR; external name 'TIMER1_COMPC_ISR'; // Interrupt 19 Timer/Counter1 Compare Match C
|
|
procedure TIMER1_OVF_ISR; external name 'TIMER1_OVF_ISR'; // Interrupt 20 Timer/Counter1 Overflow
|
|
procedure TIMER0_COMPA_ISR; external name 'TIMER0_COMPA_ISR'; // Interrupt 21 Timer/Counter0 Compare Match A
|
|
procedure TIMER0_COMPB_ISR; external name 'TIMER0_COMPB_ISR'; // Interrupt 22 Timer/Counter0 Compare Match B
|
|
procedure TIMER0_OVF_ISR; external name 'TIMER0_OVF_ISR'; // Interrupt 23 Timer/Counter0 Overflow
|
|
procedure SPI__STC_ISR; external name 'SPI__STC_ISR'; // Interrupt 24 SPI Serial Transfer Complete
|
|
procedure USART1__RX_ISR; external name 'USART1__RX_ISR'; // Interrupt 25 USART1, Rx Complete
|
|
procedure USART1__UDRE_ISR; external name 'USART1__UDRE_ISR'; // Interrupt 26 USART1 Data register Empty
|
|
procedure USART1__TX_ISR; external name 'USART1__TX_ISR'; // Interrupt 27 USART1, Tx Complete
|
|
procedure ANALOG_COMP_ISR; external name 'ANALOG_COMP_ISR'; // Interrupt 28 Analog Comparator
|
|
procedure ADC_ISR; external name 'ADC_ISR'; // Interrupt 29 ADC Conversion Complete
|
|
procedure EE_READY_ISR; external name 'EE_READY_ISR'; // Interrupt 30 EEPROM Ready
|
|
procedure TIMER3_CAPT_ISR; external name 'TIMER3_CAPT_ISR'; // Interrupt 31 Timer/Counter3 Capture Event
|
|
procedure TIMER3_COMPA_ISR; external name 'TIMER3_COMPA_ISR'; // Interrupt 32 Timer/Counter3 Compare Match A
|
|
procedure TIMER3_COMPB_ISR; external name 'TIMER3_COMPB_ISR'; // Interrupt 33 Timer/Counter3 Compare Match B
|
|
procedure TIMER3_COMPC_ISR; external name 'TIMER3_COMPC_ISR'; // Interrupt 34 Timer/Counter3 Compare Match C
|
|
procedure TIMER3_OVF_ISR; external name 'TIMER3_OVF_ISR'; // Interrupt 35 Timer/Counter3 Overflow
|
|
procedure TWI_ISR; external name 'TWI_ISR'; // Interrupt 36 2-wire Serial Interface
|
|
procedure SPM_READY_ISR; external name 'SPM_READY_ISR'; // Interrupt 37 Store Program Memory Read
|
|
|
|
procedure _FPC_start; assembler; nostackframe;
|
|
label
|
|
_start;
|
|
asm
|
|
.init
|
|
.globl _start
|
|
|
|
jmp _start
|
|
jmp INT0_ISR
|
|
jmp INT1_ISR
|
|
jmp INT2_ISR
|
|
jmp INT3_ISR
|
|
jmp INT4_ISR
|
|
jmp INT5_ISR
|
|
jmp INT6_ISR
|
|
jmp INT7_ISR
|
|
jmp PCINT0_ISR
|
|
jmp USB_GEN_ISR
|
|
jmp USB_COM_ISR
|
|
jmp WDT_ISR
|
|
jmp TIMER2_COMPA_ISR
|
|
jmp TIMER2_COMPB_ISR
|
|
jmp TIMER2_OVF_ISR
|
|
jmp TIMER1_CAPT_ISR
|
|
jmp TIMER1_COMPA_ISR
|
|
jmp TIMER1_COMPB_ISR
|
|
jmp TIMER1_COMPC_ISR
|
|
jmp TIMER1_OVF_ISR
|
|
jmp TIMER0_COMPA_ISR
|
|
jmp TIMER0_COMPB_ISR
|
|
jmp TIMER0_OVF_ISR
|
|
jmp SPI__STC_ISR
|
|
jmp USART1__RX_ISR
|
|
jmp USART1__UDRE_ISR
|
|
jmp USART1__TX_ISR
|
|
jmp ANALOG_COMP_ISR
|
|
jmp ADC_ISR
|
|
jmp EE_READY_ISR
|
|
jmp TIMER3_CAPT_ISR
|
|
jmp TIMER3_COMPA_ISR
|
|
jmp TIMER3_COMPB_ISR
|
|
jmp TIMER3_COMPC_ISR
|
|
jmp TIMER3_OVF_ISR
|
|
jmp TWI_ISR
|
|
jmp SPM_READY_ISR
|
|
|
|
{$i start.inc}
|
|
|
|
.weak INT0_ISR
|
|
.weak INT1_ISR
|
|
.weak INT2_ISR
|
|
.weak INT3_ISR
|
|
.weak INT4_ISR
|
|
.weak INT5_ISR
|
|
.weak INT6_ISR
|
|
.weak INT7_ISR
|
|
.weak PCINT0_ISR
|
|
.weak USB_GEN_ISR
|
|
.weak USB_COM_ISR
|
|
.weak WDT_ISR
|
|
.weak TIMER2_COMPA_ISR
|
|
.weak TIMER2_COMPB_ISR
|
|
.weak TIMER2_OVF_ISR
|
|
.weak TIMER1_CAPT_ISR
|
|
.weak TIMER1_COMPA_ISR
|
|
.weak TIMER1_COMPB_ISR
|
|
.weak TIMER1_COMPC_ISR
|
|
.weak TIMER1_OVF_ISR
|
|
.weak TIMER0_COMPA_ISR
|
|
.weak TIMER0_COMPB_ISR
|
|
.weak TIMER0_OVF_ISR
|
|
.weak SPI__STC_ISR
|
|
.weak USART1__RX_ISR
|
|
.weak USART1__UDRE_ISR
|
|
.weak USART1__TX_ISR
|
|
.weak ANALOG_COMP_ISR
|
|
.weak ADC_ISR
|
|
.weak EE_READY_ISR
|
|
.weak TIMER3_CAPT_ISR
|
|
.weak TIMER3_COMPA_ISR
|
|
.weak TIMER3_COMPB_ISR
|
|
.weak TIMER3_COMPC_ISR
|
|
.weak TIMER3_OVF_ISR
|
|
.weak TWI_ISR
|
|
.weak SPM_READY_ISR
|
|
|
|
.set INT0_ISR, Default_IRQ_handler
|
|
.set INT1_ISR, Default_IRQ_handler
|
|
.set INT2_ISR, Default_IRQ_handler
|
|
.set INT3_ISR, Default_IRQ_handler
|
|
.set INT4_ISR, Default_IRQ_handler
|
|
.set INT5_ISR, Default_IRQ_handler
|
|
.set INT6_ISR, Default_IRQ_handler
|
|
.set INT7_ISR, Default_IRQ_handler
|
|
.set PCINT0_ISR, Default_IRQ_handler
|
|
.set USB_GEN_ISR, Default_IRQ_handler
|
|
.set USB_COM_ISR, Default_IRQ_handler
|
|
.set WDT_ISR, Default_IRQ_handler
|
|
.set TIMER2_COMPA_ISR, Default_IRQ_handler
|
|
.set TIMER2_COMPB_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_COMPC_ISR, Default_IRQ_handler
|
|
.set TIMER1_OVF_ISR, Default_IRQ_handler
|
|
.set TIMER0_COMPA_ISR, Default_IRQ_handler
|
|
.set TIMER0_COMPB_ISR, Default_IRQ_handler
|
|
.set TIMER0_OVF_ISR, Default_IRQ_handler
|
|
.set SPI__STC_ISR, Default_IRQ_handler
|
|
.set USART1__RX_ISR, Default_IRQ_handler
|
|
.set USART1__UDRE_ISR, Default_IRQ_handler
|
|
.set USART1__TX_ISR, Default_IRQ_handler
|
|
.set ANALOG_COMP_ISR, Default_IRQ_handler
|
|
.set ADC_ISR, Default_IRQ_handler
|
|
.set EE_READY_ISR, Default_IRQ_handler
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.set TIMER3_CAPT_ISR, Default_IRQ_handler
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|
.set TIMER3_COMPA_ISR, Default_IRQ_handler
|
|
.set TIMER3_COMPB_ISR, Default_IRQ_handler
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|
.set TIMER3_COMPC_ISR, Default_IRQ_handler
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|
.set TIMER3_OVF_ISR, Default_IRQ_handler
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.set TWI_ISR, Default_IRQ_handler
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|
.set SPM_READY_ISR, Default_IRQ_handler
|
|
end;
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end.
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