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exec/execps.mac
There are 9 other files named execps.mac in the archive. Click here to see a list.
; UPD ID= 2028, SNARK:<6.EXEC>EXECPS.MAC.3, 19-May-81 10:27:00 by PURRETTA
; UPD ID= 2002, SNARK:<6.EXEC>EXECPS.MAC.2, 14-May-81 15:25:13 by MURPHY
;FIX AC DEFS
; UPD ID= 1945, SNARK:<5.EXEC>EXECPS.MAC.2, 6-May-81 13:32:30 by MURPHY
;<4.EXEC>EXECPS.MAC.22, 9-Mar-81 17:30:17, Edit by DK32
;More prompts
;<4.EXEC>EXECPS.MAC.21, 12-Jan-81 21:50:29, Edit by DK32
;Give optional timeout to $ReadBinary
;<4.EXEC>EXECPS.MAC.20, 7-Jan-81 18:09:23, Edit by DK32
;$Append
;<4.EXEC>EXECPS.MAC.19, 23-Dec-80 02:29:52, Edit by DK32
;$Typeahead_Count
;<4.EXEC>EXECPS.MAC.18, 10-Dec-80 21:35:24, Edit by DK32
;$Input, $Output, $Wait
;<4.EXEC>EXECPS.MAC.17, 4-Dec-80 15:28:44, Edit by DK32
;$File_Dev ... $File_Typ
;<4.EXEC>EXECPS.MAC.16, 30-Nov-80 00:44:03, Edit by DK32
;Rearrange
;<4.EXEC>EXECPS.MAC.15, 29-Oct-80 16:11:35, Edit by DK32
;Names for $FileInfo, $Account, Runtime channel list
;<4.EXEC>EXECPS.MAC.14, 21-Oct-80 16:07:56, Edit by DK32
;$FileInfo, Rearrange
;<4.EXEC>EXECPS.MAC.13, 15-Oct-80 21:30:10, Edit by DK32
;$NextFile
;<4.EXEC>EXECPS.MAC.12, 7-Oct-80 15:17:16, Edit by DK32
;Adjust $Filex variables for parsed file list
;<4.EXEC>EXECPS.MAC.11, 2-Oct-80 19:23:37, Edit by DK32
;Prompt strings
;<4.EXEC>EXECPS.MAC.10, 25-Sep-80 18:18:41, Edit by DK32
;I/O
;<4.EXEC>EXECPS.MAC.9, 6-Sep-80 22:29:39, Edit by DK32
;Add $SearchRaised
;<4.EXEC>EXECPS.MAC.8, 20-Aug-80 17:01:59, Edit by DK32
;Add $TermNumber, $EmacsTerminal
;<DK32.CG>EXECPS.MAC.7, 10-Jul-80 10:40:12, Edit by DK32
;Add $ConnectedDirectory and $Quote
;<DK32.CG>EXECPS.MAC.6, 3-Jul-80 12:53:05, Edit by DK32
;Make MERGETAD and OUTPUTTAD functions, Add INPUTTAD
;<DK32.CG>EXECPS.MAC.5, 27-Jun-80 09:29:14, Edit by DK32
;Change IDCNV, ODCNV, ODTIM to MERGETAD, EXPANDTAD, OUTPUTTAD, Fix Readbinary
;<DK32.CG>EXECPS.MAC.4, 20-Jun-80 03:30:54, Edit by DK32
;Add $READBINARY
;<DK32.CG>EXECPS.MAC.3, 20-Jun-80 00:21:09, Edit by DK32
;Fix $USERNAME
;<DK32.CG>EXECPS.MAC.1, 11-Jun-80 22:43:51, Edit by DK32
TITLE EXECPS
SEARCH MONSYM, MACSYM
; The Programmable Command Language System Variables and Procedures
;
; Copyright (C) 1980, Carnegie-Mellon University
;
; This module defines all the system variables and procedures for PCL.
; The actual routines implementing many of the standard features are in
; module EXECPX; this module contains the fundamental definitions.
T1=:1
T2=:2
T3=:3
T4=:4
P1=:10
P2=:11
P3=:12
P4=:13
P=:17
; System name table
;
; This table contains the name of each procedure and variable,
; along with specific information on the procedure or variable
; location, status, etc. The ordering of the table is critical.
; Internally, a procedure or variable is referenced only by its
; index in this table; these indices are in the program texts of
; compiled PCL routines, so if you change this list indiscriminately
; existing environments may not work. Since it should not be
; necessary to delete any of the entries in the table as it is
; distributed, you should be simply be able to append entries to
; the end, accordingly giving your installation's routines all
; new indices.
;
; Each entry in the table takes two words; one word contains status
; information, and the other contains two addresses in the right
; and left halves.
;
; Word 1, Bit 0 - Routine ;If the entry defines a Variable, a one
; ;in this bit indicates that the variable
; ;is implemented by a routine which is called
; ;and which returns a value; if this bit is
; ;off, the Variable is simply a word in memory.
;
; Word 1, Bit 1 - Writeable ;If the entry defines a Variable, a one
; ;in this bit indicates that a write into
; ;the Variable is legal.
;
; Word 1, bits 12-14 - Data type if variable or typed procedure
TYPINT==0 ;Integer
TYPSTR==1 ;String
; Word 1, bits 15-17 - Class
CLSPRC==0 ;Untyped Procedure
CLSFCN==1 ;Typed procedure
CLSVAR==2 ;Variable
; Word 1, right half - Name length
; Word 2, left half - Address of ASCII string containing the name
; Word 2, right half - Address of routine, or of data word if ordinary Variable
DEFINE SYNDEF (NAME,LEN,CLASS,ADDR,TYPE,RTN,WRT) <
..STAT==0
IFNB <RTN>,<
..STAT==400000>
IFNB <WRT>,<
..STAT==..STAT+200000>
..STAT==..STAT+CLS'CLASS
IFNB <TYPE>,<
..STAT==..STAT+<TYP'TYPE>B32>
..STAT,,LEN
[ASCII/NAME/] ,, ADDR>
PSDEFN::
;Constants
SYNDEF (CRLF,4,VAR,CRLFST,STR)
SYNDEF (CR,2,VAR,CRTSTR,STR)
SYNDEF (NUL,3,VAR,DIVNUL##,STR,RTN,WRT)
SYNDEF (QUOTE,5,VAR,QUOTST,STR)
SYNDEF (PARSE,5,VAR,[-1],INT)
SYNDEF (FBCTL,5,VAR,[.FBCTL],INT)
SYNDEF (FBADR,5,VAR,[.FBADR],INT)
SYNDEF (FBPRT,5,VAR,[.FBPRT],INT)
SYNDEF (FBCRE,5,VAR,[.FBCRE],INT)
SYNDEF (FBGEN,5,VAR,[.FBGEN],INT)
SYNDEF (FBBYV,5,VAR,[.FBBYV],INT)
SYNDEF (FBSIZ,5,VAR,[.FBSIZ],INT)
SYNDEF (FBCRV,5,VAR,[.FBCRV],INT)
SYNDEF (FBWRT,5,VAR,[.FBWRT],INT)
SYNDEF (FBREF,5,VAR,[.FBREF],INT)
SYNDEF (FBCNT,5,VAR,[.FBCNT],INT)
SYNDEF (FBBK0,5,VAR,[.FBBK0],INT)
SYNDEF (FBBBT,5,VAR,[.FBBBT],INT)
SYNDEF (FBNET,5,VAR,[.FBNET],INT)
SYNDEF (FBUSW,5,VAR,[.FBUSW],INT)
SYNDEF (FBTDT,5,VAR,[.FBTDT],INT)
SYNDEF (FBFET,5,VAR,[.FBFET],INT)
SYNDEF (AUTHOR,6,VAR,[1],INT)
SYNDEF (WRITER,6,VAR,[2],INT)
SYNDEF (FILEACCOUNT,^D11,VAR,[3],INT)
;System information
SYNDEF (JOBNO,5,VAR,JOBNO##,INT)
SYNDEF (TERMNUMBER,^D10,VAR,DIVTTN##,INT,RTN)
SYNDEF (TTYPE,5,VAR,DIVTTP,INT,RTN)
SYNDEF (CURTAD,6,VAR,DIVCTD##,INT,RTN)
SYNDEF (LASTERRCODE,^D11,VAR,DIVLEC##,INT,RTN)
SYNDEF (TERMWIDTH,9,VAR,DIVTWD##,INT,RTN)
SYNDEF (USERNAME,8,VAR,DIVUNM,STR,RTN)
SYNDEF (ACCOUNT,7,VAR,DIVACC##,STR,RTN)
SYNDEF (LASTERROR,9,VAR,DIVLER##,STR,RTN)
SYNDEF (TIME,4,VAR,DIVTIM##,STR,RTN)
SYNDEF (DATE,4,VAR,DIVDAT##,STR,RTN)
SYNDEF (CONNECTEDDIRECTORY,^D18,VAR,DIVCDR##,STR,RTN)
SYNDEF (PROMPTREG,^D9,VAR,DIVPMR##,STR,RTN,WRT)
SYNDEF (PROMPTSUB,^D9,VAR,DIVPMS##,STR,RTN,WRT)
;Simple manipulations
SYNDEF (LENGTH,6,FCN,DINLNS,INT)
SYNDEF (CVCTI,5,FCN,DINCTI##,INT)
SYNDEF (INTEGER,7,FCN,DINSTI##,INT)
SYNDEF (STRING,6,FCN,DINITS,STR)
SYNDEF (CVITC,5,FCN,DINITC##,STR)
;Parse results
SYNDEF (VALUE,5,VAR,PCVVAL##,INT)
SYNDEF (FILEV,5,VAR,DIVFNV##,INT,RTN)
SYNDEF (ATOM,4,VAR,PCVATM##,STR)
SYNDEF (FILEN,5,VAR,DIVFNM##,STR,RTN)
SYNDEF (FILES,5,VAR,DIVFNS##,STR,RTN)
SYNDEF (FILEL,5,VAR,DIVFNL##,STR,RTN)
SYNDEF (NEXTFILE,^D8,FCN,DINNFL##,INT)
;Time/Date converters
SYNDEF (EXPANDTAD,9,PRC,DINODC)
SYNDEF (MERGETAD,8,FCN,DINIDC##,INT)
SYNDEF (INPUTTAD,8,FCN,DINITD##,INT)
SYNDEF (OUTPUTTAD,9,FCN,DINODT,STR)
;Search
SYNDEF (SEARCH,6,FCN,DINSCH##,INT)
SYNDEF (SEARCHRAISED,^D12,FCN,DINSCR##,INT)
;Input/output
SYNDEF (READBINARY,^D10,FCN,DINRBN,STR)
SYNDEF (OPEN,4,FCN,DINOPN##,INT)
SYNDEF (CLOSE,5,PRC,DINCLS##)
SYNDEF (READ,4,FCN,DINRED##,STR)
SYNDEF (EOF,3,FCN,DINEOF##,INT)
SYNDEF (WRITE,5,PRC,DINWRT##)
SYNDEF (FILEINFO_I,^D10,FCN,DINFII##,INT)
SYNDEF (FILEINFO_S,^D10,FCN,DINFIS##,STR)
;This definition is only for CMU; we don't expect anyone else
;to be able to use it unmodified since it depends on the terminal
;indices used at CMU
SYNDEF (EMACSTERMINAL,^D13,VAR,DIVETM,INT,RTN)
;Recent inserts
;REMEMBER TO EXPAND COD_LNO AND SHRINK COD_OPR
SYNDEF (FILE_DEV,8,FCN,DINFDV##,STR)
SYNDEF (FILE_DIR,8,FCN,DINFDR##,STR)
SYNDEF (FILE_NAM,8,FCN,DINFNM##,STR)
SYNDEF (FILE_TYP,8,FCN,DINFTY##,STR)
SYNDEF (INPUT,5,VAR,[0],INT)
SYNDEF (OUTPUT,6,VAR,[1],INT)
SYNDEF (WAIT,4,PRC,DINWAI##)
SYNDEF (TYPEAHEAD_COUNT,^D15,VAR,DIVTAH##,INT,RTN)
SYNDEF (APPEND,6,VAR,[2],INT)
SYNDEF (PROMPTENB,^D9,VAR,DIVPME##,STR,RTN,WRT)
SYNDEF (PROMPTENBSUB,^D12,VAR,DIVPMU##,STR,RTN,WRT)
PSDEFL==:<.-PSDEFN>/2 ;Length of definition table
; Some simple definitions
; Everywhere in PCL a string is referenced in terms of a "stringvalue"
; which can not simply be an address of an ASCIZ string. Instead,
; a stringvalue has the length of the string in the right half and
; the address of the ASCIZ string in the right half. This string
; length does NOT include the final null.
; Here are the definitions of two rather simple system string variables;
; since they are strings, their values are stringvalues.
CRLFST: 2,,[BYTE(7) .CHCRT,.CHLFD,.CHNUL] ; $CRLF
CRTSTR: 1,,[BYTE(7) .CHCRT,.CHNUL] ; $CR
QUOTST: 1,,[BYTE(7) ^D34,.CHNUL] ; $QUOTE
; Some symbols used here and there
EXTERN CSBUFP ;Common string buffer pointer
EXTERN SUBBP ;Subtract two byte pointers
; System Procedure definitions
; All system procedures are called from module EXECPX during execution
; of a PCL "CAL" pseudo-instruction. The address of the user's actual
; argument list is passed in AC1, and its length in AC2. The procedure
; fetches the parameters as it wishes, performs its calculations, and
; stores its results back in the user's parameters. System procedures
; should follow the standard register conventions: AC1 through AC4 are
; free for use by the called routine, along with AC16; all other AC's
; must be saved and restored if they are modified.
; A user's actual parameter list contains one word for each parameter;
; actually only the right half contains information. The parameter is
; represented by a general operand descriptor, which contains several
; codes in the high order three bits and an index in the low order 15
; bits. This index is NOT an address and is actually useless to you
; in this module. The way a procedure fetches and stores parameters is
; by calling two utility routines defined in EXECPX, and described below.
; Since the number and types of the parameters are not known until the
; procedure is called, the procedure must specify the required type
; of each parameter at the time it calls these utilities to fetch and
; store them. An integer operand is specified by the symbol TYPINT,
; and a string by TYPSTR. (Defined above)
; Routine PCEGOP takes an actual parameter descriptor in AC1 and a type
; code in AC2 and returns the value in AC1; if the parameter is a string
; then the value will be a "stringvalue" as described above.
EXTERN PCEGOP ;Get operand
; Routine PCESOP takes an actual parameter descriptor in AC1, a value in
; AC2 (an integer number or a stringvalue), and a type code in AC3,
; and stores the value in the parameter. If the actual parameter is not
; suitable for a store (for instance, if it was a procedure value or
; a computed number) an error will result.
EXTERN PCESOP ;Set operand
; When strings are involved a complication arises. Strings are allocated
; from a common string space pool, and every string is pointed to by
; one and only one user variable. Thus, if you want to store a string in
; a user parameter, almost certainly you want to really want to store
; a unique COPY of that string. To make a unique copy in a newly-allocated
; string block, you call routine PCECST with a stringvalue in AC1; it will
; return in AC1 a stringvalue to the new string, all ready to be stored
; by PCESOP. Or, if you know the length and want to do the copy yourself,
; a call to PCEAST with a length in AC1 will allocate a string block suitable
; for storing that many characters (plus one for the null) and return the
; stringvalue in AC1.
EXTERN PCECST ;Copy string
EXTERN PCEAST
; A further complication arises because of the possibility that some
; actual parameters may have been dynamically generated, and thus may
; reside on the stack. During normal execution, such temporary variables
; are popped from the stack the instant they are fetched (e.g., by an ADD
; pseudo-instruction). A system Procedure must take care to fetch its
; actual parameters in the proper order in order to pop the right parameter
; at the right time. That is, if your system Procedure is called by
;
; CALL $CONCATENATE( "first "+"string", "second "+"string")
;
; then "first string" will be pushed on the stack before "second string"
; and you had best be sure to fetch them in the opposite order.
; Because of these temporary variables, a system Procedure has one more
; responsibility: It must free the string block contained in such a
; temporary. So, whenever you use PCEGOP to obtain a string parameter,
; whenever you are done with its contents you must check the actual
; parameter descriptor to see if it is the code for a temporary string
; (symbol CLSTMS below); if it is, then you should call routine PCEFST
; with the stringvalue of the string in AC1 to release the string.
EXTERN PCEFST ;Free string
CLSTMS==700000 ;Temporary string
; You may wish to issue an error, for instance because of bad parameters.
; Remember that all PCL execution errors are fatal. All you do is jump
; to routine PCEERR with the address of an ASCIZ error message in AC1.
EXTERN PCEERR ;Execution error
; Procedure $EXPANDTAD - Convert TAD to several integers
; CALL $EXPANDTAD(TAD, Year, Month, DayMonth, DayWeek, Hour, Minute: Integer)
DINODC: CAIE T2,7 ;Correct number of parameters?
JRST [ MOVEI T1,[ASCIZ/Bad arguments to EXPANDTAD/]
JRST PCEERR] ;No
SAVEAC <P1,P2,P3,P4>
MOVE P1,T1 ;Save parameter list pointer
MOVE T1,(T1) ;Get first parameter descriptor
MOVEI T2,TYPINT ;Must be an integer
CALL PCEGOP ;Get TAD
MOVE T2,T1 ;Get TAD to proper AC
SETZ T4, ;Default options
ODCNV ;Break it up
DMOVE P2,T2 ;Save the results
MOVE P4,T4
MOVE T1,1(P1) ;Store year
HLRZ T2,P2
MOVEI T3,TYPINT
CALL PCESOP
MOVE T1,2(P1) ;Store month
HRRZ T2,P2
MOVEI T3,TYPINT
CALL PCESOP
MOVE T1,3(P1) ;Store day of month
HLRZ T2,P3
MOVEI T3,TYPINT
CALL PCESOP
MOVE T1,4(P1) ;Store day of week
HRRZ T2,P3
MOVEI T3,TYPINT
CALL PCESOP
MOVE T1,5(P1) ;Store hour
HRRZ T2,P4 ;Get seconds
IDIVI T2,^D60 ;Make minutes
IDIVI T2,^D60 ;Now make hours
MOVE P4,T3 ;Save remaining minutes
MOVEI T3,TYPINT
CALL PCESOP
MOVE T1,6(P1) ;Store minute
MOVE T2,P4
MOVEI T3,TYPINT
CALLRET PCESOP
; String Procedure $OUTPUTTAD - Convert TAD to a string
; LET STR = $OUTPUTTAD (TAD: Integer)
DINODT: CAIE T2,1 ;Right parameter count?
JRST [ MOVEI T1,[ASCIZ/Bad arguments to OUTPUTTAD/]
JRST PCEERR] ;No
MOVE T1,(T1) ;Get TAD
MOVEI T2,TYPINT
CALL PCEGOP
MOVE T2,T1
MOVE T1,CSBUFP ;Ordinary buffer area
SETZ T3, ;Standard format
ODTIM
MOVE T2,CSBUFP ;See how long it is
CALL SUBBP
CALL PCEAST ;Allocate string
MOVE T4,T1 ;Save stringvalue
MOVE T2,CSBUFP ;Copy the string
HRLI T1,(<POINT 7,0>)
ILDB T3,T2
IDPB T3,T1
JUMPN T3,.-2
MOVE T1,T4 ;Return the stringvalue
RET
; Integer Procedure $LENGTH - Return length of string
; LET integer = $LENGTH(string)
DINLNS: CAIE T2,1 ;One parameter?
JRST [ MOVEI T1,[ASCIZ/Bad argument to $Length/]
JRST PCEERR] ;No
SAVEAC <P1,P2>
MOVE P1,T1 ;Save pointer
MOVE T1,(T1) ;Get descriptor
MOVEI T2,TYPSTR
CALL PCEGOP ;Get string
HLRZ P2,T1 ;Get length
MOVE T2,(P1) ;Get designator again
CAIN T2,CLSTMS ;Temporary?
CALL PCEFST ;Free it
MOVE T1,P2 ;Return length
RET
; String Procedure $STRING - Convert integer to string
; LET string = $STRING(Number:Integer) or
; LET string = $STRING(Number, radix: Integer)
DINITS: CAIL T2,1 ;Too few arguments?
CAILE T2,2 ;Too many?
JRST [ MOVEI T1,[ASCIZ/Bad arguments to $STRING/]
JRST PCEERR] ;Yes
SAVEAC <P1,P2>
MOVEI P2,^D10 ;Default radix
MOVE P1,T1
CAIE T2,2 ;Radix provided?
JRST ITS1 ;No
MOVE T1,1(T1) ;Get it
MOVEI T2,TYPINT
CALL PCEGOP
MOVE P2,T1 ;Save it
ITS1: MOVE T1,(P1) ;Get number
MOVEI T2,TYPINT
CALL PCEGOP
MOVE T2,T1 ;Save it
MOVE T1,CSBUFP ;Use common buffer
JUMPGE P1,INT2 ;Negative?
MOVEI T3,"-" ;Yes
IDPB T3,T1
MOVMS T2
INT2: MOVE T3,P2 ;Default format with requested radix
NOUT ;Convert it
NOP
MOVE T2,CSBUFP ;See how long it is
CALL SUBBP
CALL PCEAST ;Allocate string
MOVE T2,T1 ;Copy strings
HRLI T2,(<POINT 7,0>)
MOVE T3,CSBUFP
ILDB T4,T3
IDPB T4,T2
JUMPN T4,.-2
RET ;Return stringvalue
; String Procedure $READBINARY - Read from terminal
; LET string = $READBINARY(NumberofBytes:Integer, BreakCharacter:String,
; TimeOut:Integer)
DINRBN: CAILE T2,1 ;Two or three arguments?
CAILE T2,3
JRST [ MOVEI T1,[ASCIZ/Bad arguments to $ReadBinary/]
JRST PCEERR] ;No
SAVEAC <P1,P2,P3>
MOVE P1,T1 ;Save pointer to arguments
MOVEI P3,^D1000 ;Default timeout
CAIE T2,3 ;Is timeout specified?
JRST DINRB1 ;No
MOVE T1,2(P1) ;Get timeout
MOVEI T2,TYPINT
CALL PCEGOP
MOVE P3,T1 ;Save timeout
DINRB1: MOVE T1,1(P1) ;Get break string
MOVEI T2,TYPSTR
CALL PCEGOP
HLRZ T2,T1 ;Check the length
CAIE T2,1 ;Exactly one character?
JRST [ MOVEI T1,[ASCIZ/Break string may have only one character/]
JRST PCEERR] ;No
LDB P2,[POINT 7,0(T1),6] ;Get the character
MOVE T2,1(P1) ;Get the designator again
CAIN T2,CLSTMS ;Temporary?
CALL PCEFST ;Yes, free it
MOVE T1,(P1) ;Get descriptor of count
MOVEI T2,TYPINT
CALL PCEGOP ;Get character count
MOVE P1,T1 ;Save it
JUMPLE P3,DINRB3 ;Need I wait?
DINRB2: MOVX T1,.CTTRM ;Check terminal
SIBE ;Is there something ready?
JRST DINRB3 ;Yes, read it
MOVEI T1,^D100 ;Pause 100 msec
DISMS
SUBI P3,^D100
JUMPG P3,DINRB2 ;Check again
SETZ T1, ;Return empty string
RET
DINRB3: MOVX T1,.CTTRM ;Get controlling terminal
RFMOD ;Get current modes
MOVE T4,T2 ;Save them
SETZRO TT%DAM,T2 ;Set to binary mode
SFMOD
MOVE T2,CSBUFP ;Read into a common buffer
MOVE T3,P1 ;Up to this many characters
EXCH T4,P2 ;Or until this character is read
SIN
MOVE T2,P2 ;Get back former modes
SFMOD
MOVE T1,P1 ;Get space for this many characters
SUB T1,T3 ;Although this many weren't read
CALL PCEAST
MOVE T4,T1 ;Copy the string
HRLI T4,(POINT 7,0)
MOVE T2,CSBUFP
ILDB T3,T2
IDPB T3,T4
SOJG P1,.-2
RET ;Return the stringvalue in T1
; Integer variable $TTYPE - Terminal type index
DIVTTP: MOVEI T1,.PRIIN ;Current terminal
GTTYP
MOVE T1,T2 ;Return index
RET
; String variable $USERNAME - Logged-in user name
DIVUNM: GJINF ;See who I am
MOVE T2,T1 ;Copy it
HRRZ T1,CSBUFP ;Point to a buffer
HRLI T1,010700 ;Use the next word since it must on a word
PUSH P,T1 ;Save it
DIRST ;Convert it
NOP
MOVE T2,(P) ;See how long it is
CALL SUBBP
POP P,T2 ;Get back address
HRL T1,T1 ;Make a stringvalue
HRRI T1,1(T2)
RET
;CMU local variable
; Integer variable $EmacsTerminal - nonzero if current terminal
; can be used effectively by Emacs
DIVETM: MOVEI T1,.PRIIN ;Current terminal
GTTYP
ADJBP T2,[POINT 1,EMCTRM,0] ;Point to corresponding bit
LDB T1,T2 ;Get yes or no
RET
EMCTRM: 000006,,017277 ;This is a bitvector based on the CMU
534000,,0 ;terminal types.
END