mirror of
https://github.com/bobbimanners/Applecorn.git
synced 2024-11-16 10:04:43 +00:00
507 lines
22 KiB
ArmAsm
507 lines
22 KiB
ArmAsm
* AUXMEM.BYTWRD.S
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* (c) Bobbi 2021,2022 GPLv3
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*
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* Applecorn OSBYTE and OSWORD handlers
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*
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* 15-Aug-2021 Added 'set variable' OSBYTEs 1-6.
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* 02-Sep-2021 OSWORD 5 can read from Main Memory ROM.
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* 04-Sep-2021 Extended VDU table to add $75 and $A0 for VDU driver.
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* 09-Sep-2021 Moved keyboard and VDU OSBYTEs to Keyboard and VDU.
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* 05-Nov-2022 Added rest of OSBYTE dispatch entries, null for the moment.
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* 05-Dec-2022 Tweeked WORD05/06, added full list of OSBYTE comments.
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XC ; 65c02
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*************************
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* OSBYTE DISPATCH TABLE *
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*************************
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BYTWRDADDR DW BYTE00 ; OSBYTE 0 - Machine host - INIT.s
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DW BYTE01 ; OSBYTE 1 - User flag
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DW BYTE02 ; OSBYTE 2 - OSRDCH source
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DW BYTE03 ; OSBYTE 3 - OSWRCH dest
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DW BYTE04 ; OSBYTE 4 - Cursor keys
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DW BYTE05 ; OSBYTE 5 - Printer destination
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DW BYTE06 ; OSBYTE 6 - Printer ignore
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DW BYTENULL ; OSBYTE 7 - Serial Rx Speed
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DW BYTENULL ; OSBYTE 8 - Serial Tx Speed
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DW BYTE09 ; OSBYTE 9 - Flash period space
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DW BYTE0A ; OSBYTE 10 - Flash period mark
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DW BYTE0B ; OSBYTE 11 - Autorepeat delay
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DW BYTE0C ; OSBYTE 12 - Autorepeat repeat
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DW BYTENULL ; OSBYTE 13 - Disable event
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DW BYTENULL ; OSBYTE 14 - Enable event
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DW BYTENULL ; OSBYTE 15 - Flush buffer type
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DW BYTENULL ; OSBYTE 16 - ADC channel max
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DW BYTENULL ; OSBYTE 17 - ADC channel start
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DW BYTE12 ; OSBYTE 18 - Clear soft keys
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DW BYTENULL ; OSBYTE 19 - Wait for VSync
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DW BYTENULL ; OSBYTE 20 - Font explode
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DW BYTENULL ; OSBYTE 21 - Buffer flush
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DW BYTENULL ; OSBYTE 22 - Polling semaphore inc.
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DW BYTENULL ; OSBYTE 23 - Polling semaphore dec.
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DW BYTENULL ; OSBYTE 24 - External sound
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DW BYTENULL ; OSBYTE 25 - Font hard/soft
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BYTWRDLOW
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BYTESZLO EQU BYTWRDLOW-BYTWRDADDR
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BYTELOW EQU BYTESZLO/2-1 ; Maximum low OSBYTE
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BYTEHIGH EQU $75 ; First high OSBYTE
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DW BYTE75 ; OSBYTE 117 - Read VDU status - VDU.s
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DW BYTE76 ; OSBYTE 118 - Update kbd LEDs - CHARIO.s
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DW BYTENULL ; OSBYTE 119 - Close Spool/Exec
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DW BYTENULL ; OSBYTE 120 - Set keys pressed
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DW BYTENULL ; OSBYTE 121 - Keyboard scan
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DW BYTENULL ; OSBYTE 122 - Keyboard scan from &10
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DW BYTENULL ; OSBYTE 123 - Printer going dormant
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DW BYTE7C ; OSBYTE 124 - Clear Escape - CHARIO.s
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DW BYTE7D ; OSBYTE 125 - Set Escape - CHARIO.s
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DW BYTE7E ; OSBYTE 126 - Ack. Escape - CHARIO.s
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DW BYTE7F ; OSBYTE 127 - Read EOF
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DW BYTE80 ; OSBYTE 128 - ADVAL - MISC.s
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DW BYTE81 ; OSBYTE 129 - INKEY - CHARIO.s
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DW BYTE82 ; OSBYTE 130 - Memory high word
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DW BYTE83 ; OSBYTE 131 - MEMBOT
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DW BYTE84 ; OSBYTE 132 - MEMTOP
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DW BYTE85 ; OSBYTE 133 - MEMTOP for MODE
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DW BYTE86 ; OSBYTE 134 - POS, VPOS - VDU.s
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DW BYTE87 ; OSBYTE 135 - Character, MODE - VDU.s
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DW BYTE88 ; OSBYTE 136 - *CODE
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DW BYTENULL ; OSBYTE 137 - *MOTOR
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DW BYTENULL ; OSBYTE 138 - Buffer insert -
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DW BYTE8B ; OSBYTE 139 - *OPT
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DW BYTENULL ; OSBYTE 140 - *TAPE
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DW BYTENULL ; OSBYTE 141 - *ROM
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DW BYTE8E ; OSBYTE 142 - Enter language - INIT.s
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DW BYTE8F ; OSBYTE 143 - Service call - INIT.s
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DW BYTENULL ; OSBYTE 144 - *TV
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DW BYTENULL ; OSBYTE 145 - Buffer remove -
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DW BYTENULL ; OSBYTE 146 - Read FRED
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DW BYTENULL ; OSBYTE 147 - Write FRED
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DW BYTENULL ; OSBYTE 148 - Read JIM
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DW BYTENULL ; OSBYTE 149 - Write JIM
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DW BYTENULL ; OSBYTE 150 - Read SHEILA
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DW BYTENULL ; OSBYTE 151 - Write SHEILA
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DW BYTENULL ; OSBYTE 152 - Buffer examine -
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DW BYTENULL ; OSBYTE 153 - Buffer insert check ESCAPE
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DW BYTENULL ; OSBYTE 154 - Video control
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DW BYTENULL ; OSBYTE 155 - Video palette
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DW BYTENULL ; OSBYTE 156 - Serial control
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DW BYTENULL ; OSBYTE 157 - Tube BPUT
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DW BYTENULL ; OSBYTE 158 - Speech Read
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DW BYTENULL ; OSBYTE 159 - Speech Write
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DW BYTEA0 ; OSBYTE 160 - Read VDU variable - VDU.s
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BYTWRDTOP
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DW BYTEVAR ; OSBYTE 166+ - Read/Write OSBYTE variable
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* Maximum high OSBYTE
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BYTESZHI EQU BYTWRDTOP-BYTWRDLOW
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BYTEMAX EQU BYTESZHI/2+BYTEHIGH-1
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*************************
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* OSWORD DISPATCH TABLE *
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*************************
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OSWBASE DW WORD00 ; OSWORD 0 - Read input line
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DW WORD01 ; OSWORD 1 - Read elapsed time
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DW WORD02 ; OSWORD 2 - Write eleapsed time
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DW WORD03 ; OSWORD 3 - Read interval timer
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DW WORD04 ; OSWORD 4 - Write interval timer
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DW WORD05 ; OSWORD 5 - Read I/O memory
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DW WORD06 ; OSWORD 6 - Write I/O memory
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DW WORD07 ; OSWORD 7 - SOUND - AUDIO.s
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DW WORD08 ; OSWORD 8 - ENVELOPE - AUDIO.s
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DW WORD09 ; OSWORD 9 - POINT - VDU.s
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DW WORD0A ; OSWORD 10 - Read character bitmap - VDU.s
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DW WORD0B ; OSWORD 11 - Read palette - VDU.s
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DW WORD0C ; OSWORD 12 - Write palette - VDU.s
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DW WORD0D ; OSWORD 13 - Read coordinates - VDU.s
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OSWEND
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DW WORDE0 ; OSWORD &E0+ - User OSWORD
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* Offset to start of OSWORD table
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WORDSZOFF EQU OSWBASE-BYTWRDADDR
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WORDOFF EQU WORDSZOFF/2
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* Maximum OSWORD
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WORDSZ EQU OSWEND-OSWBASE
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WORDMAX EQU WORDSZ/2-1
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************************
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* OSWORD/OSBYTE dispatch
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************************
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* OSWORD:
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* On entry, A=action
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* XY=>control block
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* On exit, A=preserved
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* X,Y,Cy trashed (except OSWORD 0)
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* control block updated
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*
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WORDHND PHA
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PHP
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SEI
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STA OSAREG ; Store registers
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STX OSCTRL+0 ; Point to control block
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STY OSCTRL+1
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LDX #$08 ; X=SERVWORD
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CMP #$E0 ; User OSWORD
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BCS WORDGO1
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CMP #WORDMAX+1
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BCS BYTWRDFAIL ; Pass on to service call
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ADC #WORDOFF
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BCC BYTWRDCALL ; Call OSWORD routine
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WORDGO1 LDA #WORDOFF+WORDMAX+1
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BCS BYTWRDCALL ; Call User OSWORD routine
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* OSBYTE:
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* On entry, A=action
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* X=first parameter
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* Y=second parameter if A>$7F
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* On exit, A=preserved
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* X=first returned result
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* Y=second returned result if A>$7F
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* Cy=any returned status if A>$7F
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*
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BYTEHND PHA
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PHP
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SEI
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STA OSAREG ; Store registers
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STX OSXREG
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STY OSYREG
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LDX #$07 ; X=SERVBYTE
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CMP #$A6
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BCS BYTEGO1 ; OSBYTE &A6+
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CMP #BYTEMAX+1
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BCS BYTWRDFAIL ; Pass on to service call
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CMP #BYTEHIGH
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BCS BYTEGO2 ; High OSBYTEs
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CMP #BYTELOW+1
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BCS BYTWRDFAIL ; Pass on to service call
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STZ OSYREG ; Prepare Y=0 for low OSBYTEs
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BCC BYTEGO3
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BYTEGO1 LDA #BYTEMAX+1 ; Index for BYTEVAR
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BYTEGO2 SBC #BYTEHIGH-BYTELOW-1 ; Reduce OSBYTE number
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BYTEGO3 ORA #$80 ; Will become CS=OSBYTE call
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BYTWRDCALL ASL A ; Index into dispatch table, CC=OSWORD call
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TAY ; Y=offset into dispatch table
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* BIT FXNETCLAIM ; Check Econet intercept flag
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* BPL BYTWRDNONET ; No intercept, skip past
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* TXA ; Set A=BYTE or WORD call
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* CLV ; Clear V
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* JSR CALLNET ; Call Econet with X=call type
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* BVS BYTWRDEXIT ; V now set, claimed by NETV
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BYTWRDNONET LDA BYTWRDADDR+1,Y ; Get routine address
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STA OSINTWS+1
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LDA BYTWRDADDR+0,Y
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STA OSINTWS+0
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LDA OSAREG ; Get A parameter back
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LDY OSYREG ; Get Y parameter back
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LDX OSXREG ; Get X parameter, set EQ from it
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BCS BYTWRDGO ; Skip if OSBYTE call
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LDY #$00 ; OSWORD call, enter with Y=0
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LDA (OSCTRL),Y ; and A=first byte in control block
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SEC ; Enter routine with CS
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BYTWRDGO JSR JMPADDR ; Call the routine
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* Routines are entered with:
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* A=OSBYTE call or first byte of OSWORD control block
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* X=X parameter
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* Y=OSBYTE Y parameter for A>$7F
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* Y=$00 for OSBYTE A<$80
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* Y=$00 for OSWORD so (OSCTRL),Y => first byte
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* Carry Set
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* EQ,MI set from OSBYTE X or from OSWORD first byte
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* X,Y,Cy from routine returned to caller
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BYTWRDEXIT ROR A ; Move Carry to A
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PLP ; Restore original flags and IRQs
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ROL A ; Move Carry back to flags
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PLA ; Restore A
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CLV ; Clear V = Actioned
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BYTENULL RTS
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BYTWRDFAIL PHX ; *DEBUG*
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JSR SERVICEX ; Offer to sideways ROMs as service X
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LDX OSXREG ; Get returned X, returned Y is in Y
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CMP #$01
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PLA ; *DEBUG*
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BCC BYTWRDEXIT ; Claimed, return
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BIT $E0 ; *DEBUG*
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BVC BYTEFAIL1 ; Debug turned off
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JSR UNSUPBYTWRD ; *DEBUG*
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BYTEFAIL1 LDX #$FF ; X=&FF if unclaimed
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PLP ; Restore original flags and IRQs
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PLA ; Restore A
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BIT SETV ; Set V = Not actioned
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RTS
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SETV ; JMP() is $6C, bit 6 set to set V
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* JMPADDR JMP (OSINTWS)
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* Merlin doesn't like the above
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JMPADDR JMP ($00FA)
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* OSWORD &00 - Read a line of input
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***********************************
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* On entry, (OSCTRL)=>control block
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* Y=0, A=(OSCTRL)
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* On exit, Y=length of line, offset to <cr>
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* CC = Ok, CS = Escape
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*
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WORD00 IF MAXLEN-OSTEXT-2
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LDY #$04
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:WORD00LP1 LDA (OSCTRL),Y ; Copy MAXLEN, MINCH, MAXCH to workspace
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STA MAXLEN-2,Y
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DEY
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CPY #$02
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BCS :WORD00LP1
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:WORD00LP2 LDA (OSCTRL),Y ; (OSTEXT)=>line buffer
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STA OSTEXT,Y
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DEY
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BPL :WORD00LP2
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INY ; Initial line length = zero
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ELSE
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LDY #$04 ; Copy control block
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:WORD00LP3 LDA (OSCTRL),Y ; 0,1 => text
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STA OSTEXT,Y ; 2 = MAXLEN
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DEY ; 3 = MINCHAR
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BPL :WORD00LP3 ; 4 = MAXCHAR
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INY ; Initial line length = zero
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FIN
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CLI ; Set IRQs going again
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STY FXLINES ; Reset line counter
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BEQ :WORD00LP ; Enter main loop
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:WORD00BELL LDA #$07 ; $07=BELL
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DEY ; Balance next INY
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:WORD00NEXT INY ; Step to next character
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:WORD00ECHO JSR OSWRCH ; Print character
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:WORD00LP JSR OSRDCH
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BCS :WORD00ESC ; Escape
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* TAX ; Save character in X
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* LDA FXVAR03 ; Get FX3 destination
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* ROR A
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* ROR A ; Move bit 1 into Carry
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* TXA ; Get character back
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* BCS :WORD00TEST ; VDU disabled, ignore
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LDX FXVDUQLEN ; Get length of VDU queue
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BNE :WORD00ECHO ; Not zero, just print
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:WORD00TEST CMP #$7F ; Delete
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BEQ :WORD00DEL
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CMP #$08 ; If KBD has no DELETE key
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BNE :WORD00CHAR
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LDA #$7F
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:WORD00DEL CPY #$00
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BEQ :WORD00LP ; Nothing to delete
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DEY ; Back up one character
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BCS :WORD00ECHO ; Loop back to print DEL
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:WORD00CHAR CMP #$15 ; Ctrl-U
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BNE :WORD00INS ; No, insert character
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LDA #$7F ; Delete character
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INY ; Balance first DEY
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:WORD00ALL DEY ; Back up one character
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BEQ :WORD00LP ; Beginning of line
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JSR OSWRCH ; Print DELETE
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JMP :WORD00ALL ; Loop to delete all
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:WORD00INS STA (OSTEXT),Y ; Store the character
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CMP #$0D
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BEQ :WORD00CR ; CR - Done
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CPY MAXLEN
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BCS :WORD00BELL ; Too long, beep
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CMP MINCHAR
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BCC :WORD00ECHO ; <MINCHAR, don't step to next
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CMP MAXCHAR
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BCC :WORD00NEXT ; <MAXCHAR, step to next
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BEQ :WORD00NEXT ; =MAXCHAR, step to next
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BCS :WORD00ECHO ; >MAXCHAR, don't step to next
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:WORD00CR JSR OSNEWL
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* JSR CALLNET ; Call Econet Vector, A=13
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:WORD00ESC LDA ESCFLAG ; Get Escape flag
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ROL A ; Carry=Escape state
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RTS
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* OSWORD &01 - Read elapsed time
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* OSWORD &02 - Write elapsed time
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* OSWORD &03 - Read countdown timer
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* OSWORD &04 - Write countdown timer
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************************************
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* On entry, (OSCTRL)=>control block
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* Y=0
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* IRQs are disabled while we access the timers and main memory
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WORD01 STA RDMAINRAM ; Read from main mem (IRQs are off)
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:WORD01LP LDA SYSCLOCK,Y ; Read sys clock in main mem
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STA (OSCTRL),Y ; Store in buffer in aux mem
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INY
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CPY #$05
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BCC :WORD01LP
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STA RDCARDRAM ; Reads back to aux memory
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RTS
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WORD02 STA WRMAINRAM ; Write to main mem (IRQs are off)
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:WORD02LP LDA (OSCTRL),Y ; Read from buffer in aux mem
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STA SYSCLOCK,Y ; Store to sys clock in main mem
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INY
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CPY #$05
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BCC :WORD02LP
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STA WRCARDRAM ; Writes back to aux memory
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RTS
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WORD03
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WORD04 RTS ; Dummy, do nothing
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* OSWORD &05 - Read I/O memory
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* OSWORD &06 - Write I/O memory
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***********************************
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* On entry, (OSCTRL)+0 address
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* (OSCTRL)+4 byte read or written
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* Y=0, A=(OSCTRL)
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* IRQs are disabled, so we don't have to preserve IRQ state
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*
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* <8000xxxx language memory - aux memory
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* FFxxxxxx I/O memory - aux memory
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* A0xxxxxx use this to specify 'A'pple main memory
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*
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WORD05 JSR GETADDR ; Point to address, set Y=>data byte
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BCS WORD5A ; Skip to read from main memory
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LDA (OSINTWS) ; Get byte
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BCC WORD5B ; Store it
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* We want to read from anywhere in main memory. We can't just set
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* 'all reads from main' as we'd page out our own code. We need to call
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* mainmem and read from there.
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WORD5A JSR WORD05IO ; Call as a subroutine to return here
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LDY #4 ; Y corrupted by WORD05IO
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WORD5B STA (OSCTRL),Y ; Store it
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RTS
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WORD05IO LDA OSINTWS+0 ; X CORRUPTED BY XF2MAIN
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LDY OSINTWS+1 ; &YYAA=address to read
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WORD05IO1 >>> XF2MAIN,MAINRDMEM
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WORD06 JSR GETADDR ; Point to address, set Y=>data byte
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LDA (OSCTRL),Y ; Get byte from our memory
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BCS WORD06A ; Skip to write to main memory
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STA (OSINTWS) ; Store it
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RTS
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* We want to be able to write to anywhere in main memory.
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* As we are within the OSWORD handler, IRQs are off, so we can just
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* 'write through' all memory.
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WORD06A STA SETSTDZP ; &0000-&01FF writes to main memory
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STA WRMAINRAM ; &0200-&BFFF writes to main memory
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* ; &C000-&CFFF is always I/O
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* ; &D000-&FFFF how do we write to this?
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STA (OSINTWS) ; Store it
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STA SETALTZP ; &0000-&01FF writes to aux memory
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STA WRCARDRAM ; &0200-&BFFF writes to aux memory
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* ; &D000-&FFFF
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RTS
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GETADDR STA OSINTWS+0 ; (OSINTWS)=>byte to read/write
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INY
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LDA (OSCTRL),Y
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STA OSINTWS+1
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INY
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INY
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LDA (OSCTRL),Y ; Get address high byte
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INY ; Point Y to data byte
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CMP #$A0 ; Let's use A0xxxxxx for 'A'pple memory
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BEQ GETADDR1 ; Return with CS=Apple system memory
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CLC ; Return with CC=not Apple memory
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GETADDR1 RTS
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* OSBYTE routines
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*****************
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BYTE88 LDA #$81 ; *CODE -> A=&01
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CMDLINE EOR #$80 ; *LINE -> A=&00
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WORDE0 JMP (USERV) ; OSWORD &E0+ -> A=&E0+
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* Low OSBYTE converted into Set Variable
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BYTE02 LDA #$F7 ; -> &B1
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*
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BYTE09 ; -> &C2
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BYTE0A ; -> &C3
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BYTE0B ; -> &C4
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BYTE0C ADC #$C9 ; -> &C5
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*
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BYTE01 ; -> &F1
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BYTE05 ; -> &F5
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BYTE06 ADC #$07 ; -> &F6
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*
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BYTE03 ; -> &EC
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BYTE04 ADC #$E8 ; -> &ED
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*
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* Read/Write OSBYTE variable
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BYTEVAR TAY ; offset to variable
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LDA BYTEVARBASE+0,Y
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TAX ; X=old value
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AND OSYREG
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EOR OSXREG
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STA BYTEVARBASE+0,Y ; update variable
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LDA BYTEVARBASE+1,Y
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TAY ; Y=next value
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RTS
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* Memory layout
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BYTE82 ; $82 = read high order address
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* Should return $0000, but BCPL, Lisp and View try to move
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* up to $F800 overwriting Apple II stuff
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LDY #$FF ; $FFFF for I/O processor
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LDX #$FF
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RTS
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BYTE83 LDY #$0E ; $83 = read bottom of user mem
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LDX #$00 ; $0E00
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RTS
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BYTE85 ; $85 = top user mem for mode
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BYTE84 LDY #$80 ; $84 = read top of user mem
|
|
LDX #$00
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|
RTS
|
|
|
|
* Passed on to filing system
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|
BYTE8B CPX #$FF ; *DEBUG*
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|
BNE BYTE8BA ; *DEBUG*
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|
STY $E0 ; *DEBUG*
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|
RTS ; *DEBUG*
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|
BYTE8BA LDA #$00 ; &00 -> &00 - *OPT
|
|
BYTE7F AND #$01 ; &7F -> &01 - EOF
|
|
CALLFSCV JMP (FSCV) ; Hand over to filing system
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|
|
|
|
|
* Test/Debug code
|
|
UNSUPBYTWRD TAX
|
|
LDA #<OSBYTEM
|
|
LDY #>OSBYTEM
|
|
CPX #7
|
|
BEQ UNSUPGO
|
|
LDA #<OSWORDM
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|
LDY #>OSWORDM
|
|
UNSUPGO JSR PRSTR
|
|
LDA OSAREG
|
|
JSR OUTHEX
|
|
* LDA #$2C
|
|
* LDA OSXREG
|
|
* JSR OUTHEX
|
|
* LDA #$2C
|
|
* LDA OSYREG
|
|
* JSR OUTHEX
|
|
LDA #<OSBM2
|
|
LDY #>OSBM2
|
|
JSR PRSTR
|
|
* JSR OSRDCH
|
|
LDA OSAREG
|
|
RTS
|
|
|
|
OSBYTEM ASC 'OSBYTE($'
|
|
DB $00
|
|
OSWORDM ASC 'OSWORD($'
|
|
DB $00
|
|
OSBM2 ASC ').'
|
|
DB $00
|