8691 lines
244 KiB
NASM
8691 lines
244 KiB
NASM
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; Enhanced BASIC to assemble under 6502 simulator, $ver 2.22
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; $E7E1 $E7CF $E7C6 $E7D3 $E7D1 $E7D5 $E7CF $E81E $E825
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; 2.00 new revision numbers start here
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; 2.01 fixed LCASE$() and UCASE$()
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; 2.02 new get value routine done
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; 2.03 changed RND() to galoise method
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; 2.04 fixed SPC()
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; 2.05 new get value routine fixed
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; 2.06 changed USR() code
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; 2.07 fixed STR$()
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; 2.08 changed INPUT and READ to remove need for $00 start to input buffer
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; 2.09 fixed RND()
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; 2.10 integrated missed changes from an earlier version
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; 2.20 added ELSE to IF .. THEN and fixed IF .. GOTO <statement> to cause error
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; 2.21 fixed IF .. THEN RETURN to not cause error
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; 2.22 fixed RND() breaking the get byte routine
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; zero page use ..
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LAB_WARM = $00 ; BASIC warm start entry point
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Wrmjpl = LAB_WARM+1; BASIC warm start vector jump low byte
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Wrmjph = LAB_WARM+2; BASIC warm start vector jump high byte
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Usrjmp = $0A ; USR function JMP address
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Usrjpl = Usrjmp+1 ; USR function JMP vector low byte
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Usrjph = Usrjmp+2 ; USR function JMP vector high byte
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Nullct = $0D ; nulls output after each line
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TPos = $0E ; BASIC terminal position byte
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TWidth = $0F ; BASIC terminal width byte
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Iclim = $10 ; input column limit
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Itempl = $11 ; temporary integer low byte
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Itemph = Itempl+1 ; temporary integer high byte
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nums_1 = Itempl ; number to bin/hex string convert MSB
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nums_2 = nums_1+1 ; number to bin/hex string convert
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nums_3 = nums_1+2 ; number to bin/hex string convert LSB
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Srchc = $5B ; search character
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Temp3 = Srchc ; temp byte used in number routines
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Scnquo = $5C ; scan-between-quotes flag
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Asrch = Scnquo ; alt search character
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XOAw_l = Srchc ; eXclusive OR, OR and AND word low byte
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XOAw_h = Scnquo ; eXclusive OR, OR and AND word high byte
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Ibptr = $5D ; input buffer pointer
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Dimcnt = Ibptr ; # of dimensions
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Tindx = Ibptr ; token index
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Defdim = $5E ; default DIM flag
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Dtypef = $5F ; data type flag, $FF=string, $00=numeric
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Oquote = $60 ; open quote flag (b7) (Flag: DATA scan; LIST quote; memory)
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Gclctd = $60 ; garbage collected flag
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Sufnxf = $61 ; subscript/FNX flag, 1xxx xxx = FN(0xxx xxx)
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Imode = $62 ; input mode flag, $00=INPUT, $80=READ
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Cflag = $63 ; comparison evaluation flag
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TabSiz = $64 ; TAB step size (was input flag)
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next_s = $65 ; next descriptor stack address
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; these two bytes form a word pointer to the item
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; currently on top of the descriptor stack
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last_sl = $66 ; last descriptor stack address low byte
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last_sh = $67 ; last descriptor stack address high byte (always $00)
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des_sk = $68 ; descriptor stack start address (temp strings)
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; = $70 ; End of descriptor stack
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ut1_pl = $71 ; utility pointer 1 low byte
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ut1_ph = ut1_pl+1 ; utility pointer 1 high byte
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ut2_pl = $73 ; utility pointer 2 low byte
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ut2_ph = ut2_pl+1 ; utility pointer 2 high byte
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Temp_2 = ut1_pl ; temp byte for block move
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FACt_1 = $75 ; FAC temp mantissa1
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FACt_2 = FACt_1+1 ; FAC temp mantissa2
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FACt_3 = FACt_2+1 ; FAC temp mantissa3
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dims_l = FACt_2 ; array dimension size low byte
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dims_h = FACt_3 ; array dimension size high byte
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TempB = $78 ; temp page 0 byte
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Smeml = $79 ; start of mem low byte (Start-of-Basic)
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Smemh = Smeml+1 ; start of mem high byte (Start-of-Basic)
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Svarl = $7B ; start of vars low byte (Start-of-Variables)
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Svarh = Svarl+1 ; start of vars high byte (Start-of-Variables)
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Sarryl = $7D ; var mem end low byte (Start-of-Arrays)
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Sarryh = Sarryl+1 ; var mem end high byte (Start-of-Arrays)
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Earryl = $7F ; array mem end low byte (End-of-Arrays)
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Earryh = Earryl+1 ; array mem end high byte (End-of-Arrays)
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Sstorl = $81 ; string storage low byte (String storage (moving down))
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Sstorh = Sstorl+1 ; string storage high byte (String storage (moving down))
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Sutill = $83 ; string utility ptr low byte
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Sutilh = Sutill+1 ; string utility ptr high byte
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Ememl = $85 ; end of mem low byte (Limit-of-memory)
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Ememh = Ememl+1 ; end of mem high byte (Limit-of-memory)
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Clinel = $87 ; current line low byte (Basic line number)
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Clineh = Clinel+1 ; current line high byte (Basic line number)
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Blinel = $89 ; break line low byte (Previous Basic line number)
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Blineh = Blinel+1 ; break line high byte (Previous Basic line number)
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Cpntrl = $8B ; continue pointer low byte
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Cpntrh = Cpntrl+1 ; continue pointer high byte
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Dlinel = $8D ; current DATA line low byte
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Dlineh = Dlinel+1 ; current DATA line high byte
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Dptrl = $8F ; DATA pointer low byte
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Dptrh = Dptrl+1 ; DATA pointer high byte
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Rdptrl = $91 ; read pointer low byte
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Rdptrh = Rdptrl+1 ; read pointer high byte
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Varnm1 = $93 ; current var name 1st byte
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Varnm2 = Varnm1+1 ; current var name 2nd byte
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Cvaral = $95 ; current var address low byte
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Cvarah = Cvaral+1 ; current var address high byte
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Frnxtl = $97 ; var pointer for FOR/NEXT low byte
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Frnxth = Frnxtl+1 ; var pointer for FOR/NEXT high byte
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Tidx1 = Frnxtl ; temp line index
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Lvarpl = Frnxtl ; let var pointer low byte
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Lvarph = Frnxth ; let var pointer high byte
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prstk = $99 ; precedence stacked flag
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comp_f = $9B ; compare function flag, bits 0,1 and 2 used
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; bit 2 set if >
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; bit 1 set if =
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; bit 0 set if <
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func_l = $9C ; function pointer low byte
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func_h = func_l+1 ; function pointer high byte
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garb_l = func_l ; garbage collection working pointer low byte
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garb_h = func_h ; garbage collection working pointer high byte
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des_2l = $9E ; string descriptor_2 pointer low byte
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des_2h = des_2l+1 ; string descriptor_2 pointer high byte
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g_step = $A0 ; garbage collect step size
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Fnxjmp = $A1 ; jump vector for functions
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Fnxjpl = Fnxjmp+1 ; functions jump vector low byte
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Fnxjph = Fnxjmp+2 ; functions jump vector high byte
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g_indx = Fnxjpl ; garbage collect temp index
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FAC2_r = $A3 ; FAC2 rounding byte
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Adatal = $A4 ; array data pointer low byte
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Adatah = Adatal+1 ; array data pointer high byte
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Nbendl = Adatal ; new block end pointer low byte
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Nbendh = Adatah ; new block end pointer high byte
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Obendl = $A6 ; old block end pointer low byte
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Obendh = Obendl+1 ; old block end pointer high byte
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numexp = $A8 ; string to float number exponent count
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expcnt = $A9 ; string to float exponent count
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numbit = numexp ; bit count for array element calculations
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numdpf = $AA ; string to float decimal point flag
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expneg = $AB ; string to float eval exponent -ve flag
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Astrtl = numdpf ; array start pointer low byte
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Astrth = expneg ; array start pointer high byte
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Histrl = numdpf ; highest string low byte
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Histrh = expneg ; highest string high byte
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Baslnl = numdpf ; BASIC search line pointer low byte
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Baslnh = expneg ; BASIC search line pointer high byte
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Fvar_l = numdpf ; find/found variable pointer low byte
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Fvar_h = expneg ; find/found variable pointer high byte
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Ostrtl = numdpf ; old block start pointer low byte
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Ostrth = expneg ; old block start pointer high byte
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Vrschl = numdpf ; variable search pointer low byte
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Vrschh = expneg ; variable search pointer high byte
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FAC1_e = $AC ; FAC1 exponent
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FAC1_1 = FAC1_e+1 ; FAC1 mantissa1
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FAC1_2 = FAC1_e+2 ; FAC1 mantissa2
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FAC1_3 = FAC1_e+3 ; FAC1 mantissa3
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FAC1_s = FAC1_e+4 ; FAC1 sign (b7)
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str_ln = FAC1_e ; string length
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str_pl = FAC1_1 ; string pointer low byte
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str_ph = FAC1_2 ; string pointer high byte
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des_pl = FAC1_2 ; string descriptor pointer low byte
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des_ph = FAC1_3 ; string descriptor pointer high byte
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mids_l = FAC1_3 ; MID$ string temp length byte
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negnum = $B1 ; string to float eval -ve flag
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numcon = $B1 ; series evaluation constant count
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FAC1_o = $B2 ; FAC1 overflow byte
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FAC2_e = $B3 ; FAC2 exponent
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FAC2_1 = FAC2_e+1 ; FAC2 mantissa1
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FAC2_2 = FAC2_e+2 ; FAC2 mantissa2
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FAC2_3 = FAC2_e+3 ; FAC2 mantissa3
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FAC2_s = FAC2_e+4 ; FAC2 sign (b7)
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FAC_sc = $B8 ; FAC sign comparison, Acc#1 vs #2
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FAC1_r = $B9 ; FAC1 rounding byte
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ssptr_l = FAC_sc ; string start pointer low byte
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ssptr_h = FAC1_r ; string start pointer high byte
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sdescr = FAC_sc ; string descriptor pointer
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csidx = $BA ; line crunch save index
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Asptl = csidx ; array size/pointer low byte
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Aspth = $BB ; array size/pointer high byte
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Btmpl = Asptl ; BASIC pointer temp low byte
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Btmph = Aspth ; BASIC pointer temp low byte
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Cptrl = Asptl ; BASIC pointer temp low byte
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Cptrh = Aspth ; BASIC pointer temp low byte
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Sendl = Asptl ; BASIC pointer temp low byte
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Sendh = Aspth ; BASIC pointer temp low byte
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LAB_IGBY = $BC ; get next BASIC byte subroutine
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LAB_GBYT = $C2 ; get current BASIC byte subroutine
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Bpntrl = $C3 ; BASIC execute (get byte) pointer low byte
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Bpntrh = Bpntrl+1 ; BASIC execute (get byte) pointer high byte
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; = $D7 ; end of get BASIC char subroutine
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Rbyte4 = $D8 ; extra PRNG byte
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Rbyte1 = Rbyte4+1 ; most significant PRNG byte
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Rbyte2 = Rbyte4+2 ; middle PRNG byte
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Rbyte3 = Rbyte4+3 ; least significant PRNG byte
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NmiBase = $DC ; NMI handler enabled/setup/triggered flags
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; bit function
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; === ========
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; 7 interrupt enabled
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; 6 interrupt setup
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; 5 interrupt happened
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; = $DD ; NMI handler addr low byte
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; = $DE ; NMI handler addr high byte
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IrqBase = $DF ; IRQ handler enabled/setup/triggered flags
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; = $E0 ; IRQ handler addr low byte
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; = $E1 ; IRQ handler addr high byte
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; = $DE ; unused
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; = $DF ; unused
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; = $E0 ; unused
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; = $E1 ; unused
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; = $E2 ; unused
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; = $E3 ; unused
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; = $E4 ; unused
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; = $E5 ; unused
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; = $E6 ; unused
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; = $E7 ; unused
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; = $E8 ; unused
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; = $E9 ; unused
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; = $EA ; unused
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; = $EB ; unused
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; = $EC ; unused
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; = $ED ; unused
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; = $EE ; unused
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Decss = $EF ; number to decimal string start
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Decssp1 = Decss+1 ; number to decimal string start
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; = $FF ; decimal string end
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; token values needed for BASIC
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; primary command tokens (can start a statement)
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TK_END = $80 ; END token
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TK_FOR = TK_END+1 ; FOR token
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TK_NEXT = TK_FOR+1 ; NEXT token
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TK_DATA = TK_NEXT+1 ; DATA token
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TK_INPUT = TK_DATA+1 ; INPUT token
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TK_DIM = TK_INPUT+1 ; DIM token
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TK_READ = TK_DIM+1 ; READ token
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TK_LET = TK_READ+1 ; LET token
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TK_DEC = TK_LET+1 ; DEC token
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TK_GOTO = TK_DEC+1 ; GOTO token
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TK_RUN = TK_GOTO+1 ; RUN token
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TK_IF = TK_RUN+1 ; IF token
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TK_RESTORE = TK_IF+1 ; RESTORE token
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TK_GOSUB = TK_RESTORE+1 ; GOSUB token
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TK_RETIRQ = TK_GOSUB+1 ; RETIRQ token
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TK_RETNMI = TK_RETIRQ+1 ; RETNMI token
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TK_RETURN = TK_RETNMI+1 ; RETURN token
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TK_REM = TK_RETURN+1 ; REM token
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TK_STOP = TK_REM+1 ; STOP token
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TK_ON = TK_STOP+1 ; ON token
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TK_NULL = TK_ON+1 ; NULL token
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TK_INC = TK_NULL+1 ; INC token
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TK_WAIT = TK_INC+1 ; WAIT token
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TK_LOAD = TK_WAIT+1 ; LOAD token
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TK_SAVE = TK_LOAD+1 ; SAVE token
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TK_DEF = TK_SAVE+1 ; DEF token
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TK_POKE = TK_DEF+1 ; POKE token
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TK_DOKE = TK_POKE+1 ; DOKE token
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TK_CALL = TK_DOKE+1 ; CALL token
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TK_DO = TK_CALL+1 ; DO token
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TK_LOOP = TK_DO+1 ; LOOP token
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TK_PRINT = TK_LOOP+1 ; PRINT token
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TK_CONT = TK_PRINT+1 ; CONT token
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TK_LIST = TK_CONT+1 ; LIST token
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TK_CLEAR = TK_LIST+1 ; CLEAR token
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TK_NEW = TK_CLEAR+1 ; NEW token
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TK_WIDTH = TK_NEW+1 ; WIDTH token
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TK_GET = TK_WIDTH+1 ; GET token
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TK_SWAP = TK_GET+1 ; SWAP token
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TK_BITSET = TK_SWAP+1 ; BITSET token
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TK_BITCLR = TK_BITSET+1 ; BITCLR token
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TK_IRQ = TK_BITCLR+1 ; IRQ token
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TK_NMI = TK_IRQ+1 ; NMI token
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; secondary command tokens, can't start a statement
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TK_TAB = TK_NMI+1 ; TAB token
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TK_ELSE = TK_TAB+1 ; ELSE token
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TK_TO = TK_ELSE+1 ; TO token
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TK_FN = TK_TO+1 ; FN token
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TK_SPC = TK_FN+1 ; SPC token
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TK_THEN = TK_SPC+1 ; THEN token
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TK_NOT = TK_THEN+1 ; NOT token
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TK_STEP = TK_NOT+1 ; STEP token
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TK_UNTIL = TK_STEP+1 ; UNTIL token
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TK_WHILE = TK_UNTIL+1 ; WHILE token
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TK_OFF = TK_WHILE+1 ; OFF token
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; opperator tokens
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TK_PLUS = TK_OFF+1 ; + token
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TK_MINUS = TK_PLUS+1 ; - token
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TK_MUL = TK_MINUS+1 ; * token
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TK_DIV = TK_MUL+1 ; / token
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TK_POWER = TK_DIV+1 ; ^ token
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TK_AND = TK_POWER+1 ; AND token
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TK_EOR = TK_AND+1 ; EOR token
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TK_OR = TK_EOR+1 ; OR token
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TK_RSHIFT = TK_OR+1 ; RSHIFT token
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TK_LSHIFT = TK_RSHIFT+1 ; LSHIFT token
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TK_GT = TK_LSHIFT+1 ; > token
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TK_EQUAL = TK_GT+1 ; = token
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TK_LT = TK_EQUAL+1 ; < token
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; functions tokens
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TK_SGN = TK_LT+1 ; SGN token
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TK_INT = TK_SGN+1 ; INT token
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TK_ABS = TK_INT+1 ; ABS token
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TK_USR = TK_ABS+1 ; USR token
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TK_FRE = TK_USR+1 ; FRE token
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TK_POS = TK_FRE+1 ; POS token
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TK_SQR = TK_POS+1 ; SQR token
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TK_RND = TK_SQR+1 ; RND token
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TK_LOG = TK_RND+1 ; LOG token
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TK_EXP = TK_LOG+1 ; EXP token
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TK_COS = TK_EXP+1 ; COS token
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TK_SIN = TK_COS+1 ; SIN token
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||
|
TK_TAN = TK_SIN+1 ; TAN token
|
||
|
TK_ATN = TK_TAN+1 ; ATN token
|
||
|
TK_PEEK = TK_ATN+1 ; PEEK token
|
||
|
TK_DEEK = TK_PEEK+1 ; DEEK token
|
||
|
TK_SADD = TK_DEEK+1 ; SADD token
|
||
|
TK_LEN = TK_SADD+1 ; LEN token
|
||
|
TK_STRS = TK_LEN+1 ; STR$ token
|
||
|
TK_VAL = TK_STRS+1 ; VAL token
|
||
|
TK_ASC = TK_VAL+1 ; ASC token
|
||
|
TK_UCASES = TK_ASC+1 ; UCASE$ token
|
||
|
TK_LCASES = TK_UCASES+1 ; LCASE$ token
|
||
|
TK_CHRS = TK_LCASES+1 ; CHR$ token
|
||
|
TK_HEXS = TK_CHRS+1 ; HEX$ token
|
||
|
TK_BINS = TK_HEXS+1 ; BIN$ token
|
||
|
TK_BITTST = TK_BINS+1 ; BITTST token
|
||
|
TK_MAX = TK_BITTST+1 ; MAX token
|
||
|
TK_MIN = TK_MAX+1 ; MIN token
|
||
|
TK_PI = TK_MIN+1 ; PI token
|
||
|
TK_TWOPI = TK_PI+1 ; TWOPI token
|
||
|
TK_VPTR = TK_TWOPI+1 ; VARPTR token
|
||
|
TK_LEFTS = TK_VPTR+1 ; LEFT$ token
|
||
|
TK_RIGHTS = TK_LEFTS+1 ; RIGHT$ token
|
||
|
TK_MIDS = TK_RIGHTS+1 ; MID$ token
|
||
|
|
||
|
; offsets from a base of X or Y
|
||
|
|
||
|
PLUS_0 = $00 ; X or Y plus 0
|
||
|
PLUS_1 = $01 ; X or Y plus 1
|
||
|
PLUS_2 = $02 ; X or Y plus 2
|
||
|
PLUS_3 = $03 ; X or Y plus 3
|
||
|
|
||
|
LAB_STAK = $0100 ; stack bottom, no offset
|
||
|
|
||
|
LAB_SKFE = LAB_STAK+$FE
|
||
|
; flushed stack address
|
||
|
LAB_SKFF = LAB_STAK+$FF
|
||
|
; flushed stack address
|
||
|
|
||
|
ccflag = $0200 ; BASIC CTRL-C flag, 00 = enabled, 01 = dis
|
||
|
ccbyte = ccflag+1 ; BASIC CTRL-C byte
|
||
|
ccnull = ccbyte+1 ; BASIC CTRL-C byte timeout
|
||
|
|
||
|
VEC_CC = ccnull+1 ; ctrl c check vector
|
||
|
|
||
|
VEC_IN = VEC_CC+2 ; input vector
|
||
|
VEC_OUT = VEC_IN+2 ; output vector
|
||
|
VEC_LD = VEC_OUT+2 ; load vector
|
||
|
VEC_SV = VEC_LD+2 ; save vector
|
||
|
|
||
|
; Ibuffs can now be anywhere in RAM, ensure that the max length is < $80
|
||
|
|
||
|
Ibuffs = IRQ_vec+$14
|
||
|
; start of input buffer after IRQ/NMI code
|
||
|
Ibuffe = Ibuffs+$47; end of input buffer
|
||
|
|
||
|
Ram_base = $0300 ; start of user RAM (set as needed, should be page aligned)
|
||
|
Ram_top = $C000 ; end of user RAM+1 (set as needed, should be page aligned)
|
||
|
|
||
|
; This start can be changed to suit your system
|
||
|
|
||
|
*= $C000
|
||
|
|
||
|
; BASIC cold start entry point
|
||
|
|
||
|
; new page 2 initialisation, copy block to ccflag on
|
||
|
|
||
|
LAB_COLD
|
||
|
LDY #PG2_TABE-PG2_TABS-1
|
||
|
; byte count-1
|
||
|
LAB_2D13
|
||
|
LDA PG2_TABS,Y ; get byte
|
||
|
STA ccflag,Y ; store in page 2
|
||
|
DEY ; decrement count
|
||
|
BPL LAB_2D13 ; loop if not done
|
||
|
|
||
|
LDX #$FF ; set byte
|
||
|
STX Clineh ; set current line high byte (set immediate mode)
|
||
|
TXS ; reset stack pointer
|
||
|
|
||
|
LDA #$4C ; code for JMP
|
||
|
STA Fnxjmp ; save for jump vector for functions
|
||
|
|
||
|
; copy block from LAB_2CEE to $00BC - $00D3
|
||
|
|
||
|
LDX #StrTab-LAB_2CEE ; set byte count
|
||
|
LAB_2D4E
|
||
|
LDA LAB_2CEE-1,X ; get byte from table
|
||
|
STA LAB_IGBY-1,X ; save byte in page zero
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_2D4E ; loop if not all done
|
||
|
|
||
|
; copy block from StrTab to $0000 - $0012
|
||
|
|
||
|
LAB_GMEM
|
||
|
LDX #EndTab-StrTab-1 ; set byte count-1
|
||
|
TabLoop
|
||
|
LDA StrTab,X ; get byte from table
|
||
|
STA PLUS_0,X ; save byte in page zero
|
||
|
DEX ; decrement count
|
||
|
BPL TabLoop ; loop if not all done
|
||
|
|
||
|
; set-up start values
|
||
|
|
||
|
LDA #$00 ; clear A
|
||
|
STA NmiBase ; clear NMI handler enabled flag
|
||
|
STA IrqBase ; clear IRQ handler enabled flag
|
||
|
STA FAC1_o ; clear FAC1 overflow byte
|
||
|
STA last_sh ; clear descriptor stack top item pointer high byte
|
||
|
|
||
|
LDA #$0E ; set default tab size
|
||
|
STA TabSiz ; save it
|
||
|
LDA #$03 ; set garbage collect step size for descriptor stack
|
||
|
STA g_step ; save it
|
||
|
LDX #des_sk ; descriptor stack start
|
||
|
STX next_s ; set descriptor stack pointer
|
||
|
JSR LAB_CRLF ; print CR/LF
|
||
|
LDA #<LAB_MSZM ; point to memory size message (low addr)
|
||
|
LDY #>LAB_MSZM ; point to memory size message (high addr)
|
||
|
JSR LAB_18C3 ; print null terminated string from memory
|
||
|
JSR LAB_INLN ; print "? " and get BASIC input
|
||
|
STX Bpntrl ; set BASIC execute pointer low byte
|
||
|
STY Bpntrh ; set BASIC execute pointer high byte
|
||
|
JSR LAB_GBYT ; get last byte back
|
||
|
|
||
|
BNE LAB_2DAA ; branch if not null (user typed something)
|
||
|
|
||
|
LDY #$00 ; else clear Y
|
||
|
; character was null so get memory size the hard way
|
||
|
; we get here with Y=0 and Itempl/h = Ram_base
|
||
|
LAB_2D93
|
||
|
INC Itempl ; increment temporary integer low byte
|
||
|
BNE LAB_2D99 ; branch if no overflow
|
||
|
|
||
|
INC Itemph ; increment temporary integer high byte
|
||
|
LDA Itemph ; get high byte
|
||
|
CMP #>Ram_top ; compare with top of RAM+1
|
||
|
BEQ LAB_2DB6 ; branch if match (end of user RAM)
|
||
|
|
||
|
LAB_2D99
|
||
|
LDA #$55 ; set test byte
|
||
|
STA (Itempl),Y ; save via temporary integer
|
||
|
CMP (Itempl),Y ; compare via temporary integer
|
||
|
BNE LAB_2DB6 ; branch if fail
|
||
|
|
||
|
ASL ; shift test byte left (now $AA)
|
||
|
STA (Itempl),Y ; save via temporary integer
|
||
|
CMP (Itempl),Y ; compare via temporary integer
|
||
|
BEQ LAB_2D93 ; if ok go do next byte
|
||
|
|
||
|
BNE LAB_2DB6 ; branch if fail
|
||
|
|
||
|
LAB_2DAA
|
||
|
JSR LAB_2887 ; get FAC1 from string
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
CMP #$98 ; compare with exponent = 2^24
|
||
|
BCS LAB_GMEM ; if too large go try again
|
||
|
|
||
|
JSR LAB_F2FU ; save integer part of FAC1 in temporary integer
|
||
|
; (no range check)
|
||
|
|
||
|
LAB_2DB6
|
||
|
LDA Itempl ; get temporary integer low byte
|
||
|
LDY Itemph ; get temporary integer high byte
|
||
|
CPY #<Ram_base+1 ; compare with start of RAM+$100 high byte
|
||
|
BCC LAB_GMEM ; if too small go try again
|
||
|
|
||
|
|
||
|
; uncomment these lines if you want to check on the high limit of memory. Note if
|
||
|
; Ram_top is set too low then this will fail. default is ignore it and assume the
|
||
|
; users know what they're doing!
|
||
|
|
||
|
; CPY #>Ram_top ; compare with top of RAM high byte
|
||
|
; BCC MEM_OK ; branch if < RAM top
|
||
|
|
||
|
; BNE LAB_GMEM ; if too large go try again
|
||
|
; else was = so compare low bytes
|
||
|
; CMP #<Ram_top ; compare with top of RAM low byte
|
||
|
; BEQ MEM_OK ; branch if = RAM top
|
||
|
|
||
|
; BCS LAB_GMEM ; if too large go try again
|
||
|
|
||
|
;MEM_OK
|
||
|
STA Ememl ; set end of mem low byte
|
||
|
STY Ememh ; set end of mem high byte
|
||
|
STA Sstorl ; set bottom of string space low byte
|
||
|
STY Sstorh ; set bottom of string space high byte
|
||
|
|
||
|
LDY #<Ram_base ; set start addr low byte
|
||
|
LDX #>Ram_base ; set start addr high byte
|
||
|
STY Smeml ; save start of mem low byte
|
||
|
STX Smemh ; save start of mem high byte
|
||
|
|
||
|
; this line is only needed if Ram_base is not $xx00
|
||
|
|
||
|
; LDY #$00 ; clear Y
|
||
|
TYA ; clear A
|
||
|
STA (Smeml),Y ; clear first byte
|
||
|
INC Smeml ; increment start of mem low byte
|
||
|
|
||
|
; these two lines are only needed if Ram_base is $xxFF
|
||
|
|
||
|
; BNE LAB_2E05 ; branch if no rollover
|
||
|
|
||
|
; INC Smemh ; increment start of mem high byte
|
||
|
LAB_2E05
|
||
|
JSR LAB_CRLF ; print CR/LF
|
||
|
JSR LAB_1463 ; do "NEW" and "CLEAR"
|
||
|
LDA Ememl ; get end of mem low byte
|
||
|
SEC ; set carry for subtract
|
||
|
SBC Smeml ; subtract start of mem low byte
|
||
|
TAX ; copy to X
|
||
|
LDA Ememh ; get end of mem high byte
|
||
|
SBC Smemh ; subtract start of mem high byte
|
||
|
JSR LAB_295E ; print XA as unsigned integer (bytes free)
|
||
|
LDA #<LAB_SMSG ; point to sign-on message (low addr)
|
||
|
LDY #>LAB_SMSG ; point to sign-on message (high addr)
|
||
|
JSR LAB_18C3 ; print null terminated string from memory
|
||
|
LDA #<LAB_1274 ; warm start vector low byte
|
||
|
LDY #>LAB_1274 ; warm start vector high byte
|
||
|
STA Wrmjpl ; save warm start vector low byte
|
||
|
STY Wrmjph ; save warm start vector high byte
|
||
|
JMP (Wrmjpl) ; go do warm start
|
||
|
|
||
|
; open up space in memory
|
||
|
; move (Ostrtl)-(Obendl) to new block ending at (Nbendl)
|
||
|
|
||
|
; Nbendl,Nbendh - new block end address (A/Y)
|
||
|
; Obendl,Obendh - old block end address
|
||
|
; Ostrtl,Ostrth - old block start address
|
||
|
|
||
|
; returns with ..
|
||
|
|
||
|
; Nbendl,Nbendh - new block start address (high byte - $100)
|
||
|
; Obendl,Obendh - old block start address (high byte - $100)
|
||
|
; Ostrtl,Ostrth - old block start address (unchanged)
|
||
|
|
||
|
LAB_11CF
|
||
|
JSR LAB_121F ; check available memory, "Out of memory" error if no room
|
||
|
; addr to check is in AY (low/high)
|
||
|
STA Earryl ; save new array mem end low byte
|
||
|
STY Earryh ; save new array mem end high byte
|
||
|
|
||
|
; open up space in memory
|
||
|
; move (Ostrtl)-(Obendl) to new block ending at (Nbendl)
|
||
|
; don't set array end
|
||
|
|
||
|
LAB_11D6
|
||
|
SEC ; set carry for subtract
|
||
|
LDA Obendl ; get block end low byte
|
||
|
SBC Ostrtl ; subtract block start low byte
|
||
|
TAY ; copy MOD(block length/$100) byte to Y
|
||
|
LDA Obendh ; get block end high byte
|
||
|
SBC Ostrth ; subtract block start high byte
|
||
|
TAX ; copy block length high byte to X
|
||
|
INX ; +1 to allow for count=0 exit
|
||
|
TYA ; copy block length low byte to A
|
||
|
BEQ LAB_120A ; branch if length low byte=0
|
||
|
|
||
|
; block is (X-1)*256+Y bytes, do the Y bytes first
|
||
|
|
||
|
SEC ; set carry for add + 1, two's complement
|
||
|
EOR #$FF ; invert low byte for subtract
|
||
|
ADC Obendl ; add block end low byte
|
||
|
|
||
|
STA Obendl ; save corrected old block end low byte
|
||
|
BCS LAB_11F3 ; branch if no underflow
|
||
|
|
||
|
DEC Obendh ; else decrement block end high byte
|
||
|
SEC ; set carry for add + 1, two's complement
|
||
|
LAB_11F3
|
||
|
TYA ; get MOD(block length/$100) byte
|
||
|
EOR #$FF ; invert low byte for subtract
|
||
|
ADC Nbendl ; add destination end low byte
|
||
|
STA Nbendl ; save modified new block end low byte
|
||
|
BCS LAB_1203 ; branch if no underflow
|
||
|
|
||
|
DEC Nbendh ; else decrement block end high byte
|
||
|
BCC LAB_1203 ; branch always
|
||
|
|
||
|
LAB_11FF
|
||
|
LDA (Obendl),Y ; get byte from source
|
||
|
STA (Nbendl),Y ; copy byte to destination
|
||
|
LAB_1203
|
||
|
DEY ; decrement index
|
||
|
BNE LAB_11FF ; loop until Y=0
|
||
|
|
||
|
; now do Y=0 indexed byte
|
||
|
LDA (Obendl),Y ; get byte from source
|
||
|
STA (Nbendl),Y ; save byte to destination
|
||
|
LAB_120A
|
||
|
DEC Obendh ; decrement source pointer high byte
|
||
|
DEC Nbendh ; decrement destination pointer high byte
|
||
|
DEX ; decrement block count
|
||
|
BNE LAB_1203 ; loop until count = $0
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; check room on stack for A bytes
|
||
|
; stack too deep? do OM error
|
||
|
|
||
|
LAB_1212
|
||
|
STA TempB ; save result in temp byte
|
||
|
TSX ; copy stack
|
||
|
CPX TempB ; compare new "limit" with stack
|
||
|
BCC LAB_OMER ; if stack < limit do "Out of memory" error then warm start
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; check available memory, "Out of memory" error if no room
|
||
|
; addr to check is in AY (low/high)
|
||
|
|
||
|
LAB_121F
|
||
|
CPY Sstorh ; compare bottom of string mem high byte
|
||
|
BCC LAB_124B ; if less then exit (is ok)
|
||
|
|
||
|
BNE LAB_1229 ; skip next test if greater (tested <)
|
||
|
|
||
|
; high byte was =, now do low byte
|
||
|
CMP Sstorl ; compare with bottom of string mem low byte
|
||
|
BCC LAB_124B ; if less then exit (is ok)
|
||
|
|
||
|
; addr is > string storage ptr (oops!)
|
||
|
LAB_1229
|
||
|
PHA ; push addr low byte
|
||
|
LDX #$08 ; set index to save Adatal to expneg inclusive
|
||
|
TYA ; copy addr high byte (to push on stack)
|
||
|
|
||
|
; save misc numeric work area
|
||
|
LAB_122D
|
||
|
PHA ; push byte
|
||
|
LDA Adatal-1,X ; get byte from Adatal to expneg ( ,$00 not pushed)
|
||
|
DEX ; decrement index
|
||
|
BPL LAB_122D ; loop until all done
|
||
|
|
||
|
JSR LAB_GARB ; garbage collection routine
|
||
|
|
||
|
; restore misc numeric work area
|
||
|
LDX #$00 ; clear the index to restore bytes
|
||
|
LAB_1238
|
||
|
PLA ; pop byte
|
||
|
STA Adatal,X ; save byte to Adatal to expneg
|
||
|
INX ; increment index
|
||
|
CPX #$08 ; compare with end + 1
|
||
|
BMI LAB_1238 ; loop if more to do
|
||
|
|
||
|
PLA ; pop addr high byte
|
||
|
TAY ; copy back to Y
|
||
|
PLA ; pop addr low byte
|
||
|
CPY Sstorh ; compare bottom of string mem high byte
|
||
|
BCC LAB_124B ; if less then exit (is ok)
|
||
|
|
||
|
BNE LAB_OMER ; if greater do "Out of memory" error then warm start
|
||
|
|
||
|
; high byte was =, now do low byte
|
||
|
CMP Sstorl ; compare with bottom of string mem low byte
|
||
|
BCS LAB_OMER ; if >= do "Out of memory" error then warm start
|
||
|
|
||
|
; ok exit, carry clear
|
||
|
LAB_124B
|
||
|
RTS
|
||
|
|
||
|
; do "Out of memory" error then warm start
|
||
|
|
||
|
LAB_OMER
|
||
|
LDX #$0C ; error code $0C ("Out of memory" error)
|
||
|
|
||
|
; do error #X, then warm start
|
||
|
|
||
|
LAB_XERR
|
||
|
JSR LAB_CRLF ; print CR/LF
|
||
|
|
||
|
LDA LAB_BAER,X ; get error message pointer low byte
|
||
|
LDY LAB_BAER+1,X ; get error message pointer high byte
|
||
|
JSR LAB_18C3 ; print null terminated string from memory
|
||
|
|
||
|
JSR LAB_1491 ; flush stack and clear continue flag
|
||
|
LDA #<LAB_EMSG ; point to " Error" low addr
|
||
|
LDY #>LAB_EMSG ; point to " Error" high addr
|
||
|
LAB_1269
|
||
|
JSR LAB_18C3 ; print null terminated string from memory
|
||
|
LDY Clineh ; get current line high byte
|
||
|
INY ; increment it
|
||
|
BEQ LAB_1274 ; go do warm start (was immediate mode)
|
||
|
|
||
|
; else print line number
|
||
|
JSR LAB_2953 ; print " in line [LINE #]"
|
||
|
|
||
|
; BASIC warm start entry point
|
||
|
; wait for Basic command
|
||
|
|
||
|
LAB_1274
|
||
|
; clear ON IRQ/NMI bytes
|
||
|
LDA #$00 ; clear A
|
||
|
STA IrqBase ; clear enabled byte
|
||
|
STA NmiBase ; clear enabled byte
|
||
|
LDA #<LAB_RMSG ; point to "Ready" message low byte
|
||
|
LDY #>LAB_RMSG ; point to "Ready" message high byte
|
||
|
|
||
|
JSR LAB_18C3 ; go do print string
|
||
|
|
||
|
; wait for Basic command (no "Ready")
|
||
|
|
||
|
LAB_127D
|
||
|
JSR LAB_1357 ; call for BASIC input
|
||
|
LAB_1280
|
||
|
STX Bpntrl ; set BASIC execute pointer low byte
|
||
|
STY Bpntrh ; set BASIC execute pointer high byte
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BEQ LAB_127D ; loop while null
|
||
|
|
||
|
; got to interpret input line now ..
|
||
|
|
||
|
LDX #$FF ; current line to null value
|
||
|
STX Clineh ; set current line high byte
|
||
|
BCC LAB_1295 ; branch if numeric character (handle new BASIC line)
|
||
|
|
||
|
; no line number .. immediate mode
|
||
|
JSR LAB_13A6 ; crunch keywords into Basic tokens
|
||
|
JMP LAB_15F6 ; go scan and interpret code
|
||
|
|
||
|
; handle new BASIC line
|
||
|
|
||
|
LAB_1295
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer
|
||
|
JSR LAB_13A6 ; crunch keywords into Basic tokens
|
||
|
STY Ibptr ; save index pointer to end of crunched line
|
||
|
JSR LAB_SSLN ; search BASIC for temp integer line number
|
||
|
BCC LAB_12E6 ; branch if not found
|
||
|
|
||
|
; aroooogah! line # already exists! delete it
|
||
|
LDY #$01 ; set index to next line pointer high byte
|
||
|
LDA (Baslnl),Y ; get next line pointer high byte
|
||
|
STA ut1_ph ; save it
|
||
|
LDA Svarl ; get start of vars low byte
|
||
|
STA ut1_pl ; save it
|
||
|
LDA Baslnh ; get found line pointer high byte
|
||
|
STA ut2_ph ; save it
|
||
|
LDA Baslnl ; get found line pointer low byte
|
||
|
DEY ; decrement index
|
||
|
SBC (Baslnl),Y ; subtract next line pointer low byte
|
||
|
CLC ; clear carry for add
|
||
|
ADC Svarl ; add start of vars low byte
|
||
|
STA Svarl ; save new start of vars low byte
|
||
|
STA ut2_pl ; save destination pointer low byte
|
||
|
LDA Svarh ; get start of vars high byte
|
||
|
ADC #$FF ; -1 + carry
|
||
|
STA Svarh ; save start of vars high byte
|
||
|
SBC Baslnh ; subtract found line pointer high byte
|
||
|
TAX ; copy to block count
|
||
|
SEC ; set carry for subtract
|
||
|
LDA Baslnl ; get found line pointer low byte
|
||
|
SBC Svarl ; subtract start of vars low byte
|
||
|
TAY ; copy to bytes in first block count
|
||
|
BCS LAB_12D0 ; branch if overflow
|
||
|
|
||
|
INX ; increment block count (correct for =0 loop exit)
|
||
|
DEC ut2_ph ; decrement destination high byte
|
||
|
LAB_12D0
|
||
|
CLC ; clear carry for add
|
||
|
ADC ut1_pl ; add source pointer low byte
|
||
|
BCC LAB_12D8 ; branch if no overflow
|
||
|
|
||
|
DEC ut1_ph ; else decrement source pointer high byte
|
||
|
CLC ; clear carry
|
||
|
|
||
|
; close up memory to delete old line
|
||
|
LAB_12D8
|
||
|
LDA (ut1_pl),Y ; get byte from source
|
||
|
STA (ut2_pl),Y ; copy to destination
|
||
|
INY ; increment index
|
||
|
BNE LAB_12D8 ; while <> 0 do this block
|
||
|
|
||
|
INC ut1_ph ; increment source pointer high byte
|
||
|
INC ut2_ph ; increment destination pointer high byte
|
||
|
DEX ; decrement block count
|
||
|
BNE LAB_12D8 ; loop until all done
|
||
|
|
||
|
; got new line in buffer and no existing same #
|
||
|
LAB_12E6
|
||
|
LDA Ibuffs ; get byte from start of input buffer
|
||
|
BEQ LAB_1319 ; if null line just go flush stack/vars and exit
|
||
|
|
||
|
; got new line and it isn't empty line
|
||
|
LDA Ememl ; get end of mem low byte
|
||
|
LDY Ememh ; get end of mem high byte
|
||
|
STA Sstorl ; set bottom of string space low byte
|
||
|
STY Sstorh ; set bottom of string space high byte
|
||
|
LDA Svarl ; get start of vars low byte (end of BASIC)
|
||
|
STA Obendl ; save old block end low byte
|
||
|
LDY Svarh ; get start of vars high byte (end of BASIC)
|
||
|
STY Obendh ; save old block end high byte
|
||
|
ADC Ibptr ; add input buffer pointer (also buffer length)
|
||
|
BCC LAB_1301 ; branch if no overflow from add
|
||
|
|
||
|
INY ; else increment high byte
|
||
|
LAB_1301
|
||
|
STA Nbendl ; save new block end low byte (move to, low byte)
|
||
|
STY Nbendh ; save new block end high byte
|
||
|
JSR LAB_11CF ; open up space in memory
|
||
|
; old start pointer Ostrtl,Ostrth set by the find line call
|
||
|
LDA Earryl ; get array mem end low byte
|
||
|
LDY Earryh ; get array mem end high byte
|
||
|
STA Svarl ; save start of vars low byte
|
||
|
STY Svarh ; save start of vars high byte
|
||
|
LDY Ibptr ; get input buffer pointer (also buffer length)
|
||
|
DEY ; adjust for loop type
|
||
|
LAB_1311
|
||
|
LDA Ibuffs-4,Y ; get byte from crunched line
|
||
|
STA (Baslnl),Y ; save it to program memory
|
||
|
DEY ; decrement count
|
||
|
CPY #$03 ; compare with first byte-1
|
||
|
BNE LAB_1311 ; continue while count <> 3
|
||
|
|
||
|
LDA Itemph ; get line # high byte
|
||
|
STA (Baslnl),Y ; save it to program memory
|
||
|
DEY ; decrement count
|
||
|
LDA Itempl ; get line # low byte
|
||
|
STA (Baslnl),Y ; save it to program memory
|
||
|
DEY ; decrement count
|
||
|
LDA #$FF ; set byte to allow chain rebuild. if you didn't set this
|
||
|
; byte then a zero already here would stop the chain rebuild
|
||
|
; as it would think it was the [EOT] marker.
|
||
|
STA (Baslnl),Y ; save it to program memory
|
||
|
|
||
|
LAB_1319
|
||
|
JSR LAB_1477 ; reset execution to start, clear vars and flush stack
|
||
|
LDX Smeml ; get start of mem low byte
|
||
|
LDA Smemh ; get start of mem high byte
|
||
|
LDY #$01 ; index to high byte of next line pointer
|
||
|
LAB_1325
|
||
|
STX ut1_pl ; set line start pointer low byte
|
||
|
STA ut1_ph ; set line start pointer high byte
|
||
|
LDA (ut1_pl),Y ; get it
|
||
|
BEQ LAB_133E ; exit if end of program
|
||
|
|
||
|
; rebuild chaining of Basic lines
|
||
|
|
||
|
LDY #$04 ; point to first code byte of line
|
||
|
; there is always 1 byte + [EOL] as null entries are deleted
|
||
|
LAB_1330
|
||
|
INY ; next code byte
|
||
|
LDA (ut1_pl),Y ; get byte
|
||
|
BNE LAB_1330 ; loop if not [EOL]
|
||
|
|
||
|
SEC ; set carry for add + 1
|
||
|
TYA ; copy end index
|
||
|
ADC ut1_pl ; add to line start pointer low byte
|
||
|
TAX ; copy to X
|
||
|
LDY #$00 ; clear index, point to this line's next line pointer
|
||
|
STA (ut1_pl),Y ; set next line pointer low byte
|
||
|
TYA ; clear A
|
||
|
ADC ut1_ph ; add line start pointer high byte + carry
|
||
|
INY ; increment index to high byte
|
||
|
STA (ut1_pl),Y ; save next line pointer low byte
|
||
|
BCC LAB_1325 ; go do next line, branch always, carry clear
|
||
|
|
||
|
|
||
|
LAB_133E
|
||
|
JMP LAB_127D ; else we just wait for Basic command, no "Ready"
|
||
|
|
||
|
; print "? " and get BASIC input
|
||
|
|
||
|
LAB_INLN
|
||
|
JSR LAB_18E3 ; print "?" character
|
||
|
JSR LAB_18E0 ; print " "
|
||
|
BNE LAB_1357 ; call for BASIC input and return
|
||
|
|
||
|
; receive line from keyboard
|
||
|
|
||
|
; $08 as delete key (BACKSPACE on standard keyboard)
|
||
|
LAB_134B
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
DEX ; decrement the buffer counter (delete)
|
||
|
.byte $2C ; make LDX into BIT abs
|
||
|
|
||
|
; call for BASIC input (main entry point)
|
||
|
|
||
|
LAB_1357
|
||
|
LDX #$00 ; clear BASIC line buffer pointer
|
||
|
LAB_1359
|
||
|
JSR V_INPT ; call scan input device
|
||
|
BCC LAB_1359 ; loop if no byte
|
||
|
|
||
|
BEQ LAB_1359 ; loop until valid input (ignore NULLs)
|
||
|
|
||
|
CMP #$07 ; compare with [BELL]
|
||
|
BEQ LAB_1378 ; branch if [BELL]
|
||
|
|
||
|
CMP #$0D ; compare with [CR]
|
||
|
BEQ LAB_1384 ; do CR/LF exit if [CR]
|
||
|
|
||
|
CPX #$00 ; compare pointer with $00
|
||
|
BNE LAB_1374 ; branch if not empty
|
||
|
|
||
|
; next two lines ignore any non print character and [SPACE] if input buffer empty
|
||
|
|
||
|
CMP #$21 ; compare with [SP]+1
|
||
|
BCC LAB_1359 ; if < ignore character
|
||
|
|
||
|
LAB_1374
|
||
|
CMP #$08 ; compare with [BACKSPACE] (delete last character)
|
||
|
BEQ LAB_134B ; go delete last character
|
||
|
|
||
|
LAB_1378
|
||
|
CPX #Ibuffe-Ibuffs ; compare character count with max
|
||
|
BCS LAB_138E ; skip store and do [BELL] if buffer full
|
||
|
|
||
|
STA Ibuffs,X ; else store in buffer
|
||
|
INX ; increment pointer
|
||
|
LAB_137F
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
BNE LAB_1359 ; always loop for next character
|
||
|
|
||
|
LAB_1384
|
||
|
JMP LAB_1866 ; do CR/LF exit to BASIC
|
||
|
|
||
|
; announce buffer full
|
||
|
|
||
|
LAB_138E
|
||
|
LDA #$07 ; [BELL] character into A
|
||
|
BNE LAB_137F ; go print the [BELL] but ignore input character
|
||
|
; branch always
|
||
|
|
||
|
; crunch keywords into Basic tokens
|
||
|
; position independent buffer version ..
|
||
|
; faster, dictionary search version ....
|
||
|
|
||
|
LAB_13A6
|
||
|
LDY #$FF ; set save index (makes for easy math later)
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
LDA Bpntrl ; get basic execute pointer low byte
|
||
|
SBC #<Ibuffs ; subtract input buffer start pointer
|
||
|
TAX ; copy result to X (index past line # if any)
|
||
|
|
||
|
STX Oquote ; clear open quote/DATA flag
|
||
|
LAB_13AC
|
||
|
LDA Ibuffs,X ; get byte from input buffer
|
||
|
BEQ LAB_13EC ; if null save byte then exit
|
||
|
|
||
|
CMP #'_' ; compare with "_"
|
||
|
BCS LAB_13EC ; if >= go save byte then continue crunching
|
||
|
|
||
|
CMP #'<' ; compare with "<"
|
||
|
BCS LAB_13CC ; if >= go crunch now
|
||
|
|
||
|
CMP #'0' ; compare with "0"
|
||
|
BCS LAB_13EC ; if >= go save byte then continue crunching
|
||
|
|
||
|
STA Scnquo ; save buffer byte as search character
|
||
|
CMP #$22 ; is it quote character?
|
||
|
BEQ LAB_1410 ; branch if so (copy quoted string)
|
||
|
|
||
|
CMP #'*' ; compare with "*"
|
||
|
BCC LAB_13EC ; if < go save byte then continue crunching
|
||
|
|
||
|
; else crunch now
|
||
|
LAB_13CC
|
||
|
BIT Oquote ; get open quote/DATA token flag
|
||
|
BVS LAB_13EC ; branch if b6 of Oquote set (was DATA)
|
||
|
; go save byte then continue crunching
|
||
|
|
||
|
STX TempB ; save buffer read index
|
||
|
STY csidx ; copy buffer save index
|
||
|
LDY #<TAB_1STC ; get keyword first character table low address
|
||
|
STY ut2_pl ; save pointer low byte
|
||
|
LDY #>TAB_1STC ; get keyword first character table high address
|
||
|
STY ut2_ph ; save pointer high byte
|
||
|
LDY #$00 ; clear table pointer
|
||
|
|
||
|
LAB_13D0
|
||
|
CMP (ut2_pl),Y ; compare with keyword first character table byte
|
||
|
BEQ LAB_13D1 ; go do word_table_chr if match
|
||
|
|
||
|
BCC LAB_13EA ; if < keyword first character table byte go restore
|
||
|
; Y and save to crunched
|
||
|
|
||
|
INY ; else increment pointer
|
||
|
BNE LAB_13D0 ; and loop (branch always)
|
||
|
|
||
|
; have matched first character of some keyword
|
||
|
|
||
|
LAB_13D1
|
||
|
TYA ; copy matching index
|
||
|
ASL ; *2 (bytes per pointer)
|
||
|
TAX ; copy to new index
|
||
|
LDA TAB_CHRT,X ; get keyword table pointer low byte
|
||
|
STA ut2_pl ; save pointer low byte
|
||
|
LDA TAB_CHRT+1,X ; get keyword table pointer high byte
|
||
|
STA ut2_ph ; save pointer high byte
|
||
|
|
||
|
LDY #$FF ; clear table pointer (make -1 for start)
|
||
|
|
||
|
LDX TempB ; restore buffer read index
|
||
|
|
||
|
LAB_13D6
|
||
|
INY ; next table byte
|
||
|
LDA (ut2_pl),Y ; get byte from table
|
||
|
LAB_13D8
|
||
|
BMI LAB_13EA ; all bytes matched so go save token
|
||
|
|
||
|
INX ; next buffer byte
|
||
|
CMP Ibuffs,X ; compare with byte from input buffer
|
||
|
BEQ LAB_13D6 ; go compare next if match
|
||
|
|
||
|
BNE LAB_1417 ; branch if >< (not found keyword)
|
||
|
|
||
|
LAB_13EA
|
||
|
LDY csidx ; restore save index
|
||
|
|
||
|
; save crunched to output
|
||
|
LAB_13EC
|
||
|
INX ; increment buffer index (to next input byte)
|
||
|
INY ; increment save index (to next output byte)
|
||
|
STA Ibuffs,Y ; save byte to output
|
||
|
CMP #$00 ; set the flags, set carry
|
||
|
BEQ LAB_142A ; do exit if was null [EOL]
|
||
|
|
||
|
; A holds token or byte here
|
||
|
SBC #':' ; subtract ":" (carry set by CMP #00)
|
||
|
BEQ LAB_13FF ; branch if it was ":" (is now $00)
|
||
|
|
||
|
; A now holds token-$3A
|
||
|
CMP #TK_DATA-$3A ; compare with DATA token - $3A
|
||
|
BNE LAB_1401 ; branch if not DATA
|
||
|
|
||
|
; token was : or DATA
|
||
|
LAB_13FF
|
||
|
STA Oquote ; save token-$3A (clear for ":", TK_DATA-$3A for DATA)
|
||
|
LAB_1401
|
||
|
EOR #TK_REM-$3A ; effectively subtract REM token offset
|
||
|
BNE LAB_13AC ; If wasn't REM then go crunch rest of line
|
||
|
|
||
|
STA Asrch ; else was REM so set search for [EOL]
|
||
|
|
||
|
; loop for REM, "..." etc.
|
||
|
LAB_1408
|
||
|
LDA Ibuffs,X ; get byte from input buffer
|
||
|
BEQ LAB_13EC ; branch if null [EOL]
|
||
|
|
||
|
CMP Asrch ; compare with stored character
|
||
|
BEQ LAB_13EC ; branch if match (end quote)
|
||
|
|
||
|
; entry for copy string in quotes, don't crunch
|
||
|
LAB_1410
|
||
|
INY ; increment buffer save index
|
||
|
STA Ibuffs,Y ; save byte to output
|
||
|
INX ; increment buffer read index
|
||
|
BNE LAB_1408 ; loop while <> 0 (should never be 0!)
|
||
|
|
||
|
; not found keyword this go
|
||
|
LAB_1417
|
||
|
LDX TempB ; compare has failed, restore buffer index (start byte!)
|
||
|
|
||
|
; now find the end of this word in the table
|
||
|
LAB_141B
|
||
|
LDA (ut2_pl),Y ; get table byte
|
||
|
PHP ; save status
|
||
|
INY ; increment table index
|
||
|
PLP ; restore byte status
|
||
|
BPL LAB_141B ; if not end of keyword go do next
|
||
|
|
||
|
LDA (ut2_pl),Y ; get byte from keyword table
|
||
|
BNE LAB_13D8 ; go test next word if not zero byte (end of table)
|
||
|
|
||
|
; reached end of table with no match
|
||
|
LDA Ibuffs,X ; restore byte from input buffer
|
||
|
BPL LAB_13EA ; branch always (all bytes in buffer are $00-$7F)
|
||
|
; go save byte in output and continue crunching
|
||
|
|
||
|
; reached [EOL]
|
||
|
LAB_142A
|
||
|
INY ; increment pointer
|
||
|
INY ; increment pointer (makes it next line pointer high byte)
|
||
|
STA Ibuffs,Y ; save [EOL] (marks [EOT] in immediate mode)
|
||
|
INY ; adjust for line copy
|
||
|
INY ; adjust for line copy
|
||
|
INY ; adjust for line copy
|
||
|
DEC Bpntrl ; allow for increment (change if buffer starts at $xxFF)
|
||
|
RTS
|
||
|
|
||
|
; search Basic for temp integer line number from start of mem
|
||
|
|
||
|
LAB_SSLN
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
LDX Smemh ; get start of mem high byte
|
||
|
|
||
|
; search Basic for temp integer line number from AX
|
||
|
; returns carry set if found
|
||
|
; returns Baslnl/Baslnh pointer to found or next higher (not found) line
|
||
|
|
||
|
; old 541 new 507
|
||
|
|
||
|
LAB_SHLN
|
||
|
LDY #$01 ; set index
|
||
|
STA Baslnl ; save low byte as current
|
||
|
STX Baslnh ; save high byte as current
|
||
|
LDA (Baslnl),Y ; get pointer high byte from addr
|
||
|
BEQ LAB_145F ; pointer was zero so we're done, do 'not found' exit
|
||
|
|
||
|
LDY #$03 ; set index to line # high byte
|
||
|
LDA (Baslnl),Y ; get line # high byte
|
||
|
DEY ; decrement index (point to low byte)
|
||
|
CMP Itemph ; compare with temporary integer high byte
|
||
|
BNE LAB_1455 ; if <> skip low byte check
|
||
|
|
||
|
LDA (Baslnl),Y ; get line # low byte
|
||
|
CMP Itempl ; compare with temporary integer low byte
|
||
|
LAB_1455
|
||
|
BCS LAB_145E ; else if temp < this line, exit (passed line#)
|
||
|
|
||
|
LAB_1456
|
||
|
DEY ; decrement index to next line ptr high byte
|
||
|
LDA (Baslnl),Y ; get next line pointer high byte
|
||
|
TAX ; copy to X
|
||
|
DEY ; decrement index to next line ptr low byte
|
||
|
LDA (Baslnl),Y ; get next line pointer low byte
|
||
|
BCC LAB_SHLN ; go search for line # in temp (Itempl/Itemph) from AX
|
||
|
; (carry always clear)
|
||
|
|
||
|
LAB_145E
|
||
|
BEQ LAB_1460 ; exit if temp = found line #, carry is set
|
||
|
|
||
|
LAB_145F
|
||
|
CLC ; clear found flag
|
||
|
LAB_1460
|
||
|
RTS
|
||
|
|
||
|
; perform NEW
|
||
|
|
||
|
LAB_NEW
|
||
|
BNE LAB_1460 ; exit if not end of statement (to do syntax error)
|
||
|
|
||
|
LAB_1463
|
||
|
LDA #$00 ; clear A
|
||
|
TAY ; clear Y
|
||
|
STA (Smeml),Y ; clear first line, next line pointer, low byte
|
||
|
INY ; increment index
|
||
|
STA (Smeml),Y ; clear first line, next line pointer, high byte
|
||
|
CLC ; clear carry
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
ADC #$02 ; calculate end of BASIC low byte
|
||
|
STA Svarl ; save start of vars low byte
|
||
|
LDA Smemh ; get start of mem high byte
|
||
|
ADC #$00 ; add any carry
|
||
|
STA Svarh ; save start of vars high byte
|
||
|
|
||
|
; reset execution to start, clear vars and flush stack
|
||
|
|
||
|
LAB_1477
|
||
|
CLC ; clear carry
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
ADC #$FF ; -1
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
LDA Smemh ; get start of mem high byte
|
||
|
ADC #$FF ; -1+carry
|
||
|
STA Bpntrh ; save BASIC execute pointer high byte
|
||
|
|
||
|
; "CLEAR" command gets here
|
||
|
|
||
|
LAB_147A
|
||
|
LDA Ememl ; get end of mem low byte
|
||
|
LDY Ememh ; get end of mem high byte
|
||
|
STA Sstorl ; set bottom of string space low byte
|
||
|
STY Sstorh ; set bottom of string space high byte
|
||
|
LDA Svarl ; get start of vars low byte
|
||
|
LDY Svarh ; get start of vars high byte
|
||
|
STA Sarryl ; save var mem end low byte
|
||
|
STY Sarryh ; save var mem end high byte
|
||
|
STA Earryl ; save array mem end low byte
|
||
|
STY Earryh ; save array mem end high byte
|
||
|
JSR LAB_161A ; perform RESTORE command
|
||
|
|
||
|
; flush stack and clear continue flag
|
||
|
|
||
|
LAB_1491
|
||
|
LDX #des_sk ; set descriptor stack pointer
|
||
|
STX next_s ; save descriptor stack pointer
|
||
|
PLA ; pull return address low byte
|
||
|
TAX ; copy return address low byte
|
||
|
PLA ; pull return address high byte
|
||
|
STX LAB_SKFE ; save to cleared stack
|
||
|
STA LAB_SKFF ; save to cleared stack
|
||
|
LDX #$FD ; new stack pointer
|
||
|
TXS ; reset stack
|
||
|
LDA #$00 ; clear byte
|
||
|
STA Cpntrh ; clear continue pointer high byte
|
||
|
STA Sufnxf ; clear subscript/FNX flag
|
||
|
LAB_14A6
|
||
|
RTS
|
||
|
|
||
|
; perform CLEAR
|
||
|
|
||
|
LAB_CLEAR
|
||
|
BEQ LAB_147A ; if no following token go do "CLEAR"
|
||
|
|
||
|
; else there was a following token (go do syntax error)
|
||
|
RTS
|
||
|
|
||
|
; perform LIST [n][-m]
|
||
|
; bigger, faster version (a _lot_ faster)
|
||
|
|
||
|
LAB_LIST
|
||
|
BCC LAB_14BD ; branch if next character numeric (LIST n..)
|
||
|
|
||
|
BEQ LAB_14BD ; branch if next character [NULL] (LIST)
|
||
|
|
||
|
CMP #TK_MINUS ; compare with token for -
|
||
|
BNE LAB_14A6 ; exit if not - (LIST -m)
|
||
|
|
||
|
; LIST [[n][-m]]
|
||
|
; this bit sets the n , if present, as the start and end
|
||
|
LAB_14BD
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer
|
||
|
JSR LAB_SSLN ; search BASIC for temp integer line number
|
||
|
; (pointer in Baslnl/Baslnh)
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BEQ LAB_14D4 ; branch if no more characters
|
||
|
|
||
|
; this bit checks the - is present
|
||
|
CMP #TK_MINUS ; compare with token for -
|
||
|
BNE LAB_1460 ; return if not "-" (will be Syntax error)
|
||
|
|
||
|
; LIST [n]-m
|
||
|
; the - was there so set m as the end value
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer
|
||
|
BNE LAB_1460 ; exit if not ok
|
||
|
|
||
|
LAB_14D4
|
||
|
LDA Itempl ; get temporary integer low byte
|
||
|
ORA Itemph ; OR temporary integer high byte
|
||
|
BNE LAB_14E2 ; branch if start set
|
||
|
|
||
|
LDA #$FF ; set for -1
|
||
|
STA Itempl ; set temporary integer low byte
|
||
|
STA Itemph ; set temporary integer high byte
|
||
|
LAB_14E2
|
||
|
LDY #$01 ; set index for line
|
||
|
STY Oquote ; clear open quote flag
|
||
|
JSR LAB_CRLF ; print CR/LF
|
||
|
LDA (Baslnl),Y ; get next line pointer high byte
|
||
|
; pointer initially set by search at LAB_14BD
|
||
|
BEQ LAB_152B ; if null all done so exit
|
||
|
JSR LAB_1629 ; do CRTL-C check vector
|
||
|
|
||
|
INY ; increment index for line
|
||
|
LDA (Baslnl),Y ; get line # low byte
|
||
|
TAX ; copy to X
|
||
|
INY ; increment index
|
||
|
LDA (Baslnl),Y ; get line # high byte
|
||
|
CMP Itemph ; compare with temporary integer high byte
|
||
|
BNE LAB_14FF ; branch if no high byte match
|
||
|
|
||
|
CPX Itempl ; compare with temporary integer low byte
|
||
|
BEQ LAB_1501 ; branch if = last line to do (< will pass next branch)
|
||
|
|
||
|
LAB_14FF ; else ..
|
||
|
BCS LAB_152B ; if greater all done so exit
|
||
|
|
||
|
LAB_1501
|
||
|
STY Tidx1 ; save index for line
|
||
|
JSR LAB_295E ; print XA as unsigned integer
|
||
|
LDA #$20 ; space is the next character
|
||
|
LAB_1508
|
||
|
LDY Tidx1 ; get index for line
|
||
|
AND #$7F ; mask top out bit of character
|
||
|
LAB_150C
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
CMP #$22 ; was it " character
|
||
|
BNE LAB_1519 ; branch if not
|
||
|
|
||
|
; we are either entering or leaving a pair of quotes
|
||
|
LDA Oquote ; get open quote flag
|
||
|
EOR #$FF ; toggle it
|
||
|
STA Oquote ; save it back
|
||
|
LAB_1519
|
||
|
INY ; increment index
|
||
|
LDA (Baslnl),Y ; get next byte
|
||
|
BNE LAB_152E ; branch if not [EOL] (go print character)
|
||
|
TAY ; else clear index
|
||
|
LDA (Baslnl),Y ; get next line pointer low byte
|
||
|
TAX ; copy to X
|
||
|
INY ; increment index
|
||
|
LDA (Baslnl),Y ; get next line pointer high byte
|
||
|
STX Baslnl ; set pointer to line low byte
|
||
|
STA Baslnh ; set pointer to line high byte
|
||
|
BNE LAB_14E2 ; go do next line if not [EOT]
|
||
|
; else ..
|
||
|
LAB_152B
|
||
|
RTS
|
||
|
|
||
|
LAB_152E
|
||
|
BPL LAB_150C ; just go print it if not token byte
|
||
|
|
||
|
; else was token byte so uncrunch it (maybe)
|
||
|
BIT Oquote ; test the open quote flag
|
||
|
BMI LAB_150C ; just go print character if open quote set
|
||
|
|
||
|
LDX #>LAB_KEYT ; get table address high byte
|
||
|
ASL ; *2
|
||
|
ASL ; *4
|
||
|
BCC LAB_152F ; branch if no carry
|
||
|
|
||
|
INX ; else increment high byte
|
||
|
CLC ; clear carry for add
|
||
|
LAB_152F
|
||
|
ADC #<LAB_KEYT ; add low byte
|
||
|
BCC LAB_1530 ; branch if no carry
|
||
|
|
||
|
INX ; else increment high byte
|
||
|
LAB_1530
|
||
|
STA ut2_pl ; save table pointer low byte
|
||
|
STX ut2_ph ; save table pointer high byte
|
||
|
STY Tidx1 ; save index for line
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (ut2_pl),Y ; get length
|
||
|
TAX ; copy length
|
||
|
INY ; increment index
|
||
|
LDA (ut2_pl),Y ; get 1st character
|
||
|
DEX ; decrement length
|
||
|
BEQ LAB_1508 ; if no more characters exit and print
|
||
|
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
INY ; increment index
|
||
|
LDA (ut2_pl),Y ; get keyword address low byte
|
||
|
PHA ; save it for now
|
||
|
INY ; increment index
|
||
|
LDA (ut2_pl),Y ; get keyword address high byte
|
||
|
LDY #$00
|
||
|
STA ut2_ph ; save keyword pointer high byte
|
||
|
PLA ; pull low byte
|
||
|
STA ut2_pl ; save keyword pointer low byte
|
||
|
LAB_1540
|
||
|
LDA (ut2_pl),Y ; get character
|
||
|
DEX ; decrement character count
|
||
|
BEQ LAB_1508 ; if last character exit and print
|
||
|
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
INY ; increment index
|
||
|
BNE LAB_1540 ; loop for next character
|
||
|
|
||
|
; perform FOR
|
||
|
|
||
|
LAB_FOR
|
||
|
LDA #$80 ; set FNX
|
||
|
STA Sufnxf ; set subscript/FNX flag
|
||
|
JSR LAB_LET ; go do LET
|
||
|
PLA ; pull return address
|
||
|
PLA ; pull return address
|
||
|
LDA #$10 ; we need 16d bytes !
|
||
|
JSR LAB_1212 ; check room on stack for A bytes
|
||
|
JSR LAB_SNBS ; scan for next BASIC statement ([:] or [EOL])
|
||
|
CLC ; clear carry for add
|
||
|
TYA ; copy index to A
|
||
|
ADC Bpntrl ; add BASIC execute pointer low byte
|
||
|
PHA ; push onto stack
|
||
|
LDA Bpntrh ; get BASIC execute pointer high byte
|
||
|
ADC #$00 ; add carry
|
||
|
PHA ; push onto stack
|
||
|
LDA Clineh ; get current line high byte
|
||
|
PHA ; push onto stack
|
||
|
LDA Clinel ; get current line low byte
|
||
|
PHA ; push onto stack
|
||
|
LDA #TK_TO ; get "TO" token
|
||
|
JSR LAB_SCCA ; scan for CHR$(A) , else do syntax error then warm start
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
ORA #$7F ; set all non sign bits
|
||
|
AND FAC1_1 ; and FAC1 mantissa1
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
LDA #<LAB_159F ; set return address low byte
|
||
|
LDY #>LAB_159F ; set return address high byte
|
||
|
STA ut1_pl ; save return address low byte
|
||
|
STY ut1_ph ; save return address high byte
|
||
|
JMP LAB_1B66 ; round FAC1 and put on stack (returns to next instruction)
|
||
|
|
||
|
LAB_159F
|
||
|
LDA #<LAB_259C ; set 1 pointer low addr (default step size)
|
||
|
LDY #>LAB_259C ; set 1 pointer high addr
|
||
|
JSR LAB_UFAC ; unpack memory (AY) into FAC1
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
CMP #TK_STEP ; compare with STEP token
|
||
|
BNE LAB_15B3 ; jump if not "STEP"
|
||
|
|
||
|
;.was step so ..
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
LAB_15B3
|
||
|
JSR LAB_27CA ; return A=FF,C=1/-ve A=01,C=0/+ve
|
||
|
STA FAC1_s ; set FAC1 sign (b7)
|
||
|
; this is +1 for +ve step and -1 for -ve step, in NEXT we
|
||
|
; compare the FOR value and the TO value and return +1 if
|
||
|
; FOR > TO, 0 if FOR = TO and -1 if FOR < TO. the value
|
||
|
; here (+/-1) is then compared to that result and if they
|
||
|
; are the same (+ve and FOR > TO or -ve and FOR < TO) then
|
||
|
; the loop is done
|
||
|
JSR LAB_1B5B ; push sign, round FAC1 and put on stack
|
||
|
LDA Frnxth ; get var pointer for FOR/NEXT high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Frnxtl ; get var pointer for FOR/NEXT low byte
|
||
|
PHA ; push on stack
|
||
|
LDA #TK_FOR ; get FOR token
|
||
|
PHA ; push on stack
|
||
|
|
||
|
; interpreter inner loop
|
||
|
|
||
|
LAB_15C2
|
||
|
JSR LAB_1629 ; do CRTL-C check vector
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
LDY Bpntrh ; get BASIC execute pointer high byte
|
||
|
|
||
|
LDX Clineh ; continue line is $FFxx for immediate mode
|
||
|
; ($00xx for RUN from immediate mode)
|
||
|
INX ; increment it (now $00 if immediate mode)
|
||
|
BEQ LAB_15D1 ; branch if null (immediate mode)
|
||
|
|
||
|
STA Cpntrl ; save continue pointer low byte
|
||
|
STY Cpntrh ; save continue pointer high byte
|
||
|
LAB_15D1
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (Bpntrl),Y ; get next byte
|
||
|
BEQ LAB_15DC ; branch if null [EOL]
|
||
|
|
||
|
CMP #':' ; compare with ":"
|
||
|
BEQ LAB_15F6 ; branch if = (statement separator)
|
||
|
|
||
|
LAB_15D9
|
||
|
JMP LAB_SNER ; else syntax error then warm start
|
||
|
|
||
|
; have reached [EOL]
|
||
|
LAB_15DC
|
||
|
LDY #$02 ; set index
|
||
|
LDA (Bpntrl),Y ; get next line pointer high byte
|
||
|
CLC ; clear carry for no "BREAK" message
|
||
|
BEQ LAB_1651 ; if null go to immediate mode (was immediate or [EOT]
|
||
|
; marker)
|
||
|
|
||
|
INY ; increment index
|
||
|
LDA (Bpntrl),Y ; get line # low byte
|
||
|
STA Clinel ; save current line low byte
|
||
|
INY ; increment index
|
||
|
LDA (Bpntrl),Y ; get line # high byte
|
||
|
STA Clineh ; save current line high byte
|
||
|
TYA ; A now = 4
|
||
|
ADC Bpntrl ; add BASIC execute pointer low byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
BCC LAB_15F6 ; branch if no overflow
|
||
|
|
||
|
INC Bpntrh ; else increment BASIC execute pointer high byte
|
||
|
LAB_15F6
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
|
||
|
LAB_15F9
|
||
|
JSR LAB_15FF ; go interpret BASIC code from (Bpntrl)
|
||
|
|
||
|
LAB_15FC
|
||
|
JMP LAB_15C2 ; loop
|
||
|
|
||
|
; interpret BASIC code from (Bpntrl)
|
||
|
|
||
|
LAB_15FF
|
||
|
BEQ LAB_1628 ; exit if zero [EOL]
|
||
|
|
||
|
LAB_1602
|
||
|
ASL ; *2 bytes per vector and normalise token
|
||
|
BCS LAB_1609 ; branch if was token
|
||
|
|
||
|
JMP LAB_LET ; else go do implied LET
|
||
|
|
||
|
LAB_1609
|
||
|
CMP #[TK_TAB-$80]*2 ; compare normalised token * 2 with TAB
|
||
|
BCS LAB_15D9 ; branch if A>=TAB (do syntax error then warm start)
|
||
|
; only tokens before TAB can start a line
|
||
|
TAY ; copy to index
|
||
|
LDA LAB_CTBL+1,Y ; get vector high byte
|
||
|
PHA ; onto stack
|
||
|
LDA LAB_CTBL,Y ; get vector low byte
|
||
|
PHA ; onto stack
|
||
|
JMP LAB_IGBY ; jump to increment and scan memory
|
||
|
; then "return" to vector
|
||
|
|
||
|
; CTRL-C check jump. this is called as a subroutine but exits back via a jump if a
|
||
|
; key press is detected.
|
||
|
|
||
|
LAB_1629
|
||
|
JMP (VEC_CC) ; ctrl c check vector
|
||
|
|
||
|
; if there was a key press it gets back here ..
|
||
|
|
||
|
LAB_1636
|
||
|
CMP #$03 ; compare with CTRL-C
|
||
|
|
||
|
; perform STOP
|
||
|
|
||
|
LAB_STOP
|
||
|
BCS LAB_163B ; branch if token follows STOP
|
||
|
; else just END
|
||
|
; END
|
||
|
|
||
|
LAB_END
|
||
|
CLC ; clear the carry, indicate a normal program end
|
||
|
LAB_163B
|
||
|
BNE LAB_167A ; if wasn't CTRL-C or there is a following byte return
|
||
|
|
||
|
LDA Bpntrh ; get the BASIC execute pointer high byte
|
||
|
EOR #>Ibuffs ; compare with buffer address high byte (Cb unchanged)
|
||
|
BEQ LAB_164F ; branch if the BASIC pointer is in the input buffer
|
||
|
; (can't continue in immediate mode)
|
||
|
|
||
|
; else ..
|
||
|
EOR #>Ibuffs ; correct the bits
|
||
|
LDY Bpntrl ; get BASIC execute pointer low byte
|
||
|
STY Cpntrl ; save continue pointer low byte
|
||
|
STA Cpntrh ; save continue pointer high byte
|
||
|
LAB_1647
|
||
|
LDA Clinel ; get current line low byte
|
||
|
LDY Clineh ; get current line high byte
|
||
|
STA Blinel ; save break line low byte
|
||
|
STY Blineh ; save break line high byte
|
||
|
LAB_164F
|
||
|
PLA ; pull return address low
|
||
|
PLA ; pull return address high
|
||
|
LAB_1651
|
||
|
BCC LAB_165E ; if was program end just do warm start
|
||
|
|
||
|
; else ..
|
||
|
LDA #<LAB_BMSG ; point to "Break" low byte
|
||
|
LDY #>LAB_BMSG ; point to "Break" high byte
|
||
|
JMP LAB_1269 ; print "Break" and do warm start
|
||
|
|
||
|
LAB_165E
|
||
|
JMP LAB_1274 ; go do warm start
|
||
|
|
||
|
; perform RESTORE
|
||
|
|
||
|
LAB_RESTORE
|
||
|
BNE LAB_RESTOREn ; branch if next character not null (RESTORE n)
|
||
|
|
||
|
LAB_161A
|
||
|
SEC ; set carry for subtract
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
SBC #$01 ; -1
|
||
|
LDY Smemh ; get start of mem high byte
|
||
|
BCS LAB_1624 ; branch if no underflow
|
||
|
|
||
|
LAB_uflow
|
||
|
DEY ; else decrement high byte
|
||
|
LAB_1624
|
||
|
STA Dptrl ; save DATA pointer low byte
|
||
|
STY Dptrh ; save DATA pointer high byte
|
||
|
LAB_1628
|
||
|
RTS
|
||
|
|
||
|
; is RESTORE n
|
||
|
LAB_RESTOREn
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer
|
||
|
JSR LAB_SNBL ; scan for next BASIC line
|
||
|
LDA Clineh ; get current line high byte
|
||
|
CMP Itemph ; compare with temporary integer high byte
|
||
|
BCS LAB_reset_search ; branch if >= (start search from beginning)
|
||
|
|
||
|
TYA ; else copy line index to A
|
||
|
SEC ; set carry (+1)
|
||
|
ADC Bpntrl ; add BASIC execute pointer low byte
|
||
|
LDX Bpntrh ; get BASIC execute pointer high byte
|
||
|
BCC LAB_go_search ; branch if no overflow to high byte
|
||
|
|
||
|
INX ; increment high byte
|
||
|
BCS LAB_go_search ; branch always (can never be carry clear)
|
||
|
|
||
|
; search for line # in temp (Itempl/Itemph) from start of mem pointer (Smeml)
|
||
|
|
||
|
LAB_reset_search
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
LDX Smemh ; get start of mem high byte
|
||
|
|
||
|
; search for line # in temp (Itempl/Itemph) from (AX)
|
||
|
|
||
|
LAB_go_search
|
||
|
|
||
|
JSR LAB_SHLN ; search Basic for temp integer line number from AX
|
||
|
BCS LAB_line_found ; if carry set go set pointer
|
||
|
|
||
|
JMP LAB_16F7 ; else go do "Undefined statement" error
|
||
|
|
||
|
LAB_line_found
|
||
|
; carry already set for subtract
|
||
|
LDA Baslnl ; get pointer low byte
|
||
|
SBC #$01 ; -1
|
||
|
LDY Baslnh ; get pointer high byte
|
||
|
BCS LAB_1624 ; branch if no underflow (save DATA pointer and return)
|
||
|
|
||
|
BCC LAB_uflow ; else decrement high byte then save DATA pointer and
|
||
|
; return (branch always)
|
||
|
|
||
|
; perform NULL
|
||
|
|
||
|
LAB_NULL
|
||
|
JSR LAB_GTBY ; get byte parameter
|
||
|
STX Nullct ; save new NULL count
|
||
|
LAB_167A
|
||
|
RTS
|
||
|
|
||
|
; perform CONT
|
||
|
|
||
|
LAB_CONT
|
||
|
BNE LAB_167A ; if following byte exit to do syntax error
|
||
|
|
||
|
LDY Cpntrh ; get continue pointer high byte
|
||
|
BNE LAB_166C ; go do continue if we can
|
||
|
|
||
|
LDX #$1E ; error code $1E ("Can't continue" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; we can continue so ..
|
||
|
LAB_166C
|
||
|
LDA #TK_ON ; set token for ON
|
||
|
JSR LAB_IRQ ; set IRQ flags
|
||
|
LDA #TK_ON ; set token for ON
|
||
|
JSR LAB_NMI ; set NMI flags
|
||
|
|
||
|
STY Bpntrh ; save BASIC execute pointer high byte
|
||
|
LDA Cpntrl ; get continue pointer low byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
LDA Blinel ; get break line low byte
|
||
|
LDY Blineh ; get break line high byte
|
||
|
STA Clinel ; set current line low byte
|
||
|
STY Clineh ; set current line high byte
|
||
|
RTS
|
||
|
|
||
|
; perform RUN
|
||
|
|
||
|
LAB_RUN
|
||
|
BNE LAB_1696 ; branch if RUN n
|
||
|
JMP LAB_1477 ; reset execution to start, clear variables, flush stack and
|
||
|
; return
|
||
|
|
||
|
; does RUN n
|
||
|
|
||
|
LAB_1696
|
||
|
JSR LAB_147A ; go do "CLEAR"
|
||
|
BEQ LAB_16B0 ; get n and do GOTO n (branch always as CLEAR sets Z=1)
|
||
|
|
||
|
; perform DO
|
||
|
|
||
|
LAB_DO
|
||
|
LDA #$05 ; need 5 bytes for DO
|
||
|
JSR LAB_1212 ; check room on stack for A bytes
|
||
|
LDA Bpntrh ; get BASIC execute pointer high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
PHA ; push on stack
|
||
|
LDA Clineh ; get current line high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Clinel ; get current line low byte
|
||
|
PHA ; push on stack
|
||
|
LDA #TK_DO ; token for DO
|
||
|
PHA ; push on stack
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
JMP LAB_15C2 ; go do interpreter inner loop
|
||
|
|
||
|
; perform GOSUB
|
||
|
|
||
|
LAB_GOSUB
|
||
|
LDA #$05 ; need 5 bytes for GOSUB
|
||
|
JSR LAB_1212 ; check room on stack for A bytes
|
||
|
LDA Bpntrh ; get BASIC execute pointer high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
PHA ; push on stack
|
||
|
LDA Clineh ; get current line high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Clinel ; get current line low byte
|
||
|
PHA ; push on stack
|
||
|
LDA #TK_GOSUB ; token for GOSUB
|
||
|
PHA ; push on stack
|
||
|
LAB_16B0
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
JSR LAB_GOTO ; perform GOTO n
|
||
|
JMP LAB_15C2 ; go do interpreter inner loop
|
||
|
; (can't RTS, we used the stack!)
|
||
|
|
||
|
; perform GOTO
|
||
|
|
||
|
LAB_GOTO
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer
|
||
|
JSR LAB_SNBL ; scan for next BASIC line
|
||
|
LDA Clineh ; get current line high byte
|
||
|
CMP Itemph ; compare with temporary integer high byte
|
||
|
BCS LAB_16D0 ; branch if >= (start search from beginning)
|
||
|
|
||
|
TYA ; else copy line index to A
|
||
|
SEC ; set carry (+1)
|
||
|
ADC Bpntrl ; add BASIC execute pointer low byte
|
||
|
LDX Bpntrh ; get BASIC execute pointer high byte
|
||
|
BCC LAB_16D4 ; branch if no overflow to high byte
|
||
|
|
||
|
INX ; increment high byte
|
||
|
BCS LAB_16D4 ; branch always (can never be carry)
|
||
|
|
||
|
; search for line # in temp (Itempl/Itemph) from start of mem pointer (Smeml)
|
||
|
|
||
|
LAB_16D0
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
LDX Smemh ; get start of mem high byte
|
||
|
|
||
|
; search for line # in temp (Itempl/Itemph) from (AX)
|
||
|
|
||
|
LAB_16D4
|
||
|
JSR LAB_SHLN ; search Basic for temp integer line number from AX
|
||
|
BCC LAB_16F7 ; if carry clear go do "Undefined statement" error
|
||
|
; (unspecified statement)
|
||
|
|
||
|
; carry already set for subtract
|
||
|
LDA Baslnl ; get pointer low byte
|
||
|
SBC #$01 ; -1
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
LDA Baslnh ; get pointer high byte
|
||
|
SBC #$00 ; subtract carry
|
||
|
STA Bpntrh ; save BASIC execute pointer high byte
|
||
|
LAB_16E5
|
||
|
RTS
|
||
|
|
||
|
LAB_DONOK
|
||
|
LDX #$22 ; error code $22 ("LOOP without DO" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; perform LOOP
|
||
|
|
||
|
LAB_LOOP
|
||
|
TAY ; save following token
|
||
|
TSX ; copy stack pointer
|
||
|
LDA LAB_STAK+3,X ; get token byte from stack
|
||
|
CMP #TK_DO ; compare with DO token
|
||
|
BNE LAB_DONOK ; branch if no matching DO
|
||
|
|
||
|
INX ; dump calling routine return address
|
||
|
INX ; dump calling routine return address
|
||
|
TXS ; correct stack
|
||
|
TYA ; get saved following token back
|
||
|
BEQ LoopAlways ; if no following token loop forever
|
||
|
; (stack pointer in X)
|
||
|
|
||
|
CMP #':' ; could be ':'
|
||
|
BEQ LoopAlways ; if :... loop forever
|
||
|
|
||
|
SBC #TK_UNTIL ; subtract token for UNTIL, we know carry is set here
|
||
|
TAX ; copy to X (if it was UNTIL then Y will be correct)
|
||
|
BEQ DoRest ; branch if was UNTIL
|
||
|
|
||
|
DEX ; decrement result
|
||
|
BNE LAB_16FC ; if not WHILE go do syntax error and warm start
|
||
|
; only if the token was WHILE will this fail
|
||
|
|
||
|
DEX ; set invert result byte
|
||
|
DoRest
|
||
|
STX Frnxth ; save invert result byte
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_EVEX ; evaluate expression
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ DoCmp ; if =0 go do straight compare
|
||
|
|
||
|
LDA #$FF ; else set all bits
|
||
|
DoCmp
|
||
|
TSX ; copy stack pointer
|
||
|
EOR Frnxth ; EOR with invert byte
|
||
|
BNE LoopDone ; if <> 0 clear stack and back to interpreter loop
|
||
|
|
||
|
; loop condition wasn't met so do it again
|
||
|
LoopAlways
|
||
|
LDA LAB_STAK+2,X ; get current line low byte
|
||
|
STA Clinel ; save current line low byte
|
||
|
LDA LAB_STAK+3,X ; get current line high byte
|
||
|
STA Clineh ; save current line high byte
|
||
|
LDA LAB_STAK+4,X ; get BASIC execute pointer low byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
LDA LAB_STAK+5,X ; get BASIC execute pointer high byte
|
||
|
STA Bpntrh ; save BASIC execute pointer high byte
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
JMP LAB_15C2 ; go do interpreter inner loop
|
||
|
|
||
|
; clear stack and back to interpreter loop
|
||
|
LoopDone
|
||
|
INX ; dump DO token
|
||
|
INX ; dump current line low byte
|
||
|
INX ; dump current line high byte
|
||
|
INX ; dump BASIC execute pointer low byte
|
||
|
INX ; dump BASIC execute pointer high byte
|
||
|
TXS ; correct stack
|
||
|
JMP LAB_DATA ; go perform DATA (find : or [EOL])
|
||
|
|
||
|
; do the return without gosub error
|
||
|
|
||
|
LAB_16F4
|
||
|
LDX #$04 ; error code $04 ("RETURN without GOSUB" error)
|
||
|
.byte $2C ; makes next line BIT LAB_0EA2
|
||
|
|
||
|
LAB_16F7 ; do undefined statement error
|
||
|
LDX #$0E ; error code $0E ("Undefined statement" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; perform RETURN
|
||
|
|
||
|
LAB_RETURN
|
||
|
BNE LAB_16E5 ; exit if following token (to allow syntax error)
|
||
|
|
||
|
LAB_16E8
|
||
|
PLA ; dump calling routine return address
|
||
|
PLA ; dump calling routine return address
|
||
|
PLA ; pull token
|
||
|
CMP #TK_GOSUB ; compare with GOSUB token
|
||
|
BNE LAB_16F4 ; branch if no matching GOSUB
|
||
|
|
||
|
LAB_16FF
|
||
|
PLA ; pull current line low byte
|
||
|
STA Clinel ; save current line low byte
|
||
|
PLA ; pull current line high byte
|
||
|
STA Clineh ; save current line high byte
|
||
|
PLA ; pull BASIC execute pointer low byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
PLA ; pull BASIC execute pointer high byte
|
||
|
STA Bpntrh ; save BASIC execute pointer high byte
|
||
|
|
||
|
; now do the DATA statement as we could be returning into
|
||
|
; the middle of an ON <var> GOSUB n,m,p,q line
|
||
|
; (the return address used by the DATA statement is the one
|
||
|
; pushed before the GOSUB was executed!)
|
||
|
|
||
|
; perform DATA
|
||
|
|
||
|
LAB_DATA
|
||
|
JSR LAB_SNBS ; scan for next BASIC statement ([:] or [EOL])
|
||
|
|
||
|
; set BASIC execute pointer
|
||
|
LAB_170F
|
||
|
TYA ; copy index to A
|
||
|
CLC ; clear carry for add
|
||
|
ADC Bpntrl ; add BASIC execute pointer low byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
BCC LAB_1719 ; skip next if no carry
|
||
|
|
||
|
INC Bpntrh ; else increment BASIC execute pointer high byte
|
||
|
LAB_1719
|
||
|
RTS
|
||
|
|
||
|
LAB_16FC
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
; scan for next BASIC statement ([:] or [EOL])
|
||
|
; returns Y as index to [:] or [EOL]
|
||
|
|
||
|
LAB_SNBS
|
||
|
LDX #':' ; set look for character = ":"
|
||
|
.byte $2C ; makes next line BIT $00A2
|
||
|
|
||
|
; scan for next BASIC line
|
||
|
; returns Y as index to [EOL]
|
||
|
|
||
|
LAB_SNBL
|
||
|
LDX #$00 ; set alt search character = [EOL]
|
||
|
LDY #$00 ; set search character = [EOL]
|
||
|
STY Asrch ; store search character
|
||
|
LAB_1725
|
||
|
TXA ; get alt search character
|
||
|
EOR Asrch ; toggle search character, effectively swap with $00
|
||
|
STA Asrch ; save swapped search character
|
||
|
LAB_172D
|
||
|
LDA (Bpntrl),Y ; get next byte
|
||
|
BEQ LAB_1719 ; exit if null [EOL]
|
||
|
|
||
|
CMP Asrch ; compare with search character
|
||
|
BEQ LAB_1719 ; exit if found
|
||
|
|
||
|
INY ; increment index
|
||
|
CMP #$22 ; compare current character with open quote
|
||
|
BNE LAB_172D ; if not open quote go get next character
|
||
|
|
||
|
BEQ LAB_1725 ; if found go swap search character for alt search character
|
||
|
|
||
|
; perform IF
|
||
|
|
||
|
LAB_IF
|
||
|
JSR LAB_EVEX ; evaluate the expression
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
CMP #TK_THEN ; compare with THEN token
|
||
|
BEQ LAB_174B ; if it was THEN go do IF
|
||
|
|
||
|
; wasn't IF .. THEN so must be IF .. GOTO
|
||
|
CMP #TK_GOTO ; compare with GOTO token
|
||
|
BNE LAB_16FC ; if it wasn't GOTO go do syntax error
|
||
|
|
||
|
LDX Bpntrl ; save the basic pointer low byte
|
||
|
LDY Bpntrh ; save the basic pointer high byte
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
BCS LAB_16FC ; if not numeric go do syntax error
|
||
|
|
||
|
STX Bpntrl ; restore the basic pointer low byte
|
||
|
STY Bpntrh ; restore the basic pointer high byte
|
||
|
LAB_174B
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_174E ; if the result was zero go look for an ELSE
|
||
|
|
||
|
JSR LAB_IGBY ; else increment and scan memory
|
||
|
BCS LAB_174D ; if not numeric go do var or keyword
|
||
|
|
||
|
LAB_174C
|
||
|
JMP LAB_GOTO ; else was numeric so do GOTO n
|
||
|
|
||
|
; is var or keyword
|
||
|
LAB_174D
|
||
|
CMP #TK_RETURN ; compare the byte with the token for RETURN
|
||
|
BNE LAB_174G ; if it wasn't RETURN go interpret BASIC code from (Bpntrl)
|
||
|
; and return to this code to process any following code
|
||
|
|
||
|
JMP LAB_1602 ; else it was RETURN so interpret BASIC code from (Bpntrl)
|
||
|
; but don't return here
|
||
|
|
||
|
LAB_174G
|
||
|
JSR LAB_15FF ; interpret BASIC code from (Bpntrl)
|
||
|
|
||
|
; the IF was executed and there may be a following ELSE so the code needs to return
|
||
|
; here to check and ignore the ELSE if present
|
||
|
|
||
|
LDY #$00 ; clear the index
|
||
|
LDA (Bpntrl),Y ; get the next BASIC byte
|
||
|
CMP #TK_ELSE ; compare it with the token for ELSE
|
||
|
BEQ LAB_DATA ; if ELSE ignore the following statement
|
||
|
|
||
|
; there was no ELSE so continue execution of IF <expr> THEN <stat> [: <stat>]. any
|
||
|
; following ELSE will, correctly, cause a syntax error
|
||
|
|
||
|
RTS ; else return to the interpreter inner loop
|
||
|
|
||
|
; perform ELSE after IF
|
||
|
|
||
|
LAB_174E
|
||
|
LDY #$00 ; clear the BASIC byte index
|
||
|
LDX #$01 ; clear the nesting depth
|
||
|
LAB_1750
|
||
|
INY ; increment the BASIC byte index
|
||
|
LDA (Bpntrl),Y ; get the next BASIC byte
|
||
|
BEQ LAB_1753 ; if EOL go add the pointer and return
|
||
|
|
||
|
CMP #TK_IF ; compare the byte with the token for IF
|
||
|
BNE LAB_1752 ; if not IF token skip the depth increment
|
||
|
|
||
|
INX ; else increment the nesting depth ..
|
||
|
BNE LAB_1750 ; .. and continue looking
|
||
|
|
||
|
LAB_1752
|
||
|
CMP #TK_ELSE ; compare the byte with the token for ELSE
|
||
|
BNE LAB_1750 ; if not ELSE token continue looking
|
||
|
|
||
|
DEX ; was ELSE so decrement the nesting depth
|
||
|
BNE LAB_1750 ; loop if still nested
|
||
|
|
||
|
INY ; increment the BASIC byte index past the ELSE
|
||
|
|
||
|
; found the matching ELSE, now do <{n|statement}>
|
||
|
|
||
|
LAB_1753
|
||
|
TYA ; else copy line index to A
|
||
|
CLC ; clear carry for add
|
||
|
ADC Bpntrl ; add the BASIC execute pointer low byte
|
||
|
STA Bpntrl ; save the BASIC execute pointer low byte
|
||
|
BCC LAB_1754 ; branch if no overflow to high byte
|
||
|
|
||
|
INC Bpntrh ; else increment the BASIC execute pointer high byte
|
||
|
LAB_1754
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BCC LAB_174C ; if numeric do GOTO n
|
||
|
; the code will return to the interpreter loop at the
|
||
|
; tail end of the GOTO <n>
|
||
|
|
||
|
JMP LAB_15FF ; interpret BASIC code from (Bpntrl)
|
||
|
; the code will return to the interpreter loop at the
|
||
|
; tail end of the <statement>
|
||
|
|
||
|
; perform REM, skip (rest of) line
|
||
|
|
||
|
LAB_REM
|
||
|
JSR LAB_SNBL ; scan for next BASIC line
|
||
|
JMP LAB_170F ; go set BASIC execute pointer and return, branch always
|
||
|
|
||
|
LAB_16FD
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
; perform ON
|
||
|
|
||
|
LAB_ON
|
||
|
CMP #TK_IRQ ; was it IRQ token ?
|
||
|
BNE LAB_NOIN ; if not go check NMI
|
||
|
|
||
|
JMP LAB_SIRQ ; else go set-up IRQ
|
||
|
|
||
|
LAB_NOIN
|
||
|
CMP #TK_NMI ; was it NMI token ?
|
||
|
BNE LAB_NONM ; if not go do normal ON command
|
||
|
|
||
|
JMP LAB_SNMI ; else go set-up NMI
|
||
|
|
||
|
LAB_NONM
|
||
|
JSR LAB_GTBY ; get byte parameter
|
||
|
PHA ; push GOTO/GOSUB token
|
||
|
CMP #TK_GOSUB ; compare with GOSUB token
|
||
|
BEQ LAB_176B ; branch if GOSUB
|
||
|
|
||
|
CMP #TK_GOTO ; compare with GOTO token
|
||
|
LAB_1767
|
||
|
BNE LAB_16FD ; if not GOTO do syntax error then warm start
|
||
|
|
||
|
|
||
|
; next character was GOTO or GOSUB
|
||
|
|
||
|
LAB_176B
|
||
|
DEC FAC1_3 ; decrement index (byte value)
|
||
|
BNE LAB_1773 ; branch if not zero
|
||
|
|
||
|
PLA ; pull GOTO/GOSUB token
|
||
|
JMP LAB_1602 ; go execute it
|
||
|
|
||
|
LAB_1773
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer (skip this n)
|
||
|
; (we could LDX #',' and JSR LAB_SNBL+2, then we
|
||
|
; just BNE LAB_176B for the loop. should be quicker ..
|
||
|
; no we can't, what if we meet a colon or [EOL]?)
|
||
|
CMP #$2C ; compare next character with ","
|
||
|
BEQ LAB_176B ; loop if ","
|
||
|
|
||
|
LAB_177E
|
||
|
PLA ; else pull keyword token (run out of options)
|
||
|
; also dump +/-1 pointer low byte and exit
|
||
|
LAB_177F
|
||
|
RTS
|
||
|
|
||
|
; takes n * 106 + 11 cycles where n is the number of digits
|
||
|
|
||
|
; get fixed-point number into temp integer
|
||
|
|
||
|
LAB_GFPN
|
||
|
LDX #$00 ; clear reg
|
||
|
STX Itempl ; clear temporary integer low byte
|
||
|
LAB_1785
|
||
|
STX Itemph ; save temporary integer high byte
|
||
|
BCS LAB_177F ; return if carry set, end of scan, character was
|
||
|
; not 0-9
|
||
|
|
||
|
CPX #$19 ; compare high byte with $19
|
||
|
TAY ; ensure Zb = 0 if the branch is taken
|
||
|
BCS LAB_1767 ; branch if >=, makes max line # 63999 because next
|
||
|
; bit does *$0A, = 64000, compare at target will fail
|
||
|
; and do syntax error
|
||
|
|
||
|
SBC #'0'-1 ; subtract "0", $2F + carry, from byte
|
||
|
TAY ; copy binary digit
|
||
|
LDA Itempl ; get temporary integer low byte
|
||
|
ASL ; *2 low byte
|
||
|
ROL Itemph ; *2 high byte
|
||
|
ASL ; *2 low byte
|
||
|
ROL Itemph ; *2 high byte, *4
|
||
|
ADC Itempl ; + low byte, *5
|
||
|
STA Itempl ; save it
|
||
|
TXA ; get high byte copy to A
|
||
|
ADC Itemph ; + high byte, *5
|
||
|
ASL Itempl ; *2 low byte, *10d
|
||
|
ROL ; *2 high byte, *10d
|
||
|
TAX ; copy high byte back to X
|
||
|
TYA ; get binary digit back
|
||
|
ADC Itempl ; add number low byte
|
||
|
STA Itempl ; save number low byte
|
||
|
BCC LAB_17B3 ; if no overflow to high byte get next character
|
||
|
|
||
|
INX ; else increment high byte
|
||
|
LAB_17B3
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JMP LAB_1785 ; loop for next character
|
||
|
|
||
|
; perform DEC
|
||
|
|
||
|
LAB_DEC
|
||
|
LDA #<LAB_2AFD ; set -1 pointer low byte
|
||
|
.byte $2C ; BIT abs to skip the LDA below
|
||
|
|
||
|
; perform INC
|
||
|
|
||
|
LAB_INC
|
||
|
LDA #<LAB_259C ; set 1 pointer low byte
|
||
|
LAB_17B5
|
||
|
PHA ; save +/-1 pointer low byte
|
||
|
LAB_17B7
|
||
|
JSR LAB_GVAR ; get var address
|
||
|
LDX Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
BMI IncrErr ; exit if string
|
||
|
|
||
|
STA Lvarpl ; save var address low byte
|
||
|
STY Lvarph ; save var address high byte
|
||
|
JSR LAB_UFAC ; unpack memory (AY) into FAC1
|
||
|
PLA ; get +/-1 pointer low byte
|
||
|
PHA ; save +/-1 pointer low byte
|
||
|
LDY #>LAB_259C ; set +/-1 pointer high byte (both the same)
|
||
|
JSR LAB_246C ; add (AY) to FAC1
|
||
|
JSR LAB_PFAC ; pack FAC1 into variable (Lvarpl)
|
||
|
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
CMP #',' ; compare with ","
|
||
|
BNE LAB_177E ; exit if not "," (either end or error)
|
||
|
|
||
|
; was "," so another INCR variable to do
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JMP LAB_17B7 ; go do next var
|
||
|
|
||
|
IncrErr
|
||
|
JMP LAB_1ABC ; do "Type mismatch" error then warm start
|
||
|
|
||
|
; perform LET
|
||
|
|
||
|
LAB_LET
|
||
|
JSR LAB_GVAR ; get var address
|
||
|
STA Lvarpl ; save var address low byte
|
||
|
STY Lvarph ; save var address high byte
|
||
|
LDA #TK_EQUAL ; get = token
|
||
|
JSR LAB_SCCA ; scan for CHR$(A), else do syntax error then warm start
|
||
|
LDA Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
PHA ; push data type flag
|
||
|
JSR LAB_EVEX ; evaluate expression
|
||
|
PLA ; pop data type flag
|
||
|
ROL ; set carry if type = string
|
||
|
JSR LAB_CKTM ; type match check, set C for string
|
||
|
BNE LAB_17D5 ; branch if string
|
||
|
|
||
|
JMP LAB_PFAC ; pack FAC1 into variable (Lvarpl) and return
|
||
|
|
||
|
; string LET
|
||
|
|
||
|
LAB_17D5
|
||
|
LDY #$02 ; set index to pointer high byte
|
||
|
LDA (des_pl),Y ; get string pointer high byte
|
||
|
CMP Sstorh ; compare bottom of string space high byte
|
||
|
BCC LAB_17F4 ; if less assign value and exit (was in program memory)
|
||
|
|
||
|
BNE LAB_17E6 ; branch if >
|
||
|
; else was equal so compare low bytes
|
||
|
DEY ; decrement index
|
||
|
LDA (des_pl),Y ; get pointer low byte
|
||
|
CMP Sstorl ; compare bottom of string space low byte
|
||
|
BCC LAB_17F4 ; if less assign value and exit (was in program memory)
|
||
|
|
||
|
; pointer was >= to bottom of string space pointer
|
||
|
LAB_17E6
|
||
|
LDY des_ph ; get descriptor pointer high byte
|
||
|
CPY Svarh ; compare start of vars high byte
|
||
|
BCC LAB_17F4 ; branch if less (descriptor is on stack)
|
||
|
|
||
|
BNE LAB_17FB ; branch if greater (descriptor is not on stack)
|
||
|
|
||
|
; else high bytes were equal so ..
|
||
|
LDA des_pl ; get descriptor pointer low byte
|
||
|
CMP Svarl ; compare start of vars low byte
|
||
|
BCS LAB_17FB ; branch if >= (descriptor is not on stack)
|
||
|
|
||
|
LAB_17F4
|
||
|
LDA des_pl ; get descriptor pointer low byte
|
||
|
LDY des_ph ; get descriptor pointer high byte
|
||
|
JMP LAB_1811 ; clean stack, copy descriptor to variable and return
|
||
|
|
||
|
; make space and copy string
|
||
|
LAB_17FB
|
||
|
LDY #$00 ; index to length
|
||
|
LDA (des_pl),Y ; get string length
|
||
|
JSR LAB_209C ; copy string
|
||
|
LDA des_2l ; get descriptor pointer low byte
|
||
|
LDY des_2h ; get descriptor pointer high byte
|
||
|
STA ssptr_l ; save descriptor pointer low byte
|
||
|
STY ssptr_h ; save descriptor pointer high byte
|
||
|
JSR LAB_228A ; copy string from descriptor (sdescr) to (Sutill)
|
||
|
LDA #<FAC1_e ; set descriptor pointer low byte
|
||
|
LDY #>FAC1_e ; get descriptor pointer high byte
|
||
|
|
||
|
; clean stack and assign value to string variable
|
||
|
LAB_1811
|
||
|
STA des_2l ; save descriptor_2 pointer low byte
|
||
|
STY des_2h ; save descriptor_2 pointer high byte
|
||
|
JSR LAB_22EB ; clean descriptor stack, YA = pointer
|
||
|
LDY #$00 ; index to length
|
||
|
LDA (des_2l),Y ; get string length
|
||
|
STA (Lvarpl),Y ; copy to let string variable
|
||
|
INY ; index to string pointer low byte
|
||
|
LDA (des_2l),Y ; get string pointer low byte
|
||
|
STA (Lvarpl),Y ; copy to let string variable
|
||
|
INY ; index to string pointer high byte
|
||
|
LDA (des_2l),Y ; get string pointer high byte
|
||
|
STA (Lvarpl),Y ; copy to let string variable
|
||
|
RTS
|
||
|
|
||
|
; perform GET
|
||
|
|
||
|
LAB_GET
|
||
|
JSR LAB_GVAR ; get var address
|
||
|
STA Lvarpl ; save var address low byte
|
||
|
STY Lvarph ; save var address high byte
|
||
|
JSR INGET ; get input byte
|
||
|
LDX Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
BMI LAB_GETS ; go get string character
|
||
|
|
||
|
; was numeric get
|
||
|
TAY ; copy character to Y
|
||
|
JSR LAB_1FD0 ; convert Y to byte in FAC1
|
||
|
JMP LAB_PFAC ; pack FAC1 into variable (Lvarpl) and return
|
||
|
|
||
|
LAB_GETS
|
||
|
PHA ; save character
|
||
|
LDA #$01 ; string is single byte
|
||
|
BCS LAB_IsByte ; branch if byte received
|
||
|
|
||
|
PLA ; string is null
|
||
|
LAB_IsByte
|
||
|
JSR LAB_MSSP ; make string space A bytes long A=$AC=length,
|
||
|
; X=$AD=Sutill=ptr low byte, Y=$AE=Sutilh=ptr high byte
|
||
|
BEQ LAB_NoSt ; skip store if null string
|
||
|
|
||
|
PLA ; get character back
|
||
|
LDY #$00 ; clear index
|
||
|
STA (str_pl),Y ; save byte in string (byte IS string!)
|
||
|
LAB_NoSt
|
||
|
JSR LAB_RTST ; check for space on descriptor stack then put address
|
||
|
; and length on descriptor stack and update stack pointers
|
||
|
|
||
|
JMP LAB_17D5 ; do string LET and return
|
||
|
|
||
|
; perform PRINT
|
||
|
|
||
|
LAB_1829
|
||
|
JSR LAB_18C6 ; print string from Sutill/Sutilh
|
||
|
LAB_182C
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
|
||
|
; PRINT
|
||
|
|
||
|
LAB_PRINT
|
||
|
BEQ LAB_CRLF ; if nothing following just print CR/LF
|
||
|
|
||
|
LAB_1831
|
||
|
CMP #TK_TAB ; compare with TAB( token
|
||
|
BEQ LAB_18A2 ; go do TAB/SPC
|
||
|
|
||
|
CMP #TK_SPC ; compare with SPC( token
|
||
|
BEQ LAB_18A2 ; go do TAB/SPC
|
||
|
|
||
|
CMP #',' ; compare with ","
|
||
|
BEQ LAB_188B ; go do move to next TAB mark
|
||
|
|
||
|
CMP #';' ; compare with ";"
|
||
|
BEQ LAB_18BD ; if ";" continue with PRINT processing
|
||
|
|
||
|
JSR LAB_EVEX ; evaluate expression
|
||
|
BIT Dtypef ; test data type flag, $FF=string, $00=numeric
|
||
|
BMI LAB_1829 ; branch if string
|
||
|
|
||
|
JSR LAB_296E ; convert FAC1 to string
|
||
|
JSR LAB_20AE ; print " terminated string to Sutill/Sutilh
|
||
|
LDY #$00 ; clear index
|
||
|
|
||
|
; don't check fit if terminal width byte is zero
|
||
|
|
||
|
LDA TWidth ; get terminal width byte
|
||
|
BEQ LAB_185E ; skip check if zero
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
SBC TPos ; subtract terminal position
|
||
|
SBC (des_pl),Y ; subtract string length
|
||
|
BCS LAB_185E ; branch if less than terminal width
|
||
|
|
||
|
JSR LAB_CRLF ; else print CR/LF
|
||
|
LAB_185E
|
||
|
JSR LAB_18C6 ; print string from Sutill/Sutilh
|
||
|
BEQ LAB_182C ; always go continue processing line
|
||
|
|
||
|
; CR/LF return to BASIC from BASIC input handler
|
||
|
|
||
|
LAB_1866
|
||
|
LDA #$00 ; clear byte
|
||
|
STA Ibuffs,X ; null terminate input
|
||
|
LDX #<Ibuffs ; set X to buffer start-1 low byte
|
||
|
LDY #>Ibuffs ; set Y to buffer start-1 high byte
|
||
|
|
||
|
; print CR/LF
|
||
|
|
||
|
LAB_CRLF
|
||
|
LDA #$0D ; load [CR]
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
LDA #$0A ; load [LF]
|
||
|
BNE LAB_PRNA ; go print the character and return, branch always
|
||
|
|
||
|
LAB_188B
|
||
|
LDA TPos ; get terminal position
|
||
|
CMP Iclim ; compare with input column limit
|
||
|
BCC LAB_1897 ; branch if less
|
||
|
|
||
|
JSR LAB_CRLF ; else print CR/LF (next line)
|
||
|
BNE LAB_18BD ; continue with PRINT processing (branch always)
|
||
|
|
||
|
LAB_1897
|
||
|
SEC ; set carry for subtract
|
||
|
LAB_1898
|
||
|
SBC TabSiz ; subtract TAB size
|
||
|
BCS LAB_1898 ; loop if result was +ve
|
||
|
|
||
|
EOR #$FF ; complement it
|
||
|
ADC #$01 ; +1 (twos complement)
|
||
|
BNE LAB_18B6 ; always print A spaces (result is never $00)
|
||
|
|
||
|
; do TAB/SPC
|
||
|
LAB_18A2
|
||
|
PHA ; save token
|
||
|
JSR LAB_SGBY ; scan and get byte parameter
|
||
|
CMP #$29 ; is next character )
|
||
|
BNE LAB_1910 ; if not do syntax error then warm start
|
||
|
|
||
|
PLA ; get token back
|
||
|
CMP #TK_TAB ; was it TAB ?
|
||
|
BNE LAB_18B7 ; if not go do SPC
|
||
|
|
||
|
; calculate TAB offset
|
||
|
TXA ; copy integer value to A
|
||
|
SBC TPos ; subtract terminal position
|
||
|
BCC LAB_18BD ; branch if result was < 0 (can't TAB backwards)
|
||
|
|
||
|
; print A spaces
|
||
|
LAB_18B6
|
||
|
TAX ; copy result to X
|
||
|
LAB_18B7
|
||
|
TXA ; set flags on size for SPC
|
||
|
BEQ LAB_18BD ; branch if result was = $0, already here
|
||
|
|
||
|
; print X spaces
|
||
|
LAB_18BA
|
||
|
JSR LAB_18E0 ; print " "
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_18BA ; loop if not all done
|
||
|
|
||
|
; continue with PRINT processing
|
||
|
LAB_18BD
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
BNE LAB_1831 ; if more to print go do it
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; print null terminated string from memory
|
||
|
|
||
|
LAB_18C3
|
||
|
JSR LAB_20AE ; print " terminated string to Sutill/Sutilh
|
||
|
|
||
|
; print string from Sutill/Sutilh
|
||
|
|
||
|
LAB_18C6
|
||
|
JSR LAB_22B6 ; pop string off descriptor stack, or from top of string
|
||
|
; space returns with A = length, X=$71=pointer low byte,
|
||
|
; Y=$72=pointer high byte
|
||
|
LDY #$00 ; reset index
|
||
|
TAX ; copy length to X
|
||
|
BEQ LAB_188C ; exit (RTS) if null string
|
||
|
|
||
|
LAB_18CD
|
||
|
|
||
|
LDA (ut1_pl),Y ; get next byte
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
INY ; increment index
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_18CD ; loop if not done yet
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; Print single format character
|
||
|
; print " "
|
||
|
|
||
|
LAB_18E0
|
||
|
LDA #$20 ; load " "
|
||
|
.byte $2C ; change next line to BIT LAB_3FA9
|
||
|
|
||
|
; print "?" character
|
||
|
|
||
|
LAB_18E3
|
||
|
LDA #$3F ; load "?" character
|
||
|
|
||
|
; print character in A
|
||
|
; now includes the null handler
|
||
|
; also includes infinite line length code
|
||
|
; note! some routines expect this one to exit with Zb=0
|
||
|
|
||
|
LAB_PRNA
|
||
|
CMP #' ' ; compare with " "
|
||
|
BCC LAB_18F9 ; branch if less (non printing)
|
||
|
|
||
|
; else printable character
|
||
|
PHA ; save the character
|
||
|
|
||
|
; don't check fit if terminal width byte is zero
|
||
|
|
||
|
LDA TWidth ; get terminal width
|
||
|
BNE LAB_18F0 ; branch if not zero (not infinite length)
|
||
|
|
||
|
; is "infinite line" so check TAB position
|
||
|
|
||
|
LDA TPos ; get position
|
||
|
SBC TabSiz ; subtract TAB size, carry set by CMP #$20 above
|
||
|
BNE LAB_18F7 ; skip reset if different
|
||
|
|
||
|
STA TPos ; else reset position
|
||
|
BEQ LAB_18F7 ; go print character
|
||
|
|
||
|
LAB_18F0
|
||
|
CMP TPos ; compare with terminal character position
|
||
|
BNE LAB_18F7 ; branch if not at end of line
|
||
|
|
||
|
JSR LAB_CRLF ; else print CR/LF
|
||
|
LAB_18F7
|
||
|
INC TPos ; increment terminal position
|
||
|
PLA ; get character back
|
||
|
LAB_18F9
|
||
|
JSR V_OUTP ; output byte via output vector
|
||
|
CMP #$0D ; compare with [CR]
|
||
|
BNE LAB_188A ; branch if not [CR]
|
||
|
|
||
|
; else print nullct nulls after the [CR]
|
||
|
STX TempB ; save buffer index
|
||
|
LDX Nullct ; get null count
|
||
|
BEQ LAB_1886 ; branch if no nulls
|
||
|
|
||
|
LDA #$00 ; load [NULL]
|
||
|
LAB_1880
|
||
|
JSR LAB_PRNA ; go print the character
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_1880 ; loop if not all done
|
||
|
|
||
|
LDA #$0D ; restore the character (and set the flags)
|
||
|
LAB_1886
|
||
|
STX TPos ; clear terminal position (X always = zero when we get here)
|
||
|
LDX TempB ; restore buffer index
|
||
|
LAB_188A
|
||
|
AND #$FF ; set the flags
|
||
|
LAB_188C
|
||
|
RTS
|
||
|
|
||
|
; handle bad input data
|
||
|
|
||
|
LAB_1904
|
||
|
LDA Imode ; get input mode flag, $00=INPUT, $00=READ
|
||
|
BPL LAB_1913 ; branch if INPUT (go do redo)
|
||
|
|
||
|
LDA Dlinel ; get current DATA line low byte
|
||
|
LDY Dlineh ; get current DATA line high byte
|
||
|
STA Clinel ; save current line low byte
|
||
|
STY Clineh ; save current line high byte
|
||
|
LAB_1910
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
; mode was INPUT
|
||
|
LAB_1913
|
||
|
LDA #<LAB_REDO ; point to redo message (low addr)
|
||
|
LDY #>LAB_REDO ; point to redo message (high addr)
|
||
|
JSR LAB_18C3 ; print null terminated string from memory
|
||
|
LDA Cpntrl ; get continue pointer low byte
|
||
|
LDY Cpntrh ; get continue pointer high byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
STY Bpntrh ; save BASIC execute pointer high byte
|
||
|
RTS
|
||
|
|
||
|
; perform INPUT
|
||
|
|
||
|
LAB_INPUT
|
||
|
CMP #$22 ; compare next byte with open quote
|
||
|
BNE LAB_1934 ; branch if no prompt string
|
||
|
|
||
|
JSR LAB_1BC1 ; print "..." string
|
||
|
LDA #$3B ; load A with ";"
|
||
|
JSR LAB_SCCA ; scan for CHR$(A), else do syntax error then warm start
|
||
|
JSR LAB_18C6 ; print string from Sutill/Sutilh
|
||
|
|
||
|
; done with prompt, now get data
|
||
|
LAB_1934
|
||
|
JSR LAB_CKRN ; check not Direct, back here if ok
|
||
|
JSR LAB_INLN ; print "? " and get BASIC input
|
||
|
LDA #$00 ; set mode = INPUT
|
||
|
CMP Ibuffs ; test first byte in buffer
|
||
|
BNE LAB_1953 ; branch if not null input
|
||
|
|
||
|
CLC ; was null input so clear carry to exit program
|
||
|
JMP LAB_1647 ; go do BREAK exit
|
||
|
|
||
|
; perform READ
|
||
|
|
||
|
LAB_READ
|
||
|
LDX Dptrl ; get DATA pointer low byte
|
||
|
LDY Dptrh ; get DATA pointer high byte
|
||
|
LDA #$80 ; set mode = READ
|
||
|
|
||
|
LAB_1953
|
||
|
STA Imode ; set input mode flag, $00=INPUT, $80=READ
|
||
|
STX Rdptrl ; save READ pointer low byte
|
||
|
STY Rdptrh ; save READ pointer high byte
|
||
|
|
||
|
; READ or INPUT next variable from list
|
||
|
LAB_195B
|
||
|
JSR LAB_GVAR ; get (var) address
|
||
|
STA Lvarpl ; save address low byte
|
||
|
STY Lvarph ; save address high byte
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
LDY Bpntrh ; get BASIC execute pointer high byte
|
||
|
STA Itempl ; save as temporary integer low byte
|
||
|
STY Itemph ; save as temporary integer high byte
|
||
|
LDX Rdptrl ; get READ pointer low byte
|
||
|
LDY Rdptrh ; get READ pointer high byte
|
||
|
STX Bpntrl ; set BASIC execute pointer low byte
|
||
|
STY Bpntrh ; set BASIC execute pointer high byte
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BNE LAB_1988 ; branch if not null
|
||
|
|
||
|
; pointer was to null entry
|
||
|
BIT Imode ; test input mode flag, $00=INPUT, $80=READ
|
||
|
BMI LAB_19DD ; branch if READ
|
||
|
|
||
|
; mode was INPUT
|
||
|
JSR LAB_18E3 ; print "?" character (double ? for extended input)
|
||
|
JSR LAB_INLN ; print "? " and get BASIC input
|
||
|
STX Bpntrl ; set BASIC execute pointer low byte
|
||
|
STY Bpntrh ; set BASIC execute pointer high byte
|
||
|
LAB_1985
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
LAB_1988
|
||
|
BIT Dtypef ; test data type flag, $FF=string, $00=numeric
|
||
|
BPL LAB_19B0 ; branch if numeric
|
||
|
|
||
|
; else get string
|
||
|
STA Srchc ; save search character
|
||
|
CMP #$22 ; was it " ?
|
||
|
BEQ LAB_1999 ; branch if so
|
||
|
|
||
|
LDA #':' ; else search character is ":"
|
||
|
STA Srchc ; set new search character
|
||
|
LDA #',' ; other search character is ","
|
||
|
CLC ; clear carry for add
|
||
|
LAB_1999
|
||
|
STA Asrch ; set second search character
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
LDY Bpntrh ; get BASIC execute pointer high byte
|
||
|
|
||
|
ADC #$00 ; c is =1 if we came via the BEQ LAB_1999, else =0
|
||
|
BCC LAB_19A4 ; branch if no execute pointer low byte rollover
|
||
|
|
||
|
INY ; else increment high byte
|
||
|
LAB_19A4
|
||
|
JSR LAB_20B4 ; print Srchc or Asrch terminated string to Sutill/Sutilh
|
||
|
JSR LAB_23F3 ; restore BASIC execute pointer from temp (Btmpl/Btmph)
|
||
|
JSR LAB_17D5 ; go do string LET
|
||
|
JMP LAB_19B6 ; go check string terminator
|
||
|
|
||
|
; get numeric INPUT
|
||
|
LAB_19B0
|
||
|
JSR LAB_2887 ; get FAC1 from string
|
||
|
JSR LAB_PFAC ; pack FAC1 into (Lvarpl)
|
||
|
LAB_19B6
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BEQ LAB_19C5 ; branch if null (last entry)
|
||
|
|
||
|
CMP #',' ; else compare with ","
|
||
|
BEQ LAB_19C2 ; branch if ","
|
||
|
|
||
|
JMP LAB_1904 ; else go handle bad input data
|
||
|
|
||
|
; got good input data
|
||
|
LAB_19C2
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
LAB_19C5
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte (temp READ/INPUT ptr)
|
||
|
LDY Bpntrh ; get BASIC execute pointer high byte (temp READ/INPUT ptr)
|
||
|
STA Rdptrl ; save for now
|
||
|
STY Rdptrh ; save for now
|
||
|
LDA Itempl ; get temporary integer low byte (temp BASIC execute ptr)
|
||
|
LDY Itemph ; get temporary integer high byte (temp BASIC execute ptr)
|
||
|
STA Bpntrl ; set BASIC execute pointer low byte
|
||
|
STY Bpntrh ; set BASIC execute pointer high byte
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BEQ LAB_1A03 ; if null go do extra ignored message
|
||
|
|
||
|
JSR LAB_1C01 ; else scan for "," , else do syntax error then warm start
|
||
|
JMP LAB_195B ; go INPUT next variable from list
|
||
|
|
||
|
; find next DATA statement or do "Out of DATA" error
|
||
|
LAB_19DD
|
||
|
JSR LAB_SNBS ; scan for next BASIC statement ([:] or [EOL])
|
||
|
INY ; increment index
|
||
|
TAX ; copy character ([:] or [EOL])
|
||
|
BNE LAB_19F6 ; branch if [:]
|
||
|
|
||
|
LDX #$06 ; set for "Out of DATA" error
|
||
|
INY ; increment index, now points to next line pointer high byte
|
||
|
LDA (Bpntrl),Y ; get next line pointer high byte
|
||
|
BEQ LAB_1A54 ; branch if end (eventually does error X)
|
||
|
|
||
|
INY ; increment index
|
||
|
LDA (Bpntrl),Y ; get next line # low byte
|
||
|
STA Dlinel ; save current DATA line low byte
|
||
|
INY ; increment index
|
||
|
LDA (Bpntrl),Y ; get next line # high byte
|
||
|
INY ; increment index
|
||
|
STA Dlineh ; save current DATA line high byte
|
||
|
LAB_19F6
|
||
|
LDA (Bpntrl),Y ; get byte
|
||
|
INY ; increment index
|
||
|
TAX ; copy to X
|
||
|
JSR LAB_170F ; set BASIC execute pointer
|
||
|
CPX #TK_DATA ; compare with "DATA" token
|
||
|
BEQ LAB_1985 ; was "DATA" so go do next READ
|
||
|
|
||
|
BNE LAB_19DD ; go find next statement if not "DATA"
|
||
|
|
||
|
; end of INPUT/READ routine
|
||
|
|
||
|
LAB_1A03
|
||
|
LDA Rdptrl ; get temp READ pointer low byte
|
||
|
LDY Rdptrh ; get temp READ pointer high byte
|
||
|
LDX Imode ; get input mode flag, $00=INPUT, $80=READ
|
||
|
BPL LAB_1A0E ; branch if INPUT
|
||
|
|
||
|
JMP LAB_1624 ; save AY as DATA pointer and return
|
||
|
|
||
|
; we were getting INPUT
|
||
|
LAB_1A0E
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (Rdptrl),Y ; get next byte
|
||
|
BNE LAB_1A1B ; error if not end of INPUT
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; user typed too much
|
||
|
LAB_1A1B
|
||
|
LDA #<LAB_IMSG ; point to extra ignored message (low addr)
|
||
|
LDY #>LAB_IMSG ; point to extra ignored message (high addr)
|
||
|
JMP LAB_18C3 ; print null terminated string from memory and return
|
||
|
|
||
|
; search the stack for FOR activity
|
||
|
; exit with z=1 if FOR else exit with z=0
|
||
|
|
||
|
LAB_11A1
|
||
|
TSX ; copy stack pointer
|
||
|
INX ; +1 pass return address
|
||
|
INX ; +2 pass return address
|
||
|
INX ; +3 pass calling routine return address
|
||
|
INX ; +4 pass calling routine return address
|
||
|
LAB_11A6
|
||
|
LDA LAB_STAK+1,X ; get token byte from stack
|
||
|
CMP #TK_FOR ; is it FOR token
|
||
|
BNE LAB_11CE ; exit if not FOR token
|
||
|
|
||
|
; was FOR token
|
||
|
LDA Frnxth ; get var pointer for FOR/NEXT high byte
|
||
|
BNE LAB_11BB ; branch if not null
|
||
|
|
||
|
LDA LAB_STAK+2,X ; get FOR variable pointer low byte
|
||
|
STA Frnxtl ; save var pointer for FOR/NEXT low byte
|
||
|
LDA LAB_STAK+3,X ; get FOR variable pointer high byte
|
||
|
STA Frnxth ; save var pointer for FOR/NEXT high byte
|
||
|
LAB_11BB
|
||
|
CMP LAB_STAK+3,X ; compare var pointer with stacked var pointer (high byte)
|
||
|
BNE LAB_11C7 ; branch if no match
|
||
|
|
||
|
LDA Frnxtl ; get var pointer for FOR/NEXT low byte
|
||
|
CMP LAB_STAK+2,X ; compare var pointer with stacked var pointer (low byte)
|
||
|
BEQ LAB_11CE ; exit if match found
|
||
|
|
||
|
LAB_11C7
|
||
|
TXA ; copy index
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$10 ; add FOR stack use size
|
||
|
TAX ; copy back to index
|
||
|
BNE LAB_11A6 ; loop if not at start of stack
|
||
|
|
||
|
LAB_11CE
|
||
|
RTS
|
||
|
|
||
|
; perform NEXT
|
||
|
|
||
|
LAB_NEXT
|
||
|
BNE LAB_1A46 ; branch if NEXT var
|
||
|
|
||
|
LDY #$00 ; else clear Y
|
||
|
BEQ LAB_1A49 ; branch always (no variable to search for)
|
||
|
|
||
|
; NEXT var
|
||
|
|
||
|
LAB_1A46
|
||
|
JSR LAB_GVAR ; get variable address
|
||
|
LAB_1A49
|
||
|
STA Frnxtl ; store variable pointer low byte
|
||
|
STY Frnxth ; store variable pointer high byte
|
||
|
; (both cleared if no variable defined)
|
||
|
JSR LAB_11A1 ; search the stack for FOR activity
|
||
|
BEQ LAB_1A56 ; branch if found
|
||
|
|
||
|
LDX #$00 ; else set error $00 ("NEXT without FOR" error)
|
||
|
LAB_1A54
|
||
|
BEQ LAB_1ABE ; do error #X, then warm start
|
||
|
|
||
|
LAB_1A56
|
||
|
TXS ; set stack pointer, X set by search, dumps return addresses
|
||
|
|
||
|
TXA ; copy stack pointer
|
||
|
SEC ; set carry for subtract
|
||
|
SBC #$F7 ; point to TO var
|
||
|
STA ut2_pl ; save pointer to TO var for compare
|
||
|
ADC #$FB ; point to STEP var
|
||
|
|
||
|
LDY #>LAB_STAK ; point to stack page high byte
|
||
|
JSR LAB_UFAC ; unpack memory (STEP value) into FAC1
|
||
|
TSX ; get stack pointer back
|
||
|
LDA LAB_STAK+8,X ; get step sign
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
LDA Frnxtl ; get FOR variable pointer low byte
|
||
|
LDY Frnxth ; get FOR variable pointer high byte
|
||
|
JSR LAB_246C ; add (FOR variable) to FAC1
|
||
|
JSR LAB_PFAC ; pack FAC1 into (FOR variable)
|
||
|
LDY #>LAB_STAK ; point to stack page high byte
|
||
|
JSR LAB_27FA ; compare FAC1 with (Y,ut2_pl) (TO value)
|
||
|
TSX ; get stack pointer back
|
||
|
CMP LAB_STAK+8,X ; compare step sign
|
||
|
BEQ LAB_1A9B ; branch if = (loop complete)
|
||
|
|
||
|
; loop back and do it all again
|
||
|
LDA LAB_STAK+$0D,X ; get FOR line low byte
|
||
|
STA Clinel ; save current line low byte
|
||
|
LDA LAB_STAK+$0E,X ; get FOR line high byte
|
||
|
STA Clineh ; save current line high byte
|
||
|
LDA LAB_STAK+$10,X ; get BASIC execute pointer low byte
|
||
|
STA Bpntrl ; save BASIC execute pointer low byte
|
||
|
LDA LAB_STAK+$0F,X ; get BASIC execute pointer high byte
|
||
|
STA Bpntrh ; save BASIC execute pointer high byte
|
||
|
LAB_1A98
|
||
|
JMP LAB_15C2 ; go do interpreter inner loop
|
||
|
|
||
|
; loop complete so carry on
|
||
|
LAB_1A9B
|
||
|
TXA ; stack copy to A
|
||
|
ADC #$0F ; add $10 ($0F+carry) to dump FOR structure
|
||
|
TAX ; copy back to index
|
||
|
TXS ; copy to stack pointer
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
CMP #',' ; compare with ","
|
||
|
BNE LAB_1A98 ; branch if not "," (go do interpreter inner loop)
|
||
|
|
||
|
; was "," so another NEXT variable to do
|
||
|
JSR LAB_IGBY ; else increment and scan memory
|
||
|
JSR LAB_1A46 ; do NEXT (var)
|
||
|
|
||
|
; evaluate expression and check is numeric, else do type mismatch
|
||
|
|
||
|
LAB_EVNM
|
||
|
JSR LAB_EVEX ; evaluate expression
|
||
|
|
||
|
; check if source is numeric, else do type mismatch
|
||
|
|
||
|
LAB_CTNM
|
||
|
CLC ; destination is numeric
|
||
|
.byte $24 ; makes next line BIT $38
|
||
|
|
||
|
; check if source is string, else do type mismatch
|
||
|
|
||
|
LAB_CTST
|
||
|
SEC ; required type is string
|
||
|
|
||
|
; type match check, set C for string, clear C for numeric
|
||
|
|
||
|
LAB_CKTM
|
||
|
BIT Dtypef ; test data type flag, $FF=string, $00=numeric
|
||
|
BMI LAB_1ABA ; branch if data type is string
|
||
|
|
||
|
; else data type was numeric
|
||
|
BCS LAB_1ABC ; if required type is string do type mismatch error
|
||
|
LAB_1AB9
|
||
|
RTS
|
||
|
|
||
|
; data type was string, now check required type
|
||
|
LAB_1ABA
|
||
|
BCS LAB_1AB9 ; exit if required type is string
|
||
|
|
||
|
; else do type mismatch error
|
||
|
LAB_1ABC
|
||
|
LDX #$18 ; error code $18 ("Type mismatch" error)
|
||
|
LAB_1ABE
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; evaluate expression
|
||
|
|
||
|
LAB_EVEX
|
||
|
LDX Bpntrl ; get BASIC execute pointer low byte
|
||
|
BNE LAB_1AC7 ; skip next if not zero
|
||
|
|
||
|
DEC Bpntrh ; else decrement BASIC execute pointer high byte
|
||
|
LAB_1AC7
|
||
|
DEC Bpntrl ; decrement BASIC execute pointer low byte
|
||
|
|
||
|
LAB_EVEZ
|
||
|
LDA #$00 ; set null precedence (flag done)
|
||
|
LAB_1ACC
|
||
|
PHA ; push precedence byte
|
||
|
LDA #$02 ; 2 bytes
|
||
|
JSR LAB_1212 ; check room on stack for A bytes
|
||
|
JSR LAB_GVAL ; get value from line
|
||
|
LDA #$00 ; clear A
|
||
|
STA comp_f ; clear compare function flag
|
||
|
LAB_1ADB
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
LAB_1ADE
|
||
|
SEC ; set carry for subtract
|
||
|
SBC #TK_GT ; subtract token for > (lowest comparison function)
|
||
|
BCC LAB_1AFA ; branch if < TK_GT
|
||
|
|
||
|
CMP #$03 ; compare with ">" to "<" tokens
|
||
|
BCS LAB_1AFA ; branch if >= TK_SGN (highest evaluation function +1)
|
||
|
|
||
|
; was token for > = or < (A = 0, 1 or 2)
|
||
|
CMP #$01 ; compare with token for =
|
||
|
ROL ; *2, b0 = carry (=1 if token was = or <)
|
||
|
; (A = 0, 3 or 5)
|
||
|
EOR #$01 ; toggle b0
|
||
|
; (A = 1, 2 or 4. 1 if >, 2 if =, 4 if <)
|
||
|
EOR comp_f ; EOR with compare function flag bits
|
||
|
CMP comp_f ; compare with compare function flag
|
||
|
BCC LAB_1B53 ; if <(comp_f) do syntax error then warm start
|
||
|
; was more than one <, = or >)
|
||
|
|
||
|
STA comp_f ; save new compare function flag
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JMP LAB_1ADE ; go do next character
|
||
|
|
||
|
; token is < ">" or > "<" tokens
|
||
|
LAB_1AFA
|
||
|
LDX comp_f ; get compare function flag
|
||
|
BNE LAB_1B2A ; branch if compare function
|
||
|
|
||
|
BCS LAB_1B78 ; go do functions
|
||
|
|
||
|
; else was < TK_GT so is operator or lower
|
||
|
ADC #TK_GT-TK_PLUS ; add # of operators (+, -, *, /, ^, AND, OR or EOR)
|
||
|
BCC LAB_1B78 ; branch if < + operator
|
||
|
|
||
|
; carry was set so token was +, -, *, /, ^, AND, OR or EOR
|
||
|
BNE LAB_1B0B ; branch if not + token
|
||
|
|
||
|
BIT Dtypef ; test data type flag, $FF=string, $00=numeric
|
||
|
BPL LAB_1B0B ; branch if not string
|
||
|
|
||
|
; will only be $00 if type is string and token was +
|
||
|
JMP LAB_224D ; add strings, string 1 is in descriptor des_pl, string 2
|
||
|
; is in line, and return
|
||
|
|
||
|
LAB_1B0B
|
||
|
STA ut1_pl ; save it
|
||
|
ASL ; *2
|
||
|
ADC ut1_pl ; *3
|
||
|
TAY ; copy to index
|
||
|
LAB_1B13
|
||
|
PLA ; pull previous precedence
|
||
|
CMP LAB_OPPT,Y ; compare with precedence byte
|
||
|
BCS LAB_1B7D ; branch if A >=
|
||
|
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
LAB_1B1C
|
||
|
PHA ; save precedence
|
||
|
LAB_1B1D
|
||
|
JSR LAB_1B43 ; get vector, execute function then continue evaluation
|
||
|
PLA ; restore precedence
|
||
|
LDY prstk ; get precedence stacked flag
|
||
|
BPL LAB_1B3C ; branch if stacked values
|
||
|
|
||
|
TAX ; copy precedence (set flags)
|
||
|
BEQ LAB_1B9D ; exit if done
|
||
|
|
||
|
BNE LAB_1B86 ; else pop FAC2 and return, branch always
|
||
|
|
||
|
LAB_1B2A
|
||
|
ROL Dtypef ; shift data type flag into Cb
|
||
|
TXA ; copy compare function flag
|
||
|
STA Dtypef ; clear data type flag, X is 0xxx xxxx
|
||
|
ROL ; shift data type into compare function byte b0
|
||
|
LDX Bpntrl ; get BASIC execute pointer low byte
|
||
|
BNE LAB_1B34 ; branch if no underflow
|
||
|
|
||
|
DEC Bpntrh ; else decrement BASIC execute pointer high byte
|
||
|
LAB_1B34
|
||
|
DEC Bpntrl ; decrement BASIC execute pointer low byte
|
||
|
TK_LT_PLUS = TK_LT-TK_PLUS
|
||
|
LDY #TK_LT_PLUS*3 ; set offset to last operator entry
|
||
|
STA comp_f ; save new compare function flag
|
||
|
BNE LAB_1B13 ; branch always
|
||
|
|
||
|
LAB_1B3C
|
||
|
CMP LAB_OPPT,Y ;.compare with stacked function precedence
|
||
|
BCS LAB_1B86 ; branch if A >=, pop FAC2 and return
|
||
|
|
||
|
BCC LAB_1B1C ; branch always
|
||
|
|
||
|
;.get vector, execute function then continue evaluation
|
||
|
|
||
|
LAB_1B43
|
||
|
LDA LAB_OPPT+2,Y ; get function vector high byte
|
||
|
PHA ; onto stack
|
||
|
LDA LAB_OPPT+1,Y ; get function vector low byte
|
||
|
PHA ; onto stack
|
||
|
; now push sign, round FAC1 and put on stack
|
||
|
JSR LAB_1B5B ; function will return here, then the next RTS will call
|
||
|
; the function
|
||
|
LDA comp_f ; get compare function flag
|
||
|
PHA ; push compare evaluation byte
|
||
|
LDA LAB_OPPT,Y ; get precedence byte
|
||
|
JMP LAB_1ACC ; continue evaluating expression
|
||
|
|
||
|
LAB_1B53
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
; push sign, round FAC1 and put on stack
|
||
|
|
||
|
LAB_1B5B
|
||
|
PLA ; get return addr low byte
|
||
|
STA ut1_pl ; save it
|
||
|
INC ut1_pl ; increment it (was ret-1 pushed? yes!)
|
||
|
; note! no check is made on the high byte! if the calling
|
||
|
; routine assembles to a page edge then this all goes
|
||
|
; horribly wrong !!!
|
||
|
PLA ; get return addr high byte
|
||
|
STA ut1_ph ; save it
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
PHA ; push sign
|
||
|
|
||
|
; round FAC1 and put on stack
|
||
|
|
||
|
LAB_1B66
|
||
|
JSR LAB_27BA ; round FAC1
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
PHA ; push on stack
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
PHA ; push on stack
|
||
|
LDA FAC1_1 ; get FAC1 mantissa1
|
||
|
PHA ; push on stack
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
PHA ; push on stack
|
||
|
JMP (ut1_pl) ; return, sort of
|
||
|
|
||
|
; do functions
|
||
|
|
||
|
LAB_1B78
|
||
|
LDY #$FF ; flag function
|
||
|
PLA ; pull precedence byte
|
||
|
LAB_1B7B
|
||
|
BEQ LAB_1B9D ; exit if done
|
||
|
|
||
|
LAB_1B7D
|
||
|
CMP #$64 ; compare previous precedence with $64
|
||
|
BEQ LAB_1B84 ; branch if was $64 (< function)
|
||
|
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
LAB_1B84
|
||
|
STY prstk ; save precedence stacked flag
|
||
|
|
||
|
; pop FAC2 and return
|
||
|
LAB_1B86
|
||
|
PLA ; pop byte
|
||
|
LSR ; shift out comparison evaluation lowest bit
|
||
|
STA Cflag ; save comparison evaluation flag
|
||
|
PLA ; pop exponent
|
||
|
STA FAC2_e ; save FAC2 exponent
|
||
|
PLA ; pop mantissa1
|
||
|
STA FAC2_1 ; save FAC2 mantissa1
|
||
|
PLA ; pop mantissa2
|
||
|
STA FAC2_2 ; save FAC2 mantissa2
|
||
|
PLA ; pop mantissa3
|
||
|
STA FAC2_3 ; save FAC2 mantissa3
|
||
|
PLA ; pop sign
|
||
|
STA FAC2_s ; save FAC2 sign (b7)
|
||
|
EOR FAC1_s ; EOR FAC1 sign (b7)
|
||
|
STA FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
LAB_1B9D
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
RTS
|
||
|
|
||
|
; print "..." string to string util area
|
||
|
|
||
|
LAB_1BC1
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
LDY Bpntrh ; get BASIC execute pointer high byte
|
||
|
ADC #$00 ; add carry to low byte
|
||
|
BCC LAB_1BCA ; branch if no overflow
|
||
|
|
||
|
INY ; increment high byte
|
||
|
LAB_1BCA
|
||
|
JSR LAB_20AE ; print " terminated string to Sutill/Sutilh
|
||
|
JMP LAB_23F3 ; restore BASIC execute pointer from temp and return
|
||
|
|
||
|
; get value from line
|
||
|
|
||
|
LAB_GVAL
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
BCS LAB_1BAC ; branch if not numeric character
|
||
|
|
||
|
; else numeric string found (e.g. 123)
|
||
|
LAB_1BA9
|
||
|
JMP LAB_2887 ; get FAC1 from string and return
|
||
|
|
||
|
; get value from line .. continued
|
||
|
|
||
|
; wasn't a number so ..
|
||
|
LAB_1BAC
|
||
|
TAX ; set the flags
|
||
|
BMI LAB_1BD0 ; if -ve go test token values
|
||
|
|
||
|
; else it is either a string, number, variable or (<expr>)
|
||
|
CMP #'$' ; compare with "$"
|
||
|
BEQ LAB_1BA9 ; branch if "$", hex number
|
||
|
|
||
|
CMP #'%' ; else compare with "%"
|
||
|
BEQ LAB_1BA9 ; branch if "%", binary number
|
||
|
|
||
|
CMP #'.' ; compare with "."
|
||
|
BEQ LAB_1BA9 ; if so get FAC1 from string and return (e.g. was .123)
|
||
|
|
||
|
; it wasn't any sort of number so ..
|
||
|
CMP #$22 ; compare with "
|
||
|
BEQ LAB_1BC1 ; branch if open quote
|
||
|
|
||
|
; wasn't any sort of number so ..
|
||
|
|
||
|
; evaluate expression within parentheses
|
||
|
|
||
|
CMP #'(' ; compare with "("
|
||
|
BNE LAB_1C18 ; if not "(" get (var), return value in FAC1 and $ flag
|
||
|
|
||
|
LAB_1BF7
|
||
|
JSR LAB_EVEZ ; evaluate expression, no decrement
|
||
|
|
||
|
; all the 'scan for' routines return the character after the sought character
|
||
|
|
||
|
; scan for ")" , else do syntax error then warm start
|
||
|
|
||
|
LAB_1BFB
|
||
|
LDA #$29 ; load A with ")"
|
||
|
|
||
|
; scan for CHR$(A) , else do syntax error then warm start
|
||
|
|
||
|
LAB_SCCA
|
||
|
LDY #$00 ; clear index
|
||
|
CMP (Bpntrl),Y ; check next byte is = A
|
||
|
BNE LAB_SNER ; if not do syntax error then warm start
|
||
|
|
||
|
JMP LAB_IGBY ; increment and scan memory then return
|
||
|
|
||
|
; scan for "(" , else do syntax error then warm start
|
||
|
|
||
|
LAB_1BFE
|
||
|
LDA #$28 ; load A with "("
|
||
|
BNE LAB_SCCA ; scan for CHR$(A), else do syntax error then warm start
|
||
|
; (branch always)
|
||
|
|
||
|
; scan for "," , else do syntax error then warm start
|
||
|
|
||
|
LAB_1C01
|
||
|
LDA #$2C ; load A with ","
|
||
|
BNE LAB_SCCA ; scan for CHR$(A), else do syntax error then warm start
|
||
|
; (branch always)
|
||
|
|
||
|
; syntax error then warm start
|
||
|
|
||
|
LAB_SNER
|
||
|
LDX #$02 ; error code $02 ("Syntax" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; get value from line .. continued
|
||
|
; do tokens
|
||
|
|
||
|
LAB_1BD0
|
||
|
CMP #TK_MINUS ; compare with token for -
|
||
|
BEQ LAB_1C11 ; branch if - token (do set-up for functions)
|
||
|
|
||
|
; wasn't -n so ..
|
||
|
CMP #TK_PLUS ; compare with token for +
|
||
|
BEQ LAB_GVAL ; branch if + token (+n = n so ignore leading +)
|
||
|
|
||
|
CMP #TK_NOT ; compare with token for NOT
|
||
|
BNE LAB_1BE7 ; branch if not token for NOT
|
||
|
|
||
|
; was NOT token
|
||
|
TK_EQUAL_PLUS = TK_EQUAL-TK_PLUS
|
||
|
LDY #TK_EQUAL_PLUS*3 ; offset to NOT function
|
||
|
BNE LAB_1C13 ; do set-up for function then execute (branch always)
|
||
|
|
||
|
; do = compare
|
||
|
|
||
|
LAB_EQUAL
|
||
|
JSR LAB_EVIR ; evaluate integer expression (no sign check)
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
EOR #$FF ; invert it
|
||
|
TAY ; copy it
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
EOR #$FF ; invert it
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; get value from line .. continued
|
||
|
|
||
|
; wasn't +, -, or NOT so ..
|
||
|
LAB_1BE7
|
||
|
CMP #TK_FN ; compare with token for FN
|
||
|
BNE LAB_1BEE ; branch if not token for FN
|
||
|
|
||
|
JMP LAB_201E ; go evaluate FNx
|
||
|
|
||
|
; get value from line .. continued
|
||
|
|
||
|
; wasn't +, -, NOT or FN so ..
|
||
|
LAB_1BEE
|
||
|
SBC #TK_SGN ; subtract with token for SGN
|
||
|
BCS LAB_1C27 ; if a function token go do it
|
||
|
|
||
|
JMP LAB_SNER ; else do syntax error
|
||
|
|
||
|
; set-up for functions
|
||
|
|
||
|
LAB_1C11
|
||
|
TK_GT_PLUS = TK_GT-TK_PLUS
|
||
|
LDY #TK_GT_PLUS*3 ; set offset from base to > operator
|
||
|
LAB_1C13
|
||
|
PLA ; dump return address low byte
|
||
|
PLA ; dump return address high byte
|
||
|
JMP LAB_1B1D ; execute function then continue evaluation
|
||
|
|
||
|
; variable name set-up
|
||
|
; get (var), return value in FAC_1 and $ flag
|
||
|
|
||
|
LAB_1C18
|
||
|
JSR LAB_GVAR ; get (var) address
|
||
|
STA FAC1_2 ; save address low byte in FAC1 mantissa2
|
||
|
STY FAC1_3 ; save address high byte in FAC1 mantissa3
|
||
|
LDX Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
BMI LAB_1C25 ; if string then return (does RTS)
|
||
|
|
||
|
LAB_1C24
|
||
|
JMP LAB_UFAC ; unpack memory (AY) into FAC1
|
||
|
|
||
|
LAB_1C25
|
||
|
RTS
|
||
|
|
||
|
; get value from line .. continued
|
||
|
; only functions left so ..
|
||
|
|
||
|
; set up function references
|
||
|
|
||
|
; new for V2.0+ this replaces a lot of IF .. THEN .. ELSEIF .. THEN .. that was needed
|
||
|
; to process function calls. now the function vector is computed and pushed on the stack
|
||
|
; and the preprocess offset is read. if the preprocess offset is non zero then the vector
|
||
|
; is calculated and the routine called, if not this routine just does RTS. whichever
|
||
|
; happens the RTS at the end of this routine, or the end of the preprocess routine, calls
|
||
|
; the function code
|
||
|
|
||
|
; this also removes some less than elegant code that was used to bypass type checking
|
||
|
; for functions that returned strings
|
||
|
|
||
|
LAB_1C27
|
||
|
ASL ; *2 (2 bytes per function address)
|
||
|
TAY ; copy to index
|
||
|
|
||
|
LDA LAB_FTBM,Y ; get function jump vector high byte
|
||
|
PHA ; push functions jump vector high byte
|
||
|
LDA LAB_FTBL,Y ; get function jump vector low byte
|
||
|
PHA ; push functions jump vector low byte
|
||
|
|
||
|
LDA LAB_FTPM,Y ; get function pre process vector high byte
|
||
|
BEQ LAB_1C56 ; skip pre process if null vector
|
||
|
|
||
|
PHA ; push functions pre process vector high byte
|
||
|
LDA LAB_FTPL,Y ; get function pre process vector low byte
|
||
|
PHA ; push functions pre process vector low byte
|
||
|
|
||
|
LAB_1C56
|
||
|
RTS ; do function, or pre process, call
|
||
|
|
||
|
; process string expression in parenthesis
|
||
|
|
||
|
LAB_PPFS
|
||
|
JSR LAB_1BF7 ; process expression in parenthesis
|
||
|
JMP LAB_CTST ; check if source is string then do function,
|
||
|
; else do type mismatch
|
||
|
|
||
|
; process numeric expression in parenthesis
|
||
|
|
||
|
LAB_PPFN
|
||
|
JSR LAB_1BF7 ; process expression in parenthesis
|
||
|
JMP LAB_CTNM ; check if source is numeric then do function,
|
||
|
; else do type mismatch
|
||
|
|
||
|
; set numeric data type and increment BASIC execute pointer
|
||
|
|
||
|
LAB_PPBI
|
||
|
LSR Dtypef ; clear data type flag, $FF=string, $00=numeric
|
||
|
JMP LAB_IGBY ; increment and scan memory then do function
|
||
|
|
||
|
; process string for LEFT$, RIGHT$ or MID$
|
||
|
|
||
|
LAB_LRMS
|
||
|
JSR LAB_EVEZ ; evaluate (should be string) expression
|
||
|
JSR LAB_1C01 ; scan for ",", else do syntax error then warm start
|
||
|
JSR LAB_CTST ; check if source is string, else do type mismatch
|
||
|
|
||
|
PLA ; get function jump vector low byte
|
||
|
TAX ; save functions jump vector low byte
|
||
|
PLA ; get function jump vector high byte
|
||
|
TAY ; save functions jump vector high byte
|
||
|
LDA des_ph ; get descriptor pointer high byte
|
||
|
PHA ; push string pointer high byte
|
||
|
LDA des_pl ; get descriptor pointer low byte
|
||
|
PHA ; push string pointer low byte
|
||
|
TYA ; get function jump vector high byte back
|
||
|
PHA ; save functions jump vector high byte
|
||
|
TXA ; get function jump vector low byte back
|
||
|
PHA ; save functions jump vector low byte
|
||
|
JSR LAB_GTBY ; get byte parameter
|
||
|
TXA ; copy byte parameter to A
|
||
|
RTS ; go do function
|
||
|
|
||
|
; process numeric expression(s) for BIN$ or HEX$
|
||
|
|
||
|
LAB_BHSS
|
||
|
JSR LAB_EVEZ ; process expression
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
CMP #$98 ; compare with exponent = 2^24
|
||
|
BCS LAB_BHER ; branch if n>=2^24 (is too big)
|
||
|
|
||
|
JSR LAB_2831 ; convert FAC1 floating-to-fixed
|
||
|
LDX #$02 ; 3 bytes to do
|
||
|
LAB_CFAC
|
||
|
LDA FAC1_1,X ; get byte from FAC1
|
||
|
STA nums_1,X ; save byte to temp
|
||
|
DEX ; decrement index
|
||
|
BPL LAB_CFAC ; copy FAC1 mantissa to temp
|
||
|
|
||
|
JSR LAB_GBYT ; get next BASIC byte
|
||
|
LDX #$00 ; set default to no leading "0"s
|
||
|
CMP #')' ; compare with close bracket
|
||
|
BEQ LAB_1C54 ; if ")" go do rest of function
|
||
|
|
||
|
JSR LAB_SCGB ; scan for "," and get byte
|
||
|
JSR LAB_GBYT ; get last byte back
|
||
|
CMP #')' ; is next character )
|
||
|
BNE LAB_BHER ; if not ")" go do error
|
||
|
|
||
|
LAB_1C54
|
||
|
RTS ; else do function
|
||
|
|
||
|
LAB_BHER
|
||
|
JMP LAB_FCER ; do function call error then warm start
|
||
|
|
||
|
; perform EOR
|
||
|
|
||
|
; added operator format is the same as AND or OR, precedence is the same as OR
|
||
|
|
||
|
; this bit worked first time but it took a while to sort out the operator table
|
||
|
; pointers and offsets afterwards!
|
||
|
|
||
|
LAB_EOR
|
||
|
JSR GetFirst ; get first integer expression (no sign check)
|
||
|
EOR XOAw_l ; EOR with expression 1 low byte
|
||
|
TAY ; save in Y
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
EOR XOAw_h ; EOR with expression 1 high byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; perform OR
|
||
|
|
||
|
LAB_OR
|
||
|
JSR GetFirst ; get first integer expression (no sign check)
|
||
|
ORA XOAw_l ; OR with expression 1 low byte
|
||
|
TAY ; save in Y
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
ORA XOAw_h ; OR with expression 1 high byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; perform AND
|
||
|
|
||
|
LAB_AND
|
||
|
JSR GetFirst ; get first integer expression (no sign check)
|
||
|
AND XOAw_l ; AND with expression 1 low byte
|
||
|
TAY ; save in Y
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
AND XOAw_h ; AND with expression 1 high byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; get first value for OR, AND or EOR
|
||
|
|
||
|
GetFirst
|
||
|
JSR LAB_EVIR ; evaluate integer expression (no sign check)
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
STA XOAw_h ; save it
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
STA XOAw_l ; save it
|
||
|
JSR LAB_279B ; copy FAC2 to FAC1 (get 2nd value in expression)
|
||
|
JSR LAB_EVIR ; evaluate integer expression (no sign check)
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
LAB_1C95
|
||
|
RTS
|
||
|
|
||
|
; perform comparisons
|
||
|
|
||
|
; do < compare
|
||
|
|
||
|
LAB_LTHAN
|
||
|
JSR LAB_CKTM ; type match check, set C for string
|
||
|
BCS LAB_1CAE ; branch if string
|
||
|
|
||
|
; do numeric < compare
|
||
|
LDA FAC2_s ; get FAC2 sign (b7)
|
||
|
ORA #$7F ; set all non sign bits
|
||
|
AND FAC2_1 ; and FAC2 mantissa1 (AND in sign bit)
|
||
|
STA FAC2_1 ; save FAC2 mantissa1
|
||
|
LDA #<FAC2_e ; set pointer low byte to FAC2
|
||
|
LDY #>FAC2_e ; set pointer high byte to FAC2
|
||
|
JSR LAB_27F8 ; compare FAC1 with FAC2 (AY)
|
||
|
TAX ; copy result
|
||
|
JMP LAB_1CE1 ; go evaluate result
|
||
|
|
||
|
; do string < compare
|
||
|
LAB_1CAE
|
||
|
LSR Dtypef ; clear data type flag, $FF=string, $00=numeric
|
||
|
DEC comp_f ; clear < bit in compare function flag
|
||
|
JSR LAB_22B6 ; pop string off descriptor stack, or from top of string
|
||
|
; space returns with A = length, X=pointer low byte,
|
||
|
; Y=pointer high byte
|
||
|
STA str_ln ; save length
|
||
|
STX str_pl ; save string pointer low byte
|
||
|
STY str_ph ; save string pointer high byte
|
||
|
LDA FAC2_2 ; get descriptor pointer low byte
|
||
|
LDY FAC2_3 ; get descriptor pointer high byte
|
||
|
JSR LAB_22BA ; pop (YA) descriptor off stack or from top of string space
|
||
|
; returns with A = length, X=pointer low byte,
|
||
|
; Y=pointer high byte
|
||
|
STX FAC2_2 ; save string pointer low byte
|
||
|
STY FAC2_3 ; save string pointer high byte
|
||
|
TAX ; copy length
|
||
|
SEC ; set carry for subtract
|
||
|
SBC str_ln ; subtract string 1 length
|
||
|
BEQ LAB_1CD6 ; branch if str 1 length = string 2 length
|
||
|
|
||
|
LDA #$01 ; set str 1 length > string 2 length
|
||
|
BCC LAB_1CD6 ; branch if so
|
||
|
|
||
|
LDX str_ln ; get string 1 length
|
||
|
LDA #$FF ; set str 1 length < string 2 length
|
||
|
LAB_1CD6
|
||
|
STA FAC1_s ; save length compare
|
||
|
LDY #$FF ; set index
|
||
|
INX ; adjust for loop
|
||
|
LAB_1CDB
|
||
|
INY ; increment index
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_1CE6 ; branch if still bytes to do
|
||
|
|
||
|
LDX FAC1_s ; get length compare back
|
||
|
LAB_1CE1
|
||
|
BMI LAB_1CF2 ; branch if str 1 < str 2
|
||
|
|
||
|
CLC ; flag str 1 <= str 2
|
||
|
BCC LAB_1CF2 ; go evaluate result
|
||
|
|
||
|
LAB_1CE6
|
||
|
LDA (FAC2_2),Y ; get string 2 byte
|
||
|
CMP (FAC1_1),Y ; compare with string 1 byte
|
||
|
BEQ LAB_1CDB ; loop if bytes =
|
||
|
|
||
|
LDX #$FF ; set str 1 < string 2
|
||
|
BCS LAB_1CF2 ; branch if so
|
||
|
|
||
|
LDX #$01 ; set str 1 > string 2
|
||
|
LAB_1CF2
|
||
|
INX ; x = 0, 1 or 2
|
||
|
TXA ; copy to A
|
||
|
ROL ; *2 (1, 2 or 4)
|
||
|
AND Cflag ; AND with comparison evaluation flag
|
||
|
BEQ LAB_1CFB ; branch if 0 (compare is false)
|
||
|
|
||
|
LDA #$FF ; else set result true
|
||
|
LAB_1CFB
|
||
|
JMP LAB_27DB ; save A as integer byte and return
|
||
|
|
||
|
LAB_1CFE
|
||
|
JSR LAB_1C01 ; scan for ",", else do syntax error then warm start
|
||
|
|
||
|
; perform DIM
|
||
|
|
||
|
LAB_DIM
|
||
|
TAX ; copy "DIM" flag to X
|
||
|
JSR LAB_1D10 ; search for variable
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BNE LAB_1CFE ; scan for "," and loop if not null
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; perform << (left shift)
|
||
|
|
||
|
LAB_LSHIFT
|
||
|
JSR GetPair ; get integer expression and byte (no sign check)
|
||
|
LDA FAC1_2 ; get expression high byte
|
||
|
LDX TempB ; get shift count
|
||
|
BEQ NoShift ; branch if zero
|
||
|
|
||
|
CPX #$10 ; compare bit count with 16d
|
||
|
BCS TooBig ; branch if >=
|
||
|
|
||
|
Ls_loop
|
||
|
ASL FAC1_3 ; shift low byte
|
||
|
ROL ; shift high byte
|
||
|
DEX ; decrement bit count
|
||
|
BNE Ls_loop ; loop if shift not complete
|
||
|
|
||
|
LDY FAC1_3 ; get expression low byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; perform >> (right shift)
|
||
|
|
||
|
LAB_RSHIFT
|
||
|
JSR GetPair ; get integer expression and byte (no sign check)
|
||
|
LDA FAC1_2 ; get expression high byte
|
||
|
LDX TempB ; get shift count
|
||
|
BEQ NoShift ; branch if zero
|
||
|
|
||
|
CPX #$10 ; compare bit count with 16d
|
||
|
BCS TooBig ; branch if >=
|
||
|
|
||
|
Rs_loop
|
||
|
LSR ; shift high byte
|
||
|
ROR FAC1_3 ; shift low byte
|
||
|
DEX ; decrement bit count
|
||
|
BNE Rs_loop ; loop if shift not complete
|
||
|
|
||
|
NoShift
|
||
|
LDY FAC1_3 ; get expression low byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
TooBig
|
||
|
LDA #$00 ; clear high byte
|
||
|
TAY ; copy to low byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
GetPair
|
||
|
JSR LAB_EVBY ; evaluate byte expression, result in X
|
||
|
STX TempB ; save it
|
||
|
JSR LAB_279B ; copy FAC2 to FAC1 (get 2nd value in expression)
|
||
|
JMP LAB_EVIR ; evaluate integer expression (no sign check)
|
||
|
|
||
|
; search for variable
|
||
|
|
||
|
; return pointer to variable in Cvaral/Cvarah
|
||
|
|
||
|
LAB_GVAR
|
||
|
LDX #$00 ; set DIM flag = $00
|
||
|
JSR LAB_GBYT ; scan memory (1st character)
|
||
|
LAB_1D10
|
||
|
STX Defdim ; save DIM flag
|
||
|
LAB_1D12
|
||
|
STA Varnm1 ; save 1st character
|
||
|
AND #$7F ; clear FN flag bit
|
||
|
JSR LAB_CASC ; check byte, return C=0 if<"A" or >"Z"
|
||
|
BCS LAB_1D1F ; branch if ok
|
||
|
|
||
|
JMP LAB_SNER ; else syntax error then warm start
|
||
|
|
||
|
; was variable name so ..
|
||
|
LAB_1D1F
|
||
|
LDX #$00 ; clear 2nd character temp
|
||
|
STX Dtypef ; clear data type flag, $FF=string, $00=numeric
|
||
|
JSR LAB_IGBY ; increment and scan memory (2nd character)
|
||
|
BCC LAB_1D2D ; branch if character = "0"-"9" (ok)
|
||
|
|
||
|
; 2nd character wasn't "0" to "9" so ..
|
||
|
JSR LAB_CASC ; check byte, return C=0 if<"A" or >"Z"
|
||
|
BCC LAB_1D38 ; branch if <"A" or >"Z" (go check if string)
|
||
|
|
||
|
LAB_1D2D
|
||
|
TAX ; copy 2nd character
|
||
|
|
||
|
; ignore further (valid) characters in the variable name
|
||
|
LAB_1D2E
|
||
|
JSR LAB_IGBY ; increment and scan memory (3rd character)
|
||
|
BCC LAB_1D2E ; loop if character = "0"-"9" (ignore)
|
||
|
|
||
|
JSR LAB_CASC ; check byte, return C=0 if<"A" or >"Z"
|
||
|
BCS LAB_1D2E ; loop if character = "A"-"Z" (ignore)
|
||
|
|
||
|
; check if string variable
|
||
|
LAB_1D38
|
||
|
CMP #'$' ; compare with "$"
|
||
|
BNE LAB_1D47 ; branch if not string
|
||
|
|
||
|
; to introduce a new variable type (% suffix for integers say) then this branch
|
||
|
; will need to go to that check and then that branch, if it fails, go to LAB_1D47
|
||
|
|
||
|
; type is string
|
||
|
LDA #$FF ; set data type = string
|
||
|
STA Dtypef ; set data type flag, $FF=string, $00=numeric
|
||
|
TXA ; get 2nd character back
|
||
|
ORA #$80 ; set top bit (indicate string var)
|
||
|
TAX ; copy back to 2nd character temp
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
|
||
|
; after we have determined the variable type we need to come back here to determine
|
||
|
; if it's an array of type. this would plug in a%(b[,c[,d]])) integer arrays nicely
|
||
|
|
||
|
|
||
|
LAB_1D47 ; gets here with character after var name in A
|
||
|
STX Varnm2 ; save 2nd character
|
||
|
ORA Sufnxf ; or with subscript/FNX flag (or FN name)
|
||
|
CMP #'(' ; compare with "("
|
||
|
BNE LAB_1D53 ; branch if not "("
|
||
|
|
||
|
JMP LAB_1E17 ; go find, or make, array
|
||
|
|
||
|
; either find or create var
|
||
|
; var name (1st two characters only!) is in Varnm1,Varnm2
|
||
|
|
||
|
; variable name wasn't var(... so look for plain var
|
||
|
LAB_1D53
|
||
|
LDA #$00 ; clear A
|
||
|
STA Sufnxf ; clear subscript/FNX flag
|
||
|
LDA Svarl ; get start of vars low byte
|
||
|
LDX Svarh ; get start of vars high byte
|
||
|
LDY #$00 ; clear index
|
||
|
LAB_1D5D
|
||
|
STX Vrschh ; save search address high byte
|
||
|
LAB_1D5F
|
||
|
STA Vrschl ; save search address low byte
|
||
|
CPX Sarryh ; compare high address with var space end
|
||
|
BNE LAB_1D69 ; skip next compare if <>
|
||
|
|
||
|
; high addresses were = so compare low addresses
|
||
|
CMP Sarryl ; compare low address with var space end
|
||
|
BEQ LAB_1D8B ; if not found go make new var
|
||
|
|
||
|
LAB_1D69
|
||
|
LDA Varnm1 ; get 1st character of var to find
|
||
|
CMP (Vrschl),Y ; compare with variable name 1st character
|
||
|
BNE LAB_1D77 ; branch if no match
|
||
|
|
||
|
; 1st characters match so compare 2nd characters
|
||
|
LDA Varnm2 ; get 2nd character of var to find
|
||
|
INY ; index to point to variable name 2nd character
|
||
|
CMP (Vrschl),Y ; compare with variable name 2nd character
|
||
|
BEQ LAB_1DD7 ; branch if match (found var)
|
||
|
|
||
|
DEY ; else decrement index (now = $00)
|
||
|
LAB_1D77
|
||
|
CLC ; clear carry for add
|
||
|
LDA Vrschl ; get search address low byte
|
||
|
ADC #$06 ; +6 (offset to next var name)
|
||
|
BCC LAB_1D5F ; loop if no overflow to high byte
|
||
|
|
||
|
INX ; else increment high byte
|
||
|
BNE LAB_1D5D ; loop always (RAM doesn't extend to $FFFF !)
|
||
|
|
||
|
; check byte, return C=0 if<"A" or >"Z" or "a" to "z"
|
||
|
|
||
|
LAB_CASC
|
||
|
CMP #'a' ; compare with "a"
|
||
|
BCS LAB_1D83 ; go check <"z"+1
|
||
|
|
||
|
; check byte, return C=0 if<"A" or >"Z"
|
||
|
|
||
|
LAB_1D82
|
||
|
CMP #'A' ; compare with "A"
|
||
|
BCC LAB_1D8A ; exit if less
|
||
|
|
||
|
; carry is set
|
||
|
SBC #$5B ; subtract "Z"+1
|
||
|
SEC ; set carry
|
||
|
SBC #$A5 ; subtract $A5 (restore byte)
|
||
|
; carry clear if byte>$5A
|
||
|
LAB_1D8A
|
||
|
RTS
|
||
|
|
||
|
LAB_1D83
|
||
|
SBC #$7B ; subtract "z"+1
|
||
|
SEC ; set carry
|
||
|
SBC #$85 ; subtract $85 (restore byte)
|
||
|
; carry clear if byte>$7A
|
||
|
RTS
|
||
|
|
||
|
; reached end of variable mem without match
|
||
|
; .. so create new variable
|
||
|
LAB_1D8B
|
||
|
PLA ; pop return address low byte
|
||
|
PHA ; push return address low byte
|
||
|
LAB_1C18p2 = LAB_1C18+2
|
||
|
CMP #<LAB_1C18p2 ; compare with expected calling routine return low byte
|
||
|
BNE LAB_1D98 ; if not get (var) go create new var
|
||
|
|
||
|
; This will only drop through if the call was from LAB_1C18 and is only called
|
||
|
; from there if it is searching for a variable from the RHS of a LET a=b statement
|
||
|
; it prevents the creation of variables not assigned a value.
|
||
|
|
||
|
; value returned by this is either numeric zero (exponent byte is $00) or null string
|
||
|
; (descriptor length byte is $00). in fact a pointer to any $00 byte would have done.
|
||
|
|
||
|
; doing this saves 6 bytes of variable memory and 168 machine cycles of time
|
||
|
|
||
|
; this is where you would put the undefined variable error call e.g.
|
||
|
|
||
|
; ; variable doesn't exist so flag error
|
||
|
; LDX #$24 ; error code $24 ("undefined variable" error)
|
||
|
; JMP LAB_XERR ; do error #X then warm start
|
||
|
|
||
|
; the above code has been tested and works a treat! (it replaces the three code lines
|
||
|
; below)
|
||
|
|
||
|
; else return dummy null value
|
||
|
LDA #<LAB_1D96 ; low byte point to $00,$00
|
||
|
; (uses part of misc constants table)
|
||
|
LDY #>LAB_1D96 ; high byte point to $00,$00
|
||
|
RTS
|
||
|
|
||
|
; create new numeric variable
|
||
|
LAB_1D98
|
||
|
LDA Sarryl ; get var mem end low byte
|
||
|
LDY Sarryh ; get var mem end high byte
|
||
|
STA Ostrtl ; save old block start low byte
|
||
|
STY Ostrth ; save old block start high byte
|
||
|
LDA Earryl ; get array mem end low byte
|
||
|
LDY Earryh ; get array mem end high byte
|
||
|
STA Obendl ; save old block end low byte
|
||
|
STY Obendh ; save old block end high byte
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$06 ; +6 (space for one var)
|
||
|
BCC LAB_1DAE ; branch if no overflow to high byte
|
||
|
|
||
|
INY ; else increment high byte
|
||
|
LAB_1DAE
|
||
|
STA Nbendl ; set new block end low byte
|
||
|
STY Nbendh ; set new block end high byte
|
||
|
JSR LAB_11CF ; open up space in memory
|
||
|
LDA Nbendl ; get new start low byte
|
||
|
LDY Nbendh ; get new start high byte (-$100)
|
||
|
INY ; correct high byte
|
||
|
STA Sarryl ; save new var mem end low byte
|
||
|
STY Sarryh ; save new var mem end high byte
|
||
|
LDY #$00 ; clear index
|
||
|
LDA Varnm1 ; get var name 1st character
|
||
|
STA (Vrschl),Y ; save var name 1st character
|
||
|
INY ; increment index
|
||
|
LDA Varnm2 ; get var name 2nd character
|
||
|
STA (Vrschl),Y ; save var name 2nd character
|
||
|
LDA #$00 ; clear A
|
||
|
INY ; increment index
|
||
|
STA (Vrschl),Y ; initialise var byte
|
||
|
INY ; increment index
|
||
|
STA (Vrschl),Y ; initialise var byte
|
||
|
INY ; increment index
|
||
|
STA (Vrschl),Y ; initialise var byte
|
||
|
INY ; increment index
|
||
|
STA (Vrschl),Y ; initialise var byte
|
||
|
|
||
|
; found a match for var ((Vrschl) = ptr)
|
||
|
LAB_1DD7
|
||
|
LDA Vrschl ; get var address low byte
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$02 ; +2 (offset past var name bytes)
|
||
|
LDY Vrschh ; get var address high byte
|
||
|
BCC LAB_1DE1 ; branch if no overflow from add
|
||
|
|
||
|
INY ; else increment high byte
|
||
|
LAB_1DE1
|
||
|
STA Cvaral ; save current var address low byte
|
||
|
STY Cvarah ; save current var address high byte
|
||
|
RTS
|
||
|
|
||
|
; set-up array pointer (Adatal/h) to first element in array
|
||
|
; set Adatal,Adatah to Astrtl,Astrth+2*Dimcnt+#$05
|
||
|
|
||
|
LAB_1DE6
|
||
|
LDA Dimcnt ; get # of dimensions (1, 2 or 3)
|
||
|
ASL ; *2 (also clears the carry !)
|
||
|
ADC #$05 ; +5 (result is 7, 9 or 11 here)
|
||
|
ADC Astrtl ; add array start pointer low byte
|
||
|
LDY Astrth ; get array pointer high byte
|
||
|
BCC LAB_1DF2 ; branch if no overflow
|
||
|
|
||
|
INY ; else increment high byte
|
||
|
LAB_1DF2
|
||
|
STA Adatal ; save array data pointer low byte
|
||
|
STY Adatah ; save array data pointer high byte
|
||
|
RTS
|
||
|
|
||
|
; evaluate integer expression
|
||
|
|
||
|
LAB_EVIN
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
|
||
|
; evaluate integer expression (no check)
|
||
|
|
||
|
LAB_EVPI
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
BMI LAB_1E12 ; do function call error if -ve
|
||
|
|
||
|
; evaluate integer expression (no sign check)
|
||
|
|
||
|
LAB_EVIR
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
CMP #$90 ; compare with exponent = 2^16 (n>2^15)
|
||
|
BCC LAB_1E14 ; branch if n<2^16 (is ok)
|
||
|
|
||
|
LDA #<LAB_1DF7 ; set pointer low byte to -32768
|
||
|
LDY #>LAB_1DF7 ; set pointer high byte to -32768
|
||
|
JSR LAB_27F8 ; compare FAC1 with (AY)
|
||
|
LAB_1E12
|
||
|
BNE LAB_FCER ; if <> do function call error then warm start
|
||
|
|
||
|
LAB_1E14
|
||
|
JMP LAB_2831 ; convert FAC1 floating-to-fixed and return
|
||
|
|
||
|
; find or make array
|
||
|
|
||
|
LAB_1E17
|
||
|
LDA Defdim ; get DIM flag
|
||
|
PHA ; push it
|
||
|
LDA Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
PHA ; push it
|
||
|
LDY #$00 ; clear dimensions count
|
||
|
|
||
|
; now get the array dimension(s) and stack it (them) before the data type and DIM flag
|
||
|
|
||
|
LAB_1E1F
|
||
|
TYA ; copy dimensions count
|
||
|
PHA ; save it
|
||
|
LDA Varnm2 ; get array name 2nd byte
|
||
|
PHA ; save it
|
||
|
LDA Varnm1 ; get array name 1st byte
|
||
|
PHA ; save it
|
||
|
JSR LAB_EVIN ; evaluate integer expression
|
||
|
PLA ; pull array name 1st byte
|
||
|
STA Varnm1 ; restore array name 1st byte
|
||
|
PLA ; pull array name 2nd byte
|
||
|
STA Varnm2 ; restore array name 2nd byte
|
||
|
PLA ; pull dimensions count
|
||
|
TAY ; restore it
|
||
|
TSX ; copy stack pointer
|
||
|
LDA LAB_STAK+2,X ; get DIM flag
|
||
|
PHA ; push it
|
||
|
LDA LAB_STAK+1,X ; get data type flag
|
||
|
PHA ; push it
|
||
|
LDA FAC1_2 ; get this dimension size high byte
|
||
|
STA LAB_STAK+2,X ; stack before flag bytes
|
||
|
LDA FAC1_3 ; get this dimension size low byte
|
||
|
STA LAB_STAK+1,X ; stack before flag bytes
|
||
|
INY ; increment dimensions count
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
CMP #',' ; compare with ","
|
||
|
BEQ LAB_1E1F ; if found go do next dimension
|
||
|
|
||
|
STY Dimcnt ; store dimensions count
|
||
|
JSR LAB_1BFB ; scan for ")" , else do syntax error then warm start
|
||
|
PLA ; pull data type flag
|
||
|
STA Dtypef ; restore data type flag, $FF=string, $00=numeric
|
||
|
PLA ; pull DIM flag
|
||
|
STA Defdim ; restore DIM flag
|
||
|
LDX Sarryl ; get array mem start low byte
|
||
|
LDA Sarryh ; get array mem start high byte
|
||
|
|
||
|
; now check to see if we are at the end of array memory (we would be if there were
|
||
|
; no arrays).
|
||
|
|
||
|
LAB_1E5C
|
||
|
STX Astrtl ; save as array start pointer low byte
|
||
|
STA Astrth ; save as array start pointer high byte
|
||
|
CMP Earryh ; compare with array mem end high byte
|
||
|
BNE LAB_1E68 ; branch if not reached array mem end
|
||
|
|
||
|
CPX Earryl ; else compare with array mem end low byte
|
||
|
BEQ LAB_1EA1 ; go build array if not found
|
||
|
|
||
|
; search for array
|
||
|
LAB_1E68
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (Astrtl),Y ; get array name first byte
|
||
|
INY ; increment index to second name byte
|
||
|
CMP Varnm1 ; compare with this array name first byte
|
||
|
BNE LAB_1E77 ; branch if no match
|
||
|
|
||
|
LDA Varnm2 ; else get this array name second byte
|
||
|
CMP (Astrtl),Y ; compare with array name second byte
|
||
|
BEQ LAB_1E8D ; array found so branch
|
||
|
|
||
|
; no match
|
||
|
LAB_1E77
|
||
|
INY ; increment index
|
||
|
LDA (Astrtl),Y ; get array size low byte
|
||
|
CLC ; clear carry for add
|
||
|
ADC Astrtl ; add array start pointer low byte
|
||
|
TAX ; copy low byte to X
|
||
|
INY ; increment index
|
||
|
LDA (Astrtl),Y ; get array size high byte
|
||
|
ADC Astrth ; add array mem pointer high byte
|
||
|
BCC LAB_1E5C ; if no overflow go check next array
|
||
|
|
||
|
; do array bounds error
|
||
|
|
||
|
LAB_1E85
|
||
|
LDX #$10 ; error code $10 ("Array bounds" error)
|
||
|
.byte $2C ; makes next bit BIT LAB_08A2
|
||
|
|
||
|
; do function call error
|
||
|
|
||
|
LAB_FCER
|
||
|
LDX #$08 ; error code $08 ("Function call" error)
|
||
|
LAB_1E8A
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; found array, are we trying to dimension it?
|
||
|
LAB_1E8D
|
||
|
LDX #$12 ; set error $12 ("Double dimension" error)
|
||
|
LDA Defdim ; get DIM flag
|
||
|
BNE LAB_1E8A ; if we are trying to dimension it do error #X, then warm
|
||
|
; start
|
||
|
|
||
|
; found the array and we're not dimensioning it so we must find an element in it
|
||
|
|
||
|
JSR LAB_1DE6 ; set-up array pointer (Adatal/h) to first element in array
|
||
|
; (Astrtl,Astrth points to start of array)
|
||
|
LDA Dimcnt ; get dimensions count
|
||
|
LDY #$04 ; set index to array's # of dimensions
|
||
|
CMP (Astrtl),Y ; compare with no of dimensions
|
||
|
BNE LAB_1E85 ; if wrong do array bounds error, could do "Wrong
|
||
|
; dimensions" error here .. if we want a different
|
||
|
; error message
|
||
|
|
||
|
JMP LAB_1F28 ; found array so go get element
|
||
|
; (could jump to LAB_1F28 as all LAB_1F24 does is take
|
||
|
; Dimcnt and save it at (Astrtl),Y which is already the
|
||
|
; same or we would have taken the BNE)
|
||
|
|
||
|
; array not found, so build it
|
||
|
LAB_1EA1
|
||
|
JSR LAB_1DE6 ; set-up array pointer (Adatal/h) to first element in array
|
||
|
; (Astrtl,Astrth points to start of array)
|
||
|
JSR LAB_121F ; check available memory, "Out of memory" error if no room
|
||
|
; addr to check is in AY (low/high)
|
||
|
LDY #$00 ; clear Y (don't need to clear A)
|
||
|
STY Aspth ; clear array data size high byte
|
||
|
LDA Varnm1 ; get variable name 1st byte
|
||
|
STA (Astrtl),Y ; save array name 1st byte
|
||
|
INY ; increment index
|
||
|
LDA Varnm2 ; get variable name 2nd byte
|
||
|
STA (Astrtl),Y ; save array name 2nd byte
|
||
|
LDA Dimcnt ; get dimensions count
|
||
|
LDY #$04 ; index to dimension count
|
||
|
STY Asptl ; set array data size low byte (four bytes per element)
|
||
|
STA (Astrtl),Y ; set array's dimensions count
|
||
|
|
||
|
; now calculate the size of the data space for the array
|
||
|
CLC ; clear carry for add (clear on subsequent loops)
|
||
|
LAB_1EC0
|
||
|
LDX #$0B ; set default dimension value low byte
|
||
|
LDA #$00 ; set default dimension value high byte
|
||
|
BIT Defdim ; test default DIM flag
|
||
|
BVC LAB_1ED0 ; branch if b6 of Defdim is clear
|
||
|
|
||
|
PLA ; else pull dimension value low byte
|
||
|
ADC #$01 ; +1 (allow for zeroeth element)
|
||
|
TAX ; copy low byte to X
|
||
|
PLA ; pull dimension value high byte
|
||
|
ADC #$00 ; add carry from low byte
|
||
|
|
||
|
LAB_1ED0
|
||
|
INY ; index to dimension value high byte
|
||
|
STA (Astrtl),Y ; save dimension value high byte
|
||
|
INY ; index to dimension value high byte
|
||
|
TXA ; get dimension value low byte
|
||
|
STA (Astrtl),Y ; save dimension value low byte
|
||
|
JSR LAB_1F7C ; does XY = (Astrtl),Y * (Asptl)
|
||
|
STX Asptl ; save array data size low byte
|
||
|
STA Aspth ; save array data size high byte
|
||
|
LDY ut1_pl ; restore index (saved by subroutine)
|
||
|
DEC Dimcnt ; decrement dimensions count
|
||
|
BNE LAB_1EC0 ; loop while not = 0
|
||
|
|
||
|
ADC Adatah ; add size high byte to first element high byte
|
||
|
; (carry is always clear here)
|
||
|
BCS LAB_1F45 ; if overflow go do "Out of memory" error
|
||
|
|
||
|
STA Adatah ; save end of array high byte
|
||
|
TAY ; copy end high byte to Y
|
||
|
TXA ; get array size low byte
|
||
|
ADC Adatal ; add array start low byte
|
||
|
BCC LAB_1EF3 ; branch if no carry
|
||
|
|
||
|
INY ; else increment end of array high byte
|
||
|
BEQ LAB_1F45 ; if overflow go do "Out of memory" error
|
||
|
|
||
|
; set-up mostly complete, now zero the array
|
||
|
LAB_1EF3
|
||
|
JSR LAB_121F ; check available memory, "Out of memory" error if no room
|
||
|
; addr to check is in AY (low/high)
|
||
|
STA Earryl ; save array mem end low byte
|
||
|
STY Earryh ; save array mem end high byte
|
||
|
LDA #$00 ; clear byte for array clear
|
||
|
INC Aspth ; increment array size high byte (now block count)
|
||
|
LDY Asptl ; get array size low byte (now index to block)
|
||
|
BEQ LAB_1F07 ; branch if low byte = $00
|
||
|
|
||
|
LAB_1F02
|
||
|
DEY ; decrement index (do 0 to n-1)
|
||
|
STA (Adatal),Y ; zero byte
|
||
|
BNE LAB_1F02 ; loop until this block done
|
||
|
|
||
|
LAB_1F07
|
||
|
DEC Adatah ; decrement array pointer high byte
|
||
|
DEC Aspth ; decrement block count high byte
|
||
|
BNE LAB_1F02 ; loop until all blocks done
|
||
|
|
||
|
INC Adatah ; correct for last loop
|
||
|
SEC ; set carry for subtract
|
||
|
LDY #$02 ; index to array size low byte
|
||
|
LDA Earryl ; get array mem end low byte
|
||
|
SBC Astrtl ; subtract array start low byte
|
||
|
STA (Astrtl),Y ; save array size low byte
|
||
|
INY ; index to array size high byte
|
||
|
LDA Earryh ; get array mem end high byte
|
||
|
SBC Astrth ; subtract array start high byte
|
||
|
STA (Astrtl),Y ; save array size high byte
|
||
|
LDA Defdim ; get default DIM flag
|
||
|
BNE LAB_1F7B ; exit (RET) if this was a DIM command
|
||
|
|
||
|
; else, find element
|
||
|
INY ; index to # of dimensions
|
||
|
|
||
|
LAB_1F24
|
||
|
LDA (Astrtl),Y ; get array's dimension count
|
||
|
STA Dimcnt ; save it
|
||
|
|
||
|
; we have found, or built, the array. now we need to find the element
|
||
|
|
||
|
LAB_1F28
|
||
|
LDA #$00 ; clear byte
|
||
|
STA Asptl ; clear array data pointer low byte
|
||
|
LAB_1F2C
|
||
|
STA Aspth ; save array data pointer high byte
|
||
|
INY ; increment index (point to array bound high byte)
|
||
|
PLA ; pull array index low byte
|
||
|
TAX ; copy to X
|
||
|
STA FAC1_2 ; save index low byte to FAC1 mantissa2
|
||
|
PLA ; pull array index high byte
|
||
|
STA FAC1_3 ; save index high byte to FAC1 mantissa3
|
||
|
CMP (Astrtl),Y ; compare with array bound high byte
|
||
|
BCC LAB_1F48 ; branch if within bounds
|
||
|
|
||
|
BNE LAB_1F42 ; if outside bounds do array bounds error
|
||
|
|
||
|
; else high byte was = so test low bytes
|
||
|
INY ; index to array bound low byte
|
||
|
TXA ; get array index low byte
|
||
|
CMP (Astrtl),Y ; compare with array bound low byte
|
||
|
BCC LAB_1F49 ; branch if within bounds
|
||
|
|
||
|
LAB_1F42
|
||
|
JMP LAB_1E85 ; else do array bounds error
|
||
|
|
||
|
LAB_1F45
|
||
|
JMP LAB_OMER ; do "Out of memory" error then warm start
|
||
|
|
||
|
LAB_1F48
|
||
|
INY ; index to array bound low byte
|
||
|
LAB_1F49
|
||
|
LDA Aspth ; get array data pointer high byte
|
||
|
ORA Asptl ; OR with array data pointer low byte
|
||
|
BEQ LAB_1F5A ; branch if array data pointer = null (skip multiply)
|
||
|
|
||
|
JSR LAB_1F7C ; does XY = (Astrtl),Y * (Asptl)
|
||
|
TXA ; get result low byte
|
||
|
ADC FAC1_2 ; add index low byte from FAC1 mantissa2
|
||
|
TAX ; save result low byte
|
||
|
TYA ; get result high byte
|
||
|
LDY ut1_pl ; restore index
|
||
|
LAB_1F5A
|
||
|
ADC FAC1_3 ; add index high byte from FAC1 mantissa3
|
||
|
STX Asptl ; save array data pointer low byte
|
||
|
DEC Dimcnt ; decrement dimensions count
|
||
|
BNE LAB_1F2C ; loop if dimensions still to do
|
||
|
|
||
|
ASL Asptl ; array data pointer low byte * 2
|
||
|
ROL ; array data pointer high byte * 2
|
||
|
ASL Asptl ; array data pointer low byte * 4
|
||
|
ROL ; array data pointer high byte * 4
|
||
|
TAY ; copy high byte
|
||
|
LDA Asptl ; get low byte
|
||
|
ADC Adatal ; add array data start pointer low byte
|
||
|
STA Cvaral ; save as current var address low byte
|
||
|
TYA ; get high byte back
|
||
|
ADC Adatah ; add array data start pointer high byte
|
||
|
STA Cvarah ; save as current var address high byte
|
||
|
TAY ; copy high byte to Y
|
||
|
LDA Cvaral ; get current var address low byte
|
||
|
LAB_1F7B
|
||
|
RTS
|
||
|
|
||
|
; does XY = (Astrtl),Y * (Asptl)
|
||
|
|
||
|
LAB_1F7C
|
||
|
STY ut1_pl ; save index
|
||
|
LDA (Astrtl),Y ; get dimension size low byte
|
||
|
STA dims_l ; save dimension size low byte
|
||
|
DEY ; decrement index
|
||
|
LDA (Astrtl),Y ; get dimension size high byte
|
||
|
STA dims_h ; save dimension size high byte
|
||
|
|
||
|
LDA #$10 ; count = $10 (16 bit multiply)
|
||
|
STA numbit ; save bit count
|
||
|
LDX #$00 ; clear result low byte
|
||
|
LDY #$00 ; clear result high byte
|
||
|
LAB_1F8F
|
||
|
TXA ; get result low byte
|
||
|
ASL ; *2
|
||
|
TAX ; save result low byte
|
||
|
TYA ; get result high byte
|
||
|
ROL ; *2
|
||
|
TAY ; save result high byte
|
||
|
BCS LAB_1F45 ; if overflow go do "Out of memory" error
|
||
|
|
||
|
ASL Asptl ; shift multiplier low byte
|
||
|
ROL Aspth ; shift multiplier high byte
|
||
|
BCC LAB_1FA8 ; skip add if no carry
|
||
|
|
||
|
CLC ; else clear carry for add
|
||
|
TXA ; get result low byte
|
||
|
ADC dims_l ; add dimension size low byte
|
||
|
TAX ; save result low byte
|
||
|
TYA ; get result high byte
|
||
|
ADC dims_h ; add dimension size high byte
|
||
|
TAY ; save result high byte
|
||
|
BCS LAB_1F45 ; if overflow go do "Out of memory" error
|
||
|
|
||
|
LAB_1FA8
|
||
|
DEC numbit ; decrement bit count
|
||
|
BNE LAB_1F8F ; loop until all done
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; perform FRE()
|
||
|
|
||
|
LAB_FRE
|
||
|
LDA Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
BPL LAB_1FB4 ; branch if numeric
|
||
|
|
||
|
JSR LAB_22B6 ; pop string off descriptor stack, or from top of string
|
||
|
; space returns with A = length, X=$71=pointer low byte,
|
||
|
; Y=$72=pointer high byte
|
||
|
|
||
|
; FRE(n) was numeric so do this
|
||
|
LAB_1FB4
|
||
|
JSR LAB_GARB ; go do garbage collection
|
||
|
SEC ; set carry for subtract
|
||
|
LDA Sstorl ; get bottom of string space low byte
|
||
|
SBC Earryl ; subtract array mem end low byte
|
||
|
TAY ; copy result to Y
|
||
|
LDA Sstorh ; get bottom of string space high byte
|
||
|
SBC Earryh ; subtract array mem end high byte
|
||
|
|
||
|
; save and convert integer AY to FAC1
|
||
|
|
||
|
LAB_AYFC
|
||
|
LSR Dtypef ; clear data type flag, $FF=string, $00=numeric
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
STY FAC1_2 ; save FAC1 mantissa2
|
||
|
LDX #$90 ; set exponent=2^16 (integer)
|
||
|
JMP LAB_27E3 ; set exp=X, clear FAC1_3, normalise and return
|
||
|
|
||
|
; perform POS()
|
||
|
|
||
|
LAB_POS
|
||
|
LDY TPos ; get terminal position
|
||
|
|
||
|
; convert Y to byte in FAC1
|
||
|
|
||
|
LAB_1FD0
|
||
|
LDA #$00 ; clear high byte
|
||
|
BEQ LAB_AYFC ; always save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; check not Direct (used by DEF and INPUT)
|
||
|
|
||
|
LAB_CKRN
|
||
|
LDX Clineh ; get current line high byte
|
||
|
INX ; increment it
|
||
|
BNE LAB_1F7B ; return if can continue not direct mode
|
||
|
|
||
|
; else do illegal direct error
|
||
|
LAB_1FD9
|
||
|
LDX #$16 ; error code $16 ("Illegal direct" error)
|
||
|
LAB_1FDB
|
||
|
JMP LAB_XERR ; go do error #X, then warm start
|
||
|
|
||
|
; perform DEF
|
||
|
|
||
|
LAB_DEF
|
||
|
JSR LAB_200B ; check FNx syntax
|
||
|
STA func_l ; save function pointer low byte
|
||
|
STY func_h ; save function pointer high byte
|
||
|
JSR LAB_CKRN ; check not Direct (back here if ok)
|
||
|
JSR LAB_1BFE ; scan for "(" , else do syntax error then warm start
|
||
|
LDA #$80 ; set flag for FNx
|
||
|
STA Sufnxf ; save subscript/FNx flag
|
||
|
JSR LAB_GVAR ; get (var) address
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
JSR LAB_1BFB ; scan for ")" , else do syntax error then warm start
|
||
|
LDA #TK_EQUAL ; get = token
|
||
|
JSR LAB_SCCA ; scan for CHR$(A), else do syntax error then warm start
|
||
|
LDA Cvarah ; get current var address high byte
|
||
|
PHA ; push it
|
||
|
LDA Cvaral ; get current var address low byte
|
||
|
PHA ; push it
|
||
|
LDA Bpntrh ; get BASIC execute pointer high byte
|
||
|
PHA ; push it
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
PHA ; push it
|
||
|
JSR LAB_DATA ; go perform DATA
|
||
|
JMP LAB_207A ; put execute pointer and variable pointer into function
|
||
|
; and return
|
||
|
|
||
|
; check FNx syntax
|
||
|
|
||
|
LAB_200B
|
||
|
LDA #TK_FN ; get FN" token
|
||
|
JSR LAB_SCCA ; scan for CHR$(A) , else do syntax error then warm start
|
||
|
; return character after A
|
||
|
ORA #$80 ; set FN flag bit
|
||
|
STA Sufnxf ; save FN flag so array variable test fails
|
||
|
JSR LAB_1D12 ; search for FN variable
|
||
|
JMP LAB_CTNM ; check if source is numeric and return, else do type
|
||
|
; mismatch
|
||
|
|
||
|
; Evaluate FNx
|
||
|
LAB_201E
|
||
|
JSR LAB_200B ; check FNx syntax
|
||
|
PHA ; push function pointer low byte
|
||
|
TYA ; copy function pointer high byte
|
||
|
PHA ; push function pointer high byte
|
||
|
JSR LAB_1BFE ; scan for "(", else do syntax error then warm start
|
||
|
JSR LAB_EVEX ; evaluate expression
|
||
|
JSR LAB_1BFB ; scan for ")", else do syntax error then warm start
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
PLA ; pop function pointer high byte
|
||
|
STA func_h ; restore it
|
||
|
PLA ; pop function pointer low byte
|
||
|
STA func_l ; restore it
|
||
|
LDX #$20 ; error code $20 ("Undefined function" error)
|
||
|
LDY #$03 ; index to variable pointer high byte
|
||
|
LDA (func_l),Y ; get variable pointer high byte
|
||
|
BEQ LAB_1FDB ; if zero go do undefined function error
|
||
|
|
||
|
STA Cvarah ; save variable address high byte
|
||
|
DEY ; index to variable address low byte
|
||
|
LDA (func_l),Y ; get variable address low byte
|
||
|
STA Cvaral ; save variable address low byte
|
||
|
TAX ; copy address low byte
|
||
|
|
||
|
; now stack the function variable value before use
|
||
|
INY ; index to mantissa_3
|
||
|
LAB_2043
|
||
|
LDA (Cvaral),Y ; get byte from variable
|
||
|
PHA ; stack it
|
||
|
DEY ; decrement index
|
||
|
BPL LAB_2043 ; loop until variable stacked
|
||
|
|
||
|
LDY Cvarah ; get variable address high byte
|
||
|
JSR LAB_2778 ; pack FAC1 (function expression value) into (XY)
|
||
|
; (function variable), return Y=0, always
|
||
|
LDA Bpntrh ; get BASIC execute pointer high byte
|
||
|
PHA ; push it
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
PHA ; push it
|
||
|
LDA (func_l),Y ; get function execute pointer low byte
|
||
|
STA Bpntrl ; save as BASIC execute pointer low byte
|
||
|
INY ; index to high byte
|
||
|
LDA (func_l),Y ; get function execute pointer high byte
|
||
|
STA Bpntrh ; save as BASIC execute pointer high byte
|
||
|
LDA Cvarah ; get variable address high byte
|
||
|
PHA ; push it
|
||
|
LDA Cvaral ; get variable address low byte
|
||
|
PHA ; push it
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
PLA ; pull variable address low byte
|
||
|
STA func_l ; save variable address low byte
|
||
|
PLA ; pull variable address high byte
|
||
|
STA func_h ; save variable address high byte
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BEQ LAB_2074 ; branch if null (should be [EOL] marker)
|
||
|
|
||
|
JMP LAB_SNER ; else syntax error then warm start
|
||
|
|
||
|
; restore Bpntrl,Bpntrh and function variable from stack
|
||
|
|
||
|
LAB_2074
|
||
|
PLA ; pull BASIC execute pointer low byte
|
||
|
STA Bpntrl ; restore BASIC execute pointer low byte
|
||
|
PLA ; pull BASIC execute pointer high byte
|
||
|
STA Bpntrh ; restore BASIC execute pointer high byte
|
||
|
|
||
|
; put execute pointer and variable pointer into function
|
||
|
|
||
|
LAB_207A
|
||
|
LDY #$00 ; clear index
|
||
|
PLA ; pull BASIC execute pointer low byte
|
||
|
STA (func_l),Y ; save to function
|
||
|
INY ; increment index
|
||
|
PLA ; pull BASIC execute pointer high byte
|
||
|
STA (func_l),Y ; save to function
|
||
|
INY ; increment index
|
||
|
PLA ; pull current var address low byte
|
||
|
STA (func_l),Y ; save to function
|
||
|
INY ; increment index
|
||
|
PLA ; pull current var address high byte
|
||
|
STA (func_l),Y ; save to function
|
||
|
RTS
|
||
|
|
||
|
; perform STR$()
|
||
|
|
||
|
LAB_STRS
|
||
|
JSR LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
JSR LAB_296E ; convert FAC1 to string
|
||
|
LDA #<Decssp1 ; set result string low pointer
|
||
|
LDY #>Decssp1 ; set result string high pointer
|
||
|
BEQ LAB_20AE ; print null terminated string to Sutill/Sutilh
|
||
|
|
||
|
; Do string vector
|
||
|
; copy des_pl/h to des_2l/h and make string space A bytes long
|
||
|
|
||
|
LAB_209C
|
||
|
LDX des_pl ; get descriptor pointer low byte
|
||
|
LDY des_ph ; get descriptor pointer high byte
|
||
|
STX des_2l ; save descriptor pointer low byte
|
||
|
STY des_2h ; save descriptor pointer high byte
|
||
|
|
||
|
; make string space A bytes long
|
||
|
; A=length, X=Sutill=ptr low byte, Y=Sutilh=ptr high byte
|
||
|
|
||
|
LAB_MSSP
|
||
|
JSR LAB_2115 ; make space in string memory for string A long
|
||
|
; return X=Sutill=ptr low byte, Y=Sutilh=ptr high byte
|
||
|
STX str_pl ; save string pointer low byte
|
||
|
STY str_ph ; save string pointer high byte
|
||
|
STA str_ln ; save length
|
||
|
RTS
|
||
|
|
||
|
; Scan, set up string
|
||
|
; print " terminated string to Sutill/Sutilh
|
||
|
|
||
|
LAB_20AE
|
||
|
LDX #$22 ; set terminator to "
|
||
|
STX Srchc ; set search character (terminator 1)
|
||
|
STX Asrch ; set terminator 2
|
||
|
|
||
|
; print [Srchc] or [Asrch] terminated string to Sutill/Sutilh
|
||
|
; source is AY
|
||
|
|
||
|
LAB_20B4
|
||
|
STA ssptr_l ; store string start low byte
|
||
|
STY ssptr_h ; store string start high byte
|
||
|
STA str_pl ; save string pointer low byte
|
||
|
STY str_ph ; save string pointer high byte
|
||
|
LDY #$FF ; set length to -1
|
||
|
LAB_20BE
|
||
|
INY ; increment length
|
||
|
LDA (ssptr_l),Y ; get byte from string
|
||
|
BEQ LAB_20CF ; exit loop if null byte [EOS]
|
||
|
|
||
|
CMP Srchc ; compare with search character (terminator 1)
|
||
|
BEQ LAB_20CB ; branch if terminator
|
||
|
|
||
|
CMP Asrch ; compare with terminator 2
|
||
|
BNE LAB_20BE ; loop if not terminator 2
|
||
|
|
||
|
LAB_20CB
|
||
|
CMP #$22 ; compare with "
|
||
|
BEQ LAB_20D0 ; branch if " (carry set if = !)
|
||
|
|
||
|
LAB_20CF
|
||
|
CLC ; clear carry for add (only if [EOL] terminated string)
|
||
|
LAB_20D0
|
||
|
STY str_ln ; save length in FAC1 exponent
|
||
|
TYA ; copy length to A
|
||
|
ADC ssptr_l ; add string start low byte
|
||
|
STA Sendl ; save string end low byte
|
||
|
LDX ssptr_h ; get string start high byte
|
||
|
BCC LAB_20DC ; branch if no low byte overflow
|
||
|
|
||
|
INX ; else increment high byte
|
||
|
LAB_20DC
|
||
|
STX Sendh ; save string end high byte
|
||
|
LDA ssptr_h ; get string start high byte
|
||
|
CMP #>Ram_base ; compare with start of program memory
|
||
|
BCS LAB_RTST ; branch if not in utility area
|
||
|
|
||
|
; string in utility area, move to string memory
|
||
|
TYA ; copy length to A
|
||
|
JSR LAB_209C ; copy des_pl/h to des_2l/h and make string space A bytes
|
||
|
; long
|
||
|
LDX ssptr_l ; get string start low byte
|
||
|
LDY ssptr_h ; get string start high byte
|
||
|
JSR LAB_2298 ; store string A bytes long from XY to (Sutill)
|
||
|
|
||
|
; check for space on descriptor stack then ..
|
||
|
; put string address and length on descriptor stack and update stack pointers
|
||
|
|
||
|
LAB_RTST
|
||
|
LDX next_s ; get string stack pointer
|
||
|
CPX #des_sk+$09 ; compare with max+1
|
||
|
BNE LAB_20F8 ; branch if space on string stack
|
||
|
|
||
|
; else do string too complex error
|
||
|
LDX #$1C ; error code $1C ("String too complex" error)
|
||
|
LAB_20F5
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; put string address and length on descriptor stack and update stack pointers
|
||
|
|
||
|
LAB_20F8
|
||
|
LDA str_ln ; get string length
|
||
|
STA PLUS_0,X ; put on string stack
|
||
|
LDA str_pl ; get string pointer low byte
|
||
|
STA PLUS_1,X ; put on string stack
|
||
|
LDA str_ph ; get string pointer high byte
|
||
|
STA PLUS_2,X ; put on string stack
|
||
|
LDY #$00 ; clear Y
|
||
|
STX des_pl ; save string descriptor pointer low byte
|
||
|
STY des_ph ; save string descriptor pointer high byte (always $00)
|
||
|
DEY ; Y = $FF
|
||
|
STY Dtypef ; save data type flag, $FF=string
|
||
|
STX last_sl ; save old stack pointer (current top item)
|
||
|
INX ; update stack pointer
|
||
|
INX ; update stack pointer
|
||
|
INX ; update stack pointer
|
||
|
STX next_s ; save new top item value
|
||
|
RTS
|
||
|
|
||
|
; Build descriptor
|
||
|
; make space in string memory for string A long
|
||
|
; return X=Sutill=ptr low byte, Y=Sutill=ptr high byte
|
||
|
|
||
|
LAB_2115
|
||
|
LSR Gclctd ; clear garbage collected flag (b7)
|
||
|
|
||
|
; make space for string A long
|
||
|
LAB_2117
|
||
|
PHA ; save string length
|
||
|
EOR #$FF ; complement it
|
||
|
SEC ; set carry for subtract (twos comp add)
|
||
|
ADC Sstorl ; add bottom of string space low byte (subtract length)
|
||
|
LDY Sstorh ; get bottom of string space high byte
|
||
|
BCS LAB_2122 ; skip decrement if no underflow
|
||
|
|
||
|
DEY ; decrement bottom of string space high byte
|
||
|
LAB_2122
|
||
|
CPY Earryh ; compare with array mem end high byte
|
||
|
BCC LAB_2137 ; do out of memory error if less
|
||
|
|
||
|
BNE LAB_212C ; if not = skip next test
|
||
|
|
||
|
CMP Earryl ; compare with array mem end low byte
|
||
|
BCC LAB_2137 ; do out of memory error if less
|
||
|
|
||
|
LAB_212C
|
||
|
STA Sstorl ; save bottom of string space low byte
|
||
|
STY Sstorh ; save bottom of string space high byte
|
||
|
STA Sutill ; save string utility ptr low byte
|
||
|
STY Sutilh ; save string utility ptr high byte
|
||
|
TAX ; copy low byte to X
|
||
|
PLA ; get string length back
|
||
|
RTS
|
||
|
|
||
|
LAB_2137
|
||
|
LDX #$0C ; error code $0C ("Out of memory" error)
|
||
|
LDA Gclctd ; get garbage collected flag
|
||
|
BMI LAB_20F5 ; if set then do error code X
|
||
|
|
||
|
JSR LAB_GARB ; else go do garbage collection
|
||
|
LDA #$80 ; flag for garbage collected
|
||
|
STA Gclctd ; set garbage collected flag
|
||
|
PLA ; pull length
|
||
|
BNE LAB_2117 ; go try again (loop always, length should never be = $00)
|
||
|
|
||
|
; garbage collection routine
|
||
|
|
||
|
LAB_GARB
|
||
|
LDX Ememl ; get end of mem low byte
|
||
|
LDA Ememh ; get end of mem high byte
|
||
|
|
||
|
; re-run routine from last ending
|
||
|
|
||
|
LAB_214B
|
||
|
STX Sstorl ; set string storage low byte
|
||
|
STA Sstorh ; set string storage high byte
|
||
|
LDY #$00 ; clear index
|
||
|
STY garb_h ; clear working pointer high byte (flag no strings to move)
|
||
|
LDA Earryl ; get array mem end low byte
|
||
|
LDX Earryh ; get array mem end high byte
|
||
|
STA Histrl ; save as highest string low byte
|
||
|
STX Histrh ; save as highest string high byte
|
||
|
LDA #des_sk ; set descriptor stack pointer
|
||
|
STA ut1_pl ; save descriptor stack pointer low byte
|
||
|
STY ut1_ph ; save descriptor stack pointer high byte ($00)
|
||
|
LAB_2161
|
||
|
CMP next_s ; compare with descriptor stack pointer
|
||
|
BEQ LAB_216A ; branch if =
|
||
|
|
||
|
JSR LAB_21D7 ; go garbage collect descriptor stack
|
||
|
BEQ LAB_2161 ; loop always
|
||
|
|
||
|
; done stacked strings, now do string vars
|
||
|
LAB_216A
|
||
|
ASL g_step ; set step size = $06
|
||
|
LDA Svarl ; get start of vars low byte
|
||
|
LDX Svarh ; get start of vars high byte
|
||
|
STA ut1_pl ; save as pointer low byte
|
||
|
STX ut1_ph ; save as pointer high byte
|
||
|
LAB_2176
|
||
|
CPX Sarryh ; compare start of arrays high byte
|
||
|
BNE LAB_217E ; branch if no high byte match
|
||
|
|
||
|
CMP Sarryl ; else compare start of arrays low byte
|
||
|
BEQ LAB_2183 ; branch if = var mem end
|
||
|
|
||
|
LAB_217E
|
||
|
JSR LAB_21D1 ; go garbage collect strings
|
||
|
BEQ LAB_2176 ; loop always
|
||
|
|
||
|
; done string vars, now do string arrays
|
||
|
LAB_2183
|
||
|
STA Nbendl ; save start of arrays low byte as working pointer
|
||
|
STX Nbendh ; save start of arrays high byte as working pointer
|
||
|
LDA #$04 ; set step size
|
||
|
STA g_step ; save step size
|
||
|
LAB_218B
|
||
|
LDA Nbendl ; get pointer low byte
|
||
|
LDX Nbendh ; get pointer high byte
|
||
|
LAB_218F
|
||
|
CPX Earryh ; compare with array mem end high byte
|
||
|
BNE LAB_219A ; branch if not at end
|
||
|
|
||
|
CMP Earryl ; else compare with array mem end low byte
|
||
|
BEQ LAB_2216 ; tidy up and exit if at end
|
||
|
|
||
|
LAB_219A
|
||
|
STA ut1_pl ; save pointer low byte
|
||
|
STX ut1_ph ; save pointer high byte
|
||
|
LDY #$02 ; set index
|
||
|
LDA (ut1_pl),Y ; get array size low byte
|
||
|
ADC Nbendl ; add start of this array low byte
|
||
|
STA Nbendl ; save start of next array low byte
|
||
|
INY ; increment index
|
||
|
LDA (ut1_pl),Y ; get array size high byte
|
||
|
ADC Nbendh ; add start of this array high byte
|
||
|
STA Nbendh ; save start of next array high byte
|
||
|
LDY #$01 ; set index
|
||
|
LDA (ut1_pl),Y ; get name second byte
|
||
|
BPL LAB_218B ; skip if not string array
|
||
|
|
||
|
; was string array so ..
|
||
|
|
||
|
LDY #$04 ; set index
|
||
|
LDA (ut1_pl),Y ; get # of dimensions
|
||
|
ASL ; *2
|
||
|
ADC #$05 ; +5 (array header size)
|
||
|
JSR LAB_2208 ; go set up for first element
|
||
|
LAB_21C4
|
||
|
CPX Nbendh ; compare with start of next array high byte
|
||
|
BNE LAB_21CC ; branch if <> (go do this array)
|
||
|
|
||
|
CMP Nbendl ; else compare element pointer low byte with next array
|
||
|
; low byte
|
||
|
BEQ LAB_218F ; if equal then go do next array
|
||
|
|
||
|
LAB_21CC
|
||
|
JSR LAB_21D7 ; go defrag array strings
|
||
|
BEQ LAB_21C4 ; go do next array string (loop always)
|
||
|
|
||
|
; defrag string variables
|
||
|
; enter with XA = variable pointer
|
||
|
; return with XA = next variable pointer
|
||
|
|
||
|
LAB_21D1
|
||
|
INY ; increment index (Y was $00)
|
||
|
LDA (ut1_pl),Y ; get var name byte 2
|
||
|
BPL LAB_2206 ; if not string, step pointer to next var and return
|
||
|
|
||
|
INY ; else increment index
|
||
|
LAB_21D7
|
||
|
LDA (ut1_pl),Y ; get string length
|
||
|
BEQ LAB_2206 ; if null, step pointer to next string and return
|
||
|
|
||
|
INY ; else increment index
|
||
|
LDA (ut1_pl),Y ; get string pointer low byte
|
||
|
TAX ; copy to X
|
||
|
INY ; increment index
|
||
|
LDA (ut1_pl),Y ; get string pointer high byte
|
||
|
CMP Sstorh ; compare bottom of string space high byte
|
||
|
BCC LAB_21EC ; branch if less
|
||
|
|
||
|
BNE LAB_2206 ; if greater, step pointer to next string and return
|
||
|
|
||
|
; high bytes were = so compare low bytes
|
||
|
CPX Sstorl ; compare bottom of string space low byte
|
||
|
BCS LAB_2206 ; if >=, step pointer to next string and return
|
||
|
|
||
|
; string pointer is < string storage pointer (pos in mem)
|
||
|
LAB_21EC
|
||
|
CMP Histrh ; compare to highest string high byte
|
||
|
BCC LAB_2207 ; if <, step pointer to next string and return
|
||
|
|
||
|
BNE LAB_21F6 ; if > update pointers, step to next and return
|
||
|
|
||
|
; high bytes were = so compare low bytes
|
||
|
CPX Histrl ; compare to highest string low byte
|
||
|
BCC LAB_2207 ; if <, step pointer to next string and return
|
||
|
|
||
|
; string is in string memory space
|
||
|
LAB_21F6
|
||
|
STX Histrl ; save as new highest string low byte
|
||
|
STA Histrh ; save as new highest string high byte
|
||
|
LDA ut1_pl ; get start of vars(descriptors) low byte
|
||
|
LDX ut1_ph ; get start of vars(descriptors) high byte
|
||
|
STA garb_l ; save as working pointer low byte
|
||
|
STX garb_h ; save as working pointer high byte
|
||
|
DEY ; decrement index DIFFERS
|
||
|
DEY ; decrement index (should point to descriptor start)
|
||
|
STY g_indx ; save index pointer
|
||
|
|
||
|
; step pointer to next string
|
||
|
LAB_2206
|
||
|
CLC ; clear carry for add
|
||
|
LAB_2207
|
||
|
LDA g_step ; get step size
|
||
|
LAB_2208
|
||
|
ADC ut1_pl ; add pointer low byte
|
||
|
STA ut1_pl ; save pointer low byte
|
||
|
BCC LAB_2211 ; branch if no overflow
|
||
|
|
||
|
INC ut1_ph ; else increment high byte
|
||
|
LAB_2211
|
||
|
LDX ut1_ph ; get pointer high byte
|
||
|
LDY #$00 ; clear Y
|
||
|
RTS
|
||
|
|
||
|
; search complete, now either exit or set-up and move string
|
||
|
|
||
|
LAB_2216
|
||
|
DEC g_step ; decrement step size (now $03 for descriptor stack)
|
||
|
LDX garb_h ; get string to move high byte
|
||
|
BEQ LAB_2211 ; exit if nothing to move
|
||
|
|
||
|
LDY g_indx ; get index byte back (points to descriptor)
|
||
|
CLC ; clear carry for add
|
||
|
LDA (garb_l),Y ; get string length
|
||
|
ADC Histrl ; add highest string low byte
|
||
|
STA Obendl ; save old block end low pointer
|
||
|
LDA Histrh ; get highest string high byte
|
||
|
ADC #$00 ; add any carry
|
||
|
STA Obendh ; save old block end high byte
|
||
|
LDA Sstorl ; get bottom of string space low byte
|
||
|
LDX Sstorh ; get bottom of string space high byte
|
||
|
STA Nbendl ; save new block end low byte
|
||
|
STX Nbendh ; save new block end high byte
|
||
|
JSR LAB_11D6 ; open up space in memory, don't set array end
|
||
|
LDY g_indx ; get index byte
|
||
|
INY ; point to descriptor low byte
|
||
|
LDA Nbendl ; get string pointer low byte
|
||
|
STA (garb_l),Y ; save new string pointer low byte
|
||
|
TAX ; copy string pointer low byte
|
||
|
INC Nbendh ; correct high byte (move sets high byte -1)
|
||
|
LDA Nbendh ; get new string pointer high byte
|
||
|
INY ; point to descriptor high byte
|
||
|
STA (garb_l),Y ; save new string pointer high byte
|
||
|
JMP LAB_214B ; re-run routine from last ending
|
||
|
; (but don't collect this string)
|
||
|
|
||
|
; concatenate
|
||
|
; add strings, string 1 is in descriptor des_pl, string 2 is in line
|
||
|
|
||
|
LAB_224D
|
||
|
LDA des_ph ; get descriptor pointer high byte
|
||
|
PHA ; put on stack
|
||
|
LDA des_pl ; get descriptor pointer low byte
|
||
|
PHA ; put on stack
|
||
|
JSR LAB_GVAL ; get value from line
|
||
|
JSR LAB_CTST ; check if source is string, else do type mismatch
|
||
|
PLA ; get descriptor pointer low byte back
|
||
|
STA ssptr_l ; set pointer low byte
|
||
|
PLA ; get descriptor pointer high byte back
|
||
|
STA ssptr_h ; set pointer high byte
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (ssptr_l),Y ; get length_1 from descriptor
|
||
|
CLC ; clear carry for add
|
||
|
ADC (des_pl),Y ; add length_2
|
||
|
BCC LAB_226D ; branch if no overflow
|
||
|
|
||
|
LDX #$1A ; else set error code $1A ("String too long" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
LAB_226D
|
||
|
JSR LAB_209C ; copy des_pl/h to des_2l/h and make string space A bytes
|
||
|
; long
|
||
|
JSR LAB_228A ; copy string from descriptor (sdescr) to (Sutill)
|
||
|
LDA des_2l ; get descriptor pointer low byte
|
||
|
LDY des_2h ; get descriptor pointer high byte
|
||
|
JSR LAB_22BA ; pop (YA) descriptor off stack or from top of string space
|
||
|
; returns with A = length, ut1_pl = pointer low byte,
|
||
|
; ut1_ph = pointer high byte
|
||
|
JSR LAB_229C ; store string A bytes long from (ut1_pl) to (Sutill)
|
||
|
LDA ssptr_l ;.set descriptor pointer low byte
|
||
|
LDY ssptr_h ;.set descriptor pointer high byte
|
||
|
JSR LAB_22BA ; pop (YA) descriptor off stack or from top of string space
|
||
|
; returns with A = length, X=ut1_pl=pointer low byte,
|
||
|
; Y=ut1_ph=pointer high byte
|
||
|
JSR LAB_RTST ; check for space on descriptor stack then put string
|
||
|
; address and length on descriptor stack and update stack
|
||
|
; pointers
|
||
|
JMP LAB_1ADB ;.continue evaluation
|
||
|
|
||
|
; copy string from descriptor (sdescr) to (Sutill)
|
||
|
|
||
|
LAB_228A
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (sdescr),Y ; get string length
|
||
|
PHA ; save on stack
|
||
|
INY ; increment index
|
||
|
LDA (sdescr),Y ; get source string pointer low byte
|
||
|
TAX ; copy to X
|
||
|
INY ; increment index
|
||
|
LDA (sdescr),Y ; get source string pointer high byte
|
||
|
TAY ; copy to Y
|
||
|
PLA ; get length back
|
||
|
|
||
|
; store string A bytes long from YX to (Sutill)
|
||
|
|
||
|
LAB_2298
|
||
|
STX ut1_pl ; save source string pointer low byte
|
||
|
STY ut1_ph ; save source string pointer high byte
|
||
|
|
||
|
; store string A bytes long from (ut1_pl) to (Sutill)
|
||
|
|
||
|
LAB_229C
|
||
|
TAX ; copy length to index (don't count with Y)
|
||
|
BEQ LAB_22B2 ; branch if = $0 (null string) no need to add zero length
|
||
|
|
||
|
LDY #$00 ; zero pointer (copy forward)
|
||
|
LAB_22A0
|
||
|
LDA (ut1_pl),Y ; get source byte
|
||
|
STA (Sutill),Y ; save destination byte
|
||
|
|
||
|
INY ; increment index
|
||
|
DEX ; decrement counter
|
||
|
BNE LAB_22A0 ; loop while <> 0
|
||
|
|
||
|
TYA ; restore length from Y
|
||
|
LAB_22A9
|
||
|
CLC ; clear carry for add
|
||
|
ADC Sutill ; add string utility ptr low byte
|
||
|
STA Sutill ; save string utility ptr low byte
|
||
|
BCC LAB_22B2 ; branch if no carry
|
||
|
|
||
|
INC Sutilh ; else increment string utility ptr high byte
|
||
|
LAB_22B2
|
||
|
RTS
|
||
|
|
||
|
; evaluate string
|
||
|
|
||
|
LAB_EVST
|
||
|
JSR LAB_CTST ; check if source is string, else do type mismatch
|
||
|
|
||
|
; pop string off descriptor stack, or from top of string space
|
||
|
; returns with A = length, X=pointer low byte, Y=pointer high byte
|
||
|
|
||
|
LAB_22B6
|
||
|
LDA des_pl ; get descriptor pointer low byte
|
||
|
LDY des_ph ; get descriptor pointer high byte
|
||
|
|
||
|
; pop (YA) descriptor off stack or from top of string space
|
||
|
; returns with A = length, X=ut1_pl=pointer low byte, Y=ut1_ph=pointer high byte
|
||
|
|
||
|
LAB_22BA
|
||
|
STA ut1_pl ; save descriptor pointer low byte
|
||
|
STY ut1_ph ; save descriptor pointer high byte
|
||
|
JSR LAB_22EB ; clean descriptor stack, YA = pointer
|
||
|
PHP ; save status flags
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (ut1_pl),Y ; get length from string descriptor
|
||
|
PHA ; put on stack
|
||
|
INY ; increment index
|
||
|
LDA (ut1_pl),Y ; get string pointer low byte from descriptor
|
||
|
TAX ; copy to X
|
||
|
INY ; increment index
|
||
|
LDA (ut1_pl),Y ; get string pointer high byte from descriptor
|
||
|
TAY ; copy to Y
|
||
|
PLA ; get string length back
|
||
|
PLP ; restore status
|
||
|
BNE LAB_22E6 ; branch if pointer <> last_sl,last_sh
|
||
|
|
||
|
CPY Sstorh ; compare bottom of string space high byte
|
||
|
BNE LAB_22E6 ; branch if <>
|
||
|
|
||
|
CPX Sstorl ; else compare bottom of string space low byte
|
||
|
BNE LAB_22E6 ; branch if <>
|
||
|
|
||
|
PHA ; save string length
|
||
|
CLC ; clear carry for add
|
||
|
ADC Sstorl ; add bottom of string space low byte
|
||
|
STA Sstorl ; save bottom of string space low byte
|
||
|
BCC LAB_22E5 ; skip increment if no overflow
|
||
|
|
||
|
INC Sstorh ; increment bottom of string space high byte
|
||
|
LAB_22E5
|
||
|
PLA ; restore string length
|
||
|
LAB_22E6
|
||
|
STX ut1_pl ; save string pointer low byte
|
||
|
STY ut1_ph ; save string pointer high byte
|
||
|
RTS
|
||
|
|
||
|
; clean descriptor stack, YA = pointer
|
||
|
; checks if AY is on the descriptor stack, if so does a stack discard
|
||
|
|
||
|
LAB_22EB
|
||
|
CPY last_sh ; compare pointer high byte
|
||
|
BNE LAB_22FB ; exit if <>
|
||
|
|
||
|
CMP last_sl ; compare pointer low byte
|
||
|
BNE LAB_22FB ; exit if <>
|
||
|
|
||
|
STA next_s ; save descriptor stack pointer
|
||
|
SBC #$03 ; -3
|
||
|
STA last_sl ; save low byte -3
|
||
|
LDY #$00 ; clear high byte
|
||
|
LAB_22FB
|
||
|
RTS
|
||
|
|
||
|
; perform CHR$()
|
||
|
|
||
|
LAB_CHRS
|
||
|
JSR LAB_EVBY ; evaluate byte expression, result in X
|
||
|
TXA ; copy to A
|
||
|
PHA ; save character
|
||
|
LDA #$01 ; string is single byte
|
||
|
JSR LAB_MSSP ; make string space A bytes long A=$AC=length,
|
||
|
; X=$AD=Sutill=ptr low byte, Y=$AE=Sutilh=ptr high byte
|
||
|
PLA ; get character back
|
||
|
LDY #$00 ; clear index
|
||
|
STA (str_pl),Y ; save byte in string (byte IS string!)
|
||
|
JMP LAB_RTST ; check for space on descriptor stack then put string
|
||
|
; address and length on descriptor stack and update stack
|
||
|
; pointers
|
||
|
|
||
|
; perform LEFT$()
|
||
|
|
||
|
LAB_LEFT
|
||
|
PHA ; push byte parameter
|
||
|
JSR LAB_236F ; pull string data and byte parameter from stack
|
||
|
; return pointer in des_2l/h, byte in A (and X), Y=0
|
||
|
CMP (des_2l),Y ; compare byte parameter with string length
|
||
|
TYA ; clear A
|
||
|
BEQ LAB_2316 ; go do string copy (branch always)
|
||
|
|
||
|
; perform RIGHT$()
|
||
|
|
||
|
LAB_RIGHT
|
||
|
PHA ; push byte parameter
|
||
|
JSR LAB_236F ; pull string data and byte parameter from stack
|
||
|
; return pointer in des_2l/h, byte in A (and X), Y=0
|
||
|
CLC ; clear carry for add-1
|
||
|
SBC (des_2l),Y ; subtract string length
|
||
|
EOR #$FF ; invert it (A=LEN(expression$)-l)
|
||
|
|
||
|
LAB_2316
|
||
|
BCC LAB_231C ; branch if string length > byte parameter
|
||
|
|
||
|
LDA (des_2l),Y ; else make parameter = length
|
||
|
TAX ; copy to byte parameter copy
|
||
|
TYA ; clear string start offset
|
||
|
LAB_231C
|
||
|
PHA ; save string start offset
|
||
|
LAB_231D
|
||
|
TXA ; copy byte parameter (or string length if <)
|
||
|
LAB_231E
|
||
|
PHA ; save string length
|
||
|
JSR LAB_MSSP ; make string space A bytes long A=$AC=length,
|
||
|
; X=$AD=Sutill=ptr low byte, Y=$AE=Sutilh=ptr high byte
|
||
|
LDA des_2l ; get descriptor pointer low byte
|
||
|
LDY des_2h ; get descriptor pointer high byte
|
||
|
JSR LAB_22BA ; pop (YA) descriptor off stack or from top of string space
|
||
|
; returns with A = length, X=ut1_pl=pointer low byte,
|
||
|
; Y=ut1_ph=pointer high byte
|
||
|
PLA ; get string length back
|
||
|
TAY ; copy length to Y
|
||
|
PLA ; get string start offset back
|
||
|
CLC ; clear carry for add
|
||
|
ADC ut1_pl ; add start offset to string start pointer low byte
|
||
|
STA ut1_pl ; save string start pointer low byte
|
||
|
BCC LAB_2335 ; branch if no overflow
|
||
|
|
||
|
INC ut1_ph ; else increment string start pointer high byte
|
||
|
LAB_2335
|
||
|
TYA ; copy length to A
|
||
|
JSR LAB_229C ; store string A bytes long from (ut1_pl) to (Sutill)
|
||
|
JMP LAB_RTST ; check for space on descriptor stack then put string
|
||
|
; address and length on descriptor stack and update stack
|
||
|
; pointers
|
||
|
|
||
|
; perform MID$()
|
||
|
|
||
|
LAB_MIDS
|
||
|
PHA ; push byte parameter
|
||
|
LDA #$FF ; set default length = 255
|
||
|
STA mids_l ; save default length
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
CMP #')' ; compare with ")"
|
||
|
BEQ LAB_2358 ; branch if = ")" (skip second byte get)
|
||
|
|
||
|
JSR LAB_1C01 ; scan for "," , else do syntax error then warm start
|
||
|
JSR LAB_GTBY ; get byte parameter (use copy in mids_l)
|
||
|
LAB_2358
|
||
|
JSR LAB_236F ; pull string data and byte parameter from stack
|
||
|
; return pointer in des_2l/h, byte in A (and X), Y=0
|
||
|
DEX ; decrement start index
|
||
|
TXA ; copy to A
|
||
|
PHA ; save string start offset
|
||
|
CLC ; clear carry for sub-1
|
||
|
LDX #$00 ; clear output string length
|
||
|
SBC (des_2l),Y ; subtract string length
|
||
|
BCS LAB_231D ; if start>string length go do null string
|
||
|
|
||
|
EOR #$FF ; complement -length
|
||
|
CMP mids_l ; compare byte parameter
|
||
|
BCC LAB_231E ; if length>remaining string go do RIGHT$
|
||
|
|
||
|
LDA mids_l ; get length byte
|
||
|
BCS LAB_231E ; go do string copy (branch always)
|
||
|
|
||
|
; pull string data and byte parameter from stack
|
||
|
; return pointer in des_2l/h, byte in A (and X), Y=0
|
||
|
|
||
|
LAB_236F
|
||
|
JSR LAB_1BFB ; scan for ")" , else do syntax error then warm start
|
||
|
PLA ; pull return address low byte (return address)
|
||
|
STA Fnxjpl ; save functions jump vector low byte
|
||
|
PLA ; pull return address high byte (return address)
|
||
|
STA Fnxjph ; save functions jump vector high byte
|
||
|
PLA ; pull byte parameter
|
||
|
TAX ; copy byte parameter to X
|
||
|
PLA ; pull string pointer low byte
|
||
|
STA des_2l ; save it
|
||
|
PLA ; pull string pointer high byte
|
||
|
STA des_2h ; save it
|
||
|
LDY #$00 ; clear index
|
||
|
TXA ; copy byte parameter
|
||
|
BEQ LAB_23A8 ; if null do function call error then warm start
|
||
|
|
||
|
INC Fnxjpl ; increment function jump vector low byte
|
||
|
; (JSR pushes return addr-1. this is all very nice
|
||
|
; but will go tits up if either call is on a page
|
||
|
; boundary!)
|
||
|
JMP (Fnxjpl) ; in effect, RTS
|
||
|
|
||
|
; perform LCASE$()
|
||
|
|
||
|
LAB_LCASE
|
||
|
JSR LAB_EVST ; evaluate string
|
||
|
STA str_ln ; set string length
|
||
|
TAY ; copy length to Y
|
||
|
BEQ NoString ; branch if null string
|
||
|
|
||
|
JSR LAB_MSSP ; make string space A bytes long A=length,
|
||
|
; X=Sutill=ptr low byte, Y=Sutilh=ptr high byte
|
||
|
STX str_pl ; save string pointer low byte
|
||
|
STY str_ph ; save string pointer high byte
|
||
|
TAY ; get string length back
|
||
|
|
||
|
LC_loop
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get byte from string
|
||
|
JSR LAB_1D82 ; is character "A" to "Z"
|
||
|
BCC NoUcase ; branch if not upper case alpha
|
||
|
|
||
|
ORA #$20 ; convert upper to lower case
|
||
|
NoUcase
|
||
|
STA (Sutill),Y ; save byte back to string
|
||
|
TYA ; test index
|
||
|
BNE LC_loop ; loop if not all done
|
||
|
|
||
|
BEQ NoString ; tidy up and exit, branch always
|
||
|
|
||
|
; perform UCASE$()
|
||
|
|
||
|
LAB_UCASE
|
||
|
JSR LAB_EVST ; evaluate string
|
||
|
STA str_ln ; set string length
|
||
|
TAY ; copy length to Y
|
||
|
BEQ NoString ; branch if null string
|
||
|
|
||
|
JSR LAB_MSSP ; make string space A bytes long A=length,
|
||
|
; X=Sutill=ptr low byte, Y=Sutilh=ptr high byte
|
||
|
STX str_pl ; save string pointer low byte
|
||
|
STY str_ph ; save string pointer high byte
|
||
|
TAY ; get string length back
|
||
|
|
||
|
UC_loop
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get byte from string
|
||
|
JSR LAB_CASC ; is character "a" to "z" (or "A" to "Z")
|
||
|
BCC NoLcase ; branch if not alpha
|
||
|
|
||
|
AND #$DF ; convert lower to upper case
|
||
|
NoLcase
|
||
|
STA (Sutill),Y ; save byte back to string
|
||
|
TYA ; test index
|
||
|
BNE UC_loop ; loop if not all done
|
||
|
|
||
|
NoString
|
||
|
JMP LAB_RTST ; check for space on descriptor stack then put string
|
||
|
; address and length on descriptor stack and update stack
|
||
|
; pointers
|
||
|
|
||
|
; perform SADD()
|
||
|
|
||
|
LAB_SADD
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_GVAR ; get var address
|
||
|
|
||
|
JSR LAB_1BFB ; scan for ")", else do syntax error then warm start
|
||
|
JSR LAB_CTST ; check if source is string, else do type mismatch
|
||
|
|
||
|
LDY #$02 ; index to string pointer high byte
|
||
|
LDA (Cvaral),Y ; get string pointer high byte
|
||
|
TAX ; copy string pointer high byte to X
|
||
|
DEY ; index to string pointer low byte
|
||
|
LDA (Cvaral),Y ; get string pointer low byte
|
||
|
TAY ; copy string pointer low byte to Y
|
||
|
TXA ; copy string pointer high byte to A
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; perform LEN()
|
||
|
|
||
|
LAB_LENS
|
||
|
JSR LAB_ESGL ; evaluate string, get length in A (and Y)
|
||
|
JMP LAB_1FD0 ; convert Y to byte in FAC1 and return
|
||
|
|
||
|
; evaluate string, get length in Y
|
||
|
|
||
|
LAB_ESGL
|
||
|
JSR LAB_EVST ; evaluate string
|
||
|
TAY ; copy length to Y
|
||
|
RTS
|
||
|
|
||
|
; perform ASC()
|
||
|
|
||
|
LAB_ASC
|
||
|
JSR LAB_ESGL ; evaluate string, get length in A (and Y)
|
||
|
BEQ LAB_23A8 ; if null do function call error then warm start
|
||
|
|
||
|
LDY #$00 ; set index to first character
|
||
|
LDA (ut1_pl),Y ; get byte
|
||
|
TAY ; copy to Y
|
||
|
JMP LAB_1FD0 ; convert Y to byte in FAC1 and return
|
||
|
|
||
|
; do function call error then warm start
|
||
|
|
||
|
LAB_23A8
|
||
|
JMP LAB_FCER ; do function call error then warm start
|
||
|
|
||
|
; scan and get byte parameter
|
||
|
|
||
|
LAB_SGBY
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
|
||
|
; get byte parameter
|
||
|
|
||
|
LAB_GTBY
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
|
||
|
; evaluate byte expression, result in X
|
||
|
|
||
|
LAB_EVBY
|
||
|
JSR LAB_EVPI ; evaluate integer expression (no check)
|
||
|
|
||
|
LDY FAC1_2 ; get FAC1 mantissa2
|
||
|
BNE LAB_23A8 ; if top byte <> 0 do function call error then warm start
|
||
|
|
||
|
LDX FAC1_3 ; get FAC1 mantissa3
|
||
|
JMP LAB_GBYT ; scan memory and return
|
||
|
|
||
|
; perform VAL()
|
||
|
|
||
|
LAB_VAL
|
||
|
JSR LAB_ESGL ; evaluate string, get length in A (and Y)
|
||
|
BNE LAB_23C5 ; branch if not null string
|
||
|
|
||
|
; string was null so set result = $00
|
||
|
JMP LAB_24F1 ; clear FAC1 exponent and sign and return
|
||
|
|
||
|
LAB_23C5
|
||
|
LDX Bpntrl ; get BASIC execute pointer low byte
|
||
|
LDY Bpntrh ; get BASIC execute pointer high byte
|
||
|
STX Btmpl ; save BASIC execute pointer low byte
|
||
|
STY Btmph ; save BASIC execute pointer high byte
|
||
|
LDX ut1_pl ; get string pointer low byte
|
||
|
STX Bpntrl ; save as BASIC execute pointer low byte
|
||
|
CLC ; clear carry
|
||
|
ADC ut1_pl ; add string length
|
||
|
STA ut2_pl ; save string end low byte
|
||
|
LDA ut1_ph ; get string pointer high byte
|
||
|
STA Bpntrh ; save as BASIC execute pointer high byte
|
||
|
ADC #$00 ; add carry to high byte
|
||
|
STA ut2_ph ; save string end high byte
|
||
|
LDY #$00 ; set index to $00
|
||
|
LDA (ut2_pl),Y ; get string end +1 byte
|
||
|
PHA ; push it
|
||
|
TYA ; clear A
|
||
|
STA (ut2_pl),Y ; terminate string with $00
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
JSR LAB_2887 ; get FAC1 from string
|
||
|
PLA ; restore string end +1 byte
|
||
|
LDY #$00 ; set index to zero
|
||
|
STA (ut2_pl),Y ; put string end byte back
|
||
|
|
||
|
; restore BASIC execute pointer from temp (Btmpl/Btmph)
|
||
|
|
||
|
LAB_23F3
|
||
|
LDX Btmpl ; get BASIC execute pointer low byte back
|
||
|
LDY Btmph ; get BASIC execute pointer high byte back
|
||
|
STX Bpntrl ; save BASIC execute pointer low byte
|
||
|
STY Bpntrh ; save BASIC execute pointer high byte
|
||
|
RTS
|
||
|
|
||
|
; get two parameters for POKE or WAIT
|
||
|
|
||
|
LAB_GADB
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
JSR LAB_F2FX ; save integer part of FAC1 in temporary integer
|
||
|
|
||
|
; scan for "," and get byte, else do Syntax error then warm start
|
||
|
|
||
|
LAB_SCGB
|
||
|
JSR LAB_1C01 ; scan for "," , else do syntax error then warm start
|
||
|
LDA Itemph ; save temporary integer high byte
|
||
|
PHA ; on stack
|
||
|
LDA Itempl ; save temporary integer low byte
|
||
|
PHA ; on stack
|
||
|
JSR LAB_GTBY ; get byte parameter
|
||
|
PLA ; pull low byte
|
||
|
STA Itempl ; restore temporary integer low byte
|
||
|
PLA ; pull high byte
|
||
|
STA Itemph ; restore temporary integer high byte
|
||
|
RTS
|
||
|
|
||
|
; convert float to fixed routine. accepts any value that fits in 24 bits, +ve or
|
||
|
; -ve and converts it into a right truncated integer in Itempl and Itemph
|
||
|
|
||
|
; save unsigned 16 bit integer part of FAC1 in temporary integer
|
||
|
|
||
|
LAB_F2FX
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
CMP #$98 ; compare with exponent = 2^24
|
||
|
BCS LAB_23A8 ; if >= do function call error then warm start
|
||
|
|
||
|
LAB_F2FU
|
||
|
JSR LAB_2831 ; convert FAC1 floating-to-fixed
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
LDY FAC1_3 ; get FAC1 mantissa3
|
||
|
STY Itempl ; save temporary integer low byte
|
||
|
STA Itemph ; save temporary integer high byte
|
||
|
RTS
|
||
|
|
||
|
; perform PEEK()
|
||
|
|
||
|
LAB_PEEK
|
||
|
JSR LAB_F2FX ; save integer part of FAC1 in temporary integer
|
||
|
LDX #$00 ; clear index
|
||
|
LDA (Itempl,X) ; get byte via temporary integer (addr)
|
||
|
TAY ; copy byte to Y
|
||
|
JMP LAB_1FD0 ; convert Y to byte in FAC1 and return
|
||
|
|
||
|
; perform POKE
|
||
|
|
||
|
LAB_POKE
|
||
|
JSR LAB_GADB ; get two parameters for POKE or WAIT
|
||
|
TXA ; copy byte argument to A
|
||
|
LDX #$00 ; clear index
|
||
|
STA (Itempl,X) ; save byte via temporary integer (addr)
|
||
|
RTS
|
||
|
|
||
|
; perform DEEK()
|
||
|
|
||
|
LAB_DEEK
|
||
|
JSR LAB_F2FX ; save integer part of FAC1 in temporary integer
|
||
|
LDX #$00 ; clear index
|
||
|
LDA (Itempl,X) ; PEEK low byte
|
||
|
TAY ; copy to Y
|
||
|
INC Itempl ; increment pointer low byte
|
||
|
BNE Deekh ; skip high increment if no rollover
|
||
|
|
||
|
INC Itemph ; increment pointer high byte
|
||
|
Deekh
|
||
|
LDA (Itempl,X) ; PEEK high byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; perform DOKE
|
||
|
|
||
|
LAB_DOKE
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
JSR LAB_F2FX ; convert floating-to-fixed
|
||
|
|
||
|
STY Frnxtl ; save pointer low byte (float to fixed returns word in AY)
|
||
|
STA Frnxth ; save pointer high byte
|
||
|
|
||
|
JSR LAB_1C01 ; scan for "," , else do syntax error then warm start
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
JSR LAB_F2FX ; convert floating-to-fixed
|
||
|
|
||
|
TYA ; copy value low byte (float to fixed returns word in AY)
|
||
|
LDX #$00 ; clear index
|
||
|
STA (Frnxtl,X) ; POKE low byte
|
||
|
INC Frnxtl ; increment pointer low byte
|
||
|
BNE Dokeh ; skip high increment if no rollover
|
||
|
|
||
|
INC Frnxth ; increment pointer high byte
|
||
|
Dokeh
|
||
|
LDA Itemph ; get value high byte
|
||
|
STA (Frnxtl,X) ; POKE high byte
|
||
|
JMP LAB_GBYT ; scan memory and return
|
||
|
|
||
|
; perform SWAP
|
||
|
|
||
|
LAB_SWAP
|
||
|
JSR LAB_GVAR ; get var1 address
|
||
|
STA Lvarpl ; save var1 address low byte
|
||
|
STY Lvarph ; save var1 address high byte
|
||
|
LDA Dtypef ; get data type flag, $FF=string, $00=numeric
|
||
|
PHA ; save data type flag
|
||
|
|
||
|
JSR LAB_1C01 ; scan for "," , else do syntax error then warm start
|
||
|
JSR LAB_GVAR ; get var2 address (pointer in Cvaral/h)
|
||
|
PLA ; pull var1 data type flag
|
||
|
EOR Dtypef ; compare with var2 data type
|
||
|
BPL SwapErr ; exit if not both the same type
|
||
|
|
||
|
LDY #$03 ; four bytes to swap (either value or descriptor+1)
|
||
|
SwapLp
|
||
|
LDA (Lvarpl),Y ; get byte from var1
|
||
|
TAX ; save var1 byte
|
||
|
LDA (Cvaral),Y ; get byte from var2
|
||
|
STA (Lvarpl),Y ; save byte to var1
|
||
|
TXA ; restore var1 byte
|
||
|
STA (Cvaral),Y ; save byte to var2
|
||
|
DEY ; decrement index
|
||
|
BPL SwapLp ; loop until done
|
||
|
|
||
|
RTS
|
||
|
|
||
|
SwapErr
|
||
|
JMP LAB_1ABC ; do "Type mismatch" error then warm start
|
||
|
|
||
|
; perform CALL
|
||
|
|
||
|
LAB_CALL
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
JSR LAB_F2FX ; convert floating-to-fixed
|
||
|
LDA #>CallExit ; set return address high byte
|
||
|
PHA ; put on stack
|
||
|
LDA #<CallExit-1 ; set return address low byte
|
||
|
PHA ; put on stack
|
||
|
JMP (Itempl) ; do indirect jump to user routine
|
||
|
|
||
|
; if the called routine exits correctly then it will return to here. this will then get
|
||
|
; the next byte for the interpreter and return
|
||
|
|
||
|
CallExit
|
||
|
JMP LAB_GBYT ; scan memory and return
|
||
|
|
||
|
; perform WAIT
|
||
|
|
||
|
LAB_WAIT
|
||
|
JSR LAB_GADB ; get two parameters for POKE or WAIT
|
||
|
STX Frnxtl ; save byte
|
||
|
LDX #$00 ; clear mask
|
||
|
JSR LAB_GBYT ; scan memory
|
||
|
BEQ LAB_2441 ; skip if no third argument
|
||
|
|
||
|
JSR LAB_SCGB ; scan for "," and get byte, else SN error then warm start
|
||
|
LAB_2441
|
||
|
STX Frnxth ; save EOR argument
|
||
|
LAB_2445
|
||
|
LDA (Itempl),Y ; get byte via temporary integer (addr)
|
||
|
EOR Frnxth ; EOR with second argument (mask)
|
||
|
AND Frnxtl ; AND with first argument (byte)
|
||
|
BEQ LAB_2445 ; loop if result is zero
|
||
|
|
||
|
LAB_244D
|
||
|
RTS
|
||
|
|
||
|
; perform subtraction, FAC1 from (AY)
|
||
|
|
||
|
LAB_2455
|
||
|
JSR LAB_264D ; unpack memory (AY) into FAC2
|
||
|
|
||
|
; perform subtraction, FAC1 from FAC2
|
||
|
|
||
|
LAB_SUBTRACT
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
EOR FAC2_s ; EOR with FAC2 sign (b7)
|
||
|
STA FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
JMP LAB_ADD ; go add FAC2 to FAC1
|
||
|
|
||
|
; perform addition
|
||
|
|
||
|
LAB_2467
|
||
|
JSR LAB_257B ; shift FACX A times right (>8 shifts)
|
||
|
BCC LAB_24A8 ;.go subtract mantissas
|
||
|
|
||
|
; add 0.5 to FAC1
|
||
|
|
||
|
LAB_244E
|
||
|
LDA #<LAB_2A96 ; set 0.5 pointer low byte
|
||
|
LDY #>LAB_2A96 ; set 0.5 pointer high byte
|
||
|
|
||
|
; add (AY) to FAC1
|
||
|
|
||
|
LAB_246C
|
||
|
JSR LAB_264D ; unpack memory (AY) into FAC2
|
||
|
|
||
|
; add FAC2 to FAC1
|
||
|
|
||
|
LAB_ADD
|
||
|
BNE LAB_2474 ; branch if FAC1 was not zero
|
||
|
|
||
|
; copy FAC2 to FAC1
|
||
|
|
||
|
LAB_279B
|
||
|
LDA FAC2_s ; get FAC2 sign (b7)
|
||
|
|
||
|
; save FAC1 sign and copy ABS(FAC2) to FAC1
|
||
|
|
||
|
LAB_279D
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
LDX #$04 ; 4 bytes to copy
|
||
|
LAB_27A1
|
||
|
LDA FAC1_o,X ; get byte from FAC2,X
|
||
|
STA FAC1_e-1,X ; save byte at FAC1,X
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_27A1 ; loop if not all done
|
||
|
|
||
|
STX FAC1_r ; clear FAC1 rounding byte
|
||
|
RTS
|
||
|
|
||
|
; FAC1 is non zero
|
||
|
LAB_2474
|
||
|
LDX FAC1_r ; get FAC1 rounding byte
|
||
|
STX FAC2_r ; save as FAC2 rounding byte
|
||
|
LDX #FAC2_e ; set index to FAC2 exponent addr
|
||
|
LDA FAC2_e ; get FAC2 exponent
|
||
|
LAB_247C
|
||
|
TAY ; copy exponent
|
||
|
BEQ LAB_244D ; exit if zero
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
SBC FAC1_e ; subtract FAC1 exponent
|
||
|
BEQ LAB_24A8 ; branch if = (go add mantissa)
|
||
|
|
||
|
BCC LAB_2498 ; branch if <
|
||
|
|
||
|
; FAC2>FAC1
|
||
|
STY FAC1_e ; save FAC1 exponent
|
||
|
LDY FAC2_s ; get FAC2 sign (b7)
|
||
|
STY FAC1_s ; save FAC1 sign (b7)
|
||
|
EOR #$FF ; complement A
|
||
|
ADC #$00 ; +1 (twos complement, carry is set)
|
||
|
LDY #$00 ; clear Y
|
||
|
STY FAC2_r ; clear FAC2 rounding byte
|
||
|
LDX #FAC1_e ; set index to FAC1 exponent addr
|
||
|
BNE LAB_249C ; branch always
|
||
|
|
||
|
LAB_2498
|
||
|
LDY #$00 ; clear Y
|
||
|
STY FAC1_r ; clear FAC1 rounding byte
|
||
|
LAB_249C
|
||
|
CMP #$F9 ; compare exponent diff with $F9
|
||
|
BMI LAB_2467 ; branch if range $79-$F8
|
||
|
|
||
|
TAY ; copy exponent difference to Y
|
||
|
LDA FAC1_r ; get FAC1 rounding byte
|
||
|
LSR PLUS_1,X ; shift FAC? mantissa1
|
||
|
JSR LAB_2592 ; shift FACX Y times right
|
||
|
|
||
|
; exponents are equal now do mantissa subtract
|
||
|
LAB_24A8
|
||
|
BIT FAC_sc ; test sign compare (FAC1 EOR FAC2)
|
||
|
BPL LAB_24F8 ; if = add FAC2 mantissa to FAC1 mantissa and return
|
||
|
|
||
|
LDY #FAC1_e ; set index to FAC1 exponent addr
|
||
|
CPX #FAC2_e ; compare X to FAC2 exponent addr
|
||
|
BEQ LAB_24B4 ; branch if =
|
||
|
|
||
|
LDY #FAC2_e ; else set index to FAC2 exponent addr
|
||
|
|
||
|
; subtract smaller from bigger (take sign of bigger)
|
||
|
LAB_24B4
|
||
|
SEC ; set carry for subtract
|
||
|
EOR #$FF ; ones complement A
|
||
|
ADC FAC2_r ; add FAC2 rounding byte
|
||
|
STA FAC1_r ; save FAC1 rounding byte
|
||
|
LDA PLUS_3,Y ; get FACY mantissa3
|
||
|
SBC PLUS_3,X ; subtract FACX mantissa3
|
||
|
STA FAC1_3 ; save FAC1 mantissa3
|
||
|
LDA PLUS_2,Y ; get FACY mantissa2
|
||
|
SBC PLUS_2,X ; subtract FACX mantissa2
|
||
|
STA FAC1_2 ; save FAC1 mantissa2
|
||
|
LDA PLUS_1,Y ; get FACY mantissa1
|
||
|
SBC PLUS_1,X ; subtract FACX mantissa1
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
|
||
|
; do ABS and normalise FAC1
|
||
|
|
||
|
LAB_24D0
|
||
|
BCS LAB_24D5 ; branch if number is +ve
|
||
|
|
||
|
JSR LAB_2537 ; negate FAC1
|
||
|
|
||
|
; normalise FAC1
|
||
|
|
||
|
LAB_24D5
|
||
|
LDY #$00 ; clear Y
|
||
|
TYA ; clear A
|
||
|
CLC ; clear carry for add
|
||
|
LAB_24D9
|
||
|
LDX FAC1_1 ; get FAC1 mantissa1
|
||
|
BNE LAB_251B ; if not zero normalise FAC1
|
||
|
|
||
|
LDX FAC1_2 ; get FAC1 mantissa2
|
||
|
STX FAC1_1 ; save FAC1 mantissa1
|
||
|
LDX FAC1_3 ; get FAC1 mantissa3
|
||
|
STX FAC1_2 ; save FAC1 mantissa2
|
||
|
LDX FAC1_r ; get FAC1 rounding byte
|
||
|
STX FAC1_3 ; save FAC1 mantissa3
|
||
|
STY FAC1_r ; clear FAC1 rounding byte
|
||
|
ADC #$08 ; add x to exponent offset
|
||
|
CMP #$18 ; compare with $18 (max offset, all bits would be =0)
|
||
|
BNE LAB_24D9 ; loop if not max
|
||
|
|
||
|
; clear FAC1 exponent and sign
|
||
|
|
||
|
LAB_24F1
|
||
|
LDA #$00 ; clear A
|
||
|
LAB_24F3
|
||
|
STA FAC1_e ; set FAC1 exponent
|
||
|
|
||
|
; save FAC1 sign
|
||
|
|
||
|
LAB_24F5
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
RTS
|
||
|
|
||
|
; add FAC2 mantissa to FAC1 mantissa
|
||
|
|
||
|
LAB_24F8
|
||
|
ADC FAC2_r ; add FAC2 rounding byte
|
||
|
STA FAC1_r ; save FAC1 rounding byte
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
ADC FAC2_3 ; add FAC2 mantissa3
|
||
|
STA FAC1_3 ; save FAC1 mantissa3
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
ADC FAC2_2 ; add FAC2 mantissa2
|
||
|
STA FAC1_2 ; save FAC1 mantissa2
|
||
|
LDA FAC1_1 ; get FAC1 mantissa1
|
||
|
ADC FAC2_1 ; add FAC2 mantissa1
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
BCS LAB_252A ; if carry then normalise FAC1 for C=1
|
||
|
|
||
|
RTS ; else just exit
|
||
|
|
||
|
LAB_2511
|
||
|
ADC #$01 ; add 1 to exponent offset
|
||
|
ASL FAC1_r ; shift FAC1 rounding byte
|
||
|
ROL FAC1_3 ; shift FAC1 mantissa3
|
||
|
ROL FAC1_2 ; shift FAC1 mantissa2
|
||
|
ROL FAC1_1 ; shift FAC1 mantissa1
|
||
|
|
||
|
; normalise FAC1
|
||
|
|
||
|
LAB_251B
|
||
|
BPL LAB_2511 ; loop if not normalised
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
SBC FAC1_e ; subtract FAC1 exponent
|
||
|
BCS LAB_24F1 ; branch if underflow (set result = $0)
|
||
|
|
||
|
EOR #$FF ; complement exponent
|
||
|
ADC #$01 ; +1 (twos complement)
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
|
||
|
; test and normalise FAC1 for C=0/1
|
||
|
|
||
|
LAB_2528
|
||
|
BCC LAB_2536 ; exit if no overflow
|
||
|
|
||
|
; normalise FAC1 for C=1
|
||
|
|
||
|
LAB_252A
|
||
|
INC FAC1_e ; increment FAC1 exponent
|
||
|
BEQ LAB_2564 ; if zero do overflow error and warm start
|
||
|
|
||
|
ROR FAC1_1 ; shift FAC1 mantissa1
|
||
|
ROR FAC1_2 ; shift FAC1 mantissa2
|
||
|
ROR FAC1_3 ; shift FAC1 mantissa3
|
||
|
ROR FAC1_r ; shift FAC1 rounding byte
|
||
|
LAB_2536
|
||
|
RTS
|
||
|
|
||
|
; negate FAC1
|
||
|
|
||
|
LAB_2537
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
|
||
|
; twos complement FAC1 mantissa
|
||
|
|
||
|
LAB_253D
|
||
|
LDA FAC1_1 ; get FAC1 mantissa1
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_2 ; save FAC1 mantissa2
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_3 ; save FAC1 mantissa3
|
||
|
LDA FAC1_r ; get FAC1 rounding byte
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_r ; save FAC1 rounding byte
|
||
|
INC FAC1_r ; increment FAC1 rounding byte
|
||
|
BNE LAB_2563 ; exit if no overflow
|
||
|
|
||
|
; increment FAC1 mantissa
|
||
|
|
||
|
LAB_2559
|
||
|
INC FAC1_3 ; increment FAC1 mantissa3
|
||
|
BNE LAB_2563 ; finished if no rollover
|
||
|
|
||
|
INC FAC1_2 ; increment FAC1 mantissa2
|
||
|
BNE LAB_2563 ; finished if no rollover
|
||
|
|
||
|
INC FAC1_1 ; increment FAC1 mantissa1
|
||
|
LAB_2563
|
||
|
RTS
|
||
|
|
||
|
; do overflow error (overflow exit)
|
||
|
|
||
|
LAB_2564
|
||
|
LDX #$0A ; error code $0A ("Overflow" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; shift FCAtemp << A+8 times
|
||
|
|
||
|
LAB_2569
|
||
|
LDX #FACt_1-1 ; set offset to FACtemp
|
||
|
LAB_256B
|
||
|
LDY PLUS_3,X ; get FACX mantissa3
|
||
|
STY FAC1_r ; save as FAC1 rounding byte
|
||
|
LDY PLUS_2,X ; get FACX mantissa2
|
||
|
STY PLUS_3,X ; save FACX mantissa3
|
||
|
LDY PLUS_1,X ; get FACX mantissa1
|
||
|
STY PLUS_2,X ; save FACX mantissa2
|
||
|
LDY FAC1_o ; get FAC1 overflow byte
|
||
|
STY PLUS_1,X ; save FACX mantissa1
|
||
|
|
||
|
; shift FACX -A times right (> 8 shifts)
|
||
|
|
||
|
LAB_257B
|
||
|
ADC #$08 ; add 8 to shift count
|
||
|
BMI LAB_256B ; go do 8 shift if still -ve
|
||
|
|
||
|
BEQ LAB_256B ; go do 8 shift if zero
|
||
|
|
||
|
SBC #$08 ; else subtract 8 again
|
||
|
TAY ; save count to Y
|
||
|
LDA FAC1_r ; get FAC1 rounding byte
|
||
|
BCS LAB_259A ;.
|
||
|
|
||
|
LAB_2588
|
||
|
ASL PLUS_1,X ; shift FACX mantissa1
|
||
|
BCC LAB_258E ; branch if +ve
|
||
|
|
||
|
INC PLUS_1,X ; this sets b7 eventually
|
||
|
LAB_258E
|
||
|
ROR PLUS_1,X ; shift FACX mantissa1 (correct for ASL)
|
||
|
ROR PLUS_1,X ; shift FACX mantissa1 (put carry in b7)
|
||
|
|
||
|
; shift FACX Y times right
|
||
|
|
||
|
LAB_2592
|
||
|
ROR PLUS_2,X ; shift FACX mantissa2
|
||
|
ROR PLUS_3,X ; shift FACX mantissa3
|
||
|
ROR ; shift FACX rounding byte
|
||
|
INY ; increment exponent diff
|
||
|
BNE LAB_2588 ; branch if range adjust not complete
|
||
|
|
||
|
LAB_259A
|
||
|
CLC ; just clear it
|
||
|
RTS
|
||
|
|
||
|
; perform LOG()
|
||
|
|
||
|
LAB_LOG
|
||
|
JSR LAB_27CA ; test sign and zero
|
||
|
BEQ LAB_25C4 ; if zero do function call error then warm start
|
||
|
|
||
|
BPL LAB_25C7 ; skip error if +ve
|
||
|
|
||
|
LAB_25C4
|
||
|
JMP LAB_FCER ; do function call error then warm start (-ve)
|
||
|
|
||
|
LAB_25C7
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
SBC #$7F ; normalise it
|
||
|
PHA ; save it
|
||
|
LDA #$80 ; set exponent to zero
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
LDA #<LAB_25AD ; set 1/root2 pointer low byte
|
||
|
LDY #>LAB_25AD ; set 1/root2 pointer high byte
|
||
|
JSR LAB_246C ; add (AY) to FAC1 (1/root2)
|
||
|
LDA #<LAB_25B1 ; set root2 pointer low byte
|
||
|
LDY #>LAB_25B1 ; set root2 pointer high byte
|
||
|
JSR LAB_26CA ; convert AY and do (AY)/FAC1 (root2/(x+(1/root2)))
|
||
|
LDA #<LAB_259C ; set 1 pointer low byte
|
||
|
LDY #>LAB_259C ; set 1 pointer high byte
|
||
|
JSR LAB_2455 ; subtract (AY) from FAC1 ((root2/(x+(1/root2)))-1)
|
||
|
LDA #<LAB_25A0 ; set pointer low byte to counter
|
||
|
LDY #>LAB_25A0 ; set pointer high byte to counter
|
||
|
JSR LAB_2B6E ; ^2 then series evaluation
|
||
|
LDA #<LAB_25B5 ; set -0.5 pointer low byte
|
||
|
LDY #>LAB_25B5 ; set -0.5 pointer high byte
|
||
|
JSR LAB_246C ; add (AY) to FAC1
|
||
|
PLA ; restore FAC1 exponent
|
||
|
JSR LAB_2912 ; evaluate new ASCII digit
|
||
|
LDA #<LAB_25B9 ; set LOG(2) pointer low byte
|
||
|
LDY #>LAB_25B9 ; set LOG(2) pointer high byte
|
||
|
|
||
|
; do convert AY, FCA1*(AY)
|
||
|
|
||
|
LAB_25FB
|
||
|
JSR LAB_264D ; unpack memory (AY) into FAC2
|
||
|
LAB_MULTIPLY
|
||
|
BEQ LAB_264C ; exit if zero
|
||
|
|
||
|
JSR LAB_2673 ; test and adjust accumulators
|
||
|
LDA #$00 ; clear A
|
||
|
STA FACt_1 ; clear temp mantissa1
|
||
|
STA FACt_2 ; clear temp mantissa2
|
||
|
STA FACt_3 ; clear temp mantissa3
|
||
|
LDA FAC1_r ; get FAC1 rounding byte
|
||
|
JSR LAB_2622 ; go do shift/add FAC2
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
JSR LAB_2622 ; go do shift/add FAC2
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
JSR LAB_2622 ; go do shift/add FAC2
|
||
|
LDA FAC1_1 ; get FAC1 mantissa1
|
||
|
JSR LAB_2627 ; go do shift/add FAC2
|
||
|
JMP LAB_273C ; copy temp to FAC1, normalise and return
|
||
|
|
||
|
LAB_2622
|
||
|
BNE LAB_2627 ; branch if byte <> zero
|
||
|
|
||
|
JMP LAB_2569 ; shift FCAtemp << A+8 times
|
||
|
|
||
|
; else do shift and add
|
||
|
LAB_2627
|
||
|
LSR ; shift byte
|
||
|
ORA #$80 ; set top bit (mark for 8 times)
|
||
|
LAB_262A
|
||
|
TAY ; copy result
|
||
|
BCC LAB_2640 ; skip next if bit was zero
|
||
|
|
||
|
CLC ; clear carry for add
|
||
|
LDA FACt_3 ; get temp mantissa3
|
||
|
ADC FAC2_3 ; add FAC2 mantissa3
|
||
|
STA FACt_3 ; save temp mantissa3
|
||
|
LDA FACt_2 ; get temp mantissa2
|
||
|
ADC FAC2_2 ; add FAC2 mantissa2
|
||
|
STA FACt_2 ; save temp mantissa2
|
||
|
LDA FACt_1 ; get temp mantissa1
|
||
|
ADC FAC2_1 ; add FAC2 mantissa1
|
||
|
STA FACt_1 ; save temp mantissa1
|
||
|
LAB_2640
|
||
|
ROR FACt_1 ; shift temp mantissa1
|
||
|
ROR FACt_2 ; shift temp mantissa2
|
||
|
ROR FACt_3 ; shift temp mantissa3
|
||
|
ROR FAC1_r ; shift temp rounding byte
|
||
|
TYA ; get byte back
|
||
|
LSR ; shift byte
|
||
|
BNE LAB_262A ; loop if all bits not done
|
||
|
|
||
|
LAB_264C
|
||
|
RTS
|
||
|
|
||
|
; unpack memory (AY) into FAC2
|
||
|
|
||
|
LAB_264D
|
||
|
STA ut1_pl ; save pointer low byte
|
||
|
STY ut1_ph ; save pointer high byte
|
||
|
LDY #$03 ; 4 bytes to get (0-3)
|
||
|
LDA (ut1_pl),Y ; get mantissa3
|
||
|
STA FAC2_3 ; save FAC2 mantissa3
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get mantissa2
|
||
|
STA FAC2_2 ; save FAC2 mantissa2
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get mantissa1+sign
|
||
|
STA FAC2_s ; save FAC2 sign (b7)
|
||
|
EOR FAC1_s ; EOR with FAC1 sign (b7)
|
||
|
STA FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
LDA FAC2_s ; recover FAC2 sign (b7)
|
||
|
ORA #$80 ; set 1xxx xxx (set normal bit)
|
||
|
STA FAC2_1 ; save FAC2 mantissa1
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get exponent byte
|
||
|
STA FAC2_e ; save FAC2 exponent
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
RTS
|
||
|
|
||
|
; test and adjust accumulators
|
||
|
|
||
|
LAB_2673
|
||
|
LDA FAC2_e ; get FAC2 exponent
|
||
|
LAB_2675
|
||
|
BEQ LAB_2696 ; branch if FAC2 = $00 (handle underflow)
|
||
|
|
||
|
CLC ; clear carry for add
|
||
|
ADC FAC1_e ; add FAC1 exponent
|
||
|
BCC LAB_2680 ; branch if sum of exponents <$0100
|
||
|
|
||
|
BMI LAB_269B ; do overflow error
|
||
|
|
||
|
CLC ; clear carry for the add
|
||
|
.byte $2C ; makes next line BIT $1410
|
||
|
LAB_2680
|
||
|
BPL LAB_2696 ; if +ve go handle underflow
|
||
|
|
||
|
ADC #$80 ; adjust exponent
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
BNE LAB_268B ; branch if not zero
|
||
|
|
||
|
JMP LAB_24F5 ; save FAC1 sign and return
|
||
|
|
||
|
LAB_268B
|
||
|
LDA FAC_sc ; get sign compare (FAC1 EOR FAC2)
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
LAB_268F
|
||
|
RTS
|
||
|
|
||
|
; handle overflow and underflow
|
||
|
|
||
|
LAB_2690
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
BPL LAB_269B ; do overflow error
|
||
|
|
||
|
; handle underflow
|
||
|
LAB_2696
|
||
|
PLA ; pop return address low byte
|
||
|
PLA ; pop return address high byte
|
||
|
JMP LAB_24F1 ; clear FAC1 exponent and sign and return
|
||
|
|
||
|
; multiply by 10
|
||
|
|
||
|
LAB_269E
|
||
|
JSR LAB_27AB ; round and copy FAC1 to FAC2
|
||
|
TAX ; copy exponent (set the flags)
|
||
|
BEQ LAB_268F ; exit if zero
|
||
|
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$02 ; add two to exponent (*4)
|
||
|
BCS LAB_269B ; do overflow error if > $FF
|
||
|
|
||
|
LDX #$00 ; clear byte
|
||
|
STX FAC_sc ; clear sign compare (FAC1 EOR FAC2)
|
||
|
JSR LAB_247C ; add FAC2 to FAC1 (*5)
|
||
|
INC FAC1_e ; increment FAC1 exponent (*10)
|
||
|
BNE LAB_268F ; if non zero just do RTS
|
||
|
|
||
|
LAB_269B
|
||
|
JMP LAB_2564 ; do overflow error and warm start
|
||
|
|
||
|
; divide by 10
|
||
|
|
||
|
LAB_26B9
|
||
|
JSR LAB_27AB ; round and copy FAC1 to FAC2
|
||
|
LDA #<LAB_26B5 ; set pointer to 10d low addr
|
||
|
LDY #>LAB_26B5 ; set pointer to 10d high addr
|
||
|
LDX #$00 ; clear sign
|
||
|
|
||
|
; divide by (AY) (X=sign)
|
||
|
|
||
|
LAB_26C2
|
||
|
STX FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
JSR LAB_UFAC ; unpack memory (AY) into FAC1
|
||
|
JMP LAB_DIVIDE ; do FAC2/FAC1
|
||
|
|
||
|
; Perform divide-by
|
||
|
; convert AY and do (AY)/FAC1
|
||
|
|
||
|
LAB_26CA
|
||
|
JSR LAB_264D ; unpack memory (AY) into FAC2
|
||
|
|
||
|
; Perform divide-into
|
||
|
LAB_DIVIDE
|
||
|
BEQ LAB_2737 ; if zero go do /0 error
|
||
|
|
||
|
JSR LAB_27BA ; round FAC1
|
||
|
LDA #$00 ; clear A
|
||
|
SEC ; set carry for subtract
|
||
|
SBC FAC1_e ; subtract FAC1 exponent (2s complement)
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
JSR LAB_2673 ; test and adjust accumulators
|
||
|
INC FAC1_e ; increment FAC1 exponent
|
||
|
BEQ LAB_269B ; if zero do overflow error
|
||
|
|
||
|
LDX #$FF ; set index for pre increment
|
||
|
LDA #$01 ; set bit to flag byte save
|
||
|
LAB_26E4
|
||
|
LDY FAC2_1 ; get FAC2 mantissa1
|
||
|
CPY FAC1_1 ; compare FAC1 mantissa1
|
||
|
BNE LAB_26F4 ; branch if <>
|
||
|
|
||
|
LDY FAC2_2 ; get FAC2 mantissa2
|
||
|
CPY FAC1_2 ; compare FAC1 mantissa2
|
||
|
BNE LAB_26F4 ; branch if <>
|
||
|
|
||
|
LDY FAC2_3 ; get FAC2 mantissa3
|
||
|
CPY FAC1_3 ; compare FAC1 mantissa3
|
||
|
LAB_26F4
|
||
|
PHP ; save FAC2-FAC1 compare status
|
||
|
ROL ; shift the result byte
|
||
|
BCC LAB_2702 ; if no carry skip the byte save
|
||
|
|
||
|
LDY #$01 ; set bit to flag byte save
|
||
|
INX ; else increment the index to FACt
|
||
|
CPX #$02 ; compare with the index to FACt_3
|
||
|
BMI LAB_2701 ; if not last byte just go save it
|
||
|
|
||
|
BNE LAB_272B ; if all done go save FAC1 rounding byte, normalise and
|
||
|
; return
|
||
|
|
||
|
LDY #$40 ; set bit to flag byte save for the rounding byte
|
||
|
LAB_2701
|
||
|
STA FACt_1,X ; write result byte to FACt_1 + index
|
||
|
TYA ; copy the next save byte flag
|
||
|
LAB_2702
|
||
|
PLP ; restore FAC2-FAC1 compare status
|
||
|
BCC LAB_2704 ; if FAC2 < FAC1 then skip the subtract
|
||
|
|
||
|
TAY ; save FAC2-FAC1 compare status
|
||
|
LDA FAC2_3 ; get FAC2 mantissa3
|
||
|
SBC FAC1_3 ; subtract FAC1 mantissa3
|
||
|
STA FAC2_3 ; save FAC2 mantissa3
|
||
|
LDA FAC2_2 ; get FAC2 mantissa2
|
||
|
SBC FAC1_2 ; subtract FAC1 mantissa2
|
||
|
STA FAC2_2 ; save FAC2 mantissa2
|
||
|
LDA FAC2_1 ; get FAC2 mantissa1
|
||
|
SBC FAC1_1 ; subtract FAC1 mantissa1
|
||
|
STA FAC2_1 ; save FAC2 mantissa1
|
||
|
TYA ; restore FAC2-FAC1 compare status
|
||
|
|
||
|
; FAC2 = FAC2*2
|
||
|
LAB_2704
|
||
|
ASL FAC2_3 ; shift FAC2 mantissa3
|
||
|
ROL FAC2_2 ; shift FAC2 mantissa2
|
||
|
ROL FAC2_1 ; shift FAC2 mantissa1
|
||
|
BCS LAB_26F4 ; loop with no compare
|
||
|
|
||
|
BMI LAB_26E4 ; loop with compare
|
||
|
|
||
|
BPL LAB_26F4 ; loop always with no compare
|
||
|
|
||
|
; do A<<6, save as FAC1 rounding byte, normalise and return
|
||
|
|
||
|
LAB_272B
|
||
|
LSR ; shift b1 - b0 ..
|
||
|
ROR ; ..
|
||
|
ROR ; .. to b7 - b6
|
||
|
STA FAC1_r ; save FAC1 rounding byte
|
||
|
PLP ; dump FAC2-FAC1 compare status
|
||
|
JMP LAB_273C ; copy temp to FAC1, normalise and return
|
||
|
|
||
|
; do "Divide by zero" error
|
||
|
|
||
|
LAB_2737
|
||
|
LDX #$14 ; error code $14 ("Divide by zero" error)
|
||
|
JMP LAB_XERR ; do error #X, then warm start
|
||
|
|
||
|
; copy temp to FAC1 and normalise
|
||
|
|
||
|
LAB_273C
|
||
|
LDA FACt_1 ; get temp mantissa1
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
LDA FACt_2 ; get temp mantissa2
|
||
|
STA FAC1_2 ; save FAC1 mantissa2
|
||
|
LDA FACt_3 ; get temp mantissa3
|
||
|
STA FAC1_3 ; save FAC1 mantissa3
|
||
|
JMP LAB_24D5 ; normalise FAC1 and return
|
||
|
|
||
|
; unpack memory (AY) into FAC1
|
||
|
|
||
|
LAB_UFAC
|
||
|
STA ut1_pl ; save pointer low byte
|
||
|
STY ut1_ph ; save pointer high byte
|
||
|
LDY #$03 ; 4 bytes to do
|
||
|
LDA (ut1_pl),Y ; get last byte
|
||
|
STA FAC1_3 ; save FAC1 mantissa3
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get last-1 byte
|
||
|
STA FAC1_2 ; save FAC1 mantissa2
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get second byte
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
ORA #$80 ; set 1xxx xxxx (add normal bit)
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
DEY ; decrement index
|
||
|
LDA (ut1_pl),Y ; get first byte (exponent)
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
STY FAC1_r ; clear FAC1 rounding byte
|
||
|
RTS
|
||
|
|
||
|
; pack FAC1 into Adatal
|
||
|
|
||
|
LAB_276E
|
||
|
LDX #<Adatal ; set pointer low byte
|
||
|
LAB_2770
|
||
|
LDY #>Adatal ; set pointer high byte
|
||
|
BEQ LAB_2778 ; pack FAC1 into (XY) and return
|
||
|
|
||
|
; pack FAC1 into (Lvarpl)
|
||
|
|
||
|
LAB_PFAC
|
||
|
LDX Lvarpl ; get destination pointer low byte
|
||
|
LDY Lvarph ; get destination pointer high byte
|
||
|
|
||
|
; pack FAC1 into (XY)
|
||
|
|
||
|
LAB_2778
|
||
|
JSR LAB_27BA ; round FAC1
|
||
|
STX ut1_pl ; save pointer low byte
|
||
|
STY ut1_ph ; save pointer high byte
|
||
|
LDY #$03 ; set index
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
STA (ut1_pl),Y ; store in destination
|
||
|
DEY ; decrement index
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
STA (ut1_pl),Y ; store in destination
|
||
|
DEY ; decrement index
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
ORA #$7F ; set bits x111 1111
|
||
|
AND FAC1_1 ; AND in FAC1 mantissa1
|
||
|
STA (ut1_pl),Y ; store in destination
|
||
|
DEY ; decrement index
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
STA (ut1_pl),Y ; store in destination
|
||
|
STY FAC1_r ; clear FAC1 rounding byte
|
||
|
RTS
|
||
|
|
||
|
; round and copy FAC1 to FAC2
|
||
|
|
||
|
LAB_27AB
|
||
|
JSR LAB_27BA ; round FAC1
|
||
|
|
||
|
; copy FAC1 to FAC2
|
||
|
|
||
|
LAB_27AE
|
||
|
LDX #$05 ; 5 bytes to copy
|
||
|
LAB_27B0
|
||
|
LDA FAC1_e-1,X ; get byte from FAC1,X
|
||
|
STA FAC1_o,X ; save byte at FAC2,X
|
||
|
DEX ; decrement count
|
||
|
BNE LAB_27B0 ; loop if not all done
|
||
|
|
||
|
STX FAC1_r ; clear FAC1 rounding byte
|
||
|
LAB_27B9
|
||
|
RTS
|
||
|
|
||
|
; round FAC1
|
||
|
|
||
|
LAB_27BA
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_27B9 ; exit if zero
|
||
|
|
||
|
ASL FAC1_r ; shift FAC1 rounding byte
|
||
|
BCC LAB_27B9 ; exit if no overflow
|
||
|
|
||
|
; round FAC1 (no check)
|
||
|
|
||
|
LAB_27C2
|
||
|
JSR LAB_2559 ; increment FAC1 mantissa
|
||
|
BNE LAB_27B9 ; branch if no overflow
|
||
|
|
||
|
JMP LAB_252A ; normalise FAC1 for C=1 and return
|
||
|
|
||
|
; get FAC1 sign
|
||
|
; return A=FF,C=1/-ve A=01,C=0/+ve
|
||
|
|
||
|
LAB_27CA
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_27D7 ; exit if zero (already correct SGN(0)=0)
|
||
|
|
||
|
; return A=FF,C=1/-ve A=01,C=0/+ve
|
||
|
; no = 0 check
|
||
|
|
||
|
LAB_27CE
|
||
|
LDA FAC1_s ; else get FAC1 sign (b7)
|
||
|
|
||
|
; return A=FF,C=1/-ve A=01,C=0/+ve
|
||
|
; no = 0 check, sign in A
|
||
|
|
||
|
LAB_27D0
|
||
|
ROL ; move sign bit to carry
|
||
|
LDA #$FF ; set byte for -ve result
|
||
|
BCS LAB_27D7 ; return if sign was set (-ve)
|
||
|
|
||
|
LDA #$01 ; else set byte for +ve result
|
||
|
LAB_27D7
|
||
|
RTS
|
||
|
|
||
|
; perform SGN()
|
||
|
|
||
|
LAB_SGN
|
||
|
JSR LAB_27CA ; get FAC1 sign
|
||
|
; return A=$FF/-ve A=$01/+ve
|
||
|
; save A as integer byte
|
||
|
|
||
|
LAB_27DB
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
LDA #$00 ; clear A
|
||
|
STA FAC1_2 ; clear FAC1 mantissa2
|
||
|
LDX #$88 ; set exponent
|
||
|
|
||
|
; set exp=X, clearFAC1 mantissa3 and normalise
|
||
|
|
||
|
LAB_27E3
|
||
|
LDA FAC1_1 ; get FAC1 mantissa1
|
||
|
EOR #$FF ; complement it
|
||
|
ROL ; sign bit into carry
|
||
|
|
||
|
; set exp=X, clearFAC1 mantissa3 and normalise
|
||
|
|
||
|
LAB_STFA
|
||
|
LDA #$00 ; clear A
|
||
|
STA FAC1_3 ; clear FAC1 mantissa3
|
||
|
STX FAC1_e ; set FAC1 exponent
|
||
|
STA FAC1_r ; clear FAC1 rounding byte
|
||
|
STA FAC1_s ; clear FAC1 sign (b7)
|
||
|
JMP LAB_24D0 ; do ABS and normalise FAC1
|
||
|
|
||
|
; perform ABS()
|
||
|
|
||
|
LAB_ABS
|
||
|
LSR FAC1_s ; clear FAC1 sign (put zero in b7)
|
||
|
RTS
|
||
|
|
||
|
; compare FAC1 with (AY)
|
||
|
; returns A=$00 if FAC1 = (AY)
|
||
|
; returns A=$01 if FAC1 > (AY)
|
||
|
; returns A=$FF if FAC1 < (AY)
|
||
|
|
||
|
LAB_27F8
|
||
|
STA ut2_pl ; save pointer low byte
|
||
|
LAB_27FA
|
||
|
STY ut2_ph ; save pointer high byte
|
||
|
LDY #$00 ; clear index
|
||
|
LDA (ut2_pl),Y ; get exponent
|
||
|
INY ; increment index
|
||
|
TAX ; copy (AY) exponent to X
|
||
|
BEQ LAB_27CA ; branch if (AY) exponent=0 and get FAC1 sign
|
||
|
; A=FF,C=1/-ve A=01,C=0/+ve
|
||
|
|
||
|
LDA (ut2_pl),Y ; get (AY) mantissa1 (with sign)
|
||
|
EOR FAC1_s ; EOR FAC1 sign (b7)
|
||
|
BMI LAB_27CE ; if signs <> do return A=FF,C=1/-ve
|
||
|
; A=01,C=0/+ve and return
|
||
|
|
||
|
CPX FAC1_e ; compare (AY) exponent with FAC1 exponent
|
||
|
BNE LAB_2828 ; branch if different
|
||
|
|
||
|
LDA (ut2_pl),Y ; get (AY) mantissa1 (with sign)
|
||
|
ORA #$80 ; normalise top bit
|
||
|
CMP FAC1_1 ; compare with FAC1 mantissa1
|
||
|
BNE LAB_2828 ; branch if different
|
||
|
|
||
|
INY ; increment index
|
||
|
LDA (ut2_pl),Y ; get mantissa2
|
||
|
CMP FAC1_2 ; compare with FAC1 mantissa2
|
||
|
BNE LAB_2828 ; branch if different
|
||
|
|
||
|
INY ; increment index
|
||
|
LDA #$7F ; set for 1/2 value rounding byte
|
||
|
CMP FAC1_r ; compare with FAC1 rounding byte (set carry)
|
||
|
LDA (ut2_pl),Y ; get mantissa3
|
||
|
SBC FAC1_3 ; subtract FAC1 mantissa3
|
||
|
BEQ LAB_2850 ; exit if mantissa3 equal
|
||
|
|
||
|
; gets here if number <> FAC1
|
||
|
|
||
|
LAB_2828
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
BCC LAB_282E ; branch if FAC1 > (AY)
|
||
|
|
||
|
EOR #$FF ; else toggle FAC1 sign
|
||
|
LAB_282E
|
||
|
JMP LAB_27D0 ; return A=FF,C=1/-ve A=01,C=0/+ve
|
||
|
|
||
|
; convert FAC1 floating-to-fixed
|
||
|
|
||
|
LAB_2831
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_287F ; if zero go clear FAC1 and return
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
SBC #$98 ; subtract maximum integer range exponent
|
||
|
BIT FAC1_s ; test FAC1 sign (b7)
|
||
|
BPL LAB_2845 ; branch if FAC1 +ve
|
||
|
|
||
|
; FAC1 was -ve
|
||
|
TAX ; copy subtracted exponent
|
||
|
LDA #$FF ; overflow for -ve number
|
||
|
STA FAC1_o ; set FAC1 overflow byte
|
||
|
JSR LAB_253D ; twos complement FAC1 mantissa
|
||
|
TXA ; restore subtracted exponent
|
||
|
LAB_2845
|
||
|
LDX #FAC1_e ; set index to FAC1
|
||
|
CMP #$F9 ; compare exponent result
|
||
|
BPL LAB_2851 ; if < 8 shifts shift FAC1 A times right and return
|
||
|
|
||
|
JSR LAB_257B ; shift FAC1 A times right (> 8 shifts)
|
||
|
STY FAC1_o ; clear FAC1 overflow byte
|
||
|
LAB_2850
|
||
|
RTS
|
||
|
|
||
|
; shift FAC1 A times right
|
||
|
|
||
|
LAB_2851
|
||
|
TAY ; copy shift count
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
AND #$80 ; mask sign bit only (x000 0000)
|
||
|
LSR FAC1_1 ; shift FAC1 mantissa1
|
||
|
ORA FAC1_1 ; OR sign in b7 FAC1 mantissa1
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
JSR LAB_2592 ; shift FAC1 Y times right
|
||
|
STY FAC1_o ; clear FAC1 overflow byte
|
||
|
RTS
|
||
|
|
||
|
; perform INT()
|
||
|
|
||
|
LAB_INT
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
CMP #$98 ; compare with max int
|
||
|
BCS LAB_2886 ; exit if >= (already int, too big for fractional part!)
|
||
|
|
||
|
JSR LAB_2831 ; convert FAC1 floating-to-fixed
|
||
|
STY FAC1_r ; save FAC1 rounding byte
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
STY FAC1_s ; save FAC1 sign (b7)
|
||
|
EOR #$80 ; toggle FAC1 sign
|
||
|
ROL ; shift into carry
|
||
|
LDA #$98 ; set new exponent
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
STA Temp3 ; save for EXP() function
|
||
|
JMP LAB_24D0 ; do ABS and normalise FAC1
|
||
|
|
||
|
; clear FAC1 and return
|
||
|
|
||
|
LAB_287F
|
||
|
STA FAC1_1 ; clear FAC1 mantissa1
|
||
|
STA FAC1_2 ; clear FAC1 mantissa2
|
||
|
STA FAC1_3 ; clear FAC1 mantissa3
|
||
|
TAY ; clear Y
|
||
|
LAB_2886
|
||
|
RTS
|
||
|
|
||
|
; get FAC1 from string
|
||
|
; this routine now handles hex and binary values from strings
|
||
|
; starting with "$" and "%" respectively
|
||
|
|
||
|
LAB_2887
|
||
|
LDY #$00 ; clear Y
|
||
|
STY Dtypef ; clear data type flag, $FF=string, $00=numeric
|
||
|
LDX #$09 ; set index
|
||
|
LAB_288B
|
||
|
STY numexp,X ; clear byte
|
||
|
DEX ; decrement index
|
||
|
BPL LAB_288B ; loop until numexp to negnum (and FAC1) = $00
|
||
|
|
||
|
BCC LAB_28FE ; branch if 1st character numeric
|
||
|
|
||
|
; get FAC1 from string .. first character wasn't numeric
|
||
|
|
||
|
CMP #'-' ; else compare with "-"
|
||
|
BNE LAB_289A ; branch if not "-"
|
||
|
|
||
|
STX negnum ; set flag for -ve number (X = $FF)
|
||
|
BEQ LAB_289C ; branch always (go scan and check for hex/bin)
|
||
|
|
||
|
; get FAC1 from string .. first character wasn't numeric or -
|
||
|
|
||
|
LAB_289A
|
||
|
CMP #'+' ; else compare with "+"
|
||
|
BNE LAB_289D ; branch if not "+" (go check for hex/bin)
|
||
|
|
||
|
; was "+" or "-" to start, so get next character
|
||
|
|
||
|
LAB_289C
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
BCC LAB_28FE ; branch if numeric character
|
||
|
|
||
|
; code here for hex and binary numbers
|
||
|
|
||
|
LAB_289D
|
||
|
CMP #'$' ; else compare with "$"
|
||
|
BNE LAB_NHEX ; branch if not "$"
|
||
|
|
||
|
JMP LAB_CHEX ; branch if "$"
|
||
|
|
||
|
LAB_NHEX
|
||
|
CMP #'%' ; else compare with "%"
|
||
|
BNE LAB_28A3 ; branch if not "%" (continue original code)
|
||
|
|
||
|
JMP LAB_CBIN ; branch if "%"
|
||
|
|
||
|
LAB_289E
|
||
|
JSR LAB_IGBY ; increment and scan memory (ignore + or get next number)
|
||
|
LAB_28A1
|
||
|
BCC LAB_28FE ; branch if numeric character
|
||
|
|
||
|
; get FAC1 from string .. character wasn't numeric, -, +, hex or binary
|
||
|
|
||
|
LAB_28A3
|
||
|
CMP #'.' ; else compare with "."
|
||
|
BEQ LAB_28D5 ; branch if "."
|
||
|
|
||
|
; get FAC1 from string .. character wasn't numeric, -, + or .
|
||
|
|
||
|
CMP #'E' ; else compare with "E"
|
||
|
BNE LAB_28DB ; branch if not "E"
|
||
|
|
||
|
; was "E" so evaluate exponential part
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
BCC LAB_28C7 ; branch if numeric character
|
||
|
|
||
|
CMP #TK_MINUS ; else compare with token for -
|
||
|
BEQ LAB_28C2 ; branch if token for -
|
||
|
|
||
|
CMP #'-' ; else compare with "-"
|
||
|
BEQ LAB_28C2 ; branch if "-"
|
||
|
|
||
|
CMP #TK_PLUS ; else compare with token for +
|
||
|
BEQ LAB_28C4 ; branch if token for +
|
||
|
|
||
|
CMP #'+' ; else compare with "+"
|
||
|
BEQ LAB_28C4 ; branch if "+"
|
||
|
|
||
|
BNE LAB_28C9 ; branch always
|
||
|
|
||
|
LAB_28C2
|
||
|
ROR expneg ; set exponent -ve flag (C, which=1, into b7)
|
||
|
LAB_28C4
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
LAB_28C7
|
||
|
BCC LAB_2925 ; branch if numeric character
|
||
|
|
||
|
LAB_28C9
|
||
|
BIT expneg ; test exponent -ve flag
|
||
|
BPL LAB_28DB ; if +ve go evaluate exponent
|
||
|
|
||
|
; else do exponent = -exponent
|
||
|
LDA #$00 ; clear result
|
||
|
SEC ; set carry for subtract
|
||
|
SBC expcnt ; subtract exponent byte
|
||
|
JMP LAB_28DD ; go evaluate exponent
|
||
|
|
||
|
LAB_28D5
|
||
|
ROR numdpf ; set decimal point flag
|
||
|
BIT numdpf ; test decimal point flag
|
||
|
BVC LAB_289E ; branch if only one decimal point so far
|
||
|
|
||
|
; evaluate exponent
|
||
|
LAB_28DB
|
||
|
LDA expcnt ; get exponent count byte
|
||
|
LAB_28DD
|
||
|
SEC ; set carry for subtract
|
||
|
SBC numexp ; subtract numerator exponent
|
||
|
STA expcnt ; save exponent count byte
|
||
|
BEQ LAB_28F6 ; branch if no adjustment
|
||
|
|
||
|
BPL LAB_28EF ; else if +ve go do FAC1*10^expcnt
|
||
|
|
||
|
; else go do FAC1/10^(0-expcnt)
|
||
|
LAB_28E6
|
||
|
JSR LAB_26B9 ; divide by 10
|
||
|
INC expcnt ; increment exponent count byte
|
||
|
BNE LAB_28E6 ; loop until all done
|
||
|
|
||
|
BEQ LAB_28F6 ; branch always
|
||
|
|
||
|
LAB_28EF
|
||
|
JSR LAB_269E ; multiply by 10
|
||
|
DEC expcnt ; decrement exponent count byte
|
||
|
BNE LAB_28EF ; loop until all done
|
||
|
|
||
|
LAB_28F6
|
||
|
LDA negnum ; get -ve flag
|
||
|
BMI LAB_28FB ; if -ve do - FAC1 and return
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; do - FAC1 and return
|
||
|
|
||
|
LAB_28FB
|
||
|
JMP LAB_GTHAN ; do - FAC1 and return
|
||
|
|
||
|
; do unsigned FAC1*10+number
|
||
|
|
||
|
LAB_28FE
|
||
|
PHA ; save character
|
||
|
BIT numdpf ; test decimal point flag
|
||
|
BPL LAB_2905 ; skip exponent increment if not set
|
||
|
|
||
|
INC numexp ; else increment number exponent
|
||
|
LAB_2905
|
||
|
JSR LAB_269E ; multiply FAC1 by 10
|
||
|
PLA ; restore character
|
||
|
AND #$0F ; convert to binary
|
||
|
JSR LAB_2912 ; evaluate new ASCII digit
|
||
|
JMP LAB_289E ; go do next character
|
||
|
|
||
|
; evaluate new ASCII digit
|
||
|
|
||
|
LAB_2912
|
||
|
PHA ; save digit
|
||
|
JSR LAB_27AB ; round and copy FAC1 to FAC2
|
||
|
PLA ; restore digit
|
||
|
JSR LAB_27DB ; save A as integer byte
|
||
|
LDA FAC2_s ; get FAC2 sign (b7)
|
||
|
EOR FAC1_s ; toggle with FAC1 sign (b7)
|
||
|
STA FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
LDX FAC1_e ; get FAC1 exponent
|
||
|
JMP LAB_ADD ; add FAC2 to FAC1 and return
|
||
|
|
||
|
; evaluate next character of exponential part of number
|
||
|
|
||
|
LAB_2925
|
||
|
LDA expcnt ; get exponent count byte
|
||
|
CMP #$0A ; compare with 10 decimal
|
||
|
BCC LAB_2934 ; branch if less
|
||
|
|
||
|
LDA #$64 ; make all -ve exponents = -100 decimal (causes underflow)
|
||
|
BIT expneg ; test exponent -ve flag
|
||
|
BMI LAB_2942 ; branch if -ve
|
||
|
|
||
|
JMP LAB_2564 ; else do overflow error
|
||
|
|
||
|
LAB_2934
|
||
|
ASL ; * 2
|
||
|
ASL ; * 4
|
||
|
ADC expcnt ; * 5
|
||
|
ASL ; * 10
|
||
|
LDY #$00 ; set index
|
||
|
ADC (Bpntrl),Y ; add character (will be $30 too much!)
|
||
|
SBC #'0'-1 ; convert character to binary
|
||
|
LAB_2942
|
||
|
STA expcnt ; save exponent count byte
|
||
|
JMP LAB_28C4 ; go get next character
|
||
|
|
||
|
; print " in line [LINE #]"
|
||
|
|
||
|
LAB_2953
|
||
|
LDA #<LAB_LMSG ; point to " in line " message low byte
|
||
|
LDY #>LAB_LMSG ; point to " in line " message high byte
|
||
|
JSR LAB_18C3 ; print null terminated string from memory
|
||
|
|
||
|
; print Basic line #
|
||
|
LDA Clineh ; get current line high byte
|
||
|
LDX Clinel ; get current line low byte
|
||
|
|
||
|
; print XA as unsigned integer
|
||
|
|
||
|
LAB_295E
|
||
|
STA FAC1_1 ; save low byte as FAC1 mantissa1
|
||
|
STX FAC1_2 ; save high byte as FAC1 mantissa2
|
||
|
LDX #$90 ; set exponent to 16d bits
|
||
|
SEC ; set integer is +ve flag
|
||
|
JSR LAB_STFA ; set exp=X, clearFAC1 mantissa3 and normalise
|
||
|
LDY #$00 ; clear index
|
||
|
TYA ; clear A
|
||
|
JSR LAB_297B ; convert FAC1 to string, skip sign character save
|
||
|
JMP LAB_18C3 ; print null terminated string from memory and return
|
||
|
|
||
|
; convert FAC1 to ASCII string result in (AY)
|
||
|
; not any more, moved scratchpad to page 0
|
||
|
|
||
|
LAB_296E
|
||
|
LDY #$01 ; set index = 1
|
||
|
LDA #$20 ; character = " " (assume +ve)
|
||
|
BIT FAC1_s ; test FAC1 sign (b7)
|
||
|
BPL LAB_2978 ; branch if +ve
|
||
|
|
||
|
LDA #$2D ; else character = "-"
|
||
|
LAB_2978
|
||
|
STA Decss,Y ; save leading character (" " or "-")
|
||
|
LAB_297B
|
||
|
STA FAC1_s ; clear FAC1 sign (b7)
|
||
|
STY Sendl ; save index
|
||
|
INY ; increment index
|
||
|
LDX FAC1_e ; get FAC1 exponent
|
||
|
BNE LAB_2989 ; branch if FAC1<>0
|
||
|
|
||
|
; exponent was $00 so FAC1 is 0
|
||
|
LDA #'0' ; set character = "0"
|
||
|
JMP LAB_2A89 ; save last character, [EOT] and exit
|
||
|
|
||
|
; FAC1 is some non zero value
|
||
|
LAB_2989
|
||
|
LDA #$00 ; clear (number exponent count)
|
||
|
CPX #$81 ; compare FAC1 exponent with $81 (>1.00000)
|
||
|
|
||
|
BCS LAB_299A ; branch if FAC1=>1
|
||
|
|
||
|
; FAC1<1
|
||
|
LDA #<LAB_294F ; set pointer low byte to 1,000,000
|
||
|
LDY #>LAB_294F ; set pointer high byte to 1,000,000
|
||
|
JSR LAB_25FB ; do convert AY, FCA1*(AY)
|
||
|
LDA #$FA ; set number exponent count (-6)
|
||
|
LAB_299A
|
||
|
STA numexp ; save number exponent count
|
||
|
LAB_299C
|
||
|
LDA #<LAB_294B ; set pointer low byte to 999999.4375 (max before sci note)
|
||
|
LDY #>LAB_294B ; set pointer high byte to 999999.4375
|
||
|
JSR LAB_27F8 ; compare FAC1 with (AY)
|
||
|
BEQ LAB_29C3 ; exit if FAC1 = (AY)
|
||
|
|
||
|
BPL LAB_29B9 ; go do /10 if FAC1 > (AY)
|
||
|
|
||
|
; FAC1 < (AY)
|
||
|
LAB_29A7
|
||
|
LDA #<LAB_2947 ; set pointer low byte to 99999.9375
|
||
|
LDY #>LAB_2947 ; set pointer high byte to 99999.9375
|
||
|
JSR LAB_27F8 ; compare FAC1 with (AY)
|
||
|
BEQ LAB_29B2 ; branch if FAC1 = (AY) (allow decimal places)
|
||
|
|
||
|
BPL LAB_29C0 ; branch if FAC1 > (AY) (no decimal places)
|
||
|
|
||
|
; FAC1 <= (AY)
|
||
|
LAB_29B2
|
||
|
JSR LAB_269E ; multiply by 10
|
||
|
DEC numexp ; decrement number exponent count
|
||
|
BNE LAB_29A7 ; go test again (branch always)
|
||
|
|
||
|
LAB_29B9
|
||
|
JSR LAB_26B9 ; divide by 10
|
||
|
INC numexp ; increment number exponent count
|
||
|
BNE LAB_299C ; go test again (branch always)
|
||
|
|
||
|
; now we have just the digits to do
|
||
|
|
||
|
LAB_29C0
|
||
|
JSR LAB_244E ; add 0.5 to FAC1 (round FAC1)
|
||
|
LAB_29C3
|
||
|
JSR LAB_2831 ; convert FAC1 floating-to-fixed
|
||
|
LDX #$01 ; set default digits before dp = 1
|
||
|
LDA numexp ; get number exponent count
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$07 ; up to 6 digits before point
|
||
|
BMI LAB_29D8 ; if -ve then 1 digit before dp
|
||
|
|
||
|
CMP #$08 ; A>=8 if n>=1E6
|
||
|
BCS LAB_29D9 ; branch if >= $08
|
||
|
|
||
|
; carry is clear
|
||
|
ADC #$FF ; take 1 from digit count
|
||
|
TAX ; copy to A
|
||
|
LDA #$02 ;.set exponent adjust
|
||
|
LAB_29D8
|
||
|
SEC ; set carry for subtract
|
||
|
LAB_29D9
|
||
|
SBC #$02 ; -2
|
||
|
STA expcnt ;.save exponent adjust
|
||
|
STX numexp ; save digits before dp count
|
||
|
TXA ; copy to A
|
||
|
BEQ LAB_29E4 ; branch if no digits before dp
|
||
|
|
||
|
BPL LAB_29F7 ; branch if digits before dp
|
||
|
|
||
|
LAB_29E4
|
||
|
LDY Sendl ; get output string index
|
||
|
LDA #$2E ; character "."
|
||
|
INY ; increment index
|
||
|
STA Decss,Y ; save to output string
|
||
|
TXA ;.
|
||
|
BEQ LAB_29F5 ;.
|
||
|
|
||
|
LDA #'0' ; character "0"
|
||
|
INY ; increment index
|
||
|
STA Decss,Y ; save to output string
|
||
|
LAB_29F5
|
||
|
STY Sendl ; save output string index
|
||
|
LAB_29F7
|
||
|
LDY #$00 ; clear index (point to 100,000)
|
||
|
LDX #$80 ;
|
||
|
LAB_29FB
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
CLC ; clear carry for add
|
||
|
ADC LAB_2A9C,Y ; add -ve LSB
|
||
|
STA FAC1_3 ; save FAC1 mantissa3
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
ADC LAB_2A9B,Y ; add -ve NMSB
|
||
|
STA FAC1_2 ; save FAC1 mantissa2
|
||
|
LDA FAC1_1 ; get FAC1 mantissa1
|
||
|
ADC LAB_2A9A,Y ; add -ve MSB
|
||
|
STA FAC1_1 ; save FAC1 mantissa1
|
||
|
INX ;
|
||
|
BCS LAB_2A18 ;
|
||
|
|
||
|
BPL LAB_29FB ; not -ve so try again
|
||
|
|
||
|
BMI LAB_2A1A ;
|
||
|
|
||
|
LAB_2A18
|
||
|
BMI LAB_29FB ;
|
||
|
|
||
|
LAB_2A1A
|
||
|
TXA ;
|
||
|
BCC LAB_2A21 ;
|
||
|
|
||
|
EOR #$FF ;
|
||
|
ADC #$0A ;
|
||
|
LAB_2A21
|
||
|
ADC #'0'-1 ; add "0"-1 to result
|
||
|
INY ; increment index ..
|
||
|
INY ; .. to next less ..
|
||
|
INY ; .. power of ten
|
||
|
STY Cvaral ; save as current var address low byte
|
||
|
LDY Sendl ; get output string index
|
||
|
INY ; increment output string index
|
||
|
TAX ; copy character to X
|
||
|
AND #$7F ; mask out top bit
|
||
|
STA Decss,Y ; save to output string
|
||
|
DEC numexp ; decrement # of characters before the dp
|
||
|
BNE LAB_2A3B ; branch if still characters to do
|
||
|
|
||
|
; else output the point
|
||
|
LDA #$2E ; character "."
|
||
|
INY ; increment output string index
|
||
|
STA Decss,Y ; save to output string
|
||
|
LAB_2A3B
|
||
|
STY Sendl ; save output string index
|
||
|
LDY Cvaral ; get current var address low byte
|
||
|
TXA ; get character back
|
||
|
EOR #$FF ;
|
||
|
AND #$80 ;
|
||
|
TAX ;
|
||
|
CPY #$12 ; compare index with max
|
||
|
BNE LAB_29FB ; loop if not max
|
||
|
|
||
|
; now remove trailing zeroes
|
||
|
LDY Sendl ; get output string index
|
||
|
LAB_2A4B
|
||
|
LDA Decss,Y ; get character from output string
|
||
|
DEY ; decrement output string index
|
||
|
CMP #'0' ; compare with "0"
|
||
|
BEQ LAB_2A4B ; loop until non "0" character found
|
||
|
|
||
|
CMP #'.' ; compare with "."
|
||
|
BEQ LAB_2A58 ; branch if was dp
|
||
|
|
||
|
; restore last character
|
||
|
INY ; increment output string index
|
||
|
LAB_2A58
|
||
|
LDA #$2B ; character "+"
|
||
|
LDX expcnt ; get exponent count
|
||
|
BEQ LAB_2A8C ; if zero go set null terminator and exit
|
||
|
|
||
|
; exponent isn't zero so write exponent
|
||
|
BPL LAB_2A68 ; branch if exponent count +ve
|
||
|
|
||
|
LDA #$00 ; clear A
|
||
|
SEC ; set carry for subtract
|
||
|
SBC expcnt ; subtract exponent count adjust (convert -ve to +ve)
|
||
|
TAX ; copy exponent count to X
|
||
|
LDA #'-' ; character "-"
|
||
|
LAB_2A68
|
||
|
STA Decss+2,Y ; save to output string
|
||
|
LDA #$45 ; character "E"
|
||
|
STA Decss+1,Y ; save exponent sign to output string
|
||
|
TXA ; get exponent count back
|
||
|
LDX #'0'-1 ; one less than "0" character
|
||
|
SEC ; set carry for subtract
|
||
|
LAB_2A74
|
||
|
INX ; increment 10's character
|
||
|
SBC #$0A ;.subtract 10 from exponent count
|
||
|
BCS LAB_2A74 ; loop while still >= 0
|
||
|
|
||
|
ADC #':' ; add character ":" ($30+$0A, result is 10 less that value)
|
||
|
STA Decss+4,Y ; save to output string
|
||
|
TXA ; copy 10's character
|
||
|
STA Decss+3,Y ; save to output string
|
||
|
LDA #$00 ; set null terminator
|
||
|
STA Decss+5,Y ; save to output string
|
||
|
BEQ LAB_2A91 ; go set string pointer (AY) and exit (branch always)
|
||
|
|
||
|
; save last character, [EOT] and exit
|
||
|
LAB_2A89
|
||
|
STA Decss,Y ; save last character to output string
|
||
|
|
||
|
; set null terminator and exit
|
||
|
LAB_2A8C
|
||
|
LDA #$00 ; set null terminator
|
||
|
STA Decss+1,Y ; save after last character
|
||
|
|
||
|
; set string pointer (AY) and exit
|
||
|
LAB_2A91
|
||
|
LDA #<Decssp1 ; set result string low pointer
|
||
|
LDY #>Decssp1 ; set result string high pointer
|
||
|
RTS
|
||
|
|
||
|
; perform power function
|
||
|
|
||
|
LAB_POWER
|
||
|
BEQ LAB_EXP ; go do EXP()
|
||
|
|
||
|
LDA FAC2_e ; get FAC2 exponent
|
||
|
BNE LAB_2ABF ; branch if FAC2<>0
|
||
|
|
||
|
JMP LAB_24F3 ; clear FAC1 exponent and sign and return
|
||
|
|
||
|
LAB_2ABF
|
||
|
LDX #<func_l ; set destination pointer low byte
|
||
|
LDY #>func_l ; set destination pointer high byte
|
||
|
JSR LAB_2778 ; pack FAC1 into (XY)
|
||
|
LDA FAC2_s ; get FAC2 sign (b7)
|
||
|
BPL LAB_2AD9 ; branch if FAC2>0
|
||
|
|
||
|
; else FAC2 is -ve and can only be raised to an
|
||
|
; integer power which gives an x +j0 result
|
||
|
JSR LAB_INT ; perform INT
|
||
|
LDA #<func_l ; set source pointer low byte
|
||
|
LDY #>func_l ; set source pointer high byte
|
||
|
JSR LAB_27F8 ; compare FAC1 with (AY)
|
||
|
BNE LAB_2AD9 ; branch if FAC1 <> (AY) to allow Function Call error
|
||
|
; this will leave FAC1 -ve and cause a Function Call
|
||
|
; error when LOG() is called
|
||
|
|
||
|
TYA ; clear sign b7
|
||
|
LDY Temp3 ; save mantissa 3 from INT() function as sign in Y
|
||
|
; for possible later negation, b0
|
||
|
LAB_2AD9
|
||
|
JSR LAB_279D ; save FAC1 sign and copy ABS(FAC2) to FAC1
|
||
|
TYA ; copy sign back ..
|
||
|
PHA ; .. and save it
|
||
|
JSR LAB_LOG ; do LOG(n)
|
||
|
LDA #<garb_l ; set pointer low byte
|
||
|
LDY #>garb_l ; set pointer high byte
|
||
|
JSR LAB_25FB ; do convert AY, FCA1*(AY) (square the value)
|
||
|
JSR LAB_EXP ; go do EXP(n)
|
||
|
PLA ; pull sign from stack
|
||
|
LSR ; b0 is to be tested, shift to Cb
|
||
|
BCC LAB_2AF9 ; if no bit then exit
|
||
|
|
||
|
; Perform negation
|
||
|
; do - FAC1
|
||
|
|
||
|
LAB_GTHAN
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_2AF9 ; exit if FAC1_e = $00
|
||
|
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
EOR #$FF ; complement it
|
||
|
STA FAC1_s ; save FAC1 sign (b7)
|
||
|
LAB_2AF9
|
||
|
RTS
|
||
|
|
||
|
; perform EXP() (x^e)
|
||
|
|
||
|
LAB_EXP
|
||
|
LDA #<LAB_2AFA ; set 1.443 pointer low byte
|
||
|
LDY #>LAB_2AFA ; set 1.443 pointer high byte
|
||
|
JSR LAB_25FB ; do convert AY, FCA1*(AY)
|
||
|
LDA FAC1_r ; get FAC1 rounding byte
|
||
|
ADC #$50 ; +$50/$100
|
||
|
BCC LAB_2B2B ; skip rounding if no carry
|
||
|
|
||
|
JSR LAB_27C2 ; round FAC1 (no check)
|
||
|
LAB_2B2B
|
||
|
STA FAC2_r ; save FAC2 rounding byte
|
||
|
JSR LAB_27AE ; copy FAC1 to FAC2
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
CMP #$88 ; compare with EXP limit (256d)
|
||
|
BCC LAB_2B39 ; branch if less
|
||
|
|
||
|
LAB_2B36
|
||
|
JSR LAB_2690 ; handle overflow and underflow
|
||
|
LAB_2B39
|
||
|
JSR LAB_INT ; perform INT
|
||
|
LDA Temp3 ; get mantissa 3 from INT() function
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$81 ; normalise +1
|
||
|
BEQ LAB_2B36 ; if $00 go handle overflow
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
SBC #$01 ; now correct for exponent
|
||
|
PHA ; save FAC2 exponent
|
||
|
|
||
|
; swap FAC1 and FAC2
|
||
|
LDX #$04 ; 4 bytes to do
|
||
|
LAB_2B49
|
||
|
LDA FAC2_e,X ; get FAC2,X
|
||
|
LDY FAC1_e,X ; get FAC1,X
|
||
|
STA FAC1_e,X ; save FAC1,X
|
||
|
STY FAC2_e,X ; save FAC2,X
|
||
|
DEX ; decrement count/index
|
||
|
BPL LAB_2B49 ; loop if not all done
|
||
|
|
||
|
LDA FAC2_r ; get FAC2 rounding byte
|
||
|
STA FAC1_r ; save as FAC1 rounding byte
|
||
|
JSR LAB_SUBTRACT ; perform subtraction, FAC2 from FAC1
|
||
|
JSR LAB_GTHAN ; do - FAC1
|
||
|
LDA #<LAB_2AFE ; set counter pointer low byte
|
||
|
LDY #>LAB_2AFE ; set counter pointer high byte
|
||
|
JSR LAB_2B84 ; go do series evaluation
|
||
|
LDA #$00 ; clear A
|
||
|
STA FAC_sc ; clear sign compare (FAC1 EOR FAC2)
|
||
|
PLA ;.get saved FAC2 exponent
|
||
|
JMP LAB_2675 ; test and adjust accumulators and return
|
||
|
|
||
|
; ^2 then series evaluation
|
||
|
|
||
|
LAB_2B6E
|
||
|
STA Cptrl ; save count pointer low byte
|
||
|
STY Cptrh ; save count pointer high byte
|
||
|
JSR LAB_276E ; pack FAC1 into Adatal
|
||
|
LDA #<Adatal ; set pointer low byte (Y already $00)
|
||
|
JSR LAB_25FB ; do convert AY, FCA1*(AY)
|
||
|
JSR LAB_2B88 ; go do series evaluation
|
||
|
LDA #<Adatal ; pointer to original # low byte
|
||
|
LDY #>Adatal ; pointer to original # high byte
|
||
|
JMP LAB_25FB ; do convert AY, FCA1*(AY) and return
|
||
|
|
||
|
; series evaluation
|
||
|
|
||
|
LAB_2B84
|
||
|
STA Cptrl ; save count pointer low byte
|
||
|
STY Cptrh ; save count pointer high byte
|
||
|
LAB_2B88
|
||
|
LDX #<numexp ; set pointer low byte
|
||
|
JSR LAB_2770 ; set pointer high byte and pack FAC1 into numexp
|
||
|
LDA (Cptrl),Y ; get constants count
|
||
|
STA numcon ; save constants count
|
||
|
LDY Cptrl ; get count pointer low byte
|
||
|
INY ; increment it (now constants pointer)
|
||
|
TYA ; copy it
|
||
|
BNE LAB_2B97 ; skip next if no overflow
|
||
|
|
||
|
INC Cptrh ; else increment high byte
|
||
|
LAB_2B97
|
||
|
STA Cptrl ; save low byte
|
||
|
LDY Cptrh ; get high byte
|
||
|
LAB_2B9B
|
||
|
JSR LAB_25FB ; do convert AY, FCA1*(AY)
|
||
|
LDA Cptrl ; get constants pointer low byte
|
||
|
LDY Cptrh ; get constants pointer high byte
|
||
|
CLC ; clear carry for add
|
||
|
ADC #$04 ; +4 to low pointer (4 bytes per constant)
|
||
|
BCC LAB_2BA8 ; skip next if no overflow
|
||
|
|
||
|
INY ; increment high byte
|
||
|
LAB_2BA8
|
||
|
STA Cptrl ; save pointer low byte
|
||
|
STY Cptrh ; save pointer high byte
|
||
|
JSR LAB_246C ; add (AY) to FAC1
|
||
|
LDA #<numexp ; set pointer low byte to partial @ numexp
|
||
|
LDY #>numexp ; set pointer high byte to partial @ numexp
|
||
|
DEC numcon ; decrement constants count
|
||
|
BNE LAB_2B9B ; loop until all done
|
||
|
|
||
|
RTS
|
||
|
|
||
|
; RND(n), 32 bit Galoise version. make n=0 for 19th next number in sequence or n<>0
|
||
|
; to get 19th next number in sequence after seed n. This version of the PRNG uses
|
||
|
; the Galois method and a sample of 65536 bytes produced gives the following values.
|
||
|
|
||
|
; Entropy = 7.997442 bits per byte
|
||
|
; Optimum compression would reduce these 65536 bytes by 0 percent
|
||
|
|
||
|
; Chi square distribution for 65536 samples is 232.01, and
|
||
|
; randomly would exceed this value 75.00 percent of the time
|
||
|
|
||
|
; Arithmetic mean value of data bytes is 127.6724, 127.5 would be random
|
||
|
; Monte Carlo value for Pi is 3.122871269, error 0.60 percent
|
||
|
; Serial correlation coefficient is -0.000370, totally uncorrelated would be 0.0
|
||
|
|
||
|
LAB_RND
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ NextPRN ; do next random # if zero
|
||
|
|
||
|
; else get seed into random number store
|
||
|
LDX #Rbyte4 ; set PRNG pointer low byte
|
||
|
LDY #$00 ; set PRNG pointer high byte
|
||
|
JSR LAB_2778 ; pack FAC1 into (XY)
|
||
|
NextPRN
|
||
|
LDX #$AF ; set EOR byte
|
||
|
LDY #$13 ; do this nineteen times
|
||
|
LoopPRN
|
||
|
ASL Rbyte1 ; shift PRNG most significant byte
|
||
|
ROL Rbyte2 ; shift PRNG middle byte
|
||
|
ROL Rbyte3 ; shift PRNG least significant byte
|
||
|
ROL Rbyte4 ; shift PRNG extra byte
|
||
|
BCC Ninc1 ; branch if bit 32 clear
|
||
|
|
||
|
TXA ; set EOR byte
|
||
|
EOR Rbyte1 ; EOR PRNG extra byte
|
||
|
STA Rbyte1 ; save new PRNG extra byte
|
||
|
Ninc1
|
||
|
DEY ; decrement loop count
|
||
|
BNE LoopPRN ; loop if not all done
|
||
|
|
||
|
LDX #$02 ; three bytes to copy
|
||
|
CopyPRNG
|
||
|
LDA Rbyte1,X ; get PRNG byte
|
||
|
STA FAC1_1,X ; save FAC1 byte
|
||
|
DEX
|
||
|
BPL CopyPRNG ; loop if not complete
|
||
|
|
||
|
LDA #$80 ; set the exponent
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
|
||
|
ASL ; clear A
|
||
|
STA FAC1_s ; save FAC1 sign
|
||
|
|
||
|
JMP LAB_24D5 ; normalise FAC1 and return
|
||
|
|
||
|
; perform COS()
|
||
|
|
||
|
LAB_COS
|
||
|
LDA #<LAB_2C78 ; set (pi/2) pointer low byte
|
||
|
LDY #>LAB_2C78 ; set (pi/2) pointer high byte
|
||
|
JSR LAB_246C ; add (AY) to FAC1
|
||
|
|
||
|
; perform SIN()
|
||
|
|
||
|
LAB_SIN
|
||
|
JSR LAB_27AB ; round and copy FAC1 to FAC2
|
||
|
LDA #<LAB_2C7C ; set (2*pi) pointer low byte
|
||
|
LDY #>LAB_2C7C ; set (2*pi) pointer high byte
|
||
|
LDX FAC2_s ; get FAC2 sign (b7)
|
||
|
JSR LAB_26C2 ; divide by (AY) (X=sign)
|
||
|
JSR LAB_27AB ; round and copy FAC1 to FAC2
|
||
|
JSR LAB_INT ; perform INT
|
||
|
LDA #$00 ; clear byte
|
||
|
STA FAC_sc ; clear sign compare (FAC1 EOR FAC2)
|
||
|
JSR LAB_SUBTRACT ; perform subtraction, FAC2 from FAC1
|
||
|
LDA #<LAB_2C80 ; set 0.25 pointer low byte
|
||
|
LDY #>LAB_2C80 ; set 0.25 pointer high byte
|
||
|
JSR LAB_2455 ; perform subtraction, (AY) from FAC1
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
PHA ; save FAC1 sign
|
||
|
BPL LAB_2C35 ; branch if +ve
|
||
|
|
||
|
; FAC1 sign was -ve
|
||
|
JSR LAB_244E ; add 0.5 to FAC1
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
BMI LAB_2C38 ; branch if -ve
|
||
|
|
||
|
LDA Cflag ; get comparison evaluation flag
|
||
|
EOR #$FF ; toggle flag
|
||
|
STA Cflag ; save comparison evaluation flag
|
||
|
LAB_2C35
|
||
|
JSR LAB_GTHAN ; do - FAC1
|
||
|
LAB_2C38
|
||
|
LDA #<LAB_2C80 ; set 0.25 pointer low byte
|
||
|
LDY #>LAB_2C80 ; set 0.25 pointer high byte
|
||
|
JSR LAB_246C ; add (AY) to FAC1
|
||
|
PLA ; restore FAC1 sign
|
||
|
BPL LAB_2C45 ; branch if was +ve
|
||
|
|
||
|
; else correct FAC1
|
||
|
JSR LAB_GTHAN ; do - FAC1
|
||
|
LAB_2C45
|
||
|
LDA #<LAB_2C84 ; set pointer low byte to counter
|
||
|
LDY #>LAB_2C84 ; set pointer high byte to counter
|
||
|
JMP LAB_2B6E ; ^2 then series evaluation and return
|
||
|
|
||
|
; perform TAN()
|
||
|
|
||
|
LAB_TAN
|
||
|
JSR LAB_276E ; pack FAC1 into Adatal
|
||
|
LDA #$00 ; clear byte
|
||
|
STA Cflag ; clear comparison evaluation flag
|
||
|
JSR LAB_SIN ; go do SIN(n)
|
||
|
LDX #<func_l ; set sin(n) pointer low byte
|
||
|
LDY #>func_l ; set sin(n) pointer high byte
|
||
|
JSR LAB_2778 ; pack FAC1 into (XY)
|
||
|
LDA #<Adatal ; set n pointer low addr
|
||
|
LDY #>Adatal ; set n pointer high addr
|
||
|
JSR LAB_UFAC ; unpack memory (AY) into FAC1
|
||
|
LDA #$00 ; clear byte
|
||
|
STA FAC1_s ; clear FAC1 sign (b7)
|
||
|
LDA Cflag ; get comparison evaluation flag
|
||
|
JSR LAB_2C74 ; save flag and go do series evaluation
|
||
|
|
||
|
LDA #<func_l ; set sin(n) pointer low byte
|
||
|
LDY #>func_l ; set sin(n) pointer high byte
|
||
|
JMP LAB_26CA ; convert AY and do (AY)/FAC1
|
||
|
|
||
|
LAB_2C74
|
||
|
PHA ; save comparison evaluation flag
|
||
|
JMP LAB_2C35 ; go do series evaluation
|
||
|
|
||
|
; perform USR()
|
||
|
|
||
|
LAB_USR
|
||
|
JSR Usrjmp ; call user code
|
||
|
JMP LAB_1BFB ; scan for ")", else do syntax error then warm start
|
||
|
|
||
|
; perform ATN()
|
||
|
|
||
|
LAB_ATN
|
||
|
LDA FAC1_s ; get FAC1 sign (b7)
|
||
|
PHA ; save sign
|
||
|
BPL LAB_2CA1 ; branch if +ve
|
||
|
|
||
|
JSR LAB_GTHAN ; else do - FAC1
|
||
|
LAB_2CA1
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
PHA ; push exponent
|
||
|
CMP #$81 ; compare with 1
|
||
|
BCC LAB_2CAF ; branch if FAC1<1
|
||
|
|
||
|
LDA #<LAB_259C ; set 1 pointer low byte
|
||
|
LDY #>LAB_259C ; set 1 pointer high byte
|
||
|
JSR LAB_26CA ; convert AY and do (AY)/FAC1
|
||
|
LAB_2CAF
|
||
|
LDA #<LAB_2CC9 ; set pointer low byte to counter
|
||
|
LDY #>LAB_2CC9 ; set pointer high byte to counter
|
||
|
JSR LAB_2B6E ; ^2 then series evaluation
|
||
|
PLA ; restore old FAC1 exponent
|
||
|
CMP #$81 ; compare with 1
|
||
|
BCC LAB_2CC2 ; branch if FAC1<1
|
||
|
|
||
|
LDA #<LAB_2C78 ; set (pi/2) pointer low byte
|
||
|
LDY #>LAB_2C78 ; set (pi/2) pointer high byte
|
||
|
JSR LAB_2455 ; perform subtraction, (AY) from FAC1
|
||
|
LAB_2CC2
|
||
|
PLA ; restore FAC1 sign
|
||
|
BPL LAB_2D04 ; exit if was +ve
|
||
|
|
||
|
JMP LAB_GTHAN ; else do - FAC1 and return
|
||
|
|
||
|
; perform BITSET
|
||
|
|
||
|
LAB_BITSET
|
||
|
JSR LAB_GADB ; get two parameters for POKE or WAIT
|
||
|
CPX #$08 ; only 0 to 7 are allowed
|
||
|
BCS FCError ; branch if > 7
|
||
|
|
||
|
LDA #$00 ; clear A
|
||
|
SEC ; set the carry
|
||
|
S_Bits
|
||
|
ROL ; shift bit
|
||
|
DEX ; decrement bit number
|
||
|
BPL S_Bits ; loop if still +ve
|
||
|
|
||
|
INX ; make X = $00
|
||
|
ORA (Itempl,X) ; or with byte via temporary integer (addr)
|
||
|
STA (Itempl,X) ; save byte via temporary integer (addr)
|
||
|
LAB_2D04
|
||
|
RTS
|
||
|
|
||
|
; perform BITCLR
|
||
|
|
||
|
LAB_BITCLR
|
||
|
JSR LAB_GADB ; get two parameters for POKE or WAIT
|
||
|
CPX #$08 ; only 0 to 7 are allowed
|
||
|
BCS FCError ; branch if > 7
|
||
|
|
||
|
LDA #$FF ; set A
|
||
|
S_Bitc
|
||
|
ROL ; shift bit
|
||
|
DEX ; decrement bit number
|
||
|
BPL S_Bitc ; loop if still +ve
|
||
|
|
||
|
INX ; make X = $00
|
||
|
AND (Itempl,X) ; and with byte via temporary integer (addr)
|
||
|
STA (Itempl,X) ; save byte via temporary integer (addr)
|
||
|
RTS
|
||
|
|
||
|
FCError
|
||
|
JMP LAB_FCER ; do function call error then warm start
|
||
|
|
||
|
; perform BITTST()
|
||
|
|
||
|
LAB_BTST
|
||
|
JSR LAB_IGBY ; increment BASIC pointer
|
||
|
JSR LAB_GADB ; get two parameters for POKE or WAIT
|
||
|
CPX #$08 ; only 0 to 7 are allowed
|
||
|
BCS FCError ; branch if > 7
|
||
|
|
||
|
JSR LAB_GBYT ; get next BASIC byte
|
||
|
CMP #')' ; is next character ")"
|
||
|
BEQ TST_OK ; if ")" go do rest of function
|
||
|
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
TST_OK
|
||
|
JSR LAB_IGBY ; update BASIC execute pointer (to character past ")")
|
||
|
LDA #$00 ; clear A
|
||
|
SEC ; set the carry
|
||
|
T_Bits
|
||
|
ROL ; shift bit
|
||
|
DEX ; decrement bit number
|
||
|
BPL T_Bits ; loop if still +ve
|
||
|
|
||
|
INX ; make X = $00
|
||
|
AND (Itempl,X) ; AND with byte via temporary integer (addr)
|
||
|
BEQ LAB_NOTT ; branch if zero (already correct)
|
||
|
|
||
|
LDA #$FF ; set for -1 result
|
||
|
LAB_NOTT
|
||
|
JMP LAB_27DB ; go do SGN tail
|
||
|
|
||
|
; perform BIN$()
|
||
|
|
||
|
LAB_BINS
|
||
|
CPX #$19 ; max + 1
|
||
|
BCS BinFErr ; exit if too big ( > or = )
|
||
|
|
||
|
STX TempB ; save # of characters ($00 = leading zero remove)
|
||
|
LDA #$18 ; need A byte long space
|
||
|
JSR LAB_MSSP ; make string space A bytes long
|
||
|
LDY #$17 ; set index
|
||
|
LDX #$18 ; character count
|
||
|
NextB1
|
||
|
LSR nums_1 ; shift highest byte
|
||
|
ROR nums_2 ; shift middle byte
|
||
|
ROR nums_3 ; shift lowest byte bit 0 to carry
|
||
|
TXA ; load with "0"/2
|
||
|
ROL ; shift in carry
|
||
|
STA (str_pl),Y ; save to temp string + index
|
||
|
DEY ; decrement index
|
||
|
BPL NextB1 ; loop if not done
|
||
|
|
||
|
LDA TempB ; get # of characters
|
||
|
BEQ EndBHS ; branch if truncate
|
||
|
|
||
|
TAX ; copy length to X
|
||
|
SEC ; set carry for add !
|
||
|
EOR #$FF ; 1's complement
|
||
|
ADC #$18 ; add 24d
|
||
|
BEQ GoPr2 ; if zero print whole string
|
||
|
|
||
|
BNE GoPr1 ; else go make output string
|
||
|
|
||
|
; this is the exit code and is also used by HEX$()
|
||
|
; truncate string to remove leading "0"s
|
||
|
|
||
|
EndBHS
|
||
|
TAY ; clear index (A=0, X=length here)
|
||
|
NextB2
|
||
|
LDA (str_pl),Y ; get character from string
|
||
|
CMP #'0' ; compare with "0"
|
||
|
BNE GoPr ; if not "0" then go print string from here
|
||
|
|
||
|
DEX ; decrement character count
|
||
|
BEQ GoPr3 ; if zero then end of string so go print it
|
||
|
|
||
|
INY ; else increment index
|
||
|
BPL NextB2 ; loop always
|
||
|
|
||
|
; make fixed length output string - ignore overflows!
|
||
|
|
||
|
GoPr3
|
||
|
INX ; need at least 1 character
|
||
|
GoPr
|
||
|
TYA ; copy result
|
||
|
GoPr1
|
||
|
CLC ; clear carry for add
|
||
|
ADC str_pl ; add low address
|
||
|
STA str_pl ; save low address
|
||
|
LDA #$00 ; do high byte
|
||
|
ADC str_ph ; add high address
|
||
|
STA str_ph ; save high address
|
||
|
GoPr2
|
||
|
STX str_ln ; X holds string length
|
||
|
JSR LAB_IGBY ; update BASIC execute pointer (to character past ")")
|
||
|
JMP LAB_RTST ; check for space on descriptor stack then put address
|
||
|
; and length on descriptor stack and update stack pointers
|
||
|
|
||
|
BinFErr
|
||
|
JMP LAB_FCER ; do function call error then warm start
|
||
|
|
||
|
; perform HEX$()
|
||
|
|
||
|
LAB_HEXS
|
||
|
CPX #$07 ; max + 1
|
||
|
BCS BinFErr ; exit if too big ( > or = )
|
||
|
|
||
|
STX TempB ; save # of characters
|
||
|
|
||
|
LDA #$06 ; need 6 bytes for string
|
||
|
JSR LAB_MSSP ; make string space A bytes long
|
||
|
LDY #$05 ; set string index
|
||
|
|
||
|
SED ; need decimal mode for nibble convert
|
||
|
LDA nums_3 ; get lowest byte
|
||
|
JSR LAB_A2HX ; convert A to ASCII hex byte and output
|
||
|
LDA nums_2 ; get middle byte
|
||
|
JSR LAB_A2HX ; convert A to ASCII hex byte and output
|
||
|
LDA nums_1 ; get highest byte
|
||
|
JSR LAB_A2HX ; convert A to ASCII hex byte and output
|
||
|
CLD ; back to binary
|
||
|
|
||
|
LDX #$06 ; character count
|
||
|
LDA TempB ; get # of characters
|
||
|
BEQ EndBHS ; branch if truncate
|
||
|
|
||
|
TAX ; copy length to X
|
||
|
SEC ; set carry for add !
|
||
|
EOR #$FF ; 1's complement
|
||
|
ADC #$06 ; add 6d
|
||
|
BEQ GoPr2 ; if zero print whole string
|
||
|
|
||
|
BNE GoPr1 ; else go make output string (branch always)
|
||
|
|
||
|
; convert A to ASCII hex byte and output .. note set decimal mode before calling
|
||
|
|
||
|
LAB_A2HX
|
||
|
TAX ; save byte
|
||
|
AND #$0F ; mask off top bits
|
||
|
JSR LAB_AL2X ; convert low nibble to ASCII and output
|
||
|
TXA ; get byte back
|
||
|
LSR ; /2 shift high nibble to low nibble
|
||
|
LSR ; /4
|
||
|
LSR ; /8
|
||
|
LSR ; /16
|
||
|
LAB_AL2X
|
||
|
CMP #$0A ; set carry for +1 if >9
|
||
|
ADC #'0' ; add ASCII "0"
|
||
|
STA (str_pl),Y ; save to temp string
|
||
|
DEY ; decrement counter
|
||
|
RTS
|
||
|
|
||
|
LAB_NLTO
|
||
|
STA FAC1_e ; save FAC1 exponent
|
||
|
LDA #$00 ; clear sign compare
|
||
|
LAB_MLTE
|
||
|
STA FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
TXA ; restore character
|
||
|
JSR LAB_2912 ; evaluate new ASCII digit
|
||
|
|
||
|
; gets here if the first character was "$" for hex
|
||
|
; get hex number
|
||
|
|
||
|
LAB_CHEX
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
BCC LAB_ISHN ; branch if numeric character
|
||
|
|
||
|
ORA #$20 ; case convert, allow "A" to "F" and "a" to "f"
|
||
|
SBC #'a' ; subtract "a" (carry set here)
|
||
|
CMP #$06 ; compare normalised with $06 (max+1)
|
||
|
BCS LAB_EXCH ; exit if >"f" or <"0"
|
||
|
|
||
|
ADC #$0A ; convert to nibble
|
||
|
LAB_ISHN
|
||
|
AND #$0F ; convert to binary
|
||
|
TAX ; save nibble
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_MLTE ; skip multiply if zero
|
||
|
|
||
|
ADC #$04 ; add four to exponent (*16 - carry clear here)
|
||
|
BCC LAB_NLTO ; if no overflow do evaluate digit
|
||
|
|
||
|
LAB_MLTO
|
||
|
JMP LAB_2564 ; do overflow error and warm start
|
||
|
|
||
|
LAB_NXCH
|
||
|
TAX ; save bit
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
BEQ LAB_MLBT ; skip multiply if zero
|
||
|
|
||
|
INC FAC1_e ; increment FAC1 exponent (*2)
|
||
|
BEQ LAB_MLTO ; do overflow error if = $00
|
||
|
|
||
|
LDA #$00 ; clear sign compare
|
||
|
LAB_MLBT
|
||
|
STA FAC_sc ; save sign compare (FAC1 EOR FAC2)
|
||
|
TXA ; restore bit
|
||
|
JSR LAB_2912 ; evaluate new ASCII digit
|
||
|
|
||
|
; gets here if the first character was "%" for binary
|
||
|
; get binary number
|
||
|
|
||
|
LAB_CBIN
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
EOR #'0' ; convert "0" to 0 etc.
|
||
|
CMP #$02 ; compare with max+1
|
||
|
BCC LAB_NXCH ; branch exit if < 2
|
||
|
|
||
|
LAB_EXCH
|
||
|
JMP LAB_28F6 ; evaluate -ve flag and return
|
||
|
|
||
|
; ctrl-c check routine. includes limited "life" byte save for INGET routine
|
||
|
; now also the code that checks to see if an interrupt has occurred
|
||
|
|
||
|
CTRLC
|
||
|
LDA ccflag ; get [CTRL-C] check flag
|
||
|
BNE LAB_FBA2 ; exit if inhibited
|
||
|
|
||
|
JSR V_INPT ; scan input device
|
||
|
BCC LAB_FBA0 ; exit if buffer empty
|
||
|
|
||
|
STA ccbyte ; save received byte
|
||
|
LDX #$20 ; "life" timer for bytes
|
||
|
STX ccnull ; set countdown
|
||
|
JMP LAB_1636 ; return to BASIC
|
||
|
|
||
|
LAB_FBA0
|
||
|
LDX ccnull ; get countdown byte
|
||
|
BEQ LAB_FBA2 ; exit if finished
|
||
|
|
||
|
DEC ccnull ; else decrement countdown
|
||
|
LAB_FBA2
|
||
|
LDX #NmiBase ; set pointer to NMI values
|
||
|
JSR LAB_CKIN ; go check interrupt
|
||
|
LDX #IrqBase ; set pointer to IRQ values
|
||
|
JSR LAB_CKIN ; go check interrupt
|
||
|
LAB_CRTS
|
||
|
RTS
|
||
|
|
||
|
; check whichever interrupt is indexed by X
|
||
|
|
||
|
LAB_CKIN
|
||
|
LDA PLUS_0,X ; get interrupt flag byte
|
||
|
BPL LAB_CRTS ; branch if interrupt not enabled
|
||
|
|
||
|
; we disable the interrupt here and make two new commands RETIRQ and RETNMI to
|
||
|
; automatically enable the interrupt when we exit
|
||
|
|
||
|
ASL ; move happened bit to setup bit
|
||
|
AND #$40 ; mask happened bits
|
||
|
BEQ LAB_CRTS ; if no interrupt then exit
|
||
|
|
||
|
STA PLUS_0,X ; save interrupt flag byte
|
||
|
|
||
|
TXA ; copy index ..
|
||
|
TAY ; .. to Y
|
||
|
|
||
|
PLA ; dump return address low byte, call from CTRL-C
|
||
|
PLA ; dump return address high byte
|
||
|
|
||
|
LDA #$05 ; need 5 bytes for GOSUB
|
||
|
JSR LAB_1212 ; check room on stack for A bytes
|
||
|
LDA Bpntrh ; get BASIC execute pointer high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Bpntrl ; get BASIC execute pointer low byte
|
||
|
PHA ; push on stack
|
||
|
LDA Clineh ; get current line high byte
|
||
|
PHA ; push on stack
|
||
|
LDA Clinel ; get current line low byte
|
||
|
PHA ; push on stack
|
||
|
LDA #TK_GOSUB ; token for GOSUB
|
||
|
PHA ; push on stack
|
||
|
|
||
|
LDA PLUS_1,Y ; get interrupt code pointer low byte
|
||
|
STA Bpntrl ; save as BASIC execute pointer low byte
|
||
|
LDA PLUS_2,Y ; get interrupt code pointer high byte
|
||
|
STA Bpntrh ; save as BASIC execute pointer high byte
|
||
|
|
||
|
JMP LAB_15C2 ; go do interpreter inner loop
|
||
|
; can't RTS, we used the stack! the RTS from the ctrl-c
|
||
|
; check will be taken when the RETIRQ/RETNMI/RETURN is
|
||
|
; executed at the end of the subroutine
|
||
|
|
||
|
; get byte from input device, no waiting
|
||
|
; returns with carry set if byte in A
|
||
|
|
||
|
INGET
|
||
|
JSR V_INPT ; call scan input device
|
||
|
BCS LAB_FB95 ; if byte go reset timer
|
||
|
|
||
|
LDA ccnull ; get countdown
|
||
|
BEQ LAB_FB96 ; exit if empty
|
||
|
|
||
|
LDA ccbyte ; get last received byte
|
||
|
SEC ; flag we got a byte
|
||
|
LAB_FB95
|
||
|
LDX #$00 ; clear X
|
||
|
STX ccnull ; clear timer because we got a byte
|
||
|
LAB_FB96
|
||
|
RTS
|
||
|
|
||
|
; these routines only enable the interrupts if the set-up flag is set
|
||
|
; if not they have no effect
|
||
|
|
||
|
; perform IRQ {ON|OFF|CLEAR}
|
||
|
|
||
|
LAB_IRQ
|
||
|
LDX #IrqBase ; set pointer to IRQ values
|
||
|
.byte $2C ; make next line BIT abs.
|
||
|
|
||
|
; perform NMI {ON|OFF|CLEAR}
|
||
|
|
||
|
LAB_NMI
|
||
|
LDX #NmiBase ; set pointer to NMI values
|
||
|
CMP #TK_ON ; compare with token for ON
|
||
|
BEQ LAB_INON ; go turn on interrupt
|
||
|
|
||
|
CMP #TK_OFF ; compare with token for OFF
|
||
|
BEQ LAB_IOFF ; go turn off interrupt
|
||
|
|
||
|
EOR #TK_CLEAR ; compare with token for CLEAR, A = $00 if = TK_CLEAR
|
||
|
BEQ LAB_INEX ; go clear interrupt flags and return
|
||
|
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
LAB_IOFF
|
||
|
LDA #$7F ; clear A
|
||
|
AND PLUS_0,X ; AND with interrupt setup flag
|
||
|
BPL LAB_INEX ; go clear interrupt enabled flag and return
|
||
|
|
||
|
LAB_INON
|
||
|
LDA PLUS_0,X ; get interrupt setup flag
|
||
|
ASL ; Shift bit to enabled flag
|
||
|
ORA PLUS_0,X ; OR with flag byte
|
||
|
LAB_INEX
|
||
|
STA PLUS_0,X ; save interrupt flag byte
|
||
|
JMP LAB_IGBY ; update BASIC execute pointer and return
|
||
|
|
||
|
; these routines set up the pointers and flags for the interrupt routines
|
||
|
; note that the interrupts are also enabled by these commands
|
||
|
|
||
|
; perform ON IRQ
|
||
|
|
||
|
LAB_SIRQ
|
||
|
CLI ; enable interrupts
|
||
|
LDX #IrqBase ; set pointer to IRQ values
|
||
|
.byte $2C ; make next line BIT abs.
|
||
|
|
||
|
; perform ON NMI
|
||
|
|
||
|
LAB_SNMI
|
||
|
LDX #NmiBase ; set pointer to NMI values
|
||
|
|
||
|
STX TempB ; save interrupt pointer
|
||
|
JSR LAB_IGBY ; increment and scan memory (past token)
|
||
|
JSR LAB_GFPN ; get fixed-point number into temp integer
|
||
|
LDA Smeml ; get start of mem low byte
|
||
|
LDX Smemh ; get start of mem high byte
|
||
|
JSR LAB_SHLN ; search Basic for temp integer line number from AX
|
||
|
BCS LAB_LFND ; if carry set go set-up interrupt
|
||
|
|
||
|
JMP LAB_16F7 ; else go do "Undefined statement" error and warm start
|
||
|
|
||
|
LAB_LFND
|
||
|
LDX TempB ; get interrupt pointer
|
||
|
LDA Baslnl ; get pointer low byte
|
||
|
SBC #$01 ; -1 (carry already set for subtract)
|
||
|
STA PLUS_1,X ; save as interrupt pointer low byte
|
||
|
LDA Baslnh ; get pointer high byte
|
||
|
SBC #$00 ; subtract carry
|
||
|
STA PLUS_2,X ; save as interrupt pointer high byte
|
||
|
|
||
|
LDA #$C0 ; set interrupt enabled/setup bits
|
||
|
STA PLUS_0,X ; set interrupt flags
|
||
|
LAB_IRTS
|
||
|
RTS
|
||
|
|
||
|
; return from IRQ service, restores the enabled flag.
|
||
|
|
||
|
; perform RETIRQ
|
||
|
|
||
|
LAB_RETIRQ
|
||
|
BNE LAB_IRTS ; exit if following token (to allow syntax error)
|
||
|
|
||
|
LDA IrqBase ; get interrupt flags
|
||
|
ASL ; copy setup to enabled (b7)
|
||
|
ORA IrqBase ; OR in setup flag
|
||
|
STA IrqBase ; save enabled flag
|
||
|
JMP LAB_16E8 ; go do rest of RETURN
|
||
|
|
||
|
; return from NMI service, restores the enabled flag.
|
||
|
|
||
|
; perform RETNMI
|
||
|
|
||
|
LAB_RETNMI
|
||
|
BNE LAB_IRTS ; exit if following token (to allow syntax error)
|
||
|
|
||
|
LDA NmiBase ; get set-up flag
|
||
|
ASL ; copy setup to enabled (b7)
|
||
|
ORA NmiBase ; OR in setup flag
|
||
|
STA NmiBase ; save enabled flag
|
||
|
JMP LAB_16E8 ; go do rest of RETURN
|
||
|
|
||
|
; MAX() MIN() pre process
|
||
|
|
||
|
LAB_MMPP
|
||
|
JSR LAB_EVEZ ; process expression
|
||
|
JMP LAB_CTNM ; check if source is numeric, else do type mismatch
|
||
|
|
||
|
; perform MAX()
|
||
|
|
||
|
LAB_MAX
|
||
|
JSR LAB_PHFA ; push FAC1, evaluate expression,
|
||
|
; pull FAC2 and compare with FAC1
|
||
|
BPL LAB_MAX ; branch if no swap to do
|
||
|
|
||
|
LDA FAC2_1 ; get FAC2 mantissa1
|
||
|
ORA #$80 ; set top bit (clear sign from compare)
|
||
|
STA FAC2_1 ; save FAC2 mantissa1
|
||
|
JSR LAB_279B ; copy FAC2 to FAC1
|
||
|
BEQ LAB_MAX ; go do next (branch always)
|
||
|
|
||
|
; perform MIN()
|
||
|
|
||
|
LAB_MIN
|
||
|
JSR LAB_PHFA ; push FAC1, evaluate expression,
|
||
|
; pull FAC2 and compare with FAC1
|
||
|
BMI LAB_MIN ; branch if no swap to do
|
||
|
|
||
|
BEQ LAB_MIN ; branch if no swap to do
|
||
|
|
||
|
LDA FAC2_1 ; get FAC2 mantissa1
|
||
|
ORA #$80 ; set top bit (clear sign from compare)
|
||
|
STA FAC2_1 ; save FAC2 mantissa1
|
||
|
JSR LAB_279B ; copy FAC2 to FAC1
|
||
|
BEQ LAB_MIN ; go do next (branch always)
|
||
|
|
||
|
; exit routine. don't bother returning to the loop code
|
||
|
; check for correct exit, else so syntax error
|
||
|
|
||
|
LAB_MMEC
|
||
|
CMP #')' ; is it end of function?
|
||
|
BNE LAB_MMSE ; if not do MAX MIN syntax error
|
||
|
|
||
|
PLA ; dump return address low byte
|
||
|
PLA ; dump return address high byte
|
||
|
JMP LAB_IGBY ; update BASIC execute pointer (to chr past ")")
|
||
|
|
||
|
LAB_MMSE
|
||
|
JMP LAB_SNER ; do syntax error then warm start
|
||
|
|
||
|
; check for next, evaluate and return or exit
|
||
|
; this is the routine that does most of the work
|
||
|
|
||
|
LAB_PHFA
|
||
|
JSR LAB_GBYT ; get next BASIC byte
|
||
|
CMP #',' ; is there more ?
|
||
|
BNE LAB_MMEC ; if not go do end check
|
||
|
|
||
|
; push FAC1
|
||
|
JSR LAB_27BA ; round FAC1
|
||
|
LDA FAC1_s ; get FAC1 sign
|
||
|
ORA #$7F ; set all non sign bits
|
||
|
AND FAC1_1 ; AND FAC1 mantissa1 (AND in sign bit)
|
||
|
PHA ; push on stack
|
||
|
LDA FAC1_2 ; get FAC1 mantissa2
|
||
|
PHA ; push on stack
|
||
|
LDA FAC1_3 ; get FAC1 mantissa3
|
||
|
PHA ; push on stack
|
||
|
LDA FAC1_e ; get FAC1 exponent
|
||
|
PHA ; push on stack
|
||
|
|
||
|
JSR LAB_IGBY ; scan and get next BASIC byte (after ",")
|
||
|
JSR LAB_EVNM ; evaluate expression and check is numeric,
|
||
|
; else do type mismatch
|
||
|
|
||
|
; pop FAC2 (MAX/MIN expression so far)
|
||
|
PLA ; pop exponent
|
||
|
STA FAC2_e ; save FAC2 exponent
|
||
|
PLA ; pop mantissa3
|
||
|
STA FAC2_3 ; save FAC2 mantissa3
|
||
|
PLA ; pop mantissa1
|
||
|
STA FAC2_2 ; save FAC2 mantissa2
|
||
|
PLA ; pop sign/mantissa1
|
||
|
STA FAC2_1 ; save FAC2 sign/mantissa1
|
||
|
STA FAC2_s ; save FAC2 sign
|
||
|
|
||
|
; compare FAC1 with (packed) FAC2
|
||
|
LDA #<FAC2_e ; set pointer low byte to FAC2
|
||
|
LDY #>FAC2_e ; set pointer high byte to FAC2
|
||
|
JMP LAB_27F8 ; compare FAC1 with FAC2 (AY) and return
|
||
|
; returns A=$00 if FAC1 = (AY)
|
||
|
; returns A=$01 if FAC1 > (AY)
|
||
|
; returns A=$FF if FAC1 < (AY)
|
||
|
|
||
|
; perform WIDTH
|
||
|
|
||
|
LAB_WDTH
|
||
|
CMP #',' ; is next byte ","
|
||
|
BEQ LAB_TBSZ ; if so do tab size
|
||
|
|
||
|
JSR LAB_GTBY ; get byte parameter
|
||
|
TXA ; copy width to A
|
||
|
BEQ LAB_NSTT ; branch if set for infinite line
|
||
|
|
||
|
CPX #$10 ; else make min width = 16d
|
||
|
BCC TabErr ; if less do function call error and exit
|
||
|
|
||
|
; this next compare ensures that we can't exit WIDTH via an error leaving the
|
||
|
; tab size greater than the line length.
|
||
|
|
||
|
CPX TabSiz ; compare with tab size
|
||
|
BCS LAB_NSTT ; branch if >= tab size
|
||
|
|
||
|
STX TabSiz ; else make tab size = terminal width
|
||
|
LAB_NSTT
|
||
|
STX TWidth ; set the terminal width
|
||
|
JSR LAB_GBYT ; get BASIC byte back
|
||
|
BEQ WExit ; exit if no following
|
||
|
|
||
|
CMP #',' ; else is it ","
|
||
|
BNE LAB_MMSE ; if not do syntax error
|
||
|
|
||
|
LAB_TBSZ
|
||
|
JSR LAB_SGBY ; scan and get byte parameter
|
||
|
TXA ; copy TAB size
|
||
|
BMI TabErr ; if >127 do function call error and exit
|
||
|
|
||
|
CPX #$01 ; compare with min-1
|
||
|
BCC TabErr ; if <=1 do function call error and exit
|
||
|
|
||
|
LDA TWidth ; set flags for width
|
||
|
BEQ LAB_SVTB ; skip check if infinite line
|
||
|
|
||
|
CPX TWidth ; compare TAB with width
|
||
|
BEQ LAB_SVTB ; ok if =
|
||
|
|
||
|
BCS TabErr ; branch if too big
|
||
|
|
||
|
LAB_SVTB
|
||
|
STX TabSiz ; save TAB size
|
||
|
|
||
|
; calculate tab column limit from TAB size. The Iclim is set to the last tab
|
||
|
; position on a line that still has at least one whole tab width between it
|
||
|
; and the end of the line.
|
||
|
|
||
|
WExit
|
||
|
LDA TWidth ; get width
|
||
|
BEQ LAB_SULP ; branch if infinite line
|
||
|
|
||
|
CMP TabSiz ; compare with tab size
|
||
|
BCS LAB_WDLP ; branch if >= tab size
|
||
|
|
||
|
STA TabSiz ; else make tab size = terminal width
|
||
|
LAB_SULP
|
||
|
SEC ; set carry for subtract
|
||
|
LAB_WDLP
|
||
|
SBC TabSiz ; subtract tab size
|
||
|
BCS LAB_WDLP ; loop while no borrow
|
||
|
|
||
|
ADC TabSiz ; add tab size back
|
||
|
CLC ; clear carry for add
|
||
|
ADC TabSiz ; add tab size back again
|
||
|
STA Iclim ; save for now
|
||
|
LDA TWidth ; get width back
|
||
|
SEC ; set carry for subtract
|
||
|
SBC Iclim ; subtract remainder
|
||
|
STA Iclim ; save tab column limit
|
||
|
LAB_NOSQ
|
||
|
RTS
|
||
|
|
||
|
TabErr
|
||
|
JMP LAB_FCER ; do function call error then warm start
|
||
|
|
||
|
; perform SQR()
|
||
|
|
||
|
LAB_SQR
|
||
|
LDA FAC1_s ; get FAC1 sign
|
||
|
BMI TabErr ; if -ve do function call error
|
||
|
|
||
|
LDA FAC1_e ; get exponent
|
||
|
BEQ LAB_NOSQ ; if zero just return
|
||
|
|
||
|
; else do root
|
||
|
JSR LAB_27AB ; round and copy FAC1 to FAC2
|
||
|
LDA #$00 ; clear A
|
||
|
|
||
|
STA FACt_3 ; clear remainder
|
||
|
STA FACt_2 ; ..
|
||
|
STA FACt_1 ; ..
|
||
|
STA TempB ; ..
|
||
|
|
||
|
STA FAC1_3 ; clear root
|
||
|
STA FAC1_2 ; ..
|
||
|
STA FAC1_1 ; ..
|
||
|
|
||
|
LDX #$18 ; 24 pairs of bits to do
|
||
|
LDA FAC2_e ; get exponent
|
||
|
LSR ; check odd/even
|
||
|
BCS LAB_SQE2 ; if odd only 1 shift first time
|
||
|
|
||
|
LAB_SQE1
|
||
|
ASL FAC2_3 ; shift highest bit of number ..
|
||
|
ROL FAC2_2 ; ..
|
||
|
ROL FAC2_1 ; ..
|
||
|
ROL FACt_3 ; .. into remainder
|
||
|
ROL FACt_2 ; ..
|
||
|
ROL FACt_1 ; ..
|
||
|
ROL TempB ; .. never overflows
|
||
|
LAB_SQE2
|
||
|
ASL FAC2_3 ; shift highest bit of number ..
|
||
|
ROL FAC2_2 ; ..
|
||
|
ROL FAC2_1 ; ..
|
||
|
ROL FACt_3 ; .. into remainder
|
||
|
ROL FACt_2 ; ..
|
||
|
ROL FACt_1 ; ..
|
||
|
ROL TempB ; .. never overflows
|
||
|
|
||
|
ASL FAC1_3 ; root = root * 2
|
||
|
ROL FAC1_2 ; ..
|
||
|
ROL FAC1_1 ; .. never overflows
|
||
|
|
||
|
LDA FAC1_3 ; get root low byte
|
||
|
ROL ; *2
|
||
|
STA Temp3 ; save partial low byte
|
||
|
LDA FAC1_2 ; get root low mid byte
|
||
|
ROL ; *2
|
||
|
STA Temp3+1 ; save partial low mid byte
|
||
|
LDA FAC1_1 ; get root high mid byte
|
||
|
ROL ; *2
|
||
|
STA Temp3+2 ; save partial high mid byte
|
||
|
LDA #$00 ; get root high byte (always $00)
|
||
|
ROL ; *2
|
||
|
STA Temp3+3 ; save partial high byte
|
||
|
|
||
|
; carry clear for subtract +1
|
||
|
LDA FACt_3 ; get remainder low byte
|
||
|
SBC Temp3 ; subtract partial low byte
|
||
|
STA Temp3 ; save partial low byte
|
||
|
|
||
|
LDA FACt_2 ; get remainder low mid byte
|
||
|
SBC Temp3+1 ; subtract partial low mid byte
|
||
|
STA Temp3+1 ; save partial low mid byte
|
||
|
|
||
|
LDA FACt_1 ; get remainder high mid byte
|
||
|
SBC Temp3+2 ; subtract partial high mid byte
|
||
|
TAY ; copy partial high mid byte
|
||
|
|
||
|
LDA TempB ; get remainder high byte
|
||
|
SBC Temp3+3 ; subtract partial high byte
|
||
|
BCC LAB_SQNS ; skip sub if remainder smaller
|
||
|
|
||
|
STA TempB ; save remainder high byte
|
||
|
|
||
|
STY FACt_1 ; save remainder high mid byte
|
||
|
|
||
|
LDA Temp3+1 ; get remainder low mid byte
|
||
|
STA FACt_2 ; save remainder low mid byte
|
||
|
|
||
|
LDA Temp3 ; get partial low byte
|
||
|
STA FACt_3 ; save remainder low byte
|
||
|
|
||
|
INC FAC1_3 ; increment root low byte (never any rollover)
|
||
|
LAB_SQNS
|
||
|
DEX ; decrement bit pair count
|
||
|
BNE LAB_SQE1 ; loop if not all done
|
||
|
|
||
|
SEC ; set carry for subtract
|
||
|
LDA FAC2_e ; get exponent
|
||
|
SBC #$80 ; normalise
|
||
|
ROR ; /2 and re-bias to $80
|
||
|
ADC #$00 ; add bit zero back in (allow for half shift)
|
||
|
STA FAC1_e ; save it
|
||
|
JMP LAB_24D5 ; normalise FAC1 and return
|
||
|
|
||
|
; perform VARPTR()
|
||
|
|
||
|
LAB_VARPTR
|
||
|
JSR LAB_IGBY ; increment and scan memory
|
||
|
JSR LAB_GVAR ; get var address
|
||
|
JSR LAB_1BFB ; scan for ")" , else do syntax error then warm start
|
||
|
LDY Cvaral ; get var address low byte
|
||
|
LDA Cvarah ; get var address high byte
|
||
|
JMP LAB_AYFC ; save and convert integer AY to FAC1 and return
|
||
|
|
||
|
; perform PI
|
||
|
|
||
|
LAB_PI
|
||
|
LDA #<LAB_2C7C ; set (2*pi) pointer low byte
|
||
|
LDY #>LAB_2C7C ; set (2*pi) pointer high byte
|
||
|
JSR LAB_UFAC ; unpack memory (AY) into FAC1
|
||
|
DEC FAC1_e ; make result = PI
|
||
|
RTS
|
||
|
|
||
|
; perform TWOPI
|
||
|
|
||
|
LAB_TWOPI
|
||
|
LDA #<LAB_2C7C ; set (2*pi) pointer low byte
|
||
|
LDY #>LAB_2C7C ; set (2*pi) pointer high byte
|
||
|
JMP LAB_UFAC ; unpack memory (AY) into FAC1 and return
|
||
|
|
||
|
; system dependant i/o vectors
|
||
|
; these are in RAM and are set by the monitor at start-up
|
||
|
|
||
|
V_INPT
|
||
|
JMP (VEC_IN) ; non halting scan input device
|
||
|
V_OUTP
|
||
|
JMP (VEC_OUT) ; send byte to output device
|
||
|
V_LOAD
|
||
|
JMP (VEC_LD) ; load BASIC program
|
||
|
V_SAVE
|
||
|
JMP (VEC_SV) ; save BASIC program
|
||
|
|
||
|
; The rest are tables messages and code for RAM
|
||
|
|
||
|
; the rest of the code is tables and BASIC start-up code
|
||
|
|
||
|
PG2_TABS
|
||
|
.byte $00 ; ctrl-c flag - $00 = enabled
|
||
|
.byte $00 ; ctrl-c byte - GET needs this
|
||
|
.byte $00 ; ctrl-c byte timeout - GET needs this
|
||
|
.word CTRLC ; ctrl c check vector
|
||
|
; .word xxxx ; non halting key input - monitor to set this
|
||
|
; .word xxxx ; output vector - monitor to set this
|
||
|
; .word xxxx ; load vector - monitor to set this
|
||
|
; .word xxxx ; save vector - monitor to set this
|
||
|
PG2_TABE
|
||
|
|
||
|
; character get subroutine for zero page
|
||
|
|
||
|
; For a 1.8432MHz 6502 including the JSR and RTS
|
||
|
; fastest (>=":") = 29 cycles = 15.7uS
|
||
|
; slowest (<":") = 40 cycles = 21.7uS
|
||
|
; space skip = +21 cycles = +11.4uS
|
||
|
; inc across page = +4 cycles = +2.2uS
|
||
|
|
||
|
; the target address for the LDA at LAB_2CF4 becomes the BASIC execute pointer once the
|
||
|
; block is copied to it's destination, any non zero page address will do at assembly
|
||
|
; time, to assemble a three byte instruction.
|
||
|
|
||
|
; page 0 initialisation table from $BC
|
||
|
; increment and scan memory
|
||
|
|
||
|
LAB_2CEE
|
||
|
INC Bpntrl ; increment BASIC execute pointer low byte
|
||
|
BNE LAB_2CF4 ; branch if no carry
|
||
|
; else
|
||
|
INC Bpntrh ; increment BASIC execute pointer high byte
|
||
|
|
||
|
; page 0 initialisation table from $C2
|
||
|
; scan memory
|
||
|
|
||
|
LAB_2CF4
|
||
|
LDA $FFFF ; get byte to scan (addr set by call routine)
|
||
|
CMP #TK_ELSE ; compare with the token for ELSE
|
||
|
BEQ LAB_2D05 ; exit if ELSE, not numeric, carry set
|
||
|
|
||
|
CMP #':' ; compare with ":"
|
||
|
BCS LAB_2D05 ; exit if >= ":", not numeric, carry set
|
||
|
|
||
|
CMP #' ' ; compare with " "
|
||
|
BEQ LAB_2CEE ; if " " go do next
|
||
|
|
||
|
SEC ; set carry for SBC
|
||
|
SBC #'0' ; subtract "0"
|
||
|
SEC ; set carry for SBC
|
||
|
SBC #$D0 ; subtract -"0"
|
||
|
; clear carry if byte = "0"-"9"
|
||
|
LAB_2D05
|
||
|
RTS
|
||
|
|
||
|
; page zero initialisation table $00-$12 inclusive
|
||
|
|
||
|
StrTab
|
||
|
.byte $4C ; JMP opcode
|
||
|
.word LAB_COLD ; initial warm start vector (cold start)
|
||
|
|
||
|
.byte $00 ; these bytes are not used by BASIC
|
||
|
.word $0000 ;
|
||
|
.word $0000 ;
|
||
|
.word $0000 ;
|
||
|
|
||
|
.byte $4C ; JMP opcode
|
||
|
.word LAB_FCER ; initial user function vector ("Function call" error)
|
||
|
.byte $00 ; default NULL count
|
||
|
.byte $00 ; clear terminal position
|
||
|
.byte $00 ; default terminal width byte
|
||
|
.byte $F2 ; default limit for TAB = 14
|
||
|
.word Ram_base ; start of user RAM
|
||
|
EndTab
|
||
|
|
||
|
LAB_MSZM
|
||
|
.byte $0D,$0A,"Memory size ",$00
|
||
|
|
||
|
LAB_SMSG
|
||
|
.byte " Bytes free",$0D,$0A,$0A
|
||
|
.byte "Enhanced BASIC 2.22",$0A,$00
|
||
|
|
||
|
; numeric constants and series
|
||
|
|
||
|
; constants and series for LOG(n)
|
||
|
LAB_25A0
|
||
|
.byte $02 ; counter
|
||
|
.byte $80,$19,$56,$62 ; 0.59898
|
||
|
.byte $80,$76,$22,$F3 ; 0.96147
|
||
|
;## .byte $80,$76,$22,$F1 ; 0.96147
|
||
|
.byte $82,$38,$AA,$40 ; 2.88539
|
||
|
;## .byte $82,$38,$AA,$45 ; 2.88539
|
||
|
|
||
|
LAB_25AD
|
||
|
.byte $80,$35,$04,$F3 ; 0.70711 1/root 2
|
||
|
LAB_25B1
|
||
|
.byte $81,$35,$04,$F3 ; 1.41421 root 2
|
||
|
LAB_25B5
|
||
|
.byte $80,$80,$00,$00 ; -0.5
|
||
|
LAB_25B9
|
||
|
.byte $80,$31,$72,$18 ; 0.69315 LOG(2)
|
||
|
|
||
|
; numeric PRINT constants
|
||
|
LAB_2947
|
||
|
.byte $91,$43,$4F,$F8 ; 99999.9375 (max value with at least one decimal)
|
||
|
LAB_294B
|
||
|
.byte $94,$74,$23,$F7 ; 999999.4375 (max value before scientific notation)
|
||
|
LAB_294F
|
||
|
.byte $94,$74,$24,$00 ; 1000000
|
||
|
|
||
|
; EXP(n) constants and series
|
||
|
LAB_2AFA
|
||
|
.byte $81,$38,$AA,$3B ; 1.4427 (1/LOG base 2 e)
|
||
|
LAB_2AFE
|
||
|
.byte $06 ; counter
|
||
|
.byte $74,$63,$90,$8C ; 2.17023e-4
|
||
|
.byte $77,$23,$0C,$AB ; 0.00124
|
||
|
.byte $7A,$1E,$94,$00 ; 0.00968
|
||
|
.byte $7C,$63,$42,$80 ; 0.05548
|
||
|
.byte $7E,$75,$FE,$D0 ; 0.24023
|
||
|
.byte $80,$31,$72,$15 ; 0.69315
|
||
|
.byte $81,$00,$00,$00 ; 1.00000
|
||
|
|
||
|
;## .byte $07 ; counter
|
||
|
;## .byte $74,$94,$2E,$40 ; -1/7! (-1/5040)
|
||
|
;## .byte $77,$2E,$4F,$70 ; 1/6! ( 1/720)
|
||
|
;## .byte $7A,$88,$02,$6E ; -1/5! (-1/120)
|
||
|
;## .byte $7C,$2A,$A0,$E6 ; 1/4! ( 1/24)
|
||
|
;## .byte $7E,$AA,$AA,$50 ; -1/3! (-1/6)
|
||
|
;## .byte $7F,$7F,$FF,$FF ; 1/2! ( 1/2)
|
||
|
;## .byte $81,$80,$00,$00 ; -1/1! (-1/1)
|
||
|
;## .byte $81,$00,$00,$00 ; 1/0! ( 1/1)
|
||
|
|
||
|
; trigonometric constants and series
|
||
|
LAB_2C78
|
||
|
.byte $81,$49,$0F,$DB ; 1.570796371 (pi/2) as floating #
|
||
|
LAB_2C84
|
||
|
.byte $04 ; counter
|
||
|
.byte $86,$1E,$D7,$FB ; 39.7109
|
||
|
;## .byte $86,$1E,$D7,$BA ; 39.7109
|
||
|
.byte $87,$99,$26,$65 ;-76.575
|
||
|
;## .byte $87,$99,$26,$64 ;-76.575
|
||
|
.byte $87,$23,$34,$58 ; 81.6022
|
||
|
.byte $86,$A5,$5D,$E1 ;-41.3417
|
||
|
;## .byte $86,$A5,$5D,$E0 ;-41.3417
|
||
|
LAB_2C7C
|
||
|
.byte $83,$49,$0F,$DB ; 6.28319 (2*pi) as floating #
|
||
|
;## .byte $83,$49,$0F,$DA ; 6.28319 (2*pi) as floating #
|
||
|
|
||
|
LAB_2CC9
|
||
|
.byte $08 ; counter
|
||
|
.byte $78,$3A,$C5,$37 ; 0.00285
|
||
|
.byte $7B,$83,$A2,$5C ;-0.0160686
|
||
|
.byte $7C,$2E,$DD,$4D ; 0.0426915
|
||
|
.byte $7D,$99,$B0,$1E ;-0.0750429
|
||
|
.byte $7D,$59,$ED,$24 ; 0.106409
|
||
|
.byte $7E,$91,$72,$00 ;-0.142036
|
||
|
.byte $7E,$4C,$B9,$73 ; 0.199926
|
||
|
.byte $7F,$AA,$AA,$53 ;-0.333331
|
||
|
|
||
|
;## .byte $08 ; counter
|
||
|
;## .byte $78,$3B,$D7,$4A ; 1/17
|
||
|
;## .byte $7B,$84,$6E,$02 ;-1/15
|
||
|
;## .byte $7C,$2F,$C1,$FE ; 1/13
|
||
|
;## .byte $7D,$9A,$31,$74 ;-1/11
|
||
|
;## .byte $7D,$5A,$3D,$84 ; 1/9
|
||
|
;## .byte $7E,$91,$7F,$C8 ;-1/7
|
||
|
;## .byte $7E,$4C,$BB,$E4 ; 1/5
|
||
|
;## .byte $7F,$AA,$AA,$6C ;-1/3
|
||
|
|
||
|
LAB_1D96 = *+1 ; $00,$00 used for undefined variables
|
||
|
LAB_259C
|
||
|
.byte $81,$00,$00,$00 ; 1.000000, used for INC
|
||
|
LAB_2AFD
|
||
|
.byte $81,$80,$00,$00 ; -1.00000, used for DEC. must be on the same page as +1.00
|
||
|
|
||
|
; misc constants
|
||
|
LAB_1DF7
|
||
|
.byte $90 ;-32768 (uses first three bytes from 0.5)
|
||
|
LAB_2A96
|
||
|
.byte $80,$00,$00,$00 ; 0.5
|
||
|
LAB_2C80
|
||
|
.byte $7F,$00,$00,$00 ; 0.25
|
||
|
LAB_26B5
|
||
|
.byte $84,$20,$00,$00 ; 10.0000 divide by 10 constant
|
||
|
|
||
|
; This table is used in converting numbers to ASCII.
|
||
|
|
||
|
LAB_2A9A
|
||
|
LAB_2A9B = LAB_2A9A+1
|
||
|
LAB_2A9C = LAB_2A9B+1
|
||
|
.byte $FE,$79,$60 ; -100000
|
||
|
.byte $00,$27,$10 ; 10000
|
||
|
.byte $FF,$FC,$18 ; -1000
|
||
|
.byte $00,$00,$64 ; 100
|
||
|
.byte $FF,$FF,$F6 ; -10
|
||
|
.byte $00,$00,$01 ; 1
|
||
|
|
||
|
LAB_CTBL
|
||
|
.word LAB_END-1 ; END
|
||
|
.word LAB_FOR-1 ; FOR
|
||
|
.word LAB_NEXT-1 ; NEXT
|
||
|
.word LAB_DATA-1 ; DATA
|
||
|
.word LAB_INPUT-1 ; INPUT
|
||
|
.word LAB_DIM-1 ; DIM
|
||
|
.word LAB_READ-1 ; READ
|
||
|
.word LAB_LET-1 ; LET
|
||
|
.word LAB_DEC-1 ; DEC new command
|
||
|
.word LAB_GOTO-1 ; GOTO
|
||
|
.word LAB_RUN-1 ; RUN
|
||
|
.word LAB_IF-1 ; IF
|
||
|
.word LAB_RESTORE-1 ; RESTORE modified command
|
||
|
.word LAB_GOSUB-1 ; GOSUB
|
||
|
.word LAB_RETIRQ-1 ; RETIRQ new command
|
||
|
.word LAB_RETNMI-1 ; RETNMI new command
|
||
|
.word LAB_RETURN-1 ; RETURN
|
||
|
.word LAB_REM-1 ; REM
|
||
|
.word LAB_STOP-1 ; STOP
|
||
|
.word LAB_ON-1 ; ON modified command
|
||
|
.word LAB_NULL-1 ; NULL modified command
|
||
|
.word LAB_INC-1 ; INC new command
|
||
|
.word LAB_WAIT-1 ; WAIT
|
||
|
.word V_LOAD-1 ; LOAD
|
||
|
.word V_SAVE-1 ; SAVE
|
||
|
.word LAB_DEF-1 ; DEF
|
||
|
.word LAB_POKE-1 ; POKE
|
||
|
.word LAB_DOKE-1 ; DOKE new command
|
||
|
.word LAB_CALL-1 ; CALL new command
|
||
|
.word LAB_DO-1 ; DO new command
|
||
|
.word LAB_LOOP-1 ; LOOP new command
|
||
|
.word LAB_PRINT-1 ; PRINT
|
||
|
.word LAB_CONT-1 ; CONT
|
||
|
.word LAB_LIST-1 ; LIST
|
||
|
.word LAB_CLEAR-1 ; CLEAR
|
||
|
.word LAB_NEW-1 ; NEW
|
||
|
.word LAB_WDTH-1 ; WIDTH new command
|
||
|
.word LAB_GET-1 ; GET new command
|
||
|
.word LAB_SWAP-1 ; SWAP new command
|
||
|
.word LAB_BITSET-1 ; BITSET new command
|
||
|
.word LAB_BITCLR-1 ; BITCLR new command
|
||
|
.word LAB_IRQ-1 ; IRQ new command
|
||
|
.word LAB_NMI-1 ; NMI new command
|
||
|
|
||
|
; function pre process routine table
|
||
|
|
||
|
LAB_FTPL
|
||
|
LAB_FTPM = LAB_FTPL+$01
|
||
|
.word LAB_PPFN-1 ; SGN(n) process numeric expression in ()
|
||
|
.word LAB_PPFN-1 ; INT(n) "
|
||
|
.word LAB_PPFN-1 ; ABS(n) "
|
||
|
.word LAB_EVEZ-1 ; USR(x) process any expression
|
||
|
.word LAB_1BF7-1 ; FRE(x) "
|
||
|
.word LAB_1BF7-1 ; POS(x) "
|
||
|
.word LAB_PPFN-1 ; SQR(n) process numeric expression in ()
|
||
|
.word LAB_PPFN-1 ; RND(n) "
|
||
|
.word LAB_PPFN-1 ; LOG(n) "
|
||
|
.word LAB_PPFN-1 ; EXP(n) "
|
||
|
.word LAB_PPFN-1 ; COS(n) "
|
||
|
.word LAB_PPFN-1 ; SIN(n) "
|
||
|
.word LAB_PPFN-1 ; TAN(n) "
|
||
|
.word LAB_PPFN-1 ; ATN(n) "
|
||
|
.word LAB_PPFN-1 ; PEEK(n) "
|
||
|
.word LAB_PPFN-1 ; DEEK(n) "
|
||
|
.word $0000 ; SADD() none
|
||
|
.word LAB_PPFS-1 ; LEN($) process string expression in ()
|
||
|
.word LAB_PPFN-1 ; STR$(n) process numeric expression in ()
|
||
|
.word LAB_PPFS-1 ; VAL($) process string expression in ()
|
||
|
.word LAB_PPFS-1 ; ASC($) "
|
||
|
.word LAB_PPFS-1 ; UCASE$($) "
|
||
|
.word LAB_PPFS-1 ; LCASE$($) "
|
||
|
.word LAB_PPFN-1 ; CHR$(n) process numeric expression in ()
|
||
|
.word LAB_BHSS-1 ; HEX$(n) "
|
||
|
.word LAB_BHSS-1 ; BIN$(n) "
|
||
|
.word $0000 ; BITTST() none
|
||
|
.word LAB_MMPP-1 ; MAX() process numeric expression
|
||
|
.word LAB_MMPP-1 ; MIN() "
|
||
|
.word LAB_PPBI-1 ; PI advance pointer
|
||
|
.word LAB_PPBI-1 ; TWOPI "
|
||
|
.word $0000 ; VARPTR() none
|
||
|
.word LAB_LRMS-1 ; LEFT$() process string expression
|
||
|
.word LAB_LRMS-1 ; RIGHT$() "
|
||
|
.word LAB_LRMS-1 ; MID$() "
|
||
|
|
||
|
; action addresses for functions
|
||
|
|
||
|
LAB_FTBL
|
||
|
LAB_FTBM = LAB_FTBL+$01
|
||
|
.word LAB_SGN-1 ; SGN()
|
||
|
.word LAB_INT-1 ; INT()
|
||
|
.word LAB_ABS-1 ; ABS()
|
||
|
.word LAB_USR-1 ; USR()
|
||
|
.word LAB_FRE-1 ; FRE()
|
||
|
.word LAB_POS-1 ; POS()
|
||
|
.word LAB_SQR-1 ; SQR()
|
||
|
.word LAB_RND-1 ; RND() modified function
|
||
|
.word LAB_LOG-1 ; LOG()
|
||
|
.word LAB_EXP-1 ; EXP()
|
||
|
.word LAB_COS-1 ; COS()
|
||
|
.word LAB_SIN-1 ; SIN()
|
||
|
.word LAB_TAN-1 ; TAN()
|
||
|
.word LAB_ATN-1 ; ATN()
|
||
|
.word LAB_PEEK-1 ; PEEK()
|
||
|
.word LAB_DEEK-1 ; DEEK() new function
|
||
|
.word LAB_SADD-1 ; SADD() new function
|
||
|
.word LAB_LENS-1 ; LEN()
|
||
|
.word LAB_STRS-1 ; STR$()
|
||
|
.word LAB_VAL-1 ; VAL()
|
||
|
.word LAB_ASC-1 ; ASC()
|
||
|
.word LAB_UCASE-1 ; UCASE$() new function
|
||
|
.word LAB_LCASE-1 ; LCASE$() new function
|
||
|
.word LAB_CHRS-1 ; CHR$()
|
||
|
.word LAB_HEXS-1 ; HEX$() new function
|
||
|
.word LAB_BINS-1 ; BIN$() new function
|
||
|
.word LAB_BTST-1 ; BITTST() new function
|
||
|
.word LAB_MAX-1 ; MAX() new function
|
||
|
.word LAB_MIN-1 ; MIN() new function
|
||
|
.word LAB_PI-1 ; PI new function
|
||
|
.word LAB_TWOPI-1 ; TWOPI new function
|
||
|
.word LAB_VARPTR-1 ; VARPTR() new function
|
||
|
.word LAB_LEFT-1 ; LEFT$()
|
||
|
.word LAB_RIGHT-1 ; RIGHT$()
|
||
|
.word LAB_MIDS-1 ; MID$()
|
||
|
|
||
|
; hierarchy and action addresses for operator
|
||
|
|
||
|
LAB_OPPT
|
||
|
.byte $79 ; +
|
||
|
.word LAB_ADD-1
|
||
|
.byte $79 ; -
|
||
|
.word LAB_SUBTRACT-1
|
||
|
.byte $7B ; *
|
||
|
.word LAB_MULTIPLY-1
|
||
|
.byte $7B ; /
|
||
|
.word LAB_DIVIDE-1
|
||
|
.byte $7F ; ^
|
||
|
.word LAB_POWER-1
|
||
|
.byte $50 ; AND
|
||
|
.word LAB_AND-1
|
||
|
.byte $46 ; EOR new operator
|
||
|
.word LAB_EOR-1
|
||
|
.byte $46 ; OR
|
||
|
.word LAB_OR-1
|
||
|
.byte $56 ; >> new operator
|
||
|
.word LAB_RSHIFT-1
|
||
|
.byte $56 ; << new operator
|
||
|
.word LAB_LSHIFT-1
|
||
|
.byte $7D ; >
|
||
|
.word LAB_GTHAN-1
|
||
|
.byte $5A ; =
|
||
|
.word LAB_EQUAL-1
|
||
|
.byte $64 ; <
|
||
|
.word LAB_LTHAN-1
|
||
|
|
||
|
; keywords start with ..
|
||
|
; this is the first character table and must be in alphabetic order
|
||
|
|
||
|
TAB_1STC
|
||
|
.byte "*"
|
||
|
.byte "+"
|
||
|
.byte "-"
|
||
|
.byte "/"
|
||
|
.byte "<"
|
||
|
.byte "="
|
||
|
.byte ">"
|
||
|
.byte "?"
|
||
|
.byte "A"
|
||
|
.byte "B"
|
||
|
.byte "C"
|
||
|
.byte "D"
|
||
|
.byte "E"
|
||
|
.byte "F"
|
||
|
.byte "G"
|
||
|
.byte "H"
|
||
|
.byte "I"
|
||
|
.byte "L"
|
||
|
.byte "M"
|
||
|
.byte "N"
|
||
|
.byte "O"
|
||
|
.byte "P"
|
||
|
.byte "R"
|
||
|
.byte "S"
|
||
|
.byte "T"
|
||
|
.byte "U"
|
||
|
.byte "V"
|
||
|
.byte "W"
|
||
|
.byte "^"
|
||
|
.byte $00 ; table terminator
|
||
|
|
||
|
; pointers to keyword tables
|
||
|
|
||
|
TAB_CHRT
|
||
|
.word TAB_STAR ; table for "*"
|
||
|
.word TAB_PLUS ; table for "+"
|
||
|
.word TAB_MNUS ; table for "-"
|
||
|
.word TAB_SLAS ; table for "/"
|
||
|
.word TAB_LESS ; table for "<"
|
||
|
.word TAB_EQUL ; table for "="
|
||
|
.word TAB_MORE ; table for ">"
|
||
|
.word TAB_QEST ; table for "?"
|
||
|
.word TAB_ASCA ; table for "A"
|
||
|
.word TAB_ASCB ; table for "B"
|
||
|
.word TAB_ASCC ; table for "C"
|
||
|
.word TAB_ASCD ; table for "D"
|
||
|
.word TAB_ASCE ; table for "E"
|
||
|
.word TAB_ASCF ; table for "F"
|
||
|
.word TAB_ASCG ; table for "G"
|
||
|
.word TAB_ASCH ; table for "H"
|
||
|
.word TAB_ASCI ; table for "I"
|
||
|
.word TAB_ASCL ; table for "L"
|
||
|
.word TAB_ASCM ; table for "M"
|
||
|
.word TAB_ASCN ; table for "N"
|
||
|
.word TAB_ASCO ; table for "O"
|
||
|
.word TAB_ASCP ; table for "P"
|
||
|
.word TAB_ASCR ; table for "R"
|
||
|
.word TAB_ASCS ; table for "S"
|
||
|
.word TAB_ASCT ; table for "T"
|
||
|
.word TAB_ASCU ; table for "U"
|
||
|
.word TAB_ASCV ; table for "V"
|
||
|
.word TAB_ASCW ; table for "W"
|
||
|
.word TAB_POWR ; table for "^"
|
||
|
|
||
|
; tables for each start character, note if a longer keyword with the same start
|
||
|
; letters as a shorter one exists then it must come first, else the list is in
|
||
|
; alphabetical order as follows ..
|
||
|
|
||
|
; [keyword,token
|
||
|
; [keyword,token]]
|
||
|
; end marker (#$00)
|
||
|
|
||
|
TAB_STAR
|
||
|
.byte TK_MUL,$00 ; *
|
||
|
TAB_PLUS
|
||
|
.byte TK_PLUS,$00 ; +
|
||
|
TAB_MNUS
|
||
|
.byte TK_MINUS,$00 ; -
|
||
|
TAB_SLAS
|
||
|
.byte TK_DIV,$00 ; /
|
||
|
TAB_LESS
|
||
|
LBB_LSHIFT
|
||
|
.byte "<",TK_LSHIFT ; << note - "<<" must come before "<"
|
||
|
.byte TK_LT ; <
|
||
|
.byte $00
|
||
|
TAB_EQUL
|
||
|
.byte TK_EQUAL,$00 ; =
|
||
|
TAB_MORE
|
||
|
LBB_RSHIFT
|
||
|
.byte ">",TK_RSHIFT ; >> note - ">>" must come before ">"
|
||
|
.byte TK_GT ; >
|
||
|
.byte $00
|
||
|
TAB_QEST
|
||
|
.byte TK_PRINT,$00 ; ?
|
||
|
TAB_ASCA
|
||
|
LBB_ABS
|
||
|
.byte "BS(",TK_ABS ; ABS(
|
||
|
LBB_AND
|
||
|
.byte "ND",TK_AND ; AND
|
||
|
LBB_ASC
|
||
|
.byte "SC(",TK_ASC ; ASC(
|
||
|
LBB_ATN
|
||
|
.byte "TN(",TK_ATN ; ATN(
|
||
|
.byte $00
|
||
|
TAB_ASCB
|
||
|
LBB_BINS
|
||
|
.byte "IN$(",TK_BINS ; BIN$(
|
||
|
LBB_BITCLR
|
||
|
.byte "ITCLR",TK_BITCLR ; BITCLR
|
||
|
LBB_BITSET
|
||
|
.byte "ITSET",TK_BITSET ; BITSET
|
||
|
LBB_BITTST
|
||
|
.byte "ITTST(",TK_BITTST
|
||
|
; BITTST(
|
||
|
.byte $00
|
||
|
TAB_ASCC
|
||
|
LBB_CALL
|
||
|
.byte "ALL",TK_CALL ; CALL
|
||
|
LBB_CHRS
|
||
|
.byte "HR$(",TK_CHRS ; CHR$(
|
||
|
LBB_CLEAR
|
||
|
.byte "LEAR",TK_CLEAR ; CLEAR
|
||
|
LBB_CONT
|
||
|
.byte "ONT",TK_CONT ; CONT
|
||
|
LBB_COS
|
||
|
.byte "OS(",TK_COS ; COS(
|
||
|
.byte $00
|
||
|
TAB_ASCD
|
||
|
LBB_DATA
|
||
|
.byte "ATA",TK_DATA ; DATA
|
||
|
LBB_DEC
|
||
|
.byte "EC",TK_DEC ; DEC
|
||
|
LBB_DEEK
|
||
|
.byte "EEK(",TK_DEEK ; DEEK(
|
||
|
LBB_DEF
|
||
|
.byte "EF",TK_DEF ; DEF
|
||
|
LBB_DIM
|
||
|
.byte "IM",TK_DIM ; DIM
|
||
|
LBB_DOKE
|
||
|
.byte "OKE",TK_DOKE ; DOKE note - "DOKE" must come before "DO"
|
||
|
LBB_DO
|
||
|
.byte "O",TK_DO ; DO
|
||
|
.byte $00
|
||
|
TAB_ASCE
|
||
|
LBB_ELSE
|
||
|
.byte "LSE",TK_ELSE ; ELSE
|
||
|
LBB_END
|
||
|
.byte "ND",TK_END ; END
|
||
|
LBB_EOR
|
||
|
.byte "OR",TK_EOR ; EOR
|
||
|
LBB_EXP
|
||
|
.byte "XP(",TK_EXP ; EXP(
|
||
|
.byte $00
|
||
|
TAB_ASCF
|
||
|
LBB_FN
|
||
|
.byte "N",TK_FN ; FN
|
||
|
LBB_FOR
|
||
|
.byte "OR",TK_FOR ; FOR
|
||
|
LBB_FRE
|
||
|
.byte "RE(",TK_FRE ; FRE(
|
||
|
.byte $00
|
||
|
TAB_ASCG
|
||
|
LBB_GET
|
||
|
.byte "ET",TK_GET ; GET
|
||
|
LBB_GOSUB
|
||
|
.byte "OSUB",TK_GOSUB ; GOSUB
|
||
|
LBB_GOTO
|
||
|
.byte "OTO",TK_GOTO ; GOTO
|
||
|
.byte $00
|
||
|
TAB_ASCH
|
||
|
LBB_HEXS
|
||
|
.byte "EX$(",TK_HEXS ; HEX$(
|
||
|
.byte $00
|
||
|
TAB_ASCI
|
||
|
LBB_IF
|
||
|
.byte "F",TK_IF ; IF
|
||
|
LBB_INC
|
||
|
.byte "NC",TK_INC ; INC
|
||
|
LBB_INPUT
|
||
|
.byte "NPUT",TK_INPUT ; INPUT
|
||
|
LBB_INT
|
||
|
.byte "NT(",TK_INT ; INT(
|
||
|
LBB_IRQ
|
||
|
.byte "RQ",TK_IRQ ; IRQ
|
||
|
.byte $00
|
||
|
TAB_ASCL
|
||
|
LBB_LCASES
|
||
|
.byte "CASE$(",TK_LCASES
|
||
|
; LCASE$(
|
||
|
LBB_LEFTS
|
||
|
.byte "EFT$(",TK_LEFTS ; LEFT$(
|
||
|
LBB_LEN
|
||
|
.byte "EN(",TK_LEN ; LEN(
|
||
|
LBB_LET
|
||
|
.byte "ET",TK_LET ; LET
|
||
|
LBB_LIST
|
||
|
.byte "IST",TK_LIST ; LIST
|
||
|
LBB_LOAD
|
||
|
.byte "OAD",TK_LOAD ; LOAD
|
||
|
LBB_LOG
|
||
|
.byte "OG(",TK_LOG ; LOG(
|
||
|
LBB_LOOP
|
||
|
.byte "OOP",TK_LOOP ; LOOP
|
||
|
.byte $00
|
||
|
TAB_ASCM
|
||
|
LBB_MAX
|
||
|
.byte "AX(",TK_MAX ; MAX(
|
||
|
LBB_MIDS
|
||
|
.byte "ID$(",TK_MIDS ; MID$(
|
||
|
LBB_MIN
|
||
|
.byte "IN(",TK_MIN ; MIN(
|
||
|
.byte $00
|
||
|
TAB_ASCN
|
||
|
LBB_NEW
|
||
|
.byte "EW",TK_NEW ; NEW
|
||
|
LBB_NEXT
|
||
|
.byte "EXT",TK_NEXT ; NEXT
|
||
|
LBB_NMI
|
||
|
.byte "MI",TK_NMI ; NMI
|
||
|
LBB_NOT
|
||
|
.byte "OT",TK_NOT ; NOT
|
||
|
LBB_NULL
|
||
|
.byte "ULL",TK_NULL ; NULL
|
||
|
.byte $00
|
||
|
TAB_ASCO
|
||
|
LBB_OFF
|
||
|
.byte "FF",TK_OFF ; OFF
|
||
|
LBB_ON
|
||
|
.byte "N",TK_ON ; ON
|
||
|
LBB_OR
|
||
|
.byte "R",TK_OR ; OR
|
||
|
.byte $00
|
||
|
TAB_ASCP
|
||
|
LBB_PEEK
|
||
|
.byte "EEK(",TK_PEEK ; PEEK(
|
||
|
LBB_PI
|
||
|
.byte "I",TK_PI ; PI
|
||
|
LBB_POKE
|
||
|
.byte "OKE",TK_POKE ; POKE
|
||
|
LBB_POS
|
||
|
.byte "OS(",TK_POS ; POS(
|
||
|
LBB_PRINT
|
||
|
.byte "RINT",TK_PRINT ; PRINT
|
||
|
.byte $00
|
||
|
TAB_ASCR
|
||
|
LBB_READ
|
||
|
.byte "EAD",TK_READ ; READ
|
||
|
LBB_REM
|
||
|
.byte "EM",TK_REM ; REM
|
||
|
LBB_RESTORE
|
||
|
.byte "ESTORE",TK_RESTORE
|
||
|
; RESTORE
|
||
|
LBB_RETIRQ
|
||
|
.byte "ETIRQ",TK_RETIRQ ; RETIRQ
|
||
|
LBB_RETNMI
|
||
|
.byte "ETNMI",TK_RETNMI ; RETNMI
|
||
|
LBB_RETURN
|
||
|
.byte "ETURN",TK_RETURN ; RETURN
|
||
|
LBB_RIGHTS
|
||
|
.byte "IGHT$(",TK_RIGHTS
|
||
|
; RIGHT$(
|
||
|
LBB_RND
|
||
|
.byte "ND(",TK_RND ; RND(
|
||
|
LBB_RUN
|
||
|
.byte "UN",TK_RUN ; RUN
|
||
|
.byte $00
|
||
|
TAB_ASCS
|
||
|
LBB_SADD
|
||
|
.byte "ADD(",TK_SADD ; SADD(
|
||
|
LBB_SAVE
|
||
|
.byte "AVE",TK_SAVE ; SAVE
|
||
|
LBB_SGN
|
||
|
.byte "GN(",TK_SGN ; SGN(
|
||
|
LBB_SIN
|
||
|
.byte "IN(",TK_SIN ; SIN(
|
||
|
LBB_SPC
|
||
|
.byte "PC(",TK_SPC ; SPC(
|
||
|
LBB_SQR
|
||
|
.byte "QR(",TK_SQR ; SQR(
|
||
|
LBB_STEP
|
||
|
.byte "TEP",TK_STEP ; STEP
|
||
|
LBB_STOP
|
||
|
.byte "TOP",TK_STOP ; STOP
|
||
|
LBB_STRS
|
||
|
.byte "TR$(",TK_STRS ; STR$(
|
||
|
LBB_SWAP
|
||
|
.byte "WAP",TK_SWAP ; SWAP
|
||
|
.byte $00
|
||
|
TAB_ASCT
|
||
|
LBB_TAB
|
||
|
.byte "AB(",TK_TAB ; TAB(
|
||
|
LBB_TAN
|
||
|
.byte "AN(",TK_TAN ; TAN(
|
||
|
LBB_THEN
|
||
|
.byte "HEN",TK_THEN ; THEN
|
||
|
LBB_TO
|
||
|
.byte "O",TK_TO ; TO
|
||
|
LBB_TWOPI
|
||
|
.byte "WOPI",TK_TWOPI ; TWOPI
|
||
|
.byte $00
|
||
|
TAB_ASCU
|
||
|
LBB_UCASES
|
||
|
.byte "CASE$(",TK_UCASES
|
||
|
; UCASE$(
|
||
|
LBB_UNTIL
|
||
|
.byte "NTIL",TK_UNTIL ; UNTIL
|
||
|
LBB_USR
|
||
|
.byte "SR(",TK_USR ; USR(
|
||
|
.byte $00
|
||
|
TAB_ASCV
|
||
|
LBB_VAL
|
||
|
.byte "AL(",TK_VAL ; VAL(
|
||
|
LBB_VPTR
|
||
|
.byte "ARPTR(",TK_VPTR ; VARPTR(
|
||
|
.byte $00
|
||
|
TAB_ASCW
|
||
|
LBB_WAIT
|
||
|
.byte "AIT",TK_WAIT ; WAIT
|
||
|
LBB_WHILE
|
||
|
.byte "HILE",TK_WHILE ; WHILE
|
||
|
LBB_WIDTH
|
||
|
.byte "IDTH",TK_WIDTH ; WIDTH
|
||
|
.byte $00
|
||
|
TAB_POWR
|
||
|
.byte TK_POWER,$00 ; ^
|
||
|
|
||
|
; new decode table for LIST
|
||
|
; Table is ..
|
||
|
; byte - keyword length, keyword first character
|
||
|
; word - pointer to rest of keyword from dictionary
|
||
|
|
||
|
; note if length is 1 then the pointer is ignored
|
||
|
|
||
|
LAB_KEYT
|
||
|
.byte 3,'E'
|
||
|
.word LBB_END ; END
|
||
|
.byte 3,'F'
|
||
|
.word LBB_FOR ; FOR
|
||
|
.byte 4,'N'
|
||
|
.word LBB_NEXT ; NEXT
|
||
|
.byte 4,'D'
|
||
|
.word LBB_DATA ; DATA
|
||
|
.byte 5,'I'
|
||
|
.word LBB_INPUT ; INPUT
|
||
|
.byte 3,'D'
|
||
|
.word LBB_DIM ; DIM
|
||
|
.byte 4,'R'
|
||
|
.word LBB_READ ; READ
|
||
|
.byte 3,'L'
|
||
|
.word LBB_LET ; LET
|
||
|
.byte 3,'D'
|
||
|
.word LBB_DEC ; DEC
|
||
|
.byte 4,'G'
|
||
|
.word LBB_GOTO ; GOTO
|
||
|
.byte 3,'R'
|
||
|
.word LBB_RUN ; RUN
|
||
|
.byte 2,'I'
|
||
|
.word LBB_IF ; IF
|
||
|
.byte 7,'R'
|
||
|
.word LBB_RESTORE ; RESTORE
|
||
|
.byte 5,'G'
|
||
|
.word LBB_GOSUB ; GOSUB
|
||
|
.byte 6,'R'
|
||
|
.word LBB_RETIRQ ; RETIRQ
|
||
|
.byte 6,'R'
|
||
|
.word LBB_RETNMI ; RETNMI
|
||
|
.byte 6,'R'
|
||
|
.word LBB_RETURN ; RETURN
|
||
|
.byte 3,'R'
|
||
|
.word LBB_REM ; REM
|
||
|
.byte 4,'S'
|
||
|
.word LBB_STOP ; STOP
|
||
|
.byte 2,'O'
|
||
|
.word LBB_ON ; ON
|
||
|
.byte 4,'N'
|
||
|
.word LBB_NULL ; NULL
|
||
|
.byte 3,'I'
|
||
|
.word LBB_INC ; INC
|
||
|
.byte 4,'W'
|
||
|
.word LBB_WAIT ; WAIT
|
||
|
.byte 4,'L'
|
||
|
.word LBB_LOAD ; LOAD
|
||
|
.byte 4,'S'
|
||
|
.word LBB_SAVE ; SAVE
|
||
|
.byte 3,'D'
|
||
|
.word LBB_DEF ; DEF
|
||
|
.byte 4,'P'
|
||
|
.word LBB_POKE ; POKE
|
||
|
.byte 4,'D'
|
||
|
.word LBB_DOKE ; DOKE
|
||
|
.byte 4,'C'
|
||
|
.word LBB_CALL ; CALL
|
||
|
.byte 2,'D'
|
||
|
.word LBB_DO ; DO
|
||
|
.byte 4,'L'
|
||
|
.word LBB_LOOP ; LOOP
|
||
|
.byte 5,'P'
|
||
|
.word LBB_PRINT ; PRINT
|
||
|
.byte 4,'C'
|
||
|
.word LBB_CONT ; CONT
|
||
|
.byte 4,'L'
|
||
|
.word LBB_LIST ; LIST
|
||
|
.byte 5,'C'
|
||
|
.word LBB_CLEAR ; CLEAR
|
||
|
.byte 3,'N'
|
||
|
.word LBB_NEW ; NEW
|
||
|
.byte 5,'W'
|
||
|
.word LBB_WIDTH ; WIDTH
|
||
|
.byte 3,'G'
|
||
|
.word LBB_GET ; GET
|
||
|
.byte 4,'S'
|
||
|
.word LBB_SWAP ; SWAP
|
||
|
.byte 6,'B'
|
||
|
.word LBB_BITSET ; BITSET
|
||
|
.byte 6,'B'
|
||
|
.word LBB_BITCLR ; BITCLR
|
||
|
.byte 3,'I'
|
||
|
.word LBB_IRQ ; IRQ
|
||
|
.byte 3,'N'
|
||
|
.word LBB_NMI ; NMI
|
||
|
|
||
|
; secondary commands (can't start a statement)
|
||
|
|
||
|
.byte 4,'T'
|
||
|
.word LBB_TAB ; TAB
|
||
|
.byte 4,'E'
|
||
|
.word LBB_ELSE ; ELSE
|
||
|
.byte 2,'T'
|
||
|
.word LBB_TO ; TO
|
||
|
.byte 2,'F'
|
||
|
.word LBB_FN ; FN
|
||
|
.byte 4,'S'
|
||
|
.word LBB_SPC ; SPC
|
||
|
.byte 4,'T'
|
||
|
.word LBB_THEN ; THEN
|
||
|
.byte 3,'N'
|
||
|
.word LBB_NOT ; NOT
|
||
|
.byte 4,'S'
|
||
|
.word LBB_STEP ; STEP
|
||
|
.byte 5,'U'
|
||
|
.word LBB_UNTIL ; UNTIL
|
||
|
.byte 5,'W'
|
||
|
.word LBB_WHILE ; WHILE
|
||
|
.byte 3,'O'
|
||
|
.word LBB_OFF ; OFF
|
||
|
|
||
|
; opperators
|
||
|
|
||
|
.byte 1,'+'
|
||
|
.word $0000 ; +
|
||
|
.byte 1,'-'
|
||
|
.word $0000 ; -
|
||
|
.byte 1,'*'
|
||
|
.word $0000 ; *
|
||
|
.byte 1,'/'
|
||
|
.word $0000 ; /
|
||
|
.byte 1,'^'
|
||
|
.word $0000 ; ^
|
||
|
.byte 3,'A'
|
||
|
.word LBB_AND ; AND
|
||
|
.byte 3,'E'
|
||
|
.word LBB_EOR ; EOR
|
||
|
.byte 2,'O'
|
||
|
.word LBB_OR ; OR
|
||
|
.byte 2,'>'
|
||
|
.word LBB_RSHIFT ; >>
|
||
|
.byte 2,'<'
|
||
|
.word LBB_LSHIFT ; <<
|
||
|
.byte 1,'>'
|
||
|
.word $0000 ; >
|
||
|
.byte 1,'='
|
||
|
.word $0000 ; =
|
||
|
.byte 1,'<'
|
||
|
.word $0000 ; <
|
||
|
|
||
|
; functions
|
||
|
|
||
|
.byte 4,'S' ;
|
||
|
.word LBB_SGN ; SGN
|
||
|
.byte 4,'I' ;
|
||
|
.word LBB_INT ; INT
|
||
|
.byte 4,'A' ;
|
||
|
.word LBB_ABS ; ABS
|
||
|
.byte 4,'U' ;
|
||
|
.word LBB_USR ; USR
|
||
|
.byte 4,'F' ;
|
||
|
.word LBB_FRE ; FRE
|
||
|
.byte 4,'P' ;
|
||
|
.word LBB_POS ; POS
|
||
|
.byte 4,'S' ;
|
||
|
.word LBB_SQR ; SQR
|
||
|
.byte 4,'R' ;
|
||
|
.word LBB_RND ; RND
|
||
|
.byte 4,'L' ;
|
||
|
.word LBB_LOG ; LOG
|
||
|
.byte 4,'E' ;
|
||
|
.word LBB_EXP ; EXP
|
||
|
.byte 4,'C' ;
|
||
|
.word LBB_COS ; COS
|
||
|
.byte 4,'S' ;
|
||
|
.word LBB_SIN ; SIN
|
||
|
.byte 4,'T' ;
|
||
|
.word LBB_TAN ; TAN
|
||
|
.byte 4,'A' ;
|
||
|
.word LBB_ATN ; ATN
|
||
|
.byte 5,'P' ;
|
||
|
.word LBB_PEEK ; PEEK
|
||
|
.byte 5,'D' ;
|
||
|
.word LBB_DEEK ; DEEK
|
||
|
.byte 5,'S' ;
|
||
|
.word LBB_SADD ; SADD
|
||
|
.byte 4,'L' ;
|
||
|
.word LBB_LEN ; LEN
|
||
|
.byte 5,'S' ;
|
||
|
.word LBB_STRS ; STR$
|
||
|
.byte 4,'V' ;
|
||
|
.word LBB_VAL ; VAL
|
||
|
.byte 4,'A' ;
|
||
|
.word LBB_ASC ; ASC
|
||
|
.byte 7,'U' ;
|
||
|
.word LBB_UCASES ; UCASE$
|
||
|
.byte 7,'L' ;
|
||
|
.word LBB_LCASES ; LCASE$
|
||
|
.byte 5,'C' ;
|
||
|
.word LBB_CHRS ; CHR$
|
||
|
.byte 5,'H' ;
|
||
|
.word LBB_HEXS ; HEX$
|
||
|
.byte 5,'B' ;
|
||
|
.word LBB_BINS ; BIN$
|
||
|
.byte 7,'B' ;
|
||
|
.word LBB_BITTST ; BITTST
|
||
|
.byte 4,'M' ;
|
||
|
.word LBB_MAX ; MAX
|
||
|
.byte 4,'M' ;
|
||
|
.word LBB_MIN ; MIN
|
||
|
.byte 2,'P' ;
|
||
|
.word LBB_PI ; PI
|
||
|
.byte 5,'T' ;
|
||
|
.word LBB_TWOPI ; TWOPI
|
||
|
.byte 7,'V' ;
|
||
|
.word LBB_VPTR ; VARPTR
|
||
|
.byte 6,'L' ;
|
||
|
.word LBB_LEFTS ; LEFT$
|
||
|
.byte 7,'R' ;
|
||
|
.word LBB_RIGHTS ; RIGHT$
|
||
|
.byte 5,'M' ;
|
||
|
.word LBB_MIDS ; MID$
|
||
|
|
||
|
; BASIC messages, mostly error messages
|
||
|
|
||
|
LAB_BAER
|
||
|
.word ERR_NF ;$00 NEXT without FOR
|
||
|
.word ERR_SN ;$02 syntax
|
||
|
.word ERR_RG ;$04 RETURN without GOSUB
|
||
|
.word ERR_OD ;$06 out of data
|
||
|
.word ERR_FC ;$08 function call
|
||
|
.word ERR_OV ;$0A overflow
|
||
|
.word ERR_OM ;$0C out of memory
|
||
|
.word ERR_US ;$0E undefined statement
|
||
|
.word ERR_BS ;$10 array bounds
|
||
|
.word ERR_DD ;$12 double dimension array
|
||
|
.word ERR_D0 ;$14 divide by 0
|
||
|
.word ERR_ID ;$16 illegal direct
|
||
|
.word ERR_TM ;$18 type mismatch
|
||
|
.word ERR_LS ;$1A long string
|
||
|
.word ERR_ST ;$1C string too complex
|
||
|
.word ERR_CN ;$1E continue error
|
||
|
.word ERR_UF ;$20 undefined function
|
||
|
.word ERR_LD ;$22 LOOP without DO
|
||
|
|
||
|
; I may implement these two errors to force definition of variables and
|
||
|
; dimensioning of arrays before use.
|
||
|
|
||
|
; .word ERR_UV ;$24 undefined variable
|
||
|
|
||
|
; the above error has been tested and works (see code and comments below LAB_1D8B)
|
||
|
|
||
|
; .word ERR_UA ;$26 undimensioned array
|
||
|
|
||
|
ERR_NF .byte "NEXT without FOR",$00
|
||
|
ERR_SN .byte "Syntax",$00
|
||
|
ERR_RG .byte "RETURN without GOSUB",$00
|
||
|
ERR_OD .byte "Out of DATA",$00
|
||
|
ERR_FC .byte "Function call",$00
|
||
|
ERR_OV .byte "Overflow",$00
|
||
|
ERR_OM .byte "Out of memory",$00
|
||
|
ERR_US .byte "Undefined statement",$00
|
||
|
ERR_BS .byte "Array bounds",$00
|
||
|
ERR_DD .byte "Double dimension",$00
|
||
|
ERR_D0 .byte "Divide by zero",$00
|
||
|
ERR_ID .byte "Illegal direct",$00
|
||
|
ERR_TM .byte "Type mismatch",$00
|
||
|
ERR_LS .byte "String too long",$00
|
||
|
ERR_ST .byte "String too complex",$00
|
||
|
ERR_CN .byte "Can't continue",$00
|
||
|
ERR_UF .byte "Undefined function",$00
|
||
|
ERR_LD .byte "LOOP without DO",$00
|
||
|
|
||
|
;ERR_UV .byte "Undefined variable",$00
|
||
|
|
||
|
; the above error has been tested and works (see code and comments below LAB_1D8B)
|
||
|
|
||
|
;ERR_UA .byte "Undimensioned array",$00
|
||
|
|
||
|
LAB_BMSG .byte $0D,$0A,"Break",$00
|
||
|
LAB_EMSG .byte " Error",$00
|
||
|
LAB_LMSG .byte " in line ",$00
|
||
|
LAB_RMSG .byte $0D,$0A,"Ready",$0D,$0A,$00
|
||
|
|
||
|
LAB_IMSG .byte " Extra ignored",$0D,$0A,$00
|
||
|
LAB_REDO .byte " Redo from start",$0D,$0A,$00
|
||
|
|
||
|
AA_end_basic
|