Experimenting with *KEY code.
This commit is contained in:
parent
462819cdb6
commit
2298a611ef
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@ -34,7 +34,7 @@ BYTWRDADDR DW BYTE00 ; OSBYTE 0 - Machine host - INIT.
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DW BYTENULL ; OSBYTE 15 - Flush buffer type
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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 16 - ADC channel max
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DW BYTENULL ; OSBYTE 17 - ADC channel start
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DW BYTENULL ; OSBYTE 17 - ADC channel start
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DW BYTENULL ; OSBYTE 18 - Clear soft keys
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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 19 - Wait for VSync
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DW BYTENULL ; OSBYTE 20 - Font explode
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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 21 - Buffer flush
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493
auxmem.chario.s
493
auxmem.chario.s
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@ -33,16 +33,17 @@
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* 03-Nov-2022 Escape: Fixed INKEY loop failing if entering with previous Escape,
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* 03-Nov-2022 Escape: Fixed INKEY loop failing if entering with previous Escape,
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* combined with EscAck clearing keyboard.
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* combined with EscAck clearing keyboard.
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* 06-Dec-2022 Moved *KEY into here.
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* 06-Dec-2022 Moved *KEY into here.
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* 12-Dec-2022 Test code to write *KEY data to mainmem.
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* Hardware locations
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* Hardware locations
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KBDDATA EQU $C000 ; Read Keyboard data
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KBDDATA EQU $C000 ; Read Keyboard data
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KBDACK EQU $C010 ; Acknowledge keyboard data
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KBDACK EQU $C010 ; Acknowledge keyboard data
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KBDAPPLFT EQU $C061 ; Left Apple key
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KBDAPPLFT EQU $C061 ; Left Apple key
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KBDAPPRGT EQU $C062 ; Right Apple key
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KBDAPPRGT EQU $C062 ; Right Apple key
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IOVBLNK EQU $C019 ; VBLNK pulse
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IOVBLNK EQU $C019 ; VBLNK pulse
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FLASHER EQU BYTEVARBASE+176 ; VSync counter for flashing cursor
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FLASHER EQU BYTEVARBASE+176 ; VSync counter for flashing cursor
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FXEXEC EQU BYTEVARBASE+198
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FXEXEC EQU BYTEVARBASE+198
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FXSPOOL EQU BYTEVARBASE+199
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FXSPOOL EQU BYTEVARBASE+199
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@ -73,7 +74,7 @@ WRCHHND PHA
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PHA
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PHA
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* TO DO Check any output redirections
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* TO DO Check any output redirections
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* TO DO Check any printer output
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* TO DO Check any printer output
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JSR OUTCHAR ; Send to VDU driver
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JSR OUTCHAR ; Send to VDU driver
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* BCC WRCHHND3 ; VDU driver says skip printer
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* BCC WRCHHND3 ; VDU driver says skip printer
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* PLA ; Get character back
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* PLA ; Get character back
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* PHA
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* PHA
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@ -81,13 +82,13 @@ WRCHHND PHA
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* WRCHHND3
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* WRCHHND3
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* Check FX3VAR
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* Check FX3VAR
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* Bxx WRCHHND4 ; Spool disabled
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* Bxx WRCHHND4 ; Spool disabled
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LDY FXSPOOL ; See if *SPOOL is in effect
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LDY FXSPOOL ; See if *SPOOL is in effect
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BEQ WRCHHND4 ; No, skip sending to spool file
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BEQ WRCHHND4 ; No, skip sending to spool file
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PLA
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PLA
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PHA
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PHA
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JSR OSBPUT ; Write character to spool file
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JSR OSBPUT ; Write character to spool file
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WRCHHND4 PLA ; Drop stacked character
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WRCHHND4 PLA ; Drop stacked character
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PLY ; Restore everything
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PLY ; Restore everything
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PLX
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PLX
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PLA
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PLA
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RTS
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RTS
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@ -104,25 +105,25 @@ WRCHHND4 PLA ; Drop stacked character
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* TEMP as no *KEY
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* TEMP as no *KEY
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* Default keyboard OSBYTE variables
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* Default keyboard OSBYTE variables
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DEFBYTELOW EQU 219 ; First default OSBYTE value
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DEFBYTELOW EQU 219 ; First default OSBYTE value
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DEFBYTE DB $09,$1B ; Default key codes
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DEFBYTE DB $09,$1B ; Default key codes
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DB $C0,$D0,$E0,$F0 ; Default key expansion
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DB $C0,$D0,$E0,$F0 ; Default key expansion
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DB $80,$90,$A0,$B0 ; Default key expansion
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DB $80,$90,$A0,$B0 ; Default key expansion
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DEFBYTEEND
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DEFBYTEEND
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KBDINIT LDX #DEFBYTEEND-DEFBYTE-1
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KBDINIT LDX #DEFBYTEEND-DEFBYTE-1
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:KBDINITLP LDA DEFBYTE,X ; Initialise KBD OSBYTE variables
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:KBDINITLP LDA DEFBYTE,X ; Initialise KBD OSBYTE variables
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STA BYTEVARBASE+DEFBYTELOW,X
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STA BYTEVARBASE+DEFBYTELOW,X
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DEX
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DEX
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BPL :KBDINITLP
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BPL :KBDINITLP
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JSR SOFTKEYCHK ; Clear soft keys
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JSR SOFTKEYCHK ; Clear soft keys
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LDX #$C0
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LDX #$C0
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STX FX254VAR ; b7-b4=default KBD map, b3-b0=default MODE
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STX FX254VAR ; b7-b4=default KBD map, b3-b0=default MODE
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BIT SETV ; Set V
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BIT SETV ; Set V
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JSR KBDTEST ; Test if key being pressed
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JSR KBDTEST ; Test if key being pressed
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BCS :KBDINITOK ; Return default MODE=0
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BCS :KBDINITOK ; Return default MODE=0
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STA KBDACK ; Ack. keypress
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STA KBDACK ; Ack. keypress
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TAX ; Use keypress as default MODE
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TAX ; Use keypress as default MODE
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:KBDINITOK TXA
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:KBDINITOK TXA
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RTS
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RTS
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@ -133,88 +134,88 @@ KBDINIT LDX #DEFBYTEEND-DEFBYTE-1
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* Flashes a soft cursor while waiting for input
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* Flashes a soft cursor while waiting for input
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* *NB* OSRDCH returns with IRQs enabled, INKEY returns with IRQs preserved
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* *NB* OSRDCH returns with IRQs enabled, INKEY returns with IRQs preserved
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*
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*
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RDCHHND LDA #$80 ; flag=wait forever
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RDCHHND LDA #$80 ; flag=wait forever
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PHY
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PHY
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TAY
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TAY
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BRA INKEYGO ; Wait forever for input
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BRA INKEYGO ; Wait forever for input
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* XY<$8000 - wait for a keypress
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* XY<$8000 - wait for a keypress
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INKEY PHY ; Dummy PHY to balance RDCH
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INKEY PHY ; Dummy PHY to balance RDCH
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INKEYGO CLI ; Enable IRQs
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INKEYGO CLI ; Enable IRQs
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PHX ; Save registers
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PHX ; Save registers
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PHY
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PHY
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BIT VDUSTATUS ; Enable editing cursor
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BIT VDUSTATUS ; Enable editing cursor
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BVC INKEYGO2 ; No editing cursor
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BVC INKEYGO2 ; No editing cursor
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JSR GETCHRC ; Get character under cursor
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JSR GETCHRC ; Get character under cursor
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STA COPYCHAR ; Save char under edit cursor
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STA COPYCHAR ; Save char under edit cursor
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LDA CURSORED
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LDA CURSORED
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JSR PUTCHRC ; Display edit cursor
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JSR PUTCHRC ; Display edit cursor
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JSR COPYSWAP1 ; Swap to copy cursor
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JSR COPYSWAP1 ; Swap to copy cursor
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INKEYGO2 JSR GETCHRC ; Get character under cursor
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INKEYGO2 JSR GETCHRC ; Get character under cursor
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STA OLDCHAR
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STA OLDCHAR
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BRA INKEY1 ; Turn cursor on
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BRA INKEY1 ; Turn cursor on
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INKEYLP CLC
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INKEYLP CLC
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LDA #$01 ; Slow flash, every 32 frames
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LDA #$01 ; Slow flash, every 32 frames
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BIT VDUSTATUS
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BIT VDUSTATUS
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BVC INKEY0
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BVC INKEY0
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ASL A ; Fast flash, every 16 frames
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ASL A ; Fast flash, every 16 frames
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INKEY0 ADC FLASHER
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INKEY0 ADC FLASHER
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STA FLASHER
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STA FLASHER
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AND #15
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AND #15
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BNE INKEY3 ; Not time to toggle yet
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BNE INKEY3 ; Not time to toggle yet
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LDA OLDCHAR ; Prepare to remove cursor
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LDA OLDCHAR ; Prepare to remove cursor
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BIT FLASHER
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BIT FLASHER
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BMI INKEY2 ; Remove cursor
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BMI INKEY2 ; Remove cursor
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INKEY1 LDA CURSOR ; Add cursor
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INKEY1 LDA CURSOR ; Add cursor
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BIT VDUSTATUS
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BIT VDUSTATUS
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BVC INKEY2
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BVC INKEY2
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LDA CURSORCP
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LDA CURSORCP
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INKEY2 JSR PUTCHRC ; Toggle cursor
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INKEY2 JSR PUTCHRC ; Toggle cursor
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INKEY3 LDA #$27 ; Prepare to return CHR$27 if Escape state
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INKEY3 LDA #$27 ; Prepare to return CHR$27 if Escape state
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CLC
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CLC
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BIT ESCFLAG ; Check Escape state
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BIT ESCFLAG ; Check Escape state
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BMI INKEYESC ; Escape pending, return it with A=27
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BMI INKEYESC ; Escape pending, return it with A=27
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INKEY4 JSR KEYREAD ; Test for input, all can be trashed
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INKEY4 JSR KEYREAD ; Test for input, all can be trashed
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PLY
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PLY
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BCC INKEYOK ; Char returned, return it
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BCC INKEYOK ; Char returned, return it
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BMI INKEY6 ; Loop forever, skip countdown
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BMI INKEY6 ; Loop forever, skip countdown
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PLX
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PLX
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BNE INKEY5
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BNE INKEY5
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TYA
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TYA
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BEQ INKEYOUT ; XY=0, timed out
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BEQ INKEYOUT ; XY=0, timed out
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DEY ; 16-bit decrement
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DEY ; 16-bit decrement
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INKEY5 DEX
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INKEY5 DEX
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PHX
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PHX
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INKEY6 PHY
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INKEY6 PHY
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*
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*
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* VBLK pulses at 50Hz/60Hz, toggles at 100Hz/120Hz
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* VBLK pulses at 50Hz/60Hz, toggles at 100Hz/120Hz
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LDX IOVBLNK ; Get initial VBLK state
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LDX IOVBLNK ; Get initial VBLK state
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INKEY8 BIT KBDDATA
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INKEY8 BIT KBDDATA
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BMI INKEY4 ; Key pressed
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BMI INKEY4 ; Key pressed
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TXA
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TXA
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EOR IOVBLNK
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EOR IOVBLNK
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BPL INKEY8 ; Wait for VBLK change
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BPL INKEY8 ; Wait for VBLK change
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BMI INKEYLP ; Loop back to key test
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BMI INKEYLP ; Loop back to key test
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INKEYOUT LDA #$FF ; Prepare to stack $FF
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INKEYOUT LDA #$FF ; Prepare to stack $FF
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INKEYESC PLY ; Drop stacked Y
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INKEYESC PLY ; Drop stacked Y
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INKEYOK PHA ; Save key or timeout
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INKEYOK PHA ; Save key or timeout
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PHP ; Save CC=key, CS=timeout
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PHP ; Save CC=key, CS=timeout
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LDA OLDCHAR ; Prepare for main cursor
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LDA OLDCHAR ; Prepare for main cursor
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BIT VDUSTATUS
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BIT VDUSTATUS
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BVC INKEYOFF2 ; No editing cursor
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BVC INKEYOFF2 ; No editing cursor
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JSR PUTCHRC ; Remove cursor
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JSR PUTCHRC ; Remove cursor
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JSR COPYSWAP1 ; Swap cursor back
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JSR COPYSWAP1 ; Swap cursor back
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LDA COPYCHAR ; Remove main cursor
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LDA COPYCHAR ; Remove main cursor
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INKEYOFF2 JSR PUTCHRC ; Remove cursor
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INKEYOFF2 JSR PUTCHRC ; Remove cursor
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PLP
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PLP
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BCS INKEYOK3 ; Timeout
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BCS INKEYOK3 ; Timeout
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LDA ESCFLAG ; Keypress, test for Escape
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LDA ESCFLAG ; Keypress, test for Escape
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ASL A ; Cy=Escape flag
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ASL A ; Cy=Escape flag
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PLA ; Get char back
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PLA ; Get char back
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PLX ; Restore X,Y for key pressed
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PLX ; Restore X,Y for key pressed
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INKEYOK3 PLY ; Or pop TimeOut
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INKEYOK3 PLY ; Or pop TimeOut
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RTS
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RTS
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* RDCH Character read: CC, A=char, X=restored, Y=restored
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* RDCH Character read: CC, A=char, X=restored, Y=restored
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* RDCH Escape: CS, A=char, X=restored, Y=restored
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* RDCH Escape: CS, A=char, X=restored, Y=restored
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@ -224,17 +225,17 @@ INKEYOK3 PLY ; Or pop TimeOut
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BYTE81 TYA
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BYTE81 TYA
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BMI NEGINKEY ; XY<0, scan for keypress
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BMI NEGINKEY ; XY<0, scan for keypress
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JSR INKEY ; XY>=0, wait for keypress
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JSR INKEY ; XY>=0, wait for keypress
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* Character read: CC, A=char, X=???, Y<$80
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* Character read: CC, A=char, X=???, Y<$80
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* Escape: CS, A=char, X=???, Y<$80
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* Escape: CS, A=char, X=???, Y<$80
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* Timeout: CS, A=???, X=???, Y=$FF
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* Timeout: CS, A=???, X=???, Y=$FF
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TAX ; X=character returned
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TAX ; X=character returned
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TYA
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TYA
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BMI BYTE81DONE ; Y=$FF, timeout
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BMI BYTE81DONE ; Y=$FF, timeout
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LDY #$00
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LDY #$00
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BCC BYTE81DONE ; CC, not Escape
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BCC BYTE81DONE ; CC, not Escape
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LDY #$1B ; Y=27
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LDY #$1B ; Y=27
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BYTE81DONE RTS
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BYTE81DONE RTS
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* Returns: Y=$FF, X=???, CS - timeout
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* Returns: Y=$FF, X=???, CS - timeout
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* Y=$1B, X=???, CS - escape
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* Y=$1B, X=???, CS - escape
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@ -242,21 +243,21 @@ BYTE81DONE RTS
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NEGINKEY CPX #$01
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NEGINKEY CPX #$01
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LDX #$00 ; Unimplemented
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LDX #$00 ; Unimplemented
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BCS NEGINKEY0
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BCS NEGINKEY0
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JSR NEGCALL ; Read machine ID from mainmem
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JSR NEGCALL ; Read machine ID from mainmem
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LDX #$2C
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LDX #$2C
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TAY
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TAY
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BEQ NEGINKEY0 ; $00 = Apple IIc -> INKEY-256 = $2C
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BEQ NEGINKEY0 ; $00 = Apple IIc -> INKEY-256 = $2C
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LDX #$2E
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LDX #$2E
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AND #$0F
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AND #$0F
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BEQ NEGINKEY0 ; $x0 = Apple IIe -> INKEY-256 = $2E
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BEQ NEGINKEY0 ; $x0 = Apple IIe -> INKEY-256 = $2E
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LDX #$2A ; else = Apple IIgs -> INKEY-256 = $2A
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LDX #$2A ; else = Apple IIgs -> INKEY-256 = $2A
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NEGINKEY0 LDY #$00
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NEGINKEY0 LDY #$00
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NEGINKEY1 CLC
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NEGINKEY1 CLC
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RTS
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RTS
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NEGCALL >>> XF2MAIN,MACHRD ; Try to read Machine ID
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NEGCALL >>> XF2MAIN,MACHRD ; Try to read Machine ID
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* KERNEL/KEYBOARD.S
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* KERNEL/KEYBOARD.S
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* SOFT KEY PROCESSING
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* SOFT KEY PROCESSING
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=====================
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* ===================
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* *KEY <num> <GSTRANS string>
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* *KEY <num> <GSTRANS string>
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* ---------------------------
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* ---------------------------
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STARKEY LDA FXSOFTLEN
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STARKEY LDA FXSOFTLEN
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BNE ERRKEYUSED ; Key being expanded
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BNE ERRKEYUSED ; Key being expanded
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JSR SCANDEC
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JSR SCANDEC
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CMP #$10
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CMP #$10
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BCC STARKEY1
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BCC STARKEY1
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@ -280,6 +281,7 @@ ERRKEYUSED BRK
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DB $FA
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DB $FA
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ASC 'Key in use'
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ASC 'Key in use'
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BRK
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BRK
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*
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* A slightly fiddly procedure, as we need to check the new
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* A slightly fiddly procedure, as we need to check the new
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* definition is valid before we insert it, we can't bomb
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* definition is valid before we insert it, we can't bomb
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* out halfway through inserting a string, and we mustn't
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* out halfway through inserting a string, and we mustn't
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* SOFTBUF+16/33 -> free space after last byte last definition
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* SOFTBUF+16/33 -> free space after last byte last definition
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* definitions stored in key order
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* definitions stored in key order
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*
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*
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* Bobbi's initial layout:
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* Initial development layout:
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* 00/01 - 1E/1F -> pointers to start of each string
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* 00..0F -> length of string 0..15
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* 20/21 -> pointer to end of all strings
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* 10... -> strings in key order
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* (len0+len1+...len15) => start of free space
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*
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*
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* Bobbi's initial scheme:
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STARKEY1 TAX ; X=key number
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* NOTE - THIS WRITES TO AUX MEM AT THE MOMENT. SHOULD BE MAIN!!
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JSR SKIPCOMMA
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KEYBUF EQU $400 ; *KEY buffer from $400-$7FF
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*
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; Beware of the screen holes!
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* Test code
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KEYBUFFREE EQU KEYBUF + $20 ; Free space word
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* Just parse the string and write it to mainmem
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SEC
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JSR GSINIT ; Initialise '*KEY-type string'
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LDX #0 ; Parse string and check it's valid
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STARKEYLP1 JSR GSREAD
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BCS STARKEYEND
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JSR WRHOLES ; Store the byte
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INX
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BRA STARKEYLP1
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STARKEYEND RTS
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* Write a byte to mainmem screen avoiding holes
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WRHOLES BIT SETV
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BRA RDWRHOLE
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* Read a byte from mainmem screen avoiding holes
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RDHOLES CLV
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RDWRHOLE PHP ; Save IRQ state
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SEI ; Disable IRQs
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PHP ; Save V=rd/wr
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PHA ; Save byte to write
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TXA ; C=? A=abcdefgh
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AND #$BF ; C=? A=a0cdefgh
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STA OSINTWS+0
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TXA ; C=? A=abcdefgh
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ASL A ; C=a A=bcdefgh0
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ASL A ; C=b A=cdefgh00
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LDA #$02 ; C=b A=00000010
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||||||
|
ROL A ; C=0 A=0000010b
|
||||||
|
STA OSINTWS+1 ; (OSINTWS)=>$400+x or $500+x
|
||||||
|
PLA ; Get byte to write back
|
||||||
|
PLP ; Get rd/wr back
|
||||||
|
BVC RDHOLE2
|
||||||
|
STA WRMAINRAM ; &0200-&BFFF writes to main memory
|
||||||
|
STA (OSINTWS)
|
||||||
|
STA WRCARDRAM ; &0200-&BFFF writes to aux memory
|
||||||
|
PLP ; Restore IRQs
|
||||||
|
RTS
|
||||||
|
RDHOLE2 STA RDMAINRAM ; &0200-&BFFF reads from main memory
|
||||||
|
LDA (OSINTWS)
|
||||||
|
STA RDCARDRAM ; &0200-&BFFF reads from aux memory
|
||||||
|
PLP ; Restore IRQs
|
||||||
|
RTS
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
STARKEY1
|
|
||||||
ASL A ; Key num * 2
|
|
||||||
PHA ; Preserve for later
|
|
||||||
JSR SKIPCOMMA
|
|
||||||
LDA KEYBUFFREE+0 ; Free space LS byte
|
|
||||||
STA OSTEXT+0
|
|
||||||
PLX ; Recover key num * 2
|
|
||||||
PHX
|
|
||||||
STA KEYBUF,X ; Store LS byte start address
|
|
||||||
LDA KEYBUFFREE+1 ; Free space MS byte
|
|
||||||
STA OSTEXT+1
|
|
||||||
PLX ; Recover key num * 2
|
|
||||||
STA KEYBUF+1,X ; Store MS byte start address
|
|
||||||
:L1 LDA (OSLPTR),Y ; Read char from input
|
|
||||||
STA (OSTEXT) ; Store in buffer
|
|
||||||
PHA
|
|
||||||
INY ; Advance source index
|
|
||||||
JSR INCKEYPTR ; Advance dest pointer
|
|
||||||
PLA
|
|
||||||
CMP #$0D ; Carriage return?
|
|
||||||
BNE :L1
|
|
||||||
:S1 LDA OSTEXT+0
|
|
||||||
STA KEYBUFFREE+0 ; Free space LS byte
|
|
||||||
LDA OSTEXT+1
|
|
||||||
STA KEYBUFFREE+1 ; Free space MS byte
|
|
||||||
RTS
|
|
||||||
|
|
||||||
|
|
||||||
* Increment OSTEXT, skipping over screen holes
|
|
||||||
* Screen holes are $478-$47F, $4F8-$4FF
|
|
||||||
* $578-$57F, $5F8-$5FF
|
|
||||||
* $678-$67F, $6F8-$6FF
|
|
||||||
* $778-$77F, $7F8-$7FF
|
|
||||||
INCKEYPTR LDA OSTEXT+0 ; Least significant byte
|
|
||||||
INC A
|
|
||||||
STA OSTEXT+0
|
|
||||||
AND #$F8
|
|
||||||
CMP #$78 ; If $78 to $7F
|
|
||||||
BEQ :HOLE78
|
|
||||||
CMP #$F8 ; If $F8 to $FF
|
|
||||||
BEQ :HOLEF8
|
|
||||||
RTS
|
|
||||||
:HOLE78 LDA #$80
|
|
||||||
STA OSTEXT+0
|
|
||||||
RTS
|
|
||||||
:HOLEF8 STZ OSTEXT+0
|
|
||||||
INC OSTEXT+1
|
|
||||||
RTS
|
|
||||||
|
|
||||||
* OSBYTE &12 - Clear soft keys
|
* OSBYTE &12 - Clear soft keys
|
||||||
* ----------------------------
|
* ----------------------------
|
||||||
SOFTKEYCHK LDA FXSOFTOK
|
SOFTKEYCHK LDA FXSOFTOK
|
||||||
BEQ BYTE12OK ; Soft keys ok, exit
|
BEQ BYTE12OK ; Soft keys ok, exit
|
||||||
BYTE12 LDX #120 ; 120 bytes in each half page
|
BYTE12 LDX #120 ; 120 bytes in each half page
|
||||||
STX FXSOFTOK ; Soft keys being updated
|
STX FXSOFTOK ; Soft keys being updated
|
||||||
|
PHP
|
||||||
* Bobbi's initial scheme
|
SEI ; Prevent IRQs while writing
|
||||||
>>> WRTMAIN
|
LDA #0
|
||||||
BYTE12LP STZ $0400-1,X ; Could be more efficient
|
STA WRMAINRAM ; Write to main mem
|
||||||
STZ $0480-1,X
|
BYTE12LP STA $0400-1,X ; Could be more efficient
|
||||||
STZ $0500-1,X
|
STA $0480-1,X ; If use 16xlen, only need to
|
||||||
STZ $0580-1,X
|
STA $0500-1,X ; zero first 16 bytes
|
||||||
STZ $0600-1,X
|
STA $0580-1,X ; Gives 4*120=480 bytes
|
||||||
STZ $0680-1,X
|
* STA $0600-1,X
|
||||||
STZ $0700-1,X
|
* STA $0680-1,X
|
||||||
STZ $0780-1,X
|
* STA $0700-1,X
|
||||||
|
* STA $0780-1,X
|
||||||
DEX
|
DEX
|
||||||
BNE BYTE12LP
|
BNE BYTE12LP
|
||||||
LDA #<KEYBUFFREE+2 ; Initialize start of *KEY free-space
|
STA WRCARDRAM ; Restore writing to aux
|
||||||
STA KEYBUFFREE+0
|
PLP ; And restore IRQs
|
||||||
STA KEYBUFFREE+1
|
STX FXSOFTOK ; Soft keys updated
|
||||||
>>> WRTAUX
|
|
||||||
*
|
|
||||||
STX FXSOFTOK ; Soft keys updated
|
|
||||||
BYTE12OK RTS
|
BYTE12OK RTS
|
||||||
|
|
||||||
|
|
||||||
|
@ -410,13 +411,13 @@ BYTE12OK RTS
|
||||||
* On exit, CS=no keypress
|
* On exit, CS=no keypress
|
||||||
* CC=keypress
|
* CC=keypress
|
||||||
* A =keycode, X,Y=corrupted
|
* A =keycode, X,Y=corrupted
|
||||||
KEYREAD LDY FXEXEC ; See if EXEC file is open
|
KEYREAD LDY FXEXEC ; See if EXEC file is open
|
||||||
BEQ KEYREAD1 ; No, skip past
|
BEQ KEYREAD1 ; No, skip past
|
||||||
JSR OSBGET ; Read character from file
|
JSR OSBGET ; Read character from file
|
||||||
BCC KEYREADOK ; Not EOF, return it
|
BCC KEYREADOK ; Not EOF, return it
|
||||||
LDA #$00 ; EOF, close EXEC file
|
LDA #$00 ; EOF, close EXEC file
|
||||||
STA FXEXEC ; Clear EXEC handle
|
STA FXEXEC ; Clear EXEC handle
|
||||||
JSR OSFIND ; And close it
|
JSR OSFIND ; And close it
|
||||||
KEYREAD1
|
KEYREAD1
|
||||||
*
|
*
|
||||||
* TO DO: expand current soft key
|
* TO DO: expand current soft key
|
||||||
|
@ -432,21 +433,21 @@ KEYREAD1
|
||||||
* RTS
|
* RTS
|
||||||
* KEYREAD2
|
* KEYREAD2
|
||||||
*
|
*
|
||||||
JSR KBDREAD ; Fetch character from KBD "buffer"
|
JSR KBDREAD ; Fetch character from KBD "buffer"
|
||||||
BCS KEYREADOK ; Nothing pending
|
BCS KEYREADOK ; Nothing pending
|
||||||
TAY ; Y=unmodified character
|
TAY ; Y=unmodified character
|
||||||
BPL KEYREADOK ; Not top-bit key
|
BPL KEYREADOK ; Not top-bit key
|
||||||
AND #$CF ; Drop Shift/Ctrl bits
|
AND #$CF ; Drop Shift/Ctrl bits
|
||||||
CMP #$C9
|
CMP #$C9
|
||||||
BCC KEYSOFTY ; Not cursor key
|
BCC KEYSOFTY ; Not cursor key
|
||||||
LDX FX4VAR
|
LDX FX4VAR
|
||||||
BEQ KEYCURSOR ; *FX4,0 - editing keys
|
BEQ KEYCURSOR ; *FX4,0 - editing keys
|
||||||
CPY #$C9
|
CPY #$C9
|
||||||
CLV
|
CLV
|
||||||
BEQ KEYCOPYTAB ; TAB key
|
BEQ KEYCOPYTAB ; TAB key
|
||||||
DEX
|
DEX
|
||||||
BNE KEYSOFTHI ; Not *FX4,1 - soft key
|
BNE KEYSOFTHI ; Not *FX4,1 - soft key
|
||||||
SBC #$44 ; Return $88-$8B
|
SBC #$44 ; Return $88-$8B
|
||||||
KEYREADOK1 CLC
|
KEYREADOK1 CLC
|
||||||
KEYREADOK RTS
|
KEYREADOK RTS
|
||||||
|
|
||||||
|
@ -457,20 +458,20 @@ KEYSOFTHI LDX FX254VAR
|
||||||
TYA
|
TYA
|
||||||
AND #$BF
|
AND #$BF
|
||||||
TAY
|
TAY
|
||||||
KEYSOFTY TYA ; Get key including Shift/Ctrl
|
KEYSOFTY TYA ; Get key including Shift/Ctrl
|
||||||
LSR A
|
LSR A
|
||||||
LSR A
|
LSR A
|
||||||
LSR A
|
LSR A
|
||||||
LSR A ; A=key DIV 16
|
LSR A ; A=key DIV 16
|
||||||
EOR #$04 ; Offset into KEYBASE
|
EOR #$04 ; Offset into KEYBASE
|
||||||
TAX
|
TAX
|
||||||
LDA FXKEYBASE-8,X
|
LDA FXKEYBASE-8,X
|
||||||
* TO DO:
|
* TO DO:
|
||||||
*BEQ KEYNONE ; $00=ignored
|
*BEQ KEYNONE ; $00=ignored
|
||||||
*DEC A
|
*DEC A
|
||||||
*BEQ expandfunction
|
*BEQ expandfunction
|
||||||
CMP #2 ; *TEMP*
|
CMP #2 ; *TEMP*
|
||||||
BCC KEYNONE ; *TEMP*
|
BCC KEYNONE ; *TEMP*
|
||||||
TYA
|
TYA
|
||||||
AND #$0F
|
AND #$0F
|
||||||
CLC
|
CLC
|
||||||
|
@ -483,26 +484,26 @@ KEYCURSOR CMP #$C9
|
||||||
BEQ KEYCOPY
|
BEQ KEYCOPY
|
||||||
PHA
|
PHA
|
||||||
LDA OLDCHAR
|
LDA OLDCHAR
|
||||||
JSR PUTCHRC ; Remove cursor
|
JSR PUTCHRC ; Remove cursor
|
||||||
PLA
|
PLA
|
||||||
JSR COPYMOVE ; Move copy cursor
|
JSR COPYMOVE ; Move copy cursor
|
||||||
JSR GETCHRC ; Save char under cursor
|
JSR GETCHRC ; Save char under cursor
|
||||||
STA OLDCHAR
|
STA OLDCHAR
|
||||||
KEYNONE SEC
|
KEYNONE SEC
|
||||||
RTS
|
RTS
|
||||||
|
|
||||||
KEYCOPY BIT VDUSTATUS
|
KEYCOPY BIT VDUSTATUS
|
||||||
KEYCOPYTAB LDA FXTABCHAR ; Prepare TAB if no copy cursor
|
KEYCOPYTAB LDA FXTABCHAR ; Prepare TAB if no copy cursor
|
||||||
BVC KEYREADOK1 ; No copy cursor, return TAB
|
BVC KEYREADOK1 ; No copy cursor, return TAB
|
||||||
LDA OLDCHAR ; Get the char under cursor
|
LDA OLDCHAR ; Get the char under cursor
|
||||||
PHA
|
PHA
|
||||||
JSR OUTCHARCP ; Output it to restore and move cursor
|
JSR OUTCHARCP ; Output it to restore and move cursor
|
||||||
JSR GETCHRC ; Save char under cursor
|
JSR GETCHRC ; Save char under cursor
|
||||||
STA OLDCHAR
|
STA OLDCHAR
|
||||||
PLA
|
PLA
|
||||||
BNE KEYREADOK1 ; Ok character
|
BNE KEYREADOK1 ; Ok character
|
||||||
SEC
|
SEC
|
||||||
JMP BEEP ; Beep and return CS=No char
|
JMP BEEP ; Beep and return CS=No char
|
||||||
|
|
||||||
|
|
||||||
* KBDREAD
|
* KBDREAD
|
||||||
|
@ -517,63 +518,63 @@ KEYCOPYTAB LDA FXTABCHAR ; Prepare TAB if no copy cursor
|
||||||
* TAB -> $C9
|
* TAB -> $C9
|
||||||
* Cursors -> $CC-$CF
|
* Cursors -> $CC-$CF
|
||||||
*
|
*
|
||||||
KBDREAD CLV ; VC=return keypress
|
KBDREAD CLV ; VC=return keypress
|
||||||
KBDTEST LDA KBDDATA ; VS here to test for keypress
|
KBDTEST LDA KBDDATA ; VS here to test for keypress
|
||||||
EOR #$80 ; Toggle bit 7
|
EOR #$80 ; Toggle bit 7
|
||||||
CMP #$80
|
CMP #$80
|
||||||
BCS KBDDONE ; No key pressed
|
BCS KBDDONE ; No key pressed
|
||||||
BVS KBDDONE ; VS=test for keypress
|
BVS KBDDONE ; VS=test for keypress
|
||||||
STA KBDACK ; Ack. keypress
|
STA KBDACK ; Ack. keypress
|
||||||
KBDREAD2 BIT KBDAPPLFT
|
KBDREAD2 BIT KBDAPPLFT
|
||||||
BMI KBDLALT ; Left Apple pressed
|
BMI KBDLALT ; Left Apple pressed
|
||||||
BIT KBDAPPRGT
|
BIT KBDAPPRGT
|
||||||
BMI KBDRALT ; Right Apple pressed
|
BMI KBDRALT ; Right Apple pressed
|
||||||
CMP #$09
|
CMP #$09
|
||||||
BEQ KBDTAB ; TAB is dual action TAB/COPY
|
BEQ KBDTAB ; TAB is dual action TAB/COPY
|
||||||
CMP #$08
|
CMP #$08
|
||||||
BCC KBDCHKESC ; <$08 not cursor key
|
BCC KBDCHKESC ; <$08 not cursor key
|
||||||
CMP #$0C
|
CMP #$0C
|
||||||
BCC KBDCURSR ; $08-$0B are cursor keys
|
BCC KBDCURSR ; $08-$0B are cursor keys
|
||||||
CMP #$15
|
CMP #$15
|
||||||
BNE KBDCHKESC ; $15 is cursor key
|
BNE KBDCHKESC ; $15 is cursor key
|
||||||
*
|
*
|
||||||
KBDCUR15 LDA #$0D ; Convert RGT to $09
|
KBDCUR15 LDA #$0D ; Convert RGT to $09
|
||||||
KBDTAB SBC #$04 ; Convert TAB to &C9
|
KBDTAB SBC #$04 ; Convert TAB to &C9
|
||||||
KBDCURSR CLC
|
KBDCURSR CLC
|
||||||
ADC #$C4 ; Cursor keys $C0+x
|
ADC #$C4 ; Cursor keys $C0+x
|
||||||
BRA KBDCHKESC
|
BRA KBDCHKESC
|
||||||
|
|
||||||
KBDRALT ; Right Apple key pressed
|
KBDRALT ; Right Apple key pressed
|
||||||
KBDLALT CMP #$40 ; Left Apple key pressed
|
KBDLALT CMP #$40 ; Left Apple key pressed
|
||||||
BCS KBDCTRL
|
BCS KBDCTRL
|
||||||
CMP #$30
|
CMP #$30
|
||||||
BCC KBDCHKESC ; <'0'
|
BCC KBDCHKESC ; <'0'
|
||||||
CMP #$3A
|
CMP #$3A
|
||||||
BCS KBDCHKESC ; >'9'
|
BCS KBDCHKESC ; >'9'
|
||||||
KBDFUNC AND #$0F ; Convert Apple-Num to function key
|
KBDFUNC AND #$0F ; Convert Apple-Num to function key
|
||||||
ORA #$80
|
ORA #$80
|
||||||
KBDFUNC2 BIT KBDAPPRGT
|
KBDFUNC2 BIT KBDAPPRGT
|
||||||
BPL KBDCHKESC ; Left+Digit -> $8x
|
BPL KBDCHKESC ; Left+Digit -> $8x
|
||||||
ORA #$90 ; Right+Digit -> $9x
|
ORA #$90 ; Right+Digit -> $9x
|
||||||
BIT KBDAPPLFT
|
BIT KBDAPPLFT
|
||||||
BPL KBDCHKESC
|
BPL KBDCHKESC
|
||||||
EOR #$30 ; Left+Right+Digit -> $Ax
|
EOR #$30 ; Left+Right+Digit -> $Ax
|
||||||
BRA KBDCHKESC
|
BRA KBDCHKESC
|
||||||
|
|
||||||
KBDCTRL AND #$1F ; Apple-Letter -> Ctrl-Letter
|
KBDCTRL AND #$1F ; Apple-Letter -> Ctrl-Letter
|
||||||
*
|
*
|
||||||
* Test for Escape character
|
* Test for Escape character
|
||||||
KBDCHKESC TAX ; X=keycode
|
KBDCHKESC TAX ; X=keycode
|
||||||
EOR FXESCCHAR ; Current ESCAPE char?
|
EOR FXESCCHAR ; Current ESCAPE char?
|
||||||
ORA FXESCON ; Is ESCAPE an ASCII char?
|
ORA FXESCON ; Is ESCAPE an ASCII char?
|
||||||
BNE KBDNOESC ; Not ESCAPE or ESCAPE=ASCII
|
BNE KBDNOESC ; Not ESCAPE or ESCAPE=ASCII
|
||||||
LDA FX200VAR ; Is ESCAPE ignored?
|
LDA FX200VAR ; Is ESCAPE ignored?
|
||||||
LSR A ; Check bit 0
|
LSR A ; Check bit 0
|
||||||
BCS KBDDONE ; ESCAPE completely ignored
|
BCS KBDDONE ; ESCAPE completely ignored
|
||||||
SEC
|
SEC
|
||||||
ROR ESCFLAG ; Set Escape flag
|
ROR ESCFLAG ; Set Escape flag
|
||||||
KBDNOESC TXA ; A=keycode
|
KBDNOESC TXA ; A=keycode
|
||||||
CLC ; CLC=Ok
|
CLC ; CLC=Ok
|
||||||
KBDDONE RTS
|
KBDDONE RTS
|
||||||
|
|
||||||
|
|
||||||
|
@ -583,32 +584,32 @@ KBDDONE RTS
|
||||||
* A=character
|
* A=character
|
||||||
* X,Y=preserved
|
* X,Y=preserved
|
||||||
*
|
*
|
||||||
ESCPOLL BIT SETV ; Set V
|
ESCPOLL BIT SETV ; Set V
|
||||||
JSR KBDTEST ; VS - test keyboard
|
JSR KBDTEST ; VS - test keyboard
|
||||||
BCS ESCPOLL9 ; No keypress pending
|
BCS ESCPOLL9 ; No keypress pending
|
||||||
PHX ; KBDREAD corrupts A,X
|
PHX ; KBDREAD corrupts A,X
|
||||||
JSR KBDREAD2 ; Read key and check for Escape, returns CC
|
JSR KBDREAD2 ; Read key and check for Escape, returns CC
|
||||||
PLX
|
PLX
|
||||||
ESCPOLL9 BIT ESCFLAG ; Return with Escape state
|
ESCPOLL9 BIT ESCFLAG ; Return with Escape state
|
||||||
RTS
|
RTS
|
||||||
|
|
||||||
* Process pending Escape state
|
* Process pending Escape state
|
||||||
BYTE7E STA KBDACK ; Flush keyboard
|
BYTE7E STA KBDACK ; Flush keyboard
|
||||||
LDX #$00 ; $7E = ack detection of ESC
|
LDX #$00 ; $7E = ack detection of ESC
|
||||||
BIT ESCFLAG
|
BIT ESCFLAG
|
||||||
BPL BYTE7DOK ; No Escape pending
|
BPL BYTE7DOK ; No Escape pending
|
||||||
LDA FXESCEFFECT ; Process Escape effects
|
LDA FXESCEFFECT ; Process Escape effects
|
||||||
BEQ BYTE7E2
|
BEQ BYTE7E2
|
||||||
CLI ; Allow IRQs while flushing
|
CLI ; Allow IRQs while flushing
|
||||||
STX FXLINES ; Clear scroll counter
|
STX FXLINES ; Clear scroll counter
|
||||||
STX FXSOFTLEN ; Cancel soft key expansion
|
STX FXSOFTLEN ; Cancel soft key expansion
|
||||||
JSR CMDEXEC0 ; Close any EXEC file
|
JSR CMDEXEC0 ; Close any EXEC file
|
||||||
* JSR BUFFLUSHALL ; Flush all buffers (this should do FXSOFTLEN)
|
* JSR BUFFLUSHALL ; Flush all buffers (this should do FXSOFTLEN)
|
||||||
BYTE7E2 LDX #$FF ; X=$FF, Escape was pending
|
BYTE7E2 LDX #$FF ; X=$FF, Escape was pending
|
||||||
BYTE7C CLC ; &7C = clear escape condition
|
BYTE7C CLC ; &7C = clear escape condition
|
||||||
BYTE7D ROR ESCFLAG ; $7D = set escape condition
|
BYTE7D ROR ESCFLAG ; $7D = set escape condition
|
||||||
BYTE7DOK RTS
|
BYTE7DOK RTS
|
||||||
|
|
||||||
BYTE76 LDX #$00 ; Update LEDs and return X=SHIFT
|
BYTE76 LDX #$00 ; Update LEDs and return X=SHIFT
|
||||||
RTS ; Not possible with Apple
|
RTS ; Not possible with Apple
|
||||||
|
|
||||||
|
|
|
@ -4,6 +4,7 @@
|
||||||
* Initialization code running in Apple //e aux memory
|
* Initialization code running in Apple //e aux memory
|
||||||
* 08-Nov-2022 ResetType OSBYTE set
|
* 08-Nov-2022 ResetType OSBYTE set
|
||||||
* 09-Nov-2022 Current language re-entered, reset on Power/Hard Reset
|
* 09-Nov-2022 Current language re-entered, reset on Power/Hard Reset
|
||||||
|
* 12-Dec-2022 Copy loop uses OSvars, single byte for MODBRA jump.
|
||||||
* BUG: If Ctrl-Break pressed during a service call, wrong ROM gets paged in
|
* BUG: If Ctrl-Break pressed during a service call, wrong ROM gets paged in
|
||||||
|
|
||||||
|
|
||||||
|
@ -22,6 +23,8 @@ ZP1 EQU $90 ; $90-$9f are spare Econet space
|
||||||
ZP2 EQU $92
|
ZP2 EQU $92
|
||||||
ZP3 EQU $94
|
ZP3 EQU $94
|
||||||
|
|
||||||
|
*STRTBCKL EQU $9D ; *TO DO* No longer needed to preserve
|
||||||
|
*STRTBCKH EQU $9E
|
||||||
|
|
||||||
MOSSHIM
|
MOSSHIM
|
||||||
ORG AUXMOS ; MOS shim implementation
|
ORG AUXMOS ; MOS shim implementation
|
||||||
|
@ -42,30 +45,35 @@ MOSSHIM
|
||||||
MOSINIT SEI ; Ensure IRQs disabled
|
MOSINIT SEI ; Ensure IRQs disabled
|
||||||
LDX #$FF ; Initialize Alt SP to $1FF
|
LDX #$FF ; Initialize Alt SP to $1FF
|
||||||
TXS
|
TXS
|
||||||
|
* Ensure memory map set up:
|
||||||
STA WRCARDRAM ; Make sure we are writing aux
|
STA WRCARDRAM ; Make sure we are writing aux
|
||||||
STA 80STOREOFF ; Make sure 80STORE is off
|
STA 80STOREOFF ; Make sure 80STORE is off
|
||||||
|
STA SET80VID ; 80 col on
|
||||||
|
STA CLRALTCHAR ; Alt charset off
|
||||||
|
STA PAGE2 ; PAGE2
|
||||||
LDA LCBANK1 ; LC RAM Rd/Wt, 1st 4K bank
|
LDA LCBANK1 ; LC RAM Rd/Wt, 1st 4K bank
|
||||||
LDA LCBANK1
|
LDA LCBANK1
|
||||||
LDY #$00 ; $00=Soft Reset
|
|
||||||
:MODBRA BRA :RELOC ; NOPped out on first run
|
|
||||||
BRA :NORELOC
|
|
||||||
|
|
||||||
|
LDY #$00 ; $00=Soft Reset
|
||||||
|
:MODBRA SEC ; Changed to CLC after first run
|
||||||
|
BCC :NORELOC ; Subsequent run, skip to code
|
||||||
|
* BRA :RELOC ; NOPped out on first run
|
||||||
|
* BRA :NORELOC
|
||||||
|
|
||||||
|
* Copy code to high memory, (OSCTRL)=>source, (OSLPTR)=>dest
|
||||||
:RELOC LDA #<AUXMOS1 ; Source
|
:RELOC LDA #<AUXMOS1 ; Source
|
||||||
STA ZP1+0
|
STA OSCTRL+0
|
||||||
LDA #>AUXMOS1
|
LDA #>AUXMOS1
|
||||||
STA ZP1+1
|
STA OSCTRL+1
|
||||||
LDA #<AUXMOS ; Dest
|
STY OSLPTR+0 ; Y=0 from earlier
|
||||||
STA ZP2+0
|
LDA #>AUXMOS ; AUXMOS is always &xx00
|
||||||
LDA #>AUXMOS
|
STA OSLPTR+1
|
||||||
STA ZP2+1 ; Y=0 from earlier
|
:L1 LDA (OSCTRL),Y ; Copy from source
|
||||||
:L1 LDA (ZP1),Y ; Copy from source
|
STA (OSLPTR),Y ; to dest
|
||||||
STA (ZP2),Y ; to dest
|
|
||||||
INY
|
INY
|
||||||
BNE :L1 ; Do 256 bytes
|
BNE :L1 ; Do 256 bytes
|
||||||
INC ZP1+1 ; Update source
|
INC OSCTRL+1 ; Update source
|
||||||
INC ZP2+1 ; Update dest
|
INC OSLPTR+1 ; Update dest
|
||||||
BMI :L1 ; Loop until wrap past &FFFF
|
BMI :L1 ; Loop until wrap past &FFFF
|
||||||
*
|
*
|
||||||
:L2 LDA MOSVEND-AUXMOS+AUXMOS1-256,Y
|
:L2 LDA MOSVEND-AUXMOS+AUXMOS1-256,Y
|
||||||
|
@ -73,14 +81,21 @@ MOSINIT SEI ; Ensure IRQs disabled
|
||||||
INY ; to proper place
|
INY ; to proper place
|
||||||
BNE :L2
|
BNE :L2
|
||||||
|
|
||||||
LDA #$EA ; NOP opcode
|
LDA #$18 ; CLC opcode, next time around, we're
|
||||||
STA :MODBRA+0 ; Next time around, we're already
|
STA :MODBRA ; already in high memory
|
||||||
STA :MODBRA+1 ; in high memory
|
* Changing only one byte ensures against a RESET happening halfway between
|
||||||
|
* two bytes being changed - and is five bytes shorter!
|
||||||
|
|
||||||
|
* LDA #$EA ; NOP opcode
|
||||||
|
* STA :MODBRA+0 ; Next time around, we're already
|
||||||
|
* STA :MODBRA+1 ; in high memory
|
||||||
|
|
||||||
LDY #$02 ; $02=PowerOn
|
LDY #$02 ; $02=PowerOn
|
||||||
|
|
||||||
:NORELOC STA SET80VID ; 80 col on
|
:NORELOC
|
||||||
STA CLRALTCHAR ; Alt charset off
|
* STA SET80VID ; 80 col on
|
||||||
STA PAGE2 ; PAGE2
|
* STA CLRALTCHAR ; Alt charset off
|
||||||
|
* STA PAGE2 ; PAGE2
|
||||||
JMP MOSHIGH ; Ensure executing in high memory from here
|
JMP MOSHIGH ; Ensure executing in high memory from here
|
||||||
|
|
||||||
* From here onwards we are always executing at $D000 onwards
|
* From here onwards we are always executing at $D000 onwards
|
||||||
|
@ -91,7 +106,7 @@ MOSHIGH SEI ; Ensure IRQs disabled
|
||||||
TXS ; Initialise stack
|
TXS ; Initialise stack
|
||||||
PHY ; Stack ResetType
|
PHY ; Stack ResetType
|
||||||
LDA FXLANG ; A=Language
|
LDA FXLANG ; A=Language
|
||||||
LDY FXSOFTOK ; A=Language, Y=Soft Keys Ok
|
LDY FXSOFTOK ; Y=Soft Keys Ok
|
||||||
|
|
||||||
INX ; X=$00
|
INX ; X=$00
|
||||||
:SCLR STZ $0000,X ; Clear Kernel memory
|
:SCLR STZ $0000,X ; Clear Kernel memory
|
||||||
|
@ -134,19 +149,19 @@ MOSHIGH SEI ; Ensure IRQs disabled
|
||||||
*
|
*
|
||||||
* Find a language to enter
|
* Find a language to enter
|
||||||
:INITSOFT LDX FXLANG ; Get current language
|
:INITSOFT LDX FXLANG ; Get current language
|
||||||
BPL :INITLANG ; b7=ok, use it
|
BPL INITLANG ; b7=ok, use it
|
||||||
LDX ROMMAX ; Look for a language
|
LDX ROMMAX ; Look for a language
|
||||||
:FINDLANG JSR ROMSELECT ; Bring ROM X into memory
|
:FINDLANG JSR ROMSELECT ; Bring ROM X into memory
|
||||||
BIT $8006 ; Check ROM type
|
BIT $8006 ; Check ROM type
|
||||||
BVS :INITLANG ; b6=set, use it
|
BVS INITLANG ; b6=set, use it
|
||||||
DEX ; Step down to next ROM
|
DEX ; Step down to next ROM
|
||||||
BPL :FINDLANG ; Loop until all tested
|
BPL :FINDLANG ; Loop until all tested
|
||||||
BRK ; No language found
|
ERRNOLANG BRK ; No language found
|
||||||
DB $F9
|
DB $F9
|
||||||
ASC 'No Language'
|
ASC 'No Language'
|
||||||
BRK
|
BRK
|
||||||
*
|
*
|
||||||
:INITLANG CLC ; CLC=Entering from RESET
|
INITLANG CLC ; CLC=Entering from RESET
|
||||||
|
|
||||||
* OSBYTE $8E - Enter language ROM
|
* OSBYTE $8E - Enter language ROM
|
||||||
*********************************
|
*********************************
|
||||||
|
@ -154,7 +169,8 @@ MOSHIGH SEI ; Ensure IRQs disabled
|
||||||
*
|
*
|
||||||
BYTE8E PHP ; Save CLC=RESET, SEC=Not RESET
|
BYTE8E PHP ; Save CLC=RESET, SEC=Not RESET
|
||||||
JSR ROMSELECT ; Bring ROM X into memory
|
JSR ROMSELECT ; Bring ROM X into memory
|
||||||
STX FXLANG ; Set as current language ROM
|
BIT $8006
|
||||||
|
BVC ERRNOLANG ; No language in this ROM
|
||||||
LDA #$00
|
LDA #$00
|
||||||
STA FAULT+0
|
STA FAULT+0
|
||||||
LDA #$80
|
LDA #$80
|
||||||
|
@ -164,6 +180,7 @@ BYTE8E PHP ; Save CLC=RESET, SEC=Not RESET
|
||||||
STY FAULT+0 ; FAULT pointing to version string
|
STY FAULT+0 ; FAULT pointing to version string
|
||||||
JSR OSNEWL
|
JSR OSNEWL
|
||||||
JSR OSNEWL
|
JSR OSNEWL
|
||||||
|
STX FXLANG ; Set as current language ROM
|
||||||
PLP ; Get entry type back
|
PLP ; Get entry type back
|
||||||
LDA #$01 ; $01=Entering code with a header
|
LDA #$01 ; $01=Entering code with a header
|
||||||
JMP ROMAUXADDR
|
JMP ROMAUXADDR
|
||||||
|
@ -214,9 +231,8 @@ BYTE00 BEQ BYTE00A ; OSBYTE 0,0 - generate error
|
||||||
RTS ; %000x1xxx host type, 'A'pple
|
RTS ; %000x1xxx host type, 'A'pple
|
||||||
BYTE00A BRK
|
BYTE00A BRK
|
||||||
DB $F7
|
DB $F7
|
||||||
HELLO ASC 'Applecorn MOS 2022-11-11'
|
HELLO ASC 'Applecorn MOS 2022-11-08'
|
||||||
DB $00 ; Unify MOS messages
|
DB $00 ; Unify MOS messages
|
||||||
|
|
||||||
* TO DO: Move into RAM
|
* TO DO: Move into RAM
|
||||||
GSSPEED DB $00 ; $80 if GS is fast, $00 for slow
|
* GSSPEED DB $00 ; $80 if GS is fast, $00 for slow
|
||||||
|
|
||||||
|
|
|
@ -18,7 +18,7 @@
|
||||||
|
|
||||||
* DEBUG EQU $00 ; $00=*OPT 255 debug code removed
|
* DEBUG EQU $00 ; $00=*OPT 255 debug code removed
|
||||||
DEBUG EQU $E0 ; $E0=*OPT 255 debug code included
|
DEBUG EQU $E0 ; $E0=*OPT 255 debug code included
|
||||||
* GSSPEED EQU $E1 ; $E1 **TEMP**
|
GSSPEED EQU $E1 ; $E1 $80 if GS is fast, $00 for slow
|
||||||
FSFLAG1 EQU $E2 ; $E2
|
FSFLAG1 EQU $E2 ; $E2
|
||||||
FSFLAG2 EQU $E3 ; $E3 HOSTFS *OPT settings
|
FSFLAG2 EQU $E3 ; $E3 HOSTFS *OPT settings
|
||||||
GSFLAG EQU $E4 ; $E4 GSREAD processing flags
|
GSFLAG EQU $E4 ; $E4 GSREAD processing flags
|
||||||
|
@ -51,7 +51,7 @@ ESCFLAG EQU $FF ; $FF Escape status
|
||||||
|
|
||||||
* $0200-$0235 Vectors
|
* $0200-$0235 Vectors
|
||||||
* $0236-$028F OSBYTE variables ($190+BYTENUM)
|
* $0236-$028F OSBYTE variables ($190+BYTENUM)
|
||||||
* $0290-$02ED
|
* $0290-$02ED VDU workspace
|
||||||
* $02EE-$02FF MOS control block
|
* $02EE-$02FF MOS control block
|
||||||
|
|
||||||
USERV EQU $200 ; USER vector
|
USERV EQU $200 ; USER vector
|
||||||
|
@ -75,4 +75,6 @@ OSGBPBCB EQU OSFILECB+1 ; OSGBPB control block
|
||||||
|
|
||||||
|
|
||||||
* $0300-$03DF
|
* $0300-$03DF
|
||||||
* $03E0-$03FF Used for interfacing with ProDOS XFER
|
* $03E0-$03EF Used for interfacing with ProDOS XFER
|
||||||
|
* $03F0-$03FF
|
||||||
|
|
||||||
|
|
Loading…
Reference in New Issue