mirror of
https://github.com/erangell/A2NoSlotMIDI.git
synced 2024-06-06 12:29:30 +00:00
387 lines
22 KiB
Plaintext
387 lines
22 KiB
Plaintext
ca65 V2.13.3 - (C) Copyright 1998-2012 Ullrich von Bassewitz
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Main file : main.s
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Current file: main.s
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 ;
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000000r 1 ; main.s
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000000r 1 ; A2NoSlotMidi
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000000r 1 ;
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000000r 1 ; Created by Eric Rangell on 7/17/18.
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 ; APPLE MIDI DRIVER THROUGH ANNUNCIATOR 0
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000000r 1 ; Copyright © 1998-2018 Eric Rangell. MIT License.
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 ; THIS DRIVER IMPLEMENTS ASYNCHRONOUS SERIAL DATA TRANSMISSION
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000000r 1 ; THROUGH THE APPLE ANNUNCIATOR 0 OUTPUT PORT OF THE GAME CONNECTOR
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000000r 1 ; USING 32 CYCLES PER BIT TO ACHIEVE A 31.25K MIDI BAUD RATE.
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000000r 1 ;
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000000r 1 ; //GS USERS NEED TO RUN THIS PROGRAM IN NORMAL SPEED MODE
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000000r 1 ;
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000000r 1 ; THE OUTPUT IS INITIALIZED TO A HIGH LOGIC VOLTAGE. WHEN IT GOES
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000000r 1 ; LOW FOR 32 MICROSECONDS, THAT INDICATES THE START BIT OF A MIDI BYTE.
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000000r 1 ; THEN 8 BYTES OF DATA ARE TRANSMITTED, FOLLOWED BY A HIGH STOP BIT.
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000000r 1 ; THE DATA BYTES REPRESENT MIDI MESSAGES WHICH CAN BE INTERPRETED BY
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000000r 1 ; ANY MUSICAL INSTRUMENT THAT IMPLEMENTS MIDI.
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000000r 1 ;
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000000r 1 ; ENTRY POINTS: (Note: Origin must be set in Makefile)
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000000r 1 ;
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000000r 1 ; $9000 = INITIALIZE - TURNS ON ANNUNCIATOR 0 - MUST BE CALLED ONCE
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000000r 1 ; $9003 = APPLESOFT CALL TO SEND ONE MIDI BYTE. POKE THE BYTE IN $9004.
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000000r 1 ; $9005 = ASSEMBLY CALL TO SEND ONE MIDI BYTE FROM ACCUMULATOR
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000000r 1 ; $9008 = APPLESOFT OR ASSEMBLY CALL TO SEND SEVERAL BYTES AT ONCE:
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000000r 1 ; THE CALLER POPULATES LOCATION $D7 WITH THE NUMBER OF BYTES TO BE
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000000r 1 ; TRANSMITTED, AND A POINTER IN $CE,CF (LO,HI) WITH THE ADDRESS OF
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000000r 1 ; THE DATA BYTES, THEN CALLS THE ENTRY POINT "SENDMSG" TO TRANSMIT
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000000r 1 ; THE MESSAGE.
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000000r 1 ; $900B = TURN ALL NOTES OFF
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000000r 1 ; $900E = SEND A TEST MESSAGE - C MAJOR CHORD NOTE ONS
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000000r 1 ; $9011 = SEND A TEST MESSAGE - C MAJOR CHORD NOTE OFFS
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000000r 1 ; $9014 = CHANGE ANNUNCIATOR - MODIFIES CODE TO USE DIFFERENT ANNUNCIATOR
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000000r 1 ; $9017 = ANNUNCIATOR TO USE: 0-3 - only looks at least significant 2 bits
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000000r 1 ; $9018 = CHANGE LOGIC - BIT 7
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000000r 1 ; $901B = SET BIT 7 TO USE NEGATIVE LOGIC
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 ; Enhancements for 2018:
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000000r 1 ; 1. Disable interrupts during critical timing sections, preserve interrupt status
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000000r 1 ; 2. Entry point to reconfigure program to use a different annunciator pair
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000000r 1 ; 3. Entry point to reconfigure program for hardware interface using inverters only (not buffers)
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 ; CALLER MUST POPULATE THE FOLLOWING TWO ZERO PAGE LOCATIONS FOR SENDMSG:
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000000r 1 NUMBYTES = $D7 ;NUMBER OF BYTES TO BE TRANSMITTED NOW (1-256)
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000000r 1 ; ;THE VALUE 0 WILL TRANSMIT 256 BYTES.
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000000r 1 DATAPTR = $CE ;POINTER TO THE BYTES TO BE TRANSMITTED NOW
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 AN0OFF = $C058 ;APPLE ADDRESSES THAT CONTROL ANNUNCIATOR OUTPUTS
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000000r 1 AN0ON = $C059 ;PROGRAM REFERNCES ARE RELATIVE TO AN0
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000000r 1 ;AN1OFF = $C05A
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000000r 1 ;AN1ON = $C05B
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000000r 1 ;AN2OFF = $C05C
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000000r 1 ;AN2ON = $C05D
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000000r 1 ;AN3OFF = $C05E
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000000r 1 ;AN3ON = $C05F
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000000r 1 ;-------------------------------------------------------------------------
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000000r 1 .proc main
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000000r 1 ;---------------------------------------------------------------------------
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000000r 1 START:
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000000r 1 4C rr rr JMP INIT ;MAIN ENTRY POINT - INITIALIZES ANNUNCIATORS
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000003r 1 SENDFP:
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000003r 1 A9 90 LDA #$90 ;ENTRY POINT FOR APPLESOFT: POKE BYTE AND CALL
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000005r 1 SENDONE:
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000005r 1 4C rr rr JMP XMITONE ;ENTRY POINT FOR TRANSMITTING ONE BYTE FROM ACCUM
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000008r 1 SENDMSG:
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000008r 1 4C rr rr JMP XMITMSG ;ENTRY POINT FOR TRANSMITTING A MIDI MESSAGE
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00000Br 1 ALLNOFF:
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00000Br 1 4C rr rr JMP QUIET ;TURN ALL NOTES OFF
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00000Er 1 TEST1:
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00000Er 1 4C rr rr JMP TESTMSG1 ;SEND TEST MESSAGE 1 - C MAJOR CHORD ON
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000011r 1 TEST2:
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000011r 1 4C rr rr JMP TESTMSG2 ;SEND TEST MESSAGE 2 - C MAJOR CHORD OFF
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000014r 1 ;
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000014r 1 CHNGANNC:
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000014r 1 4C rr rr JMP CHGANNC ;RECONFIGURE PROGRAM TO USE ANNUNCIATOR NUMBER IN NEXT BYTE
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000017r 1 ANNC2USE:
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000017r 1 00 .byte $00 ;ONLY LEAST SIGNIFICANT 2 BITS ARE USED
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000018r 1 CHNGLOGC:
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000018r 1 4C rr rr JMP CHGLOGIC ;RECONFIGURE PROGRAM TO USE POSITIVE OR NEGATIVE LOGIC
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00001Br 1 LOGICBYT:
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00001Br 1 00 .byte $00 ;SET HIGH BIT TO 1 TO USE NEGATIVE LOGIC, ELSE POSITIVE LOGIC (DEFAULT)
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00001Cr 1 ;---------------------------------------------------------------------------
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00001Cr 1 00 SAVENBYT: .byte $00 ;SAVE AREA FOR NUMBYTES
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00001Dr 1 00 TEMPA: .byte $00
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00001Er 1 00 TEMPX: .byte $00
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00001Fr 1 ;ANNPAIR: .byte $00 ; ANNUNCIATOR NUMBER TIMES 2 (1=C05A, 2=C05C, 3=C05E)
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00001Fr 1 ;---------------------------------------------------------------------------
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00001Fr 1 2C 59 C0 INIT: BIT AN0ON
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000022r 1 60 RTS
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000023r 1 ;---------------------------------------------------------------------------
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000023r 1 ; CRITICAL TIMING SECTION BELOW MUST NOT CROSS A PAGE BOUNDARY
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000023r 1 ;---------------------------------------------------------------------------
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000023r 1 XMITBITS:
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000023r 1 08 PHP ;SAVE CURRENT INTERRUPT STATUS
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000024r 1 78 SEI ;MASK INTERRUPTS DURING CRITICAL TIMING SECTION
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000025r 1 2C 58 C0 MOD9: BIT AN0OFF ;4 CYCLES - TRANSMIT START BIT - ALWAYS LOW
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000028r 1 20 rr rr JSR DELAY22 ;6+22
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00002Br 1 BIT0:
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00002Br 1 2C 58 C0 BIT AN0OFF ;4
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00002Er 1 20 rr rr JSR DELAY22 ;6+22
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000031r 1 BIT1:
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000031r 1 2C 58 C0 BIT AN0OFF ;4
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000034r 1 20 rr rr JSR DELAY22 ;6+22
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000037r 1 BIT2:
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000037r 1 2C 58 C0 BIT AN0OFF ;4
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00003Ar 1 20 rr rr JSR DELAY22 ;6+22
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00003Dr 1 BIT3:
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00003Dr 1 2C 58 C0 BIT AN0OFF ;4
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000040r 1 20 rr rr JSR DELAY22 ;6+22
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000043r 1 BIT4:
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000043r 1 2C 58 C0 BIT AN0OFF ;4
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000046r 1 20 rr rr JSR DELAY22 ;6+22
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000049r 1 BIT5:
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000049r 1 2C 58 C0 BIT AN0OFF ;4
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00004Cr 1 20 rr rr JSR DELAY22 ;6+22
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00004Fr 1 BIT6:
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00004Fr 1 2C 58 C0 BIT AN0OFF ;4
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000052r 1 20 rr rr JSR DELAY22 ;6+22
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000055r 1 BIT7:
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000055r 1 2C 58 C0 BIT AN0OFF ;4
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000058r 1 20 rr rr JSR DELAY22 ;6+22
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00005Br 1 2C 59 C0 MOD10: BIT AN0ON ;4 ;TRANSMIT STOP BIT - ALWAYS HIGH
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00005Er 1 20 rr rr JSR DELAY22 ;6+22
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000061r 1 28 PLP ;4 ;RESTORE SAVED INTERRUPT STATUS
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000062r 1 60 RTS ;TOTAL TIME INTERRUPTS DISABLED: 324 MICROSECONDS
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000063r 1 ;-----------------------------------------------------------------------
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000063r 1 DELAY22:
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000063r 1 EA NOP ;WAIT 22 CYCLES
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000064r 1 EA NOP
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000065r 1 EA NOP
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000066r 1 EA NOP
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000067r 1 EA NOP
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000068r 1 EA NOP
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000069r 1 EA NOP
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00006Ar 1 EA NOP
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00006Br 1 60 RTS
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00006Cr 1 ;---------------------------------------------------------------------------
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00006Cr 1 XMITMSG:
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00006Cr 1 A5 D7 LDA NUMBYTES ;SAVE NUMBER OF BYTES
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00006Er 1 8D rr rr STA SAVENBYT ;BECAUSE WE WILL CLOBBER IT
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000071r 1 A0 00 LDY #$00 ;Y WILL BE AN INDEX INTO THE DATA AREA
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000073r 1 XMITLOOP:
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000073r 1 B1 CE LDA (DATAPTR),Y ;GET A DATA BYTE
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000075r 1 20 rr rr JSR XMITONE
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000078r 1 C8 INY ;POINT TO NEXT BYTE
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000079r 1 C6 D7 DEC NUMBYTES ;DECREMENT COUNTER
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00007Br 1 A5 D7 LDA NUMBYTES ;CHECK IF ZERO
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00007Dr 1 D0 F4 BNE XMITLOOP ;LOOP UNTIL DONE SENDING ALL BYTES
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00007Fr 1 AD rr rr LDA SAVENBYT
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000082r 1 85 D7 STA NUMBYTES ;RESTORE ORIGINAL VALUE OF NUMBYTES
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000084r 1 60 RTS
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000085r 1 ;---------------------------------------------------------------------------
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000085r 1 XMITONE:
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000085r 1 8D rr rr STA TEMPA ;SAVE A AND X REGISTERS
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000088r 1 8E rr rr STX TEMPX
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00008Br 1 ;
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00008Br 1 0A ASL A ;SHIFT BIT INTO CARRY
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00008Cr 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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00008Dr 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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00008Fr 1 69 58 MOD1: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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000091r 1 8D rr rr STA BIT7+1 ;MODIFY THE XMITBITS SUBROUTINE
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000094r 1 8A TXA ;RESTORE ACCUMULATOR
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000095r 1 ;
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000095r 1 0A ASL A ;SHIFT BIT INTO CARRY
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000096r 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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000097r 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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000099r 1 69 58 MOD2: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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00009Br 1 8D rr rr STA BIT6+1 ;MODIFY THE XMITBITS SUBROUTINE
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00009Er 1 8A TXA ;RESTORE ACCUMULATOR
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00009Fr 1 ;
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00009Fr 1 0A ASL A ;SHIFT BIT INTO CARRY
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0000A0r 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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0000A1r 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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0000A3r 1 69 58 MOD3: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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0000A5r 1 8D rr rr STA BIT5+1 ;MODIFY THE XMITBITS SUBROUTINE
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0000A8r 1 8A TXA ;RESTORE ACCUMULATOR
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0000A9r 1 ;
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0000A9r 1 0A ASL A ;SHIFT BIT INTO CARRY
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0000AAr 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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0000ABr 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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0000ADr 1 69 58 MOD4: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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0000AFr 1 8D rr rr STA BIT4+1 ;MODIFY THE XMITBITS SUBROUTINE
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0000B2r 1 8A TXA ;RESTORE ACCUMULATOR
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0000B3r 1 ;
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0000B3r 1 0A ASL A ;SHIFT BIT INTO CARRY
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0000B4r 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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0000B5r 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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0000B7r 1 69 58 MOD5: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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0000B9r 1 8D rr rr STA BIT3+1 ;MODIFY THE XMITBITS SUBROUTINE
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0000BCr 1 8A TXA ;RESTORE ACCUMULATOR
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0000BDr 1 ;
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0000BDr 1 0A ASL A ;SHIFT BIT INTO CARRY
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0000BEr 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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0000BFr 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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0000C1r 1 69 58 MOD6: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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0000C3r 1 8D rr rr STA BIT2+1 ;MODIFY THE XMITBITS SUBROUTINE
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0000C6r 1 8A TXA ;RESTORE ACCUMULATOR
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0000C7r 1 ;
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0000C7r 1 0A ASL A ;SHIFT BIT INTO CARRY
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0000C8r 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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0000C9r 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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0000CBr 1 69 58 MOD7: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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0000CDr 1 8D rr rr STA BIT1+1 ;MODIFY THE XMITBITS SUBROUTINE
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0000D0r 1 8A TXA ;RESTORE ACCUMULATOR
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0000D1r 1 ;
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0000D1r 1 0A ASL A ;SHIFT BIT INTO CARRY
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0000D2r 1 AA TAX ;SAVE CURRENT IMAGE OF DATA BYTE
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0000D3r 1 A9 00 LDA #$00 ;ZERO OUT ACCUMULATOR FOR ADD
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0000D5r 1 69 58 MOD8: ADC #<AN0OFF ;ADD CARRY TO ANNUNCIATOR ADDRESS
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0000D7r 1 8D rr rr STA BIT0+1 ;MODIFY THE XMITBITS SUBROUTINE
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0000DAr 1 8A TXA ;RESTORE ACCUMULATOR
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0000DBr 1 ;
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0000DBr 1 20 rr rr JSR XMITBITS ;SEND THE BYTE OUT
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0000DEr 1 AE rr rr LDX TEMPX
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0000E1r 1 AD rr rr LDA TEMPA ;RESTORE X AND A
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0000E4r 1 60 RTS
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0000E5r 1 ;-----------------------------------------------------------------------
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0000E5r 1 TESTMSG1:
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0000E5r 1 A9 07 LDA #7
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0000E7r 1 85 D7 STA NUMBYTES
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0000E9r 1 A9 rr LDA #<TESTDAT1
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0000EBr 1 85 CE STA DATAPTR
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0000EDr 1 A9 rr LDA #>TESTDAT1
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0000EFr 1 85 CF STA DATAPTR+1
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0000F1r 1 20 rr rr JSR SENDMSG
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0000F4r 1 60 RTS
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0000F5r 1 ;-----------------------------------------------------------------------
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0000F5r 1 TESTMSG2:
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0000F5r 1 A9 07 LDA #7
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0000F7r 1 85 D7 STA NUMBYTES
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0000F9r 1 A9 rr LDA #<TESTDAT2
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0000FBr 1 85 CE STA DATAPTR
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0000FDr 1 A9 rr LDA #>TESTDAT2
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0000FFr 1 85 CF STA DATAPTR+1
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000101r 1 20 rr rr JSR SENDMSG
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000104r 1 60 RTS
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000105r 1 ;-----------------------------------------------------------------------
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000105r 1 QUIET:
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000105r 1 A9 90 LDA #$90
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000107r 1 85 D7 STA NUMBYTES
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000109r 1 A9 rr LDA #<QUIETMSG
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00010Br 1 85 CE STA DATAPTR
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00010Dr 1 A9 rr LDA #>QUIETMSG
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00010Fr 1 85 CF STA DATAPTR+1
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000111r 1 20 rr rr JSR SENDMSG
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000114r 1 60 RTS
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000115r 1 ;-----------------------------------------------------------------------
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000115r 1 CHGANNC:
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000115r 1 AD rr rr LDA ANNC2USE
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000118r 1 29 03 AND #$03 ;KEEP ONLY 2 LEAST SIGNIFICANT BITS
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00011Ar 1 0A ASL ;MULTIPLY BY 2
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00011Br 1 48 PHA ;SAVE THIS VALUE FOR EACH MOD BEING DONE BELOW
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00011Cr 1 18 CLC
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00011Dr 1 6D rr rr ADC MOD1+1 ;MODIFY LOW BYTE OF EACH ANNUNCIATOR ADDRESS IN CODE ABOVE
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000120r 1 8D rr rr STA MOD1+1
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000123r 1 ;
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000123r 1 68 PLA ;GET VALUE TO ADD
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000124r 1 48 PHA ;SAVE IT AGAIN
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000125r 1 18 CLC
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000126r 1 6D rr rr ADC MOD2+1
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000129r 1 8D rr rr STA MOD2+1
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00012Cr 1 ;
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00012Cr 1 68 PLA ;GET VALUE TO ADD
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00012Dr 1 48 PHA ;SAVE IT AGAIN
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00012Er 1 18 CLC
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00012Fr 1 6D rr rr ADC MOD3+1
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000132r 1 8D rr rr STA MOD3+1
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000135r 1 ;
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000135r 1 68 PLA ;GET VALUE TO ADD
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000136r 1 48 PHA ;SAVE IT AGAIN
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000137r 1 18 CLC
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000138r 1 6D rr rr ADC MOD4+1
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00013Br 1 8D rr rr STA MOD4+1
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00013Er 1 ;
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00013Er 1 68 PLA ;GET VALUE TO ADD
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00013Fr 1 48 PHA ;SAVE IT AGAIN
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000140r 1 18 CLC
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000141r 1 6D rr rr ADC MOD5+1
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000144r 1 8D rr rr STA MOD5+1
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000147r 1 ;
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000147r 1 68 PLA ;GET VALUE TO ADD
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000148r 1 48 PHA ;SAVE IT AGAIN
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000149r 1 18 CLC
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00014Ar 1 6D rr rr ADC MOD6+1
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00014Dr 1 8D rr rr STA MOD6+1
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000150r 1 ;
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000150r 1 68 PLA ;GET VALUE TO ADD
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000151r 1 48 PHA ;SAVE IT AGAIN
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000152r 1 18 CLC
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000153r 1 6D rr rr ADC MOD7+1
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000156r 1 8D rr rr STA MOD7+1
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000159r 1 ;
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000159r 1 68 PLA ;GET VALUE TO ADD
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00015Ar 1 48 PHA ;SAVE IT AGAIN
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00015Br 1 18 CLC
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00015Cr 1 6D rr rr ADC MOD8+1
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00015Fr 1 8D rr rr STA MOD8+1
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000162r 1 ;
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000162r 1 68 PLA ;GET VALUE TO ADD
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000163r 1 48 PHA ;SAVE IT AGAIN
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000164r 1 18 CLC
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000165r 1 6D rr rr ADC MOD9+1
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000168r 1 8D rr rr STA MOD9+1
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00016Br 1 ;
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00016Br 1 68 PLA ;GET VALUE TO ADD
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00016Cr 1 48 PHA ;SAVE IT AGAIN
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00016Dr 1 18 CLC ;ADD AN EXTRA 1 TO GET ANNUNCIATOR ON ADDRESS
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00016Er 1 6D rr rr ADC MOD10+1
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000171r 1 8D rr rr STA MOD10+1
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000174r 1 ;
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000174r 1 68 PLA ;GET VALUE TO ADD
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000175r 1 18 CLC ;ADD AN EXTRA 1 TO GET ANNUNCIATOR ON ADDRESS
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000176r 1 6D rr rr ADC INIT+1
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000179r 1 8D rr rr STA INIT+1
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00017Cr 1 60 RTS
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00017Dr 1 ;-----------------------------------------------------------------------
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00017Dr 1 CHGLOGIC:
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00017Dr 1 60 RTS
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00017Er 1 ;-----------------------------------------------------------------------
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00017Er 1 TESTDAT1:
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00017Er 1 90 3C 40 40 .byte $90,$3C,$40,$40,$40,$43,$40
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000182r 1 40 43 40
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000185r 1 TESTDAT2:
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000185r 1 90 3C 00 40 .byte $90,$3C,$00,$40,$00,$43,$00
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000189r 1 00 43 00
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00018Cr 1 QUIETMSG:
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00018Cr 1 B0 78 00 B0 .byte $B0,$78,$00,$B0,$79,$00,$B0,$7B,$00
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000190r 1 79 00 B0 7B
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000194r 1 00
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000195r 1 B1 78 00 B1 .byte $B1,$78,$00,$B1,$79,$00,$B1,$7B,$00
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000199r 1 79 00 B1 7B
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00019Dr 1 00
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00019Er 1 B2 78 00 B2 .byte $B2,$78,$00,$B2,$79,$00,$B2,$7B,$00
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0001A2r 1 79 00 B2 7B
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0001A6r 1 00
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0001A7r 1 B3 78 00 B3 .byte $B3,$78,$00,$B3,$79,$00,$B3,$7B,$00
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0001ABr 1 79 00 B3 7B
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0001AFr 1 00
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0001B0r 1 B4 78 00 B4 .byte $B4,$78,$00,$B4,$79,$00,$B4,$7B,$00
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0001B4r 1 79 00 B4 7B
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0001B8r 1 00
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0001B9r 1 B5 78 00 B5 .byte $B5,$78,$00,$B5,$79,$00,$B5,$7B,$00
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0001BDr 1 79 00 B5 7B
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0001C1r 1 00
|
|
0001C2r 1 B6 78 00 B6 .byte $B6,$78,$00,$B6,$79,$00,$B6,$7B,$00
|
|
0001C6r 1 79 00 B6 7B
|
|
0001CAr 1 00
|
|
0001CBr 1 B7 78 00 B7 .byte $B7,$78,$00,$B7,$79,$00,$B7,$7B,$00
|
|
0001CFr 1 79 00 B7 7B
|
|
0001D3r 1 00
|
|
0001D4r 1 B8 78 00 B8 .byte $B8,$78,$00,$B8,$79,$00,$B8,$7B,$00
|
|
0001D8r 1 79 00 B8 7B
|
|
0001DCr 1 00
|
|
0001DDr 1 B9 78 00 B9 .byte $B9,$78,$00,$B9,$79,$00,$B9,$7B,$00
|
|
0001E1r 1 79 00 B9 7B
|
|
0001E5r 1 00
|
|
0001E6r 1 BA 78 00 BA .byte $BA,$78,$00,$BA,$79,$00,$BA,$7B,$00
|
|
0001EAr 1 79 00 BA 7B
|
|
0001EEr 1 00
|
|
0001EFr 1 BB 78 00 BB .byte $BB,$78,$00,$BB,$79,$00,$BB,$7B,$00
|
|
0001F3r 1 79 00 BB 7B
|
|
0001F7r 1 00
|
|
0001F8r 1 BC 78 00 BC .byte $BC,$78,$00,$BC,$79,$00,$BC,$7B,$00
|
|
0001FCr 1 79 00 BC 7B
|
|
000200r 1 00
|
|
000201r 1 BD 78 00 BD .byte $BD,$78,$00,$BD,$79,$00,$BD,$7B,$00
|
|
000205r 1 79 00 BD 7B
|
|
000209r 1 00
|
|
00020Ar 1 BE 78 00 BE .byte $BE,$78,$00,$BE,$79,$00,$BE,$7B,$00
|
|
00020Er 1 79 00 BE 7B
|
|
000212r 1 00
|
|
000213r 1 BF 78 00 BF .byte $BF,$78,$00,$BF,$79,$00,$BF,$7B,$00
|
|
000217r 1 79 00 BF 7B
|
|
00021Br 1 00
|
|
00021Cr 1 ;----------------
|
|
00021Cr 1 ; END OF PROGRAM
|
|
00021Cr 1 ;----------------
|
|
00021Cr 1 .endproc
|
|
00021Cr 1
|