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RomWBW/Source/HBIOS/kbd.asm
b1ackmai1er 78f65522b7 Dev (#108) 
* added hack to handle tunes

* quiet clean

* added chmod for execution

* suppress warnings

* Multi-boot fixes

* the windows build somehow thinks that these filesystems are cpm3.

* credit and primitive instructions

* Update sd.asm

Cosmetic fix.

* make compile shut up about conditionals

* Add bin2asm for linus and update build to process font files under linix

* fixed quoted double quote bug, added tests

* added tests

* added bin2asm for font file source creation

* Revert linux bin2asm font stuff

* added rule for font source generation

* build fonts

* added directory mapping cache.  if the same directory is being hit
as last run, we don't need to rebuild the map.  will likely break if
you are running more than one at a time, in that the cache will be
ineffective.  also, if the directory contents change, this will also break.

* removed strip.  breaks osx

* added directory tag so . isn't matched all over the place

* added real cache validation

* fixed build

* this file is copied from optdsk.lib or optcmd.lib

* install to ../HBIOS

* prerequisite verbosity

* diff soft failure and casefn speedup

* added lzsa

* added lzsa

* removed strip. breaks on osx

* added clobber

* added code to handle multiple platform rom builds with rom size override

* added align and 0x55 hex syntax

* default to hd64180

* added N8 capability

* added SBC_std.rom to default build

* added support for binary diff

* diff fixes

* clean, identical build.  font source generator emitted .align.  this does not match the windows build

* Upgrade NZCOM to latest

* Misc. Cleanup

* fixed expression parser bug : ~(1|2) returned 0xfe

* added diff build option

* Update Makefile

Makefile enhancement to better handle ncurses library from Bob Dunlop.

* Update sd.asm

Back out hack for uz80as now that Curt fixed it.

* Misc. Cleanup

* UNA Catchup

UNA support was lacking some of the more recent behavior changes.  This corrects most of it.

* Add github action for building RomWBW

* Bump Pre-release Version

* Update build.yml

Added "make clean" which will remove temporary files without removing final binary outputs.

* Update Makefile

Build all ROM variants by default in Linux/Mac build.

* Update Makefile

* Update Makefile

* Update Makefile

* Update Makefile

* Update Makefile

* Update Makefile

* Update Makefile

* Update Makefile

* Update Makefile

* Update for GitHub Build

Case issue in TASM includes showing up in GitHub build.  This should correct that.

* Added an gitignore files to exclude generated files

* Removed Tunes/clean.cmd and Tunes/ReadMe.txt - as make clean removes them

* Build.sh: marked as executable

chmod +x Build.sh

* Fix to HBIOS/build.sh

When adding files to rom disk, if files were missing, it would error out.

It appears the intent is to skip non-existing files.

Updated to log out correctly for missing files - and continue operation.

* Update Microsoft NASCOM BASIC.docx

Nascom manual, text version by Jan S (full name unknown)

* Fix issue with Apps/Tune not making

If dest directory does not exist, fails to make Apps

* Create ReadMe.txt

* Update Makefile

* Update Build.sh

* Make .gitignores for Tools/unix more specific

* cpmtools Update

Updated cpmtools applications (Windows only).  Removed hack in diskdefs that is no longer required.

* HBIOS Proxy Temp Stack Enhancement

Reuse the bounce buffer area as the temporary stack space required briefly in HBX_INVOKE when transitioning banks.  Increases size of temporary stack space to 64 bytes.

* Update ReadMe.txt

* HBIOS - clean up TMPSTK

* Update hbios.asm

Minor cosmetic changes.

* Build Process Updates

Minor udpates to build process to improve consistency between Windows and Mac/Linux builds.

* Update hbios.asm

Add improved interrupt protection to HBIOS PEEK, POKE, and BNKCPY functions.

* hbios - wrap hbx_bnkcpy

* hbios - adjust hbx_peek hbx_poke guards

* Update hbios.asm

Adjusted used of DI/EI for PEEK and POKE to regain a bit of INTSTK space.  Added code so that HB_INVBNK can be used as a flag indicating if HBIOS is active, $FF is inactive, anything else means active.

* Add HBIOS MuTex

* Initial Nascom basic ecb-vdu graphics

set and reset for 80x25b screen with 256 character mod

* Finalize Pre-release 34

Final support for FreeRTOS

* Update nascom.asm

Optimization, cleanup, tabs and white spaces

* IDE & PPIDE Cleanup

* Clean up

Make version include files common.

* Update Makefile

* Update Makefile

* Build Test

* Build Test

* Build Fixes

* Update nascom.asm

Cleanup

* Update nascom.asm

Optimization

* hbios - temp stack tweak

* Update hbios.asm

Comments on HBX_BUF usage.

* Update nascom.asm

Optimization

* Update nascom.asm

Setup ECB-VDU build option, remove debug code

* Update nascom.asm

Set default build. update initialization

* Update nascom.asm

Make CLS clear vdu screen

* Update nascom.asm

Fixup top screen line not showing

* Add SC131 Support

Also cleaned up some ReadMe files.

* HBIOS SCZ180 - remove mutex special files

* HBIOS SCZ180 - adjust mutex comment

* Misc. Cleanup

Includes some minor improvements to contents in some disk images.

* Delete FAT.COM

Changing case of FAT.COM extension to lowercase.

* Create FAT.com

Completing change of case in extension of FAT.com.

* Update Makefile

Remove ROM variants that just have the HBIOS MUTEX enabled.  Users can easily enable this in a custom build.

* Cleanup

Removed hack from Images Makefile.  Fixed use of DEFSERCFG in various places.

* GitHub CI Updates

Adds automation of build and release assets upon release.

* Prerelease 36

General cleanup

* Build Script Cleanups

* Config File Cleanups

* Update RomWBW Architecture

General refresh for v2.9.2

* Update vdu.asm

Removed a hack in VDU driver that has existed for 8 years.  :-)

* Fix CONSOLE Constant

Rename CIODEV_CONSOLE constant to CIO_CONSOLE because it is a unit code, not a device type code.

Retabify TastyBasic.

* Minor Bug Fixes

- Disk assignment edge case
- CP/M 3 accidental fall thru
- Cosmetic updates

* Update util.z80

* Documentation Cleanup

* Documentation Update

* Documentation Update

* Documentation Updates

* Documentation Updates

* Create Common.inc

* Documentation Updates

* Documentation Updates

* doc - a few random fixes

* Documentation Cleanup

* Fix IM 0 Build Error in ACIA

* Documentation Updates

* Documentation Cleanup

* Remove OSLDR

The OSLDR application was badly broken and almost impossible to fix with new expanded OS support.

* Bug Fixes

- Init RAM disk at boot under CP/M 3
- Fix ACR activation in TUNE

* FD Motor Timeout

- Made FDC motor timeout smaller and more consistent across different speed CPUs
- Added "boot" messaging to RTC

* Cleanup

* Cleanup

- Fix SuperZAP to work under NZCOM and ZPM3
- Finalize standard config files

* Minor Changes

- Slight change to ZAP configuration
- Added ZSDOS.ZRL to NZCOM image

* ZDE Upgrade

- Upgraded ZDE 1.6 -> 1.6a

* Config File Tuning

* Pre-release for Testing

* cfg - mutex consistent config language

* Bump to Version 3.0

* Update SD Card How-To

Thanks David!

* update ReadMe.md

Remove some odd `\`.

* Update ReadMe.txt

* Update ReadMe.md

* Update Generated Doc Files

* Improve XModem Startup

- Extended startup timeout for XM.COM so that it doesn't timeout so quickly while host is selecing a file to send.
- Updated SD Card How-To from David Reese.

* XModem Timing Refinements

* TMS Driver Z180 Improvements

- TMS driver udpated to insert Z180 I/O waitstates internally so other code can run at full speed.
- Updated How-To documents from David.
- Fixed TUNE app to properly restore Z180 I/O waitstates after manipulating them.

* CLRDIR and ZDE updates

- CLRDIR has been updated by Max Scane for CP/M 3 compatibility.
- A minor issue in the preconfigured ZDE VT100 terminal escape sequences was corrected.

* Fix Auto CRT Console Switch on CP/M 3

* Handle lack of RTC better

DSRTC driver now correctly returns an error if there is no RTC present.

* Minor RTC Updates

* Finalize v3.0.1

Cleanup release for v3.0

* New ROMLDR and INTRTC driver

- Refactored romldr.asm
- Added new periodic timer based RTC driver

* CP/M 3 Date Hack

- Hack to allow INTRTC to increment time without destroying the date

* Update romldr.asm

Work around minor Linux build inconsistency

* Update Apps for New Version

* Revert "Update Apps for New Version"

This reverts commit ad80432252.

* Revert "Update romldr.asm"

This reverts commit 4a9825cd57.

* Revert "CP/M 3 Date Hack"

This reverts commit 153b494e61.

* Revert "New ROMLDR and INTRTC driver"

This reverts commit d9bed4563e.

* Start v3.1 Development

* Update FDISK80.COM

Updated FDISK80 to allow reserving up to 256 slices.

* Update sd.asm

For Z180 CSIO, ensure that xmit is finished, before asserting CS for next transaction.

* Add RC2014 UART, Improve SD protocol fix

- RC2014 and related platforms will autodetect a UART at 0xA0 and 0xA8
- Ensure that CS fully brackets all SD I/O

* ROMLDR Improvements

.com files can now be started from CP/M and size of .com files has been reduced so they always fit.

* Update commit.yml

Run commit build in all branches

* Update commit.yml

Run commit build for master and dev branches

* Improved clock driver auto-detect/fallback

* SIO driver now CTC aware

The SIO driver can now use a CTC (if available) to provide much more flexible baud rate programming.

* CTC driver fine tuning

* Update xmdm125.asm

Fixed a small issue in core XM125 code that caused a file write error message to not be displayed when it should be.

* CF Card compatibility improvement

Older CF Cards did not reset IDE registers to defaults values when reset.  Implemented a work around.

* Update ACIA detection

ACIA should no longer be detected if there is also a UART module in the system.

* Handle CTC anomaly

Small update to accommodate CTC behavior that occurs when the CTC trigger is more than half the CTC clock.

* Update acia.asm

Updated ACIA detection to use primary ACIA port instead of phantom port.

* Update acia.asm

Fix bug in ACIA detection.

Thanks Alan!

* MacOS Build Improvement

Build script updated to improve compatibility with MacOS.

Credit to Fredrik Axtelius for this.

* HBIOS Makefile - use env vars for target

Allow build ROM targets to be restricted to just one platform thru use of ENV vars:

ROM_PLATFORM - if defined to a known platform, only this platform is build - defaults to std config
ROM_CONFIG - sets the desired platform config - defaults to std

if the above ENVs are not defined, builds all ROMs

* Added some more gitignores

* Whitespace changes (crlf)

* HBIOS: Force the assembly to fail for vdu drivers if function table count is not correct

* Whitespace: trailing whitespaces

* makefile: updated some make scripts to use  when calling subdir makefiles

* linux build: update to Build.sh fix for some platforms

The initialization of the Rom dat file used the pipe (|) operator to build an initial empty file.

But the pipe operator | may sometimes return a non-zero exit code for some linux platforms, if the
the streams are closed before dd has fully processed the stream.

This issue occured on a travis linux ubuntu image.

Solution was to change to redirection.

* Bump version

* Enhance CTC periodic timer

Add ability to use TIMER mode in CTC driver to generate priodic interrupts.

* HBIOS: Added support for sound drivers

New sound driver support with initial support for the SN76489 chip

New build configuration entry:
* SN76489ENABLE

Ports are currently locked in with:
* SN76489_PORT_LEFT       .EQU    $FC     ; PORTS FOR ACCESSING THE SN76489 CHIP (LEFT)
* SN76489_PORT_RIGHT      .EQU    $F8     ; PORTS FOR ACCESSING THE SN76489 CHIP (LEFT)

* Miscellaneous Cleanup

No functional changes.

Co-authored-by: curt mayer <curt@zen-room.org>
Co-authored-by: Wayne Warthen <wwarthen@gmail.com>
Co-authored-by: ed <linux@maidavale.org>
Co-authored-by: Dean Netherton <dnetherton@dius.com.au>
Co-authored-by: ed <ed@maidavale.org>
Co-authored-by: Phillip Stevens <phillip.stevens@gmail.com>
Co-authored-by: Dean Netherton <dean.netherton@gmail.com>
2020-04-24 06:17:22 +08:00

802 lines
28 KiB
NASM
Raw Blame History

;__________________________________________________________________________________________________
;
; 8242 BASED PS/2 KEYBOARD DRIVER FOR SBC
;
; ORIGINAL CODE BY DR JAMES MOXHAM
; ROMWBW ADAPTATION BY WAYNE WARTHEN
;__________________________________________________________________________________________________
;
; TODO:
; CONSIDER DETECTING ERRORS IN STATUS BYTE (PERR, TO)
;__________________________________________________________________________________________________
; DATA CONSTANTS
;__________________________________________________________________________________________________
;
; DRIVER DATA OFFSETS (FROM IY)
;
KBD_ST .EQU 0 ; BYTE, STATUS PORT NUM (R)
KBD_CMD .EQU KBD_ST ; BYTE, CMD PORT NUM (W)
KBD_DAT .EQU 1 ; BYTE, DATA PORT NUM (R/W)
;
; TIMING CONSTANTS
;
KBD_WAITTO .EQU 0 ; 0 IS MAX WAIT (256)
;
; STATUS BITS (FOR KBD_STATUS)
;
KBD_EXT .EQU 01H ; BIT 0, EXTENDED SCANCODE ACTIVE
KBD_BREAK .EQU 02H ; BIT 1, THIS IS A KEY UP (BREAK) EVENT
KBD_KEYRDY .EQU 80H ; BIT 7, INDICATES A DECODED KEYCODE IS READY
;
; STATE BITS (FOR KBD_STATE, KBD_LSTATE, KBD_RSTATE)
;
KBD_SHIFT .EQU 01H ; BIT 0, SHIFT ACTIVE (PRESSED)
KBD_CTRL .EQU 02H ; BIT 1, CONTROL ACTIVE (PRESSED)
KBD_ALT .EQU 04H ; BIT 2, ALT ACTIVE (PRESSED)
KBD_WIN .EQU 08H ; BIT 3, WIN ACTIVE (PRESSED)
KBD_SCRLCK .EQU 10H ; BIT 4, CAPS LOCK ACTIVE (TOGGLED ON)
KBD_NUMLCK .EQU 20H ; BIT 5, NUM LOCK ACTIVE (TOGGLED ON)
KBD_CAPSLCK .EQU 40H ; BIT 6, SCROLL LOCK ACTIVE (TOGGLED ON)
KBD_NUMPAD .EQU 80H ; BIT 7, NUM PAD KEY (KEY PRESSED IS ON NUM PAD)
;
KBD_DEFRPT .EQU $40 ; DEFAULT REPEAT RATE (.5 SEC DELAY, 30CPS)
KBD_DEFSTATE .EQU KBD_NUMLCK ; DEFAULT STATE (NUM LOCK ON)
;
;__________________________________________________________________________________________________
; DATA
;__________________________________________________________________________________________________
;
KBD_SCANCODE .DB 0 ; RAW SCANCODE
KBD_KEYCODE .DB 0 ; RESULTANT KEYCODE AFTER DECODING
KBD_STATE .DB 0 ; STATE BITS (SEE ABOVE)
KBD_LSTATE .DB 0 ; STATE BITS FOR "LEFT" KEYS
KBD_RSTATE .DB 0 ; STATE BITS FOR "RIGHT" KEYS
KBD_STATUS .DB 0 ; CURRENT STATUS BITS (SEE ABOVE)
KBD_REPEAT .DB 0 ; CURRENT REPEAT RATE
KBD_IDLE .DB 0 ; IDLE COUNT
;
;__________________________________________________________________________________________________
; KEYBOARD INITIALIZATION
;__________________________________________________________________________________________________
;
KBD_INIT:
CALL NEWLINE ; FORMATTING
PRTS("KBD: IO=0x$")
LD A,(IY+KBD_DAT)
CALL PRTHEXBYTE
;
LD A,KBD_DEFRPT ; GET DEFAULT REPEAT RATE
LD (KBD_REPEAT),A ; SAVE IT
LD A,KBD_DEFSTATE ; GET DEFAULT STATE
LD (KBD_STATE),A ; SAVE IT
LD A,$AA ; CONTROLLER SELF TEST
CALL KBD_PUTCMD ; SEND IT
CALL KBD_GETDATA ; CONTROLLER SHOULD RESPOND WITH $55 (ACK)
LD A,$60 ; SET COMMAND REGISTER
CALL KBD_PUTCMD ; SEND IT
; LD A,$60 ; XLAT ENABLED, MOUSE DISABLED, NO INTS
LD A,$20 ; XLAT DISABLED, MOUSE DISABLED, NO INTS
CALL KBD_PUTDATA ; SEND IT
CALL KBD_GETDATA ; GOBBLE UP $AA FROM POWER UP, AS NEEDED
; LD A,$AE ; COMMAND = ENABLE KEYBOARD
; CALL KBD_PUTCMD ; SEND IT
; LD A,$A7 ; COMMAND = DISABLE MOUSE
; CALL KBD_PUTCMD ; SEND IT
CALL KBD_RESET ; RESET THE KEYBOARD
CALL KBD_SETLEDS ; UPDATE LEDS BASED ON CURRENT TOGGLE STATE BITS
CALL KBD_SETRPT ; UPDATE REPEAT RATE BASED ON CURRENT SETTING
XOR A ; SIGNAL SUCCESS
RET
;
;__________________________________________________________________________________________________
; KEYBOARD STATUS
;__________________________________________________________________________________________________
;
KBD_STAT:
CALL KBD_DECODE ; CHECK THE KEYBOARD
JP Z,CIO_IDLE ; RET VIA IDLE PROCESSING IF NO KEY
RET
;
;__________________________________________________________________________________________________
; KEYBOARD READ
;
; RETURNS ASCII VALUE IN E. SEE END OF FILE FOR VALUES RETURNED FOR SPECIAL KEYS
; LIKE PGUP, ARROWS, FUNCTION KEYS, ETC.
;__________________________________________________________________________________________________
;
KBD_READ:
CALL KBD_STAT ; KEY READY?
JR Z,KBD_READ ; NOT READY, KEEP TRYING
;
LD A,(KBD_STATE) ; GET STATE
AND $01 ; ISOLATE EXTENDED SCANCODE BIT
RRCA ; ROTATE IT TO HIGH ORDER BIT
LD E,A ; SAVE IT IN E FOR NOW
LD A,(KBD_SCANCODE) ; GET SCANCODE
OR E ; COMBINE WITH EXTENDED BIT
LD C,A ; STORE IT IN C FOR RETURN
LD A,(KBD_KEYCODE) ; GET KEYCODE
LD E,A ; SAVE IT IN E
LD A,(KBD_STATE) ; GET STATE FLAGS
LD D,A ; SAVE THEM IN D
XOR A ; SIGNAL SUCCESS
LD (KBD_STATUS),A ; CLEAR STATUS TO INDICATE BYTE RECEIVED
RET
;
;__________________________________________________________________________________________________
; KEYBOARD FLUSH
;__________________________________________________________________________________________________
;
KBD_FLUSH:
XOR A ; A = 0
LD (KBD_STATUS),A ; CLEAR STATUS
RET
;
;__________________________________________________________________________________________________
; HARDWARE INTERFACE
;__________________________________________________________________________________________________
;
;__________________________________________________________________________________________________
KBD_IST:
;
; KEYBOARD INPUT STATUS
; A=0, Z SET FOR NOTHING PENDING, OTHERWISE DATA PENDING
;
LD C,(IY+KBD_ST) ; STATUS PORT
IN A,(C) ; GET STATUS
AND $01 ; ISOLATE INPUT PENDING BIT
RET
;
;__________________________________________________________________________________________________
KBD_OST:
;
; KEYBOARD OUTPUT STATUS
; A=0, Z SET FOR NOT READY, OTHERWISE READY TO WRITE
;
LD C,(IY+KBD_ST) ; STATUS PORT
IN A,(C) ; GET STATUS
AND $02 ; ISOLATE OUTPUT EMPTY BIT
XOR $02 ; FLIP IT FOR APPROPRIATE RETURN VALUES
RET
;
;__________________________________________________________________________________________________
KBD_PUTCMD:
;
; PUT A CMD BYTE FROM A TO THE KEYBOARD INTERFACE WITH TIMEOUT
;
LD E,A ; SAVE INCOMING VALUE IN E
LD B,KBD_WAITTO ; SETUP TO LOOP
KBD_PUTCMD0:
CALL KBD_OST ; GET OUTPUT REGISTER STATUS
JR NZ,KBD_PUTCMD1 ; EMPTY, GO TO WRITE
CALL DELAY ; WAIT A BIT
DJNZ KBD_PUTCMD0 ; LOOP UNTIL COUNTER EXHAUSTED
RET
KBD_PUTCMD1:
LD A,E ; RECOVER VALUE TO WRITE
#IF (KBDTRACE >= 2)
CALL PC_SPACE
CALL PC_GT
CALL PC_GT
CALL PRTHEXBYTE
#ENDIF
LD C,(IY+KBD_CMD) ; COMMAND PORT
OUT (C),A ; WRITE IT
XOR A ; SIGNAL SUCCESS
RET
;
;__________________________________________________________________________________________________
KBD_PUTDATA:
;
; PUT A DATA BYTE FROM A TO THE KEYBOARD INTERFACE WITH TIMEOUT
;
LD E,A ; SAVE INCOMING VALUE IN E
LD B,KBD_WAITTO ; SETUP TO LOOP
KBD_PUTDATA0:
CALL KBD_OST ; GET OUTPUT REGISTER STATUS
JR NZ,KBD_PUTDATA1 ; EMPTY, GO TO WRITE
CALL DELAY ; WAIT A BIT
DJNZ KBD_PUTDATA0 ; LOOP UNTIL COUNTER EXHAUSTED
RET
KBD_PUTDATA1:
LD A,E ; RECOVER VALUE TO WRITE
#IF (KBDTRACE >= 2)
CALL PC_SPACE
CALL PC_GT
CALL PRTHEXBYTE
#ENDIF
LD C,(IY+KBD_DAT) ; DATA PORT
OUT (C),A ; WRITE IT
XOR A ; SIGNAL SUCCESS
RET
;
;__________________________________________________________________________________________________
KBD_GETDATA:
;
; GET A RAW DATA BYTE FROM KEYBOARD INTERFACE INTO A WITH TIMEOUT
;
LD B,KBD_WAITTO ; SETUP TO LOOP
KBD_GETDATA0:
CALL KBD_IST ; GET INPUT REGISTER STATUS
JR NZ,KBD_GETDATA1 ; BYTE PENDING, GO GET IT
CALL DELAY ; WAIT A BIT
DJNZ KBD_GETDATA0 ; LOOP UNTIL COUNTER EXHAUSTED
XOR A ; NO DATA, RETURN ZERO
RET
KBD_GETDATA1:
LD C,(IY+KBD_DAT) ; DATA PORT
IN A,(C) ; GET THE DATA VALUE
#IF (KBDTRACE >= 2)
PUSH AF
CALL PC_SPACE
CALL PC_LT
CALL PRTHEXBYTE
POP AF
#ENDIF
OR A ; SET FLAGS
RET
;
;__________________________________________________________________________________________________
KBD_GETDATAX:
;
; GET A RAW DATA BYTE FROM KEYBOARD INTERFACE INTO A WITH NOTIMEOUT
;
CALL KBD_IST ; GET INPUT REGISTER STATUS
RET Z ; NOTHING THERE, DONE
JR KBD_GETDATA1 ; GO GET IT
;
;__________________________________________________________________________________________________
; RESET KEYBOARD
;__________________________________________________________________________________________________
;
KBD_RESET:
LD A,$FF ; RESET COMMAND
CALL KBD_PUTDATA ; SEND IT
CALL KBD_GETDATA ; GET THE ACK
LD B,0 ; SETUP LOOP COUNTER
KBD_RESET0:
PUSH BC ; PRESERVE COUNTER
CALL KBD_GETDATA ; TRY TO GET THE RESPONSE
POP BC ; RECOVER COUNTER
JR NZ,KBD_RESET1 ; GOT A BYTE? IF SO, GET OUT OF LOOP
DJNZ KBD_RESET0 ; LOOP TILL COUNTER EXHAUSTED
KBD_RESET1:
LD A,B
XOR A ; SIGNAL SUCCESS (RESPONSE IS IGNORED...)
RET ; DONE
;
;__________________________________________________________________________________________________
; UPDATE KEYBOARD LEDS BASED ON CURRENT TOGGLE FLAGS
;__________________________________________________________________________________________________
;
KBD_SETLEDS:
LD A,$ED ; SET/RESET LED'S COMMAND
CALL KBD_PUTDATA ; SEND THE COMMAND
CALL KBD_GETDATA ; READ THE RESPONSE
CP $FA ; MAKE SURE WE GET ACK
RET NZ ; ABORT IF NO ACK
LD A,(KBD_STATE) ; LOAD THE STATE BYTE
RRCA ; ROTATE TOGGLE KEY BITS AS NEEDED
RRCA
RRCA
RRCA
AND $07 ; CLEAR THE IRRELEVANT BITS
CALL KBD_PUTDATA ; SEND THE LED DATA
CALL KBD_GETDATA ; READ THE ACK
JP KBD_DECNEW ; RESTART DECODER FOR A NEW KEY
RET ; DONE
;
;__________________________________________________________________________________________________
; UPDATE KEYBOARD REPEAT RATE BASED ON CURRENT SETTING
;__________________________________________________________________________________________________
;
KBD_SETRPT:
LD A,$F3 ; COMMAND = SET TYPEMATIC RATE/DELAY
CALL KBD_PUTDATA ; SEND IT
CALL KBD_GETDATA ; GET THE ACK
CP $FA ; MAKE SURE WE GET ACK
RET NZ ; ABORT IF NO ACK
LD A,(KBD_REPEAT) ; LOAD THE CURRENT RATE/DELAY BYTE
CALL KBD_PUTDATA ; SEND IT
CALL KBD_GETDATA ; GET THE ACK
RET
;
;__________________________________________________________________________________________________
; DECODING ENGINE
;__________________________________________________________________________________________________
;
;__________________________________________________________________________________________________
KBD_DECODE:
;
; RUN THE DECODING ENGINE UNTIL EITHER: 1) NO MORE SCANCODES ARE AVAILABLE
; FROM THE KEYBOARD, OR 2) A DECODED KEY VALUE IS AVAILABLE
;
; RETURNS A=0 AND Z SET IF NO KEYCODE READY, OTHERWISE A DECODED KEY VALUE IS AVAILABLE.
; THE DECODED KEY VALUE AND KEY STATE IS STORED IN KBD_KEYCODE AND KBD_STATE.
;
; KBD_STATUS IS NOT CLEARED AT START. IT IS THE CALLER'S RESPONSIBILITY
; TO CLEAR KBD_STATUS WHEN IT HAS RETRIEVED A PENDING VALUE. IF DECODE IS CALLED
; WITH A KEYCODE STILL PENDING, IT WILL JUST RETURN WITHOUT DOING ANYTHING.
;
; Step 0: Check keycode buffer
; if status[keyrdy]
; return
;
; Step 1: Get scancode
; if no scancode ready
; return
; read scancode
;
; Step 2: Detect and handle special keycodes
; if scancode == $AA
; *** handle hot insert somehow ***
;
; Step 3: Detect and handle scancode prefixes
; if scancode == $E0
; set status[extended]
; goto Step 1
;
; if scancode == $E1
; *** handle pause key somehow ***
;
; Step 4: Detect and flag break event
; *** scancode set #1 variation ***
; set status[break] = high bit of scancode
; clear high order bit
; continue to Step 5
; *** scancode set #2 variation ***
; if scancode == $F0
; set status[break]
; goto Step 1
;
; Step 5: Map scancode to keycode
; if status[extended]
; apply extended-map[scancode] -> keycode
; else if state[shifted]
; apply shifted-map[scancode] -> keycode
; else
; apply normal-map[scancode] -> keycode
;
; Step 6: Handle modifier keys
; if keycode is modifier (shift, ctrl, alt, win)
; set (l/r)state[<modifier>] = not status[break]
; clear modifier bits in state
; set state = (lstate OR rstate OR state)
; goto New Key
;
; Step 7: Complete procesing of key break events
; if status[break]
; goto New Key
;
; Step 8: Handle toggle keys
; if keycode is toggle (capslock, numlock, scrolllock)
; invert (XOR) state[<toggle>]
; update keyboard LED's
; goto New Key
;
; Step 9: Adjust keycode for control modifier
; if state[ctrl]
; if keycode is 'a'-'z'
; subtract 20 (clear bit 5) from keycode
; if keycode is '@'-'_'
; subtract 40 (clear bit 6) from keycode
;
; Step 10: Adjust keycode for caps lock
; if state[capslock]
; if keycode is 'a'-'z' OR 'A'-'Z'
; toggle (XOR) bit 5 of keycode
;
; Step 11: Handle num pad keys
; clear state[numpad]
; if keycode is numpad
; set state[numpad]
; if state[numlock]
; toggle (XOR) bit 4 of keycode
; apply numpad-map[keycode] -> keycode
;
; Step 12: Detect unknown/invalid keycodes
; if keycode == $FF
; goto New Key
;
; Step 13: Done
; set status[keyrdy]
; return
;
; New Key:
; clear status
; goto Step 1
;
KBD_DEC0: ; CHECK KEYCODE BUFFER
LD A,(KBD_STATUS) ; GET CURRENT STATUS
AND KBD_KEYRDY ; ISOLATE KEY READY FLAG
RET NZ ; ABORT IF KEY IS ALREADY PENDING
KBD_DEC1: ; PROCESS NEXT SCANCODE
CALL KBD_GETDATAX ; GET THE SCANCODE
RET Z ; NO KEY READY, RETURN WITH A=0, Z SET
LD (KBD_SCANCODE),A ; SAVE SCANCODE
KBD_DEC2: ; DETECT AND HANDLE SPECIAL KEYCODES
LD A,(KBD_SCANCODE) ; GET THE CURRENT SCANCODE
CP $AA ; KEYBOARD INSERTION?
JR NZ,KBD_DEC3 ; NOPE, BYPASS
CALL LDELAY ; WAIT A BIT
CALL KBD_RESET ; RESET KEYBOARD
CALL KBD_SETLEDS ; SET LEDS
CALL KBD_SETRPT ; SET REPEAT RATE
JP KBD_DECNEW ; RESTART THE ENGINE
KBD_DEC3: ; DETECT AND HANDLE SCANCODE PREFIXES
LD A,(KBD_SCANCODE) ; GET THE CURRENT SCANCODE
KBD_DEC3A: ; HANDLE SCANCODE PREFIX $E0 (EXTENDED SCANCODE FOLLOWS)
CP $E0 ; EXTENDED KEY PREFIX $E0?
JR NZ,KBD_DEC3B ; NOPE MOVE ON
LD A,(KBD_STATUS) ; GET STATUS
OR KBD_EXT ; SET EXTENDED BIT
LD (KBD_STATUS),A ; SAVE STATUS
JR KBD_DEC1 ; LOOP TO DO NEXT SCANCODE
KBD_DEC3B: ; HANDLE SCANCODE PREFIX $E1 (PAUSE KEY)
CP $E1 ; EXTENDED KEY PREFIX $E1
JR NZ,KBD_DEC4 ; NOPE MOVE ON
LD A,$EE ; MAP TO KEYCODE $EE
LD (KBD_KEYCODE),A ; SAVE IT
; SWALLOW NEXT 7 SCANCODES
LD B,7 ; LOOP 5 TIMES
KBD_DEC3B1:
PUSH BC
CALL KBD_GETDATA ; RETRIEVE NEXT SCANCODE
POP BC
DJNZ KBD_DEC3B1 ; LOOP AS NEEDED
JP KBD_DEC6 ; RESUME AFTER MAPPING
KBD_DEC4: ; DETECT AND FLAG BREAK EVENT
CP $F0 ; BREAK (KEY UP) PREFIX?
JR NZ,KBD_DEC5 ; NOPE MOVE ON
LD A,(KBD_STATUS) ; GET STATUS
OR KBD_BREAK ; SET BREAK BIT
LD (KBD_STATUS),A ; SAVE STATUS
JR KBD_DEC1 ; LOOP TO DO NEXT SCANCODE
KBD_DEC5: ; MAP SCANCODE TO KEYCODE
LD A,(KBD_STATUS) ; GET STATUS
AND KBD_EXT ; EXTENDED BIT SET?
JR Z,KBD_DEC5C ; NOPE, MOVE ON
; PERFORM EXTENDED KEY MAPPING
LD A,(KBD_SCANCODE) ; GET SCANCODE
LD E,A ; STASH IT IN E
LD HL,KBD_MAPEXT ; POINT TO START OF EXT MAP TABLE
KBD_DEC5A:
LD A,(HL) ; GET FIRST BYTE OF PAIR
CP $00 ; END OF TABLE?
JP Z,KBD_DECNEW ; UNKNOWN OR BOGUS, START OVER
INC HL ; INC HL FOR FUTURE
CP E ; DOES MATCH BYTE EQUAL SCANCODE?
JR Z,KBD_DEC5B ; YES! JUMP OUT
INC HL ; BUMP TO START OF NEXT PAIR
JR KBD_DEC5A ; LOOP TO CHECK NEXT TABLE ENTRY
KBD_DEC5B:
LD A,(HL) ; GET THE KEYCODE VIA MAPPING TABLE
LD (KBD_KEYCODE),A ; SAVE IT
JR KBD_DEC6
KBD_DEC5C: ; PERFORM REGULAR KEY (NOT EXTENDED) KEY MAPPING
LD A,(KBD_SCANCODE) ; GET THE SCANCODE
CP KBD_MAPSIZ ; COMPARE TO SIZE OF TABLE
JR NC,KBD_DEC6 ; PAST END, SKIP OVER LOOKUP
; SETUP POINTER TO MAPPING TABLE BASED ON SHIFTED OR UNSHIFTED STATE
LD A,(KBD_STATE) ; GET STATE
AND KBD_SHIFT ; SHIFT ACTIVE?
LD HL,KBD_MAPSTD ; LOAD ADDRESS OF NON-SHIFTED MAPPING TABLE
JR Z,KBD_DEC5D ; NON-SHIFTED, MOVE ON
LD HL,KBD_MAPSHIFT ; LOAD ADDRESS OF SHIFTED MAPPING TABLE
KBD_DEC5D:
LD A,(KBD_SCANCODE) ; GET THE SCANCODE
LD E,A ; SCANCODE TO E FOR TABLE OFFSET
LD D,0 ; D -> 0
ADD HL,DE ; COMMIT THE TABLE OFFSET TO HL
LD A,(HL) ; GET THE KEYCODE VIA MAPPING TABLE
LD (KBD_KEYCODE),A ; SAVE IT
KBD_DEC6: ; HANDLE MODIFIER KEYS
LD A,(KBD_KEYCODE) ; MAKE SURE WE HAVE KEYCODE
CP $B8 ; END OF MODIFIER KEYS
JR NC,KBD_DEC7 ; BYPASS MODIFIER KEY CHECKING
CP $B0 ; START OF MODIFIER KEYS
JR C,KBD_DEC7 ; BYPASS MODIFIER KEY CHECKING
LD B,4 ; LOOP COUNTER TO LOOP THRU 4 MODIFIER BITS
LD E,$80 ; SETUP E TO ROATE THROUGH MODIFIER STATE BITS
SUB $B0 - 1 ; SETUP A TO DECREMENT THROUGH MODIFIER VALUES
KBD_DEC6A:
RLC E ; SHIFT TO NEXT MODIFIER STATE BIT
DEC A ; L-MODIFIER?
JR Z,KBD_DEC6B ; YES, HANDLE L-MODIFIER MAKE/BREAK
DEC A ; R-MODIFIER?
JR Z,KBD_DEC6C ; YES, HANDLE R-MODIFIER MAKE/BREAK
DJNZ KBD_DEC6A ; LOOP THRU 4 MODIFIER BITS
JR KBD_DEC7 ; FAILSAFE, SHOULD NEVER GET HERE!
KBD_DEC6B: ; LEFT STATE KEY MAKE/BREAK (STATE BIT TO SET/CLEAR IN E)
LD HL,KBD_LSTATE ; POINT TO LEFT STATE BYTE
JR KBD_DEC6D ; CONTINUE
KBD_DEC6C: ; RIGHT STATE KEY MAKE/BREAK (STATE BIT TO SET/CLEAR IN E)
LD HL,KBD_RSTATE ; POINT TO RIGHT STATE BYTE
JR KBD_DEC6D ; CONTINUE
KBD_DEC6D: ; BRANCH BASED ON WHETHER THIS IS A MAKE OR BREAK EVENT
LD A,(KBD_STATUS) ; GET STATUS FLAGS
AND KBD_BREAK ; BREAK EVENT?
JR Z,KBD_DEC6E ; NO, HANDLE A MODIFIER KEY MAKE EVENT
JR KBD_DEC6F ; YES, HANDLE A MODIFIER BREAK EVENT
KBD_DEC6E: ; HANDLE STATE KEY MAKE EVENT
LD A,E ; GET THE BIT TO SET
OR (HL) ; OR IN THE CURRENT BITS
LD (HL),A ; SAVE THE RESULT
JR KBD_DEC6G ; CONTINUE
KBD_DEC6F: ; HANDLE STATE KEY BREAK EVENT
LD A,E ; GET THE BIT TO CLEAR
XOR $FF ; FLIP ALL BITS TO SETUP FOR A CLEAR OPERATION
AND (HL) ; AND IN THE FLIPPED BITS TO CLEAR DESIRED BIT
LD (HL),A ; SAVE THE RESULT
JR KBD_DEC6G ; CONTINUE
KBD_DEC6G: ; COALESCE L/R STATE FLAGS
LD A,(KBD_STATE) ; GET EXISTING STATE BITS
AND $F0 ; GET RID OF OLD MODIFIER BITS
LD DE,(KBD_LSTATE) ; LOAD BOTH L/R STATE BYTES IN D/E
OR E ; MERGE IN LEFT STATE BITS
OR D ; MERGE IN RIGHT STATE BITS
LD (KBD_STATE),A ; SAVE IT
JP KBD_DECNEW ; DONE WITH CURRENT KEYSTROKE
KBD_DEC7: ; COMPLETE PROCESSING OF EXTENDED AND KEY BREAK EVENTS
LD A,(KBD_STATUS) ; GET CURRENT STATUS FLAGS
AND KBD_BREAK ; IS THIS A KEY BREAK EVENT?
JP NZ,KBD_DECNEW ; PROCESS NEXT KEY
KBD_DEC8: ; HANDLE TOGGLE KEYS
LD A,(KBD_KEYCODE) ; GET THE CURRENT KEYCODE INTO A
LD E,KBD_CAPSLCK ; SETUP E WITH CAPS LOCK STATE BIT
CP $BC ; IS THIS THE CAPS LOCK KEY?
JR Z,KBD_DEC8A ; YES, GO TO BIT SET ROUTINE
LD E,KBD_NUMLCK ; SETUP E WITH NUM LOCK STATE BIT
CP $BD ; IS THIS THE NUM LOCK KEY?
JR Z,KBD_DEC8A ; YES, GO TO BIT SET ROUTINE
LD E,KBD_SCRLCK ; SETUP E WITH SCROLL LOCK STATE BIT
CP $BE ; IS THIS THE SCROLL LOCK KEY?
JR Z,KBD_DEC8A ; YES, GO TO BIT SET ROUTINE
JR KBD_DEC9 ; NOT A TOGGLE KEY, CONTINUE
KBD_DEC8A: ; RECORD THE TOGGLE
LD A,(KBD_STATE) ; GET THE CURRENT STATE FLAGS
XOR E ; SET THE TOGGLE KEY BIT FROM ABOVE
LD (KBD_STATE),A ; SAVE IT
CALL KBD_SETLEDS ; UPDATE LED LIGHTS ON KBD
JP KBD_DECNEW ; RESTART DECODER FOR A NEW KEY
KBD_DEC9: ; ADJUST KEYCODE FOR CONTROL MODIFIER
LD A,(KBD_STATE) ; GET THE CURRENT STATE BITS
AND KBD_CTRL ; CHECK THE CONTROL BIT
JR Z,KBD_DEC10 ; CONTROL KEY NOT PRESSED, MOVE ON
LD A,(KBD_KEYCODE) ; GET CURRENT KEYCODE IN A
CP 'a' ; COMPARE TO LOWERCASE A
JR C,KBD_DEC9A ; BELOW IT, BYPASS
CP 'z' + 1 ; COMPARE TO LOWERCASE Z
JR NC,KBD_DEC9A ; ABOVE IT, BYPASS
RES 5,A ; KEYCODE IN LOWERCASE A-Z RANGE CLEAR BIT 5 TO MAKE IT UPPERCASE
KBD_DEC9A:
CP '@' ; COMPARE TO @
JR C,KBD_DEC10 ; BELOW IT, BYPASS
CP '_' + 1 ; COMPARE TO _
JR NC,KBD_DEC10 ; ABOVE IT, BYPASS
RES 6,A ; CONVERT TO CONTROL VALUE BY CLEARING BIT 6
LD (KBD_KEYCODE),A ; UPDATE KEYCODE TO CONTROL VALUE
KBD_DEC10: ; ADJUST KEYCODE FOR CAPS LOCK
LD A,(KBD_STATE) ; LOAD THE STATE FLAGS
AND KBD_CAPSLCK ; CHECK CAPS LOCK
JR Z,KBD_DEC11 ; CAPS LOCK NOT ACTIVE, MOVE ON
LD A,(KBD_KEYCODE) ; GET THE CURRENT KEYCODE VALUE
CP 'a' ; COMPARE TO LOWERCASE A
JR C,KBD_DEC10A ; BELOW IT, BYPASS
CP 'z' + 1 ; COMPARE TO LOWERCASE Z
JR NC,KBD_DEC10A ; ABOVE IT, BYPASS
JR KBD_DEC10B ; IN RANGE LOWERCASE A-Z, GO TO CASE SWAPPING LOGIC
KBD_DEC10A:
CP 'A' ; COMPARE TO UPPERCASE A
JR C,KBD_DEC11 ; BELOW IT, BYPASS
CP 'Z' + 1 ; COMPARE TO UPPERCASE Z
JR NC,KBD_DEC11 ; ABOVE IT, BYPASS
JR KBD_DEC10B ; IN RANGE UPPERCASE A-Z, GO TO CASE SWAPPING LOGIC
KBD_DEC10B:
LD A,(KBD_KEYCODE) ; GET THE CURRENT KEYCODE
XOR $20 ; FLIP BIT 5 TO SWAP UPPER/LOWER CASE
LD (KBD_KEYCODE),A ; SAVE IT
KBD_DEC11: ; HANDLE NUM PAD KEYS
LD A,(KBD_STATE) ; GET THE CURRENT STATE FLAGS
AND ~KBD_NUMPAD ; ASSUME NOT A NUMPAD KEY, CLEAR THE NUMPAD BIT
LD (KBD_STATE),A ; SAVE IT
LD A,(KBD_KEYCODE) ; GET THE CURRENT KEYCODE
AND 11100000B ; ISOLATE TOP 3 BITS
CP 11000000B ; IS IN NUMPAD RANGE?
JR NZ,KBD_DEC12 ; NOPE, GET OUT
LD A,(KBD_STATE) ; LOAD THE CURRENT STATE FLAGS
OR KBD_NUMPAD ; TURN ON THE NUMPAD BIT
LD (KBD_STATE),A ; SAVE IT
AND KBD_NUMLCK ; IS NUM LOCK BIT SET?
JR Z,KBD_DEC11A ; NO, SKIP NUMLOCK PROCESSING
LD A,(KBD_KEYCODE) ; GET THE KEYCODE
XOR $10 ; FLIP VALUES FOR NUMLOCK
LD (KBD_KEYCODE),A ; SAVE IT
KBD_DEC11A: ; APPLY NUMPAD MAPPING
LD A,(KBD_KEYCODE) ; GET THE CURRENT KEYCODE
LD HL,KBD_MAPNUMPAD ; LOAD THE START OF THE MAPPING TABLE
SUB $C0 ; KEYCODES START AT $C0
LD E,A ; INDEX TO E
LD D,0 ; D IS ZERO
ADD HL,DE ; POINT TO RESULT OF MAPPING
LD A,(HL) ; GET IT IN A
LD (KBD_KEYCODE),A ; SAVE IT
KBD_DEC12: ; DETECT UNKNOWN/INVALID KEYCODES
LD A,(KBD_KEYCODE) ; GET THE FINAL KEYCODE
CP $FF ; IS IT $FF (UNKNOWN/INVALID)
JP Z,KBD_DECNEW ; IF SO, JUST RESTART THE ENGINE
KBD_DEC13: ; DONE - RECORD RESULTS
LD A,(KBD_STATUS) ; GET CURRENT STATUS
OR KBD_KEYRDY ; SET KEY READY BIT
LD (KBD_STATUS),A ; SAVE IT
XOR A ; A=0
INC A ; SIGNAL SUCCESS WITH A=1
RET
KBD_DECNEW: ; START NEW KEYPRESS (CLEAR ALL STATUS BITS)
XOR A ; A = 0
LD (KBD_STATUS),A ; CLEAR STATUS
JP KBD_DEC1 ; RESTART THE ENGINE
;
#IF (KBDKBLOUT == KBD_US)
;__________________________________________________________________________________________________
;
; MAPPING TABLES US/ENGLISH
;__________________________________________________________________________________________________
KBD_MAPSTD: ; SCANCODE IS INDEX INTO TABLE TO RESULTANT LOOKUP KEYCODE
.DB $FF,$E8,$FF,$E4,$E2,$E0,$E1,$EB,$FF,$E9,$E7,$E5,$E3,$09,'`',$FF
.DB $FF,$B4,$B0,$FF,$B2,'q','1',$FF,$FF,$FF,'z','s','a','w','2',$FF
.DB $FF,'c','x','d','e','4','3',$FF,$FF,' ','v','f','t','r','5',$FF
.DB $FF,'n','b','h','g','y','6',$FF,$FF,$FF,'m','j','u','7','8',$FF
.DB $FF,',','k','i','o','0','9',$FF,$FF,'.','/','l',';','p','-',$FF
.DB $FF,$FF,$27,$FF,'[','=',$FF,$FF,$BC,$B1,$0D,']',$FF,'\',$FF,$FF
.DB $FF,$FF,$FF,$FF,$FF,$FF,$08,$FF,$FF,$C0,$FF,$C3,$C6,$FF,$FF,$FF
.DB $C9,$CA,$C1,$C4,$C5,$C7,$1B,$BD,$FA,$CE,$C2,$CD,$CC,$C8,$BE,$FF
.DB $FF,$FF,$FF,$E6,$EC
;
KBD_MAPSIZ .EQU ($ - KBD_MAPSTD)
;
KBD_MAPSHIFT: ; SCANCODE IS INDEX INTO TABLE TO RESULTANT LOOKUP KEYCODE WHEN SHIFT ACTIVE
.DB $FF,$E8,$FF,$E4,$E2,$E0,$E1,$EB,$FF,$E9,$E7,$E5,$E3,$09,'~',$FF
.DB $FF,$B4,$B0,$FF,$B2,'Q','!',$FF,$FF,$FF,'Z','S','A','W','@',$FF
.DB $FF,'C','X','D','E','$','#',$FF,$FF,' ','V','F','T','R','%',$FF
.DB $FF,'N','B','H','G','Y','^',$FF,$FF,$FF,'M','J','U','&','*',$FF
.DB $FF,'<','K','I','O',')','(',$FF,$FF,'>','?','L',':','P','_',$FF
.DB $FF,$FF,$22,$FF,'{','+',$FF,$FF,$BC,$B1,$0D,'}',$FF,'|',$FF,$FF
.DB $FF,$FF,$FF,$FF,$FF,$FF,$08,$FF,$FF,$D0,$FF,$D3,$D6,$FF,$FF,$FF
.DB $D9,$DA,$D1,$D4,$D5,$D7,$1B,$BD,$FA,$DE,$D2,$DD,$DC,$D8,$BE,$FF
.DB $FF,$FF,$FF,$E6,$EC
;
KBD_MAPEXT: ; PAIRS ARE [SCANCODE,KEYCODE] FOR EXTENDED SCANCODES
.DB $11,$B5, $14,$B3, $1F,$B6, $27,$B7
.DB $2F,$EF, $37,$FA, $3F,$FB, $4A,$CB
.DB $5A,$CF, $5E,$FC, $69,$F3, $6B,$F8
.DB $6C,$F2, $70,$F0, $71,$F1, $72,$F7
.DB $74,$F9, $75,$F6, $7A,$F5, $7C,$ED
.DB $7D,$F4, $7E,$FD, $00,$00
;
KBD_MAPNUMPAD: ; KEYCODE TRANSLATION FROM NUMPAD RANGE TO STD ASCII/KEYCODES
.DB $F3,$F7,$F5,$F8,$FF,$F9,$F2,$F6,$F4,$F0,$F1,$2F,$2A,$2D,$2B,$0D
.DB $31,$32,$33,$34,$35,$36,$37,$38,$39,$30,$2E,$2F,$2A,$2D,$2B,$0D
#ENDIF
#IF (KBDKBLOUT == KBD_DE)
;__________________________________________________________________________________________________
;
; MAPPING TABLES GERMAN
;__________________________________________________________________________________________________
;
KBD_MAPSTD: ; SCANCODE IS INDEX INTO TABLE TO RESULTANT LOOKUP KEYCODE ROW
; Column 0 1 2 3 4 5 6 7 8 9 A B C D E F ; Special adjustments listed below
.DB $FF,$E8,$FF,$E4,$E2,$E0,$E1,$EB,$FF,$E9,$E7,$E5,$E3,$09,'^',$FF ;0 for German keyboard keys that give
.DB $FF,$B4,$B0,$FF,$B2,'q','1',$FF,$FF,$FF,'y','s','a','w','2',$FF ;1 different characters than are printed
.DB $FF,'c','x','d','e','4','3',$FF,$FF,' ','v','f','t','r','5',$FF ;2 on the keys.
.DB $FF,'n','b','h','g','z','6',$FF,$FF,$FF,'m','j','u','7','8',$FF ;3 'german key' --> 'new occupied with'
.DB $FF,',','k','i','o','0','9',$FF,$FF,'.','-','l','[','p',$5C,$FF ;4 Assembler ERROR: '\'-->$5C ; 'ö'-->'['
.DB $FF,$FF,'@',$FF,']','|',$FF,$FF,$BC,$B1,$0D,'+',$FF,'#',$FF,$FF ;5 'ä'-->'@' ; 'ü'-->']'
.DB $FF,'<',$FF,$FF,$FF,$FF,$08,$FF,$FF,$C0,$FF,$C3,$C6,'<',$FF,$FF ;6
.DB $C9,$CA,$C1,$C4,$C5,$C7,$1B,$BD,$FA,$CE,$C2,$CD,$CC,$C8,$BE,$FF ;7
.DB $FF,$FF,$FF,$E6,$EC ;8
KBD_MAPSIZ .EQU ($ - KBD_MAPSTD)
;
KBD_MAPSHIFT: ; SCANCODE IS INDEX INTO TABLE TO RESULTANT LOOKUP KEYCODE WHEN SHIFT ACTIVE
.DB $FF,$E8,$FF,$E4,$E2,$E0,$E1,$EB,$FF,$E9,$E7,$E5,$E3,$09,'~',$FF ; '°' --> '~'
.DB $FF,$B4,$B0,$FF,$B2,'Q','!',$FF,$FF,$FF,'Y','S','A','W',$22,$FF
.DB $FF,'C','X','D','E','$',$20,$FF,$FF,' ','V','F','T','R','%',$FF ; '§'-->$20; '§'=Paragraph not used in CP/M
.DB $FF,'N','B','H','G','Z','&',$FF,$FF,$FF,'M','J','U','/','(',$FF
.DB $FF,';','K','I','O','=',')',$FF,$FF,':','_','L','{','P','?',$FF ; 'Ö'-->'{'
.DB $FF,$FF,'@',$FF,'}','`',$FF,$FF,$BC,$B1,$0D,'*',$FF,$27,$FF,$FF ; 'Ä'-->'@' ; 'Ü'-->'}'
.DB $FF,'>',$FF,$FF,$FF,$FF,$08,$FF,$FF,$D0,$FF,$D3,$D6,'>',$FF,$FF
.DB $D9,$DA,$D1,$D4,$D5,$D7,$1B,$BD,$FA,$DE,$D2,$DD,$DC,$D8,$BE,$FF
.DB $FF,$FF,$FF,$E6,$EC
KBD_MAPEXT: ; PAIRS ARE [SCANCODE,KEYCODE] FOR EXTENDED SCANCODES
.DB $11,$B5, $14,$B3, $1F,$B6, $27,$B7
.DB $2F,$EF, $37,$FA, $3F,$FB, $4A,$CB ; All keys listed below are customized for Wordstar.
.DB $5A,$CF, $5E,$FC, $69,$06, $6B,$13 ; n.a , n.a , word right , n.a.
.DB $6C,$01, $70,$16, $71,$07, $72,$18 ; Word left , Toggle Insert/Overwrite , Del Char , Cursor down
.DB $74,$04, $75,$05, $7A,$1A, $7C,$ED ; Cursor right , Cursor up , Page down
.DB $7D,$17, $7E,$FD, $00,$00 ; Page up , n.a. , END KBD_MAPEXT (Pairs end)
;
KBD_MAPNUMPAD: ; KEYCODE TRANSLATION FROM NUMPAD RANGE TO STD ASCII/KEYCODES
.DB $F3,$F7,$F5,$F8,$FF,$F9,$F2,$F6,$F4,$F0,$F1,$2F,$2A,$2D,$2B,$0D
.DB $31,$32,$33,$34,$35,$36,$37,$38,$39,$30,$2E,$2F,$2A,$2D,$2B,$0D
;
#ENDIF
;
;__________________________________________________________________________________________________
; KEYCODE VALUES RETURNED BY THE DECODER
;__________________________________________________________________________________________________
;
; VALUES 0-127 ARE STANDARD ASCII, SPECIAL KEYS WILL HAVE THE FOLLOWING VALUES:
;
; F1 $E0
; F2 $E1
; F3 $E2
; F4 $E3
; F5 $E4
; F6 $E5
; F7 $E6
; F8 $E7
; F9 $E8
; F10 $E9
; F11 $EA
; F12 $EB
; SYSRQ $EC
; PRTSC $ED
; PAUSE $EE
; APP $EF
; INS $F0
; DEL $F1
; HOME $F2
; END $F3
; PGUP $F4
; PGDN $F5
; UP $F6
; DOWN $F7
; LEFT $F8
; RIGHT $F9
; POWER $FA
; SLEEP $FB
; WAKE $FC
; BREAK $FD
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