perm filename LSPLOT.F79[206,LSP] blob
sn#550369 filedate 1980-12-12 generic text, type C, neo UTF8
COMMENT ⊗ VALID 00016 PAGES
C REC PAGE DESCRIPTION
C00001 00001
C00003 00002 .if FALSE then begin "outline"
C00005 00003 .require "bkmac.pub[boo,jmc]" source_file
C00006 00004 .BEGIN "Title"
C00007 00005 .INSERT CONTENTS
C00008 00006 .s(PREFACE,Preface)
C00011 00007 .SET SECTIONPARS(I,1,Section,1)
C00012 00008 .GET |MICRO.S78[206,LSP]|
C00013 00009 .s(LOTS,USING MACLISP AT LOTS)
C00014 00010 .ss(intro,Introduction)
C00022 00011 .ss(sample, Running LISP )
C00027 00012 .ss(homew,Suggestions for Homework Preparation.)
C00031 00013 .GET |EDITOR.F80[206,LSP]|
C00032 00014 .GET |NEWIO.F80[206,LSP]|
C00033 00015 .SET SECTIONPARS(A,1,Appendix,i)
C00060 00016 .mkcontents
C00061 ENDMK
C⊗;
�.if FALSE then begin "outline"
Intro--what to get out of this handout
micro manual---jmc
Student MACLISP at LOTS
Invoking LISP
Read-Eval-Print
remark on uc=lc
comments
<cntrl>g
DEFUN
TRACE,STEP
Grindef
DSKIN, PPOUT, DKSOUT?
Sample session
Invoke LISP
Eval some elementary expressions
Defining functions
Grindeffing them
Saving results in file
Reading files on
your area
CS206 area
Preparing homework assignments
create a file with function definitions
or use editor and store the results
read them into LISP and debugg
(possibly editing and saving the corrections)
prepare final defn file
photo session showing sample runs
Editor
documentation
Editing old defn
starting from scratch
I/O
file-spec
open,close,uread,uwrite,ufile
controls: ↑<char> outfiles
read, etc.
examples:dskin ppout
.end "outline"
�.require "bkmac.pub[boo,jmc]" source_file
.odd heading(, {sname}, {page}) ;
.even heading({page}, {sname}, ) ;
.MACRO GET(FILE) ⊂ BEGIN "FILE" REQUIRE "FILE" SOURCE_FILE
.END "FILE" ⊃
�.BEGIN "Title"
.pagehigh←54
.pagewide←80
.PAGE FRAME pagehigh HIGH pagewide WIDE;
.evenleftborder ← oddleftborder ← 1000;
.area title lines 16 to pagehigh;
.place title;
.sname ← SSNAME ← NULL
.PORTION TITLEPAGE
.FONT A "BEESIX";
.center select A
LISP
.SKIP 2
at
.SKIP 2
LOTS
.skip 10
.select 1
Documentation of the Student version of MACLISP at LOTS
.skip 1
Compiled for CS206
.skip 1
by Carolyn Talcott
.SKIP 1
Stanford University
.skip 2
.TURN ON "{}"
This version printed at {time} on {date}.
.TURN OFF
.END "Title"
.
�.INSERT CONTENTS
.COUNT PAGE FROM 1 TO 999
.COUNT SECTION FROM 1 TO 999
.COUNT SUBSECTION IN SECTION FROM 1 TO 999
.sname ← SSNAME ← NULL
.turnon "{}"
.PORTION MAINPORTION
.SET SECTIONPARS(,,Preface,i)
�.s(PREFACE,Preface)
This note is intended as an introduction to the use of the
student version of MACLISP currently available at the Stanford LOTS
Computing Center. It is particularly aimed at students in CS206.
The first section is a MICRO MANUAL for LISP written by
John McCarthy. It contains a description of the primitives of LISP,
their semantics and some useful abbreviations for pratical use.
As this contains discussion of only the very basic notions of LISP
it is essentially implementation independent and any reasonable LISP
should behave in this way (some abbreviations may have different
names).
In the second section we give some directions for using the student
version of MACLISP at LOTS. It differs from the system MACLISP
in minor (hopefully helpful) ways.
There is a "photo" of a sample session with the LISP interpreter
using the basic features that the student will need.
Some suggestions on the mechanics of writing, debugging, and preparing
results to turn in as homework are also given.
The third section contains documentation for the editor available
in the student version of MACLISP at LOTS. There is also a "photo"
of two sessions with the editor. In the first session we
modify an existing program. In the second we build a program
from scratch with the aid of the editor.
The fourth section describes Input/Output in
MACLISP and includes a few examples of the use of
the I/O operations.
We have included as an appendix a listing of MACLISP functions,
features, systerm variables, etc. valid for the TOPS-20 version of
MACLISP.
For general documentation see the MACLISP reference manual.
�.SET SECTIONPARS(I,1,Section,1)
.itemmac
�.GET |MICRO.S78[206,LSP]|
�.s(LOTS,USING MACLISP AT LOTS)
�.ss(intro,Introduction)
The student version of MACLISP can be run at LOTS by typing
"LISP" to the LOTS monitor. In general when you invoke MACLISP you
are asked to decide on allocation of space. In the student version
the allocation of various spaces has already been done in this version,
so it asks you no embarrassing questions.
.bb |Evaluating, errors, debugging.|
As with other LISP interpreters, the top level is a
read-eval-print loop. Type in an S-expression and LISP returns the value.
MACLISP ordinarily does not distinguish between upper and lower case letters.
It values are normally printed in upper case.
Thus if you type $$(quote a)$ the value returned will be $A.
(See the section on I/O for exceptions.)
Error messages and other comments generated by the system
are prefaced by a semi-colon. When an error is detected, MACLISP
prints a message saying what it thinks is wrong, and goes into a "break-loop"
allowing you to examine the environment in which the error occurred.
(This feature is documented in the MACLISP reference manual.)__
To return to the top level type <control>G.
(Hold down the <control> key while typing "G".)__
Sometimes the error message is sufficient to tell you what is wrong.
Often it is not. There are some useful debugging aids in LISP. In
particular, the $TRACE and $STEP facilities are helpful. If you
$$(TRACE FOO)$ and then evaluate $$(FOO arg1 ... argn)$, each
time $FOO is called the values of the arguments are printed and
each time it is exited, the result is printed. To turn off the trace
type $$(UNTRACE FOO)$. $STEP allows you to step through the evaluation
of an expression. $TRACE and $STEP are documented in the MACLISP reference
manual. We will give examples of their use. Try them out on some simple
programs that you understand.
.bb Pretty-printing.
If you have defined a program (using $$DEFUN$ for example) then you can
"pretty-print" it using $GRINDEF. A pretty-printer prints the
program nicely indented to exhibit the structure of the program.
$$(GRINDEF_fq1_..._fq-)$ pretty prints the functional and value
properties (if any) of the atoms $$f%4i%*$. By functional
propteries we mean $EXPR, $FEXPR, $MACRO, etc. which may be
set using $DEFUN. Ordinarily and atom has at most one of these
properties, but nothing prevents it from having several.
.bb Simple file I/O.
In addition to printing definitions on the terminal
you will want to read them from a file and write them onto a file.
This version of MACLISP has the I/O programs $DSKIN, $QREAD, and
$PPOUT. $DSKIN and $QREAD do file input. $DSKIN expects that the
file contains a sequence of S-expressions. It reads, evaluates
and prints the results repeatedly until the end-of-file is reached.
It returns the "file object" corresponding the that file. (See
Section {section IO} for a discussion of files and file objects.)__
Thus $$(DSKIN FUNS LSP)$ reads the file FUNS.LSP on the current
default directory.
In the beginning the current default directory is your directory.
None of the above I/O operations change the default.
(See Section {section IO} for discussion of setting and determining
the current defaults.)
To read a file from some other directory, say from the CS206 directory
type $$(DSKIN_(DSK_|C.CS206|)_FUNS_LSP)$. $$(DSK_|C.CS206|)$ is
the directory component. The "|"s cause LISP to treat all characters
alike thus allowing "_._", "_"(space), "(", etc. to occur in a name.
$QREAD works like $DSKIN but quietly. It reads and evaluates, but
does not print. Both are useful for reading in files containing
program definitions.
To write the definitions of $BAX, $BLETCH, and $MUMBLE on
the file $FOO.BAR in the current default directory type
.once center
$$(PPOUT_(FOO_BAR)_BAX_BLETCH_MUMBLE).$
If you wish to do output on a directory other than the default
the directory name must be included in the file namelist.
(This may cause an error if you are not allowed to write on that
directory.) $PPOUT uses $GRINDEF, so all functional and value
properties of the atoms in the list will be printed in the file.
Nothing is printed on the terminal and PPOUT returns the file object
corresponding to the file written in.
[Remark: $PPOUT creates a new file and any existing file of the
same name will disappear.]
.bb Editing.
This version is setup to use the LISP program editor available at
SAIL rather than the one provided with the system. Documentation
and examples are in section {section EDITOR} of this manual.
.bb Exiting.
To exit LISP type <control>C.
.next page
�.ss(sample, Running LISP )
The following is the log of a session with LISP at LOTS. Things
in lower case are typed by the user and those in UPPER case are generated
by LISP. A single semicolon ";" flags a comment made by LISP. A triple
semicolon ";;;" flags a comment made by the user.
.begin "session"
.select 6
.verbatim
@lisp
MACLISP Here!
NIL
t ;;; evaluating some constants
T
nil
NIL
1
1
10
10
10. ;;; MACLISP works base 8,
12 ;;; a dot after an integer means base 10
(car '(a . b))
A
(car (cons 'a 'b))
A
(null 'a)
NIL
(atom 'a)
T
(eq 'b (cdr (cons 'a 'b)))
T
(append '(1) ())
(1)
(append '(1) '(2))
(1 2)
(append '(a) 'b)
(A . B)
(append 'a ())
;A ILLEGAL DATUM - CAR
;BKPT WRNG-TYPE-ARG
(boundp u) ;;;u is not bound just after error
NIL
(boundp v) ;;;v is bound to NIL
T
v
NIL
QUIT ;;;exit break loop
*
(trace append) ;;;see what we can find out by looking at the TRACE
;Loading trace 65
(APPEND)
(append '(a) ()) ;;; first try something that succeeds
(1 ENTER APPEND ((A) NIL))
(2 ENTER APPEND (NIL NIL))
(2 EXIT APPEND NIL)
(1 EXIT APPEND (A))
(A)
(append 'a ()) ;;; now look at the bad one
(1 ENTER APPEND (A NIL))
;A ILLEGAL DATUM - CAR ;;; fails in first call
;BKPT WRNG-TYPE-ARG
QUIT
*
(untrace append) ;;; untrace and
(APPEND)
(step t) ;;; step through the evaluation
EVALHOOK*
(append 'a ())
(APPEND (QUOTE A) NIL) ;;; type a <space> when the stepper types
(QUOTE A) ;;; out the next expression to evaluate
A ;;; to continue stepping
NIL
(COND ((NULL U) V) (T (CONS # #)))
(NULL U)
U = A
NIL
(CONS (CAR U) (APPEND (CDR U) V))
(CAR U)
U = A
;A ILLEGAL DATUM - CAR ;;; aha! APPEND does not work if
;;; the first argument is not a list.
;BKPT WRNG-TYPE-ARG
QUIT
*
;;; The file <c.cs206>EXAMPL.F79 contains the definition of
;;; APPEND, FLATTEN, FLAT, FRINGE, SUBST, and SUBST#
(dskin (dsk |c.cs206|) exampl f79) ;;; Read the file EXAMPL.F79 from
;;; the <C.CS206> directory
APPEND ;;; DSKIN reports the value of each
FLATTEN ;;; expression it reads.
FLAT
FRINGE
SUBST
SUBST#
#FILE-IN-|DSK:<c.cs206>EXAMPL.F79|-64776 ;;; It returns the file object.
(crunit) ;;; The LISP name of my directory
(DSK |C.CLT|)
(ppout (subst lsp) subst subst#) ;;; Pretty-print the definitions of
;;; SUBST and SUBST# in the file
;;; SUBST.LSP on my directory. PPOUT
;;; returns the corresponding
#FILE-OUT-|DSK:<C.CLT>SUBST.LSP|-64764 ;;; file object.
(qread subst lsp) ;;; read SUBST.LSP on my directory,
#FILE-IN-|DSK:<C.CLT>APP.LSP|-64752 ;;; quietly. QREAD also returns
;;; the file object.
.end "session"
.next page
�.ss(homew,Suggestions for Homework Preparation.)
Some of the homework for CS206 involves writing LISP programs to
compute some given recursive functions. The student is expected to
debug the programs then turn in the following things for each program:
.item←0
.begin nofill
#. The internal form of the program.
#. The corresponding external form recursive definition.
#. A description of how the progam works and why.
#. Output from test runs on a variety of input.
.end
This collection of data can be put together in many ways. The following
procedure is just one possiblity.
.begin indent 4,8
.item←0
#. Using some editor available at LOTS create a file and type in the
programs you wish to test. This allows you to use the editor to
correct typos. Parenthesis matching is essential here, so check it
carefully.
#. When you think your programs are correctly written run LISP and
read in the file (using $DSKIN or $$QREAD$). Now try your functions
on some trivial cases. If you discover some bugs fix them
using the LISP editor and save them using $PPOUT to create a
temporary file which can later be appended to the original.
(Alternately you can rewrite the entire file if not too large.)__
Now test them on non trivial data until you are convinced they
are correct.
#. To get output from sample runs the LOTS "PHOTO" program is useful.
PHOTO creates a file in which it keeps a log of what you type to
the terminal and what it types back. Type HELP PHOTO to the monitor
to find out how to use it.
#. Finally you can edit the file containing the pretty printed versions
of your programs and add external form definitions and documentation
for each program, list this and the PHOTO file and turn them in.
.end
There are many variations on the above procedure. You will no doubt
develop your own style and preferences. This is intended only to
get you going and point out some of the possibilities in the case that
you are unfamiliar with LOTS, LISP or both.
�.GET |EDITOR.F80[206,LSP]|
�.GET |NEWIO.F80[206,LSP]|
�.SET SECTIONPARS(A,1,Appendix,i)
.s(FEATUR, MACLISP functions and features.)
.cb TOPS-20/TENEX MacLISP 1862 Functions and Other Features
This a machine-generated, alphabetized listing of all functions
and features in MACLISP.
.begin verbatim select 7
User SUBRs:
*-READ-EVAL-PRINT COPYSYMBOL NCONS
*BREAK COS NOINTERRUPT
*DIF CXR NORET
*NOPOINT DEFAULTF NOT
*QUO DELETEF NOUUO
*READ DEPOSIT NRECONC
*READCH DISPLACE NREVERSE
*RSET EQ NTH
*THROW EQUAL NTHCDR
*TYI ERRFRAME NULL
+TYO EVALFRAME NUMBERP
1+ EXAMINE ODDP
1+$ EXP OUT
1- EXPLODE PLIST
1-$ EXPLODEC PLUSP
< EXPLODEN PNGET
= EXPT PNPUT
> FASLP PROBEF
ABS FILEP PUTPROP
ADD1 FILLARRAY QMARK
ALLOC FIX READ-*-EVAL-PRINT
ALPHALESSP FIXNUM-IDENTITY READ-EVAL-*-PRINT
ARG FIXP READ-EVAL-PRINT-*
ARRAYDIMS FLATC READLIST
ASCII FLATSIZE RECLAIM
ASSOC FLOAT REMAINDER
ASSQ FLOATP REMOB
ATAN FLONUM-IDENTITY REMPROP
ATOM FORCE-OUTPUT RENAMEF
BIGP FRETRY RETURN
BOUNDP FRETURN REVERSE
CAAAAR FSC ROT
CAAADR GC RPLACA
CAAAR GCD RPLACD
CAADAR GET RPLACX
CAADDR GETCHAR RUNTIME
CAADR GETCHARN SAMEPNAMEP
CAAR GETL SASSOC
CADAAR HAIPART SASSQ
CADADR HAULONG SET
CADAR HUNKP SETARG
CADDAR HUNKSIZE SETPLIST
CADDDR IFIX SETSYNTAX
CADDR IMPLODE SHORTNAMESTRING
CADR IN SIN
CAR INPUSH SLEEP
CDAAAR INTERN SQRT
CDAADR LAST SUB1
CDAAR LENGTH SUBLIS
CDADAR LENGTHF SUBR
CDADDR LISTIFY SUBST
CDADR LOAD SXHASH
CDAR LOG SYMBOLP
CDDAAR LSH SYMEVAL
CDDADR MAKHUNK SYSP
CDDAR MAKNAM TIME
CDDDAR MAKNUM TRUENAME
CDDDDR MAKUNBOUND TYPEP
CDDDR MEMBER VALUE-CELL-LOCATION
CDDR MEMQ XCONS
CDR MERGEF ZEROP
CLEAR-INPUT MINUS \
CLEAR-OUTPUT MINUSP \\
CLOSE MUNKAM ↑
CNAMEF NAMELIST ↑$
CONS NAMESTRING ↑G
User FSUBRs:
*CATCH CRUNIT INCLUDE STORE
*FUNCTION DECLARE LSUBRCALL SUBRCALL
AND DEFPROP OR THROW
ARRAY DEFUN POP UAPPEND
ARRAYCALL DO PROG UCLOSE
BREAK ERR PROGV UFILE
CASEQ ERRSET PUSH UKILL
CATCH EVAL-WHEN QUOTE UNWIND-PROTECT
CATCH-BARRIER FASLOAD SETQ UPROBE
CATCHALL FUNCTION SIGNP UREAD
COMMENT GCTWA SSTATUS UWRITE
COND GO STATUS
User LSUBRs:
* BOOLE GREATERP MAPLIST RANDOM
*$ CHARPOS HUNK MAX READ
*ARRAY DELETE LESSP MIN READCH
*REARRAY DELQ LINEL NCONC READLINE
+ DIFFERENCE LINENUM OPEN RUBOUT
+$ ENDPAGEFN LIST PAGEL SUSPEND
- EOFFN LIST* PAGENUM TERPRI
-$ ERROR LISTARRAY PLUS TIMES
/ ERRPRINT LISTEN PRIN1 TYI
/$ EVAL MAP PRINC TYIPEEK
APPEND EVALHOOK MAPATOMS PRINT TYO
APPLY FILEPOS MAPC PROG2 VALRET
ARGS FUNCALL MAPCAN PROGN
BAKLIST GENSYM MAPCAR QUIT
BAKTRACE GETSP MAPCON QUOTIENT
STATUS options (* = can use with SSTATUS too):
* + * FLUSH PDL TABSIZE
* ABBREVIATE FXPDL * PDLMAX * TERPRI
ARRAY * GCMAX PDLNAMES * TOPLEVEL
BPSH * GCMIN PDLROOOM * TTY
BPSL * GCSIZE PDLSIZE * TTYCONS
* BREAK * GCTIME * PUNT * TTYINT
* CHTRAN HOMEDIR PURSIZE * TTYREAD
* CRFIL HSNAM PURSPACENAMES * TTYSCAN
* CRUNIT JCL * RANDOM TTYTYPE
DATE JNAME SEGLOG UDIR
DAYTIME JNUMBER SPCNAMES UNAME
* DIVOV * LINMODE SPCSIZE * UREAD
DOW LISPVERSION SPDL USERI
* EVALHOOK * LOSEF SSTATUS * UUOLINKS
FASLOAD * MACRO STATUS * UWRITE
* FEATURE MEMFREE SUBSYS XUNAM
FILEMODE NEWLINE * SYNTAX * ←
FLPDL * NOFEATURE SYSTEM
Initial arrays:
OBARRAY READTABLE
Initial User AUTOLOAD properties:
NAME OF ATOM INITIAL VALUE
CGOL ((DSK MACLISP) CGOL FASL)
CGOLREAD ((DSK MACLISP) CGOL FASL)
DEFMACRO ((DSK MACLISP) DEFMACRO FASL)
DEFMACRO-DISPLACE ((DSK MACLISP) DEFMACRO FASL)
DEFUN& ((DSK MACLISP) DEFMACRO FASL)
DEFUN&-ERROR ((DSK MACLISP) DEFMACRO FASL)
DESETQ ((DSK MACLISP) LET FASL)
DUMPARRAYS ((DSK MACLISP) DUMPARRAYS FASL)
EDIT ((DSK MACLISP) EDIT FASL)
FORMAT ((DSK MACLISP) FORMAT FASL)
GETMIDASOP ((DSK MACLISP) GETMIDASOP FASL)
GRIND ((DSK MACLISP) GRIND FASL)
GRIND0 ((DSK MACLISP) GRIND FASL)
GRINDEF ((DSK MACLISP) GRINDEF FASL)
LAP ((DSK MACLISP) LAP FASL)
LAP-A-LIST ((DSK MACLISP) LAP FASL)
LET ((DSK MACLISP) LET FASL)
LET* ((DSK MACLISP) LET FASL)
LOADARRAYS ((DSK MACLISP) DUMPARRAYS FASL)
MACRO ((DSK MACLISP) DEFMACRO FASL)
MACROEXPAND ((DSK MACLISP) DEFMAX FASL)
MACROEXPAND-1 ((DSK MACLISP) DEFMAX FASL)
MACROEXPANDED ((DSK MACLISP) DEFMAX FASL)
MACROFETCH ((DSK MACLISP) DEFMAX FASL)
MACROMEMO ((DSK MACLISP) DEFMAX FASL)
READMACROINVERSE ((DSK MACLISP) GRINDEF FASL)
SORT ((DSK MACLISP) SORT FASL)
SORTCAR ((DSK MACLISP) SORT FASL)
SPRINTER ((DSK MACLISP) GRINDEF FASL)
TRACE ((DSK MACLISP) TRACE FASL)
LAP and FASLOAD functions:
*APPEND *NCONC *TYO PURIFY
*APPLY *PLUS FASLAPSETUP| PUTDDTSYM
*DELETE *PRIN1 GCPROTECT SQOZ|
*DELQ *PRINC GETDDTSYM TTSR|
*EVAL *PRINT LAPSETUP|
*GREAT *TERPRI PAGEBPORG
*LESS *TIMES PURCOPY
Internal system functions:
+INTERNAL-'-MACRO +INTERNAL-TTYSCAN-SUBR
+INTERNAL-*RSET-BREAK +INTERNAL-UBV-BREAK
+INTERNAL-;-MACRO +INTERNAL-UDF-BREAK
+INTERNAL-AUTOLOAD +INTERNAL-UGT-BREAK
+INTERNAL-FAC-BREAK +INTERNAL-UREAD-EOFFN
+INTERNAL-GCL-BREAK +INTERNAL-WNA-BREAK
+INTERNAL-GCO-BREAK +INTERNAL-WTA-BREAK
+INTERNAL-INCLUDE-EOFFN +INTERNAL-↑B-BREAK
+INTERNAL-IOL-BREAK +INTERNAL-↑Q-MACRO
+INTERNAL-PDL-BREAK +INTERNAL-↑S-MACRO
+INTERNAL-TTY-ENDPAGEFN +INTERNAL-|-MACRO
Internal system AUTOLOAD properties:
NAME OF ATOM INITIAL VALUE
|+INTERNAL-,-macro/|| ((DSK MACLISP) BACKQ FASL)
|+INTERNAL-`-grindmacros/|| ((DSK MACLISP) GRINDEF FASL)
|+INTERNAL-`-macro/|| ((DSK MACLISP) BACKQ FASL)
|+INTERNAL-macro-loser/|| ((DSK MACLISP) BACKQ FASL)
|+ibx/|| ((DSK MACLISP) BACKQ FASL)
|DEFMACRO MACRO| ((DSK MACLISP) DEFMACRO FASL)
|DEFMACRO-DISPLACE MACRO| ((DSK MACLISP) DEFMACRO FASL)
|DEFUN& MACRO| ((DSK MACLISP) DEFMACRO FASL)
|MACRO MACRO| ((DSK MACLISP) DEFMACRO FASL)
|MACRO-macroexpander/|| ((DSK MACLISP) DEFMACRO FASL)
|MACRO-macroexpander/| MACRO| ((DSK MACLISP) DEFMACRO FASL)
|MACROEXPANDED MACRO| ((DSK MACLISP) DEFMAX FASL)
|MACROEXPANDED-grindmacro/|| ((DSK MACLISP) DEFMAX FASL)
|`,./|| ((DSK MACLISP) BACKQ FASL)
|`,@/|| ((DSK MACLISP) BACKQ FASL)
|`,/|| ((DSK MACLISP) BACKQ FASL)
|`-expander/|| ((DSK MACLISP) BACKQ FASL)
|`-expander/| MACRO| ((DSK MACLISP) BACKQ FASL)
|forget-macromemos/|| ((DSK MACLISP) DEFMAX FASL)
System variables:
NAME OF ATOM INITIAL VALUE
$P $P
* *
*-READ-EVAL-PRINT NIL
*NOPOINT NIL
*RSET T
*RSET-TRAP +INTERNAL-*RSET-BREAK
+ +
- -
// NIL
ARGS NIL
AUTOLOAD +INTERNAL-AUTOLOAD
BACKQUOTE-EXPAND-WHEN EVAL
BASE 10
CAR NIL
CDR NIL
CLI-MESSAGE NIL
COMPILER-STATE NIL
DEFAULTF ((DSK LOSER) @ @)
DEFMACRO-CHECK-ARGS T
DEFMACRO-DISPLACE-CALL T
DEFMACRO-FOR-COMPILING T
DEFUN NIL
DEFUN&-CHECK-ARGS T
DEFUN&-ERROR NIL
ECHOFILES NIL
EDIT NIL
ERRLIST NIL
ERROR-BREAK-ENVIRONMENT (#OBARRAY-1200-64004 .
#READTABLE-0-64006)
ERRSET NIL
EVAL NIL
EVALHOOK NIL
FAIL-ACT +INTERNAL-FAC-BREAK
FASLOAD (SUBR FSUBR LSUBR)
GC-DAEMON NIL
GC-LOSSAGE +INTERNAL-GCL-BREAK
GC-OVERFLOW +INTERNAL-GCO-BREAK
GCTWA NIL
GRIND-MACROEXPANDED NIL
GRINDEF NIL
HUNKP T
IBASE 10
INFILE T
INSTACK NIL
IO-LOSSAGE +INTERNAL-IOL-BREAK
MACHINE-ERROR NIL
MACRO-EXPANSION-USE MACROEXPANDED
MACROEXPANDED NIL
MACROMEMO NIL
MAKHUNK T
MAR-BREAK NIL
MSGFILES (T)
NIL NIL
NORET NIL
NOUUO NIL
OBARRAY #OBARRAY-1200-64004
OUTFILES NIL
PDL-OVERFLOW +INTERNAL-PDL-BREAK
PRIN1 NIL
PRINLENGTH NIL
PRINLEVEL NIL
READ NIL
READ-*-EVAL-PRINT NIL
READ-EVAL-*-PRINT NIL
READ-EVAL-PRINT-* NIL
READTABLE #READTABLE-0-64006
SYMBOLS NIL
SYS-DEATH NIL
T T
TERPRI NIL
TTY 17
TTY-RETURN NIL
TYI #FILE-IN-|PRIMARY:*.|-64012
TYO #FILE-OUT-|PRIMARY:*.|-64014
UNBND-VRBL +INTERNAL-UBV-BREAK
UNDF-FNCTN +INTERNAL-UDF-BREAK
UNSEEN-GO-TAG +INTERNAL-UGT-BREAK
UREAD NIL
UWRITE NIL
WRNG-NO-ARGS +INTERNAL-WNA-BREAK
WRNG-TYPE-ARG +INTERNAL-WTA-BREAK
ZFUZZ NIL
ZUNDERFLOW NIL
↑A NIL
↑D NIL
↑Q NIL
↑R NIL
↑W NIL
|`-,-level/|| 0
LAP and FASLOAD variables:
NAME OF ATOM INITIAL VALUE
*PURE NIL
BPEND 117707
BPORG 116153
GCPROTECT NIL
LAPSETUP/| NIL
PURCLOBRL NIL
PURE 1
PUTPROP (SUBR FSUBR LSUBR)
TTSR/| 12614
.end
�.mkcontents