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mongen.x19
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TITLE MONGEN - PROGRAM TO DEFINE MONITOR AND NETWORK CONFIGURATIONS - V060
SUBTTL T. HASTINGS/TH/EP/DAL/JBS 24 JUN 86
EDITNO==315 ;EDIT NUMBER (**MUST MATCH "M.GEN" IN COMMON.MAC**)
VERSION==060 ;MAJOR VERSION NUMBER
VMINOR==0 ;MINOR VERSION NUMBER
VWHO==0 ;WHO LAST EDITED
SALL
.DIRECT FLBLST
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY ONLY BE USED
; OR COPIED IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
ASCIZ &
COPYRIGHT (C) 1970,1971,1972,1973,1974,1975,1976,1977,1978,1979,1980,1982,1984,1986 BY DIGITAL EQUIPMENT CORP., MAYNARD, MASS.
ALL RIGHTS RESERVED.
&
;
;DO NOT CHANGE BELOW NUMBER, IT IS A LOCATION, NOT A NUMBER!!!
JOBVER==137 ;LOC OF VERSION NO IN JOB DATA AREA
LOC JOBVER
BYTE (3)VWHO(9)VERSION(6)VMINOR(18)EDITNO ;VERSION NUMBER
RELOC
;SYMBOLS WHICH ARE PARAMETERS OF MONGEN ITSELF(PREFIX MP)
IFNDEF MP.MVN,<MP.MVN==^D703> ;MONITOR VERSION NUMBER
;WHICH THIS MONGEN IS DESIGNED TO GENERATE
;OTHER MONGEN VERSIONS GENERATE OTHER MONITOR VERSIONS
IFNDEF MP.PDL,<MP.PDL==40> ;PD LIST LENGTH
IFNDEF MP.AMX,<MP.AMX==^D10> ;MAX NO. OF ANSWERS INSIDE PARENS
IFNDEF MP.SMX,<MP.SMX==^D4> ;MAX SYSTEM SUPPORTED IN 7.02
; 1070=0, 1080=1, 1090=2, 1091=3, 2020=4
IFNDEF MP.LMX,<MP.LMX==^D80> ;MAX. NO. OF CHAR ALLOWED IN INPUT LINE
; NOT COUNTING EOL OR NULL
IFNDEF MP.FTA,<MP.FTA==^D25> ;MAX NUMBER OF FEATURE TEST SWITCHES THAT MAY BE ADDED
COMMENT "
ASSEMBLY INSTRUCTIONS:
.COMPIL MONGEN
LOADING INSTRUCTIONS:
.LOAD MONGEN
DEBUGGING INSTRUCTION:
.DEBUG MONGEN
BY DEPOSITING NON-ZERO IN LOCATION DEBUG WITH DDT, MONGEN WILL
OUTPUT ALL FILE STUFF TO TTY TOO INSIDE <>.
"
;MONGEN IS A DIALOG PROGRAM(ACTUALLY 3 PROGRAMS IN ONE) WHICH
;ASKS THE CUSTOMER QUESTIONS ABOUT HIS CONFIGURATION.
;THE RESULTS OF THIS DIALOG ARE OUTPUT AS A FILE OF PARAMETER ASSIGNMENTS
;WHICH CAUSE CONDITIONAL ASSEMBLY IN THE DATA BASE MODULES OF THE MONITOR.
;THUS EACH CUSTOMER IS ABLE TO CUSTOM-MAKE HIS MONITOR FOR THE FEATURES
;HE WISHES DEPENDING ON HARDWARE AND SOFTWARE REQUIREMENTS.
;THESE PARAMETER ASSIGNMENTS TAKE THE FORM OF MACRO CALLS USING
; THE XP MACRO OF TWO ARGUMENTS AS DEFINED IN FILE S.MAC. THE XP
; MACRO DEFINES THE FIRST SYMBOL TO BE EQUAL TO THE SECOND EXPRESSION
; AND DECLARES THE SYMBOL TO BE INTERNAL AND DDT OUTPUT SUPPRESSED.
;MONGEN CAN CONFIGURE ITSELF BY USING THE MONGEN DIALOG. THE MONGEN
;DIALOG RESULTS IN A NEW .EXE FILE. MONGENING MONGEN IS UNSUPPORTED.
;USER INSTRUCTIONS FOR RUNNING MONGEN:
;MONGEN WILL ASK YOU QUESTIONS ABOUT YOUR CONFIGURATION AND
; OUTPUT THEM IN A FILE. TO HELP YOU ANSWER THESE QUESTIONS,
; MONGEN GIVES THREE LEVELS OF
; GUIDANCE. SHORT MODE FOR THE VERY EXPERIENCED, PROMPT MODE
; WHERE YOU ARE GIVEN CHOICES, AND LONG MODE WHERE YOU
; ARE GIVEN THE CHOICES ALONG WITH AN EXPLANATION. YOU MAY CHANGE
; THE MODE FOR A SINGLE QUESTION IF YOU DO NOT UNDERSTAND IT BY SIMPLY TYPING /H
; TO CHANGE THE MODE FOR THE REST OF THE QUESTIONS, TYPE /HELP:X
; WHERE X IS SHORT, PROMPT, OR LONG. ACTUALLY MONGEN ALWAYS
; ALLOWS ABBREVIATIONS EVERYWHERE, SO S, P, AND L SUFFICE
; ALONG WITH H FOR HELP.
; QUESTIONS ASKING FOR A NUMBER(DECIMAL UNLESS SPECIFICALLY NOTED
; AS OCTAL) ALWAYS INDICATE THE RANGE INSIDE PARENS, IE (MIN-MAX).
; OTHER QUESTIONS ARE ASKING FOR ONE
; OF A LIST OF CHOICES. THE CHOICES ARE LISTED INSIDE PARENS.
; STILL OTHER QUESTIONS ASK
; FOR Y OR N AND STILL OTHERS ASK FOR JUST A STRING.
; IN ALL QUESTIONS WHICH HAVE PROMPTING INSIDE PARENS, THE FIRST
; ITEM IN THE LIST IS CALLED THE DEFAULT AND IS ASSUMED IF YOU
; ANSWER JUST WITH CARRIAGE RETURN. ALL THE YES/NO QUESTIONS
; HAVE PROMPTING OF (Y,N) SO CARRIAGE RETURN ALWAYS MEANS Y.
; (,ANS0,ANS1,...) MEANS NO DEFAULT ASSUMED ON JUST CR
; CALLER OF ASK ROUTINE MUST CHECK FOR N=0 IN THIS CASE AND TAKE
; APPROPRIATE ACTION. (THIS FEATURE IS USED BY HELP ITSELF TO ALLOW
; JUST CR TO MEAN NEXT LONGER HELP MODE).
;RULE: ALL SYMBOLS ARE GENERATED ALL OF THE TIME,
; NO MATTER HOW DIALOG BRANCHES. WHY? SO USERS READING THE
; DATA BASE MODULES NEVER NEED TO LOOK AT MONGEN TO UNDERSTAND
; THE MONITOR.
;THE ONLY LOCAL STORAGE IN MONGEN IS USED TO STORE ANSWERS IF THE
; VALUES ARE NEEDED LATER FOR ERROR CHECKING. MOST ANSWERS ARE OUTPUT
; IMMEDIATELY AND SO ARE NEVER STORED IN MEMORY. BY CONVENTION THE NAMES
; OF VARIABLES WARE THE SAME AS THE ASSOCIATED SYMBOLS OUTPUT IN
; THE FILE. OUTPUT SYMBOLS ALL START WITH THE TWO LETTERS "M." OR "FT" THIS MAKES
; IT EASY TO RECOGNIZE SYMBOLS DEFINED BY MONGEN WHEN READING THE REST
; OF THE MONITOR.
;MONGEN IS STUPID AND SIMPLE MINDED. IS KNOWS AS LITTLE ABOUT
; THE MONITOR AS POSSIBLE. IT NEVER ADDS TWO ANSWERS TOGETHER, FOR EXAMPLE.
; IT ALWAYS GENERATES ALL SYMBOLS ALL THE TIME, NO MATTER
; HOW THE QUESTIONS ARE ANSWERED. IT IS UP TO COMMON TO TAKE THE RAW DATA
; AND PERFORM COMPUTATION AND DEFINE NEW AND CONVENIENT SYMBOLS.
;THE FOLLOWING MACROS(AND SUBROUTINES BY THE SAME NAME) ARE USED TO ASK
; CUSTOMER QUESTIONS AND GET HIS ANSWERS:
;SOME ANSWERS ARE NUMERIC, WHILE OTHERS ARE CHOICES LIKE Y OR N
; OR AN ITEM OUT OF A LIST. ALL ANSWERS ARE CHECKED FOR REASONABLENESS.
; THE GOAL IS TO PREVENT AS MANY ERRORS AS POSSIBLE, SINCE ERRORS
; ARE NOT USUALLY DISCOVERED UNTIL THE MONITOR IS LOADED AND SOMETIMES
; EVEN THEN IT IS HARD TO FIND THE PROBLEM. ALL NUMERIC ANSWERS ARE
; CHECKED FOR MIN AND MAX AS INDICATED INSIDE PARENS WITH A -
; SEPARATING THE MIN AND MAX. IF A NUMERIC QUESTION
; DOES NOT HAVE A RANGE SPECIFIED, MONGEN WILL PRINT
; ? INTERNAL MONGEN ERROR - ABOVE QUESTION MUST HAVE (...,MIN-MAX) -
; EDIT MONGEN.
; AND EXIT. NOTE: (MIN-?) IS OK TO MEAN NO UPPER BOUND
; THE PROGRAMMER MUST EDIT MONGEN TO FIX HIS BUG.
; THE CUSTOMER SHOULD NEVER SEE THIS MESSAGE, SINCE IT IS A DEBUGGING
; AID AND SHOULD BE CAUGHT DURING TESTING.
;EACH MACRO HAS A TEXT QUESTION AS AN ARGUMENT. THE ANSWER IS RETURNED
; IN AC N. IF AN ERROR IS DETECTED, THE QUESTION IS
; REASKED AT NEXT HIGHER LEVEL OF VERBOSITY. RETURN IS ALWAYS WITH
; A SUCCESSFUL VALUE. THE CUSTOMER MAY HAVE CHANGED LEVELS OF VERBOSITY
; USING THE /HELP: FEATURE. LOCATION SAVLV HAS CURRENT PERMANENT LEVEL,
; WHILE LEVEL FOR CURRENT QUESTION IS KEPT IN AC LV.
;ASKYN - ANSWER Y OR N, (Y=1, N=0) NOTE: OPPOSITE FROM ASKLST
; HOWEVER MORE USEFUL, SINCE CAN OUTPUT DIRECTLY IN XP MACRO
; WHERE XP SYMBOL,1 MEANS Y AND XP SYMBOL,0 MEANS N.
; (Y,N) MUST APPEAR IN QUESTION AS A PROMPT. FOR CONSISTENCY
; THE Y MUST BE BEFORE THE N SO CR ALWAYS MEANS Y.
;ASKDEC - ANSWER DECIMAL NUMBER. QUESTION SHOULD HAVE (DEFAULT,MIN-MAX).
; IF NO DEFAULT IS REASONABLE(SUCH AS NUMBER OF JOBS), ONLY
; (MIN-MAX) IS REQUIRED.
;ASKOCT - ANSWER OCTAL NUMBER. QUESTION SHOULD HAVE (DEFAULT,MIN-MAX)
; IF NO DEFAULT IS REASONABLE, ONLY (MIN-MAX) IS REQUIRED.
;ASKLIN - ANSWER OCTAL LINE NUMBER OR CTY
;ASKSTR - ANSWER ARBITRARY STRING. STORED IN ASCSTR AS ASCIZ.
; N=NO. OF CHARS IN STRING NOT COUNTING NULL OR CRLF.
;ASKLST - ANSWER ONE OF THE ITEMS IN THE PROMPTING LIST IN PARENS.
; N=0,1,2,... IE POSITION OF ANSWER IN LIST. IF ANSWER IS NOT
; IN LIST OR ABBREVIATION IS NOT UNIQUE, THE QUESTION IS REASKED
; AT HIGHER LEVEL OF VERBOSITY. ERROR MESSAGES ARE:
; ? TYPE ENOUGH TO UNIQUELY DISTINGUISH ANSWER
; ? ANSWER WITH ONE OF THE CHOICES INSIDE ( )
; ? INTERNAL MONGEN ERROR - NO "(" IN ABOVE MESSAGE -
; EDIT MONGEN AND ADD (ANS0,ANS1,...)
; ? INTERNAL MONGEN ERROR - TOO MANY POSSIBLE ANSWERS ABOVE -
; EDIT MONGEN AND INCREASE MP.AMX
;TO ASK A MULTIPLE LINE QUESTION, THE FOLLOWING SPECIAL MACROS:
;ASKMN - ANSWER M OR M,N WHERE M AND N ARE OCTAL LINE
; NUMBERS OR JUST CTY
;ASKMNP - ANSWER M,P OR M-N,P WHERE M,N, AND P ARE OCTAL LINE NUMBERS
;
;ASKTMN - ANSWER M OR M,N OR ALL FOR 7 TRACK TAPE UNITS
;
;ASKTMN - ANSWER M OR M,N OR ALL FOR 7 TRACK TAPE UNITS
;TO OUTPUT TO TTY, FILE OR BOTH, USE THE FOLLOWING:
; USUAL FILE OUTPUT RADIX IS OCTAL, WHILE TTY OUTPUT RADIX IS DECIMAL,
; UNLESS NAME HAS OCT OR DEC IN IT, IN WHICH THE RADICES ARE THE SAME.
;BTHOUT - OUTPUT DECIMAL TO BOTH TTY AND FILE, FILE AS A COMMENT(IE ; INSERTED)
;BTHOCT - OUTPUT OCTAL TO BOTH TTY AND FILE, FILE AS A COMMENT
;FILEOUT - OUTPUT TO FIL ONLY
;FILCOM - OUTPUT TO FILE ONLY AS A MULTI-LINE COMMENT(IE ; INSERTED)
;TTYOUT - OUTPUT TO TTY ONLY(DECIMAL)(USUAL)
;TTYOCT - OUTPUT TO TTY ONLY(OCTAL)(UNUSUAL)
;FILSTR - OUTPUT STRING IN ASCSTR TO FILE
;FILDEC - OUTPUT TO FILE WITH RADIX DECIMAL INSTEAD OF OCTAL
;FILDC2 - OUTPUT TO FILE WITH RADIX DECIMAL, AT LEAST 2 CHARS
;ALL OF THE ABOVE MACROS(AND SUBROUTINES) CAN HAVE A SECOND
; ARGUMENT WHICH IS THE LOCATION OF A VALUE TO BE SUBSTITUTED FOR * IN
; THE FIRST ARGUMENT. THE VALUE CAN BE LEFT JUSTIFIED SIXBIT OR A NUMBER.
; IF THE LOCATION OF THE VALUE IS AC N, NO EXTRA INSTRUCTION IS GENERATED
; SINCE THE MACRO USUALLY PICKS UP THE LOCATION AND PUTS IT IN N.
; HOWEVER IT IS RECOMENDED THAT N BE INCLUDED AS THE SECOND ARGUMENT
; TO INDICATE TO THE READER THAT A SUBSTITION IS GOING TO TAKE PLACE USING N.
; ELSE NEW CODE MAY BE INTRODUCED WHICH USES N BEFORE THE MACRO CALL.
; WHENEVER THE CHARACTER @ IS SEEN IT IS CONVERTED TO CRLF. THIS
; MAKES IT NICER FOR FORMATTING THE MESSAGES INSIDE <>, SINCE
; THE <CLOSE ANGLE> CAN ALWAYS BE ON THE SAME LINE, EVEN WHEN CRLF IS WANTED.
;EXAMPLE:
; ASKYN <LPT(Y,N)[LINE PRINTER AT STATION *]>,OSN
; FILOUT <MACRLP *@>,N
;ALL SUBROUTINES WHICH IMPLEMENT THE MACROS HAVE THE SAME CALLING
; SEQUENCE:
;CALL: MOVE LV,QUESTION LEVEL -1 FOR SHORT, 0 FOR PROMPT, 1 FOR LONG
; MOVE N,+NUMBER OR LEFT JUSTFIED SIXBIT TO BE
; ; SUBSTITUTED FOR *
; MOVEI T1,ADR OF ASCIZ MESSAGE
; PUSHJ P,ASKXXX OR FILXXX OR TTYXXX OR BTHXXX
; ALWAYS RETURN WITH ANSWER IN N( AND STRING IN ASCSTR) OR
; ORIGINAL CONTENTS OF N IF JUST OUTPUT ROUTINE.
;THE FGEN DIALOGUE MAKES USE OF AN AUXILIARY HELP FILE SYS:FGEN.HLP
;TO EXPLAIN THE USE OF FEATURE TEST SWITCHES AND TO INCLUDE COMMENTS
;IN THE OUTPUT FILE. THE FILE MUST BE IN THE FORM
;<TERMINATOR> <SWITCH> <TAB> <TEXT> <TERMINATOR>
;THE TERMINATOR IS DETERMINED BY SYMBOL C.TMFH AND IS CURRENTLY
;<CONTROL> A. IT MUST BE ONE CHARACTER.
;THE TEXT WILL BE COPIED FROM AFTER THE TAB TO THE NEXT TERMINATOR,
;SO IT SHOULD BE CONSTRUCTED CAREFULLY. NOTE PARTICULARLY THAT SINCE TO
;POSITION THE FILE THE CODE FIRST FINDS A TERMINATOR AND THEN READS TO
;A TERMINATOR IT WILL BE MORE EFFICIENT IF EACH SWITCH IS PRECEEDED BY
;TWO TERMINATORS.
;MACRO FHLPOS IS PROVIDED TO HELP POSITION THE HELP FILE.
; FHLPOS STRING,TAG POSITIONS THE FILE TO THE TEXT AFTER "STRING",
;AND TRANSFERS TO "TAG" IF THE STRING CANT BE FOUND. IF THE STRING
;HAS BEEN COMPUTED, IT SHOULD BE SIXBIT CHARACTERS LEFT JUSTIFIED IN
;ACCUMULATOR WD, AND THE FIRST ARGUMENT SHOULD BE *, E.G.
; FHLPOS *,ERROR
;FHLPOA IS THE SAME EXCEPT IT DOES NOT LOOK FOR A TAB AFTER THE TEXT
;SUBROUTINES HAVE BEEN PROVIDED TO COPY THE TEXT FROM THE HELP
;FILE TO THE OUTPUT FILE OR TTY.
;FHLPTT - COPIES TEXT FROM THE CURRENT POSITION OF THE HELP FILE TO
;THE NEXT TERMINATOR TO TTY
;FHLPFL - COPIES TEXT FROM THE CURRENT POSITION TO THE NEXT TERMINATOR
;TO THE OUTPUT FILE
;FHLPFC - COPIES TEXT FROM THE CURRENT POSITION TO THE NEXT TERMINATOR
;TO THE OUTPUT FILE AS A COMMENT, I.E. WITH A ; AT THE BEGINNING OF EACH LINE
;SOME CONVENTIONS:
;ALL SINGLE LINE ANSWERS ARE ANSWERED ON THE SAME LINE AS QUESTIONS.
; THIS SAVES PAPER. THE FORMAT IS QUESTION(WITHOUT QUESTION MARK)
; FOLLOWED BY COLON AND ONE SPACE.
;ONLY THE ASK MACROS ADD ANY CHARACTERS TO THE TEXT IN THE FIRST
; ARGUMENT. THE BEGINNING OF THE MESSAGE IS INSERTED AN "; " AS
; A COMMENT FOR THE FIL, AND ": " IS APPENDED TO THE END
; OF THE QUESTION SO THAT ALL QUESTIONS LOOK ALIKE. NONE OF THE
; OUTPUT ONLY MACROS ADD ANY SPECIAL CHARACTERS.
;BY CONVENTION PROMPTING IN () APPEARS BEFORE LONG DIALOG IN [].
; THUS A USER CAN TYPE ^O IF THE USER GETS BORED, AND GET THE MOST USEFUL
; OUTPUT FIRST.
;IF JUST A CR IS GIVEN TO A QUESTION WHICH HAS A LIST, THE FIRST
; ITEM IS ASSUMED. THIS IS TRUE FOR DECIMAL AND OCTAL QUESTIONS TOO.
;ALL NUMERIC QUESTIONS MUST HAVE A RANGE SUPPLIED.
; IF ONE IS NOT, THE USER GETS:
; ? INTERNAL MONGEN ERROR - NO (...,MIN-MAX) IN ABOVE QUESTION -
; EDIT MONGEN AND INCLUDE IN QUESTION.
;ALL ERRORS WHICH ARE MONGEN'S RATHER THAN THE CUSTOMER'S, ARE PRECEDED
; WITH ? INTERNAL MONGEN ERROR - FOLLOWED BY THE PROBLEM AND WHAT
; THE PROGRAMMER SHOULD DO TO FIX MONGEN. NOTE THAT
; THE CUSTOMER SHOULD NEVER SEE THESE, SINCE THEY ARE DEBUGGING AIDS.
;ALL ERROR MESSAGES START WITH "? ". THE SPACE FOLLOWING ? MAKES THEM
; DISTINGUISHABLE FROM MONITOR ERRORS WHICH HAVE NO SPACE.
;ALL STRINGS ARE ASCIZ INCLUDING AS INPUT FROM TTY.
; ALL EOL CHARS(CR,LF,FF,VT,ESC,ALT1,ALT2,^Z,^C) ARE STRIPPED OUT
; AND ARE REPLACED BY A NULL. THIS MAKES IT EASY TO SCAN STRINGS
; SINCE END IS ALWAYS DETECTED BY JUMPE CH,
; OUTPUT TO FILE MUST PUT CRLF BACK IN EXPLICITLY BY USING
; @ OR FCRLF ROUTINE. THIS MAKES OUTPUT FILE MORE INDEPENDENT FROM
; USER INPUT.
;TO HELP THE READER OF MONGEN:
; ALL JUMPS ARE DOWN THE PAGE, EXCEPT LOOPS
; MOST PUSHJ ARE TO ROUTINES DOWN THE PAGE
;DEFINE THE MACROS:
; THE FOLLOWING MACROS SUFFIX ": " TO ASK QUESTION
; AND GET ANSWER ON SAME LINE
DEFINE CAL (XXX,A,B,%C)<
XLIST ;;ALWAYS TURN OFF LISTING
IFNB <B>,<IFDIF <B> <N>,<MOVE N,B>> ;;PICK UP VALUE TO BE SUBSTITUTED FOR *
JSP T1,%C ;;SETUP T1 WITH MESSAGE ADR AND JUMP AROUND
;; MESSAGE WHICH MAY BE TOO BIG TO FIT
;; IN REMOTE LITERAL.
ASCIZ \A: \ ;;THE QUESTION WITH ": "
INTERN XXX ;;DECLARE INTERN SO MACRO WILL NOT THINK XXX A MACRO
%C:! PUSHJ P,XXX ;;CALL THE SUBROUTINE XXX
IFE RJRSTF,<LIST> ;;TURN LISTING BACK ON UNLESS INSIDE RJRST MACRO
>
DEFINE ASKYN (A,B)<
CAL ASKYN,<A>,B>
DEFINE ASKDEC (A,B)<
CAL ASKDEC,<A>,B>
DEFINE ASKOCT (A,B)<
CAL ASKOCT,<A>,B>
DEFINE ASKLIN (A,B)<
CAL ASKLIN,<A>,B>
DEFINE ASKSTR (A,B)<
CAL ASKSTR,<A>,B>
DEFINE ASKLST (A,B)<
CAL ASKLST,<A>,B>
;THE FOLLOWING MACROS DO NOT HAVE ANY CHARACTERS ADDED TO QUESTION
DEFINE CAL2 (XXX,A,B,%C)<
XLIST ;;ALWAYS TURN OFF LISTING
IFNB <B>,<IFDIF <B> <N>,<MOVE N,B>> ;;PICKUP VALUE TO BE SUBSTITUTED FOR *
JSP T1,%C ;;SETUP T1 WITH MESSAGE ADR AND JUMP AROUND
;; MESSAGE WHICH MAY BE TOO LONG FOR MACRO
;; REMOTE LITERAL TABLE(14 WORDS)
ASCIZ \A\ ;;THE QUESTION WITH NO ADDED CHARACTERS
INTERN XXX ;;DECLARE INTERN SO MACRO WILL NOT THINK XXX A MACRO
%C:! PUSHJ P,XXX ;;CALL THE SUBROUTINE TO JUST OUTPUT
IFE RJRSTF,<LIST> ;;TURN LISTING BACK ON UNLESS INSIDE RJRST MACRO
>
;OUTPUT IMMEDIATE VALUE
DEFINE CAL3 (XXX,A,B,%C)<
XLIST ;;ALWAYS TURN OFF LISTING
IFNB <B>,<IFDIF <B> <N>,<MOVEI N,B>> ;;PICKUP VALUE TO BE SUBSTITUTED FOR *
JSP T1,%C ;;SETUP T1 WITH MESSAGE ADR AND JUMP AROUND
;; MESSAGE WHICH MAY BE TOO LONG FOR MACRO
;; REMOTE LITERAL TABLE(14 WORDS)
ASCIZ \A\ ;;THE QUESTION WITH NO ADDED CHARACTERS
INTERN XXX ;;DECLARE INTERN SO MACRO WILL NOT THINK XXX A MACRO
%C:! PUSHJ P,XXX ;;CALL THE SUBROUTINE TO JUST OUTPUT
IFE RJRSTF,<LIST> ;;TURN LISTING BACK ON UNLESS INSIDE RJRST MACRO
>
DEFINE ASKMN (A,B)<
CAL2 ASKMN,<A>,B>
DEFINE ASKMNP (A,B)<
CAL2 ASKMNP,<A>,B>
DEFINE ASKTMN (A,B)<
CAL2 ASKTMN,<A>,B>
DEFINE BTHOUT (A,B)<
CAL2 BTHOUT,<A>,B>
DEFINE BTHOCT (A,B)<
CAL2 BTHOCT,<A>,B>
DEFINE FILOUT (A,B)<
CAL2 FILOUT,<A>,B>
DEFINE FILCPU (A,B)<
CAL2 FILCPU,<A>,B>
DEFINE FILCOM (A,B)<
CAL2 FILCOM,<A>,B>
DEFINE FILOUD (A,B)<
CAL3 FILOUT,<A>,B>
DEFINE TTYOUT (A,B)<
CAL2 TTYOUT,<A>,B
>
DEFINE TTYOCT (A,B)<
CAL2 TTYOCT,<A>,B>
DEFINE FILSTR (A,B)<
CAL2 FILSTR,<A>,B>
DEFINE FILDEC (A,B)<
CAL2 FILDEC,<A>,B>
DEFINE FILDC2 (A,B)<
CAL2 FILDC2,<A>,B>
DEFINE EREXIT (A,B)<
CAL2 EREXIT,<A>,B>
DEFINE FHLPOS (A,B)<
XLIST
IFB <A>,<PRINTX FHLPOS MACRO MAY CLOBBER WD>
IFB <B>,<PRINTX FHLPOS MACRO MAY CLOBBER WD>
IFDIF <A>,<*>,<
MOVE WD,[SIXBIT \A\]
>
INTERN FHLPOS
PUSHJ P,FHLPOS
JRST B
LIST
>
DEFINE FHLPOA (A,B)<
XLIST
IFB <A>,<PRINTX FHLPOA MACRO MAY CLOBBER WD>
IFB <B>,<PRINTX FHLPOA MACRO MAY CLOBBER WD>
IFDIF <A>,<*>,<
MOVE WD,[SIXBIT \A\]
>
INTERN FHLPOA
PUSHJ P,FHLPOA
JRST B
LIST
>
;DEFINE REMOTE MACROS WHICH ARE JUMPED TO ON UNUSUAL CASES
; INCLUDE CODE IN-LINE SO READABLE, BUT INDENT 2 TABS, JUST AS
; IF MULTI-LINE LITERAL.
;USED INSTEAD OF MULTI-LINE LITERAL BECAUSE MACRO LISTS
; SOURCE INSIDE OF MACROS INSIDE OF LITERALS
DEFINE RJRST (A,%B)<
XLIST ;;TURN OFF LISTING SOURCE IN EXPANSION
RJRSTF==1 ;;FLAG INSIDE OF RJRST, SO CAL MACRO
;; WILL NOT TURN LIST BACK ON
SKIPA ;;ALLOW MACRO IN ERROR RETURN OR AFTER TEST INSTR.
JRST %B ;;BY PASS UNUSUAL CODE
A ;;THE UNUSAL CODE
RJRSTF==0 ;;FLAG NO LONGER INSIDE RJRST MACRO
;; SO FUTURE CAL MACROS WILL TURN LIST ON
%B:! LIST ;;TURN LISTING BACK ON
>
DEFINE RJUMPE (AC,A,%B)<
XLIST
RJRSTF==1 ;;FLAG INSIDE OF RJRST, SO CAL MACRO
;; WILL NOT TURN LIST BACK ON
SKIPE AC ;;CONDITION OF UNUSUAL CODE?
JRST %B ;;NO, BY PASS UNUSUAL CODE
A ;;THE UNUSUAL CODE
RJRSTF==0 ;;FLAG NO LONGER INSIDE RJRST MACRO
;; SO FUTURE CAL MACROS WILL TURN LIST ON
%B:! LIST ;;TURN LISTING BACK ON
>
DEFINE RJUMPL (AC,A,%B)<
XLIST
RJRSTF==1 ;;FLAG INSIDE OF RJRST, SO CAL MACRO
;; WILL NOT TURN LIST BACK ON
SKIPL AC ;;CONDITION OF UNUSUAL CODE?
JRST %B ;;NO, BY PASS UNUSUAL CODE
A ;;THE UNUSUAL CODE
RJRSTF==0 ;;FLAG NO LONGER INSIDE RJRST MACRO
;; SO FUTURE CAL MACROS WILL TURN LIST ON
%B:! LIST
>
DEFINE RJUMPN (AC,A,%B)<
XLIST
RJRSTF==1 ;;FLAG INSIDE OF RJRST, SO CAL MACRO
;; WILL NOT TURN LIST BACK ON
SKIPN AC ;;CONDITION OF UNUSUAL CODE?
JRST %B ;;NO, BY PASS UNUSUAL CODE
A ;;THE UNUSUAL CODE
RJRSTF==0 ;;FLAG NO LONGER INSIDE RJRST MACRO
;; SO FUTURE CAL MACROS WILL TURN LIST ON
%B:! LIST
>
DEFINE RJUMPGE (AC,A,%B)<
XLIST
RJRSTF==1 ;;FLAG INSIDE OF RJRST, SO CAL MACRO
;; WILL NOT TURN LIST BACK ON
SKIPGE AC ;;CONDITION OF UNUSUAL CODE?
JRST %B ;;NO, BY PASS UNUSUAL CODE
A ;;THE UNUSUAL CODE
RJRSTF==0 ;;FLAG NO LONGER INSIDE RJRST MACRO
;; SO FUTURE CAL MACROS WILL TURN LIST ON
%B:! LIST
>
RJRSTF==0 ;START FLAG AT 0 MEANING NOT INSIDE RJRST
;PARAMETERS:
;ACS
F=0 ;FLAGS
;LH(DEFINED AS 36 BIT QUANTITIES):
F.MTCH==1B0 ;MATCH FOUND IN FNDASK ROUTINE
F.OFO==1B1 ;OUTPUT FILE OPEN. FILE CALLS IGNORED IF 0
; NEEDED SO ASK ROUTINES CAN BE USED TO ASK ABOUT FILE NAME
F.TF==1B2 ;TTY/FIL FLAG, 1 ON FIRST CHAR TO FILE
; USED FOR DEBUG FEATURE TO PRINT <> ON TTY
; SET BY TTYPUT ROUTINE, CLEARED BY FILPUT ROUTINE
F.CTY==1B3 ;CTY IS AN ACCEPTABLE OCTAL NUUMBER IF 1
; SET BY ASKLIN, CLEARED BY ASKDEC,ASKOCT,ASKNUM ROUTINES
F.FLF==1B4 ;LAST CHAR ON FILE WAS LINE FEED
; USED TO PRECEDE NEXT CHAR WITH ; TO MAKE A COMMENT IN FILE
; IF F.COM IS ALSO ON. SET, CLEARED AND LOOKED AT BY FILPUT ONLY
F.COM==1B5 ;MAKE ALL LINES TO FILE BE COMMENT IF THIS FLAG IS ON
; USES F.FLF TO KNOW WHEN TO PUT ; OUT
; SET AND CLEARED BY FILCOM AND TTYIN ROUTINES ONLY
; LOKED AB BY FILPUT ROUTINE
F.LPAR==1B6 ;LEFT PAREN SEEN BY TTYOUT IN TTY OUTPUT STREAM.
; USED TO SUPPRESS PROMPTING IF IN SHORT HELP MODE
; CLEARED WHEN RIGHT PAREN SEEN. SET, CLEARED,
; AND USED BY TTYOUT ROUTINE ONLY.
F.LBRK==1B7 ;LEFT BRACKET SEEN BY TTYOUT IN TTY OUTPUT STREAM
; YSED TO SUPPRESS EXPLANATION UNLESS IN LONG MODE
; SET, CLEARED AND TESTED BY TTYOUT ROUTINE ONLY
F.CONZ==1B8 ;CONTROL Z TYPED IN ON TTY, SET BY TTYGET
F.EXP==1B9 ;IN LSTEXP, SET IF EXPLAIN, CLEARED IF LIST
F.HOPN==1B10 ;SET IF FGEN EXPLAIN FILE IS OPEN FOR READING
F.HRRD==1B11 ;SET IF READING EXPLAIN FILE A SECOND TIME
; IF FILE WAS OPEN, MAY START SEARCHING PAST THE ENTRY DESIRED.
; AT END OF FILE, REREAD FROM THE BEGINNING ONCE.
F.2DEC==1B12 ;SET IF WANT AT LEAST TWO CHARS IN DECIMAL OUTPUT
F.FHLC==1B13 ;SET IF LOOKING FOR TAB AFTER TEXT IN FGEN HELP FILE
F.PER==1B14 ;SET IF A PERIOD, DOLLAR SIGN OR PERCENT CAN BE PART OF SYMBOL
; USED TO DISTINGUISH BETWEEN FILE NAMES AND SYMBOLS
F.INFO==1B15 ;SET BY ASKMNP TO INDICATE MORE INFO WILL FOLLOW M-N OR CTY
; RESET BY ASKMN TO INDICATE END OF STRING EXPECTED AFTER M,M-N, OR CTY
F.BANG==1B16 ;ALLOW THE INPUT LINE TO CONTAIN A "!" WITHOUT TAKING
; IT AS A COMMENT
;RH(F) BITS
F.1FH==1B35 ;1ST RC10 ON CPU
F.1RP==1B34 ;1ST RH10/RP04 ON CPU
F.1FS==1B33 ;1ST RH10/RS04 ON CPU
F.1DP==1B32 ;1ST RP10 ON CPU
F.1TX==1B31 ;1ST TX01 ON CPU
F.1T1==1B30 ;1ST TM10 ON CPU
F.1T2==1B29 ;1ST TM02 ON CPU
F.1D2==1B28 ;1ST DX20 ON CPU
F.1RN==1B27 ;1ST RH20/RP20 ON CPU
F.KONS==F.1FH+F.1RP+F.1FS+F.1DP+F.1TX+F.1T1+F.1T2+F.1D2+F.1RN
F.NORN==1B28 ;NO SUPPORT FOR RP20S
F.NOT2==1B29 ;NO SUPPORT FOR TM02/TM03
F.NOT7==1B30 ;NO SUPPORT FOR TM78
F.NOTD==1B31 ;NO SUPPORT FOR DX20 TAPES
F.NOTX==1B32 ;NO SUPPORT FOR DX10
F.NORA==1B33 ;NO SUPPORT FOR CI DISKS
N=1 ;NUMERIC VALUE OF ASKED QUESTION.
; ALSO USED TO SUBSTITUTE FOR * IN ALL STRINGS.
; CAN BE LEFT JUSTIFIED SIXBIT.
; YES ANSWERS ARE 1, NO ANSWERS ARE 0.
T1=2 ;TEMPORARY AC. USUALLY ADR OF ASCIZ MESSAGE ON SUB CALL.
T2=T1+1 ;FOR REMAINDER IN DIVISION
WD=4 ;WORD AC ON CALLS TO GETWRD(LEFT JUSTIFIED SIXBIT)
B=5 ;BYTE POINTER TO TEXT STRING
R=6 ;INPUT AND OUTPUT RADIX
LV=7 ;MODE OF ASKING QUESTIONS(-1=SHORT,0=PROMPT,1=LONG)
I=10 ;INDEX FOR LOOP COUNTS
CH=11 ;CHARACTER AC
I2=12 ;SECOND INDEX FOR LOOP COUNTS
I3=13 ;3RD INDEX FOR LOOP COUNTS
RH12=14 ;=0 FOR RH10, =1 FOR RH20
P1=15 ;"PERMANENT" ACS. THE SAVE ROUTINES DON'T EXIST,
P2=16 ; USE AT GEN LEVEL FOR LOOP VARIABLES, ETC.
P=17 ;PD POINTER
;SPECIAL ASCII CHARACTERS(NEVER CODE IN OCTAL SO CAN USE CREF):
C.RUB==177 ;RUBOUT
C.ALT1==175 ;OLD ALT MODES
C.ALT2==176 ;OLD ALT MODE ON SOME TTYS
C.ESC==33 ;MAP ALTS INTO ESCAPE
C.CONZ==32 ;CONTROL Z
C.FF==14 ;FORM FEED
C.CR==15 ;CARIAGE RETURN
C.LF==12 ;LINE FEED
C.CONC==3 ;CONTROL C
C.TMFH==1 ;CONTROL A IS TERMINATOR IN FGEN AUXILIARY HELP FILE
;STANDARD MAXIMUMS FOR QUESTIONS
SM.CPU==3 ;MAXIMUM NUMBER OF CPU'S
SU.CPU==6 ;MAX UNSUPPORTED CPUS
SM.DF==^D8 ;MAXIMUM NUMBER OF DF10 DATA CHANNELS
SM.RC==2 ;MAXIMUM NUMBER OF RC10S PER CHANNEL
SM.RP==3 ;MAXIMUM NUMBER OF RP10S PER CHANNEL
SM.KPC==10 ;MAXIMUM NUMBER OF KONTROLLERS PER CHANNEL
SM.JOB==777 ;MAXIMUM NUMBER OF JOBS SYSTEM MAY INCLUDE
SM.PI==7 ;MAXIMUM PI CHANNEL NUMBER
SM.AC==17 ;HIGHEST AC NUMBER FOR HIGHEST-AC-TO-SAVE
SM.RTD==^D77 ;MAXIMUM NUMBER OF REAL TIME DEVICES
SM.HPQ==^D15 ;MAXIMUM NUMBER OF HIGH PRIORITY QUEUES
SM.CDR==2 ;MAXIMUM NUMBER OF CDRS
SM.DTA==2 ;MAXIMUM NUMBER OF DTA CONTROLLERS
SM.LPT==3 ;MAXIMUM NUMBER OF LPTS
SM.PLT==2 ;MAXIMUM NUMBER OF PLOTTERS
SM.PTY==^D510 ;MAXIMUM NUMBER OF PTYS
SM.DL10==2 ;MAXIMUM NUMBER OF DL10'S
SM.CONN==^D512 ;MAXIMUM NUMBER OF CONNECTS
SM.RMCR==^D512 ;MAXIMUM NUMBER OF REMOTE TTY'S
SM.KDUP==^D2 ;MAXIMUM NUMBER OF DUP-11S ON A KMC-11
SM.DMRN==^D8 ;Maximum number of DMR11s on a 2020
SM.RXK==^D2 ;Maximum number of RX211 controllers on a 2020
SM.RXD==^D2 ;Maximum number of RX02 drives on an RX02
SM.TTG==^D8 ;MAXIMUM NUMBER OF TTY 8-LINE GROUPS
SM.68L==^D100 ;MAXIMUM NUMBER OF LINES ON DC68
SM.MPI==^D16384 ;MAXIMUM NUMBER OF PAGES SUPPORTED ON KL10
SM.XTC==4 ;MAXIMUM NUMBER OF DA28C CHANNELS
SM.D78==^D8 ;MAXIMUM NUMBER OF DAS78'S (IBM 360,370,2780 SUPPORT)
SM.D60==^D7 ;MAXIMUM NUMBER OF DN60'S (IBM BSC INTERFACES)
SM.XTC==4 ;MAXIMUM NUMBER OF DA28C CHANNELS
SM.DLP==2 ;MAXIMUM NUMBER OF LINE PRINTER ON 1091 FRONT END
SM.DCR==1 ;MAXIMUM NUMBER OF CARD READERS ON 1091 FRONT END
SM.LMC==^D100 ;MAXIMUM NUMBER OF SIMULTANEOUS LAT CIRCUITS
SM.LTT==^D512 ;MAXIMUM NUMBER OF LAT TERMINALS
;DEFAULT VALUES OUTPUT BY MONGEN, MOSTLY FOR OLD SYMBOLS
IFNDEF MD.PG,<MD.P6==0> ;NO PDP 6
IFNDEF MD.2RR,<MD.2RR==1> ;ALWAYS 2 RELOCATION REGISTERS
IFNDEF MD.SEG,<MD.SEG==0> ;ALWAYS NO EXTRA SEGMENTS
IFNDEF MD.DDT,<MD.DDT==1> ;ALWAYS LOAD EDDT
IFNDEF MD.MOV,<MD.MOV==0> ;NO MOVIE
IFNDEF MD.C10,<MD.C10==1> ;CDR IS ALWAYS CR10
IFNDEF MD.DTC,<MD.DTC==0> ;NO PDP 6 DECTAPE
IFNDEF MD.TMC,<MD.TMC==0> ;NO PDP 6 MAGTAPE
IFNDEF MD.TWJ,<MD.TWJ==0> ;STANDARD VALUE FOR TMPCOR PARAMETERS
IFNDEF MD.TLJ,<MD.TLJ==0> ;...
SUBTTL MACROS AND DEFINITIONS FOR MONGEN'S MONGEN DIALOG
;THE FOLLOWING MACRO DEFINES ALL OF THE UNSUPPPORTED QUESTIONS.
;THE ORDER OF ENTRIES IS NOT IMPORTANT TO MONGEN, BUT IT DOES EFFECT
;DOCUMENTATION/CONTROL FILES WHICH USE THE "ALL" MODE.
;TO ADD AN UNSUPPORTED FEATURE, ADD AN "FT" LINE BELOW, THEN USE
;SKPFTT FEATURE SKIP IF FT TRUE
;SKPFTF FEATURE SKIP IF FT FALSE
DEFINE UNSUPPORTED,<
XLIST
FT CD20,<CD20 Unibus card-readers>
FT CR10,<I/O bus card reader>
FT CP10,<I/O bus card punch>
FT CPUS,<More than supported number of CPUs>
FT CPUTYP,<Unsupported CPU types>
FT DA28,<DA28 Interprocessor link>
FT DAS78,<DAS78 IBM interface>
FT DMR,<DMR-11 synchronous line controller>
FT DN60,<IBM 2780/3780/HASP communications>
FT DC10,<DC10 data line scanner>
FT DC68,<680I PDP-8 based terminal concentrator>
FT DC72,<DC72 PDP-8 remote stations>
FT DC75,<DC75-NP network>
FT DC76,<DC76 Asynchronous Front End>
FT DIS,<VP series displays>
FT DN87,<DN87 DL10-based ANF front end>
FT DTA,<DECtapes>
FT DX10,<DX10 Tape controller>
FT EXTCHN,<External channels>
FT KASER,<KA Floating-point simulator>
FT METER,<Software performance meter>
IFL MP.MVN-^D704,<
FT MICGEN,<Make a .MIC/.CTL file of the session>
>
FT PLT,<Plotters>
FT PTP,<Paper-tape punch>
FT PTR,<Paper-tape reader>
FT RPLT,<ANF-10 remote plotters>
FT RPTP,<ANF-10 remote paper tape punches>
FT RPTR,<ANF-10 remote paper tape readers>
FT RTRXPW,<Control ROUTER's transmit password>
FT RC10,<RC10 controller for RD10 disk>
FT RX20,<RX20 Floppy disk controller for 2020>
FT TM10,<TM10 I/0 bus magtape controller>
LIST
>
;BUILD THE MONGEN SYMBOL TABLE. EACH ENTRY IS OF THE FORM
; $FEATURE: SIXBIT/FEATURE/
; XWD FLAGS,,STRING
;
;WHERE THE SIGN BIT OF FLAGS INDICATES WHETHER TO ASK THE QUESTION, AND
;STRING IS THE ADDRESS OF THE ASCIZ ASKYN STRING USED TO ASK IT.
DEFINE FT(DEVICE,STRING),<
$'DEVICE: EXP SIXBIT /DEVICE/
XWD 0,[ASCIZ ~'DEVICE'(Y,N)['STRING']: ~]
>
UNSTAB: UNSUPPORTED
UNSTBL==<.-UNSTAB>/2
;MACROS TO MAKE IT OBVIOUS WHEN WE FIDDLE WITH UNSUPPORTED STUFF
;
;SKIP IF FEATURE TEST TRUE
DEFINE SKPFTT(FTX),<SKIPL $'FTX+1>
;SKIP IF FEATURE TEST FALSE
DEFINE SKPFTF(FTX),<SKIPGE $'FTX+1>
IFNDEF MD.DCS,<MD.DCS==0> ;NO PDP 6 SCANNER
;BITS IN FEATURE TEST SWITCH TABLE
FS.VAL==1B0 ;CURRENT VALUE MUST BE SIGN BIT
ZZ==1 ;CURRENT BIT
FS.0==1B<ZZ> ;LEFT MOST BIT FOR CONFIGURATION FIELD
DEFINE FTSDEF(A),<
IRP A,<FS'A==1B<ZZ> ;ON IF DEFAULT ON FOR A
ZZ==ZZ+1
>>
FTSDEF <1070,1080,1090,1091,2020>
IFG ZZ-^D12,<PRINTX TOO MANY CONFIGURATIONS - MUST CHANGE FEATURE TEST TABLE>
;IO CHANNELS:
TTYCHN==0 ;TTY INPUT AND OUTPUT CHANNEL
FILCHN==1 ;FILE OUTPUT CHANNEL
FHLPCH==2 ;FGEN AUXILIARY HELP FILE CHANNEL
MICCHN==3 ;CHANNEL TO WRITE .MIC FILE ON
;IO STATUS BITS:
IO.EOF==20000 ;END OF FILE
;NUMBER OF I/O BUFFERS
NFILBF==2 ;NUMBER OF BUFFERS FOR FILE OUTPUT
NFHLPB==2 ;NUMBER OF BUFFERS FOR FGEN AUXILIARY HELP FILE
NMICBF==2 ;NUMBER OF BUFFERS FOR MIC FILE
;OPDEFS:
OPDEF PJRST [JRST] ;EQUIVALENT TO PUSHJ POPJ PAIR
OPDEF PJUMPE [JUMPE] ;EQUIVALENT TO JUMPE [PJRST]
OPDEF GETTAB [CALLI 41] ;READ MONITOR TABLE
OPDEF SAVE. [CALLI 210] ;SAVE. UUO
;UUOSYM SYMBOLS
.GTPRG==3 ;PROGRAM NAME
.GTRDV==135 ;DEVICE PROGRAM IS RUN FROM
.GTRDI==136 ;DIRECTORY PROGRAM IS RUN FROM
.GTRFN==137 ;FILE PROGRAM IS RUN FROM
.GTRS0==145 ;SFD PROGRAM IS RUN FROM
.PTPPN==2 ;PPN OF THE PATH
.PTSFD==3 ;BEGIN SFDS IN PATH BLOCK
.PTMAX==11 ;LENGTH OF PATH BLOCK
SUBTTL INITIALIZATION, AND DISPATCH TO PROPER GEN, CLOSE FILES
BEGINA: JFCL ;NOT CCL
;THERE ONCE WAS MISGUIDED CODE TO TRY AND DO THIS BUT ONCE.
;SAID CODE FORGOT THAT RESET CHANGED .JBFF TO LH(.JBSA).
;SAID CODE ISN'T NEEDED, AS WE USE GETTAB, NOT SAVGET ACS NOW.
HRROI T1,.GTRDV ;GET DEVICE WE RAN FROM
GETTAB T1,
SETZ T1, ;ERROR, ZERO THE AC
MOVEM T1,RUNDEV ;STORE
HRROI T1,.GTRDI ;GET THE PPN WE RAN FROM
GETTAB T1,
SETZ T1, ;ERROR. ZERO THE AC
MOVEM T1,RUNPPN ;STORE
MOVEM T1,RUNPTH+.PTPPN;STORE PPN IN PATH BLOCK TOO
MOVSI T2,-5 ;SET UP AOBJN FOR SFD GETTABS
BEGINB: HRROI T1,.GTRS0(T2) ;GET AN SFD NAME
GETTAB T1,
JRST BEGINC ;NO MORE SFD'S
JUMPE T1,BEGINC ;END OF SFD'S
MOVEM T1,RUNPTH+.PTSFD(T2) ;STORE THE SFD NAME IN THE PATH BLOCK
AOBJN T2,BEGINB ;GET NEXT SFD
BEGINC: SETZM RUNPTH+.PTSFD(T2);ZERO NEEDS TO TERMINATE THE PATH BLOCK
MOVEI T1,RUNPTH ;GET ADDRESS OF PATH BLOCK
SKIPE RUNPTH+.PTSFD ;ANY SFDS?
MOVEM T1,RUNPPN ;YES. POINT TO PATH BLOCK FOR LOOKUP
BEGIN0: RESET ;RESET IO DEVICES
SETOM INIFLG ;IN INITIALIZATION
MOVE P,[IOWD MP.PDL,PDLIST] ;INITIALIZE PD PTR
SETZM MICFLG ;NO MIC YET
IFL MP.MVN-^D704,<
SKPFTT MICGEN ;IS MICGEN ALLOWED?
JRST DUMGEN ;PLAY DUMB
>
MOVE LV,SAVLV ;PROMPT VALUE
SETZ F, ;INIT FLAGS
ASKYN <Write MONGEN.MIC(Y,N)[Y causes MONGEN to output a .MIC/.CTL
file which may be used to automate future runs of MONGEN]>
SETOM MICFLG ;ASSUME OK
SKIPN N ;SKIP IF NO (WHO WOULD SAY NO?)
SETZM MICFLG ;SPIDER WAS RIGHT, SOMEONE DID. SIGH.
DUMGEN: INIT MICCHN,1 ;MIC FILE
SIXBIT /DSK/
XWD MOBUF,0
SETZM MICFLG ;ERROR
MOVEI T1,3+1B18 ;NON-SUPER ENTER
SETZ T2, ;PPN
DMOVE T2+1,[SIXBIT /MONGENMIC/]
SKIPE MICFLG ;OK?
ENTER MICCHN,T1 ;OPEN FILE
HRRZM T1+3,MICFLG ;ERROR
SKIPL MICFLG ;SEE IF OK TO WRITE FILE
JRST BEGIN ;NOPE
PUSH P,.JBFF## ;SAVE JOBFF
MOVEI T1,MICBUF ;ADDR OF MIC BUFFERS
MOVEM T1,.JBFF ;SET UP JOBFF TO ALLOCATE OUR BUFFERS
OUTBUF MICCHN,NMICBF ;ALLOCATE BUFFERS
POP P,.JBFF## ;RESTORE JOBFF
MOVEI T1,[ASCIZ /.RUN /]
PUSHJ P,MICSTR
SKIPN T1,RUNDEV ;DEVICE
MOVSI T1,(SIXBIT/DSK/)
PUSHJ P,MICSIX ;SORTA-LIKE DEEP-SIX
MOVEI CH,":"
PUSHJ P,MICPUT
HRROI T1,.GTPRG ;FILE
GETTAB T1,
SETZ T1,
SKIPN T1
MOVE T1,[SIXBIT /MONGEN/]
PUSHJ P,MICSIX
SKIPN T1,RUNPTH+.PTPPN
JRST BG0.ND ;DONE
MOVEI R,10 ;OCTAL OUTPUT
HLRZ T1,T1 ;PROJ
MOVEI CH,"["
PUSHJ P,MICPUT
PUSHJ P,MICNUM
MOVEI CH,","
PUSHJ P,MICPUT
HRRZ T1,RUNPTH+.PTPPN;PROG
PUSHJ P,MICNUM
MOVSI N,-5
BG0.SF: SKIPN T1,RUNPTH+.PTSFD(N);ANY SFDS?
JRST BG0.ED ;NO, END DIRECTORY
MOVEI CH,","
PUSHJ P,MICPUT
PUSHJ P,MICSIX ;PRINT SFD NAME
AOBJN N,BG0.SF ;LOOP FOR ALL
BG0.ED: MOVEI CH,"]"
PUSHJ P,MICPUT
;NO DIRECTORY
BG0.ND: MOVEI T1,[ASCIZ /
;Write MONGEN.MIC(Y,N)
*Y
/]
PUSHJ P,MICSTR
BEGIN: MOVE P,[IOWD MP.PDL,PDLIST] ;RESET PD PTR, SINCE HERE ON IO ERRORS
; FROM ROUTINE DEEP IN STACK
SETZB F,VARBEG ;CLEAR ALL FLAGS AND VARIABLE AREA
; EXCEPT SAVLV WHERE VERBOSCITY
; LEVEL IS SAVED AND DEBUG AND HELPF
MOVE LV,SAVLV ;SETUP HELP LEVEL FOR NEXT QUESTION
; FROM LONG TERM VALUE(INITIALLY PROMPT)
; ^C START REMEMBERS LAST PERMANENT LEVEL
; SINCE SAVLV IS NOT CLEARED
MOVE T1,[XWD VARBEG,VARBEG+1]
BLT T1,VAREND ;CLEAR VARIABLE AREA
INIT TTYCHN,1 ;TTY IN LINE MODE
SIXBIT /TTY/
XWD TOBUF,TIBUF ;OUTPUT,INPUT BUFFER HEADERS
RJRST <EREXIT <Cannot INIT TTY>,,> ;TYPE ? INTERNAL ERR AND EXIT
SKIPL MICFLG ;MIC FILE OK?
PUSHJ P,[SKIPN INIFLG ;HAVE WE HAD A CHANCE TO COMPLAIN BEFORE?
POPJ P, ;YES, LET US NOT REPEAT OURSELF
SETZM INIFLG ;TTY IS OK BY NOW
TTYOUT <@% DSK:MONGEN.MIC will not be written@>
SKIPG N,MICFLG;SKIP IF ERROR CODE AVAIL
POPJ P, ;NOPE
SETZM MICFLG ;WE SAW IT, FLAG MEANS SOMETHING DIFFERENT NOW
CAIN N,4 ;IS THIS ERAEF%?
JRST [TTYOUT <% File DSK:MONGEN.MIC already exists@>
POPJ P,]
TTYOCT <% ENTER error * >
POPJ P,]
SETZM INIFLG ;TTY IS OK NOW
AOSLE HELPF ;ALREADY TOLD USER ABOUT HELP?
JRST BEGINR ;YES, SKIP THIS
MOVSI N,-UNSTBL ;POINT TO TABLE
SETZ N+1, ;CLEAR ACCUMULATED FLAGS
BEGINP: IOR N+1,UNSTAB+1(N) ;SEE IF THIS IS ON
AOJ N, ;2 WORD ENTRIES
AOBJN N,BEGINP ;LOOP ON
JUMPGE N+1,BEGINQ ;ALL IS WELL, JUST ASK FOR HELP
TTYOUT <@@ CAUTION@
This MONGEN includes dialog for UNSUPPORTED monitor options.
Digital may not support a monitor generated with such code enabled.@@>
BEGINQ: PUSHJ P,TTYHLP ;NO, ASK USER FOR LEVEL OF VERBOSITY WITH /HELP
BEGINR: TLZ F,(F.CONZ) ;CLEAR CONTROL Z TYPED FLAG
SKIPN N+1,RUNDEV ;SKIP IF DEVICE FROM WHICH MONGEN WAS RUN
MOVSI N+1,'DSK' ;SPECIFIED, ELSDE START WITH DSK
SETZB N,N+2 ;CLEAR MODE AND BUFFER HEADERS
MOVEM N+1,FGDEV ;STORE DEVICE IN CASE WINS
OPEN FILCHN,N ;OPEN DEVICE
JRST FNDF1 ;NO SUCH DEVICE?
MOVE N,FHNAME ;NAME OF FGEN HELP FILE
HLLZ N+1,FHNAME+1 ;AND EXT
MOVE N+3,RUNPPN ;PPN FROM WHICH MONGEN WAS RUN
MOVEM N+3,FGPPN ;SAVE IN CASE WINS
LOOKUP FILCHN,N ;SEE IF FOUND HELP FILE
JRST FNDF1 ;NO, TRY SYS
JRST FNDFOK ;FOUND OUR HELP FILE
FNDF1: MOVSI N+1,'SYS' ;TRY DEVICE SYS
MOVEM N+1,FGDEV
SETZB N,N+2
OPEN FILCHN,N ;OPEN SYS
JRST FNDF2 ;NO SYS?
MOVE N,FHNAME ;NAME OF HELP FILE
HLLZ N+1,FHNAME+1 ;AND EXT
SETZB N+3,FGPPN ;CLEAR PPN
LOOKUP FILCHN,N ;SEE IF FOUND HELP FILE
JRST FNDF2 ;NO, GIVE UP
JRST FNDFOK ;OK, USE SYS VERSION
FNDF2: SETZM FGDEV ;CLEAR DEVICE SO ALWAYS FAILS
TTYOUT <%Can't find FGEN.HLP@>
FNDFOK: ASKLST <Which GEN(HDW,NET,F,MUNGEN)[
HDW to define hardware configuration
NET to define network configuration
F to define software features
MUNGEN to include UNSUPPORTED questions in the other dialogs]>
TLNE F,(F.CONZ) ;DID USER TYPE CONTROL Z?
RJRST <SKIPN MICFLG ;MIC FILE OPEN?
EXIT ;NO
CLOSE MICCHN, ;SAVE MIC FILE
TTYOUT <@DSK:MONGEN.MIC written@>
EXIT> ;YES, EXIT TO MONITOR
MOVEM N,WCHGEN ;STORE WHICH GEN(0=HDW, 1=NET, 2=F, 3=MONGEN)
CAIN N,3 ;MONGEN?
JRST MUNGEN ;YES, DO MUNGEN STUFF
;LOOP TO ASK FOR FILE UNTIL SUCCESSFUL ENTER CAN BE DONE. SO INIT VARIABLES.
ASKFIL: MOVSI T1,(SIXBIT /DSK/) ;ASSUME DSK
MOVEM T1,OUTDEV ;IF USER DOES NOT SPECIFY DEVICE
MOVE N,WCHGEN ;THE GEN NUMBER(0-2)
MOVE N,FILTAB(N) ;DEFAULT FILE NAME FOR THIS GEN
; HDWCNF,NETCNF,F
HLLZM N,WCHNAM ;STORE NAME OF THIS GEN(NET,MON,F)
MOVEM N,OUTNAM ;ALSO SETUP DEFAULT FILE NAME FOR THIS GEN
MOVSI T1,(SIXBIT /MAC/) ;ASSUME EXTENSION OF MAC
MOVEM T1,OUTEXT ;FOR FILE EXTENSION
SETZM OUTDAT ;CLEAR DATE ARG
SETZM OUTPPN ;AND PROJECT,PROGRAMMER ARG
ASKSTR <Output(DSK:*.MAC)>,OUTNAM ;ASK FOR FILE SPEC
MOVEI WD,0 ;SET WORD VALUE TO 0 AS FLAG THAT NO SPEC
JUMPE CH,OPNDEV ;IF CHARACTER IS 0, JUST CR TYPED
PUSHJ P,GETWRD ;GO GET WHAT MAY BE DEV: OR FILENAME
CAIE CH,":" ;IS BREAK DEVICE SEPARATOR?
JRST OPNDEV ;NO, SAVE FILE NAME AND GO INIT DEVICE
MOVEM WD,OUTDEV ;YES, STORE USER SUPPLIED DEVICE NAME
PUSHJ P,GETWRD ;GET NEXT WORD USER TYPED(FILE NAME)
OPNDEV: INIT FILCHN,1 ;INIT FILE CHANNEL IN ASCII LINE MODE
OUTDEV: SIXBIT /DSK/ ;DEVICE NAME
XWD FOBUF,0 ;OUTPUT BUFER HEADER
RJRST <TTYOUT <? Device * not available@>,OUTDEV ;TYPE ERROR
JRST ASKFIL> ;GO ASK FOR FILE SPEC AGAIN
PUSH P,.JBFF## ;SAVE JOBFF
MOVEI T1,FILBUF ;ADDR OF FILE BUFFERS
MOVEM T1,.JBFF ;SET UP JOBFF TO ALLOCATE OUR BUFFERS
OUTBUF FILCHN,NFILBF ;ALLOCATE BUFFERS
POP P,.JBFF ;RESTORE JOBFF
JUMPE WD,OUTDV0 ;WAS NO FILE NAME TYPED?
MOVEM WD,OUTNAM ;STORE CUSTOMER SUPPLIED FILE NAME
OUTDV0: CAIE CH,"." ;NO, WELL BETTER BE EXTENSION NEXT
JRST OUTDV3 ;NO, GO CHECK FOR BRACKET FOR PPN
PUSHJ P,GETWRD ;GO GET EXTENSION
HLLM WD,OUTEXT ;AND STORE FOR ENTER
OUTDV3: JUMPE CH,OUTDV4 ;END OF LINE(CR=0)?
CAIE CH,"[" ;NO, BETTER BE LEFT BRACKET FOR PPN
OUTDV1: JRST FMTERR ;NO, INCREASE VERBOSITY LEVEL AND ASK AGAIN
PUSHJ P,GETOCT ;GET PROJ NUMBER
CAIE CH,"," ;IS BREAK COMMA?
JRST FMTERR ;NO, INCREASE VERBOSITY AND ASK AGAIN
HRLZM N,OUTPPN ;YES, STORE PROJECT NO.
PUSHJ P,GETOCT ;GET PROG NUMBER
JUMPE CH,OUTDV2 ;JUMP IF END OF LINE, END OF PPN
CAIE CH,"]" ;IS BREAK RIGHT BRACKET?
FMTERR: RJRST <TTYOUT <? Not DEV:FILE.EXT[P,PN]@>
AOJA LV,ASKFIL> ;INCREASE LEV AND ASK AGAIN
OUTDV2: HRRM N,OUTPPN ;STORE PROG NUMBER
JUMPE CH,OUTDV4 ;JUMP IF END OF LINE
PUSHJ P,GETWRD ;GET NEXT WORD
JUMPN WD,FMTERR ;BETTER NOT BE ANYTHING AFTER RIGHT BRACKET
JUMPN CH,FMTERR ;IS BREAK CR?
OUTDV4: MOVE N,OUTPPN ;GET PPN TYPED
MOVEM N,SAVPPN ;SAVE FOR LATER
ENTER FILCHN,OUTNAM ;TRY TO ENTER FILE ON DEVICE
RJRST <HRRZ N,OUTEXT ;ENTER ERROR CODE FOR *
TTYOCT <? Enter error *@>,N
JRST ASKFIL> ;ASK FOR FILE NAME AGAIN
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
TLO F,(F.OFO!F.PER) ;FLAG THAT OUTPUT FILE IS NOW OPEN
; SO FILPUT WONT BE A NO-OP
; AND ALLOW PERIODS IN SYMBOLS
MOVE T1,WCHGEN ;ENTER OK, GET WHICH GEN THIS IS
PUSHJ P,@GENTAB(T1) ;DISPATCH TO PROPER GEN
; HDWGEN, NETGEN, FGEN
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
; IN CASE USER TYPED /H<CR>
FILCOM <@END OF *>,OUTNAM
HLLZ N,OUTEXT ;EXTENSION OF FILE WRITTEN
FILCOM <.*@>,N
MOVEI CH,C.FF ;FORM FEED
PUSHJ P,FILPUT ;TO OUTPUT FILE
CLOSE FILCHN, ;CLOSE OUTPUT FILE
TLZ F,(F.OFO) ;FLAG THAT OUTPUT FILE IS NOT OPEN
; SO FILPUT WILL BE A NO-OP
STATZ FILCHN,740000 ;ANY ERRORS ON LAST BUFFER
;HERE ON ANY FILE ERRORS DURING EXECUTION
FILERR: RJRST <TTYOUT <? File * error>,OUTNAM
GETSTS FILCHN,N ;GET FILE STATUS FROM MONITOR
TLZ N,-1 ;MAKE SURE NO STUFF IN LH
TTYOCT <*@>;OUTPUT STATUS NUMBER AND CR
JRST .+1> ;CONTINUE
RELEASE FILCHN, ;RELEASE FILE CHANNEL
TTYOUT <File >
SKIPN N,OUTDEV ;SKIP IF DEVICE SPECIFIED
JRST CLTY1 ;NO, DONT TYPE DEVICE
TTYOUT <*:>,N
CLTY1: TTYOUT <*>,OUTNAM
HLLZ N,OUTEXT ;INCLUDE EXTENSION
TTYOUT <.*>,N
SKIPN N,SAVPPN ;SKIP IF PPN SPECIFIED
JRST CLTY2 ;NO, DONT TYPE PPN
PUSH P,LV ;SAVE CURRENT HELP LEVEL
MOVEI LV,1 ;ASSUME LONG SO PPN WILL PRINT
HLRZS N ;N=PROJECT
TTYOCT <[*,>,N
HRRZ N,SAVPPN ;N=PROGRAMMER
TTYOCT <*]>,N
POP P,LV ;RESTORE CURRENT HELP LEVEL
CLTY2: MOVE N,WCHGEN ;WHICH GEN RUN
HLLZ N,FILTAB(N) ;PICK UP NAME OF GEN
TTYOUT < Closed [*GEN finished]@@>,N ;ALSO WHICH GEN
JRST BEGIN ;GO BACK AND ASK FOR NEXT GEN
; KEEP SAME HELP LEVEL AND DO NOT ASK /HELP
SUBTTL MUNGEN - DIALOG TO DEFINE MONGEN FEATURES
COMMENT @
If thou art in haste, remember the words of Mablung the seer, and the
Paths of the Dead....
@
MUNGEN: TTYOUT <@@ CAUTION
The MONGEN dialog alters MONGEN so that it includes dialog for devices
not currently supported by Digital.
Digital may not support a monitor generated with such code enabled.@@>
MUNLUP: ASKLST <Mode(EXIT,ALL,INCLUDE,EXCLUDE,LIST)[
EXIT Exits the MUNGEN configuration dialog
ALL Asks about all known unsupported options
INCLUDE Allows you to include a list of unsupported options by name
EXCLUDE Allows you to exclude a list of unsupported options by name
LIST Allows you to list unsupported option status]>
PUSHJ P,@[EXP MUNXIT,MUNALL,MUNINC,MUNEXC,MUNLST](N)
JRST MUNLUP
;EXIT MUNGEN MODE
MUNXIT: POP P,(P) ;FIX STACK, NOT THAT IT MATTERS
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
SETOM HELPF ;MAKE SURE WE SAY WE'RE UNSUPPORTED
SETZM SAVLV ;RETURN TO 'PROMPT' MODE
MOVE T1,SAVBLK+1 ;GET OUR NEW NAME
SETNAM T1, ;Ummm
ASKYN <Save(Y,N)[
Do you want to save this configured MONGEN on DSK:MUNGEN.EXE for later use]>
IFL MP.MVN-^D704,<
JUMPN N,MUNXI0 ;JUMP IF SO
SKIPN MICFLG ;DON'T, IS MIC FILE ALREADY OPEN?
JRST BEGIN0 ;NO, WE MIGHT HAVE ENABLED THE QUESTION
JRST BEGIN ;YES, DON'T DESTROY IT
MUNXI0:>
IFGE MP.MVN-^D704,<
JUMPE N,BEGIN ;IF NOT, DON'T
>
MOVE LV,SAVLV
SETOM HELPF
SKIPN MICFLG ;MIC FILE OPEN?
JRST MUNXIS
CLOSE MICCHN, ;SAVE MIC FILE
TTYOUT <@DSK:MONGEN.MIC written@>
MUNXIS: MOVEI T1,SAVBLK ;POINT TO SAVE SPEC
SAVE. T1, ;SAVE OURSELF
HALT . ;SIGH
OUTSTR [ASCIZ /
[DSK:MUNGEN.EXE written]
/]
JRST BEGIN0 ;OFF WE GO.
SAVBLK: SIXBIT /DSK/
SIXBIT /MUNGEN/
SIXBIT /EXE/
EXP 0,0,0
;SET ALL MODE
MUNALL: MOVSI I,-UNSTBL ;LENGTH OF UNSUPPORTED TABLE
MUNALP: HRRZ T1,UNSTAB+1(I) ;GET ADDRESS OF STRING
PUSHJ P,ASKZYN ;ASK
SKIPN N ;YES?
SKIPA N,[ANDCAM T1,UNSTAB+1(I)] ;NO, CLEAR BIT
MOVE N,[IORM T1,UNSTAB+1(I)];YUP, ENABLE QUESTION
MOVSI T1,(1B0) ;SO
XCT N ;DO WHAT WE'RE TOLD
AOJ I, ;BI-WORDS
AOBJN I,MUNALP ;DO FOR ALL OPTIONS
MOVE LV,SAVLV ;RESTORE HELP LEVEL
POPJ P, ;RETURN
;INCLUDE MODE
MUNINC: MOVSI N,'* ' ;ALLOW WILDCARDS
ASKSTR <Options(Name,Name...or "*")[
Enter one or more option names to be included, delimited by commas.@]>
SETZ WD,
JUMPE CH,MNIEND ;ALL DONE
MNILP1: PUSHJ P,GETWRD ;READ OPTION NAME
JUMPN WD,MNILP2 ;LEGAL IF NON-ZERO
CAIE CH,"*" ;SEE IF WANT ALL
JRST MNIERR ;ERROR
ILDB CH,B ;GET NEXT CHAR
JUMPE CH,SETOPT ;CLEAR ALL OPTIONS
JRST MNIERR ;ERROR IF NOT EOL
MNILP2: PUSHJ P,FNDOPT ;FIND THIS OPTION
JRST MNIERR ;ERROR
MOVSI T1,(1B0) ;BIT
IORM T1,UNSTAB+1(I) ;SET IT FOR NAMED OPTION
CAIN CH,"," ;BREAK ON COMMA
JRST MNILP1 ;COMMA,GET ANOTHER
JUMPN CH,MNIERR ;IF NOT EOL, ERROR
MNIEND: JRST MNEEND ;COMMON EXIT
MNIERR: MOVE N,WD ;GET LAST WORD
TTYOUT <@? Unknown option name "*"@>
JRST MUNINC ;TRY AGAIN
;EXCLUDE MODE
MUNEXC: MOVSI N,'* ' ;ALLOW WILDCARDS
ASKSTR <Options(Name,Name...or "*")[
Enter a list of option names to be excluded, delimited by commas@]>
SETZ WD,
JUMPE CH,MNEEND ;ALL DONE
MNELP1: PUSHJ P,GETWRD ;READ OPTION NAME
JUMPN WD,MNELP2 ;LEGAL IF NON-ZERO
CAIE CH,"*" ;SEE IF WANT ALL
JRST MNEERR ;ERROR
ILDB CH,B ;GET NEXT CHAR
JUMPE CH,CLROPT ;CLEAR ALL OPTIONS
JRST MNEERR ;ERROR IF NOT EOL
MNELP2: PUSHJ P,FNDOPT ;FIND THIS OPTION
JRST MNEERR ;ERROR
MOVSI T1,(1B0) ;BIT
ANDCAM T1,UNSTAB+1(I) ;CLEAR IT FOR NAMED OPTION
CAIN CH,"," ;BREAK ON COMMA
JRST MNELP1 ;COMMA,GET ANOTHER
JUMPN CH,MNEERR ;IF NOT EOL, ERROR
JRST MNEEND ;COMMON EXIT
MNEERR: MOVE N,WD ;GET LAST WORD
TTYOUT <@? Unknown option name "*"@>
JRST MUNEXC ;TRY AGAIN
;HELPER ROUTINE TO FIND AN OPTION NAME BLOCK (WD) IN UNSTAB
;RETURNS OFFSET TO FIRST WORD OF ENTRY IN I
FNDOPT: MOVSI I,-UNSTBL ;TABLE LENGTH
FNDOPL: CAMN WD,UNSTAB(I) ;MATCH THIS ENTRY
JRST CPOPJ1 ;YES, RETURN I
AOJ I, ;BIWORDS
AOBJN I,FNDOPL ;LOOP
POPJ P, ;ERROR RETURN
;HELPER ROUTINES TO SET/CLEAR ALL OPTIONS
SETOPT: SKIPA WD,[IORM T1,UNSTAB+1(I)]
CLROPT: MOVE WD,[ANDCAM T1,UNSTAB+1(I)]
MOVSI I,-UNSTBL ;TABLE LENGTH
MOVSI T1,(1B0) ;BIT
OPTXXL: XCT WD ;SET/CLEAR
AOJ I, ;BIWORDS
AOBJN I,OPTXXL ;LOOP
MNEEND: MOVE LV,SAVLV
TTYOUT <@>
POPJ P, ;DONE
;LIST MODE
MUNLST: MOVSI I,-UNSTBL ;LENGTH OF TABLE
TTYOUT <
Option State Option State Option State@>
MUNLLP: MOVE N,UNSTAB(I) ;GET OPTION NAME
TTYOUT <* >
SKIPGE UNSTAB+1(I) ;SET?
JRST MUNLL1 ;YES
TTYOUT < Excluded>
JRST MUNLL2 ;NO
MUNLL1: MOVSI N,'* ' ;MAKE INCLUDED ENTRIES STICK OUT
TTYOUT <*Included>
MUNLL2: HRRZ N,I ;GET COLUMN
LSH N,-1 ;MAKE TABLE INDEX INTO ITEM INDEX
IDIVI N,3 ;COLUMNS
CAIE N+1,2 ;IF COL 3, NEW LINE
JRST [TTYOUT < >
JRST MUNLL3] ;0-1
TTYOUT <@>
MUNLL3: ADDI I,1 ;BIWORDS
AOBJN I,MUNLLP ;TRY ALL
IFN UNSTBL-<<UNSTBL/3>*3>,< ;IF LAST LINE NOT FULL, END IT
TTYOUT <@>
>
TTYOUT <@> ;BLANK LINE
MOVE LV,SAVLV
POPJ P,
SUBTTL FGEN - DIALOG TO DEFINE SOFTWARE FEATURES
FGEN: FILOUT <UNIVERSAL F - SOFTWARE FEATURE TEST FILE OUTPUT BY MONGEN DIALOG@@@>
MOVEI N,VERSION ;PUT MONGEN VERSION IN FILE FOR COMMON TO CHECK
FILOUT <INTERN [email protected]==*@XLIST@>,N ;OUTPUT TO FILE
;HERE TO FIND OUT WHAT TYPE OF SYSTEM
SKPFTT CPUTYP ;UNSUPPORTED CPUTYPES
JRST FGENCP ;NO, USE REGULAR QUESTION
ASKLST <Feature set(KIFULL,KLFULL,KSFULL)[
KIFULL Includes all Tops-10 features supported for KI10 based systems
KLFULL Same as KIFULL but for KL10 based systems
KSFULL Same as KIFULL but for KS10 based systems]>
JRST FGENCZ ;OK
FGENCP: ASKLST <Feature set(KLFULL,KSFULL)[
KLFULL Includes all Tops-10 features supported for KL10 based systems
KSFULL Same as KLFULL but for KS10 based systems]>
FGENCZ: PUSH P,.JBFF ;SAVE JOBFF SO WILL REUSE SPACE EVERY RERUN OF FGEN
;HERE TO READ HELP FILE AND ESTABLISH SWITCHES AND THEIR BEGINNING VALUES
PUSH P,ASKTAB(N) ;SAVE TYPE OF SYSTEM IN SIXBIT
MOVE T1,.JBFF ;FIRST AVAILABLE LOCATION FOR SWITCH TABLE
HRLI T1,T1 ;ALWAYS INDEXED BY T1
MOVEM T1,FTTAB ;STORE POINTER TO TABLE
;HERE TO FIND NEXT SWITCH IN FILE
FSETDF: HRRZ T1,.JBFF ;SWITCH TABLE ADDRESS
ADDI T1,MP.FTA ;ADD SIZE OF SWITCH TABLE
CAMG T1,.JBREL## ;IN BOUNDS?
JRST FSETD0 ;YES,PROCEED
CORE T1, ;NO, GET MORE CORE
RJRST <EREXIT <Insufficient user core@>,,>
FSETD0: FHLPOA FT,FTABEN ;POSITION FILE AT NEXT SWITCH
MOVE T1,[POINT 6,WD,11] ;BYTE POINTER TO BUILD SWITCH NAME
SETZ WD, ;START WITH FRESH AC
FSETD1: PUSHJ P,FHLPRC ;GET NEXT CHAR FROM FILE
JUMPE CH,FSETDN ;JUMP IF END OF FILE, END OF NAME
CAIN CH,"(" ;SKIP IF NOT END OF NAME
JRST FSETDN ;JUMP IF FOUND BEGINNING OF SYSTEMS FOR DEFAULT ON
CAIL CH,"A" ;SKIP IF NOT A LETTER
CAILE CH,"Z" ;SKIP IF A LETTER
SKIPA ;NOT A LETTER, SEE IF A NUMBER
JRST FSETD5 ;A LETTER IS PART OF A SWITCH
CAIL CH,"0" ;SKIP IF NOT A NUMBER EITHER
CAILE CH,"9" ;SKIP IF A NUMBER
SKIPA ;NOT EITHER, TRY SPECIAL CHARACTER
JRST FSETD5 ;A NUMBER IS PART OF A SWITCH
CAIE CH,"$" ;SKIP IF "$"
CAIN CH,"%" ;SKIP IF NOT "%"
JRST FSETD5 ;EITHER CHARACTER IS OK
CAIE CH,"." ;SKIP IF "."
JRST FSETD4 ;NOT A NUMBER,LETTER OR ($,%,.),ASSUME END
FSETD5: SUBI CH,"0"-'0' ;CONVERT TO SIXBIT
TLNE T1,770000 ;NO, MORE CHARS IN NAME, SKIP IF MORE THAN SIX
IDPB CH,T1 ;STORE CHAR IN NAME
JRST FSETD1 ;AND LOOP
FSETDN: MOVEM WD,@.JBFF ;STORE NAME IN SWITCH TABLE
FSETD2: PUSHJ P,GETWRF ;GET NEXT SYSTEM TYPE FOR WHICH SHOULD BE ON
CAMN WD,(P) ;SKIP IF NOT THIS TYPE OF SYSTEM
JRST FSETDO ;YES, TURN SWITCH ON
CAIE CH,")" ;SKIP IF END OF LIST OF SYSTEMS
JRST FSETD2 ;NO, SEE IF NEXT IS OUR TYPE
JRST FSETD3 ;YES, MUST BE OFF
;HERE IF SWITCH IS TO BE ON FOR THIS TYPE OF SYSTEM
FSETDO: MOVSI WD,400000 ;SET SIGN BIT FOR CURRENT VALUE
IORM WD,@.JBFF ;STORE IN TABLE
JRST FSETD3 ;MOVE TO NEXT SWITCH
FSETD4: MOVEM WD,@.JBFF ;STORE SWITCH NAME AND VALUE OFF
FSETD3: AOS .JBFF ;BUMP POINTER TO NEXT SWITCH
JRST FSETDF ;AND KEEP READING SWITCHES
;HERE WHEN NO MORE SWITCHES TO BE FOUND
FTABEN: MOVE T1,.JBFF ;END OF TABLE SO FAR
HRLI T1,N ;PLUS N FOR INDEXING TO ADD ENTRIES
MOVEM T1,FTADD ;STORE POINTER FOR ADDING ENTRIES
SETZM (T1) ;CLEAR EXTRA SPACE
HRRZI WD,1(T1)
HRL WD,T1 ;MAKE BLT PTR
BLT WD,MP.FTA-1(T1) ;CLEAR THE SPACE
MOVEI T1,MP.FTA(T1) ;SAVE SOME SPACE FOR ADDING
MOVEM T1,.JBFF ;AND STORE THE NEW JOBFF
HRRZ WD,FTTAB ;LOCATION OF BEGINNING OF TABLE
SUB WD,T1 ;MINUS LOC OF END+1=-LENGTH OF TABLE
MOVEM WD,FTLEN ;STORE MINUS LENGTH OF TABLE
POP P,(P) ;GET RID OF SYSTEM TYPE
;HERE TO ASK IF WANT STANDARD SETTING
ASKSTD: ASKLST <Standard setting(YES,NO,LIST,EXPLAIN)[
Standard values for all feature test switches for your configuration]>
JUMPE N,FNDSTD ;JUMP IF WANT STANDARD VALUES
TTYOUT <@Only standard settings have been tested by DEC
all other settings may produce incorrect operation. @@>
SOJE N,ASKFSD ;JUMP IF SAID NO
PUSHJ P,LSTEXP ;LIST OR EXPLAIN FEATURE TEST SWITCHES
JRST ASKSTD ;NOW ASK AGAIN ABOUT STANDARD SETTING
;HERE TO ASK FOR SWITCHES
ASKFSD: BTHOUT <Type "switch,value"(or LIST or EXPLAIN)[
For any feature test switch to define,
type "switch,value", value=0 for off or -1 for on, or
type LIST or EXPLAIN to list or explain switches.
Type one per line, extra carriage return when through.]@@>
FSDLOP: PUSHJ P,TTYIN ;GET NEXT LINE
JRST ASKFSD ;/HELP TYPED, ASK AT PROPER HELP LEVEL
JUMPE CH,FSDEND ;JUMP IF END OF LINE
PUSH P,B ;SAVE POSITION BEFORE SWITCH
PUSHJ P,GETWRD ;GET SWITCH NAME
POP P,T1 ;POSITION BEFORE READING SWITCH
HLRZ N,WD ;N=BEGINNING OF WORD
TRZ N,77 ;CLEAR OUT LOWER CHAR
CAIN N,'FT ' ;SKIP IF NOT "FT..."
JRST FSDLP0 ;YES, DO THIS SWITCH
MOVE B,T1 ;RESTORE BYTE POINTER TO BEFORE KEYWORD
MOVEI T1,[ASCIZ .(,LIST,EXPLAIN).] ;FIRST COMMA TO MAKE N COME OUT RIGHT
PUSHJ P,SETASK
PUSHJ P,FNDASK ;SEE IF LIST OR EXPLAIN
JRST ASKFSD
PUSHJ P,LSTEXP ;DO LIST OR EXPLAIN
JRST ASKFSD ;AND BEGIN ASKING AGAIN
FSDLP0: CAIE CH,"," ;SKIP IF FOLLOWED BY COMMA
JRST FSDERR ;JUMP IF IMPROPER FORMAT
TLZ WD,777700 ;CLEAR "FT"
JUMPE WD,FSDERR ;JUMP IF NO SWITCH NAME
PUSHJ P,FNDSWT ;FIND SWITCH IN TABLE, RETURN INDEX IN N
PUSH P,WD ;SAVE SWITCH NAME
PUSH P,T1 ;SAVE INDEX IN TABLE, EVEN IF NEW SWITCH
PUSHJ P,GETDEC ;GET VALUE
JUMPE CH,FSDLP2 ;JUMP IF END OF LINE FOUND
CAIE CH,"-" ;SKIP IF FOUND MINUS SIGN
JRST FSDERR ;NO, ILLEGAL FORMAT
PUSHJ P,GETDEC ;GET ACTUAL VALUE
JUMPN CH,FSDERR ;ERROR IF NOT END OF LINE NOW
FSDLP2: POP P,T1 ;RESTORE INDEX IN TABLE OF SWITCH
POP P,WD ;RESTORE SWITCH NAME IN CASE NEW
JUMPGE T1,FSDNEW ;JUMP IF NEW SWITCH
MOVSI T2,(FS.VAL) ;BIT FOR CURRENT VALUE
ANDCAM T2,@FTTAB ;TURN VALUE OFF
SKIPE N ;SKIP IF 0 SPECIFIED
IORM T2,@FTTAB ;NO, TURN VALUE ON
JRST FSDLOP ;LOOP FOR ALL SWITCHES USER TYPES
;HERE IF USER TYPED NEW SWITCH, MAKE SURE AND IF SO OUTPUT SWITCH DIRECTLY
FSDNEW: MOVSI T1,(FS.0) ;LEFT MOST DEFAULT BIT FOR SWITCH ENTRY
MOVN T2,CNFIND ;INDEX OF CONFIGURATION IN CNF TABLES
LSH T1,(T2) ;POSITION BIT FOR THIS CNF
TDO T1,WD ;ADD IN SWITCH NAME
SKIPE N ;SKIP IF SWITCH IS OFF
TLOA T1,(FS.VAL) ;SWITCH IS ON, SET VALUE BIT
TLZ T1,777700 ;SWITCH IS OFF, CLEAR VALUE AND DEFAULT
MOVE N,WD ;N=SWITCH NAME
TLO N,'FT ' ;ADD BACK "FT"
PUSH P,T1 ;SAVE NEW SWITCH ENTRY
ASKYN <%New switch *(Y,N)[if Y, keep switch, else ignore it]>
POP P,T1 ;RESTORE NEW SWITCH TABLE ENTRY
JUMPE N,ASKFSD ;JUMP IF IGNORE THE SWITCH
;HERE TO ADD SWITCH TO TABLE IF POSSIBLE
MOVSI N,-MP.FTA ;LENGTH OF EXTENDABLE TABLE
SKIPE @FTADD ;SKIP IF FOUND EMPTY PLACE
AOBJN N,.-1 ;NO, KEEP LOOKING
JUMPGE N,FSDFUL ;JUMP IF EXTENDABLE TABLE IS FULL
MOVEM T1,@FTADD ;STORE NEW SWITCH IN TABLE
JRST ASKFSD ;GO BACK FOR MORE
FSDFUL: FILSTR <XP *@>
JRST ASKFSD
FSDERR: TTYOUT <? Not "switch,value" or keyword@>
AOJA LV,ASKFSD ;ASK AGAIN WITH NEW HELP LEVEL
FSDEND: MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
ASKFSA: ASKYN <Set each switch(Y,N)[List each switch with its current value and ask for new value]>
JUMPE N,FSAEND ;JUMP IF NO
HRLZ T1,FTLEN ;AOBJN PTR TO SWITCHES
FSALOP: SKIPN N,@FTTAB ;N=SWITCH ENTRY
JRST FSAEN2 ;END OF TABLE
LSH N,^D12 ;N=SWITCH NAME
PUSH P,N ;SAVE NAME OF SWITCH IN CASE LOOP
PUSH P,T1 ;SAVE AOBJN PTR
FSALP0: MOVE N,-1(P) ;RESTORE NAME OF SWITCH IN CASE LOOPING
MOVE T1,(P) ;RESTORE AOBJN PTR IN CASE LOOPING
SKIPL @FTTAB ;SKIP IF SWITCH IS ON
JRST FSALP1 ;NO, ITS OFF
ASKLST <FT*,-1(ON,OFF,LIST,EXPLAIN,END)>
JRST FSATST
FSALP1: ASKLST <FT*,0(ON,OFF,LIST,EXPLAIN,END)>
FSATST: MOVE T1,(P) ;RESTORE AOBJN PTR
CAIN N,4 ;NO SKIP IF END TYPED
JRST FSAEN1 ;YES, DO NO MORE
SOJG N,FSALEX ;JUMP IF LIST OR EXPLAIN
MOVSI T2,(FS.VAL) ;VALUE BIT
ANDCAM T2,@FTTAB ;TURN VALUE OFF
CAIE N,0 ;SKIP IF OFF TYPED
IORM T2,@FTTAB ;TURN SWITCH ON
POP P,T1 ;RESTORE AOBJN PTR
POP P,N ;GET RID OF NAME ON STACK
FSAEN2: AOBJN T1,FSALOP ;LOOP FOR ALL SWITCHES IN TABLE
JRST FSAEND
FSAEN1: POP P,T1 ;RESTORE AOBJN PTR
POP P,N ;GET RID OF NAME ON STACK
FSAEND: JRST FNDSTD
FSALEX: PUSHJ P,LSTEXP ;DO LIST OR EXPLAIN
JRST FSALP0 ;AND REASK ABOUT THIS SWITCH
;HERE TO CREATE FGEN OUTPUT FILE
FNDSTD: FILOUT <@LIST@>
TLZ F,(F.HOPN) ;CLEAR OPEN FLAG, HEADER IS AT BEGINNING
;HERE TO POSITION FGEN HELP FILE AT HEADER
FHLPOS HEADER,FNDSTE
PUSHJ P,FHLPFL ;COPY HEADER TO OUTPUT FILE
JRST FNDST1 ;GO DO THE FILE
;HERE IF CANT FIND HEADER
FNDSTE: TTYOUT <% Can't find file header in help file@>
;HERE TO OUTPUT SWITCHES FROM TABLE
FNDST1: HRLZ T1,FTLEN ;AOBJN PTR TO SWITCH TABLE
STDOUT: SKIPN N,@FTTAB ;N=SWITCH ENTRY
JRST STDOUL ;IGNORE 0 ENTRIES
PUSH P,T1 ;SAVE AOBJN PTR
TLZ N,777700 ;CLEAR JUNK
TLO N,'FT ' ;AND MAKE FT...
PUSH P,N ;SAVE NAME OF SWITCH FOR COMMENT
MOVE N,(P) ;REMEMBER SWITCH NAME
FILOUT <XP *,>
MOVE T1,-1(P)
SKIPL @FTTAB ;SKIP IF SWITCH ON
JRST STDOU1 ;NO, ITS OFF
FILOUT <-1>
JRST STDOU2
STDOU1: FILOUT <0>
;HERE TO COPY TEXT FROM HELP FILE ABOUT THIS SWITCH
STDOU2: POP P,WD ;RESTORE NAME OF SWITCH TO SEARCH AUX FILE
FHLPOS *,STDOU3
PUSHJ P,FHLPFC ;OUTPUT TEXT AS COMMENT
STDOU3: FILOUT <@>
POP P,T1 ;RESTORE AOBJN PTR
STDOUL: AOBJN T1,STDOUT ;LOOP FOR ALL SWITCHES IN TABLE
FEND: FILOUT < IF2 <PURGE XP,XPL,XPP>@@ END>
POP P,.JBFF ;RESTORE ORIGINAL JOBFF
POPJ P,
SUBTTL HDWGEN - DIALOG TO DEFINE HARDWARE CONFIGURATION
HDWGEN: FILOUT <SUBTTL HDWCNF - HARDWARE CONFIGURATION DEFINITION FILE OUTPUT BY MONGEN@@@>
FILOUT <DEFINE XP(A,B),<A==:B>@@@>
MOVEI N,EDITNO ;MONGEN<=>COMMON "VERSION" NUMBER
FILOUT <XP M.GEN,*@>,N ;OUTPUT TO FILE
PUSHJ P,ASKSYS ;FIND OUT WHAT TYPE OF SYSTEM
FILOUT <XP M.KI10,*@>,M.P10I
FILOUT <XP M.KL10,*@>,M.KL10
FILOUT <XP M.KS10,*@>,M.KS10
FILOUT <XP M.1070,*@>,M.1070
FILOUT <XP M.1080,*@>,M.1080
FILOUT <XP M.1090,*@>,M.1090
FILOUT <XP M.1091,*@>,M.1091
FILOUT <XP M.2020,*@>,M.2020
SKIPN N,M.2020
SKIPE N,M.1091
JRST HDWGN1
MOVEI N,SM.CPU
SKPFTF CPUS ;UNSUPPORTED CPUS?
MOVEI N,SU.CPU ;YES, USE UNSUPPORTED NUMBER
ASKDEC <Cpu's(1,1-*)[Total number of cpu's in the system]>
HDWGN1: MOVEM N,M.CPU
FILOUT <XP M.CPU,*@>,M.CPU
ASKNAM: ASKSTR <System name[24 characters or less]>
CAILE N,^D24 ;24 OR LESS?
RJRST <TTYOUT <% More than 24 characters@>
JRST ASKNMA>
ASKNMA: MOVEI N,0 ;STORE 0 TO MAKE SURE ONLY 24 CHARS OUTPUT
DPB N,[POINT 7,ASCSTR+4,34]
MOVSI N,'* ' ;IN CASE "*" IS IN SYSNAM
FILSTR <DEFINE SYSNAM
< ASCIZ &*&>@>
ASKDAT: DATE T1, ;GET TODAYS DATE
IDIVI T1,^D12*^D31 ;YEAR + DAYS IN THIS YEAR
ADDI T1,^D64 ;1964 IS YEAR 0
PUSH P,T1 ;SAVE YEAR
MOVE T1,T2 ;NO. DAYS IN CURRENT YEAR
IDIVI T1,^D31 ;T1=MONTH-1, T2=DAY OF MONTH-1
PUSH P,T2 ;SAVE DAYS-1 OF MONTH
MOVEI N,1(T1) ;MONTH (1-12)
FILOUT <DEFINE SYSDAT> ;START MACRO DEFINITION IN FILE
PUSHJ P,FILLAB ;OUTPUT LEFT ANGLE BRACKET TO FILE, CRLF
FILDC2 <ASCIZ &*>,N ;OUTPUT MONTH
MOVEM N,M.MON ;SAVE FOR SYMBOL OUTPUT TOO
POP P,T1 ;DAYS-1 IN MONTH
MOVEI N,1(T1) ;DAY OF MONTH(1-31)
FILDC2 <-*>,N ;OUTPUT TO FILE
MOVEM N,M.DAY ;SAVE FOR SYMBOL OUTPUT TOO
POP P,N ;YEAR(64-99)
FILDC2 <-*&>,N ;OUTPUT TO FILE
MOVEM N,M.YEAR ;SAVE FOR SYMBOL OUTPUT TOO
PUSHJ P,FILRAB ;OUTPUT RIGHT ANGLE BRACKET,CRLF
FILOUT <XP M.MON,*@>,M.MON
FILOUT <XP M.DAY,*@>,M.DAY
FILOUT <XP M.YEAR,*@>,M.YEAR
ASKSER: SETZB I,CPU ;SET LOOP COUNTER TO 0
;LOOP TO ASK FOR SERIAL NUMBERS FOR ALL CPUS IN SYSTEM
ASKSLP: ASKDEC <CPU* serial #(1-10000)>,I ;ASK FOR CPUN
MOVEM N,M.C0SN(I) ;SAVE FOR CPU1 CHECK
SOJL I,ASKSN1 ;ANY PREVIOUS CPUS ALREADY ANSWERED?
;LOOP TO SCAN ALL PREVIOUS CPU SERIAL NUMBERS TO SEE IF THE SAME
ASKSN0: CAMN N,M.C0SN(I) ;SAME AS PREVIOUS SERIAL NUMBER?
RJRST <TTYOUT <? Cannot be same as CPU*@>,I
JRST ASKSER> ;ASK ALL CPUS OVER AGAIN
SOJGE I,ASKSN0 ;ANY MORE PREVIOUS CPUS?
ASKSN1: SETZM M.DN60 ;CLEAR COUNT OF DN60 DEVICES IN SYSTEM
MOVE I,CPU ;CPU NUMBER
;ASK FOR DEVICES ON THIS CPU IO BUS:
SETZ N, ;IN CASE THIS IS A KL10 OR KS10
SKIPN M.KS10 ;KS10 DOES NOT HAVE DK10'S
SKIPE M.KL10 ;KL10 DOES NOT HAVE DK10'S
JRST ASKSN2
ASKDEC <# DK10's on CPU*(1,0-2)[Real time clock]>,CPU
ASKSN2: MOVEM N,M.RT0(I) ;STORE ANSWER FOR THIS CPU
SKIPN N ;THIS CPU HAVE A DK10?
SETOM SCPUNR ;NO, FLAG SOME CPU AS NO REAL-TIME CLOCK
ADDM N,M.RTX ;ACCUM. TOTAL NO. OF DK10S FOR SYSTEM
AOS I,CPU ;INCREMENT CPU ITERATION COUNTER
CAMGE I,M.CPU ;DONE FOR ALL CPUS IN THIS SYSTEM?
JRST ASKSLP ;NO, GO BACK AND ASK FOR ANOTHER
FILOUT <XP M.C0SN,*@>,M.C0SN
FILOUT <XP M.C1SN,*@>,M.C1SN
FILOUT <XP M.C2SN,*@>,M.C2SN
FILOUT <XP M.C3SN,*@>,M.C3SN
FILOUT <XP M.C4SN,*@>,M.C4SN
FILOUT <XP M.C5SN,*@>,M.C5SN
FILOUT <XP M.RT0,*@>,M.RT0
FILOUT <XP M.RT1,*@>,M.RT1
FILOUT <XP M.RT2,*@>,M.RT2
FILOUT <XP M.RT3,*@>,M.RT3
FILOUT <XP M.RT4,*@>,M.RT4
FILOUT <XP M.RT5,*@>,M.RT5
FILOUT <XP M.RTX,*@>,M.RTX
SKPFTT CPUTYP ;UNSUPPORTED CPU TYPE?
JRST EXMZZ1 ;NO
ASKYN <Exclude monitor overhead from user run time(Y,N)[
Overhead is CPU time spent clock queue processing, command
decoding, swapping, and scheduling.
User run time always includes UUO execution and
unless EBOX/MBOX runtime accounting is selected
(KL10 systems only) includes IO interrupt service time.
On KI systems, each CPU must have a DK10]>
JRST EXMZZ2
EXMZZ1: ASKYN <Exclude monitor overhead from user run time(Y,N)[
Overhead is CPU time spent clock queue processing, command
decoding, swapping, and scheduling.
User run time always includes UUO execution and
unless EBOX/MBOX runtime accounting is selected
(KL10 systems only) includes IO interrupt service time.]>
EXMZZ2: FILOUT <XP M.RTCO,*@>,N
ASKEMT: SKIPN M.KL10 ;KL10 SYSTEM?
JRST NOEMRT ;NO, NO EBOX/MBOX TIME ACCOUNTING
ASKYN <EBOX/MBOX runtime accounting(Y,N)[
If EBOX/MBOX runtime accounting is selected in a KL10
based system, user runtime is computed using the KL10
internal accounting clocks]>
MOVEM N,M.EMRT ;SAVE FOR LATER
FILOUT <XP M.EMRT,*@>,M.EMRT
SKIPN M.EMRT
JRST NOEMR1 ;NO PI EXCLUSION EITHER
ASKYN <Exclude PI time from user runtime(Y,N)[
An answer of "yes" to this question will cause the monitor
to set up the KL10 accounting meters in such a manner that
users will not be charged for cpu time used during interrupts]>
MOVEM N,M.XPI ;SAVE
FILOUT <XP M.XPI,*@>,M.XPI
JRST ASKRTC ;NOW GO ASK ABOUT DK10'S
NOEMRT: FILOUT <XP M.EMRT,0@>
NOEMR1: FILOUT <XP M.XPI,0@>
ASKRTC: SKIPE M.RTX ;ANY DK10'S ON SYSTEM?
SKIPE M.KL10 ;SKIP IF NOT A KL10 SYSTEM
JRST OUTRTC ;NO, SKIP BUNCH OF QUESTIONS
SKIPE SCPUNR ;IS SOME CPU WITHOUT A DK10?
JRST ASKRCS ;YES, TOO BAD SKIP HIGH PREC QUESTION
ASKYN <High precision time accounting(Y,N)[Use DK10 clock for
10 micro-second time accounting]>
MOVEM N,M.RTCA
JUMPN N,OUTRC1 ;IF HIGH PRECISION NEED SERVICE ROUTINE
ASKRCS: ASKYN <DK10 software(Y,N)[Include real time clock service routine]>
OUTRC1: MOVEM N,M.RTC ;NON-ZERO IF NEED RTC CLOCK SERVICE
OUTRTC: FILOUT <XP M.RTCA,*@>,M.RTCA
FILOUT <XP M.RTC,*@>,M.RTC
ASKYN <Account verification(Y,N)[LOGIN and the batch system will
verify that the user has specified a valid account]>
FILOUT <XP M.ACV,*@>,N
MOVEI N,0 ;ASSUME NO MOS MEMORY SUPPORT
SKIPE M.KL10 ;A KL10?
SKIPE M.1080 ;YES, BUT NOT 1080'S
JRST MOSEND ;NO, CAN'T HAVE RECONFIGURABLE MOS
ASKYN <MOS memory(Y,N)[Include support for the user mode MOS memory diagnostic THGA
which collects statistics on single bit memory errors and substitutes the spare
bit when a single bit error is determined to be hard]>
MOSEND: FILOUT <XP M.MOS,*@>,N ;OUTPUT THE ANSWER
SKIPN N,M.KL10 ;A KL10?
JRST SCAEND ;NO, CAN'T HAVE SCA SUPPORT
ASKYN <SCA support(Y,N)[Load monitor modules needed to provide Systems
Communications Architecture support]>
SCAEND: MOVEM N,M.SCA ;SAVE FOR LATER QUESTION ABOUT RAXKON
FILOUT <XP M.SCA,*@>,N ;OUTPUT THE ANSWER
SETOM CPUN
SKIPE M.KS10 ;KS10 SYSTEM?
JRST ASKKSI ;YES--GO ASK ABOUT KS10 IO
SKPFTT EXTCHN ;EXTERNAL CHANNELS?
JRST DOAUT ;NO, DO AUTCON AUTOMATICALLY
;YES, ASK IF AUTCON
ASKYN <Auto-Configure(Y,N)[Automatically determine disk/tape configuration when
system starts. Can only be used for RH10, RH20, DX10 devices]>
JUMPE N,NOAUTO ;NO AUTO CONFIG IF 0
DOAUT: SKIPE M.1070
JRST AUTCN1 ;NO RP20S ON A KI
ASKYN <Include RNXKON(Y,N)[Support for RP20 disks]>
SKIPN N
AUTCN1: TRO F,F.NORN
SKIPE M.SCA ;SKIP IF SCA SUPPORT NOT INCLUDED
SKIPE M.1070
JRST AUTCN2 ;NO CI DISK ON A KI
ASKYN <Include RAXKON(Y,N)[Support for disks on the CI bus]>
SKIPN N ;ANY?
AUTCN2: TRO F,F.NORA ;NO
ASKYN <Include TM2KON(Y,N)[Support for TU16/TU45/TU77 tape drives]>
SKIPN N
TRO F,F.NOT2
SKPFTT DX10 ;SUPPORT DX10S
JRST TX1ZZ1 ;DON'T ASK
ASKYN <Include TX1KON(Y,N)[Support for DX10/TU7x tape drives]>
SKIPN N
TX1ZZ1: TRO F,F.NOTX
SKIPE M.1070
JRST [TRO F,F.NOTD!F.NOT7
JRST AUTDFS] ;NO DX20, TM78 ON A KI
ASKYN <Include TD2KON(Y,N)[Support for DX20/TU7x tape drives]>
SKIPN N
TRO F,F.NOTD
ASKYN <Include T78KON(Y,N)[Support for TU78 tape drives]>
SKIPN N
TRO F,F.NOT7
AUTDFS: AOS N,CPUN ;NEXT CPU
CAML N,M.CPU ;OVER THE TOP?
JRST AUTDF1 ;YES, FINISH UP
FILCPU <XP M.DPC,0@> ;NO. MAKE DEFINITIONS
FILCPU <XP M.FHD,0@>
FILCPU <XP M.FSD,0@>
FILCPU <XP M.MDF,0@>
SKIPE I,N ;FOR CPU0 SOME SYMBOLS ARE 1, 0 FOR OTHER CPUS
TDZA I,I
MOVEI I,1
FILCPU <XP M.RPX,*@>,I
FILCPU <XP M.TAPN,*@>,I
MOVE N,I ;COPY DIGIT TO N
TRNN F,F.NORN
SKIPE M.1070
SETZ N, ;NO RP20 ON A KI
FILCPU <XP M.RNX,*@>,N
MOVE N,I ;COPY DIGIT TO N
TRNN F,F.NORA ;WANT RAXKON?
SKIPE M.1070 ;AND NOT A KI?
SETZ N, ;NO CI DISKS ON A KI
FILCPU <XP M.RAX,*@>,N
JRST AUTDFS
AUTDF1: FILOUT <XP M.P0T,1@>
FILOUT <XP M.N0T,1@>
FILOUT <RP0==650@>
FILOUT <RN0==650@>
FILOUT <RA0==650@>
SETOM MKON ;SO WON'T ASK ABOUT 7-TRACK, 6250 TAPES
MOVEI I,1
MOVEM I,CHN ;SET UP TME NON-0 M.XXX SYMBOLS
MOVEM I,M.RHP4
TRNN F,F.NOT2
MOVEM I,M.T210
TRNN F,F.NOTX
MOVEM I,M.TX01
SKIPE M.1070
JRST CHNEND ;NO TM78, DX20 ON A KI
TRNN F,F.NORN
MOVEM I,M.RP20
TRNN F,F.NOT7
MOVEM I,M.T78
TRNN F,F.NOTD
MOVEM I,M.DX20
JRST CHNEND ;MAKE ALL THE M.XXX DEF'S
NOAUTO: AOSN N,CPUN
SETOM MKON ;MAGTAPE CONTROLLER NUMBER
SKIPGE MKON
SETOM MKONP
CAML N,M.CPU
JRST CHNEND
SKPFTT EXTCHN ;EXTERNAL CHANNELS
JRST CHNZZ1 ;NO
ASKDEC <# Data Channels on CPU*(2,0-?)[DF10s, DF10Cs, DX10s or RH20s for disk and tape]>
JRST CHNZZ2
CHNZZ1: ASKDEC <# Data Channels on CPU*(2,0-?)[DX10s or RH20s for disk and tape]>
CHNZZ2: FILCPU <XP M.CHN,*@>,N
JUMPE N,NOCHNS
MOVEM N,M.CHN ;SAVE FOR CHANNEL LOOP
SETZM CCHN
TRO F,F.KONS ;INDICATE 1ST OF EVERYTHING
;LOOP ONCE FOR EACH CHANNEL
CHNLOP: MOVEI N,3 ;ASSUME 1091, ONLY RH20'S
SKIPE M.1091 ;IS IT A 1091?
JRST CHNLP1 ;YES, ONLY RH20'S
MOVE N,CHN ;CHANNEL ITERATION COUNTER(0,1,...)
SKPFTT EXTCHN ;EXTERNAL CHANNELS?
JRST CHNZZ3 ;NO
ASKLST <Channel * Type (DF10,DF10C,DX10,RH20)>
JRST CHNLP1 ;SKIP
CHNZZ3: ASKLST <Channel * Type (DX10,RH20)>
ADDI N,2 ;ADJUST
CHNLP1: CAILE N,3 ;ADJUST FOR GAP IN NUMBERS CAUSED BY
ADDI N,1 ;RH11 CHN TYPE (SEE ASKKSI)
MOVEM N,CHNTYP
FILOUT <XP M.CH*T,>,CHN;OUTPUT CHANNEL TYPE
FILOUT <*@>,CHNTYP ;AND COMPLETE OUTPUT
FILOUT <XP M.*RH,0@>,CHN ;NO RH11'S IF WE'RE HERE
FILCPU <XP M.*RH,0@>,CHN ;...DITTO
MOVE N,CHN
BTHOUT <On channel # *:@>,CHN
MOVE N,CHNTYP ;TYPE OF CHANNEL
CAIN N,2 ;DX10?
JRST DXLOOP ;YES, ASK ABOUT DX10, TX01, TU70'S
MOVEI RH12,0 ;NO, ASSUME SOME FLAVOR FO RH10/DF10
CAIN N,3 ;IS IT AN RH20?
MOVEI RH12,1 ;YES
ADDM RH12,M.RH20 ;COUNT NO OF RH20S
ADDM RH12,RH20CP ;COUNT RH20S ON THIS CPU
FILOUT <XP M.*TX,0@>,CHN ;NO TX01S ON THIS CHL
FILCPU <XP M.*TX,0@>,CHN ;NO TX01S ON THIS CPU
SKIPE N,RH12 ;IF AN RH20,
SOJA N,NORD10 ; THERE AREN'T ANY RD10S
MOVEI N,0 ;NO RD10'S
SKPFTT RC10 ;RC10 SUPPORT?
JRST NORD10 ;NO
ASKDEC < # RC10s(0-2)[Controllers for RD10 Burroughs disks and
RM10B Bryant drums on channel *]>,CHN
NORD10: MOVE I,N ;SET UP ITERATION FOR THIS CONTROLLER
FILOUT <XP M.*FH,>,CHN ;FIRST PART OF CALL
FILOUT <*@>,I ;SECOND HALF
MOVE N,M.RC10
TRZE F,F.1FH ;IF 1ST KONTROLLER ON CPU
MOVEM N,FHCPUN ; SAVE NO ON PREVIOUS CPUS
JUMPE I,FHEND ;ANY CONTROLLERS AT ALL?
;LOOP FOR FH* ON THIS CHANNEL:
FHLOOP: FILOUT <XP M.FH*P,>,M.RC10 ;YES, DEFINE NO OF FHS ON PREVIOUS CPUS
FILOUT <*@>,FHCPUN
FILOUT <XP FH*CPU,>,M.RC10
FILOUT <*@>,CPUN
AOS N,M.RC10 ;INCREMENT NO. OF RC10 IN SYSTEM
ADDI N,'A'-1 ;MAKE SIXBIT LETTER
ROT N,-6 ;LEFT JUSTIFIED
ASKDEC < # Units on FH*(1-4)>,N
PUSH P,N ;SAVE NO. OF FH* UNIT ON THIS CONTROLLER
MOVE N,M.RC10 ;MAKE SIXBIT CONTROLLER LETTER AGAIN
ADDI N,'A'-1
ROT N,-6
FILOUT <XP M.FH*,>,N ;FIRST HALF
POP P,N ;RESTORE NO OF FH* UNITS ON THIS CONTROLLER
FILOUT <*@>,N
SOJG I,FHLOOP
FHEND: SKIPE N,RH12 ;IF AN RH20,
SOJA N,NORS04 ; THERE AREN'T ANY RS04S
ASKDEC < # RH10S for RS04'S(0-3)[Controllers for RS04 swapping
disks on channel *]>,CHN
NORS04: MOVE I,N
FILOUT <XP M.*FS,>,CHN
FILOUT <*@>,I
TRNE F,F.1FS ;1ST KONTROLLER ON CPU?
SETZM RSCPUN ;YES, CLEAR TOTAL RS04S ON CPU
JUMPE I,FSEND
;LOOP FOR FS* ON THIS CHANNEL:
FSLOOP: FILOUT <XP M.FS*F,>,M.RH1S
MOVEI N,1
TRZE F,F.1FS ;IF 1ST KONTROLLER
SETZ N, ;SET FS*F=0
FILOUT <*@>,N
FILOUT <XP FS*CPU,>,M.RH1S
FILOUT <*@>,CPUN
AOS N,M.RH1S ;INCREMENT NO. OF RH10 IN SYSTEM
AOS RSCPUN
ADDI N,'A'-1 ;MAKE SIXBIT LETTER
ROT N,-6 ;LEFT JUSTIFIED
ASKDEC < # Units on FS*(1-8)>,N
PUSH P,N ;SAVE NO. OF FS* UNIT ON THIS CONTROLLER
MOVE N,M.RH1S ;MAKE SIXBIT CONTROLLER LETTER AGAIN
ADDI N,'A'-1
ROT N,-6
FILOUT <XP M.FS*,>,N ;FIRST HALF
POP P,N ;RESTORE NO. OF FS* UNITS ON THIS CONTROLLER
FILCPU <*@>,N
SOJG I,FSLOOP
FSEND: JUMPN RH12,ASKRP2
ASKDEC < # RH10S for RP04'S,RP06'S(0-3)[Controllers for RP04,RP06
disk pack units on channel *]>,CHN
JRST ASKRP3
ASKRP2: ASKDEC < # RH20S for RP04'S,RP06'S,RP07'S(0-1)[Controllers for RP04,RP06,RP07
disk pack units on channel *]>,CHN
ASKRP3: MOVE I,N
FILOUT <XP M.*RP,>,CHN
FILOUT <*@>,I
MOVE N,M.RHP4
TRNE F,F.1RP
MOVEM N,RPCPUN ;RHP'S ON PREVIOUS CPU'S
JUMPE I,RPEND
;LOOP FOR RP* ON THIS CHANNEL
RPLOOP: FILOUT <XP M.P*F,>,M.RHP4
MOVEI N,1
TRZE F,F.1RP
SETZ N,
FILOUT <*@>,N
FILOUT <XP RP*CPU,>,M.RHP4
FILOUT <*@>,CPUN
AOS M.RH1P(RH12) ;INCR COUNT OF RH10S OR RH20S
AOS N,M.RHP4
ADDI N,'A'-1
ROT N,-6
PUSH P,N
ASKDEC < # Units on RP*(1-8)>,N
EXCH N,(P)
FILOUT <XP M.RP*,>,N
POP P,N
FILOUT <*@>,N
MOVE I2,M.RHP4
SUBI I2,1
FILOUT <XP M.P*T,>,I2 ;INDICATE TYPE
SKIPE N,RH12
MOVE N,rh20cp ;0 FOR RH10, CONTROL NUMBER FOR RH20
FILOUT <*@>,N
MOVE N,M.RHP4
SUBI N,1
FILOUT <XP M.RS*P,>,N ;NO OF RS04S PREVIOUS ON THIS CPU
FILOUT <*@>,RSCPUN
SOJG I,RPLOOP
RPEND: SKIPN N,RH12 ;RH20?
JRST ASKRN1 ;NO, NO RP20'S POSSIBLE
ASKDEC < # RH20S for RP20'S(0-1)[Controllers for RP20
disk units on channel *.]>,CHN
ASKRN1: MOVE I2,N ;SAVE VALUE IN I2
MOVE N,M.RP20 ;GET NUMBER OF RP20 "KONTROLLERS"
TRZE F,F.1RN ;FIRST ON THIS CPU?
MOVEM N,RNCPUN ;RP20'S ON PREVIOUS CPU'S
FILOUT <XP M.*RN,>,CHN ;OUTPUT NUMBER OF "KONTROLLERS" ON THIS
FILOUT <*@>,I2 ; CHANNEL
JUMPE I2,RNEND
MOVN I,I2 ;MAKE AN AOBJN POINTER
HRLZS I
;LOOP FOR RN* ON THIS CHANNEL
RNLOOP: FILOUT <XP RN*CPU,>,M.RP20
FILOUT <*@>,CPUN
AOS N,M.RP20
ADDI N,'A'-1
ROT N,-6
PUSH P,N
ASKDEC < # Units on RN*(1-16)>,N
EXCH N,(P)
FILOUT <XP M.RN*,>,N
POP P,N
FILOUT <*@>,N
MOVE I2,M.RP20
SUBI I2,1
FILOUT <XP M.N*T,>,I2 ;INDICATE TYPE
MOVE N,RH20CP ;CONTROL NUMBER FOR RH20
FILOUT <*@>,N
AOBJN I,RNLOOP
;NO CI DISKS IF NOT AUTO CONFIGURE
RNEND: SETZ N, ;GET A ZERO
FILOUT <XP M.*RA,>,CHN
FILOUT <*@>,N
SKIPE N,RH12
SOJA N,NORP10 ;NO RP10S IF RH20
ASKDEC < # RP10s(0-3)[Controllers for Memorex and ISS RP02 and RP03
disk pack units on channel *]>,CHN
NORP10: MOVE I,N ;SETUP ITERATION COUNT FOR RP FOR THIS CHANNEL
FILOUT <XP M.*DP,>,CHN ;OUTPUT FIRST HALF
FILOUT <*@>,I ;NO. OF CONTROLLERS ON THIS CHANNEL
MOVE N,M.RP10
TRZE F,F.1DP
MOVEM N,DPCPUN
JUMPE I,DPEND ;ANY RP10S AT ALL ON THIS CHANNEL?
;LOOP FOR RP10S ON THIS CHANNEL
DPLOOP: FILOUT <XP M.DP*P,>,M.RP10 ;NO OF RP10S ON PREVIOUS CPUS
FILOUT <*@>,DPCPUN
FILOUT <XP DP*CPU,>,M.RP10
FILOUT <*@>,CPUN
AOS N,M.RP10 ;INCREMENT NO. OF RP10S ON SYSTEM
ADDI N,'A'-1 ;FORM CONTROLER LETTER
ROT N,-6
ASKDEC < # Units on DP*(1-8)>,N
PUSH P,N ;SAVE NO. UNITS ON THIS CONTROLLER
MOVE N,M.RP10 ;NO. OF RP10S SO FAR
ADDI N,'A'-1 ;FORM CONTROLER LETTER
ROT N,-6 ;LEFT JUSTIFY
FILOUT <XP M.DP*,>,N
POP P,N ;RESTORE NO. UNITS ON THIS CONTROLLER
FILOUT <*@>,N ;AND OUTPUT
SOJG I,DPLOOP ;ANY MORE RP CONTROLLERS ON THIS CHANNEL?
DPEND: SKIPE N,RH12
SOJA N,NOT1B ;NO TM10B IF RH20
ASKDEC < # TM10Bs(0-2)[Tape Controller for NRZI only drives
on channel *]>,CHN
NOT1B: MOVE I,N ;SET UP ITERATION COUNTER
FILOUT <XP M.*TB,>,CHN ;FIRST PART OF CALL
FILOUT <*@>,I ;SECOND PART
MOVE N,M.TM10 ;TOTAL NO OF TM10S SO FAR
TRZE F,F.1T1 ;IF THIS IS THE 1ST TM10 ON CPU
MOVEM N,T1CPUN ;SAVE AS NO OF TM10S ON PREVIOUS CPUS
JUMPE I,TBEND ;ANY TM10B'S AT ALL?
;LOOP FOR TB* ON THIS CHANNEL
TBLOOP: AOS M.TM10 ;COUNT OF TM10'S ON SYSTEM
AOS N,MKON ;CONTROLLER #
FILOUT <XP M.MT*T,1@>,N ;MARK AS TM10B
FILOUT <XP M.T1*P,>,N
FILOUT <*@>,T1CPUN
PUSHJ P,TAPSUB ;DO TAPE CONTROLLER SUBR
SOJG I,TBLOOP
TBEND: SETZM TAPUN ;START AT UNIT 0 ON ANY CONTROLLER
SKIPN N,RH12 ;IF NOT AN RH20,
JRST NODX20 ;CAN'T HAVE ANY DX20'S
ASKDEC < # RH20's for DX20's (0-1)[Mass-bus tape controller for
DX20's on channel *]>,CHN
NODX20: MOVE I,N ;SAVE COUNT
FILOUT <XP M.*D2,>,CHN ;OUTPUT FIRST PART
FILOUT <*@>,I ;PLUS NUMBER OF RH20/DX20'S ON THIS CHN
TRZE F,F.1D2 ;1ST DX20 ON THIS CPU?
SETZM D2RH20 ;YES, CLEAR COUNT
JUMPE I,D2END ;GO IF NONE
MOVEI N,1 ;WE ONLY OFFICIALLY SUPPORT 1 DX20/RH20
JRST ONEDX2 ;SO SKIP THE QUESTION FOR NOW
MOVE N,RH20CP ;GET NUMBER OF RH20'S
SUBI N,1 ;MAKE IT THE RH20 NUMBER
ASKDEC < # DX20's on RH20 * (1-8)[Programmed Device Adapters
driving up to 8 TU7x tape drives through a TX02 Tape Control Unit]>,N
ONEDX2: MOVE I2,N ;SAVE COUNT OF DX20'S ON THIS RH20
D2LOOP: AOS I2,MKON ;BUMP CONTROLLER NUMBER
FILOUT <XP M.D2*T,>,I2 ;MAKE M.D2?T BE THE RH20 NUMBER
SOSN I2,RH20CP ;IF ON 1ST RH20 ON CPU,
MOVEI I2,10 ;MAKE IT 10
AOS RH20CP ;BACK TO WHERE IT STARTED
FILOUT <*@>,I2 ;RH20 NUMBER FOR THIS CONTROLLER
FILOUT <XP M.MT*T,6@>,MKON ;CONTROLLER TYPE IS RH20/DX20/TX02
FILOUT <XP M.MT*C,>,MKON ;OUTPUT FIRST PART
FILOUT <*@>,CHN ; PLUS CHN # FOR THIS CONTROLLER
FILOUT <XP M.MT*P,>,MKON ;OUTPUT FIRST PART
FILOUT <*@>,CPUN ;PLUS CPU NUMBER CONTROLLER IS ON
FILOUT <XP M.MT*U,>,MKON ;MAKE M.MT?U EQUAL RH20 UNIT NUMBER
FILOUT <*@>,TAPUN ; OUTPUT SECOND PART
AOS TAPUN ;BUMP UNIT NUMBER FOR NEXT TAPE
AOS M.DX20 ;BUMP COUNT OF DX20 "KONTROLLERS"
MOVE N,D2RH20 ;GET DX20 NUMBER
ASKDEC < # Units on DX20 * (1-8)>,N
MOVE I2,N
AOS D2RH20 ;BUMP COUNT OF DX20'S ON THIS CPU
FILOUT <XP M.MT*,>,MKON;OUTPUT TOTAL NUMBER OF DRIVES ON
FILOUT <*@>,I2 ; THIS CONTROLLER
SOJG I,D2LOOP ;LOOP FOR ALL DX20 UNITS ON THIS RH
D2END: JUMPN RH12,ASKT22
ASKDEC < # RH10's for TM02'S (0-2)[Mass-Bus tape controller for
TU16's and TU45's on channel *]>,CHN
JRST ASKT23
ASKT22: ASKDEC < # RH20's for TM02'S (0-1)[Mass-Bus tape controller for
TU16's and TU45's on channel *]>,CHN
ASKT23: MOVE I,N ;CHAN
FILOUT <XP M.*T2,>,CHN
FILOUT <*@>,I ;OUTPUT NUMBER OF RH'S
TRZe F,F.1T2 ;1ST TMO2 ON CPU?
SETZM T2RH10
ASKT2X: JUMPE I,T2END ;GO IF NONE
MOVE N,M.T210
JUMPN RH12,T2LP1
ASKDEC < How many TM02's on RH10 # * (1-8)[EACH UNIT CAN CONTROL
UP TO 8 SUB-UNITS = TAPE DRIVES]>,N
JRST T2LP2
T2LP1: ASKDEC < How many TM02's on RH20 # * (1-8)[EACH UNIT CAN CONTROL
UP TO 8 SUB-UNITS = TAPE DRIVES]>,N
T2LP2: MOVE I3,N
SETZ I,
T2LOOP: MOVE I2,MKON ;MAKE M.T2?T = 0 IF RH10
ADDI I2,1 ; OR = RH20 # IF AN RH20
FILOUT <XP M.T2*T,>,I2
JUMPN RH12,ASKT2Y
MOVE I2,M.RH1S ;NO OF RS04S
ADD I2,M.RH1P ;+RH10/RP04S
ADD I2,T2RH10 ;+RH10/TM02S
SUB I2,T2RH1P ;-NO OF RH10S ON PREVIOUS CPUS
FILOUT <-*@>,I2
JRST T2LP3
ASKT2Y: SOSN I2,RH20CP ;IF ON 1ST RH20 ON CPU,
MOVEI I2,10 ; MAKE IT 10
AOS RH20CP
FILOUT <*@>,I2
T2LP3: AOS M.T210
AOS N,MKON
FILOUT <XP M.MT*T,4@>,N
FILOUT <XP M.MT*C,>,MKON
FILOUT <*@>,CHN
FILOUT <XP M.MT*P,>,MKON ;OUTPUT CPU NUMBER
FILOUT <*@>,CPUN
FILOUT <XP M.MT*U,>,MKON ;MAKE M.MT?U EQUAL RH20 UNIT NUMBER
FILOUT <*@>,TAPUN ; OUTPUT SECOND PART
AOS TAPUN ;BUMP UNIT NUMBER FOR NEXT TAPE
ASKDEC <How many drives on TM02 * (1-8)>,I
MOVE I2,N
ADDI I,1
FILOUT <XP M.MT*,>,MKON
FILOUT <*@>,I2
SOJG I3,T2LOOP
AOS T2RH10
T2END::
SKIPN N,RH12
JRST NOTT78
ASKDEC < # RH20's for TM78'S (0-1)[Mass-Bus tape controller for
TU78's on channel *]>,CHN
NOTT78: MOVE I,N ;CHAN
FILOUT <XP M.*T7,>,CHN
FILOUT <*@>,I ;OUTPUT NUMBER OF RH'S
JUMPE I,DXEND ;GO IF NONE
MOVE N,M.T78
ASKDEC < How many TM78's on RH20 # * (1-8)[Each unit can control
up to 8 sub-units = tape drives]>,N
SETZ I,
MOVE I3,N
T7LOOP: MOVE I2,MKON ;MAKE M.T7?T = RH20 NUMBER
ADDI I2,1
FILOUT <XP M.T7*T,>,I2
SOSN I2,RH20CP ;IF ON 1ST RH20 ON CPU,
MOVEI I2,10 ; MAKE IT 10
AOS RH20CP
FILOUT <*@>,I2
AOS M.T78
AOS N,MKON
FILOUT <XP M.MT*T,7@>,N
FILOUT <XP M.MT*C,>,MKON
FILOUT <*@>,CHN
FILOUT <XP M.MT*N,>,MKON
FILOUT <*@>,I
FILOUT <XP M.MT*P,>,MKON ;OUTPUT CPU NUMBER
FILOUT <*@>,CPUN
FILOUT <XP M.MT*U,>,MKON ;MAKE M.MT?U EQUAL RH20 UNIT NUMBER
FILOUT <*@>,TAPUN ; OUTPUT SECOND PART
AOS TAPUN ;BUMP UNIT NUMBER FOR NEXT TAPE
ASKDEC <How many drives on TM78 * (1-4)>,I
MOVE I2,N
ADDI I,1
FILOUT <XP M.MT*,>,MKON
FILOUT <*@>,I2
SOJG I3,T7LOOP
T7END: JRST DXEND
;ROUTINE TO ASK FOR # OF UNITS ON EACH KONTROLLER
TAPSUB: FILOUT <XP M.MT*C,>,MKON ;CHL NUMBER
FILOUT <*@>,CHN
TAPSB0: FILOUT <XP M.MT*P,>,MKON
FILOUT <*@>,CPUN
FILOUT <XP M.MT*U,400000@>,MKON ;MAKE M.MT?U NEG FOR NON-TM02, TM78, DX20 TAPES
MOVE N,MKON ;GET KONROLLER #
ADDI N,'A' ;MAKE INTO SIXBITCH
ROT N,-6
ASKDEC < # Units on MT*(1-8)>,N
PUSH P,N ;SAVE ANSWER
FILOUT <XP M.MT*,>,MKON ;NUMBER OF UNITS
MOVE N,(P)
FILOUT <*@>,N ;ON EACH KONTROLLER
POP P,N
POPJ P, ;RETURN
DXLOOP: ASKDEC < # Controllers(0-1)[TX01's or TX02's for TU70 Tape Drives on channel *]>,CHN
MOVE I,N
FILOUT <XP M.*FH,0@>,CHN ;NO FH,DP,FS,TB,TC
FILOUT <XP M.*DP,0@>,CHN
FILOUT <XP M.*RP,0@>,CHN
FILOUT <XP M.*RN,0@>,CHN
FILOUT <XP M.*FS,0@>,CHN
FILOUT <XP M.*TB,0@>,CHN
FILOUT <XP M.*TC,0@>,CHN
FILOUT <XP M.*T2,0@>,CHN
FILOUT <XP M.*D2,0@>,CHN
FILOUT <XP M.*TX,>,CHN ;OUTPUT FIRST PART OF CALL
FILOUT <*@>,I ;SECOND PART
MOVE N,M.TX01
TRZE F,F.1TX
MOVEM N,TXCPUN ;NO OF TX10S ON PREVIOUS CPUS
JUMPE I,DXEND
TXLOOP: AOS M.TX01 ;INCREMENT NUMBER OF TX01'S ON SYSTEM
AOS N,MKON ;INCR KONTROLLER ID
FILOUT <XP M.MT*T,3@>,N ;MARK AS TX01
FILOUT <XP M.TX*P,>,N
FILOUT <*@>,TXCPUN
PUSHJ P,TAPSUB ;ASK FOR UNITS
SOJG I,TXLOOP
DXEND: AOS N,CCHN ;INCREMENT CHANNEL LOOP COUNTER
AOS CHN
CAMGE N,M.CHN ;FINISHED WITH ALL CHANNELS?
JRST CHNLOP ;NO, ASK FOR CONTRLLERS ON THIS CHANNEL
SKIPE M.1091
JRST TAEND
SKPFTT TM10 ;TM10S
JRST TAEND ;NO
ASKDEC < # TM10As on CPU*(0,0-2)[I/O Bus type Controller for NRZI only drives]>,CPUN
MOVE I,N ;SET UP ITERATION COUNTER
JUMPE I,TAEND ;ANY TM10A'S AT ALL?
TALOOP: AOS M.TM10 ;COUNT OF TM10'S ON SYSTEM
AOS N,MKON ;INCR KONTROLLER ID
FILOUT <XP M.MT*T,0@>,N ;MARK AS TM10A
FILOUT <XP M.T1*P,>,N
FILOUT <*@>,T1CPUN
PUSHJ P,TAPSB0 ;GET UNIT INFO
SOJG I,TALOOP
TAEND: MOVE N,M.RC10 ;NO OF FHD'S
SUB N,FHCPUN ;- NO ON PREVIOUS CPU'S
FILCPU <XP M.FHD,*@>,N ;=NO OF FHD'S ON THIS CPU
FILCPU <XP M.FSD,*@>,RSCPUN ;NO OF FSD'S ON THIS CPU
MOVE N,M.RHP4
SUB N,RPCPUN
FILCPU <XP M.RPX,*@>,N ;NO OF RP04/6 ON THIS CPU
MOVE N,M.RP10
SUB N,DPCPUN
FILCPU <XP M.DPC,*@>,N ;NO OF RP10'S ON THIS CPU
MOVE N,M.RP20
SUB N,RNCPUN
FILCPU <XP M.RNX,*@>,N ;NO OF RP20'S ON THIS CPU
FILCPU <XP M.RAX,*@>,[0] ;NO CI DISKS
FILCPU <XP M.MDF,*@>,[0] ;NO MOBY DISKS
MOVE N,MKON ;NO. OF TAPE CONTROLS ON ALL CPUS
SUB N,MKONP ;NO. ON THIS CPU
FILCPU <XP M.TAPN,*@>,N
MOVE N,MKON
MOVEM N,MKONP
MOVE N,M.RH1S
ADD N,M.RH1P ;TOTAL # RH10S SEEN SO FAR
MOVEM N,T2RH1P ;SAVE
SETZM RH20CP
JRST NOAUTO
NOCHNS: FILCPU <XP M.FHD,0@>
FILCPU <XP M.FSD,0@>
FILCPU <XP M.RPX,0@>
FILCPU <XP M.RNX,0@>
FILCPU <XP M.RAX,0@>
FILCPU <XP M.DPC,0@>
FILCPU <XP M.MDF,0@>
FILCPU <XP M.TAPN,0@>
JRST NOAUTO
ASKKSI: SETZM CHN ;START AT CHANNEL 0
AOS CPUN ;COUNT CPU NUMBER
SETOM MKON ;INIT THIS GUY
ASKDEC <Disk drives(1,1-8)[Total number of RP06's and/or RM03's
on your system]>,N
PUSH P,N ;SAVE N
FILOUT <XP M.CH*T,4@>,CHN ;CHANNEL TYPE 4
FILOUT <XP M.*RH,1@>,CHN ;DISK RH11 ON FIRST CHANNEL
FILOUT <XP RH0CPU,*@>,CPUN ;CPU THIS RH ATTACHED TO
FILCPU <XP M.RHX,1@>,CHN ;NO. DISK RH11'S THIS CPU
FILOUT <XP M.*TR,0@>,CHN ;NOT TAPE RH11
POP P,N ;RESTORE N
FILOUT <XP M.RHA,*@>,N ;NUMBER OF DRIVES
PUSHJ P,KSCHNO ;OUTPUT SYMBOLS FOR NON-EXISTENT STUFF
AOS CHN ;NEXT CHANNEL
ASKDEC <Tape drives(1,1-4)[Total number of TU45's on your system]>,N
PUSH P,N ;SAVE N
AOS M.T210 ;INCREMENT # TM02'S
FILOUT <XP M.CH*T,4@>,CHN ;CHANNEL TYPE 4
FILOUT <XP M.*RH,0@>,CHN ;NOT DISK RH11
FILOUT <XP M.*TR,1@>,CHN ;TAPE RH11 ON SECOND CHANNEL
FILCPU <XP M.TAPN,1@>,CHN ;NO. TAPE RH11'S THIS CPU
FILOUT <XP M.MT0T,5@> ;TAPE CTRL TYPE
FILOUT <XP M.MT0C,*@>,CHN ;CHANNEL TAPE CTRL IS ON
FILOUT <XP M.MT0P,*@>,CPUN ;CPU TAPE CTRL IS ON
FILOUT <XP M.MT0U,400000@> ;NO MULTI-SLAVE UNITS
POP P,N ;RESTORE N
FILOUT <XP M.MT0,*@>,N ;TOTAL # DRIVES
PUSHJ P,KSCHNO ;OUTPUT SYMBOLS FOR NON-EXISTENT STUFF
AOS CHN ;NEXT CHANNEL
FILOUT <DEFINE MACKN0 (X)> ;NO 7-TRACKS
PUSHJ P,FILLAB
PUSHJ P,FILRAB
FILOUT <DEFINE MACK60 (X)> ;NO 6250 BPI'S
PUSHJ P,FILLAB
PUSHJ P,FILRAB
SKPFTT RX20 ;RX02S
JRST RXEND ;NO
ASKRX2: MOVEI N,SM.RXK ;Maximum number of RX02 controllers
ASKDEC <# RX211s(0,0-*)[Double density "floppy disk" controls]>
FILCPU <XP M.RX20,*@>,N
MOVE I,N ;SETUP RX02 UNIT ITERATION COUNTER
JUMPE I,RXEND ;ANY RX02 UNITS AT ALL?
RXLOOP: AOS N,RX20 ;YES, INCREMENT COUNT OF RX CONTROLLERS IN SYSTEM
ADDI N,'A'-1 ;FORM SIXBIT CONTROLLER LETTER
ROT N,-6 ;LEFT JUSTIFY
ASKDEC < # Units on RX*(1-2)>,N
PUSH P,N ;SAVE ANSWER(NO OF UNITS ON THIS CONTROLER
MOVE N,RX20 ;CONTROLLER NUMBER
ADDI N,'A'-1 ;FORM SIXBIT CONTROLLER LETTER
ROT N,-6 ;LEFT JUSTIFY
FILOUT <XP M.RX*,>,N ;FIRST HALF
EXCH N,(P)
FILOUT <*@>,N ;OUTPUT
EXCH N,(P)
FILCPU <XP M.RX*,>,N ;FIRST HALF
POP P,N ;RESTORE NO. OF UNITS ON THIS CONTROLER
FILCPU <*@>,N ;OUTPUT
SOJG I,RXLOOP ;ANY MORE CONTROLLERS?
RXEND:
SKPFTF RX20 ;RX20?
JRST CHNEND ;YES
FILCPU <XP M.RX20,0@>
JRST CHNEND ;GO TO TOTALS PROCEDURE
KSCHNO: FILOUT <XP M.*FH,0@>,CHN ;NO FH,DP,FS,TB,TC
FILOUT <XP M.*DP,0@>,CHN
FILOUT <XP M.*RP,0@>,CHN
FILOUT <XP M.*RN,0@>,CHN
FILOUT <XP M.*RA,0@>,CHN
FILOUT <XP M.*FS,0@>,CHN
FILOUT <XP M.*TB,0@>,CHN
FILOUT <XP M.*TC,0@>,CHN
FILOUT <XP M.*T2,0@>,CHN
FILOUT <XP M.*TX,0@>,CHN
FILCPU <XP M.FHD,0@>,CHN
FILCPU <XP M.FSD,0@>,CHN
FILCPU <XP M.RPX,0@>,CHN
FILCPU <XP M.RNX,0@>,CHN
FILCPU <XP M.RAX,0@>,CHN
FILCPU <XP M.DPC,0@>,CHN
FILCPU <XP M.MDF,0@>,CHN
POPJ P, ;RETURN
CHNEND: FILOUT <XP M.CHN,*@>,CHN
FILOUT <XP M.RC10,*@>,M.RC10 ;OUTPUT NO. OF RC10 IN SYSTEM
FILOUT <XP M.RH1S,*@>,M.RH1S ;OUTPUT NO. OF RH10/RP04'S IN SYSTEM
FILOUT <XP M.RH1P,*@>,M.RH1P ;OUTPUT NO. OF RH10/RP04'S IN SYSTEM
FILOUT <XP M.RH2P,*@>,M.RH2P ;OUTPUT NO. OF RH20/RP04'S IN SYSTEM
FILOUT <XP M.RH20,*@>,M.RH20 ;OUTPUT NUMBER OF RH20S IN SYSTEM
FILOUT <XP M.RHP4,*@>,M.RHP4 ;OUTPUT NO. OF RP04 CONTROLLERS IN SYSTEM
FILOUT <XP M.RP20,*@>,M.RP20 ;OUTPUT NO. OF RP20 CONTROLLERS
FILOUT <XP M.RP10,*@>,M.RP10 ;OUTPUT NO. OF RP10S IN SYSTEM
FILOUT <XP M.TX01,*@>,M.TX01 ;OUTPUT N0. OF TX01S IN SYSTEM
FILOUT <XP M.TM02,*@>,M.T210 ;OUTPUT NO. OF TM02'S IN SYSTEM
FILOUT <XP M.DX20,*@>,M.DX20 ;OUTPUT NO. OF DX20'S IN SYSTEM
FILOUT <XP M.TM78,*@>,M.T78 ;OUTPUT NO. OF TM78'S IN SYSTEM
FILOUT <XP M.TM10,*@>,M.TM10 ;OUTPUT NO. OF TM10'S IN SYSTEM
SKIPN M.KS10 ;KS10?
JRST CHNEN0 ;NO--GO ON
FILOUT <XP M.R11D,1@> ;TOTAL # RH11'S FOR DISKS
FILOUT <XP M.TRH1,1@> ;TOTAL # OF RH11'S FOR TAPE
JRST CHNEN1 ;CONTINUE
CHNEN0: FILOUT <XP M.R11D,0@> ;THESE ARE ZERO FOR NON-KS10
FILOUT <XP M.TRH1,0@>
CHNEN1: MOVE I,MKON ;GET # TAPE KONTROLLERS
JUMPL I,ASKDTE ;JUMP IF ZERO
BTHOUT <Specify which drives (M-N) are 7 track drives.
[Type one number (M) or one range(M-N) or ALL on separate lines.
Type extra carriage return when through.]@>
TAP7LP: MOVE N,MKON
SUB N,I ;START FROM ZERO
PUSH P,N ;SAVE NUMBER
FILOUT <DEFINE MACKN* (X)>,N
POP P,N ;RESTORE N
ADDI N,'A' ;CONVERT TO SIXBIT
ROT N,-6
ASKTMN <For controller MT*@>,N
SOJGE I,TAP7LP ;LOOP TILL DONE
BTHOUT <Specify which tape drives (M-N) are capable of 6250 BPI densities.
[Type one number (M) or one range (M-N) or ALL on separate lines.
Type an extra carriage return when through.]@>
MOVE I,MKON ;PICK UP THE NUMBER OF CONTROLLERS
TAP6LP: MOVE N,MKON
SUB N,I ;START FROM ZERO
PUSH P,N ;SAVE NUMBER
FILOUT <DEFINE MACK6* (X)>,N
POP P,N ;RESTORE N
ADDI N,'A' ;CONVERT TO SIXBIT
ROT N,-6
ASKTMN <For controller MT*@>,N
SOJGE I,TAP6LP ;LOOP TILL DONE
;CODE TO ASK ABOUT DTE-20'S ON KL-10'S
ASKDTE: SKIPN M.KL10 ;IF THIS ISN'T A KL-10,
JRST ASKTTY ; THEN DON'T GENERATE ANY SYMBOLS
SETZM M.DN6S ;INITIAL TO NO DN-60S
SETZM M.DN8S ; AND NO DN87S
SETZM M.DDCN ; AND NO DECNET FRONT-ENDS
PUSH P,P1 ;P1 WILL BE THE NUMBER OF DTES ON CPUN
PUSH P,P2 ;P2 WILL BE THE CURRENT DTE
SETOM CPUN ;WE START WITH CPU #0
ASKDT1: AOS N,CPUN ;STEP TO THE NEXT CPU
CAML N,M.CPU ;IF WE HAVE CHECKED ALL CPU'S
JRST ASKDT4 ; THEN CLEAN UP AND GO TO NEXT QUESTION
ASKDEC <# of DTEs on CPU*(1,1-4)[Interfaces for front-end PDP-11s]>
MOVE P1,N ;SAVE THE NUMBER OF DTES
SETZ P2, ;START ASKING ABOUT DTE0
FILCPU <XP M.DTEN,*@>,P1 ;NUMBER OF DTE'S ON THIS CPU
ASKDT2: CAML P2,P1 ;ANY MORE DTE'S TO DO
JRST ASKDT3 ; IF NOT, THEN DEFAULT THE REST
MOVE N,CPUN ;BUILD A STANDARD CPU-DTE
IMULI N,^D10 ; DTE IDENTIFIER
ADD N,P2 ; FOR USE IN THE NEXT QUESTION
ASKLST < Type of front end on DTE* (RSX20F,ANF10,IBM,DECNET)>,N
PUSH P,N ;SAVE THIS FOR A SECOND
FILCPU <XP M.*DTE,>,P2 ;A SYMBOL THAT GIVES THE TYPE
MOVE N,(P) ; OF THIS DTE
AOS N ; OF THE FORM M'CPU'DTEN'DTE
FILOUT <*@>,N ;WRITE THE DTE TYPE
POP P,N ;GET THE FRONT END TYPE BACK
PUSHJ P,@[EXP DTERSX,DTEANF,DTEIBM,DTEDCN](N) ;DISPATCH BY TYPE
AOJA P2,ASKDT2 ;LOOP OVER ALL DTE'S ON THIS CPU
ASKDT3: CAIL P2,4 ;HAVE WE DEFINED SYMS FOR ALL DTES?
JRST ASKDT1 ; IF SO, GO TO THE NEXT CPU
FILCPU <XP M.*DTE,0@>,P2 ;IF NOT, SAY NO FRONT END
AOJA P2,ASKDT3 ; AND STEP TO NEXT DTE
ASKDT4: FILOUT <XP M.TTDN,*@>,M.TTDN ;TOTAL FROMT END TTY'S
FILOUT <XP M.DLP,*@>,M.DLP ;TOTAL FRONT END LPT'S
FILOUT <XP M.DCR,*@>,M.DCR ;TOTAL FRONT END CDR'S
FILOUT <XP M.DN6S,*@>,M.DN6S ;NUMBER OF DN60'S ON THE SYSTEM
FILOUT <XP M.DN8S,*@>,M.DN8S ;NUMBER OF DN87'S ON THE SYSTEM
FILOUT <XP M.DDCN,*@>,M.DDCN ;NUMBER OF DECNET FRONT-ENDS
POP P,P2 ;RESTORE
POP P,P1 ; SEMI-PERMANENT REGISTERS
JRST ASKTTY ; AND GO TO THE NEXT QUESTION
DTERSX: MOVE N,CPUN ;GET THE CPU NUMBER
IMULI N,^D10 ;PUT IN THE CPU POSITION
ADD N,P2 ; ADD IN THE DTE NUMBER
PUSH P,N ;SAVE FOR THE NEXT FEW QUESTIONS
ASKDEC < # terminals on front end #*(0,0-128)[include
only timesharing (DH11) lines, not CTY or KLINIK]>,N
SKIPN N ;ANY LINES ON FRONT END
SKIPA N,P1 ;NO, NEED ONLY 1 DL11 FOR EACH
ADDI N,4 ;ACCOUNT FOR ALL DL11 LINES (-CTY)
ADDM N,M.TTDN ;UPDATE THE TOTAL NUMBER OF 20F LINES
FILCPU <XP M.TTDN,*@>,N;WRITE THE NUMBER OF LINES ON THIS CPU
MOVE N,0(P) ;GET THE DTE ID BACK
ASKDEC < # line printers on front end #*(0,0-2)>,N
ADDM N,M.DLP ;UPDATE THE TOTAL NUMBER OF 20F LPTS
FILCPU <XP M.LP0N,*@>,N
FILCPU <XP M.LP1N,0@>
FILCPU <XP M.LP2N,0@>
FILCPU <XP M.LP3N,0@>
JUMPE N,DTERS2 ;DON'T ASK IF THERE AREN'T ANY PRINTERS
MOVN I,N ;GET -NUMBER OF PRINTERS
HRLZ I,I ;MAKE AN AOBJN POINTER
DTERS1: HRRZ N,I ;GET LPT NUMBER
ASKYN < Front end printer * lower case(Y,N)[Does printer * have lower case capability]>,N
PUSH P,N ;SAVE ANSWER
HRRZ N,I ;GET PRINTER NUMBER AGAIN
FILCPU <XP M.FL*L,>,N
POP P,N ;RESTORE ANSWER
FILCPU <*@>,N
AOBJN I,DTERS1 ;TRY FOR NEXT PRINTER
DTERS2:
MOVEI N,0
SKPFTT CD20 ;CD20 SUPPORT
JRST NOCD20 ;NO
MOVE N,0(P) ;GET THE DTE ID BACK
ASKDEC < # card readers on front end #*(0,0-1)>,N
ADDM N,M.DCR ;UPDATE TOTAL NUMBER OR 20F CDRS
NOCD20: FILCPU <XP M.CR0N,*@>,N
FILCPU <XP M.CR1N,0@>
FILCPU <XP M.CR2N,0@>
FILCPU <XP M.CR3N,0@>
POP P,N ;FIXUP THE STACK
POPJ P, ;RETURN TO ASKDTE
DTEANF: AOS M.DN8S ;COUNT UP ONE MORE DN87S
POPJ P,
DTEDCN: AOS M.DDCN ;COUNT UP ONE MORE DECNET FRONT-END
POPJ P,
DTEIBM: AOS M.DN6S ;COUNT UP ONE MORE DN60S
AOS M.DN60 ;INCREMENT GENERIC DN60 DEVICE COUNTER
POPJ P,
ASKTTY: SKIPE M.KS10 ;KS10?
JRST TKSGEN ;YES--DO DIFFERENT THINGS
SETOM CPUN ;NO, START AT CPU0
ASKTT1: AOS T1,CPUN ;STANDARD CPU LOOP
CAML T1,M.CPU ;IF DONE,
JRST ASKOPR ;FIND THE OPR TERMINAL
SKPFTT DC10 ;DC10
SKPFTF DC68 ;OR DC76
JRST TTYCPX ;THESE ARE MULTI CPU STUFF
SKPFTT DC76 ;SO IS THIS
JUMPN T1,ASKOPR ;NO MULTI-CPU STUFF HERE IF SUPPORTED
TTYCPX: MOVEI N,0 ;NO DC10
SKPFTT DC10
JRST NODC10
MOVE N,CPUN
ASKDEC <How many DC10s on CPU*(1,0-2)[
The DC10 is a data line scanner]>
NODC10: SKIPN CPUN
MOVEM N,M.DC10
MOVEI N,0 ;NO DC68
SKPFTT DC68
JRST NODC68
MOVE N,CPUN
ASKDEC <How many DC68s on CPU*(1,0-2)[
The DC68 is a PDP-8 680 or 680I communications system]>
NODC68: SKIPN CPUN
MOVEM N,M.DC68
MOVEI N,0 ;NO DC76S
SKPFTT DC76 ;DC76 SUPPORT
JRST NODC76 ;NO
MOVE N,CPUN
ASKDEC <How many DC76s on CPU*(1,0-8)[
The DC76 is a PDP-11 communications system]>
NODC76: SKIPE CPUN
JRST ASKTT1
MOVEM N,M.DC76
FILOUT <XP M.DC10,*@>,M.DC10
FILOUT <XP M.DC68,*@>,M.DC68
FILOUT <XP M.DC76,*@>,M.DC76
FILOUD <XP MD.DCS,*@>,MD.DCS
SKIPN M.DC10 ;HAVE A DC10?
JRST ASK68 ;NO--DO NOT ASK ABOUT IT
ASKDG: SKIPN M.DC10 ;ANY DC10 HARDWARE?
JRST ASK68
PUSH P,[0] ;ASK ABOUT DC10 #0
PUSHJ P,ASKDCX ; ..
AOS (P) ;ASK ABOUT DC10 #1
MOVE N,M.DC10 ;GET # OF DC10'S
CAME N,(P) ;ALL DONE
PUSHJ P,ASKDCX ; ..
POP P,(P) ;CLEAN UP THE STACK
ASK68: SKIPN M.DC68 ;ANY DC68 HARDWARE
JRST ASK76 ;NO--ASK ABOUT DC76
PUSH P,[0] ;ASK ABOUT DC68 #0
PUSHJ P,ASKD68 ; ..
AOS (P) ;ASK ABOUT DC68 #1
SOSE M.DC68 ; IF THERE ARE 2 DC10'S
PUSHJ P,ASKD68 ; ..
POP P,(P) ;CLEAN UP THE STACK
ASK76: SKIPN M.DC76 ;HAVE A DC76?
JRST ASKH3 ;NO--DO NOT ASK DC76 QUESTIONS
PUSH P,[0]
PUSHJ P,ASKD76
AOS (P)
SOSE M.DC76
JRST .-3
POP P,(P)
JRST ASKH3
TKSGEN: FILOUT <XP M.DC10,0@>
FILOUT <XP M.DC68,0@>
FILOUT <XP M.DC76,0@>
FILOUT <XP MD.DCS,0@>
ASKDEC <TTY lines(0-32)[Total number of TTY lines]>,N
MOVEM N,M.DZNL
ASKH3: FILOUT <XP M.D70N,*@>,M.D70N
FILOUT <XP M.D71N,*@>,M.D71N
FILOUT <XP M.D72N,*@>,M.D72N
FILOUT <XP M.D73N,*@>,M.D73N
FILOUT <XP M.D74N,*@>,M.D74N
FILOUT <XP M.D75N,*@>,M.D75N
FILOUT <XP M.D76N,*@>,M.D76N
FILOUT <XP M.D77N,*@>,M.D77N
FILOUT <XP M.D78N,0@> ;DUMMY SYMBOLS SINCE DC76 ONLY ON DL10
FILOUT <XP M.D79N,0@>
FILOUT <XP M.D7AN,0@>
FILOUT <XP M.D7BN,0@>
FILOUT <XP M.TTG0,*@>,M.TTG0
FILOUT <XP M.TTG1,*@>,M.TTG1
FILOUT <XP M.DSG0,*@>,M.DSG0
FILOUT <XP M.DSG1,*@>,M.DSG1
FILOUT <XP M.68L0,*@>,M.68L0
FILOUT <XP M.68L1,*@>,M.68L1
FILOUT <XP M.DZNL,*@>,M.DZNL
FILCPU <XP M.DZNL,*@>,M.DZNL
MOVE N,M.TTG0 ;NUMBER OF 8-LINE GROUPS
ADD N,M.TTG1 ; PLUS NUMBER OF LINES ON DC10 #1
LSH N,3 ;TIMES 8=NUMBER OF LINES
ADD N,M.D70N ;PLUS LINES ON DC76
ADD N,M.D71N
ADD N,M.D72N
ADD N,M.D73N
ADD N,M.D74N
ADD N,M.D75N
ADD N,M.D76N
ADD N,M.D77N
ADD N,M.DZNL
ADD N,M.68L0 ;PLUS LINES ON DC68
ADD N,M.68L1 ; = TOTAL NUMBER OF LINES
FILOUT <XP M.TLTL,* ;TOTAL LOCAL TTY LINES@@>
SKIPN M.KS10 ;UNLESS A KS10,
JRST ASKTT1 ;LOOP OVER ALL CPUS
;ELSE, FALL INTO ASKOPR ON NEXT PAGE
ASKOPR: SKIPE M.KL10 ;KL10?
ADD N,M.TTDN ;YES, ADD IN 20F LINES
SOJ N, ;ADJUST TO GET HIGHEST LINE
ASKLIN <OPR octal line #(CTY,0-*)[OPR is privileged operator terminal]>
FILOUT <DEFINE OPRLIN>
PUSHJ P,FILLAB
FILOUT <@ OPRL *@>,N
PUSHJ P,FILRAB
FILOUT <@>
;ASKTT2: BTHOUT <Answer the following questions about your TTY lines(M-N).
;[Type one octal line #(M) or one range(M-N) or CTY on separate
;lines. Type extra carriage return when through.]@>
ASKDSD: FILOUT <DEFINE MACDSD> ;START MACRO DEFINITION
ASKMN <Data set lines
[Class of terminal for LOGIN, LOGIN resets line
to computer echoing and no hardware tabs.
Type one octal line #(M) or one range(M-N) on separate
lines. Type extra carriage return when through.]@>
TTYEND: JRST ASKJOB ;DONE HERE, ON TO NEXT QUESTION
;SUBROUTINE TO ASK ABOUT DC10 HARDWARE
;CALL WITH:
; PUSHJ P,[DC10 NUMBER]
; PUSHJ P,ASKDCX
ASKDCX: MOVE N,-1(P) ;PICK UP DC10 NUMBER
TTYOCT <@For DC10 *:@@>
MOVEI N,SM.TTG ;MAX TTY GROUPS
ASKDEC <# DC10B[ or 632] 8 line data groups(1-*)[
1 is TTY0-7, 2 is TTY0 - 17, ... 8 is TTY0 - 77]>
MOVE T1,-1(P) ;STORE FOR CORRECT DC10
MOVEM N,M.TTG0(T1) ; ..
ASKDEC <# DC10E Data set control groups(0-*)>
MOVE T1,-1(P)
MOVEM N,M.DSG0(T1) ;STORE FOR CORRECT DC10
ASKCRR: MOVE N,-1(P) ;WHICH DC10
FILOUT <DEFINE MACCR*>
MOVE T1,-1(P)
SKIPN M.DSG0(T1) ;DATA SETS?
JRST ASKCR1 ;NO, SKIP THIS QUESTION
ASKMNP <Correspondence of DC10E lines to the DC10B lines(M-N,P)[
Type M,P for one pair and M-N,P for a range of pairs
where M is octal DC10E line, M-N is octal range of DC10E
lines, and P is octal DC10B line]@>
POPJ P,0 ;RETURN
ASKCR1: PUSHJ P,FILLAB ;OUTPUT NULL MACRO IF DIDNT ASK
PJRST FILRAB ;FINISH MACRO IF DIDNT ASK
;SUBROUTINE TO ASK ABOUT DC68 LINES
;CALL WITH:
; PUSH P,[DC68 NUMBER]
; PUSHJ P,ASKD68
ASKD68: MOVE N,-1(P)
TTYOCT <@FOR DC68 *:@@>
MOVEI N,SM.68L
ASKOCT <# Octal lines on DC68, including its console TTY(1-*)>
MOVE T1,-1(P)
MOVEM N,M.68L0(T1)
POPJ P,
;SUBROUTINE TO ASK ABOUT A DC76
;CALL WITH
; PUSH P,[DC76 NUMBER]
; PUSHJ P,ASKD76
ASKD76: MOVE N,-1(P)
TTYOCT <@For DC76 *:@@>
ASKDEC <Which DL10 port is the DC76 connected to(0,1-7)[Each PDP-11
is connected to a DL10 port. If there is only one -11 it
is always connected to port 0. If there are 2 -11's one is
connected to port 0 and the other to port 1]>
PUSH P,N
ASKDEC <Decimal lines on DC76(1-129)[
Each DC76F is 16 lines and the console teletype is
one line. A DC76 with 2 DC76Fs has 33 lines]>
MOVE T1,(P)
MOVEM N,M.D70N(T1)
POP P,(P)
POPJ P,0
ASKJOB: MOVEI N,SM.JOB ;MAXIMUM NUMBER OF JOBS
ASKDEC <# Jobs(1-*)[Maximum number attached and detached, not
counting null job]>
FILOUT <XP M.JOB,*@>,N
FILOUD <XP MD.2RR,*@>,MD.2RR
FILOUD <XP MD.SEG,*@>,MD.SEG
FILOUD <XP MD.DDT,*@>,MD.DDT
ASKCOR: MOVEI N,SM.MPI ;MAX NO. OF PAGES ON KI10
ASKDEC <Maximum P of core for each job(0,0-*)[0 means all of core]>,N
FILOUT <XP M.CORE,*@>,N
MOVEI N,^D4096 ;UP TO 4 MILLION WORDS ALLOWED
ASKNKC: ASKDEC <# K total system core(512-*)[ONCE-only reports if
less core at startup]>
FILOUT <XP M.NKC,*@>,N
ASKTPS: ASKLST <Clock ticks per second(60,50)[Power line frequency]>
SKIPN N ;SKIP IF 50
TROA N,^D60 ;NO, 60
MOVEI N,^D50 ;50
FILOUT <XP M.TPS,*@>,N
ASKRTD: SKIPN M.KS10 ;KS10?
JRST ASKRT0 ;NO--GO ON
FILOUT <XP M.RTD,0@> ;YES--NO REAL TIME
JRST ASKLOK ;GO ON
ASKRT0: MOVEI N,SM.RTD ;MAXIMUM NUMBER OF REAL TIME DEVICES
ASKDEC <# Real-time devices(0,0-*)[Max. # which can be put
on PI channels simultaneously]>
FILOUT <XP M.RTD,*@>,N
JUMPN N,ASKLK1 ;DO NOT ASK ABOUT LOCKING IF REAL TIME
; SINCE MUST HAVE LOCKING FOR REAL TIME
ASKLOK: ASKYN <Allow jobs to be locked in core(Y,N)>
ASKLK1: FILOUT <XP M.LOK,*@>,N
JUMPE N,ASKMG1
ASKMGC: MOVEI N,SM.MPI ;MAXIMUM NUMBER OF PAGES ON KI10
ASKDEC <# Pages min guaranteed among jobs not locked in core(0,0-*)[
minimum free core pool for unlocked jobs, 0 assumes all of core]>
ASKMG1: FILOUT <XP M.MGC,*@>,N
ASKHPQ: MOVEI N,SM.HPQ ;MAXIMUM NUMBER OF HIGH PRIORITY QUEUES
ASKDEC <# High priority queues(0,0-*)>
FILOUT <XP M.HPQ,*@>,N
ASKMET: SETZ N, ;NO METER UUO
SKPFTT METER
JRST NOMETR
ASKYN <Meter(Y,N)[Performance analysis metering(METER UUO)]>
NOMETR: FILOUT <XP M.METR,*@>,N
ASKKAS: SKIPN N,M.KL10
SKIPE N,M.KS10
CAIA
JRST ASKKA1
SETZ N,
SKPFTT KASER
JRST ASKKA1 ;NO
ASKYN <KASER(Y,N)[Include support for simulation of KA10
long floating point instructions]>
ASKKA1: FILOUT <XP M.FPS,*@>,N
ASKMSG: ASKYN <MSGSER(Y,N)[Support for device MPX. (more than one device
on an I/O channel). This feature is required for MCS-10]>
FILOUT <XP M.MSG,*@>,N
ASKPSI: ASKYN <PSISER(Y,N)[Advanced programmed software interrupt service -
Support for the PISYS. UUO. This provides an easy
and powerful interrupt method for program to trap asynchronous
events. Required by GALAXY-10]>
FILOUT <XP M.PSI,*@>,N
ASKIPC: ASKYN <IPCF(Y,N)[Inter process communication facility]>
FILOUT <XP M.IPCF,*@>,N
ASKENQ: ASKYN <ENQ/DEQ(Y,N)[Sychronization primitives to allow
simultaneous file update by multiple co-operating processes]>
FILOUT <XP M.EQDQ,*@>,N
FILOUT <XP M.SYSC,0@>
SKIPE M.KS10 ;KS10?
JRST KSGEN ;YES--GO DO KS10 SPECIFIC GEN
SETOM CPUN
ASKCDR: AOS N,CPUN
CAML N,M.CPU
JRST DEVEND
MOVE I,M.CPU
CAIG I,1
JRST ASKCD1
BTHOUT <on CPU*:@>,N
ASKCD1:
MOVEI N,0 ;NO CDRS
SKPFTT CR10 ;IO-BUS CDRS?
JRST ASKCDZ ;NO
MOVEI N,SM.CDR ;MAXIMUM NUMBER OF CDRS
ASKDEC <# CDRs(1,0-*)[Card reader on the I/O Bus]>
ADDM N,M.CDR
ASKCDZ: FILCPU <XP M.CDR,*@>,N
SKIPE N ;SKIP IF NO CDR
MOVEI N,MD.C10 ;YES, GET DEFAULT VALUE FOR CR10
FILOUT <XP MD.C10,*@>,N
FILCPU <XP MD.C10,*@>,N
ASKCDP: MOVEI N,0
SKPFTT CP10
JRST NOCP10
ASKYN <CDP(Y,N)[Card punch]>
ADDM N,M.CDP
NOCP10: FILCPU <XP M.CDP,*@>,N
JUMPE N,ASKDIS
ASKYN <CP10D(Y,N)[Special Systems unbuffered card punch]>
FILCPU <XP M.CP1D,*@>,N
ASKDIS: MOVEI N,0 ;NO DISPLAYS
SKPFTT DIS
JRST NODIS ;NO
ASKYN <DIS(Y,N)[Display device(VP10,340,30,VB10C) as distinguished from
display terminals]>
NODIS: JUMPE N,ASKDS1 ;ANY DISPLAYS?
ASKLST <Type(VP10,340,VB10C)[Answer VP10 for Type 30]>
AOS M.VP10(N) ;SET M.VP10, M.340 OR M.VBXC TO 1
ASKDS1: FILOUT <XP M.VP10,*@>,M.VP10
FILCPU <XP M.VP10,*@>,M.VP10
FILOUT <XP M.340,*@>,M.340
FILCPU <XP M.340,*@>,M.340
FILOUT <XP M.VBXC,*@>,M.VBXC
FILCPU <XP M.VBXC,*@>,M.VBXC
SETZ N, ; FOR FILOUT OF M.DIS
SKIPN M.VP10 ;SKIP IF VP10 DISPLAY
SKIPE M.340 ;SKIP IF NOT 340 DISPLAY
MOVEI N,1 ;FILOUT M.DIS=1 IF EITHER 340 OR VP10
FILOUT <XP M.DIS,*@>,N ;
FILCPU <XP M.DIS,*@>,N ;
ASKDTA: MOVEI N,0 ;NO DECTAPES
SKPFTT DTA ;DECTAPE?
JRST NODTAS ;NO
MOVEI N,SM.DTA ;MAXIMUM NUMBER OF DTA CONTROLLERS
ASKDEC <# TD10s(1,0-*)[DECtape controls]>
NODTAS: FILCPU <XP M.TD10,*@>,N
MOVE I,N ;SETUP DTA UNIT ITERATION COUNTER
JUMPE I,DTEND ;ANY DTA UNIT AT ALL?
DTLOOP: AOS N,DTA ;YES, INCREMENT COUNT OF DT CONTROLLERS IN SYSTEM
ADDI N,'A'-1 ;FORM SIXBIT CONTROLLER LETTER
ROT N,-6 ;LEFT JUSTIFY
ASKDEC < # Units on DT*(1-8)>,N
PUSH P,N ;SAVE ANSWER(NO OF UNITS ON THIS CONTROLER
MOVE N,DTA ;CONTROLLER NUMBER
ADDI N,'A'-1 ;FORM SIXBIT CONTROLLER LETTER
ROT N,-6 ;LEFT JUSTIFY
FILOUT <XP M.DT*,>,N ;FIRST HALF
EXCH N,(P)
FILOUT <*@>,N ;OUTPUT
EXCH N,(P)
FILCPU <XP M.DT*,>,N ;FIRST HALF
POP P,N ;RESTORE NO. OF UNITS ON THIS CONTROLER
FILCPU <*@>,N ;OUTPUT
SOJG I,DTLOOP ;ANY MORE CONTROLLERS?
DTEND:
ASKLPT: MOVEI N,SM.LPT ;MAXIMUM NUMBER OF LPTS
ASKDEC <LPTs(1,0-*)[Line printers on the I/O Buss]>
FILCPU <XP M.LPT,*@>,N
PUSH P,N ;SAVE # OF LPTS
SKIPE N ;SKIP IF NO LPT
MOVEI N,MD.MOV ;GET DEFAULT VALUE FOR MOVIE
FILOUT <XP MD.MOV,*@>,N
POP P,N ;GET # OF LPTS
JUMPE N,NOLPT ;DON'T WORRY ABOUT LC IF NO LPTS
MOVE I,N ;SET UP LOOP COUNTER
MORLPT: MOVE N,LPTCNT ;GET CURRENT NUMBER OF LPT
ASKYN <LPT* Lower case(Y,N)[Does LPT* have lower case capability]>,N
PUSH P,N ;SAVE ANSWER
MOVE N,LPTCNT ;GET NUMBER OF THIS LPT
ADDI N,'0' ;CONVERT TO PRINTABLE FORM
ROT N,-6 ;LEFT-JUSTIFY IT
FILOUT <XP M.LP*L,>,N ;OUTPUT SYMBOL NAME
EXCH N,(P)
FILOUT <*@>,N ;OUTPUT IT AS SYMBOL VALUE
EXCH N,(P)
FILCPU <XP M.LP*L,>,N ;OUTPUT SYMBOL NAME
POP P,N ;GET ANSWER BACK AGAIN
FILCPU <*@>,N ;OUTPUT IT AS SYMBOL VALUE
AOS LPTCNT ;BUMP COUNT OF LPTS
SOJG I,MORLPT ;LOOP THRU ALL LPTS
NOLPT:
ASKPLT: MOVEI N,0
SKPFTT PLT
JRST NOPLTS
MOVEI N,SM.PLT ;MAX NUMBER OF PLOTTERS
ASKDEC <PLTS(0,0-*)[Plotters]>
ADDM N,M.PLT
NOPLTS: FILCPU <XP M.PLT,*@>,N
ASKPTP: MOVEI N,0
SKPFTT PTP
JRST NOPTP
ASKYN <PTP(Y,N)[Paper tape punch]>
ADDM N,M.PTP
NOPTP: FILCPU <XP M.PTP,*@>,N
ASKPTR: MOVEI N,0
SKPFTT PTR
JRST NOPTR
ASKYN <PTR(Y,N)[Paper tape reader]>
ADDM N,M.PTR
NOPTR: FILCPU <XP M.PTR,*@>,N
FILCPU <XP M.RX20,0@> ;CERTAINLY NOT ON A KL!
FILCPU <XP M.RX20,0@> ;CERTAINLY NOT ON A KL!
ASKXTC:
MOVEI N,0 ;NO DA28S
SKPFTT DA28
JRST NODA28 ;NO
MOVEI N,SM.XTC ;MAX # OF DA28S
ASKDEC <# of DA28s(0,0-*)[Interprocessor channels for PDP8/11/15]>
NODA28: FILOUT <XP M.XTC,*@>,N
FILCPU <XP M.XTC,*@>,N
JUMPE N,XTCEND
ASKDEC <# of lines for TTY pool(8,0-512)[Lines reserved for use on DA28 channels]>
FILOUT <XP M.XTL,*@>,N
XTCEND: FILCPU <XP M.XTL,*@>,N
ASKD78: MOVEI N,0
SKPFTT DAS78
JRST NODS78
MOVEI N,SM.D78 ;MAXIMUM NUMBER OF DAS78'S
ASKDEC <# DAS78s(0,0-*)[IBM 360, 370, and/or 2780 support]>
ADDM N,M.DAS78 ;ACCUMULATE TOTAL NUMBER IN SYSTEM
NODS78: MOVEM N,M.D78N ;SAVE NUMBER ON THIS CPU FOR COUNT DOWN
JUMPE N,ASK78B ;SEE IF ANY DAS78S
PUSH P,[0] ;PUT A 0 ON THE STACK TO COUNT UP
ASK78A: PUSHJ P,ASK78S ;ASK ABOUT THE DAS78'S
AOS (P) ;SET UP TO ASK ABOUT NEXT ONE
SOSE M.D78N ;ASKED ABOUT ALL DAS78'S?
JRST ASK78A ;NO, ASK ABOUT ANOTHER ONE
POP P,(P) ;CLEAN THE STACK
ASK78B: FILCPU <XP M.0D78,*@>,M.0D78
FILCPU <XP M.1D78,*@>,M.1D78
FILCPU <XP M.2D78,*@>,M.2D78
FILCPU <XP M.3D78,*@>,M.3D78
FILCPU <XP M.4D78,*@>,M.4D78
FILCPU <XP M.5D78,*@>,M.5D78
FILCPU <XP M.6D78,*@>,M.6D78
FILCPU <XP M.7D78,*@>,M.7D78
FILCPU <XP M.D78L,*@>,M.D78L
FILCPU <XP M.XXI,*@>,M.D78L
FILCPU <XP M.XXO,*@>,M.D78L
JRST ASK78C ;DONE DAS78'S.
ASK78S: MOVE N,-1(P) ;GET A NUMBER FOR DAS78
TTYOCT <@For DAS78 *:@@>
ASKDEC <Which DL10 port is the DAS78 connected to (0,0-7)]
Each DAS78 PDP11 is connected to a DL10 port]>
PUSH P,N ;SAVE PORT NUMBER ON STACK
ASKDEC <Decimal lines on the DAS78 (1-16)[
Each DAS78 can support up to 16 IBM 360s, 370s, and/or 2780s]>
ADDM N,M.D78L ;KEEP A SUM OF THE DAS78 LINES
MOVE T1,(P) ;GET DAS78 NUMBER
MOVEM N,M.0D78(T1) ;SAVE LINES IN PROPER PORT LOC
POP P,(P) ;CLEAN STACK
POPJ P, ;EXIT
ASK78C:
ASKD60: MOVE T1,[M.DN6D,,M.DN6D+1]
SETZM M.DN6D
BLT T1,M.BD60
SETZ N,
SKPFTF DN60 ;SKIP IF NO DN60S
SKIPE CPUN
JRST ASK60A
MOVEI N,SM.D60 ;MAXIMUM NUMBER OF DN60'S
ASKDEC <# DN60s(0,0-*)[IBM BSC interfaces]>
ASK60A: MOVEM N,M.DN6D ;SAVE NUMBER FOR COUNT DOWN
ADDM N,M.DN60 ;ADD TO GENERIC DN60 DEVICE COUNTER TOO
SKIPE CPUN
JRST ASK60C
FILOUT <XP M.DN6D,*@>,M.DN6D
SKIPN M.DN6D ;SEE IF ANY DN60'S
JRST ASK60C ;NO DN60'S
PUSH P,[0] ;PUT A 0 ON THE STACK TO COUNT UP
ASK60B: PUSHJ P,ASK60S ;ASK ABOUT THE DN60'S
AOS (P) ;SET UP TO ASK ABOUT NEXT ONE
SOSE M.DN6D ;ASKED ABOUT ALL DN60'S?
JRST ASK60B ;NO, ASK ABOUT ANOTHER ONE
POP P,(P) ;CLEAN THE STACK
ASK60C: FILCPU <XP M.0D60,*@>,M.0D60
FILCPU <XP M.1D60,*@>,M.1D60
FILCPU <XP M.2D60,*@>,M.2D60
FILCPU <XP M.3D60,*@>,M.3D60
FILCPU <XP M.4D60,*@>,M.4D60
FILCPU <XP M.5D60,*@>,M.5D60
FILCPU <XP M.6D60,*@>,M.6D60
FILCPU <XP M.7D60,*@>,M.7D60
FILCPU <XP M.D60L,*@>,M.D60L
SKIPE CPUN
JRST ASK60D
FILOUT <XP M.0D60,*@>,M.0D60
FILOUT <XP M.1D60,*@>,M.1D60
FILOUT <XP M.2D60,*@>,M.2D60
FILOUT <XP M.3D60,*@>,M.3D60
FILOUT <XP M.4D60,*@>,M.4D60
FILOUT <XP M.5D60,*@>,M.5D60
FILOUT <XP M.6D60,*@>,M.6D60
FILOUT <XP M.7D60,*@>,M.7D60
FILOUT <XP M.D60L,*@>,M.D60L
JRST ASK60D ;DONE DN60'S.
ASK60S: MOVE N,-1(P) ;GET A NUMBER FOR DN60
TTYOCT <@For DN60 *:@@>
ASKOCT <Which port is the DN60 connected to (0,0-7)[
DL10 number 1 has ports 0-3, DL10 number 2 has ports 4-7]>
PUSH P,N ;SAVE PORT NUMBER ON STACK
ASKDEC <Decimal lines on the DN60 (1-12)[
Each DN60 can support up to 12 IBM BSC interfaces]>
ADDM N,M.D60L ;KEEP A SUM OF THE DN60 LINES
MOVE T1,(P) ;GET DN60 NUMBER
MOVEM N,M.0D60(T1) ;SAVE LINES IN PROPER PORT LOC
POP P,(P) ;CLEAN STACK
POPJ P, ;EXIT
ASK60D: FILOUT <XP M.DN6K,0@> ;NO DN60 DEVICES ON KMC/DUP-11S
FILOUT <XP M.DN6R,0@> ;NO DN60 DEVICES ON DMRS
FILOUT <XP M.DN60,*@>,M.DN60 ;DUMP COUNT OF GENERIC DN60 DEVICES
JRST ASKCDR
DEVEND: FILOUT <XP M.CDR,*@>,M.CDR
FILOUT <XP M.CDP,*@>,M.CDP
FILOUT <XP M.TD10,*@>,DTA
FILOUT <XP M.LPT,*@>,LPTCNT
FILOUT <XP M.PLT,*@>,M.PLT
FILOUT <XP M.PTP,*@>,M.PTP
FILOUT <XP M.PTR,*@>,M.PTR
FILOUT <XP M.DAS78,*@>,M.DAS78
FILOUT <XP M.XXI,*@>,M.D78L
FILOUT <XP M.XXO,*@>,M.D78L
FILOUT <XP M.RX20,0@>
ASKPTY: MOVEI N,SM.PTY ;MAXIMUM NUMBER OF PTYS
ASKDEC <# PTYs(20,1-*)[Pseudo-terminals - each operator
service program and Batch stream needs one]>
FILOUT <XP M.PTY,*@>,N
JRST ASKDSY
KSGEN: SETZM CPUN ;ALWAYS CPU 0
MOVEI N,SM.PTY ;MAXIMUM NUMBER OF PTYS
ASKDEC <# PTYs(20,1-*)[Pseudo-terminals - each operator
service program and Batch stream needs one]>
FILOUT <XP M.PTY,*@>,N
ASKDEC <LPT(0,0-1)[Line printer]>,N
FILOUT <XP M.LPT,*@>,N
FILCPU <XP M.LPT,*@>,N
JUMPE N,KSGEN0 ;JUMP IF NO LPT
FILOUT <XP M.CH*T,5@>,CHN ;CHANNEL TYPE 5
FILOUT <XP M.LP0C,*@>,CHN ;LPT CHANNEL NUMBER
FILOUT <XP M.*RH,0@>,CHN ;NO DISK RH11 THIS CHANNEL
FILOUT <XP M.*TR,0@>,CHN ;NO TAPE RH11 THIS CHANNEL
PUSHJ P,KSCHNO ;OUTPUT OTHER SYMBOLS FOR THIS CHANNEL
AOS CHN ;NEXT CHANNEL
ASKYN <Lower case(Y,N)[Does LPT have lower case]>,N
FILOUT <XP M.LP0L,*@>,N
KSGEN0: MOVEI N,0
SKPFTT CD20
JRST NOCD2S
ASKDEC <CDR(0,0-1)[Card reader]>,n
NOCD2S: FILOUT <XP M.CDR,*@>,N
FILCPU <XP M.CDR,*@>,N
JUMPE N,KSGEN1 ;JUMP IF NO CDR
FILOUT <XP M.CH*T,6@>,CHN ;CHANNEL TYPE 6
FILOUT <XP M.CD0C,*@>,CHN ;CDR CHANNEL NUMBER
FILOUT <XP M.*RH,0@>,CHN ;NO DISK RH11 THIS CHANNEL
FILOUT <XP M.*TR,0@>,CHN ;NO TAPE RH11 THIS CHANNEL
PUSHJ P,KSCHNO ;OUTPUT OTHER SYMBOLS FOR THIS CHANNEL
AOS CHN ;NEXT CHANNEL
KSGEN1: FILOUT <XP M.CHN,*@>,CHN ;TOTAL NUMBER OF CHANNELS
ASKPPS: SETZ N,
SKPFTT PTP
JRST NOPTPS
ASKYN <PTP(Y,N)[Paper tape punch]>
ADDM N,M.PTP
NOPTPS: FILCPU <XP M.PTP,*@>,N
ASKPRS: SETZ N,
SKPFTT PTR
JRST NOPTRS
ASKYN <PTR(Y,N)[Paper tape reader]>
ADDM N,M.PTR
NOPTRS: FILCPU <XP M.PTR,*@>,N
MOVEI N,SM.KDUP ;MAXIMUM NUMBER OF DUP-11S
ASKDEC <# KMC/DUP Lines(0,0-*)[Number of DUP-11 synchronous
line units attached to a KMC-11 controller.]>,N
FILOUT <XP M.KDUP,*@>,N
SETZB I,M.DN6K ;START AT DUP NUMBER 0
JUMPE N,KSDMR ;IF NO KMCS, JUST SEE ABOUT DMRS
MOVE P1,N ;COPY NUMBER OF DUP-11'S
KSDUP0: CAML I,P1 ;ARE WE STILL IN RANGE?
JRST KSDMR ;NO, WRITE OUT ACCUMULATED STUFF
MOVE N,I ;Copy to where it will find it
SKPFTF DN60 ;DN60 SUPPORT
JRST DN60KS ;YES
ASKLST <Type of line for KDP* (ANF10,DECNET,USER)>
JRST D60SZ ;SKIP
DN60KS: ASKLST <Type of line for KDP* (ANF10,DECNET,USER,IBM)>
D60SZ: CAIN N,4-1 ;IS THIS AN IBM LINE?
AOS M.DN6K ;NOTE THAT WE HAVE A DN60 LINE
AOS P2,N ;BUMP TO MAKE DD.XXX SYMBOL
FILOUT <XP M.*KDP,>,I ;OUTPUT SYMBOL
FILOUT <*@>,P2 ;OUTPUT VALUE FOR THE SYMBOL
AOJA I,KSDUP0 ;GO TRY FOR THE NEXT LINE
KSDMR: MOVEM P1,M.KDPN ;SAVE NUMBER OF KDPS
SETZM M.DN6R ;NO DMR IBMCOMM...YET
SETZ N, ;ASSUME NONE
SKPFTT DMR
JRST NODMRS ;NO
MOVEI N,SM.DMRN ;MAXIMUM NUMBER OF DMR11S
ASKDEC <# DMR11 Lines(0,0-*)[Number of DMR11 synchronous line
controllers.]>,N
NODMRS: FILOUT <XP M.DMRN,*@>,N
ADD P1,N ;GET TOTAL COMM LINES
JUMPE P1,KSGEN2 ;IF NONE, TURN OF DN60, DECNET
MOVE P1,N ;SAVE NUMBER OF DMRs
MOVEM P1,M.DMRN ;SAVE NUMBER OF DMRS
SETZ I, ;START WITH DMR0
KSGENR: CAML I,P1 ;DONE WITH ALL DMRs?
JRST KSDUP7 ;YES
MOVE N,I ;GET CURRENT DMR NUMBER
SKPFTT DN60 ;DN60 SUPPORT?
JRST NODN6R ;NO
ASKLST < DMR* line type(ANF10,DECNET,USER,IBM)>
JRST NODN6Y ;SKIP
NODN6R: ASKLST < DMR* line type(ANF10,DECNET,USER)>
NODN6Y: CAIN N,4-1 ;IS THIS AN IBM LINE?
AOS M.DN6R ;NOTE THAT WE HAVE A DN60 LINE
AOS P2,N ;BUMP TO MAKE DD.XXX SYMBOL
FILOUT <XP M.*DMR,>,I ;OUTPUT SYMBOL
FILOUT <*@>,P2 ;OUTPUT VALUE FOR THE SYMBOL
MOVE N,I ;GET CURRENT DMR NUMBER
ASKYN < DMR* switched line(Y,N)[
Does DMR* control a switched (dial-up) line]>,N
EXCH I,N ;NEED TO OUTPUT DMR #
FILOUT <XP DMR*SW,>,N
EXCH I,N ;RESTORE RESPONSE
FILOUT <*@>,N
JUMPE N,KSGENX ;IF NOT, SKIP REST
MOVE N,I
ASKYN < DMR* half duplex(Y,N)[
Does DMR* control a half duplex line]>,N
EXCH I,N
FILOUT <XP DMR*HD,>,N
EXCH I,N
FILOUT <*@>,N
JUMPE N,KSGENX ;IF NOT, LONG START IS MEANINGLESS
MOVE N,I
ASKYN < Is DMR* secondary(Y,N)[
Exactly one end of this link should be a secondary station. Secondary
status controls link startup only.]>,N
EXCH I,N
FILOUT <XP DMR*LS,>,N
EXCH I,N
FILOUT <*@>,N
KSGENX: TTYOUT <@> ;SEPERATE DMRS
AOJA I,KSGENR ;LOOP FOR NEXT
KSDUP7: MOVE T1,M.DN6K ;GET COUNT OF IBMCOM DEVICES
ADD T1,M.DN6R ;ADD IN DMR STYLE DN22S
ADDM T1,M.DN60 ;ACCUMULATE
SKIPE M.DN60 ;IF SOME LINE WANTED IBMCOMM
JRST KSIBMQ ;FORCE IT TO LOAD, DON'T ASK
SKPFTT DN60 ;DN60 SUPPORT
JRST KSIBMQ ;NO
ASKYN <Load IBM communications software (Y,N)[
Allows using a KDP or DMR to talk to a DN22 IBM communications front-end.]>,N
SKIPE M.KDPN ;IF KDPS, CONSIDER
ADDM N,M.DN6K ; THAT D6KINT WANTED
SKIPE M.DMRN ;IF DMRS, CONSIDER
ADDM N,M.DN6R ; THAT D6RINT IS WANTED
MOVE T1,M.DN6K ;NUMBER OF KDP IBM LINES
ADD T1,M.DN6R ;GET TOTAL NUMBER OF COMM LINES
MOVEM T1,M.DN60 ;THIS IS HOW MANY IBM LINES WE WANT
KSIBMQ: FILOUT <XP M.DN60,*@>,M.DN60 ;TELL COMNET ABOUT IBMCOM
FILOUT <XP M.DN6K,*@>,M.DN6K ;LOAD D6KINT??
FILOUT <XP M.DN6R,*@>,M.DN6R ;LOAD D6RINT??
JRST KSGEN3 ;SKIP OVER DEFAULT CODE
KSGEN2: FILOUT <XP M.DECN,0@> ;SAY NO DECNET CODE
FILOUT <XP M.DN60,0@> ;NO IBM CODE
FILOUT <XP M.DN6K,0@>
FILOUT <XP M.DN6R,0@>
KSGEN3: FILOUT <XP MD.MOV,0@>
FILOUT <XP MD.C10,0@>
FILOUT <XP M.CDP,0@>
FILCPU <XP M.CDP,0@>
FILOUT <XP M.VP10,0@>
FILOUT <XP M.340,0@>
FILOUT <XP M.VBXC,0@>
FILOUT <XP M.DIS,0@>
FILOUT <XP M.TD10,0@>
FILCPU <XP M.TD10,0@>
FILOUT <XP MD.DTC,0@>
FILOUT <XP M.PLT,0@>
FILCPU <XP M.PLT,0@>
FILOUT <XP M.PTP,*@>,M.PTP
FILOUT <XP M.PTR,*@>,M.PTR
FILOUT <XP M.DC44,0@>
FILOUT <XP M.XTC,0@>
FILOUT <XP M.XTL,0@>
FILOUT <XP M.DAS78,0@>
FILCPU <XP M.0D78,0@>
FILCPU <XP M.1D78,0@>
FILCPU <XP M.2D78,0@>
FILCPU <XP M.3D78,0@>
FILCPU <XP M.4D78,0@>
FILCPU <XP M.5D78,0@>
FILCPU <XP M.6D78,0@>
FILCPU <XP M.7D78,0@>
FILOUT <XP M.DN6D,0@>
FILOUT <XP M.0D60,0@>
FILOUT <XP M.1D60,0@>
FILOUT <XP M.2D60,0@>
FILOUT <XP M.3D60,0@>
FILOUT <XP M.4D60,0@>
FILOUT <XP M.5D60,0@>
FILOUT <XP M.6D60,0@>
FILOUT <XP M.7D60,0@>
FILOUT <XP M.8D60,0@>
FILOUT <XP M.9D60,0@>
FILOUT <XP M.AD60,0@>
FILOUT <XP M.BD60,0@>
FILOUT <XP M.RX20,*@>,RX20
JRST ASKDSY ;CONTINUE WITH NORMAL PATH
ASKDSY: FILOUT <@RADIX 10@>; ;SET RADIX TO DECIMAL IN FILE
BTHOUT <Decimal "symbol,value"[
For any symbols to be defined.
Type one per line, extra carriage return when through]@>
DSYLOP: TLO F,(F.BANG) ;ALLOW "!" IN EXPRESSIONS
PUSHJ P,TTYIN ;GET NEXT LINE
JRST ASKDSY ;/HELP TYPED, ASK AT PROPER HELP MODE
JUMPE CH,DSYEND ;JUST A CR?
PUSHJ P,GETWRD ;GET FIRST WORD
CAIE CH,"," ;IS IT FOLLOWED BY ,
JRST DSYERR ;NO, ERROR
MOVE CH,B ;COPY PLACE IN LINE
ILDB CH,CH ;GET NEXT CHAR
CAIE CH,"<" ;AN EXPRESSION? (>)
JRST DSYDEC ;NO, CONTINUE NORMALLY
PUSHJ P,WIGEXP ;YES, GET A WIDGETED EXPRESSION
JRST DSYERR ;OOPS.
JRST DSYLOP ;OK, STORE THE MESS
DSYDEC: PUSHJ P,GETDEC ;GET SECOND WORD AS DECIMAL
JUMPN CH,DSYERR ;IS IT LAST WORD ON LINE?
DSYPUT: FILSTR <XP *@>; ;YES, WRITE IT OUT
JRST DSYLOP ;LOOP BACK FOR NEXT LINE
DSYERR: TTYOUT <? Not symbol,value@>
AOJA LV,ASKDSY ;TRY AGAIN
DSYEND: FILOUT <RADIX 8@>; ;SET RADIX BACK TO NORMAL IN FILE
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
; IN CASE HE TYPED /H<CR>
ASKOSY: BTHOUT <@Octal "symbol,value"[
For any symbol to be defined.
Type one per line, extra carriage return when through]@>
OSYLOP: TLO F,(F.BANG) ;ALLOW "!" IN EXPRESSIONS
PUSHJ P,TTYIN ;GET NEXT LINE FOR USER
JRST ASKOSY ;/HELP TYPED, ASK IN DESIRED HELP MODE
JUMPE CH,OSYEND ;JUST A BLANK LINE?
PUSHJ P,GETWRD ;NO, GET FIRST WORD
CAIE CH,"," ;IS BREAK A COMMA?
JRST OSYERR ;NO, ERROR
MOVE CH,B ;COPY PLACE IN LINE
ILDB CH,CH ;GET NEXT CHAR
CAIE CH,"<" ;AN EXPRESSION? (>)
JRST OSYOCT ;NO, CONTINUE NORMALLY
PUSHJ P,WIGEXP ;YES, GET A WIDGETED EXPRESSION
JRST OSYERR ;OOPS.
JRST OSYLOP ;OK, STORE THE MESS
OSYOCT: PUSHJ P,GETOCT ;YES, GET VALUE IN OCTAL
JUMPN CH,OSYERR ;IS THIS END OF LINE?
OSYPUT: FILSTR <XP *@> ;YES, WRITE IT OUT
JRST OSYLOP ;LOOP BACK FOR MORE
OSYERR: TTYOUT <? Not symbol,value@>
AOJA LV,ASKOSY ;GO TRY AGAIN
;HELPER ROUTINE FOR DECIMAL AND OCTAL INPUT TO PROCESS EXPRESSIONS
;
;CALL KNOWING THAT THE NEXT CHAR IS A LEFT WIDGET
;
;RETURN: CPOPJ IF ERROR, CPOPJ1 IF OK
WIGEXP: SETZ I, ;AT LEVEL ZERO
WIGEX0: ILDB CH,B ;GET NEXT WIDGET
JUMPE CH,CPOPJ ;END OF LINE, ERROR
CAIN CH,"<" ;OPEN WIDGET
AOJA I,WIGEX0 ;YES, COUNT DEEPER (ALWAYS FIRST CHAR)
CAIE CH,">" ;CLOSE WIDGET?
JRST WIGEX0 ;NO, JUST WALK ALONG
SOJG I,WIGEX0 ;YES, LESS DEEP. CONTINUE IF NOT LAST ONE
PUSHJ P,SKBLNK ;SKIP TRAILING BLANKS
JUMPN CH,CPOPJ ;RETURN IF NOT AT EOL
MOVSI N,'* ' ;IF EXPRESSION MULTIPLIES, INCLUDE IT
FILSTR <XP *@> ;WRITE OUT THE ANSWER
JRST CPOPJ1 ;SUCCESS
OSYEND: MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
; IN CASE HE TYPED /H<CR>
ASKSSY: BTHOUT <@SIXBIT "symbol,value"[
For any sixbit symbol to be defined.
Type one per line, extra carriage return when through]@>
SSYLOP: PUSHJ P,TTYIN ;GET NEXT LINE
JRST ASKSSY ;/HELP TYPED, ASK IN PROPER MODE
JUMPE CH,SSYEND ;CARRIAGE RETURN?
PUSH P,B ;SAVE BYTE POINTER TO STRING
PUSHJ P,GETWRD ;GET FIRST WORD
CAIE CH,"," ;IS BREAK A COMMA?
JRST SSYERR ;NO, ERROR
PUSHJ P,GETWRD ;GET SECOND WORD
JUMPN CH,SSYERR ;ERROR IF MORE TYPE-IN
POP P,B ;RESTORE BYTE POINTER
PUSHJ P,GETWRD ;GET FIRST WORD AGAIN
FILOUT <XP *>,WD ;OUTPUT FIRST WORD
PUSHJ P,GETWRD ;GET SECOND WORD
FILOUT <,<SIXBIT/*/>@>,WD ;OUTPUT SIXBIT VALUE
JRST SSYLOP ;AND LOOK FOR MORE
SSYERR: POP P,B ;RESTORE PDL
TTYOUT <? Not symbol,value@>
AOJA LV,ASKSSY ;GO TRY AGAIN
SSYEND: MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
; IN CASE USER TYPED /H<CR>
ASKSP1: FILOUT <@DEFINE SPCINT>
PUSHJ P,FILLAB ;LEFT ANGLE BRACKET,CRLF TO FILE
ASKS1A: BTHOUT <Type "device-mnemonic,PI-channel" for special devices[
With neither channel AC save routine nor device data block,
the "device-mnemonic" must be 3 characters or less.
Type extra carriage return when through.]@>
SP1LOP: PUSHJ P,GETDPI ;GET NEXT LINE AND SCAN FOR DEV:PI
AOJA LV,ASKS1A ;ERROR OR /HELP
JUMPE WD,SP1END ;JUST CR TYPED?
RJUMPN CH,<TTYOUT <? Not device-mnemonic,PI-channel@>
AOJA LV,ASKS1A> ;GO ASK FOR MORE
FILSTR <SPASGINT *@>; ;OUTPUT ANSWER TO FILE
JRST SP1LOP ;GO GET ANOTHER LINE
SP1END: PUSHJ P,FILRAB ;RIGHT ANGLE BRACKET,CRLF TO FILE
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
; IN CASE HE TYPED /H<CR>
ASKSP2: FILOUT <@DEFINE SPCDDB> ;START MACRO DEFINITION
PUSHJ P,FILLAB ;LEFT ANGLE BRACKET,CRLF TO FILE
ASKS2A: BTHOUT <Type "device-mnemonic,PI-channel,no.-of-devices"[
For special devices with device data blocks.
the "device-mnemonic" must be 3 characters or less.
Type extra carriage return when through.]@>
SP2LOP: PUSHJ P,GETDPI ;GET NEXT LINE, AND SCAN FOR DEV:PI
AOJA LV,ASKS2A ;/HELP OR ERROR, REASK QUESTION
JUMPE WD,SP2END ;JUST CR TYPED?
CAIE CH,"," ;IS BREAK A COMMA?
JRST SP2ERR ;END OF LINE TOO SOON?
PUSHJ P,GETDEC ;GET NO. OF DEVICES
JUMPN CH,SP2ERR ;IS THIS LAST WORD ON LINE?
FILSTR <SPASGDDB *@>; ;YES, OUTPUT TRIPLE
JRST SP2LOP ;GO GET ANOTHER LINE
SP2ERR: TTYOUT <? Not device-mnemonic,PI-channel, no.-of-devices@>
AOJA LV,ASKS2A ;GO GET MORE
SP2END: PUSHJ P,FILRAB ;RIGHT ANGLE BRACKET,CRLF TO FILE
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
; IN CASE HE TYPED /H<CR>
ASKSP3: FILOUT <@DEFINE SPCSAV> ;START MACRO DEFINITION
PUSHJ P,FILLAB ;LEFT ANGLE BRACKET,CRLF
ASKS3A: BTHOUT <Type "device-mnemonic,PI-channel,highest-ac-to-save"[
For special devices with channel save routines to save acs up to
the "highest-ac-to-save". "Device" must be 3 char or less.
Type extra carriage return when through.]@>
SP3LOP: PUSHJ P,GETDPI ;GET NEXT LINE AND SCAN FOR DSK:PI
AOJA LV,ASKS3A ;/HELP OR ERROR, REASK QUESTION
JUMPE WD,SP3END ;JUST CR TYPED?
CAIE CH,"," ;IS BREAK AFTER PI A COMMA?
JRST SP3ERR ;NO, ERROR
PUSHJ P,GETOCT ;GET HIGHEST AC TO SAVE
JUMPN CH,SP3ERR ;IS THIS LAST ITEM ON LINE?
CAILE N,SM.AC ;SKIP IF LEGAL AC
RJRST <MOVEI N,SM.AC
TTYOCT <? Highest-ac-to-save must be * or less@>
AOJA LV,ASKS3A>
FILSTR <SPASGSAV *@>; ;OUTPUT TRIPLE TO FILE
JRST SP3LOP ;GO GET NEXT LINE
SP3ERR: TTYOUT <? Not device-mnemonic,PI-channel,highest-ac-to-save@>
AOJA LV,ASKS3A ;GO ASK FOR MORE
SP3END: PUSHJ P,FILRAB ;FILL IN A RIGHT ANGLE BRACKET
ASKEDN: FILOUT <@DEFINE SPCEDN> ;START MACRO DEFINITION
PUSHJ P,FILLAB ;ADD LEFT ANGLE BRACKET
ASKEDA: BTHOUT <Type "ersatz-device,P,Pn,search-list-type"[
For customer defined ersatz devices.
The "esratz-device" must be exactly 3 characters long.
"P,Pn" is the Project/Programmer number associated.
"search-list-type" is one of ALL,SYS,JOB.
Type extra carriage return when through.]@>
EDNLOP: PUSHJ P,TTYIN ;GET NEXT INPUT LINE
AOJA LV,ASKEDA ;/HELP OR ERROR
JUMPE CH,EDNEND ;ALL DONE
PUSHJ P,GETWRD ;GET ERSATZ DEVICE NAME
CAIE CH,"," ;BREAK ON COMMA
JRST EDNER1 ;NO, COMMAND ERROR
TRNN WD,770000 ;MUST BE EXACTLY 3 CHARACTERS
TLNN WD,77 ;...
JRST EDNER1 ;ISN'T, GIVE ERROR
PUSHJ P,GETOCT ;GET PROJECT NUMBER
JUMPE CH,EDNER1 ;MUST BE MORE FOLLOWING
CAIE CH,"," ;BREAKON COMMA
JRST EDNER1 ;NO, COMMAND ERROR
PUSHJ P,GETOCT ;GET PROGRAMMER NUMBER
JUMPE CH,EDNER1 ;STILL MORE AFTER THAT
CAIE CH,"," ;BREAKON COMMA
JRST EDNER1 ;NO, COMMAND ERROR
PUSHJ P,GETWRD ;GET SEARCH LIST TYPE
JUMPN CH,EDNER1 ;NOW THAT MUST BE THE LAST
CAME WD,[SIXBIT/ALL/] ;CHECK CHOICES
CAMN WD,[SIXBIT/SYS/] ;...
JRST EDNLO1 ;OK, GO WRITE FILE
CAME WD,[SIXBIT/JOB/] ;LAST CHANCE
JRST EDNER1 ;BAD ARGUMENT
EDNLO1: FILSTR <UERSTZ *@> ;OUTPUT TO FILE
JRST EDNLOP
EDNER1: TTYOUT <?Not ersatz-device,P,Pn,search-list-type@>
AOJA LV,ASKEDA ;ASK AGAIN
EDNEND: PUSHJ P,FILRAB ;OUTPUT RIGHT ANGLE BRACKET
ASKCMD: FILOUT <@DEFINE SPCCMD> ;DEFINE THE MACRO
PUSHJ P,FILLAB ;PUT OUT THE LEFT ANGLE BRACKET
ASKCM1: BTHOUT <@Type "command-name,dispatch,flags,unique-bits,PRVTAB-name"[
For customer defined commands.
The "command-name" is the name of the monitor command to be added, either a
single SIXBIT alphanumeric word, a single SIXBIT character enclosed in
angle-brackets, or omitted if only extending PRVTAB.
"dispatch" is one of:
omitted to run the program with the same name as the command
the SIXBIT name of the program to run if different
#address to use the already existing monitor location "address"
as the dispatch routine for this command, e.g., #RUNQUE
"flags" are the flags used in the command table macros, e.g., RUNFLG
"unique-bits" are the command table unique bits, e.g., UNIQ.1
"PRVTAB-name" is the name of the program to be added to PRVTAB, if any
",PRVTAB-name" is also acceptable.
Type extra carriage return when through.]@>
ASKCM2: SETZM UCMBGN ;ZERO FIRST WORD OF DATA
MOVE CH,[UCMBGN,,UCMBGN+1] ;SETUP BLT POINTER
BLT CH,UCMEND ;ZERO IT ALL
TLO F,(F.BANG) ;ALLOW "!" IN INPUT LINE
PUSHJ P,TTYIN ;GET THE LINE
JRST ASKCM1 ;/HELP TYPED
JUMPE CH,ASKC10 ;GO IF NO COMMANDS SPECIFIED
PUSHJ P,GETWRD ;GET THE COMMAND NAME
JUMPN WD,ASKC12 ;CHECK TERMINATOR IF GOT A WORD
CAIN CH,"," ;IF A PRVTAB-ONLY ENTRY,
JRST ASKC12 ;CHECK OTHER THINGS
MOVE WD,CH ;NO, COPY FOR LATER
CAIE CH,"<" ;ANGLE-BRACKETED?
JRST ASKCME ;NO, REQUIRE ANGLIES FOR 1-CHAR COMMANDS
ILDB WD,B ;YES, GET NEXT CHARACTER
JUMPE WD,ASKCME ;EOL IS ILLEGAL HERE
ILDB CH,B ;GET CLOSE-ANGLE
CAIE CH,">" ;IS IT WHAT WE EXPECTED?
JRST ASKCME ;NO
ASKC13: CAILE WD,40 ;MAKE SURE IT'S IN SIXBIT RANGE
CAILE WD,137
JRST ASKCME ;NO
TRZ WD,40 ;YES, CONVERT TO SIXBIT
CAIE WD,'<' ;IF EITHER FLAVOR
CAIN WD,'>' ;OF BROCKET,
CAIA ;YES, FLAG BY LEAVING RIGHT-ADJUSTED
LSH WD,^D30 ;ELSE, LEFT-JUSTIFY IN WORD
ILDB CH,B ;PICK UP TERMINATOR
ASKC12: CAIE CH,"," ;TERMINATOR A COMMA?
JRST ASKCME ;NO
MOVEM WD,UCMCMD ;STORE FOR LATER
PUSHJ P,GETWRD ;GET THE DISPATCH
CAIE CH,"#" ;WAS IT AN ADDRESS?
JRST ASKCM3 ;NO, MUST BE A PROGRAM NAME OR NULL
JUMPN WD,ASKCME ;CAN'T HAVE XXX#
SKIPE WD,UCMCMD ;IF PRVTAB-ONLY, THIS IS ILLEGAL
PUSHJ P,GETWRD ;GET THE ADDRESS
JUMPE WD,ASKCME ;MUST NOT BE NULL
CAIE CH,"," ;TERMINATOR A COMMA?
JRST ASKCME ;NO
MOVEM WD,UCMADR ;STORE FOR LATER
JRST ASKCM4 ;SKIP PROGRAM NAME STUFF
ASKCM3: SKIPN UCMCMD ;IF PRVTAB-ONLY,
JUMPN WD,ASKC15 ;THE PRVTAB NAME MUST BE LAST
CAIE CH,"," ;TERMINATOR A COMMA?
JRST ASKCME ;NO
MOVEM WD,UCMPRG ;SAVE PROGRAM NAME OR NULL
ASKCM4: MOVEM B,UCMBP1 ;SAVE BYTE POINTER POSITION
ASKCM5: ILDB CH,B ;GET NEXT CHARACTER
JUMPE CH,ASKCME ;CAN'T HAVE EOL HERE
CAIE CH,"," ;SKIP THE FLAGS
JRST ASKCM5 ;CONTINUE
ASKCM6: ILDB CH,B ;GET NEXT CHARACTER OF UNIQUE BITS
JUMPE CH,ASKCME ;CAN'T HAVE EOL HERE
CAIE CH,"," ;FIND THE END?
JRST ASKCM6 ;NO, CONTINUE
MOVEM B,UCMBP2 ;STORE ENDING BYTE POINTER
PUSHJ P,GETWRD ;GET THE PRVTAB NAME
ASKC15: JUMPN CH,ASKCME ;MUST HAVE EOL HERE
SKIPN UCMCMD ;IF PRVTAB-ONLY ENTRY,
JUMPE WD,ASKCME ;REQUIRE A PRVTAB NAME
PUSH P,WD ;SAVE FOR LATER
FILOUT <UCMDNM > ;START THE LINE
MOVEI CH,"<" ;WANT TO BRACKET THE COMMAND
PUSHJ P,FILPUT ;BEGIN NAME
SKIPN CH,UCMCMD ;GET SIXBIT OR ASCII
JRST ASKC14 ;NEITHER--LEAVE IT BLANK
TLNN CH,(77B5) ;IS IT SIXBIT?
JRST [PUSHJ P,FILPUT ;NO, DUMP AS ASCII FOR BROCKETS
JRST ASKC14] ;MERGE IN AFTER FILOUT
FILOUT <*>,UCMCMD ;TYPE COMMAND NAME
ASKC14: MOVEI CH,">" ;END BROCKET
PUSHJ P,FILPUT ;FINISH COMMAND NAME VALUE
FILOUT <,> ;SEPARATE FIELDS WITH A COMMA
SKIPN N,UCMPRG ;GET THE PROGRAM NAME
JRST ASKCM7 ;NULL
FILOUT <*> ;PUT IT OUT
ASKCM7: FILOUT <,>
SKIPN N,UCMADR ;GET THE ADDRESS
JRST ASKCM8 ;NULL
FILOUT <*> ;PUT IT OUT
ASKCM8: FILOUT <,>
SKIPE T1,UCMBP1 ;GET THE INITIAL BYTE POINTER
JRST ASKCM9 ;GO USE IT
FILOUT <,,> ;FILL IN THE MISSING DELIMITERS
JRST ASKC16 ;AND GO FINISH UP
ASKCM9: ILDB CH,T1 ;GET NEXT CHARACTER
CAIE CH," " ;SKIP SPACES AND
CAIN CH," " ; TABS
JRST ASKCM9
PUSHJ P,FILPUT ;PUT IT OUT
CAME T1,UCMBP2 ;END OF STRING?
JRST ASKCM9 ;NO, GET NEXT
ASKC16: POP P,N ;GET BACK PRVTAB NAME
JUMPE N,ASKC11 ;GO IF NO PRVTAB NAME
FILOUT <*> ;PUT IT OUT
ASKC11: FILOUT <@> ;END THE LINE
JRST ASKCM2 ;GET NEXT LINE
ASKCME: TTYOUT <?Incorrect syntax for user defined command@>
AOJA LV,ASKCM1
ASKC10: PUSHJ P,FILRAB ;END THE MACRO
MOVE LV,SAVLV ;RESTORE PROMPT AFTER /HELP
ASKTRM: FILOUT <@DEFINE SPCTRM> ;START THE MACRO
PUSHJ P,FILLAB ;ADD LEFT ANGLE BRACKET
ASKTRA: BTHOUT <Type "terminal-type/Alias,WIDTH,LENGTH,FF,TAB,LC,ALT,DISPLAY,CRLF,XON,8BIT,FILL,erase-to-EOL,backspace-space-backspace"[
For customer defined terminal types.
Terminal-type is the SIXBIT name of the terminal.
/Alias is optional. Alias is the SIXBIT name sent to other systems on
set host.
WIDTH is the width of the terminal
LENGTH is the length/pagesize of the terminal
FF/NOFF is whether or not the terminal has hardware form feeds
TAB/NOTAB is wheither or not the terminal has hardware tabs
LC/NOLC is wheither or not the terminal is capabile of lower case
ALT/NOALT is wheither or not the terminal generates old altmodes
DIS/NODIS is wheither or not the terminal is a display terminal
CRLF/NOCRLF is wheither or not the terminal needs a CRLF at right margin
XON/NOXON is wheither or not ^S/^Q should pause the terminal
8BIT/NO8BIT is whether the terminal handles the 8-bit ASCII character set
FILL is the number of fill characters required for the terminal
Erase-to-EOL is address of sequences to cursor right and erase to EOL
Backspace-space-backspace is address of sequences to backspace, space, backspace
Type extra carriage return when through.]@>
TRMLOP: PUSHJ P,TTYIN ;GET NEXT INPUT LINE
AOJA LV,ASKTRM ;/HELP OR ERROR
JUMPE CH,TRMEND ;ALL DONE
PUSHJ P,GETWRD ;READ TERMINAL TYPE
JUMPE WD,TRMERR ;AS IS NULL NAME
CAIE CH,"/" ;ALIAS?
JRST TRMLP1 ;NO, NORMALCY
MOVEI CH,"," ;ALIAS
DPB CH,B ;REPLACE "/"
PUSHJ P,GETWRD ;SCAN THE ALIAS
JUMPE WD,TRMERR ;AS IS NULL NAME
TRMLP1: CAIE CH,"," ;BREAK ON COMMA
JRST TRMERR ;NO--COMMAND ERROR
PUSHJ P,GETDEC ;READ WIDTH
CAIE CH,"," ;BREAK ON COMMA
JRST TRMERR ;NO--COMMAND ERROR
PUSHJ P,GETDEC ;READ LENGTH
CAIE CH,"," ;BREAK ON COMMA
JRST TRMERR ;NO--COMMAND ERROR
MOVSI I,-TRMLEN ;LENGTH OF TERMINAL ATTRIBUTES
TRMLO1: PUSHJ P,GETWRD ;READ ATTRIBUTE
CAIE CH,"," ;BREAK ON COMMA
JRST TRMERR ;NO--COMMAND ERROR
JUMPE WD,TRMERR ;AS IS NULL NAME
CAMN WD,TRMATT(I) ;MATCH ATTRIBUTE?
JRST TRMLO2 ;YES--OK
TLC WD,'NO ' ;SEE IF /NOXYZ
TLCE WD,'NO ' ;..
JRST TRMERR ;NO--ERROR
LSH WD,^D12 ;SHIFT 'NO' OFF
CAME WD,TRMATT(I) ;MATCH NOW?
JRST TRMERR ;NO--ERROR
TRMLO2: AOBJN I,TRMLO1 ;LOOP FOR ALL
PUSHJ P,GETDEC ;READ FILL
CAIE CH,"," ;BREAK ON COMMA
JRST TRMERR ;NO--COMMAND ERROR
PUSHJ P,GETWRD ;READ ERASE SEQUENCE
CAIE CH,"," ;BREAK ON COMMA
JRST TRMERR ;NO--COMMAND ERROR
PUSHJ P,GETWRD ;READ BACKSPACE SEQUENCE
JUMPN CH,TRMERR ;NOW THAT MUST BE THE LAST
FILSTR <TERMCR *@> ;OUTPUT TO FILE
JRST TRMLOP ;LOOP FOR ALL
TRMERR: TTYOUT <?Not a valid terminal attribute list format@>
AOJA LV,ASKTRA ;ASK AGAIN
;TABLE OF VALID TERMINAL ATTRIBUTES (SAME ORDER AS MACRO IN COMDEV)
TRMATT: SIXBIT /FF/
SIXBIT /TAB/
SIXBIT /LC/
SIXBIT /ALT/
SIXBIT /DIS/
SIXBIT /CRLF/
SIXBIT /XON/
SIXBIT /8BIT/
TRMLEN==.-TRMATT
TRMEND: PUSHJ P,FILRAB ;OUTPUT RIGHT ANGLE BRACKET
MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
HDWEND: POPJ P, ;END OF HDWGEN, RETURN AND CLOSE FILE
SUBTTL NETGEN - DIALOG TO DEFINE NETWORK CONFIGURATIONS
NETGEN: FILOUT <SUBTTL NETCNF - NETWORK CONFIGURATION DEFINITION FILE OUTPUT BY MONGEN DIALOG@@@>
FILOUT <DEFINE XP(A,B),<A==:B>@@@>
MOVEI N,VERSION ;MONGEN PROGRAM VERSION NUMBER
FILOUT <XP M.NET,*@>,N ;OUTPUT TO FILE FOR COMMON TO CHECK FOR
FILOUT <XP M.RSS,0@>; ;OLD REMOTE STATION CODE SWITCH OFF
FILOUT <XP M.DS10,0@>; ;NO DS10
FILOUT <XP M.DP01,0@>; ;OR DP01
ASKNET: SKPFTT DC72 ;PDP8-SUPPORT?
JRST NODC72
ASKYN <Network software(Y,N)[
Software to support remote computers: DECsystem-10's,
PDP-11's, PDP-8's (requires FTNET to be -1)]>
JRST DC72Z1
NODC72: ASKYN <Network software(Y,N)[
Software to support remote computers: DECsystem-10's and
PDP-11's (requires FTNET to be -1)]>
DC72Z1: FILOUT <XP M.NET,*@>
JUMPE N,NETNON
SETZM M.DL10 ;ASSUME NO DL10'S
MOVEI P1,1 ;COUNT FRONT ENDS STARTING AT 1
MOVEI N,SM.CPU
SKPFTF CPUS ;MORE?
MOVEI N,SU.CPU ;YES
SKPFTT DN87
SKPFTF DC75
CAIA
JRST NO76Z2
ASKDEC <Cpu's(1,1-*)[Total number of cpu's in the system]>
NO76Z2: MOVEM N,M.CPU
SETOM CPUN
ASKNT1: AOS N,CPUN
CAML N,M.CPU
JRST ASKCEN
SKIPE CPUN
JRST ASK85B
SKPFTT DC75
SKPFTF DN87
CAIA
JRST ASK85B ;NONE
ASKDEC <How many DC75NP's or DN87's on CPU*(1,0-8)[Network
front-ends connected to DL10's.]>
MOVEM N,M.DC75 ;store number of 75/87's
FILOUT <XP M.DC75,*@>,M.DC75
SKIPN M.DC75 ;ask which ports if non-zero
JRST ASK85B ;if none, write out symbols as zeros
SETZ P2, ;P2=0 SAYS DL10 INTERFACE
ASK85A: PUSHJ P,ASK85S ;ask which port
ADDI P1,1 ;increment counter
SOSE M.DC75 ;are we done?
JRST ASK85A ;no, continue
ASK85B: FILCPU <XP M.0D85,*@>,M.0D85 ;OUTPUT ALL SYMBOLS
FILCPU <XP M.1D85,*@>,M.1D85
FILCPU <XP M.2D85,*@>,M.2D85
FILCPU <XP M.3D85,*@>,M.3D85
FILCPU <XP M.4D85,*@>,M.4D85
FILCPU <XP M.5D85,*@>,M.5D85
FILCPU <XP M.6D85,*@>,M.6D85
FILCPU <XP M.7D85,*@>,M.7D85
JRST ASKNT1
ASKCEN: ASKOCT <ANF node number of central site(1,1-77)[
Unique octal number identifying system to ANF network.]>
FILOUT <XP OURNNM,*@>,N
ASKNNM:
ASKSTR <Name of central site[Six characters or less.]>
CAILE N,^D6 ;CORRECT NUMBER?
RJRST <TTYOUT <%More than 6 characters.@>
JRST ASKNNM>
FILSTR <@DEFINE SYSNDE
<SIXBIT &*&>@>
MOVEI N,SM.RMCR ;MAX REMOTE TTY'S
ASKDEC <# of remote TTY's(1,1-*)[
Maximum number of teletypes on ANF network nodes to be
handled at any given time.]>,N
FILOUT <XP M.RMCR,*@>,N
ASKYN <ANF Network virtual terminals(Y,N)[
Code to allow local terminals to "SET HOST" to other systems.]>,N
FILOUT <XP M.RVTM,*@>,N
ASKYN <Remote card readers(Y,N)[
Code to allow access to card readers on ANF remote stations.]>,N
FILOUT <XP M.RCDR,*@>,N
ASKYN <Remote line printers(Y,N)[
Code to allow access to line printers on ANF remote stations.]>,N
FILOUT <XP M.RLPT,*@>,N
ANFPTP: SKPFTT RPTP ;REMOTE PTP?
JRST ANFPTR ;NO
ASKYN <Remote paper tape punches(Y,N)[
Code to allow access to paper tape punches on ANF remote stations.]>,N
FILOUT <XP M.RPTP,*@>,N
ANFPTR: SKPFTT RPTR ;REMOTE PTR?
JRST ANFPLT ;NO
ASKYN <Remote paper tape readers(Y,N)[
Code to allow access to paper tape readers on ANF remote stations.]>,N
FILOUT <XP M.RPTR,*@>,N
ANFPLT: SKPFTT RPLT ;REMOTE PLT?
JRST ANFDDP ;NO
ASKYN <Remote plotters(Y,N)[
Code to allow access to plotters on ANF remote stations.]>,N
FILOUT <XP M.RPLT,*@>,N
ANFDDP: ASKYN <Remote DN8x DDCMP devices(Y,N)[
Code to allow access to DN8x LBLK-to-DDCMP devices on ANF remote stations.]>,N
FILOUT <XP M.RDDP,*@>,N
ASKYN <Remote data entry terminals(Y,N)[
Code to allow access to remote data entry terminals (RDX devices).]>,N
FILOUT <XP M.RDX,*@>,N
ASKYN <Remote task-to-task through ANF(Y,N)[
Code to allow access to remote jobs (TSKSER).]>,N
FILOUT <XP M.RJOB,*@>,N
MOVEI N,SM.CONN/2 ;DEFAULT TO HALF THE MAX.
ASKDEC <# of ANF connects(*,1-512)[
Maximum number of simultaneous connections.]>,N
FILOUT <XP M.CONN,*@>
ASKYN <DECnet software(Y,N)[
Load monitor modules needed to communicate with other DECnet nodes]>
FILOUT <XP M.DECN,*@>,N ;TELL COMMONS IF DECNET WANTED
JUMPE N,ASKETH ;NO, SKIP OVER ALL THIS STUFF
ASKDEC <DECnet area number of central site(1,1-63)[
Decimal area number for multi-area DECnet network configurations.]>
FILOUT <XP %RTHOM,*@>,N
ASKDEC <DECnet node number of central site(1,1-1023)[
Unique decimal number identifying system to DECnet network.]>
FILOUT <XP %RTADR,*@>,N
ASKLST <DECnet router type(ROUTING,NONROUTING)[
ROUTING nodes can have multiple circuits and perform DECnet routing.
NONROUTING nodes have only an ethernet circuit and perform no DECnet routing.]>
ADDI N,4 ;CONVERT TO VALUES 4(ROUTING) AND 5(NONROUTING)
FILOUT <XP %RTRTY,*@>,N
SKPFTT RTRXPW ;Question enabled?
JRST ASKETH ;NO
ASKXPW: ASKSTR <Transmit password(DECNET20)[
Password used when initializing a point-point --KDP, DTE, or DMR-- link.
64 characters or less]>
CAILE N,^D64 ;24 OR LESS?
RJRST <TTYOUT <? More than 64 characters@>
JRST ASKXPW>
MOVSI N,'* ' ;IN CASE "*" IS IN PASSWORD
FILSTR <DEFINE %RTXPW<RTRPW <*>>@>
ASKETH: ASKYN <Ethernet software(Y,N)[
Load monitor modules needed to communicate via Ethernet]>
FILOUT <XP M.ENET,*@>,N ;TELL COMMONS IF DECNET WANTED
JUMPN N,ASKLAT ;YES, GO ASK ABOUT LAT TERMINALS
FILOUT <XP M.LATN,0@>
FILOUT <XP M.LAMC,0@>
REPEAT 0,< ;UNTIL LAT TTYS GET SEPARATED FROM NETWORK TTYS
FILOUT <XP M.LATT,0@>
>; END REPEAT 0
JRST NETEND
ASKLAT: ASKYN <Include LATSER(Y,N)[
Load monitor module to communicate with
terminal concentrators via Ethernet]>
FILOUT <XP M.LATN,*@>,N
MOVEI N,SM.LMC ;MAXIMUM NUMBER OF SIMULTANEOUS CIRCUITS
ASKDEC <# of simultaneous LAT circuits(20,1-*)[
Maximum number of simultaneous LAT circuits.
One is required for each active LAT server.]>,N
FILOUT <XP M.LAMC,*@>
REPEAT 0,< ;UNTIL LAT TTYS GET SEPARATED FROM NETWORK TTYS
MOVEI N,SM.LTT ;MAXIMUM NUMBER OF SIMULTANEOUS CONNECTIONS
ASKDEC <# of LAT connects(1,1-*)[
Maximum number of simultaneous LAT connections.]>,N
FILOUT <XP M.LATT,*@>
>; END REPEAT 0
JRST NETEND
NETNON: ;DEFINE ALL SYMBOLS AS ZERO
FILOUT <XP M.NODE,0@>
FILOUT <XP M.DC75,0@>
FILCPU <XP M.0D85,0@>
FILCPU <XP M.1D85,0@>
FILCPU <XP M.2D85,0@>
FILCPU <XP M.3D85,0@>
FILCPU <XP M.4D85,0@>
FILCPU <XP M.5D85,0@>
FILCPU <XP M.6D85,0@>
FILCPU <XP M.7D85,0@>
FILOUT <XP OURNNM,0@>
FILSTR <@DEFINE SYSNDE<>@>
FILOUT <XP M.CONN,0@>
FILOUT <XP M.RMCR,0@>
FILOUT <XP M.RVTM,0@>
FILOUT <XP M.RCDR,0@>
FILOUT <XP M.RLPT,0@>
FILOUT <XP M.RPTR,0@>
FILOUT <XP M.RPTP,0@>
FILOUT <XP M.RPLT,0@>
FILOUT <XP M.RDDP,0@>
FILOUT <XP M.RJOB,0@>
FILOUT <XP M.RDX,0@>
FILOUT <XP M.DECN,0@>
FILOUT <XP M.ENET,0@>
FILOUT <XP M.LATN,0@>
NETEND: POPJ P, ;END OF NETGEN, RETURN AND CLOSE FILES
ASK85S: MOVE N,P1 ;GET FRONT END #
TTYOCT <For front end number *:@>;identify which PDP11
JUMPN P2,ASK851 ;DO RIGHT MESSAGE FOR DL10/DTE-20
ASKDEC <To which DL10 port is the DC75 or DN87 connected (0,0-7)[]>;ask port
JRST ASK852 ;SKIP DTE-20 QUESTION
ASK851: ASKDEC <To which DTE20 is the DN87S connected (1,1-3)[]>
ASK852: MOVE T1,N ;use answer as index
MOVEI N,1 ;value to set word M.nD85 to
MOVEM N,M.0D85(T1) ;set word to 1 indicating port in use as 85
POPJ P, ;return
SUBTTL ASK ROUTINES - ASK QUESTION ON TTY, FILE AND GET ANSWER
;LSTEXP - ROUTINE TO DO LIST OR EXPLAIN MODE FOR FGEN
;CALL: MOVEI N,1 OR 2 FOR LIST OR EXPLAIN
; PUSHJ P,LSTEXP
; RETURNS WHEN DONE
LSTEXP: CAIE N,1 ;SKIP IF LIST, NOT IF EXPLAIN
TLOA F,(F.EXP) ;SET EXPLAIN FLAG FOR EXPLAIN
TLZ F,(F.EXP) ;CLEAR EXPLAIN FLAG FOR LIST
ASKLEX: TTYOUT <Switch(switch to list or explain)[
Type name of switch to be listed or explained or ALL or /HELP.
Type extra carriage return when through.]@@>
LEXLOP: PUSHJ P,TTYIN ;GET SWITCH TYPED
JRST ASKLEX ;/HELP TYPED
JUMPE CH,LEXXIT ;EXIT IF BLANK LINE
PUSHJ P,GETWRD ;GET SWITCH NAME
RJUMPN CH,<MOVE N,WD ;;N=SWITCH NAME TYPED
TTYOUT <? Unknown switch *@>
JRST ASKLEX>
CAMN WD,[SIXBIT .ALL.] ;SKIP IF NOT "ALL"
JRST ALLLEX ;DO ALL SWITCHES IN TABLE AND EXIT
PUSHJ P,LEXSWT ;LIST OR EXPLAIN THIS SWITCH
JRST ASKLEX ;ILLEGAL SWITCH, RETYPE PROMPT
JRST LEXLOP ;OK, WAIT FOR ANOTHER
LEXXIT: MOVE LV,SAVLV ;RESTORE PERMANENT HELP LEVEL
POPJ P, ;AND RETURN
;HERE IF WANT ALL SWITCHES
ALLLEX: HRLZ T1,FTLEN ;AOBJN PTR TO TABLE
ALLLE1: PUSH P,T1 ;SAVE AOBJN PTR
SKIPN WD,@FTTAB ;SKIP IF HAVE A SWITCH HERE
JRST ALLLE2 ;NO, IGNORE IT
TLZ WD,777700 ;CLEAR JUNK
TLO WD,'FT ' ;MAKE SWITCH BE FT...
PUSHJ P,LEXSWT ;LIST OR EXPLAIN THIS SWITCH
JFCL ;IGNORE ERRORS THAT SHOULDN'T HAPPEN
ALLLE2: POP P,T1 ;RESTORE AOBJN PTR
AOBJN T1,ALLLE1 ;LOOP FOR WHOLE TABLE
POPJ P, ;RETURN
;LEXSWT - ROUTINE TO LIST OR EXPLAIN ONE SWITCH
;CALL: MOVE WD,SWITCH NAME
; PUSHJ P,LEXSWT
; RETURN HERE IF UNKNOWN SWITCH
; RETURN HERE IF FOUND, LIST OR EXPLAIN DONE
LEXSWT: HLRZ N,WD ;N=FIRST THREE CHARS
TRZ N,77 ;ONLY LOOK AT FIRST TWO
CAIE N,'FT ' ;SKIP IF FT...
RJRST <MOVE N,WD
TTYOUT <? Unknown switch *@>
POPJ P,>
TLZ WD,777700 ;CLEAR UNWANTED JUNK
RJUMPE WD,<TTYOUT <? Unknown switch@>
POPJ P,>
PUSHJ P,FNDSWT ;FIND SWITCH IN TABLE
MOVE N,WD ;N=SWITCH NAME, WT1=INDEX IN TABLE
TLO N,'FT ' ;ADD BACK "FT"
RJUMPGE T1,<TTYOUT <? Unknown switch *@>
POPJ P,>
PUSH P,N ;SAVE NAME OF SWITCH IN CASE EXPLAINING
SKIPL @FTTAB ;SKIP IF VALUE IS ON
JRST LEXSW1 ;NO, SWITCH IS OFF
TTYOUT <*,-1>
JRST LEXSW2
LEXSW1: TTYOUT <*,0>
LEXSW2: POP P,WD ;RESTORE NAME OF SWITCH TO LOOKUP EXPLANATION
AOS (P) ;OK, GIVE SKIP RETURN AND FINISH UP
TLNE F,(F.EXP) ;SKIP IF LIST, NOT IF EXPLAIN
PJRST LEXSW3 ;DO EXPLAIN
TTYOUT <@>
POPJ P,
;HERE TO EXPLAIN SWITCH
;HERE TO POSITION FGEN HELP FILE AT EXPLANATION FOR THIS SWITCH, WD IS SET UP
LEXSW3: FHLPOS *,LEXSWE
PUSHJ P,FHLPTT ;COPY TO TTY
LEXSWE: TTYOUT <@>
POPJ P, ;RETURN
;FNDSWT - ROUTINE TO FIND A SWITCH IN THE TABLE
;CALL: MOVE WD, SWITCH NAME WITH "FT" CLEARED
; PUSHJ P,FNDSWT
; RETURN N=INDEX OF SWITCH IN TABLE, OR GE 0 IF NOT IN TABLE
FNDSWT: HRLZ T1,FTLEN ;AOBJN PTR TO SWITCH TABLE
FNDSW1: HRLOI N,77 ;N=MASK FOR 4 CHARS
AND N,@FTTAB ;N=NEXT SWITCH NAME IN TABLE
CAME N,WD ;SKIP IF FOUND MATCH
AOBJN T1,FNDSW1 ;NO, TRY NEXT IN TABLE
POPJ P,
;ASKSYS - ROUTINE TO FIND OUT WHAT TYPE OF SYSTEM
;CALL: PUSHJ P,ASKSYS
; RETURN N=INDEX OF TYPE OF SYSTEM
ASKSYS:
SKPFTT CPUTYP ;SKIP IF UNSUPPORTED TYPES
JRST ASKSYX ;SUPPORTED
ASKLST <DECsystem10(1070,1080,1090,1091,2020)[
1070 is a system with KI10 cpu's
1080 is a system with KL10 cpu's
1090 is a system with KL10 cpu's and internal channels
1091 is a system with a KL10 cpu, internal memory, and devices
on the front end
2020 is a system with a KS10 cpu]>
JRST ASKSYY ;SKIP
ASKSYX: ASKLST <DECsystem10(KL,KS)[
KL is a system with KL10 cpu's and internal channels
KS is a system with a KS10 cpu]>
CAIN N,0 ;ALL KL'S
MOVEI N,2 ; MAP TO 2
CAIN N,1 ;AND KS'S
MOVEI N,4 ; MAP TO 4
ASKSYY: CAILE N,MP.SMX ;IS THIS A PDP10I SYSTEM?
RJRST <MOVEI N,MP.MVN ;MONITOR VERSION NUMBER
TTYOUT <? Not available in * monitor@>,N
JRST ASKSYS>
MOVEM N,CNFIND ;SAVE INDEX OF SYSTEM TYPE
AOS M.1070(N) ;SET ONE OF THE VARIABLES TO 1
; M.1070, M.1080, M.1090, M.1091, M.2020
CAIE N,4 ;2020?
JRST ASKSY1 ;NO--GO ON
AOS M.KS10 ;YES--SET RIGHT FLAG
POPJ P, ;RETURN
ASKSY1: SKIPN N
AOSA M.P10I
AOS M.KL10
POPJ P, ;RETURN
;ASKYN - ROUTINE TO ASK AND ACCEPT A Y OR N ANSWER
; USED WHEN ONLY CHOICE OF PRESENCE OR ABSENCE IS POSSIBLE
;CALL: ASKYN <...(Y,N)[...]>
; RETURN N=1 IF Y, N=0 IF N
; NOTE: (Y,N) MUST BE IN THIS ORDER, SO USER KNOWS DEFAULT ALWAYS IS Y
ASKZYN:
ASKYN: PUSHJ P,ASKLS1 ;ASK QUESTION, GET ANSWER POSITION IN N
MOVS T1,ASKTAB+0 ;IS FIRST PROMPT
CAIE T1,'Y ' ;Y FOR YES?
JRST ASKYNE ;NO, ERROR
MOVS T1,ASKTAB+1 ;YES, IS SECOND PROMPT
SKIPN ASKTAB+2 ;ARE THERE MORE THAN TWO CHOICES?
CAIE T1,'N ' ;NO, IS IT N?
ASKYNE: RJRST <EREXIT <ASKYN called without (Y,N) in above message>,>
JUMPE N,ASKY ;FIRST ITEM IN LIST(Y)?
;HERE ON N ANSWER
TDZA N,N ;RETURN 0
;HERE ON Y ANSWER
ASKY: MOVEI N,1 ;RETURN 1
POPJ P,
;ROUTINE TO ASK QUESTON WITH PROMPTING ANSWERS IN A LIST IN PARENS
;CALL: ASKLST <...(ANS0,ASN1,ANS2,...)[...]>
; RETURN HERE WITH N=0,1,2,...
; IF JUST CR TYPED, N=0 TO MEAN FIRST ITEM BY DEFAULT
;ABBREVIATIONS ARE ALLOWED LIKE MONITOR COMMANDS
; IF WRONG ANSWER IS GIVEN, THE FOLLOWING ERROR MESSAGE IS TYPED:
; ? ANSWER MUST BE ONE OF (ANS0,ANS1,ANS2,...)
; FOLLOWED BY A REPEAT OF QUESTION IN NEXT LONGEST MODE
;IF A LIST OF PROMPTINGS IS NOT INCLUDED IN PARENS,
; ? INTERNAL MONGEN ERROR - NO CHOICES IN PARENS - EDIT MONGEN
ASKLST: PUSHJ P,ASKLS1 ;ASK AND GET ANSWER
MOVS T1,ASKTAB+0 ;IS FIRST PROMPT
CAIE T1,'Y ' ;Y
CAIN T1,'N ' ; OR N?
JRST ASKLSE ;YES, ERROR SHOULD USE ASKYL INSTEAD
MOVS T1,ASKTAB+1 ;IS SECOND PROMPT
CAIE T1,'Y ' ;Y
CAIN T1,'N ' ;OR N?
ASKLSE: RJRST <EREXIT <ASKLST called with (Y,N) in above question
- Edit MONGEN to call ASKYN instead of ASKLST@>,>
POPJ P, ;RETURN WITH N SET TO POSITION OF ANSWER
;SUBROUTINE TO DO THE WORK OF ASKING AND GETTING ANSWER.
;CALLED BY ASKLST AND ASKYN
ASKLS1: MOVEI R,^D10 ;SET RADIX TO 10(IN CASE * SUBS.)
PUSHJ P,ASKBG ;STANDARD ASK ROUTINE BEGINNING
; SAVE ADR OF QUESTION AND N ON STACK, OUTPUT CRLF
; TO FILE, OUTPUT QUESTION AS COMMENT TO FILE
;LOOP TO ASK QUESTION OVER AGAIN AFTER ERROR OR /HELP
ASKOVR: MOVE N,(P) ;REESTORE ORIGINAL N INCASE THIS IS LOOP
; SO * SUBSTITUTION WILL BE THE SAME
HRRZ T1,-1(P) ;ADR OF MESSAGE
PUSHJ P,TTROUT ;OUTPUT TO TTY
HRRZ T1,-1(P) ;ADR OF ASK MESSAGE
PUSHJ P,SETASK ;SET UP LIST OF CHOICES IN ASKTAB
; FROM SCANNING LIST OF PROMPTINGS
PUSHJ P,TTYIN ;ASK FOR INPUT LINE, OUTPUT TO FILE AS COMMENT
JRST ASKOVR ;/HELP TYPED, REASK IN DESIRED HELP MODE
PUSHJ P,FNDASK ;NO, LOOK FOR HIS ANSWER IN ASKTAB
AOJA LV,ASKOVR ;NOT THERE, ASK QUESTION AGAIN WITH MORE HELP
; BY MAKIN LEVEL ONE HIGHER
JRST ASKXIT ;FOUND, RESTORE LEVEL
; TO THAT BEFORE QUESTION AND RETURN
;ROUTINE TO SCAN MESSAGE FOR PROMPTING ANSWERS
;CALL: MOVEI T1,ADR OF ASCIZ STRING
; PUSHJ P,SETLST
; RETURN ONLY IF ANSWERS IN PARENS FOUND
; ELSE PRINT ? INTERNAL MONGEN ERROR - NO ( IN ABOVE MESSAGE,
; ADD (ANS0,ASN1,ASN2...) TO MONGEN BY EDITING
; B IS PRESERVED
SETASK: HRLI T1,440700 ;FORM LH OF BYTE POINTER
PUSH P,B ;SAVE BYTE POINTER(NOT AN ARGUMENT)
; CALLER MAY HAVE SOMETHING IN IT
PUSH P,N ;SAVE POSSIBLE SUBSTITUTION
;LOOP TO FIND LEFT PAREN
ASK0: ILDB CH,T1 ;GET NEXT CHAR IN ASK MESSAGE
RJUMPE CH,<EREXIT <? No (ANS0,ASN1,...) in above question - Edit MONGEN>,>
CAIE CH,"(" ;LEFT PAREN?
JRST ASK0 ;NO, KEEP LOOKING
MOVEI N,0 ;SET ANSWER INDEX TO 0
MOVE B,T1 ;SETYUP BYTE POINTER TO PROMPTING LIST FOR GETWRD
;LOOP TO BREAK PROMPTING ANSWERS - N=0,1,... FOR EACH ANSWER
ASK2: PUSHJ P,GETWRD ;GET NEXT WORD INSIDE PARENS
CAIE CH,"*" ;SKIP IF WANT SUBSTITUTION
JRST ASK2A ;NO, KEEP CHECKING
JUMPN WD,ASK2E ;JUMP IF SOMETHING PRECEEDED *, ERROR
MOVE WD,(P) ;RESTORE SUBSTITUTION
ASK2A: MOVEM WD,ASKTAB(N) ;ANS STORE ANSWER AWAY
CAILE N,MP.AMX ;MORE THAN MAX. NO. OF ANSWERS FOR MONGEN?
RJRST <EREXIT <Too many prompts in above question - Edit MONGEN@>,>
CAIN CH,"," ;WAS BREAK CHAR A COMMA?
AOJA N,ASK2 ;YES, GO BACK AND GET NEXT PROMPTING WORD
SETZM ASKTAB+1(N) ;CLEAR LAST ARG PLUS 1 AS END FLAG
POP P,N ;RESTORE N
POP P,B ;RESTORE CALLERS BYTE POINTER
CAIN CH,")" ;NO, WAS BREAK RIGHT PAREN?
POPJ P, ;YES, RETURN
ASK3E: EREXIT <Special character inside () above
Edit MONGEN and remove it.>,
ASK2E: EREXIT <Error in above question - Edit MONGEN@>,
;ROUTINE TO FIND ONE OF A LIST OF ANSWERS IN ASKTAB USING ASCIZ STRING
;CALL: MOVE POSSIBLE ANSWERS TO ASKTAB+0,+1,... STORE 0 IN LAST+1
; (SEE SETASK ROUTINE)
; MOVE B,BYTE POINTER TO ASCIZ STRING
; PUSHJ P,FNDASK(BREAK = CR) OR FNDAS1(BREAK = ANY)
; NOT FOUND RETURN, ERROR MESSAGE PRINTED
; OK RETURN, N = POSITION OF ANSWER IN LIST = 0,1,2
; N=0 IF JUST A CR TYPED
; ALLOW 0 IN ASKTAB+0 AS LEGAL ANSWER TO MEAN NO DEFAULT
FNDAS1: PUSHJ P,GETWRD ;GET USER SUPPLIED ANSWER
JRST FNDAS2 ;SKIP CHECK FOR BREAK MUST BE EOL
FNDASK: PUSHJ P,GETWRD ;GET USER SUPPLIED ANSWER
RJUMPN CH,<TTYOUT <? Type one answer followed by carriage return@>
popj p,> ;error return, so ask question again
FNDAS2: TLZ F,(F.MTCH) ;CLEAR MATCH FOUND FLAG
SETZB N,SAVN ;SET ANSWER INDEX TO 0
JUMPE WD,ASK8 ;JUST A CR TYPED?
MOVEI T1,0 ;NO, FORM MASK FOR ABBREVIATION
ASK5: ROT T1,6 ;MOVE MASK LEFT 1 CHAR POSITION
IORI T1,77 ;SET LOW ORDER CHAR MASK
TDNN WD,T1 ;ANY CHARS IN THESE LOW ORDER POSITIONS?
JRST ASK5 ;NO, LOOK AT NEXT CHAR TO LEFT
LSH T1,-6 ;YES, MOVE MASK SO ONLY COVERS CHARS NOT TYPED
MOVE T2,ASKTAB(N) ;GET FIRST POSSIBLE ANSWER. MAYBE 0 IF
; NO DEFAULT ALLOWED, IE (,ANS0,ANS1,...)
;LOOP TO SCAN FOR MATCH WITH PROMPTING ANSWERS STORED IN ASKTAB
ASK6: CAMN T2,WD ;SKIP IF NOT EXACT MATCH
JRST ASK9 ;YES, TAKE THIS IMMEDIATELY
TDZ T2,T1 ;CLEAR OUT CHARS USER DID NOT TYPE
CAME T2,WD ;MATCH THE CHARS HE DID TYPE?
JRST ASK7 ;NO, GO GET NEXT ANSWER
MOVEM N,SAVN ;YES, SAVE ANSWER INDEX
TLOE F,(F.MTCH) ;ALREADY FOUND A MATCH?
RJRST <TTYOUT <? Type enough to uniquely distinguish answer@>
POPJ P,> ;ERROR RETURN
ASK7: SKIPE T2,ASKTAB+1(N) ;GET NEXT PROMPT, IS THERE ONE?
AOJA N,ASK6 ;YES, BUMP ANSWER INDEX
TLNN F,(F.MTCH) ;NO, WAS A MATCH FOUND?
RJRST <TTYOUT <? Answer with one of the choices inside parens@>
POPJ P,> ;ERROR RETURN
ASK8: MOVE N,SAVN ;YES, RETURN THE MATCH INDEX
ASK9: SKIPN ASKTAB(N) ;SKIP IF DEFAULT ALLOWED
RJRST <TTYOUT <? No default allowed@>
POPJ P,>
JRST CPOPJ1 ;GIVE OK RETURN
;ROUTINE TO ASK QUESTION AND GET DECIMAL ANSWER AND CHECK FOR LIMITS
;CALL: ASKDEC <QUESTION(DEFAULT,MIN-MAX)[...]>
; RETURN HERE WITH N AS VALUE OF ANSWER, CR ASSUMES DEFAULT
ASKDEC: MOVEI R,12 ;SET RADIX TO DECIMAL
JRST ASKNUM ;GO ASK QUESTION AND CHECK ANSWER
;ROUTINE TO ASK QUESTION AND GET OCTAL LINE NUMBER OR CTY
;CALL: ASKLIN <QUESTION(DEFAULT,MIN-MAX)[...]>
; RETURN HERE WITH N AS VALUE OR 'CTY', CR ASSUMES DEFAULT
ASKLIN: MOVEI R,10 ;SET RADIX TO OCTAL
TLO F,(F.CTY) ;FLAG THAT CTY IS OK OCTAL NUMBER
JRST ASKNM1 ;ASK QUESTION, ETC
;ROUTINE TO ASK QUESTION AND GET OCTAL ANSWER AND CHECK FOR LIMITS
;CALL: SAME AS ASKDEC, EXCEPT ANSWER CONVERTED AS OCTAL
ASKOCT: MOVEI R,10 ;SET RADIX TO OCTAL
ASKNUM: TLZ F,(F.CTY) ;FLAG THAT CTY IS NOT ACCEPTABLE NUMBER
ASKNM1: PUSHJ P,ASKBG ;STANDARD ASK ROUTINE BEGINNING
; SAVE ADR OF QUESTION AND N ON STACK, OUTPUT CRLF
; TO FILE, OUTPUT QUESTION AS COMMENT TO FILE
;LOOP TO ASK QUESTON AGAIN IF SYNTAX ERROR OR OUT OF RANGE OR /HELP
ASKAGN: MOVE N,(P) ;REESTORE ORIGINAL N IN CASE THIS IS LOOP
; SO * SUBSTITUTION WILL BE THE SAME
HRRZ T1,-1(P) ;ADR OF MESSAGE
PUSHJ P,TTROUT ;ASK USER ON TTY
SETOM DFAULT ;SET DEFAULT TO NONE FOUND YET
; USER CANNOT TYPE IN -1
SETZM MINLIM ;SET MIN LIMIT TO 0
MOVSI T1,'? ' ;SET MAX LIMIT TO BIG POS. NO.
; WHICH WILL ALSO PRINT IF BELOW MIN
MOVEM T1,MAXLIM ;TO VERY BIG NUMBER
HRRZ B,-1(P) ;ADR OF QUESTION
HRLI B,440700 ;FORM BYTE POINTER TO IT
;LOOP TO FIND FIRST PAREN
ASKN0: ILDB CH,B ;GET NEXT CHAR
JUMPE CH,ASKN2 ;ERROR IF END OF STRING FOUND
CAIE CH,"(" ;LEFT PAREN?
JRST ASKN0 ;NO, KEEP LOOKING
;LOOP TO LOOK FOR DEFAULT, MIN AND MAX INSIDE PARENS
ASKN1: PUSHJ P,GETNUM ;GET NUMERIC FIELD
ASKN1B: CAIE CH,"*" ;SKIP IF * FOUND
JRST ASKN1C ;NO, PROCEED
JUMPN N,ASKN2 ;JUMP IF SOMETHING BEFORE THE *
MOVE N,(P) ;PICK UP VALUE FOR SUBSTITUTION
PUSHJ P,SKBLNK ;SKIP TO NEXT TERMINATOR
JRST ASKN1B ;AND LOOP
ASKN1C: CAIN CH,"-" ;DASH TO SEPARATE MIN-MAX
JRST ASKN3 ;YES, FOUND MIN
CAIN CH,"C"+40 ;IS IT LOWER CASE C?
TRC CH,40 ;YES, CONVERT IT
CAIE CH,"C" ;YES, AND IS BREAK A C?
JRST ASKN1A ;NO, GO CHECK OTHER BREAK CHARS
JUMPN N,ASKN2 ;JUMP IF SOMETHING BEFORE THE *
PUSHJ P,GETWRD ;YES, GET REST OF WORD
MOVEI N,'CR ' ;GET READY IF CR TO STORE CR AS DEFAULT
CAME WD,[SIXBIT /R/] ;IS IT R AFTER C?
;YES, STORE DEFAULT CR
TLNN F,(F.CTY) ;NOT CR, IS CTY A LEGAL ANSWER?
JRST ASKN1A ;NO, GO CHECK OTHER BREAKS
CAME WD,[SIXBIT /TY/] ;IS REST OF WORD "TY"?
JRST ASKN2 ;NO, PRINT ERROR
MOVEI N,'CTY' ;STORE ARG AS TYPED
ASKN1A: SKIPGE DFAULT ;ALREADY STORED DEFAULT?
MOVEM N,DFAULT ;NO, STORE DEFAULT, IN CASE JUST TYPES CR
CAIN CH,")" ;IS THIS THE ONLY NUMBER
JRST ASKN4 ;YES, GO GET USER ANSWER
CAIN CH,"," ;IS BREAK A COMMA?
JRST ASKN1 ;YES, GO GET NEXT NUMBER IN LIST
ASKN2: EREXIT <Above question must have(...,min-max) - Edit MONGEN>,
;HERE WHEN MIN FOUND
ASKN3: MOVEM N,MINLIM ;STORE MINIMUM LIMIT
PUSHJ P,GETNUM ;GET NEXT NUMBER
CAIN CH,"?" ;NO MAX SPECIFIED?
JRST ASKN3A ;YES, SET TO INFINITY
CAIE CH,"*" ;NO, IS MAX. SUBSTITUTABLE ARG?
JRST ASKN3B ;NO, GO CHECK FOR RIGHT PAREN
SKIPA N,(P) ;YES, USE VALUE WHICH WAS SUBSTITUTED
ASKN3A: MOVSI N,'? ' ;SET MAX TO PLUS INFINITY
PUSHJ P,SKBLNK ;SKIP TO NEXT NON-BLANK
ASKN3B: CAIE CH,")" ;BETTER BE RIGHT PAREN
JRST ASKN2 ;NO, ERROR
MOVEM N,MAXLIM ;STORE MAX LIMIT
;HERE WHEN FIRST () ALL SCANNED FOR DEFAULT, MIN AND MAX
ASKN4: PUSHJ P,TTYIN ;GET USER ANSWER FROM TTY, OUTPUT TO FILE
; AS COMMENT
JRST ASKAGN ;/HELP TYPED, ASK AGAIN
JUMPE CH,ASKN5 ;JRST CR TYPED?(GO USE DEFAULT IF YES)
PUSHJ P,GETNUM ;NO, GET NUMBER USER TYPED
JUMPE CH,ASKN5A ;END OF STRING?
TLNN F,(F.CTY) ;NO, IS CTY A POSSIBLE OCTAL NUMBER?
RJRST <TTYOUT <? Type single number followed by carriage return@>
AOJA LV,ASKAGN> ;ASK AGAIN AT HIGHER LEVEL
CAIN CH,"C"+40 ;IS IT LOWER CASE C?
TRC CH,40 ;YES, CONVERT IT
CAIE CH,"C" ;YES, WAS BREAK C?
JRST ASKN4A ;NO, PRINT ERROR
JUMPN N,ASKN4A ;ERROR IF SOMETHING PRECEDED C
PUSHJ P,GETWRD ;YES, GET REST OF WORD
CAMN WD,[SIXBIT /TY/] ;IS WORD REST OF CTY?
JRST ASKN4B ;YES, ALLOW IT
ASKN4A: RJRST <TTYOCT <? Type octal line number or CTY followed by carriage return@>
AOJA LV,ASKAGN> ;ASK AGAIN AT HIGHER LEVEL
ASKN4B: MOVSI N,'CTY' ;RETURN LEFT JUSTFIED CTY AS OCTAL NO.
JRST ASKN6 ;SKIP RANGE CHECK
;HERE IF JUST CR TYPED AS ANSWER, USE DEFAULT IF THERE IS ONE
ASKN5: MOVS N,DFAULT ;GET DEFAULT IF ONE SPECIFIED
CAME N,[SIXBIT /CR/] ;WAS DEFAULT CR?
CAMN N,[SIXBIT /CTY/] ;WAS DEFAULT CTY?
JRST ASKN6 ;YES, BY PASS RANGE CHECK
MOVSS N ;RESTORE TO UNSWAPPED STATE
RJUMPL N,<TTYOUT <? No default allowed, type a number@>
AOJA LV,ASKAGN> ;ASK AGAIN AT HIGHER LEVEL
;HERE TO CHECK RANGE OF ANSWER
ASKN5A: CAMN N,DFAULT ;SKIP IF NOT DEFAULT VALUE
JRST ASKN6 ;IF DEFAULT NOT IN RANGE, MUST BE SPECIAL TERMINATOR
CAML N,MINLIM ;LESS THAN MIN?
CAMLE N,MAXLIM ;NO, EXCEED MAX?
RJRST <TTYOUT <? Must be in range *>,MINLIM
TTYOUT <-*@>,MAXLIM
AOJA LV,ASKAGN> ;ASK AGAIN AT NEXT LONGER MODE
ASKN6: JRST ASKXIT ;STANDARD ASK EXIT - RESTORE ORIGINAL
; HELP LEVEL, POP QUESTION ADR, AND RETURN
;ROUTINE TO ASK QUESTION AND GET STRING FOR ANSWER
;CALL: ASKSTR <QUESTION*>,X
ASKSTR: PUSHJ P,ASKBG ;STANDARD ASK ROUTINE BEGINNING
; SAVE ADR OF QUESTION AND N ON STACK, OUTPUT CRLF
; TO FILE, OUTPUT QUESTION AS COMMENT TO FILE
;LOOP TO ASK QUESTION OVER AGAIN AFTER REQUEST FOR HELP
ASKST1: MOVE N,(P) ;RESTORE ORIGINAL N IN CASE THIS IS LOOP
; SO * SUBSTITUTION WILL BE THE SAME
HRRZ T1,-1(P) ;ADDRESS OF MESSAGE
PUSHJ P,TTROUT ;TYPE IT ON TTY
PUSHJ P,TTYIN ;WAIT FOR INPUT, OUTPUT TO FILE
; AS COMMENT
JRST ASKST1 ;/HELP TYPED, REASK AT DESIRED HELP MODE
JRST ASKXIT ;COMMON EXIT FROM ASK ROUTINES
; POP OLD N AND QUESTION ADR, RESTORE HELP LEVEL
;ROUTINE TO ASK FOR M-N<EOL> OR M<EOL> ON REPEATED LINES UNTIL BLANK LINE
; SYNTAX AND OUTPUT TO FILE
;CALL: FILOUT <DEFINE MAC???> ;START MACRO DEFINITION IN FILE
; ASKMN <ASK MESSAGE@>
; RETURN WHEN ALL ANSWERS HAVE BEEN CHECKED AND OUTPUT
ASKMN: MOVEI R,^D8 ;ASSUME OCTAL RADIX FOR IO
PUSHJ P,FILLAB ;OUTPUT LEFT ANGLE BRACKET, CRLF TO FILE
; AS BEG OF MACRO DEFINITION
PUSHJ P,ASKBG ;STANDARD ASK ROUTINE BEGINNING
; SAVE ADR OF QUESTION AND N ON STACK, OUTPUT CRLF
; TO FILE, OUTPUT QUESTION AS COMMENT TO FILE
;LOOP TO ASK QUESTION IN CASE OF ERROR OR /HELP
ASKM0: MOVE N,(P) ;RESTORE ORIGINAL N IN CASE THIS IS LOOP
; SO * SUBSTITUTION WILL BE THE SAME
HRRZ T1,-1(P) ;ADR OF MESSAGE
PUSHJ P,TTROUT ;OUTPUT TO TTY
;LOOP TO GET NEXT LINE OF INPUT
ASKMLP: PUSHJ P,TTYIN ;GET TTY LINE
JRST ASKM0 ;/HELP TYPED, ASK AGAIN
JUMPE CH,ASKPXT ;NO, DID HE TYPE A BLANK LINE MEANING ALL DONE?
TLZ F,(F.INFO);
PUSHJ P,GETMN ;NO, SCAN FOR M OR M-N AND STOP ON NON-BREAK
RJUMPN CH,<TTYOCT <? Type octal M-N or M@>
AOJA LV,ASKM0> ;RAISE LEVEL OF VERBOSCITY AND ASK AGAIN
FILSTR <L *@>; ;OUTPUT SAME STRING HE TYPED IN WITH MACRO
; NAME PRECEDING IT SO COMMON CAN
; REDEFINE AS IT PLEASES.
JRST ASKMLP ;AND GO GET NEXT LINE OF INPUT
;ROUTINE TO ASK FOR M-N,P<EOL>, GET REPEATED LINES OF INPUT
; UNTIL BLANK LINE, ANS OUTPUT TO FILE
;CALL: FILOUT <DEFINE MAC???> ;START MACRO DEFINITON IN FILE
; ASKMNP <ASK MESSAGE@>
; RETURN WHEN ALL ANSWERS HAVE BEEN CHECKED AND OUTPUT
ASKMNP: MOVEI R,^D8 ;ASSUME OCTAL RADIX FOR IO
PUSHJ P,FILLAB ;OUTPUT LEFT ANGLE BRACKET, CRLF TO FILE
; AS BEG OF MACRO DEFINITION
PUSHJ P,ASKBG ;STANDARD ASK ROUTINE BEGINNING
; SAVE ADR OF QUESTION AND N ON STACK, OUTPUT CRLF
; TO FILE, OUTPUT QUESTION AS COMMENT TO FILE
;LOOP TO ASK FOR MULTI LINE INPUT AGAIN IN CASE OF ERROR
ASKP0: MOVE N,(P) ;RESTORE ORIGINAL N IN CASE THIS IS LOOP
; SO * SUBSTITUTION WILL BE THE SAME
HRRZ T1,-1(P) ;ADR OF MESSAGE
PUSHJ P,TTROUT ;OUTPUT TO TTY
;LOOP TO GET NEXT LINE OF INPUT
ASKPLP: PUSHJ P,TTYIN ;GET NEXT LINE FROM TTY
JRST ASKP0 ;/HELP TYPED, ASK AGAIN
JUMPE CH,ASKPXT ;NO, BLANK LINE MEANING END
TLO F,(F.INFO)
PUSHJ P,GETMN ;NO, GET M OR M-N
CAIE CH,"," ;IS BREAK A COMMA?
JRST ASKPE ;NO, ERROR, PRINT MESAGE AND ASK AGAIN
PUSHJ P,GETOCT ;GET OCTAL P
JUMPE CH,ASKP1 ;IS THIS END OF STRING?
ASKPE: TTYOUT <? Type octal M-N,P or M,P@>
AOJA LV,ASKP0 ;RAISE LEVEL AND ASK AGAIN
ASKP1: FILSTR <L *@>; ;OUTPUT TO FILE ENTIRE ANSWER WITH MACRO
; NAME PRECEDING IT WHICH COMMON WILL DEFINE
; AS IT PLEASES.
JRST ASKPLP ;AND GO GET ANOTHER LINE OF INTPUT
;ROUTINE TO ASK FOR M-N OR ALL, GET REPEATED LINES OF INPUT
;UNTIL BLANK LINE, AND OUTPUT TO FILE
;CALL: - SEE ASKMN
ASKTMN: MOVEI R,^D8 ;RADIX 8
PUSHJ P,FILLAB ;PUT OUT RIGHT BRACKET
PUSHJ P,ASKBG ;STD BEGINNING
ASKTM0: MOVE N,(P) ;RESTORE N
HRRZ T1,-1(P) ;ADDR OF MSG
PUSHJ P,TTROUT ;OUTPUT TO TTY
ASKTLP: PUSHJ P,TTYIN ;GET LINE OF INPUT
JRST ASKTM0 ;/HELP WAS TYPED
JUMPE CH,ASKPXT ;EXIT IF NULL LINE
PUSHJ P,GETTMN ;GET ANSWERS
RJUMPN CH,<TTYOCT <? Type octal M-N or M@>
AOJA LV,ASKTM0> ;GIVE HIM HELP
FILSTR <KN X,*@>
JRST ASKTLP ;ASK AGAIN
;ROUTINE TO GET M-N OR "ALL"
GETTMN: PUSHJ P,GETOCT ;GET OCTAL NUMBER
CAIN CH,"A" ;SEE IF START OF ALL
JRST GETTM1
CAIE CH,"-" ;CHECK DASH
POPJ P, ;NO - ERROR RETURN
MOVEI CH,"," ;CONVERT TO MAKE MACRO HAPPY
DPB CH,B ;PUT IN STRING
PJRST GETOCT ;GET 2ND AND RETURN
GETTM1: PUSHJ P,GETWRD ;GET REST OF WORD
MOVSI N,'ALL' ;CORRECT ANSWER
CAME WD,[SIXBIT "LL"] ;REMAINDER CORRECT?
MOVEI CH,"A" ;NO - GIVER ERROR
POPJ P, ;RETURN
;ROUTINE TO SETUP ALL ASK ROUTINES
; OUTPUTS CRLF TO FILE, OUTPUT QUESTION AS COMMENT, PUT ADR OF QUESTION ON STACK
; PUT ARG FOR * SUBSTITUTION (N) ON STACK SO QUESTION CAN BE REASKED.
;CALL: MOVEI T1,ADR OF QUESTION
; PUSHJ P,ASKBG
; RETURN HERE WITH T1 ON END OF LIST
ASKBG: EXCH T1,(P) ;SAVE ADR OF MESSAGE ON STACK
PUSH P,N ;SAVE ARG FOR * SUBSTITUTION IN CASE
; OF ERROR AND QUESTION MUST BE REASKED
; COMMON ASK EXIT(ASKXIT) WILL POP THESE OFF
PUSH P,T1 ;SAVE RETURN ON END
HRRZ T1,-2(P) ;ADR OF QUESTION
PUSHJ P,ASKMIC ;PASS STRING ON TO MIC
PUSHJ P,FCRLF ;OUTPUT CRLF TO FILE
HRRZ T1,-2(P) ;ADR OF QUESTION
PJRST FILCOM ;OUTPUT AS A COMMENT, PUTTING ; IN FRONT
; OF EVERY LINE IN QUESTION
;HERE TO EXIT ASKMN AND ASKMNP
ASKPXT: PUSHJ P,FILRAB ;OUTPUT RIGHT ANGLE BRACKET,CRLF TO FILE
;HERE TO EXIT FROM ALL ASK ROUTINES
ASKXIT: MOVE LV,SAVLV ;RESTORE VERBOSCITY LEVEL BEFORE QUESTION ASKED
; OR AS SET BY /HELP:XXX
POP P,T1 ;THROW AWAY * SUBSTITUTION ARG( AC N)
; N HAS ANSWER IN IT NOW
POP P,T1 ;POP OFF T1
JRST FILOT2 ;CLEAR LF FLAG SO FOLLOWING OUTPUT WONT
; ACCIDENTALLY GET ; IN FRONT. THEN RETURN.
;THIS PAGE OUTPUTS A PROMPT STRING TO THE MIC FILE AS A COMMENT
;CALLED WITH PROMPT STRING IN T1, PRESERVES T1
ASKMIC: SKIPN MICFLG ;MIC FILE?
POPJ P, ;NOPE
PUSH P,T1 ;SAVE QUESTION
PUSHJ P,MICNL ;DELIMIT COMMENT IN .MIC FILE
MOVEI CH,";"
PUSHJ P,MICPUT
HRRZ T1,(P) ;GET ADDRESS OF QUESTION
HRLI T1,(POINT 7,,) ;FOR MIC
ASKMC1: ILDB CH,T1 ;GET A CHAR
JUMPE CH,ASKMC2 ;STOP HERE
CAIN CH,"[" ;REALLY STOP HERE
JRST ASKMC2 ;NEXT
CAIN CH,"*" ;SUBSTITUTE?
JRST ASKMCS ;YES
CAIE CH,"@" ;IGNORE <CR><LF> FLAGS
CAIN CH,15 ;CR?
JRST ASKMC1 ;IGNORE
CAIN CH,12 ;LF?
RJRST <PUSHJ P,MICNL ;YES, NEW LINE
MOVEI CH,";"
PUSHJ P,MICPUT
JRST ASKMC1>
PUSHJ P,MICPUT ;LOG AS A COMMENT
CAIE CH,")" ;REALLY STOP HERE
JRST ASKMC1 ;LOOP FOR PROMPT
JRST ASKMC2 ;STOP
ASKMCS: TLNN N,770000 ;NUMBER?
JRST ASKMCN ;YES
PUSH P,T1
MOVE T1,[POINT 6,N]
ASKMS1: ILDB CH,T1 ;GET NEXT LETTER
JUMPE CH,ASKMSE ;EXIT IF DONE
ADDI CH," "-' ' ;MAKE ASCII
PUSHJ P,MICPUT ;OUTPUT
TLNE T1,770000 ;DONE?
JRST ASKMS1 ;NO
ASKMSE: POP P,T1 ;RESTORE STRING POINTER
JRST ASKMC1 ;NEXT CHAR OF STRING
ASKMCN: PUSH P,T1
MOVE T1,N
PUSHJ P,MICNUM ;OUTPUT
POP P,T1
JRST ASKMC1 ;CONTINUE
MICNUM: IDIVI T1,(R) ;RADIX DIVIDE
HRLM T2,(P)
SKIPE T1
PUSHJ P,MICNUM
HLRZ CH,(P)
ADDI CH,"0"
PJRST MICPUT
ASKMC2: PUSHJ P,MICNL ;CRLF
POP P,T1 ;RESTORE QUESTION
POPJ P,
SUBTTL GET ROUTINES - SCAN AND CHECK IN CORE STRINGS
;ROUTINE TO GET OCTAL LINE NUMBER OR "CTY"
;CALL: MOVE B,BYTE POINTER
; PUSHJ P,GETLIN
; ALWAYS RETURN, N=VALUE OR SIXBIT CTY
; STOP IN FIRST NON-OCTAL CHAR OR NON-CTY
; CALLER MUST CHECK FOR LEGAL BREAK CHARACTER
GETLIN: PUSHJ P,GETOCT ;GET OCTAL NUMBER
JUMPN N,CPOPJ ;RETURN IF GOT SOME VALUE
CAIN CH,"C"+40 ;IS IT LOWER CASE C?
TRC CH,40 ;YES, CONVERT IT
CAIE CH,"C" ;IS BREAK "C"?
POPJ P, ;NO, MAYBE 0 OR CR, LET CALLER CHECK
PJRST GETMN1 ;SEE IF REST IS CTY
;ROUTINE TO SYNTAX CHECK M-N OR M FOLLOWED BY ANY BREAK
;CALL: MOVE B,BYTE POINTER
; PUSHJ P,GETMN
; ALWAYS RETURN HERE, BREAK IN CH
GETMN: PUSHJ P,GETOCT ;GET OCTAL LINE NUMBER
CAIN CH,"C"+40 ;IS IT LOWER CASE C?
TRC CH,40 ;YES, CONVERT IT
CAIN CH,"C" ;SKIP IF NOT START OF CTY
JRST GETMN1 ;YES, SEE IF IS CTY
CAIE CH,"-" ;IS BREAK -?
POPJ P, ;NO, LET CALLER CHECK FURTHER
MOVEI CH,"," ;YES, CHANGE TO , SO MACRO WILL ACCEPT
DPB CH,B ;IN OUTPUT FILE
PJRST GETOCT ;GET SECOND OCTAL DIGIT
GETMN1: PUSHJ P,GETWRD ;YES, GET REST OF WORD
MOVSI N,'CTY' ;ASSUME CTY
CAMN WD,[SIXBIT /TY/] ;IS IT REST OF CTY?
JRST NULL ;INSERT A NULL
MOVEI CH,"C" ;NO, RETURN ORIGINAL BREAK FOR CALLER
; TO GET ERROR WHEN CHECKS IT
POPJ P, ;RETURN, CALLER CHECK FOR BREAK
NULL: TLNN F,(F.INFO) ;ARE WE EXPECTING MORE INFO TO FOLLOW "CTY"?
MOVEI CH,0 ;PUT A NULL IN THE BUFFER
DPB CH,B ; TO BE AN EOL
POPJ P, ;RETURN
;ROUTINE TO GET DECIMAL FROM STRING
;CALL: MOVE B,BYTE POINTER
; PUSHJ P,GETDEC
; ALWAYS RETURN HERE, BREAK IN CR, VALUE IN N
;CALLER MUST CHECK FOR PROPER BREAK
GETDEC: MOVEI R,12 ;SET RADIX TO DECIMAL
PJRST GETNUM ;GET NUMBER
;ROUTINE TO GET OCTAL NUMBER FROM STRING
;SAME CALL AS GETDEC
GETOCT: MOVEI R,10 ;SET RADIX TO OCTAL
; FALL INTO GETNUM
;ROUTINE TO GET NUMBER FROM STRING
;CALL: MOVE R,RADIX
; MOVE B,BYTE POINTER
; PUSHJ P,GETNUM
; ALWAYS RETURN HERE, BREAK IN CH, VALUE IN N
;CALLER MUST CHECK FOR PROPER BREAK, GETNUM STOPS ON FIRST NON-NUMERIC
GETNUM: MOVEI N,0 ;SET VALUE TO 0
PUSHJ P,SKBLNK ;SKIP LEADING BLANKS(SPACES AND TABS)
GETN0: JUMPE CH,CPOPJ ;IS THIS END OF STRING
CAIL CH,"0" ;LESS THAN 0?
CAIL CH,"0"(R) ;LESS THAN RADIX
PJRST SKBLK1 ;YES, RETURN - SKIP TO FIRST NON-BLANK
IMUL N,R ;MULTIPLY OLD NUMBER BY RADIX
ADDI N,-"0"(CH) ;ADD IN VALUE OF THIS CHAR
ILDB CH,B ;GET NEXT CHAR IN STRING
JRST GETN0 ;GET ANOTHER CHAR
;ROUTINE TO GET A WORD FROM AN ASCIZ STRING. FILTERS OUT TAB, SPACE
; STOPS ON ANY NON-ALPHA NUMERIC, EXCEPT DOT, CALLER MUST CHECK FOR LEGAL BREAK
;CALL: MOVE B,BYTE POINTER
; PUSHJ P,GETWRD
; RETURN WITH SIXBIT WD LEFT JUSTIFIED, BREAK IN CH
GETWRF: PUSH P,[PUSHJ P,FHLPRC] ;INSTRUCTION TO GET NEXT CHAR
JRST GETWR1 ;READ ASCIZ STRING FOR SIXBIT
GETWRD: PUSH P,[ILDB CH,B] ;INSTRUCTION TO GET NEXT CHAR
GETWR1: PUSHJ P,GETSKB ;SKIP LEADING BLANKS(SPACES, TABS)
MOVEI WD,0 ;SET WORD TO 0 FOR RETURN
MOVE T1,[XWD 440600,WD] ;SET SIX BIT BYTE POINTER TO WD
;LOOP TO ACCUMULATE AFTER LEADING SPACES AND TABS
GETWLP: JUMPE CH,GETWX1 ;END OF STRING?
TLNN F,(F.PER) ;ARE SYMBOL CHARACTERS ALLOWED IN NAMES?
JRST GETWD1 ;NO, (MUST BE SCANNING FILE NAMES)
CAIN CH,"." ;PERIOD(CAN BE PART OF SYMBOL)
JRST GETWD3 ;YES, ACCEPT AS PART OF SYMBOL
CAIE CH,"%" ;CHECK FOR PERCENT SIGN
CAIN CH,"$" ;CHECK FOR DOLLAR SIGN
JRST GETWD3 ;YES, ACCEPT AS PART OF SYMBOL
GETWD1: CAIL CH,"0" ;LESS THAN 0?
CAILE CH,"9" ;LESS THAN OR EQUAL TO 9?
JRST GETWD2 ;YES, SEE IF LETTER?
JRST GETWD3 ;NO, NUMBER, STORE
;HERE IF NOT NUMBER
GETWD2: CAIL CH,"A"+40 ;LOWER CASE?
TRC CH,40 ;YES, CONVERT TO UPPER CASE
CAIL CH,"A" ;LESS THAN A
CAILE CH,"Z" ;LESS THAN OR EQUAL TO Z?
PJRST GETWRX ;SKIP TRAILING BLANKS TO FIRST NON-BLANK
; AND RETURN TO CALLER
;HERE IF A LETTER OR NUMBER - CONVERT TO SIXBIT AND STORE
GETWD3: SUBI CH,40 ;CONVERT TO SIXBIT
TLNE T1,770000 ;OVERFLOWED WD YET?
IDPB CH,T1 ;NO, STORE NEXT SIXBIT CHAR
XCT (P) ;GET NEXT CHAR
JRST GETWLP ;AND CHECK IT
GETWRX: PUSHJ P,SKBLK1 ;RETURN FIRST NON-BLANK AFTER TRAILING SPACES
GETWX1: POP P,(P)
POPJ P,
GETSKB: XCT -1(P) ;GET NEXT CHAR
GETSK1: CAIE CH," " ;SPACE?
CAIN CH," " ;TAB?
JRST GETSKB ;YES, GET NEXT CHAR
POPJ P, ;NO, FOUND NON-BLANK
;ROUTINE TO GET TTY LINE, AND SCAN FOR DEV:PI
; WHERE DEV IS 3 CHAR OR LESS AND PI IS # FOR 0-7
;CALL: PUSHJ P,GETDPI
; ERROR RETURN, /HELP , DEV TOO LONG, OR PI TOO BIG
; OK RETURN, BREAK IN CH, WD=0 IF JUST CR TYPED
GETDPI: PUSHJ P,TTYIN ;GET NEXT LINE
POPJ P, ;/HELP TYPED, REASK IN DESIRED HELP MODE
MOVEI WD,0 ;SET JUST CR TYPED INDICATION
JUMPE CH,CPOPJ1 ;JUST A BLANK LINE?
PUSHJ P,GETWRD ;NO, GET FIRST WORD
JUMPE WD,ASKDPE ;ARE THERE ANY CHAR IN DEVICE NAME?
CAIE CH,"," ;IS BREAK CHAR COMMA?
POPJ P, ;NO, ERROR
TRNE WD,777777 ;IS DEVICE 3 CHAR OR LESS?
ASKDPE: RJRST <TTYOUT <? Device-mnemonic must be 3 char or less@>
POPJ P,> ;GO TRY AGAIN
PUSHJ P,GETOCT ;GET PI NO.
MOVE T1,M.CPU ;MAX NUMBER OF CPUS
IMULI T1,SM.PI ;NUMBER OF PI CHANNELS PER CPU
MOVE T2,M.CPU ;NUMBER OF CPUS
ADDI T1,-1(T2) ;ACCOUNT FOR CHANNEL 0
CAILE N,(T1) ;LEGAL PI?
RJRST <MOVE N,T1 ;GET MAXIMUM LEGAL PI
TTYOCT <? PI-channel must be * or less@>
POPJ P,> ;GO TRY AGAIN
JRST CPOPJ1 ;YES, GIVE LEGAL RETURN
;ROUTINE TO SKIP LEADING BLANKS(SPACES AND TABS)
;CALL: MOVE B,BYTE POINTER
; PUSHJ P,SKBLNK OR SKBLK1 IF FIRST CHAR ALREADY IN CH
; FIRST NON-BLANK RETURNED IN CH
SKBLNK: ILDB CH,B ;GET NEXT CHAR
SKBLK1: CAIE CH," " ;SPACE?
CAIN CH," " ;TAB?
JRST SKBLNK ;YES, GET NEXT CHAR
POPJ P, ;NO, RETURN WITH FIRST NON-BLANK IN CH
SUBTTL FGEN AUXILIARY HELP FILE ROUTINES
;ROUTINE TO OUTPUT FROM THE AUXILIARY FILE TO TTY
FHLPTT: PUSH P,[PUSHJ P,FHLPRC] ;INSTRUCTION TO GET NEXT CHAR TO OUTPUT
MOVSI N,'* ' ;EASY WAY TO MAKE SURE * COMES OUT RIGHT
JRST TTYOLP ;TYPE OUT STRING
;ROUTINE TO OUTPUT FROM THE AUXILIARY FILE TO THE OUTPUT FILE
;CALL: PUSHJ P,FHLPFC TO OUTPUT AS A COMMENT
; PUSHJ P,FHLPFL TO OUTPUT AS TEXT
FHLPFC: TLO F,(F.COM) ;NOTE OUTPUT AS A COMMENT
FHLPFL: PUSH P,[PUSHJ P,FHLPRC] ;INSTRUCTION TO GET NEXT CHAR TO OUTPUT
MOVSI N,'* ' ;EASY WAY TO MAKE SURE * COMES OUT RIGHT
JRST FILOLP ;OUTPUT TO FILE
;ROUTINE TO POSITION THE AUXILIARY FILE
;CALL: MOVE WD,SIXBIT TEXT TO FIND
; PUSHJ P,FHLPOS
; ERROR RETURN - CANT FIND IT
; OK RETURN - FILE POSITIONED AFTER TAB
;
; NOTE LOOKS FOR TERMINATOR FIRST, TO BE FOLLOWED IMMEDIATELY BY TEXT IN WD
FHLPOA: TLZA F,(F.FHLC) ;NOTE DONT WANT TAB AFTER TEXT
FHLPOS: TLO F,(F.FHLC) ;NOTE LOOKING FOR A TAB AFTER TEXT
TLZ F,(F.HRRD) ;CLEAR REREADING FLAG
FHLPS0: PUSHJ P,FHLPRD ;READ NEXT CHAR FROM AUX FILE
FHLPS3: JUMPL CH,FHLPEF ;JUMP IF END OF AUX FILE
JUMPN CH,FHLPS0 ;LOOK FOR TERMINATOR
FHLPS1: MOVE T1,[POINT 6,WD] ;BYTE PTR FOR DESIRED STRING
FHLPS2: TLNN T1,770000 ;SKIP IF NEED MORE CHARS TO MATCH
JRST FHLPFN ;FOUND WHAT WAS DESIRED
ILDB N,T1 ;N=NEXT CHAR NEEDED (IN SIXBIT)
JUMPE N,FHLPFN ;JUMP IF THAT'S ALL THATS NEEDED
PUSHJ P,FHLPRD ;GET NEXT CHAR FROM AUX FILE
JUMPL CH,FHLPEF ;JUMP IF END OF FILE
JUMPE CH,FHLPS1 ;IF TERMINATOR, START LOOKING AGAIN
CAIL CH,140 ;SKIP IF NOT LOWER CASE
SUBI CH,40 ;MAKE UPPER CASE FOR COMPARISON
CAIE N,' '-" "(CH) ;SKIP IF THIS CHAR MATCHES
JRST FHLPS0 ;NO, MOVE TO NEXT TERMINATOR
JRST FHLPS2 ;YES, KEEP ON
;HERE IF FOUND END OF AUX FILE
FHLPEF: TLNE F,(F.FHLC) ;SKIP IF NOT LOOKING FOR TAB AFTER TEXT
TLOE F,(F.HRRD) ;SKIP IF NOT ALREADY REREADING THE FILE
POPJ P, ;CANT FIND DESIRED STRING
TLZ F,(F.HOPN) ;CLEAR OPEN FLAG TO RESTART AT BEGINNING OF FILE
JRST FHLPS0 ;NO, MAY HAVE STARTED PAST THE PLACE
;HERE WHEN FILE POSITIONED AS REQUESTED
FHLPFN: TLNN F,(F.FHLC) ;SKIP IF LOOKING FOR TAB AFTER STRING
JRST CPOPJ1 ;NO, ALL SET
FHLPF1: PUSHJ P,FHLPRD ;SKIP TO TAB
JUMPLE CH,FHLPS3 ;JUMP IF TERMINATOR FOUND
CAIE CH," " ;SKIP IF FOUND TAB
JRST FHLPF1 ;KEEP ON
JRST CPOPJ1 ;GIVE GOOD RETURN
;THIS ROUTINE READS A CHAR FROM THE AUXILIARY HELP FILE FOR MESSAGES
FHLPRC: PUSHJ P,FHLPRD ;GET NEXT CHAR
JUMPGE CH,CPOPJ ;OK IF REAL CHAR
SETZ CH, ;TURN EOF INTO END OF STRING
POPJ P,
;ROUTINE TO READ NEXT CHAR FROM FGEN AUXILIARY HELP FILE
FHLPRD: TLNE F,(F.HOPN) ;SKIP IF HELP FILE IS NOT YET OPEN
JRST FHLPR1 ;ALREADY OPEN, GO AHEAD
INIT FHLPCH,0
FGDEV: SIXBIT .SYS.
XWD 0,FHIBUF
JRST FHLPE1 ;CANT INIT SYS?
MOVE CH,FGPPN ;PPN FOR HELP FILE
MOVEM CH,FHNAME+3 ;STORE FOR LOOKUP
LOOKUP FHLPCH,FHNAME ;LOOKUP FILE
JRST FHLPE1 ;CANT FIND FILE
TLO F,(F.HOPN!F.HRRD) ;NOTE OPEN AND ON SECOND PASS
PUSH P,.JBFF## ;SAVE JOBFF
MOVEI CH,FHLPBF ;ADDR OF FHELP FILE BUFFERS
MOVEM CH,.JBFF ;SET UP TO ALLOCATE BUFFERS
INBUF FHLPCH,NFHLPB ;ALLOCATE INPUT BUFFERS
POP P,.JBFF ;RESTORE JOBFF
FHLPR1: SETZ CH, ;CLEAR CH IN CASE ERROR IN IN SUBROUTINE
SOSG FHIBUF+2
PUSHJ P,[IN FHLPCH,
POPJ P,
JRST FHLPER]
JUMPL CH,CPOPJ ;GIVE UP IF ERROR READING
ILDB CH,FHIBUF+1 ;GET NEXT CHAR
JUMPE CH,FHLPR1 ;IGNORE NULLS
CAIN CH,C.RUB ;AND RUBOUTS
JRST FHLPR1
CAIL CH,175 ;DO THE ALTMODE THING
MOVEI CH,C.ESC
CAIN CH,C.TMFH ;SKIP IF NOT OUR TERMINATOR
SETZ CH, ;RETURN 0 FOR TERMINATOR FOR CONVENIENCE
POPJ P,
FHLPER: TLZ F,(F.HOPN) ;CLEAR OPEN FLAG
RELEASE FHLPCH,
FHLPE1: SETO CH,
POPJ P,
SUBTTL TTY INPUT ROUTINES
;ROUTINE TO ACCEPT 1 LINE FROM TTY, MOVE IT TO ASCSTR
;REMOVE EOLS, AND COMMENTS, AND ADD A NULL TO MAKE IT ASCIZ
; LOOK FOR /H AND HANDLE IT
;OUTPUT LINE WITH PRECEDING ; TO FILE
;CALL: PUSHJ P,TTYIN
; NON SKIP RETURN IF USER TYPES /HELP, CALLER MUST REASK QUESTION
; LEVEL SET AS USER WISHES IN LV FOR THIS QUESTION,
; AND IN SAVLV FOR FUTURE
; SKIP RETURN WITH B SETUP AS BYTE POINTER TO BEG OF STRING
; CH = 0 IF JUST A BLANK LINE TYPED
; N = NUMBER OF CHARACTERS NOT COUNTING EOLS OR NULLS
; B = BYTE POINTER TO STRING JUST READ IN
TTYIN: TLO F,(F.COM) ;FLAG OUTPUT TO FILE AS COMMENTS SO ALL
; CALLS TO FILOUT WILL PUT PRECEDING ;
PUSHJ P,TTYGET ;GET NEXT CHAR, OUTPUT TO FILE, SKIP COMMENTS, EOL=0
MOVEI N,0 ;SETUP LENGTH OF STRING TO 0
MOVE B,[XWD 440700,ASCSTR] ;BYTE POINTER
;LOOP TO COPY CHARS FROM TTY TO CORE BUFFER(ASCSTR)
TTYINB: IDPB CH,B ;STORE AWAY
JUMPE CH,TTYINC ;IF EOL CHAR, RETURN
PUSHJ P,TTYGET ;GET NEXT CHAR
CAIGE N,MP.LMX ;LESS THAN MAX LINE LENGTH?
; ASCSTR ALWAYS HAS ROOM FOR NULL
AOJA N,TTYINB ;YES, OK TO STORE NEXT CHAR
TLZ F,(F.COM!F.BANG) ;CLEAR FLAG FOR FILE COMMENTS
TTYOUT <? Line too long@>
AOJA LV,FILOT2 ;INCREASE LEVEL BY 1 FOR THIS QUESTION
; AND PRETEND /HELP TYPED BY GIVING NO-SKIP
; RETURN SO CALLER WILL REASK QUESTION
;HERE WHEN STRING ALL STORED IN CORE BUFFFER
TTYINC: TLZ F,(F.COM!F.BANG) ;CLEAR FLAG FOR FILE COMMENTS
MOVE B,[XWD 440700,ASCSTR] ;BYTE POINTER TO CORE BUFFER
PUSHJ P,SKBLNK ;SKIP BLANKS(SPACE, TAB)
CAIN CH,"/" ;IS FIRST NON-BLANK A SLASH?
JRST TTYINH ;YES, GO DO /HELP
MOVE B,[XWD 440700,ASCSTR] ;SETUP BYTE POINTER TO
; BEG OF CORE BUFFER FOR CALLER
TLZ F,(F.COM) ;CLEAR COMMENT FLAG
JRST CPOPJ1 ;GIVE NON-HELP RETURN
;HERE ON LEADING / FROM TTYIN ROUTINE - SEE IF /HELP
; REST OF INPUT LINE ALEADY COPIED TO FILE AND CORE BUFFER(ASCSTR)
; OK TO DESTROY ASKTAB+0,... SINCE GOING TO GIVE NON-SKIP RETURN
TTYINH: PUSH P,N ;SAVE CCALLERS N IN CASE * SUBSTITUTION
; WHEN QUESTION REASKED
MOVEI T1,[ASCIZ /(HELP)/] ;SETUP ONLY CHOICE AS IF PROMPT
PUSHJ P,SETASK ;IN CHOICES TABLE(ASKTAB)
PUSHJ P,FNDAS1 ;SCAN CHARS AFTER / TO SEE IF HELP
; OR ABBREV(ALLOW ANY BREAK)
AOJA LV,TTYIH1 ;NO, GIVE HIM HELP WITH HELP
; AT NEXT LONGER HELP LEVEL
PJUMPE CH,RAISE1 ;IS BREAK EOL?(IF YES, JUST INCREASE
; LEVEL OF VERBOSCITY BY 1 FOR THIS QUESTION
; BY ADDING TO LV BUT NOT TO SAVLV
CAIE CH,":" ;IS BREAK COLON?
AOJA LV,TTYIH1 ;NO, ASK HELP QUESTION
; AT NEXT LONGER MODE
MOVEI T1,[ASCIZ /(,SHORT,PROMPT,LONG)/] ;SETUP UP CHOICES TO /HELP:
; N=0 MEANS JUST CR TYPED
PUSHJ P,SETASK ;IN ASKTAB+0,1,...
PUSHJ P,FNDASK ;FIND THE ONE HE TYPED
AOJA LV,TTYIH1 ;NOT FOUND, INCREASE HELP LEVEL
JUMPE N,RAISE1 ;DID HE TYPE JUST CR?
; IF YES, JUST INCREASE LEVEL FOR THIS QUESTION
SUBI N,2 ;NO, FORM -1,0,1 FOR SHORT,PROMPT,LONG
TLZ F,(F.COM) ;CLEAR COMMENT FLAG
JRST HELP0 ;GO STORE NEW PERMANENT HELP LEVEL
;HERE TO RAISE LEVEL 1 FOR THIS QUESTION ONLY
RAISE1: TLZ F,(F.COM) ;CLEAR COMMENT FLAG
AOJA LV,HELP1 ;INCREMENT LEVEL BY ONE, BUT DO NOT
; REMEMBER IN MEMORY(SAVLV)
; AND RETURN
TTYIH1: TLZA F,(F.COM) ;CLEAR COMMENT FLAG AND GO TO TTYHP1
;ROUTINE TO TYPE HELP QUESTION
; CALLED AT BEGINNING ONCE ONLY AND WHENEVER /HELP:XXX MISTYPED
;CALL: PUSHJ P,TTYHLP
TTYHLP: PUSH P,N ;SAVE CALLER N INCASE * SUBSTITUTION
; WHEN QUESTION REASKED
TTYHP1: MOVEI N,MP.MVN ;MONITOR VERSION NUMBER FOR THIS MONGEN
; TELL USER SO HE GETS PROPER MONGEN
ASKLST <MONGEN for * monitors
/HELP(PROMPT,SHORT,LONG)[
All # are decimal unless stated otherwise
Unique abbreviation allowed everywhere to all questions
/HELP reasks a question in next longer mode
/HELP:xxx sets mode permanently. Modes are:
SHORT is short
PROMPT has choices in ()
LONG has choices in () and explanation in []]>
CAIN N,1 ;ANSWER 1(SHORT)
SETOM N ;YES, SET LEVEL TO SHORT
CAIN N,2 ;ANSWER 2(LONG)?
MOVEI N,1 ;YES, SET LEVEL TO LONG
;HERE TO STORE NEW PERMANENT HELP LEVEL
HELP0: MOVEM N,SAVLV ;SET PERMANENT LEVEL OF HELP
MOVE LV,N ;SET CURRENT LEVEL TO THE SAME
HELP1: POP P,N ;RESTORE ORIGINAL N(IN CASE THIS
; IS HELP IN MIDDLE OF A QUESTION)
POPJ P, ;GIVE NON-SKIP RETURN SO QUESTION
; WILL BE REASKED
;ROUTINE TO GET ONE CHAR FROM TTY, CHECK FOR EOLS, PUT CHAR IN FILE
; AND SKIP OVER COMMENTS. ALSO CHECK FOR /HELP
TTYGET: PUSHJ P,TTYGT1 ;GET NEXT CHAR FROM TTY AND PUT IN FILE
JRST MICEOL ;IT WAS EOL, TELL MIC
TLNN F,(F.BANG) ;"!" LEGAL IN THIS INPUT LINE?
CAIE CH,"!" ;NO, DO WE HAVE ONE TO START A COMMENT?
CAIN CH,";" ;CHECK FOR SEMI-COLON ALSO
JRST TTYGT0 ;READ COMMENT
PUSHJ P,MICPTD ;A GOOD CHARACTER, LOG IT AND RETURN
POPJ P, ;NO, RETURN
;LOOP TO THROW AWAY COMMENTS USER TYPED IN AFTER ANSWER
TTYGT0: PUSHJ P,TTYGT1 ;YES, GET NEXT CHAR
JRST MICEOL ;IT WAS AN EOL, RETURN WITH F.COM CLEARED
JRST TTYGT0 ;NOT AN EOL, THROW IT AWAY AND GET NEXT CHAR
;ROUTINE TO GET ONE CHAR FROM TTY, CHECK FOR EOL, PUT CHAR IN FILE
;CALL: PUSHJ P,TTYGT1
; EOL RETURN CH=0, F.COM CLEARED(MAKE FILE OUTPUT NO LONGER BE COMMENTS)
; NOT AN EOL RETURN, CH IS CHAR
TTYGT1: SKIPE INIFLG ;IF TTY NOT INITED
JRST [INCHWL CH ;FETCH WITH PAIN
JRST TTGT2A]
SOSG TIBUF+2 ;DECREMENT INPUT TTY BUFFER COUNT
RJRST <IN TTYCHN, ;GET NEXT BUFFER FROM MONITOR
JRST TTYGT2 ;NO ERRORS
STATO TTYCHN,IO.EOF ;END OF FILE ON TTY?
JRST TTYGT2 ;NO, IGNORE ERROR
JRST TTYZ> ;YES, SET CONTROL Z FLAG
TTYGT2: ILDB CH,TIBUF+1 ;GET NEXT CHAR FROM BUFFER
TTGT2A: JUMPE CH,TTYGT1 ;IS IT NULL?
CAIE CH,C.RUB ;IGNORE RUBOUTS
CAIN CH,C.CR ;IS IT CR?
JRST TTYGT1 ;YES, SKIP
CAIL CH,C.LF ;LESS THAN LINE FEED?
CAILE CH,C.CR ;NO, LESS THAN CARRIAGE RETURN?
SKIPA ;NO, NOT AN EOL
JRST TTYEOL ;YES, CONSIDER AS EOL
CAIE CH,C.ESC ;ESCAPE?
CAIL CH,C.ALT1 ;OLD ALTMODE?
JRST TTYEOL ;YES, TREAT AS EOL
CAIE CH,C.CONC ;CONTROL C?
CAIN CH,C.CONZ ;CONTROL Z?
JRST TTYZ ;YES, SET FLAG(OLDER MONITORS STORE ^Z IN BUFFER)
PUSHJ P,FILPUT ;STORE CHAR IN FILE
JRST CPOPJ1 ;AND SKIP RETURN
;HERE WHEN CONTROL Z SEEN OF END OF FILE SET ON TTY
TTYZ: CLOSE TTYCHN, ;TURN OFF EOF FOR TTY
; CLEAR EOF SO CAN DO MORE INPUTS
TLO F,(F.CONZ) ;FLAG CONTROL Z SEEN
TTYEOL: PUSHJ P,FCRLF ;OUTPUT CRLF TO FILE
MOVEI CH,0 ;RETURN 0 AS EOL CHAR
POPJ P, ;GIVE EOL RETURN
SUBTTL OUTPUT ROUTINES - TTY AND FILE
;ROUTINE TO TYPE INTERNAL MONGEN ERROR ON TTY AND FILE, THEN EXIT TO MONITOR
;USE TTCALL IN CASE TTY COULD NOT BE INITED
;CALL: EREXIT <MESSAGE>,
EREXIT: PUSH P,T1 ;SAVE ADR OF MESSAGE
OUTSTR [ASCIZ /
? Internal MONGEN error - /]
OUTSTR (T1) ;THE CALLERS MESSAGE
FILOUT <@? Internal MONGEN error - >
POP P,T1 ;RESTORE MESSAGE ADR
PUSHJ P,FILOUT ;OUTPUT TO FILE
EXIT ;EXIT TO MONITOR
;ROUTINE TO OUTPUT TO FILE IN DECIMAL AND SUBSTITUTE FOR *
;CALL: MOVEI T1,ADR OF MESSAGE
; PUSHJ P,FILDEC
; ALWAYS RETURN HERE, N PRESERVED
FILDC2: TLO F,(F.2DEC) ;ASK FOR AT LEAST TWO CHARS OUTPUT
FILDEC: MOVEI R,12 ;SET RADIX TO DECIMAL
PJRST FILOT1 ;DO OUTPUT AND SUBSTITUTION
;ROUTINE TO OUTPUT TO FILE AND SUBSTITUTE FOR *
; VALUE OR SIXBIT IN N
;CALL: MOVEI T1,ADR OF ASCIZ STRING TO OUTPUT
; MOVE N,NUMBER OR LEFT JUSTIFIED SIXBIT
; PUSHJ P,FILOUT
; ALWAYS RETURN HERE, N PRESERVED
FILCOM: TLOA F,(F.COM) ;SET FLAG TO PRECEDE ALL LINE WITH ;
; AS A COMMENT IN FILE
FILOUT: MOVEI R,10 ;SET OUTPUT RADIX TO OCTAL FOR MACRO
FILOT1: HRLI T1,440700 ;FORM LH OF BYTE POINTER
PUSH P,[ILDB CH,T1] ;INSTRUCTION TO GET NEXT CHAR
FILOLP: XCT (P) ;GET NEXT CHAR IN OUTPUT MESSAGE
PJUMPE CH,FILT2A ;RETURN IF END OF STRING
CAIN CH,"*" ;NOT EOS, IS IT ASTERISK?
PUSHJ P,EITAST ;YES, SUBSTITUTE N FOR IT
PUSHJ P,FILPUT ;ARG TO EITAST OR OUTPUT CHAR
JRST FILOLP ;LOOP AND GET NEXT CHAR
;ROUTINE TO REPLACE A "DOT" IN A SYMBOL WITH THE VALUE OF CPUN
FILCPU: MOVEI R,10 ;OUTPUT RADIX
FILCP0: HRLI T1,440700 ;FORM A BYTE POINTER
PUSH P,T1 ;SAVE IT
FILCP1: ILDB CH,(P) ;GET NEXT CHARACTER IN OUTPUT
PJUMPE CH,FILT2A ;JUMP IF LAST
PUSH P,N ;SAVE ARGUMENT
CAIN CH,"*" ;SUBSTITUTE N?
JRST FILCP2 ;YES
MOVE N,CPUN ;CURRENT CPU NUMBER
CAIN CH,"." ;A DOT?
FILCP2: PUSHJ P,EITAST ;YES, CONVERT CPU NUMBER
PUSHJ P,FILPUT ;OUTPUT CHARACTER OR CPU NUMBER
POP P,N ;RESTORE ARGUMENT
JRST FILCP1 ;LOOP OVER ENTIRE STRING
;HERE ON END OF STRING
FILT2A: POP P,(P) ;REMOVE INSTRUCTION FROM STACK
FILOT2: TLZ F,(F.COM!F.2DEC) ;NOW CLEAR FLAG SO NEXT CALLER CAN USE
; FILOUT OR FILCOM WITHOUT HAVING TO SET OR CLEAR
; TO INDICATE COMMENT OR NOT
POPJ P, ;RETURN
;ROUTINE TO OUTPUT TO BOTH FILE AND TTY
; SUBSTITUTE FOR * VALUE OR SIXBIT IN N, PRECEDE EACH
; LINE IN FILE WITH ; SO A COMMENT
;CALL: MOVEI T1,ADR OF ASCIZ STRING
; PUSHJ P,BTHOUT FOR DECIMAL OR BTHOCT FOR OCTAL
; ALWAYS RETURN HERE, N PRESERVED
BTHOCT: SKIPA R,[EXP 10] ;OCTAL RADIX
BTHOUT: MOVEI R,12 ;OCTAL OUTPUT FOR FILE
PUSH P,T1 ;SAVE ADR OF ASCIZ MESSAGE
PUSHJ P,ASKMIC ;STORE IN MIC FILE
PUSHJ P,FILCOM ;OUTPUT TO FILE AS A COMMENT
POP P,T1 ;RESTORE ADR OF MESSAGE AND
JRST TTROUT ;REPEAT OUTPUT, BUT TO TTY: THIS TIME
;ROUTINE TO OUTPUT TO TTY IN DECIMAL
; SUBSTITUTE FOR * VALUE OR SIXBIT IN N
; OUTPUT INSIDE PARENS AND BRACKETS DEPENDING ON HELP LEVEL
;CALL: MOVEI T1,ADR OF ASCIZ STRING
; PUSHJ P,TTYOUT
; ALWAYS RETURN HERE, N PRESERVED
TTYOCT: MOVEI R,10 ;OCTAL RADIX(RARE) FOR TTY
JRST TTROUT ;GO DO REST OF TTYOUT
TTYOUT: MOVEI R,12 ;SET RADIX TO DECIMAL FOR PEOPLE
TTROUT: HRLI T1,440700 ;FORM LH OF BYTE POINTER
PUSH P,[ILDB CH,T1] ;INSTRUCTION TO GET NEXT CHAR
TTYOLP: XCT (P) ;GET NEXT CHAR INTO CH
PJUMPE CH,TTYNOW ;IF EOL, FORCE OUT TTY NOW
CAIN CH,"[" ;LEFT BRACKET?
TLO F,(F.LBRK) ;YES, FLAG INSIDE EXPLANATION
TLNE F,(F.LBRK) ;ARE WE INSIDE AN EXPLANATION?
JUMPLE LV,TTYSBK ;YES, IS HELP LEVEL SHOR OR PROMPT?
CAIN CH,"(" ;NO, LONG MODE, IS THIS CHAR LEFT PAREN?
TLO F,(F.LPAR) ;YES, FLAG INSIDE PROMPTING
TLNE F,(F.LPAR) ;ARE WE INSIDE PROMPTING?
JUMPL LV,TTYSPR ;YES, IS HELP LEVEL SHORT?
;HERE IF HELP LEVEL PERMITS THESE CHARS TO BE OUTPUT
CAIN CH,"*" ;NO, IS IT ASTRISCK?
PUSHJ P,EITAST ;YES, SUBSTITUTE N FOR IT
PUSHJ P,TTYPUT ;ARG TO EITAST OR OUTPUT CHAR ROUTINE
;HERE TO SUPPRESS PROMPTING INSIDE PARENS(SHORT MODE ONLY)
TTYSPR: CAIN CH,")" ;WAS CHAR JUST OUTPUT RIGHT PAREN?
TLZ F,(F.LPAR) ;YES, CLEAR INSIDE PROMPTING FLAG
;HERE TO SUPPRESS EXPLANATION INSIDE BRACKETS(SHORT AND PROMPT MODES)
TTYSBK: CAIN CH,"]" ;WAS CHAR JUST OUTPUT RIGHT BRACKET?
TLZ F,(F.LBRK) ;YES, CLEAR INSIDE EXPLANATION
JRST TTYOLP ;LOOP AND GET NEXT CHAR
;ROUTINE TO SUBSTITUTE FOR * IN OUTPUT TO FIL OR TTY USING N
;CALL: MOVE N,[SIXBIT / /] OR DECIMAL NUMBER
; MOVEI R,RADIX
; MOVE T1,BYTE POINTER
; CAIN CH,"*"
; PUSHJ P,EITAST
; PUSHJ P,FILPUT OR TTYPUT
; RETURN HERE WITH T1 AND N PRESERVED
EITAST: PUSH P,T1 ;SAVE BYTE POINTER TO STRING
TLNN N,770000 ;DOES N HAVE A SIXBIT ARG?
JRST EITAS2 ;NO, OUTPUT AS A NUMBER
;HERE TO OUTPUT N AS SIXBIT FOR *
MOVE WD,[XWD 440600,N] ;SETUP BYTE POINTER TO SIXBIT ARG
EITAS1: ILDB CH,WD ;GET NEXT SIXBIT CHAR
JUMPE CH,TPOPJ1 ;IS IT END OF SIXBIT?
ADDI CH,40 ;CONVERT TO ASCII
XCT @-1(P) ;OUTPUT CHAR TO TTY OR FIL ACCORDING
; TO ARG IN CALLING SEQUENCE
TLNE WD,770000 ;BYTE POINTER EXHAUSTED WD?
JRST EITAS1 ;NO, KEEP GETTING SIXBIT CHARS
JRST TPOPJ1 ;YES, RETURN
;HERE TO CONVERT N AND OUTPUT ACCORDING TO CURRENT RADIX
EITAS2: MOVE WD,@-1(P) ;GET ADR OF CHAR PUT ROUTINE FOR TTY OR FILE
; (TTYPUT OR FILPUT)
MOVE T1,N ;MOVE NO. TO DOUBLE AC
CAIG N,^D9 ;SKIP IF GREATER THAN TWO CHARS
TLNN F,(F.2DEC) ;ONE CHAR, SKIP IF WANT AT LEAST TWO
JRST EITAS3 ;GO AHEAD AS PLANNED
MOVEI CH,"0" ;OUTPUT LEADING ZERO
PUSHJ P,(WD) ;OUTPUT IT
EITAS3: PUSHJ P,EITSUB ;CALL RECURSIVE OUTPUT ROUTINE
TPOPJ1: POP P,T1 ;RSTORE BYTE POINTER
CPOPJ1: AOS (P) ;SET FOR SKIP RETURN
CPOPJ: POPJ P, ;RETURN
EITSUB: IDIVI T1,(R) ;DIVIDE REMAINING NUMBER BY RADIX
HRLM T2,(P) ;SAVE REMAINDER ON STACK
JUMPE T1,EITSB1 ;REMAINING NUMBER ALL GONE?
PUSHJ P,EITSUB ;NO, DIVIDE REMAINING NUMBER BY RADIX AGAIN
EITSB1: HLRZ CH,(P) ;GET MOST RECENT CHAR CONVERTED
ADDI CH,"0" ;CONVERT TO ASCII
PJRST (WD) ;OUTPUT CHAR TO TTY OR FIL AS SPECIFIED
; IN CALLING SEQUENCE
; RETURN TO EITSB1 UNTIL ALL CHAR OUTPUT
;ROUTINE TO OUTPUT JUST A STRING AND SUBSTITUTE ASCSTR FOR *
;CALL: FILSTR <MESSAGE*MESSAGE@>
FILSTR: HRLI T1,440700 ;FORM LH OF BYTE POINTER
STRLOP: ILDB CH,T1 ;GET NEXT CHAR
JUMPE CH,CPOPJ ;END OF STRING?
CAIN CH,"*" ;IS THIS ASTERISK?
JRST STRSUB ;YES, SUBSTITUTE STRING IN ASCSTR
PUSHJ P,FILPUT ;NO, STORE THIS CHAR IN FILE OUTPUT BUFFER
JRST STRLOP ;GO GET NEXT CHAR
STRSUB: PUSH P,T1 ;SAVE BYTE POINTER SO FAR
MOVEI T1,ASCSTR ;SETUP TO OUTPUT FROM WHERE USER TYPED IN
PUSHJ P,FILOUT ;OUTPUT STRING TO FILE
POP P,T1 ;RESTORE BYTE POINTER TO WHERE LEFT OFF
JRST STRLOP ;GO GET NEXT CHAR(SKIP OVER * ITSELF)
;ROUTINE TO OUTPUT LEFT ANGLE BRACKET CRLF TO FILE
;CALL: PUSHJ P,FILLAB
FILLAB: MOVEI CH,"<" ;LEFT ANGLE BRACKET
PUSHJ P,FILPUT ;PUT IN OUTPUT FILE
PJRST FCRLF ;OUTPUT CRLF TO FILE
;ROUTINE TO OUTPUT RIGHT ANGLE BRACKET CRLF TO FILE
;CALL: PUSHJ P,FILRAB
FILRAB: MOVEI CH,">" ;RIGHT ANGLE BRACKET
PUSHJ P,FILPUT ;PUT IN OUTPUT FILE
; FALL INTO FCRLF
;ROUTINE TO OUTPUT CRLF TO FILE
;CALL: PUSHJ P,FCRLF
FCRLF: MOVEI CH,C.CR ;OUTPUT CR
PUSHJ P,FILPUT ;TO FILE
MOVEI CH,C.LF ;THEN LINE FEED
; FALL INTO FILPUT
;ROUTINE TO OUTPUT 1 CHAR TO OUTPUT FILE, IF @ SUBSTITUTE CRLF
; OUTPUT TO TTY TOO IF DEBUGGING FLAG IS SET(DEBUG)
;INSERT PRECEDING ; IF FIRST CHAR ON A LINE AND F.COM SET
;CALL: MOVEI CH,CHAR
; PUSHJ P,FILPUT
; RETURN CH PRESERVED
FILPUT: TLNN F,(F.OFO) ;OUTPUT FILE OUTPUT YET?
POPJ P, ;NO, MUST BE ASKING QUESTION ABOUT OUTPUT FILE
CAIN CH,"@" ;YES, IS THIS CHAR THE CRLF CHAR?
PJRST FCRLF ;YES, OUTPUT CRLF TO FILE AND RETURN
SKIPE DEBUG ;NO, ARE WE DEBUGGING?
TLOE F,(F.TF) ;YES, IS THIS THE FIRST CHAR TO FIL
; AFTER TTY OUTPUT?
JRST FILPU1 ;NO, LEFT ANGLE ALREADY OUTPUT
PUSH P,CH ;YES, SAVE CHAR
MOVEI CH,"<" ;FLAG START OF OUTPUT WITH LEFT ANGLE
PUSHJ P,TTYPU1 ;ON TTY
POP P,CH ;RESTORE REAL FIRST CHAR TO FILE
FILPU1: TLZE F,(F.FLF) ;WAS LAST CHAR OUTPUT TO FILE A LF?
TLNN F,(F.COM) ;YES, SHOULD THIS LINEN BE A COMMENT IN FILE?
JRST FILPU2 ;NO, SO OUTPUT IT
PUSH P,CH ;YES, SAVE FIRST CHAR OF LINE
MOVEI CH,";" ;INSTEAD PUT OUT SEMI-COLON AS COMMENT CHAR
PUSHJ P,FILPU3 ; AS FIRST CHAR ON LINE
MOVEI CH,";" ;OUTPUT 2 ; IN CASE COMMENT IS IN MACRO
PUSHJ P,FILPU3 ;SO WONT SAVE COMMENT IN MACRO EXPANSION
MOVEI CH," " ;TAB
PUSHJ P,FILPU3 ;OUTPUT TAB
POP P,CH ;RESTORE FIRST CHAR OF COMMENT
FILPU2: CAIN CH,C.LF ;IS THIS CHAR A LINE FEED?
TLO F,(F.FLF) ;YES, FLAG LAST CHAR OUTPUT WAS A LINE FEED
; FOR NEXT CALL TO FILPUT
FILPU3: SKIPE DEBUG ;DEBUGGING SO WANT TO SEE FILE OUTPUT
PUSHJ P,TTYPU1 ;YES, OUTPUT TO TTY TOO
SOSG FOBUF+2 ;DECREMENT BUFFER COUNTER
PUSHJ P,[OUT FILCHN, ;BUFFER FULL, GIVE TO MONITOR
POPJ P, ;NO ERRORS
JRST FILERR] ;FILE ERROR, COMPLAIN AND START OVER
IDPB CH,FOBUF+1 ;STORE CHAR IN BUFFER
POPJ P, ;RETURN
;ROUTINE TO OUTPUT CRLF TO TTY
;CALL: PUSHJ P,TCRLF
TCRLF: MOVEI CH,C.CR ;CR CHAR
PUSHJ P,TTYPUT ;OUTPUT TO TTY
MOVEI CH,C.LF ;LINE FEED CHAR
; FALL INTO TTYPUT ROUTINE
;ROUTINE TO OUTPUT 1 CHAR TO TTY, IF @ SUBSTITUTE CRLF
;CALL: MOVEI CH,CHAR
; PUSHJ P,TTYPUT
; RETURN CH PRESERVED
TTYPUT: CAIN CH,"@" ;IS THIS THE CRLF CHAR?
PJRST TCRLF ;YES, OUTPUT CRLF ON TTY AND RETURN
SKIPE DEBUG ;NO, ARE WE DEBUGGING?
TLZN F,(F.TF) ;YES, IS THIS FIRST CHAR ON TTY AFTER FIL?
JRST TTYPU1 ;NO, OK TO OUTPUT
PUSH P,CH ;YES, SAVE REAL FIRST CHAR
MOVEI CH,">" ;AND INDICATE TERMINATION OF FILE OUTPUT
PUSHJ P,TTYPU1 ;OUTPUT TO TTY
POP P,CH ;RESTORE REAL FIRST TTY CHAR
;SUBROUTINE TO REALLY OUTPUT 1 CHAR TO TTY
TTYPU1: SKIPE INIFLG ;IF TTY NOT INITED
JRST TTYPU0 ;DO IT SLOW WAY
SOSG TOBUF+2 ;ROOM IN THIS OUTPUT BUFFER?
OUTPUT TTYCHN, ;NO, SO OUTPUT
IDPB CH,TOBUF+1 ;THEN STORE THIS CHAR IN BUFFER
POPJ P, ;RETURN
TTYPU0: OUTCHR CH ;YUCK
POPJ P,
;SUBROUTINE TO FORCE OUT CURRENT BUFFER NOW
;CALL: PUSHJ P,TTYNOW
TTYNOW: SKIPN INIFLG
OUTPUT TTYCHN, ;GIVE BUFFER TO MONITOR
POP P,(P) ;REMOVE INSTRUCTION FROM STACK
POPJ P, ;RETURN
;SUBROUTINE TO HANDLE EOL ON TTY INPUT FOR MIC
MICEOL: SKIPN MICFLG ;MIC FILE?
POPJ P, ;NOPE
PUSH P,CH
TLNE F,(F.CONZ)
PUSHJ P,[MOVEI CH,"^"
PUSHJ P,MICPTD
MOVEI CH,"Z"
PJRST MICPTD]
MOVEI CH,15 ;CR
PUSHJ P,MICPTD
MOVEI CH,12 ;LF
PUSHJ P,MICPTD
POP P,CH
POPJ P,
;SUBROUTINE TO PUT THE MIC FILE ON A NEW LINE
MICNL: SKIPGE MICFLG ;CRLF NEEDED?
POPJ P, ;NOPE
PUSH P,T1
PUSH P,CH
MOVEI T1,[BYTE (7)15,12,0]
PUSHJ P,MICSTR
POP P,CH
POP P,T1
POPJ P,
;SUBROUTINE TO OUTPUT A STRING TO MIC
MICSTR: HRLI T1,(POINT 7,,)
MICST1: ILDB CH,T1
JUMPE CH,CPOPJ
PUSHJ P,MICPUT
JRST MICST1
;SUBROUTINE TO OUTPUT A SIXBIT WORD TO MIC
MICSIX: MOVE T2,T1 ;COPY
MICSX1: JUMPE T2,CPOPJ ;EXIT IF DONE
SETZ T1, ;REMOVE JUNK
LSHC T1,6 ;NEXT CHAR
MOVEI CH," "-' '(T1) ;MAKE ASCII
PUSHJ P,MICPUT ;TYPE
JRST MICSX1 ;CONTINUE
;SUBROUTINE TO OUTPUT "*" IF IN COL 0, THEN 1 CHAR TO MIC
MICPTD: SKIPL MICFLG ;IN COL 0?
JRST MICPUT ;NO
HRLI CH,"*"
TLNE F,(F.CONZ)
TLC CH,"*"^!"="
MOVSS CH
PUSHJ P,MICPUT
HLRZS CH
; JRST MICPUT
;SUBROUTINE TO OUTPUT 1 CHAR TO MIC
MICPUT: SKIPN MICFLG ;FILE OK?
POPJ P, ;NOPE
SOSG MOBUF+2 ;ROOM IN THIS OUTPUT BUFFER?
OUTPUT MICCHN, ;NO, SO OUTPUT
IDPB CH,MOBUF+1 ;THEN STORE THIS CHAR IN BUFFER
MOVMS MICFLG ;NOT IN COL 0
CAIN CH,12 ;UNLESS LF
SETOM MICFLG ;IN WHICH CASE, WE ARE
POPJ P, ;RETURN
SUBTTL DATA STORAGE
;CONSTANTS:
;DEFAULT FILE NAMES:
FILTAB: SIXBIT /HDWCNF/ ;HDWCNF
SIXBIT /NETCNF/ ;NETGEN
SIXBIT /F/ ;FGEN
SIXBIT /MONGEN/ ;MONGEN
;DISPATCH TABLE:
GENTAB: EXP HDWGEN ;HDWGEN
EXP NETGEN ;NETGEN
EXP FGEN ;FGEN
LSTD44: I,,PAR ;INDEX BY DC44 NUMBER
I,,PAP ;PA611R AND PA611P
I,,LPC ;END LPC11
I,,PCR ;END PC11 READERS
I,,PCP ;AND PC11 PUNCHES
TYPDEV=.-LSTD44-1
;VARIABLES:
; THESE ARE STRICTLY INTERNAL TO MONGEN AND ARE NEVER OUTPUT IN FILE
;ONES NOT CLEARED IN MAIN LOOP, INSTEAD SET TO INITIAL VALUES ONLY ON GET.
; THUS ^C START DOES NOT INITIALIZE:
HELPF: -1 ;FLAG TO TYPE /HELP ONLY ONCE THRU LOOP OR START
DEBUG: 0 ;PATCH NON-ZERO TO DEBUG BY HAVING FIL OUTPUT TO TTY TOO
; COME OUT ON TTY INSIDE <>
SAVLV: 0 ;CURRENT PERMANENT VERBOSICITY LEVEL FOR ASKING QUESTIONS
; AC LV MAY BE DIFFERENT IF USER HAS CHANGED
; LEVEL FOR THIS QUESTION ONLY
; LEVELS ARE -1 FOR SHORT, 0 FOR PROMPT,
; AND 1 OR GREATER FOR LONG
; INITIALLY SET TO PROMPT ON A GET
FHNAME: SIXBIT .FGEN. ;LOOKUP BLOCK FOR FGEN AUXILIARY HELP FILE
SIXBIT .HLP.
0
0
RUNDEV: BLOCK 1 ;DEVICE FROM RUN OR GET
RUNPPN: BLOCK 1 ;DIRECTORY FROM RUN OR GET
FGPPN: BLOCK 1 ;DIRECTORY TO USE FOR HELP FILE
RUNPTH: BLOCK .PTMAX ;PATH BLOCK POINTED TO BY RUNPPN IF SFD
MOBUF: BLOCK 3 ;MIC OUTPUT BUFFER
MICFLG: BLOCK 1 ;0 IF MIC FILE NOT OPEN
MICBUF: BLOCK NMICBF*203 ;BUFFERS FOR MIC FILE
INIFLG: BLOCK 1 ;FLAG FOR TTY NOT INIT'D YET
;VARIABLES CLEARED EACH TIME THROUGH MAIN LOOP FOR A NEW GEN:
VARBEG: ;FIRST LOC CLEARED ON MAIN LOOP
PDLIST: BLOCK MP.PDL+1 ;PD LIST
ASKTAB: BLOCK MP.AMX+1 ;TABLE TO STOR POSSIBLE ANSWERS
; SETUP BY ASKLST WITH PROMPTING INSIDE ()
; LAST ENTRY MUST BE ZERO AS FLAG OF END
; FIRST ENTRY MAYBE 0 TO MEAN NO DEFAULT
; IE (,ANS0,ANS1,...)
ASCSTR: BLOCK <MP.LMX+4+1>/5 ;STRING FOR TTY INPUT LINE(SEE TTYIN)
; ENOUGH ROOM FOR MP.LMX CHAR, PLUS NULL
SAVN: BLOCK 1 ;PLACE TO SAVE MATCH INDEX IN ASKLST SUB
CNFIND: BLOCK 1 ;INDEX OF SYSTEM TYPE
MINLIM: BLOCK 1 ;MIN VALUE FOR ASK QUESTION. SET BY NOS. INSIDE ()
; WHICH PRECED A DASH.
MAXLIM: BLOCK 1 ;MAX VALUE FOR ASK QUESTION. SET BY NOS. INSIDE
; WHICH FOLLOW A DASH.
DFAULT: BLOCK 1 ;DEFAULT FOUND FIRST INSIDE () IN ASK QUESTION
; BY SETLST ROUTINE
WCHGEN: BLOCK 1 ;WHICH GEN, 0=HDW, 1=NET, 2=F
WCHNAM: BLOCK 1 ;WHICH GEN NAME, LH=SIXBIT HDW, NET, OR F
CPU: BLOCK 1 ;LOOP COUNTER FOR CPU LOOP
SCPUNR: BLOCK 1 ;NON-ZERO IF SOME CPU HAS NO REAL-TIME CLOCK
CHNTYP: BLOCK 1 ;CHANNEL TYPE 0=DF10,1=DF10C,2=DX10
CHN: BLOCK 1 ;LOOP COUNTER FOR CHANNEL LOOP
CCHN: BLOCK 1 ;LOOP COUNTER FOR CHANNELS ON A CPU
CPUN: BLOCK 1 ;LOOP COUNTER FOR DEVICES ON CPU'S OTHER THAN 0
TAPUN: BLOCK 1 ;UNIT NUMBER FOR TM02/TM78/DX20 TAPES
DTA: BLOCK 1 ;LOOP COUNTER FOR DTA LOOP
RX20: BLOCK 1 ;LOOP COUNTER FOR RX20 LOOP
MKON: BLOCK 1 ;COUNTER FOR MAG-TAPE KON ID
MKONP: BLOCK 1 ;NUMBER OF TAPE CONTROLS ON PREVIOUS CPUS
OSN: BLOCK 1 ;OCTAL STATION NO. CURRENTLY BEING DEFINED
LPTCNT: BLOCK 1 ;# OF LPTS
T2RH10: BLOCK 1 ;# OF RH10/TM02S ON CPU
T2RH1P: BLOCK 1 ;# OF RH10S ON PREVIOUS CPUS
D2RH20: BLOCK 1 ;# OF DX20S ON RH20S ON THIS CPU
TXCPUN: BLOCK 1 ;# TX10S
T1CPUN: BLOCK 1 ;# TM10S
RSCPUN: BLOCK 1 ;# OF RS04S ON THIS CPU
RPCPUN: BLOCK 1 ;# OF RP04S ON PREVIOUS CPUS
RNCPUN: BLOCK 1 ;# OF RP20S ON PREVIOUS CPUS
DPCPUN: BLOCK 1
FHCPUN: BLOCK 1
RH20CP: BLOCK 1 ;#OF RH20S ON THIS CPU
UCMBGN: ;FIRST WORD OF USER DEFINED COMMAND BLOCK
UCMCMD: BLOCK 1 ;COMMAND NAME
UCMPRG: BLOCK 1 ;PROGRAM NAME
UCMADR: BLOCK 1 ;DISPATCH ADDRESS
UCMBP1: BLOCK 1 ;INITIAL BYTE POINTER TO FLAGS/UNIQUE BITS
UCMBP2: BLOCK 1 ;FINAL BYTE POINTER TO FLAGS/UNIQUE BITS
UCMEND==.-1 ;END OF BLOCK
;FILE 4 WORD ENTER BLOCK:
OUTNAM: BLOCK 1 ;FILE NAME
OUTEXT: BLOCK 1 ;FILE EXTENSION
OUTDAT: BLOCK 1 ;FILE DATE
OUTPPN: BLOCK 1 ;FILE PROJECT, PROGRAMMER NUMBER
SAVPPN: BLOCK 1 ;SAVE PPN FOR MESSAGE AFTER ENTER
;BUFFER HEADERS:
TIBUF: BLOCK 3 ;TTY INPUT BUFFER HEADER
TOBUF: BLOCK 3 ;TTY OUTPUT BUFFER HEADER
FOBUF: BLOCK 3 ;FILE OUTPUT BUFFER HEADER
FHIBUF: BLOCK 3 ;FGEN AUXILIARY HELP FILE INPUT BUFFER HEADER
;BUFFERS
FILBUF: BLOCK NFILBF*203 ;BUFFERS FOR OUTPUT FILE
FHLPBF: BLOCK NFHLPBF*203 ;BUFFERS FOR FHELP FILE
;POINTERS TO FGEN SWITCH TABLE
FTTAB: BLOCK 1 ;POINTER TO TABLE READ FROM FILE
FTADD: BLOCK 1 ;POINTER TO TABLE OF USER ADDED SWITCHES
FTLEN: BLOCK 1 ;MINUS LENGTH OF WHOLE TABLE
;VARIABLES WHICH ARE ALSO OUTPUT IN FILE AS SYMBOLS
;***************************************************************
;NOTE: MACRO REQUIRES A ; AFTER ANGLE BRACKET IN CALL, ELSE TAB
; SNEAKS IN BETWEEN SYMBOL AND ;
;***************************************************************
;MACRO TO DEFINE CONSECUTIVE VARIABLES USED BY AOS(N) TRICK
;ORDER MUST BE THE SAME AS IN PROMPTING ANSWERS INSIDE PARENS
DEFINE V (A)<
IRP (A) <M.'A: BLOCK 1
>>
V <1070,1080,1090,1091,2020>; ;WHICH TYPE OF DECSYSTEM10
V <RT0,RT1,RT2,RT3,RT4,RT5>; ;NO OF DK-10S ON CPU'N
V <RTX>; ;TOTAL DK-10S ON SYSTEM
V <RTCA>; ;HIGH PRECISION TIME ACCOUNTING
V <RTCO>; ;INCLUDE MONITOR OVERHEAD IN RUNTIME
V <RTC>; ;INCLUDE DK10 SERVICE ROUTINE
V <EMRT>; ;EBOX/MBOX RUNTIME ACCOUNTING
V <XPI>; ;EXCLUDE PI TIME FROM USER RUNTIME
V <CPU>; ;NO. OF CPUS
V <P10>; ;PDP-10
V <P10I>; ;PDP-10I
V <KL10>; ;KL10 CPU
V <KS10>; ;KS10 CPU
V <C0SN,C1SN,C2SN,C3SN,C4SN,C5SN>; ;CPU SERIAL NOS.
V <MON,DAY,YEAR>; ;MONTH, DAY, YEAR SYMBOLS
V <CHN>; ;NO. OF DISK CHANNELS
V <RC10>; ;NO. OF RC10 CONTROLLERS
V <RH1S>; ;NO OF RH10/RS04 CONTROLLERS
V <RH1P>; ;NO OF RH10/RP04 CONTROLLERS
V <RH2P>; ;NO. OF RH20/RP04 CONTROLLERS
;MUST IMMEDIATELY FOLLOW RH1P
V <RHP4>; ;TOTAL NO OF RHP04'S (RH10 AND RH20)
V <RP20>; ;TOTAL NO OF RP20'S (RH20)
V <RH20>; ;NO. OF RH20S (RP04, TM02)
V <RP10>; ;NO. OF RP10 CONTROLLERS
V <TX01>; ;NO. OF TX01 CONTROLLERS
V <TM10>; ;NO. OF TM10 CONTROLLERS
V <T210>; ;NO. OF TM02 CONTROLLERS
V <DX20>; ;NO. OF DX20 CONTROLLERS
V <T78>; ;NO OF TM78 CONTROLLERS
V <HRSN>; ;HIGHEST REMOTE STATION NUMBER
V <TTDN>; ;TOTAL NUMBER OF RSX20-F TERMINALS
V <DLP>; ;TOTAL NUMBER OF RSX20-F LPTS
V <DCR>; ;TOTAL NUMBER OF RSX20-F CDRS
;HDWGEN:
V <VP10,340,VBXC>; ;TYPE OF DISPLAY
V <DAS78,D78L,0D78,1D78,2D78,3D78,4D78,5D78,6D78,7D78>; ;DAS78
V <DN6D,D60L,0D60,1D60,2D60,3D60,4D60,5D60,6D60,7D60,8D60,9D60,AD60,BD60>; ;DN60
;TTYGEN:
V <DC10,DC68,DC76>; ;TYPE OF TERMINAL COMMUNICATIONS EQUIPMENT
V <TTG0,TTG1,DSG0,DSG1,68L0,68L1,D70N,D71N,D72N,D73N,D74N,D75N,D76N,D77N>
V <DZNL>;
DEFINE BLOK4(PREFIX,POSTFX)
< IRP PREFIX
<
PREFIX:
ZZZ=0
REPEAT 8,<
WORD (PREFIX,\ZZZ,POSTFX)
ZZZ=ZZZ+1
> ;;END OF REPEAT 4
WORD (PREFIX,8,POSTFX)
WORD (PREFIX,9,POSTFX)
WORD (PREFIX,A,POSTFX)
WORD (PREFIX,B,POSTFX)
> ;;END OF IRP PREFIX
> ;;END OF DEFINE BLOK4
DEFINE WORD(A,B,C)
<A'B'C: EXP 0
>
;NOTE THE POSTFIX IS A NOOP FOR PREFIXES OF 5 CHARACTERS E.G. TYPNU
M.DC44: EXP 0 ;NUMBER OF DC44'S
TYPNUM: EXP 0 ;TOTAL NUMBER OF DC44 FRONT END DEVICES
BLOK4 <TYPNU,PAR,PAP,LPC,PCR,PCP>,N
M.DC75: EXP 0 ;NUMBER OF DC75'S OF DAS85'S
M.DL10: EXP 0
M.0D85: EXP 0 ;SYMBOL INDICATING PORT PRESENT
M.1D85: EXP 0
M.2D85: EXP 0
M.3D85: EXP 0
M.4D85: EXP 0
M.5D85: EXP 0
M.6D85: EXP 0
M.7D85: EXP 0
M.D78N: EXP 0 ;COUNT OF NUMBER OF DAS78S IN THE SYSTEM
M.DN60: EXP 0 ;COUNT OF GENERIC DN60 DEVICES
M.DN6K: EXP 0 ;COUNT OF KS10/DUP DN60 DEVICES
M.DN6R: EXP 0 ;COUNT OF KS10 DMR DN60 DEVICES
M.DN6S: EXP 0 ;COUNT OF KL10/DTE BASED DN60 DEVICES
M.KDPN: EXP 0
M.DMRN: EXP 0
M.DN8S: EXP 0
M.DDCN: EXP 0
M.CONN: EXP 0 ;ACCUMULATES DEFAULT # OF CONNECTS
M.CDR: EXP 0
M.CDP: EXP 0
M.PLT: EXP 0
M.PTP: EXP 0
M.PTR: EXP 0
M.SCA: EXP 0
VAREND==.-1 ;LAST LOC TO CLEAR IN MAIN LOOP FOR NEW GEN
END BEGINA