; ; Standard joystick driver for the VIC20. May be used multiple times when linked ; to the statically application. ; ; Ullrich von Bassewitz, 2002-12-20 ; Using code from Steve Schmidtke ; .include "zeropage.inc" .include "joy-kernel.inc" .include "joy-error.inc" .include "vic20.inc" .macpack generic .macpack module ; ------------------------------------------------------------------------ ; Header. Includes jump table module_header _vic20_stdjoy_joy ; Driver signature .byte $6A, $6F, $79 ; "joy" .byte JOY_API_VERSION ; Driver API version number ; Library reference .addr $0000 ; Jump table. .addr INSTALL .addr UNINSTALL .addr COUNT .addr READ ; ------------------------------------------------------------------------ ; Constants JOY_COUNT = 1 ; Number of joysticks we support ; ------------------------------------------------------------------------ ; Data. .code ; ------------------------------------------------------------------------ ; INSTALL routine. Is called after the driver is loaded into memory. If ; possible, check if the hardware is present and determine the amount of ; memory available. ; Must return an JOY_ERR_xx code in a/x. ; INSTALL: lda #JOY_ERR_OK .assert JOY_ERR_OK = 0, error tax ; rts ; Run into UNINSTALL instead ; ------------------------------------------------------------------------ ; UNINSTALL routine. Is called before the driver is removed from memory. ; Can do cleanup or whatever. Must not return anything. ; UNINSTALL: rts ; ------------------------------------------------------------------------ ; COUNT: Return the total number of available joysticks in a/x. ; COUNT: lda #JOY_COUNT rts ; ------------------------------------------------------------------------ ; READ: Read a particular joystick passed in A. ; The current implemenation will ignore the joystick number because we do only ; have one joystick READ: lda #$7F ; mask for VIA2 JOYBIT: sw3 ldx #$C3 ; mask for VIA1 JOYBITS: sw0,sw1,sw2,sw4 sei ; necessary? ldy VIA2_DDRB ; remember the date of DDRB sta VIA2_DDRB ; set JOYBITS on this VIA for input lda VIA2_PB ; read JOYBIT: sw3 sty VIA2_DDRB ; restore the state of DDRB asl ; Shift sw3 into carry ldy VIA1_DDRA ; remember the state of DDRA stx VIA1_DDRA ; set JOYBITS on this VIA for input lda VIA1_PA1 ; read JOYBITS: sw0,sw1,sw2,sw4 sty VIA1_DDRA ; restore the state of DDRA cli ; necessary? php ; Save sw3 in carry lsr ; Shift sw0,sw1,sw2,sw4 into bits 1-4 tax ; Save sw0,sw1,sw2 and #$10 ; Extract sw4 in bit 4 sta tmp1 ; Save sw4 in bit 4 txa ; Restore sw0,sw1,sw2 lsr ; Shift sw0,sw1,sw2 into bits 0-2 and #$07 ; Mask bits 0-2 plp ; Restore sw3 in carry bcc @L0 ; Is sw3 set? ora #$08 ; Yes: Add sw3 in bit 3 @L0: ora tmp1 ; Add sw4 in bit 4 eor #$1F ; Active states are inverted ldx #0 rts