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16-12-88/T\SWR24
This website contains an archive of files for the Acorn Electron, BBC Micro, Acorn Archimedes, Commodore 16 and Commodore 64 computers, which Dominic Ford has rescued from his private collection of floppy disks and cassettes.
Some of these files were originally commercial releases in the 1980s and 1990s, but they are now widely available online. I assume that copyright over them is no longer being asserted. If you own the copyright and would like files to be removed, please contact me.
| Tape/disk: | Home » CEEFAX disks » telesoftware11.adl |
| Filename: | 16-12-88/T\SWR24 |
| Read OK: | ✔ |
| File size: | 3EB9 bytes |
| Load address: | 0000 |
| Exec address: | 0000 |
Duplicates
There is 1 duplicate copy of this file in the archive:
- CEEFAX disks » telesoftware11.adl » 16-12-88/T\SWR24
- CEEFAX disks » telesoftware6.adl » 15-04-88/T\SWR24
File contents
Mastering Sideways ROM & RAM - Module 24 - Forward referencing
--------------------------------------------------------------
All the source code programs used in this course to generate rom
images have had HIMEM set to &3C00. This allows up to 16k of object
code to be held in memory in mode 7. The DFS sets PAGE to &1900 on the
BBC B leaving only 8.75k for the source code. This is plenty of room
when generating simple RFS rom images but when designing a rom which
uses a large amount of machine code it is sometimes necessary to use a
modular program design with forward referencing to overcome the memory
limitations of the BBC microcomputer.
Modular programming has already been used in the RFS course modules
and involves little more than spliting up a large program into a
number of smaller programs.
Forward referencing is a technique which can be used with modular
Assembly language programs. It uses the resident integer variables (A%
to X%) as labels to store the addresses of memory locations. The
contents of these memory locations are unknown in the program which
defines them but become known or can be calculated when a later
program is executed. The contents of the locations stored in the
resident integer variables are given dummy values in the initial
program. These dummy values are altered in the later program when the
actual values to be stored in the memory locations become available.
This idea is illustrated in the two short example programs FIRST and
LAST. The program FIRST needs to load the X and Y registers with the
low and high byte of the address of a command to be used with the
command line interpreter (CLI). The actual address of the command is
determined in LAST but it is unknown to FIRST and so the index
registers are loaded with the dummy address &0000 in FIRST. X% and Y%
are used to label the instruction before each address byte. It is not
possible to label the address bytes directly.
10 REM: FIRST
20 HIMEM=&5000
30 oscli=&FFF7
40 FOR pass=0TO3 STEP3
50 P%=HIMEM
60 [ OPT pass
70 .X%
80 LDX #0
90 .Y%
100 LDY #0
110 JSR oscli
120 ]
130 NEXT
140 O%=P%
150 CHAIN"LAST"
When the program FIRST chains the program LAST the address of the
LDX instruction in FIRST becomes available to LAST in X% and the
address of the LDY instruction in FIRST becomes available to LAST in
Y%. After LAST has assembled the command for the CLI, the address of
the first byte of the command can be poked into the bytes following
the LDX and LDY instructions assembled in FIRST. This is done in lines
120 and 130 of LAST.
10 REM: LAST
20 HIMEM=&5000
30 FOR pass=0TO3 STEP3
40 P%=O%
50 [ OPT pass
60 RTS
70 .help
80 EQUS "HELP"
90 EQUB &0D
100 ]
110 NEXT
120 X%?1=help MOD 256
130 Y%?1=help DIV 256
When the instructions in the programs FIRST and LAST are assembled
they produce the listing shown in figure 24.1. You can see in figure
24.1 that the dummy address &0000 has been used to specify the address
of the CLI command. The label X% points to the LDX instruction and the
label Y% points to the LDY instruction.
>CHAIN "FIRST"
5000 OPT pass
5000 .X%
5000 A2 00 LDX #0
5002 .Y%
5002 A0 00 LDY #0
5004 20 F7 FF JSR oscli
5007 OPT pass
5007 60 RTS
5008 .help
5008 48 45 4C
50 EQUS "HELP"
500C 0D EQUB &0D
>
Figure 24.1 Listing created by FIRST and LAST
----------- -----------------------------------
The area of memory used to store the object code is disassembled in
figure 24.2. You can see in figure 24.2 that the dummy address
following the LDX and LDY instructions has been replaced with the
actual address of the CLI command.
>*DIS 5000
5000 A2 08 .. LDX #&08
5002 A0 50 .P LDY #&50
5004 20 F7 FF .. JSR OSCLI
5007 60 ` RTS
5008 48 H PHA
5009 45 4C EL EOR &4C
500B 50 0D P. BVC &501A
Figure 24.2 A disassembly of the memory used by FIRST and LAST
----------- ----------------------------------------------------
This technique has been used in the demonstration programs MODONE
and MODTWO. These programs are used with RFSGEN and DEMO to produce a
rom image which includes a multiple * command interpreter, extended
help, RFS files and booting the RFS with Ctrl+R+Break. The source code
for this rom image would require more than the 8.75k available if it
was all in one program and so a modular approach was used to write the
source code programs.
Forward referencing was necessary because the address of the start
of the RFS files was required in lines 390 and 420 of MODONE but this
address was determined by the size of the object code created by
MODTWO. The addresses (minus 1) of the memory locations used for the
low and high bytes of the RFS dummy address are stored in A% and B%
and the actual address of the start of the RFS files is poked into
these memory locations in lines 2040 and 2050 of MODTWO.
The print subroutine in MODONE is labeled with C% (line 1410 of
MODONE) and this address is also passed over to MODTWO (line 110 of
MODTWO) so that the same routine can be used in the second program
(lines 300 and 470 of MODTWO) without having to write the code for the
subroutine in MODTWO.
This technique can be used to produce 16k of object code with only
8.75k of memory available for the source code.
The lack of memory in the BBC B is not always a disadvantage. The
small files used in modular programs are much easier to debug than the
huge source code program which would be required to produce a 16k
object code file from just one source code file.
10 REM: MODONE
20 MODE7
30 HIMEM=&3C00
40 diff=&8000-HIMEM
50 H%=HIMEM
60 address=&70
70 romnumber=&F4
80 phrom=&F5
90 rompoint=&F6
100 stack=&103
110 osasci=&FFE3
120 osnewl=&FFE7
130 osbyte=&FFF4
140 oscli=&FFF7
150 FOR pass = 0 TO 2 STEP 2
160 P%=HIMEM
170 [ OPT pass
180 BRK
190 BRK
200 BRK
210 JMP service+diff
220 OPT FNequb(&82)
230 OPT FNequb((copyright+diff) MOD 256)
240 BRK
250 OPT FNequs("MODULAR ROM DESIGN")
260 .copyright
270 BRK
280 OPT FNequs("(C) Gordon Horsington 1987")
290 BRK
300 .service
310 PHA
320 CMP #13
330 BNE fourteen
340 TYA
350 EOR #&F
360 CMP romnumber
370 BCC out
380 .A%
390 LDA #0 \ replace with LSB of RFS data
400 STA rompoint
410 .B%
420 LDA #0 \ replace with MSB of RFS data
430 STA rompoint+1
440 LDA romnumber
450 EOR #&F
460 STA phrom
470 .exit
480 PLA
490 LDA #0
500 RTS
510 .fourteen
520 CMP #14
530 BNE trythree
540 LDA phrom
550 EOR #&F
560 CMP romnumber
570 BNE out
580 LDY #0
590 LDA (rompoint),Y
600 TAY
610 INC rompoint
620 BNE exit
630 INC rompoint+1
640 JMP exit+diff
650 .out
660 PLA
670 RTS
680 .trythree
690 TXA
700 PHA
710 TYA
720 PHA
730 TSX
740 LDA stack,X
750 CMP #3
760 BEQ three
770 JMP lastbyte+diff \ continue in MODULE2
780 .three
790 LDA #&7A
800 JSR osbyte
810 CPX #&33 \ Is it R Break?
820 BEQ rbreak
830 PLA
840 TAY
850 PLA
860 TAX
870 PLA
880 RTS
890 .rbreak
900 LDA #&C9
910 LDX #1
920 LDY #0
930 JSR osbyte \ Disable keyboard
940 LDA #&0F
950 LDX #0
960 JSR osbyte \ Flush all buffers
970 LDA address
980 PHA
990 LDA address+1
1000 PHA
1010 LDX #(rfs+diff) MOD 256
1020 LDY #(rfs+diff) DIV 256
1030 JSR print+diff
1040 LDX #(cat+diff) MOD 256
1050 LDY #(cat+diff) DIV 256
1060 JSR print+diff
1070 LDA #&8D
1080 JSR osbyte \ Select RFS
1090 LDA #&8B
1100 LDX #1
1110 LDY #2
1120 JSR osbyte \ *OPT1,2
1130 LDX #(dot+diff) MOD 256
1140 LDY #(dot+diff) DIV 256
1150 JSR oscli \ Catalogue RFS
1160 LDA #&8B
1170 LDX #0
1180 LDY #0
1190 JSR osbyte \ *OPT 1,0
1200 JSR osnewl
1210 LDX #(rfs+diff) MOD 256
1220 LDY #(rfs+diff) DIV 256
1230 JSR print+diff
1240 LDX #(act+diff) MOD 256
1250 LDY #(act+diff) DIV 256
1260 JSR print+diff
1270 PLA
1280 STA address+1
1290 PLA
1300 STA address
1310 LDA #&C9
1320 LDX #0
1330 LDY #0
1340 JSR osbyte \ Enable keyboard
1350 PLA
1360 PLA
1370 PLA
1380 LDA #0
1390 RTS
1400 .print
1410 .C%
1420 STX address
1430 STY address+1
1440 LDY #&FF
1450 .printloop
1460 INY
1470 LDA (address),Y
1480 BEQ endprint
1490 JSR osasci
1500 JMP printloop+diff
1510 .endprint
1520 RTS
1530 .dot
1540 OPT FNequs("CAT")
1550 OPT FNequb(&0D)
1560 .rfs
1570 OPT FNequs("ROM Filing System ")
1580 BRK
1590 .cat
1600 OPT FNequs("Catalogue")
1610 OPT FNequb(&0D)
1620 BRK
1630 .act
1640 OPT FNequs("active")
1650 OPT FNequw(&0D0D)
1660 BRK
1670 .lastbyte
1680 ]
1690 NEXT
1700 O%=lastbyte
1710 CHAIN"MODTWO"
1720 DEFFNequb(byte)
1730 ?P%=byte
1740 P%=P%+1
1750 =pass
1760 DEFFNequw(word)
1770 ?P%=word MOD 256
1780 P%?1=word DIV 256
1790 P%=P%+2
1800 =pass
1810 DEFFNequd(double)
1820 !P%=double
1830 P%=P%+4
1840 =pass
1850 DEFFNequs(string$)
1860 $P%=string$
1870 P%=P%+LEN(string$)
1880 =pass
10 REM: MODTWO
20 HIMEM=&3C00
30 diff=&8000-HIMEM
40 address=&70
50 comvec=&F2
60 stack=&105
70 gsinit=&FFC2
80 gsread=&FFC5
90 osasci=&FFE3
100 osword=&FFF1
110 printer=C%
120 FOR pass = 0 TO 2 STEP 2
130 P%=O%
140 [ OPT pass
150 LDA address
160 PHA
170 LDA address+1
180 PHA
190 TSX
200 LDA stack,X
210 CMP #9
220 BNE tryfour
230 SEC
240 JSR gsinit
250 LDX #0
260 JSR gsread
270 BCC tryextended
280 LDX #(helpmsg+diff) MOD 256
290 LDY #(helpmsg+diff) DIV 256
300 JSR printer+diff
310 BEQ quit
320 .helploop
330 INX
340 JSR gsread
350 .tryextended
360 CMP #ASC(".")
370 BEQ okextended
380 AND #&DF
390 CMP helptitle+diff,X
400 BEQ helploop
410 LDA #&FF
420 CMP helptitle+diff,X
430 BNE quit
440 .okextended
450 LDX #(helpinfo+diff) MOD 256
460 LDY #(helpinfo+diff) DIV 256
470 JSR printer+diff
480 BEQ quit
490 .tryfour
500 CMP #4
510 BNE quit
520 LDX #&FE
530 TYA
540 PHA
550 .firstchar
560 INX
570 PLA
580 TAY
590 PHA
600 LDA (comvec),Y
610 AND #&DF
620 CMP #ASC("X")
630 BNE interpret
640 INY
650 .interpret
660 INX
670 LDA commtable+diff,X
680 BMI found
690 LDA (comvec),Y
700 INY
710 CMP #ASC(".")
720 BEQ founddot
730 AND #&DF
740 CMP commtable+diff,X
750 BEQ interpret
760 .another
770 INX
780 LDA commtable+diff,X
790 BPL another
800 CMP #&FF
810 BNE firstchar
820 .exit
830 PLA
840 .quit
850 PLA
860 STA address+1
870 PLA
880 STA address
890 PLA
900 TAY
910 PLA
920 TAX
930 PLA
940 RTS
950 .founddot
960 INX
970 LDA commtable+diff,X
980 BPL founddot
990 .found
1000 CMP #&FF
1010 BEQ exit
1020 STA address+1
1030 INX
1040 LDA commtable+diff,X
1050 STA address
1060 PLA
1070 SEC
1080 JSR gsinit
1090 JMP (address)
1100 .commtable
1110 OPT FNequs("REVERB")
1120 OPT FNequb((reverb+diff) DIV 256)
1130 OPT FNequb((reverb+diff) MOD 256)
1140 OPT FNequs("ALARM")
1150 OPT FNequb((alarm+diff) DIV 256)
1160 OPT FNequb((alarm+diff) MOD 256)
1170 OPT FNequs("ZOING")
1180 OPT FNequb((zoing+diff) DIV 256)
1190 OPT FNequb((zoing+diff) MOD 256)
1200 OPT FNequb(&FF)
1210 .helpmsg
1220 OPT FNequb(&0D)
1230 OPT FNequs("MODULAR ROM")
1240 OPT FNequb(&0D)
1250 OPT FNequw(&2020)
1260 .helptitle
1270 OPT FNequs("MOD")
1280 OPT FNequw(&0DFF)
1290 BRK
1300 .helpinfo
1310 OPT FNequw(&200D)
1320 OPT FNequs("*ALARM")
1330 OPT FNequw(&200D)
1340 OPT FNequs("*REVERB")
1350 OPT FNequw(&200D)
1360 OPT FNequs("*ZOING")
1370 OPT FNequw(&000D)
1380 .alarm
1390 LDA #8
1400 LDX #(ealarm+diff) MOD 256
1410 LDY #(ealarm+diff) DIV 256
1420 JSR osword \ Envelope
1430 LDA #7
1440 LDX #(salarm+diff) MOD 256
1450 LDY #(salarm+diff) DIV 256
1460 JSR osword \ Sound
1470 .pullout
1480 PLA
1490 STA address+1
1500 PLA
1510 STA address
1520 PLA
1530 PLA
1540 PLA
1550 LDA #0
1560 RTS
1570 .reverb
1580 LDA #8
1590 LDX #(ereverb+diff) MOD 256
1600 LDY #(ereverb+diff) DIV 256
1610 JSR osword \ Envelope
1620 LDA #7
1630 LDX #(sreverb+diff) MOD 256
1640 LDY #(sreverb+diff) DIV 256
1650 JSR osword \ Sound
1660 JMP pullout+diff
1670 .zoing
1680 LDA #8
1690 LDX #(ezoing+diff) MOD 256
1700 LDY #(ezoing+diff) DIV 256
1710 JSR osword \ Envelope
1720 LDA #7
1730 LDX #(szoing+diff) MOD 256
1740 LDY #(szoing+diff) DIV 256
1750 JSR osword \ Sound
1760 JMP pullout+diff
1770 .ealarm
1780 OPT FNequd(&00010101)
1790 OPT FNequd(&00004800)
1800 OPT FNequd(&01FF00FD)
1810 OPT FNequw(&7E7E)
1820 .salarm
1830 OPT FNequd(&00010011)
1840 OPT FNequd(&00FF0032)
1850 .ereverb
1860 OPT FNequd(&FF010803)
1870 OPT FNequd(&01010101)
1880 OPT FNequd(&79F6FBFE)
1890 OPT FNequw(&7E7E)
1900 .sreverb
1910 OPT FNequd(&00030010)
1920 OPT FNequd(&00400000)
1930 .ezoing
1940 OPT FNequd(&EC140102)
1950 OPT FNequd(&64646414)
1960 OPT FNequd(&0000FF7F)
1970 OPT FNequd(&007E)
1980 .szoing
1990 OPT FNequd(&00020012)
2000 OPT FNequd(&003200CC)
2010 .lastbyte
2020 ]
2030 NEXT
2040 A%?1=((lastbyte+diff) MOD 256)
2050 B%?1=((lastbyte+diff) DIV 256)
2060 REM: Poke address of the start of
2070 REM: RFS into MODONE
2080 O%=lastbyte
2090 CHAIN"RFSGEN"
2100 END
2110 DEFFNequb(byte)
2120 ?P%=byte
2130 P%=P%+1
2140 =pass
2150 DEFFNequw(word)
2160 ?P%=word MOD 256
2170 P%?1=word DIV 256
2180 P%=P%+2
2190 =pass
2200 DEFFNequd(double)
2210 !P%=double
2220 P%=P%+4
2230 =pass
2240 DEFFNequs(string$)
2250 $P%=string$
2260 P%=P%+LEN(string$)
2270 =pass
00000000 4d 61 73 74 65 72 69 6e 67 20 53 69 64 65 77 61 |Mastering Sidewa|
00000010 79 73 20 52 4f 4d 20 26 20 52 41 4d 20 2d 20 4d |ys ROM & RAM - M|
00000020 6f 64 75 6c 65 20 32 34 20 2d 20 46 6f 72 77 61 |odule 24 - Forwa|
00000030 72 64 20 72 65 66 65 72 65 6e 63 69 6e 67 0d 2d |rd referencing.-|
00000040 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d |----------------|
*
00000070 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 2d 0d 0d 20 |-------------.. |
00000080 20 41 6c 6c 20 74 68 65 20 73 6f 75 72 63 65 20 | All the source |
00000090 63 6f 64 65 20 70 72 6f 67 72 61 6d 73 20 75 73 |code programs us|
000000a0 65 64 20 69 6e 20 74 68 69 73 20 63 6f 75 72 73 |ed in this cours|
000000b0 65 20 74 6f 20 67 65 6e 65 72 61 74 65 20 72 6f |e to generate ro|
000000c0 6d 0d 69 6d 61 67 65 73 20 68 61 76 65 20 68 61 |m.images have ha|
000000d0 64 20 48 49 4d 45 4d 20 73 65 74 20 74 6f 20 26 |d HIMEM set to &|
000000e0 33 43 30 30 2e 20 54 68 69 73 20 61 6c 6c 6f 77 |3C00. This allow|
000000f0 73 20 75 70 20 74 6f 20 31 36 6b 20 6f 66 20 6f |s up to 16k of o|
00000100 62 6a 65 63 74 0d 63 6f 64 65 20 74 6f 20 62 65 |bject.code to be|
00000110 20 68 65 6c 64 20 69 6e 20 6d 65 6d 6f 72 79 20 | held in memory |
00000120 69 6e 20 6d 6f 64 65 20 37 2e 20 54 68 65 20 44 |in mode 7. The D|
00000130 46 53 20 73 65 74 73 20 50 41 47 45 20 74 6f 20 |FS sets PAGE to |
00000140 26 31 39 30 30 20 6f 6e 20 74 68 65 0d 42 42 43 |&1900 on the.BBC|
00000150 20 42 20 6c 65 61 76 69 6e 67 20 6f 6e 6c 79 20 | B leaving only |
00000160 38 2e 37 35 6b 20 66 6f 72 20 74 68 65 20 73 6f |8.75k for the so|
00000170 75 72 63 65 20 63 6f 64 65 2e 20 54 68 69 73 20 |urce code. This |
00000180 69 73 20 70 6c 65 6e 74 79 20 6f 66 20 72 6f 6f |is plenty of roo|
00000190 6d 0d 77 68 65 6e 20 67 65 6e 65 72 61 74 69 6e |m.when generatin|
000001a0 67 20 73 69 6d 70 6c 65 20 52 46 53 20 72 6f 6d |g simple RFS rom|
000001b0 20 69 6d 61 67 65 73 20 62 75 74 20 77 68 65 6e | images but when|
000001c0 20 64 65 73 69 67 6e 69 6e 67 20 61 20 72 6f 6d | designing a rom|
000001d0 20 77 68 69 63 68 0d 75 73 65 73 20 61 20 6c 61 | which.uses a la|
000001e0 72 67 65 20 61 6d 6f 75 6e 74 20 6f 66 20 6d 61 |rge amount of ma|
000001f0 63 68 69 6e 65 20 63 6f 64 65 20 69 74 20 69 73 |chine code it is|
00000200 20 73 6f 6d 65 74 69 6d 65 73 20 6e 65 63 65 73 | sometimes neces|
00000210 73 61 72 79 20 74 6f 20 75 73 65 20 61 0d 6d 6f |sary to use a.mo|
00000220 64 75 6c 61 72 20 70 72 6f 67 72 61 6d 20 64 65 |dular program de|
00000230 73 69 67 6e 20 77 69 74 68 20 66 6f 72 77 61 72 |sign with forwar|
00000240 64 20 72 65 66 65 72 65 6e 63 69 6e 67 20 74 6f |d referencing to|
00000250 20 6f 76 65 72 63 6f 6d 65 20 74 68 65 20 6d 65 | overcome the me|
00000260 6d 6f 72 79 0d 6c 69 6d 69 74 61 74 69 6f 6e 73 |mory.limitations|
00000270 20 6f 66 20 74 68 65 20 42 42 43 20 6d 69 63 72 | of the BBC micr|
00000280 6f 63 6f 6d 70 75 74 65 72 2e 0d 0d 20 20 4d 6f |ocomputer... Mo|
00000290 64 75 6c 61 72 20 70 72 6f 67 72 61 6d 6d 69 6e |dular programmin|
000002a0 67 20 68 61 73 20 61 6c 72 65 61 64 79 20 62 65 |g has already be|
000002b0 65 6e 20 75 73 65 64 20 69 6e 20 74 68 65 20 52 |en used in the R|
000002c0 46 53 20 63 6f 75 72 73 65 20 6d 6f 64 75 6c 65 |FS course module|
000002d0 73 0d 61 6e 64 20 69 6e 76 6f 6c 76 65 73 20 6c |s.and involves l|
000002e0 69 74 74 6c 65 20 6d 6f 72 65 20 74 68 61 6e 20 |ittle more than |
000002f0 73 70 6c 69 74 69 6e 67 20 75 70 20 61 20 6c 61 |spliting up a la|
00000300 72 67 65 20 70 72 6f 67 72 61 6d 20 69 6e 74 6f |rge program into|
00000310 20 61 0d 6e 75 6d 62 65 72 20 6f 66 20 73 6d 61 | a.number of sma|
00000320 6c 6c 65 72 20 70 72 6f 67 72 61 6d 73 2e 0d 0d |ller programs...|
00000330 20 20 46 6f 72 77 61 72 64 20 72 65 66 65 72 65 | Forward refere|
00000340 6e 63 69 6e 67 20 69 73 20 61 20 74 65 63 68 6e |ncing is a techn|
00000350 69 71 75 65 20 77 68 69 63 68 20 63 61 6e 20 62 |ique which can b|
00000360 65 20 75 73 65 64 20 77 69 74 68 20 6d 6f 64 75 |e used with modu|
00000370 6c 61 72 0d 41 73 73 65 6d 62 6c 79 20 6c 61 6e |lar.Assembly lan|
00000380 67 75 61 67 65 20 70 72 6f 67 72 61 6d 73 2e 20 |guage programs. |
00000390 49 74 20 75 73 65 73 20 74 68 65 20 72 65 73 69 |It uses the resi|
000003a0 64 65 6e 74 20 69 6e 74 65 67 65 72 20 76 61 72 |dent integer var|
000003b0 69 61 62 6c 65 73 20 28 41 25 0d 74 6f 20 58 25 |iables (A%.to X%|
000003c0 29 20 61 73 20 6c 61 62 65 6c 73 20 74 6f 20 73 |) as labels to s|
000003d0 74 6f 72 65 20 74 68 65 20 61 64 64 72 65 73 73 |tore the address|
000003e0 65 73 20 6f 66 20 6d 65 6d 6f 72 79 20 6c 6f 63 |es of memory loc|
000003f0 61 74 69 6f 6e 73 2e 20 54 68 65 0d 63 6f 6e 74 |ations. The.cont|
00000400 65 6e 74 73 20 6f 66 20 74 68 65 73 65 20 6d 65 |ents of these me|
00000410 6d 6f 72 79 20 6c 6f 63 61 74 69 6f 6e 73 20 61 |mory locations a|
00000420 72 65 20 75 6e 6b 6e 6f 77 6e 20 69 6e 20 74 68 |re unknown in th|
00000430 65 20 70 72 6f 67 72 61 6d 20 77 68 69 63 68 0d |e program which.|
00000440 64 65 66 69 6e 65 73 20 74 68 65 6d 20 62 75 74 |defines them but|
00000450 20 62 65 63 6f 6d 65 20 6b 6e 6f 77 6e 20 6f 72 | become known or|
00000460 20 63 61 6e 20 62 65 20 63 61 6c 63 75 6c 61 74 | can be calculat|
00000470 65 64 20 77 68 65 6e 20 61 20 6c 61 74 65 72 0d |ed when a later.|
00000480 70 72 6f 67 72 61 6d 20 69 73 20 65 78 65 63 75 |program is execu|
00000490 74 65 64 2e 20 54 68 65 20 63 6f 6e 74 65 6e 74 |ted. The content|
000004a0 73 20 6f 66 20 74 68 65 20 6c 6f 63 61 74 69 6f |s of the locatio|
000004b0 6e 73 20 73 74 6f 72 65 64 20 69 6e 20 74 68 65 |ns stored in the|
000004c0 0d 72 65 73 69 64 65 6e 74 20 69 6e 74 65 67 65 |.resident intege|
000004d0 72 20 76 61 72 69 61 62 6c 65 73 20 61 72 65 20 |r variables are |
000004e0 67 69 76 65 6e 20 64 75 6d 6d 79 20 76 61 6c 75 |given dummy valu|
000004f0 65 73 20 69 6e 20 74 68 65 20 69 6e 69 74 69 61 |es in the initia|
00000500 6c 0d 70 72 6f 67 72 61 6d 2e 20 54 68 65 73 65 |l.program. These|
00000510 20 64 75 6d 6d 79 20 76 61 6c 75 65 73 20 61 72 | dummy values ar|
00000520 65 20 61 6c 74 65 72 65 64 20 69 6e 20 74 68 65 |e altered in the|
00000530 20 6c 61 74 65 72 20 70 72 6f 67 72 61 6d 20 77 | later program w|
00000540 68 65 6e 20 74 68 65 0d 61 63 74 75 61 6c 20 76 |hen the.actual v|
00000550 61 6c 75 65 73 20 74 6f 20 62 65 20 73 74 6f 72 |alues to be stor|
00000560 65 64 20 69 6e 20 74 68 65 20 6d 65 6d 6f 72 79 |ed in the memory|
00000570 20 6c 6f 63 61 74 69 6f 6e 73 20 62 65 63 6f 6d | locations becom|
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00002540 20 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 75 | OPT FNequ|
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000027e0 0d 0d 0d 20 20 20 31 30 20 52 45 4d 3a 20 4d 4f |... 10 REM: MO|
000027f0 44 54 57 4f 0d 20 20 20 32 30 20 48 49 4d 45 4d |DTWO. 20 HIMEM|
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00002860 46 46 43 32 0d 20 20 20 38 30 20 67 73 72 65 61 |FFC2. 80 gsrea|
00002870 64 3d 26 46 46 43 35 0d 20 20 20 39 30 20 6f 73 |d=&FFC5. 90 os|
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00002890 20 6f 73 77 6f 72 64 3d 26 46 46 46 31 0d 20 20 | osword=&FFF1. |
000028a0 31 31 30 20 70 72 69 6e 74 65 72 3d 43 25 0d 20 |110 printer=C%. |
000028b0 20 31 32 30 20 46 4f 52 20 70 61 73 73 20 3d 20 | 120 FOR pass = |
000028c0 30 20 54 4f 20 32 20 53 54 45 50 20 32 0d 20 20 |0 TO 2 STEP 2. |
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00002950 20 20 20 20 20 20 20 20 20 54 53 58 0d 20 20 32 | TSX. 2|
00002960 30 30 20 20 20 20 20 20 20 20 20 4c 44 41 20 73 |00 LDA s|
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00002980 20 20 20 20 20 43 4d 50 20 23 39 0d 20 20 32 32 | CMP #9. 22|
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000029b0 20 20 20 20 53 45 43 0d 20 20 32 34 30 20 20 20 | SEC. 240 |
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000029d0 0d 20 20 32 35 30 20 20 20 20 20 20 20 20 20 4c |. 250 L|
000029e0 44 58 20 23 30 0d 20 20 32 36 30 20 20 20 20 20 |DX #0. 260 |
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00002a00 20 32 37 30 20 20 20 20 20 20 20 20 20 42 43 43 | 270 BCC|
00002a10 20 74 72 79 65 78 74 65 6e 64 65 64 0d 20 20 32 | tryextended. 2|
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00002a90 20 20 33 31 30 20 20 20 20 20 20 20 20 20 42 45 | 310 BE|
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00002ab0 6c 70 6c 6f 6f 70 0d 20 20 33 33 30 20 20 20 20 |lploop. 330 |
00002ac0 20 20 20 20 20 49 4e 58 0d 20 20 33 34 30 20 20 | INX. 340 |
00002ad0 20 20 20 20 20 20 20 4a 53 52 20 67 73 72 65 61 | JSR gsrea|
00002ae0 64 0d 20 20 33 35 30 20 2e 74 72 79 65 78 74 65 |d. 350 .tryexte|
00002af0 6e 64 65 64 0d 20 20 33 36 30 20 20 20 20 20 20 |nded. 360 |
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00002b10 0d 20 20 33 37 30 20 20 20 20 20 20 20 20 20 42 |. 370 B|
00002b20 45 51 20 6f 6b 65 78 74 65 6e 64 65 64 0d 20 20 |EQ okextended. |
00002b30 33 38 30 20 20 20 20 20 20 20 20 20 41 4e 44 20 |380 AND |
00002b40 23 26 44 46 0d 20 20 33 39 30 20 20 20 20 20 20 |#&DF. 390 |
00002b50 20 20 20 43 4d 50 20 68 65 6c 70 74 69 74 6c 65 | CMP helptitle|
00002b60 2b 64 69 66 66 2c 58 0d 20 20 34 30 30 20 20 20 |+diff,X. 400 |
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00002b90 20 4c 44 41 20 23 26 46 46 0d 20 20 34 32 30 20 | LDA #&FF. 420 |
00002ba0 20 20 20 20 20 20 20 20 43 4d 50 20 68 65 6c 70 | CMP help|
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00002be0 65 6e 64 65 64 0d 20 20 34 35 30 20 20 20 20 20 |ended. 450 |
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00002c20 44 59 20 23 28 68 65 6c 70 69 6e 66 6f 2b 64 69 |DY #(helpinfo+di|
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00002c40 30 20 20 20 20 20 20 20 20 20 4a 53 52 20 70 72 |0 JSR pr|
00002c50 69 6e 74 65 72 2b 64 69 66 66 0d 20 20 34 38 30 |inter+diff. 480|
00002c60 20 20 20 20 20 20 20 20 20 42 45 51 20 71 75 69 | BEQ qui|
00002c70 74 0d 20 20 34 39 30 20 2e 74 72 79 66 6f 75 72 |t. 490 .tryfour|
00002c80 0d 20 20 35 30 30 20 20 20 20 20 20 20 20 20 43 |. 500 C|
00002c90 4d 50 20 23 34 0d 20 20 35 31 30 20 20 20 20 20 |MP #4. 510 |
00002ca0 20 20 20 20 42 4e 45 20 71 75 69 74 0d 20 20 35 | BNE quit. 5|
00002cb0 32 30 20 20 20 20 20 20 20 20 20 4c 44 58 20 23 |20 LDX #|
00002cc0 26 46 45 0d 20 20 35 33 30 20 20 20 20 20 20 20 |&FE. 530 |
00002cd0 20 20 54 59 41 0d 20 20 35 34 30 20 20 20 20 20 | TYA. 540 |
00002ce0 20 20 20 20 50 48 41 0d 20 20 35 35 30 20 2e 66 | PHA. 550 .f|
00002cf0 69 72 73 74 63 68 61 72 0d 20 20 35 36 30 20 20 |irstchar. 560 |
00002d00 20 20 20 20 20 20 20 49 4e 58 0d 20 20 35 37 30 | INX. 570|
00002d10 20 20 20 20 20 20 20 20 20 50 4c 41 0d 20 20 35 | PLA. 5|
00002d20 38 30 20 20 20 20 20 20 20 20 20 54 41 59 0d 20 |80 TAY. |
00002d30 20 35 39 30 20 20 20 20 20 20 20 20 20 50 48 41 | 590 PHA|
00002d40 0d 20 20 36 30 30 20 20 20 20 20 20 20 20 20 4c |. 600 L|
00002d50 44 41 20 28 63 6f 6d 76 65 63 29 2c 59 0d 20 20 |DA (comvec),Y. |
00002d60 36 31 30 20 20 20 20 20 20 20 20 20 41 4e 44 20 |610 AND |
00002d70 23 26 44 46 0d 20 20 36 32 30 20 20 20 20 20 20 |#&DF. 620 |
00002d80 20 20 20 43 4d 50 20 23 41 53 43 28 22 58 22 29 | CMP #ASC("X")|
00002d90 0d 20 20 36 33 30 20 20 20 20 20 20 20 20 20 42 |. 630 B|
00002da0 4e 45 20 69 6e 74 65 72 70 72 65 74 0d 20 20 36 |NE interpret. 6|
00002db0 34 30 20 20 20 20 20 20 20 20 20 49 4e 59 0d 20 |40 INY. |
00002dc0 20 36 35 30 20 2e 69 6e 74 65 72 70 72 65 74 0d | 650 .interpret.|
00002dd0 20 20 36 36 30 20 20 20 20 20 20 20 20 20 49 4e | 660 IN|
00002de0 58 0d 20 20 36 37 30 20 20 20 20 20 20 20 20 20 |X. 670 |
00002df0 4c 44 41 20 63 6f 6d 6d 74 61 62 6c 65 2b 64 69 |LDA commtable+di|
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00002e10 20 20 20 42 4d 49 20 66 6f 75 6e 64 0d 20 20 36 | BMI found. 6|
00002e20 39 30 20 20 20 20 20 20 20 20 20 4c 44 41 20 28 |90 LDA (|
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00002e40 20 20 20 20 20 20 20 20 49 4e 59 0d 20 20 37 31 | INY. 71|
00002e50 30 20 20 20 20 20 20 20 20 20 43 4d 50 20 23 41 |0 CMP #A|
00002e60 53 43 28 22 2e 22 29 0d 20 20 37 32 30 20 20 20 |SC("."). 720 |
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00002e80 6f 74 0d 20 20 37 33 30 20 20 20 20 20 20 20 20 |ot. 730 |
00002e90 20 41 4e 44 20 23 26 44 46 0d 20 20 37 34 30 20 | AND #&DF. 740 |
00002ea0 20 20 20 20 20 20 20 20 43 4d 50 20 63 6f 6d 6d | CMP comm|
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00002ed0 6e 74 65 72 70 72 65 74 0d 20 20 37 36 30 20 2e |nterpret. 760 .|
00002ee0 61 6e 6f 74 68 65 72 0d 20 20 37 37 30 20 20 20 |another. 770 |
00002ef0 20 20 20 20 20 20 49 4e 58 0d 20 20 37 38 30 20 | INX. 780 |
00002f00 20 20 20 20 20 20 20 20 4c 44 41 20 63 6f 6d 6d | LDA comm|
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00002f40 20 20 20 20 20 43 4d 50 20 23 26 46 46 0d 20 20 | CMP #&FF. |
00002f50 38 31 30 20 20 20 20 20 20 20 20 20 42 4e 45 20 |810 BNE |
00002f60 66 69 72 73 74 63 68 61 72 0d 20 20 38 32 30 20 |firstchar. 820 |
00002f70 2e 65 78 69 74 0d 20 20 38 33 30 20 20 20 20 20 |.exit. 830 |
00002f80 20 20 20 20 50 4c 41 0d 20 20 38 34 30 20 2e 71 | PLA. 840 .q|
00002f90 75 69 74 0d 20 20 38 35 30 20 20 20 20 20 20 20 |uit. 850 |
00002fa0 20 20 50 4c 41 0d 20 20 38 36 30 20 20 20 20 20 | PLA. 860 |
00002fb0 20 20 20 20 53 54 41 20 61 64 64 72 65 73 73 2b | STA address+|
00002fc0 31 0d 20 20 38 37 30 20 20 20 20 20 20 20 20 20 |1. 870 |
00002fd0 50 4c 41 0d 20 20 38 38 30 20 20 20 20 20 20 20 |PLA. 880 |
00002fe0 20 20 53 54 41 20 61 64 64 72 65 73 73 0d 20 20 | STA address. |
00002ff0 38 39 30 20 20 20 20 20 20 20 20 20 50 4c 41 0d |890 PLA.|
00003000 20 20 39 30 30 20 20 20 20 20 20 20 20 20 54 41 | 900 TA|
00003010 59 0d 20 20 39 31 30 20 20 20 20 20 20 20 20 20 |Y. 910 |
00003020 50 4c 41 0d 20 20 39 32 30 20 20 20 20 20 20 20 |PLA. 920 |
00003030 20 20 54 41 58 0d 20 20 39 33 30 20 20 20 20 20 | TAX. 930 |
00003040 20 20 20 20 50 4c 41 0d 20 20 39 34 30 20 20 20 | PLA. 940 |
00003050 20 20 20 20 20 20 52 54 53 0d 20 20 39 35 30 20 | RTS. 950 |
00003060 2e 66 6f 75 6e 64 64 6f 74 0d 20 20 39 36 30 20 |.founddot. 960 |
00003070 20 20 20 20 20 20 20 20 49 4e 58 0d 20 20 39 37 | INX. 97|
00003080 30 20 20 20 20 20 20 20 20 20 4c 44 41 20 63 6f |0 LDA co|
00003090 6d 6d 74 61 62 6c 65 2b 64 69 66 66 2c 58 0d 20 |mmtable+diff,X. |
000030a0 20 39 38 30 20 20 20 20 20 20 20 20 20 42 50 4c | 980 BPL|
000030b0 20 66 6f 75 6e 64 64 6f 74 0d 20 20 39 39 30 20 | founddot. 990 |
000030c0 2e 66 6f 75 6e 64 0d 20 31 30 30 30 20 20 20 20 |.found. 1000 |
000030d0 20 20 20 20 20 43 4d 50 20 23 26 46 46 0d 20 31 | CMP #&FF. 1|
000030e0 30 31 30 20 20 20 20 20 20 20 20 20 42 45 51 20 |010 BEQ |
000030f0 65 78 69 74 0d 20 31 30 32 30 20 20 20 20 20 20 |exit. 1020 |
00003100 20 20 20 53 54 41 20 61 64 64 72 65 73 73 2b 31 | STA address+1|
00003110 0d 20 31 30 33 30 20 20 20 20 20 20 20 20 20 49 |. 1030 I|
00003120 4e 58 0d 20 31 30 34 30 20 20 20 20 20 20 20 20 |NX. 1040 |
00003130 20 4c 44 41 20 63 6f 6d 6d 74 61 62 6c 65 2b 64 | LDA commtable+d|
00003140 69 66 66 2c 58 0d 20 31 30 35 30 20 20 20 20 20 |iff,X. 1050 |
00003150 20 20 20 20 53 54 41 20 61 64 64 72 65 73 73 0d | STA address.|
00003160 20 31 30 36 30 20 20 20 20 20 20 20 20 20 50 4c | 1060 PL|
00003170 41 0d 20 31 30 37 30 20 20 20 20 20 20 20 20 20 |A. 1070 |
00003180 53 45 43 0d 20 31 30 38 30 20 20 20 20 20 20 20 |SEC. 1080 |
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000031a0 39 30 20 20 20 20 20 20 20 20 20 4a 4d 50 20 28 |90 JMP (|
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000031c0 63 6f 6d 6d 74 61 62 6c 65 0d 20 31 31 31 30 20 |commtable. 1110 |
000031d0 20 20 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 | OPT FNeq|
000031e0 75 73 28 22 52 45 56 45 52 42 22 29 0d 20 31 31 |us("REVERB"). 11|
000031f0 32 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 |20 OPT F|
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00003220 33 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 |30 OPT F|
00003230 4e 65 71 75 62 28 28 72 65 76 65 72 62 2b 64 69 |Nequb((reverb+di|
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00003250 34 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 |40 OPT F|
00003260 4e 65 71 75 73 28 22 41 4c 41 52 4d 22 29 0d 20 |Nequs("ALARM"). |
00003270 31 31 35 30 20 20 20 20 20 20 20 20 20 4f 50 54 |1150 OPT|
00003280 20 46 4e 65 71 75 62 28 28 61 6c 61 72 6d 2b 64 | FNequb((alarm+d|
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000032a0 31 36 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 |160 OPT |
000032b0 46 4e 65 71 75 62 28 28 61 6c 61 72 6d 2b 64 69 |FNequb((alarm+di|
000032c0 66 66 29 20 4d 4f 44 20 32 35 36 29 0d 20 31 31 |ff) MOD 256). 11|
000032d0 37 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 |70 OPT F|
000032e0 4e 65 71 75 73 28 22 5a 4f 49 4e 47 22 29 0d 20 |Nequs("ZOING"). |
000032f0 31 31 38 30 20 20 20 20 20 20 20 20 20 4f 50 54 |1180 OPT|
00003300 20 46 4e 65 71 75 62 28 28 7a 6f 69 6e 67 2b 64 | FNequb((zoing+d|
00003310 69 66 66 29 20 44 49 56 20 32 35 36 29 0d 20 31 |iff) DIV 256). 1|
00003320 31 39 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 |190 OPT |
00003330 46 4e 65 71 75 62 28 28 7a 6f 69 6e 67 2b 64 69 |FNequb((zoing+di|
00003340 66 66 29 20 4d 4f 44 20 32 35 36 29 0d 20 31 32 |ff) MOD 256). 12|
00003350 30 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 |00 OPT F|
00003360 4e 65 71 75 62 28 26 46 46 29 0d 20 31 32 31 30 |Nequb(&FF). 1210|
00003370 20 2e 68 65 6c 70 6d 73 67 0d 20 31 32 32 30 20 | .helpmsg. 1220 |
00003380 20 20 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 | OPT FNeq|
00003390 75 62 28 26 30 44 29 0d 20 31 32 33 30 20 20 20 |ub(&0D). 1230 |
000033a0 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 75 73 | OPT FNequs|
000033b0 28 22 4d 4f 44 55 4c 41 52 20 52 4f 4d 22 29 0d |("MODULAR ROM").|
000033c0 20 31 32 34 30 20 20 20 20 20 20 20 20 20 4f 50 | 1240 OP|
000033d0 54 20 46 4e 65 71 75 62 28 26 30 44 29 0d 20 31 |T FNequb(&0D). 1|
000033e0 32 35 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 |250 OPT |
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00003400 32 36 30 20 2e 68 65 6c 70 74 69 74 6c 65 0d 20 |260 .helptitle. |
00003410 31 32 37 30 20 20 20 20 20 20 20 20 20 4f 50 54 |1270 OPT|
00003420 20 46 4e 65 71 75 73 28 22 4d 4f 44 22 29 0d 20 | FNequs("MOD"). |
00003430 31 32 38 30 20 20 20 20 20 20 20 20 20 4f 50 54 |1280 OPT|
00003440 20 46 4e 65 71 75 77 28 26 30 44 46 46 29 0d 20 | FNequw(&0DFF). |
00003450 31 32 39 30 20 20 20 20 20 20 20 20 20 42 52 4b |1290 BRK|
00003460 0d 20 31 33 30 30 20 2e 68 65 6c 70 69 6e 66 6f |. 1300 .helpinfo|
00003470 0d 20 31 33 31 30 20 20 20 20 20 20 20 20 20 4f |. 1310 O|
00003480 50 54 20 46 4e 65 71 75 77 28 26 32 30 30 44 29 |PT FNequw(&200D)|
00003490 0d 20 31 33 32 30 20 20 20 20 20 20 20 20 20 4f |. 1320 O|
000034a0 50 54 20 46 4e 65 71 75 73 28 22 2a 41 4c 41 52 |PT FNequs("*ALAR|
000034b0 4d 22 29 0d 20 31 33 33 30 20 20 20 20 20 20 20 |M"). 1330 |
000034c0 20 20 4f 50 54 20 46 4e 65 71 75 77 28 26 32 30 | OPT FNequw(&20|
000034d0 30 44 29 0d 20 31 33 34 30 20 20 20 20 20 20 20 |0D). 1340 |
000034e0 20 20 4f 50 54 20 46 4e 65 71 75 73 28 22 2a 52 | OPT FNequs("*R|
000034f0 45 56 45 52 42 22 29 0d 20 31 33 35 30 20 20 20 |EVERB"). 1350 |
00003500 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 75 77 | OPT FNequw|
00003510 28 26 32 30 30 44 29 0d 20 31 33 36 30 20 20 20 |(&200D). 1360 |
00003520 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 75 73 | OPT FNequs|
00003530 28 22 2a 5a 4f 49 4e 47 22 29 0d 20 31 33 37 30 |("*ZOING"). 1370|
00003540 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 4e 65 | OPT FNe|
00003550 71 75 77 28 26 30 30 30 44 29 0d 20 31 33 38 30 |quw(&000D). 1380|
00003560 20 2e 61 6c 61 72 6d 0d 20 31 33 39 30 20 20 20 | .alarm. 1390 |
00003570 20 20 20 20 20 20 4c 44 41 20 23 38 0d 20 31 34 | LDA #8. 14|
00003580 30 30 20 20 20 20 20 20 20 20 20 4c 44 58 20 23 |00 LDX #|
00003590 28 65 61 6c 61 72 6d 2b 64 69 66 66 29 20 4d 4f |(ealarm+diff) MO|
000035a0 44 20 32 35 36 0d 20 31 34 31 30 20 20 20 20 20 |D 256. 1410 |
000035b0 20 20 20 20 4c 44 59 20 23 28 65 61 6c 61 72 6d | LDY #(ealarm|
000035c0 2b 64 69 66 66 29 20 44 49 56 20 32 35 36 0d 20 |+diff) DIV 256. |
000035d0 31 34 32 30 20 20 20 20 20 20 20 20 20 4a 53 52 |1420 JSR|
000035e0 20 6f 73 77 6f 72 64 20 20 20 20 5c 20 45 6e 76 | osword \ Env|
000035f0 65 6c 6f 70 65 0d 20 31 34 33 30 20 20 20 20 20 |elope. 1430 |
00003600 20 20 20 20 4c 44 41 20 23 37 0d 20 31 34 34 30 | LDA #7. 1440|
00003610 20 20 20 20 20 20 20 20 20 4c 44 58 20 23 28 73 | LDX #(s|
00003620 61 6c 61 72 6d 2b 64 69 66 66 29 20 4d 4f 44 20 |alarm+diff) MOD |
00003630 32 35 36 0d 20 31 34 35 30 20 20 20 20 20 20 20 |256. 1450 |
00003640 20 20 4c 44 59 20 23 28 73 61 6c 61 72 6d 2b 64 | LDY #(salarm+d|
00003650 69 66 66 29 20 44 49 56 20 32 35 36 0d 20 31 34 |iff) DIV 256. 14|
00003660 36 30 20 20 20 20 20 20 20 20 20 4a 53 52 20 6f |60 JSR o|
00003670 73 77 6f 72 64 20 20 20 20 5c 20 53 6f 75 6e 64 |sword \ Sound|
00003680 0d 20 31 34 37 30 20 2e 70 75 6c 6c 6f 75 74 0d |. 1470 .pullout.|
00003690 20 31 34 38 30 20 20 20 20 20 20 20 20 20 50 4c | 1480 PL|
000036a0 41 0d 20 31 34 39 30 20 20 20 20 20 20 20 20 20 |A. 1490 |
000036b0 53 54 41 20 61 64 64 72 65 73 73 2b 31 0d 20 31 |STA address+1. 1|
000036c0 35 30 30 20 20 20 20 20 20 20 20 20 50 4c 41 0d |500 PLA.|
000036d0 20 31 35 31 30 20 20 20 20 20 20 20 20 20 53 54 | 1510 ST|
000036e0 41 20 61 64 64 72 65 73 73 0d 20 31 35 32 30 20 |A address. 1520 |
000036f0 20 20 20 20 20 20 20 20 50 4c 41 0d 20 31 35 33 | PLA. 153|
00003700 30 20 20 20 20 20 20 20 20 20 50 4c 41 0d 20 31 |0 PLA. 1|
00003710 35 34 30 20 20 20 20 20 20 20 20 20 50 4c 41 0d |540 PLA.|
00003720 20 31 35 35 30 20 20 20 20 20 20 20 20 20 4c 44 | 1550 LD|
00003730 41 20 23 30 0d 20 31 35 36 30 20 20 20 20 20 20 |A #0. 1560 |
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00003760 20 20 20 4c 44 41 20 23 38 0d 20 31 35 39 30 20 | LDA #8. 1590 |
00003770 20 20 20 20 20 20 20 20 4c 44 58 20 23 28 65 72 | LDX #(er|
00003780 65 76 65 72 62 2b 64 69 66 66 29 20 4d 4f 44 20 |everb+diff) MOD |
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000037c0 36 31 30 20 20 20 20 20 20 20 20 20 4a 53 52 20 |610 JSR |
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000037e0 6c 6f 70 65 0d 20 31 36 32 30 20 20 20 20 20 20 |lope. 1620 |
000037f0 20 20 20 4c 44 41 20 23 37 0d 20 31 36 33 30 20 | LDA #7. 1630 |
00003800 20 20 20 20 20 20 20 20 4c 44 58 20 23 28 73 72 | LDX #(sr|
00003810 65 76 65 72 62 2b 64 69 66 66 29 20 4d 4f 44 20 |everb+diff) MOD |
00003820 32 35 36 0d 20 31 36 34 30 20 20 20 20 20 20 20 |256. 1640 |
00003830 20 20 4c 44 59 20 23 28 73 72 65 76 65 72 62 2b | LDY #(sreverb+|
00003840 64 69 66 66 29 20 44 49 56 20 32 35 36 0d 20 31 |diff) DIV 256. 1|
00003850 36 35 30 20 20 20 20 20 20 20 20 20 4a 53 52 20 |650 JSR |
00003860 6f 73 77 6f 72 64 20 20 20 20 5c 20 53 6f 75 6e |osword \ Soun|
00003870 64 0d 20 31 36 36 30 20 20 20 20 20 20 20 20 20 |d. 1660 |
00003880 4a 4d 50 20 70 75 6c 6c 6f 75 74 2b 64 69 66 66 |JMP pullout+diff|
00003890 0d 20 31 36 37 30 20 2e 7a 6f 69 6e 67 0d 20 31 |. 1670 .zoing. 1|
000038a0 36 38 30 20 20 20 20 20 20 20 20 20 4c 44 41 20 |680 LDA |
000038b0 23 38 0d 20 31 36 39 30 20 20 20 20 20 20 20 20 |#8. 1690 |
000038c0 20 4c 44 58 20 23 28 65 7a 6f 69 6e 67 2b 64 69 | LDX #(ezoing+di|
000038d0 66 66 29 20 4d 4f 44 20 32 35 36 0d 20 31 37 30 |ff) MOD 256. 170|
000038e0 30 20 20 20 20 20 20 20 20 20 4c 44 59 20 23 28 |0 LDY #(|
000038f0 65 7a 6f 69 6e 67 2b 64 69 66 66 29 20 44 49 56 |ezoing+diff) DIV|
00003900 20 32 35 36 0d 20 31 37 31 30 20 20 20 20 20 20 | 256. 1710 |
00003910 20 20 20 4a 53 52 20 6f 73 77 6f 72 64 20 20 20 | JSR osword |
00003920 20 5c 20 45 6e 76 65 6c 6f 70 65 0d 20 31 37 32 | \ Envelope. 172|
00003930 30 20 20 20 20 20 20 20 20 20 4c 44 41 20 23 37 |0 LDA #7|
00003940 0d 20 31 37 33 30 20 20 20 20 20 20 20 20 20 4c |. 1730 L|
00003950 44 58 20 23 28 73 7a 6f 69 6e 67 2b 64 69 66 66 |DX #(szoing+diff|
00003960 29 20 4d 4f 44 20 32 35 36 0d 20 31 37 34 30 20 |) MOD 256. 1740 |
00003970 20 20 20 20 20 20 20 20 4c 44 59 20 23 28 73 7a | LDY #(sz|
00003980 6f 69 6e 67 2b 64 69 66 66 29 20 44 49 56 20 32 |oing+diff) DIV 2|
00003990 35 36 0d 20 31 37 35 30 20 20 20 20 20 20 20 20 |56. 1750 |
000039a0 20 4a 53 52 20 6f 73 77 6f 72 64 20 20 20 20 5c | JSR osword \|
000039b0 20 53 6f 75 6e 64 0d 20 31 37 36 30 20 20 20 20 | Sound. 1760 |
000039c0 20 20 20 20 20 4a 4d 50 20 70 75 6c 6c 6f 75 74 | JMP pullout|
000039d0 2b 64 69 66 66 0d 20 31 37 37 30 20 2e 65 61 6c |+diff. 1770 .eal|
000039e0 61 72 6d 0d 20 31 37 38 30 20 20 20 20 20 20 20 |arm. 1780 |
000039f0 20 20 4f 50 54 20 46 4e 65 71 75 64 28 26 30 30 | OPT FNequd(&00|
00003a00 30 31 30 31 30 31 29 0d 20 31 37 39 30 20 20 20 |010101). 1790 |
00003a10 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 75 64 | OPT FNequd|
00003a20 28 26 30 30 30 30 34 38 30 30 29 0d 20 31 38 30 |(&00004800). 180|
00003a30 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 4e |0 OPT FN|
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00003a50 20 31 38 31 30 20 20 20 20 20 20 20 20 20 4f 50 | 1810 OP|
00003a60 54 20 46 4e 65 71 75 77 28 26 37 45 37 45 29 0d |T FNequw(&7E7E).|
00003a70 20 31 38 32 30 20 2e 73 61 6c 61 72 6d 0d 20 31 | 1820 .salarm. 1|
00003a80 38 33 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 |830 OPT |
00003a90 46 4e 65 71 75 64 28 26 30 30 30 31 30 30 31 31 |FNequd(&00010011|
00003aa0 29 0d 20 31 38 34 30 20 20 20 20 20 20 20 20 20 |). 1840 |
00003ab0 4f 50 54 20 46 4e 65 71 75 64 28 26 30 30 46 46 |OPT FNequd(&00FF|
00003ac0 30 30 33 32 29 0d 20 31 38 35 30 20 2e 65 72 65 |0032). 1850 .ere|
00003ad0 76 65 72 62 0d 20 31 38 36 30 20 20 20 20 20 20 |verb. 1860 |
00003ae0 20 20 20 4f 50 54 20 46 4e 65 71 75 64 28 26 46 | OPT FNequd(&F|
00003af0 46 30 31 30 38 30 33 29 0d 20 31 38 37 30 20 20 |F010803). 1870 |
00003b00 20 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 75 | OPT FNequ|
00003b10 64 28 26 30 31 30 31 30 31 30 31 29 0d 20 31 38 |d(&01010101). 18|
00003b20 38 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 46 |80 OPT F|
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00003b50 50 54 20 46 4e 65 71 75 77 28 26 37 45 37 45 29 |PT FNequw(&7E7E)|
00003b60 0d 20 31 39 30 30 20 2e 73 72 65 76 65 72 62 0d |. 1900 .sreverb.|
00003b70 20 31 39 31 30 20 20 20 20 20 20 20 20 20 4f 50 | 1910 OP|
00003b80 54 20 46 4e 65 71 75 64 28 26 30 30 30 33 30 30 |T FNequd(&000300|
00003b90 31 30 29 0d 20 31 39 32 30 20 20 20 20 20 20 20 |10). 1920 |
00003ba0 20 20 4f 50 54 20 46 4e 65 71 75 64 28 26 30 30 | OPT FNequd(&00|
00003bb0 34 30 30 30 30 30 29 0d 20 31 39 33 30 20 2e 65 |400000). 1930 .e|
00003bc0 7a 6f 69 6e 67 0d 20 31 39 34 30 20 20 20 20 20 |zoing. 1940 |
00003bd0 20 20 20 20 4f 50 54 20 46 4e 65 71 75 64 28 26 | OPT FNequd(&|
00003be0 45 43 31 34 30 31 30 32 29 0d 20 31 39 35 30 20 |EC140102). 1950 |
00003bf0 20 20 20 20 20 20 20 20 4f 50 54 20 46 4e 65 71 | OPT FNeq|
00003c00 75 64 28 26 36 34 36 34 36 34 31 34 29 0d 20 31 |ud(&64646414). 1|
00003c10 39 36 30 20 20 20 20 20 20 20 20 20 4f 50 54 20 |960 OPT |
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00003c30 29 0d 20 31 39 37 30 20 20 20 20 20 20 20 20 20 |). 1970 |
00003c40 4f 50 54 20 46 4e 65 71 75 64 28 26 30 30 37 45 |OPT FNequd(&007E|
00003c50 29 0d 20 31 39 38 30 20 2e 73 7a 6f 69 6e 67 0d |). 1980 .szoing.|
00003c60 20 31 39 39 30 20 20 20 20 20 20 20 20 20 4f 50 | 1990 OP|
00003c70 54 20 46 4e 65 71 75 64 28 26 30 30 30 32 30 30 |T FNequd(&000200|
00003c80 31 32 29 0d 20 32 30 30 30 20 20 20 20 20 20 20 |12). 2000 |
00003c90 20 20 4f 50 54 20 46 4e 65 71 75 64 28 26 30 30 | OPT FNequd(&00|
00003ca0 33 32 30 30 43 43 29 0d 20 32 30 31 30 20 2e 6c |3200CC). 2010 .l|
00003cb0 61 73 74 62 79 74 65 0d 20 32 30 32 30 20 5d 0d |astbyte. 2020 ].|
00003cc0 20 32 30 33 30 20 4e 45 58 54 0d 20 32 30 34 30 | 2030 NEXT. 2040|
00003cd0 20 41 25 3f 31 3d 28 28 6c 61 73 74 62 79 74 65 | A%?1=((lastbyte|
00003ce0 2b 64 69 66 66 29 20 4d 4f 44 20 32 35 36 29 0d |+diff) MOD 256).|
00003cf0 20 32 30 35 30 20 42 25 3f 31 3d 28 28 6c 61 73 | 2050 B%?1=((las|
00003d00 74 62 79 74 65 2b 64 69 66 66 29 20 44 49 56 20 |tbyte+diff) DIV |
00003d10 32 35 36 29 0d 20 32 30 36 30 20 52 45 4d 3a 20 |256). 2060 REM: |
00003d20 50 6f 6b 65 20 61 64 64 72 65 73 73 20 6f 66 20 |Poke address of |
00003d30 74 68 65 20 73 74 61 72 74 20 6f 66 0d 20 32 30 |the start of. 20|
00003d40 37 30 20 52 45 4d 3a 20 52 46 53 20 69 6e 74 6f |70 REM: RFS into|
00003d50 20 4d 4f 44 4f 4e 45 0d 20 32 30 38 30 20 4f 25 | MODONE. 2080 O%|
00003d60 3d 6c 61 73 74 62 79 74 65 0d 20 32 30 39 30 20 |=lastbyte. 2090 |
00003d70 43 48 41 49 4e 22 52 46 53 47 45 4e 22 0d 20 32 |CHAIN"RFSGEN". 2|
00003d80 31 30 30 20 45 4e 44 0d 20 32 31 31 30 20 44 45 |100 END. 2110 DE|
00003d90 46 46 4e 65 71 75 62 28 62 79 74 65 29 0d 20 32 |FFNequb(byte). 2|
00003da0 31 32 30 20 3f 50 25 3d 62 79 74 65 0d 20 32 31 |120 ?P%=byte. 21|
00003db0 33 30 20 50 25 3d 50 25 2b 31 0d 20 32 31 34 30 |30 P%=P%+1. 2140|
00003dc0 20 3d 70 61 73 73 0d 20 32 31 35 30 20 44 45 46 | =pass. 2150 DEF|
00003dd0 46 4e 65 71 75 77 28 77 6f 72 64 29 0d 20 32 31 |FNequw(word). 21|
00003de0 36 30 20 3f 50 25 3d 77 6f 72 64 20 4d 4f 44 20 |60 ?P%=word MOD |
00003df0 32 35 36 0d 20 32 31 37 30 20 50 25 3f 31 3d 77 |256. 2170 P%?1=w|
00003e00 6f 72 64 20 44 49 56 20 32 35 36 0d 20 32 31 38 |ord DIV 256. 218|
00003e10 30 20 50 25 3d 50 25 2b 32 0d 20 32 31 39 30 20 |0 P%=P%+2. 2190 |
00003e20 3d 70 61 73 73 0d 20 32 32 30 30 20 44 45 46 46 |=pass. 2200 DEFF|
00003e30 4e 65 71 75 64 28 64 6f 75 62 6c 65 29 0d 20 32 |Nequd(double). 2|
00003e40 32 31 30 20 21 50 25 3d 64 6f 75 62 6c 65 0d 20 |210 !P%=double. |
00003e50 32 32 32 30 20 50 25 3d 50 25 2b 34 0d 20 32 32 |2220 P%=P%+4. 22|
00003e60 33 30 20 3d 70 61 73 73 0d 20 32 32 34 30 20 44 |30 =pass. 2240 D|
00003e70 45 46 46 4e 65 71 75 73 28 73 74 72 69 6e 67 24 |EFFNequs(string$|
00003e80 29 0d 20 32 32 35 30 20 24 50 25 3d 73 74 72 69 |). 2250 $P%=stri|
00003e90 6e 67 24 0d 20 32 32 36 30 20 50 25 3d 50 25 2b |ng$. 2260 P%=P%+|
00003ea0 4c 45 4e 28 73 74 72 69 6e 67 24 29 0d 20 32 32 |LEN(string$). 22|
00003eb0 37 30 20 3d 70 61 73 73 0d |70 =pass.|
00003eb9 
16-12-88/T\SWR24.m0
16-12-88/T\SWR24.m1
16-12-88/T\SWR24.m2
16-12-88/T\SWR24.m4
16-12-88/T\SWR24.m5
.