; Some Miscellaneous Equates = 0001 PATSIZ EQU $1 ; PATCH AREA SIZE = 0020 ZICB EQU $20 ; zero PageIOCB = 0080 ZPG1 EQU $80 ; beginning of BASIC's zero page = 0480 MISCR1 EQU $480 ; syntax check, etc. = 0500 MISCRAM EQU $500 ; OTHER ram USAGE = E456 CIO EQU $E456 ; in OS ROMs = 0340 IOCBORG EQU $340 ; where IOCBs start = 0300 DCBORG EQU $300 ; where DCB (for SIO) is = A000 ROM EQU $A000 ; begin code here = 00D2 ZFP EQU $D2 ; begin fltg point work area = 009B CR EQU $9B ; ATASCII end of line = 02E7 LMADR EQU $2E7 ; system lo mem = 02E5 HMADR EQU $2E5 ; system high mem = 02E5 HIMEM EQU HMADR = D800 FPORG EQU $D800 ; fltg point in OS ROMs = 0011 BRKBYT EQU $11 = 0008 WARMFL EQU $08 ; warmstart flag = D20A RNDLOC EQU $D20A ; get a random byte here = BFF9 CRTGI EQU $BFFC-3 ; cartridge init vector = 005D EPCHAR EQU $5D ; the "?" for INPUT statement = E471 BYELOC EQU $E471 ; where to go for BYE = 000A DOSLOC EQU $0A ; via here to exit to DOS = 0055 SCRX EQU $55 ; X AXIS = 0054 SCRY EQU $54 ; Y AXIS = 02C4 CREGS EQU $2C4 ; COLOR REGISTER = 02FB SVCOLOR EQU $2FB ; SAVE COLOR FOR CIO = D208 SREG1 EQU $D208 ; SOUND REG 1 = D200 SREG2 EQU $D200 ; SOUND REG 2 = D201 SREG3 EQU $D201 ; SOUND REG 3 = D20F SKCTL EQU $D20F ; sound control = 0270 GRFBAS EQU $270 ; 1ST GRAPHICS FUNCTION ADDRESS = 02FE DSPFLG EQU $2FE ; ATARI DISPLAY FLAG = 000E APHM EQU $E ; APPLICATION HIGH MEMORY ;ZERO PAGE ;RAM Table Pointers 0000 = 0080 ORG ZPG1 0080 LOMEM ; LOW MEMORY POINTER 0080 ARGSTK 0080 = 0002 OUTBUFF DS 2 ; SYNTAX OUTPUT BUFFER 0082 = 0002 VNTP DS 2 ; VARIABLE NAME POINTER 0084 = 0002 VNTD DS 2 ; VARIABLE NAME TABLE DUMMY END 0086 = 0002 VVTP DS 2 ; VARIABLE VALUE TABLE POINTER 0088 ENDVVT ; END VARIABLE VALUE TABLE 0088 = 0002 STMTAB DS 2 ; STATEMENT TABLE [PROGRAM] ; 00BA = 0002 STMCUR DS 2 ; CURRENT PGM PTR 008C = 0002 STARP DS 2 ; STRING/ARRAY TABLE POINTER 008E ENDSTAR ; END STRING/ARRAY SPACE 008E = 0002 RUNSTK DS 2 ; RUN TIME STACK 0090 TOPRSTK ; END RUN TIME STACK 0090 = 0002 MEMTOP DS 2 ; TOP OF USED MEMORY 0092 = 0001 MEOLFLG DS 1 ; MODIFIED EOL FLAG 0093 = 0001 DS 1 ; ::SPARE:: ;----------143 ;Miscelaneous Zero Page RAM ; USED FOR FREQUENTLY USED VALUES ; TO DECLARE ROM SIZE AND INCREASE ; EXECUTION SPEED. ALSO USED FOR VARIOUS ; INDIRECT ADDRESS POINTERS. 0094 = 0001 COX DS 1 ; CURRENT OUTPUT INDEX 0095 POKEADR ; POKE ADDRESS 0095 = 0002 SCRADR DS 2 ; SEARCH ADDRESS 0097 INDEX2 ; ARRAY INDEX 2 0097 = 0002 SVESA DS 2 ; SAVE EXPAND START ADR 0099 = 0002 MVFA DS 2 ; MOVE FROM ADR 009B = 0002 MVTA DS 2 ; MOVE TO ADR 009D CPC ; CUR SYNTAX PGM COUNTER 009D = 0002 WVVTPT DS 2 ; WORKING VAR TABLE PTR VALUE 009F MAXCIX ; MAX SYNTAX CIX 009F = 0001 LLNGTH DS 1 ; LINE LENGTH 00A0 = 0002 TELNUM DS 2 ; TEST LINE NO 00A2 = 0002 MVLNG DS 2 ; MOVE LENGTH 00A4 = 0002 ECSIZE DS 2 ; MOVE SIZE 00A6 = 0001 DIRFLG DS 1 ; DIRECT EXECUTE FLAG 00A7 STMLBD ; STMT LENGTH BYTE DISPL 00A7 = 0001 NXTSTD DS 1 ; NEXT STMT DISPL 00A8 STMSTRT ; STMT START CIX 00A8 = 0001 STINDEX DS 1 ; CURR STMT INDEX 00A9 = STKLVL ; SYNTAX STACK LEVEL 00A9 IBUFFX ; INPUT BUFFER INDEX 00A9 = 0001 OPSTKX DS 1 ; OPERATOR STACK INDEX 00AA ARSLVL 00AA SRCSKP ; SEARCH SKIP FACTOR 00AA = 0001 ARSTKX DS 1 ; ARG STACK INDEX 00AB TSCOX ; TSCOW LENGTH PTR 00AB = 0001 EXSVOP DS 1 ; SAVED OPERATOR 00AC TVSCIX ; SAVE CIX FOR TVAT 00AC = 0001 EXSVPR DS 1 ; SAVED OPERATOR PRECEDENCE 00AD SVVNTP ; SAVE VAR NAME TBL PTR 00AD = 0002 LELNUM DS 2 ; LIST END LINE 4 00AF ATEMP ; TEMP FOR ARRAYS 00AF STENUM ; SEARCH TABLE ENTRY NUMBER 00AF = 0001 SCANT DS 1 ; LIST SCAN COUNTER 00B0 SVONTC ; SAVE ONT SRC CODE 00B0 = 0001 COMCNT DS 1 ; COMMA COUNT FOR EXEXOR 00B1 SVVVTE ; SAVE VAR VALUE EXP SIZE 00B1 = 0001 ADFLAG DS 1 ; ASSIGN/DIM FLAG 00B2 SVONTL ; SAVE ONT SRC ARG LEN 00B2 = 0001 SVDISP DS 1 ; DISPL INTO LINE OF FOR/GOSUB TOKEN 00B3 ONLOOP ; LOOP CONTROL FOR OP 00B3 SVONTX ; SAVE ONT SRC INDEX 00B3 = 0001 SAVDEX DS 1 ; SAVE INDEX INTO STMT 00B4 = 0001 ENTDTD DS 1 ; ENTER DEVICE TB 00B5 = 0001 LISTDTD DS 1 ; LIST DEVICE TBL 00B6 = 0001 DATAD DS 1 ; DATA DISPL 00B7 = 0002 DATALN DS 2 ; DATA LINNO 00B9 = 0001 ERRNUM DS 1 ; ERROR # 00BA = 0002 STOPLN DS 2 ; LINE # STOPPED AR [FOR CON] 00BC = 0002 TRAPLN DS 2 ; TRAP LINE # [FOR ERROR] 00BE = 0002 SAVCUR DS 2 ; SAVE CURRENT LINE ADDR 00C0 = 0001 IOCMD DS 1 ; I/O COMMAND 00C1 = 0001 IODVC DS 1 ; I/O DEVICE 00C2 = 0001 PROMPT DS 1 ; PROMPT CHAR 00C3 = 0001 ERRSAV DS 1 ; ERROR # FOR USER 00C4 = 0002 TEMPA DS 2 ; TEMP ADDR CELL 00C6 = 0002 ZTEMP2 DS 2 ; TEMP 00C8 = 0001 COLOR DS 1 ; SET COLOR FOR BASE 00C9 = 0001 PTABW DS 1 ; PRINT TAB WIDTH 00CA = 0001 LOADFLG DS 1 ; LOAD IN PROGROSS FLAG ;-----------144 ; Argument Work Area(AWA) ;Floating Point Work Area 00CB = 00D2 ORG ZFP 00D2 TVTYPE ; VARIABLE TYPE 00D2 = 0001 VTYPE DS 1 ; VARIABLE TYPE 00D3 = TVNUM ; VARIABLE NUMBER 00D3 = 0001 VNUM DS 1 ; VARIABLE NUMBER = 0006 FPREC EQU 6 = 0005 FMPREC EQU FPREC-1 ; LENGTH OF FLOATING POINT ; MANTISSA 00D4 BININT ; FP REGO 00D4 = 0001 FR0 DS 1 ; FP REG0 00D5 = 0005 FR0M DS FPREC-1 ; FP REG0 MANTISSA 00DA = 0006 FRE DS FPREC ; FP REG0 EXP 00E0 = 0001 FRE1 DS 1 ; FP REG 1 00E1 = 0005 FR1M DS FPREC-1 ; FP REG1 MANTISSA 00E6 = 0006 FR2 DS FPREC ; FP REG 2 00EC = 0001 FRX DS 1 ; FP SPARE ;RAM for ASCII to Floating Point Conversion 00ED = 0001 EEXP DS 1 ; VALUE OF E 00EE FRSIGN ; FP SIGN 00EE = 0001 NSIGN DS 1 ; SIGN OF # 00EF SQRCNT 00EF PLYCNT 00EF = 0001 ESIGN DS 1 ; SIGN OF EXPONENT 00F0 SGNFLG 00F0 = 0001 FCHRFLG DS 1 ; 1ST CHAR FLAG 00F1 XFMFLG 00F1 = 0001 DIGRT DS 1 ; # OF DIGITS RIGHT OF DECIMAL ;Input Buffer Controls 00F2 = 0001 CIX DS 1 ; CURRENT INPUT INDEX 00F3 = 0002 INBUFF DS 2 ; LINE INPUT BUFFER ;Temps 00F5 = 0002 ZTEMP1 DS 2 ; LOW LEVEL ZERO PageTEMPS 00F7 = 0002 ZTEMP4 DS 2 00F9 = 0002 ZTEMP3 DS 2 ;Miscellany 00FB DEGFLG 00FB = 0001 RADFLG DS 1 ; 0=RADIANS, 6=DEGREES = 0000 RADON EQU 0 ; INDICATE RADIANS = 0006 DEGON EQU 6 ; INDICATES DEGREES 00FC = 0002 FLPTR DS 2 ; POLYNOMIAL POINTERS 00FE = 0002 FPTR2 DS 2 ;Miscellaneous Non-Zero Page RAM ; USED FOR VALUES NOT ACCESSED FREQUENTLY 0100 = 0480 ORG MISCR1 = 0480 STACK EQU * ; SYNTAX STACK 0480 = 0001 SIX DS 1 ; INPUT INDEX 0481 = 0001 SOX DS 1 ; OUTPUT INDEX 0482 = 0002 SPC DS 2 ; PGM COUNTER 0484 = 057E ORG STACK+254 057E = 0001 LBPR1 DS 1 ; LBUFF PREFIX 1 057F = 0001 LBPR2 DS 1 ; BLUFF PREFIX 2 0580 = 0080 LBUFF DS 128 ; LINE BUFFER ;-----------145 0600 = 05E0 ORG LBUFF+$60 05E0 = 0006 PLYARG DS FPREC 05E6 = 0006 FPSCR DS FPREC 05EC = 0006 FPSCR1 DS FPREC = 05E6 FSCR EQU FPSCR = 05EC FSCR1 EQU FPSCR1 ;IOCB Area 05F2 = 0340 ORG IOCBORG ;IOCB-I/O Control Block ; THERE ARE 8 I/O CONTROL BLOCKS ; 1 IOCB IS REQUIRED FOR EACH ; CURRENTLY OPEN DEVICE OR FILE ; 0340 IOCB 0340 = 0001 ICHID DS 1 ; DEVICE HANDLER ID 0341 = 0001 ICDNO DS 1 ; DEVICE NUMBER 0342 = 0001 ICCOM DS 1 ; I/O COMMAND 0343 = 0001 ICSTA DS 1 ; I/O STATUS 0344 = 0001 ICBAL DS 1 0345 = 0001 ICBAH DS 1 ; BUFFER ADR [H,L] 0346 = 0002 ICPUT DS 2 ; PUT A BYTE VIA THIS 0348 = 0001 ICBLL DS 1 0349 = 0001 ICBLH DS 1 ; BUFFER LENGTH [H,L] 034A = 0001 ICAUX1 DS 1 ; AUXILIARY 1 034B = 0001 ICAUX2 DS 1 ; AUXILIARY 2 034C = 0001 ICAUX3 DS 1 ; AUXILIARY 3 034D = 0001 ICAUX4 DS 1 ; AUXILIARY 4 034E = 0001 ICAUX5 DS 1 ; AUXILIARY 5 034F = 0001 DS 1 ; SPARE = 0010 ICLEN EQU *-IOCB ; 0350 = 0070 DS ICLEN*7 ; SPACE FOR 7 MORE IOCBS ;ICCOM Value Equates = 0001 ICOIN EQU $01 ; OPEN INPUT = 0002 ICOOUT EQU $02 ; OPEN OUTPUT = 0003 ICOIO EQU $03 ; OPEN UN/OUT = 0004 ICGBR EQU $04 ; GET BINARY RECORD = 0005 ICGTR EQU $05 ; GET TEXT RECORDS = 0006 ICGBC EQU $06 ; GET BINARY CHAR = 0007 ICGTC EQU $07 ; GET TEXT CHAR = 0008 ICPBR EQU $08 ; PUT BINARY RECORD = 0009 ICPTR EQU $09 ; PUT TEXT RECORD = 000A ICPBC EQU $0A ; PUT BINARY CHAR = 000B ICPTC EQU $0B ; PUT TEXT CHAR = 000C ICCLOSE EQU $0C ; CLOSE FILE = 000D ICSTAT EQU $0D ; GET STATUS = 000E ICDCC EQU $0E ; DEVICE DEPENDENT = 000E ICMAX EQU $0E ; MAX VALUE = 00FF ICFREE EQU $FF ; IOCB FREE INDICATOR = 001C ICGR EQU $1C ; OPEN GRAPHICS = 0011 ICDRAM EQU $11 ; DRAW TO ;ICSTA Value Equates = 0001 ICSOK EQU $01 ; STATUS GOOD, NO ERRORS = 0002 ICSTR EQU $02 ; TRUNCATED RECORD = 0003 ICSEOF EQU $03 ; END OF FILE = 0080 ICSBRK EQU $80 ; BREAK KEY ABORT = 0081 ICSDNR EQU $81 ; DEVICE NOT READY = 0082 ICSNED EQU $82 ; NON-EXISTENT DEVICE = 0083 ICSDER EQU $83 ; DATA ERROR = 0084 ICSIVC EQU $84 ; INVALID COMMAND = 0085 ICSNOP EQU $85 ; DEVICE/FILE NOT OPEN = 0086 ICSIVN EQU $86 ; INVALID IOCB NUMBER = 0087 ICSWPE EQU $87 ; WRITE PROTECTION ;-----------146 ;Equates for Variables ; -IN VARIABLE VALUE TABLE ; -ON ARGUMENT STACK ; = 0000 EVTYPE EQU 0 ; VALUE TYPE CODE = 0080 EVSTR EQU $80 ; - STRING = 0040 EVARRAY EQU $40 ; - ARRAY = 0002 EVSDTA EQU $02 ; - ON IF EVSADR IS ABS ADR = 0001 EVDIM EQU $01 ; ON IF HAS BEEN DIM = 0000 EVSCALER EQU $00 ; -SCALER ; = 0001 EVNUM EQU 1 ; VARIABLE NUMBER [83 -FF] ; = 0002 EVVALUE EQU 2 ; SCALAR VALUE [6 BYTES] ; = 0002 EVSADR EQU 2 ; STRING DISPL [2] = 0004 EVSLEN EQU 4 ; STRING LENGTH [2] = 0006 EVSDIM EQU 6 ; STRING DIM [2] ; = 0002 EVAADR EQU 2 ; ARRAY DISPL [2] = 0004 EVAD1 EQU 4 ; ARRAY DIM 1 [2] = 0006 EVAD2 EQU 6 ; ARRAY DIM 2 [2] ;Equates for Run Stack = 0004 GFHEAD EQU 4 ; LENGTH OF HEADER FOR FOR/GOSUB = 000C FBODY EQU 12 ; LENGTH OF BODY OF FOR ELEMENT = 0003 GFDISP EQU 3 ; DISP TO SAVED LINE DISP = 0001 GFLNO EQU 1 ; DISPL TO LINE # IN HEADER = 0000 GFTYPE EQU 0 ; DISPL TO TYPE IN HEADER = 0006 FSTEP EQU 6 ; DISPL TO STEP IN FOR ELEMENT ; ROM Start ;Cold Start ; COLD START - REINITIALIZES ALL MEMORY ; WIPES OUT ANY EXISTING PROGRAM A000 COLDSTART A000 A5CA LDA LOADFLG ;Y IN MIDDLE OF LOAD A002 D004 ^A008 BNE COLD1 ;DO COLDSTART A004 A508 LDA WARMFLG ; IF WARM START A006 D045 ^A04D BNE WARMSTART ; THEN BRANCH A008 COLD1 A008 A2FF LDX #$FF ; SET ENTRY STACK A00A 9A TXS ; TO TOS A00B D8 CLD ; CLEAR DECIMAL MODE A00C XNEW A00C AEE702 LDX LMADR ; LOAD NEW A00F ACE 802 LDY LMADR+1 ; MEM VALUE A012 8680 STX LOMEM ; SET LOMEM A014 8481 STY LOMEM+1 A016 A900 LDY #0 ; RESET MODIFIED A018 8592 STA MEOLFLG ; EOL FLAG A01A 85CA STA LOADFLG ; RESET LOAD FLAG A01C C8 INY ; ALLOW 256 FOR OUTBUFF A01D 8A TXA ;VNTP ; A01E A282 LDX #VNTP ; GET ZPG DISPC TO VNTP A020 9500 :CS1 STA 0,X ; SET TABLE ADR LOW A022 E8 INX A023 9400 STY 0,X ; SET TABLE ADR HIGH A025 E8 INX A026 E092 CPX #MEMTOP+2 ; AT LIMIT A028 90F6 ^A020 BCC :CS1 ; BR IF NOT ; A02A A286 LDX #VVTP ; EXPAND VNT BY ONE ;---------147 A02C A001 LDY #01 ; FOR END OF VNT A02E 207FA8 JSR EXPLOW ; ZERO BYTE A031 A28C LDX #STARP ; EXPAND STMT TBL A033 A003 LDY #3 ; BY 3 BYTES A035 207FA8 JSR EXPLOW ; GO DO IT ; A038 A900 LDA #0 ; SET 0 A03A A8 TAY A03B 9184 STA [VNTD],Y ; INTO VVTP A03D 918A STA [STMCUR],Y ; INTO STMCUR+0 A03F C8 INY A040 A980 LDA #$80 ; $80 INTO A042 918A STA [STMCUR],Y ; STMCUR+1 A044 C8 INY A045 A903 LDA #$03 ; $03 INTO A047 918A STA [STMCUR],Y ; STMCUR+2 ; A049 A90A LDA #10 ; SET PRINT TAB A04B 85C9 STA PTABW ; WIDTH TO 10 ; ;Warm Start ; WARMSTART - BASIC RESTART ; DOES NOT DESTROY CURRENT PGM A04D WARMSTART A04D 20F8B8 JSR RUNINIT ; INIT FOR RUN A050 2041BD SNX1JSR CLSALL ; GO CLOSE DEVICE 1-7 A053 2072BD SNX2JSR SETDZ ; SET E/L DEVICE 0 A056 A592 LDA MEOLFLG ; IF AN EOL INSERTED A058 F003 ^A05D BEQ SNX3 A05A 2099BD JRS RSTSEOL ; THEN UN-RESET IT A05D 2057BD SNX3 JSR PREADY ; PRINT READY MESSAGE ;Syntax A060 LOCAL ;Editor-Get Lines of Input A060 SYNTAX A060 A5CA LDA LOADFLG ; IF LOAD IN PROGRES A062 D09C ^A000 BNE COLDSTART ; GO DO COLDSTART A064 A2FF LDX #$FF ; RESTORE STACK A066 9A TXS A067 2051DA JSR INTLBF ; GO INT LBUFF A06A A95D LDA #EPCHAR A06C 85C2 STA PROMPT A06E 2092BA JSR GLGO ; A071 20F4A9 JSR TSTBRK ; TEST BREAK A074 D0EA ^A060 BNE SYNTAX ; BR IF BREAK ; A076 A900 LDA #0 ; INIT CURRENT A078 85F2 STA CIX ;INPUT INDEX TO ZERO A07A 859F STA MAXCIX A07C 8594 STA COX ;OUTPUT INDEX TO ZERO A07E 85A6 STA DIRFLG ;SET DIRECT SMT A080 85B3 STA SVONTX ; SET SAVE ONT CIX A082 85B0 STA SVONTC A084 85B1 STA SVVVTE ; VALUE IN CASE A086 A584 LDA VNTD ; OF SYNTAX ERROR A088 85AD STA SVVNTP A08A A585 LDA VNTD+1 A08C 85AE STA SVVNTP+1 ; A08E 20A1DB JSR SKBLANK ;SKIP BLANKS A091 209FA1 JSR :GETLNUM ;CONVERT AND PUT IN BUFFER A094 20C8A2 JSR :SETCODE ; SET DUMMY FOR LINE LENGTH A097 A5D5 LDA BININT+1 A099 1002 BPL :SYN0 A09B 85A6 STA DIRFLG ;---------148 A09D :SYN0 A09D 20A1DB JSR SKBLANKS ; SKIP BLANKS A0A0 A4F2 LDY CIX ;GET INDEX A0A2 84A8 STY STMSTRT ;SAVE INCASE OF SYNTAX ERROR A0A4 B1F3 LDA [INBUFF],Y ;GET NEXT CHAR A0A6 C99B CMP #CR ;IS IT CR A0A8 D007 ^A0B1 BNE :SYN1 ;BR NOT CR A0AA 24A6 BIT DIRFLG ; IF NO LINE NO. A0AC 30B2 ^A060 BMI SYNTAX ; THEN NO. DELETE A0AE 4C89A1 JMP :SDEL ;GO DELETE STMT A0B1 :SYN1 A0B1 :XIF A0B1 A594 LDA COX ;SAVE COX A0B3 85A7 STA STMLBD ;AS PM TO STMT LENGTH BYTE A0B5 20C8A2 JSR :SETCODE ; DUMMY FOR STMT LENGTH ; ; A0B8 20A1DB JSR SKBLANK ;GO SKIP BLANKS A0BB A9A4 LDA #SNTAB/256 ; SET UP FOR STMT A0BD A0AF LDY #SNTAB&255 ;NAME SEARCH A0BF A202 LDX #2 A0C1 2062A4 JSR SEARCH ;AND DO IT A0C4 86F2 STX CIX A0C6 A5AF LDA STENUM ;GET STMT NUMBER A0C8 20C8A2 JSR :SETCODE ;GO SET CODE A0CB 20A1DB JSR SKBLANK A0CE 20C3A1 JSR :SYNENT ;AND GO SYNTAX HIM A0D1 9035 ^A108 BCC :SYNOK ;BR IF OK SYNTAX ; A0D3 A49F LDY MAXCIX ; GET MAXCIX A0D5 B1F3 LDA [INBUFF],Y ; LOAD MAXCIX CHAR A0D7 C99B CMP #CR ; WAS IT CR A0D9 D006 ^A0E1 BNE :SYN3A ; BR IF NOT CR A0DB C8 INY ; MOVE CR RIGHT ONE A0DC 91F3 STA[INBUFF],Y A0DE 88 DEY ; THEN PUT A A0DF A920 LDA #$20 ; BLANK IN IT'S PLACE A0E1 0980 :SYN3A ORA #$80 ; SET MAXCIX CHAR A0E3 91F3 STA [INBUFF],Y ; TO FLASH ; A0E5 A940 LDA #$40 ;INDICATE SYNTAX ERROR A0E7 05A6 ORA DIRFLAG A0E9 85A6 STA DIRFLAG ; IN DIRFLAG A0EB A4A8 LDY STMTSTRT ;RESTORE STMT START A0ED 84F2 STY CIX A0EF A203 LDX #3 ;SET FOR FIRST STMT A0F1 86A7 STX STMLBD A0F3 E8 INX ;INC TO CODE A0F4 8694 STX COX ;AND SET COX A0F6 A937 LDA #CERR ; GARBADGE CODE A0F8 20C8A2 :SYN3 JSR :SETCODE ;GO SET CODE A0FB :XDATA A0FB A4F2 LDY CIX ;GET INDEX A0FD B1F3 LDA [INBUFF],Y ;GET INDEX CHAR A0FF E6F2 INC CIX ;INC TO NXT A101 C99B CMP #CR ;IS IT CR A103 D0F3 ^A0F8 BNE :SYN3 ;BR IF NOT A105 20C8A2 JSR :SETCODE ; A108 A594 :SYNOK LDA COX ; GET DISPL TO END OF STMT A10A A4A7 LDY STMLBL A10C 9180 STA [OUTBUFF],Y :SET LENGTH BYTE ; A10E A4F2 LDY CIX ;GET INPUT DISPL A110 88 DEY A111 B1F3 LDA [INBUFF],Y ;GET LAST CHAR A113 C99B CMP #CR ;IS IT CR A115 D09A ^D0B1 BNE :SYN1 ;BR IF NOT ; A117 A002 :SYN4 LDY #2 ; SET LINE LENGTH A119 A594 LDA COX ; INTO STMT ;---------149 A11B 9180 STA [OUTBUFF],Y ; ; A11D 20A2A9 :SYN5 JSR GETSTMT ;GO GET STMT A120 A900 LDA #0 A122 B003 ^A127 BCS :SYN6 ; A124 :SYN5A A124 20DDA9 JSR GETLL ;GO GET LINE LENGTH A127 38 :SYN6 SEC A128 E594 SBC COX ;ACU=LENGTH[OLD-NEW] A12A F020 ^A14C BEQ :SYNIN ; BR NEW=OLD A12C B013 ^A141 BCS :SYNCON ;BR OLD>NEW ; ;OLD32767 A1B3 A5D4 LDA BINIT ; A1B5 :SLNUM A1B5 84A1 STY TSLNUM+1 ; SET LINE # HIGH A1B7 85A0 STA TSLNUM ; AND LOW A1B9 20C8A2 JSR :SETCODE ; OUTPUT LOW A1BC A5A1 LDA TSLNUM+1 ; OUTPUT HI A1BE 85D5 STA BININT+1 A1C0 4CC8A2 JMP :SETCODE ; AND RETURN ;SYNENT ; PERFORM LINE PRE-COMPILE ; A1C3 ;SYNENT A1C3 A001 LDY #1 ; GET PC HIGH A1C5 B195 LDA [SCRADR],Y A1C7 859E STA CPC+1 ; SET PGM COUNTERS A1C9 8D8304 STA SPC+1 A1CC 88 DEY A1CD B195 LDA [SCRADR],Y A1CF 859D STA CPC A1D1 8D8204 STA SPC A1D4 A900 LDA #0 ; SET STKLUL A1D6 85A9 STA STKLVL ; SET STKLUL A1D8 A594 LDA COX ; MOVE A1DA 8D8104 STA SOX ; COX TO SOX A1DD A5F2 LDA CIX ; MOVE A1DF 8D8004 STA SIX ; CIX TO SIX ;NEXT ; GET NEXT SYNTAX CODE ; AS LONG AS NOT FAILING ; = A1E2 :NEXT EQU * A1E2 20A1A2 JSR :NXSC ; GET NEXT CODE ; A1E5 301A ^A201 BMI :ERNTV ; BR IF REL-NON-TERMINAL ; A1E7 C901 CMP #1 ; TEST CODE=1 A1E9 902A ^A215 BCC :GETADR ; BR CODE=0 [ABS-NON-TERMINAL] A1EB D008 ^A1F5 BNE :TSTSUC ; BR CODE >1 ; A1ED 2015A2 JSR :GETADR ; CODE=1 [EXTERNAL SUBROUTINE] A1F0 90F0 ^A1E2 BCC :NEXT ; BR IF SUB REPORTS SUCCESS A1F2 4C6CA2 JMP :FAIL ; ELSE GO TO FAIL CODE ; A1F5 C905 :TSTSUC CMP #5 ; TEST CODE = 5 ;---------151 A1F7 9059 ^A252 BCC :POP ; CODE= [2,3, OR 4] POP UP TO ; NEXT SYNTAX CODE A1F9 20A9A2 JSR :TERMTST ; CODE>5 GO TEST TERMINAL A1FC 90E4 ^A1E2 BCC :NEXT ; BR IF SUCCESS A1FE 4C6CA2 JMP :FAIL ; ELSE GO TO FAIL CODE ; A201 38 :ERNTV SEC ; RELATIVE NON TERMINAL A202 A200 LDX #0 ; TOKEN MINUS A204 E9C1 SBC #$1 A206 B002 ^A20A BCS :ERN1 ; BR IF RESULT PLUS A208 A2FF LDX #$FF ; ADD A MINUS A20A 18 :ERN1 CLC A20B 659D ADC CPC ; RESULT PLUS CPC A20D 48 PHA ; IS NEW CPC-1 A20E 8A TXA A20F 659E ADC CPC+1 A211 48 PHA ; SAVE NEW PC HIGH A212 4C28A2 JMP :PUSH ; GO PUSH = A215 :GETADR EQU * ; GET DOUBLE BYTE ADR [-1] A215 20A1A2 JSR :NXSC ; GET NEXT CODE A218 48 PHA ; SAVE ON STACK A219 20A1A2 JSR :NXSC ; GET NEXT CODE A21C 48 PHA ; SAVE ON STACK A21D 9009 ^A228 BCC :PUSH ; BR IF CODE =0 A21F 68 PLA ; EXCHANGE TOP A220 A8 TAY ; 2 ENTRIES ON A221 68 PLA ; CPU STACK A222 AA TAX A223 98 TYA A224 48 PHA A225 8A TXA A226 48 PHA A227 60 RTS ; ELSE GOTO EXTERNAL SRT VIA RTS ;PUSH ; PUSH TO NEXT STACK LEVEL ; = A228 ;PUSH EQU * A228 A6A9 LDX STKLVL ; GET STACK LEVEL A22A E8 INX ; PLUS 4 A22B E8 INX A22C E8 INX A22D E8 INX A22E F01F ^A24F BEQ :SSTB ;BR STACK TOO BIG A230 68A9 STX STKLVL ; SAVE NEW STACK LEVEL ; A232 A5F2 LDA CIX ; CIX TO A234 9D8004 STA SIX,X ; STACK IX A237 A594 LDA COX ; COX TO A239 9D8104 STA SOX,X ; STACK OX A23C A59D LDA CPC ; CPC TO A23E 9D8204 STA SPC,X ; STACK CPC A241 A59E LDA CPC+1 A243 9D8304 STA SPC+1,X ; A246 68 PLA ; MOVE STACKED A247 859E STA CPC+1 ; PC TO CPC A249 68 PLA A24A 859D STA CPC A24C 4CE2A1 JMP :NEXT ; GO FOR NEXT ; A24F 4C24B9 :SSTB JMP ERLTL ;POP ; LOAD CPC FROM STACK PC ; AND DECREMENT TO PREV STACK LEVEL ; = A252 :POP EQU * A252 A6A9 LDX STKLVL ; GET STACK LEVEL A254 D001 ^A257 BNE :POP1 ; BR NOT TOP OF STACK ; ;---------152 A256 68 RTS ; TO SYNTAX CALLER ; A257 BD8204 :POP1 SPC,X ; MOVE STACK PC A25A 859D STA CPC ; TO CURRENT PC A25C BD8304 LDA SPC+1,X A25F 859E STA CPC+1 ; A261 CA DEX ; X=X-4 A262 CA DEX A263 CA DEX A264 CA DEX A265 86A9 STX STKLVL ; A267 B003 ^A26C BCS :FAIL ; BR IF CALLER FAILING A269 4CE2A1 JMP :NEXT ; ELSE GO TO NEXT ;FAIL ; TERMINAL FAILED ; LOOK FOR ALTERNATIVE [OR] OR ; A RETURN VALUE ; = A26C :FAIL EQU * A26C 20A1A2 JSR ;NXSC ; GET NEXT CODE ; A26F 30FB ^A26C BMI :FAIL ; BR IF RNTV ; A271 C902 CMP #2 ; TEST CODE =2 A273 B002 ^A27D BCS :TSTOR ; BR IF POSSIBLE OR ; A275 209AA2 JSR :INCCPC ; CODE = 0 OR 1 A278 209AA2 JSR :INCCPC ; INC PC BY TWO A27B D0EF ^A26C BNE :FAIL ; AND CONTINUE FAIL PROCESS ; A27D C903 :TSTOR CMP #3 ; TEST CODE=3 A27F F0D1 ^A252 BEQ :POP ; BR CODE =3 [RETURN] A281 B0E9 ^A26C BCS :FAIL ; CODE>3 [RNTV] CONTINUE ; A283 A5F2 LDA CIX ; IF THIS CIX A285 C59F CMP MAXCIX ; IS A NEW MAX A287 9002 ^A28B BCC :SCIX A289 859F STA MAXCIX ; THEN SET NEW MAX A28B :SCIX A28B A6A9 LDX STKLVL ; CODE=2 [OR] A28D BD8004 LDA SIX,X ; MOVE STACK INDEXES A290 85F2 STA CIX ; TO CURRENT INDEXES A292 BD8104 LDA SOX,X A295 8594 STA COX A297 4CE2A1 JMP :NEXT ; TRY FOR SUCCESS HERE ;INCREMENT CPC ; INCCPC - INC CPC BY ONE ; = A29A :INCCPC EQU * A29A E69D INC CPC A29C D002 ^A2A0 BNE :ICPCR A29E E69E INC CPC+1 A2A0 60 :ICPCR RTS ;NXSC ; GET NEXT SYNTAX CODE ; A2A1 ;NXSC A2A1 209AA2 JSR :INCCPC ; INC PC A2A4 A200 LDX #0 A2A6 A19D LDA [CPC,X] ; GET NEXT CODE A2A8 60 RTS ; RETURN ;---------153 ;TERMTST ; TEST A TERMINAL CODE ; ; A2A9 ;TERMTST A2A9 C90F CMP #$0F ; TEST CODE=F A2AB F00D ^A2BA BEQ :ECHNG ; BR CODE < F A2AD B037 ^A2E6 BCS :SRCONT ; BR CODE > F ; A2AF 68 PLA ; POP RTN ADR A2B0 68 PLA A2B1 A90C LDA #:EXP-1&255 ; PUSH EXP ADR A2B3 48 PHA ; FOR SPECIAL A2B4 A9A6 LDA #:EXP/256 ; EXP ANTV CALL A2B6 48 PHA A2B7 4C28A2 JMP :PUSH ; GO PUSH ; ECHNG ; EXTERNAL CODE TO CHANGE COX -1 ; A2BA ;ECHNG A2BA 209AA2 JSR :INCCPC ; INC PC TO CODE A2BD A000 LDY #0 A2BF B19D LDA [CPC],Y ; GET CODE ; A2C1 A494 LDY COX ; GET COX A2C3 88 DEY ; MINUS 1 A2C4 9180 STA [OUTBUFF],Y ; SET NEW CODE A2C6 18 CLC ; SET SUCCESS A2C7 60 RTS ; RETURN ;SETCODE ; SET CODE IN ACV AT COX AND INC COX ; A2C8 ;SETCODE A2C8 A494 LDY COX ; GET COX A2CA 9180 STA [OUTBUFF],Y ; SET CHAR A2CC E694 INC COX ; INC COX A2CE F001 ^A2D1 BEQ :SCOVF ; BR IF NOT ZERO A2D0 60 RTS ; DONE A2D1 4C24B9 :SCOVF JMP ERLTL ; GO TO LINE TOO LONG ERR ;Exits for IF and REM A2D4 A2FF :EIF LDX #$FF ; RESET STACK A2D6 9A TXS A2D7 A594 LDA COX ; SET STMT LENGTH A2D9 A4A7 LDY STMLBD A2DB 9180 STA [OUTBUFF],Y A2DD 4CB1A0 JMP :XIF ; GO CONTINUE IF ; A2E0 :EREM A2E0 :EDATA A2E0 A2FF LDX #$FF ; RESET STACK A2E2 9A TXS A2E3 4CFBA0 JMP :XDATA ;GO CONTINUE DATA ;SRCONT ; SEARCH OP NAME TABLE AND TEST RESULT ; A2E6 :SRCONT A2E6 20A1DB JSR SKPBLANK ; SKIP BLANKS A2E9 A5F2 LDA CIX ; GET CURRENT INPUT INDEX A2EB C5B3 CMP SVONTX ; COMPARE WITH SAVED IX A2ED F016 ^A305 BEQ :SONT1 ; BR IF SAVED IX SAME A2EF 85B3 STA SVONTX ; SAVE NEW IX ; A2F1 A9A7 LDA #OPNTAB/256 ; SET UP FOR ONT A2F3 A0E3 LDY #OPNTAB&255 ; SEARCH A2F5 A200 LDX #0 A2F7 2062A4 JSR SEARCH ; GO SEARCH ;---------154 A2FA B028 ^A324 BCS :SONF ; BR NOT FOUND A2FC 86B2 STX SVONTL ; SAVE NEW CIX A2FE 18 CLC A2FF A5AF LDA STENUM ; ADD $10 TO A301 6910 ADC #$10 ; ENTRY NUMBER TO A303 85B0 STA SVONTC ; GET OPERATOR CODE ; A305 A000 :SONT1 LDY #0 A307 B19D LDA [CPC],Y ; GET SYNTAX REQ CODE A309 C5B0 CMP SVONTC ; DOES IT MATCH THE FOUND A30B F00E ^A31B BEQ :SONT2 ; BR IF MATCH A30D C944 CMP #CNFNP ; WAS REQ NFNP A30F D006 ^A317 BNE :SONTF ; BR IF NOT A311 A5B0 LDA SVONTC ; GET WHAT WE GOT A313 C944 CMP #CNFNP ; IS IT NFNA A315 B002 ^A319 BCS :SONTS ; BR IF IT IS A317 :SONTF A317 38 SEC ; REPORT FAIL A318 60 RTS A319 A5B0 :SONTS LDA SVONTC ; GET REAL CODE ; A31B 20C8A2 :SONT2 JSR :SETCODE ; GO SET CODE A31E A6B2 LDX SVONTL ; INC CIX BY A320 86F2 STX CIX A322 18 CLC ; REPORT SUCCESS A323 60 RTS ; DONE A324 A900 :SONF LDA #0 ; SET ZERO AS A326 85B0 STA SVONTC ; SAVED CODE A328 38 SEC A329 60 RTS ; DONE ;TVAR ; EXTERNAL SUBROUTINE FOR TNVAR & TSVAR ; A32A A900 :TNVAR LDA #0 ; SET NUMERIC TEST A32C F002 Â330 BEQ :TVAR ; A32E A980 :TSVAR LDA #$80 ; SET STR TEST ; A330 85D2 :TVAR STA TVTYPE ; SAVE TEST TYPE A332 20A1DB JSR SKPBLANK ; SKIP LEADING BLANKS A335 A5F2 LDA CIX ; GET INDEX A337 85AC STA TVSCIX ; FOR SAVING ; A339 20F3A3 JSR :TSTALPH ; GO TEST FIRST CHAR A33C B025 ^A363 BCS :TVFAIL ; BR NOT ALPHA A33E 20E6A2 JSR :SRCONT ; IF THIS IS A A341 A5B0 LDA SVONTC ; RESVD NAME A343 F008 ^A34D BEQ :TV1 ; BR NOT RSVDNAME A345 A4B2 LDY SVONTL ; IF NEXT CHAR AFTER A347 B1F3 LDA [INBUFF],Y ; RESERVED NAME A349 C930 CMP #$30 ; NOT ALARM NUMERIC A34B 9016 ^A363 BCC :TVFAIL ; THEN ERROR ; A34D E6F2 :TV1 CIX ; INC TO NEXT CHAR A34F 20F3A3 JSR :TSTALPH ; TEST ALPHA A352 90F9 ^A34D BCC :TV1 ; BR IF ALPHA A354 20AFDB JSR TSTNUM ; TRY NUMBER A357 90F4 ^A34D BCC :TV1 ; BR IF NUMBER ; A359 B1F3 LDA [INBUFF],Y ; GET OFFENDING CHAR A358 C924 CMP #'$' ; IS IT $ A35D F006 ^A365 BEQ :TVSTR ; BR IF $ [STRING] A35F 24D2 BIT TVTYPE ; THIS A NVAR SEARCH A361 1009 ^A36C BPL :TVOK ; BR IF NVAR ; A363 38 :TVFAIL SEC ; SET FAIL CODE A364 60 RTS ; DONE ; A365 24D2 :TVSTR BIT TVTYPE ; TEST SVAR SEARCH A367 10FA ^A363 BPL :TVFAIL ; BR IF SVAR ;---------155 A369 C8 INY ; INC OVER $ A36A D00D ^A379 BNE :TVOK2 ; BR ALWAYS ; A36C B1F3 :TVOK LDA [INBUFF],Y ; GET NEXT CHAR A36E C928 CMP #'(' ; IS IT PAREN A370 D007 ^A379 BNE :TVOK2 ; BR NOT PAREN A372 C8 INY ; INC OVER PAREN A373 A940 LDA #$40 ; OR IN ARRAY A375 05D2 ORA TVTYPE ; CODE TO TVTYPE A377 85D2 STA TVTYPE ; A379 A5AC :TVOK2 LDA TVSCIX ; GET SAVED CIX A37B 85F2 STA CIX ; PUT BACK A37D 84AC STY TVSCIX ; SAVE NEW CIX ; A37F A583 LDA VNTP+1 ; SEARCH VNT A381 A482 LDY VNTP ; FOR THIS GUY A383 A200 LDX #0 A385 2062A4 JSR SEARCH A388 :TVRS A388 B00A ^A394 BCS :TVS0 ; BR NOT FOUND A38A E4AC CPX TVSCIX ; FOUND RIGHT ONE A38C F04D BEQ :TVSUC ; BR IF YES A38E 2090A4 JSR SRCNXT ; GO SEARCH MORE A391 4C88A3 JMP ;TVRS ; TEST THIS RESULT ; A394 :TVS0 A394 38 SEC ; SIGH: A395 A5AC LDA TVSCIX ; VAR LENGTH IS A397 E5F2 SBC CIX ; NEW CIX-OLD CIX A399 85F2 STA CIX ; A39B A8 TAY ; GO EXPAND VNT A39C A284 LDX #VNTD ; BY VAR LENGTH A39E 207FA8 JSR EXPLOW A3A1 A5AF LDA STENUM ; SET VARIABLE NUMBER A3A3 85D3 STA TVNUM ; A3A5 A4F2 LDY CIX ; AND A3A7 88 DEY A3A8 A6AC LDX TVSCIX ; GET DISPL TO EQU+1 A3AA CA DEX A3AB BD8005 :TVS1 LDA LBUFF,X ; MOVE VAR TO A3AE 9197 STA [SVESA],Y A3B0 CA DEX A3B1 88 DEY A3B2 10F7 BPL :TVS1 ; A3B4 A4F2 LDY CIX ; TURN ON MSB A3B6 88 DEY ; OF LAST CHAR A3B7 B197 LDA [SVESA],Y ; IN VTVT ENTRY A3B9 0980 ORA #$80 A3BB 9197 STA [SVESA],Y ; A3BD A008 LDY #8 ; THEN EXPAND A3BF A288 LDX #STMTAB ; VVT BY 8 A3C1 207FA8 JSR EXPLOW A3C4 E6B1 INC SVVVTE ; INC VVT EXP SIZE ; A3C6 A002 LDY #2 ; CLEAR VALUE A3C8 A900 LDA #0 ; PART OF A3CA 99D200 :TVS1A STA TVTYPE,Y ; ENTRY A3CD C8 INY A3CE C008 CPY #8 A3D0 90F8 ^A3CA BCC :TVS1A A3D2 88 DEY ; AND THEN A3D3 B9D200 :TVS2 LDA TVTYPE,Y ; PUT IN VAR TABLE A3D6 9197 STA [SVESA],A ; ENTRY A3D8 88 DEY A3D9 10F8 ^A3D3 BPL :TVS2 ; ;---------156 A3DB 24DB 24D2 :TVSUC BIT TVTYPE ; WAS THERE A PAREN A3DD 5002 ^A3E1 BVC :TVNP ; BR IF NOT A3DF C6AC DEC TVSCIX ; LET SYNTAX PAREN ; A3E1 A5AC :TVNP LDA TVSCIX ; GET NEW CIX A3E3 85F2 STA CIX ; TO CIX ; A3E5 A5AF LDA STENUM ; GET TABLE ENTRY NO A3E7 3007 ^A3F0 BMI :TVFULL ; BR IF > $7F A3E9 0980 ORA #$80 ; MAKE IT > $7F A3EB 20C8A2 JSR :SETCODE ; SET CODE TO OUTPUT BUFFER A3EE 18 CLC ; SET SUCCESS CODE A3EF 60 RTS ; RETURN ; A3F0 4C38B9 :TVFULL JMP ERRVSF ; GOTO ERROR RTN ;TSTALPH ; TEST CIX FOR ALPHA ; A3F3 ;TSTALPH A3F3 A4F2 LDY CIX A3F5 B1F3 LDA [INBUFF],Y A3F7 TSTALPH A3F7 C941 CMP #'A' A3F9 9003 ^A3FE BCC :TAFAIL A3FB A95B CMP #$5B A3FD 60 RTS ; A3FE 38 :TAFAIL SEC A3FF 60 RTS ;TNCON ; EXTERNAL SUBROUTINE TO CHECK FOR NUMBER ; A400 :TNCON A400 20A1DB JSR SKBLANK A403 A5F2 LDA CIX A405 85AC STA TVSCIX A407 2000D8 JSR CVAFP ; GO TEST AND CONVERT A40A 9005 ^A411 BCC :TNC1 ; BR IF NUMBER A40C A5AC LDA TVSCIX A40E 85F2 STA CIX A410 60 RTS ; A411 A90E :TNC1 LDA #$0E ; SET NUMERIC CONST A413 20C8A2 JSR :SETCODE ; A416 A494 LDY COX A418 A200 LDX #0 A41A B5D4 :TNC2 LDA FR0,X ; MOVE CONST TO STMT A41C 9180 STA [OUTBUFF],Y A41E C8 INY A41F E8 INX A420 E006 CPX #6 A422 90F6 ^A41A BCC :TNC2 A424 8494 STY COX A426 18 CLC A427 60 RTS ;TSCON ; EXT SRT TO CHEXK FOR STR CONST ; A428 :TSCON A428 20A1DB JSR SKBLANK A42B A4F2 LDY CIX ; GET INDEX A42D B1F3 LDA [INBUFF],Y ; GET CHAR A42F C922 CMP #$22 ; IS IT DQUOTE A431 F002 ^A435 BEQ :TSC1 ; BR IF DQ A433 38 SEC ; SET FAIL A434 60 RTS ; RETURN ;-------157 A435 A90F :TSC1 LDA #$0F ; SET SCON CODE A437 20C8A2 JSR :SETCODE A43A A594 LDA COX ; SET COX A43C 85AB STA TSCOX ; SAVE FOR LENGTH A43E 20C8A2 JSR :SETCODE ; SET DUMMY FOR NOW ; A441 E6F2 :TSC2 INC CIX ; NEXT INPUT CHAR A443 A4F2 LDY CIX A445 B1F3 LDA [INBUFF],Y A447 C99B CMP #CR ; IS IT CR A449 F00C ^A457 BEQ :TSC4 ; BR IF CR A44B C922 CMP #$22 ; IS IT DQ A44D F006 ^A455 BEQ :TSC3 ; BR IF DQ A44F 20C8A2 JSR :SETCODE ; OUTPUT IT A452 4C41A4 JMP :TSC2 ; NEXT ; A455 E6F2 :TSC3 INC CIX ; INC CIX OVER DQ A457 18 :TSC4 CLC A458 A594 LDA COX ; LENGTH IS COX MINUS A45A E5AB SBC TSCOX ; LENGTH BYTE COX A45C A4AB LDY TSCOX A45E 9180 STA [OUTBUFF],Y ; SET LENGTH ; A460 18 CLC ; SET SUCCESS A461 60 RTS ; DONE ; Search a Table ; TABLE FORMAT: ; GARBADGE TO SKIP [N] ; ASCII CHAR [N] ; WITH LEAST SIGNIFICANT BYTE HAVING ; MOST SIGNIFICANT BIT ON ; LAST TABLE ENTRY MUST HAVE FIRST ASCII CHAR = 0 ; ENTRY PARM: ; X = SKIP LENGTH ; A,Y = TABLE ADR [HIGH, LOW] ; ARGUMENT = INBUFF + CIX ; EXIT PARAMS: ; CARRY = CLEAR IF FOUND ; X = FOUND ARGUMENT END CIX+1 ; SCRADR = TABLE ENTRY ADR ; STENUM = TABLE ENTRY NUMBER ; A462 SEARCH A462 86AA STX SRCSKP ; SAVE SKIP FACTOR ; A464 A2FF LDX #$FF ; SET ENTRY NUMBER A466 86AF STX STENUM ; TO ZERO ; A468 8596 :SRC1 STA SRCADR+1 ; SET SEARCH ADR A46A 8495 STY SRCADR A46C E6AF INC STENUM ; INC ENTRY NUMBER A46E A6F2 LDX CIX ; GET ARG DISPL A470 A4AA LDY SRCSKP ; GET SKIP LENGTH A472 B195 LDA [SRCADR],Y ; GET FIRST CHAR A474 F027 ^A49D BEQ :SRCNF ; BR IF EOT A476 A900 LDA #0 ; SET STATUS = EQ A478 08 PHP ; AND PUSH IT ; A479 BD8005 :SRC2 LDA LBUFF,X ; GET INPUT CHAR A47C 297F AND #$7F ; TURN OFF MSB A47E C92E CMP #'.' ; IF WILD CARD A480 F01D ^A49F BEQ :SRC5 ; THEN BR A482 :SRC2A A482 5195 EOR [SRCADR],Y ; EX-OR WITH TABLE CHAR A482 ASLA ; SHIFT MSB TO CARRY A484 +0A ASL A A485 F002 ^A489 BEQ :SRC3 ; BR IF [ARG=TAB] CHAR ;---------158 A487 68 PLA ; POP STATUS A488 08 PHP ; PUSH NE STATUS ; A489 C8 :SRC3 INY :INC TABLE INDEX A48A E8 INX ;INC ARG INDEX A48B 90EC ^A479 BCC :SRC2 ; IF TABLE MSB OFF, CONTINUE ; ;ELSE END OF ENTRY A48D 28 PLP ;GET STATUS A48E F00B ^A49B BEQ :SRCFOUND ;BR IF NO MIS MATCH ; A490 SRCNXT A490 18 CLC A491 98 TYA ;ACV=ENTRY LENGTH A492 6595 ADC SRCADR ;PLUS START ADR [L] A494 A8 TAY ;TO Y A495 A596 LDA SRCADR+1 ;ETC A497 6900 ADC #0 A499 D0CD ^A468 BNE :SRC1 ;BR ALLWAYS ; A49B 18 :SRCFND CLC ;INDICATE FOUND A49C 60 RTS ; A49D 38 :SRCNF SEC ;INDICATE NOT FOUND A49E 60 RTS ; A49F A902 :SRC5 LDA #1 ; IF NOT A4A1 C5AA CMP SRCSKP ; STMT NAME TABLE A4A3 D0DD ^A482 BNE :SRC2A ; THEN IGNORE A4A5 B195 :SRC6 LDA [SRCADR],Y ;TEST MSB OF TABLE A4A7 3003 Â4AC BMI :SRC7 ; IF ON DONE A4A9 C8 INY ; ELSE A4AA D0F9 ^A4A5 BNE :SRC6 ; LOOK AT NEXT CHAR A4AC 38 :SRC7 SEC ; INDICATE MSB ON A4AD B0DA ^A489 BCS :SRC3 ; AND RE-ENTER CODE ; Statement Name Table ; ; SNTAB- STATEMENT NAME TABLE ; EACH ENTRY HAS SYNTAX TABLE ADR PTR ; FOLLOWED BY STMT NAME ; A4AF SNTAB ; A4AF C7A7 DW :SREM-1 A4B1 5245CD DC 'REM' ; A4B4 CAA7 DW :SDATA-1 A4B6 444154C1 DC 'DATA' ; A4BA F3A6 DW :SINPUT-1 A4BC 494E5055D4 DC ÍNPUT' ; A4C1 BCA6 DW :SCOLOR-1 A4C3 434F4C4FD2 DC 'COLOR' ; A4C8 32A7 DW :SLIST-1 A4CA 4C4953D4 DC 'LIST' ; A4CE 23A7 DW :SENTER-1 A4D0 454E5445D2 DC 'ENTER' A4D5 BFA6 DW :SLET-1 A4D7 4C45D4 DC 'LET' ; A4DA 93A7 DW :SIF-1 A4DC 49C6 DC 'IF' ; A4DE D1A6 DW :SFOR-1 A4E0 464FD2 DC 'FOR' ; A4E3 E9A6 DW :SNEXT-1 ;---------159 A4E5 4E4558D4 DC 'NEXT' ; A4E9 BCA6 DW :SGOTO-1 A4EB 474F54CF DC 'GOTO' ; A4EF BCA6 DW :SGOTO-1 A4F1 474F2054CF DC 'GO TO' ; A4F6 BCA6 DW :SGOSUB-1 A4F8 474F5355C2 DC 'GOSUB' ; A4FD BCA6 DW :STRAP-1 A4FF 545241D0 DC 'TRAP' ; ; A503 BD DW :SBYE-1 A505 4259C5 DC 'BYE' ; A508 BDA6 DW :SCONT-1 A50A 434F4ED4 DC 'CONT' ; A50E 5FA7 DW :SCOM-1 A510 434FCD DC 'COM' ; ; A513 20A7 DW :SCLOSE-1 A515 434C4F53C5 DC 'CLOSE' ; A51A BDA6 DW :SCLR-1 A51C 434CD2 DC 'CLR' A51F BDA6 DW :SDEG-1 A521 4445C7 DC 'DEG' ; A524 5FA7 DW :SDIM-1 A526 4449CD DC 'DIM' ; A529 BDA6 DW :SEND-1 A52B 454EC4 DC 'END' ; A52E BDA6 DW :SNEW-1 A530 4E45D7 DC 'NEW' ; A533 19A7 DW :SOPEN-1 A535 4F5045CE DC 'OPEN' A539 23A7 DW :SLOAD-1 A53B 4C4F41C4 DC 'LOAD' A53F 23A7 DW :SSAVE-1 A541 535156C5 DC 'SAVE' A545 40A7 DW :SSTATUS-1 A547 5354415455 DC 'STATUS' D3 A54D 49A7 DW :SNOTE-1 A54F 4E4F54C5 DC 'NOTE' A553 49A7 DW :SPOINT-1 A555 504F494ED4 DC 'POINT' A55A 17A7 DW 'SXIO-1 A55C 5849CF DC 'XIO' ; A55F 62A7 DW :SON-1 A561 4FCE DC 'ON' ; A563 5CA7 DW :SPOKE-1 A565 504F4BC5 DC 'POKE' ; A569 FBA6 DW :SPRINT-1 A56B 5052494ED4 DC 'PRINT' ; A570 BDA6 DW :SRAD-1 A572 5241C4 DC 'RAD' ; A575 F4A6 DW :SREAD-1 ;---------160 A577 524541C4 DC 'READ' ; A57B EEA6 DW :SREST-1 A57D 524553544F DC 'RESTORE' 52C5 ; A584 BDA6 DW :SRET-1 A586 5245545552 DC 'RETURN' CE ; A5BC 26A7 DW :SRUN-1 A58E 5255CE DC 'RUN' ; A591 8DA6 DW :SSTOP-1 A593 53544FD0 DC 'STOP' ; A597 BDA6 DW :SPOP-1 A599 504FD0 DC 'POP' ; A59C FBA6 DW :SPRINT-1 A59E BF DC '?' ; A59F E7A6 DW :SGET-1 A5A1 4745D4 DC 'GET' A5A4 B9A6 DW :SPUT-1 A5A6 5055D4 DC 'PUT' A5A9 BCA6 DW :SGR-1 A5AB 4752415048 DC 'GRAPHICS' 4943D3 ; A5B3 5CA7 DW :SPLOT-1 A5B5 504C4FD4 DC 'PLOT' ; A5B9 5CA7 DW :SPOS-1 A5BB 504F534954 DC 'POSITION' 494FCE ; A5C3 BDA6 DW :SDOS-1 A5C5 444FD3 DC 'DOS' ; A5C8 5CA7 DW :DRAWTO-1 A5CA 4452415754 DC 'DRAWTO' CF ; A5D0 5AA7 DW :SSETCOLOR-1 A5D2 534554434F DC 'SETCOLOR' 4C4FD2 ; A5DA E1A6 DW :LOCATE-1 A5DC 4C4F434154 DC 'LOCATE' C5 ; A5E2 58A7 DW :SSOUND-1 A5E4 534F554EC4 DC 'SOUND' A5E9 FFA6 DW :SLPRINT-1 A5EB 4C5052494E DC 'LPRINT' D4 ; A5F1 BDA6 DW :SCSAVE-1 A5F3 43534156C5 DC 'CSAVE' A5F8 BDA6 DW :SCLOAD-1 A5FA 434C4F41C4 DC 'CLOAD' A5FF BFA6 DW :SILET-1 A601 00 DB 0 A602 8000 DB $80,00 A604 2A4552524F DB '*ERROR- ' 522D20 A60C A0 DB $A0 ;---------161 ;Syntax Tables ;Syntax Table OP Codes = 0000 :ANTV EQU $00 ; ABSOLUTE NON TERMINAL VECTOR ; FOLLOWED BY 2 BYTE ADR -1 = 0001 :ESRT EQU $01 ; EXTERNAL SUBROUTINE CALL ; FOLLOWED BY 2 BYTE ADR -1 = 0002 :OR EQU $02 ; ALTERNATIVE, BNF OR (]) = 0003 :RTN EQU $03 ; RETURN (#) = 0004 :NULL EQU $04 ; ACCEPT TO THIS POINT (&) = 000E :VEXP EQU $0E ; SPECIAL NTV FOR EXP () = 000F :CHNG EQU $0F ; CHANGE OUTPUT TOKEN ;=(EXP>)||# A60D :EXP SYN CLPRN A60D +2B DB CLPRN A60E SYN JS,:EXP A60E +BF DB $80+(((:EXP-*)&$7F) XOR $40 ) A60F SYN CRPRN A60F +2F DB CRPRN A610 SYN JS,:NOP A610 +DE DB $80+(((:NOP-*)&$7F) XOR $40 ) A611 SYN :OR A611 +02 DB :OR A612 SYN JS,:UNARY A612 +C6 DB $80+(((:UNARY-*)&$7F) XOR $40 ) A613 SYN JS,:EXP A613 +BA DB $80+(((:EXP-*)&$7F) XOR $40 ) A614 SYN :OR A614 +02 DB :OR A615 SYN JS,:NV A615 +CD DB $80+(((:NV-*)&$7F) XOR $40 ) A616 SYN JS,:NOP A616 +D8 DB $80+(((:NOP-*)&$7F) XOR $40 ) A617 SYN :RTN A617 +03 DB :RTN ;=+|.|NOT# ; A618 :UNARY SYN CPLUS A618 +25 DB CPLUS A619 SYN :CHNG,CUPLUS A619 +0F DB :CHNG A61A +35 DB CUPLUS A61B SYN :OR A61B +02 DB :OR A61C SYN CMINUS A61C +26 DB CMINUS A61D SYN :CHNG,CUMINUS A61D +0F DB :CHNG A61E +36 DB CUMINUS A61F SYN :OR A61F +02 DB :OR A620 SYN CNOT A620 +28 DB CNOT A621 SYN :RTN A621 +03 DB :RTN ;=|||# A622 :NV SYN JS,:NFUN,:OR A622 +FD DB $80+(((:NFUN-*)&$7F) XOR $40) A623 +02 DB :OR A624 SYN JS,:NVAR,:OR A624 +E8 DB $80+(((:NVAR-*)&$7F) XOR $40 ) A625 DB :OR A626 SYN :ESRT,AD,:TNCON-1,:OR A626 +01 DB :ESRT ;--------162 A627 +FFA3 DW (:TNCON-1) A629 +02 DB :OR A62A SYN :(ANTV,AD,:STCOMP-1) A62A +00 DB :ANTV A62B +7DA6 DW (:STCOMP-1) A62D SYN :RTN A62D +03 DB :RTN ;=|&# A62E :NOP SYN JS,:OP A62E +C4 DB $80+(((:OP-*)&$7F) XOR $40 ) A62F SYN JS,:EXP A62F +9E DB $80+(((:EXP-*)&$7F) XOR $40 ) A630 SYN :OR A630 +02 DB :OR A631 SYN :RTN A631 +03 DB :RTN ;=**|*|/|<=|S=|<>|<|>|=|AND|OR# A632 :OP SYN CEXP,:OR A632 +23 DB CEXP A633 +02 DB :OR A634 SYN CPLUS,:OR A634 +25 DB CPLUS A635 +02 DB :OR A636 SYN CMINUS,:OR A636 +26 DB CMINUS A637 +02 DB :OR A638 SYN CMUL,:OR A638 +24 DB CMUL A639 +02 DB :OR A63A SYN CDIV,:OR A63A +27 DB CDIV A63B +02 DB :OR A63C SYN CLE,:OR A63C +1D DB CLE A63D +02 DB :OR A63E SYN CGE,:OR A63E +1F DB CGE A63F +02 DB :OR A640 SYN CNE,:OR A640 +1E DB CNE A641 +02 DB :OR A642 SYN CLT,:OR A642 +20 DB CLT A643 +02 DB :OR A644 SYN CGT,:OR A644 +21 DB CGT A645 +02 DB :OR A646 SYN CEQ,:OR A646 +22 DB CEQ A647 +02 DB :OR A648 SYN CAND,:OR A648 +2A DB CAND A649 +02 DB :OR A64A SYN COR A64A +29 DB COR A64B SYN :RTN A64B +03 DB :RTN =# A64C :NVAR SYN :ESSRT,AD,TNVAR-1 A64C +01 DB :ERST A64D +29A3 DW (:TNVAR-1) A64F SYN JS,lNMAT A64F +C2 DB $80+(((:NMAT-*)&$7F) XOR $40) A650 SYN :RTN A650 +03 DB :RTN ;--------163 ;=()|&# A651 :NAMT SYN CLPRN,:CHNG,CALPRN A651 +2B DB CLPRN A652 +0F DB :CHNG A653 +38 DB CALPRN A654 SYN :VEXP A654 +0E DB :VEXP A655 SYN JS,:NMAT2 A655 +C4 DB $80+(((:NMAT2-*)&$7F) XOR $40 ) A656 SYN CRPRN A656 +2C DB CRPRN A657 SYN :OR A657 +02 DB :OR A658 SYN :RTN A658 +03 DB :RTN ;=,|&# A659 :NAMT2 SYN CCOM,:CHNG,CACOM A659 +12 DB CCOM A65A +0F DB :CHNG A65B +3C DB CACOM A65C SYN :VEXP A65C +0E DB :VEXP A65D SYN :OR A65D +02 DB :OR A65E SYN :RTN A65E +03 DB :RTN ;=||# A65F :NFUN SYN CNFNP A65F +44 DB CNFNP A660 SYN JS,:NFP A660 +D2 DB $80+(((:NFP-*)#$7F) XOR $40) A661 SYN :OR A661 +02 DB :OR A662 SYN :ANTV,AD,:NFSP-1 A662 +00 DB :ANTV A663 +CDA7 DW (:NFSP-1) A665 SYN JS,:SFP A665 +D3 DB $80+(((:SFP-*)#$7F) XOR $40) A666 SYN :OR A666 +02 DB :OR A667 SYN JS,:NFUSR A667 +C2 DB $80+(((:NFUSR-*)#$7F) XOR $40) A668 SYN :RTN A668 +03 DB :RTN ;=USR()# A669 :NFURS SYN CUSR A669 +3F DB CUSR A66A SYN CLPRN,:CHNG,CFLPRN A66A +2B DB CLPRN A66B +0F DB :CHNG A66C +3A DB CFLPRN A66D SYN :ANTV,AD,:PUSR-1 A66D +00 DB :ANTV A66E +D9A7 DW (:PUSR-1) A670 SYN CRPRN A670 +2C DB CRPRN A671 SYN :RTN A672 +03 DB :RTN ;=()# A672 :NFP SYN CLPRN,:CHNG,CFLPRN A672 +2B DB CLPRN A673 +0F DB :CHNG A674 +3A DB CFLPRN A675 SYN :VEXP ;--------164 A675 +0E DB :VEXP A676 SYN CRPRN A676 +2C DB CRPRN A677 SYN :RTN A667 +03 DB :RTN ;=)# A678 :SFP SYN CLPRN,:CHNG,CFLPRN A678 +2B DB CLPRN A679 +0F DB :CHNG A67A +3A DB CFLPRN A67B SYN JS,:STR A67B +C7 DB $80+(((:STR-*)&$7F) XOR $40 ) A67C SYN CRPRN A67C +2C DB CRPRN A67D SYN :RTN A66D +03 DB :RTN ;=# A67E :STCOMP SYN JS,:STR A67E +C4 DB $80+(((:STR-*)&$7F) XOR $40 ) A67F SYN JS,:SOP A67F +E3 DB $80+(((:SOP-*)&$7F) XOR $40 ) A680 SYN JS,:STR A680 +C2 DB $80+(((:STR-*)&$7F) XOR $40 ) A681 SYN :RTN A681 +03 DB :RTN ;=||# A682 :STR SYN JS,:SFUN A682 +C8 DB $80+(((:SFUN-*)&$7F) XOR $40 ) A683 SYN :OR A683 +02 DB :OR A684 SYN JS,:SVAR A684 +CB DB $80+(((:SVAR-*)&$7F) XOR $40 ) A685 SYN :OR A685 +02 DB :OR A686 SYN :ESRT,AD,:TSCON-1 A686 +01 DB :ESRT A687 +27A4 DW (:TSCON-1) A689 SYN :RTN A689 +03 DB :RTN ;=SFNP# A68A :SFUN SYN :ANTV,AD,:SFNP-1 A68A +00 DB :ANTV A68B +D5A7 DW (:SFNP-1) A68D SYN JS,:NFP A68D +A5 DB $80+(((:NFP-*)&$7F) XOR $40 ) A68E SYN :RTN A68E +03 DB :RTN ;=# A68FA :STR SYN :ESRT,AD,:TSVAR-1 A68F +01 DB :ESRT A690 +2DA3 DW (:TSVAR-1) A692 SYN JS,:SMAT A692 +C2 DB $80+(((:SMAT-*)&$7F) XOR $40 ) A693 SYN :RTN A693 +03 DB :RTN ;=()|&# A694 :SMAT SYN CLPRN,:CHNG,CSLPRN A694 +2B DB CLPRN A695 +0F DB :CHNG A696 +37 DB CSLPRN ;--------165 A697 SYN :VEXP A697 +0E DB :VEXP A698 SYN JS,:SMAT2 A698 +C4 DB $80+(((:SMAT2-*)&$7F) XOR $40 ) A699 SYN CRPRN A699 +2C DB CRPRN A69A SYN :OR A69A +02 DB :OR A69B SYN :RTN A69B +03 DB :RTN ;=,|&# A69C :SMAT2 SYN CCOM,:CHNG,CACOM A69C +12 DB CCOM A69D +0F DB :CHNG A69E +3C DB CACOM A69F SYN :VEXP A69F +0E DB :VEXP A6A0 SYN :OR A6A0 +02 DB :OR A6A1 SYN :RTN A6A1 +03 DB :RTN ;=<><# A6A2 :SOP A6A2 SYN CLE,:CHNG,CSLE,:OR A6A2 +1D DB CLE A6A3 +0F DB :CHNG A6A4 +2F DB CSLE A6A5 +02 DB :OR A6A6 SYN CNE,:CHNG,CSNE,:OR A6A6 +1E DB CNE A6A7 +0F DB :CHNG A6A8 +30 DB CSNE A6A9 +02 DB :OR A6AA SYN CGE,:CHNG,CSGE,:OR A6AA +1F DB CGE A6AB +0F DB :CHNG A6AC +31 DB CSGE A6AD +02 DB :OR A6AE SYN CLT,:CHNG,CSLT,:OR A6AE +20 DB CLT A6AF +0F DB :CHNG A6B0 +32 DB CSLT A6B1 +02 DB :OR A6B2 SYN CGT,:CHNG,CSGT,:OR A6B2 +21 DB CGT A6B3 +0F DB :CHNG A6B4 +33 DB CSGT A6B5 +02 DB :OR A6B6 SYN CEQ,:CHNG,CSEQ A6B6 +22 DB CEQ A6B7 +0F DB :CHNG A6B8 +34 DB CSEQ A6B9 SYN :RTN A6B9 +03 DB :RTN ;=,# A6BA :SPUT A6BA SYN CPND,:VEXP A6BA +1C DB CPND A6BB +0E DB :VEXP A6BC SYN CCOM A6BC +12 DB CPND ;--------166 ;< >=# A6BD :STRAP A6BD :SGOTO A6BD :SGOSUB A6BD :SGR A6BD :SCOLOR A6BD :SEOS SYN :VEXP A6BD +0E DB :VEXP ;< >=EOS># A6BE :SCSAVE A6BE :SCLOAD A6BE :SDOS A6BE :SCLR A6BE :SRET A6BE :SEND A6BE :SSTOP A6BE :SPOP A6BE :SNEW A6BE :SBYE A6BE :SCONT A6BE :SDEG A6BE :SRAD A68E SYN JS,:EOS A6BE +FA DB $80+(((:EOS-*)&$7F) XOR $40 ) A6BF SYN :RTN A6BF +03 DB :RTN ;==|=# A6C0 :SLET A6C0 :SILET A6C0 SYN :ANTV,AD,:NVAR-1 A6C0 +00 DB :ANTV A6C1 +4BA6 DW (:NVAR-1) A6C3 SYN CEQ,:CHNG,CAASN A6C3 +22 DB CEQ A6C4 +0F DB :CHNG A6C5 +2D DB CAASN A6C6 SYN :VEXP A6C6 +0E DB :VEXP A6C7 SYN JS,:EOS A6C7 +F1 DB $80+(((:EOS-*)&$7F) XOR $40 ) A6C8 SYN :OR A6C8 +02 DB :OR ; A6C9 SYN JS,:SVAR A6C9 +86F1 DB $80+(((:SVAR-*)&$7F) XOR $40 ) A6CA +22 DB CEQ A6CB +0F DB :CHNG A6CC +2E DB CSASN A6CD SYN ANTV,AD,:STR-1 A6CD +00 DB :ANTV A6CE +81A6 DB (:STR-1) A6D0 SYN JS,:EOS A6D0 +E8 DB $80+(((:EOS-*)&$7F) XOR $40 ) A6D1 SYN :RTN A6D1 +03 DB :RTN ;==TO# A6D2 :SFOR SYN :ESRT,AD,:TNVAR-1 A6D2 +01 DB :ESRT A6D3 +29A3 DW (:TNAR-1) A6D5 SYN CEQ,:CHNG,CAASN A6D5 +22 DB CEQ A6D6 +0F DB :CHNG A6D7 +2D DB CAASN ;--------167 A6D8 SYN :VEXP A6D8 +0E DB :VEXP A6D9 SYN CTO A6D9 +19 DB CTO A6DA SYN :VEXP A6DA +0E DB :VEXP A6DB SYN JS,:FSTEP A6DB +C3 DB $80+(((:FSTEP-*)&$7F) XOR $40 ) A6DC SYN JS,:EOS A6DC +DC DB $80+(((:EOS-*)&$7F) XOR $40 ) A6DD SYN :RTN A6DD +03 DB :RTN ;=STEP|& A6DE :FSTEP A6DE SYN CSTEP A6DE +1A DB CSTEP A6DF SYN :VEXP A6DF +0E DB :VEXP A6E0 SYN :OR A6E0 +02 DB :OR A6E1 SYN :RTN A6E1 +03 DB :RTN ;=,,# A6E2 :SLOCATE A6E2 SYN :VEXP A6E2 +0E DB :VEXP A6E3 SYN CCOM A6E3 +12 DB CCOM A6E4 SYN :VEXP A6E4 +0E DB :VEXP A6E5 SYN CCOM A6E5 +12 DB CCOM A6E6 SYN JS,:SNEXT A6E6 +C4 DB $80+(((:SNEXT-*)&$7F) XOR $40 ) A6E7 SYN :RTN A6E7 +03 DB :RTN ;=,# A6E8 :SGET A6E8 SYN JS,:D1 A6E8 +DD DB $80+(((:D1-*)&$7F) XOR $40 ) A6E9 SYN CCOM A6E9 +12 DB CCOM ;=# A6EA :SNEXT SYN :ESRT,AD,:TNVAR-1 A6EA +01 DB :ESRT A6EA +29A3 DW (:TNAR-1) A6ED SYN JS,:EOS A6ED +CB DB $80+(((:EOS-*)&$7F) XOR $40 ) A6EE SYN :RTN A6EE +03 DB :RTN ;=|# A6EF :SREST SYN :VEXP A6EF +0E DB :VEXP A6F0 SYN JS,:EOS A6F0 +CB DB $80+(((:EOS-*)&$7F) XOR $40 ) A6F1 SYN :OR A6F1 +02 DB :OR A6F2 SYN JS,:EOS A6F2 +C6 DB $80+(((:EOS-*)&$7F) XOR $40 ) A6F3 SYN :RTN A6F3 +03 DB :RTN ;-------168 ;=# A6F4 :SLINPUT SYN JS,:OPD A6F4 +F8 DB $80+(((:OPD-*)&$7F) XOR $40 ) ;=# A6F5 :SREAD SYN JS,:NSVRL A6F5 +DB DB $80+(((:NSVRL-*)&$7F) XOR $40 ) A6F6 SYN JS,:EOS A6F6 +C2 DB $80+(((:EOS-*)&$7F) XOR $40 ) A6F7 SYN :RTN A6F7 +03 DB :RTN ;EOS=:|CR# A6F8 :EOS SYN CEOS A6F8 +14 DB CEOS A6F9 SYN :OR A6F9 +02 DB :OR A6FA SYN CCR A6FA +16 DB CCR A6FB SYN :RTN A6FB +03 DB :RTN ;=| A6FC :SPRINT A6FC SYN JS,:D1 A6FC +C9 DB $80+(((:D1-*)&$7F) XOR $40 ) A6FD SYN JS,:EOS A6FD +BB DB $80+(((:EOS-*)&$7F) XOR $40 ) A6FE SYN :OR A6FE +02 DB :OR A6FF SYN JS,:OPD A6FF +ED DB $80+(((:OPD-*)&$7F) XOR $40 ) A700 :SLPRINT A700 SYN :ANTV,AD,PR1-1 A700 +00 DB :ANTV A701 +9FA7 DW (:PR1-1) A703 SYN JS,:EOS A703 +B5 DB $80+(((:EOS-*)&$7F) XOR $40 ) A704 SYN :RTN A704 +03 DB :RTN ;=# A705 :D1 SYN CPND A705 +1C DB CNPD A706 SYN :VEXP A706 +0E DB :VEXP A707 SYN :RTN A707 +03 DB :RTN =|# A708 :NSVAR SYN :ESRT,AD,:TNVAR-1 A708 +01 DB :ESRT A709 +29A3 DW (:TNAR-1) A70B SYN :OR A70B +02 DB :OR A70C SYN :ESRT,AD,:TNVAR-1 A70C +01 DB :ESRT A70D +29A3 DW (:TNAR-1) A70F SYN :RTN A70F +03 DB :RTN ;=|&# A710 :NSVRL SYN JS,:NSVAR A710 +B8 DB $80+(((:NSVAR-*)&$7F) XOR $40 ) A711 SYN JS,:NSV2 ;-------169 A711 +C3 DB $80+(((:NSV2-*)&$7F) XOR $40 ) A712 SYN :OR,:RTN A712 +02 DB :OR A713 +03 DB :RTN ;=,|&# A714 :NSV2 SYN CCOM A714 +12 DB CCOM A715 SYN JS,:NSVRL A715 +BB DB $80+(((:NSVRL-*)&$7F) XOR $40 ) A716 SYN :OR,:RTN A716 +02 DB :OR A717 +03 DB :RTN ;=,,# A718 :SXIO A718 SYN :VEXP A718 +0E DB :VEXP A719 SYN CCOM A719 +12 DB CCOM ;=,,,,# A71A :SOPEN A71A SYN JS,:D1 A71A +AB DB $80+(((:D1-*)&$7F) XOR $40 ) A71B SYN CCOM A71B +12 DB CCOM A71C SYN JS,:TEXP A71C +AB DB $80+(((:TEXP-*)&$7F) XOR $40 ) A71D SYN CCOM A71D +12 DB CCOM A71E SYN JS,:FS A71E +F3 DB $80+(((:FS-*)&$7F) XOR $40 ) A71F SYN JS,:EOS A71F +99 DB $80+(((:EOS-*)&$7F) XOR $40 ) A720 SYN :RTN A720 +03 DB :RTN ;=# A721 :SCLOSE A721 SYN JS,:D1 A721 +A4 DB $80+(((:D1-*)&$7F) XOR $40 ) A722 SYN JS,:EOS A722 +96 DB $80+(((:EOS-*)&$7F) XOR $40 ) A723 SYN :RTN A723 +03 DB :RTN ;< >=# A724 :SENTER A724 :SLOAD A724 :SSAVE A724 SYN JS,:FS A724 +ED DB $80+(((:FS-*)&$7F) XOR $40 ) A725 SYN JS,:EOS A725 +93 DB $80+(((:EOS-*)&$7F) XOR $40 ) A726 SYN :RTN A726 +03 DB :RTN ;=|# A727 :SRUN A727 SYN JS,:FS A727 +EA DB $80+(((:FS-*)&$7F) XOR $40 ) A728 SYN JS,:EOS A728 +90 DB $80+(((:EOS-*)&$7F) XOR $40 ) A729 SYN :OR A729 +02 DB :OR ;-------170 A72A SYN JS,:EOS A72A +BE DB $80+(((:EOS-*)&$7F) XOR $40 ) A72B SYN :RTN A72B +03 DB :RTN ;=,|# A72C :OPD A72C SYN JS,:D1 A72C +99 DB $80+(((:D1-*)&$7F) XOR $40 ) A72D :OPDX SYN CCOM A72D +12 DB CCOM A72E SYN :OR A72E +02 DB :OR A72F SYN JS,:D1 A72F +96 DB $80+(((:D1-*)&$7F) XOR $40 ) A730 SYN CSC A730 +15 DB CSC A731 SYN :OR A731 +02 DB :OR A732 SYN :RTN A732 +03 DB :RTN ;=;|# A733 :SLIST A733 SYN JS,:FS A733 +DE DB $80+(((:FS-*)&$7F) XOR $40 ) A734 SYN JS,:EOS A734 +84 DB $80+(((:EOS-*)&$7F) XOR $40 ) A735 SYN :OR A735 +02 DB :OR A736 SYN JS,:FS A736 +DB DB $80+(((:FS-*)&$7F) XOR $40 ) A737 SYN CCOM A737 +12 DB CCOM A738 SYN JS,:LIS A738 +C4 DB $80+(((:LIS-*)&$7F) XOR $40 ) A739 SYN :OR A739 +02 DB :OR A73A SYN JS,:LIS A73A +C2 DB $80+(((:LIS-*)&$7F) XOR $40 ) A73B SYN :RTN A73B +03 DB :RTN ;=# A73C :LIS A73C SYN :ANTV,AD,:L1-1 A73C +00 DB :ANTV A73D +BFA7 DW (:L1-1) A73F SYN JS,:EOS2 A73F +F4 DB $80+(((:EOS2-*)&$7F) XOR $40 ) A740 SYN :RTN A740 +03 DB :RTN ;=# A741 :SSTATUS A741 SYN JS,:STAT A741 +C3 DB $80+(((:STAT-*)&$7F) XOR $40 ) A742 SYN JS,:EOS2 A742 +F1 DB $80+(((:EOS2-*)&$7F) XOR $40 ) A743 SYN :RTN A743 +03 DB :RTN ;=,# A744 :SSTAT A744 SYN JS,:D1 A744 +81 DB $80+(((:D1-*)&$7F) XOR $40 ) ;-------171 A745 SYN CCOM A745 +12 DB CCOM A746 SYN :ANTV,AD,:NVAR-1 A746 +00 DB :ANTV A747 +4BA6 DW (:NVAR-1) A749 SYN :RTN A749 +03 DB :RTN ;< >=,# A74A :SNOTE A74A :SPOINT A74A SYN JS,:STAT A74A +BA DB $80+(((:STAT-*)&$7F) XOR $40 ) A74B SYN CCOM A74B +12 DB CCOM A74C SYN :ANTV,AD,:NVAR-1 A74C +00 DB :ANTV A74D +4BA6 DW (:NVAR-1) A74E SYN JS,:EOS2 A74E +E4 DB $80+(((:EOS2-*)&$7F) XOR $40 ) A750 SYN :RTN A750 +03 DB :RTN ;= A751 :SFS A751 SYN :ANTV,AD,:STR-1 A751 +00 DB :ANTV A752 +81A6 DW (:STR-1) A754 SYN :RTN A754 +03 DB :RTN ;=,# A755 :TEXP A755 SYN :VEXP A755 +03 DB :VEXP A756 SYN :CCOM A756 +12 DB :CCOM A757 SYN :VEXP A757 +0E DB :VEXP A758 SYN :RTN A758 +03 DB :RTN ;=,,,# A759 :SSOUND A759 SYN :VEXP A759 +0E DB :VEXP A75A SYN :CCOM A75A +12 DB :CCOM A75B :SSETCOLOR A75B SYN :VEXP A75B +0E DB :VEXP A75C SYN :CCOM A75C +12 DB :CCOM ;< >=,# A75D :SPOKE A75D :SPLOT A75D :SPOS A75D :SDRAWTO A75D SYN JS,:TEXP A75D +B8 DB $80+(((:TEXP-*)&$7F) XOR $40 ) A75E SYN JS,:EOS2 A75E +D5 DB $80+(((:EOS2-*)&$7F) XOR $40 ) A75F SYN :RTN A75F +03 DB :RTN ;=# A760 :SDIM A760 :SCOM A760 SYN JS,:NSML A760 +EC DB $80+(((:NSML-*)&$7F) XOR $40 ) A761 SYN JS,:EOS2 A761 +D2 DB $80+(((:EOS2-*)&$7F) XOR $40 ) A762 SYN :RTN A762 +03 DB :RTN ;=# A763 :SON SYN :VEXP A763 +0E DB :VEXP A764 SYN JS,:ON1 A764 +C4 DB $80+(((:ON1-*)&$7F) XOR $40 ) A765 SYN JS,:EXPL A765 +C7 DB $80+(((:EXPL-*)&$7F) XOR $40 ) A766 SYN JS,:EOS2 A766 +CD DB $80+(((:EOS2-*)&$7F) XOR $40 ) A767 SYN :RTN A767 +03 DB :RTN ;=|GOSUB# A768 :ON1 SYN CGTO A768 +17 DB :CGTO A769 SYN :OR A769 +02 DB :OR A76A SYN CGS A76A +02 DB CGS A76B SYN :RTN A76B +03 DB :RTN ;=# A76C :EXPL SYN :VEXP A76C +0E DB :VEXP A76D SYN JS,:EXPL1 A76D +C2 DB $80+(((:EXPL1-*)&$7F) XOR $40 ) A76E SYN :RTN A76E +03 DB :RTN ;=,|&# A76F :EXPL1 SYN CCOMP A76F +12 DB CCOMP A770 SYN JS,:EXPL A770 +BC DB $80+(((:EXPL-*)&$7F) XOR $40 ) A771 SYN :OR A771 +02 DB :OR A772 SYN :RTN A772 +03 DB :RTN ;=|CCR# A773 :EOS2 A773 SYN CEOS A773 +14 DB CEOS A774 SYN :OR A774 +02 DB :OR A775 SYN CCR A775 +16 DB CCR A776 SYN :RTN A776 +03 DB :RTN ;=() A777 :NSMAT A777 SYN :ESRT,AD,:TNVAR-1 A777 +14 DB :ESRT ;-------173 A778 +29A3 DW (:TNVAR-1) A77A SYN CLPRN,:CHNG,CDLPRN A77A +2B DB CLPRN A77B +0F DB :CHNG A77C +39 DB CDLPRN A77D SYN :VEXP A77D +0E DB :VEXP A77E SYN :ANTV,AD,:NMAT2-1 A77E +00 DB :ANTV A77F +58A6 DW (:NMAT2-1) A781 SYN CPRN A781 +2B DB CPRN A782 SYN :OR A782 +02 DB :OR A783 SYN :ESRT,AD,:TSVAR-1 A783 +01 DB :ESRT A784 +2DA3 DW (:TSVAR-1) A786 SYN CLPRN,:CHNG,CDSLPR A786 +2B DB CLPRN A787 +0F DB :CHNG A788 +3B DB CDSLPR A789 SYN :VEXP A789 +0E DB :VEXP A78A SYN CRPRN A78A +2C DB CRPRN A78B SYN :RTN A78B +03 DB :RTN ;=|&# A78C :NSML SYN JS,:NSMAT A78C +AB DB $80+(((:NSMAT-*)&$7F) XOR $40 ) A78D SYN JS,:NMSL2 A78D +C3 DB $80+(((:NMSL2-*)&$7F) XOR $40 ) A78E SYN :OR,:RTN A78E +02 DB :OR A78F +03 DB :RTN ;=,|&# A790 :NSML2 SYN CCOM A790 +12 DB CCOM A791 SYN JS,:NSML A791 +BB DB $80+(((:NSML-*)&$7F) XOR $40 ) A792 SYN :OR,:RTN A792 +02 DB :OR A793 +03 DB :RTN ;=THEN# A794 :SIF SYN :VEXP A794 +0E DB :VEXP A795 SYN CTHEN A795 +1B DB CTHEN A796 SYN JS,:IFA A796 +C3 DB $80+(((:IFA-*)&$7F) XOR $40 ) A797 SYN JS,:EOS2 A797 +9C DB $80+(((:EOS2-*)&$7F) XOR $40 ) A798 SYN :RTN A798 +03 DB :RTN ;=| A799 :IFA SYN :ESRT,AD,:TNCON-1 A799 +01 DB :ESRT A79A +FFA3 DW (:TNCON-1) A79C SYN :OR A79C +02 DB :OR A79D SYN :ESRT,AD,:EIF-1 A79D +01 DB :ESRT A79E +D3A2 DW (:EIF-1) ;--------174 =||&# A7A0 :PR1 A7A0 SYN JS,:PEL,:OR A7A0 +C9 DB $80+(((:PEL-*)&$7F) XOR $40 ) A7A1 +02 DB :OR A7A2 SYN JS,:PSL A7A2 +D4 DB $80+(((:PSL-*)&$7F) XOR $40 ) A7A3 SYN JS,:PR2 A7A3 +C3 DB $80+(((:PR2-*)&$7F) XOR $40 ) A7A4 SYN :OR A7A4 +02 DB :OR A7A5 SYN :RTN A7A5 +03 DB :RTN ;=|&# A7A6 :PR2 SYN JS,:PEL,:PEL A7A6 +C3 DB $80+(((:PEL-*)&$7F) XOR $40 ) A7A7 SYN :OR A7A7 +02 DB :OR A7A8 SYN :RTN A7A8 +03 DB :RTN ;=# A7A9 :PEL SYN JS,:PES A7A9 +C3 DB $80+(((:PES-*)&$7F) XOR $40 ) A7AA SYN JS,:PELA A7AA +C8 DB $80+(((:PELA-*)&$7F) XOR $40 ) A7AB SYN :RTN A7AB +03 DB :RTN ;=| A7AC :PES SYN :VEXP A7AC +0E DB :VEXP A7AD SYN :OR A7AD +02 DB :OR A7AE SYN :ANTV,AD,:STR-1 A7AE +00 DB :ANTV A7AF +81A6 DW (:STR-1) A7B1 SYN :RTN A7B1 +03 DB :RTN ;=|&# A7B2 :PELA SYN JS,:PSL A7B2 +C4 DB $80+(((:PSL-*)&$7F) XOR $40 ) A7B3 SYN JS,:PR2 A7B3 +B3 DB $80+(((:PR2-*)&$7F) XOR $40 ) A7B4 SYN :OR A7B4 +02 DB :OR A7B5 SYN :RTN A7B5 +03 DB :RTN ;=# A7B6 :PSL SYN JS,:PS A7B6 +C6 DB $80+(((:PS-*)&$7F) XOR $40 ) A7B7 SYN JS,:PSLA A7B7 +C2 DB $80+(((:PSLA-*)&$7F) XOR $40 ) A7B8 SYN :RTN A7B8 +03 DB :RTN ;=|&# A7B9 :PSLA SYN JS,:PSL A7B9 +BD DB $80+(((:PSL-*)&$7F) XOR $40 ) A7BA SYN :OR ;-------175 A7BA +02 DB :OR A7BB SYN :RTN A7BB +03 DB :RTN ;=,|,# A7BC :PS SYN CCOM A7BC +12 DB CCOM A7BD SYN :OR A7BD +02 DB :OR A7BE SYN CSC A7BE +15 DB CSC A7BB SYN :RTN A7BB +03 DB :RTN ;=|&# A7C0 :L1 SYN :VEXP A7C0 +0E DB :VEXP A7C1 SYN JS,:L2 A7C1 +C3 DB $80+(((:L2-*)&$7F) XOR $40 ) A7C2 SYN :OR A7C2 +02 DB :OR A7C3 SYN :RTN A7C3 +03 DB :RTN ;=,|&# A7C4 :L2 SYN CCOM A7C4 +12 DB CCOM A7C5 SYN :VEXP A7C5 +0E DB :VEXP A7C6 SYN :OR A7C6 +02 DB :OR A7C7 SYN :RTN A7C7 +03 DB :RTN ;= A7C8 :SREM SYN :ESRT,AD,:EREM-1 A7C8 +01 DB :ESRT A7C9 +DFA2 DW (:EREM-1) ;= A7CB :SDATA SYN :ESRT,AD,:EDATA-1 A7CB +01 DB :ESRT A7CC +DFA2 DW (:EREM-1) ;=ASC | VAL | LEN# A7CE :NFSP SYN CASC,:OR A7CE +40 DB CASC A7CF +02 DB :OR A7D0 SYN CVAL,:OR A7D0 +41 DB CVAL A7D1 +02 DB :OR A7D2 SYN CADR,:OR A7D2 +43 DB CADR A7D3 +02 DB :OR A7D4 SYN CLEN A7D4 +42 DB CLEN A7D5 SYN :RTN A7D5 +03 DB :RTN ;--------176 ;=STR | CHR# A7D6 :SFNP SYN CSTR,:OR A7D6 +3D DB CSTR A7D7 +02 DB :OR A7D8 SYN CCHAR A7D8 +3E DB CCHAR A7D9 SYN :RTN A7D9 +03 DB :RTN ;=# A7DA :PUSR SYN :VEXP A7DA +0E DB :VEXP A7DB SYN JS,:PUSR1 A7DB +C2 DB $80+(((:PUSR1-*)&$7F) XOR $40 ) A7DC SYN :RTN A7DC +03 DB :RTN ;=,|&# A7DD :PUSR1 SYN CCOM,:CHNG,CACOM A7DD +12 DB CCOM A7DE +0F DB :CHNG A7DF +3C DB CACOM A7E0 SYN JS,:PUSR A7E0 +BA DB $80+(((:PUSR-*)&$7F) XOR $40 ) A7E1 SYN :OR A7E1 +02 DB :OR A7E2 SYN :RTN A7E2 +03 DB :RTN ; OPNTAB - Operator Name Table A7E3 OPNTAB = 000F C SET $0F ;FIRST ENTRY VALUE=$10 ; = 0010 C SET C+1 = 0010 CDQ EQU C A7E3 82 $82 ;DOUBLE QUOTE ; = 0011 C SET C+1 = 0011 CSOE EQU C A7E4 82 DB $80 ;DUMMY FOR SOE ; = 0012 C SET C+1 = 0012 CCOM EQU C A7E5 AC DC ',' ; = 0013 C SET C+1 = 0013 CDOL EQU C A7E6 A4 DC '$' ; = 0014 C SET C+1 = 0014 CEOS EQU C A7E7 BA DC ':' ; = 0015 C SET C+1 = 0015 CSC EQU C A7E8 BB DC ';' ; = 0016 C SET C+1 = 0016 CCR EQU C ;CARRIAGE RETURN A7E9 9B DB CR ; = 0017 C SET C+1 = 0017 CGTO EQU C A7EA 474F54CF DC 'GOTO' ; ;---------177 = 0018 C SET C+1 = 0018 CGS EQU C A7EE 474F5355C2 DC 'GOSUB' ; = 0019 C SET C+1 = 0019 CTO EQU C A7F3 54CF DC 'TO' ; = 001A C SET C+1 = 001A CSTEP EQU C A7F5 535445D0 DC 'STEP' ; = 001B C SET C+1 = 001B CTHEN EQU C A7F9 544845CE DC 'THEN' ; = 001C C SET C+1 = 001C CPND EQU C A7FD A3 DC '#' ; = 001D CSROP EQU C+1 ; = 001D C SET C+1 = 001D CLE EQU C A7FE 3CBD DC '<=' ; = 001E C SET C+1 = 001E CNE EQU C A800 3CBE DC '<>' ; = 001F C SET C+1 = 001F CGE EQU C A802 3EBD DC '>=' ; = 0020 C SET C+1 = 0020 CLT EQU C A804 BC DC '<' ; = 0021 C SET C+1 = 0021 CGT EQU C A805 BE DC '>' ; = 0022 C SET C+1 = 0022 CEQ EQU C A806 BD DC '=' ; = 0023 C SET C+1 = 0023 CEXP EQU C A807 DE DB $5E+$80 ;UP ARROW FOR EXP ; = 0024 C SET C+1 = 0024 CMUL EQU C A808 AA DC '*' ; = 0025 C SET C+1 = 0025 CPLUS EQU C A809 AB DC '+' ; = 0026 C SET C+1 = 0026 CMINUS EQU C A80A AD DC '-' ; = 0027 C SET C+1 = 0027 CDIV EQU C A80B AF DC '/' ; = 0028 C SET C+1 = 0028 CNOT EQU C A80C 4E4FD4 DC 'NOT' ; ;----------178 = 0029 C SET C+1 = 0029 COR EQU C A80F 4FD2 DC 'OR' ; = 002A C SET C+1 = 002A CAND EQU C A811 414EC4 DC 'AND' ; = 002B C SET C+1 = 002B CLPRN EQU C A814 A8 DC '(' ; = 002C C SET C+1 = 002C CRPRN EQU C A815 A9 DC ')' ; ; THE FOLLOWING ENTRIES ARE COMRISED OF CHARACTERS ; SIMILAR TO SOME OF THOSE ABOVE BUT HAVE ; DIFFERENT SYNTACTICAL OR SEMANTIC MEANING ; = 002D C SET C+1 = 002D CAASN EQU C ; ARITHMETIC ASSIGMENT A816 BD DC '=' ; = 002E C SET C+1 = 002E CSASN EQU C ; STRING OPS A817 BD DC '=' ; = 002F C SET C+1 = 002F CSLE EQU C A818 3CBD DC '<=' ; = 0030 C SET C+1 = 0030 CSNE EQU C A81A 3CBE DC '<>' ; = 0031 C SET C+1 = 0031 CSGE EQU C A81C 3EBD DC '>=' ; = 0031 C SET C+1 = 0031 CSLT EQU C A81E BC DC '<' ; = 0033 C SET C+1 = 0033 CSGT EQU C A81F BE DC '>' ; = 0034 C SET C+1 = 0034 CSEQ EQU C A820 BD DC '=' ; = 0035 C SET C+1 = 0035 CUPLUS EQU C ;UNARY PLUS A821 AB DC '+' ; = 0036 C SET C+1 = 0036 CUMINUS EQU C ; UNARY MINUS A822 AD DC '-' ; = 0037 C SET C+1 = 0037 CSLPRN EQU C ;STRING LEFT PAREN A823 A8 DC '(' ; = 0038 C SET C+1 = 0038 CALPRN EQU C ; ARRAY LEFT PAREN A824 80 DC $80 ; DOES NOT PRINT ; = 0039 C SET C+1 = 0039 CDLPRN EQU C ; DIM LEFT PAREN ;----------179 A825 80 DC $80 ; DOES NOT PRINT ; = 003A C SET C+1 = 003A CFLPRN EQU C ; FUNCTION LEFT PAREN A826 A8 DC '(' ; = 003B C SET C+1 = 003B CDSLPR EQU C A827 A8 DC '(' ; = 003C C SET C+1 = 003C CACOM EQU C ; ARRAY COMMA A828 AC DC ',' ;Function Name Table ; PART OF ONTAB ; ; A829 FNTAB ; = 003D C SET C+1 = 003D CFFUN EQU C ; FIRST FUNCTION CODE = 003D CSTR EQU C A829 53542AA4 DC 'STR$' = 003E C SET C+1 = 003E CCHR EQU C A82D BC DC 'CHR$' = 003F C SET C+1 = 003F CUSR EQU C ; USR FUNCTION CODE A831 5553D2 DC 'USR' = 0040 C SET C+1 = 0040 CASC EQU C A834 4153C3 DC 'ASC' = 0041 C SET C+1 = 0041 CVAL EQU C A837 5641CC DC 'VAL' = 0042 C SET C+1 = 0042 CLEN EQU C A83A BC DC 'LEN' = 0043 C SET C+1 = 0043 CADR EQU C A83D 4144D2 DC 'ADR' = 0044 C SET C+1 = 0044 CNFPN EQU C A840 4154CE DC 'ATN' A843 434FD3 DC 'COS' A846 504545CB DC 'PEEK' A84A 5349CE DC 'SIN' A84D 524EC4 DC 'RND' A850 4652C5 DC 'FRE' A853 4558D0 DC 'EXP' A856 4C4FC7 DC 'LOG' A859 434C4FC7 DC 'CLOG' A85D 5351D2 DC 'SQR' A860 5347CE DC 'SGN' A863 4142D3 DC 'ABS' A866 494ED4 DC 'INT' A869 504144444C DC 'PADDLE' C5 A86F 53544943CB DC 'STICK' A874 50545249C7 DC 'PTRIG' A879 53545249C7 DC 'STRIG' ; A87E 00 DB $00 ; ; END OF OPTAB & FNTAB ;----------180 ; Memory manager A87F LOCAL ; ; MEMORY MANAGEMENT CONSISTS OF EXPANDING AND ; CONTRACTING TO INFORMATION AREA POINTED TO ; BY THE ZERO PAGE POINTER TABLES. ROUTINES ; MODIFY THE ADDRESS IN THE TABLES AND ; MOVE DATA AS REQUIRED. THE TWO FUNDAMENTAL ; ROUTINES ARE 'EXPAND' AND 'CONTRACT' ;EXPAND ; X = ZERO PAGE ADDRESS OF TABLE AT WHICH ; EXPANSION IS TO START ; Y = EXPANSION SIZE IN BYTES [LOW] ; A = EXPANSION SIZE IN BYTES [HIGH] ; ; EXPLOW - FOR EXPANSION < 256 BYTES ; SETS A = 0 ; A87F A900 EXPLOW LDA #0 ; A881 EXPAND A881 84A4 STY ECSIZE ; SAVE EXPAND SIZE A883 85A5 STA ECSIZE+1 ; A885 38 SEC A886 A590 LDA MEMTOP ; TEST MEMORY TO BE FULL A888 65A4 ADC ECSIZE A88A A8 TAY ; MEMTOP+ECSIZE+1 A88B A591 LDA MEMTOP+1 A88D 65A5 ADC ECSIZE+1 ; MUST BE LE A88F CDE602 CMP HIMEM+1 A892 900C ^A8A0 BCC :EXP2 ; HIMEM A894 D007 ^A89D BNE :EXP1 A896 CCE502 CPY HIMEM A899 9005 ^A8A0 BCC :EXP2 A89B F003 ^A8A0 BEQ :EXP2 A89D 4C3CB9 :EXP1 JMP MEMFULL ; A8A0 :EXP2 A8A0 38 SEC ; FORM MOVE LENGTH [MVLNG] A8A1 A590 LDA MEMTOP ; MOVE FROM ADR [MVFA] A8A3 F500 SBC 0,X ; MVLNG = MEMTOP-EXPAND ADR A8A5 85A2 STA MVLNG A8A7 A591 LDA MEMTOP+1 ; MVFA[L] = EXP ADR [L] A8A9 F501 SBC 1,X A8AB 85A3 STA MVLNG+1 ; MVFA[H] = EXP ADR [H] + MVLNG[H] A8AD 18 CLC ; DURING MOVE MVLNG[L] A8AE 7501 ADC 1,X ; WILL BE ADDED SUCH A8B0 859A STA MVFA+1 ; THAT MVFA = MEMTOP ; A8B2 B500 LDA 0,X ; SAVE PREMOVE EXPAND AT VALUE A8B4 8599 STA MVFA ; SET MVFA LOW A8B6 8597 STA SVESA ; FORM MOVE TO ADR [MVTA] A8B8 65A4 ADC ECSIZE ; MVTA[L] = EXP ADR[L] + ECSIZE[L] A8BA 859B STA MVTA ; MVTA[H] = [CARRY + EXP AD-[H] A8BC B501 LDA 1,X ; +ECSIZE[H]] + MVLNG[H] A8BE 8598 STA SVESA+1 A8C0 65A5 ADC ECSIZE+1 ; DURING MOVE MVLNG[L] A8C2 65A3 ADC MVLNG+1 ; WILL BE ADDED SUCH THAT A8C4 859C STA MVTA+1 ; MVTA = MEMTOP + ECSIZE ; A8C6 :EXP3 ;----------181 A8C6 B500 LDA 0,X ; ADD ECSIZE TO A8C8 65A4 ADC ECSIZE ; ALL TABLE ENTRIES A8CA 9500 STA 0,X ; FROM EXPAND AT ADR A8CC B501 LDA 1,X ; TO HIMEM A8CE 65A5 ADC ECSIZE+1A8D0 9501 STA 1,X A8D2 E8 INX A8D3 E8 INX A8D4 E092 CPX *MEMTOP+2 A8D6 90EE ^A8C6 BCC :EXP3 A8D8 850F STA APHM+1 ; SET NEW APL A8DA A590 LDA MEMTOP ; HI MEM TO A8DC 850E STA APHM ; MEMTOP ; A8DE A6A3 LDX MVLNG+1 ; X = MVLNG[H] A8E0 E8 INX ; PLUS ONE A8El A4A2 LDY MVLNG ; Y = MVLNG[L] A8E3 D00B ^ABF0 BNE :EXP6 ; TEST ZERO LENGTH A8E5 F0l0 ^A8F7 BEQ :EXP7 ; BR IF LOW = 0 ; A8E7 88 :EXP4 DEY ; DEC MVLNG[L] A8E8 C69A DEC MVFA+1 ; DEC MVFA[H] A8EA C69C DEC MVTA+1 ; DEC MVTA[H] ; A8EC B199 :EXP5 LDA [MVFA],Y ; MVFA BYTE A8EE 919B STA [MVTA],Y ; TO MVTA A8F0 88 :EXP6 DEY ; DEC COUNT LOW A8F1 D0F9 ^A8EC BNE :EXP5 ; BR IF NOT ZERO ; A8F3 B199 LDA [MVFA],Y ; MOVE THE ZERO BYTE A8F5 919B STA [MVTA],Y A8F7 :EXP7 A8F7 CA DEX ; IF MVLNG[H] IS NOT A8F8 D0ED ^A8E7 BNE :EXP4 ; ZERO THEN MOVE 256 MORE ; ELSE A8FA 60 RTS ; DONE ;CONTRACT ; X = ZERO PAGE ADR OF TABLE AT WHICH ; CONTRACTION WILL START ; Y = CONTRACT SIZE IN BYTES [LOW] ; A = CONTRACT SIZE IN BYTES [HI] ; CONTLOW ; SETS A = 0 ; A8FB A900 CONTLOW LDA #0 ; A8FD CONTRACT A8FD 84A4 STY ECSIZE ; SAVE CONTRACT SIZE A8FF 85A5 STA ECSIZE+1 ; A901 38 SEC ; FORM MOVE LENGTH [LOW] A902 A590 LDA MEMTOP A904 F500 SBC 0,X ; MVLNG[L] = $100- A906 49FF EOR #$FF ; [MEMTOP[L]] - CON AT VALUE [L] A908 A8 TAY ; THIS MAKES START Y AT A909 C8 INY ; MOVE HAVE A 2'S COMPLEMENT A90A 84A2 STY MVLNG ; REMAINDER IN IT ; A90C A591 LDA MEMTOP+1 ; FORM MOVE LENGTH[HIGH] A90E F501 SBC 1,X A910 85A3 STA MVLNG+1 ; A912 B500 LDA 0,X ; FORM MOVE FROM ADR [MVFA] A9l4 E5A2 SBC MVLNG ; MVFA = CON AT VALUE A916 8599 STA MVFA ; MINUS MVLNG[L] A918 B501 LDA 1,X ; DURING MOVE MVLNG[L] ;---------182 A9lA E900 SBC #0 ; WILL BE ADDED BACK INTO A9lC 859A STA MVFA+1 ; MVFA IN [IND],Y INST ; A91E 869B STX MVTA ; TEMP SAVE OF CON AT DISPL A920 38 :CONT1 SEC ;SUBTRACT ECSIZE FROM A921 B500 LDA 0,X ; ALL TABLE ENTRY FROM A923 E5A4 SBC ECSIZE ; CON AT ADR TO HIMEM A925 9500 STA 0,X A927 B501 LDA 1,X A929 E5A5 SBC ECSIZE+1 A92B 9501 STA 1,X A92D E8 INX A92E E8 INX A92F E092 CPX #MEMTOP+2 A931 90ED ^A920 BCC :CONT1 A933 850F STA APHM+1 ; SET NEW APL A935 A590 LDA MEMTOP ; HI MEM TO A937 850E STA APHM ; MEMTOP ; A939 A69B LDX MVTA ; A93B B500 LDA 0,X ; FORM MOVE TO ADR [MVTA] A93D E5A2 SBC MVLNG ; MVTA = NEW CON AT VALUE A93F 859B STA MVTA ; MINUS MVLNG [L] A941 B501 LDA 1,X ; DURING MOVE MVLNG[L] A943 E900 SBC #0 ; WILL BE ADDED BACK INTO A945 859C STA MVTA+1 ; MVTA IN [INO],Y INST ; A947 FMOVER A947 A6A3 LDX MVLNG+1 ; GET MOVE LENGTH HIGH A949 E8 INX ; INC SO MOVE CAN BNE A94A A4A2 LDY MVLNG ; GET MOVE LENGTH LOW A94C D006 ^A954 BNE :CONT2 ; IF NOT ZERO GO A94E F00B ^A95B BEQ :CONT4 ; BR IF LOW = 0 ; A950 E69A :CONT3 INC MVFA+1 ;INC MVFA[H] A952 E69C INC MVTA+1 ; INC MVTA[H] ; A954 B199 :CONT2 LDA [MVFA],Y ; GET MOVE FROM BYTE A956 919B STA [MVTA],Y ; SET MOVE TO BYTE A958 C8 INY ; INCREMENT COUNT LOW A959 D0F9 ^A954 BNE :CONT2 ; BR IF NOT ZERO ; A95B :CONT4 A95B CA DEX ; DECREMENT COUNT HIGH A95C D0F2 ^A950 BNE :CONT3 ; BR IF NOT ZERO A95E 68 RTS ; ELSE DONE Execute Control A95F LOCAL ;EXECNL - Execute Next Line ; START PROGRAM EXECUTOR ; A95F EXECNL A95F 201BB8 JSR SETLN1 ; SET UP LIN & NXT STMT ;EXECNS - Execute Next Statement A962 EXECNS A962 20F4A9 JSR TSTBRK ; TEST BREAK A965 D035 ^A99C BNE :EXBRK ; BR IF BREAK A967 A4A7 LDY NXTSTD ;GET PTR TO NEXT STMT L A969 C49F CPY LLNGTH ;AT END OF LINE A96B B01C ^A989 BCS :EXEOL ; BR IF EOL ; ;---------183 A96D B18A LDA [STMCUR],Y ;GET NEW STMT LENGTH A96F 85A7 STA NXTSTD ;SAVE AS FURURE STMT LENGTH A971 98 TYA ;Y=DISPL TO THIS STMT LENGTH A972 C8 INY ;PLUS 1 IS DISPL TO CODE A973 B18A LDA [STMCUR],Y ;GET CODE A975 C8 INY ;INC TO STMT MEAT A976 84A8 STY STINDEX ;SET WORK INDEX ; A978 207EA9 JSR :STGO ;GO EXECUTE A97B 4C62A9 JMP EXECNS ;THEN DO NEXT STMT ; A97E :STGO ASLA ;TOKEN*2 A97E +0A ASL A A97F AA TAX A980 BD00AA LDA STETAB,X ; GET ADR AND A983 48 PHA ;PUSH TO STACK A984 BD01AA LDA STETAB+1,X ; AND GO TO A987 48 PHA ;VIA A988 60 RTS ;RTS ; A989 :EXEOL A989 A001 LDY #1 A98B B18A LDA [STMCUR],Y A98D 3010 ^A99F BMI :EXFD ; BR IF DIR ; A98F A59F LDA LLNGTH ;GET LINE LENGTH A991 20D0A9 JSR GNXTL ;INC STMCUR A994 20E2A9 JSR TENDST ;TST END STMT TABLE A997 10C6 ^A95F BPL EXECNL ;BR NOT END ; A999 4C8DB7 :EXDONE JMP XEND ; GO BACK TO SYNTAX A99C 4C93B7 :EXBRK JMP XSTOP ; BREAK, DO STOP A99F 4C5DA0 :EXFD JMP SNX3 ; GO TO SYNTAX VIA READY MSG ;GETSTMT-Get Statement in statement Table ; SEARCH FOR STATEMENT THAT HAS TSLNUM ; SET STMCUR TO POINT TO IT IF FOUND ; OR TO WHERE IT WOULD GO IF NOT FOUND ; CARRY SET IF NOT FOUND A9A2 GETSTMT ; ; SAVE CURRENT LINE ADDR ; A9A2 A58A LDA STMCUR A9A4 85BE STA SAVCUR A9A6 A58B LDA STMCUR+1 A9A8 85BF STA SAVCUR+1 A9AA A589 LDA STMTAB+1 ;START AT TOP OF TABLE A9AC A488 LDY STMTAB ; A9AE 858B STA STMCUR+1 ;SET STMCUR A9B0 848A STY STMCUR ; ; A9B2 A001 :GS2 LDY #1 A9B4 B18A LDA [STMCUR],Y ;GET STMT LNO [HI] A9B6 C5A1 CMP TSLNUM+1 ;TEST WITH TSLNUM A9B8 900D ^A9C7 BCC :GS3 ;BR IF STS A9BC 88 DEY :GS3 ;S=TS, TST LOW BYTE ??? A9BD B18A LDA [STMCUR],Y A9BF C5A0 CMP TSLNUM A9C1 9004 ^A9C7 BCC :GS3 ;BR STS A9C5 18 CLC ;S=TS, CLEAR CARRY A9C6 :GSRT1 A9C6 60 RTS ;AND RETURN [FOUND] ; A9C7 20DDA9 :GS3 JSR GETLL ;GO GET THIS GUYS LENGTH ;---------184 A9CA 20D0A9 JSR GETNXTL A9CD 4CB2A9 JMP :GS2 ; A9D0 GNXTL A9D0 18 CLC A9D1 658A ADC STMCUR ;ADD LENGTH TO STMCUR A9D3 858A STA STMCUR A9D5 A8 TAY A9D6 A58B LDA STMCUR+1 A9D8 6900 ADC #0 A9DA 858B STA STMCUR+1 A9DC 60 RTS A9DD A002 GETLL LDY #2 A9DF B18A LDA [STMCUR],Y A9E1 60 RTS ;TENDST-Test End of Statement Table A9E2 TENDST A9E2 A001 LDY #1 ; INDEX TO CNO ['I] A9E4 B18A LDA [STMCUR],Y ; GET CNO [HI] A9E6 60 RTS A9E7 XREM A9E7 XDATA A9E7 60 TESTRTS RTS ;XBYE-Execute BYE A9E8 XBYE A9E8 2041BD JSR CLSALL ; CLOSE 1-7 A9EB 4C71E4 JMP BYELOC ; EXIT ;XDOS-Execute DOS A9EE XDOS A9EE 2041BD JSR CLSALL ; CLOSE 1-7 A9F1 6C0A00 JMP [DOSLOC] ; GO TO DOS ;TSTBRK-Test for Break A9F4 TSTBRK A9F4 A000 LDY #0 ; A9F6 A511 LDA BRKBYT ; LOAD BREAK BYTE A9F8 D004 ^A9FE BNE :TB2 A9FA A0FF LDY #$FF A9FC 8411 STY BRKBYT A9FE 98 :TB2 TYA ; SET COND CODE A9FF 60 RTS ; DONE ; Statement Execution Table ;STETAB-STATEMENT EXECUTION TABLE ; -CONTAINS STMT EXECUTION ADR ; -MUST BE IN SAME ORDER AS SNTAB ; AA00 STETAB AA00 FDB XREM-1 AA00 +A9E6 DW REV (XREM-1) AA02 FDB XDATA-1 AA02 +A9E6 DW REV (XDATA-1) = 0001 CDATA EQU (*-STETAB)/2-1 AA04 FDB XINPUT-1 AA04 +B315 DW REV (XINPUT-1) AA06 FDB XCOLOR-1 AA06 +BA28 DW REV (XCOLOR-1) AA08 FDB XLIST-1 AA08 +B482 DW REV (XLIST-1) = 0004 CLIST EQU (*-STETAB)/2-1 ;----------185 AA0A FDB XENTER-1 AA0A +BACA DW REV (XENTER-1) AA0C FDB XLET-1 AA0C +AADF DW REV (XLET-1) AA0E FDB XIF-1 AA0E +B777 DW REV (XIF-1) AA10 FDB XFOR-1 AA10 +B64A DW REV (XFOR-1) = 0008 CFOR EQU (*-STETAB)/2-1 AA12 FDB XNEXT-1 AA12 +B6CE DW REV (XNEXT-1) AA14 FDB XGOTO-1 AA14 +B6A2 DW REV (XGOTO-1) AA16 FDB XGOTO-1 AA16 +B6A2 DW REV (XGOTO-1) AA18 FDB XGOSUB-1 AA18 +B69F DW REV (XGOSUB-1) = 000C CGOSUB EQU (*-STETEAB)/2-1 AA1A FDB XTRAP-1 AA1A +B7E0 DW REV (XTRAP-1) AA1C FDB XBYE-1 AA1C +A9E7 DW REV (XBYE-1) AA1E FDB XCONT-1 AA1E +B7BD DW REV (XCONT-1) AA20 FDB XCOM-1 AA20 +B1D8 DW REV (XCOM-1) AA22 FDB XCLOSE-1 AA22 +BC1A DW REV (XCLOSE-1) AA24 FDB XCLR-1 AA24 +B765 DW REV (XCLR-1) AA26 FDB XDEG-1 AA26 +B260 DW REV (XDEG-1) AA28 FDB XDIM-1 AA28 +B1D8 DW REV (XDIM-1) AA2A FDB XEND-1 AA2A +B78C DW REV (XEND-1) AA2C FDB XNEW-1 AA2C +A00B DW REV (XNEW-1) AA2E FDB XOPEN-1 AA2E +BBEA DW REV (XOPEN-1) AA30 FDB XLOAD-1 AA30 +BAFA DW REV (XLOAD-1) AA32 FDB XSAVE-1 AA32 +BB5C DW REV (XSAVE-1) AA34 FDB XSTATUS-1 AA34 +BC27 DW REV (XSTATUS-1) AA36 FDB XNOTE-1 AA36 +BC35 DW REV (XNOTE-1) AA38 FDB XPOINT-1 AA38 +BC4C DW REV (XPOINT-1) AA3A FDB XXIO-1 AA3A +BBE4 DW REV (XXIO-1) AA3C FDB XON-1 AA3C +B7EC DW REV (XON-1) = 001E CON EQU (*-STETAB)/2-1 AA3E FDB XPOKE-1 AA3E +B24B DW REV (XPOKE-1) AA40 FDB XPRINT-1 AA40 +B3B5 DW REV (XPRINT-1) AA42 FDB XRAD-1 AA42 +B265 DW REV (XRAD-1) AA44 FDB XREAD-1 AA44 +B282 DW REV (XREAD-1) = 0022 CREAD EQU (*-STETAB)/2-1 AA46 FDB XREST-1 AA46 +B26A DW REV (XREST-1) AA48 FDB XRTN-1 AA48 +B718 DW REV (XRTN-1) AA4A FDB XRUN-1 AA4A +B74C DW REV (XRUN-1) AA4C FDB XSTOP-1 ;----------186 AA4C +B792 DW REV (XSTOP-1) AA4E FDB XPOP-1 AA4E +B840 DW REV (XPOP-1) AA50 FDB XPRINT-1 AA50 +B3B5 DW REV (XPRINT-1) AA52 FDB XGET-1 AA52 +BC7E DW REV (XGET-1) AA54 FDB XPUT-1 AA54 +BC71 DW REV (XPUT-1) AA56 FDB XGR-1 AA56 +BA4F DW REV (XGR-1) AA58 FDB XPLOT-1 AA58 +BA75 DW REV (XPLOT-1) AA5A FDB XPOS-1 AA5A +BA15 DW REV (XPOS-1) AA5C FDB XDOS-1 AA5C +A9ED DW REV (XDOS-1) AA5E FDB XDRAWTO-1 AA5E +BA30 DW REV (XDRAWTO-1) AA60 FDB XSETCOLOR-1 AA60 +B9B6 DW REV (XSETCOLOR-1) AA62 FDB XLOCATE-1 AA62 +BC94 DW REV (XLOCATE-1) AA64 FDB XSOUND-1 AA64 +B9DC DW REV (XSOUND-1) AA66 FDB XLPRINT-1 AA66 +B463 DW REV (XLPRINT-1) AA68 FDB XCSAVE-1 AA68 +BBA3 DW REV (XCSAVE-1) AA6A FDB XCLOAD-1 AA6A +BBAB DW REV (XCLOAD-1) AA6C FDB XLET-1 AA6C +AADF DW REV (XLET-1) = 0036 CILET EQU (*-STETAB)/2-1 AA6E FDB XERR-1 AA6E +B91D DW REV (XERR-1) = 0037 CERR EQU (*-STETAB)/2-1 ; Operator Execution Table ; OPETAB - OPERATOR EXECUTION TABLE ; - CONTAINS OPERATOR EXECUTION ADR ; - MUST BE IN SAME ORDER AS OPNTAB AA70 OPETAB AA70 FDB XPLE-1 AA70 +ACB4 DW REV (XPLE-1) AA72 FDB XPNE-1 AA72 +ACBD DW REV (XPNE-1) AA74 FDB XPGE-1 AA74 +ACD4 DW REV (XPGE-1) AA76 FDB XPLT-1 AA76 +ACC4 DW REV (XPLT-1) AA78 FDB XPGT-1 AA78 +ACCB DW REV (XPGT-1) AA7A FDB XPEQ-1 AA7A +ACDB DW REV (XPEQ-1) AA7C FDB XPPOWER-1 AA7C +B164 DW REV (XPPOWER-1) AA7E FDB XPMUL-1 AA7E +AC95 DW REV (XPMUL-1) AA80 FDB XPPLUS-1 AA80 +AC83 DW REV (XPPLUS-1) AA82 FDB XPMINUS-1 AA82 +AC8C DW REV (XPMINUS-1) AA84 FDB XPDIV-1 AA84 +AC9E DW REV (XPDIV-1) AA86 FDB XPNOT-1 AA86 +ACF8 DW REV (XPNOT-1) AA88 FDB XPOR-1 AA88 +ACED DW REV (XPOR-1) ;----------187 AA8A FDB XPAND-1 AA8A +ACE2 DW REV (XPAND-1) AA8C FDB XPLPRN-1 AA8C +AB1E DW REV (XPLPRN-1) AA8E FDB XPRPRN-1 AA8E +AD7A DW REV (XPRPRN-1) AA90 FDB XPAASN-1 AA90 +AD5E DW REV (XPAASN-1) AA92 FDB XSAASN-1 AA92 +AEA2 DW REV (XSAASN-1) AA94 FDB XPSLE-1 AA94 +ACB4 DW REV (XPLSE-1) AA96 FDB XPSNE-1 AA96 +ACBD DW REV (XPSNE-1) AA98 FDB XPSGE-1 AA98 +ACD4 DW REV (XPSGE-1) AA9A FDB XPSLT-1 AA9A +ACC4 DW REV (XPSLT-1) AA9C FDB XPSGT-1 AA9C +ACCB DW REV (XPSGT-1) AA9E FDB XPEQ-1 AA9E +ACDB DW REV (XPEQ-1) AAA0 FDB XPUPLUS-1 AAA0 +ACB3 DW REV (XPUPLUS-1) AAA2 FDB XPUMINUS-1 AAA2 +ACA7 DW REV (XPUMINUS-1) AAA4 FDB XPSLPRN-1 AAA4 +AE25 DW REV (XPSLPRN-1) AAA6 FDB XPALPRN-1 AAA6 +AD85 DW REV (XPALPRN-1) AAA8 FDB XPDLPRN-1 AAA8 +AD81 DW REV (XPDLPRN-1) AAAA FDB XPFLPRN-1 AAAA +AD7A DW REV (XPFLPRN-1) AAAC FDB XDPSLP-1 AAAC +AD81 DW REV (XSPSLP-1) AAAE FDB XPACOM-1 AAAE +AD78 DW REV (XPACOM-1) ; AAB0 FDB XPSTR-1 AAB0 +B048 DW REV (XPSTR-1) AAB2 FDB XPCHR-1 AAB2 +B066 DW REV (XPCHR-1) AAB4 FDB XPUSR-1 AAB4 +B0B9 DW REV (XPUSR-1) AAB6 FDB XPASC-1 AAB6 +B011 DW REV (XPASC-1) AAB8 FDB XPVAL-1 AAB8 +AFFF DW REV (XPVAL-1) AABA FDB XPLEN-1 AABA +AFC9 DW REV (XPLEN-1) AABC FDB XPADR-1 AABC +B01B DW REV (XPADR-1) AABE FDB XPATN-1 AABE +B12E DW REV (XPATN-1) AAC0 FDB XPCOS-1 AAC0 +B124 DW REV (XPCOS-1) AAC2 FDB XPPEEK-1 AAC2 +AFE0 DW REV (XPPEEK-1) AAC4 FDB XPSIN-1 AAC4 +B11A DW REV (XPSIN-1) AAC6 FDB XPRND-1 AAC6 +B08A DW REV (XPRND-1) AAC8 FDB XPFRE-1 AAC8 +AFEA DW REV (XPFRE-1) AACA FDB XPEXP-1 AACA +B14C DW REV (XPEXP-1) AACC FDB XPLOG-1 AACC +B138 DW REV (XPLOG-1) AACE FDB XPL10-1 AACE +B142 DW REV (XPL10-1) ;----------188 AAD0 FDB XPSQR-1 AAD0 +B156 DW REV (XPSQR-1) AAD2 FDB XPSGN-1 AAD2 +AD18 DW REV (XPSGN-1) AAD4 FDB XPABS-1 AAD4 +B0AD DW REV (XPABS-1) AAD6 FDB XPINT-1 AAD6 +B0DC DW REV (XPINT-1) AAD8 FDB XPPDL-1 AAD8 +B021 DW REV (XPPDL-1) AADA FDB XPSTICK-1 AADA +B025 DW REV (XPSTICK-1) AADC FDB XPPTRIG-1 AADC +B029 DW REV (XPPTRIG-1) AADE FDB XPSTRIG-1 AADE +B02D DW REV (XPSTRIG-1) ; Execute Expression AAE0 LOCAL ;EXEXPR-Execute Expression AAE0 XLET AAE0 EXEXPR AAE0 202EAB JSR EXPINT ; GO INIT ; AAE3 :EXNXT AAE3 203EAB JSR :EGTOKEN ; GO GET TOKEN AAE6 B006 ^AAEE BCS :EXOT ; BR IF OPERATOR ; AAE8 20BAAB JSR ARGPUSH ; PUSH ARGUMENT AAEB 4CE3AA JMP :EXNXT ; GO FOR NEXT TOKEN ; AAEE 85AB :EXOT STA EXSVOP ; SAVE OPERATOR AAF0 AA TAX AAF1 BD2FAC LDA OPRTAB-16,X ; GET OP PREC AAF4 LSRA ; SHIFT FOR GOES ON TO PREC AAF4 +4A LSR A AAF5 LSRA AAF5 +4A LSR A AAF6 LSRA AAF6 +4A LSR A AAF7 LSRA AAF7 +4A LSR A AAF8 85AC STA EXSVPR ; SAVE GOES ON PREC ; AAFA A4A9 :EXPTST LDY OPSTKX ; GET OP STACK INDEX AAFC B180 LDA [ARGSTK],Y ; GET TOP OP AAFE AA TAX AAFF BD2FAC LDA OPRTAB-16,X ; GET TOP OP PREC AB02 290F AND #$0F AB04 C5AC CMP EXSVPR ; [TOP OP]: [NEW OP] AB06 900D ^AB15 BCC :EOPUSH ; IF T 32767 ABDC 60 RTS ; DONE ABDD 4C32B8 :GPIERR JMP ERRLN ;GETINT-Get Integer Expression ABE0 20E0AA GETINT JSR EXEXPR ; EVAL EXPR ABE3 GTINTO ABE3 20F2AB JSR ARGPOP ; POP VELUE TO FR0 ABE6 4C56AD JMP CVFPI ; GO CONVERT FR0 TO INT & RETURN ;GET1INT-Get One-Byte Integer from Expression ABE9 GET1INT ABE9 20D5AB JSR GETPINT ; GET INT <32768 ABEC D001 ^ABEF BNE :ERV1 ; IF NOT 1 BYTE, THEN ERROR ABEE 60 RTS ABEF :ERV1 ABEF 203AB9 JSR ERVAL ;ARGPOP-Pop Argument Stack Entry to FR0 or FR1 ABF2 ARGPOP ABF2 A5AA LDA ARSLVL ; GET ARG STACK LEVEL ABF4 C6AA DEC ARSLVL ; DEC AS LEVEL ABF6 ASLA ; AS LEVEL * 8 ABF6 +0A ASL A ABF7 ASLA ABF7 +0A ASL A ABF8 ASLA ABF8 +0A ASL A ABF9 A8 TAY ; Y = START OF NEXT ENTRY ABFA 88 DEY ; MINUS ONE ABFB A207 LDX #7 ; X = 7 FOR 8 ; ABFD B180 :APOP0 LDA [ARGOPS],Y ; MOVE ARG ENTRY ABFF 95D2 STA VTYPE,X AC01 88 DEY ; BACKWARDS AC02 CA DEX AC03 10F8 ^ABFD BPL :APOP0 AC05 60 RTS ; DONE ;ARGP2-Pop TOS to FR1,TOS-1 to FR0 AC06 20F2AB ARGP2 JSR ARGPOP ; POP TOS TO FR0 AC09 20B6DD JSR MV0TO1 ; MOVE FR0 TO FR1 AC0C 4CF2AB JMP ARGPOP ; POP TOS TO FR0 AND RETURN ;POP1-Get Value in FR0 ; - EVALUATE EXPRESSION IN STMT LINE & ; POP IT INTO FR0 ; AC0F POP1 AC0F 20E0AA JSR EXEXPR ; EVALUATE EXPRESSION AC12 20F2AB JSR ARGPOP ; PUSH INTO FR0 AC15 60 RTS ;----------192 AC16 RTNVAR AC16 A5D3 LDA VNUM ; GET VAR NUMBER AC18 2028AC JSR GVVTADR AC1B A200 LDX #0 ; AC1D B5D2 :RV1 LDA VTYPE,X ; MOVE FR0 TO AC1F 919D STA [WVVTPT],Y ; VAR VALUE TABLE AC21 C8 INY AC22 E8 INX AC23 E008 CPX #8 AC25 90F6 ^AC1D BCC :RV1 AC27 60 RTS ; DONE ;GVVTADR-Get Value's Value Table Entry Address AC28 GVVTADR AC28 A000 LDY #0 ; CLEAR ADR HI AC2A 849E STY WVVTPT+1 AC2C ASLA ; MULT VAR NO AC2C +0A ASL A AC2D ASLA ; BY 8 AC2D +0A ASL A AC2E 269E ROL WVVTPT+1 AC30 ASLA AC30 +0A ASL A AC31 269E ROL WVVTPT+1 AC33 18 CLC ; THEN AC34 6586 ADC VVTP ; ADD VVTP VALUE AC36 859D STA WVVTPT ; TO FORM ENTRY AC38 A587 LDA VVTP+1 ; ADR AC3A 659E ADC WVVTPT+1 AC3C 859E STA WVVTPT+1 AC3E 60 RTS ; Operator Precedence Table ; - ENTRIES MUST BE IN SAME ORDER AS OPNTAB ; - LEFT NIBBLE IS TO GO ON STACK PREC ; - RIGHT NIBBLE IS COME OFF STACK PREC ; AC3F OPRTAB AC3F 00 DB $00 ; CDQ AC40 00 DB $00 ; CSOE AC41 00 DB $00 ; CCOM AC42 00 DB $00 ; CDOL AC43 00 DB $00 ; CEOS AC44 00 DB $00 ; CSC AC45 00 DB $00 ; CCR AC46 00 DB $00 ; CGTO AC47 00 DB $00 ; CGS AC48 00 DB $00 ; CTO AC49 00 DB $00 ; CSTEP AC4A 00 DB $00 ; CTHEN AC4B 00 DB $00 ; CPND AC4C 00 DB $00 ; CLE AC4D 00 DB $00 ; CNE AC4E 00 DB $00 ; CGE AC4F 88 DB $88 ; CGT AC50 88 DB $88 ; CLT AC51 88 DB $88 ; CEQ AC52 CC DB $CC ; CEXP AC53 AA DB $AA ; CMUL AC54 99 DB $99 ; CPLUS AC55 99 DB $99 ; CMINUS AC56 AA DB $AA ; CDIV AC57 77 DB $77 ; CNOT AC58 55 DB $55 ; COR AC59 66 DB $66 ; CAND AC5A F2 DB $F2 ; CLPRN ;----------193 AC5B 4E DB $4E ; CRPRN AC5C F1 DB $F1 ; CAASN AC5D F1 DB $F1 ; CSASN AC5E EE DB $EE ; CSLE AC5F EE DB $EE ; CSNE AC60 EE DB $EE ; CSGE AC61 EE DB $EE ; CSLT AC62 EE DB $EE ; CSGT AC63 EE DB $EE ; CSEQ AC64 DD DB $DD ; CUPLUS AC65 DD DB $DD ; CUMINUS AC66 F2 DB $F2 ; CSLPRN AC67 F2 DB $F2 ; CALPRN AC68 F2 DB $F2 ; CDLPRN AC69 F2 DB $F2 ; CFLPRN AC6A F2 DB $F2 ; CDSLPR AC6B 43 DB $43 ; CACOM ; AC6C F2 DB $F2 ; FUNCTIONS AC6D F2 DB $F2 AC6E F2 DB $F2 AC6F F2 DB $F2 AC70 F2 DB $F2 AC71 F2 DB $F2 AC72 F2 DB $F2 AC73 F2 DB $F2 AC74 F2 DB $F2 AC75 F2 DB $F2 AC76 F2 DB $F2 AC77 F2 DB $F2 AC78 F2 DB $F2 AC79 F2 DB $F2 AC7A F2 DB $F2 AC7B F2 DB $F2 AC7C F2 DB $F2 AC7D F2 DB $F2 AC7E F2 DB $F2 AC7F F2 DB $F2 AC80 F2 DB $F2 AC81 F2 DB $F2 AC82 F2 DB $F2 AC83 F2 DB $F2 ; Miscellaneous Operators ;Miscellaneous Operators' Executors AC84 XPLUS AC84 2006AC JSR ARGP2 AC87 203BAD JSR FRADD AC8A 4CBAAB JMP ARGPUSH AC8D XPMINUS AC8D 2006AC JSR ARGP2 AC90 2041AD JSR FRSUB AC93 4CBAAB JMP ARGPUSH AC96 XPMUL AC96 2006AC JSR ARGP2 AC99 2047AD JSR FRMUL AC9C 4CBAAB JMP ARGPUSH AC9F XPDIV AC9F 2006AC JSR ARGP2 ACA2 204DAD JSR FRDIV ACA5 4CBAAB JMP ARGPUSH ACA8 XPUMINUS ACA8 20F2AB JSR ARGPOP ;GET ARGUMENT INTO FR0 ACAB A5D4 LDA FR0 ;GET BYTE WITH SIGN ACAD 4980 EOR #$80 ;FLIP SIGN BIT ACAF 85D4 STA FR0 ;RETURN BYTE WITH SIGN CHANGED ACB1 4CBAAB JMP ARGPUSH ;PUSH ON STACKS ACB4 XPUPLUS ;----------194 ACB4 60 RTS ACB5 XPLE ACB5 XPSLE ACB5 2026AD JSR XCMP ACB9 304B ^AD05 BMI XTRUE ACBA F049 ^AD05 BEQ XTRUE ACBC 1042 ^AD00 BPL XFALSE ACBE XPNE ACBE XPSNE ACBE 2026AD JSR XCMP ACC1 F03D ^AD00 BEQ XFALSE ACC3 D040 ^AD05 BNE XTRUE ACC5 XPLT ACC5 XPSLT ACC5 2026AD JSR XCMP ACC8 303B ^AD05 BMI XTRUE ACCA 1034 ^AD00 BPL XFALSE ACCC XPGT ACCC XPSGT ACCC 2026AD JSR XCOMP ACCF 302F ^AD00 BMI XFALSE ACD1 F02D ^AD00 BEQ XFALSE ACD3 1030 ^AD05 BPL XTRUE ACD5 XPGE ACD5 XPSGE ACD5 2026AD JSR XCOMP ACD8 3026 ^AD00 BMI XFALSE ACDA 1029 ^AD05 BPL XTRUE ACDC XPEQ ACDC XPSEQ ACDC 2026AD JSR XCOMP ACDF F024 ^AD05 BEQ XTRUE ACE1 D01D ^AD00 BNE XFALSE ; ACE3 XPAND ACE3 2006AC JSR ARGP2 ACE6 A5D4 LDA FR0 ACE8 25E0 AND FR1 ACEA F014 ^AD00 BEQ XFALSE ACEC D017 ^AD05 BNE XTRUE ACEE XPOR ACEE 2006AC JSR ARGP2 ACF1 A5D4 LDA FR0 ACF3 05E0 ORA FR1 ACF5 F009 ^AD00 BEQ XFALSE ACF7 D00C ^AD05 BNE XTRUE ACF9 XPNOT ACF9 20F2AB JSR ARGPOP ACFC A5D4 LDA FR0 ACFE F005 ^AD05 BEQ XTRUE ; FALL THROUGH TO FALSE ; ; AD00 XFALSE AD00 A900 LDA #0 AD02 A8 TAY AD03 F004 ^AD09 BEQ XTF ; AD05 XTRUE AD05 A940 LDA #$40 AD07 XTI AD07 A001 LDY #1 ; AD09 XTF AD09 85D4 STA FR0 AD0B 84D5 STY FR0+1 AD0D A2D6 LDX #FR0+2 ; POINT TO PART TO CLEAR AD0F A004 LDY #FPRES-2 ; GET # OF BYTES TO CLEAR AD11 2048DA JSR ZXLY ; CLEAR REST OF FR0 AD14 85D2 STA VTYPE AD16 XPUSH AD16 4CBAAB JMP ARGPUSH ;----------195 ;XPSGN-Sign Function AD19 XPSIGN AD19 20F2AB JSR ARGPOP AD1C A5D4 LDA FR0 AD1E F0F6 ^AD16 BEQ XPUSH AD20 10E3 ^AD05 BPL XTRUE AD22 A9C0 LDA #$C0 ; GET MINUS EXPONENT AD24 30E1 ^AD07 BMI XTI ;XCMP-Compare Executor AD26 XCMP AD26 20F2AB LDY OPSTKX ; GET OPERATOR THAT AD28 88 DEY ; GOT US HERE AD29 B100 LDA [ARGSTK],Y AD2B C92F CMP #CSLE ; IF OP WAS ARETHMETIC AD2D 9003 ^AD32 BCC FROMPP ; THEN DO FP REG COMP AD2F 4C81AF JMP STRCMP ; ELSE DO STRING COMPARE ; AD32 2006AC FRCMPP JSR ARGP2 ;FRCMP-Compare Two Floating Point Numbers ; ON ENTRY FR0 & FR1 CONTAIN FLAOTING POINT #'S ; ; ON EXIT CC = + FR0 > FR1 ; CC = - FR0 < FR1 ; CC = 0 FRE0 = FR1 ; ; AD35 FRCMP AD35 2041AD JSR FRSUB ; SUBSTRACT FR1 FROM FR0 ; AD38 A5D4 LDA FR0 ; GET FR0 EXPONENT AD3A 60 RTS ; RETURN WITH CC SET ;FRADD-Floating Point Add ; DOES NOT RETURN IF ERROR ; AD3B FRADD AD3B 2066DA JSR FADD ; ADD TWO # AD3E B013 ^AD53 BCS :ERROV ; BR IF ERROR AD40 60 RTS ;FRSUB-Floating Point Substract ; DOES NOT RETURN IF ERROR ; AD41 FRSUB AD41 2060DA JSR FSUB ; SUB TWO # AD44 B00D ^AD53 BCS :ERROV ; BR IF ERROR AD46 60 RTS ;FRMUL-Floating Point Multiply ; DOES NOT RETURN IF ERROR ; AD47 FRMUL AD47 20DBDA JSR FMUL ; MULT TWO # AD4A B007 ^AD53 BCS :ERROV ; BR IF ERROR AD4C 60 RTS ;FRDIV-Floating Point Divide ; DOES NOT RETURN IF ERROR ; AD4D FRDIV AD4D 20DBDA JSR FDIV ; DIVIDE TWO # ;----------196 AD50 B001 ^AD53 BCS :ERROV ; BR IF ERROR AD52 60 RTS ; ; ; ;CVFPI-Convert Floating Point to Integer ; DOES NOT RETURN IF ERROR ; AD56 CVFPI AD56 20D2D9 JSR FPI ; GO CONVERT TO INTEGER AD59 B00D ^AD5C BCS :ERRVAL ; IF ERROR, BR AD5B 60 RTS ; ELSE RETURN ; ; ; AD5C :ERRVAL AD5C 203AB9 JSR ERVAL ; VALUE ERROR ;XPAASN-Arithmetic Assignement Operator AD5F XPAASN AD5F A5A9 LDA OPSTKX ; GET OP STACK INDEX AD61 C9FF CMP #$FF ; AT STACK START AD63 D00F ^AD74 BNE :AAMAT ; BR IF NOT, [MAT ASSIGN] ; DO SCALAR ASSIGN AD65 2006AC JSR ARGP2 ; GO POP TOP 2 ARGS AD68 A205 LDX #5 ; MOVE FR1 VALUE AD6A B5E0 :AASN1 LDA FR1,X ; TO FR0 AD6C 95D4 STA FR0,X AD6E CA DEX AD6F 10F9 ^AD6A BPL :AASN1 AD71 4C16AC JMP RTNVAR ; FR0 TO VVT & RETURN ; AD74 :AAMAT AD74 A980 LDA #$80 ; SET ASSIGN FLAG BIT ON AD76 85B1 STA ADFLAG ; IN ASSIGN/DIM FLAG AD78 60 RTS ; GO POP REM OFF OPS ;XPACOM-Array Comma Operator AD79 XPACOM AD79 E6B0 INC COMCNT ; INCREMENT COMMA COUNT ;XPRPRN-Right Parenthesis Operator ; XPFLPRN - FUNCTION RIGHT PAREN OPERATOR ; AD7B XPRPRN AD7B XPFLPRN AD7B A4A9 LDY OPSTKX ; GET OPERATOR STACK TOP AD7D 68 PLA AD7E 68 PLA AD7F 4C0BAB JMP EXOPOP ; GO POP AND EXECUTE NEXT OPERATOR ; ;XPDLPRN-DIM Left Parenthesis Operator AD82 XDPSLP AD82 XPDLPRN AD82 A940 LDA #$40 ; SET DIM FLAG BIT AD84 85B1 STA ADFLAG ; IN ADFLAG FALL THRU TO XPALPRN ;----------197 ;XPALPRN-Array Left Parenthesis Operator AD86 XPALPRN AD86 24B1 BIT ADFLAG ; IF NOT ASSIGN AD88 1006 ^AD90 BPL :ALP1 ; THE BRANCH ; ELSE AD8A A5AA LDA ARSLVL ; SAVE STACK LEVEL AD8C 85AF STA ATEMP ;OP THE VALUE ASSIGNEMENT AD8E C6AA DEC ARSLVL ; AND PSEUDO POP IT ; AD90 A900 :ALP1 LDA #0 ; INIT FOR I2 = 0 AD92 A8 TAY AD93 C5B0 CMP COMCNT ; IF COMMA COUNT =0 THEN AD95 F00B ^ADA2 BEQ :ALP2 ; BR WITH I2 = 0 ; ELSE AD97 C6B0 DEC COMCNT AD99 20E3AB JSR GTINTO ; ELSE POP I2 AND MAKE INT AD9C A5D5 LDA FR0+1 AD9E 3023 ^ADC3 BMI :ALPER ; ERROR IF 32,767 ADA0 A4D4 LDY FR0 ; ADA2 8598 :ALP2 STA INDEX2+1 ; SET 12 VALUE ADA4 8497 STY INDEX2 ; ADA6 20E3AB JSR GTINTO ; POP I2 AND MAKE INT ADA9 A5D4 LDA FR0 ; MOVE IT ADAB 85F5 STA ZTEMP1 ; TO ZTEMP1 ADAD A5D5 LDA FR0+1 ADAF 3012 ^ADC3 BMI :ALPER ; ERROR IF > 32,767 ADB1 85F6 STA ZTEMP1+1 ; ADB3 20F2AB JSR ARGPOP ; POP THE ARRAY ENTRY ; ADB6 24B1 BIT ADFLAG ; IF NOT EXECUTING DIM ADB8 5005 ^ADBF BVC :ALP3 ; THEN CONTINUE ADBA A900 LDA #0 ; TURN OFF DIM BIT ADBC 85B1 STA ADFLAG ; IN ADFLAG ADBE 60 RTS ; AND RETURN ; ADBF :ALP3 ADBF 66D2 ROR VTYPE ; IF ARRAY HAS BEEN ADC1 B003 ^ADC6 BCS :ALP4 ; DIMMED THEN CONTINUE ADC3 202EB9 :ALPER JRS ERRDIM ; ELSE DIM ERROR ; ADC6 :ALP4 ADC6 A5F6 LDA ZTEMP1+1 ; THEN INDEX 1 ADC8 C5D7 CMP VTYPE+EVAD1+1 ; IN RANGE WITH ADCA 9008 ^ADD4 BCC :ALP5 ; DIM1 ADCC D0F5 ^ADC3 BNE :ALPER ADCE A5F5 LDA ZTEMP1 ADD0 C5D6 CMP VTYPE+EVAD1 ADD2 B0EF ^ADC3 BCS :ALPER ; ADD4 A598 :ALP5 LDA INDEX2+1 ; TEST INDEX 2 ADD6 C5D9 CMP VTYPE+EVAD2+1 ; IN RANGE WITH ADD8 9008 ^ADE2 BCC :ALP6 ; DIM 2 ADDA D0E7 ^ADC3 BNE :ALPER ADDC A597 LDA INDEX2 ADDE C5D8 CMP VTYPE+EVAD2 ADE0 B0E1 ^ADC3 BCS :ALPER ; ADE2 205DAF :ALP6 JSR AMUL1 ; INDEX1 = INDEX1 ADE5 A597 LDA INDEX2 ; INDEX1 = INDEX1 + INDEX2 ADE7 A498 LDY INDEX2+1 ADE9 2052AF JSR AADD ADEC 2046AF JSR AMUL2 ; ZTEMP1 = ZTEMP1*6 ADEF A5D4 LDA VTYPE+EVAADR ; ZTEMP1 = ZTEMP1 + DISPL ADF1 A4D5 LDY VTYPE+EVAADR+1 ADF3 2052AF JSR AADD ADF6 A58C LDA STARP ; ZTEMP1 = ZTEMP1 + ADR ;----------198 ADF0 A48D LDY STARP+1 ADFA 2052AF JSR AADD ; ZTEMP1 NOW POINTS ; TO ELEMENT REQD ADFD 24B1 BIT ADFLAG ; IF NOT ASSIGN ADFF 1015 ^AE16 BPL :ALP8 ; THEN CONTINUE ; ELSE ASSIGN AE01 A5AF LDA ATEMP ;RESTORE ARG LEVEL AE03 85AA STA ARSLVL ; TO VALUE AND AE05 20F2AB JSR ARGPOP ; POP VALUE ; AE08 A005 LDY #5 AE0A B9D400 :ALP7 LDA FR0,Y ; MOVE VALUE AE0D 91F5 STA [ZTEMP1],Y ; TO ELEMENT SPACE AE0F 88 DEY AE10 10F8 ^AE0A BPL :ALP7 AE12 C8 INY ; TURN OFF AE13 84B1 STY ADFLAG ; ADFLAG AE15 60 RTS ; DONE ; AE16 A005 :ALP8 LDY #5 AE18 B1F5 :ALP9 LDA [ZTEMP1],Y ; MOVE ELEMENT TO AE1A 99D400 STA FR0,Y ; FR0 AE1D 88 DEY AE1E 10F8 ^AE18 BPL :ALP9 ; AE20 C8 INY AE21 84D2 STY VTYPE AE23 4CBAAB JMP ARGPUSH ; PUSH FR0 BACK TO STACK ; AND RETURN ;XPLPRN-String Left Parenthesis AE26 XPSLPRN AE26 A5B0 LDA COMCNT ; IF NO INDEX 2 AE28 F007 ^AE31 BEQ :XSLP2 ; THEN BR ; AE2A 2096AE JSR :XSPV ; ELSE POP I2 AND AE2D 8498 STY INDEX2+1 ;SAVE IN INDEX 2 ; AE31 2096AE :XSLP2 JSR :XSPV ; POP INDEX 1 AE34 38 SEC ; ADD DECREMENT BY ONE AE35 E901 SBC #1 ; AND PUT INTO ZTEMP1 AE37 85F5 STA ZTEMP1 AE39 98 TYA AE3A E900 SBC #0 AE3C 85F6 STA ZTEMP1+1 ; AE3E 20F2AB JSR ARGPOP ; POP ARG STRING ; AE41 A5B1 LDA ADFLAG ; IF NOT A DEST STRING AE43 100B ^AE50 BPL :XSLP3 ; THEN BRANCH AE45 05B0 ORA COMCNT AE47 85B1 STA ADFLAG AE49 A4D9 LDY VTYPE+EVSDIM+1 ; INDEX 2 LIMIT AE4B A5D8 LDA VTYPE+EVSDIM ; IS DIM AE4D 4C54AE JMP :XSLP4 ; AE50 A5D6 :XSLP3 LDA VTYPE+EVSLEN ; INDEX 2 LIMIT AE52 A4D7 LDY VTYPE+EVSLEN+1 ; IS STRING LENGTH ; AE54 A6B0 :XSLP4 LDX COMCNT ; IF NO INDEX 2 AE56 F010 ^AE68 BEQ :XSLP6 ; THEN BRANCH AE58 C6B0 DEC COMCNT ; ELSE AE5A C498 CPY INDEX2+1 AE5C 9035 ^AE93 BCC :XSLER AE5E D004 ^AE64 BNE :XSLP5 ; INDEX 2 LIMIT AE60 C597 CMP INDEX2 AE62 902F ^AE93 BCC :XSLER ; ;----------199 AE64 A498 :XSLP5 LDY INDEX2+1 ;USE INDEX2 AE66 A597 LDA INDEX2 ;AS LIMIT ; AE68 38 :XSLP6 SEC ; LENGTH IS AE69 E5F5 SBC ZTEMP1 AE6B 85D6 STA VTYPE+EVSLEN ; LIMIT - INDEX 1 AE6D AA TAX AE6E 98 TYA AE6F E5F6 SBC ZTEMP1+1 AE71 85D7 STA VTYPE+EVSLEN+1 AE73 901E ^AE93 BCC :XSLER ; LENGTH MUST BE AE75 A8 TAY ; GE ZERO AE76 D003 ^AE7B BNE :XSLP7 AE78 8A TXA AE79 F018 ^AE93 BEQ :XSLER ; AE7B 209BAB :XSLP7 JSR GSTRAD ; GET ABS ADR ; AE7E 18 CLC AE7F A5D4 LDA VTYPE+EVSADR AE81 65F5 ADC ZTEMP1 ; STRING ADR AE83 85D4 STA VTYPE+EVSADR ; STRING ADR + INDEX 1 AE85 A5D5 LDA VTYPE+EVSADR+1 AE87 65F6 ADC ZTYPE1+1 AE89 85D5 STA VTYPE+EVSADR+1 ; AE8B 24B1 BIT ADFLAG ; IF NOT ASSIGN AE8D 1001 ^AE90 BPL :XSLP8 ; THEN BR AE8F 60 RTS ; ELSE RETURN TO ASSIGN ; AE90 4CBAAB :XSLP8 JMP ARGPUSH ; PUSH ARG AND RETURN ; AE93 2036B9 :XSLER JSR ERRSSL ;XSPV-Pop Index Value as Integer and Insure Not Zero AE96 :XSPV AE96 20E3AB JSR GTINTO ; GO GET THE INTEGER AE99 A5D4 LDA FR0 ; GET VALUE LOW AE9B A4D5 LDY FR0+1 ; GET VALUE HI AE9D D003 ^AEA2 :XSPV1 BNE :XSPVR ; RTN IF VH NOT ZERO AE9F AA TAX ; TEST VL AEA0 F0F1 ^AE93 BEQ :XSLER ; BR VL, VH = 0 AEA2 60 :XSPVR RTS ; DONE ;XSAASN-String Assign Operator AEA3 XSAASN AEA3 2098AB JSR AAPSTR ; POP STR WITH ABS ADR AEA6 RISASN AEA6 A5D4 LDA VTYPE+EVSADR ; MVFA = ADR AEA8 8599 STA MVFA AEAA A5D5 LDA VTYPE+EVSADR+1 AEAC 859A STA MVFA+1 AEAE A5D6 LDA VTYPE+EVSLEN AEB0 85A2 STA MVLNG ; MVLNG = LENGTH AEB2 A4D7 LDA VTYPE+EVSLEN+1 AEB4 84A3 STY MVLNG+1 ; AEB6 A4A9 LDY OPSTKX ; IF AT TOP OF AEB8 C0FF CPY #$FF ; OP STACK AEBA F00F ^AECB BEQ :XSA1 ; THEN BR ; ELSE AEBC A980 LDA #$80 ; SET ASSIGN BIT AEBE 85B1 STA ADFLAG ; IN ASSIGN/DIM FLAG AEC0 200BAB JSR EXOPOP ; AND PROCESS SUBSTRING AEC3 A5D7 LDA VTYPE+EVSLEN+1 ; A,Y = AEC5 A4D6 LDY VTYPE+EVSLEN ; DEST LEN AEC7 26B1 ROL ADFLAG ; TURN OFF ASSIGN AEC9 B007 ^AED2 BCS :XSA2A ; AND BR ;----------200 ; AECB 2098AB :XSA1 JSR AAPSTR ; POP STR WITH ABS ADR ; AECE A5D9 :XSA2 LDA VTYPE+EVSDIM+1 ; A,Y = DEST LENGTH AED0 A4D8 LDY VTYPE+EVSDIM ; AED2 :XSA2A AED2 C5A3 CMP MVLNG+1 ; IF DEST LENGTH AED4 9006 ^AEDC BCC :XSA3 ; LESS THAT MOVE LENGTH AED6 D008 ^AEE0 :XSA4 AED8 C4A2 CPY MVLNG ; THEN AEDA B004 ^AEE0 BCS :XSA4 AEDC 85A3 :XSA3 STA MVLNG+1 ; SET MOVE LENGTH AEDE 84A2 STY MVLNG ; = DIST LENGT ; AEE0 18 :XSA4 CLC AEE1 A5D4 LDA VTYPE+EVSDAR ; MOVE LENGTH PLUS AEE3 65A2 ADC MVLNG ; START ADR IS AEE5 A8 TAY ; END ADR AEE6 A5D5 LDA VTYPE+EVSADR+1 AEE8 65A3 ADC MVLNG+1 AEEA AA TAX ; AEEB 38 SEC ; END ADR MINUS AEEC 98 TYA ; START OF STRING AEED E58C SBC STARP ; SPACE IS DISPL AEEF 85F9 STA ZTEMP3 ; TO END OF STRING AEF1 8A TXA ; WHICH WE SAVE AEF2 E58D SBC STARP+1 ; IN ZTEMP3 AEF4 85FA STA ZTEMP3+1 ; ; AEF6 38 SEC ; SET MOVE LENGTH LOW AEF7 A900 LDA #0 ; = $100 - MVL [L] AEF9 E5A2 SBC MVLNG ; BECAUSE OF THE WAY AEFB 85A2 STA MVLNG ; FMOVE WORKS ; AEFD 38 SEC AEFE A599 LDA MVFA ; ADJUST MVFA TO AF00 E5A2 SBC MVLNG ; CONFORM WITH MVL AF02 8599 STA MVFA ; CHANGE AF04 A59A LDA MVFA+1 AF06 E900 SBC #0 AF08 859A STA MVFA+1 ; AF0A 38 SEC AF0B A5D4 LDA VTYPE+EVSADR ; MOVE THE DEST AF0D E5A2 SBC MVLNG ; STRING ADR TO AF0F 859B STA MVTA ; MVTA AND AF11 A5D5 LDA VTYPE+EVSADR+1 ; MAAKE IT CONFORM AF13 E900 SBC #0 ; WITH MVL AF15 859C STA MVTA+1 ; AF17 2047A9 JSR FMOVER ;GO DO THE VERY FAST MOVE ; ; AF1A A5D3 LDA VNUM ; GO GET THE ORIGINAL DEST AF1C 2089AB JSR GETVAR ; STRING AF1F 38 SEC ; DISPL TO END OF AF20 A5F9 LDA ZTEMP3 ; MOVE MINUS DISPL AF22 E5D4 SBC VTYPE+EVSADR ; TO START OF STRING AF24 A8 TAY ; IS OUR RESULT LENGTH AF25 A5FA LDA ZTEMP3+1 AF27 E5D5 SBC VTYPE+EVSADR+1 AF29 AA TAX ; AF2A A902 LDA #2 ; IF THE DESTINATION AF2C 25B1 AND ADFLAG ; LENGTH WAS IMPLICIT AF2E F00F ^AF3F BEQ :XSA5 ; SET NEW LENGTH AF30 A900 LDA #0 ; CLEAR ;----------201 AF32 85B1 STA ADFLAG ; FLAG ; ELSE FOR EXPLICT LENGTH AF34 E4D7 CPX VTYPE+EVSLEN+1 ; IF NEW LENGTH AF36 9006 ^AF3E BCC :XSA6 ; GREATER THAN AF38 D005 ^AF3F BNE :XSA5 ; OLD LENGTH THEN AF3A C4D6 CPY VTYPE+EVSLEN ; SET NEW LENGTH AF3C B001 ^AF3F BCS :XSA5 ; ELSE DO NOTHING AF3E 60 :XSA6 RTS ; AF3F 84D6 :XSA5 STY VTYPE+EVSLEN AF41 86D7 STX VTYPE+EVSLEN+1 AF43 4C16AC JMP RTNVAR ;AMUL2-Integer Multiplication of ZTEMP1 by 6 AF46 AMUL2 AF46 06F5 ASL ZTEMP1 ; ZTEMP1 = ZTEMP1*2 AF48 26F6 ROL ZTEMP1+1 AF4A A4F6 LDY ZTEMP1+1 ; SAVE ZTEMP1*2 IN [A,Y] AF4C A5F5 LDA ZTEMP1 AF4E 06F5 ASL ZTEMP1 ; ZTEMP1 = ZTEMP1*4 AF50 26F6 ROL ZTEMP1+1 ;AADD-Integer Addition of [A,Y] to ZTEMP1 AF52 AADD AF52 18 CLC AF53 65F5 ADC ADC ZTEMP1 ; ADD LOW ORDER AF55 85F5 STA ZTEMP1 AF57 98 TYA AF58 65F6 ADC ZTEMP1+1 ; ADD HIGH ORDER AF5A 85F6 STA ZTEMP1+1 AF5C 60 RTS ; DONE ;AMUL-Integer Multiplication of ZTEMP1 by DIM2 AF5D AMUL1 AF5D A900 LDA #0 ; CLEAR PARTIAL PRODUCT AF5F 85F7 STA ZTEMP4 AF61 85F8 STA ZTEMP4+1 AF63 A010 LDY #$10 ; SET FOR 16 BITS ; AF65 A5F5 :AM1 LDA ZTEMP1 ; GET MULTIPLICAN AF67 LSRA ; TEST MSB = ON AF67 +4A LSR A AF68 900C ^AF76 BCC :AM3 ; BR IF OFF AF6A 18 CLC AF6B A2FE LDX #$FE ; ADD MULTIPLIER AF6D B5F9 :AM2 LDA ZTEMP4+2,X ; TO PARTIAL PRODUCT AF6F 75DA ADC VTYPE+EVAD2+2,X AF71 95F9 STA ZTEMP4+2,X AF73 E8 INX AF74 D0F7 ^AF6D BNE :AM2 ; AF76 A203 :AM3 LDX #3 ; MULT PRODUCT BY 2 AF87 76F5 :AM4 ROR ZTEMP1,X AF7A CA DEX AF7B 10FB ^AF78 BPL :AM4 ; AF7D 88 DEY ; TEST MORE BITS AF7E D0E5 ^AF65 BNE :AM1 ; BR IF MORE ; AF80 60 RTS ; DONE ;STRCMP-String Compare AF81 STRCMP AF81 2098AB JSR AAPSTR ; POP STRING WITH ABS ADR AF84 20B6DD JSR MV0TO1 ; MOVE B TO FR1 AF87 2098AB JSR AAPSTR ; POP STRING WITH ABS ADR ;----------202 ; AF8A A2D6 SC1 LDX #FR0-2+EVSLEN ;GO DEC STR A LEN AF8C 20BCAF JSR ZPADEC AF8F 08 PHP ; SAVE RTN CODE AF90 A2E2 LDX #FR1-2+EVSLEN ; GO DEC STR B LEN AF92 20BCAF JSR ZPADEC AF95 F013 ^AFAA BEQ :SC2 ; BR STR B LEN = 0 AF97 28 PLP ; GET STR A COND CODE AF98 F00D ^AFA7 BEQ :SCLT ; BR STR A LEN = 0 ; AF9A A000 LDY #0 ; COMPARE A BYTE AF9C B1D4 LDA [FR0-2+EVSADR],Y ; OF STRING A AF9E D1E0 CMP [FR1-2+EVSADR],Y ; TO STRING B AFA0 F00C ^AFAE BEQ :SC3 ; BR IF SAME AFA2 9003 ^AFA7 BCC :SCLT ; BR IF AB AFA6 60 RTS ; AFA7 :SCLT LDA #$80 ; AB AFAD 60 :SCEQ RTS ; ELSE A=B AFAE E6D4 :SC3 INC FR0-2+EVSADR ; INC STR A ADR AFB0 D002 ^AFB4 BNE :SC4 AFB2 E6D5 INC FR0-1+EVSADR AFB4 E6E0 :SC4 INC FR1-2+EVSADR ; INC STR B ADR AFB6 D0D2 ^AF8A BNE :SC1 AFB8 E6E1 INC FR1-1+EVSADR AFBA D0CE ^AF8A BNE :SC1 ;ZPADEC-Decrement a Zero-Page Double Word AFBC ZPADEC AFBC B500 LDA 0,X ; GET LOW BYTE AFBE D006 ^AFC6 BNE :ZPAD1 ; BR NOT ZERO AFC0 B501 LDA 1,X ; GET HI BYTE AFC2 F005 ^AFC9 BEQ :ZPADR ; BR IF ZERO AFC4 D601 DEC 1,X ; DEC HIGH BYTE AFC6 D600 :ZPAD1 DEC 0,X ; DEC LOW BYTE AFC8 A8 TAY ; SET NE COND CODE AFC9 60 :ZPADR RTS ; RETURN ; Functions ;XPLEN-Length Function AFCA XPLEN AFCA 2098AB JSR AAPSTR ; POP STRING WITH ABS ADR AFCD A5D6 LDA VTYPE+EVSLEN ; MOVE LENGTH AFCF A4D7 LDY VTYPE+EVSLEN+1 AFD1 XPIFP AFD1 85D4 STA FR0 ; TO TOP OF FR0 AFD3 84D5 STY FR0+1 AFD5 20AAD9 XPIFP1 JSR CVIFP ; AND CONVERT TO FP AFD8 XPIFP2 ; AFD8 A900 LDA #0 ; CLEAR AFDA 85D2 STA VTYPE ; TYPE AND AFDC 85D3 STA VNUM ; NUMBER AFDE 4CBAAB JMP ARGPUSH ; PUSH TO STACK AND RETURN ;XPPEEK-Peek Function AFE1 XPPEEK AFE1 20E3AB JSR GTINTO ; GET INT ARG AFE4 A000 LDY #0 AFE6 B1D4 LDA [FR0],Y ; GET MEM BYTE AFE8 4CD1AF JMP XPIFP ; GO PUSH AS FP ;----------203 ;XPFRE-FRE Function AFEB XPFRE AFEB 20F2AB JSR ARGPOP ; POP DUMMY ARG AFEE 38 SEC AFEF ADE502 LDA HIMEM ; NO FREE BYTES AFF2 E590 SBC MEMTOP ; = HIMEM-MEMTOP AFF4 85D4 STA FR0 AFF6 ADE602 LDA HIMEM+1 AFF9 E591 SBC MEMTOP+1 AFFB 85D5 STA FR0+1 AFFD 4CD5AF JMP XPIFP1 ; GO PUSH AS FP ;XPVAL-VAL Function B000 XPVAL B000 2079BD JSR SETSEOL ; PUT EOL AT STR END ; B003 A900 LDA #0 ; GET NUMERIC TERMINATOR B005 85F2 STA CIX ; SET INDEX INTO BUFFER = 0 B007 2000D8 JSR CVAFP ; CONVERT TO F.P. ;Restore Character B00A 2099BD JSR RSTEOL ; RESET END OF STR ; B00D 90C9 ^AFD8 BCC XPIFP2 ; ; B00F :VERR B00F 201CB9 JSR ERSVAL ;XPASC-ASC Function B012 XPASC B012 2098AB JSR AAPSTR ; GET STRING ELEMENT ;Get1 > T Byte of String B015 A000 LDY #0 ; GET INDEX TO 1ST BYTE B017 B1D4 LDA [FR0-2+EVSADR],Y ; GET BYTE ; B019 4CD1AF JMP XPIFP ; ; B01C XPADR B01C 2098AB JSR AAPSTR ; GET STRING B01F 4CD5AF JMP XPIFP ; FINISH ;XPPDL-Function Paddle B022 XPPDL B022 A900 LDA #0 ; GET DISPL FROM BASE ADDR B024 F00A ^B030 BEQ :GRF ;XPSTICK-Function Joystick B026 XPSTICK B026 A908 LDA #8 ; GET DISP FROM BASE ADDR B028 D006 ^B030 BNE :GRF ;XPPTRIG-Function Paddle Trigger B02A XPPTRIG B02A A90C LDA #$0C ; GET DISPL FROM BASE ADDR B02C D002 ^B030 BNE :GRF ;XPSTRIG-Function Joystick Trigger B02E XPSTRIG B02E A914 LDA #$14 ; GET DISPL FROM BASE ADDR ; ;----------204 B030 :GRF B030 48 PHA B031 20E3AB JSR GTINTO ; GET INTEGER FROM STACK B034 A5D5 LDA FR0+1 ; HIGH ORDER BYTE B036 D00E ^B046 BNE :ERGRF ; SHOULD BE =0 B038 A5D4 LDA FR0 ; GET # ; B03A 68 PLA ; GET DISPL FROM BASE B03B 18 CLC B03C 65D4 ADC FR0 ; ADD MORE DISPL B03E AA TAX ; B03F BD7002 LDA GRFBAS,X ; GET VALUE B042 A000 LDY #0 B044 F08B ^AFD1 BEQ XPIFP ; GO CONVERT & PUSH ON STACK ; ;; ; B046 :ERGRF B046 203AB9 JSR ERVAL ;XPSTR-STR Function B049 XPSTR B049 20F2AB JSR ARGPOP ; GET VALUE IN FR0 ; B04C 20E6D8 JSR CVFASC ; CONVERT TO ASCII ;Build String Element B04F A5F3 LDA INBUFF ; SET ADDR B051 85D4 STA FR0-2+EVSADR ; B053 A5F4 LDA INBUFF+1 B055 85D5 STA FR0-1+EVSADR ;Get Length B057 A0FF LDY #$FF ; INIT FOR LENGTH COUNTER B059 :XSTR1 B059 C8 INY ; BUMP COUNT B05A B1F3 LDA [INBUFF],Y ; GET CHAR B05C 10FB ^B059 BPL :XSTR1 ; IS MSB NOT ON, REPEAT B05E 297F AND #$7F ; TURN OFF MSB B060 91F3 STA [INBUFF],Y ; RETURN CHAR TO BUFFER B062 C8 INY ; INC TO GET LENGTH ; B063 84D6 STY FR0-2+EVSLEN ; SET LENGTH LOW ; B065 D017 ^B07E BNE :CHR ; JOIN CHR FUNCTION ;XPCHR-CHR Function B067 XPCHR B067 20F2AB JSR ARGPOP ; GET VALUE IN FR0 ; B06A 2056AD JSR CVFPI ; CONVERT TO INTEGER B06D A5D4 LDA FR0 ; GET INTEGER LOW B06F 8DC005 STA LBUFF+$40 ; SAVE ;Build String Element B072 A905 LDA #(LBUFF+$40)/256 ; SET ADDR B074 85D5 85D5 STA FR0-1+EVSADR ; X B067 A9C0 LDA #(LBUFF+$40)&255 ; X B078 85D4 STA FR0-2+EVSADR ; X ; B07A A901 LDA #1 ; SET LENGTH LOW B07C 85D6 STA FR0-2+EVSLEN ; X B07E :CHR B07E A900 LDA #0 ; SET LENGTH HIGH B080 85D7 STA FR0-1+EVSLEN ; X ; ;----------205 B082 85D3 STA VNUM ; CLEAR VARIABLE # B084 A983 LDA #EVSTR+EVSDATA+EVDIM ; GET TYPE FLAG B086 85D2 STA VTYPE ; SET VARIABLE TYPE ; B088 4CBAAB JMP ARGPUSH ; PUSH ON STACK ;XPRND-RND Function B08B XPRND B08B A2A8 LDX #RNDDIV&255 ; POINT TO 65535 B08D A0B0 LDY #RNDDIV/256 ; X B08F 2098DD JSR FLD1R ;MOVE IT TO FR1 ; B092 20F2AB JSR ARGPOP ; CLEAR DUMMY FLAG ; B095 AC0AD2 LDY RNDLOC ; GET 2 BYTE RANDOM # B098 84D4 STY FR0 ; X B09A AC0AD2 LDY RNDLOC ; X B09D 84D5 STY FR0+1 ; X B09F 20AAD9 JSR CV1FP ; CONVERT TO INTEGER B0A2 204DAD JSR PRDIV ;DO DIVIDE ; B0A5 4CBAAB JMP ARGPUSH ; PUT IT ON STACK ; ; ; B0A8 4206553600 RNDDIV DB $42,$06,$55,$36,0,0 00 ;XPABS-Absolute Value Function B0AE XPABS B0AE 20F2AB JSR ARGPOP ;GET ARGUMENT B0B1 A5D4 LDA FR0 ;GET BYTE WITH SIGN B0B3 297F AND #$7F ;AND OUT SIGN B0B5 85D4 STA FR0 ;SAVE B0B7 4CBAAB JMP ARGPUSH ;PUSH ON STACK ;XPUSR-USR Function B0BA XPUSR B0BA 20C3B0 JSR :USR ;PUT RETURN ADDR IN CPU STACK B0BD 20AAD9 JSR CVIFP ; CONVERT FR0 TO FP B0C0 4CBAAB JMP ARGPUSH ; PUSH ON STACK ; ; ; B0C3 :USR B0C3 A5B0 LDA COMCNT ;GET COMMA COUNT B0C5 85C6 STA ZTEMP2 ;SET AS # OF ARG FOR LOOP CONTROL B0C7 :USR1 B0C7 20E3AB JSR GTINTO ; GET AN INTEGER FROM OP STACK B0CA C6C6 DEC ZTEMP2 ;DECR # OF ARGUMENTS B0CC 3009 ^B0D7 BMI :USR2 ;IF DONE THEM ALL, BRANCH ; B0CE A5D4 LDA FR0 ;GET ARGUMENT LOW B0D0 48 PHA ;PUSH ON STACK B0D1 A5D5 LDA FR0+1 ;GET ARGUMENT HIGH B0D3 48 PHA ;PUSH ON STACK B0D4 4CC7B0 JMP :USR1 ;GET NEXT ARGUMENT B0D7 :USR2 B0D7 A5B0 LDA COMCNT ;GET # OF ARGUMENTS B0D9 48 PHA ;PUSH ON CPU STACK B0DA 6CD400 JMP [FR0] ;GO TO USER ROUTINE ;XPINT B0DD XPINT B0DD 20F2AB JSR ARGPOP ; GET NUMBER B0E0 20E6B0 JSR XINT ; GET INTEGER B0E3 4CBAAB JMP ARGPUSH ; PUSH ON ARGUMENT STACK ;----------206 ;XINT-Take Integer Part of FR0 B0E6 XINT B0E6 A5D4 LDA FR0 ; GET EXPONENT B0E8 297F AND #$7F ; AND OUT SIGN BIT B0EA 38 SEC B0EB E93F SBC #$3F ; GET LOCATION OF 1ST FRACTION BYTE B0ED 1002 ^B0F1 BPL :XINT1 ; IF > OR = 0, THEN BRANCH B0EF A900 LDA #0 ; ELSE SET =0 ; B0F1 :XINT1 B0F1 AA TAX ; PUT IN X AS INDEX INTO FR0 B0F2 A900 LDA #0 ; SET ACCUM TO ZERO FOR ORING B0F4 A8 TAY ; ZERO Y B0F5 :INT2 B0F5 E005 CPX #FMPREC ; IS D.P. LOC > OF = 5? B0F7 B007 ^B100 BCS :XINT3 ; IF YES, LOOP DONE B0F9 15D5 ORA FR0M,X ; OR IN THE BYTE B0FB 94D5 STY FR0M,X ; ZERO BYTE B0FD E8 INX ; POINT TO NEXT BYTE B0FE D0F5 ^B0F5 BNE :INT2 ; UNCONDITIONAL BRANCH ; B100 :XINT3 B100 A6D4 LDX FR0 ; GET EXPONENT B102 1014 ^B118 BPL :XINT4 ; BR IF # IS PLUS B104 AA TAX ; GET TOTAL OF ORED BYTES & SET CC B105 F011 ^B118 BEQ :XINT4 ; IF ALL BYTES WERE ZERO BRANCH ; ; #IS NEGATIVE AND NOT A WHOLE # [ADD -1] B107 A2E0 LDX #FR1 B109 2046DA JSR ZF1 ; ZERO FR1 B10C A9C0 LDA #$C0 ; PUT -1 IN FR1 B10E 85E0 STA FR1 ; X B110 A901 LDA #1 ; X B112 85E1 STA FR1+1 ; X B114 203BAD JSR FRADD ; ADD IT B117 60 RTS B118 :XINT4 B118 4C00DC JMP NORM ; GO NORMALIZE ; Transcendental Functions ;XPSIN-Sine Function B11B XPSIN B11B 20F2AB JSR ARGPOP ; GET ARGUMENT B11E 20A7BD JSR SIN B121 B03F ^B162 BCS :TBAD B123 903A ^B15F BCC :TGOOD ;XPCOS-Cosine Function B125 XPCOS B125 20F2AB JSR ARGPOP ; GET ARGUMENT B128 20B1BD JSR COS B12B B035 ^B162 BCS :TBAD B12D 9030 ^B15F BCC :TGOOD ;XPATN-Arc Tangent Function B12F XPATN B12F 20F2AB JSR ARGPOP ; GET ARGUMENT B132 2077BE JSR ATAN B135 B02B ^B162 BCS :TBAD B137 9026 ^B15F BCC :TGOOD ;----------207 ;XPLOG-LOG Function B139 XPLOG B139 20F2AB JSR ARGPOP ; GET ARGUMENT B13C 20CDDE JSR LOG B13F B021 ^B162 BCS :TBAD B141 901C ^B15F BCC :TGOOD ;XPL10-LOG Base Function B143 XPL10 B143 20F2AB JSR ARGPOP ; GET ARGUMENT B146 20D1DE JSR LOG10 B149 B017 ^B162 BCS :TBAD B14B 9012 ^B15F BCC :TGOOD ;XPEXP-EXP Function B14D XPEXP B14D 20F2AB JSR ARGPOP ; GET ARGUMENT B150 20C0DD JSR EXP B153 B00D ^B162 BCS :TBAD B155 9008 ^B15F BCC :TGOOD ;XPSQR-Square Root Function B157 XPSQR B157 20F2AB JSR ARGPOP ; GET ARGUMENT B15A 20E5BE JSR SQR B15D B003 ^B162 BCS :TBAD ; ; FALL THREE TO :TGOOD B15F :TGOOD B15F 4CBAAB JMP ARGPUSH ; PUSH ARGUMENT ON STACK ; ; B162 :TBAD B162 203AB9 JSR ERVAL ;ZPPOWER-Exponential Operator[A**B] B165 XPPOWER B165 2006AC JSR ARGP2 ;GET ARGUMENT IN FR0,FR1 B168 A5D4 LDA FR0 ;IS BASE = 0 B16A D00B ^B177 BNE :N0 ;IF BASE NOT 0, BRANCH B16C A5E0 LDA FR1 ;TEST EXPONENT B16E F004 ^B174 BEQ :P0 ;IF = 0 ; BRANCH B170 10ED ^B15F BPL :TGOOD ;IF >0, ANSWER = 0 B172 30EE ^B162 BMI :TBAD ;IF <0, VALUE ERROR B174 :P0 B174 4C05AD JMP XTRUE ;IF =0, ANSWER = 1 B177 :N0 ; B177 1030 ^B1A9 BPL :SPEVEN ; IF BASE + THEN NO SPECIAL PROCESS B179 297F AND #$7F ; AND OUT SIGN BIT B17B 85D4 STA FR0 ; SET AS BASE EXPONENT ; B17D A5E0 LDA FR1 ; GET EXPONENT OF POWER B17F 297F AND #$7F ; AND OUT SIGN BIT B181 38 SEC B182 E940 SBC #$40 ; IS POWER <1? B184 30DC ^B162 BMI :TBAD ; IF YES, ERROR ; B186 A206 LDX #6 ; GET INDEX TO LAST DIGIT ; B188 C905 CMP #5 ; IF # CAN HAVE DECIMAL B18A 9004 ^B190 BCC :SP4 ; PORTION, THEN BR B18C A001 LDY #1 B18E D008 ^B198 BNE :SP3 B190 :SP4 ; B190 85F5 STA ZTEMP1 ; SAVE EXP -40 ;----------208 B192 38 SEC B193 A905 LDA #5 ;GET # OF BYTES POSSIBLE B195 E5F5 SBC ZTEMP1 ; GET # BYTES THAT COULD BE DECIMAL B197 A8 TAY ; SET COUNTER ; B198 :SP3 B198 CA DEX B199 88 DEY ; DEC COUNTER B19A F006 ^B1A2 BEQ :SP2 ; IF DONE GO TEST EVEN/ODD B19C B5E0 LDA FR1,X ;GET BYTE OF EXPONENT B19E D0C2 ^B162 BNE :TBAD ; IF NOT =0, THEN VALUE ERROR B1A0 F0F6 ^B198 BEQ :SP3 ; REPEAT ; B1A2 :SP2 B1A2 A080 LDY #$80 ; GET ODD FLAG B1A4 B5E0 LDA FR1,X ;GET BYTE OF EXPONENT B1A6 LSRA ; IS IT ODD[LAST BIT OFF]? B1A6 +4A LSR A B1A7 B002 ^B1AB BCS :POWR ; IF YES, BR ; B1A9 :SPEVEN B1A9 A000 LDY #0 B1AB :POWR B1AB 98 TYA B1AC 48 PHA ;Save Exponent [from FR1] B1AD A205 LDX #FMPREC ;GET POINTER INTO FR1 B1AF :POWR1 B1AF B5E0 LDA FR1,X ; GET A BYTE B1B1 48 PHA ;PUSH ON CPU STACK B1B2 CA DEX :POINT TO NEXT BYTE B1B3 10FA ^B1AF BPL :POWR1 ;BR IF MORE TO DO ; B1B5 20D1DE JSR LOG10 ;TAKE LOG OF BASE B1B8 B0A8 ^B162 BCS :TBAD ;Pull Exponent into FR1 [from CPU Stack] B1BA A200 LDX #0 ;GET POINTER INTO FR1 B1BC A005 LDY #FMPREC ;SET COUNTER B1BE :POWR2 B1BE 68 PLA B1BF 95E0 STA FR1,X ;PUT IN FR1 B1C1 E8 INX ;INCR POINTER B1C2 88 DEY ;DEC COUNTER B1C3 10F9 ^B1BE BPL :POWR2 ;BR IF MORE TO DO ; B1C5 2047AD JSR FRMUL ;GET LOG OF NUMBER B1C8 20CCDD JSR EXP10 ;GET NUMBER B1CB B009 ^B1D6 BCS :EROV ; B1CD 68 PLA ; GET EVEN/ODD FLAG B1CE 108F ^B15F BPL :TGOOD ; IF EVEN, GO PUT ON STACK ; B1D0 05D4 ORA FR0 ; IF ODD MAKE ANSWER- B1D2 85D4 STA FR0 ; X B1D4 D089 ^B15F BNE :TGOOD ; PUSH ON STACK ; B1D6 :EROV B1D6 202AB9 JSR EROVFL ;----------209 ; Statements ;XDIM & XCOM - Execute DIM and COMMON Statements B1D9 XDIM B1D9 XCOM ; B1D9 A4A8 :DC1 LDY STINDEX ; IF NOT AT B1DB C4A7 CPY NXTSTD ; STATEMENT END B1DD 9001 ^B1E0 BCC :DC2 ; THEN CONTINUE B1DF 60 RTS ; RETURN B1E0 20E0AA :DC2 JSR EXEXPR ; GO SET UP VIA EXECUTE EXPR B1E3 A5D2 LDA VTYPE ; GET VAR TYPE B1E5 RORA ; SHIFT DIM BIT TO CARRY B1E5 +6A ROR A B1E6 9003 ^B1EB BCC :DC3 ; CONTINUE IF NOT YET DIMMED B1E8 202EB9 :DCERR JSR ERRDIM ; ELSE ERROR ; B1EB 38 :DC3 SEC ; TURN ON B1EC ROLA ; DIM FLAG B1EC +2A ROL A B1ED 85D2 STA VTYPE ; AND RESET B1EF 302F ^B220 BMI :DCSTR ; AND BR IF STRING ; B1F1 A4F5 LDY ZTEMP1 ; INCI1 BY 1 B1F3 A6F6 LDX ZTEMP1+1 ; AND SET AS DIM1 B1F5 C8 INY B1F6 D003 ^B1FB BNE :DC4 B1F8 E8 INX B1F9 30ED ^B1E8 BMI :DCERR ; BR IF OUT OF BOUNDS B1FB 84D6 :DC4 STY VTYPE+EVAD1 B1FD 86D7 STX VTYPE+EVAD1+1 B1FF 84F5 STY ZTEMP1 ; ALSO PUT BACK ONTO B201 86F6 STX ZTEMP1+1 ; INDEX 1 FOR MULT ; B203 A497 LDY INDEX2 ; INC INDEX 2 BY 1 B205 A698 LDX INDEX2+1 ; AND SET AS DIM 2 B207 C8 INY B208 D003 ^B20D BNE :DC5 B20A E8 INX B20B 30DB ^B1E8 BMI :DCERR ; BR IF OUT OF BOUNDS B20D 84D8 :DC5 STY VTYPE+EVAD2 B20F 86D9 STX VTYPE+EVAD2+1 ; B211 205DAF JSR AMUL1 ; ZTEMP1 = ZTEMP1*D2 B214 2046AF JSR AMUL2 ; ZTEMP1 = ZTEMP1*6 RESULT IS AN ARRAY SPACE REQD B217 A4F5 LDY ZTEMP1 ; A,Y = LENGTH B219 A5F6 LDA ZTEMP1+1 B21B 30CB ^B1E8 BMI :DCERR B21D 4C34B2 JMP :DCEXP ; GO EXPAND ; B220 :DCSTR B220 A900 LDA #0 ; SET CURRENT LENGTH =0 B222 85D6 STA EVSLEN+VTYPE B224 85D7 STA EVSLEN+1+VTYPE ; B226 A4F5 LDY ZTEMP1 ; MOVE INDEX B228 84D8 STY VTYPE+EVSDIM ; TO STR DIM B22A A5F6 LDA ZTEMP1+1 ; [ALSO LOAD A,Y] B22C 85D9 STA VTYPE+EVSDIM+1 ; FOR EXPAND B22E D004 ^B234 BNE :DCEXP ; INSURE DIM B230 C000 CPY #0 ; NOT ZERO B232 F0B4 ^B1E8 BEQ :DCERR ; FOR STRING ; B234 :DCEXP B234 A38E LDX #ENDSTAR ; POINT TO END ST & ARRAY SPACE B236 2081A8 JSR EXPAND ; GO EXPAND ; ;----------210 B239 38 SEC B23A A597 LDA SVESA ; CALCULATE DISPL INTO B23C E58C SBC STARP ; ST/ARRAY SPACE B23E 85D4 STA VTYPE+EVSADR ; AND PUT INTO VALUE BOX B240 A598 LDA SVESA+1 B242 E58D SBC STARP+1 B244 85D5 STA VTYPE+EVSADR+1 ; B246 2016AC JSR RTNVAR ; RETURN TO VAR VALUE TABLE B249 4CD9B1 JMP :DC1 ; AND GO FOR NEXT ONE ;XPOKE - Execute POKE B24C XPOKE B24C 20E0AB JSR GETINT ; GET INTEGER ADDR B24F A5D4 LDA FR0 ; SAVE POKE ADDR B251 8595 STA POKADR ; B253 A5D5 LDA FR0+1 ; B255 8596 STA POKADR+1 ; ; B257 20E9AB JSR GET1INT ; GET 1 BYTE INTEGER TO POKE ; B25A A5D4 LDA FR0 ; GET INTEGER TO POKE B25C A000 LDY #0 ; GET INDEX B25E 9195 STA [POKADR],Y ;GET INDEX B260 60 RTS ;XDEG - Execute DEG B261 XDEG B261 A906 LDA #DEGON ; GET DEGREES FLAG B263 85FB STA RADFLG ; SET FOR TRANSCENDENTALS B265 60 RTS ;XDEG - Execute DEG B266 XDEG B266 A900 LDA #DEGON ; GET RADIAN FLAG B268 85FB STA RADFLG ; SET FOR TRANSCENDENTALS B26A 60 RTS ;XREST - Execute RESTORE Statement B26B XREST B26B A900 LDA #0 ; ZERO DATA DISPL B26D 85B6 STA DATAD ; B26F 2010B9 JSR TSTEND ; TEST END OF STMT B272 9003 ^B227 BCC :XR1 ; BR IF NOT END B274 A8 TAY ; RESTORE TO LN=0 B275 F007 ^B27E BEQ :XR2 ; B277 20D5AB :XR1 JSR GETINT ; GET LINE NO. ; B27A A5D5 LDA FR0+1 ; LOAD LINE NO. B27C A4D4 LDY FR0 ; B27E 84B8 :XR2 STA DATALN+1 : SET LINE B280 84B7 STY DATALN B282 60 RTS ; DONE ;XREAD - Execute READ Statement B283 XREAD B283 A5A8 LDA STINDEX ; SAVE STINDEX B285 48 PHA B286 20C7B6 JSR XGS ; SAVE READ STMT VIA GOSUB ; B289 A5B7 LDA DATALN ; MOVE DATALN TO TSLNUM B28B 85A0 STA TSLNUM B28D A5B8 LDA DATALN+1 B28F 85A1 STA TSLNUM=1 ;----------211 B291 20A2A9 JSR GETSTMT ; GO FIND TSLNUM ; B294 A58A LDA STMCUR ; MOVE STMCUR TO INBUFF B296 85F3 STA INBUFF B298 A58B LDA STMCUR+1 B29A 85F4 STA INBUFF+1 ; B29C 2019B7 JSR XRTN ; RETURN READ STMT VIA RETURN B29F 68 PLA ; GET SAVED STINDEX B2A0 84A8 STA STINDEX ; SET IT ; B2A2 :XRD1 B2A2 A000 LDY #0 ; SET CIX=0 B2A4 84F2 STY CIX ; SET CIX B2A6 2007B3 JSR :XRTN1 ; GET LINE NO. LOW B2A9 85B7 STA DATALN ; SET LINE NO. LOW B2AB 2005B3 JSR :XRNT B2AE 85B8 STA DATALN+1 ; SET LINE NO. HIGH B2B0 2005B3 JSR :XRNT B2B3 85F5 STA ZTEMP1 ; SET LINE LENGTH B2B5 :XRD2 B2B5 2005B3 JSR :XRNT B2B8 85F6 STA ZTEMP+1 ; SET STMT LENGTH ; B2BA 2005B3 JSR :XRNT ; GET STMT LINE TOKEN B2BD C901 CMP #CDATA ; IS IT DATA B2BF F026 ^B2E7 BEQ :XRD4 ; BR IF DATA ; B2C1 A4F6 LDY ZTEMP1+1 ; GET DISPL TO NEXT STMT B2C3 C4F5 CPY ZTEMP1 ; IS IT EOL B2C5 B005 ^B2CC BCS :XRD2A ; BR IF EOL B2C7 88 DEY B2C8 84F2 STY CIX ; SET NEW DISPL B2CA 90E9 ^B2B5 BCC :XRD2 ; AND CONTINUE THIS STMT ; B2CC 84F2 :XRD2A STY CIX B2CE C6F2 DEC CIX ; B2D0 A001 :XRD3 LDY #1 ; WAS THIS STMT THE B2D2 B1F3 LDA [INBUFF],Y ; DIRECT ONE B2D4 303D ^B313 BMI :XROOD ; BR IF IT WAS [OUT OF DATA] B2D6 38 SEC B2D7 A5F2 LDA CIX ; INBUFF + CIX + 1 B2D9 65F3 ADC INBUFF ; = ADR NEXT PGM LINE B2DB 85F3 STA INBUFF B2DD A900 LDA #0 B2DF 85B6 STA DATAD B2E1 65F4 ADC INBUFF+1 B2E3 85F4 STA INBUFF+1 B2E5 90BB ^B2A2 BCC :XRD1 ; GO SCANTHIS NEXT LINE ; B2E7 :XRD4 B2E7 A900 LDA #0 ; CLEAR ELEMENT COUNT B2E9 85F5 STA ZTEMP1 ; B2EB :XRD5 B2EB A5F5 LDA ZTEMP1 ; GET ELEMENT COUNT B2ED C5B6 CMP DATAD ; AT PROPER ELEMENT B2EF B00B ^B2FC BCS :XRD7 ; BR IF AT ; ELSE SCAN FOR NEXT B2F1 2005B3 :XRD6 JSR :XRNT ; GET CHAR B2F4 D0FB ^B2F1 BNE :XRD6 ; BR IF NOT CR OR COMMA B2F6 B0D8 ^B2D0 BCS :XRD3 ; BR IF CR B2F8 E6F5 INC ZTEMP1 ; INC ELEMENT COUNT B2FA D0EF ^B2EB BNE :XRD5 ; AND GO NEXT ; B2FC A940 :XRD7 LDA #$40 ; SET READ BIT B2FE 85A6 STA DIRFLAG B300 E6F2 INC CIX ; INC OVER DATA TOKEN ;----------212 B302 4C35B3 JMP :XINA ; GO DO IT ; ; B305 :XRNT B305 E6F2 INC CIX ; INC INDEX B307 A4F2 :XRNT1 LDY CIX ; GET INDEX B309 B1F3 LDA [INBUFF],Y ; GET CHAR COUNT B30B C92C CMP #$2C ; IS IT A COMMA B30D 18 CLC ; CARRY CLEAR FOR COMMA B30E F002 ^B312 BEQ :XRNT2 ; BR IF COMMA B310 C99B CMP #CR ; IS IT CR B312 60 :XRNT2 RTS ; B313 2034B9 :XROOD JSR ERROOD ;XINPUT - Execute INPUT B316 A93F LDA #'?' ; SET PROMPT CHAR B318 85C2 STA PROMPT B31A 203EAB JSR GETTOK ; GET FIRST TOKEN B31D C6A8 DEC STINDEX ; BACK UP OVER IT B31F 9005 ^B326 BCC :XIN0 ; BR IF NOT OPERATOR B321 2002BD JSR GIOPRM ; GO GET DEVICE NUM B324 85B4 STA ENTDTD ; SET DEVICE NO. ; B326 :XIN0 B326 2051DA JSR INTLBF B329 2089BA JSR GLINE ; GO GET INPUT LINE B32C 204EB3 JSR :XITB ; TEST BREAK B32F A000 LDY #0 B331 84A6 STY DIRFLG ; SET INPUT MODE B333 84F2 STY CIX ; SET CIX=0 B335 :XINA B335 203EAB JSR GETTOK ; GO GET TOKEN B338 E6A8 INC STINDEX ; INC OVER TOKEN ; B33A A5D2 LDA VTYPE ; IS A STR ; B33E 2000D8 JSR CVAFP ; CONVERT TO FP B341 B014 ^B357 BCS :XIERR B343 2007B3 JSR :XRNT1 ; GET END TOKEN B346 D00F ^B357 BNE :XIERR ; ERROR IF NO CR OR COMMA B348 2016AC JSR RTNVAR ; RETURN VAR B34B 4C89B3 JMP :XINX ; GO FIGURE OUT WHAT TO DO NEXT B34E 20F4A9 :XITB JSR TSTBRK ; GO TEST BREAK B351 D001 ^B354 BNE XITBT ; BR IF BRK B353 60 RTS ; DONE B354 4C93B7 XITBT JMP XSTOP ; STOP B357 A900 :XIERR LDA #0 ; RESET B359 85B4 STA ENTDTD ; ENTER DVC B35B 2030B9 JSR ERRINP ; GO ERROR ; B35E :XISTR B35E 202EAB JSR EXPINT ; INIT EXECUTE EXPR B361 20BAAB JSR ARGPUSH ; PUSH THE STRING B364 C6F2 DEC CIX ; DEC CIX TO CHAR B366 A5F2 LDA CIX ; BEFORE SOS B368 85F5 STA ZTEMP1 ; SAVE THAT CIX B36A A2FF LDX #$FF ; SET CHAR COUNT = -1 ; B36C E8 :XIS1 INX ; INC CHAR COUNT B36D 2005B3 JSR :XRNT ; GET NEXT CHAR B370 D0FA ^B36C BNE :XIS1 ; BR NOT CR OR COMMA B372 B004 ^B378 BCS :XIS2 ; BR IF CR B374 24A6 BIT DIRFLAG ; IS IT COMMA, IF NOT READ B376 50F4 ^B36C BVC :XIS1 ; THEN CONTINUE ;----------213 ; B378 A4F5 :XIS2 LDY ZTEMP1 ; GET SAVED INDEX B37A A5A8 LDA STINDEX ; SAVE INDEX B37C 48 PHA B37D 8A TXA ; ACU = CHAR COUNT B37E A2F3 LDX #INBUFF ; POINT TO INBUFF B380 2064AB JSR RISC ; GO MAKE STR VAR B383 68 PLA B384 85A8 STA STINDEX ; RESTORE INDEX B386 20A6AE JSR RISASN ; THEN DO STA ASSIGN ; B389 24A6 :XINDEX BIT DIRFLG ; IS THIS READ B38B 50F ^B39C BVC :XIN ; BR IF NOT ; B38D E6B6 INC DATAD ; INC DATA DISPL B38F 2010B9 JSR TSTEND ; TEST END READ STMT B392 B00D ^B3A1 BCS :XIRTS ; BR IF READ END ; B394 2007B3 :XIR1 JSR :XRNT1 ; GET END DATA CHAR B397 9018 ^B3B1 BCC :XINC ; BR IF COMMA B399 4CD0B2 JMP :XRD3 ; GO GET NEXT DATA LINE ; B39C :XIN B39C 2010B9 JSR TSTEND B39F 9008 ^B3A9 BCC :XIN1 ; B3A1 2051DA :XIRTS JSR INTLBF ; RESTORE LBUFF B3A4 A900 LDA #0 ; RESTORE ENTER B3A6 85B4 STA ENTDTD ; DEVICE TO ZERO B3A8 60 RTS ; DONE ; B3A9 2007B3 :XIN1 JSR :XRNT1 ; IF NOT END OF DATA B3AC 9003 ^B3B1 BCC :XINC ; THEN BRANCH B3AE 4C26B3 JMP :XIN0 ; AND CONTINUE ; B3B1 E6F2 :XINC INC CIX ; INC INDEX B3B3 4C35B3 JMP :XINA ; AND CONTINUE ;XPRINT - Execute PRINT Statement B3B6 XPRINT B3B6 A5C9 LDA PTABW ; GET TAB VALUE B3B8 85AF STA SCANT ; SCANT B3BA A900 LDA #0 ; SET OUT INDEX = 0 B3BC 8594 STA COX ; B3BE A4A8 :XPR0 LDY STINDEX ; GET STMT DISPL B3C0 B18A LDA [STMCUR],Y ; GET TOKEN ; B3C2 C912 CMP #CCOM B3C4 F053 ^B419 BEQ :XPTAB ; BR IF TAB B3C6 C916 CMP #CCR B3C8 F07C ^B446 BEQ :XPEOL ; BR IF EOL B3CA C914 CMP #CEOS B3CC F078 ^B446 BEQ :XPEOL ; BR IF EOL B3CE C915 CMP #CSC B3D0 F06F ^B441 BEQ :XPNULL ; BR IF NULL B3D2 C91C CMP #CPND B3D4 F061 ^B437 BEQ :XPRIOD ; B3D6 20E0AA JSR EXEXPR ; GO EVALUATE EXPRESSION B3D9 20F2AB JSR ARGPOP ; POP FINAL VALUE B3DC C6A8 DEC STINDEX ; DEC STINDEX B3DE 24D2 BIT VTYPE ; IS THIS A STRING B3E0 3016 ^B3F8 BMI :XPSTR ; BR IF STRING ; B3E2 20E6D8 JSR CVFASC ; CONVERT TO ASCII B3E5 A900 LDA #0 B3E7 85F2 STA CIX ; B3E9 A4F2 :XPR1 LDX CIX ; OUTPUT ASCII CHARACTERS ;----------214 B3EB B1F3 LDA [INBUFF],Y ; FROM INBUFF B3ED 48 PHA ; UNTIL THE CHAR B3EE E6F2 INC CIX ; WITH THE MSB ON B3F0 205DB4 JSR :XPRC ; IS FOUND B3F3 68 PLA B3F4 10F3 ^B3E9 BPL :XPR1 B3F6 30C6 ^B3BE BMI :XPR0 ; THEN GO FOR NEXT TOKEN B3F8 ;XPSTR B3F8 209BAB JSR GSTRAD ; GO GET ABS STRING ARRAY B3FB A900 LDA #0 B3FD 85F2 STA CIX B3FF A5D6 :XPR2C LDA VTYPE+EVSLEN ; IF LEN LOW B401 D004 ^B407 BNE :XPR2B ; NOT ZERO BR B403 C6D7 DEC VTYPE+EVSLEN+1 ; DEC LEN HI B405 30B7 ^B3BE BMI :XPR0 ; BR IF DONE B407 C6D6 :XPR2B DEC VTYPE+EVSLEN ; DEC LEN LOW ; B409 A4F2 :XPR2 LDY CIX ; OUTPUT STRING CHARS B40B B1D4 LDA [VTYPE+EVSADR],Y ; FOR THE LENGTH B40D E6F2 INC CIX ; OF THE STRING B40F D002 ^B413 BNE :XPR2A B411 E6D5 INC VTYPE+EVSADR+1 B413 :XPR2A B413 205FB4 JSR :XPRC1 B416 4CFFB3 JMP :XPR2C ; B419 :XPTAB B419 A494 :XPR3 LDY COX ; DO UNTIL COX+1 $0F ; ELSE IT'S NUM CONST B5D3 204DAB JSR NCTOFR0 ; GO MOVE FR0 B5D6 C6A8 DEC STINDEX ; BACK INDEX TO LAST CHAR B5D8 20E6D8 JSR CVFASC ; CONVERT FR0 TO ASCII B5DB A5F3 LDA INBUFF ; POINT SCRADR B5DD 8595 STA SCRADR ; TO INBUFF WHERE B5DF A5F4 LDA INBUFF+1 ; CHAR IS B5E1 8596 STA SCRADR+1 ; B5E3 2035B5 :LSX JSR :LPRTOKEN ; GO PRINT NUMBER B5E6 4CAEB5 JMP :LADV ; GO FOR NEXT TOKEN ; B5E9 202FB6 :LSTC JSR :LGNT ; GET NEXT TOKEN B5EC 85AF STA SCANT ; WHICH IS STR LENGTH B5EE A922 LDA #$22 ; PRINT DOUBLE QUOTE CHAR B5F0 209FBA JSR PRCHAR B5F3 A5AF LDA SCANT B5F5 F00A ^B601 BEQ :LS3 ; B5F7 202FB6 :LS2 JSR :LGNT ; OUTPUT STR CONST B5FA 209FBA JSR PRCHAR ; CHAR BY CHAR B5FD C6AF DEC SCANT ; UNTIL COUNT =0 B5FF D0F6 ^B5F7 BNE :LS2 ; B601 :LS3 B601 A922 LDA #$22 ; THEN OUTPUT CLOSING B603 209FBA JSR PRCHAR ; DOUBLE QUOTE B606 4CAEB5 JMP :LADV ;----------219 B609 38 :LOP SEC B60A E910 SBC #$10 ; SUBSTRACT THE 10 B60C 85AF STA SCANT ; SET FOR SCAN COUNT B60E A200 LDX #0 B610 A9A7 LDA #OPNTAB/256 B612 A0E3 LDY #OPNTAB&255 B614 200CB5 JSR :LSCAN ; SCAN OP NAME TABLE B617 2031B6 JSR :LGCT ; GO GET CURRENT TOKEN B61A C93D CMP #CFFUN ; IS IT FUNCTION B61C B0C5 ^B5E3 BCS :LSX ; BR IF FUNCTION B61E A000 LDY #0 B620 B195 LDA [SCRADR],Y ; GET FIRST CHAR B622 297F AND #$7F ; TURN OFF MSB B624 20F7A3 JSR TSTALPH ; TEST FOR ALPHA B627 B0BA ^B5E3 BCS :LSX ; BR NOT ALPHA B629 204FB5 JSR :LPTWB ; LIST ALPHA WITH B62C 4CAEB5 JMP :LADV ; BLANKS FOR AND AFTER ; B62F :LNGT ; GET NEXT TOKEN B62F E6A8 INC STINDEX ; INC TO NEXT B631 A4A8 :LGCT LDY STINDEX ; GET DISPL B633 C4A7 CPY NXTSTD ; AT END OF STMT B635 B003 ^B63A BCS :LNGTE ; BR IF AT END B637 B18A LDA [STMCUR],Y ; GET TOKEN B639 60 RTS ; AND RETURN ; B63A 68 :LGNTE PLA ; POP CALLERS ADR B63B 68 PLA ; AND B63C 60 RTS ; GO BACK TO LIST LINE ; B63D LSTMC B63D 85AF STA SCANT ; SET INSCAN COUNT B63F A202 LDX #2 ; AND B641 A9A4 LDA #SNTAB/256 B643 A0AF LDY #SNTAB&255 ; STATEMENT NAME TABLE B645 200CB5 JSR :LSCAN B648 4C54B5 JMP :LPTTB ; GO LIST WITH FOLLOWING BLANK ;XFOR - Execute FOR B64B LOCAL B64B XFOR B64B 208AB8 JSR :SAVDEX ; SAVE STINDEX B64E 20E0AA JSR EXEXPR ; DO ASSIGNEMENT B651 A5D3 LDA VNUM ; GET VARIABLE # B653 0980 ORA #$80 ; OR IN HIGH ORDER BIT B655 48 PHA ; SAVE ON CPU STACK B656 2025B8 JSR FIXRSTK ; FIX RUN STACK ; ; BUILD STACK ELEMENT ; B659 A90C LDA #FBODY ; GET # OF BYTES B65B 2078B8 JSR :REXPAN ; EXPAND RUN STACK ; B65E 200FAC JSR POP1 ; EVAL EXP & GET INTO FR0 ; ; PUT LIMIT [INFR0] ON STACK ; B661 A2D4 LDX #FR0 ; POINT TO FR0 B663 A000 LDY #FLIM ; GET DISPL B665 208FB8 JSR :MV6RS ; GO MOVE LIMIT ; ; SET DEFAULT STEP ; B668 2044DA JSR ZFR0 ; CLEAR FR0 TO ZEROS B66B A901 LDA #1 ; GET DEFAULT STEP B66D 85D5 STA FR0+1 ; SET DEFAULT STEP VALUE B66F A940 LDA #$40 ; GET DEFAULT EXPONENT B671 85D4 STA FR0 : STORE ; ;----------220 ; TEST FOR END OF STMT ; B673 2010B9 JSR TSTEND ; TEST FOR END OF START B676 B003 ^B67B BCS :NSTEP ; IF YES, WE ARE AT END OF STMT ; ; ELSE GET STEP VALUE ; B678 200FAC JSR POP1 ; EVAL EXP & GET INTO FR0 B67B :STEP ; ; PUT STEP [IN FR0] ON STACK ; B67B A2D4 LDX #FR0 ; POINT TO FR0 B67D A006 LDY #FSTEP ; GET DISPL B67F 208FB8 JSR :MV6RS ; GO MOVE STEP ; B682 68 PLA ; GET VARIABLE # ; ; PSHRSTK - PUSH COMMON PORT OF FOR/GOSUB ; - ELEMENT ON RUN STACK ; ; ON ENTRY A - VARIABLE # OR 0 [FOR GOSUB] ; TSLNUM - LINE # ; STINDEX - DISPL TO STMT TOKEN +1 B683 PSHRSTK ; ; EXPAND RUN STACK ; B683 48 PHA ; SAVE VAR # / TYPE B684 A904 LDA #GFHEAD ; GET # OF BYTES TO EXPAND B686 2078B8 JSR :REXPAN ; EXPAND [OLD TOP RETURN IN ZTEMP1] ; ; PUT ELEMENT ON STACK ; B689 68 PLA ; GET VARIABLE #/TYPE B68A A000 LDY #GFTYPE ; GET DISPL TO TYPE IN HEADER B68C 91C4 STA [TEMPA],Y ; PUT VAR#/TYPE ON STACK B68E B18A LDA [STMCUR],Y ; GET LINE # LOW B690 C8 INY ; POINT TO NEXT HEADER BYTE B691 91C4 STA [TEMPA],Y ; PUT LINE # LOW IN HEADER B693 B18A LDA [STMCUR],Y ; GET LINE # HIGH B695 C8 INY B696 91C4 STA [TEMPA],Y ; PUT IN HEADER B698 A6B3 LDX SAVDEX ; GET SAVED INDEX INTO LINE B69A CA DEX ; POINT TO TOKEN IN LINE B69B 8A TXA ; PUT IN A B69C C8 INY ; POINT TO DISPL IN HEADER B69D 91C4 STA [TEMPA],Y ; PUT IN HEADER B69F 60 RTS ;XGOSUB - Execute GOSUB B6A0 XGOSUB B6A0 20C7B6 JSR XGS ; GO TO XGS ROUTINE ;XGOTO - Execute GOTO B6A3 XGOTO B6A3 20D5AB JSR GETPINT ; GET POSITIVE INTEGER IN FR0 ; ; GET LINE ADRS & POINTERS ; B6A6 XGO2 B6A6 A5D5 LDA FR0+1 ; X B6A8 85A1 STA TSLNUM+1 ; X B6AA A5D4 LDA FR0 ; PUT LINE # IN TSLNUM B6AC 85A0 STA TSLNUM ; X ;----------221 ; B6AE XGO1 B6AE 20A2A9 JSR GETSTMT ; LINE POINTERS AND STMT ADDRESS B6B1 B005 ^B6B8 BCS :ERLN ; IF NOT FOUND ERROR B6B3 68 PLA ; CLEAN UP STACK B6B4 68 PLA B6B5 4C5FA9 JMP EXECNL ; GO TO EXECUTE CONTROL ; B6B8 :ERLN B6B8 20BEB6 JSR RESCUR ; RESTORE STMT CURRENT ; ; ; B6BB 2028B9 JSR ERNOLN ; LINE # NOT FOUND B6BE RESCUR B6BE A5BE LDA SAVCUR ; RESTORE STMCUR B6C0 858A STA STMCUR ; X B6C2 A5BF LDA SAVCUR+1 ; X B6C4 858B STA STMCUR+1 ; X B6C6 60 RTS ;XGS - Perform GOSUB [GOSUB, LIST, READ] B6C7 XGS B6C7 208AB8 JSR ;SAVDEX ; GET STMT INDEX B6CA XGS1 B6CA A900 LDA #0 ; GET GOSUB TYPE B6CC 4C83B6 JMP PSHRSTK ; PUT ELEMENT ON RUN STACK ;XNEXT - Execute NEXT B6CF XNEXT ; ; GET VARIABLE # ; B6CF A4A8 LDY STINDEX ; GET STMT INDEX B6D1 B18A LDA [STMCUR],Y ; GET VARIABLE # B6D3 85C7 STA ZTEMP2+1 ; SAVE ; ; GET ELEMENT ; B6D5 :XN B6D5 2041B8 JSR POPRSTK ; PULL ELEMENT FROM RUN STACK VAR#/TYPE RETURN IN A B6D8 B03C ^B716 BCS :ERNFOR ; IF AT TOP OF STACK, ERROR B6DA F03A ^B716 BEQ :ERNFOR ; IF TYPE = GOSUB, ERROR B6DC C5C7 CMP ZTEMP2+1 ; DOES STKVAR# = OUR VAR # B6DE D0F5 ^B6D5 BNE :XN ; ; GET STEP VALUES IN FR1 ; B6E0 A006 LDY #FSTEP ; GET DISPL INTO ELEMENT B6E2 209EB8 JSR :PL6RS ; GET STEP INTO FR1 ; ; SAVE TYPE OF STEP [+ OR -] ; B6E5 A5E0 LDA FR1 ; GET EXP FR1 [CONTAINS SIGN] B6E7 48 PHA ; PUSH ON CPU STACK ; ; GET VARIABLE VALUE ; B6E8 A5C7 LDA ZTEMP2+1 ; GET VAR # B6EA 2089AB JSR GETVAR ; GET VARIABLE VALUE ; ; GET NEW VALUE ; B6ED 203BAD JSR FRADD ; ADD STEP TO VALUE B6F0 2016AC JSR RTNVAR ; PUT IN VARIABLE TABLE ; ; GET LIMIT IN FR1 ; ;----------222 B6F3 A000 LDY #FLIM ; GET DISPL TO LIMIT IN ELEMENT B6F5 209EB8 JSR :PL6RS ; GET LIMIT INTO FR1 B6F8 68 PLA ; GET SIGN OF STEP B6F9 1006 ^B701 BPL :STPPL ; BR IF STEP + ; ; COMPARE FOR NEGATIVE STEP ; B6FB 2035AD JSR FRCMP ; COMPARE VALUE TO LIMIT B6FE 1009 ^B709 BPL :NEXT ; IF VALUE >= LIMIT, CONTINUE B700 60 RTS ; ELSE DONE ; ; COMPARE FOR POSITIVE STEP ; B701 :STPPL B701 2035AD JSR FRCMP ; COMPARE VALUE TO LIMIT B704 F003 ^B709 BEQ :NEXT ; IF = CONTINUE B706 3001 ^B709 BMI :NEXT ; IF < CONTINUE B708 60 RTS ; ELSE RETURN ; B709 :NEXT B709 A910 LDA #GFHEAD+FBODY ; GET # BYTES IN FOR ELEMENT B70B 2078B8 JSR :REXPAND ; GO PUT IT BACK ON STACK B70E 2037B7 JSR :GETTOK ; GET TOKEN [RETURN IN A] B711 C908 CMP #CFOR ; IS TOKEN = FOR? B713 D032 ^B747 BNE :ERGFD ; IF NOT IT'S AN ERROR B715 60 RTS ; B716 :ERNFOR B716 2026B9 JSR ERNOFOR ;XRTN - Execute RETURN B719 XRTN B719 2041B8 JSR POPRSTK ; GET ELEMENT FROM RUN STACK B71C B016 ^B734 BCS :ERRTN ; IF AT TOP OF STACK, ERROR B71E D0F9 ^B719 BNE XRTN ; IF TYPE NOT GOSUB, REPEAT ; B720 2037B7 JSR :GETTOK ; GET TOKEN FROM LINE [IN A] B723 C90C CMP #CGOSUB ; IS IT GOSUB? B725 F00C ^B733 BEQ :XRTS ; BR IF GOSUB B727 C91E CMP #CON B729 F008 ^B733 BEQ :XRTS ; BR IF ON B72B C904 CMP #CLIST B72D F004 ^B733 BEQ :XRTS ; BR IF LIST B72F C922 CMP #CREAD ; MAYBE IT'S READ B731 D014 ^B747 BNE :ERGFD ; IF NOT, ERROR B733 :XRTS B733 60 RTS ; B734 :ERRTN B734 2020B9 JSR ERBRTN ; BAD RETURN ERROR ; ; :GETTOK - GET TOKEN POINTED TO BY RUN STACK ELEMENT ; ; ON EXIT A - CONTAINS TOKEN ; B737 :GETTOK B737 2018B8 JSR SETLINE ; SET UP FOR PROCESS LINE B73A B00B ^B747 BCS :ERGFD ; IF LINE # NOT FOUND, ERROR ; B73C A4B2 LDY SVDISP ; GET DISPL TO TOKEN B73E 88 DEY ; POINT TO NXT STMT DISPL B73F B18A LDA [STMCUR],Y ; GET NEXT STMT DISPL B741 85A7 STA NXTSTD ; SAVE ; B743 C8 INY ; GET DISPL TO TOKEN AGAIN B744 B18A LDA [STMCUR],Y ; GET TOKEN B746 60 RTS ; ; B747 :ERGFD ;----------223 B747 20BEB6 JSR RESCUR ; RESTORE STMT CURRENT B74A 2022B9 JSR ERGFDEL ;XRUN - Execute RUN B74D XRUN ; ; TEST FOR END OF STMT ; B74D 2010B9 JSR TSTEND ; CHECK FOR END OF STMT B750 B003 ^B755 BCS :NOFILE ; IF END OF STMT, BR B752 20F7BA JSR FRUN ; ELSE HAVE FILE NAME ; B755 :NOFILE ; ; GET 1ST LINE OF PROGRAM ; B755 A900 LDA #0 ; GET SMALLEST POSSIBLE LINE NUM B757 85A0 STA TSLNUM ; X B759 85A1 STA TLSNUM+1 ; X B75B 2018B8 JSR SETLINE ; SET UP LINE POINTERS B75E 20E2A9 JSR TENDST ; TEST FOR END OF STMT TABLE B761 3012 ^B775 BMI :RUNEND ; IF AT END, BR B763 20F8B8 JSR RUNINIT ; CLEAR SOME STORAGE FALL THRU TO CLR ;XCLR - Execute CLR B766 XCLR B766 20C0B8 JSR ZVAR ; GO ZERO VARS B769 20AFB8 JSR RSTPTR ; GO RESET STACK PTRS B76C A900 LDA #0 ; CLEAR DATA VALUES B76E 85B7 STA DATALN B770 85B8 STA DATALN+1 B772 85B6 STA DATAD B774 60 RST ; ; B775 :RUNEND B775 4C50A0 JMP SNX1 ; NO PROGRAM TO RUN ;XIF - Execute IF B778 XIF B778 200FAC JSR POP1 ; EVAL EXP AND GET VALUE INTO FR0 B77B A5D5 LDA FR0M ; GET 1ST MANTISSA BYTE B77D F009 ^B788 BEQ :FALSE ; IF = 0, # = 0 AND IS FALSE ; ; EXPRESSION TRUE ; B77F 2010B9 JSR TSTEND ; TEST FOR END OF STMT B782 B003 BCS :TREOS ; IF AT EOS, BRANCH ; ; TRUE AND NOT EOS ; B784 4CA3B6 JMP XGOTO ; JOIN GOTO ; ; TRUE AND EOS ; B787 :TREOS B787 60 RTS ; ; EXPRESSION FALSE ; B788 :FALSE B788 A59F LDA LLENGTH ; GET DISPL TO END OF LINE B78A 85A7 STA NXTSTD ; SAVE AS DISPL TO NEXT STMT B78C 60 RTS ;----------224 ;XEND - Execute END B78D XEND B78D 20A7B7 JSR STOP B790 4C50A0 JMP SNX1 ;XSTOP - Execute STOP B793 XSTOP B793 20A7B7 JSR STOP ; ; PRINT MESSAGE ; B796 206EBD JSR PRCR ; PRINT CR B799 A9B6 LDA #:MSTOP&255^ ; SET POINTER FOR MESSAGE B79B 8595 STA SCRADR ; X B79D A9B7 LDA #:MSTOP/256 ; X B79F 8596 STA SCRADR+1 ; X ; B7A1 2035B5 JSR LPRTOKEN ; PRINT IT ; B7A4 4C74B9 JMP :ERRM2 ; PRINT REST OF MESSAGE ; ; ; B7A7 STOP B7A7 20E2A9 JSR TENDST ; GET CURRENT LINE # HIGH B7AA 3007 BMI :STOPEND ; IF -, THIS IS DIRECT STMT ; B7AC 85BB STA STOPLN+1 ; SAVE LINE # HIGH FOR CON B7AE 88 DEY ; DEC INDEX B7AF B18A LDA [STMCUR],Y ; GET LINE # LOW B7B1 85BA STA STOPLN ; SAVE FOR CON B7B3 :STOPEND B7B3 4C72BD JMP SETDZ ; SET L/D DEVICE = 0 ; ; ; B7B6 53544F5050 :MSTOP DC 'STOPPED' 4544A0 ;XCONT - Execute Continue B7BE XCONT B7BE 20E2A9 JSR TENDST ; IS IT INDIRECT STMT? B7C1 10F0 ^B7B3 BPL :STOPEND ; IF YES, BR B7C3 A5BA LDA STOPLN ; SET LOOP LINE # AS LINE # FOR GET B7C5 85A0 STA TSLNUM ; X B7C7 A5BB LDA STOPLN+1 ; X B7C9 85A1 STA TSLNUM+1 ; X ; B7CB 20A2A9 JSR GETSTMT ; GET ADR OF STMT WE STOPPED AT B7CE 20E2A9 JSR TENDST ;AT END OF STMT TAB? B7D1 30A2 ^B775 BMI :RUNEND B7D3 20DDA9 JSR GETLL ; GET NEXT LINE ADR IN CURSTM B7D6 20D0A9 JSR GNXTL ; X B7D9 20E2A9 JSR TENDST ; SEE IF WE ARE AT END OF STMT TABLE B7DC 3097 ^B775 BMI :RUNEND ; BR IF MINUS B7DE 4C1BB8 JMP SETLN1 ; SET UP LINE POINTERS ;XTRAP - Execute TRAP B7E1 XTRAP B7E1 20E0AB JSR GETINT ; CONVERT LINE # TO POSITIVE INT B7E4 A5D4 LDA FR0 ; SAVE LINE # LOW AS TRAP LINE B7E6 85BC STA TRAPLN ; IN CASE OF LATER ERROR B7E8 A5D5 LDA FR0+1 ; X B7EA 85BD STA TRAPLN+1 ; X B7EC 60 RTS ;----------225 ;XON - Execute ON B7ED XON B7ED 208AB8 JSR :SAVDEX ; SAVE INDEX INTO LINE B7F0 20E9AB JSR GET1INT ; GET 1 BYTE INTEGER B7F3 A5D4 LDA FR0 ; GET VALUE B7F5 F020 ^B817 BEQ :ERV ; IF ZERO, FALL THROUGH TO NEXT STATEMENT B7F7 A4A8 LDY STINDEX ; GET STMT INDEX B7F9 88 DEY ; BACK UP TO GOSUB/GOTO B7FA B18A LDA [STMCUR],Y ; GET CODE B7FC C917 CMP #CGTO ; IS IT GOTO? B7FE F003 ^B803 BEQ :GO ; IF YES, DON'T PUSH ON RUN STACK ; ; ; THIS IS ON - GOSUB: PUT ELEMENT ON RUN STACK ; B800 20CAB6 JSR XGS1 ; PUT ELEMENT ON RUN STACK ; FOR RETURN ; B803 :GO B803 A5D4 LDA FR0 ; GET INDEX INTO EXPRESSIONS B805 85B3 STA ONLOOP ; SAVE FOR LOOP CONTROL B807 :ON1 B807 20D5AB JSR GETPINT ; GET + INTEGER B80A C6B3 DEC ONLOOP ; IS THIS THE LINE # WE WANT? B80C F006 ^B814 BEQ :ON2 ; IF YES, GO DO IT B80E 2010B9 JSR TSTEND ; ARE THERE MORE EXPRESSIONS B811 90F4 BCC :ON1 ; IF YES, THEN EVAL NEXT ONE B813 60 RTS ; ELSE FALL THROUGH TO NEXT STMT B814 :ON2 B814 4CA6B6 JMP XGO ; JOIN GOTO ; ; B817 :ERV B817 60 RTS ; FALL THROUGH TO NEXT STATEMENT ; Execution Control Statement Subroutines ;SETLINE - Set Up Line Pointers ; ON ENTRY TSLNUM - LINE # ; ; ON EXIT STMCUR - CONTAIN PROPER VALUES ; LLNGTH - X ; NXTSTM - X ; CARRY SET BY GETSTMT IF LINE # NOT FOUND ; B818 SETLINE B818 20A2A9 JSR GETSTMT ; GET STMCUR ; B81B SETLN1 B81B A002 LDY #2 ; GET DISP IN LINE TO LENGTH B81D B18A LDA [STMCUR],Y ; GET LINE LENGTH B81F 859F STA LLNGTH ; SET LINE LENGTH ; B821 C8 INY ; POINT TO NEXT STMT DISPL B822 84A7 STY NXTSTD ; SET NXT STMT DISPL ; B824 60 RTS ;FIXRSTK - Fix Run Stack - Remove Old FORs ; ON ENTRY A - VARIABLE # IN CURRENT FOR ; ; ON EXIT RUNSTK CLEAR OF ALL FOR'S ; ;----------226 B825 FIXRSTK B825 85C7 STA ZTEMP2+1 ; SAVE VAR # OF THIS FOR ; ; SAVE TOP OF RUN STACK ; B827 2081B8 JSR :SAVRTOP ; SAVE TOP OF RUN STACK IN ZTEMP ; ; B82A :FIXR B82A 2041B8 JSR POPRSTK ; POP AN ELEMENT FROM RUNSTK B82D B008 ^B837 BCS :TOP ; IF AT TOP - WE ARE DONE B82F F006 ^B837 BEQ :TOP ; IF CC = 08 ELEMENT WAS GOSUB B831 C5C7 CMP ZTEMP2+1 ; IS STK VAR # = OUR VAR #? B833 F00B ^B840 BEQ :FNVAR ; IF YES, WE ARE DONE B835 D0F3 ^B85A BNE :FIXR ; ELSE LOOK AT NEXT ELEMENT ; ; FOR VAR # NOT ON STACK ABOVE TOP GOSUB ; [RESTORE TOP OF STACK] ; B837 :TOP B837 A5C4 LDA TEMPA ; RESTORE TOPRSTK B839 8590 STA TOPRSTK ; X B83B A5C5 LDA TEMPA+1 ; X B83D 8591 STA TOPRSTK+1 ; X B83F 60 RTS ; ; FOR VAR # FOUND ON STACK ; B840 :FNVAR B840 60 RTS ;POPRSTK - Pop Element from Run Stack ; ON EXIT A - TYPE OF ELEMENT OR VAR # ; X - DISPL INTO LINE OF FOR/GOSUB TOKEN ; CUSET - CARRY SET STACK WAS EMPTY ; CARRY CLEAR - ENTRY POPED ; EQ SET - ELEMENT IS GOSUB ; TSLNUM - LINE # ; B841 XPOP B841 POPRSTK ; ; TEST FOR STACK EMPTY ; B841 A58F LDA RUNSTK+1 ; GET START OF RUN STACK HIGH B843 C591 CMP TOPRSTK+1 ; IS IT < TOP OF STACK HIGH B845 9008 ^B84F BCC :NTOP ; IF YES, WE ARE NOT AT TOP B847 A58E LDA RUNSTK ; GET START OF RUN STACK LOW B849 C590 CMP TOPRSTK ; IS IT < TOP OF STACK LOW B84B 9002 ^B84F BCC :NTOP ; IF YES, WE ARE NOT AT TOP ; B84D 38 SEC ; ELSE AT TOP: SET CARRY B84E 60 RTS ; RETURN ; ; GET 4 BYTE HEADER ; [COMMON TO GOSUB AND FOR] ; B84F :NTOP B84F A904 LDA #GFHEAD ; GET LENGTH OF HEADER B851 2072B8 JSR :RCONT ; TAKE IT OFF STACK ; B854 A003 LDY #GFDISP ; GET INDEX TO SAVED LINE DISPL B856 B190 LDA [TOPRSTK],Y ; GET SAVED LINE DISPL B858 85B2 STA SVDISP ; SAVE B85A 88 DEY ; POINT TO LINE # IN HEADER B85B B190 LDA [TOPRSTK],Y ; GET LINE # HIGH B85D 85A1 STA TSLNUM+1 ; SAVE LINE # HIGH B85F 88 DEY ; GET DISPL TO LINE # LOW ;----------227 B860 B190 LDA [TOPRSTK],Y ; GET LINE # LOW B862 85A0 STA TSLNUM ; SAVE LINE # LOW ; B864 88 DEY ; POINT TO TYPE B865 B190 LDA [TOPRSTK],Y ; GET TYPE B867 F007 ^B870 BEQ :FND ; IF TYPE = GOSUB, SET ELEMENT ; ; GET 12 BYTE FOR BODY ; B869 48 PHA ; SAVE VAR # B86A A90C LDA #FBODY ; GET # BYTES TO POP B86C 2072B8 JSR :RCONT ; POP FROM RUN STACK B86F 68 PLA ; GET VAR # ; B870 :FND B87018 CLC ; CLEAR CARRY [ENTRY POPPED] B871 60 RTS ;:RCONT - Contract Run Stack ; ; ON ENTRY A - # OF BYTES TO SUBSTRACT ; B872 :RCONT B872 A8 TAY ; Y=LENGTH B873 A290 LDX #TOPRSTK ;X = PTR TO RUN STACK B875 4CFBA8 JMP CONTLOW ;:REXPAN - Expand Run Stack ; ON ENTRY A - # OF BYTES TO ADD ; ; ON EXIT ZTEMP1 - OLD TOPRSTK ; B878 :REXPAN B878 2081B8 JSR :SAVRTOP ; SAVE RUN STACK TOP B87B A8 TAY ; Y=LENGTH B87C A290 LDX #TOPRSTK ; X=PTR TO TOP RUN STACK B87E 4C7FA8 JMP EXPLOW ; GO EXPAND ;:SAVRTOP - Save Top of Run Stack in ZTEMP1 B881 :SAVRTOP B881 A690 LDX TOPRSTK ; SAVE TOPRSTK B883 86C4 STX TEMPA ; X B885 A691 LDX TOPRSTK+1 ; X B887 86C5 STX TEMPA+1 B889 60 RTS ;:SAVDEX - Save Line Displacement B88A :SAVDEX B88A A4A8 LDY STINDEX ; GET STMT INDEX B88C 84B3 STY SAVDEX ; SAVE IT B88E 60 RTS ;:MV6RS - Move 6-Byte Value to Run Stack ; ON ENTRY X - LOCATION TO MOVE FROM ; Y - DISPL FROM ZTEMP1 TO MOVE TO ; ZTEMP1 - LOCATION OF RUN STK ELEMENT ; B88F :MV6RS B88F A906 LDA #6 ; GET # OF BYTE TO MOVE B891 85C6 STA ZTEMP2 ; SAVE AS COUNTER B893 :MV B893 B500 LDA 0,X ; GET A BYTE B895 91C4 STA [TEMPA],Y ; PUT ON STACK B897 E8 INX ; POINT TO NEXT BYTE B898 C8 INY ; POINT TO NEXT LOCATION B899 C6C6 DEC ZTEMP2 ; DEC COUNTER B89B D0F6 ^B893 BNE :MV ; IF NOT = 0 DO AGAIN B89D 60 RTS ;----------228 ;:PL6RS - Pull 6 Byte from Run Stack to FR1 ; ON ENTRY Y = DISPL FROM TOPRSTK TO MOVE FROM ; TOPRSTK - START OF ELEMENT ; B89E :PL6RS B89E A906 LDA #6 ; GET # OF BYTES TO MOVE B8A0 85C6 STA ZTEMP2 ; SAVE AS COUNTER B8A2 A2E0 LDX #FR1 B8A4 :PL B8A4 B190 LDA [TOPRSTK],Y ; GET A BYTE B8A6 9500 STA 0,X ; SAVE IN Z PAGE B8A8 E8 INX ; INC TO NEXT LOCATION B8A9 C8 INY ; INC TO NEXT BYTE B8AA C6C6 DEC ZTEMP2 ; DEC COUNTER B8AC D0F6 ^B8A4 BNE :PL ; IF NOT =0, DO AGAIN B8AE 60 RTS ;RSTPTR - Reset Stack Pointers [STARP and RUNSTK] B8AF RSTPTR B8AF A58C LDA STARP ; GET BASE OF STR/ARRAY SPACE LOW B8B1 858E STA RUNSTK ; RESET B8B3 8590 STA MEMTOP B8B5 850E STA APHM ; SET APPLICATION HIMEM B8B7 A58D LDA STARP+1 ; GET BASE STR/ARRAY SPACE HIGH B8B9 858F STA RUNSTL+1 ; RESET B8BB 8591 STA MEMTOP+1 ; X B8BD 850F STA APHM+1 ; SET APPLICATION HIMEM B8BF 60 RTS ;ZVAR - Zero Variable B8C0 ZVAR B8C0 A686 LDX VVTP ; MOVE VARIABLE TABLE POINTER B8C2 86F5 STX ZTEMP1 ; X B8C4 A487 LDY VVTP+1 ; X B8C6 84F6 STY ZTEMP1+1 ; X ; ; ARE WE AT END OF TABLE ? ; B8C8 :ZVAR1 B8C8 A6F6 LDX ZTEMP1+1 ; GET NEXT VARIABLE ADDR HIGH B8CA E489 CPX ENDVVT+1 ; IS IT < END VALUE HIGH B8CC 9007 ^B8D5 BCC :ZVAR2 ; IF YES, MORE TO DO B8CE A6F5 LDX ZTEMP1 ; GET NEXT VARIABLE ADDR LOW B8D0 E488 CPX ENDVVT ; IS IT < END VALUE LOW B8D2 9001 ^B8D5 BCC :ZVAR2 ; IF YES, MORE TO DO B8D4 60 RTS ; ELSE DONE ; ; ZERO A VARIABLE ; B8D5 :ZVAR2 B8D5 A000 LDY #0 ; TURN OFF B8D7 B1F5 LDA [ZTEMP1],Y ; DIM FLAG B8D9 29FE AND #$FE B8DB 91F5 STA [ZTEMP1],Y B8DD A002 LDY #2 ; INDEX PAST VARIABLE HEADER B8DF A206 LDX #6 ; GET # OF BYTES TO ZERO B8E1 A900 LDA #0 ; CLEAR A ; B8E3 :ZVAR3 B8E3 91F5 STA [ZTEMP1],Y ; ZERO BYTE B8E5 C8 INY ; POINT TO NEXT BYTE B8E6 CA DEX ; DEC POINTER B8E7 D0FA ^B8E3 BNE :ZVAR3 ; IF NOT = 0, ZERO NEXT BYTE ; ;----------229 B8E9 A5F5 LDA ZTEMP1 ; GET CURRENT VARIABLE POINTER LOW B8EB 18 CLC B8EC 6908 ADC #8 ; INC TO NEXT VARIABLE B8EE 85F5 STA ZTEMP1 ; SAVE NEW VARIABLE POINTER LOW B8F0 A5F6 LDA ZTEMP1+1 ; GET CURRENT VARIABLE POINTER HIGH B8F2 6900 ADC #0 ; ADD IN CARRY B8F4 85F6 STA ZTEMP1+1 ; SAVE NEW VARIABLE POINTER HIGH B8F6 D0D0 ^B8C8 BNE :ZVAR ; UNCONDITIONAL BRANCH ;RUNINIT - Initialize Storage Locations for RUN B8F8 RUNINIT B8F8 A000 LDY #0 ; CLEAR A B8FA 84BA STY STOPLN ; CLEAR LINE # STOPPED AT B8FC 84BB STY STOPLN+1 ; X B8FE 84B9 STY ERRNUM ; CLEAR ERROR # B900 84FB STY RADFLG ; CLEAR FLAG TOR TRANSENDENTALS B902 84B6 STY DATAD ; CLEAR DATA POINTERS B904 84B7 STY DATALN ; X B906 84B8 STY DATALN+1 ; X B908 88 DEY B909 84BD STY TRAPLN+1 ; SET TRAP FLAG TO NO TRAP B90B 8411 STY BRKBYT ; SET BRK BYTE OFF [$FF] B90D 4C41BD JMP CLSALL ; GO CLOSE ALL DEVICES ;TSTEND - Test for End of Statement ; ON EXIT CC SET ; CARRY SET - END OF STMT ; CARRY SET - NOT END OF STMT ; B910 TSTEND B910 A6A8 LDX STINDEX B912 E8 INX B913 E4A7 CPX NXTSTD B915 60 RTS ; ERROR MESSAGE ROUTINE ;Error Messages B916 E6B9 ERRNSF INC ERRNUM ; FILE NOT SAVE FILE B918 E6B9 ERRDNO INC ERRNUM ; #DN0 > 7 B91A E6B9 ERRPTL INC ERRNUM ; LOAD PGM TOO BIG B91C E6B9 ERSVAL INC ERRNUM ; STRING NOT VALID B91E E6B9 XERR INC ERRNUM ;EXECUTION OF GARBAGE B920 E6B9 ERBRTN INC ERRNUM ; BAD RETURNS B922 E6B9 ERGFDE INC ERRNUM ; GOSUB/FOR LINE DELETED B924 E6B9 ERLTL INC ERRNUM ; LINE TO LONG B926 E6B9 ERNOFOR INC ERRNUM ; NO MATCHING FOR B928 E6B9 ERNOLN INC ERRNUM ; LINE NOT FOUND [GOTO/GOSUB] B92A E6B9 EROVFL INC ERRNUM ; FLOATING POINT OVERFLOW B92C E6B9 ERRAOS INC ERRNUM ; ARG STACK OVERFLOW B92E E6B9 ERRDIM INC ERRNUM ; ARRAY/STRING DIM ERROR B930 E6B9 ERRINP INC ERRNUM ; INPUT STMT ERROR B932 E6B9 ERRLN INC ERRNUM ;VALUE NOT <32768 B934 E6B9 ERROOD INC ERRNUM ; READ OUT OF DATA B936 E6B9 ERRSSL INC ERRNUM ; STRING LENGTH ERROR B938 E6B9 ERRVSF INC ERRNUM ; VARIABLE TABLE FULL B93A E6B9 ERVAL INC ERRNUM ; VALUE ERROR B93C E6B9 MEMFULL INC ERRNUM ; MEMORY FULL B93E E6B9 ERON INC ERRNUM ; NO LINE # FOR EXP IN ON ;----------230 ;Error Routine B940 ERROR B940 A900 LDA #0 B942 8DFE02 STA DSPFLG ; FLAG B945 20A7B7 JSR STOP ; SET LINE * STOPPED AT ; B948 A5BD LDA TRAPLN+1 ; GET TRAP LINE # HIGH B94A 3015 ^B961 BMI :ERRM1 ; IF NO LINE # PRINT MESSAGE ; ; TRAP SET GO TO SPECIFIED LINE # ; B94C 85A1 STA TSLNUM+1 ; SET TRAP LINE # HIGH FOR GET STMT B94E A5BC LDA TRAPLN ; GET TRAP LINE # LOW B950 85A0 STA TSLNUM ; SET FOR GET STMT B952 A980 LDA #$80 ; TURN OFF TRAP B954 85BD STA TRAPLN+1 B956 A5B9 LDA ERRNUM ; GET ERROR # B958 85C3 STA ERRSAV ; SAVE IT B95A A900 LDA #0 ; CLEAR B95C 85B9 STA ERRNUM ; ERROR # B95E 4CAEB6 JMP XGO1 ; JOIN GOTO ; ; ; NO TRAP - PRINT ERROR MESSAGE ; B961 :ERRM1 ;Print Error Message Part 1 [**ERR] B961 206EBD JSR PRCR ; PRINT CR B964 A937 LDA #CERR ; GET TOKEN FOR ERROR B966 203DB6 JSR LSTMC ; GO PRINT CODE ;Print Error Number B969 A5B9 LDA ERRNUM ; GET ERROR # B96B 85D4 STA FR0 ; SET ERROR # OF FR0 AS INTEGER B96D A900 LDA #0 ; SET ERROR # HIGH B96F 85D5 STA FR0+1 ; X ; B971 209CB9 JSR :PRINUM ; GO PRINT ERROR # ; ; B974 :ERRM2 B974 20E2A9 JSR TENDST ; TEST FOR DIRECT STMT B977 3019 ^B992 BMI :ERRDONE ; IF DIRECT STMTD DONE ;Print Message Part 2 [AT LINE] B979 A9AE LDA #:ERRMS&255 ; SET POINTER TO MSG FOR PRINT B97B 8595 STA SRCADR ; X B97D A9B9 LDA #:ERRMS/256 ; X B97F 8596 STA SRCADR+1 ; X ; B981 2035B5 JSR LPRTOKEN ;Print Line Number B984 A001 LDY #1 ; SET DISPL B986 B18A LDA [STMCUR],Y ;GET LINE # HIGH B986 85D5 STA FR0+1 ; SET IN FR0 FOR CONVERT B98A 88 DEY ; GET CURRENT LINE # LOW B98B B18A LDA [STMCUR],Y ;GET UNUSED LINE # LOW B98D 85D4 STA FR0 ; SET IN FR0 LOW FOR CONVERT B98F 209CB9 JSR :PRINUM ; PRINT LINE * ;----------231 B992 :ERRDONE B992 206EBD JSR PRCR ; PRINT CR B995 A900 LDA #0 ; CLEAR A B997 85B9 STA ERRNUM ; CLEAR ERROR # B999 4C60A0 JMP SYNTAX ;Print Integer Number in FR0 B99C :PRINUM B99C 20AAD9 JSR CVIFP ; CONVERT TO FLOTING POINT B99F 20E6D8 JSR CVFASC ; CONVERT TO ASCII ; B9A2 A5F3 LDA INBUFF ; GET ADR OF # LOW B9A4 8595 STA SCRADR ; SET FOR PRINT ROUTINE B9A6 A5F4 LDA INBUFF+1 ; GET ADR OF # HIGH B9A8 8596 STA SCRADR+1 ; SET FOR PRINT ROUTINE B9AA 2035B5 JSR LPRTOKEN ; GO PRINT ERROR # B9AD 60 RTS ; ; ; B9AE 204154204C :ERRMS DC ' AT LINE ' 494E45A0 ; Execute Graphics Routines ;XSETCOLOR - Execute SET COLOR B9B7 XSETCOLOR B9B7 20E9AB JSR GETINT ; GET REGISTER # B9BA A5BA LDA FR0 ; GET # B9BC C905 CMP #5 ; IS IT <5? B9BE B01A ^B9DA BCS :ERCOL ; IF NOT, ERROR B9C0 48 PHA ; SAVE ; B9C1 20E0AB JSR GETINT ; GET VALUE ; B9C4 A5D4 LDA FR0 ; GET VALUE*16+6 B9C6 ASLA ; X B9C6 +0A ASL A B9C7 ASLA ; X B9C7 +0A ASL A B9C8 ASLA ; X B9C8 +0A ASL A B9C9 ASLA ; X B9C9 +0A ASL A B9CA 48 PHA ; SAVE ON STACKS B9CB 20E0AB JSR GETINT ; GET VALUE 3 B9CE 68 PLA ; GET VALUE 2+16 FROM STACK B9CF 18 CLC B9D0 65D4 ADC FR0 ; ADD IN VALUE 3 B9D2 A8 TAY ; SAVE VALUE 2+16 + 5 VALUE 5 B9D3 68 PLA ; GET INDEX B9D4 AA TAX ; PUT IN X B9D5 98 TYA ; GET VALUE ; B9D6 9DC402 STA CREGS,X ; SET VALUE IN REGS B9D9 60 RTS ; ; B9DA :ERSND B9DA :ERCOL B9DA 203AB9 JSR ERVAL ;XSOUND - Execute SOUND B9DD XSOUND B9DD 20E9AB JSR GETINT ; GET 1 BYTE INTEGER B9E0 A5D4 LDA FR0 ; X B9E2 C904 CMP #4 ; IS IT <4? B9E4 B0F4 ^B9DA BCS :ERSND ; IF NOT, ERROR ;----------232 B9E6 ASLA ; GET VALUE +2 B9E6 +0A ASL A B9E7 48 PHA ; B9E8 A900 LDA #0 ; SET TO ZERO B9EA 8D08D2 STA SREG1 ; X ; B9ED A903 LDA #3 B9EF 8D0FD2 STA SKCTL ; B9F2 20E0AB JSR GETINT ; GET EXP2 B9F5 68 PLA ; GET INDEX B9F6 48 PHA ; SAVE AGAIN B9F7 AA TAX ; PUT IN INDEX REG B9F8 A5D4 LDA FR0 ; GET VALUE B9FA 9D00D2 STA SREG2,X ; SAVE IT ; B9FD 20E0AB JSR GETINT ; GET EXP3 BA00 A5D4 LDA FR0 ; GET 16+EXP3 BA02 ASLA ; X BA02 +0A ASL A BA03 ASLA ; X BA03 +0A ASL A BA04 ASLA ; X BA04 +0A ASL A BA05 ASLA ; X BA05 +0A ASL A BA06 48 PHA ; SAVE IT ; BA07 20E0AB JSR GETINT ; GET EXP4 BA0A 68 PLA ; GET 16 EXP3 BA0B A8 TAY ; SAVE IT BA0C 68 PLA ; GET INDEX BA0D AA TAX ; PUT IN X BA0E 98 TYA ; GET EXP3*16 BA0F 18 CLC BA10 65D4 ADC FR0 ; GET 16*EXP3+EXP4 BA12 9D01D2 STA SREG3,X ; STORE IT BA15 60 RTS ;XPOS - Execute POSITION BA16 XPOS BA16 20E0AB JSR GETINT ; GET INTEGER INTO FR0 BA19 A5D4 LDA FR0 ; SET X VALUE BA1B 8555 STA SCRX ; X BA1D A5D5 LDA FR0+1 ; X BA1F 8556 STA SCRX+1 ; X ; BA21 20E9AB JSR GET1INT ; SET VALUE BA24 A5D4 LDA FR0 ; X BA26 8554 STA SCRY ; X BA28 60 RTS ;XCOLOR - Execute COLOR BA29 XCOLOR BA29 20E0AB JSR GETINT ; GET INTEGER INTO FR0 BA2C A5D4 LDA FR0 BA2E 85C8 STA COLOR BA30 60 RTS ;XDRAWTO - Execute DRAWTO BA31 XDRAWTO BA31 2016BA JSR XPOS ; GET X,Y POSITION BA34 A5C8 LDA COLOR ; GET COLOR BA36 8DFB02 STA SVCOLOR ; SET IT ;----------233 BA39 A911 LDA #ICDRAW ; GET COMMAND BA3B A206 LDX #6 ; SET DEVICE BA3D 20C4BA JSR GLPCX ; SET THEM ; BA40 A90C LDA #$0C ; SET AUX 1 BA42 9D4A03 STA ICAUX1,X BA45 A900 LDA #0 ; SET AUX 2 BA47 9D4B03 STA ICAUX2,X BA4A 2024BD JSR IO7 BA4D 4CB3BC JMP IOTEST ;XGR - Execute GRAPHICS BA50 XGR BA50 A206 LDX #6 ; GET DEVICE BA52 86C1 STX IODVC ;SAVE DEVICE # BA54 20F1BC JSR CLSYS1 ; GO CLOSE IT BA57 20E0AB JSR GETINT ; GET INTEGER INTO FR0 ; BA5A A273 LDX #SSTR&255 ; SET INBUFF TO POINT BA5C A0BA LDY #SSTR/256 ; TO FILE SPEC STRING BA5E 86F3 STX INBUFF ; X BA60 84F4 STY INBUFF+1 ; X ; BA62 A206 LDX #6 ; GET DEVICE # BA64 A5D4 LDA FR0 ;SET SOME BITS FOR GRAPHICS BA66 29F0 AND #$F0 ; BA68 491C EOR #ICGR ; BA6A A8 TAY ; BA6B A5D4 LDA FR0 ; GET AUX2 [GRAPHICS TYPE] BA6D 20D1BB JSR SOPEN ; OPEN BA70 4CB3BC JMP IOTEST ; TEST I/O OK ; ; ; BA73 533A9B SSTR DB 'S:',CR ;XPLOT - Execute PLOT BA76 XPLOT BA76 2016BA JSR XPOS ; SET X,Y POSITION ; BA79 A5C8 LDA COLOR ; GET COLOR BA7B A206 LDX #6 ; GET DEVICE # BA7D 4CA1BA JMP PRCX ; GO PRINT IT ; Input/Output Routines BA80 LOCAL ;GETLINE - Get a Line of Input ; GLINE - GET LINE [PROMPT ONLY] ; GNLINE - GET NEW LINE [CR, PROMPT] ; BA80 GNLINE BA80 A6B4 LDX ENTDTD ; IF ENTER DEVICE NOT ZERO BA82 D00E ^BA92 BNE GLGO ; THEN DO PROMPT BA84 A99B LDA #CR ; PUT EOL BA86 209FBA JSR PUTCHAR ; BA89 GLINE BA89 A6B4 LDX ENTDTD ; IF ENTER DEVICE NOT ZERO BA8B D005 ^BA92 BNE GLGO ; THEN DON'T PROMPT BA8D A5C2 LDA PROMPT ; PUT PROMPT BA8F 209FBA JSR PUTCHAR ; BA92 GLGO BA92 A6B4 LDX ENDTD BA94 A905 LDA #ICGTR ;----------234 BA96 20C4BA JSR GLPCX BA99 200ABD JSR IO1 ; GO DO I/O BA9C 4CB3BC JMP IOTEST ; GO TEST RESULT ;PUTCHAR - Put One Character to List Device BA9F PRCHAR BA9F PUTCHAR BA9F A6B5 LDX LISTDTD ; GET LIST DEVICE BAA1 PRCX BAA1 48 PHA ; SAVE IO BYTE BAA2 20C6BA JSR GLPX ; SET DEVICE ; BAA5 BD4A03 LDA ICAUX1,X ; SET UP ZERO PAGE IOCB BAA8 852A STA ICAUX1-IOCB+ZICB ; X BAAA BD4B03 LDA ICAUX2,X ; X BAAD 852B STA ICAUX2-IOCB-ZICB ; X ; BAAF 68 PLA BAB0 A8 TAY BAB1 20B8BA JSR :PDUM ; ; RETURN HERE FROM SUBROUTINE BAB4 98 TYA ; TEST STATUS BAB5 4CB6BC JMP IOTES2 ; ; BAB8 :PDUM BAB8BD4703 LDA ICPUT+1,X ; GO TO PUT ROUTINE BABB 48 PHA ; X BABC BD4603 LDA ICPUT,X ; X BABF 48 PHA ; X BAC0 98 TYA ; X BAC1 A092 LDY #$92 ;LOAD VALUE FOR CIO ROUTINE BAC3 60 RTS ; BAC4 85C0 GLPCX STA IOCMD BAC6 GLPX BAC6 86C1 STX IODVC ; AS I/O DEVICE BAC8 4CA6BC JMP LDDVX ; LOAD DEVICE X ;XENTER - Execute ENTER BACB XENTER BACB A904 LDA #$04 ; OPEN INPUT BACD 20DDBA JSR ELADVC ; GO OPEN ALT DEVICE BAD0 85B4 STA ENTDTD ; SET ENTER DEVICE BAD2 4C60A0 JMP SYNTAX ;FLIST - Open LIST Device BAD5 FLIST BAD5 A908 LDA #$8 ; OPEN OUTPUT BAD7 20DDBA JSR ELADVC ; GO OPEN ALT DEVICE BADA 85B5 STA LISTDTD ; SET LIST DEVICE BADC 60 RTS ; DONE ; BADD ELADVC BADD 48 PHA BADE A007 LDY #7 ; USE DEVICE 7 BAE0 84C1 STY IODVC ; SET DEVICE ; BAE2 20A6BC JSR LDDVX ;BEFORE BAE5 A90C LDA #ICCLOSE ;GO CLOSE DEVICE BAE7 2026BD JSR IO8 ;OPEN OP NEW ONE ; BAEA A003 LDY #ICOIO ; CMD IS OPEN BAEC 84C0 STY IOCMD ; BAEE 68 PLA BAEF A000 LDY #0 ; GET AUX2 BAF1 20FBBB JSR XOP2 ; GO OPEN ;----------235 BAF4 A907 LDA #7 ; LOAD DEVICE BAF6 60 RTS ; AND RETURN ;RUN from File BAF7 A9FF FRUN LDA #$FF ;SET RUN MODE BAF9 D002 ^BAFD BNE :LD0 ;XLOAD - Execute LOAD Command BAFB XLOAD BAFB A900 LDA #0 ; SET LOAD MODE BAFD 48 :LD0 PHA ; SAVE R/L TYPE BAFE A904 LDA #04 ; GO OPEN FOR INPUT BB00 20DDBA JSR ELADVC ; THE SPECIFIED DEVICE BB03 68 PLA ; GET R/L TYPE ; BB04 XLOAD1 BB04 48 PHA ; SAVE R/L TYPE BB05 A907 LDA #ICGTC ; CMD IS GET TEXT CHARS BB07 85C0 STA IOCMD BB09 85CA STA LOADFLG ; SET LOAD IN PROGRESS ; BB0B 20A6BC JSR LDDVX ; LOAD DEVICE X REG BB0E A00E LDY #ENDSTAR-OUTBUFF ; Y=REC LENGTH BB10 2010BD JSR IO3 ; GO GET TABLE BLOCK BB13 20B3BC JSR IOTEST ; TEST I/O BB16 AD8005 LDA MISCRAM+OUTBUFF ; IF FIRST 2 BB19 0D8105 ORA MISCRAM+OUTBUFF+1 ; BYTES NOT ZERO BB1C D038 ^BB56 BNE :LDFER ; THEN NOT SAVE FILE ; BB1E A28C LDX #STARP ; START AT STARP DISPL BB20 18 :LD1 CLC BB21 A580 LDA OUTBUFF ; ADD LOMEM TO BB23 7D0005 ADC MISCRAM,X ; LOAD TABLE DISPL BB26 A8 TAY BB27 A581 LDA OUTBUFF+1 BB29 7D0105 ADC MISCRAM+1,X ; BB2C CDE602 CMP HIMEM+1 ; IF NEW VALUE NOT BB2F 900A ^BB3B BCC :LD3 ; LESS THAN HIMEM BB31 D005 ^BB38 BNE :LD2 ; THEN ERROR BB33 CCE502 CPY HIMEM BB36 9003 ^BB3B BCC :LD3 BB38 4C1AB9 :LD2 JMP ERRPTL ; BB3B 9501 :LD3 STA 1,X ; ELSE SET NEW TABLE VALUE BB3D 9400 STY 0,X BB3F CA DEX ; DECREMENT TO PREVEOUS TEL ENTRY BB40 CA DEX BB41 E082 CPX #VNTP ; IF NOT AT LOWER ENTRY BB43 B0DB ^BB20 BCS :LD1 ; THEN CONTINUE ; BB45 2088BB JSR :LSBLK ; LOAD USER AREA BB48 2066B7 JSR XCLR ; EXECUTE CLEAR BB4B A900 LDA #0 ; RESET LOAD IN-PROGRESS BB4D 85CA STA LOADFLG ; X BB4F 68 PLA ; LOAD R/S STATUS BB50 F001 ^BB53 BEQ :LD4 ; BR IF LOAD BB52 60 RTS ; RETURN TO RUN BB53 :LD4 BB53 4C50A0 JMP SNX1 ; GO TO SYNTAX ; BB56 :LDFER BB56 A900 LDA #0 ; RESET LOAD IN PROGRESS BB58 85CA STA LOADFLG ; X BB5A 2016B9 JSR ERRNSF ; NOT SAVE FILE ;----------236 XSAVE - Execute SAVE Command BB5D XSAVE BB5D A95D LDA #08 ; GO OPEN FOR OUTPUT BB5F 20DDBA JSR ELADVC ; THE SPECIFIED DEVICE ; BB62 XSAVE1 BB62 A90B LDA #ICPTC ; I/O CMD IS PUT TEXT CHARS BB64 85C0 STA IOCMD ; SET I/O CMD ; BB66 A280 LDX #OUTBUFF ; MOVE RAM TABLE PTRS BB68 38 :SV1 SEC ; [OUTBUFF THRU ENSTAR] BB69 B500 LDA 0,X ; TO LBUFF BB6B E580 SBC OUTBUFF ; AS DISPLACEMENT BB6D 9D0005 STA MISCRAM,X ; FROM LOW MEM BB70 E8 INX BB71 B500 LDA 0,X BB73 E581 SBC OUTBUFF+1 BB75 9D0005 STA MISCRAM,X BB78 E8 INX BB79 E08E CPX #ENDSTAR BB7B 90EB ^BB68 BCC :SV1 ; BB7D 20A6BC JSR LDDVX ; OUTPUT LBUFF BB80 A00E LDY #ENDSTAR-OUTBUFF ; FOR PROPER LENGTH BB82 2010BD JSR IO3 BB85 20B3BC JSR IOTEST ; TEST GOOD I/O ;LSBLK - LOAD or SAVE User Area as a Block BB88 :LSBLK BB88 20A6BC JSR LDDVX ; LOAD DEVICE X REG BB8B A582 LDA VNTP ; SET VAR NAME TBL PTR BB8D 85F3 STA INBUFF ; AS START OF BLOCK ADR BB8F A583 LDA VNTP+1 BB91 85F4 STA INBUFF+1 BB93 AC8D05 LDY MISCRAM+STARP+1 ; A,Y = BLOCK LENGTH BB96 88 DEY BB97 98 TYA BB98 AC8C05 LDY MISCRAM+STARP BB9B 2012BD JSR IO4 ; GO DO BLOCK I/O BB9E 20B3BC JSR IOTEST BBA1 4CF1BC JMP CLSYS1 ; GO CLOSE DEVICE ; ;XCSAVE - Execute CSAVE BBA4 XCSAVE BBA4 A908 LDA #8 ; GET OPEN FOR OUTPUT BBA6 20B6BB JSR COPEN ; OPEN CASSETTE ; BBA9 4C62BB JMP XSAVE1 ; DO SAVE ;XCLOAD - Execute CLOAD BBAC CLOAD BBAC A904 LDA #4 ; GET OPEN FOR OUTPUT BBAE 20B6BB JSR COPEN ; OPEN CASSETTE ; BBB1 A900 LDA #0 ; GET LOAD TYPE BBB3 4C04BB JMP XLOAD1 ; DO LOAD ; ;COPEN - Open Cassette ; ON ENTRY: A - TYPE OF OPEN [IN OR OUT] ; ON EXIT: A - DEVICE #7 ; BBB6 COPEN BBB6 48 PHA ; BBB7 A2CE LDX #:CSTR&255 BBB9 86F3 STX INBUFF ;----------237 BBBB A2BB LDX #:CSTR/256 BBBD 86F4 STX INBUFF+1 ; BBBF A207 LDX #7 BBC1 68 PLA BBC2 A8 TAY ; SET COMMAND TYPE BBC3 A980 LDA #$80 ; GET AUX 2 ; BBC5 20D1BB JSR SOPEN ; GO OPEN BBC8 20B3BC JSR IOTEST BBCB A907 LDA #7 ; GET DEVICE BBCD 60 RTS ; ; ; BBCE 433A9B :CSTR DB 'C:',CR ;SOPEN - OPEN System Device ; ON ENTRY X - DEVICE ; Y - AUX1 ; A - AUX2 ; INBUFF - POINTS TO FILE SPEC ; BBD1 SOPEN BBD1 48 PHA ; SAVE AUX2 BBD2 A903 LDA #ICOIO ; GET COMMAND BBD4 20C4BA JSR GLPCX ; GET DEVICE/COMMAND BBD7 68 PLA ; SET AUX2 & AUX 1 BBD8 9D4B03 STA ICAUX2,X ; X BBDB 98 TYA BBDC 9D4A03 STA ICAUX1,X ; BBDF 2019BD JSR IO5 ; DO COMMAND BBE2 4C51DA JMP INTLBF ; RESET INBUFF ;XXIO - Execute XIO Statement BBE5 XXIO BBE5 2004BD JSR GIOCMD ; GET THE COMMAND BYTE BBE8 4CEDBB JMP XOP1 ; CONTINUE AS IF OPEN ;XOPEN - Execute OPEN Statement BBEB XOPEN BBEB A903 LDA #ICOIO ; LOAD OPEN CODE BBED 85C0 XOP1 STA IOCMD BBEF 209FBC JSR GIODVC ; GET DEVICE ; BBF2 2004BD JSR GIOCMD ; GET AUX1 BBF5 48 PHA BBF6 2004BD JSR GIOCMD ; GET AUX2 BBF9 A8 TAY ; AUX IN Y BBFA 68 PLA ; AUX IN A BBFB XOP2 BBFB 48 PHA ; SAVE AUX1 BBFC 98 TYA BBFD 48 PHA ; SAVE AUX2 ; BBFE 20E0AA JSR EXEXPR ; GET FS STRING BC01 2079BD JSR SETEOL ; GIVE STRING AN EOL ; BC04 20A6BC JSR LDDVX ; LOAD DEVICE X REG BC07 68 PLA BC08 9D4B03 STA ICAUX2,X ; SET AUX2 BC0B 68 PLA ; GET AUX1 BC0C 9D4A03 STA ICAUX1,X BC0F 200ABD JSR IO1 ; GO DO I/O ; BC12 2099BD JSR RSTSEOL ; RESTORE STRING EOL ;----------238 BC15 2051DA JSR INTLBF BC18 4CB3BC JMP IOTEST ; GO TEST I/O STATUS ;XCLOSE - Execute CLOSE BC1B XCLOSE BC1B A90C LDA #ICCLOSE ; CLOSE CMD ;GDVCIO - General Device I/O BC1D GDVCIO BC1D 85C0 STA IOCMD ; SET CMD BC1F 209FBC JSR GIODVC ; GET DEVICE BC22 2024BD GDIO1 JSR IO7 ; GO DO I/O BC25 4CB3BC JMP IOTEST ; GO TEST STATUS ;XSTATUS - Execute STATUS BC28 XSTATUS BC28 209FBC JSR GIODVC ; GET DEVICE BC2B A90D LDA #ICSTAT ; STATUS CMD BC2D 2026BD JSR IO8 ; GO GET STATUS BC30 20FBBC JSR LDIOSTA ; LOAD STATUS BC33 4C2DBD JMP ISVAR1 ; GO SET VAR ;XNOTE - Execute NOTE BC36 XNOTE BC36 A926 LDA #$26 ; NOTE CMD BC38 201DBC JSR GDVCIO ; GO DO BC3B BD4C03 LDA ICAUX3,X ; GET SECTOR N/. LOW BC3E BC4D03 LDY ICAUX4,X ; AND HI BC41 202FBD JSR ISVAR ; GO SET VAR BC44 20A6BC JSR LDDVX ; GET DEVICE X REG BC47 BD4E03 LDA ICAUX5,X ; GET DATA LENGTH BC4A 4C2DBD JMP ISVAR1 ; GO SET VAR ;XPOINT - Execute POINT BC4D XPOINT BC4D 209FBC JSR GIODVC ; GET I/O DEVICE NO. BC50 20D5AB JSR GETPINT ; GET SECTOR NO. BC53 20A6BC JSR LDDVX ; GET DEVICE X BC56 A5D4 LDA FR0 ; SET SECTOR NO. BC58 9D4C03 STA ICAUX3,X BC5B A5D5 LDA FR0+1 BC5D 9D4D03 STA ICAUX4,X BC60 20D5AB JSR GETPINT ; GET DATA LENGTH BC63 20A6BC JSR LDDVX ; LOAD DEVICE X BC66 A5D4 LDA FR0 ; GET AL BC68 9D4E03 STA ICAUX5,X ; SET DATA LENGTH BC6B A925 LDA #$25 ; SET POINT CMD BC6D 85C0 STA IOCMD BC6F 4C22BC JMP GDIO1 ; GO DO ;XPUT - Execute PUT BC72 XPUT BC72 209FBC JSR GIODVC ; GET DEVICE # ; BC75 20E0AB JSR GETINT ; GET DATA BC78 A5D4 LDA FR0 ; X BC7A A6C1 LDX IODVC ; LOAD DEVICE # BC7C 4CA1BA JMP PRCX ; GO PRINT ;XGET - Execute GET BC7F XGET BC7F 209FBC JSR GIODVC ; GET DEVICE ; BC82 GET1 BC82 A907 LDA #ICGTC ; GET COMMAND BC84 85C0 STA IOCMD ; SET COMMAND ;----------239 BC86 A001 LDA #1 ; SET BUFF LENGTH=1 BC88 2010BD JSR IO3 ; DO IO BC8B 20B3BC JSR IOTEST ; TEST I/O BC8E A000 LDY #0 ; GET CHAR BC90 B1F3 LDA [INBUFF],Y ; X BC92 4C2DBD JMP ISVAR1 ; ASSIGN VAR ;XLOCATE - Execute LOCATE BC95 XLOCATE BC95 2016BA JSR XPOS ; GET X,Y POSITION BC98 A206 LDX #6 ; GET DEVICE # BC9A 20C6BA JSR GLPX ; X ; BC9D D0E3 ^BC82 BNE GET1 ; GO GET ;GIODVC - Get I/O Device Number BC9F GIODVC BC9F 2002BD JSR GIOPRM ; GET PARM BCA2 85C1 STA IODVC ; SET AS DEVICE BCA4 F00A ^BCB0 BEQ DNERR ; BR IF DVC=0 ;LDDVX - Load X Register with I/O Device Offset BCA6 LDDVX BCA6 A5C1 LDA IODVC ; GET DEVICE BCA8 ASLA ; MULT BY 16 BCA8 +0A ASL A BCA9 ASLA BCA9 +0A ASL A BCAA ASLA BCAA +0A ASL A BCAB ASLA BCAB +0A ASL A BCAC AA TAX ; PUT INTO X BCAD 3001 ^BCB0 BMI DNERR ; BR DN0>7 BCAF 60 RTS ; AND RETURN BCB0 2018B9 DNERR JSR ERRDNO ;IOTEST - Test I/O Status BCB3 IOTEST BCB3 20FBBC JSR LDIOSTA ; LOAD I/O STATUS BCB6 IOTES2 BCB6 3001 ^BCB9 BMI SICKIO ; BR IF BAD BCB8 60 RTS ; ELSE RETURN BCB9 SICKIO BCB9 A000 LDY #0 ; RESET DISPLAY FLAG BCBB 8CFE02 STY DSPFLG ; BCBE C980 CMP #ICSBRK ; IF BREAK BCC0 D00A ^BCCC BNE :SIO1 ; SIMULATE ASYNC BCC2 8411 STY BRKBYT ; BREAK BCC4 A5CA LDA LOADFLG ;IF LOAD FLAG SET BCC6 F003 ^BCCB BEQ :SIOS ; BCC8 4C00A0 JMP COLDSTART ;DO COLDSTART BCCB :SIOS BCCB 60 RTS ; BCCC A4C1 :SIO1 LDY IODVC ; PRE-LOAD I/O DEVICE BCCE C988 CMP #$88 ; WAS ERROR EOF BCD0 F00F ^BCE1 BEQ :SIO4 ; BR IF EOF BCD2 85B9 :SIO2 STA ERRNUM ; SET ERROR NUMBER ; BCD4 C007 CPY #7 ; WAS THIS DEVICE #7 BCD6 D003 ^BCDB BNE :SIO3 ; BR IF NOT BCD8 20F1BC JSR CLSYSD ; CLOSE DEVICE 7 ; BCDB 2072BD :SIO3 JSR SETDZ ; SET L/D DEVICE = 0 BCDE 4C40B9 JMP ERROR ; REPORT ERROR ; ;----------240 BCE1 C007 :SIO4 CPY #7 ; WAS EOF ON DEVICE 7 BCE3 D0ED ^BCD2 BNE :SIO2 ; BR IF NOT BCE5 A25D LDX #EPCHAR ; WERE WE IN ENTER BCE7 E4C2 CPX PROMPT ; BCE9 D0E7 ^BCD2 BNE :SIO2 ; BR NOT ENTER BCEB 20F1BC JSR CLSYSD ; CLOSE DEVICE 7 BCEE 4C53A0 JMP SNX2 ; GO TO SYNTAX ;CLSYSD - Close System Device BCF1 CLSYSD ; BCF1 20A6BC CLSYS1 JSR LDDVX BCF4 F00B ^BD01 BEQ NOCD0 ; DON'T CLOSE DEVICE0 BCF6 A90C LDA #ICCLOSE ; LOAD CLOSE CORD BCF8 4C26BD JMP IO8 ; GO CLOSE ;LDIOSTA - Load I/O Status BCFB LDIOSTA BCFB 20A6BC JSR LDDVX ; GET DEVICE X REG BCFE BD4303 LDA ICSTA,X ; GET STATUS BD01 NOCD0 BD01 60 RTS ; RETURN ;GIOPRM - Get I/O Parameters BD02 GIOPRM BD02 E6A8 INC STINDEX ; SKIP OVER # BD04 20D5AB GIOCMD JSR GETPINT ; GET POSITIVE INT BD07 A5D4 LDA FR0 ; MOVE LOW BYTE TO BD09 60 RTS ;I/O Call Routine BD0A A0FF IO1 LDY #255 ; BUFL = 255 BD0C D002 ^BD10 BNE IO3 BD0E A000 IO2 LDY #0 ; BUFL = 0 BD10 A900 IO3 LDA #0 ; BUFL < 256 BD12 9D4903 IO4 STA ICBLH,X ; SET BUFL BD15 98 TAY BD16 9D4803 STA ICBLL,X BD19 A5F4 IO5 LDA INBUFF+1 ; LOAD INBUFF VALUE BD1B A4F3 LDY INBUFF BD1D 9D5403 IO6 STA ICBAH,X ; SE BUF ADR BD20 98 TAY BD21 9D4403 STA ICBAL,X BD24 A5C0 IO7 LDA IOCMD ; LOAD COMMAND BD26 9D4203 IO8 STA ICCOM,X ; SET COMMAND BD29 2056E4 JSR CIO ;GO DO I/O BD2C 60 RTS ; DONE ;ISVAR - I/O Variable Set BD2D ISVAR1 BD2D A000 LDY #0 ; GET HIGH ORDER BYTE BD2F ISVAR BD2F 48 PHA ; PUSH INT VALUE LOW BD30 98 TYA BD31 48 PHA ; PUSH INT VALUE HI BD32 200FAC JSR POP1 ; GET VARIABLE BD35 68 PLA BD36 85D5 STA FR0+1 ; SET VALUE LOW BD38 68 PLA BD39 85D4 STA FR0 ; SET VALUE HI BD3B 20AAD9 JSR CVIFP ; CONVERT TO FP BD3E 4C16AC JMP RTNVAR ; AND RETURN TO TABLE ;----------241 ;CLALL - CLOSE All IOCBS [except 0] BD41 CLSALL ; ; TURN OFF SOUND ; BD41 A900 LDA #0 BD43 A207 LDX #7 BD45 :CL BD45 9D00D2 STA SREG3-1,X BD48 CA DEX BD49 D0FA ^BD45 BNE :CL ; BD4B A007 LDY #7 ; START AT DEVICE 7 BD4D 84C1 STY IODVC BD4F 20F1BC CLALL1 JSR CLSYSD ; CLOSE DEVICE BD52 C6C1 DEC IODVC ; DEC DEVICE # BD54 D0F9 ^BD4F BNE CLALL1 ; BR IF NOT ZERO BD56 60 RTS ;PREADY - Print READY Message BD57 PREADY BD57 A206 LDX #RML-1 ; GET READY MSG LENGTH-1 BD59 86F2 PRDY1 STX CIX ; SET LEN REM BD5B BD67BD LDA RMSG,X ; GET CHAR BD5E 209FBA JSR PRCHAR ; PRINT IT BD61 A6F2 LDX CIX ; GET LENGTH BD63 CA DEX BD64 10F3 ^BD59 BPL PRDY1 ; BR IF MORE BD66 60 RTS BD67 9B59444145 RMSG DB CR,'YDAER',CR 529B = 0007 RML EQU *-RMSG ;PRCR - Print Carriage Return BD6E A200 PRCR LDX #0 ; SET FOR LAST CHAR BD70 F0E7 ^BD59 BEQ PRDY1 ; AND GO DO IT ;SETDZ - Set Device 0 as LIST/ENTER Device BD72 A900 SETDZ LDA #0 BD74 85B4 STA ENTDTD BD76 85B5 STA LISTDTD BD78 60 RTS ;SETEOL - Set EOL [Temporarily] after String EOL BD79 SETSEOL BD79 2098AB JSR AAPSTR ; GET STRING WITH ABS ADR BD7C A5D4 LDA FR0-2+EVSADR ; PUT IT'S ADR BD7E 85F3 STA INBUFF ; INTO INBUFF BD80 A5D5 LDA FR0-1+EVSADR BD82 85F4 STA INBUFF+1 ; BD84 A4D6 LDY FR0-2+EVSLEN ; GET LENGTH LOW BD86 A6D7 LDX FR0-1+EVSLEN ; IF LEN < 256 BD88 F002 ^BD8C BEQ :SSE1 ; THEN BR BD8A A0FF LDY #$FF ; ELSE SET MAX ; BD8C B1F3 :SSE1 LDA [INBUFF],Y ; GET LAST STR CHAR+1 BD8E 8597 STA INDEX2 ; SAVE IT BD90 8498 STY INDEX2+1 ; AND IT'S INDEX BD92 A99B LDA #CR ; THEN REPLACE WITH EOL BD94 91F3 STA [INBUFF],Y BD96 8592 STA MEOFLG ; INDICATE MODIFIED EOL BD98 60 RTS ; DONE ; BD99 RSTSEOL ; RESTORE STRING CHAR BD99 A498 LDY INDEX2+1 ; LOAD INDEX ;----------242 BD9B A597 LDA INDEX2 ; LOAD CHAR BD9D 91F3 STA [INBUFF],Y ; DONE BD9F A900 LDA #0 ; BDA1 8592 STA MEOFLG ; RESET EOL FLAG BDA3 60 RTS ; DONE BDA4 =0001 PATCH DS PATSIZ ; SIN[X] and COS[X] ; BDA5 38 SINERR SEC ;ERROR - SET CARRY BDA6 60 RTS ; ; BDA7 A904 SIN LDA #4 ; FLAG SIN[X] ENTRY RIGHT NOW BDA9 24D4 BIT FR0 BDAB 1006 ^BDB3 BPL BOTH BDAD A902 LDA #2 ; SIN[-X] BDAF D002 ^BDB3 BNE BOTH BDB1 A901 COS LDA #1 ;FLAG COS[X] ENTRY BDB3 85F0 BOTH STA SGNFLG BDB5 A5D4 LDA FR0 ; FORCE POSITIVE BDB7 297F AND #$7F BDB9 85D4 STA FR0 BDBB A95F LDA #PIOV2&$FF BDBD 18 CLC BDBE 65FB ADC DEGFLG BDC0 AA TAX BDC1 A0BE LDY #PIOV2/$100 BDC3 2098DD JSR FLD1R BDC6 2028DB JSR FDIV ; X/[PI/2] OR X/90 BDC9 9001 ^BDCC BCC SINF7 BDCB 60 SINOVF RTS ; OVERFLOW BDCC SIN7 BDCC A5D4 LDA FR0 BDCE 297F AND #$7F :CHECK EXPONENT BDD0 38 SEC BDD1 E940 SBC #$40 BDD3 302B ^BE00 BMI SINF3 ; QUADRANT 0 - USE AS IS BDD5 C904 SIN6 CMP #FPREC-2 ; FIND QUAD NO & REMAINDER BDD7 10CC ^BDA5 BPL SINERR ; OUT OF RANGE BDD9 AA TAX ; X->LSB OR FR0 BDDA B5D5 LDA FR0+1,X ; LSB BDDC 85F1 STA XFMLG BDDE 2910 AND #$10 ; CHECK 10'S DIGIT BDE0 F002 ^BDE4 BEQ SINF5 BDE2 A902 LDA #2 ; ODD -ADD 2 TO QUAD # BDE4 18 SINF5 CLC BDE5 65F1 ADC XFMFLG BDE7 2903 AND #3 ; QUADRANT = 0,1,2,3 BDE9 65F0 ADC SGNFLG ; ADJUST FOR SINE VS COSINE BDEB 85F0 STA SGNFLG BDED 86F1 STX XFMFLG ; SAVE DEC PT LOC BDEF 20B6DD JSR FMOVE ; COPY TO FR1 BDF2 A6F1 LDX XFMFLG BDF4 A900 LDA #0 BDF6 95E2 SINF1 STA FR1+2,X ; CLEAR FRACTION BDF8 E8 INX BDF9 E003 CPX #FPREC-3 BDFB 90F9 ^BDF6 BCC SINF1 BDFD 2060DA JSR FSUB ; LEAVE REMAINDER BE00 46F0 SINF3 LSR SGNFLG ; WAS QUAD ODD BE02 900D ^BE11 BCC SINF4 ; NO BE04 20B6DD JSR FMOVE ; YES - USE 1.0 - REMAINDER BE07 A271 LDX #FPONE&FF BE09 A0BE LDY #FPONE/$100 BE0B 2089DD JSR FLD0R BE0E 2060DA JSR FSUB BE11 SINF4 ; NOW DO THE SERIES THING BE11 A2E6 LDX #FPSCR&$FF ; SAVE ARG BE13 A005 LDY #FPSCR/$100 ;----------243 BE15 20A7DD JSR FST0R BE18 20B6DD JSR FMOVE ;X->FR1 BE1B 20DBDA JSR FMUL ;X**2->FR0 BE1E B085 ^BDA5 BCS SINERR BE20 A906 LDA #NSCF BE22 A241 LDX #SCOEF&FF BE24 A0BE LDY #SCOEF/$100 BE26 2040DD JSR PLYEVL ; EVALUATE P[X**2] BE29 A2E6 LDX #FPSCR&$FF BE2B A005 LDY #FPSCR/$100 BE2D 2098DD JSR FLD1R ; X-> FR1 BE30 20DBDA JSR FMUL ; SIN[X] = X*P[X**2] BE33 46F0 LSR SGNFLG ; WAS QUEAD 2 OR 3? BE35 9009 ^BE40 BCC SINDON ; NO - THRU BE37 18 CLC ; YES BE38 A5D4 LDA FR0 ; FLIP SIGN BE3A F004 ^BE40 BEQ SINDON ; [UNLESS ZERO] BE3C 4980 EOR #$80 BE3E 85D4 STA FR0 BE40 60 SINDON RTS ; RETURN BE41 BD03551599 SCOEF .BYTE $BD,$03,$55,$14,$99,$39 ; -.0000035419939 39 BE47 3E01604427 .BYTE $3E,$01,$60,$44,$27,$52 ; 0.000160442752 52 BE4D BE46817543 .BYTE $BE,$46,$81,$75,$43,$55 ; -.004681754355 55 BE53 3F07968262 .BYTE $3F,$07,$96,$92,$62,$39 ; 0.0796926239 39 BE59 BF64596408 .BYTE $BF,$64,$59,$64,$08,$67 ; -.6459640867 67 BE5F 4001570796 PIOV2 .BYTE $40,$01,$57,$07,$96,$32 ;PI/2 32 = 0006 NSCF EQU (*-SCOEF)/FPREC BE65 4090000000 .BYTE $40,$90,0,0,0,0 ; 90 DEG 00 BE6B 3F01745329 .BYTE $3F,$01,$74,$53,$29,$25 ;PI/180 25 BE71 4001000000 FPONE .BYTE $40,$1,0,0,0,0 ;1.0 00 ; ATAN[X] - Arctangent BE77 A900 ATAN LDA #0 ; ARCTAN[X] BE79 85F0 STA SGNLFG ; SIGN FLAG OFF BE7B 85F1 STA XFMFLG ; & TRANSFORM FLAG BE7D A5D4 LDA FR0 BE7F 297F AND #$7F BE81 C940 CMP #$40 ; CHECK X VS 1.0 BE83 3015 ^BE9A BMI ATAN1 ; X<1.0 - USE SERIES DIRECTLY BE85 A5D4 LDA FR0 ; X>=1.0 - SAVE SIGN & TRANSFORM BE87 2980 AND #$80 BE89 85F0 STA SGNFLG ; REMEMBER FLAG BE8B E6F1 INC XFMFLG BE8D A97F LDA #$7F BE8F 25D4 AND FR0 BE91 85D4 STA FR0 ; FORCE PLUS BE93 A2EA LDX #FPS&$FF BE95 A0DF LDY #FP9S/$100 BE97 2095DE JSR XFORM ; CHANGE ARG TO [X-1]/[X+1] BE9A ATAN1 BE9A A2E6 LDX #FPSCR&$FF ; ARCTAN[X], -1FSCR BEA1 20B6DD JSR FMOVE ; X->FR1 BEA4 20DBDA JSR FMUL ; X*X->FR0 BEA7 B039 ^BEE2 BCS ATNOUT ; 0'FLOW BEA9 A90B LDA #NATCF BEAB A2AE LDX #ATCOEF&$FF BEAD A0DF LDY #ATCOEF/$100 ;----------244 BEAF 2040DD JSR PLYEVL ;P[X*X] BEB2 B02E ^BEE2 BCS ATNOUT BEB4 A2E6 LDX #FPSCR&$FF BEB6 A005 LDY #FPSCR/$100 BEB8 2098DD JSR FLD1R ;X->FR1 BEBB 20DBDA JSR FMUL ;X*P[X*X] BEBE B022 ^BEE2 BCS ATNOUT ; O'FLOW BEC0 A5F1 LDA XFMFLG ; WAS ARG XFORM'D BEC2 F010 ^BED4 BEQ ATAN2 ; NO BEC4 A2F0 LDX #PIOV4&$FF ; YES-ADD ARCTAN [1.0] = PI/4 BEC6 A0DF LDY #PIOV4/$100 BEC8 2098DD JSR FLD1R BECB 2066DA JSR FADD BECE A5F0 LDA SGNFLG ; GET ORG SIGN BED0 05D4 ORA FR0 BED2 85D4 STA FR0 ; ATAN[-X] = - ATAN[X] BED4 A5FB ATAN4 LDA DEGFLAG ; RADIANS OR DEGREES BED6 F00A ^BEE2 BEQ ATNOUT ; RAD - FINI BED8 A26B LDX #PIOV18&$FF ; DEG - DIVIDE BY PI/100 BEDA A0BE LDY #PIOV18/$100 BEDC 2098DD JSR FLD1R BEDF 2028DB JSR FDIV BEE2 60 ATNOUT RTS ; SQR[X] - Square Root ; BEE3 38 SQRERR SEC ; SET FAIL BEE4 60 RTS ; BEE5 A900 SQR LDA #0 BEE7 85F1 STA XFMFLG BEE9 A5D4 LDA FR0 BEEB 30F6 ^BEE3 BMI SQRERR BEED C93F CMP #$3F BEEF F017 BEQ FSQR ; X IN RANGE OF APPROX - GO DO BEF1 18 CLC BEF2 6901 ADC #1 BEF4 85F1 STA XFMFLG ; NOT IN RANGE - TRANSFORM BEF6 85E0 STA FR1 ; MANTISSA = 1 BEF8 A901 LDA #1 BEFA 85E1 STA FR1+1 BEFC A204 LDX #FPREC-2 BEFE A900 LDA #0 BF00 95E2 SQR1 STA FR1+2,X BF02 CA DEX BF03 10FB ^BF00 BPL SQR1 BF05 2028DB JSR FDIV ; X/100**N BF08 FSQR ;SQR[X], 0.1<=X<1.0 BF08 A906 LDA #6 BF0A 85EF STA SQRCNT BF0C A2E6 LDX #FSCR&$FF BF0E A005 LDY #FSCR/$100 BF10 20A7DD JSR FST0R ;STASH X IN FSCR BF13 20B6DD JSR FMOVE ;X->FR1 BF16 A293 LDX #FTWO&$FF BF18 A0BF LDY #FTWO/$100 BF1A 2089DD JSR FLD0R ;2.0->FR0 BF1D 2060DA JSR FSUB ;2.0-X BF20 A2E6 LDX #FSCR&$FF BF22 A005 LDY #FSCR/$100 BF24 2098DD JSR FLD1R ;X->FR1 BF27 20DBDA JSR FMUL ;X*[2.0-X] :1ST APPROX BF2A A2EC SQRLP LDX #FSCR1&$FF BF2C A005 LDY #FSCR1/$100 BF2E 20A7DD JSR FST0R ;Y->FSCR1 BF31 20B6DD JSR FMOVE ;Y->FR1 BF34 A2E6 LDX #FSCR&$FF BF36 A005 LDY #FSCR/$100 BF38 2089DD JSR FLD0R ;----------245 BF3B 2028DB JSR FDIV ;X/Y BF3E A2EC LDX #FSCR1&$FF BF40 A005 LDY #FSCR1/$100 BF42 2098DD JSR FLD1R BF45 2060DA JSR FSUB ;[X/Y]-Y BF48 A26C LDX #FHALF&$FF BF4A A0DF LDY #FHALF/$100 BF4C 2098DD JSR FLD1R BF4F 20DBDA JSR FMUL ;0.5*[[X/Y]-Y]=DELTAY BF52 A5D4 LDA FR0 ;DELTA 0.0 BF54 F00E ^BF64 BEQ SQRDON BF56 A2EC LDX #FSCR1&$FF BF58 A005 LDY #FSCR1/$100 BF5A 2098DD JSR FLD1R BF5D 2066DA JSR FADD ;Y=Y+DELTA Y BF60 C6EF DEC SQRCNT ; COUNT & LOOP BF62 10C6 ^BF2A BPL SQRLP BF64 A2EC SQRDON LDX #FSCR1&$FF ; DELTA = 0 - GET Y BACK BF66 A005 LDY #FSCR1/$100 BF68 2089DD JSR FLD0R ; WAS ARG TRANSFORMED BF6B A5F1 LDA XFMFLG BF6D F023 ^BF92 BEQ SQROUT ; NO FINI BF6F 38 SEC BF70 E940 SBC #$40 BF72 18 CLC ; YES - TRANSFORM RESULT BF73 RORA ; DEVIDE EXP BY 2 BF73 +6A ROR A BF74 18 CLC BF75 6940 ADC #$40 BF77 297F AND #$7F BF79 85E0 STA FR1 BF7B A5F1 LDA XFMFLG BF7D RORA BF7D +6A ROR A BF7E A901 LDA #1 ; MANTISSA = 1 BF80 9002 ^BF84 BCC SQR2 ; WAS EXP ODD OR EVEN BF82 A910 LDA #$10 ; ODD - MANT = 10 BF84 85E1 SQR2 STA F1+1 BF86 A204 LDX #FPREC-2 BF88 A900 LDA #0 BF8A 95E2 SQR3 STA FR1+2,X ; CLEAR REST OF MANTISSA BF8C CA DEX BF8D 10FB ^BF8A BPL SQR3 BF8F 20DBDA JSR FMUL ; SQR[X] = SQR[X/100*N] * [10**N] BF92 60 SQROUT RTS BF93 4002000000 FTWO .BYTE $40,2,0,0,0,0 ; 2.0 00 ; Floating Point BF99 =D800 ORG FPORG D800 LOCAL ;ASCIN - Convert ASCII Input to Internal Form ; ON ENTRY INBUFF - POINTS TO BUFFER WITH ASCII ; CIX - INDEX TO 1ST BYTE OF # ; ; ON EXIT CC SET - CARRY SET IF NOT # ; CARRY CLEAR OF # ; D800 AFP D800 CVAFP D800 ASCIN D800 20A1DB JSR SKPBLANK D803 20BBDB JSR :TSTCHAR ; SEE IF THIS COULD BE A NUMBER D806 B039 ^D841 BCS :NONUM ; BR IF NOT A NUMBER ;----------246 ; ; SET INITIAL VALUES ; D808 A2ED LDX #EEXP ; ZERO 4 VALUES D80A A004 LDY #4 ; X D80C 2048DA JSR ZXLY ; X D80F A2FF LDX #$FF D811 86F1 STX DIGRT ; SET TO $FF ; D813 2044DA JSR ZFR0 ; CLEAR FR0 ; D816 F004 ^D81C BEQ :IN2 ; UNCONDITIONAL BR ; ; D818 :IN1 D818 A9FF LDA #$FF ; SET 1ST CHAR TO NON ZERO D81A 85F0 STA FCHRFLG ; X ; D81C :IN2 D81C 2094D8 JSR :GETCHAR ; GET INPUT CHAR D81F B21 ^D842 BCS :NON1 ; BR IF CHAR NOT NUMBER ; ; ; IT'S A NUMBER ; D821 48 PHA ; SAVE ON CPU STACK D822 A6D5 LDX FR0M ; GET 1ST BYTE D824 D011 ^D837 BNE :INCE ; INCR EXPONENT ; D826 20EBDB JSR NIBSH0 ; SHIFT FR0 ONE NIBBLE LEFT ; D829 68 PLA ; GET DIGIT ON CPU STACK D82A 05D9 ORA FR0M+FMPREC-1 ; OR INTO LAST BYTE D82C 85D9 STA FR0M+FMPREC-1 ; SAVE AS LAST BYTE ; ; COUNT CHARACTERS AFTER DECIMAL POINT ; D82E A6F1 LDX DIGRT ; GET # OF DIGITS RIGHT D830 30E6 ^D818 BMI :IN1 ; IF = $FF, NO DECIMAL POINT D832 E8 INX ; ADD IN THIS CHAR D833 86F1 STX DIGRT ; SAVE D835 D0E1 ^D818 BNE :IN1 ; GET NEXT CHAR ; ; ; INCREMENT # OR DIGIT MAORE THAN 9 ; ; D837 :INCE D837 68 PLA ; CLEAR CPU STACK D838 A6F1 LDX DIGRT ; HAVE DP? D83A 1002 ^D93E BPL :INCE2 ; IF YES, DON'T INCR E COUNT D83C E6ED INC EEXP ; INCR EXPONENT D83E :INCE2 D83E 4C18D8 JMP :IN1 ; GET NEXT CHAR ; ; D841 :NONUM D841 60 RTS ; RETURN FAIL ; ; NON-NUMERIC IN NUMBER BODY ; D842 :NON1 D842 C92E CMP #'.' ; IS IT DECIMAL POINT? D844 F014 ^D85A BEQ :DP ; IF YES, PROCESS IT D846 C945 CMP #'E' ; IS IT E FOR EXPONENT? D848 F019 ^D863 BEQ :EXP ; IF YES, DO EXPONENT ; D84A A6F0 LDX FCHRFLG ; IS THIS THE 1ST CHAR D84C D068 ^D8B6 BNE :EXIT ; IF NOT, END OF NUMERIC INPUT D84E C92B CMP #'+' ; IS IT PLUS? ;----------247 D850 F0C6 ^D818 BEQ :IN1 ; GO FOR NEXT CHAR D852 C92D CMP #'-' ; IS IT MINUS? D854 F000 BEQ :MINUS ; ; D856 :MINUS D856 85EE STA NSIGN ; SAVE SIGN FOR LATER D858 F0BE ^D818 BEQ :IN1 ; UNCONDITIONAL BRANCH FOR NEXT CHAR ; D85A :DP D85A A6F1 LDX DIGRT ; IS DIGRT STILL = FF? D85C 1050 ^D8B6 BPL :EXIT ; IF NOT, ALREADY HAVE DP D85E E8 INX ; INCR TO ZERO D85F 86F1 STX DIGRT ; SAVE D861 F0B5 ^D818 BEQ :IN1 ; UNCONDITIONAL BR FOR NEXT CHAR ; D863 :EXP D863 A5F2 LDA CIX ; GET INDEX D865 85EC STA FRX ; SAVE D867 2094DB JSR :GETCHAR ; GET NEXT CHAR D86A B037 ^D8A3 BCS :NON2 ; BR IF NOT NUMBER ; ; IT'S A NUMBER IN AN EXPONENT ; D86C :EXP2 D86C AA TAX ; SAVE 1ST CHAR OF EXPONENT D86D A5ED LDA EEXP ; GET # OF CHAR OVER 9 D86F 48 PHA ; SAVE IT D870 86ED STX EEXP ; SAVE 1ST CHAR OF EXPONENT D872 2094DB JSR :GETCHAR ; GET NEXT CHAR ; ; D875 B017 ^D88E BCS :EXP3 ; IF NOT # NO SECOND DIGIT D877 48 PHA ; SAVE SECOND DIGIT ; D878 A5ED LDA EEXP ; GET 1ST DIGIT D87A ASLA ; GET DIGIT * 10 D87A +0A ASL A D87B 85ED STA EEXP ; X D87D ASLA ; X D87D +0A ASL A D87E ASLA ; X D87E +0A ASL A D87F 65ED ADC EEXP ; X D881 85ED STA EEXP ; SAVE D883 68 PLA ; GET SECOND DIGIT D884 18 CLC D885 65ED ADC EEXP ; GET EXPONENT INPUTTED D887 85ED STA EEXP ; SAVE ; D889 A4F2 LDY CIX ; INC TO NEXT CHAR D88B 209DDB JSR :GCHR1 ; X ; ; D88E :EXP3 D88E A5EF LDA ESIGN ; GET SIGN OF EXPONENT D890 F009 ^D89B BEQ :EXP1 ; IF NO SIGN, IT IS + D892 A5ED LDA EEXP ; GET EXPONENT ENTERED D894 49FF EOR #$FF ; COMPLEMENT TO MAKE MINUS D896 18 CLC ; X D897 6901 ADC #1 ; X D899 85ED STA EEXP ; SAVE D89B :EXP1 D89B 68 PLA ; GET # DIGITS MORE THAN 9 D89C 18 CLC ; CLEAR CARRY D89D 65ED ADC EEXP ; ADD IN ENTERED EXPONENT D89F 85ED STA EEXP ; SAVE EXPONENT D8A1 D013 ^D8B6 BNE :EXIT ; UNCONDITIONAL BR ;----------248 ; ; NON NUMERIC IN EXPONENT ; D8A3 :NON2 D8A3 C92B CMP #'+' ; IS IT PLUS? D8A5 F006 ^D8AD BEQ :EPLUS ; IF YES BR D8A7 C92D CMP #'-' ; IS IT A MINUS? D8A9 D007 ^D8B2 BNE :NOTE ; IF NOT, BR ; ; D8AB :EMIN D8AB 85EF STA ESIGN ; SAVE EXPONENET SIGN D8AD :EPLUS D8AD 2094DB JSR :GETCHAR ; GET CHARACTER D8B0 90BA ^D86C BCC :EXP2 ; IF A #, GO PROCESS EXPONENT ; ; ; ; E IS NOT PART OF OUR # ; D8B2 :NOTE D8B2 A5EC LDA FRX ; POINT TO 1 PAST E D8B4 85F2 STA CIX ; RESTORE CIX ; ; FALL THRU TO EXIT ; ; WHOLE # HAS BEEN INPUTTED ; D8B6 :EXIT ; ; BACK UP ONE CHAR ; D8B6 C6F2 DEC CIX ; DECREMENT INDEX ; ; ; CALCULATE POWER OF 10 = EXP - DIGITS RIGHT ; WHERE EXP = ENTERED [COMPLEMENT OF -] ; + # DIGITS MORE THAN 9 ; D8B8 A5ED LDA EEXP ; GET EXPONENT D8BA A6F1 LDX DIGRT ; GET # DIGITS OF DECIMAL D8BC 3005 ^D8C3 BMI :EXIT1 ; NO DECIMAL POINT D8BE F003 ^D8C3 BEQ :EXIT1 ; # OF DIGITS AFTER D.P.=0 D8C0 38 SEC ; GET EXP - DIGITS RIGHT D8C1 E5F1 SBC DIGRT ; X ; ; SHIFT RIGHT ALGEBRAIC TO DIVIDE BY 2 = POWER OF 100 ; D8C3 :EXIT1 D8C3 48 PHA D8C4 ROLA ; SET CARRY WITH SIGN OF EXPONENT D8C4 +2A ROL A D8C5 68 PLA ; GET EXPONENT AGAIN D8C6 RORA ; SHIFT RIGHT D8C6 +6A ROR A D8C7 85ED STA EEXP ; SAVE POWER OF 100 D8C9 9003 ^D8CE BCC :EVEN ; IF NO CARRY # EVEN ; D8CB 20EBDB JSR NIBSH0 ; ELSE SHIFT 1 NIBBLE LEFT D8CE :EVEN D8CE A5ED LDA EEXP ; ADD 40 FOR EXCESS 64 + 4 FOR NORM D8D0 18 CLC ; X D8D1 6944 ADC #$44 ; X D8D3 85D4 STA FR0 ; SAVE AS EXPONENT ; D8D5 2000DC JSR NORM ; NORMALIZE NUMBER D8D8 B00B ^D8E5 BCS :IND2 ; IF CARRY SET, IT'S AN ERROR ; ;----------249 ; SET MANTISSA SIGN ; D8DA A6EE LDX NSIGN ; IS SIGN OF # MINUS D8DC F006 ^D8E4 BEQ :INDON ; IF NOT, BR ; D8DE A5D4 LDA FR0 ; GET EXPONENT D8E0 0980 ORA #$80 ; TURN ON MINUS # BIT D8E2 85D4 STA FR0 ; SET ON FR0 EXP D8E4 :INDON D8E4 18 CLC ; CLEAR CARRY D8E5 :IND2 D8E5 60 RTS ;FPASC - Convert Floating Point to ASCII ; ON ENTRY FR0 - # TO CONVERT ; ; ON EXIT INBUFF - POINTS TO START OF # ; HIGH ORDER BIT OF LAST BYTE IS ON ; ; D8E6 CVFASC D8E6 FASC D8E6 2051DA JSR INTLBF ;SET INBUFF TO PT TO LBUFF ; D8E9 A930 LDA #'0' ; GET ASCII ZERO D8EB 8D7F05 STA LBUFF-1 ; PUT IN FRONT OF LBUFF ; ; TEST FOR E FORMAT REQUIRED ; D8EE A5D4 LDA FR0 ; GET EXPONENT D8F0 F028 ^D91A BEQ :EXP0 ; IF EXP = 0, # = 0, SO BR D8F2 297F AND #$7F ; AND OUT SIGN D8F4 C93F CMP #$3F ; IS IT LESS THAN 3F D8F6 9028 ^D920 BCC :EFORM ; IF YES, E FORMAT REQUIRED D8F8 C945 CMP #$45 ; IF IT IS > 44 D8FA B024 ^D920 BCS :EFORM ; IF YES, E FORMAT REQUIRED ; ; PROCESS NOT E FORMAT ; D8FC 38 SEC ; SET CARRY D8FD E93F SBC #$3F ; GET DECIMAL POSITION ; D8FF 2070DC JSR :CVFR0 ; CONVERT FR0 TO ASCII CHAR ; D902 20A4DC JSR :FNXERO ; FIND LAST NON-ZERO CHARACTER D905 0980 ORA #$80 ; TURN ON HIGH ORDER BIT D907 9D8005 STA LBUFF,X ; STORE IT BACK IN BUFFER ; D90A AD8005 LDA LBUFF ; GET 1ST CHAR IN LBUFF D90D C92E CMP #'.' ; IS IT DECIMAL? D90F F003 ^D914 BEQ :FN6 ; BR IF YES D911 4C88D9 JMP :FN5 ; ELSE JUMP D914 :FN6 D914 20C1DC JSR :DECINB ; DECIMAL INBUFF D917 4C9CD9 JMP :FN4 ; DO FINAL ADJUSTMENT ; ; EXPONENT IS ZERO - # IS ZERO ; ; D91A :EXP0 D91A A9B0 LDA #$80+$30 ; GET ASCII 0 WITH MSB = 1 D91C 8D8005 STA LBUFF ; PUT IN BUFFER D91F 60 RTS ; ; PROCESS E FORMAT ; D920 :EFORM D920 A901 LDA #1 ; GET DECIMAL POSITION D922 2070DC JSR :CVFR0 ; CONVERT FR0 TO ASCII IN LBUFF ;----------250 ; D925 20A4DC JSR :FNZERO ; GET RID OF TRAILING ZEROS D928 E8 INX ; INCR INDEX D929 86F2 STX CIX ; SAVE INDEX TO LAST CHAR ; ; ADJUST EXPONENT ; D92B A5D4 LDA FR0 ; GET EXPONENT D92D ASLA ; MULT BY 2 [GET RID OF SIGN TOO] D92D +0A ASL A D92E 38 SEC D92F E980 SBC #$40*2 ; SUB EXCESS 64 ; D931 AE8005 LDX LBUFF ; GET 1ST CHAR IN LBUFF D934 E030 CPX #'0' ; IS IT ASCII 0? D936 F017 ^D94F BEQ :EF1 ; ; PUT DECIMAL AFTER 1ST CHAR [IT'S AFTER 2ND NOW] ; D938 AE8105 LDX LBUFF+1 ; SWITCH D.P. + 2ND DIGIT D93B AC8205 LDY LBUFF+2 ; X D93E 8E8205 STX LBUFF+2 ; X D941 8C8105 STY LBUFF+1 ; X ; ; D944 A6F2 LDX CIX ; IF CIX POINTS TO D.P. D946 E002 CPX #2 ; THEN INC D948 D002 ^D94C BNE :NOINC ; X D94A E6F2 INC CIX ; X ; D94C :NOINC D94C 18 CLC ; X D94D 6901 ADC #1 ; X ; ; CONVERT EXP TO ASCII ; D94F :EP1 D94F 85ED STA EEXP ; SAVE EXPONENT D951 A945 LDA #'E' ; GET ASCII E D953 A4F2 LDY CIX ; GET POINTER D955 209FDC JSR :STCHAR ; STORE CHARACTER D958 84F2 STR CIX ; SAVE INDEX ; ; D95A A5ED LDA EEXP ; GET EXPONENT D95C 100B ^D969 BPL :EPL ; BR IF PLUS ; ; EXPONENT OS MINUS - COMPLEMENT IT ; D95E A900 LDA #0 ; SUBSTRACT FROM 0 TO COMPLEMENT D960 38 SEC ; X D961 E5ED SBC EEXP ; X D963 85ED STA EEXP ; D965 A92D LDA #'-' ; GET A MINUS D967 D002 ^D96B BNE :EF2 ; D969 :EPL D969 A92B LDA #'+' ; GET A PLUS D96B :EF2 D96B 209FDC JSR ;STCHAR ; STORE A CHARACTER ; D96E A200 LDX #0 ; SET COUNTER FOR # OF TENS D970 A5ED LDA EEXP ; GET EXPONENT ; D972 :EF3 D972 38 SEC D973 E90A SBC #10 ; SUBSTRACT 10 ;----------251 D975 9003 ^D97A BCC :EF4 ; IF < 0, BRANCH D977 E8 INX ; INC # OF 10'S D978 D0F8 ^D972 BNE :EF3 ; BR INCONDITIONAL ; D97A :EF4 D97A 18 CLC ; ADD BACK IN 10 D97B 690A ADC #10 ; X D97D 48 PHA ; SAVE ; D97E 8A TXA ; GET # OF 10'S D97F 209DDC JSR :STNUM ; PUT 10'S IN EXP IN BUFFER D982 68 PLA ; GET REMAINDER D983 0980 ORA #$80 ; TURN ON HIGH ORDER BIT D985 209DDC JSR :STNUM ; PUT IN BUFFER ; ; FINAL ADJUSTMENT ; D988 :FN5 D988 AD8005 LDA LBUFF ; GET 1ST BYTE IN LBUFF [OUTPUT] D98B C930 CMP #'0' ; IS IT ASCII 0? D98D D00D ^D99C BNE :FN4 ; IF NOT BR ; ; INCREMENT INBUFF TO POINT TO NON-ZERO ; D98F 18 CLC ; ADD 1 TO INBUFF D990 A5F3 LDA INBUFF ; X D992 6901 ADC #1 ; X D994 85F3 STA INBUFF ; X D996 A5F4 LDA INBUFF+1 ; X D998 6900 ADC #0 ; X D99A 85F4 STA INBUFF+1 ; X D99C :FN4 D99C A5D4 LDA FR0 ; GET EXPONENT OF # D99E 1009 ^D9A9 BPL :FADONE ; IF SIGN +, WE ARE DONE ; D9A0 20C1DC JSR :DECINB ; DECR INBUFF D9A3 A000 LDY #0 ; GET INDEX D9A5 A92D LDA #'-' ; GET ASCII - D9A7 91F3 STA [INBUFF],Y ; SAVE - IN BUFFER ; D9A9 :FADONE D9A9 60 RTS ;IFP - Convert Integer to Floating Point ; ON ENTRY FR0 - CONTAINS INTEGER ; ; ON EXIT FR0 - CONTAINS FLOATING POINT ; ; D9AA CVIFP D9AA IFP ; ; MOVE INTEGER AND REVERSE BYTES ; D9AA A5D4 LDA FR0 ; GET INTEGER LOW D9AC 85F8 STA ZTEMP4+1 ; SAVE AS INTEGER HIGH D9AE A5D5 LDA FR0+1 ; GET INTEGER HIGH D9B0 85F7 STA ZTEMP4 ; SAVE AS INTEGER LOW ; D9B2 2044DA JSR ZFR0 ; CLEAR FR0 D9B5 F8 SED ; SET DECIMAL MODE ; ; DO THE CONVERT ; D9B6 A010 LDY #16 ; GET # BITS IN INTEGER D9B8 :IFP1 D9B8 06F8 ASL ZTEMP4+1 ; SHIFT LEFT INTEGER LOW D9BA 26F7 ROL ZTEMP4 ; SHIFT LEFT INTEGER HIGH ;----------252 ; CARRY NOW SET IF THERE WAS A BIT D9BC A203 LDX #3 ; BIGGEST INTEGER IS 3 BYTES D9BE :IFP2 ; ; DOUBLE # AND ADD IN 1 IF CARRY SET ; D9BE B5D4 LDA FR0,X ; GET BYTE D9C0 75D4 ADC FR0,X ; DOUBLE [ADDING IN CARRY FROM SHIFT D9C2 95D4 STA FR0,X ; SAVE D9C4 CA DEX ; DECREMENT COUNT OF FR0 BYTES D9C5 D0F7 ^D9BE BNE :IFP2 ; IF MORE TO DO, DO IT ; D9C7 88 DEY ; DECR COUNT OF INTEGER DIGITS D9C8 D0EE ^D9B8 BNE :IFP1 ; IF MORE TO DO, DO IT D9CA D8 CLD ; CLEAR DECIMAL MODE ; ; SET EXPONENT ; D9CB A942 LDA #$42 ; INDICATE DECIMAL AFTER LAST DIGIT D9CD 85D4 STA FR0 ; STORE EXPONENT ; D9CF 4C00DC JMP NORM ; NORMALIZE ; ;FPI - Convert Floating Point to Integer ; ON ENTRY FR0 - FLOATING POINT NUMBER ; ; ON EXIT FR0 - INTEGER ; ; ; CC SET CARRY CLEAR - NO ERROR ; CARRY SET - ERROR ; ; D9D2 FPI ; ; CLEAR INTEGER ; D9D2 A900 LDA #0 ; CLEAR INTEGER RESULT D9D4 85F7 STA ZTEMP4 D9D6 85F8 STA ZTEMP4+1 ; ; CHECK EXPONENT ; D9D8 A5D4 LDA FR0 ; GET EXPONENT D9DA 3066 ^DA42 BMI :ERVAL ; IF SIGN OF FP# IS -, THEN ERROR D9DC C943 CMP #$43 ; IS FP# TOO BIG TO BE INTEGER D9DE B062 ^DA42 BCS :ERVAL ; IF YES, THEN ERROR D9E0 38 SEC ; SET CARRY D9E1 E940 SBC #$40 ; IS FP# LESS THAN 1? D9E3 903F ^DA24 BCC :ROUND ; IF YES, THEN GO TEST FOR ROUND ; ; GET # OF DIGITS TO CONVERT = [EXPONENT -40+1]*2 ; [A CONTAINS EXPONENT -40] ; [CARRY SET] ; D9E5 6900 ADC #0 ; ADD IN CARRY D9E7 ASLA ; MULT BY 2 D9E7 +0A ASL A D9E8 85F5 STA ZTEMP1 ; SAVE AS COUNTER ; ; DO CONVERT ; D9EA :FPI1 ; ;----------253 ; MULT INTEGER RESULT BY 10 ; D9EA 205ADA JSR :ILSHFT ; GO SHIFT ONCE LEFT D9ED B053 ^DA42 BCS :ERVAL ; IF CARRY SET THEN # TOO BIG ; D9EF A5F7 LDA ZTEMP4 ; SAVE INTEGER *2 D9F1 85F9 STA ZTEMP3 ; X D9F3 A5F8 LDA ZTEMP4+1 ; X D9F5 85FA STA ZTEMP3+1 ; X ; D9F7 205ADA JSR :ILSHFT ; MULT BY 2 D9FA B046 ^DA42 BCS :ERVAL ; # TOO BIG D9FC 205ADA JSR :ILSHFT ; MULT BY *2 [NOW * 8 IN ZTEMP] D9FF B041 ^DA42 BCS :ERVAL ; BR IF # TO BIG ; DA01 18 CLC ; ADD IN * 2 TO = *10 DA02 A5F8 LDA ZTEMP4+1 ; X DA04 65FA ADC ZTEMP3+1 ; X DA06 85F8 STA ZTEMP4+1 ; X DA08 A5F7 LDA ZTEMP4 ; X DA0A 65F9 ADC ZTEMP3 ; X DA0C 85F7 STA ZTEMP4 ; X DA0E B032 ^DA42 BCS :ERVAL ; IF CARRY SET ERROR ; ; ; ADD IN NEXT DIGIT ; DA10 20B9DC JSR :GETDIG ; GET DIGIT IN A DA13 18 CLC DA14 65F8 ADC ZTEMP4+1 ; ADD IN DIGIT DA16 85F8 STA ZTEMP4+1 ; X DA18 A5F7 LDA ZTEMP4 ; X DA1A 6900 ADC #0 ; X DA1C B024 ^DA42 BCS :ERVAL ; BR IF OVERFLOW DA1E 85F7 STA ZTEMP4 ; X ; DA20 C6F5 DEC ZTEMP1 ; DEC COUNTER OF DIGITS TO DO DA22 D0C6 ^D9EA BNE :FPI1 ; IF MORE TO DO, DO IT ; ; ROUND IF NEEDED ; DA24 :ROUND DA24 20B9DC JSR ;GETDIG ; GET NEXT DIGIT IN A DA27 C905 CMP #5 ; IS DIGIT <5? DA29 900D ^DA38 BCC :NR ; IF YES, DON'T ROUND DA2B 18 CLC ; ADD IN 1 TO ROUND DA2C A5F8 LDA ZTEMP4+1 ; X DA2E 6901 ADC #1 ; X DA30 85F8 STA ZTEMP4+1 ; X DA32 A5F7 LDA ZTEMP4 ; X DA34 6900 ADC #0 ; X DA36 85F7 STA ZTEMP4 ; X ; ; MOVE INTEGER TO FR0 ; DA38 :NR DA38 A5F8 LDA ZTEMP4+1 ; GET INTEGER LOW DA3A 85D4 STA FR0 ; SAVE DA3C A5F7 STA ZTEMP4 ; GET INTEGER HIGH DA3E 85D5 STA FR0+1 ; SAVE ; DA40 18 CLC ; CLEAR CC FOR GOOD RETURN DA41 60 RTS ; ; DA42 :ERVAL DA42 38 SEC ; SET CARRY FOR ERROR RETURN DA43 60 RTS ; ZFR0 - ZERO FR0 ; ; ZF1 - ZERO 6 BYTES AT LOC X ;----------254 ; ; ZXLY - ZERO PAGE ZERO LOC X FOR LENGTH Y ; ; DA44 ZFR0 DA44 A2D4 LDX #FR0 ; GET POINTER TO FR1 ; DA46 ZF1 DA46 A006 LDY #6 ; GET # OF BYTES TO CLEAR DA48 ZXLY DA48 A900 LDA #0 ; CLEAR A DA4A :ZF2 DA4A 9500 STA 0,X ; CLEAR A BYTE DA4C E8 INX ; POINT TO NEXT BYTE DA4D 88 DEY ; DEC COUNTER DA4E D0FA ^DA4A BNE :ZF2 ; LOOP DA50 60 RTS ; ; ; ; ; INTBLF - INIT LBUFF INTO INBUFF ; DA51 INTLBF DA51 A905 LDA #LBUFF/256 DA53 85F4 STA INBUFF+1 DA55 A980 LDA #LBUFF&255 DA57 85F3 STA INBUFF DA59 60 RTS ; ; :ILSHFT - SHIFT INTEGER IN ZTEMP4 LEFT ONCE ; DA5A ILSHFT DA5A :ILSHFT DA5A 18 CLC ; CLEAR CARRY DA5B 26F8 ROL ZTEMP4+1 ; SHIFT LOW DA5D 26F7 ROL ZTEMP4 ; SHIFT HIGH DA5F 60 RTS ; Floating Point Routines ;FADD - Floating Point Add Routine ; ADDS VALUES IN FR0 AND FR1 ; ; ON ENTRY FR0 & FR1 - CONTAIN # TO ADD ; ; ON EXIT FR0 - RESULT ;FSUB - Floating Point Substract Routine ; SUBSTRACTS FR1 FROM FR0 ; ; ON ENTRY FR0 & FR1 - CONTAIN # TO SUBSTRACT ; ; ON EXIT FR0 - RESULT ; ; BOTH RETURN WITH CC SET: ; CARRY SET IF ERROR ; CARRY CLEAR IF NO ERROR ; ; DA60 FSUB DA60 A5E0 LDA FR1 ; GET EXPONENT OF FR1 DA62 4980 EOR #$80 ; CHANGE SIGN OF MANTISSA DA64 85E0 STA FR1 ; SAVE EXPONENT ; ; ; DA66 FADD DA66 :FRADD ;----------255 DA66 A5E0 LDA FR1 ; GET EXPONENT DA68 297F AND #$7F ; TURN OFF MANTISSA SIGN BIT DA6A 85F7 STA ZTEMP4 ; SAVE TEMPORARILY DA6C A5D4 LDA FR0 ; GET EXPONENT FR0 DA6E 297F AND #$7F ; TURN OFF MANTISSA SIGN BIT DA70 38 SEC ; CLEAR CARRY DA71 E5F7 SBC ZTEMP4 ; SUB EXPONENTS DA73 1010 ^DA85 BPL :NSWAP ; IF EXP[FR0]>= EXP[FR1], NO SWAP ; ; SWAP FR0 AND FR1 ; DA75 A205 LDX #FMPREC ; GET INDEX ; DA77 :SWAP DA77 B5D4 LDA FR0,X ; GET BYTE FROM FR0 DA79 B4E0 LDY FR1,X ; GET BYTE FROM FR1 DA7B 95E0 STA FR1,X ; PUT FR0 BYTE IN FR1 DA7D 98 TYA ; GET FR1 BYTE DA7E 95D4 STA FR0,X ; PUT FR1 BYTE IN FR0 DA80 CA DEX ; DEC INDEX DA81 10F4 ^DA77 BPL :SWAP ; IF MORE TO DO, GO SWAP DA83 30E1 ^DA66 BMI :FRADD ; UNCONDITIONAL ; DA85 :NSWAP DA85 F007 ^DA8E BEQ :NALIGN ; IF DIFFERENCE = 0, ALREADY ALIGNED DA87 C905 CMP #FMPREC ; IS DIFFERENCE < # OF BYTES DA89 B019 ^DAA4 BCS :ADDEND ; IF NOT, HAVE RESULT IN FR0 ; ; DA8B 203EDC JSR RSHFT1 ; SHIFT TO ALIGN ; ; TEST FOR LIKE SIGN OF MANTISSA ; DA8E :NALIGN DA8E F8 SED ; SET DECIMAL MODE DA8F A5D4 LDA FR0 ; GET FR0 EXPONENT DA91 45E0 EOR FR1 ; EOR WITH FR1 EXPONENT DA93 301E ^DAB3 BMI :SUB ; IF SIGNS DIFFERENT - SUBSTRACT ; ELSE ADD ; ; ADD FR0 & FR1 ; DA95 A204 LDX #FMPREC-1 ; GET POINTER FOR LAST BYTE DA97 18 CLC ; CLEAR CARRY DA98 :ADD1 DA98 B5D5 LDA FR0M,X ; GET BYTE OF FR0 DA9A 75E1 ADC FR1M,X ; ADD IN BYTE OF FR1 DA9C 95D5 STA FR0M,X ; STORE DA9E CA DEX ; DEC POINTER DA9F 10F7 ^DA98 BPL :ADD1 ; ADD NEXT BYTE ; DAA1 D8 CLD ; CLEAR DECIMAL MODE DAA2 B003 ^DAA7 BCS :ADD2 ; IF THERE IS A CARRY, DO IT DAA4 :ADDEND DAA4 4C00DC JMP NORM ; GO NORMALIZE ; ; ADD IN FIND CARRY ; DAA7 :ADD2 DAA7 A901 LDA #1 ; GET 1 TIMES TO SHIFT DAA9 203ADC JSR RSHFT0 ; GO SHIFT ; DAAC A901 LDA #1 ; GET CARRY DAAE 85D5 STA FR0M ; ADD IN CARRY DAB0 4C00DC JMP NORM ; ; SUBSTRACT FR1 FROM FR0 ; DAB3 :SUB DAB3 A204 LDX #FMPREC-1 ; GET POINTER TO LAST BYTE DAB5 38 SEC ; SET CARRY ;---------256 ; DAB6 :SUB1 DAB6 B5D5 LDA FR0M,X ; GET FR0 BYTE DAB8 F5E1 SBC FR1M,X ; SUB FR1 BYTE DABA 95D5 STA FR0M,X ; STORE DABC CA DEX ; DEC POINTER DABD 10F7 ^DAB6 BPL :SUB1 ; SUB NEXT BYTE ; DABF 9004 ^DAC5 BCC :SUB2 ; IF THERE IS A BORROW DO IT DAC1 D8 CLD ; CLEAR DECIMAL MODE DAC2 4C00DC JMP NORM ; ; TAKE COMPLEMENT SIGN ; DAC5 :SUB2 DAC5 A5D4 LDA FR0 ; GET EXPONENT DAC7 4980 EOR #$80 ; CHANGE SIGN OF MANTISSA DAC9 85D4 STA FR0 ; PUT IT BACK ; ; COMPLEMENT MANTISSA ; DACB 38 SEC ; SET CARRY DACC A204 LDX #FMPREC-1 ; GET INDEX COUNTER DACE :SUB3 DACE A900 LDA #0 ; GET ZERO DAD0 F5D5 SBC FR0M,X ; COMPLEMENT BYTE DAD2 95D5 STA FR0M,X ; STORE DAD4 CA DEX ; MORE TO DO DAD5 10F7 ^DACE BPL :SUB3 ; BR IF YES ; DAD7 D8 CLD ; CLEAR DECIMAL MODE DAD8 4C00DC JMP NORM ; GO NORMALIZE ;FMUL - Multiply FR0 by FR1 ; ON ENTRY # ARE IN FR0 AND FR1 ; ; ON EXIT FR0 - CONTAINS PRODUCT ; RETURN WITH CC SET ; CARRY SET IF ERROR ; CARRY CLEAR IF NO ERROR ; ; ; DADB FMUL ; ; SET UP EXPONENT ; DADB A5D4 LDA FR0 ; GET EXP FR0 DADD F045 ^DB24 BEQ MEND3 ; IF = 0,DONE DADF A5E0 LDA FR1 ; GET FR1 EXP DAE1 F03E ^DB21 BEQ MEND2 ; IF =0, ANSWER =0 ; DAE3 20CFDC JSR MDESUP ; DO COMMON SET FOR EXPONENT DAE6 38 SEC ; SET CARRY DAE7 E940 SBC #$40 ; SUB EXCESS 64 DAE9 38 SEC ; SET CARRY TO ADD 1 DAEA 65E0 ADC FR1 ; ADD 1 + FR1 EXP TO FR0 EXP DAEC 3038 ^DB26 BMI :EROV ;IF - THEN OVERFLOW ; ; FINISH MULTIPLY SET UP ; DAEE 20E0DC JSR MDSUP ; DO SET UP COMMON TO DIVIDE ; ; ; DO THE MULTIPLY ; DAF1 :FRM ; ; GET # OF TIMES TO ADD IN MULTIPLICAND ; ;----------257 DAF1 A5DF LDA FRE+FMPREC ; GET LAST BYTE OF FRE DAF3 290F AND #$0F ; AND OUT HIGH ORDER NIBBLE DAF5 85F6 STA ZTEMP1+1 ; SET COUNTER FOR LOOP CONTROL ; ; ADD IN FR1 ; DAF7 :FRM1 DAF7 C6F6 DEC ZTEMP1+1 ; DEC MULT COUNTER DAF9 3006 ^DB01 BMI :FRM2 ; IF - THIS LOOP DONE DAFB 2001DD JSR FRA10 ; ADD FR1 TO FR0 [6 BYTES] DAFE 4CF7DA JMP :FRM1 ; REPEAT ; ; GET # OF TIMES TO ADD IN MULTIPLICAND * 10 ; DB01 :FRM2 DB01 A5DF LDA FRE+FMPREC ; GET LAST BYTE OF FRE DB03 LSRA ; SHIFT OUT LOW ORDER NIBBLE DB03 +4A LSR A DB04 LSRA ; X DB04 +4A LSR A DB05 LSRA ; X DB05 +4A LSR A DB06 LSRA ; X DB06 +4A LSR A DB07 85F6 STA ZTEMP1+1 ; SAVE AS COUNTER ; ; ADD IN FR2 ; DB09 :FRM3 DB09 C6F6 DEC ZTEMP1+1 ; DECREMENT COUNTER DB0B 3006 ^DB13 BMI :NXTB ; IF -, DO NEXT BYTE DB0D 2005DD JSR FRA20 ; ADD FR2 TO FR0 [6 BYTES] DB10 4C08DB JMP :FRM3 ; REPEAT ; ; SET UP FOR NEXT SET OF ADDS ; DB13 :NXTB ; ; SHIFT FR0/FRE RIGHT ONE BYTE ; [THEY ARE CONTIGUOUS] ; DB13 2062DC JSR RSHFOE ; SHIFT FR0/FRE RIGHT ; ; TEST FOR # OF BYTES SHIFTED ; DB16 C6F5 DEC ZTEMP1 ; DECREMENT LOOP CONTROL DB18 D0D7 ^DAF1 BNE :FRM ; IF MORE ADDS TO DO, DO IT ; ; SET EXPONENT ; DB1A MDEND DB1A A5ED LDA EEXP ; GET EXPONENT DB1C 85D4 STA FR0 ; STORE AS FR0 EXP ; ; DB1E MEND1 DB1E 4C04DC JMP NORM1 ; NORMALIZE ; ; ; DB21 MEND2 DB21 2044DA JSR ZFR0 ; CLEAR FR0 DB24 MEND3 DB24 18 CLC ; CLEAR CARRY FOR GOOD RETURN DB25 60 RTS ; ; ; DB26 :EROV DB26 38 SEC ; SET CARRY FOR ERROR ROUTINE DB27 60 RTS ; RETURN ;----------258 ;FDIV - Floating Point Divide ; ON ENTRY FR0 - DIVIDEND ; FR1 - DIVISOR ; ; ON EXIT FR0 - QUOTIENT ; ; RETURNS WITH CC SET: ; CARRY CLEAR - ERROR ; CARRY SET - NO ERROR ; ; DB28 FDIV ; ; DO DIVIDE SET UP ; DB28 A5E0 LDA FR1 ; GET FR1 EXP DB2A F0FA ^DB26 BEQ :EROV ; IF =0, THEN OVERFLOW DB2C A5D4 LDA FR0 ; GET EXPONENT FR0 DB2E F0F4 BEQ MEND3 ; IF = 0, THEN DONE ; DB30 20CFDC JSR MDESUP ; DO COMMON PART OF EXP SET UP ; DB33 38 SEC DB34 E5E0 SBC FR1 ; SUB FR1 EXP FROM FR0 EX DB36 18 CLC DB37 6940 ADC #$40 ; ADD IN EXCESS 64 DB39 30EB ^DB26 BMI :EROV ; IF MINUS THEN OVERFLOW ; DB3B 20E0DC JSR MDSUP ; DO SETUP COMMON FOR MULT DB3E E6F5 INC ZTEMP1 ;LOOP 1 MORE TIME FOR DIVIDE DB40 4C4EDB JMP :FRD1 ; SKIP SHIFT 1ST TIME THROUGH ; = 00D9 QTEMP EQU FR0+FMPREC DB43 :NXTQ ; ; SHIFT FR0/FRE LEFT ONE BYTE ; [THEY ARE CONTIGUOUS] ; DB43 A200 LDX #0 ; GET POINTER TO BYTE TO MOVE DB45 :NXTQ1 DB45 B5D5 LDA FR0+1,X ; GET BYTE DB47 95D4 STA FR0,X ; MOVE IT LEFT ONE BYTE ; DB49 E8 INX ; POINT TO NEXT BYTE DB4A E00C CPX #FMPREC*2+2 ; HAVE WE DONE THEM ALL? DB4C D0F7 ^DB45 BNE :NXTQ1 ; IF NOT, BRANCH ; ; DO DIVIDE ; DB4E :FRD1 ; ; SUBSTRACT FR2 [DIVISOR *2] FROM FRE [DIVIDEND] ; ; DB4E A005 LDY #FMPREC ; SET LOOP CONTROL DB50 38 SEC ; SET CARRY DB51 F8 SED ; SET DECIMAL MODE DB52 :FRS2 DB52 B9DA00 LDA FRE,Y ; GET A BYTE FROM FRE DB55 F9E600 SBC FR2,Y ; SUB FR2 DB58 99DA00 STA FRE,Y ; STORE RESULT DB5B 88 DEY ; DECREMENT COUNTER DB5C 10F4 ^DB52 BPL :FRS2 ; BR IF MORE TO DO DB5E D8 CLD ; CLEAR DECIMAL MODE ; DB5F 9004 ^DB65 BCC :FAIL ; IF RESULT <0 [FRE < FR2] BR ; DB61 E6D9 INC QTEMP ; INCR # TIMES SUB [QUOTIENT] ; ;----------259 DB63 D0E9 ^DB4E BNE :FRD1 ; SUB AGAIN ; ; SUBSTRACT OF FR2 DIDN'T GO ; DB65 :FAIL DB65 200FDD JSR FRA2E ; ADD FR2 BACK TO FR0 ; ; SHIFT LAST BYTE OF QUOTIENT ONE NIBBLE LEFT ; DB68 06D9 ASL QTEMP ; SHIFT 4 BITS LEFT DB6A 06D9 ASL QTEMP ; X DB6C 06D9 ASL QTEMP ; X DB6E 06D9 ASL QTEMP ; X DB70 :FRD2 ; ; SUBSTRACT FR1 [DIVISOR] FROM FRE [DIVIDEND] ; DB70 A005 LDY #FMPREC ; SET LOOP CONTROL DB72 38 SEC ; SET CARRY DB73 F8 SED ; SET DECIMAL MODE DB74 :FRS1 DB74 B9DA00 LDA FRE,Y ; GET A BYTE FROM FRE DB77 F9E000 SBC FR1,Y ; SUB FR1 DB7A 99DA00 STA FRE,Y ; STORE RESULT DB7D 88 DEY DB7E 10F4 ^DB74 BPL :FRS1 ; BR IF MORE TO DO DB80 D8 CLD ; CLEAR DECIMAL MODE ; DB81 9004 ^DB87 BCC :FAIL2 ; IF RESULT <0 [FRE < FR1] BR ; DB83 E6D9 INC QTEMP ; INCR # TIMES SUB [QUOTIENT] ; DB85 D0E9 ^DB70 BNE :FRD2 ; SUB AGAIN ; ; SUBSTRACT OF FR1 DIDN'T GO ; DB87 :FAIL2 DB87 2009DD JSR FRA1E ; ADD FR1 BACK TO FR0 ; DB8A C6F5 DEC ZTEMP1 ; DEC LOOP CONTROL DB8C D0B5 ^DB43 BNE :NXTQ ; GET NEXT QUOTIENT BYTE ; DB8E 2062DC JSR RSHF0E ;SHIFT RIGHT FR0/FRE TO CLEAR EXP DB91 4C1AD8 JMP MDEND ; JOIN MULT END UP CODE ;:GETCHAR - Test Input Character ; ON ENTRY INBUFF - POINTS TO BUFFER WITH INPUT ; CIX - POINTS TO CHAR IN BUFFER ; ; ON EXIT CIX - POINTS TO NEXT CHAR ; CC - CARRY CLEAR IF CHAR IS NUMBER ; CARRY SET IF CHAR IS NOT NUMBER ; DB94 :GETCHAR DB94 20AFD8 JSR TSTNUM ; GO TEST FOR NUMBER DB97 A4F2 LDY CIX ; GET CHARACTER INDEX DB99 9002 ^D89D BCC :GCHR1 ; IF CHAR = NUM, SKIP ; DB9B B1F3 LDA [INBUFF],Y ; GET CHARACTER ; DB9D :GCHR1 DB9D C8 INY ; POINT TO NEXT CHAR DB9E 84F2 STY CIX ; SAVE INDEX DBA0 60 RTS ; ;SKPBLANK-SKIP BLANKS ; STARTS AT CIX AND SCANS FOR NON BLANKS ; ;----------260 DBA1 SKBLANK DBA1 SKPBLANK DBA1 A4F2 LDY CIX ; GET CIX DBA3 A920 LDA #$20 ; GET A BLANK ; DBA5 D1F3 :SB1 CMP [INBUFF],Y ;IS CHAR A BLANK DBA7 D003 ^DBAC BNE :SBRTS ; BR IF NOT DBA9 C8 INY ; INC TO NEXT DBAA D0F9 ^DBA5 BNE :SB1 ; GO TEST ; DBAC 84F2 :SBRTS STY CIX ;SET NON BLANK INDEX DBAE 60 RTS ;RETURN ; ; TSTNUM-TEST CHAR AT CIX FOR NUM ; - RTNS CARRY SET IF NUM DBAF TSTNUM DBAF A4F2 LDY CIX ;GET INDEX DBB1 B1F3 LDA [INBUFF],Y ;AND GET CHAR DBB3 38 SEC DBB4 E930 SBC #$30 ;SUBSTRACT ASCLT ZERO DBB6 9018 ^D8D0 BCC :TSNFAIL ;BR CHAR=-49+64? DC33 B003 ^DC38 BCS :NDONE ; IF YES, WE ARE DONE DC35 2044DA JSR ZFR0 ; ELSE # IS ZERO ; DC38 :NDONE DC38 18 CLC ; CLEAR CARRY FOR GOOD RETURN DC39 60 RTS ;----------262 ;RSHFT0 - Sift FR0 Right/Increment Exponent ;RSHFT1 - Sift FR1 Right/Increment Exponent ; ON ENTRY A - # OF PLACES TO SHIFT ; ; DC3A RDHIFT0 DC3A A2D4 LDX #FR0 ; POINT TO FR0 DC3C D002 ^DC40 BNE :RSH ; DC3E RSHFT1 DC3E A2E0 LDX #FR1 ; POINT TO FR1 ; DC40 :RSH DC40 86F9 STX ZTEMP3 ; SAVE FR POINTER DC42 85F7 STA ZTEMP4 ; SAVE # OF BYTES TO SHIFT DC44 85F8 STA ZTEMP4+1 ; SAVE FOR LATER ; DC46 :RSH2 DC46 A004 LDY #FMPREC-1 ; GET # OF BYTES TO MOVE DC48 :RSH1 DC48 B504 LDA 4,X ; GET CHAR DC4A 9505 STA 5,X ; STORE CHAR DC4C CA DEX ; POINT TO NEXT BYTE DC4D 88 DEY ; DEC LOOP CONTROL DC4E D0F8 ^DC48 BNE :RSH1 ; IF MORE TO MOVE, DO IT DC50 A900 LDA #0 ; GET 1ST BYTE DC52 9505 STA 5,X ; STORE IT ; DC54 A6F9 LDX ZTEMP3 ; GET FR POINTER DC56 C6F7 DEC ZTEMP4 ; DO WE NEED TO SHIFT AGAIN? DC58 D0EC ^DC46 BNE :RSH2 ; IF YES, DO IT ; ; FIX EXPONENT ; DC5A B500 LDA 0,X ; GET EXPONENT DC5C 18 CLC DC5D 65F8 ADC ZTEMP4+1 ; SUB # OF SHIFTS DC5F 9500 STA 0,X ; SAVE NEW EXPONENT DC61 60 RTS ;RSHF0E - Shift FR0/FRE 1 Byte Right [They Are Contiguous] DC62 RSHF0E DC62 A20A LDX #FMPREC*2 ; GET LOOP CONTROL ; DC64 :NXTB1 DC64 B5D4 LDA FR0,X ; GET A BYTE DC66 95D5 STA FR0+1,X ; MOVE IT OVER 1 ; DC68 CA DEX ; DEC COUNTER DC69 10F9 ^DC64 BPL :NXTB1 ; MOVE NEXT BYTE DC6B A900 LDA #0 ; GET ZERO DC6D 85D4 STA FR0 ; SHIFT IT IN DC6F 60 RTS ;:CVFR0 - Convert Each Byte in FR0 to 2 Charcters in LBUFF ; ; ON ENTRY A - DECIMAL POINT POSITION ; ; DC70 :CVFR0 DC70 85F7 STA ZTEMP4 ; SAVE DECIMAL POSITION ; DC72 A200 LDX #0 ; SET INDEX INTO FR0M DC74 A000 LDY #0 ; SET INDEX INTO OUTPUT LINE [LBUFF] ; ; CONVERT A BYTE ; ;----------263 DC76 :CVBYTE DC76 2093DC JSR :TSTOP ; PUT IN D.P. NOW? DC79 :CVB1 DC79 38 SEC ; DECREMENT DECIMAL POSITION DC7A E901 SBC #1 ; X DC7C 85F7 STA ZTEMP4 ; SAVE IT ; ; DO 1ST DIGIT ; DC7E B5D5 LDA FR0M,X ; GET FROM FR0 DC80 LSRA ; SHIFT OUT LOW ORDER BITS DC80 +4A LSR A DC81 LSRA ; TO GET 1ST DIGITS DC81 +4A LSR A DC82 LSRA ; X DC82 +4A LSR A DC83 LSRA ; X DC83 +4A LSR A DC84 209DDC JSR :STNUM ; GO PUT # IN BUFFER ; ; DO SECOND DIGIT ; DC87 B5D5 LDA FR0M,X ; GET NUMBER FROM FR0 DC89 290F AND #$0F ; AND OUT HIGH ORDER BITS DC8D 209DDC JSR :STNUM ; GO PUT # IN BUFFER ; DC8E E8 INX ; INCR FR0 POINTER DC8F E005 CPX #FMPREC ; DONE LAST FR0 BYTE? DC91 90E3 ^DC76 BCC :CVBYTE ; IF NOT, MORE TO DO ; ; PUT IN DECIMAL POINT NOW? ; DC93 :TSTDP DC93 A5F7 LDA ZTEMP4 ; GET DECIMAL POSITION DC95 D005 ^DC9C BNE :TST1 ; IF NOT = 0 RTN DC97 A92E LDA #'.' ; GET ASCII DECIMAL POINT DC99 209FDC JSR :STCHAR ; PUT D.P. IN BUFFER DC9C :TST1 DC9C 60 RTS ;:STNUM - Put ASCII Number in LBUFF ; ON ENTRY A - DIGIT TO BE CONVERTED TO ASCII ; AND PUT IN LBUFF ; Y - INDEX IN LBUFF ;:STCHAR - Store Character in A in LBUFF DC9D :STNUM DC9D 0930 ORA #$30 ; CONVERT TO ASCII DC9F :STCHAR DC9F 998005 STA LBUFF,Y ; PUT IN LBUFF DCA2 C8 INY ; INCR LBUFF POINTER DCA3 60 RTS ;:FNZERO - Find Last Non-zero Character in LBUFF ; ON EXIT A - LAST CHAR ; X - POINT TO LAST CHAR ; DCA4 :FNZERO DCA4 A20A LDX #10 ; POINT TO LAST CHAR IN LBUFF ; DCA6 :FN3 DCA6 BD8005 LDA LBUFF,X ; GET THE CHARACTER DCA9 C92E CMP #'.' ; ID IT DECIMAL? DCAB F007 ^DCB4 BEQ :FN1 ; IF YES, BR DCAD C930 CMP #'0' ; IS IT ZERO? DCAF D007 ^DCB8 BNE :FN2 ; IF NOT, BR DCB1 CA DEX ; DECREMENT INDEX DCB2 D0F2 ^DCA6 BNE :FN3 ; UNCONDITIONAL BR ;----------264 ; ; DCB4 :FN1 DCB4 CA DEX ; DECREMENT BUFFER INDEX DCB5 BD8005 LDA LBUFF,X ; GET LAST CHAR DCB8 :FN2 DCB8 60 RTS ;:GETDIG - Get Next Digit from FR0 ; ON ENTRY FR0 - # ; ; ON EXIT A - DIGIT ; ; DCB9 :GETDIG DCB9 20EBDB JSR NISH0 ; SHIFT FR0 LEFT ONE NIBBLE ; DCBC A5EC LDA FRX ; GET BYTE CONTAINING SHIFTED NIBBLE DCBE 290F AND #$0F ; AND OUT HIGH ORDER NIBBLE DCC0 60 RTS ;:DECINB - Decrement INBUFF DCC1 :DECINB DCC1 38 SEC ; SUBSTRACT ONE INBUFF DCC2 A5F3 LDA INBUFF ; X DCC4 E901 SBC #1 ; X DCC6 85F3 STA INBUFF ; X DCC8 A5F4 LDA INBUFF+1 ; X DCCA E900 SBC #0 ; X DCCC 85F4 STA INBUFF+1 ; X DCCE 60 RTS ;MDESUP - Common Set-up for Multiply and Divide Exponent ; ON EXIT FR1 - FR1 EXP WITH OUT SIGN ; A - FR0 EXP WITHOUT SIGN ; FRSIGN - SIGN FOR QUOTIENT ; DCCF MDESUP DCCF A5D4 LDA FR0 ; GET FR0 EXPONENT DCD1 45E0 EOR FR1 ; GET FR1 EXPONENT DCD3 2980 AND #$80 ; AND OUT ALL BUT SIGN BIT DCD5 85EE STA FRSIGN ; SAVE SIGN ; DCD7 06E0 ASL FR1 ; SHIFT OUT SIGN IN FR1 EXP DCD9 46E0 LSR FR1 ; RESTORE FR1 EXP WITHOUT SIGN DCDB A5D4 LDA FR0 ; GET FR0 EXP DCDD 297F AND #$7F ; AND OUT SIGN BIT DCDF 60 RTS ;MDSUP - Common Set-up for Multiply and Divide ; ON ENTRY A - EXPONENT ; CC - SET BY ADD OR SUB TO GET A ; ; DCE0 MDSUP DCE0 05EE ORA FRSIGN ; OR IN SIGN BIT DCE2 85ED STA EEXP ; SAVE EXPONENT FOR LATER DCE4 A900 LDA #0 ; CLEAR A DCE6 85D4 STA FR0 ; CLEAR FR0 EXP DCE8 85E0 STA FR1 ; CLEAR FR0 EXP ; ; DCEA 2028DD JSR MVFR12 ; MOVE FR1 TO FR2 ; DCED 20E7DB JSR NIBSH2 ; SHIFT FR2 1 NIBBLE LEFT DCF0 A5EC LDA FRX ; GET SHIFTED NIBBLE ;----------265 DCF2 290f AND #$0F ; AND OUT HIGH ORDER NIBBLE DCF4 85E6 STA FR2 ; STORE TO FINISH SHIFT ; DCF6 A905 LDA #FMPREC ; SET LOOP CONTROL DCF8 85F5 STA ZTEMP1 ; X ; DCFA 2034DD JSR MVFR0E ; MOVE FR0 TO FRE DCFD 2044DA JSR ZFR0 ; CLEAR FR0 ; DD00 60 RTS ;FRA ; FRA10 - ADD FR1 TO FR0 [6 BYTES] ; ; FRA20 - ADD FR2 TO FR0 [6 BYTES] ; ; FRA1E - ADD FR1 TO FRE ; ; FRA2E - ADD FR2 TO FRE ; DD01 FRA10 DD01 A2D9 LDX #FR0+FMPREC ; POINT TO LAST BYTE OF SUM DD03 D006 ^DD0B BNE :F1 ; DD05 FRA10 DD05 A2D9 LDX #FR0+FMPREC ; POINT TO LAST BYTE OF SUM DD07 D008 ^DD0B BNE :F2 ; DD09 FRA1E DD09 A2DF LDX #FRE+FMPREC DD0B :F1 DD0B A0E5 LDY #FR1+FMPREC DD0D D004 ^DD13 BNE :FRA DD0F FRA2E DD0F A2DF LDX #FRE+FMPREC DD11 :F2 DD11 A0EB LDY #FR2+FMPREC ; ; DD13 :FRA DD13 A905 LDA #FMPREC ; GET VALUE FOR LOOP CONTROL DD15 85F7 STA ZTEMP4 ; SET LOOP CONTROL DD17 18 CLC ; CLEAR CARRY DD18 F8 SED ; SET DECIMAL MODE DD19 :FRA1 DD19 B500 LDA 0,X ; GET 1ST BYTE OF DD1B 790000 ADC 0,Y ; ADD DD1E 9500 STA 0,X ; STORE DD20 CA DEX ; POINT TO NEXT BYTE DD21 88 DEY ; POINT TO NEXT BYTE DD22 C6F7 DEC ZTEMP4 ; DEC COUNTER DD24 10F3 ^DD19 BPL :FRA1 ; IF MORE TO DO, DO IT DD26 D8 CLD ; CLEAR DECIMAL MODE DD27 60 RTS ;MVFR12 - Move FR1 to FR2 DD28 MVFR12 DD28 A005 LDY #FMPREC ; SET COUNTER DD2A :MV2 DD2A B9E000 LDA FR1,Y ; GET A BYTE DD2D 99E600 STA FR2,Y ; STORE IT ; DD30 88 DEY DD31 10F7 ^DD2A BPL :MV2 ; IF MORE TO MOVE, DO IT DD33 60 RTS ;----------266 ;MVFR0E - Move FR0 TO FRE DD34 MVFR0E DD34 A005 LDY #FMPREC DD36 :MV1 DD36 B9D400 LDA FR0,Y DD39 99DA00 STA FRE,Y ; DD3C 88 DEY DD3D 10F7 ^DD36 BPL :MV1 DD3F 60 RTS ; Polynomial Evaluation ; Y=A[0]+A[1]*X+A[2]*X**2+...+A[N]*X**N,N>0 ; =[[...[A[N]*X+A[N-1]]]*X+...+A[2]]*X+A[1]]*X+A[0] ; INPUT: X IN FR0, N+1 IN A-REG ; OUTPUT Y IN FR0 ; USES FPTR2, PLYCNT, PLYARG ; CALLS FST0R, FMOVE, FLD1R, FADD, FMUL DD40 86FE PLYEVL STX FPTR2 ;SAVE POINTER TO COEFF'S DD42 84FF STY FPTR2+1 DD44 85EF STA PLYCNT DD46 A2E0 LDX #PLYARG&$FF DD48 A005 LDY #PLYARG/$100 DD4A 20A7DD JSR FST0R ;SAVE ARG DD4D 20B6DD JSR FMOVE ;ARG->FR1 DD50 A6FE LDX FPTR2 DD52 A4FF LDY FPTR2+1 DD54 2089DD JSR FLD0R ;COEF->FR0 [INIT SUM] DD57 C6EF DEC PLYCNT DD59 F02D ^DD88 BEQ PLYOUT ;DONE? DD5B 20DBDA PLYEV1 JSR FMUL ; SUM * ARG DD5E B028 ^DD88 BCS PLTOUT ; O'FLOW DD60 18 CLC DD61 A5FE LDA FPTR2 ;BUMP COEF POINTER DD63 6906 ADC #FPREC DD65 85FE STA FPTR2 DD67 9006 ^DD6F BCC PLYEV2 DD69 A5FF LDA FPTR2+1 ;ACROSS PAGE DD6B 6900 ADC #0 DD6D 85FF STA FPTR2+1 DD6F A6FE PLYEV2 LDX FPTR2 DD71 A4FF LDY FPTR2+1 DD73 2098DD JSR FLD1R ;GET NEXT COEF DD76 2066DA JSR FADD ;SUM*ARG + COEF DD79 B00D ^DD88 BCS PLYOUT ; O'FLOW DD7B C6EF DEC PLYCNT DD7D F009 ^DD88 BEQ PLYOUT ;DONE ? DD7F A2E0 LDX #PLYARG&$FF DD81 A005 LDY #PLYARG/$100 DD83 2098DD JSR FLD1R ;GET ARG AGAIN DD86 30D3 ^DD5B BMI PLYEV1 ; [=JMP] DD88 60 PLYOUT RTS ; Floating Load/Store ; LOAD FR0 FROM [X,Y] X=LSB, Y=MSB, USES FLPTR [PG0] DD89 86FC FLD0R STX FLPTR ; SET FLPTR => [X,Y] DD8B 84FD STY FLPTR+1 DD8D A005 FLD0P LDY #FPREC-1 ;# BYTES ENTER HERE W/FLPTR SET DD8F B1FC FLD01 LDA [FLPTR],Y ; MOVE DD91 99D400 STA FR0,Y DD94 88 DEY DD95 10F8 ^DD8F BPL FLD01 ; COUNT & LOOP DD97 60 RTS ; ; LOAD FR1 FROM [X,Y] OR [FLPTR] DD98 86FC FLD1R STX FLPTR ; FLPTR=>[X,Y] ;----------267 DD9A 84FD STY FLPTR+1 DD9C A005 FLD1P LDY #FPREC-1 ; # BYTES ENTER W/FLPTR SET DD9E B1FC FLD11 LDA [FLPTR],Y ; MOVE DDA0 99E000 STA FR1,Y DDA3 88 DEY DDA4 10F8 ^DD9E BPL FLD11 ; COUNT & LOOP DDA6 60 RTS ; ; STORE FR0 IN [X,Y] OR [FLPTR] DDA7 86FC FST0R STX FLPTR DDA9 84FD STY FLPTR+1 DDAB A005 FST0P LDY #FPREC-1 ; ENTRY W/FLPTR DDAD B9D400 FST01 LDA FR0,Y DDB0 91FC STA [FLPTR],Y DDB2 88 DEY DDB3 10F8 ^DDAD BPL FST01 DDB5 60 RTS ; ; MOVE FR0 TO FR1 ; DDB6 MV0TO1 DDB6 A205 FMOVE LDX #FPREC-1 DDB8 B5D4 FMOVE1 LDA FR0,X DDBA 95E0 STA FR1,X DDBC CA DEX DDBD 10F9 ^DDB8 BPL FMOVE DDBF 60 RTS ; EXP[X] and EXP10[X] DDC0 A289 EXP LDX #LOG10E&$FF ; E**X = 10**[X*LOG10[E]] DDC2 A0DE LDY #LOG10E/$100 DDC4 2098DD JSR FLD1R DDC7 20DBDA JSR FMUL DDCA B07F ^DE48 BCS EXPERR DDCC A900 EXP10 LDA #0 ; 10**X DDCE 85F1 STA XFMLG ; CLEAR TRANSFORM FLAG DDD0 A5D4 LDA FR0 DDD2 85F0 STA SGNFLG ; REMEMBER ARG SGN DDD4 297F AND #$7F ; ; & MAKE PLUS DDD6 85D4 STA FR0 DDD8 38 SEC DDD9 E940 SBC #$40 DDDB 3026 ^DE03 BMI EXP1 ; X<1 SO USE SERIES DIRECTLY ; 10**X = 10**[I+F] = [10**I] * [10**F] DDDD C904 CMP #FPREC-2 DDDF 106A ^DE4B BPL EXPERR ; ARG TOO BIG DDE1 A2E6 LDX #FPSCR&$FF DDE3 A005 LDY #FPSCR/$100 DDE5 20A7DD JSR FST0R ; SAVE ARG DDE8 20D2D9 JSR FPI ; MAKE INTEGER DDEB A5D4 LDA FR0 DDED 85F1 STA XFMFLG ; SAVE MULTIPLIER EXP IN XFORM DDEF A5D5 LDA FR0+1 ; CHECK MSB DDF1 D058 ^DE4B BNE EXPERR ; SHOULD HAVE NONE DDF3 20AAD9 JSR IFP ; NOW TURN IT BACK TO FLPT DDF6 20B6DD JSR FMOVE DDF9 A2E6 LDX #FPSCR&$FF DDFB A005 LDY #FPSCR/$100 DDFD 2089DD JSR FLD0R ; GET ARG BACK DE00 2060DA JSR FSUB ; ARG - INTEGER PART = FRACTION ; NOW HAVE FRACTION PART OF ARG [F] IN FR0, ; INTEGER PART [I] ; IN XFMFLG, USE SERIES APPROX FOR ; 10**F, THEN MULTIPLY BY 10**I DE03 EXP1 DE03 A90A LDA #NPCOEF DE05 A24D LDX #P10COF&$FF DE07 A0DE LDY #P10COF/$100 ;----------268 DE09 2040DD JSR PLYEVL ;P[X] DE0C 20B6DD JSR FMOVE DE0F 20DBDA JSR FMUL ;P[X]*P[X] DE12 A5F1 LDA XFMFLG ; DID WE TRANSFORM ARG DE14 F023 ^DE39 BEQ EXPSGN ; NO SO LEAVE RESULT ALONE DE16 18 CLC DE17 RORA ; I/2 DE17 +6A ROR A DE18 85E0 STA FR1 ; SVE AS EXP-TO-BE DE1A A901 LDA #1 ; GET MANTISSA BYTE DE1C 9002 ^DE20 BCC EXP2 ; CHECK BIT SHIFTED OUT OF A DE1E A910 LDA #$10 ; I WAS ODD - MANTISSA = 10 DE20 85E1 EXP2 STA FR1+1 DE22 A204 LDX #FPREC-2 DE24 A900 LDA #0 DE26 95E2 EXP3 STA FR1+2,X ; CLEAR REST OF MANTISSA DE28 CA DEX DE29 10FB ^DE26 BPL EXP3 DE2B A5E0 LDA FR1 ; BACK TO EXPONENT DE2D 18 CLC DE2E 6940 ADC #$40 ; BAIS IT DE30 B019 ^DE4B BCS EXPERR ; OOPS...IT'S TOO BIG DE32 3017 ^DE4B BMI EXPERR DE34 85E0 STA FR1 ; FR1 = 10**I DE36 20DBDA JSR FMUL ; [10**I]*[10**F] DE39 A5F0 EXPSGN LDA SGNFLG ; WAS ARG<0 DE3B 100D ^DE4A BPL EXPOUT ; NO-DONE DE3D 20B6DD JSR FMOVE ; YES-INVERT RESULT DE40 A28F LDX #FONE&$FF DE42 A0DE LDY #FONE/$100 DE44 2089DD JSR FLD0R DE47 2028D8 JSR FDIV DE4A 60 EXPOUT RTS ; [PANT, PANT - FINISHED::] DE4B 38 EXPERR SEC ; FLAG ERROR DE4C 60 RTS ; & QUIT DE4D 3D17941900 P10COF .BYTE $3D,$17,$94,$19,$0,$0 ;0.0000179419 00 DE53 3D57330500 .BYTE $3D,$57,$33,$05,$0,$0 ;0.0000573305 00 DE59 3E05547662 .BYTE $3E,$05,$54,$76,$62,$0 ;0.0005547662 00 DE5F 3E32196227 .BYTE $3E,$32,$19,$62,$27,$0 ;0.0032176227 00 DE65 3F01686030 .BYTE $3F,$01,$68,$60,$30,$36 ;0.0168603036 36 DE6B 3F07320327 .BYTE $3F,$07,$32,$03,$27,$41 ;0.0732032741 41 DE71 3F25433456 .BYTE $3F,$25,$43,$34,$56,$75 ;0.2543345675 75 DE77 3F66273730 .BYTE $3F,$66,$27,$37,$30,$50 ;0.663737350 50 DE7D 4001151292 .BYTE $40,$01,$15,$12,$92,$55 ;1.15129255 55 DE83 3F99999999 .BYTE $3F,$99,$99,$99,$99,$99 ;0.999999999 99 = 000A NPCOEF EQU (*-P10COF)/FPREC DE89 3F43429448 LOG10E .BYTE $3F,$43,$42,$94,$48,$19 ; LOG10[E] 19 DE8F 4001000000 FONE .BYTE $40,$1,0,0,0,0 ; 1.0 00 ; Z=[X-C]/[X+C] DE95 86FE XFORM STX FPTR2 DE97 84FF STY FPTR2+1 DE99 A2E0 LDX #PLYARG&$FF DE9B A005 LDY #PLYARG/$100 DE9D 20A7DD JSR FST0R ; STASH X IN PLYARG DEA0 A6FE LDX FPTR2 DEA2 A4FF LDY FPTR2+1 ;----------269 DEA4 2098DD JSR FLD1R DEA7 2066DA JSR FADD ; X+C DEAA A2E6 LDX #FPSCR&$FF DEAC A005 LDY #FPSCR/$100 DEQE 207DD JSR FST0R DEB1 A2E0 LDX #PLYARG&$FF DEB3 A005 LDY #PLYARG/$100 DEB5 2089DD JSR FLD0R DEB8 A6FE LDX FPTR2 DEBA A4FF LDY FPTR2+1 DEBC 2098DD JSR FLD1R DEBF 2060DA JSR FSUB ; X-C DEC2 A2E6 LDX #FPSCR&$FF DEC4 A005 LDY #FPSCR/$100 DEC6 2098DD JSR FLD1R DEC9 2028DB JSR FDIV ; [X-C]/[X+C] = Z DECC 60 RTS ; LOG10[X] DECD A901 LOG LDA #1 ; REMEMBER ENTRY POINT DECF D002 ^DED3 BNE LOGBTH DED1 A900 LOG10 LDA #0 ; CLEAR FLAG DED3 85F0 LOGBTH STA SGNFLG ; USE SGNFLG FOR LOG/LOG10 MARKER DED5 A5D4 LDA FR0 DED7 1002 ^DEDB BPL LOG5 DED9 38 LOGERR SEC DEDA 60 RTS DEDB LOG5 ; WE WANT X = F*[10**Y], 1