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a123239d2d
git-svn-id: https://svn.code.sf.net/p/acme-crossass/code-0/trunk@100 4df02467-bbd4-4a76-a152-e7ce94205b78
87 lines
3.7 KiB
Plaintext
87 lines
3.7 KiB
Plaintext
;ACME 0.95
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!ifdef lib_cbm_kernal_a !eof
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lib_cbm_kernal_a = 1
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; Taken from the web.
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; Sorry, I can't give credit because I don't have the URL anymore.
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; There are alternative names for some calls.
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!address {
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; for additional c128 calls, see <cbm/c128/kernal.a>
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k_cint = $ff81
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k_ioinit = $ff84
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; cbm-ii rom starts here:
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k_ramtas = $ff87
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k_restor = $ff8a
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k_vector = $ff8d
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k_setmsg = $ff90
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k_secnd = $ff93
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k_tksa = $ff96
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k_memtop = $ff99
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k_membot = $ff9c
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k_key = $ff9f
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k_settmo = $ffa2
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k_iecin = $ffa5:k_acptr = $ffa5
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k_iecout = $ffa8:k_ciout = $ffa8
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k_untalk = $ffab:k_untlk = $ffab
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k_unlisten = $ffae:k_unlsn = $ffae
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k_listen = $ffb1:k_listn = $ffb1
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k_talk = $ffb4
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k_readss = $ffb7
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k_setlfs = $ffba ; set file parameters (A = logical file number, X = device, Y = secondary address)
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k_setnam = $ffbd ; set file name (A = length, YYXX = pointer)
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; pet rom starts here:
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; i/o calls: these may set C on error. in that case, A holds error code, see <cbm/ioerror.a> for the actual values.
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k_open = $ffc0 ; open channel/file (call setlfs/setnam before!)
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k_close = $ffc3:k_close_A = $ffc3 ; close channel/file (A = logical file number)
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k_chkin = $ffc6:k_chkin_X = $ffc6 ; set input channel (X = logical file number)
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k_chkout = $ffc9:k_chkout_X = $ffc9:k_ckout = $ffc9 ; set output channel (X = logical file number)
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k_clrchn = $ffcc:k_clrch = $ffcc ; restore default input/output channels
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k_chrin = $ffcf:k_basin = $ffcf ; read byte from current input channel (not the same as $ffe4, see note* below)
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; A is result byte
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; X is preserved
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; Y gets clobbered by tape access (preserved by disk access)
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k_chrout = $ffd2:k_basout = $ffd2:k_bsout = $ffd2 ; send byte to current output channel
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; A/X/Y are preserved
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k_load = $ffd5:k_load_AXY = $ffd5 ; load file to memory, or verify (call setlfs/setnam before!)
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; A: zero means LOAD, nonzero means VERIFY
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; YYXX is desired load address (only used if secondary address == 0), returns end address plus 1
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k_save = $ffd8:k_save_AXY = $ffd8 ; save memory to file (call setlfs/setnam before!)
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; A is zp address of start ptr(!)
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; YYXX is end address plus 1
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k_settim = $ffdb ; set time
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k_rdtim = $ffde ; read time
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k_stop = $ffe1 ; check STOP key
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k_getin = $ffe4:k_get = $ffe4 ; get input byte (not the same as $ffcf, see note* below)
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; A is result byte
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; X is preserved
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; Y gets clobbered by tape access (preserved by disk access)
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k_clall = $ffe7
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k_udtim = $ffea
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; pet rom stops here!?
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k_scrorg = $ffed ; returns screen size (X = number of columns, Y = number of lines)
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; CAUTION: the c128 uses a new format:
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; c128: X/Y now return maximum values in current window (so 0..39/0..24 instead of 40/25).
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; c128: A returns max column on current screen (39 or 79)
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k_plot = $fff0:k_plot_CXY = $fff0 ; get/set cursor (X is line, Y is column)
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; C = 0: set cursor position.
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; C = 1: read cursor position.
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k_iobase = $fff3 ; returns first i/o address (i.e. memory limit) in YYXX
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; cbm-ii: $dc00
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; vic20: $9110
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; c64: $d000
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; 264: $fd00
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; c128: $d000
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}
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;note*
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; the difference between CHRIN and GETIN depends on the current input device:
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; input device 0 (keyboard): CHRIN reads from input buffer, GETIN reads from keyboard buffer
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; (the same difference as between INPUT and GET in basic)
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; input device 2 (rs232): CHRIN does some error handling, GETIN may just return zero on error.
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; roughly speaking, CHRIN returns a "processed" byte while GETIN returns a "raw" byte.
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; for devices on the IEC bus there should be no difference between the two calls.
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; when reading from the console (keyboard/screen), a zero byte means "no data".
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; do not expect a valid Z flag in this case! some devices may clobber the Z flag.
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