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401 lines
13 KiB
NASM
401 lines
13 KiB
NASM
;;; From http://www.1000bit.it/support/manuali/apple/technotes/misc/tn.misc.02.html
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;;; *********************************************
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;;; * *
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;;; * Apple II Family Identification Program *
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;;; * *
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;;; * Version 2.2 *
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;;; * *
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;;; * March, 1990 *
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;;; * *
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;;; * Includes support for the Apple IIe Card *
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;;; * for the Macintosh LC. *
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;;; * *
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;;; *********************************************
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; First, some global equates for the routine:
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!zone technote2 {
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IIplain = $01 ;Apple II
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IIplus = $02 ;Apple II+
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IIIem = $03 ;Apple /// in emulation mode
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IIe = $04 ;Apple IIe
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IIc = $05 ;Apple IIc
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IIeCard = $06 ;Apple IIe Card for the Macintosh LC
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.safe = $0001 ;start of code relocated to zp
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.location = $06 ;zero page location to use
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.test1 = $AA ;test byte #1
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.test2 = $55 ;lsr of test1
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.test3 = $88 ;test byte #3
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.test4 = $EE ;test byte #4
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.begpage1 = $400 ;beginning of text page 1
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.begpage2 = $800 ;beginning of text page 2
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.begsprse = $C00 ;byte after text page 2
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.clr80col = $C000 ;disable 80-column store
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.set80col = $C001 ;enable 80-column store
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.rdmainram = $C002 ;read main ram
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.rdcardram = $C003 ;read aux ram
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.wrmainram = $C004 ;write main ram
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.wrcardram = $C005 ;write aux ram
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.rdramrd = $C013 ;are we reading aux ram?
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.rdaltzp = $C016 ;are we reading aux zero page?
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.rd80col = $C018 ;are we using 80-columns?
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.rdtext = $C01A ;read if text is displayed
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.rdpage2 = $C01C ;read if page 2 is displayed
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.txtclr = $C050 ;switch in graphics
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.txtset = $C051 ;switch in text
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.txtpage1 = $C054 ;switch in page 1
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.txtpage2 = $C055 ;switch in page 2
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.ramin = $C080 ;read LC bank 2, write protected
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.romin = $C081 ;read ROM, 2 reads write enable LC
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.lcbank1 = $C08B ;LC bank 1 enable
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.lc1 = $E000 ;bytes to save for LC
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.lc2 = $D000 ;save/restore routine
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.lc3 = $D400
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.lc4 = $D800
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.idroutine = $FE1F ;IIgs id routine
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; Start by saving the state of the language card banks and
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; by switching in main ROM.
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IDENTIFY
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php ;save the processor state
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sei ;before disabling interrupts
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lda .lc1 ;save four bytes from
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sta .save ;ROM/RAM area for later
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lda .lc2 ;restoring of RAM/ROM
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sta .save+1 ;to original condition
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lda .lc3
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sta .save+2
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lda .lc4
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sta .save+3
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lda $C081 ;read ROM
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lda $C081
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lda #0 ;start by assuming unknown machine
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sta MACHINE
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sta ROMLEVEL
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.IdStart
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lda .location ;save zero page locations
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sta .save+4 ;for later restoration
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lda .location+1
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sta .save+5
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lda #$FB ;all ID bytes are in page $FB
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sta .location+1 ;save in zero page as high byte
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ldx #0 ;init pointer to start of ID table
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.loop lda .IDTable,x ;get the machine we are testing for
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sta MACHINE ;and save it
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lda .IDTable+1,x ;get the ROM level we are testing for
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sta ROMLEVEL ;and save it
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ora MACHINE ;are both zero?
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beq .matched ;yes - at end of list - leave
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.loop2 inx ;bump index to loc/byte pair to test
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inx
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lda .IDTable,x ;get the byte that should be in ROM
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beq .matched ;if zero, we're at end of list
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sta .location ;save in zero page
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ldy #0 ;init index for indirect addressing
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lda .IDTable+1,x ;get the byte that should be in ROM
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cmp (.location),y ;is it there?
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beq .loop2 ;yes, so keep on looping
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.loop3 inx ;we didn't match. Scoot to the end of the
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inx ;line in the ID table so we can start
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lda .IDTable,x ;checking for another machine
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bne .loop3
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inx ;point to start of next line
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bne .loop ;should always be taken
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.matched ; anop
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; Here we check the 16-bit ID routine at idroutine ($FE1F). If it
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; returns with carry clear, we call it again in 16-bit
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; mode to provide more information on the machine.
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!cpu 65816 {
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.idIIgs
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sec ;set the carry bit
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jsr .idroutine ;Apple IIgs ID Routine
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bcc .idIIgs2 ;it's a IIgs or equivalent
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jmp .IIgsOut ;nope, go check memory
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.idIIgs2
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lda MACHINE ;get the value for machine
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ora #$80 ;and set the high bit
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sta MACHINE ;put it back
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clc ;get ready to switch into native mode
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xce
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php ;save the processor status
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rep #$30 ;sets 16-bit registers
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!al { ;longa on
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!rl { ;longi on
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jsr .idroutine ;call the ID routine again
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sta .IIgsA ;16-bit store!
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stx .IIgsX ;16-bit store!
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sty .IIgsY ;16-bit store!
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plp ;restores 8-bit registers
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xce ;switches back to whatever it was before
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} ;longi off
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} ;longa off
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ldy .IIgsY ;get the ROM vers number (starts at 0)
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cpy #$02 ;is it ROM 01 or 00?
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bcs .idIIgs3 ;if not, don't increment
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iny ;bump it up for romlevel
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.idIIgs3
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sty ROMLEVEL ;and put it there
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cpy #$01 ;is it the first ROM?
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bne .IIgsOut ;no, go on with things
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lda .IIgsY+1 ;check the other byte too
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bne .IIgsOut ;nope, it's a IIgs successor
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lda #$7F ;fix faulty ROM 00 on the IIgs
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sta .IIgsA
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.IIgsOut ; anop
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}
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;;; ******************************************
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;;; * This part of the code checks for the *
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;;; * memory configuration of the machine. *
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;;; * If it's a IIgs, we've already stored *
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;;; * the total memory from above. If it's *
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;;; * a IIc or a IIe Card, we know it's *
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;;; * 128K; if it's a ][+, we know it's at *
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;;; * least 48K and maybe 64K. We won't *
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;;; * check for less than 48K, since that's *
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;;; * a really rare circumstance. *
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;;; ******************************************
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.exit lda MACHINE ;get the machine kind
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bmi .exit128 ;it's a 16-bit machine (has 128K)
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cmp #IIc ;is it a IIc?
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beq .exit128 ;yup, it's got 128K
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cmp #IIeCard ;is it a IIe Card?
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beq .exit128 ;yes, it's got 128K
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cmp #IIe ;is it a IIe?
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bne .contexit ;yes, go muck with aux memory
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jmp .muckaux
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.contexit
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cmp #IIIem ;is it a /// in emulation?
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bne .exitII ;nope, it's a ][ or ][+
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lda #48 ;/// emulation has 48K
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jmp .exita
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.exit128
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lda #128 ;128K
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.exita sta MEMORY
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.exit1 lda .lc1 ;time to restore the LC
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cmp .save ;if all 4 bytes are the same
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bne .exit2 ;then LC was never on so
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lda .lc2 ;do nothing
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cmp .save+1
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bne .exit2
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lda .lc3
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cmp .save+2
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bne .exit2
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lda .lc4
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cmp .save+3
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beq .exit6
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.exit2 lda $C088 ;no match! so turn first LC
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lda .lc1 ;bank on and check
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cmp .save
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beq .exit3
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lda $C080
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jmp .exit6
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.exit3 lda .lc2
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cmp .save+1 ;if all locations check
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beq .exit4 ;then do more more else
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lda $C080 ;turn on bank 2
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jmp .exit6
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.exit4 lda .lc3 ;check second byte in bank 1
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cmp .save+2
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beq .exit5
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lda $C080 ;select bank 2
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jmp .exit6
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.exit5 lda .lc4 ;check third byte in bank 1
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cmp .save+3
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beq .exit6
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lda $C080 ;select bank 2
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.exit6 plp ;restore interrupt status
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lda .save+4 ;put zero page back
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sta .location
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lda .save+5 ;like we found it
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sta .location+1
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rts ;and go home.
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.exitII
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lda .lcbank1 ;force in language card
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lda .lcbank1 ;bank 1
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ldx .lc2 ;save the byte there
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lda #.test1 ;use this as a test byte
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sta .lc2
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eor .lc2 ;if the same, should return zero
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bne .noLC
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lsr .lc2 ;check twice just to be sure
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lda #.test2 ;this is the shifted value
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eor .lc2 ;here's the second check
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bne .noLC
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stx .lc2 ;put it back!
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lda #64 ;there's 64K here
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jmp .exita
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.noLC lda #48 ;no restore - no LC!
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jmp .exita ;and get out of here
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.muckaux
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ldx .rdtext ;remember graphics in X
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lda .rdpage2 ;remember current video display
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asl ;in the carry bit
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lda #.test3 ;another test character
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bit .rd80col ;remember video mode in N
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sta .set80col ;enable 80-column store
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php ;save N and C flags
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sta .txtpage2 ;set page two
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sta .txtset ;set text
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ldy .begpage1 ;save first character
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sta .begpage1 ;and replace it with test character
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lda .begpage1 ;get it back
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sty .begpage1 ;and put back what was there
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plp
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bcs .muck2 ;stay in page 2
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sta .txtpage1 ;restore page 1
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.muck1 bmi .muck2 ;stay in 80-columns
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sta $c000 ;turn off 80-columns
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.muck2 tay ;save returned character
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txa ;get graphics/text setting
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bmi .muck3
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sta .txtclr ;turn graphics back on
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.muck3 cpy #.test3 ;finally compare it
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bne .nocard ;no 80-column card!
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lda .rdramrd ;is aux memory being read?
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bmi .muck128 ;yup, there's 128K!
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lda .rdaltzp ;is aux zero page used?
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bmi .muck128 ;yup!
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ldy #.done-.start
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.move ldx .start-1,y ;swap section of zero page
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lda <.safe-1,y ;code needing safe location during
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stx <.safe-1,y ;reading of aux mem
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sta .start-1,Y
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dey
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bne .move
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jmp .safe ;jump to safe ground
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.back php ;save status
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ldy #.done-.start ;move zero page back
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.move2 lda .start-1,y
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sta .safe-1,y
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dey
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bne .move2
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pla
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bcs .noaux
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.isaux jmp .muck128 ;there is 128K
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;;; * You can put your own routine at "noaux" if you wish to
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;;; * distinguish between 64K without an 80-column card and
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;;; * 64K with an 80-column card.
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.noaux ; anop
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.nocard lda #64 ;only 64K
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jmp .exita
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.muck128
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jmp .exit128 ;there's 128K
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;;; * This is the routine run in the safe area not affected
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;;; * by bank-switching the main and aux RAM.
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.start lda #.test4 ;yet another test byte
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sta .wrcardram ;write to aux while on main zero page
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sta .rdcardram ;read aux ram as well
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sta .begpage2 ;check for sparse memory mapping
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lda .begsprse ;if sparse, these will be the same
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cmp #.test4 ;value since they're 1K apart
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bne .auxmem ;yup, there's 128K!
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asl .begsprse ;may have been lucky so we'll
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lda .begpage2 ;change the value and see what happens
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cmp .begsprse
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bne .auxmem
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sec ;oops, no auxiliary memory
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bcs .goback
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.auxmem clc
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.goback sta .wrmainram ;write main RAM
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sta .rdmainram ;read main RAM
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jmp .back ;continue with program in main mem
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.done nop ;end of relocated program marker
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;;; * The storage locations for the returned machine ID:
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MACHINE !byte 0 ;the type of Apple II
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ROMLEVEL !byte 0 ;which revision of the machine
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MEMORY !byte 0 ;how much memory (up to 128K)
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.IIgsA !word 0 ;16-bit field
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.IIgsX !word 0 ;16-bit field
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.IIgsY !word 0 ;16-bit field
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.save !fill 6,0 ;six bytes for saved data
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.IDTable
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;dc I1'1,1' ;Apple ][
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;dc H'B3 38 00'
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!byte 1,1
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!byte $B3,$38,0
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;dc I1'2,1' ;Apple ][+
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;dc H'B3 EA 1E AD 00'
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!byte 2,1
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!byte $B3,$EA,$1E,$AD,0
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;dc I1'3,1' ;Apple /// (emulation)
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;dc H'B3 EA 1E 8A 00'
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!byte 3,1
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!byte $B3,$EA,$1E,$8A,0
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;dc I1'4,1' ;Apple IIe (original)
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;dc H'B3 06 C0 EA 00'
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!byte 4,1
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!byte $B3,$06,$C0,$EA,0
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; Note: You must check for the Apple IIe Card BEFORE you
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; check for the enhanced Apple IIe since the first
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; two identification bytes are the same.
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;dc I1'6,1' ;Apple IIe Card for the Macintosh LC (1st release)
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;dc H'B3 06 C0 E0 DD 02 BE 00 00'
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!byte 6,1
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!byte $B3,$06,$C0,$E0,$DD,$02,$BE,$00,0
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;dc I1'4,2' ;Apple IIe (enhanced)
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;dc H'B3 06 C0 E0 00'
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!byte 4,2
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!byte $B3,$06,$C0,$E0,0
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;dc I1'5,1' ;Apple IIc (original)
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;dc H'B3 06 C0 00 BF FF 00'
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!byte 5,1
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!byte $B3,$06,$C0,$00,$BF,$FF,0
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;dc I1'5,2' ;Apple IIc (3.5 ROM)
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;dc H'B3 06 C0 00 BF 00 00'
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!byte 5,2
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!byte $B3,$06,$C0,$00,$BF,$00,0
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;dc I1'5,3' ;Apple IIc (Mem. Exp)
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;dc H'B3 06 C0 00 BF 03 00'
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!byte 5,3
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!byte $B3,$06,$C0,$00,$BF,$03,0
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;dc I1'5,4' ;Apple IIc (Rev. Mem. Exp.)
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;dc H'B3 06 C0 00 BF 04 00'
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!byte 5,4
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!byte $B3,$06,$C0,$00,$BF,$04,0
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;dc I1'5,5' ;Apple IIc Plus
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;dc H'B3 06 C0 00 BF 05 00'
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!byte 5,5
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!byte $B3,$06,$C0,$00,$BF,$05,0
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;dc I1'0,0' ;end of table
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!byte 0,0
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} ; end of zone technote2
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