perm filename BAIL.SAI[B,AIL] blob
sn#265393 filedate 1977-02-17 generic text, type C, neo UTF8
COMMENT ⊗ VALID 00035 PAGES
C REC PAGE DESCRIPTION
C00001 00001
C00004 00002
C00005 00003 Data Structures Used by BAIL
C00018 00004 ENTRY BAIL,B!
C00035 00005 # MEMSTRING CATCRLF CRLFCAT STRCOPY FILTIM LAST!WRITTEN COREGET COREFREE EXTND NONULL PDFIND ADDSTR ADDCHR DUMPSTR MAKPPN
C00044 00006 # WRITEON PACKAGE
C00051 00007 # OPERATOR CODES, REFITEM TYPE DEFINITIONS
C00066 00008 # TYPEMUNGE
C00072 00009 # INSERT
C00074 00010 # FIND
C00083 00011 # CVNAME PREDEC
C00085 00012 # STBAIL
C00095 00013
C00105 00014 # SUPER OUTER BLOCK, FOR PREDECLARED STUFF
C00117 00015 # LINED DBANG !!EQU EVALERR
C00124 00016 # GET!TOKEN
C00128 00017 # INTARRAY, CRD!PC, FTEXT, SHOW, CRDFND, GETTEXT
C00137 00018 # N!PARAMS NPSTACK DEFINE HELP
C00140 00019 # CVINTEGR, CVREAL, CVSTRNG, CVLREAL, CONVERT
C00145 00020 # INCOR
C00156 00021 # GETLSCOPE, PRLSCOPE
C00160 00022 # GETDSCOPE,PRDSCOPE
C00166 00023 # TFIND,BREAK1,SWAP!BREAKS,PLANT!BREAKS,UNPLANT!BREAKS,LOC!PC,BREAK,COORD,TRAPS
C00178 00024 # PRARGS, TRACER, TRACE
C00186 00025 # UNBREAK1,UNBREAK,UNTRACE,CLRTBK,STEPPING
C00196 00026 # BAILOR,!!TEXT,!!ARGS,EVAL,PSH,OPPSH,SETLEX,X1TEMP,NEWTEMP,NEWLTEMP,NEWSTRTEMP
C00201 00027 # EVAL1
C00207 00028 # INTERPRETATION OF OPERATORS
C00216 00029
C00224 00030 $COMMA: BEGIN
C00229 00031 $ARRYREF:BEGIN
C00236 00032 # $MEMRY,$DATUM,$SWAP,$GETS,$SUBFLD,$AR,$APPLY,$CPRINT,$PRINT,$NEWREC
C00245 00033 # PARSER
C00253 00034 # SETSCOPE !!STEP !!GSTEP !!GOTO CLNRET !!UP Q!BRECOV P!BRECOV
C00265 00035 # BAIL,UBINIT,DDBAIL,B!
C00278 ENDMK
C⊗;
�COMMENT
BAIL -- A DEBUGGER FOR SAIL
by
John F. Reiser
Computer Science Department
Stanford University
Stanford, California 94305
March 1976
This work was supported in part by a National Science Foundation Graduate
Fellowship. Computer facilities provided by the Stanford Artificial Intelligence
Laboratory and the Institute for Mathematical Studies in the Social Sciences,
Stanford.
;
�COMMENT Data Structures Used by BAIL
I. The .SM1 file
This file is produced by the compiler. It corresponds in a rough way
to a .REL file, except that is has information for the debugger rather
than for the loader. The file is a sequence of tables. Each table
begins with a word containing a non-zero number which indicates the
type of the table. Following this are an arbitrary number of words,
and then a word which is zero. Then comes the identifying number for
the next table, and so on. The end of the file is indicated by a
table number of -1.
The current table types are BAIFIL [1], BAICRD [2], and BAIBLK [3],
and BAIPRC [4].
A. BAIFIL -- text file (source/listing) name
The format of the table is:
XWD file #, # of words which follow
NOTENX<
SIXBIT /device/
SIXBIT /name/
SIXBIT /extension/
SIXBIT /ppn/ >.,NOTENX
TENX<
ASCII /<string returned by JFNS>/ >.,TENX
B. BAICRD -- coordinate to text index
This table contains two words for each coordinate of the source program.
[The coordinate counter starts at zero for each compilation and is
increased by one for each semicolon and ELSE seen by the parser,
provided that some code has been generated since the previous coordinate.
The semicolons of COMMENTs and DEFINEs are ignored in this counting.]
The words specify where the text for the coordinate is located, the
address of the first word of code for the coordinate, and whether the
accumulators have any carry-over information from the previous coordinate.
BYTE (6)<byte pointer "P">, (5)<file #>, (7)<word #>, (18)<USETI #>
BYTE (1)<ALLSTO>, (17)<coordinate #>, (18)<address of code>
At runtime, the format of the first word is changed to
BYTE (12)<file #> (24)<char # in file>.
C. BAIBLK -- block structure and symbol information
This table contains information on a block, followed by
information describing the symbols declared inside that block.
The tables for the various blocks of a compilation occur in the
order in which their ENDs were seen--i.e., inner-most block first.
BYTE (18)<coord #>, (1)0, (11)<DDT level>, (6)<# of words in name>
BYTE (18)<last word of code>, (18)<first word of code>
ASCII /name of block/
For each symbol:
BYTE (18)0, (12)<DDT level>, (6)<# of words in name>
BYTE (36)<pre-REFITEM datum for this symbol>
ASCII /name of symbol/
D. BAIPRC -- procedure and parameter information
This table is very similar to a BAIBLK table, except that there is one
more word for the type bits and the pda of the procedure.
BYTE (18)<coord #>, (1)1, (11)<DDT level>, (6)<# of words in name>
BYTE (18)<location of last word of code>, (18)<pcnt at prdec>
BYTE (18)<type bits for procedure>, (18)<pda>
ASCII /name of procedure/
For each parameter:
BYTE (18)0, (12)<DDT level>, (6)<# of words in name>
BYTE (36)<pre-REFITEM datum for this symbol>
ASCII /name of symbol/
II. The .BAI file
The first disk block of the .BAI file is a header index block.
WORD MEANING
0-7 unused
8 USETI pointer to beginning of T!CRDIDX
9 CRDCTR,,N!CRDIDX
10 USETI pointer to beginning of T!BLKADR
11 N!BLKADR
12 USETI pointer to beginning of T!NAME
13 N!NAME
14 USETI pointer to text file names
15 N!TXTFIL,,# of words taken up by names
16-127 unused
III. Runtime data structures
A. The NAME table.
All symbols known to BAIL are kept in the NAME table. This is a hash
table of 31 buckets, with collisions resolved by separate chaining.
Since its ultimate size is not known until it has been constructed,
is is maintained as a MEMORY-LOCATION type table, constructed out
of a CORGET block. All pointers are relative to the zero-th location
of the CORGET block.
0: BYTE (2)<type>, (16)<father>, (18)<next symbol in this bucket>
1: BYTE (36)<REFITEM datum>
2: ASCI3 /name/ .,three words, zero fill
The twenty most recently referenced symbols are kept in the CACHE
to try to speed things up. The cache is maintained by the "climb"
algorithm--when referenced, a symbol is exchanged with the one
above it in the table, thus the most commonly used symbols appear
towards the top of the table. An entry in the CACHE is the same
as an entry in the NAME table, except that the <next symbol> pointer
is replaced with the first word address of the block which you
must be in to make the cache entry valid. [Think about homonyms.]
B. The block locator table BLKADR
This table contains two words for every block and procedure, and
enables one to determine the block structure corresponding to
an arbitrary address. This is a linear table in a CORGET block.
0: BYTE (18)<father (in BLKADR)>, (18)<pointer to NAME table>
1: BYTE (18)<last word of code+1>, (18)<first word of code>
C. The coordinate index CRDIDX
The whole coordinate table is likely to be very large, so it is
kept on disk and only an index is kept in core. Since displaying
the source text requires a disk access anyway, we might as well
perform two of them--one to get the right coordinate pointer,
and one to read the text. The table CRDIDX contains the first
word of every 64-th coordinate pointer. This is a linear table
kept in a CORGET block, and the index of an entry directly
corresponds to the disk block of the .BAI file which contains
the full 64-coordinate section of the table.
BYTE (1)<ALLSTO>, (17)<coord #>, (18)<core address>
D. The BALNK loader link block
This block is generated in the data portion of the code. It
contains relocation information and the name of the .SM1 file.
It is in the data portion since the loader linked chain must be
reversed before BAIL can use it.
<link word>
XWD <high-segment one>,<low-segment one>
XWD <0 for user, 1 for runtimes>,<# of words which follow>
NOTENX<
SIXBIT /<.SM1 file name>/
SIXBIT /<extension>/
SIXBIT /<PPN>/
SFDS< SIXBIT /sfd list/ >.,SFDS
SIXBIT /<device>/ >.,NOTENX
TENX<
ASCII /<string returned by JFNS for .SM1 file name>/ >.,TENX
E. Descriptors ("refitems")
Each object known to BAIL is described by one word which has the
format of the datum of a reference item. No items are actually used,
but the bits mean the same thing. These bits are:
bit name meaning
0 400000,,0 TEMPB simple procedure or defaultable parameter
1 200000,,0 REFB effective address is not a temp location
2 100000,,0 QUESB ? itemvar
3 40000,,0 BINDB binding itemvar
4 20000,,0 PROCB procedure. addr is pda (entry if simple)
5 10000,,0 ITEMB item or itemvar
6 4000,,0 ARY2B λ array itemvar array
7-12 3740,,0 type code, same as leap datum type (TYPEIT)
13-35 37,,-1 effective address. indirect and index
fields used mostly to indicate arrays or
parameters to procedures
IV. The symbols for SAIL predeclared runtimes
The SAIL predeclared runtimes can be made known to BAIL. This requires
that procedure descriptors for the runtimes be loaded. The procedure
descriptors are created by using the files generated by RTRAN as a
side effect of creating the builtin symbol table for the compiler.
After running RTRAN:
.R FAIL
*BAICLC←BPDAHD,BAICLC .,the files containing procedure
*BAIIO1←BPDAHD,BAIIO1 ., descriptors
*BAIIO2←BPDAHD,BAIIO2
*BAIMSC←BPDAHD,BAIMSD
*BAIPRC←BPDAHD,BAIPRC
*BAISM1←BSM1HD,BAISM1 .,the program to construct the .SM1
., files
*BAIPDn←BAIPDn .,does a .LOAD on all the procedure
., files
*↑C
.R LOADER
*/E BAISM1$
Now transfer the .REL and .SM1 files to SYS: or <SAIL>.
ENDCOMMENT ;
�ENTRY BAIL,B!;
BEGIN "BILGE"
REQUIRE "[][]" DELIMITERS;
REQUIRE 64 STRING!PDL; COMMENT STANDARD IS 40;
LET DEFINE=REDEFINE;
COMMENT INSTALLATION DEPENDENT MACROS AND SETTINGS.
SUAI sets SUAI on, DEC off
DEC sets SUAI off, DEC on
TENEX taken care of automatically by testing for GTJFN;
IFCR DECLARATION(GTJFN)
THENC DEFINE TENX(A)=[A], NOTENX(A)=[], SUAI(A)=[], DEC(A)=[];
ELSEC DEFINE TENX(A)=[], NOTENX(A)=[A]; ENDC
IFCR EQU(COMPILER!BANNER[LENGTH(SCANC(COMPILER!BANNER,"-",NULL,"IA"))+1 FOR 8]
,"TYMSHARE") THENC
DEFINE TYMSW(A)=[A],NOTYMSW(A)=[]; ELSEC
DEFINE TYMSW(A)=[],NOTYMSW(A)=[A]; ENDC
NOTENX([
IFCR DECLARATION(LODED) THENC DEFINE SUAI(A)=[A], DEC(A)=[];
ELSEC DEFINE SUAI(A)=[], DEC(A)=[A]; ENDC
])
SUAI([DEFINE CH!SETC=['176],CH!ALT=['175]; COMMENT RIGHT BRACE, ALTMODE;
DEFINE CORE!IMAGE!EXTENSION=["DMP"];
DEFINE MAX#TXTFIL=[31];
REQUIRE "
SUAI VERSION" MESSAGE;
])
DEC([ DEFINE CH!SETC=['175],CH!ALT=['33];
DEFINE CORE!IMAGE!EXTENSION=["SAV"];
DEFINE MAX#TXTFIL=[31];
NOTYMSW([REQUIRE "
DEC TOPS-10 VERSION" MESSAGE;])
TYMSW([ REQUIRE "
TYMSHARE VERSION" MESSAGE;])
])
TENX([ DEFINE CH!SETC=['175],CH!ALT=['33];
DEFINE CORE!IMAGE!EXTENSION=["SAV"];
DEFINE MAX#TXTFIL=[99];
REQUIRE "
TENX VERSION" MESSAGE;
])
DEFINE HAND(A)=[A], NOHAND(A)=[];
DEFINE FUTURE(A)=[],PAST(A)=[];
DEFINE UPTO=[STEP 1 UNTIL], #=[COMMENT], CRLF=[('15 & '12)], LF=['12],TAB=['11];
DEFINE SUPERCOMMENT(A)=[];
DEFINE CHECK(A)=[NOW!UNSAFE A],NOCHECK(A)=[NOW!SAFE A];
DEFINE MEMLOC(A,B)=[MEMORY[LOCATION(A),B]];
DEFINE LEFT(A)=[((A) LSH -18)], RIGHT(A)=[((A) LAND '777777)];
DEFINE P=['17], SP=['16],
ATJRST=['254020000000],ARERR=['007000000000],FIX=['003000000000];
DEFINE JRSTF=['254100000000],HALT=[JRST 4,];
EXTERNAL INTEGER !JBDDT,!JBOPC,!JBSYM,!JBHRL,!JBCST;
DEFINE PD!NPW=[4],PD!DSP=[5],PD!DLW=[7],PD!PPD=['11],PD!PCW=['12];
EXTERNAL INTEGER !SKIP!,!ERRP!,!ERRJ!,BALNK;
INTEGER !RECOVERY!,#ERRP#,#SKIP#;
EXTERNAL INTEGER PDLNK;
EXTERNAL SAFE INTEGER ARRAY GOGTAB[0:'300];
REQUIRE SUAI(["SYS:GOGTAB.DEF"]) DEC(["GOGTAB.DEF"])
TENX(["<SAIL>GOGTAB.DEF"]) SOURCE!FILE;
SUPERCOMMENT([
# ABOVE REQUIRE IS MOSTLY A TEST OF THE NEW WAY TO DO AWAY WITH USERCON.
GOGTAB.DEF IS PRODUCED BY SCISS WHEN A NEW LIBRARY IS MADE, AND CONTAINS
DEFINITIONS OF THE USER TABLE ENTRY NAMES AND THEIR VALUES. IF THE FILE
IS NOT AROUND, TRY THESE:
DEFINE REMCHR=['12],TOPBYT=['11],UUO1=['0],BKTPRV=['34];
SUAI([DEFINE RACS=['135],BAILOC=['243];])
DEC([DEFINE RACS=['133],BAILOC=['241];])
TENX([DEFINE RACS=['133],BAILOC=['246];])
]) # END SUPERCOMMENT;
EXTERNAL RECORD!CLASS $CLASS(INTEGER RECRNG,HNDLER,RECSIZ;
INTEGER ARRAY TYPARR; STRING ARRAY TXTARR);
SIMPLE PROCEDURE FATAL(STRING A); USERERR(0,0,A);
SIMPLE PROCEDURE NONFATAL(STRING A); USERERR(0,1,A);
NOTENX([
DEFINE CFILE(A)="RELEASE(A)";
FORWARD SIMPLE STRING PROCEDURE CATCRLF(STRING A);
EXTERNAL INTEGER INIACS;
STRING RUNDEV,RUNPPN; # set from INIACS if RUN or GET;
SIMPLE INTEGER PROCEDURE OPENFILE(REFERENCE STRING FILNAM; STRING MODES);
BEGIN "OPENFILE"
# like TENEX-SAIL, extended if errors;
EXTERNAL INTEGER !SKIP!;
INTEGER CHN,FLAG,R,W,E,TRIAL; LABEL BAD,TRY,TRY2; STRING DEV,FIL;
PRESET!WITH
"no such file ", "illegal PPN ", "protection ", "busy ", "???";
OWN SAFE STRING ARRAY REASON[0:4];
IF (CHN←GETCHAN)<0 THEN GOTO BAD;
QUICK!CODE SETZM TRIAL; END;
TRY: DEV←"DSK";
TRY2:
START!CODE LABEL LOOP1,LOOP2,TEST1,TEST2,USEDFLT;
SETZB 1,2; # R,W;
SETZM E;
HRRZ 3,-1(SP); # LENGTH(MODES);
MOVE 5,(SP); # BP;
JRST TEST1;
LOOP1:ILDB 4,5;
CAIN 4,"R";
MOVEI 1,2(1);
CAIN 4,"W";
MOVEI 2,2(2);
CAIN 4,"E";
SETOM E;
TEST1:SOJGE 3,LOOP1;
MOVEM 1,R;
MOVEM 2,W;
MOVEI 4,FIL; # FIL←FILNAM;
MOVE 5,-1(P); # ADDR(FILNAM);
HRRZ 1,-1(5); # LENGTH(FILNAM);
MOVEM 1,-1(4);
MOVE 2,(5); # BP;
MOVEM 2,(4);
JRST TEST2;
LOOP2:ILDB 3,2;
CAIE 3,":";
TEST2:SOJGE 1,LOOP2;
JUMPL 1,USEDFLT; # NO COLON, USE DEFAULT;
EXCH 1,-1(4); # 1←ORIG LEN, -1(4)←LEN OF NAME;
EXCH 2,(4); # 2←DEV BP, (4)←NAME BP;
MOVEI 3,DEV;
MOVEM 2,(3); # DEVICE BP TO CORE;
SUB 1,-1(4); # LEN+1 OF DEV=ORIG LEN - LEN OF NAME;
SUBI 1,1; # CORRECT FOR COLON;
MOVEM 1,-1(3); # LENGTH TO CORE;
USEDFLT:SETZM FLAG;
END;
RELEASE(CHN); OPEN(CHN,DEV,'10,R,W,FLAG,FLAG,FLAG); IF FLAG THEN GOTO BAD;
IF W THEN ENTER(CHN,FIL,!SKIP!) ELSE
IF R THEN LOOKUP(CHN,FIL,!SKIP!);
IF !SKIP! AND TRIAL=0 THEN BEGIN
# try harder; IF LENGTH(RUNDEV) THEN DEV←RUNDEV; CVFIL(FIL,TRIAL,FLAG);
IF NOT(FLAG) THEN
# originally, no PPN; FILNAM←FILNAM&RUNPPN; QUICK!CODE SETOM TRIAL; END;
GOTO TRY2 END;
IF !SKIP! AND NOT(E) THEN BEGIN
OUTSTR("
File error, "&REASON[RIGHT(!SKIP!) MIN 4]& DEV&":"&FIL& "
Try again, ALT to ignore:");
CLRBUF; SUAI([PTOSTR(0,DEV&":"&FIL);])
FILNAM←INCHWL; IF !SKIP! NEQ CH!ALT THEN GOTO TRY END;
RETURN(CHN);
BAD: CFILE(CHN); RETURN(!SKIP!←TRUE);
END "OPENFILE";
]); # NOTENX;
TENX([ DEFINE USETOUT(CHAN,BLOCK)=[USETO(CHAN,BLOCK)],
USETIN(CHAN,BLOCK)=[USETI(CHAN,BLOCK)];
]) # TENX;
NOTENX([
SUAI([ DEFINE USETOUT(CHAN,BLOCK)=[USETO(CHAN,BLOCK)],
USETIN(CHAN,BLOCK)=[USETI(CHAN,BLOCK)];
]); # SUAI;
DEC([
SIMPLE PROCEDURE USETOUT(INTEGER CHAN,BLOCK); BEGIN
START!CODE
HRLZ 1,CHAN;
LSH 1,5;
TLO 1,'067000; # MAKE AN "OUTPUT" INSTRUCTION;
XCT 1; # FORCE OUT PARTIAL BUFFER;
END;
USETO(CHAN,BLOCK); END;
SIMPLE PROCEDURE USETIN(INTEGER CHAN,BLOCK); BEGIN
# THIS IS MORE COMPLICATED, SINCE WE MAY HAVE TO FLUSH SEVERAL BUFFERS;
START!CODE
DEFINE ICOWNT=['12],BUFHED=[2]; LABEL TOPP,NOBUF;
EXTERNAL INTEGER CHNCDB;
HRLZ 1,CHAN;
LSH 1,5;
IOR 1,['10+('047 LSH 27)]; # CALLI 10, WAIT;
XCT 1; # WAIT TILL DISK STOPS;
PUSH P,CHAN;
PUSHJ P,CHNCDB; # AC! GETS ADDR OF CHAN DATA BLOCK;
SETZM ICOWNT(1); # SO SAIL WILL DO AN IN NEXT TIME;
HRRZ 3,BUFHED(1); # ADDR OF INPUT BUFFER HEADER;
JUMPE 3,NOBUF;
HRRZ 2,(3); # AC2=BUFFER POINTED TO BY HEADER;
MOVEI 3,(2); # AC3=BUFFER IN WHICH TO CLEAR USE BIT;
MOVSI 4,'400000; # BIT TO CLEAR;
TOPP: ANDCAM 4,(3); # CLEAR BIT;
HRRZ 3,(3); # NEXT BUFFER;
CAIE 2,(3); # SAME AS FIRST?;
JRST TOPP; # NO;
NOBUF: END;
USETI(CHAN,BLOCK); END;
# ALL THIS IS NECESSARY BECAUSE THE DEC UUOs DO NOT FLUSH THE BUFFER,
WHILE STANFORD IS NICE AND DOES;
]) # DEC;
]) # NOTENX;
# SPECIAL BREAKTABLE STUFF;
DEFINE DELIMS=[('00 & '11 & '12 & '13 & '14 & '15 & '40)];
# NULL,TAB,LF,VT,FF,CR,SP;
# Dot (period) must be last for BK!ID2. Can save space by not mentioning
lowercase because BK!ID and BK!ID2 convert to upper first ("K" mode);
DEFINE LETTERS=["ABCDEFGHIJKLMNOPQRSTUVWXYZ!" & "αβπλ⊂⊃∀∃→_~#$\|."],
DIGITS=["0123456789"], SAILID=[(DIGITS & LETTERS)],
NUMBER=[(DIGITS & ".@")];
# THE ASCII FOR THOSE STANFORD CHARACTERS UNDER LETTERS IS:
002 (ALPHA), 003 (BETA), 007 (PI), 010 (LAMBDA),
020 (SUBSET), 021 (REVERSE SUBSET), 024 (FOR ALL), 025 (THERE EXISTS)
030 (UNDERSCORE), 031 (RIGHT ARROW), 032 (TILDE);
DEFINE QUOTE=['042];
PRESET!WITH
TAB,NULL,"INS",
DELIMS,NULL,"XNR",
QUOTE,NULL,"INA",
"01234567",NULL,"XNR",
NUMBER,NULL,"XNR",
".@",NULL,"INR",
SAILID,NULL,"XNRK";
SAFE STRING ARRAY BK!SBR[0:6,0:2]; # SETBREAK WILL BE DONE WITH THESE;
PRELOAD!WITH [8]0;
SAFE INTEGER ARRAY BK!TBL[0:7]; # TABLE NUMBERS STORED HERE;
DEFINE BK!TAB=[BK!TBL[0]],BK!DLM=[BK!TBL[1]],BK!QUO=[BK!TBL[2]],
BK!OCT=[BK!TBL[3]],BK!NUM=[BK!TBL[4]],BK!DEC=[BK!TBL[5]],BK!ID=[BK!TBL[6]],
BK!ID2=[BK!TBL[7]];
# tab,delimiters,quote,octal digits,floating decimal,
decimal digits,identifiers,ids without period;
# EXTERNAL INTEGER BKTPRV; # BREAKTABLE PRIVILEGE WORD;
SIMPLE INTEGER PROCEDURE BK!PRV(BOOLEAN MODE);
# USERCON(BKTPRV,MODE,TRUE);
BEGIN GOGTAB[BKTPRV] SWAP MODE; RETURN(MODE) END;
# SETS BREAKTABLE PRIVILEGE;
DEFINE SM1LNK(I)=[MEMORY[SM1PNT+I]], T!NAME(I)=[MEMORY[C!NAME+I]],
T!BLKADR(I)=[MEMORY[C!BLKADR+I]], T!CRDIDX(I)=[MEMORY[C!CRDIDX+I]];
DEFINE PAGEIT(A,B)=[T!NAME(B)];
DEFINE N!CACHE=[100], BOTTOM!SLOT=[95], N!BK=[16], L!BK=[(N!BK-1)];
DEFINE HRELOC(A)=[(A+HZERO)], LRELOC(A)=[(A+LZERO)];
INTEGER BAIJFN,TMPJFN; # CHANNEL NUMBERS FOR .BAI FILE AND TEXT FILES;
INTEGER C!NAME, # ADDRESS OF NAME TABLE;
C!BLKADR, # ADDRESS OF BLKADR TABLE;
C!CRDIDX, # ADDRESS OF COORDINATE INDEX TABLE;
L!NAME, # INDEX OF LAST ENTRY CURRENTLY USED IN NAME TABLE;
L!BLKADR, # BLKADR TABLE;
L!CACHE, # CACHE;
L!CRDIDX, # COORDINATE INDEX;
L!TXTFIL, # TEXTFILE TABLE;
N!NAME, # NUMBER OF ENTRIES ALLOCATED IN NAME TABLE;
N!BLKADR, # BLKADR;
N!CRDIDX # COORDINATE INDEX;
;
INTEGER BKLEV; # BREAKPOINT RECURSION LEVEL;
INTEGER PJPBAIL; # CONTAINS PUSHJ P,BAIL AT RUNTIME;
INTERNAL STRING !!QUERY; # TO BE SET BY USER ON EXPLICIT CALL TO BAIL;
INTEGER BAILOFF,NAME!POINTER; # ANOTHER SWITCH, USETI POINTER TO NAME TABLE IN .BAI FILE;
STRING ARRAY T!TXTFIL[0:MAX#TXTFIL]; # NAMES OF TEXT FILES;
PRELOAD!WITH [MAX#TXTFIL+1] 0;
INTEGER ARRAY STATUS[0:MAX#TXTFIL]; # FOR STATUS OF THESE FILES;
PRELOAD!WITH [N!CACHE] 0;
INTEGER ARRAY CACHE[0:N!CACHE-1]; # 20 MOST RECENT NAMES (5 WORDS PER);
PRELOAD!WITH [256] 0;
INTEGER ARRAY TARRAY[0:255]; # TEMPORARY ARRAY;
PRELOAD!WITH [N!BK] 0;
INTERNAL INTEGER ARRAY BK!LOC, BK!INSTR,BK!COUNT[0:L!BK];
# BREAK LOCATIONS, SAVED INSTRUCTIONS, MULTIPLE PROCEED COUNTS;
INTERNAL STRING ARRAY BK!COND,BK!ACT,BK!NAME[0:L!BK];
# TO BE EVALUATED FOR CONDITIONAL BREAK, AUTOMATIC ACTION. ID;
PRELOAD!WITH ['17+'12+1+1+1] 0;
INTEGER ARRAY TEMP!ACS[0:'17+'12+1+1]; # HOLDING TANK UNTIL RECURSIVE SAIVING;
PRELOAD!WITH [8] 0;
INTEGER ARRAY TRAP[0:8]; # PLACE TO DO INTERCEPTIONS;
STRING !STR!; # GLOBAL ACCUMULATOR FOR PIECE-WISE OUTPUT;
BOOLEAN SSF; # SPECIAL STRING FLAG, TRUE→NO QUOTE-IZE;
INTEGER MULDEF; # FALSE→TOTALLY UNKNOWN, TRUE→MULTIPLY DEFINED;
INTEGER TLDEPTH;
PRELOAD!WITH [16] 0;
INTEGER ARRAY TLSCOPE[0:15]; # KLUGE FOR TFIND;
INTEGER CRDCTR; # "GLOBAL" COUNTER OF COORDINATE NUMBERS;
PRELOAD!WITH ["G"-"A"] NULL," !!GO;",["P"-"H"] NULL," !!GO;",
["S"-"Q"] NULL," !!STEP;",["X"-"T"] NULL," !!GSTEP;",["Z"-"Y"+1] NULL;
INTERNAL SAFE STRING ARRAY MACTAB["A":"Z"]; # MACRO TABLE;
INTEGER PRGSM1; # ptr to "main program" on .SM1 BALNK chain;
�# MEMSTRING CATCRLF CRLFCAT STRCOPY FILTIM LAST!WRITTEN COREGET COREFREE EXTND NONULL PDFIND ADDSTR ADDCHR DUMPSTR MAKPPN;
SIMPLE STRING PROCEDURE MEMSTRING(INTEGER ADDR); START!CODE
# MEMSTRING(ADDR) IS A LEGAL WAY TO DO MEMORY[ADDR,STRING];
DEFINE T=['14];
MOVE T,ADDR;
PUSH SP,-1(T);
PUSH SP,0(T);
SUB P,['2000002];
JRST @2(P);
END;
SIMPLE STRING PROCEDURE CATCRLF(STRING ARG); BEGIN
NOHAND([RETURN(ARG&CRLF)]);
HAND([ START!CODE EXTERNAL INTEGER CAT;
PUSH SP,[2];
PUSH SP,[CRLF];
JRST CAT;
END;
]);END;
SIMPLE STRING PROCEDURE CRLFCAT(STRING ARG); BEGIN
NOHAND([RETURN(CRLF&ARG)]);
HAND([ START!CODE EXTERNAL INTEGER CAT!RV;
PUSH SP,[2];
PUSH SP,[CRLF];
JRST CAT!RV;
END;
]);END;
SIMPLE STRING PROCEDURE STRCOPY(STRING ARG); BEGIN
# COPY THE TEXT, TOO, NOT JUST THE DESCRIPTOR;
NOHAND([ RETURN((ARG&".")[1 TO INF-1]); ])
HAND([ START!CODE EXTERNAL INTEGER CATCHR;
PUSH P,[0+"."];
PUSHJ P,CATCHR;
SOS -1(SP);
POPJ P,;
END;
]);END;
SIMPLE INTEGER PROCEDURE FILTIM(INTEGER JFN); BEGIN
TENX([ GTFDB(JFN,TARRAY); RETURN(TARRAY['14])])
NOTENX([FILEINFO(TARRAY);
RETURN( NOTYMSW([ ((TARRAY[1] LAND '700000) LSH 8) LOR])
TYMSW([ ((TARRAY[1] LAND '140000) LSH 9) LOR])
((TARRAY[2] LAND '7777) LSH 11) LOR
((TARRAY[2] LSH -12) LAND '3777) )])
END;
SIMPLE INTEGER PROCEDURE LAST!WRITTEN(REFERENCE STRING FILENAME; STRING MODES);
BEGIN "LAST!WRITTEN"
TENX([ INTEGER JFN; JFN←GTJFN(FILENAME,1 LSH 33); IF !SKIP! THEN RETURN(0);
GTFDB(JFN,TARRAY); RLJFN(JFN); RETURN(TARRAY['14]) ])
NOTENX([CFILE(OPENFILE(FILENAME,MODES)); RETURN(IF !SKIP! THEN 0 ELSE
FILTIM(0))])
END "LAST!WRITTEN";
EXTERNAL PROCEDURE CORGET;
SIMPLE INTEGER PROCEDURE COREGET(INTEGER LENGTH); BEGIN "COREGET"
INTEGER LOC; LABEL FOOEY;
START!CODE
MOVE 3,LENGTH; # PLACE WHERE CORGET TAKES ITS ARG;
PUSHJ P,CORGET; # CALL THE STEWARD;
JRST FOOEY; # UNSUCCESSFUL RETURN;
MOVEI 3,(2); # ISOLATE ADDRESS;
MOVEM 3,LOC; # STORE ADDRESS OF BLOCK;
ADD 3,LENGTH;
SETZM 0,0(2); # ZERO THE FIRST WORD FOR BLT;
HRLI 2,(2);
HRRI 2,1(2);
BLT 2,-1(3); # WE LIKE ZEROED BLOCKS BETTER!;
END;
RETURN(LOC);
FOOEY: FATAL("BAIL: No core") END "COREGET";
EXTERNAL PROCEDURE CORREL;
SIMPLE PROCEDURE COREFREE(INTEGER ADDR);
START!CODE "COREFREE"
SKIPE 2,ADDR; # PLACE WHERE CORREL GETS ITS ARG;
PUSHJ P,CORREL;
END "COREFREE";
SIMPLE STRING PROCEDURE NONULL(STRING ARG); BEGIN "NONULL"
# RETURN ARG WITH ALL OCCURRANCES OF NULL BYTES REMOVED;
NOHAND([
INTEGER T,BRCHAR; STRING RESULT;
T←BK!PRV(TRUE); RESULT←SCAN(ARG,BK!NONULL,BRCHAR); BK!PRV(T);
RETURN(RESULT);
]) # NOHAND;
HAND([
START!CODE LABEL LOOP,BOT; DEFINE T=['13],OBP=['14],NBP=['15],CT=[1];
MOVE OBP,(SP); # OLD BYTE POINTER;
MOVE NBP,(SP); # NEW BYTE POINTER;
HRRZ CT,-1(SP); # CHAR COUNT;
HLLZS -1(SP); # NEW COUNT. PRESERVE CONSTANTNESS OF STRING;
JRST BOT; # IN CASE NULL STRING;
LOOP: ILDB T,OBP; # GET CHAR;
JUMPE T,BOT; # DON'T PUT IT BACK IF IT'S A NULL;
AOS -1(SP); # ANOTHER CHAR;
IDPB T,NBP;
BOT: SOJGE CT,LOOP; # CONTINUE UNTIL DONE;
POPJ P,; # WE'RE DONE;
END;
]) # HAND;
END "NONULL";
SIMPLE INTEGER PROCEDURE PDFIND(INTEGER ENTAD);
# GIVEN ENTRY ADDRESS, RETURN ADDRESS OF PROCEDURE DESCRIPTOR;
NOHAND([
BEGIN INTEGER I;
I←PDLNK; WHILE I NEQ 0 AND MEMORY[I+1] NEQ RIGHT(ENTAD) DO I←MEMORY[I];
RETURN(I+1) END;
]) # NOHAND;
HAND([
START!CODE LABEL LOOP,BOT;
MOVE 1,PDLNK;
HRRZ 2,ENTAD;
LOOP: CAMN 2,1(1);
JRST BOT;
SKIPE 1,(1);
JRST LOOP;
BOT: ADDI 1,1;
SUB P,['2000002];
JRST @2(P);
END;]) # HAND;
SIMPLE PROCEDURE EXTND(REFERENCE INTEGER ADDR, OLEN, INCR); BEGIN "EXTND"
INTEGER TMPJFN,DUMMY; LABEL OK; STRING T;
SIMPLE PROCEDURE GETTEMP(STRING MODE); BEGIN
TMPJFN←OPENFILE(T←"BBBBBB.TMP",MODE); IF !SKIP! THEN BEGIN BAILOFF←TRUE;
FATAL("BBBBBB.TMP problems") END END;
START!CODE EXTERNAL INTEGER CORINC;
MOVE 2,ADDR;
MOVE 3,INCR;
PUSHJ P,CORINC; # ATTEMPT TO INCREASE THE CURRENT BLOCK;
SKIPA;
JRST OK;
END;
GETTEMP("RWE" TENX([&"T"]) ); ARRYOUT(TMPJFN,MEMORY[ADDR],OLEN); COREFREE(ADDR);
ADDR←COREGET(OLEN+INCR); CFILE(TMPJFN);
GETTEMP("RE"); ARRYIN(TMPJFN,MEMORY[ADDR],OLEN);
NOTENX([ RENAME(TMPJFN,NULL,0,DUMMY); CFILE(TMPJFN); ])
TENX([ CLOSF(TMPJFN); DELF(TMPJFN); CFILE(TMPJFN); ])
OK: OLEN←OLEN+INCR;
END "EXTND";
SIMPLE PROCEDURE ADDSTR(STRING A);BEGIN
!STR!←!STR! & A; END;
SIMPLE PROCEDURE ADDCHR(INTEGER CHR);
START!CODE EXTERNAL INTEGER PUTCH;
POP P,1; # RET ADDR THIS PROC;
PUSHJ P,PUTCH;# CONVERT CHR TO STRING;
PUSH P,1; # REPLACE RET ADDR;
JRST ADDSTR; # SOLVE SUBPROBLEM;
END;
SIMPLE STRING PROCEDURE DUMPSTR;BEGIN
NOHAND([BEGIN STRING T; T←!STR!; !STR!←NULL; RETURN(T) END ]);
HAND([ START!CODE DEFINE T=['14];
MOVEI T,!STR!;
PUSH SP,-1(T);
PUSH SP,(T);
SETZM -1(T);
SETZM (T);
POPJ P,;
END ]); # HAND;
END;
SIMPLE STRING PROCEDURE MAKPPN(REFERENCE INTEGER PPN; INTEGER SFDLVL(0));
BEGIN "MAKPPN"
DEC([
STRING PPNSTR; INTEGER I;
IF PPN=0 THEN RETURN(NULL);
PPNSTR←"["&CVOS(LEFT(PPN))&","&CVOS(RIGHT(PPN));
FOR I←1 UPTO SFDLVL DO IF MEMORY[LOCATION(PPN)+I] THEN
PPNSTR←PPNSTR&","&CV6STR(MEMORY[LOCATION(PPN)+I]);
RETURN(PPNSTR&"]");
]) # DEC;
SUAI([
RETURN(IF PPN=0 THEN NULL ELSE
"["&CVXSTR(PPN)[1 TO 3]&","&CVXSTR(PPN)[4 TO 6]&"]")
]) # SUAI;
TENX([
RETURN(IF PPN=0 THEN NULL ELSE MEMSTRING(PPN));
]) # TENX;
END "MAKPPN";
�# WRITEON PACKAGE;
DEFINE TEMPB=[(1 LSH 35)],REFB=[(1 LSH 34)], QUESB=[(1 LSH 33)], BINDB=[(1 LSH 32)],
PROCB=[(1 LSH 31)], ITEMB=[(1 LSH 30)], ARY2B=[(1 LSH 29)],
ARRY=[('24 LSH 23)];
DEFINE GETTYPE(A)=[((A) LAND (ITEMB+('77 LSH 23)))],INTEGR=[(5 LSH 23)],
FLOTNG=[(4 LSH 23)],STRNG=[(3 LSH 23)],LBLTYP=[('16 LSH 23)],
CTXTYP=[('13 LSH 23)],RCLTYP=[('17 LSH 23)],LSTYPE=[(7 LSH 23)],
SETYPE=[(6 LSH 23)],NOTYPE=[(1 LSH 23)],ITVTYP=[('20 LSH 23)],
RECTYP=[('15 LSH 23)],RNGTYP=[('23 LSH 23)],LFLTYP=[('21 LSH 23)],
LINTYP=[('22 LSH 23)];
PRELOAD!WITH 0; INTEGER #$FSTR;
PRELOAD!WITH 0; INTEGER #$PROU;
SIMPLE PROCEDURE SWAP!FSTR; GOGTAB[$$FSTR] SWAP #$FSTR;
SIMPLE PROCEDURE SWAP!PROU; GOGTAB[$$PROU] SWAP #$PROU;
SIMPLE PROCEDURE $PLBL(INTEGER CHAN,LOC); BEGIN
SWAP!FSTR; CPRINT(CHAN,"'"&CVOS(RIGHT(LOC))); SWAP!FSTR END;
SIMPLE PROCEDURE $PARY(INTEGER CHAN,LOC); BEGIN "$PARY"
INTEGER I;
SWAP!FSTR; LOC←RIGHT(MEMORY[LOC])-(IF GETTYPE(LOC)=(ARRY+STRNG) THEN 1 ELSE 0);
IF LOC LEQ 0 THEN CPRINT(CHAN,"Deallocated array") ELSE BEGIN
CPRINT(CHAN,"<array>["); FOR I←1 UPTO ABS(MEMORY[LOC-1] ASH -18) DO
CPRINT(CHAN," ",MEMORY[LOC-3*I-1],":",MEMORY[LOC-3*I]); CPRINT(CHAN,"]"); END;
SWAP!FSTR END "$PARY";
SUPERCOMMENT([ # use $PREC to get $CLASS.nnnnn for the moment;
SIMPLE PROCEDURE $PRCL(INTEGER CHAN,LOC); BEGIN "$PRCL"
SWAP!FSTR; CPRINT(CHAN,MEMSTRING(MEMORY[LOC+4])); SWAP!FSTR END "$PRCL";])
SIMPLE PROCEDURE MYPRINT(INTEGER CHAN; STRING S); ADDSTR(S);
SIMPLE STRING PROCEDURE FSTR(STRING STR);
START!CODE LABEL LOOP,INNER,BOT; EXTERNAL INTEGER STRNGC;
# EXTERNAL INTEGER REMCHR,TOPBYT,GOGTAB;
DEFINE BP=['14],T=[1],QUOTE=['042],USER=['15],CNT=['13],OBP=[2],F=['12];
SKIPE SSF;
JRST BOT; # SPECIAL STRING MODE, DONT FIDDLE;
HRRZ T,-1(SP); # CHAR COUNT;
ADDI T,2(T); # POTENTIALLY THIS MANY CHARS GO OUT;
MOVE USER,GOGTAB;
MOVEM F,RACS+F(USER); # KEEP STRNGC HAPPY;
ADDM T,REMCHR(USER);
SKIPL REMCHR(USER);
PUSHJ P,STRNGC; # THE OUT-OF-SPACE DANCE;
HRRZ CNT,-1(SP);
MOVE BP,TOPBYT(USER);
MOVE OBP,BP; # REMEMBER WHERE WE STARTED;
EXCH BP,(SP);
MOVEI T,QUOTE;
JRST INNER;
LOOP:ILDB T,BP;
IDPB T,(SP);
CAIN T,QUOTE;
INNER:IDPB T,(SP);
CAIN T,QUOTE;
AOS -1(SP);
SOJGE CNT,LOOP;
MOVEI T,QUOTE;
IDPB T,(SP);
AOS -1(SP);
EXCH OBP,(SP);
MOVEM OBP,TOPBYT(USER);
BOT:POPJ P,;
END;
SIMPLE PROCEDURE PREFIT(INTEGER CHAN,REFIT); BEGIN "PREFIT"
# CPRINT(CHAN,MEMORY[REFIT,TYPE(REFIT)]);
INTEGER TYPE;
START!CODE
EXTERNAL INTEGER $PSTR,$PREL,$PINT,$PSET,$PLST,$PITM,$PREC,$PLRL;
LABEL JTAB,NARRY,LAB1; DEFINE R=['13],S=['14],T=['15], L40=[0+('40 LSH 18)];
MOVE R,REFIT;
LDB T,[('270600 LSH 18)+R]; # 6 BIT TYPE;
CAIGE T,0+ARRY LSH -23;
JRST NARRY;
MOVEI T,'22; # RECODE ARRAYS TO '22;
TLZ R,'20+(ITEMB LSH -18); # AND IGNORE ITEMness AND INDIRECT;
JRST LAB1;
NARRY:
TLNE R,0+ITEMB LSH -18;
MOVEI T,'20; # RECODE ITEMS TO '20;
LAB1:
MOVEM T,TYPE;
PUSH P,CHAN; # WHICH CHANNEL TO USE;
HLLZ S,JTAB(T); # NOW WORRY ABOUT ARGUMENT;
LSH S,-1; # WHETHER DO GO DIRECT OR INDIRECT;
HRRI S,R;
PUSH P,@S; # STACK THING TO PRINT;
MOVEI S,@S;
CAIN T,0+LFLTYP LSH -23; # 2 FOR LONG;
PUSH P,1(S);
CAIN T,0+RCLTYP LSH -23;
HRRZS (P); # TURN RCLASS DSCR INTO PLAIN RPTR;
CAIN T,0+STRNG LSH -23;
PUSHJ P,MEMSTRING; # GET STRING ON CORRECT STACK;
PUSHJ P,@JTAB(T); # FORMAT AND DISPOSE;
MOVE T,TYPE; # CPRINT BUILTINS DON'T REMOVE CHANNEL FROM STACK;
HRRZ T,JTAB(T);
CAIE T,$PARY; # BUT $PARY;
CAIN T,$PLBL; # AND $PLBL;
SKIPA; # AREN'T BUILTIN, HAVE ALREADY REMOVED CHANNEL;
POP P,(P); # SO MUST DO IT HERE;
SUB P,['3000003];
JRST @3(P);
JTAB: 0 $PLBL; # 0;
0 $PLBL; # 1;
0 $PLBL; # 2;
0 $PSTR; # 3;
L40 $PREL; # 4;
L40 $PINT; # 5;
L40 $PSET; # 6;
L40 $PLST; # 7;
0 $PLBL; # '10;
0 $PLBL; # '11;
0 $PLBL; # '12;
0 $PLBL; # '13;
0 $PLBL; # '14;
L40 $PREC; # '15;
0 $PLBL; # '16;
0 $PREC; # '17;
L40 $PITM; # '20;
L40 $PLRL; # '21;
0 $PARY; # '22;
END;
END "PREFIT";
SIMPLE PROCEDURE WR!TON(INTEGER DSCR); BEGIN "WR!TON"
INTEGER FSTR$#;
SIMPLE PROCEDURE SWFSTR; GOGTAB[$$FSTR] SWAP FSTR$#;
FSTR$#←RIGHT(LOCATION(FSTR)); #$PROU←LOCATION(MYPRINT);
SWFSTR; SWAP!PROU; ADDSTR(" "); PREFIT(0,DSCR); SWAP!PROU; SWFSTR END "WR!TON";
�# OPERATOR CODES, REFITEM TYPE DEFINITIONS;
DEFINE A(B)=[CVASC("] & [B] & [")];
PRESET!WITH
A(ABS),0,0, A(AND),0,0, A(ANY),0,0, A(ASH),0,0,
A(ASSOC),0,0, A(CPRIN),A(T),0,A(DATUM),0,0, A(DIV),0,0,
A(EQV),0,0, A(FALSE),0,0, A(FOR),0,0, A(GEQ),0,0,
A(IN),0,0, A(INF),0,0, A(INTER),0,0, A(LAND),0,0,
A(LENGT),A(H),0,A(LEQ),0,0, A(LNOT),0,0, A(LOCAT),A(ION),0,
A(LOR),0,0, A(LSH),0,0, A(MAX),0,0, A(MIN),0,0,
A(MOD),0,0, A(NEQ),0,0, A(NEW!R),A(ECORD),0,
A(NIL),0,0,
A(NOT),0,0, A(NULL),0,0, A(NULL!),A(RECOR),A(D),
A(OR),0,0,
A(PHI),0,0, A(PRINT),0,0, A(PROPS),0,0, A(ROT),0,0,
A(SETC),0,0, A(SETO),0,0, A(SWAP),0,0, A(TO),0,0,
A(TRUE),0,0, A(UNION),0,0, A(XOR),0,0;
INTEGER ARRAY RWORD0[0:128];
REDEFINE A=[NOMAC A];
PRESET!WITH
'120, '004, '142, '101,
'140, '147, '126, '102,
'036, '103, '121, '035,
'006, '016, '022, '104,
'144, '034, '105, '145,
'106, '107, '110, '111,
'112, '033, '151, '132,
'005, '114, '143, '037,
'131, '150, '127, '115,
SUAI(['176,])
DEC([ '175,])
TENX([ '175,]) '173, '027, '122,
'117, '023, '026, 0;
INTEGER ARRAY RWORD1[0:43];
DEFINE N!RWORD=[43];
DEFINE Q1=[LSH 27+], Q2=[LSH 18+], Q3=[LSH 9+], Q4=[];
PRESET!WITH
# '000; 0,
# '001; 0,
# '002; 0,
# '003; 0,
# '004; 0, # 220 Q1 222 Q2 002 Q3 000 Q4, # AND;
# '005; 232 Q1 230 Q2 001 Q3 000 Q4, # NOT;
# '006; 240 Q1 242 Q2 002 Q3 006 Q4, # IN;
# '007; 0,
# '010; 0,
# '011; 0,
# '012; 0,
# '013; 0,
# '014; 0,
# '015; 0,
# '016; 300 Q1 302 Q2 000 Q3 007 Q4, # INF;
# '017; 272 Q1 449 Q2 001 Q3 000 Q4, # PARTIAL "∂", EQUIVALENT TO "DATUM";
# '020; 0,
# '021; 0,
# '022; 220 Q1 222 Q2 002 Q3 008 Q4, # INTER;
# '023; 210 Q1 212 Q2 002 Q3 008 Q4, # UNION;
# '024; 0,
# '025; 0,
# '026; 250 Q1 252 Q2 002 Q3 010 Q4, # XOR;
# '027; 310 Q1 312 Q2 002 Q3 000 Q4, # SWAP;
# '030; 0,
# '031; 0,
# '032; 0,
# '033; 240 Q1 242 Q2 002 Q3 012 Q4, # NEQ;
# '034; 220 Q1 222 Q2 002 Q3 012 Q4, # LEQ;
# '035; 240 Q1 242 Q2 002 Q3 012 Q4, # GEQ;
# '036; 250 Q1 252 Q2 002 Q3 010 Q4, # EQV;
# '037; 0, # 210 Q1 212 Q2 002 Q3 000 Q4, # OR;
# '040; 0,
# '041; 0,
# '042; 0,
# '043; 0,
# '044; 0,
# '045; 260 Q1 262 Q2 002 Q3 009 Q4, # COMPATIBLE DIVIDE;
# '046; 260 Q1 262 Q2 002 Q3 003 Q4, # CAT "&";
# '047; 0,
# '050; 480 Q1 000 Q2 000 Q3 000 Q4, # LEFT PARENTHESIS "(";
# '051; 000 Q1 480 Q2 000 Q3 000 Q4, # RIGHT PARENTHESIS ")";
# '052; 260 Q1 262 Q2 002 Q3 009 Q4, # TIMES "*";
# '053; 250 Q1 252 Q2 002 Q3 009 Q4, # PLUS "+";
# '054; 048 Q1 102 Q2 000 Q3 000 Q4, # COMMA ",";
# '055; 250 Q1 252 Q2 002 Q3 009 Q4, # MINUS "-";
# '056; 0,
# '057; 260 Q1 262 Q2 002 Q3 002 Q4, # DIVIDE "/";
# '060; 0,
# '061; 0,
# '062; 0,
# '063; 0,
# '064; 0,
# '065; 0,
# '066; 0,
# '067; 0,
# '070; 0,
# '071; 0,
# '072; 448 Q1 450 Q2 002 Q3 010 Q4, # COLON ":";
# '073; 040 Q1 480 Q2 000 Q3 000 Q4, # SEMICOLON ;
# '074; 240 Q1 242 Q2 002 Q3 012 Q4, # LESS THAN SIGN "<";
# '075; 240 Q1 242 Q2 002 Q3 012 Q4, # EQUALS "=";
# '076; 240 Q1 242 Q2 002 Q3 012 Q4, # GREATER THAN SIGN ">";
# '077; 0,
# '100; 0,
# '101; 260 Q1 262 Q2 002 Q3 005 Q4, # ASH;
# '102; 260 Q1 262 Q2 002 Q3 001 Q4, # DIV;
# '103; 504 Q1 504 Q2 000 Q3 000 Q4, # FALSE;
# '104; 250 Q1 252 Q2 002 Q3 000 Q4, # LAND;
# '105; 272 Q1 270 Q2 001 Q3 000 Q4, # LNOT;
# '106; 250 Q1 252 Q2 002 Q3 000 Q4, # LOR;
# '107; 260 Q1 262 Q2 002 Q3 005 Q4, # LSH;
# '110; 240 Q1 242 Q2 002 Q3 009 Q4, # MAX;
# '111; 240 Q1 242 Q2 002 Q3 009 Q4, # MIN;
# '112; 260 Q1 262 Q2 002 Q3 001 Q4, # MOD;
# '113; 0,
# '114; 504 Q1 504 Q2 000 Q3 000 Q4, # NULL;
# '115; 260 Q1 262 Q2 002 Q3 005 Q4, # ROT;
# '116; 0,
# '117; 504 Q1 504 Q2 000 Q3 000 Q4, # TRUE;
# '120; 272 Q1 270 Q2 001 Q3 000 Q4, # ABS;
# '121; 110 Q1 108 Q2 002 Q3 001 Q4, # FOR (SUBSTRINGER);
# '122; 110 Q1 108 Q2 002 Q3 001 Q4, # TO (SUBSTRINGER);
# '123; 272 Q1 270 Q2 000 Q3 000 Q4, # UNARY MINUS (SPECIAL);
# '124; 272 Q1 270 Q2 000 Q3 000 Q4, # ARRAY REFERENCE;
# '125; 272 Q1 270 Q2 002 Q3 001 Q4, # MEMORY;
# '126; 272 Q1 449 Q2 001 Q3 000 Q4, # DATUM;
# '127; 272 Q1 270 Q2 001 Q3 000 Q4, # PROPS;
# '130; 272 Q1 270 Q2 000 Q3 000 Q4, # PERFORM STUBSTRINGING;
# '131; 504 Q1 504 Q2 000 Q3 000 Q4, # PHI;
# '132; 504 Q1 504 Q2 000 Q3 000 Q4, # NIL;
# '133; 448 Q1 000 Q2 000 Q3 000 Q4, # LEFT BRACKET [;
# '134; 0,
# '135; 000 Q1 448 Q2 000 Q3 000 Q4, # RIGHT BRACKET ];
# '136; 270 Q1 272 Q2 002 Q3 009 Q4, # UP ARROW "↑";
# '137; 440 Q1 050 Q2 002 Q3 004 Q4, # GETS "←";
# '140; 100 Q1 102 Q2 002 Q3 010 Q4, # ASSOC "`";
# '141; 272 Q1 270 Q2 001 Q3 000 Q4, # RECORD SUBFIELD REFERENCE;
# '142; 504 Q1 504 Q2 000 Q3 000 Q4, # ANY;
# '143; 504 Q1 504 Q2 000 Q3 000 Q4, # NULL!RECORD;
# '144; 272 Q1 270 Q2 001 Q3 000 Q4, # LENGTH;
# '145; 272 Q1 270 Q2 001 Q3 011 Q4, # LOCATION;
# '146; 100 Q1 448 Q2 000 Q3 000 Q4, # LSTC "}}";
# '147; 272 Q1 270 Q2 000 Q3 000 Q4, # CPRINT;
# '150; 272 Q1 270 Q2 000 Q3 000 Q4, # PRINT;
# '151; 272 Q1 270 Q2 001 Q3 000 Q4, # NEW!RECORD;
# '152; 0,
# '153; 0,
# '154; 0,
# '155; 0,
# '156; 0,
# '157; 0,
# '160; 0,
# '161; 0,
# '162; 0,
# '163; 0,
# '164; 0,
# '165; 0,
# '166; 0,
# '167; 0,
# '170; 0,
# '171; 0,
# '172; 0,
# '173; 448 Q1 100 Q2 000 Q3 000 Q4, # SETO "{";
# '174; 0,
SUAI([
# '175; 0,
# '176; 100 Q1 448 Q2 000 Q3 000 Q4, # SETC "}";
]) # SUAI;
DEC([
# '175; 100 Q1 448 Q2 000 Q3 000 Q4, # SETC "}";
# '176; 0,
]) # DEC;
TENX([
# '175; 100 Q1 448 Q2 000 Q3 000 Q4, # SETC "}";
# '176; 0,
]) # TENX;
# '177; 000 Q1 001 Q2 000 Q3 000 Q4; # END-OF-FILE;
INTEGER ARRAY OPS1[0:'177];
# CHAR CODE FOR OPERATOR, LEFT BINDING POWER, RIGHT BINDING POWER,
DEGREE (NULLARY, UNARY, BINARY), AND CONFORMITY CLASS;
DEFINE OPMEMORY=['125],OPARRY=['124],OPSUBST=['130],OPCOMMA=[","],OPSUBFLD=['141],
OPLSTC=['146],RBNDCOMMA=[102];
DEFINE N!OPS=['200];
DEFINE REFMEMORY=[(REFB+ARRY+NOTYPE)+'777777];
# FOR HAND CODING, THE REFxxx CONSTRUCTS HAVE BEEN REPLACED BY SOME
FIDDLING ON P. 14;
NOHAND([
DEFINE REFTRACE=[(PROCB+PDFIND(LOCATION(TRACE)))],
REFBREAK=[(PROCB+PDFIND(LOCATION(BREAK)))],
REFCOORD=[(PROCB+INTEGR+PDFIND(LOCATION(COORD)))],
REFUNTRACE=[(PROCB+PDFIND(LOCATION(UNTRACE)))],
REFUNBREAK=[(PROCB+PDFIND(LOCATION(UNBREAK)))],
REFSETLEX=[(PROCB+PDFIND(LOCATION(SETLEX)))],
REF!!STEP=[(PROCB+PDFIND(LOCATION(!!STEP)))],
REF!!GSTEP=[(PROCB+PDFIND(LOCATION(!!GSTEP)))],
REF!!GOTO=[(PROCB+PDFIND(LOCATION(!!GOTO)))],
REF!!ARGS=[(PROCB+STRNG+PDFIND(LOCATION(!!ARGS)))],
REF!!TEXT=[(PROCB+STRNG+PDFIND(LOCATION(!!TEXT)))],
REFSHOW=[(PROCB+STRNG+PDFIND(LOCATION(SHOW)))],
REFHELP=[(PROCB+STRNG+PDFIND(LOCATION(HELP)))],
REFTRAPS=[(PROCB+STRNG+PDFIND(LOCATION(TRAPS)))],
REF!!UP=[(PROCB+PDFIND(LOCATION(!!UP)))],
REFSETSCOPE=[(PROCB+PDFIND(LOCATION(SETSCOPE)))],
REF!!DEFINE=[(PROCB+PDFIND(LOACTION(!!DEFINE)))],
REFDDT=[(PROCB+PDFIND(LOCATION(DDT)))];
]) # NOHAND;
DEFINE F=[('12 LSH 18)], INDIR=[(1 LSH 22)];
PRESET!WITH 0, # BSIMPLE;
ARRY+INDIR, # BARRY;
ITEMB, # BITMV---ITEMVAR;
ITEMB+ ARY2B, # BARITM--ITEMVAR WHOSE DATUM IS AN ARRAY;
ARRY+INDIR+ ITEMB, # BITMAR--ARRAY OF ITEMVARS;
ARRY+INDIR+ ITEMB+ ARY2B, # BARITA--ARRAY OF ITEMVARS WHOSE ∂ ARE ARRAYS;
PROCB, # BPROCED;
ITEMB; # BITEM;
INTEGER ARRAY COMPLEXTYPE[0:7];
PRESET!WITH 0,INTEGR,FLOTNG,STRNG,LSTYPE,SETYPE,
ARRY,LBLTYP,RECTYP,RCLTYP,LFLTYP;
INTEGER ARRAY SIMPLETYPE[0:10];
# BLAMDA,BINTGR,BREAL,BSTRNG,BLIST,BSET,BCNTXT,BLABEL,BRPNTR,BRCLAS;
PRESET!WITH 0, # BBILTN;
F+ INDIR, # BREF;
0, # BALLOC. ZERO FOR SETS, LISTS. ARRAYS GET INDIR SET
BY COMPLEXTYPE;
F, # BSTAK;
0, # BEXTRN;
PROCB, # BXPROC;
PROCB; # BBLTPRC;
INTEGER ARRAY ACCESSTYPE[0:6];
PRESET!WITH
'260000000000, # PUSHJ;
'263000000000, # POPJ;
'254020000000, # JRST @;
'254000000000, # JRST;
'320000000000, # JUMPx;
'265000000000, # JSP;
'344000000000, # AOJA;
'364000000000; # SOJA;
INTEGER ARRAY STEPINSTR[0:7];
PRESET!WITH
'777000000000,
'777000000000,
'777020000000,
'777000000000,
'770000000000,
'777000000000,
'777000000000,
'777000000000;
INTEGER ARRAY STEPMASK[0:7];
PRESET!WITH
'263000000000, # POPJ;
'254020000000, # JRST @;
'254000000000, # JRST;
'320000000000, # JUMPx;
'265000000000, # JSP;
'344000000000, # AOJA;
'364000000000; # SOJA;
INTEGER ARRAY GSTEPINSTR[0:6];
PRESET!WITH
'777000000000,
'777020000000,
'777000000000,
'770000000000,
'777000000000,
'777000000000,
'777000000000;
INTEGER ARRAY GSTEPMASK[0:6];
INTEGER ARRAY NAME[0:2];
FORWARD PROCEDURE BREAK(STRING LOCNAME,COND(""),ACT(""); INTEGER MPC(0));
FORWARD PROCEDURE TRACE(STRING PROCNAME);
FORWARD PROCEDURE UNBREAK(STRING LOCNAME);
FORWARD INTEGER PROCEDURE COORD(STRING LOCNAME);
FORWARD PROCEDURE UNTRACE(STRING PROCNAME);
FORWARD SIMPLE INTERNAL PROCEDURE BAIL;
NOTENX([FORWARD SIMPLE INTERNAL PROCEDURE DDBAIL;])
FORWARD STRING PROCEDURE HELP;
FORWARD PROCEDURE DDT;
FORWARD STRING PROCEDURE TRAPS;
EXTERNAL RECURSIVE PROCEDURE SETLEX(INTEGER DEPTH);
EXTERNAL PROCEDURE !!STEP;
EXTERNAL PROCEDURE !!GOTO;
EXTERNAL PROCEDURE !!GSTEP;
EXTERNAL PROCEDURE !!UP(INTEGER LEVEL);
EXTERNAL PROCEDURE SETSCOPE(ITEMVAR PROCITM);
EXTERNAL STRING PROCEDURE !!ARGS;
EXTERNAL STRING PROCEDURE !!TEXT;
FORWARD STRING PROCEDURE SHOW(INTEGER FIRST,LAST(0));
FORWARD PROCEDURE !!DEFINE(INTEGER CHAR; STRING MAC);
�# TYPEMUNGE;
SIMPLE INTEGER PROCEDURE TYPEMUNGE(INTEGER D,LZERO,HZERO); BEGIN "TYPIT"
# CONVERT FROM BAIL TYPES TO REFITEM DATUMS. SIMPLE PROCEDURES WILL HAVE
THE "TEMPORARY" BIT ON IN THEIR REFITEMS;
NOHAND([
INTEGER COMPLX,SIMPL,ACCES,LBITS,RBITS,SW;
COMPLX←D LSH -18 LAND '7; SIMPL←(D LSH -21 LAND '7) LOR (D LSH -25 LAND '10);
ACCES←D LSH -24 LAND '7;
LBITS←COMPLEXTYPE[COMPLX] + SIMPLETYPE[SIMPL] LOR ACCESSTYPE[ACCES] LOR REFB;
# CHECK FOR SIMPLE PROCEDURES;
IF D<0 THEN LBITS←LBITS LOR (1 LSH 35);
# DISTINGUISH BETWEEN ITEMS AND ITEMVARS.
ITEMS WILL HAVE LBITS=REFB+ITEMB, RBITS=ITEM NUMBER,
ITEMVARS WILL HAVE LBITS=REFB+ITEMB+TYPE CODE, RBITS=ADDR;
IF (COMPLX=2 OR COMPLX=4) # BITMV OR BITMAR; AND SIMPL=0 THEN LBITS←LBITS + NOTYPE;
RBITS←RIGHT(D);
]) # NOHAND;
HAND([
START!CODE LABEL XHRELOC,NRELOC,JTAB,XBBILTN,XBXPROC,BOT1,UNALLOC;
DEFINE COMPLX=[2],SIMPL=[3],ACCES=[4],LNK=[5];
MOVE 1,D;
LDB COMPLX,['220300000001];
LDB SIMPL,['250300000001];
TLNE 1,'2000;
ADDI SIMPL,8;
LDB ACCES,['300300000001];
HLL 1,SIMPLETYPE[0](SIMPL);
TLO 1,0+REFB LSH -18;
ADD 1,COMPLEXTYPE[0](COMPLX);
IOR 1,ACCESSTYPE[0](ACCES);
SKIPGE D;
TLO 1,'400000;
CAIE COMPLX,2;
CAIN COMPLX,4;
SKIPE SIMPL;
SKIPA;
ADD 1,[NOTYPE];
]) # HAND;
NOHAND([
# NOW CORRECT THE ADDRESS. WATCH OUT FOR ITEMS, PROCEDURES, LABELS,
AND HIGHSEG ARRAYS. ALSO PARAMETERS AND RECURSIVE LOCALS.
ALSO, IF THE ADDRESS IS ZERO, DON'T CHANGE IT. THIS OCCURS FOR VARIABLES
WHICH ARE DECLARED BUT NEVER USED OR INTERNALED. CONSEQUENTLY THEY ARE NOT
ALLOCATED. THIS IS A FEATURE OF SAIL;
IF COMPLX NEQ 7 # BITEM; AND RBITS NEQ 0 THEN RBITS←CASE ACCES OF (
#[0]BBILTN; IF COMPLX=6 OR SIMPL=7 OR
((GETTYPE(LBITS) GEQ ARRY) AND (RBITS LAND '400000))
THEN HRELOC(RBITS) ELSE LRELOC(RBITS),
#[1]BREF; RBITS LAND '377777,
#[2]BALLOC; LRELOC(RBITS),
#[3]BSTAK; RBITS,
#[4]BEXTRN; RIGHT(MEMORY[HRELOC(RBITS)]),
#[5]BXPROC; RIGHT(MEMORY[HRELOC(RBITS)]),
#[6]BBLTPRC; HRELOC(RBITS) );
]) # NOHAND;
HAND([
TRNE 1,-1; # IF ZERO ADDRESS;
CAIN COMPLX,7; # OR ITEM;
JRST UNALLOC; # DON'T MANGLE;
XCT JTAB(ACCES);
JRST NRELOC;
JTAB: JRST XBBILTN;
ANDCMI 1,'400000;
ADD 1,LZERO;
JFCL;
JRST XBXPROC;
JRST XBXPROC;
ADD 1,HZERO;
XBBILTN:CAIE COMPLX,6;
CAIN SIMPL,7;
JRST XHRELOC;
HLRZ 5,1;
ANDI 5,'77 LSH 5;
CAIL 5,0+ARRY LSH -18; # IF TYPE GEQ ARRY;
TRNN 1,'400000; # AND FLAG;
SKIPA 5,LZERO; # ELSE LRELOC;
XHRELOC:MOVE 5,HZERO; # THEN HRELOC;
ADDI 1,(5);
JRST NRELOC;
XBXPROC:ADD 1,HZERO;
HRR 1,(1); # SUBSTITUTE BITS;
NRELOC:
]) # HAND;
NOHAND([
IF ACCES=5 THEN RBITS←PDFIND(RBITS);
# SHOULDN'T HAVE TO DO THIS. KLUGE TO FIX A BUG SOMEWHERE;
# 7-11-76 EXTERNAL STRINGS ALSO REFER TO FIRST WORD;
IF SIMPL=3 # BSTRNG; AND (ACCES=0 # BBILTN; OR ACCES=4 # BEXTRN;)
AND COMPLX=0 # BSIMPL; AND RBITS NEQ 0 THEN RBITS←RBITS+1;
RETURN(LBITS LOR RBITS)
]) # NOHAND;
HAND([
CAIE ACCES,5;
JRST BOT1;
PUSH P,1; # SAVE A COPY OF LEFT HALF BITS;
PUSH P,1; # ENTRY ADDR;
PUSHJ P,PDFIND;
HLL 1,(P); # INSERT SAVED LEFT HALF BITS;
POP P,(P); # ADJUST STACK;
JRST UNALLOC;
BOT1: JUMPN COMPLX,UNALLOC;
CAIE ACCES,4; # BEXTRN;
JUMPN ACCES,UNALLOC;
CAIN SIMPL,3;
ADDI 1,1;
UNALLOC:SUB P,['4000004];
JRST @4(P);
END;]) # HAND;
END "TYPIT";
�# INSERT;
SIMPLE INTEGER PROCEDURE INSERT(INTEGER TYPE,FATHER,DATA; INTEGER ARRAY NAME);
BEGIN "INSERT"
NOHAND([
INTEGER K,I;
# HASH TO FIND BUCKET;
K←ABS(NAME[0] MOD 31);
IF L!NAME+5 GEQ N!NAME THEN EXTND(C!NAME,N!NAME,500);
L!NAME←L!NAME+1;
T!NAME(L!NAME)←T!NAME(K) LOR (FATHER LSH 18) LOR (TYPE LSH 34);
T!NAME(K)←L!NAME; # CHAINING;
T!NAME(L!NAME+1)←DATA; FOR I←0 UPTO 2 DO T!NAME(L!NAME+2+I)←NAME[I];
L!NAME←L!NAME+4;
RETURN(L!NAME-4)
]) # NOHAND;
HAND([
START!CODE LABEL ROOM; DEFINE I=[1],K=[2],T=[0],LN=[3],T2=[4];
MOVE T,L!NAME;
ADDI T,5;
CAMGE T,N!NAME;
JRST ROOM;
MOVEI T,C!NAME;
PUSH P,T;
MOVEI T,N!NAME;
PUSH P,T;
MOVEI T,[500];
PUSH P,T;
PUSHJ P,EXTND;
ROOM: MOVE I,@NAME;
IDIVI I,31;
MOVM K,K;
AOS LN,L!NAME;
ADD K,C!NAME;
ADD LN,C!NAME;
MOVE T,(K); # T!NAME(K);
HRL T,FATHER; # LOR (FATHER LSH 18);
MOVE T2,TYPE;
LSH T2,34;
IOR T,T2; # LOR (TYPE LSH 34);
MOVEM T,(LN);
MOVEI T,(LN);
SUB T,C!NAME;
MOVEM T,(K); # CHAINING;
MOVE T,DATA;
MOVEM T,1(LN);
HRLI T,@NAME; # FWA DATA;
HRRI T,2(LN);
BLT T,4(LN); # XFER 3 WORD NAME;
ADDI LN,4;
SUB LN,C!NAME;
MOVEM LN,L!NAME;
MOVEI 1,-4(LN);
SUB P,['5000005];
JRST @5(P);
END;]) # HAND;
END "INSERT";
�# FIND;
SIMPLE INTEGER PROCEDURE FIND(INTEGER ARRAY NAME,LCHAIN; INTEGER LDEPTH,
ANYNAM);
BEGIN "FIND"
NOHAND ([
INTEGER K,I,FATHER,P!CACHE,HOMONYMN;
DEFINE CURBLK=[LCHAIN[0]];
# RETURN -1 IF NAME NOT FOUND
+PNTR TO CACHE TABLE IF FOUND;
# ANYNAM IS A FLAG. FALSE MEANS MUST RETURN A VARIABLE OR A PROCEDURE.
TRUE MEANS THAT A BLOCKNAME IS ALLOWED;
# CHECK CACHE FIRST;
FOR I←0 STEP 5 UNTIL L!CACHE-4 DO BEGIN "SEARCH CACHE"
K←-1; WHILE (K←K+1) LEQ 2 AND NAME[K]=CACHE[I+2+K] DO;
IF K=3 AND RIGHT(CACHE[I])=RIGHT(LCHAIN[0]) AND
(ANYNAM OR (CACHE[I+1] LAND ('77 LSH 23 +PROCB+ITEMB)) NEQ 0)
THEN BEGIN "CLIMB"
IF I=0 THEN RETURN(0) ELSE FOR K←0 UPTO 4 DO
CACHE[I+K] SWAP CACHE[I+K-5]; RETURN(I-5) END"CLIMB"
END "SEARCH CACHE";
# COULD NOT FIND IT IN CACHE, LOOK IN REGULAR PLACE;
HOMONYMN←0;
K←PAGEIT(T!NAME,ABS(NAME[0] MOD 31)); # INITIAL HASH;
WHILE K NEQ 0 DO BEGIN "CHAIN"
I←-1; WHILE(I←I+1)<3 AND NAME[I]=PAGEIT(T!NAME,K+2+I) DO;
IF I NEQ 3 THEN K←RIGHT(PAGEIT(T!NAME,K)) # FOLLOW DOWN CHAIN;
ELSE BEGIN "HOM"
# FOUND A LIKE SPELLING;
HOMONYMN←K; FATHER←LEFT(PAGEIT(T!NAME,K)) LAND '177777;
I←-1; WHILE (I←I+1) LEQ LDEPTH AND LEFT(LCHAIN[I]) NEQ FATHER DO;
IF I=LDEPTH+1 OR (NOT ANYNAM AND
(PAGEIT(T!NAME,K+1) LAND (PROCB+ITEMB+('77 LSH 23))=0) )
THEN K←RIGHT(PAGEIT(T!NAME,K)) # TRY AGAIN;
ELSE BEGIN "GOTCHA"
# FOUND OUR MAN, SINCE INNER-MOST OCCURS FIRST IN CHAIN;
# PUT IN CACHE;
IF L!CACHE<N!CACHE-1 THEN BEGIN P!CACHE←L!CACHE+1; L!CACHE←
L!CACHE+5 END ELSE P!CACHE←BOTTOM!SLOT;
FOR I←1 UPTO 4 DO CACHE[P!CACHE+I]←PAGEIT(T!NAME,K+I);
CACHE[P!CACHE]←LEFT(PAGEIT(T!NAME,K)) LSH 18 LOR RIGHT(CURBLK);
RETURN(P!CACHE)
END "GOTCHA"
END "HOM"
END "CHAIN";
IF HOMONYMN AND ANYNAM THEN BEGIN
IF L!CACHE<N!CACHE-1 THEN BEGIN P!CACHE←L!CACHE+1; L!CACHE←
L!CACHE+5 END ELSE P!CACHE←BOTTOM!SLOT;
FOR I←1 UPTO 4 DO CACHE[P!CACHE+I]←PAGEIT(T!NAME,K+I);
CACHE[P!CACHE]←LEFT(PAGEIT(T!NAME,K)) LSH 18 LOR RIGHT(CURBLK);
RETURN(P!CACHE) END;
RETURN(-1)
]) # NOHAND;
HAND ([
INTEGER RETVAL,HOMONYMN;
START!CODE
LABEL LOOP1,LSWAP,INC1,TEST1,LOOP2,LOOP3,BOTSLOT,RET,SUGAR,GOTCHA,LP3A;
DEFINE N1=[2],N2=[3],N3=[4],I=[1],K=[5],CN=[6],FATHER=[8],LD=[9],T=[0],
PCACHE=['14],CURBLK=['15];
HRLI T,@NAME; # ADDR OF FIRST DATA WORD IN NAME;
HRRI T,N1;
BLT T,N3; # GET THE NAME INTO N1,N2,N3;
MOVE I,L!CACHE;
MOVEI I,CACHE[0](I);
HRRZ CURBLK,@LCHAIN; # RIGHT HALF OF LCHAIN[0];
JRST TEST1;
LOOP1: CAME N1,2(I); # FIRST 5 CHARS;
JRST INC1;
CAMN N2,3(I); # SECOND 5;
CAME N3,4(I); # LAST 5;
JRST INC1;
HRRZ T,0(I); # BLOCK WHICH OWNS OBJECT IN CACHE;
CAME CURBLK,T; # SAME AS CURRENT?;
JRST INC1; # NO;
MOVE T,1(I); # TYPE BITS OF REFITEM DATUM;
TLNN T,'77 LSH 5 + ITEMB LSH -18 + PROCB LSH -18;
SKIPE ANYNAM; # IF ONLY VAR OR ITEM OR PROC WILL DO;
SKIPA; # IT'S OK;
JRST INC1; # IT'S BAD;
MOVEI T,(I); # POINT TO WORD 0, RELATIVE TO CACHE[0];
SUBI T,CACHE[0];
MOVEM T,RETVAL;
# CLIMB;
CAMN T,L!CACHE; # AT END ALREADY?;
JRST RET; # YES;
MOVEI K,5; # SWAP 5 WORDS;
LSWAP: MOVE T,(I);
EXCH T,5(I);
MOVEM T,(I);
ADDI I,1;
SOJG K,LSWAP;
SUBI I,CACHE[0]; # POINT TO WORD 0;
MOVEM I,RETVAL;
JRST RET;
INC1: SUBI I,5;
TEST1: CAIL I,CACHE[0]; # REACHED BOTTOM YET?;
JRST LOOP1; # NO;
]) # HAND;
HAND([
# SEARCH NAME TABLE;
SETOM RETVAL; # NOT FOUND;
SETZM HOMONYMN;
SETZM MULDEF;
MOVE CN,C!NAME;
MOVE T,N1; # COMPUTE BUCKET NUMBER;
IDIVI T,31;
MOVM K,1;
ADDI K,(CN);
LOOP2: HRRZ K,(K); # DOWN ONE LINK IN CHAIN;
JUMPE K,SUGAR; # LAST ONE;
ADDI K,(CN); # GET MEMORY ADDRESS;
CAME N1,2(K); # FIRST 5 CHARS MATCH?;
JRST LOOP2; # NO;
CAMN N2,3(K);
CAME N3,4(K);
JRST LOOP2;
# NEXT TWO COMMENTED OUT BY RHT;
# MOVSS HOMONYMN; # SAVE ANYTHING THAT MIGHT BE THERE ALREADY;
# HRRM K,HOMONYMN; # AND REMEMBER THIS ONE;
LDB FATHER,[('222000+K) LSH 18];
MOVN LD,LDEPTH; # PREPARE FOR SEARCH ALONG LCHAIN;
HRLI LD,-1(LD); # CONSTRUCT AOBJN POINTER IN LD;
HRRI LD,@LCHAIN; # POINT TO LCHAIN[0];
LOOP3: HLRZ T,(LD);
CAME FATHER,T;
AOBJN LD,LOOP3;
# JUMPGE LD,LOOP2; # RHT -- CHANGES TO AVOID CONFUSION BY "SAME" OBJECTS;
MOVE T,1(K); # TYPE BITS OF REFITEM DATUM;
MOVE FATHER,HOMONYMN;# IF 0 THEN TEST WITH AC1 WILL ALWAYS SKIP.;
CAMN T,1(FATHER); # CURRENT REFITEM DATUM WITH PREVIOUS;
JRST LP3A; # THEY ARE SAME, IGNORE THIS ONE;
MOVSI FATHER,(FATHER);# SAVE OLD IN LEFT HALF;
HRRI FATHER,(K); # REMEMBER NEW;
MOVEM FATHER,HOMONYMN;# TUCK IT AWAY;
LP3A: JUMPGE LD,LOOP2; # IF AOBJN COUNTED OUT THEN ITERATE;
# RHT -- END OF PATCH;
TLNN T,'77 LSH 5 + ITEMB LSH -18 + PROCB LSH -18;
SKIPE ANYNAM;
SKIPA;
JRST LOOP2;
GOTCHA: MOVE I,L!CACHE;
CAIL I,N!CACHE-5;
JRST BOTSLOT;
ADDI I,5;
MOVEM I,L!CACHE;
MOVEI PCACHE,(I);
SKIPA;
BOTSLOT:SETZ PCACHE,;
MOVEM PCACHE,RETVAL;
HRLI T,1(K);
HRRI T,CACHE[1](PCACHE);
BLT T,CACHE[4](PCACHE);
HLL CURBLK,(K);
MOVEM CURBLK,CACHE[0](PCACHE);
RET: MOVE 1,RETVAL;
SUB P,['5000005];
JRST @5(P);
SUGAR: SKIPN K,HOMONYMN; # IF SPELLING NOT FOUND;
JRST RET; # THEN GIVE UP;
MOVE T,1(K); # TYPE BITS;
TLNE T,0+PROCB LSH -18;# IF NOT A PROCEDURE;
TLNE T,'17; # OR IF PARAMETER;
SKIPA; # KEEP TRYING;
JRST GOTCHA; # USE OUTER-MOST PROCEDURE;
TLNE K,-1;
SETOM MULDEF;
TLNN K,-1; # IF MULTIPLY DEFINED;
TLNE T,'17; # OR NOT A FIXED CORE ADDRESS;
JRST RET; # GIVE UP;
JRST GOTCHA; # OTHERWISE, TRY THIS;
END;
]) # HAND;
END "FIND";
�# CVNAME PREDEC;
SIMPLE PROCEDURE CVNAME(STRING STRVAL; INTEGER ARRAY NAME);BEGIN "CVNAME"
NOHAND([
INTEGER I; FOR I←0 UPTO 2 DO NAME[I]←CVASC(STRVAL[5*I+1 FOR 5]) ]) # NOHAND;
HAND([
START!CODE DEFINE R=[1], L=[2], I=[3], D=[4], T=[5]; LABEL LOOP;
MOVEI R,@NAME; # ADDRESS OF FIRST DATA WORD IN NAME;
SETZM (R); SETZM 1(R); SETZM 2(R); # CLEAR RESULT;
HRLI R,'440700; # POINT 7, ;
HRRZ L,-1(SP); # LENGTH OF SOURCE;
MOVE I,(SP); # BYTE POINTER TO SOURCE;
MOVEI D,15; # MAX LENGTH;
LOOP: ILDB T,I;
IDPB T,R;
SOSLE D;
SOJG L,LOOP;
END; ]) # HAND;
END "CVNAME";
SIMPLE INTEGER PROCEDURE PREDEC(STRING NM; INTEGER TYPE,FATHER,DATA); BEGIN
NOHAND([
CVNAME(NM,NAME); RETURN(INSERT(TYPE,FATHER,DATA,NAME))
]) # NOHAND;
HAND([
START!CODE DEFINE T=['13];
PUSH P,NAME; # FWA;
PUSHJ P,CVNAME; # REMOVES NM FROM STACK UPON RETRUN;
MOVE T,NAME; # FWA;
EXCH T,(P); # BECOMES LAST ARG TO INSERT;
PUSH P,T; # RETURN ADDR;
JRST INSERT; # SICK 'EM;
END;
]) # HAND;
END;
�# STBAIL;
PROCEDURE STBAIL; BEGIN"STBAIL"
INTEGER SM1PNT,BAITIM,DMPTIM,SM1TIM,N!BYTE,SM1JFN;
INTEGER LZERO,HZERO,BPDALZERO,BPDAHZERO;
# LZERO LOW SEGMENT RELOCATION CONSTANT
HZERO HIGH SEGMENT RELOCATION CONSTANT;
INTEGER CRDNO,LEVEL,DAD,D;
DEFINE ID=[0], BLK=[1], SIMPRC=[2], PRC=[3];
BOOLEAN ENROLL; # WHETHER TO READ ALL .SM1 FILES;
INTEGER I,L,J,ADDR1,ADDR2,BRCHAR,W;
INTEGER ARRAY FILMAP[0:MAX#TXTFIL]; # TRANSLATES FROM LOCAL FILE NUMBER TO GLOBAL;
STRING T,PROGNAM,BAINAM,SM1NAM;
LABEL DONESTBAIL;
SIMPLE INTEGER PROCEDURE HORSECART(INTEGER HTIM; STRING HORSE;
REFERENCE STRING CART); BEGIN INTEGER T; T←0;
IF LENGTH(CART) AND ((T←LAST!WRITTEN(CART,"R"))>HTIM OR T=0) THEN
NONFATAL(CART & " written after " & HORSE);
RETURN(T); END;
SIMPLE PROCEDURE AD!BLKADR(INTEGER I,J); BEGIN "AD!BLKADR"
IF (L!BLKADR←L!BLKADR+2) GEQ N!BLKADR THEN EXTND(C!BLKADR,N!BLKADR,128);
T!BLKADR(L!BLKADR-1)←I; T!BLKADR(L!BLKADR)←J END "AD!BLKADR";
SIMPLE PROCEDURE AD!CRDIDX(INTEGER I); BEGIN "AD!CRDIDX"
N!BYTE←N!BYTE+2; IF N!BYTE LAND '177 THEN RETURN;
IF (L!CRDIDX←L!CRDIDX+1) GEQ N!CRDIDX THEN EXTND(C!CRDIDX,N!CRDIDX,64);
T!CRDIDX(L!CRDIDX)←I END "AD!CRDIDX";
SIMPLE INTEGER PROCEDURE INW; BEGIN
NOHAND([RETURN(W←WORDIN(SM1JFN))])
HAND([ START!CODE EXTERNAL INTEGER WORDIN;
PUSH P,SM1JFN;
PUSHJ P,WORDIN;
MOVEM 1,W;
POPJ P,;
END; ])
END;
SIMPLE PROCEDURE SYMIN;
NOHAND([BEGIN TARRAY[1]←TARRAY[2]←0;
FOR I←1 UPTO L DO TARRAY[I-1]←INW END;]) # NOHAND;
HAND([START!CODE LABEL LOOP;
SETZM TARRAY[1];
SETZM TARRAY[2];
MOVN 2,L;
HRLZI 2,(2);
LOOP:PUSHJ P,INW;
MOVEM 1,TARRAY[0](2);
AOBJN 2,LOOP;
POPJ P,;
END;]) # HAND;
SIMPLE STRING PROCEDURE FILSPC(BOOLEAN R); BEGIN "FILSPC"
# IF R THEN [READ L WORDS INTO TARRAY] ELSE [FILL TARRAY FROM SM1PNT BLOCK].
GIVEN TARRAY[0:3+SFDLFL]=SIXBIT DEV,NAM,EXT,PPN, RETURN STRING OF SAME.
ON TENEX, USE L WORDS OF ASCII;
STRING A;
IF R THEN SYMIN
ELSE BEGIN
L←RIGHT(SM1LNK(2));
NOTENX([ # SET DEFAULTS;
TARRAY[0]←IF LEFT(SM1LNK(2)) THEN CVSIX("SYS") ELSE CVSIX("DSK");
TARRAY[2]←CVSIX("SM1"); TARRAY[3]←0;
# GET NON-DEFAULTS; ARRBLT(TARRAY[1],SM1LNK(3),L);
# XFER DEVICE TO FRONT; IF L>3 THEN TARRAY[0]←TARRAY[L];
]) # NOTENX;
TENX([
ARRBLT(TARRAY[0],SM1LNK(3),L);
]) # TENX;
END;
NOTENX([ RETURN(CV6STR(TARRAY[0]) & ":" &CVXSTR(TARRAY[1]) & "." &
(CVXSTR(TARRAY[2])[1 TO 3]) & MAKPPN(TARRAY[3],L-4)); ]) # NOTENX;
TENX([ A←NULL; FOR I←0 UPTO L-1 DO A←A&CVASTR(TARRAY[I]);
RETURN(NONULL(A)) ]) # TENX;
END "FILSPC";
SIMPLE PROCEDURE EATSYM(BOOLEAN INPRC; INTEGER $RUN$); BEGIN "EATSYM"
# PROCESS SYMBOLS FOR BLOCK TYPES 3 AND 4 (BAIBLK AND BAIPRC);
SIMPLE PROCEDURE IND; D←TYPEMUNGE(INW,LZERO,HZERO);
INW; L←W LAND '77; LEVEL←W LSH -6 LAND '77;
CRDNO←LEFT(W);
NOHAND([
INW; IF RIGHT(W)=0 THEN W←W+LEFT(W); # Bullet-proofing for RIGHT(W)=0;
]) HAND([START!CODE # THE ABOVE IS JUST TOO INEFFICIENT;
PUSHJ P,INW;
TRNN 1,-1;
HLR 1,1;
MOVEM 1,W; END;
]) # HAND;
D←ADDR1←HRELOC(RIGHT(W));
ADDR2←HRELOC(LEFT(W)) MAX ADDR1; # Bullet-proofing for LEFT(W)=0;
IF INPRC THEN IND;
SYMIN;
# USE FATHER FIELD FOR LEVEL INFO UNTIL FATHER CHAIN IS BUILT;
DAD←INSERT(IF INPRC THEN IF D<0 THEN SIMPRC ELSE PRC ELSE BLK,LEVEL+$RUN$,D,TARRAY);
IF NOT $RUN$ THEN AD!BLKADR(DAD,ADDR2 LSH 18 LOR ADDR1);
WHILE INW NEQ 0 DO BEGIN "IDENTIFIERS"
L←W LAND '77; IND; SYMIN; INSERT(ID,DAD,D,TARRAY) END "IDENTIFIERS"
END "EATSYM";
SIMPLE PROCEDURE DOSM1(INTEGER $RUN$); BEGIN "DOSM1"
# Go down the BALNK loader chain and process the files on it. If $RUN$ is zero,
process only user files., if $RUN$ is not zero, then process predeclared runtime
files, which have a 1 in the left half of the word which tells how many words
the file name takes;
SM1PNT←BALNK;
WHILE SM1PNT DO BEGIN "ONE COMPILATION"
LABEL EOC;
IF $RUN$ AND NOT(LEFT(SM1LNK(2))) THEN GOTO EOC;
IF NOT($RUN$) AND LEFT(SM1LNK(2)) THEN GOTO EOC;
# Do runtimes iff correct to do so;
LZERO←RIGHT(SM1LNK(1))-1; HZERO←(LEFT(SM1LNK(1))-1) LAND '377777;
SM1NAM←FILSPC(FALSE); # USE BALNK BLOCK AND FETCH FILE NAME;
SM1JFN←OPENFILE(SM1NAM,"R"); SM1TIM←FILTIM(SM1JFN);
IF NOT(!SKIP!) THEN BEGIN "SM1FILE"
OUTSTR(CRLFCAT(SM1NAM));
WHILE INW NEQ -1 DO CASE W OF BEGIN "CASES"
[1] BEGIN "FILE INFO"
STRING TEXTFILE; INTEGER FILN; LABEL OLDCHAP;
INW; L←RIGHT(W); FILN←LEFT(W);
TEXTFILE←FILSPC(TRUE); # READ WORDS AND GET FILE NAME;
FOR I←0 UPTO L!TXTFIL DO IF EQU(TEXTFILE,T!TXTFIL[I]) THEN BEGIN
FILMAP[FILN]←I; GOTO OLDCHAP; END;
IF L!TXTFIL=MAX#TXTFIL-1 THEN
NONFATAL("More than "&CVS(MAX#TXTFIL-1)&" text files.
Rest ignored.");
FILMAP[FILN]←L!TXTFIL←(L!TXTFIL+1) MIN MAX#TXTFIL;
STATUS[L!TXTFIL]←IF HORSECART(SM1TIM,SM1NAM,TEXTFILE)=0 THEN -'1000 ELSE -1;
T!TXTFIL[L!TXTFIL]←TEXTFILE;
OLDCHAP:OUTSTR(CRLFCAT(" " & TEXTFILE));
END "FILE INFO";
[2] BEGIN "COORDINATES"
WHILE INW NEQ 0 DO BEGIN
# CONVERT TO CHARACTER COUNT AND MAPPED FILE NUMBER;
WORDOUT(BAIJFN,(RIGHT(W)-1)*640 + (LEFT(W) LAND '177)*5 +
(((W LSH -30)LAND 7)XOR 4)-1 LOR
(FILMAP[W LSH -25 LAND '37] LSH 24));
WORDOUT(BAIJFN,W←HRELOC(INW LAND '400000777777)+
(CRDCTR LSH 18)); # USE GLOBAL COORD NUMBERS;
CRDCTR←CRDCTR+1;
AD!CRDIDX(W); END
END "COORDINATES";
[3] BEGIN "BLOCKS" EATSYM(FALSE,$RUN$) END "BLOCKS";
[4] BEGIN "PRC" EATSYM(TRUE,$RUN$) END "PRC"
END "CASES";
CFILE(SM1JFN);
# There is some monkey business with outer blocks. They act like procedures
with no parameters, in that they put out the name twice, once for the params
and once for the delcatations inwide the procedure. The trouble is, the
declarations should be treated as global in this case. So kill the "params"
block name, and set the FWA of the other one to HRELOC(0). Also kill the
outer block procedure name in the NAME table, to prevent confusion;
IF NOT($RUN$) THEN BEGIN
T!NAME(RIGHT(T!BLKADR(L!BLKADR-1))+2)←0; # KILLS THE NAME TABLE ENTRY;
L!BLKADR←L!BLKADR-2; # THAT KILLS THE PARAM NAME BLOCK;
T!BLKADR(L!BLKADR)←T!BLKADR(L!BLKADR) LAND '777777000000 LOR HRELOC(0); END;
END "SM1FILE";
EOC:SM1PNT←SM1LNK(0); # NEXT LINK; END "ONE COMPILATION"
END "DOSM1";
�
#SKIP#←!SKIP!;
OUTSTR("
BAIL ver. 16-Feb-77");
IF BALNK=0 THEN BEGIN
NONFATAL("No /B switch used"); RETURN END;
IF NOT PRGSM1 THEN BEGIN "NAMPRG"
# Record the name of the program which was loaded first as the main program
name. It could change when the .SM1 link is sorted by address. In order
to find the program which was loaded first, we must go to the end of the
linked list;
NOHAND([
PRGSM1←BALNK; WHILE MEMORY[PRGSM1] NEQ 0 DO PRGSM1←MEMORY[PRGSM1];
]) # NOHAND;
HAND([START!CODE LABEL T,B;
MOVE 1,BALNK;
T: SKIPN (1);
JRST B;
MOVE 1,(1);
JRST T;
B: MOVEM 1,PRGSM1;
END;
]) # HAND;
END "NAMPRG";
SM1PNT←PRGSM1; # need to reconstruct string, since restart zeroes all strings;
NOTENX([PROGNAM←CV6STR(SM1LNK(3));])
TENX([ PROGNAM←FILSPC(FALSE); ])
# The loader linked list needs to be sorted by first word address of code
so that we process files in ascending order of load address.
$#$#$#$#$# THIS MEANS THAT THE LINK BLOCKS MUST BE IN THE LOWSEG #$#$#$#$#$;
NOHAND([ # insertion sort of non-null linked list headed at BALNK;
I←0; I SWAP MEMORY[BALNK]; # BALNK gets first element, I gets rest;
WHILE I NEQ 0 DO BEGIN
J←LOCATION(BALNK); L←MEMORY[J]; # top of what's already sorted;
WHILE L NEQ 0 AND LEFT(MEMORY[I+1])>LEFT(MEMORY[L+1]) DO
L←MEMORY[J←L]; # find L=first which has FWA code > FWA I;
J←MEMORY[J]←I; # link in I, advance J to it;
I←MEMORY[I]; # CDR down stuff not yet processed;
MEMORY[J]←L; # tack on rest of sorted list;
END;
]) # NOHAND;
HAND([
START!CODE LABEL TOP1,TOP2,BOT1,BOT2,OUT1,OUT2;
DEFINE T=[0],T1=[1],I=['13],J=['14],L=['15];
MOVEI I,0;
EXCH I,@BALNK;
JRST BOT1;
TOP1: MOVEI J,BALNK;
HRRZ L,(J);
JRST BOT2;
TOP2: HLRZ T,1(I);
HLRZ T1,1(L);
CAIG T,(T1);
JRST OUT2;
MOVEI J,(L);
HRRZ L,(J);
BOT2: JUMPN L,TOP2;
OUT2: HRRZM I,(J);
MOVEI J,(I);
HRRZ I,(I);
HRRZM L,(J);
BOT1: JUMPN I,TOP1;
OUT1: END;
]) # HAND;
# MAKE FOR NICE RENTRANCY;
ARRCLR(STATUS); COREFREE(C!NAME); COREFREE(C!BLKADR); COREFREE(C!CRDIDX);
BKLEV←0;
# Establish special break tables. Kluge for BK!ID2 to save space;
J←BK!PRV(TRUE);
NOHAND([ FOR I←0 UPTO 7 DO BEGIN INTEGER K; K←IF I=7 THEN 6 ELSE I;
RELBREAK(BK!TBL[I]); IF (BK!TBL[I]←GETBREAK) GEQ 0 THEN FATAL("Brktbl ov.");
SETBREAK(BK!TBL[I],BK!SBR[K,0],BK!SBR[K,1],BK!SBR[K,2]) END; ]) # NOHAND;
HAND([ START!CODE LABEL NEWTBL,SPLOOP,GOOD;
EXTERNAL INTEGER GETBREAK,SETBREAK,RELBREAK;
MOVEI 3,BK!SBR[0,0]; # ADDR OF WD2 OF FIRST STRING TO BE PUSHED;
MOVSI 2,-8; # 8 TABLES TO BE SET;
NEWTBL: PUSH P,BK!TBL[0](2);
PUSHJ P,RELBREAK;
PUSHJ P,GETBREAK;
JUMPL 1,GOOD;
PUSH SP,[10];
PUSH SP,["Brktbl ov."];
PUSHJ P,FATAL;
GOOD: PUSH P,1; # TABLE NUMBER;
MOVEM 1,BK!TBL[0](2);
HLRZ 4,2;
CAIN 4,-1;
SUBI 3,6; # BK!ID2 KLUGE;
HRLI 3,-6; # 6 WORDS ONTO SP;
SPLOOP: PUSH SP,-1(3);
AOBJN 3,SPLOOP;
CAIN 4,-1;
SOS -5(SP); # BK!ID2 KLUGE;
PUSHJ P,SETBREAK;
AOBJN 2,NEWTBL;
END;
]) # HAND;
BK!PRV(J);
# Guess at where the core image originated;
NOTENX([
SUAI([DEFINE AC!DEV=[6], AC!PPN=[3],AC!EXT=[1]; ])
DEC([ DEFINE AC!DEV=['11],AC!PPN=[7],AC!EXT=['17];])
IF LEFT(MEMORY[LOCATION(INIACS)+AC!EXT])=LEFT(CVSIX(CORE!IMAGE!EXTENSION))
THEN BEGIN RUNDEV←CV6STR(MEMORY[LOCATION(INIACS)+AC!DEV]);
RUNPPN←MAKPPN(MEMORY[LOCATION(INIACS)+AC!PPN]) END;
]) # NOTENX;
TENX([ J←BK!PRV(TRUE); PROGNAM←SCAN(PROGNAM,BK!DEC,BRCHAR); BK!PRV(J); ])
# NOW MAKE LIKE RPG -- SEE IF WE CAN USE AN EXISTING .BAI FILE;
ENROLL←FALSE; SM1PNT←BALNK;
IF (BAITIM←LAST!WRITTEN(BAINAM←PROGNAM & ".BAI","RE"))<
(DMPTIM←LAST!WRITTEN(PROGNAM←PROGNAM & ("."&CORE!IMAGE!EXTENSION),"RE"))
OR DMPTIM=0
THEN ENROLL←TRUE;
WHILE SM1PNT AND NOT ENROLL DO BEGIN
SM1NAM←FILSPC(FALSE); # USE SM1LNK AND GET FILE NAME;
SM1PNT←SM1LNK(0); # FOLLOW DOWN LINK;
IF LAST!WRITTEN(SM1NAM,"RE") GEQ BAITIM THEN ENROLL←TRUE END;
IF NOT ENROLL THEN BEGIN "NOROLL"
BAIJFN←OPENFILE(BAINAM,"R"); IF !SKIP! THEN BEGIN
OUTSTR(" reconstructing .BAI file");
ENROLL←TRUE END
ELSE BEGIN
OUTSTR(" using " & BAINAM);
# FIRST DISK BLOCK OF .BAI FILE IS A HEADER INDEX BLOCK.
WORD 0-7 UNUSED
8 USETI POINTER TO BEGINNING OF T!CRDIDX
9 CRDCTR,,N!CRDIDX
10 USETI POINTER TO BEGINNNG OF T!BLKADR
11 N!BLKADR
12 USETI POINTER TO BEGINNING OF T!NAME
13 N!NAME
14 USETI POINTER TO TEXT FILE NAMES
15 N!TXTFIL,,# OF WORDS TAKEN UP BY NAMES
16-127 UNUSED;
# READ THE FIRST BLOCK TO GET THE INDEX INFO;
ARRYIN(BAIJFN,TARRAY[0],128);
# SET UP THE VARIOUS ARRAYS;
C!CRDIDX←COREGET(N!CRDIDX←RIGHT(TARRAY[9])); CRDCTR←LEFT(TARRAY[9]);L!CRDIDX←N!CRDIDX-1;
USETIN(BAIJFN,TARRAY[8]); ARRYIN(BAIJFN,T!CRDIDX(0),N!CRDIDX);
C!BLKADR←COREGET(N!BLKADR←TARRAY[11]); L!BLKADR←N!BLKADR-1;
USETIN(BAIJFN,TARRAY[10]); ARRYIN(BAIJFN,T!BLKADR(0),N!BLKADR);
C!NAME←COREGET(N!NAME←TARRAY[13]); L!NAME←N!NAME-1;
USETIN(BAIJFN,TARRAY[12]); ARRYIN(BAIJFN,T!NAME(0),N!NAME);
L!TXTFIL←TARRAY[15] ASH -18; L←RIGHT(TARRAY[15]);
USETIN(BAIJFN,TARRAY[14]); T←NULL; FOR I←0 UPTO L DO T←T &
CVASTR(WORDIN(BAIJFN)); J←BK!PRV(TRUE);
FOR I←0 UPTO L!TXTFIL DO
HORSECART(BAITIM,BAINAM,T!TXTFIL[I]←SCAN(T,BK!TAB,BRCHAR));
BK!PRV(J);
# NOW WE ARE IN BUSINESS;
GOTO DONESTBAIL; END END "NOROLL";
# HERE TO CONSTRUCT THE .BAI FILE;
BAIJFN←OPENFILE(BAINAM,"W"); IF !SKIP! THEN BEGIN BAILOFF←TRUE;
OUTSTR("
Bailor abandons ship.");RETURN END;
# NOW GET SOME CORE FOR THE VARIABLE LENGTH TABLES;
C!NAME←COREGET(N!NAME←2000); L!NAME←32; # FOR BUCKETS;
C!BLKADR←COREGET(N!BLKADR←256); L!BLKADR←-1;
C!CRDIDX←COREGET(N!CRDIDX←64); L!CRDIDX←-1;
N!BYTE←0;CRDCTR←0;
# WRITE A DUMMY FIRST BLOCK; ARRYOUT(BAIJFN,TARRAY[0],128);
L!TXTFIL←-1;
DOSM1(0); # PROCESS THOSE FILES WHICH DO NOT POINT TO PREDECLARED RUNTIMES;
�# SUPER OUTER BLOCK, FOR PREDECLARED STUFF;
# FIRST THE BLOCK;
L←PREDEC("$RUN$",BLK,0,0); AD!BLKADR(L,'777777000000);
# NOW THE OTHER STUFF;
NOHAND([
PREDEC("!SKIP!" ,ID,L,REFB+INTEGR+LOCATION(!SKIP!));
PREDEC("MEMORY" ,ID,L,REFMEMORY);
PREDEC("INTEGER" ,ID,L,INTEGR+LOCATION(INTEGR));
PREDEC("REAL" ,ID,L,INTEGR+LOCATION(FLOTNG));
PREDEC("STRING" ,ID,L,INTEGR+LOCATION(STRNG));
PREDEC("SET" ,ID,L,INTEGR+LOCATION(SETYPE));
PREDEC("LIST" ,ID,L,INTEGR+LOCATION(LSTYPE));
PREDEC("GOGTAB" ,ID,L,REFB+ARRY+INTEGR+LOCATION(GOGTAB));
PREDEC("TRACE" ,PRC,L,REFTRACE);
PREDEC("UNTRACE" ,PRC,L,REFUNTRACE);
PREDEC("BREAK" ,PRC,L,REFBREAK);
PREDEC("UNBREAK" ,PRC,L,REFUNBREAK);
PREDEC("SETLEX" ,PRC,L,REFSETLEX);
PREDEC("HELP" ,PRC,L,REFHELP);
PREDEC("!!STEP" ,PRC,L,REF!!STEP);
PREDEC("!!GOTO" ,PRC,L,REF!!GOTO);
PREDEC("!!GSTEP" ,PRC,L,REF!!GSTEP);
PREDEC("ARGS" ,PRC,L,REF!!ARGS);
PREDEC("TEXT" ,PRC,L,REF!!TEXT);
PREDEC("TRAPS" ,PRC,L,REFTRAPS);
PREDEC("SHOW" ,PRC,L,REFSHOW);
PREDEC("DDT" ,PRC,L,REFDDT);
PREDEC("COORD" ,PRC,L,REFCOORD);
PREDEC("!!UP" ,PRC,L,REF!!UP);
PREDEC("SETSCOPE" ,PRC,L,REFSETSCOPE);
PREDEC("DEFINE" ,PRC,L,REF!!DEFINE);
]) # NOHAND;
HAND([
BEGIN
DEFINE Z(B)=[CVASC("] & [B] & [")],NPD=[26];
PRESET!WITH
Z(!SKIP),Z(!),0,
Z(MEMOR),Z(Y),0,
Z(INTEG),Z(ER),0,
Z(REAL),0,0,
Z(STRIN),Z(G),0,
Z(SET),0,0,
Z(LIST),0,0,
Z(GOGTA),Z(B),0,
Z(TRACE),0,0,
Z(UNTRA),Z(CE),0,
Z(BREAK),0,0,
Z(UNBRE),Z(AK),0,
Z(SETLE),Z(X),0,
Z(HELP),0,0,
Z(!!STE),Z(P),0,
Z(!!GOT),Z(O),0,
Z(!!GST),Z(EP),0,
Z(ARGS),0,0,
Z(TEXT),0,0,
Z(TRAPS),0,0,
Z(SHOW),0,0,
Z(DDT),0,0,
Z(COORD),0,0,
Z(!!UP),0,0,
Z(SETSC),Z(OPE),0,
Z(DEFIN),Z(E),0 ;
OWN SAFE INTEGER ARRAY PRENAM[0:3*NPD-1];
START!CODE DEFINE T=['13],T2=['14];
EXTERNAL INTEGER SETLEX,!!STEP,!!GSTEP,!!ARGS,!!TEXT;
DEFINE REFINT= ['200240000000],
REFMEM= ['201240777777],
INT= ['000240000000],
INTARY= ['001440000000],
PROC= ['020000000000],
STRPRC= ['020140000000],
INTPRC= ['020240000000];
# REFB+INTEGR;
# REFB+ARRY+NOTYPE;
# INTEGR;
# INTEGR ARRY;
# PROCB;
# PROCB+STRNG;
# PROCB+INTEGR;
LABEL LUP,REFTAB,BOT,NOTPRC;
MOVEI T,NPD-1;# NPD SYMBOLS TO BE PREDECLARED, 0 THRU NPD;
LUP: MOVEM T,I; # TUCK IT AWAY IN MEMORY;
MOVEI T2,PRC; # ASSUME PROCEDURE;
CAIGE T,8;
MOVEI T2,ID; # WRONG ASSUMPTION;
PUSH P,T2;
PUSH P,L;
PUSH P,REFTAB(T); # MAGIC BITS FOR THIS NAME;
CAIGE T,8;
JRST NOTPRC;
PUSHJ P,PDFIND; # FIND PDA FOR THIS PROC;
MOVE T,I; # RETRIEVE DESTROYED AC;
HLL 1,REFTAB(T); # REINSERT PROCEDURE TYPE BITS;
PUSH P,1; # STACK IT;
NOTPRC: IMULI T,3; # 3 WORDS PER NAME IN PRENAM ARRAY;
MOVEI T,PRENAM[0](T);
PUSH P,T; # FWA;
PUSHJ P,INSERT; # STICK IT IN MAGIC TABLE;
MOVE T,I; # RESTORE DESTROYED AC;
SOJGE T,LUP;
JRST BOT;
REFTAB: REFINT !SKIP!;
REFMEM;
INT 0,[INTEGR];
INT 0,[FLOTNG];
INT 0,[STRNG];
INT 0,[SETYPE];
INT 0,[LSTYPE];
INTARY GOGTAB;
PROC TRACE;
PROC UNTRACE;
PROC BREAK;
PROC UNBREAK;
PROC SETLEX;
STRPRC HELP;
PROC !!STEP;
PROC !!GOTO;
PROC !!GSTEP;
STRPRC !!ARGS;
STRPRC !!TEXT;
STRPRC TRAPS;
STRPRC SHOW;
PROC DDT;
INTPRC COORD;
PROC !!UP;
PROC SETSCOPE;
PROC !!DEFINE;
BOT:
END;
END;
]) # HAND;
DOSM1(L); # Process those .SM1 files for predecalred runtimes, if any;
# PUT A FLAG AT THE END OF THE COORDINATES ON THE .BAI FILE;
WORDOUT(BAIJFN,MAX#TXTFIL LSH 24); # ILLEGAL FILE FLAG;
WORDOUT(BAIJFN,'377777777777); # ALLSTO=0, CRDNO='377777, ADDR='777777;
N!BYTE←((N!BYTE+'200) LAND LNOT '177)-2; # FORCE NEW ENTRY IN INDEX,TOO;
AD!CRDIDX('377777777777);
# CONSTRUCT THE FATHER CHAINS IN THE BLKADR TABLE AND NAME TABLE;
NOHAND([
DEFINE FWA(I)=[RIGHT(T!BLKADR(I+1))], LWA(I)=[LEFT(T!BLKADR(I+1))];
DEFINE NAMPTR(I)=[RIGHT(T!BLKADR(I))], FATHERBLOCK(I)=[LEFT(T!BLKADR(I))];
L←0; TARRAY[L]←L!BLKADR-1;
FOR I←L!BLKADR-3 STEP -2 UNTIL 0 DO BEGIN "FBLK"
# DESCEND TO PROPER LEVEL. QUIT UPON REACHING ANY OUTER BLOCK;
WHILE LWA(I) LEQ FWA(TARRAY[L]) DO IF L NEQ 0 THEN L←L-1 ELSE BEGIN
TARRAY[0]←I; CONTINUE "FBLK" END;
T!BLKADR(I)←T!BLKADR(I) LOR TARRAY[L] LSH 18; # INSERT FATHER;
PAGEIT(T!NAME,NAMPTR(I))←PAGEIT(T!NAME,NAMPTR(I)) LAND '600000777777
LOR (NAMPTR(FATHERBLOCK(I)) LSH 18); # TAKE CARE OF NAME TABLE, TOO;
TARRAY[L←L+1]←I; # UP A NEW LEVEL AND RECORD; END "FBLK";
]) # NOHAND;
HAND([
START!CODE LABEL TOP2,BOT2,BOT1A;
DEFINE I=['14],L=['15],T1=[1],T2=[2];
MOVE I,L!BLKADR;
SUBI I,1;
ADD I,C!BLKADR;
SETO L,;
TOP2: JUMPL L,BOT1A;
BOT2: HLRZ T1,1(I); # LWA (I);
MOVE T2,TARRAY[0](L);
HRRZ T2,1(T2); # FWA(TARRAY[L]);
CAIG T1,(T2);
SOJA L,TOP2;
MOVE T1,TARRAY[0](L);
SUB T1,C!BLKADR;
HRLM T1,(I); # T!BLKADR(I)← ... LOR TARRAY[L] LSH 18;
ADD T1,C!BLKADR; # FATHERBLOCK(I);
MOVE T1,(T1); # NAMPTR( );
MOVE T2,(I); # NAMPTR(I);
ADD T2,C!NAME;
DPB T1,[('222000+T2)LSH 18];
BOT1A: MOVEM I,TARRAY[1](L);
SUBI I,2;
CAML I,C!BLKADR;
AOJA L,BOT2;
END;
]) # HAND;
# REVERSE THE HASH CHAINING IN THE NAME TABLE, SO THAT THE INNERMOST
OCCURRENCES OCCUR FIRST IN A CHAIN;
NOHAND([
FOR I←0 UPTO 31 DO BEGIN
INTEGER FATHER, SON;
FATHER←T!NAME(I); L←0;
WHILE FATHER NEQ 0 DO BEGIN
SON←RIGHT(T!NAME(FATHER));
T!NAME(FATHER)←T!NAME(FATHER) LAND '777777000000 LOR L;
L←FATHER; FATHER←SON END;
T!NAME(I)←L END;
]) # NOHAND;
HAND([
START!CODE LABEL TOP1,TOP2,BOT1;
DEFINE F=['14],S=['15],L=[0],I=[2];
MOVSI I,-32;
HRR I,C!NAME;
TOP1: MOVE F,(I);
SETZ L,;
JRST BOT1;
TOP2: ADD F,C!NAME; # RELOC FATHER;
HRRZ S,(F); # SON←RIGHT(T!NAME(FATHER));
HRRM L,(F);
MOVEI L,(F);
SUB L,C!NAME;
MOVEI F,(S);
BOT1: JUMPN F,TOP2;
MOVEM L,(I);
AOBJN I,TOP1;
END;
]) # HAND;
# NOW WRITE THE VARIABLE LENGTH TABLES TO THE .BAI FILE;
USETOUT(BAIJFN,TARRAY[8]←(N!BYTE + '577) LSH -7); # PAST HEADER BLOCK AND COORDS;
ARRYOUT(BAIJFN,T!CRDIDX(0),RIGHT(TARRAY[9]←(CRDCTR LSH 18)+L!CRDIDX+1));
USETOUT(BAIJFN,TARRAY[10]←TARRAY[8]+((L!CRDIDX+'200) LSH -7));
ARRYOUT(BAIJFN,T!BLKADR(0),TARRAY[11]←L!BLKADR+1);
USETOUT(BAIJFN,TARRAY[12]←TARRAY[10]+((L!BLKADR+'200) LSH -7));
ARRYOUT(BAIJFN,T!NAME(0),TARRAY[13]←L!NAME+1);
T←NULL; FOR I←0 UPTO L!TXTFIL DO T←T & T!TXTFIL[I] & TAB; L←(LENGTH(T)+4) DIV 5;
USETOUT(BAIJFN,TARRAY[14]←TARRAY[12]+((L!NAME+'200) LSH -7));
TARRAY[15]←L!TXTFIL LSH 18 LOR L;
FOR I←1 UPTO L DO WORDOUT(BAIJFN,CVASC(T[5*I-4 FOR 5]));
# WRITE THE HEADER INDEX BLOCK AND CLOSE OUR GLORIOUS FILE;
USETOUT(BAIJFN,1); ARRYOUT(BAIJFN,TARRAY[0],128); CFILE(BAIJFN);
# NOW REOPEN IT FOR BUSINESS;
BAIJFN←OPENFILE(BAINAM, "R"); # RELEASE T!NAME CORE HERE IF
YOU ARE PAGING THE NAME TABLE;
DONESTBAIL:
NOHAND([L!CACHE←-1;]) HAND([L!CACHE←-5;])
# INITIALIZE THE BREAKPOINT TRAP;
PJPBAIL←'260000000000 # PUSHJ; +(P LSH 23)+LOCATION(BAIL);
START!CODE DEFINE USER=['15],TEMP=['14];
MOVE USER,GOGTAB;
MOVSI TEMP,'400000;
IORM TEMP,BAILOC(USER); # SIGN BIT IFF INITIALIZED,,LOC(BAIL);
SETZM BAILOFF;
END;
OUTSTR("
End of BAIL initialization.
");
!SKIP!←#SKIP#;
END "STBAIL";
�# LINED DBANG !!EQU EVALERR;
DEFINE INTVAL=[1], REALVAL=[2], STRCON=[3], ID=[4], SPCHAR=[5], LREALVAL=[6];
SIMPLE STRING PROCEDURE LINED; BEGIN "LINED"
DEFINE QUOTE=['042], SEMI=['073];
# RETURN A STRING WHICH ENDS IN A SEMICOLON AND IS BALANCED WITH
RESPECT TO STRING QUOTES;
NOHAND([
STRING RESULT; INTEGER CHAR, QUOTECOUNT,#SKIP#;
QUOTECOUNT←0; RESULT←NULL; #SKIP#←!SKIP!;
WHILE TRUE DO BEGIN
IF LENGTH(!!QUERY) THEN BEGIN
RESULT←!!QUERY; !!QUERY←NULL; RETURN(RESULT) END
ELSE
NOTENX([RESULT←RESULT & INCHWL;]) TENX([RESULT←RESULT & INTTY;])
QUOTECOUNT←0; J←LENGTH(RESULT);
FOR I←1 UPTO J DO IF RESULT[I FOR 1]=QUOTE THEN QUOTECOUNT←LNOT (QUOTECOUNT);
IF NOT QUOTECOUNT THEN BEGIN
IF !SKIP!=CH!ALT OR !SKIP! GEQ '200 THEN BEGIN "MACRO EXPAND"
CHAR←(IF !SKIP!=CH!ALT THEN INCHRW ELSE !SKIP!) LAND '137;
IF "A" LEQ CHAR LEQ "Z" THEN RESULT←RESULT & MACTAB[CHAR];
!SKIP!←0 END "MACRO EXPAND";
IF RESULT[INF FOR 1]='073 THEN BEGIN
!SKIP!←#SKIP#;
# SYNTACTIC SUGAR;
IF RESULT="?" THEN RETURN("HELP;")
ELSE RETURN(RESULT) END;
IF !SKIP!='15 OR !SKIP!='12 THEN RESULT←CATCRLF(RESULT)
ELSE IF !SKIP!>0 THEN RESULT←RESULT&!SKIP!;
END END;
]) # NOHAND;
HAND([
EXTERNAL INTEGER CAT,CATCHR;
STRING RESULT,TSTR,TSTR1; INTEGER I,J;
START!CODE LABEL LOOP1,LOOP2,CCRLF,NORAISE,SUGAR,CCRLF1,NOQ,CATR,TSEMI,TMAC;
NOTENX([EXTERNAL INTEGER INCHWL;])
TENX([EXTERNAL INTEGER INTTY;])
EXTERNAL INTEGER INCHRW;
DEFINE L=[1],T=[2],QC=[3],BP=[4]; # DO NOT CHANGE L=1;
MOVEI T,!!QUERY;
HRRZ L,-1(T); # LENGTH OF !!QUERY;
JUMPE L,NOQ;
PUSH SP,-1(T); # USE !!QUERY;
PUSH SP,(T);
SETZM -1(T); # !!QUERY←NULL;
POPJ P,;
NOQ: PUSH SP,[0];
PUSH SP,[0]; # NULL STRING;
LOOP1:
PUSH P,!SKIP!; # PRESERVE OVER CALL WHICH MUNGES IT;
PUSHJ P,NOTENX([INCHWL]) TENX([INTTY]);
POP P,T; # PREVIOUS !SKIP!;
EXCH T,!SKIP!;
MOVEM T,#SKIP#;
CATR: PUSHJ P,CAT;
SETZ QC,0;
HRRZ L,-1(SP); # LENGTH OF STRING;
JUMPE L,TMAC;
MOVE BP,(SP); # BYTE POINTER TO STRING;
MOVE T,(SP); # BYTE POINTER;
ILDB T,T; # FIRST CHAR;
CAIN T,"?"; # CHECK FIRST CHAR FOR HELP;
JRST SUGAR;
LOOP2: ILDB T,BP;
CAIN T,QUOTE;
SETCA QC,QC;
JUMPN QC,NORAISE; # IF IN STRING QUOTE, DON'T MUNGE;
CAIN T,"_"; # CHECK FOR UNDERBAR;
MOVEI T,"!"; # CHANGE TO BANG;
DPB T,BP;
NORAISE:
SOJG L,LOOP2;
JUMPN QC,CCRLF;
TMAC: MOVE L,#SKIP#; # CHECK FOR MACRO;
CAIE L,CH!ALT;
CAIL L,'200;
SKIPA; # IT'S A MACRO;
JRST TSEMI;
CAIN L,CH!ALT;
PUSHJ P,INCHRW; # ALTMODE STYLE, GET NEXT CHAR;
ANDI L,'137;
CAIL L,"A";
CAILE L,"Z";
JRST TSEMI; # NOT IN RANGE;
ADDI L,-1-2*"A"(L); # 2*L-1, TO GET WD1 OF STRING;
PUSH SP,MACTAB["A"](L);
MOVEI L,1(L); # 2*L, TO GET WD2;
PUSH SP,MACTAB["A"](L);
SETZM #SKIP#;
JRST CATR; # CAT ON MACRO AND CONTINUE;
TSEMI: HRRZ L,-1(SP); # LENGTH SO FAR;
JUMPE L,LOOP1;
CAIN T,SEMI;
POPJ P,;
CCRLF:
MOVE T,#SKIP#; # GET BREAK CHAR;
JUMPLE T,LOOP1; # IF NO BREAK CHAR, JUST CONTINUE;
CAIE T,'15;
CAIN T,'12;
JRST CCRLF1; # IF CR OR LF, THEN PUT CRLF ON END;
PUSH P,T; # SOME CHAR OTHER THAN CR OR LF;
PUSHJ P,CATCHR;
JRST LOOP1;
CCRLF1: PUSHJ P,CATCRLF;
JRST LOOP1;
SUGAR: MOVEI T,5;
MOVEM T,-1(SP);
MOVE T,["HELP;"];
MOVEM T,(SP);
POPJ P,;
END;
]) # HAND;
END "LINED";
SIMPLE STRING PROCEDURE DBANG(STRING ARG); START!CODE "DBANG"
# CHANGE STANFORD UNDERBAR TO EXCLAMATION MARK;
LABEL LOOP,LAB;
HRRZ 1,-1(SP); # LENGTH;
SKIPN 1;
POPJ P,; # NULL STRING;
MOVE 2,(SP); # BYTE POINTER TO STRING;
LOOP: ILDB 3,2; # GET CHAR;
CAIN 3,"_"; # CHECK FOR STANFORD UNDERBAR;
MOVEI 3,"!"; # CHANGE TO BANG;
LAB: DPB 3,2;
SOJG 1,LOOP; # UNTIL DONE;
POPJ P,;
END "DBANG";
SIMPLE INTEGER PROCEDURE !!EQU(STRING A,B);
EQU(DBANG(STRCOPY(A)),DBANG(STRCOPY(B)));
# SAME AS EQU EXCEPT THAT STANFORD UNDERBARS EQUAL EXCLAMATION POINTS;
SIMPLE PROCEDURE EVALERR(STRING WHY,OLDARG,ARG); BEGIN
!ERRP! SWAP !RECOVERY!; OUTSTR(DUMPSTR);
NONFATAL(WHY & ": " & OLDARG & LF & ARG);END;
SIMPLE PROCEDURE EV1ERR(STRING WHY); EVALERR(WHY,NULL,NULL);
�# GET!TOKEN;
SIMPLE PROCEDURE GET!TOKEN(REFERENCE STRING ARG,STRVAL; REFERENCE INTEGER CLASS;
REFERENCE LONG REAL VAL); BEGIN "GET!TOKEN"
# CLASS: 0: use BK!ID for identifiers. NEQ 0: use BK!ID2;
INTEGER BRCHAR,T,J,#SKIP#; STRING A;
DEFINE XDELIMS=[SCAN(ARG,BK!DLM,BRCHAR)];
#SKIP#←!SKIP!;
# Establish breaktable privilege and skip over initial delimiters;
J←BK!PRV(TRUE); XDELIMS;
# Check for string constant. String constants are returned without
surrounding quotes, and with internal double quotes removed;
# Note heavy dependence on SAIL type conversion in this "IF";
IF ARG=QUOTE THEN BEGIN
STRVAL←NULL;
WHILE ARG=QUOTE DO BEGIN A←LOP(ARG);
STRVAL←STRVAL & SCAN(ARG,BK!QUO,BRCHAR) END;
IF BRCHAR NEQ QUOTE THEN
NONFATAL("String quote added")
ELSE STRVAL←STRVAL[1 TO INF-1]; # REMOVE TERMINATING QUOTE;
CLASS←STRCON; END
# Check for octal;
ELSE IF ARG="'" THEN BEGIN
A←LOP(ARG);
MEMLOC(VAL,INTEGER)←CVO(SCAN(ARG,BK!OCT,BRCHAR)); CLASS←INTVAL; END
# Check for integer or real;
# This is a kluge because INTSCAN won't stop upon seeing a letter or
special char or delimiter. INTSCAN insists upon finding a
number, even the "8" in "K[I]←FN(SYM8T)";
ELSE IF LENGTH(A←SCAN(ARG,BK!NUM,BRCHAR)) THEN BEGIN
# Found a number. Reconstitute ARG, then decide real or integer;
T←LENGTH(STRVAL←ARG←A & ARG);
SCAN(A,BK!DEC,BRCHAR);
IF LENGTH(A) THEN BEGIN "FLOAT"
IF A="@" THEN BEGIN "LREALVAL"
MEMLOC(VAL,LONG REAL)←LREALSCAN(ARG,BRCHAR);
CLASS←LREALVAL; END "LREALVAL"
ELSE BEGIN "REALVAL"
MEMLOC(VAL,REAL)←REALSCAN(ARG,BRCHAR);
CLASS←REALVAL; END "REALVAL"
END "FLOAT"
ELSE BEGIN # INTEGER CONSTANT;
MEMLOC(VAL,INTEGER)←INTSCAN(ARG,BRCHAR); CLASS←INTVAL; END;
STRVAL←STRVAL[1 FOR T-LENGTH(ARG)] END
# Check for identifier;
ELSE BEGIN STRVAL←SCAN(ARG,IF CLASS=0 THEN BK!ID ELSE BK!ID2,BRCHAR);
IF STRVAL=NULL THEN BEGIN
STRVAL←LOP(ARG); CLASS←SPCHAR; END
ELSE BEGIN
XDELIMS; CLASS←ID; STRVAL←DBANG(STRVAL); CVNAME(STRVAL,NAME) END END;
# COMMON RETURN POINT;
BK!PRV(J); !SKIP!←#SKIP#; RETURN END "GET!TOKEN";
�# INTARRAY, CRD!PC, FTEXT, SHOW, CRDFND, GETTEXT;
SIMPLE PROCEDURE INTARRAY(INTEGER CHAN,BLOCK); BEGIN
USETIN(CHAN,BLOCK); ARRYIN(CHAN,TARRAY[0],256) END;
SIMPLE INTEGER PROCEDURE CRD!PC(INTEGER PC);
# RETURN INDEX TO TARRAY OF COORDINATE WHICH IS FLOOR OF PC;
NOHAND([
BEGIN
PC←RIGHT(PC); # In case someone forgot;
I←-1; DO I←I+1 UNTIL RIGHT(T!CRDIDX(I))>PC;
INTARRAY(BAIJFN,I+2);
I←-1; DO I←I+2 UNTIL RIGHT(TARRAY[I])>PC; RETURN(I-3) END;
]) # NOHAND;
HAND([
BEGIN
START!CODE LABEL LOOP1,LOOP2; DEFINE I=[1],T=['15];
MOVE I,C!CRDIDX; # FWA DATA;
HRRZS PC; # SAFETY FIRST;
LOOP1: HRRZ T,(I); # PC FOR COORD;
CAMGE T,PC;
AOJA I,LOOP1; # FIND FIRST WHICH IS GREATER;
PUSH P,BAIJFN;
ADDI I,2; # USETI POINTER;
SUB I,C!CRDIDX;
PUSH P,I;
PUSHJ P,INTARRAY;
SETO I,;
LOOP2: ADDI I,2; # NEXT COORD;
HRRZ T,TARRAY[0](I);
CAMG T,PC; # FIND FIRST WHICH IS GREATER;
JRST LOOP2;
SUBI I,3; # POINT TO RIGHT PLACE;
SKIPGE I;
SETZ I,; # JUST IN CASE;
SUB P,['2000002];
JRST @2(P);
END; END;
]) # HAND;
SIMPLE INTEGER PROCEDURE CRDFND(INTEGER CRDNO); BEGIN "CRDFND"
# RETURN INDEX TO TARRAY WHICH POINTS TO COORDINATE INFO FOR CRDNO;
IF L!CRDIDX<0 THEN EV1ERR("No coords");
CRDNO←0 MAX CRDNO MIN (CRDCTR-1); # Clip bounds. CRDCTR-1 for fake coord at end;
INTARRAY(BAIJFN,(CRDNO LSH -6)+2);
RETURN((CRDNO LAND '77) LSH 1) END "CRDFND";
SIMPLE STRING PROCEDURE FTEXT(INTEGER CRDPNTR); BEGIN "FTEXT"
# CONSTRUCT STRING CONTAINING TEXT OF COORDINATE GIVEN BY TARRAY[CRDPNTR];
INTEGER ALLSTO,COORD1,NCHR;
INTEGER PNTR1,PNTR2,I,FILN,OFILN; STRING TEXT;
#SKIP#←!SKIP!;
# PICK UP FILE,BLOCK,WORD NUMBERS FOR CURRENT AND NEXT COORDINATE;
NOHAND([
PNTR1←TARRAY[CRDPNTR]; COORD1←LEFT(TARRAY[CRDPNTR+1]) LAND '377777;
ALLSTO←TARRAY[CRDPNTR+1] LSH -35;
FILN←PNTR1 LSH -24; PNTR1←PNTR1 LAND '77777777;
PNTR2←TARRAY[CRDPNTR+2];
NCHR←IF FILN=(PNTR2 LSH -24) THEN (PNTR2-PNTR1) LAND '77777777 ELSE 400;
NOTENX([
MEMORY[LOCATION(TEXT)-1]←NCHR; MEMORY[LOCATION(TEXT)]←
LOCATION(TARRAY[0]) + PNTR1%640%5 + (7 LSH 24) +
((5-(PNTR1 MOD 5))*7+1) LSH 30;
]) # NOTENX;
]) # NOHAND;
HAND([
START!CODE DEFINE T=[1],T2=[2],CP=[3],U=['14];
MOVE CP,CRDPNTR;
MOVE T,TARRAY[0](CP);
LDB T2,[('301400 LSH 18)+T]; # FILE NUMBER OF PNTR1;
MOVEM T2,FILN;
TLZ T,'777700; # ISOLATE CHAR NUMBER;
MOVEM T,PNTR1;
HLRZ T,TARRAY[1](CP);
ANDI T,'377777;
MOVEM T,COORD1;
SETZM ALLSTO;
SKIPGE TARRAY[1](CP);
SETOM ALLSTO;
MOVE T,TARRAY[2](CP); # T HOLDS PNTR2;
LDB T2,[('301400 LSH 18)+T]; # FILE NUMBER OF PNTR2;
SUB T,PNTR1; # PNTR2-PNTR1;
TLZ T,'777700; # BOTTOM 24 BITS;
CAME T2,FILN;
MOVEI T,400; # DIFFERENT FILES;
TENX([ MOVEM T,NCHR; ])
NOTENX([MOVEI CP,TEXT; # ADR OF WD2;
MOVEM T,-1(CP); # STRING CHAR COUNT;
# COMPUTE BYTE POINTER;
MOVE T,PNTR1;
IDIVI T,640; # BLOCK OFFSET IN T, CHAR OFFSET IN T+1;
ADDI T,1; # USETI NUMBER;
MOVEM T,PNTR1; # SAVE USETI BLOCK NUMBER;
MOVEI T,(T+1); # CHAR OFFSET;
IDIVI T,5; # WORD OFFSET IN T, BYTE OFFSET IN T+1;
MOVEI U,'400; # ADJUST LENGTH TO NO MORE THAN WE READ IN;
SUBI U,(T); # 128+ WORDS TO NEXT BLOCK BOUNDARY;
IMULI U,5; # CHARS;
SUBI U,(T+1); # SOME WERE COUNTED ALREADY;
CAMGE U,-1(CP); # L←L MIN U;
MOVEM U,-1(CP);
MOVEI T,TARRAY[0](T); # WORD ADDRESS;
XORI T+1,7; # 0,1,2,3,4 BECOMES 7,6,5,4,3;
IMULI T+1,'70000; # BYTE POINTER "P" OF 49,42,35,28,21;
HRLI T,'630700(T+1);
MOVEM T,(CP); # BYPTE POINTER AT LAST;
]) # NOTENX;
END;
]) # HAND;
# STATUS OF FILES
-'1000 NOT ACCESSIBLE (DETERMINED AT INITIALIZATION TIME)
-1 ACCESSIBLE, NOT OPEN
1 OPEN;
IF FILN=MAX#TXTFIL OR STATUS[FILN]=-'1000 THEN
RETURN("%%% File not viewable");
IF STATUS[FILN] NEQ 1 THEN BEGIN "NOPEN" # FILE NOT OPEN;
# CLOSE PREVIOUS FILE, IF ANY;
IF TMPJFN GEQ 0 THEN CFILE(TMPJFN); STATUS[OFILN]←-1;
# OPEN NEW FILE ON TMPJFN;
TMPJFN←OPENFILE(T!TXTFIL[FILN],"RE"); IF !SKIP! THEN BEGIN
!SKIP!←#SKIP#; RETURN("%%% File not viewable") END ELSE
STATUS[FILN]←1 END "NOPEN";
# POSITION AND READ TEXT FILE;
OFILN←FILN; NOTENX([ INTARRAY(TMPJFN,PNTR1); ])
TENX([ SCHPTR(TMPJFN,PNTR1); ])
TEXT←"#" & CVS(COORD1) & (IF ALLSTO THEN " " ELSE "+") & TAB &
NONULL(TENX([SINI(TMPJFN,NCHR,-1)]) NOTENX([TEXT]) );
!SKIP!←#SKIP#; RETURN(TEXT)
END "FTEXT";
STRING PROCEDURE SHOW(INTEGER FIRST,LAST(0));
BEGIN
# TYPE OUT TEXT FOR COORDINATE(S) GIVEN.
FIRST IS THE FIRST COORDINATE TO BE SHOWN.
IF LAST<FIRST THEN SHOW FROM FIRST TO FIRST+LAST,
OTHERWISE SHOW FROM FIRST TO LAST.
;
IF LAST<FIRST THEN LAST←LAST+FIRST;
FOR FIRST←FIRST STEP 1 UNTIL LAST DO
ADDSTR(CATCRLF(FTEXT(CRDFND(FIRST))));
SSF←TRUE; RETURN(DUMPSTR)
END;
SIMPLE STRING PROCEDURE GETTEXT(INTEGER PC); BEGIN "GETTEXT"
INTEGER T;
START!CODE HRRZS PC; END; # PC←RIGHT(PC);
# TRY TO DO A FAVOR FOR BREAKS OF RECURSIVE PROCEDURES. THE ENTRY POINT
IS AFTER ALL THE CODE, SO THE ADDRESS IS NOT PARTICULARLY MEANINGFUL;
IF (MEMORY[PC] LAND '777777400000)='551517400000 # HRRZI F,-n(P);
AND LEFT(T←MEMORY[PC+1])='254000 # JRST;
AND RIGHT(T)<PC # FWA<ENTRY;
THEN PC←RIGHT(T);
T←CRD!PC(PC);
IF ABS(PC-RIGHT(TARRAY[T+1]))>'400 THEN
RETURN("'" & CVOS(PC) &TAB& "%%% File not viewable");
RETURN(FTEXT(T)) END "GETTEXT";
�# N!PARAMS NPSTACK DEFINE HELP;
SIMPLE INTEGER PROCEDURE N!PARAMS(INTEGER REFIT);
NOHAND([
BEGIN"N!PARAMS"
DEFINE PD(A)=[MEMORY[PDA+A]];
INTEGER PDA;
PDA←RIGHT(REFIT); RETURN(RIGHT(PD(PD!NPW))-1 + (LEFT(PD(PD!NPW)) LSH -1))
END "N!PARAMS";
]) # NOHAND;
HAND([
START!CODE
HRRZ 2,REFIT;
HRRZ 1,PD!NPW(2);
SUBI 1,1;
HLRZ 2,PD!NPW(2);
LSH 2,-1;
ADDI 1,(2);
SUB P,['2000002];
JRST @2(P);
END;]) # HAND;
SIMPLE PROCEDURE NPSTACK(INTEGER PDA);
START!CODE "NPSTACK"
# RETURN NUMBER OF PARAMETER WORDS ON P STACK. SIMILAR TO
N!PARAMS EXCEPT THAT HERE WE COUNT VALUE LONGS AS 2;
DEFINE TEMP=['14],LPSA=['13];
LABEL LOOP,NONE;
MOVE TEMP,PDA;
HRRZ 1,PD!NPW(TEMP); # 1+ #P-STACK PARAMS;
SOJE 1,NONE; # INITIALIZE RESULT;
HRRZ TEMP,PD!DLW(TEMP); # ADR OF PARAM INFO BLOCK;
HRLOI LPSA,-1(1); # AOBJN CNTR FOR LOOP;
EQVI LPSA,(TEMP);
LOOP:
LDB TEMP,[('271400 LSH 18)+LPSA]; # OMIT DFLT BIT;
CAIE TEMP,0+LFLTYP LSH -23;
CAIN TEMP,0+LINTYP LSH -23;
AOS 1; # A VALUE LONG;
AOBJN LPSA,LOOP;
NONE: SUB P,['2000002];
JRST @2(P);
END "NPSTACK";
PROCEDURE !!DEFINE(INTEGER CHAR; STRING MAC); BEGIN "DEFINE"
CHAR←CHAR LAND '137; # CONVERT TO UPPER CASE;
IF "A" LEQ CHAR LEQ "Z" THEN MACTAB[CHAR]←MAC END "DEFINE";
STRING PROCEDURE HELP; BEGIN SSF←TRUE; RETURN("
loc ::= procedure | block | label | # coordinate | ' octalnumber
expression;
procedure!call;
BREAK(""loc"",""condition""(null),""action""(null),count(0));
UNBREAK(""loc"");
TRACE(""procedure""); UNTRACE(""procedure"");
SHOW(coord,coord(0)); DEFINE(char,""string"");
SETLEX(level); !!UP(level);
COORD(""loc""); !!GOTO(""loc"");
ARGS; DDT; HELP; TEXT; TRAPS;
!!GO; !!STEP; !!GSTEP; ?
");
END;
�# CVINTEGR, CVREAL, CVSTRNG, CVLREAL, CONVERT;
INTEGER ARRAY EV1TEMP[1:2]; STRING ARRAY EV1STRTEMP[1:2];
SIMPLE INTEGER PROCEDURE CVINTEGR(INTEGER REFIT,T); BEGIN "CVINTEGR"
# CONVERT THE DATUM OF THE REFITEM TO INTEGER, USING TEMP CELL NUMBER T.
RETURN THE REFITEM OF THE RESULT;
INTEGER TYP,LOC;
IF (TYP←GETTYPE(REFIT))=INTEGR OR REFIT=-1 THEN RETURN(REFIT);
# THE CHECK FOR REFIT=-1 IS TO ACCOMODATE THE MEMORY CONSTRUCT;
IF TYP=FLOTNG THEN EV1TEMP[T]←MEMORY[REFIT,REAL]
ELSE IF TYP=LFLTYP THEN EV1TEMP[T]←MEMORY[REFIT,LONG REAL]
ELSE IF TYP=STRNG THEN EV1TEMP[T]←MEMSTRING(REFIT)
ELSE EV1ERR("Can't convert to integer");
RETURN(INTEGR+LOCATION(EV1TEMP[T]))
END "CVINTEGR";
SIMPLE INTEGER PROCEDURE CVREAL(INTEGER REFIT,T); BEGIN"CVREAL"
# CONVERT REFIT DATUM TO REAL USING TEMP CELL T. RETURN REFITEM OF RESULT.;
INTEGER TYP;
IF (TYP←GETTYPE(REFIT))=FLOTNG THEN RETURN(REFIT);
IF TYP=STRNG THEN BEGIN
REFIT←CVINTEGR(REFIT,T); TYP←INTEGR END;
IF TYP=INTEGR THEN MEMLOC(EV1TEMP[T],REAL)←MEMORY[REFIT,INTEGER]
ELSE IF TYP=LFLTYP THEN MEMLOC(EV1TEMP[T],REAL)←MEMORY[REFIT,LONG REAL]
ELSE EV1ERR("Can't convert to real");
RETURN(FLOTNG+LOCATION(EV1TEMP[T]))
END "CVREAL";
SIMPLE INTEGER PROCEDURE CVSTRNG(INTEGER REFIT,T); BEGIN "CVSTRNG"
# CONVERT THE DATUM OF THE REFIT TO STRING AND RETURN THE REFITEM OF THE RESULT;
INTEGER TYP;
IF (TYP←GETTYPE(REFIT))=STRNG THEN RETURN(REFIT);
IF TYP=LFLTYP THEN BEGIN
REFIT←CVREAL(REFIT,T); TYP←FLOTNG END;
IF TYP=FLOTNG THEN BEGIN
REFIT←CVINTEGR(REFIT,T); TYP←INTEGR END;
IF TYP=INTEGR THEN EV1STRTEMP[T]←MEMORY[REFIT,INTEGER]
ELSE EV1ERR("Can't convert to string");
RETURN(STRNG+RIGHT(LOCATION(EV1STRTEMP[T])))
END "CVSTRNG";
SIMPLE INTEGER PROCEDURE CVLREAL(INTEGER REFIT,T); BEGIN "CVLREAL"
# CONVERT DATUM OF REFIT TO LONG REAL. WHERE TO PUT RETURN VALUE IS A MESS;
INTEGER TYP;
IF (TYP←GETTYPE(REFIT))=LFLTYP THEN RETURN(REFIT);
IF TYP=STRNG THEN BEGIN
REFIT←CVINTEGR(REFIT,T); TYP←INTEGR END;
IF TYP=INTEGR THEN BEGIN
REFIT←CVREAL(REFIT,T); TYP←FLOTNG END;
IF TYP=FLOTNG THEN MEMLOC(EV1TEMP[T],LONG REAL)←MEMORY[REFIT,REAL]
ELSE EV1ERR("Can't convert to long real");
RETURN(LFLTYP+LOCATION(EV1TEMP[T]))
END "CVLREAL";
SIMPLE INTEGER PROCEDURE CONVERT(INTEGER ARGIN,TYPWANT,T); BEGIN "CONVERT"
# GENERAL CONVERSION OF ARGIN TO THE TYPE GIVEN IN TYPWANT , USING
TEMP T;
INTEGER TYP;
IF GETTYPE(ARGIN)=(TYP←GETTYPE(TYPWANT)) THEN RETURN(ARGIN);
TYP←TYP LSH -23; IF 3 LEQ TYP LEQ 5 OR TYP=(0+LFLTYP LSH -23) THEN
CASE TYP OF BEGIN
[3] ARGIN←CVSTRNG(ARGIN,T);
[4] ARGIN←CVREAL(ARGIN,T);
[5] ARGIN←CVINTEGR(ARGIN,T);
[0+LFLTYP LSH -23] CVLREAL(ARGIN,T)
END ELSE EV1ERR("Can't coerce types");
RETURN(ARGIN);
END "CONVERT";
�# INCOR;
SIMPLE INTEGER PROCEDURE INCOR(INTEGER PCACHE;INTEGER ARRAY DCHAIN; INTEGER
DDEPTH,DISPLVL); BEGIN "INCOR"
# RETURN REFITEM DATUM WHICH HAS ABSOLUTE CORE ADDRESS OF THE OBJECT IN CACHE;
DEFINE SIMPRC=[2];
NOHAND([
INTEGER IND,FATHER,REFIT,PPDA,T,ADDR,PTYPE,FREG;
IF ((REFIT←CACHE[PCACHE+1]) LAND ('17 LSH 18))=0 THEN # FIXED CORE LOCATION;
RETURN(REFIT);
]) # NOHAND;
HAND([
START!CODE LABEL ONSTACK,ON1T,UPPROC,LMSCP,SIMP,SERRCK,DONSIMP,TYCK,NSTR,PARAM,NSRP,
NSTR2,RET,BAD1,BAD2,RET1,BADRET;
DEFINE DL=['14],DD=['15],DCH=[2],REFIT=[1],T3=[3],T4=[4],PPDA=[5],FREG=[6],
FATHER=[7],PTYPE=[8];
EXTERNAL INTEGER OUTSTR,INCHWL;
SKIPL REFIT,PCACHE;
CAILE REFIT,N!CACHE;
ARERR 1,["CACHE"];
MOVE REFIT,CACHE[1](REFIT); # REFITEM;
TLZN REFIT,'17;
JRST RET;
]) # HAND;
# WE NOW KNOW THAT THE OBJECT IS ON THE STACK AND IS EITHER A PARAMETER TO
A PROCEDURE OR A LOCAL TO A RECURSIVE PROCEDURE.;
NOHAND([
IND←REFIT LAND(1 LSH 22); ADDR←RIGHT(REFIT); REFIT←REFIT LAND '777760000000;
# FOLLOW UP THE FATHER CHAIN IN THE NAME TABLE UNTIL COMING TO A PROCEDURE;
FATHER←LEFT(CACHE[PCACHE]) LAND '177777;
WHILE NOT(PAGEIT(T!NAME,FATHER+1) LAND PROCB) DO
FATHER←LEFT(PAGEIT(T!NAME,FATHER)) LAND '177777;
# FETCH PDA FOR THE PROCEDURE;
PPDA←RIGHT(PAGEIT(T!NAME,FATHER+1)); PTYPE←LEFT(PAGEIT(T!NAME,FATHER)) LSH -16;
]) # NOHAND;
HAND([
ONSTACK:MOVE FATHER,PCACHE;
ADDI FATHER,CACHE[0];
ON1T: LDB FATHER,[('222000+FATHER)LSH 18];
ADD FATHER,C!NAME;
MOVE PPDA,1(FATHER);
TLNN PPDA,0+PROCB LSH -18;
JRST ON1T;
LDB PTYPE,[('420200+FATHER)LSH 18];
]) # HAND;
# IF PROCEDURE IS NON-simple,search from DISPLVL to DDEPTH to find FREG setting
which matches PDA;
NOHAND([
IF PTYPE NEQ SIMPRC THEN BEGIN
# go up DCHAIN until finding a non-simple procedure;
WHILE DCHAIN[DISPLVL,0]<0 AND DISPLVL<DDEPTH DO DISPLVL←DISPLVL+1;
IF DCHAIN[DISPLVL,0]<0 THEN
EVALERR("BAIL error searching for procedure parameter",
CVASC(CACHE[PCACHE+2])&CVASC(CACHE[PCACHE+3])&CVASC(CACHE[PCACHE+4]),
NULL);
FREG←DCHAIN[DISPLVL,0];
# SEARCH BACK THROUGH THE STACK (ALONG THE STATIC LINKS) TO FIND THE MSCP;
WHILE LEFT(T←MEMORY[FREG+1]) NEQ PPDA DO FREG←RIGHT(T); END
# if procedure is simple, search from DISPLVL to DDEPTH for match of PUSHJ on entry addr;
ELSE BEGIN
FOR DISPLVL←DISPLVL UPTO DDEPTH DO BEGIN
# Look for simple procedure activation and compare against
addr that was PUSHJ'ed to;
IF DCHAIN[DISPLVL,0]<0 AND RIGHT(MEMORY[PPDA])=RIGHT(
MEMORY[DCHAIN[DISPLVL+1,1]]) THEN DONE;
IF DISPLVL=DDEPTH THEN
EVALERR("BAIL error searching for simple procedure parameter",
CVASC(CACHE[PCACHE+2])&CVASC(CACHE(PCACHE[PCACHE+3])&CVASC(CACHE[PCACHE+4]),
NULL);
END;
# DCHAIN[DISPLVL,0] is now negative of P register at entry to proc. Simulate F reg;
FREG←1-DCHAIN[DISPLVL,0]; END;
]) # NOHAND;
HAND([
MOVE DL,DISPLVL;
CAIN PTYPE,SIMPRC;
JRST SIMP;
# GO UP DCHAIN UNTIL NON-SIMPLE;
UPPROC: MOVEI DCH,@DCHAIN; # FWA DATA;
ADDI DCH,(DL);
ADDI DCH,(DL);
SKIPGE (DCH);
CAML DL,DDEPTH;
SKIPA;
AOJA DL,UPPROC;
SKIPGE FREG,(DCH);
JRST BAD1;
SKIPA;
LMSCP: HRRZ FREG,1(FREG);
JUMPE FREG,BAD1; # ANOTHER BUG TRAP;
HLRZ T3,1(FREG);
CAIN T3,(PPDA);
JRST TYCK; # FOUND THE RIGHT ONE;
CAIE FREG,-1;# VALUE PUT ON STACK BY SAILOR;
JRST LMSCP; # HAVEN'T GONE OFF END YET;
JRST BAD1; # TOO BAD;
SIMP: MOVEI DCH,@DCHAIN;
ADDI DCH,(DL);
ADDI DCH,(DL);
SKIPL (DCH);
JRST SERRCK;
HRRZ T3,(PPDA);
HRRZ T4,@3(DCH);
CAIN T4,(T3);
JRST DONSIMP;
SERRCK: AOJ DL,;
CAMG DL,DDEPTH;
JRST SIMP;
JRST BAD2;
DONSIMP:MOVEI FREG,1;
SUB FREG,(DCH);
]) # HAND;
# FIND OUT WHETHER THIS IS A PARAM OR A LOCAL. LOCALS ARE FLAGGED WITH
'400000 IN ADDR;
NOHAND([
IF ADDR LAND '400000 THEN BEGIN "LOCAL"
ADDR←ADDR-'400000;
# STRINGS CAUSE HAIR. REFERENCE STRINGS ARE ON THE P-STACK, HENCE THE
ADDRESS OF THE SECOND WORD OF THE STRING DESCRIPTOR IS IN A WORD
WHICH IS FOUND USING DISPLACEMENTS [POSITIVE FOR LOCALS, NEGATIVE
FOR PARAMS] ON THE F REGISTER. LOCAL AND VALUE STRINGS ARE ON THE
SP-STACK, HENCE THE ADDRESS OF THE SECOND WORD OF THE STRING DESCRIPTOR
IS COMPUTED USING DISPLACEMENTS FROM THE OLD SP-REGISTER. THE OLD
SP-REGISTER IS HANDILY SAVED AS THE LAST WORD OF THE 3-WORD MSCP.;
IF GETTYPE(REFIT)=STRNG THEN # RECURSIVE STRING LOCAL;
RETURN(REFIT+RIGHT(MEMORY[FREG+2])+ADDR+1)
ELSE # RECURSIVE NON-STRING LOCAL;
RETURN(REFIT+FREG+ADDR) END "LOCAL"
ELSE BEGIN "PARAM"
IF IND AND GETTYPE(REFIT)<ARRY THEN # SIMPLE REFERENCE PARAM;
RETURN((REFIT LAND '777740000000)+RIGHT(MEMORY[FREG-ADDR-1]))
ELSE # VALUE PARAM OR ARRAY;
IF GETTYPE(REFIT)=STRNG THEN BEGIN
# check for simple procedure;
IF PTYPE=SIMPRC AND DISPLVL NEQ 0 THEN BEGIN OUTSTR("
BAIL warning: attempt to access value string parameter of simple
procedure which is not at top of stack"); INCHWL; END;
RETURN(REFIT+RIGHT(MEMORY[FREG+2])-ADDR+1) END
ELSE RETURN(REFIT+FREG-ADDR-1) END "PARAM"
]) # NOHAND;
HAND([
TYCK: TRZN REFIT,'400000;
JRST PARAM;
TLZ REFIT,'37;
LDB T3,['270600000000+REFIT];
TLNN REFIT,0+ITEMB LSH -18; # STRING ITEM(var) IS NOT A STRING;
CAIE T3,0+STRNG LSH -23;
JRST NSTR;
HRRZ T3,2(FREG);
ADDI REFIT,1(T3);
JRST RET;
NSTR: ADDI REFIT,(FREG);
JRST RET;
PARAM: LDB T3,['270600000000+REFIT];
CAIGE T3,0+ARRY LSH -23;
TLZN REFIT,'20;
JRST NSRP; # NOT SIMPLE REF PARAM;
SUBI FREG,1(REFIT); # -ADDR-1;
HRR REFIT,(FREG);
JRST RET;
NSRP: CAIE T3,0+STRNG LSH -23;
JRST NSTR2;
CAIN PTYPE,SIMPRC;
SKIPN DL;
JRST RET1;
MOVEI T3,["
Warning: value string parameter,
simple procedure not at top of stack"];
PUSH SP,-1(T3);
PUSH SP,(T3);
PUSHJ P,OUTSTR;
RET1: HRRZ T3,2(FREG);
SUBI T3,-1(REFIT); # -ADDR+1;
HRRI REFIT,(T3);
JRST RET;
NSTR2: SUBI FREG,1(REFIT);
HRRI REFIT,(FREG);
RET: SUB P,['5000005];
JRST @5(P);
BAD1:
BAD2: # IF WE NEED TO, WE CAN ALWAYS BREAK THE JRSTs TO HERE;
MOVEI T3,["
BAIL error, procedure parameter"];
PUSH SP,-1(T3);
PUSH SP,(T3); # GENERAL MESSAGE;
MOVE T3,PCACHE; # NOW FOR THE CULPRIT;
ADDI T3,CACHE[2];
HRLI T3,'440700; # FABRICATE A BYTE POINTER;
PUSH SP,[15];
PUSH SP,T3;
PUSH SP,[0];
PUSH SP,[0]; # EVALERR TAKES 3 STRINGS;
JRST EVALERR;
END;]) # HAND;
END "INCOR";
�# GETLSCOPE, PRLSCOPE;
SIMPLE PROCEDURE GETLSCOPE(INTEGER ARRAY LCHAIN; REFERENCE INTEGER LDEPTH;INTEGER PC);
BEGIN "GETLSCOPE"
NOHAND([
INTEGER I,U,L,T; LABEL EXACT;
DEFINE LWA(I)=[LEFT(T!BLKADR(I+1))], FWA(I)=[RIGHT(T!BLKADR(I+1))];
# CONSTRUCT LEXICAL SCOPE CHAIN, MOST RECENT FIRST;
PC←RIGHT(PC);
L←0; U←(L!BLKADR+1) ASH -1;
WHILE U GEQ L DO BEGIN
I←(L+U) ASH -1;
IF (T←LWA(I LSH 1))=1+PC THEN GOTO EXACT;
IF T>PC THEN U←I-1 ELSE L←I+1 END;
IF LWA((I←L) LSH 1) LEQ PC THEN I←L+1;
EXACT: I←I LSH 1;
# GO UP FATHER CHAIN UNTIL PC IS GEQ FWA;
WHILE PC<FWA(I) DO I←LEFT(T!BLKADR(I));
LDEPTH←-1; DO BEGIN "UP"
LCHAIN[LDEPTH←LDEPTH+1]←RIGHT(T!BLKADR(I)) LSH 18 LOR FWA(I);
I←LEFT(T!BLKADR(I)); # FATHER (IN T!BLKADR) OF THIS BLOCK;
END "UP" UNTIL I=0;
]) # NOHAND;
HAND([
START!CODE LABEL TOP1,TOP2,TEST2,TOP3;
DEFINE I=[1],LCH=[2],LWA=[3],FWA=[3],T=[0];
SETO I,;
ADD I,C!BLKADR; # RELOCATE;
HRRZS PC;
TOP1: ADDI I,2;
HLRZ LWA,(I);
CAMG LWA,PC;
JRST TOP1;
SUBI I,1; # I NOW POINTS AT WORD ZEROES;
JRST TEST2;
TOP2: HLRZ I,(I);
ADD I,C!BLKADR;
TEST2: HRRZ FWA,1(I);
CAMLE FWA,PC;
JRST TOP2;
MOVEI LCH,@LCHAIN; # FWA DATA;
SUBI LCH,1;
SKIPA;
TOP3: ADD I,C!BLKADR;
HRLZ T,(I);
HRR T,1(I);
ADDI LCH,1;
MOVEM T,(LCH);
HLRZ I,(I);
JUMPN I,TOP3;
SUBI LCH,@LCHAIN;
MOVEM LCH,LDEPTH;
MOVEI FWA,@LCHAIN; # FWA DATA;
CAMLE LCH,-3(FWA); # BOUNDS CHECK;
ARERR 1,["LCHAIN"];
END;]) # HAND;
END "GETLSCOPE";
SIMPLE PROCEDURE PRLSCOPE(INTEGER ARRAY LCHAIN; INTEGER LDEPTH);BEGIN "PRLSCOPE"
NOHAND([
INTEGER I,T;
ADDSTR("
LEXICAL SCOPE, TOP DOWN:
");
FOR I←LDEPTH STEP -1 UNTIL 0 DO
ADDSTR(NONULL(CVASTR(PAGEIT(T!NAME,2+(T←LEFT(LCHAIN[I])))) &
CVASTR(PAGEIT(T!NAME,T+3)) & CATCRLF(CVASTR(PAGEIT(T!NAME,T+4))) ));
]) # NOHAND;
HAND([
ADDSTR("
LEXICAL SCOPE, TOP DOWN:
");
START!CODE LABEL LOOP; EXTERNAL INTEGER CAT,CVASTR;
DEFINE T=['14];
LOOP: MOVEI T,@LCHAIN; # FWA DATA;
ADD T,LDEPTH;
HLRZ T,(T);
ADD T,C!NAME;
PUSH SP,[15]; # 15 CHARS IN 3 WORDS;
ADD T,['440700000002]; # MAKE B.P. TO WORD 2 IN CACHE;
PUSH SP,T;
PUSHJ P,CATCRLF;
PUSHJ P,NONULL;
PUSHJ P,ADDSTR;
SOSL LDEPTH;
JRST LOOP;
END;]) # HAND;
END "PRLSCOPE";
�# GETDSCOPE,PRDSCOPE;
SIMPLE PROCEDURE GETDSCOPE(INTEGER FR,PR,PC;REFERENCE INTEGER DDEPTH;
INTEGER ARRAY DCHAIN); BEGIN "DSCOPE"
# DYNAMIC SCOPE UNWINDER ROUTINE. FILLS ARRAY DCHAIN [*,0] WITH THE
F (OR P) REGISTER VECTOR CORRESPONDING TO THE DYNAMIC ACTIVATIONS, AND
DCHAIN [*,1] WITH THE CORRESPONDING PC, WITH THE MOST RECENT ACTIVATION
FIRST. THE ENTRIES [*,0] ARE THE F REGISTER VALUES FOR NON-SIMPLE
PROCEDURES, AND THE NEGATIVE OF THE P REGISTER FOR SIMPLE PROCEDURES.
I.E., DCHAIN[0,0] = VALUE OF F REGISTER FOR THE ROUTINE BEGIN BROKEN
[0,1] = PC AT INTERRUPTION
[1,0] = F REGISTER OF PARENT
[1,1] = RETURN ADDRESS -1;
NOHAND([
INTEGER I,K,T,PDA;
DDEPTH←-1; DCHAIN[0,1]←PC;
# '777777 IS THE VALUE PUT ON THE BOTTOM OF THE STACK BY SAILOR;
WHILE (FR←RIGHT(FR)) NEQ '777777 DO BEGIN
K←FR+RIGHT(MEMORY[(PDA←LEFT(MEMORY[FR+1]))+PD!DSP])+1;
# 1+RIGHT(P) AFTER PROLOG;
FOR I←RIGHT(PR) STEP -1 UNTIL K DO BEGIN
# SIMPLE PROCEDURE HAS BEEN CALLED, OR WE ARE IN THE MIDDLE OF
STACKING SOME ARGUMENTS. PICK UP THE WORD ON THE STACK AND SEE
IF IT IS A REASONABLE RETURN ADDRESS. THE INDIRECT AND
INDEX FIELDS MUST BE ZERO. THE OPCODE AND ADDRESS FIELDS
MUST BE NON-ZERO.;
T←MEMORY[I]; IF (T LAND '37000000)=0 AND (T LAND '777000000000)
NEQ 0 AND (T LAND '777777) NEQ 0 THEN BEGIN
# THERE MUST BE A PUSHJ AT RIGHT(T)-1;
IF LEFT(MEMORY[T←RIGHT(T)-1])=LEFT(PUSHJ+(P LSH 23)) THEN BEGIN
# SIMPLE PROCEDURE CALLED AT MEMORY[RIGHT(T)-1];
DCHAIN[DDEPTH←DDEPTH+1,0]←-I; # NEGATIVE OF P AT ENTRY;
DCHAIN[DDEPTH+1,1]←T; # PC OF CALL (IN PARENT);
PR←I-1; # PESSIMISTIC ESTIMATE; END
END
END;
# NON-SIMPLE PROCEDURE CALLED;
DCHAIN[DDEPTH←DDEPTH+1,0]←FR; # F REGISTER OF ROUTINE;
DCHAIN[DDEPTH+1,1]←RIGHT(MEMORY[FR-1])-1; # PC OF CALL (IN PARENT);
PR←FR-2-NPSTACK(PDA); # SUBTRACT P-STACK PARAMS;
FR←MEMORY[FR];
END;
]) # NOHAND;
HAND([
START!CODE LABEL TOP1,TEST2,OUT2,TEST1,BOT1;
DEFINE I=[1],K=[2],QFR=[3],QPR=[4],PDA=[5],T=[6],T2=[7],DCH=['10];
MOVEI QFR,FR;
MOVE QPR,PR;
MOVEI DCH,@DCHAIN; # FWA DATA;
MOVE T,PC;
MOVEM T,1(DCH);
SUBI DCH,2; # ADJUST INITIAL VALUE;
JRST TEST1;
TOP1: HLRZ PDA,1(QFR);
JUMPE PDA,BOT1; # SAFETY NET;
HRRZ K,PD!DSP(PDA); # P STACK DISPLACEMENT;
ADDI K,1(QFR); # 1+RIGHT(P) AFTER PROLOG;
HRRZI I,(QPR);
TEST2: CAIGE I,(K);
JRST OUT2;
MOVE T,(I);
TLNN T,'37; # CHECK INDIR, INDEX;
TLNN T,'777000; # CHECK OP CODE;
SOJA I,TEST2;
TRNN T,-1; # CHECK ADDR;
SOJA I,TEST2;
MOVEI T,-1(T);
HLRZ T2,(T); # GET LEFT HALF OF INSTR AT -1(T);
CAIE T2,'260740; # PUSHJ P,;
SOJA I,TEST2;
ADDI DCH,2;
MOVNM I,(DCH);
MOVEM T,3(DCH);
MOVEI QPR,-1(I);
SOJA I,TEST2;
OUT2: ADDI DCH,2;
MOVEM QFR,(DCH);
HRRZ T,-1(QFR);
SUBI T,1;
MOVEM T,3(DCH);
MOVEI QPR,-2(QFR);
PUSH P,PDA;
PUSHJ P,NPSTACK;
SUBI QPR,(1); # -# OF WORDS ON PSTACK;
TEST1: HRRZ QFR,(QFR);
JUMPE QFR,BOT1; # IN CASE WE RUN OUT (PROCESSES, FOR EXAMPLE);
CAIE QFR,-1;
JRST TOP1;
BOT1: SUBI DCH,@DCHAIN; # CURRENT ADDR MINUS FWA;
LSH DCH,-1;
MOVEM DCH,DDEPTH;
MOVEI T,@DCHAIN; # FWA DATA;
CAMLE DCH,-3(T); # BOUNDS CHECK;
ARERR 1,["DCHAIN"];
END;]) # HAND;
END "DSCOPE";
SIMPLE PROCEDURE PRDSCOPE(INTEGER ARRAY DCHAIN; INTEGER DDEPTH); BEGIN "PRDSCOPE"
INTEGER I;
ADDSTR("
DYNAMIC SCOPE, MOST RECENT FIRST:
routine text
");
FOR I←0 UPTO DDEPTH DO BEGIN
ADDSTR(IF DCHAIN[I,0]<0 THEN ".simple."
ELSE MEMSTRING(2+LEFT(MEMORY[DCHAIN[I,0]+1])));
ADDSTR(CATCRLF(TAB & GETTEXT(DCHAIN[I,1]))) END;
END "PRDSCOPE";
�# TFIND,BREAK1,SWAP!BREAKS,PLANT!BREAKS,UNPLANT!BREAKS,LOC!PC,BREAK,COORD,TRAPS;
SIMPLE INTEGER PROCEDURE TFIND(STRING LOCNAME; BOOLEAN ANYNAM;
REFERENCE INTEGER CRDADDR); BEGIN "TFIND"
# Special find routine for TRACE, BREAK, etc, since one frequently wants to
specify names which are not in the current algol scope.
The format of LOCNAME is
[LOCNAME]:=[SAILID] or [BLOCKNAME].[LOCNAME]
The search for LOCNAME proceeds as follows. The block table [T!BLKADR]
is searched from the end to the beginning [breadth first]. If just
[SAILID] appears, then [SAILID] must be a block or procedure name, and
the search is for a match on the name. If more than just [SAILID]
appears, then the search is for a match on the [BLOCKNAME].
If more than oneE [BLOCKNAME] appears, the search
is continued for each succeeding [BLOCKNAME] at the point where the
previous search ended. This is continued until the last [BLOCKNAME] is
located. Then the ancestry of the last [BLOCKNAME] is consructed,,
and FIND is asked to locate [SAILID].
This is very flexible and powerful. The complete history of [SAILID]
need not be specified in LOCNAME. Indeed, the sequence of [BLOCKNAME]s
need not be a treelike path at all.
;
INTEGER CLASS,PNTR,I,CRDNO; STRING STRVAL; LONG REAL VAL;
PNTR←L!BLKADR+1;
WHILE LENGTH(LOCNAME) DO BEGIN
GET!TOKEN(LOCNAME,STRVAL,CLASS←-1,VAL←0);
IF CRDADDR←MEMLOC(VAL,INTEGER) THEN RETURN(-2); # ABSOLUTE LOCATION;
IF LENGTH(STRVAL)=0 THEN EVALERR("Bad location",STRVAL,LOCNAME);
IF LENGTH(LOCNAME) THEN BEGIN "BLKNAM" LABEL NEXBLK;
WHILE (PNTR←PNTR-2) GEQ 0 DO BEGIN "HUNT"
FOR I←0 UPTO 2 DO IF PAGEIT(T!NAME,RIGHT(T!BLKADR(PNTR))+2+I) NEQ
NAME[I] THEN CONTINUE "HUNT";
I←LOP(LOCNAME); # GET RID OF DELIM;
GOTO NEXBLK END "HUNT"; NEXBLK: END "BLKNAM"
ELSE BEGIN "SAILID"
IF L!BLKADR+1 NEQ PNTR THEN GETLSCOPE(TLSCOPE,TLDEPTH,RIGHT(T!BLKADR(PNTR+1)));
IF (I←FIND(NAME,TLSCOPE,TLDEPTH,ANYNAM))GEQ 0 THEN RETURN(I);
I←LOP(STRVAL);
IF I="#" THEN # COORDINATE SPECIFICATION;
CRDADDR←RIGHT(TARRAY[CRDFND(INTSCAN(STRVAL,I))+1]);
RETURN(-1)
END "SAILID"
END
END "TFIND";
BOOLEAN BREAKPOINTS!PLANTED;
SIMPLE PROCEDURE SWAP!BREAKS; BEGIN "SWAPBR"
NOHAND([
INTEGER I; FOR I←0 UPTO L!BK DO IF BK!LOC[I] NEQ 0 THEN
MEMORY[BK!LOC[I]] SWAP BK!INSTR[I];BREAKPOINTS!PLANTED←NOT BREAKPOINTS!PLANTED;
]) # NOHAND;
HAND([
START!CODE LABEL LOOP,BOT; DEFINE I=['14],T=[0];
MOVSI I,-N!BK;
LOOP: SKIPN BK!LOC[0](I);
JRST BOT;
MOVE T,BK!INSTR[0](I);
EXCH T,@BK!LOC[0](I);
MOVEM T,BK!INSTR[0](I);
BOT: AOBJN I,LOOP;
SETCMM BREAKPOINTS!PLANTED;
END;
]) # HAND;
END "SWAPBR";
SIMPLE PROCEDURE PLANT!BREAKS;
IF NOT BREAKPOINTS!PLANTED THEN SWAP!BREAKS;
SIMPLE PROCEDURE UNPLANT!BREAKS;
IF BREAKPOINTS!PLANTED THEN SWAP!BREAKS;
SIMPLE PROCEDURE BREAK1(INTEGER LOC; STRING NAME,COND,ACT; INTEGER MPC,NEWINSTR);
BEGIN "BREAK1"
# INSERT A BREAKPOINT AT MEMORY[LOC], OVERWRITING ANY OLD BREAKPOINT
Left half of LOC has bit(s) which may flag temporary breakpoints.
Indirect through LOC should work;
NOHAND ([
INTEGER I; EXTERNAL PROCEDURE !UINIT;
# DO NOT BREAK THE CALL ON !UINIT (WHICH IS THE FIRST INSTRUCTION IN THE OUTER BLOCK);
IF RIGHT(MEMORY[LOC])=LOCATION(!UINIT) THEN LOC←LOC+1;
UNPLANT!BREAKS;
# SEARCH FOR DUPLICATE OR FOR EMPTY SLOT;
FOR I←0 UPTO N!BK DO IF I=N!BK OR BK!LOC[I]=0 OR RIGHT(BK!LOC[I])=RIGHT(LOC) THEN DONE;
IF I=N!BK THEN EV1ERR("Brkpt ov.")
ELSE BEGIN
BK!LOC[I]←LOC; BK!INSTR[I]←NEWINSTR;
BK!COND[I]←COND; BK!ACT[I]←ACT; BK!COUNT[I]←MPC; BK!NAME[I]←NAME END
]) # NOHAND;
HAND ([
LABEL BAD;
START!CODE
DEFINE I=['14],T=['13],KEY=['15],R=[1]; LABEL LOOP,LOOP2,FOUND;
EXTERNAL INTEGER !UINIT;
HRRZ I,@LOC;
CAIN I,!UINIT;
AOS LOC;
PUSHJ P,UNPLANT!BREAKS;
MOVSI I,-N!BK;
HRRZ R,LOC;
LOOP: HRRZ KEY,BK!LOC[0](I);
CAIE KEY,(R);
AOBJN I,LOOP;
JUMPL I,FOUND; # WRITE OVER AN OLD BREAKPOINT;
MOVSI I,-N!BK; # ELSE SEARCH FOR AN EMPTY SLOT;
LOOP2: SKIPE BK!LOC[0](I);
AOBJN I,LOOP2;
JUMPGE I,BAD; # NONE LEFT;
FOUND: MOVE T,LOC;
MOVEM T,BK!LOC[0](I);
MOVE T,NEWINSTR;
MOVEM T,BK!INSTR[0](I);
MOVE T,MPC;
MOVEM T,BK!COUNT[0](I);
LSH I,1;
HRROI T,(SP);
MOVEI R,BK!ACT[0](I);
POP T,(R);
POP T,-1(R);
MOVEI R,BK!COND[0](I);
POP T,(R);
POP T,-1(R);
MOVEI R,BK!NAME[0](I);
POP T,(R);
POP T,-1(R);
END; RETURN;
BAD: EV1ERR("Brkpt ov.");
]) # HAND;
END "BREAK1";
SIMPLE INTEGER PROCEDURE LOC!PC(STRING LOCNAME; INTEGER ANYNAM(TRUE));
BEGIN "LOC!PC"
# RETURNS THE PC ASSOCIATED WITH THE PLACE NAMED IN LOCNAME.
IF ANYNAM IS FALSE THEN LOCNAME MUST BE A PROCEDURE AND THE PROCEDURE
DESCRIPTOR ADDRESS IS RETURNED;
INTEGER PNTR,REFIT,T,CRDADDR;
PNTR←TFIND(LOCNAME,ANYNAM,CRDADDR);
IF PNTR=-1 AND CRDADDR=0 THEN EVALERR("Unknown " & (IF ANYNAM THEN "location"
ELSE "procedure"),LOCNAME,NULL);
IF PNTR<0 THEN REFIT←CRDADDR # COORDINATE OR OCTAL LOCATION;
ELSE IF (T←GETTYPE((REFIT←CACHE[PNTR+1]))) NEQ 0 AND
NOT(REFIT LAND PROCB) AND T NEQ LBLTYP
THEN EVALERR("Need block, label, coordinate, or procedure",LOCNAME,NULL)
ELSE IF ANYNAM AND (REFIT LAND PROCB) THEN BEGIN
# We want to break a procedure. There was (is?) some confusion about where
to put the break. For a simple procedure (one with TEMPB on in its refitem)
the break belongs on the JFCL 0 which the compiler inserted for this purpose
at user request. For a non-simple procedure the break belongs on the
HRRZI F,-n(P) which sets the F register. In the case of a non-recursive
procedure (or a recursive procedure with no parameters) the location of the
HRRZI is given by the pcnt at MKSEMT in the procedure descriptor.
In the case of a recursive procedure with parameters, a search must be
made for the HRRZI, because the code which puts the locals on the stack
and zeroes them is of undetermined length. All this barf is made necessary
in the first place because the first instruction inside a procedure might
be a WHILE loop, and we want to break only on entry to the procedure, not
everytime around the loop;
PNTR←LEFT(MEMORY[RIGHT(REFIT)+PD!PPD]); # PCNT AT MKSEMT;
UNPLANT!BREAKS; # MAKE SURE THE INSTR WE LOOK FOR WILL BE THERE;
IF REFIT LAND TEMPB AND MEMORY[PNTR←PNTR-1]='255 LSH 27 # JFCL; THEN REFIT←PNTR
ELSE WHILE LEFT(MEMORY[PNTR]) NEQ '551517 # HRRZI F,(P); DO PNTR←PNTR+1;
REFIT←PNTR END;
RETURN(IF ANYNAM THEN RIGHT(REFIT) ELSE REFIT); # RETURN FULL REFITEM FOR PROC;
END "LOC!PC";
PROCEDURE BREAK(STRING LOCNAME;STRING COND(""),ACT(""); INTEGER MPC(0));
BEGIN "BREAK"
# INSERT BREAKPOINT AT BEGINNING OF THING SPECIFIED IN LOCNAME.;
BREAK1(LOC!PC(LOCNAME),LOCNAME,COND,ACT,MPC,PJPBAIL)
END "BREAK";
INTEGER PROCEDURE COORD(STRING LOCNAME);
# RETURNS THE COORDINATE NUMBER OF THE PLACE NAMED BY LOCNAME.
IF LOCNAME HAS FORM 'NNNN, THEN NNNN WILL BE TREATED AS AN OCTAL NUMBER.;
RETURN((TARRAY[1+CRD!PC(IF LOCNAME="'" THEN
CVO(LOCNAME[2 TO INF]) ELSE LOC!PC(LOCNAME))] LSH -18) LAND '377777);
STRING PROCEDURE TRAPS; BEGIN INTEGER I;
FOR I←0 UPTO N!BK-1 DO
IF LENGTH(BK!NAME[I]) THEN ADDSTR(CATCRLF(BK!NAME[I] & TAB & BK!COND[I] & TAB
& BK!ACT[I] & TAB & (IF BK!COUNT[I]>0 THEN CVS(BK!COUNT[I]) ELSE NULL)))
ELSE IF BK!LOC[I] THEN ADDSTR(CATCRLF((0+"'")&CVOS(BK!LOC[I])));
RETURN(DUMPSTR) END;
�# PRARGS, TRACER, TRACE;
SIMPLE PROCEDURE PRARGS(INTEGER REFIT,PPNTR,SPPNTR); BEGIN "PRARGS"
# PRINT ARGUMENTS, GIVEN PROC DESCR AND STACK POINTERS;
INTEGER PARAMPNTR,NP;
START!CODE LABEL LOOP,NSTRV,BOT,OUT1,NARR,ARR; DEFINE T=['14],T2=['15];
PUSH P,REFIT;
PUSHJ P,N!PARAMS;
JUMPLE 1,OUT1;
MOVEM 1,NP;
PUSH P,REFIT;
PUSHJ P,NPSTACK; # HOW MANY WORDS ON PSTACK (ALLOW FOR LONGS);
HRRZ 2,PPNTR; # TOS;
SUBI 2,(1);
MOVEM 2,PPNTR; # BEGINNING OF PSTACK PARAMS;
MOVE 1,REFIT;
HRRZ 2,SPPNTR;
HLRZ 3,PD!NPW(1); # 2*#STRING PARAMS;
SUBI 2,-2(3);
MOVEM 2,SPPNTR; # BEGINNING OF SPSTACK PARAMS;
HRRZ 3,PD!DLW(1); # POINTER TO PARAM INFO;
MOVEM 3,PARAMPNTR;
LOOP: MOVE T,@PARAMPNTR;
AOS PARAMPNTR;
LDB T2,[('271000 LSH 18)+T]; # 8 BITS GETS ITEMB;
CAIN T2,0+STRNG LSH -23;
TLNE T,0+REFB LSH -18;
JRST NSTRV;
HRR T,SPPNTR;
AOS SPPNTR;
AOS SPPNTR;
JRST BOT;
NSTRV: HRR T,PPNTR;
AOS PPNTR;
TLNE T,0+ARY2B LSH -18;
JRST ARR; # λ ARRAY ITEMVAR ARRAY is an array;
TLNN T,0+ITEMB LSH -18; # BUT PLAIN ITEMVAR IS NOT;
CAIGE T2,0+ARRY LSH -23;
JRST NARR;
ARR: TLO T,'20;
JRST BOT;
NARR: TLNE T,0+REFB LSH -18; # CHECK FOR REFERENCE PARAMS;
HRR T,(T);
LDB T2,[('2714000 LSH 18)+T]; # 12 BITS TO INCL. REFB;
CAIE T2,0+LFLTYP LSH -23;
CAIN T2,0+LINTYP LSH -23;
AOS PPNTR; # VALUE LONGS TAKE 2 WORDS ON P STACK;
BOT: PUSH P,T;
PUSHJ P,WR!TON;
SOSLE NP;
JRST LOOP;
OUT1:END;
END "PRARGS";
SIMPLE PROCEDURE TRACER;
BEGIN "TRACER"
# CALLED BY AN INSERTED PUSHJ FROM ENTRY ADDRESS OF ROUTINE BEING TRACED.
WHAT TO DO:
1. PICK UP TOP WORD OF STACK AND GET THE REFITEM FROM THE MULTIPLE PROCEED
COUNT OF THE CORRESPONDING BREAK ENTRY.
2. USE THE PDA INFO TO PRINT THE PROCEDURE NAME AND PARAMETERS.
3. MASSAGE THE P STACK SO THAT THE TRACED PROCEDURE RETURNS TO TRACER.
4. XCT THE DISPLACED INSTRUCTION.
5. JUMP TO ENTRY ADDRESS+1.
6. UPON RETURN FROM TRACED PROCEDURE, PRINT THE NAME (AND RESULT, IF ANY).
7. RESTORE P STACK TO ITS PROPER STATE.
8. RETURN.
THE P-STACK GETS TWO EXTRA WORDS IN STEP 3. THE FIRST ONE IS THE ORIGINAL RETURN ADDRESS,
THE SECOND IS THE REFITEM FOR THE TRACED PROCEDURE, TO ALLOW PRINTING THE NAME AND RESULT;
INTEGER REFIT,REFITA,I,BL,PPNTR,SPPNTR,PARAMPNTR,TRLEV,NP,ENTAD,T;
DEFINE SPACES=[" "];
# STACK LOOKS LIKE
(P)/ RETURN TO ENTRY+1
-1(P)/ RETURN TO CALLING PROC
-2(P)/ PARAM n
.
.
.
-n-3(P)/ PARAM 1;
START!CODE
POP P,0; # REMOVE RETURN TO ENTRY+1;
SUBI 0,1; # ENTRY ADDRESS;
MOVEM 0,ENTAD;
AOS TRLEV; # DEPTH OF TRACE;
END;
NOHAND([
FOR BL←0 UPTO L!BK DO IF BK!LOC[BL]=RIGHT(ENTAD) THEN DONE;
REFIT←BK!COUNT[BL];
]) # NOHAND;
HAND([START!CODE
DEFINE KEY=[0],I=['14]; LABEL LOOP,GOOD;
HRRZ KEY,ENTAD;
MOVSI I,-N!BK;
LOOP: CAME KEY,BK!LOC[0](I);
AOBJN I,LOOP;
JUMPL I,GOOD;
PUSH SP,[10];
PUSH SP,["TRACE sunk"];
PUSHJ P,FATAL; # TRACER CALLED BUT TRACE LOCATION NOT IN TABLE;
GOOD: MOVE KEY,BK!COUNT[0](I);
MOVEM KEY,REFIT;
HRRZM I,BL;
END;]) # HAND;
OUTSTR(CRLFCAT(SPACES[1 FOR TRLEV]&"Entering "&MEMSTRING(REFIT+2)));
START!CODE EXTERNAL INTEGER OUTSTR;
PUSH P,REFIT;
MOVEI '14,-1(P);
PUSH P,'14;
MOVEI '14,(SP);
PUSH P,'14;
PUSHJ P,PRARGS;
PUSHJ P,DUMPSTR;
PUSHJ P,OUTSTR;
END;
# MASSAGE THE STACK;
START!CODE LABEL TR!RET,TRRETW;
PUSH P,REFIT;
PUSHJ P,NPSTACK;
HRRZ 3,P;
SUBI 3,(1); # AC3 POINTS AT FIRST PARAM;
MOVE 1,REFIT;
HRLI 4,(3);
HRRI 4,TARRAY[0];
BLT 4,TARRAY[0](2); # UNSTACK;
PUSH P,0; # SPACE FILLER;
MOVE 0,-1(P); # RETURN TO CALLING PROC;
MOVEM 0,(3); # PLANT IT;
MOVEM 1,1(3); # PLANT REFIT;
HRLI 4,TARRAY[0];
HRRI 4,2(3);
BLT 4,(P); # STACK;
MOVE 4,BL;
PUSH P,TRRETW; # PUT RETURN ON STACK;
XCT BK!INSTR[0](4); # THIS IS EITHER A PUSH P,F OR A JFCL;
MOVE 2,ENTAD;
JRST 1(2); # CALL THE TRACED PROC;
TRRETW: CAM TR!RET; # TYPICAL PUSHJ WORD;
TR!RET: POP P,REFIT;
MOVEM 1,REFITA;
END;
OUTSTR(CRLFCAT(SPACES[1 FOR TRLEV]&"Exiting "&MEMSTRING(REFIT+2)));
IF (T←GETTYPE(REFIT)) NEQ 0 THEN BEGIN "RESULT"
OUTCHR("="); IF T=STRNG THEN
START!CODE
PUSH SP,-1(SP);
PUSH SP,-1(SP);
PUSHJ P,OUTSTR;
END
ELSE BEGIN WR!TON(T LOR LOCATION(REFITA)); OUTSTR(DUMPSTR) END END "RESULT";
OUTSTR(CRLF);
START!CODE
MOVE 1,REFITA;
SOS TRLEV;
POPJ P,0; # FINALLY!;
END;
END "TRACER";
PROCEDURE TRACE(STRING PROCNAME);
BEGIN"TRACE"
# BREAK ENTRY AND EXIT OF PROCEDURE;
INTEGER REFIT; DEFINE PUSHJ=['260000000000];
BREAK1(MEMORY[REFIT←LOC!PC(PROCNAME,FALSE)],PROCNAME,"","",REFIT,PUSHJ+(P LSH 23)+
LOCATION(TRACER));
END "TRACE";
�# UNBREAK1,UNBREAK,UNTRACE,CLRTBK,STEPPING;
SIMPLE PROCEDURE UNBREAK1(INTEGER LOC); BEGIN "UNBREAK1"
# REMOVE BREAKPOINT AT MEMORY[LOC];
NOHAND([
INTEGER I;
UNPLANT!BREAKS;
# SEARCH FOR THE BREAKPOINT;
FOR I←0 UPTO N!BK DO IF I=N!BK OR RIGHT(BK!LOC[I])=RIGHT(LOC) THEN DONE;
IF I=N!BK THEN EVALERR("UNBREAK1. Not currently broken",
CVOS(LOC),NULL);
BK!INSTR[I]←0; BK!LOC[I]←0; BK!NAME[I]←NULL
]) # NOHAND;
HAND([
LABEL BAD;
START!CODE DEFINE I=['14],T=['13],KEY=['15]; LABEL LOOP;
PUSHJ P,UNPLANT!BREAKS;
MOVSI I,-N!BK;
HRRZ KEY,LOC;
LOOP: HRRZ T,BK!LOC[0](I);
CAIE T,(KEY);
AOBJN I,LOOP;
JUMPGE I,BAD;
SETZM BK!INSTR[0](I);
SETZM BK!LOC[0](I);
ADDI I,-1(I); # 2*I-1;
SETZM BK!NAME[0](I); # TURNS IT INTO A STRING OF LENGTH 0, HENCE NULL;
END; RETURN;
BAD: EVALERR("UNBREAK1. Not currently broken",CVOS(LOC),NULL)
]) # HAND;
END "UNBREAK1";
PROCEDURE UNBREAK(STRING LOCNAME);
UNBREAK1(LOC!PC(LOCNAME));
PROCEDURE UNTRACE(STRING PROCNAME);
# SIGNIFY "PROC ONLY", WHICH GETS PROCEDURE DESCRIPTOR ADDR FROM LOC!PC.
THEN PICK UP ENTRY ADDR FROM PROCEDURE DESCRIPTOR;
UNBREAK1(MEMORY[LOC!PC(PROCNAME,FALSE)]);
SIMPLE PROCEDURE CLRTBK(INTEGER LOC); BEGIN "CLRTBK"
# (CLEAR GROUP OF TEMPORARY BREAKPOINTS)
SEARCH THE BREAKPOINT TABLE FOR THE LOCATION. IF NOT FOUND, EXIT.
IF LOCATION IS ONE OF A SET OF TEMPORARY BREAK POINTS, CLEAR THE WHOLE SET.
CLRTBK IS ALWAYS CALLED WITH THE BREAK-POINT INSTRUCTIONS IN.
MUST BE START!CODE BECAUSE AC'S MUST BE SAVED;
START!CODE LABEL LOOP1,LOOP2,RET,BOT2; DEFINE I=['14],J=['15],KEY=['13];
MOVSI I,-N!BK;
HRRZ KEY,LOC;
LOOP1: HRRZ J,BK!LOC[0](I);
CAIE J,(KEY);
AOBJN I,LOOP1;
JUMPGE I,RET;
HLRZ J,BK!LOC[0](I);
JUMPE J,RET;
MOVSI I,-N!BK;
LOOP2: HLRZ KEY,BK!LOC[0](I);
CAIE KEY,(J);
JRST BOT2;
MOVE KEY,BK!INSTR[0](I);
MOVEM KEY,@BK!LOC[0](I);
SETZM BK!INSTR[0](I);
SETZM BK!LOC[0](I);
BOT2: AOBJN I,LOOP2;
RET: END;
END "CLRTBK";
SIMPLE PROCEDURE STEP!POPJ; START!CODE
# CALLED BY PUSHJ; DEFINE I=['14]; LABEL DOT1;
SOS (P); # POINT TO BREAK THAT GOT US HERE;
PUSHJ P,CLRTBK; # CLEAR TEMP BREAKS, REMOVE EXTRA RETURN WORD;
JSP I,DOT1; # CURRENT FLAGS;
DOT1: TLO I,'20; # "JRST MODE" BREAK;
HLLM I,(P); # SUBSTITUTE FLAGS;
JRST BAIL; # POPS STACK AS RETURN WORD, GETS INTO BAILOR;
END;
SIMPLE PROCEDURE STEP!ATJRST; START!CODE
# CALLED BY JSP '14,STEP!ATJRST;
DEFINE KEY=['14],I=['13],J=['15]; LABEL LOOP;
MOVEI KEY,-1(KEY); # ADDR OF JSP;
MOVSI I,-N!BK;
LOOP: HRRZ J,BK!LOC[0](I);
CAIE J,(KEY);
AOBJN I,LOOP;
MOVEI I,@BK!INSTR[0](I); # THE EFFECTIVE ADDRESS;
TLO I,'20; # JRST MODE BREAK;
PUSH P,I; # A COPY FOR BAIL TO POP;
PUSH P,KEY; # LOCATION OF JSP '14,;
PUSHJ P,CLRTBK;
JRST BAIL;
END;
SIMPLE PROCEDURE STEPIT(INTEGER PC; INTEGER ARRAY INSTR,MASK); BEGIN "STEPIT"
DEFINE PUSHJ=['260000000000],POPJ=['263000000000],PUSH=['261000000000],
JSP14=['265600000000];
NOHAND([
SIMPLE PROCEDURE BREAK2(INTEGER LOC);
BREAK1(RIGHT(LOC)+(1 LSH 23),"","","",0,PJPBAIL);
INTEGER I,L,U,U2,J,T;
U2←ARRINFO(INSTR,2); # UPPER BOUND FOR FIRST DIMENSION;
# SEARCH COORDINATE INDEX AND THEN COORDINATE TABLE TO FIND PC OF CURRENT
STATEMENT AND NEXT;
I←CRD!PC(PC);
L←RIGHT(TARRAY[I+1]); U←RIGHT(TARRAY[I+3]); # PC OF CURRENT, NEXT STATEMENT;
IF U='777777 THEN U←L+'200;
UNPLANT!BREAKS;
FOR I←L UPTO U DO BEGIN
FOR J←0 UPTO U2 DO BEGIN
IF ((T←MEMORY[I]) XOR INSTR[J]) LAND MASK[J]=0 THEN BEGIN
IF INSTR[J]=POPJ
THEN BREAK1((1 LSH 23)+I,"","","",0,PUSHJ+(P LSH 23)+LOCATION(STEP!POPJ)
ELSE IF INSTR[J]=ATJRST
THEN BREAK1((1 LSH 23)+I,"","","",0,('265 LSH 27)+('14 LSH 23)+
LOCATION(STEP!ATJRST))
ELSE IF INSTR[J]=PUSHJ
THEN BEGIN # DON'T BREAK LOCATIONS IN SEGMENT OR CALLS ON BAIL;
IF RIGHT(T)<NOTENX('400000) TENX('640000)
AND RIGHT(T) NEQ LOCATION(BAIL)
THEN BEGIN
IF LEFT(MEMORY[T]) NEQ '255000 # JFCL (/4B simple proc.);
THEN WHILE LEFT(MEMORY[T]) NEQ '551517 DO T←T+1;
# find HRRZI RF,-n(P) which sets environment;
BREAK2(T) END END
ELSE BREAK2(T);
DONE END;
END END;
BREAK2(U);
]) # NOHAND;
HAND([
INTEGER L,U,U2,J;
START!CODE LABEL STPBBRK,STPBRK,TOP2,LAB1,LAB2,INC2,INC1,CHK1,SP0LUP,HRRZL,LAB3,LAB4;
DEFINE A=[1],B=[2],I=[3],INS=[4];
MOVE A,INSTR;
MOVE A,-3(A); # UPPER BOUND FOR FIRST DIM;
MOVEM A,U2;
PUSH P,PC;
PUSHJ P,CRD!PC;
HRRZ I,TARRAY[1](1);
MOVEM I,L; # PC CURRENT STMT;
HRRZ B,TARRAY[3](1);
MOVEM B,U; # PC NEXT STMT;
MOVEI A,'200(I);
CAIN B,-1;
MOVEM A,U;
PUSHJ P,UNPLANT!BREAKS;
JRST CHK1;
STPBBRK:MOVE A,PJPBAIL;
STPBRK: HRLI B,'40;
PUSH P,B; # B=WHERE;
MOVEI B,6; # 6 ZEROES ON SP;
SP0LUP: PUSH SP,[0];
SOJG B,SP0LUP;
PUSH P,[0];
PUSH P,A; # A=WHAT INSTR TO USE;
PUSHJ P,BREAK1;
POPJ P,;
TOP2: MOVE INS,INSTR; # FWA INSTR ARRAY;
ADDI INS,(A); # ADD J;
MOVE B,MASK; # FWA MASK ARRAY;
ADDI B,(A); # ADD J;
MOVE A,(INS);
XOR A,(I);
AND A,(B);
JUMPN A,INC2; # INSTR NOT ONE WE WANT;
HLRZ INS,(INS); # OPCODE IN RIGHT HALF;
MOVE A,PJPBAIL; # GET PUSHJ P, IN TOP HALF OF A;
HRRI A,STEP!POPJ;
MOVEI B,(I); # ADDR TO BREAK;
CAIE INS,0+ATJRST LSH -18;
JRST LAB3;
MOVSI A,0+JSP14 LSH -18;
HRRI A,STEP!ATJRST;
JRST LAB4;
LAB3: CAIE INS,0+POPJ LSH -18;
JRST LAB1;
LAB4: PUSHJ P,STPBRK;
JRST INC1;
LAB1: HRRZ B,(I); # DEALING WITH PUSHJ, AOJA, SOJA, JUMPx, JRST;
CAIE INS,0+PUSHJ LSH -18;
JRST LAB2;
CAIGE B,NOTENX('400000) TENX('640000); # NOW PUSHJ ONLY;
CAIN B,BAIL;
JRST INC1;
# B CONTAINS ENTRY ADDR. FIND THE JFCL OR HRRZI;
HRRZL: HLRZ A,(B); # OPCODE HALF;
CAIE A,'255000; # JFCL;
CAIN A,'551517; # HRRZI F,(P);
JRST LAB2; # FOUND THE ONE WE WANT;
AOJA B,HRRZL; # KEEP LOOKING;
LAB2: PUSHJ P,STPBBRK;
JRST INC1; # ONCE WE'VE BROKEN IT, DON'T TRY TO BREAK IT AGAIN;
INC2: AOS A,J;
CAMG A,U2;
JRST TOP2;
INC1: AOS I,L;
CHK1: SETOB A,J;
CAMG I,U;
JRST INC2;
MOVE B,U;
PUSHJ P,STPBBRK;
END;
]) # HAND;
END "STEPIT";
�# BAILOR,!!TEXT,!!ARGS,EVAL,PSH,OPPSH,SETLEX,X1TEMP,NEWTEMP,NEWLTEMP,NEWSTRTEMP;
INTERNAL RECURSIVE PROCEDURE BAILOR; BEGIN "BAILOR"
INTEGER ARRAY SAVED!ACS[0:'17+'12+1+1];
INTEGER PC,FLAGS,I,T,DISPLVL;
INTEGER LDEPTH,DDEPTH,CURBRK; # LEXICAL DEPTH, DYNAMIC DEPTH,CURRENT
BREAKPOINT NUMBER;
INTEGER ARRAY LCHAIN[0:15]; # MOST RECENT FIRST;
INTEGER ARRAY DCHAIN[0:63,0:1]; # MOST RECENT FIRST;
LABEL BRECOV; # RECOVERY POINT FOR BAIL ERRORS;
LABEL RET; # !!GO COMES HERE IMMEDIATELY;
DEFINE F=['12];
INTERNAL STRING PROCEDURE !!TEXT; BEGIN PRLSCOPE(LCHAIN,LDEPTH);
PRDSCOPE(DCHAIN,DDEPTH); ADDSTR("
AT SETLEX("&CVS(DISPLVL)&");"); SSF←TRUE; RETURN(DUMPSTR) END;
INTERNAL STRING PROCEDURE !!ARGS; BEGIN
INTEGER T,PDA;
IF (T←DCHAIN[DISPLVL,0])>0 THEN # NON-SIMPLE PROCEDURE;
PRARGS(LEFT(MEMORY[T+1]),T-1,MEMORY[T+2]) # APPLAUD THE POWER OF DISPLAYS!!!;
# PDA RIGHT(P) SP;
ELSE BEGIN
IF DDEPTH NEQ 0 THEN OUTSTR("
Warning: String parameters to simple procedure may be incorrect.
");
IF (PDA←PDFIND(MEMORY[MEMORY[-T]-1]))=1 THEN OUTSTR("
Can't find procedure descriptor. Use actual names.
")
ELSE PRARGS(PDA,-T,SAVED!ACS[SP]) END;
SSF←TRUE; RETURN(DUMPSTR) END;
# EVAL, PSH, OPPSH, SETLEX, X1TEMP, EVAL1;
RECURSIVE INTEGER PROCEDURE EVAL(STRING ARG);
BEGIN"EVAL"
EXTERNAL PROCEDURE CAT;
STRING STRVAL,OLDARG;
INTEGER CLASS,IVAL,REFIT,PNTR,OP; LONG REAL VAL;
LABEL OPCHAR;
LONG REAL ARRAY TEMPVAL[0:31]; STRING ARRAY TSTRVAL[0:31];
INTEGER ARRAY RBIND,STACK,OPSTACK[0:31];
INTEGER N!TEMPVAL,N!TSTRVAL,TOS,TOOPS,T;
BOOLEAN BINARYMINUSFLAG;
SIMPLE PROCEDURE PSH(INTEGER ARG); STACK[TOS←TOS+1]←ARG;
SIMPLE PROCEDURE OPPSH(INTEGER ARG,RBND); BEGIN
OPSTACK[TOOPS←TOOPS+1]←ARG; RBIND[TOOPS]←RBND END;
INTEGER PROCEDURE NEWLTEMP(LONG REAL I);
BEGIN N!TEMPVAL←N!TEMPVAL+1;
MEMORY[LOCATION(TEMPVAL[N!TEMPVAL]),LONG REAL]←I;
RETURN(LOCATION(TEMPVAL[N!TEMPVAL]));
END;
SIMPLE INTEGER PROCEDURE NEWTEMP(INTEGER I);
START!CODE
PUSH P,(P); # EXTRA RETURN WORD;
SETZM -1(P); # ZERO BOTTOM WORD;
JRST NEWLTEMP;
END;
INTEGER PROCEDURE NEWSTRTEMP(STRING I);
RETURN(RIGHT(LOCATION(TSTRVAL[N!TSTRVAL←N!TSTRVAL+1]←I)));
PROCEDURE EV1ERR(STRING WHY); EVALERR(WHY,OLDARG,ARG);
INTERNAL RECURSIVE PROCEDURE SETLEX(INTEGER DEPTH); BEGIN "SETLEX"
# MOVE LEXICAL SCOPE UP AND DOWN THE DYNAMIC SCOPE CHAIN;
DISPLVL←DEPTH←0 MAX DEPTH MIN DDEPTH; # Clip bounds;
GETLSCOPE(LCHAIN,LDEPTH,DCHAIN[DEPTH,1]); PRLSCOPE(LCHAIN,LDEPTH);
END "SETLEX";
PROCEDURE X1TEMP(INTEGER REFIT);BEGIN
INTEGER LOC;
LOC←RIGHT(REFIT); # ISOLATE ADDRESS PORTION;
IF N!TEMPVAL GEQ 0 AND LOC GEQ LOCATION(TEMPVAL[0]) AND
LOC LEQ LOCATION(TEMPVAL[N!TEMPVAL]) THEN BEGIN
N!TEMPVAL←N!TEMPVAL-1;
IF GETTYPE(REFIT)=LFLTYP THEN N!TEMPVAL←N!TEMPVAL-1 END
ELSE IF N!TSTRVAL GEQ 0 AND LOC GEQ RIGHT(LOCATION(TSTRVAL[0])) AND
LOC LEQ RIGHT(LOCATION(TSTRVAL[N!TSTRVAL])) THEN N!TSTRVAL←N!TSTRVAL-1; END;
�# EVAL1;
RECURSIVE INTEGER PROCEDURE EVAL1; BEGIN "EVAL1"
# EVALUATE OPERATOR ON TOP OF STACK AND ADJUST STACK;
DEFINE PRINT=[WR!TON];
DEFINE CONFORM(A)=[(OPS1[A] LAND '777)],DEGREE(A)=[(OPS1[A] LSH -9 LAND '777)];
INTEGER OP,ARG1,ARG2,TYP1,TYP2,MODE,TYP,I,DEG,RSLTTYP,LEAPFLAG;
LONG REAL TEMP; STRING TEMPSTR;
IF ABS(OP←STACK[TOS]) LEQ N!OPS THEN BEGIN "PRIMITIVE"
LABEL $INF,$COMMA,$COLON,$SEMI,$LEN,
$ARRYREF,$MEMRY,$DATUM,$PROPS,$SUBST,$GETS,$SWAP,
$SUBFLD,$SETC,$LSTC,$AR,$ASSIGNRESULTS;
LABEL $CPRINT,$PRINT,$NEWREC;
SIMPLE PROCEDURE TYPERR; EV1ERR("Type mismatch, " & OP);
SIMPLE PROCEDURE LEAP!TYPE!CHECK; BEGIN "LPTYCK"
IF (LEAPFLAG←(ARG1 LOR ARG2) LAND ITEMB) THEN BEGIN # ONE IS AN ITEM;
MODE←0; # ITEMS COMPARE LIKE INTEGERS;
IF (ARG1 LAND ARG2 LAND ITEMB)=0 # BOTH MUST BE ITEMS;
OR ((ARG1 XOR ARG2) LSH -(18+5+6)) NEQ 0 # SECOND ORDER TYPES MUST AGREE;
OR (TYP1 NEQ TYP2)
AND TYP1 NEQ (ITEMB+NOTYPE)
THEN TYPERR END
ELSE IF TYP1=TYP2 AND (TYP1=SETYPE OR TYP1=LSTYPE)
THEN BEGIN MODE←5; LEAPFLAG←TRUE END END "LPTYCK";
SIMPLE PROCEDURE MAKE!BOTH!STRING;
BEGIN RSLTTYP←STRNG; MODE←0;
ARG1←CVSTRNG(ARG1,1); ARG2←CVSTRNG(ARG2,2) END;
SIMPLE PROCEDURE MAKE!BOTH!REAL;
BEGIN RSLTTYP←FLOTNG; MODE←1;
ARG1←CVREAL(ARG1,1); ARG2←CVREAL(ARG2,2) END;
SIMPLE PROCEDURE MAKE!BOTH!INTEGER;
BEGIN RSLTTYP←INTEGR; MODE←0;
ARG1←CVINTEGR(ARG1,1); ARG2←CVINTEGR(ARG2,2) END;
SIMPLE PROCEDURE MAKE!BOTH!LREAL;
BEGIN RSLTTYP←LFLTYP; MODE←3;
ARG1←CVLREAL(ARG1,1); ARG2←CVLREAL(ARG2,2) END;
SIMPLE PROCEDURE MAX!DOMAIN;
# LFLTYP > FLOTNG > INTEGR > STRNG, AND MUST GET AT LEAST AN INTEGR;
IF TYP1=LFLTYP OR TYP2=LFLTYP THEN MAKE!BOTH!LREAL
ELSE IF TYP1=FLOTNG OR TYP2=FLOTNG THEN MAKE!BOTH!REAL
ELSE MAKE!BOTH!INTEGER;
DEG←DEGREE(OP); IF TOS-DEG<0 THEN EV1ERR("Syntax error");
# HANDLE TEMPORARY LOCATIONS ASSIGNED BY EVAL;
IF DEG GEQ 2 THEN X1TEMP(ARG1←STACK[TOS-2]);
IF DEG GEQ 1 THEN X1TEMP(ARG2←STACK[TOS-1]);
# CONFORM THE OPERANDS TO THE OPERATOR. DEFAULT TO INTEGER;
TYP1←GETTYPE(ARG1); TYP2←GETTYPE(ARG2);
MODE←0; RSLTTYP←INTEGR;
CASE CONFORM(OP) OF BEGIN "CONFORM"
[0] "OPERATOR UNTYPED. RETURN TYPE OF FIRST ARG"
RSLTTYP←GETTYPE(STACK[TOS-DEG]);
[1] MAKE!BOTH!INTEGER;
[2] IF TYP1=LFLTYP OR TYP2=LFLTYP THEN MAKE!BOTH!LREAL ELSE MAKE!BOTH!REAL;
[3] "CAT &" IF TYP1=LSTYPE AND TYP2=LSTYPE THEN BEGIN MODE←1; RSLTTYP←LSTYPE END
ELSE MAKE!BOTH!STRING;
[4] "SECOND GETS TYPE OF FIRST" BEGIN
LEAP!TYPE!CHECK; IF NOT LEAPFLAG THEN
CONVERT(ARG2,RSLTTYP←TYP1,2); END;
[5] "SECOND GETS INTEGER; FOR LSH, ASH, ROT"
BEGIN RSLTTYP←TYP1; ARG2←CVINTEGR(ARG2,2) END;
[6] "MEMBERSHIP"
IF NOT(ARG1 LAND ITEMB) OR (TYP2 NEQ SETYPE) THEN TYPERR;
[7] "INF" ;
[8] "SET" BEGIN MODE←5; RSLTTYP←SETYPE END;
[9] MAX!DOMAIN;
[10] "ASSOCIATIVE POSSIBILITY"
IF (ARG1 LAND ARG2 LAND ITEMB) # BOTH ITEMS;
THEN BEGIN MODE←1; RSLTTYP←SETYPE END # DERIVED!SET←ITEM OP ITEM;
ELSE IF OP="`"
THEN TYPERR # ASSOC OF NON-ITEMS;
ELSE RSLTTYP←TYP1; # BIT OPERATOR XOR, EQV;
[11] ; # LOCATION;
[12] "RELATION" BEGIN
LEAP!TYPE!CHECK; # TO SET MODE TO 2 FOR SET OR LIST;
IF NOT(LEAPFLAG) OR (TYP1 NEQ TYP2)
THEN BEGIN # TAKE MAX ALGEBRAIC DOMAIN BUT KEEP RESULT BOOLEAN;
IF TYP1=TYP2=RECTYP AND (OP="=" OR OP="≠") THEN ELSE MAX!DOMAIN;
MODE←(IF TYP1=LFLTYP OR TYP2=LFLTYP THEN 3 ELSE 0);
RSLTTYP←INTEGR
END END
END "CONFORM";
�# INTERPRETATION OF OPERATORS;
START!CODE # JUMP TABLE FOR OPERATORS;
LABEL $NOT,$AND,$OR;
LABEL $EQ,$NEQ,$LEQ,$LESS;
LABEL $DEQ,$DNEQ,$DLEQ,$DLESS;
LABEL $JEQ,$JNEQ,$JLEQ,$JLESS;
LABEL $LPEQ,$LPNEQ,$LPLEQ,$LPLES;
LABEL $REVOP1,$REVOP2;
LABEL $PLUS,$MINUS,$MUL,$CDIV,$EXP,$EXPI,$EXPR;
LABEL $MIN,$MAX,$MOD,$LOC;
LABEL $CAT,$LPCAT,$JCAT,$JSUBST,$SUBST,$LPSUBST,$STRNG;
LABEL $ASSOC,$LPEQV,$LPXOR,$IN,$UNION,$INTER,$LPMINUS,
LPSET,LPREL,LPDRV,LPRL2,LPDO1;
LABEL $XOR,$EQV,$ASH,$DIV,$LAND,$LOR,$LNOT,$LSH,$ROT,$DMUL,$DDIV,$SLASH;
LABEL $FOR,$TO;
LABEL $FALSE,$TRUE,$NULL,$PHI,$NIL,$ANY,$NLREC;
LABEL BADOP,ZERO,ONES,DONE,JTAB,$UMINUS,ZCONST,SCONST,ONES$,ZERO$;
EXTERNAL INTEGER LEAP,SUBST,CAT,POW,FLOGS;
DEFINE A=[1],B=[3],M=[5],T=[6],M2=['13],M3=['14];
PROTECT!ACS A,A+1,B,B+1,M,T;
MOVE A,@ARG1; # FIRST OPERAND;
MOVEI T,@ARG1;
MOVE A+1,1(T); # POSSIBLE LONG;
MOVE B,@ARG2; # SECOND OPERAND;
MOVEI T,@ARG2;
MOVE B+1,1(T);
MOVE M,MODE; # SOME OPS: 0=INTEGER, 1=REAL, 2=LFLTYP, 3=LINTYP,
4=BOOL←(SET,SET), 5=SET←(SET,SET);
MOVNI M2,(M);
LSH M2,-1; # 0=WORD OP, -1=LONG OP, -2=LEAP;
HRREI M3,(M2);
LSH M3,1; # 0=WORD OP, -2=LONG OP;
CAMGE M3,[-3];
HRREI M3,-3; # -3=LEAP;
MOVE T,OP;
XCT JTAB(T);
DONE: MOVEM A,TEMP;
MOVEI T,TEMP;
MOVEM A+1,1(T);
BADOP: JRST $ASSIGNRESULTS;
ZERO: TDZA A,A;
ONES: SETO A,;
JRST DONE;
JTAB:
JRST BADOP; # '000;
JRST BADOP; # '001;
JRST BADOP; # '002;
JRST BADOP; # '003;
JRST BADOP; # "∧";
JRST $NOT(M2); # "¬";
JRST $IN; # "ε";
JRST BADOP; # '007;
JRST BADOP; # '010;
JRST BADOP; # '011;
JRST BADOP; # '012;
JRST BADOP; # '013;
JRST BADOP; # '014;
JRST BADOP; # '015;
JRST $INF; # "∞";
JRST $DATUM; # "∂";
JRST BADOP; # '020;
JRST BADOP; # '021;
JRST $INTER; # "∩";
JRST $UNION; # "∪";
JRST BADOP; # '024;
JRST BADOP; # '025;
JRST $XOR(M2); # "⊗";
JRST $SWAP; # "↔";
JRST BADOP; # '030;
JRST BADOP; # '031;
JRST BADOP; # '032;
JRST $NEQ(M2); # "≠";
JRST $LEQ(M3); # "≤";
JRST $REVOP1; # "≥";
JRST $EQV(M2); # "≡";
JRST BADOP; # "∨";
JRST BADOP; # '040;
JRST BADOP; # "!";
JRST BADOP; # quote;
JRST BADOP; # "#";
JRST BADOP; # "$";
XCT $CDIV(M); # "%";
JRST @ $JCAT(M);# "&";
JRST BADOP; # "'";
JRST BADOP; # "(";
JRST BADOP; # ")";
XCT $MUL(M); # "*";
XCT $PLUS(M); # "+";
JRST $COMMA; # ",";
XCT $MINUS(M); # "-";
JRST BADOP; # ".";
XCT $SLASH(M); # "/";
JRST BADOP; # "0";
JRST BADOP; # "1";
JRST BADOP; # "2";
JRST BADOP; # "3";
JRST BADOP; # "4";
JRST BADOP; # "5";
JRST BADOP; # "6";
JRST BADOP; # "7";
JRST BADOP; # "8";
JRST BADOP; # "9";
JRST $COLON; # ":";
JRST $SEMI; # '073;
JRST $LESS(M3); # "<";
JRST $EQ(M2); # "=";
JRST $REVOP2; # ">";
JRST BADOP; # "?";
JRST BADOP; # "@";
XCT $ASH(M2); # '101;
JRST $DIV(M2); # DIV;
JRST $FALSE; # '103;
JRST $LAND(M2); # LAND;
JRST $LNOT(M2); # LNOT;
JRST $LOR(M2); # LOR;
XCT $LSH(M2); # ' 107;
JRST $MAX(M2); # '110;
JRST $MIN; # '111;
JRST $MOD; # '112;
JRST BADOP; # '113;
JRST $NULL; # '114;
XCT $ROT(M2); # '115;
JRST BADOP; # '116;
JRST $TRUE; # '117;
MOVM A,B; # ABS;
JRST $FOR; # (SUBSTRINGER);
JRST $TO; # (SUBSTRINGER);
JRST $UMINUS;# UNARY MINUS;
JRST $ARRYREF; # '124;
JRST $MEMRY; # '125;
JRST $DATUM; # '126;
JRST $PROPS; # '127;
JRST @ $JSUBST(M); # PERFORM SUBSTRINGING OR SUBSLITING;
JRST $PHI; # '131;
JRST $NIL; # '132;
JRST BADOP; # LBRACKET;
JRST BADOP; # BACKSLASH;
JRST BADOP; # RBRACKET;
XCT $EXP(M); # UP ARROW;
JRST $GETS; # ASSIGN;
JRST $ASSOC; # ASSOC;
JRST $SUBFLD; # '141;
JRST $ANY; # '142;
JRST $NLREC; # '143;
JRST $LEN; # '144;
JRST $LOC; # '145;
JRST $LSTC; # '146;
JRST $CPRINT;# '147;
JRST $PRINT; # '150;
JRST $NEWREC;# '151;
$MUL: IMUL A,B;
FMPR A,B;
JRST $DMUL;
DFMP A,B;
$DMUL: DMUL A,B;
DMOVE A,A+2;
JRST DONE;
$PLUS: ADD A,B;
FADR A,B;
DADD A,B;
DFAD A,B;
$CDIV: IDIV A,B;
FDVR A,B;
DDIV A,B;
DFDV A,B;
$REVOP2:SUBI T,1; # '166; # CONVERT ">" TO "<";
$REVOP1:SUBI T,1; # '167; # CONVERT "≥" TO "≤";
EXCH A,B; # '170;
EXCH A+1,B+1;
XCT JTAB(T);# '171;
SUAI([JRST BADOP; # ALT;
JRST $SETC; # '176; ])
DEC([ JRST $SETC; # '175;
JRST BADOP; # '176; ])
TENX([ JRST $SETC; # '175;
JRST BADOP; # '176; ])
JRST DONE; # BS, END-OF-FILE;
# END OF 0:'177 JTAB;
$MINUS: SUB A,B;
FSBR A,B;
DSUB A,B;
DFSB A,B;
JRST BADOP;
JRST $LPMINUS;
$JCAT: JRST $CAT;
JRST $LPCAT;
$JSUBST:JRST $SUBST;
JRST $LPSUBST;
JRST $LPLEQ;
CAMN A,B;
CAMLE A+1,B+1;
$LEQ: CAMG A,B;
JRST ONES;
JRST ZERO;
JRST $LPLES;
CAMN A,B;
CAML A+1,B+1;
$LESS: CAMGE A,B;
JRST ONES;
JRST ZERO;
JRST $LPXOR;
XOR A+1,B+1;
$XOR: XOR A,B;
JRST DONE;
CAMN A,B;
CAMLE A+1,B+1;
$MIN: CAMG A,B;
JRST DONE;
MOVE A,B;
MOVE A+1,B+1;
JRST DONE;
JUMPN B+1,ZERO;
$NOT: JUMPN B,ZERO;
JRST ONES;
JRST $LPNEQ;
CAMN A+1,B+1;
$NEQ: CAME A,B;
JRST ONES;
JRST ZERO;
JRST $LPEQ;
CAMN A+1,B+1;
$EQ: CAME A,B;
JRST ZERO;
JRST ONES;
JRST $LPEQV;
EQV A+1,B+1;
$EQV: EQV A,B;
JRST DONE;
$EXP: JRST $EXPI; # "8";
JRST $EXPR; # "9";
ASHC A,(B);
$ASH: ASH A,(B);
JRST $DDIV;
$DIV: IDIV A,B;
JRST DONE;
$DDIV: DDIV A,B;
JRST DONE;
AND A+1,B+1;
$LAND: AND A,B;
JRST DONE;
SETCM A+1,B+1;
$LNOT: SETCM A,B;
JRST DONE;
IOR A+1,B+1;
$LOR: IOR A,B;
JRST DONE;
LSHC A,(B);
$LSH: LSH A,(B);
JRST DONE;
CAMN A,B;
CAMGE A+1,B+1;
$MAX: CAML A,B;
JRST DONE;
MOVE A,B;
MOVE A+1,B+1;
JRST DONE;
ROTC A,(B);
$ROT: ROT A,(B);
�
$MOD: IDIV A,B;
MOVE A,A+1;
JRST DONE;
$EXPR: PUSH P,B; # EXPONENT;
PUSH P,A; # BASE;
PUSHJ P,FLOGS;
JRST DONE;
$EXPI: PUSH P,B;
PUSH P,A;
PUSHJ P,POW;
FIX 1,1;
JRST DONE;
$LOC: HRRZ A,ARG2;
JRST DONE;
SUPERCOMMENT([
$FOR: "FOR (SUBSTRINGER)" BEGIN # CONVERT INDICES TO "TO";
MEMLOC(TEMP,INTEGER)←MEMORY[ARG1]+MEMORY[ARG2]-1; # COMPUTE END CHAR NUMBER;
TEMPVAL[N!TEMPVAL←N!TEMPVAL+1]←MEMORY[ARG1]; # BEGINNING CHAR #;
RSLTTYP←RNGTYP;
DEG←2; GOTO $AR END;
$TO: "TO (SUBSTRINGER)" BEGIN DEG←2;
MEMLOC(TEMP,INTEGER)←MEMORY[ARG2]; # END CHAR #;
TEMPVAL[N!TEMPVAL←N!TEMPVAL+1]←MEMORY[ARG1]; # BEGINNING CHAR #;
RSLTTYP←RNGTYP; GOTO $AR END;
]) # SUPERCOMMENT;
$FOR: ADD B,A;
SUBI B,1;
$TO: MOVEM B,TEMP; # END CHAR #;
PUSH P,A; # BEGINNING CHAR #;
PUSHJ P,NEWTEMP;
MOVEI A,2;
MOVEM A,DEG;
MOVSI A,0+RNGTYP LSH -18;
MOVEM A,RSLTTYP;
JRST $AR;
$CAT: PUSH P,ARG1;
PUSHJ P,MEMSTRING;
PUSH P,ARG2;
PUSHJ P,MEMSTRING;
PUSHJ P,CAT;
$STRNG: HRROI T,ACCESS(TEMPSTR);
POP SP,(T);
POP SP,-1(T);
MOVSI T,0+STRNG LSH -18;
MOVEM T,RSLTTYP;
JRST $AR;
SUPERCOMMENT([
$SUBST: "PERFORM SUBSTRINGING" BEGIN
EXTERNAL STRING PROCEDURE SUBST(STRING ARG; INTEGER ENDCHAR, STARTCHAR);
TEMPSTR←SUBST(MEMSTRING(OPSTACK[TOOPS]),MEMORY[STACK[TOS-1]],
MEMORY[STACK[TOS-1]-1]);
X1TEMP(STACK[TOS-1]);
DEG←2; RSLTTYP←STRNG; GOTO $AR
END;
]) # SUPERCOMMENT;
$SUBST: MOVE B,ACCESS(STACK[TOS-1]);
PUSH P,(B); # END CHAR;
PUSH P,-1(B); # START CHAR;
PUSH P,ACCESS(OPSTACK[TOOPS]); # ADDR OF STRING;
PUSH P,B;
PUSHJ P,X1TEMP;
PUSHJ P,MEMSTRING; # GET STRING ON SP;
PUSHJ P,SUBST;
MOVEI T,2;
MOVEM T,DEG;
JRST $STRNG;
SUPERCOMMENT([
$UMINUS:BEGIN # CONVERT -X TO (0-X);
STACK[TOS]←STACK[TOS-1]; # COPY X;
STACK[TOS-1]←REFZERO; # ZERO;
STACK[TOS←TOS+1]←"-"; # BINARY MINUS;
EVAL1; # RECURSE;
GOTO $AR END;
]) # SUPERCOMMENT;
$UMINUS:MOVEI B,ACCESS(STACK[TOS]);
MOVE T,-1(B);
MOVEM T,(B); # STACK[TOS]←STACK[TOS-1];
MOVSI T,0+INTEGR LSH -18;
HRRI T,ZERO$;
MOVEM T,-1(B); # STACK[TOS-1]←REFZERO;
MOVEI T,"-";
MOVEM T,1(B); # STACK[TOS+1]←binary minus;
AOS ACCESS(TOS);
PUSHJ P,EVAL1;
JRST $AR;
ONES$: -1;
0;
ZERO$: 0;
$TRUE: MOVEI A,ONES$;
HRLI A,0+INTEGR LSH -18;
JRST SCONST;
$FALSE: MOVSI A,0+INTEGR LSH -18;
JRST ZCONST;
$NULL: MOVSI A,0+STRNG LSH -18;
JRST ZCONST;
$ANY: MOVSI A,0+(ITEMB+NOTYPE) LSH -18;
JRST ZCONST;
$NLREC: MOVSI A,0+RECTYP LSH -18;
JRST ZCONST;
$PHI: MOVSI A,0+SETYPE LSH -18;
JRST ZCONST;
$NIL: MOVSI A,0+LSTYPE LSH -18;
ZCONST: HRRI A,ZERO$;
SCONST: MOVEM A,ACCESS(STACK[TOS]);
SETZM ACCESS(CLASS); # SYMBOLIC CONSTANTS ARE NOT SPCHARs;
JRST $AR;
$LPLES: MOVEI 5,'65;
JRST LPREL;
$LPEQ: MOVEI 5,'67;
JRST LPREL;
$LPNEQ: MOVEI 5,'70;
JRST LPREL;
$LPLEQ: MOVEI 5,'71;
LPREL: HRLI 5,'110;
LPRL2: PUSH P,A;
PUSH P,B;
PUSHJ P,LEAP;
JUMPN 1,ONES;
JRST ZERO;
$UNION: MOVEI 5,'56;
JRST LPSET;
$INTER: MOVEI 5,'57;
JRST LPSET;
$LPMINUS:MOVEI 5,'60;
LPSET: HRLI 5,'110;
JRST LPDRV;
$LPXOR: MOVE 5,[('2 LSH 18)+'40];
JRST LPDRV;
$ASSOC: MOVE 5,[('20 LSH 18)+'41];
JRST LPDRV;
$LPEQV: MOVE 5,[('200 LSH 18)+'42];
LPDRV: PUSH P,A;
PUSH P,B;
LPDO1: PUSHJ P,LEAP;
HRROI '14,TEMP;
MOVE 5,[('110 LSH 18)+'61];
PUSHJ P,LEAP;
JRST $AR;
$IN: MOVE 5,[('10 LSH 18)+'63];
JRST LPRL2;
$LPCAT: MOVE 5,[('110 LSH 18)+'121];
JRST LPDRV;
$LPSUBST:MOVE B,ACCESS(STACK[TOS-1]);
PUSH P,@ACCESS(OPSTACK[TOOPS]);
PUSH P,-1(B); # START EL;
PUSH P,(B); # END EL;
MOVE 5,[('100 LSH 18)+'125];
JRST LPDO1;
END;
$INF: BEGIN
# SPECIAL OPERATOR MEANING LENGTH OF STRING, SET, LIST;
CLASS←0; # SYMBOLIC CONSTANTS ARE NOT SPCAHRS. CAUSES
PROBLEMS WITH UNARY MINUS;
FOR I←TOOPS STEP -1 UNTIL 0 DO
IF (TYP1←GETTYPE(OP←OPSTACK[I])) NEQ 0 THEN DONE;
STACK[TOS]←INTEGR+NEWTEMP(IF TYP1=STRNG THEN LENGTH(MEMSTRING(OP))
ELSE LENGTH(MEMORY[OP,SET])); GOTO $AR END;
$LEN: BEGIN MEMLOC(TEMP,INTEGER)←IF TYP2=STRNG THEN LENGTH(MEMSTRING(ARG2))
ELSE LENGTH(MEMORY[ARG2,SET]); RSLTTYP←INTEGR; GOTO $AR END;
$COLON: EV1ERR("No contexts in BAIL");
$SEMI: BEGIN IF TOOPS GEQ 0 THEN EV1ERR("Syntax error");
FOR I←0 UPTO TOS-1 DO PRINT(STACK[I]); OUTSTR(DUMPSTR);
N!TSTRVAL←N!TEMPVAL←TOS←-1; GOTO $AR END;
$SETC: BEGIN
# STACK HAS [CODE FOR SETC]
[DESCR FOR LAST ITEMVAR]
:
[DESCR FOR FIRST ITEMVAR]
[-1];
MEMLOC(TEMP,SET)←PHI; FOR I←TOS-1 STEP -1 UNTIL 0 DO BEGIN
IF STACK[I]=-1 THEN DONE;
PUT MEMORY[STACK[I],ITEMVAR] IN MEMLOC(TEMP,SET) END;
RSLTTYP←SETYPE; DEG←TOS-I; GOTO $AR END;
$LSTC: BEGIN
MEMLOC(TEMP,LIST)←NIL; FOR I←TOS-1 STEP -1 UNTIL 0 DO BEGIN
IF STACK[I]=-1 THEN DONE;
PUT MEMORY[STACK[I],ITEMVAR] IN MEMLOC(TEMP,LIST) BEFORE 1 END;
RSLTTYP←LSTYPE; DEG←TOS-I; GOTO $AR END;
$PROPS: "PROPS()" START!CODE
EXTERNAL INTEGER PROPS;
MOVE 3,@ARG2;
LDB 0,PROPS;
MOVEM 0,TEMP;
JRST $AR;
END;
�$COMMA: BEGIN
INTEGER FPNTR;
# REMOVE OPCOMMA FROM TOP OF STACK;
TOS←TOS-1;
# ARE WE PARSING PARAMETER LIST TO A PROCEDURE?;
IF TOOPS>0 AND (FPNTR←RBIND[TOOPS-1])<0 THEN
BEGIN
NOHAND([
INTEGER ACTREF,FRMREF,ACTTYP,FRMTYP;
# WE ARE PARSING THE PARAMETER LIST OF A PROCEDURE.
PERFORM TYPE COERCION. ALSO ASSIGN VALUE PARAMETERS TO
TEMPORARIES, TO PREVENT MISHAPS SUCH AS
EXTERNAL PROCEDURE A(INTEGER VALUE P,Q).,
A(I←3,I←4);
FRMTYP←GETTYPE(FRMREF←MEMORY[ABS FPNTR]);
ACTTYP←GETTYPE(ACTREF←STACK[TOS]);
IF FRMTYP NEQ ACTTYP THEN BEGIN # COERCION NECESSARY;
IF (FRMTYP=NOTYPE) OR (FRMTYP=NOTYPE+ITEMB) OR (FRMTYP=NOTYPE+ARRY)
THEN STACK[TOS]←STACK[TOS] LAND LNOT('77 LSH 23) LOR FRMTYP
ELSE # MAKE SURE WE ASSIGN A TEMP;
ACTREF←CONVERT(ACTREF LAND (LNOT REFB),FRMREF,1);
END;
IF NOT (ACTREF LAND REFB) THEN BEGIN # ASSIGN TEMP;
X1TEMP(ACTREF); # GET RID OF OLD;
RSLTTYP←FRMTYP; # RESULT IS SAME TYPE AS FORMAL;
IF FRMTYP=STRNG THEN TEMPSTR←MEMSTRING(ACTREF)
ELSE MEMLOC(TEMP,INTEGER)←MEMORY[ACTREF];
# RESULT ASSIGNMENT TAKE CARE OF ALLOCATING THE TEMP;
# BUT REMEMBER THAT WE ALREADY ADJUSTED TOS;
TOS←TOS+1;
DEG←1; END;
# SET UP POINTER TO NEXT PARAMETER REFITEM;
RBIND[TOOPS-1]←RBIND[TOOPS-1]-1;
END ]) # NOHAND;
HAND([
INTEGER !FRMTYP;
START!CODE LABEL COERCE,BAD,CHKTMP,OUT1,FIXTYP,NSTR;
DEFINE ACTREF=[1],FRMREF=[2],ACTTYP=[3],FRMTYP=[4],!STACK=[5],T=[6];
MOVEI !STACK,ACCESS(STACK[TOS]);
MOVM T,FPNTR;
MOVE FRMREF,(T);
LDB FRMTYP,[('271000 LSH 18)+FRMREF]; # 8 BITS INCLUDES ITEMB;
MOVEM FRMTYP,!FRMTYP;
MOVE ACTREF,(!STACK);
LDB ACTTYP,[('271000 LSH 18)+ACTREF]; # 8 BITS INCLUDES ITEMB;
CAIN FRMTYP,(ACTTYP);
JRST CHKTMP;
CAIE FRMTYP,0+NOTYPE LSH -23;
CAIN FRMTYP,0+(NOTYPE+ITEMB) LSH -23;
JRST FIXTYP;
CAIN FRMTYP,0+(NOTYPE+ARRY) LSH -23;
JRST FIXTYP;
CAIL FRMTYP,0+STRNG LSH -23;
CAILE FRMTYP,0+INTEGR LSH -23;
JRST BAD;
TLZ ACTREF,0+REFB LSH -18;
PUSH P,ACTREF;
PUSH P,FRMREF;
MOVEI T,1;
PUSH P,T;
PUSHJ P,CONVERT;
JRST CHKTMP;
BAD: PUSH SP,[18];
PUSH SP,["Can't coerce types"];
PUSHJ P,EV1ERR;
FIXTYP: DPB FRMTYP,[('271000+!STACK)LSH 18]; # 8 BITS INCLUDES ITEMB;
CHKTMP: TLNE ACTREF,0+REFB LSH -18;
JRST OUT1;
MOVE FRMTYP,!FRMTYP;
LSH FRMTYP,23;
MOVEM FRMTYP,RSLTTYP;
MOVE T,(ACTREF);
MOVEM T,TEMP;
CAME FRMTYP,[0+STRNG];
JRST NSTR;
PUSH P,ACTREF;
PUSHJ P,MEMSTRING;
MOVEI T,ACCESS(TEMPSTR);
POP SP,(T);
POP SP,-1(T);
NSTR: MOVEI T,ACCESS(TOS);
AOS (T);
MOVEI T,1;
MOVEM T,DEG;
OUT1: MOVEI T,ACCESS(RBIND[TOOPS]);
SOS -1(T);
END END ]) # HAND;
ELSE BEGIN # NOT AN ARG LIST. JUST ASSIGN TEMPORARY;
IF ARG1 LAND REFB THEN BEGIN
RSLTTYP←TYP1;
IF TYP1=STRNG THEN TEMPSTR←MEMSTRING(ARG1)
ELSE TEMP←MEMORY[ARG1,LONG REAL]; DEG←1 END END;
GOTO $AR; END;
�$ARRYREF:BEGIN
# THE STACK LOOKS LIKE
[OPCODE FOR ARRAY REFERENCE]
[REFIT FOR LAST SUBSCRIPT]
.
.
[REFIT FOR FIRST SUBSCRIPT]
-1
THE TOP WORD OF THE OPSTACK IS THE REFIT FOR THE ARRAY;
# TO SAVE STACK SPACE AT RUNTIME;
DEFINE REFIT=[ARG1],ADDR=[ARG2],NDIMS=[DEG],RNGFLG=[MODE],
SUBSBASE=[OP];
INTEGER XMULT;
RECURSIVE PROCEDURE RNGPRNT(INTEGER SBPK,ADDRM3K,T); BEGIN "RNGPRNT"
# SBPK=LOCATION(STACK[SUBSBASE+index])
ADDRM3K=ADDRESS-3*index
T=OFFSET;
NOHAND([
INTEGER I,U;
IF GETTYPE(MEMORY[SBPK])=RNGTYP THEN BEGIN RNGFLG←TRUE;
U←MEMORY[SBPK]; I←MEMORY[SBPK-1] END
ELSE U←I←MEMORY[CVINTEGR(MEMORY[SBPK],1)];
UB←MEMORY[ADDRM3K]; LB←MEMORY[ADDRM3K-1];
T←T+(I-1)*XMULT*MEMORY[ADDRM3K+1];
FOR I←I UPTO U DO BEGIN
IF I<MEMORY[ADDRM3K-1] OR I>MEMORY[ADDRM3K] THEN
EV1ERR("Subscripting error. index value min max
"&CVS(SBPK-LOCATION(STACK[SUBSBASE]))&TAB&CVS(I)&TAB
&CVS(LB)&TAB&CVS(UB));
T←T+XMULT*MEMORY[ADDRM3K+1];
IF MEMORY[SBPK+1]=OPARRY THEN BEGIN
STACK[SUBSBASE]←STACK[SUBSBASE]LAND '777777000000
LOR RIGHT(T);
IF RNGFLG THEN PRINT(STACK[SUBSBASE]) END
ELSE RNGPRNT(SBPK+1,ADDRM3K-3,T) END
]) # NOHAND;
HAND([
INTEGER I,U;
START!CODE LABEL NRNG,JOIN1,FORTOP,FORINC,FORCHK,BAD,NLDIM,BADCAT;
EXTERNAL INTEGER CVS,CAT,CATCHR;
DEFINE T1=[1],T2=[2],T3=[3],!STACK=[4],SBREF=[5];
PROTECT!ACS T1,T2,T3,!STACK,SBREF;
MOVE !STACK,SBPK; # LOC OF SUBSCRIPT REFIT;
MOVE SBREF,(!STACK); # REFIT FOR SUBSCRIPT;
LDB T1,[('270600 LSH 18)+SBREF];
CAIE T1,0+RNGTYP LSH -23;
JRST NRNG;
SETOM ACCESS(RNGFLG);
MOVE T2,-1(SBREF); # LOW LIMIT OF RANGE;
MOVE T3,(SBREF); # HIGH LIMIT;
JRST JOIN1;
NRNG:PUSH P,SBREF;
PUSH P,[1];
PUSHJ P,CVINTEGR;
MOVE T2,(1);
MOVE T3,(1);
JOIN1:MOVEM T3,U;
MOVE T1,T2; # L;
SUBI T1,1;
MOVE T3,ADDRM3K;
IMUL T1,1(T3);
SKIPE ACCESS(XMULT);
ADD T1,T1; # CURSE YOU, STRING ARRAYS;
ADDM T1,T;
JRST FORCHK;
FORTOP:MOVE T3,ADDRM3K;
CAML T2,-1(T3); # LB/UB CHECK;
CAMLE T2,(T3);
JRST BAD;
MOVE T2,1(T3);
SKIPE ACCESS(XMULT);
ADD T2,T2; # DOUBLE FOR STRING ARRAYS;
ADDB T2,T; # INCREMENT OFFSET;
MOVE T3,SBPK; # CHECK FOR LAST DIMENSION;
MOVE T3,1(T3);
CAIE T3,OPARRY;
JRST NLDIM; # NOT LAST DIMENSION;
MOVEI !STACK,ACCESS(STACK[SUBSBASE]);
HRRM T2,(!STACK);
SKIPN ACCESS(RNGFLG);
JRST FORINC;
PUSH P,(!STACK);
PUSHJ P,WR!TON;
JRST FORINC;
BADCAT:PUSHJ P,CVS;
PUSHJ P,CAT;
PUSH P,[TAB];
PUSHJ P,CATCHR;
JRST (T1);
BAD:PUSH SP,[52];
PUSH SP,[
"Subscripting error. index value min max
"];
MOVE T1,SBPK;
SUBI T1,ACCESS(STACK[SUBSBASE]);
PUSH P,T1;
JSP T1,BADCAT;
PUSH P,T2;
JSP T1,BADCAT;
PUSH P,-1(T3);
JSP T1,BADCAT;
PUSH P,(T3);
JSP T1,BADCAT;
PUSHJ P,EV1ERR;
NLDIM:MOVE T1,SBPK;
MOVE T2,ADDRM3K;
MOVE T3,T;
ADDI T1,1;
PUSH P,T1;
SUBI T2,3;
PUSH P,T2;
PUSH P,T3;
PUSHJ P,RNGPRNT;
FORINC:AOS T2,I;
FORCHK:MOVEM T2,I;
CAMG T2,U;
JRST FORTOP;
END;
]) # HAND;
END "RNGPRNT";
TYP←GETTYPE(REFIT←OPSTACK[TOOPS]);
XMULT←IF TYP=STRNG+ARRY OR TYP=LFLTYP+ARRY OR TYP=LINTYP+ARRY
THEN NOHAND([2 ELSE 1]) HAND([1 ELSE 0]);
# THE ADDRESS IN REFIT IS THE ADDRESS OF THE [AN] ALLOCATION CELL;
ADDR←RIGHT(MEMORY[REFIT]); # ADDR POINTS TO FIRST DATA WORD;
IF NOT ADDR THEN EV1ERR("Deallocated array");
# FIND BEGINNING OF DIMENSIONS;
I←TOS; DO I←I-1 UNTIL STACK[I]=-1; SUBSBASE←I;
# MAKE A REFIT WITH THE RIGHT ADDR AND THE ARRAY BIT OFF;
STACK[SUBSBASE]←(REFIT-ARRY) LAND '777740000000;
ADDR←ADDR+(IF TYP=STRNG+ARRY THEN -1 ELSE 0);
NDIMS←ABS(MEMORY[ADDR-1] ASH -18);
IF TOS-SUBSBASE-1 NEQ NDIMS THEN
EV1ERR("# of subscripts is "&CVS(NDIMS));
RNGPRNT(LOCATION(STACK[SUBSBASE+1]),ADDR-3,MEMORY[ADDR-3*NDIMS-2]);
FOR I←SUBSBASE UPTO TOS DO X1TEMP(STACK[I]);
TOS←SUBSBASE+RNGFLG; DEG←0;
GOTO $AR; END;
�# $MEMRY,$DATUM,$SWAP,$GETS,$SUBFLD,$AR,$APPLY,$CPRINT,$PRINT,$NEWREC;
$MEMRY: "MEMORY[]" BEGIN
# THE "ARGUMENTS" (EITHER ONE OR TWO) HAVE BEEN CONVERTED TO INTEGER
BY FUDGING ON THE DEGREE AND CONFOMITY CLASS. IF THERE IS ONE ARG,
THEN ARG1=-1 AND ARG2=[REFIT FOR ADDRESS]. IF THERE ARE TWO ARGUMENTS,
THEN ARG1=[REFIT FOR ADDRESS] AND ARG2=[REFIT FOR TYPE BITS]. BEFORE
WE FALL THROUGH WE MUST SET DEG←0 AND FIX UP THE STACK;
IF ARG1=-1 THEN STACK[TOS←TOS-2]←REFB+INTEGR+
(IF (I←RIGHT(MEMORY[ARG2]))<'20 THEN LOCATION(SAVED!ACS[I]) ELSE I)
ELSE STACK[TOS←TOS-3]←REFB+(MEMORY[ARG2] LAND (-1 LSH 23))+
(IF (I←RIGHT(MEMORY[ARG1]))<'20 THEN LOCATION(SAVED!ACS[I]) ELSE I);
DEG←0; GOTO $AR END;
$DATUM: "DATUM()" START!CODE
EXTERNAL INTEGER DATM,INFTB;
MOVE 3,@ARG2; # ITEM NUMBER;
LDB 0,INFTB; # ITEM TYPE BITS;
MOVEI 1,@DATM; # AC1←ADDR OF DATUM, UNLESS DATUM IS STRING;
CAIN 0,0+STRNG LSH -23;# IS DATUM A STRING?;
HRRZ 1,(1); # YES, FETCH ADDR OF WORD2;
MOVEM 1,ARG1; # LOCATION OF THIS OBJECT;
MOVE 2,0; # COPY;
LSH 0,23; # SHIFT OVER INTO PLACE;
CAIL 2,0+ARRY LSH -23;# IS DATUM AN ARRAY?;
TLO 0,'20; # YES, TURN ON INDIRECT BIT;
TLO 0,0+REFB LSH -18;# WE HAVE A REFERENCE, NOT A VALUE;
MOVEM 0,RSLTTYP;
JRST $AR;
END;
$SWAP: BEGIN IF NOT(ARG1 LAND ARG2 LAND REFB) THEN EV1ERR("Invalid assignment");
RSLTTYP←ARG1 LAND '777777000000;
MEMORY[ARG1] SWAP MEMORY[ARG2]; GOTO $AR END;
$GETS: "GETS ←" BEGIN
DEFINE DOINT(OP)=[TEMP←MEMORY[ARG1] OP MEMORY[ARG2]];
IF NOT(ARG1 LAND REFB) THEN EV1ERR("Invalid assignment");
RSLTTYP←ARG1 LAND '777777000000;
IF RSLTTYP=REFB+STRNG THEN START!CODE
MOVE 1,ARG2; # →WORD 2 OR SOURCE;
MOVE 2,ARG1; # →WORD 2 OF DEST.;
MOVE 0,(1);
MOVEM 0,(2);
MOVE 0,-1(1);
MOVEM 0,-1(2);
END
ELSE DOINT([←]); GOTO $AR END;
$SUBFLD:BEGIN
# STACK LOOKS LIKE
[OP CODE FOR SUBFIELDING]
[REFITEM FOR RECORD LPOINTER] (ARG2 HAS ADDR OF RECORD POINTER)
[-1]
[SUBFIELD # (NEG. FOR STRINGS)]
THE TOP OF OPSTACK IS A REFITEM FOR THE CLASS;
RECORD!POINTER(ANY!CLASS) RPCLASS;
INTEGER CLASS,SUBFIELD;
MEMLOC(RPCLASS,INTEGER)←CLASS←OPSTACK[TOOPS]; SUBFIELD←STACK[TOS-3];
IF MEMORY[ARG2]=0 THEN EV1ERR("Subfield of null record");
IF RIGHT(MEMORY[MEMORY[ARG2]]) NEQ RIGHT(CLASS) THEN
EV1ERR("Class-pointer mismatch");
# COMPUTE ADDRESS OF DATA;
ARG1←RIGHT(MEMORY[ARG2])+ABS(SUBFIELD); IF SUBFIELD<0 THEN ARG1←
RIGHT(MEMORY[ARG1]);
RSLTTYP←REFB+$CLASS:TYPARR[RPCLASS][ABS(SUBFIELD)];
COMMENT MEMORY[MEMORY[CLASS+4]+ABS(SUBFIELD)];
DEG←3; GOTO $AR END;
$PRINT: BEGIN STACK[TOS←TOS+1]←0; # Convert to CPRINT(-1, ... );
ARRTRAN(TARRAY,STACK); ARRBLT(STACK[1],TARRAY[0],TOS);
STACK[0]←INTEGR+LOCATION(-1); END;
$CPRINT:BEGIN
STACK[0]←CVINTEGR(STACK[0],1);
FOR I←1 UPTO TOS-1 DO PREFIT(MEMORY[STACK[0]],STACK[I]);
TOS←-1; # CLEAR STACK;
GOTO $AR END;
$NEWREC:BEGIN
EXTERNAL INTEGER PROCEDURE $RECFN(INTEGER OP,R); # Type hacking;
IF GETTYPE(MEMLOC(TEMP,INTEGER)←STACK[TOS-1]) NEQ RCLTYP
THEN EV1ERR("Invalid class name");
MEMLOC(TEMP,INTEGER)←$RECFN(1,RIGHT(TEMP)); RSLTTYP←RECTYP END;
$AR: $ASSIGNRESULTS:
# REMEMBER THE CASE PROC(I←3) WHERE I IS A REFERENCE PARAM;
IF DEG>0 THEN STACK[TOS←TOS-DEG]←RSLTTYP+
(IF RSLTTYP LAND REFB THEN RIGHT(ARG1)
ELSE (IF RSLTTYP=STRNG THEN NEWSTRTEMP(TEMPSTR)
ELSE NEWLTEMP(TEMP)));
SSF←FALSE;
END "PRIMITIVE"
ELSE BEGIN "PROC"
EXTERNAL PROCEDURE APPLY(REFERENCE STRING TEMPSTR;
REFERENCE LONG REAL TEMP; INTEGER PDA,ARGLIS);
# SEARCH BACK THROUGH STACK TO MARKER,
IN ORDER TO DETERMINE NUMBER OF PARAMS;
I←TOS; DO I←I-1 UNTIL STACK[I]=-1;
# CHECK NUMBER OF PARAMETERS. DEFAULTABLE PARAMS HAVE SIGN BIT ON;
FOR ARG2←TOS-I UPTO (DEG←N!PARAMS(OP)) DO
IF MEMORY[MEMORY[OP+PD!DLW]+ARG2-1]>0 THEN
EV1ERR(MEMSTRING(OP+2)&" takes "&CVS(DEG)&" arguments");
# DO IT;
STACK[TOS]←0;
PLANT!BREAKS;
# SEARCH FOR CORRECT STATIC LINK;
START!CODE LABEL LUP,FOUND,BAD,OK;
DEFINE F=['12],T1=['13],T2=['14],T3=['15];
HRRZ 1,OP; # PROC DESCR ADDR;
SETZ T2,; # DEFAULT CONTEXT IS NULL;
HRRZ T1,PD!PPD(1); # PARENT'S PDA;
JUMPE T1,FOUND; # "PROCEDURE" IS REALLY OUTER BLOCK;
HRRZ T2,PD!PPD(T1); # GRANDFATHER PDA;
JUMPE T2,FOUND; # PROC IS AT TOP LEVEL OF SOME OUTER BLOCK;
MOVEI T2,F; # NOT OUTER, MUST LOOK FOR PARENT;
LUP:HRRZ T2,(T2); # UP DYNAMIC LINK;
JUMPE T2,BAD; # F CHAIN RAN OUT;
CAIN T2,-1;
JRST BAD;
HLRZ T3,1(T2); # PDA FROM STACK;
CAIE T1,(T3); # THE ONE WE WANT?;
JRST LUP;
FOUND:HRLI 1,(T2); # CONTEXT,,PDA;
MOVEM 1,ARG2;
JRST OK;
BAD:MOVEI T1,["Proper context does not exist"];
PUSH SP,-1(T1);
PUSH SP,(T1);
PUSHJ P,EV1ERR;
OK: END;
APPLY(TEMPSTR,TEMP,ARG2,LOCATION(STACK[I]));
# REMOVE PARAMS FROM TEMPORARY CELLS;
FOR DEG←I+1 UPTO TOS-1 DO X1TEMP(STACK[DEG]);
# IF TYPED PROCEDURE, RETURN VALUE;
IF (TYP←GETTYPE(OP)) NEQ 0 THEN STACK[TOS←I]←TYP+
(IF TYP=STRNG THEN NEWSTRTEMP(TEMPSTR)
ELSE NEWLTEMP(TEMP))
ELSE TOS←I-1;
END"PROC";
END "EVAL1";
�# PARSER;
PROCEDURE LOPARG; OLDARG←OLDARG & LOP(ARG);
OLDARG←NULL; ARG←ARG&'177; # PUT ON "END-OF-FILE";
N!TSTRVAL←N!TEMPVAL←TOS←TOOPS←-1;
WHILE LENGTH(ARG) DO BEGIN "PARSE"
GET!TOKEN(ARG,STRVAL,CLASS←0,VAL); OLDARG←OLDARG & STRVAL;
CASE CLASS OF BEGIN "CASES"
[INTVAL] PSH(NEWTEMP(MEMLOC(VAL,INTEGER))+INTEGR);
[REALVAL] PSH(NEWTEMP(MEMLOC(VAL,INTEGER))+FLOTNG);
[STRCON] PSH(NEWSTRTEMP(STRVAL)+STRNG);
[ID] BEGIN "ID"
LABEL NOTRW;
# CHECK IF THE ID IS EQUIVALENT TO A SPECIAL CHAR;
START!CODE LABEL LOOP,INCR,FOUND; DEFINE A=[1],K0=[2],K1=[3],K2=[4];
MOVE K0,NAME[0];
MOVE K1,NAME[1];
MOVE K2,NAME[2];
MOVSI A,-N!RWORD;
LOOP: CAMN K0,RWORD0[0](A);
CAME K1,RWORD0[1](A);
JRST INCR;
CAMN K2,RWORD0[2](A);
JRST FOUND;
INCR: ADDI A,2;
AOBJN A,LOOP;
JRST NOTRW;
FOUND: HLRE A,A;
MOVE A,RWORD1[N!RWORD](A);
MOVEM A,OP;
END;
STRVAL←OP; CLASS←SPCHAR; GOTO OPCHAR;
NOTRW:
# CHECK FOR EVAL SPECIALS;
IF EQU(STRVAL,"!!GO") THEN GOTO RET
ELSE BEGIN
# SEARCH SYMBOL TABLE;
TLDEPTH←LDEPTH; ARRTRAN(TLSCOPE,LCHAIN); # FOR TFIND KLUGE;
IF (PNTR←TFIND(STRVAL,FALSE,IVAL))<0
THEN BEGIN MEMLOC(REFIT,ITEMVAR)←CVSI(STRVAL,PNTR);
IF PNTR THEN EV1ERR(IF MULDEF THEN "Mul. def. ID" ELSE "Unknown ID");
REFIT←ITEMB+RIGHT(REFIT) END
ELSE IF RIGHT(CACHE[PNTR+1]) THEN
REFIT←INCOR(PNTR,DCHAIN,DDEPTH,DISPLVL) ELSE
EV1ERR("Unallocated variable") END;
# CHECK FOR ITEMS;
IF (REFIT LAND ITEMB) AND (REFIT LAND ('77 LSH 23))=0 THEN
PSH(REFB+ITEMB + (TYPEIT(MEMLOC(REFIT←RIGHT(REFIT),ITEMVAR)) LSH 23) +
NEWTEMP(REFIT))
# CHECK FOR PROCEDURE;
ELSE IF REFIT LAND PROCB THEN BEGIN "PROCED"
IF RIGHT(REFIT)<'140 THEN EV1ERR("Procedure descriptor missing");
# MARK STACK FOR CHECKING NUMBER OF PARAMS;
PSH(-1);
IF N!PARAMS(REFIT)>0 AND ARG="(" THEN BEGIN "WITH PARAMS"
# REMOVE THE "(" AND PLACE PROCEDURE NAME ON OPSTACK;
LOPARG;
OPPSH(REFIT,-(RIGHT(MEMORY[REFIT+PD!DLW])));
# ALSO STICK IN AN EXTRA COMMA. THEN THERE WILL BE AS MANY
COMMAS AS ARGUMENTS, AND TYPE CHECKING AND COERCION WORKS BETTER;
OPPSH(OPCOMMA,RBNDCOMMA);
# REMEMBER THAT WE HAVE SEEN A SPECIAL CHARACTER, SO THAT UNARY
MINUS WORKS IN PROC(-1,-1);
CLASS←SPCHAR;
END "WITH PARAMS"
ELSE BEGIN PSH(REFIT); EVAL1 END END "PROCED"
# CHECK FOR RECORD CLASS NAME;
ELSE IF GETTYPE(REFIT)=RCLTYP THEN BEGIN
RECORD!POINTER(ANY!CLASS) RPREFIT;
SIMPLE INTEGER PROCEDURE FNDSBFLD(RECORD!POINTER($CLASS)C;
STRING NAM); BEGIN INTEGER I;
FOR I←1 UPTO $CLASS:RECSIZ[C] DO
IF !!EQU($CLASS:TXTARR[C][I],NAM) THEN RETURN(I);
RETURN(-1) END;
IF ARG NEQ ":" THEN PSH(REFIT) # Probably a call to NEW!RECORD;
ELSE BEGIN LOPARG; # Remove colon;
# LOOK FOR SUBFIELD NAME;
MEMLOC(RPREFIT,INTEGER)←REFIT; # KLUGEY TYPE COERCION;
GET!TOKEN(ARG,STRVAL,CLASS←0,VAL); OLDARG←OLDARG&STRVAL;
IF CLASS NEQ ID OR (0>IVAL←FNDSBFLD(RPREFIT,STRVAL))
THEN EV1ERR("No such subfield");
IF GETTYPE($CLASS:TYPARR[RPREFIT][IVAL])=STRNG THEN IVAL←-IVAL;
PSH(IVAL); PSH(REFIT) END END
ELSE PSH(REFIT)
END "ID";
[SPCHAR] OPCHAR: BEGIN "SPCHAR"
# FIND WHICH OPERATOR IT IS AND ITS LEFT AND RIGHT BINDING POWER;
DEFINE LBND=[(OPS1[OP] LSH -27)], RBND=[(OPS1[OP] LSH -18 LAND '777)];
OP←STRVAL; IF OP="-" AND NOT BINARYMINUSFLAG THEN OP←'123;
IF OPS1[OP]=0 THEN EV1ERR("Invalid operator");
# EVALUATE OPERATORS OF HIGHER PRECEDENCE WHICH OCCUR TO THE LEFT;
WHILE TOOPS NEQ -1 AND RBIND[TOOPS]>LBND DO BEGIN
PSH(OPSTACK[TOOPS]); EVAL1; TOOPS←TOOPS-1 END;
# CHECK FOR "[" OR ")" OR "]" AND PROCEDURES, ARRAYS, STRINGS;
IF OP=")" THEN BEGIN
IF TOOPS<0 THEN EV1ERR("Too many )");
IF (REFIT←OPSTACK[TOOPS])="(" # OP NUMBER OF LEFT PAREN "(";
THEN TOOPS←TOOPS-1
ELSE IF REFIT LAND PROCB THEN BEGIN "PROCS"
PSH(REFIT); EVAL1; TOOPS←TOOPS-1 END "PROCS" END
ELSE IF OP="]" THEN BEGIN
IF TOOPS<0 THEN EV1ERR("Misplaced ]");
PSH(IF (T←GETTYPE((REFIT←OPSTACK[TOOPS]))) GEQ ARRY THEN
(IF REFIT=REFMEMORY THEN OPMEMORY ELSE OPARRY)
ELSE IF T=STRNG OR T=LSTYPE THEN OPSUBST
ELSE IF T=RCLTYP THEN OPSUBFLD
ELSE 0);
EVAL1; TOOPS←TOOPS-1;
END
ELSE IF OP="[" THEN BEGIN
IF TOS<0 THEN EV1ERR("Misplaced [");
IF (T←GETTYPE((REFIT←STACK[TOS]))) GEQ ARRY OR T=STRNG OR T=RCLTYP
OR T=LSTYPE THEN BEGIN OPPSH(REFIT,0); STACK[TOS]←-1 END
ELSE EV1ERR("Misplaced [");
END
ELSE IF OP=";" THEN BEGIN PSH(OP); EVAL1 END
ELSE IF OP="{" THEN BEGIN
IF ARG="{" THEN LOPARG;
OPPSH("{",0); PSH(-1) END
ELSE IF OP=CH!SETC THEN BEGIN
IF ARG=CH!SETC THEN BEGIN OP←OPLSTC; LOPARG END;
IF TOOPS<0 OR OPSTACK[TOOPS] NEQ "{" THEN EV1ERR("Bad set or list");
PSH(OP); EVAL1; TOOPS←TOOPS-1 END
ELSE OPPSH(OP,RBND)
END "SPCHAR"
END "CASES";
BINARYMINUSFLAG←IF CLASS NEQ SPCHAR OR OP=")" OR OP="]" THEN TRUE
ELSE FALSE
END "PARSE";
RETURN(STACK[0])
END "EVAL";
�# SETSCOPE !!STEP !!GSTEP !!GOTO CLNRET !!UP Q!BRECOV P!BRECOV;
INTEGER NXTINSTR,PCSHADOW;
INTERNAL PROCEDURE SETSCOPE(ITEMVAR PROCITM); BEGIN "SETSCOPE"
DEFINE PCW=['23],ACF=['15],ACP=['22],STATUS=['30];
INTEGER PB;
IF TYPEIT(PROCITM) NEQ '11 THEN EV1ERR("Not a process item");
START!CODE EXTERNAL INTEGER DATM;
MOVE 3,PROCITM; # PB←DATUM(PROCITM);
MOVE 5,@DATM; # PROCITM must be untyped to work at runtime;
MOVEM 5,PB; # but compiler gives message UNTYPED ITEMVAR;
END;
IF (PB LAND '1000000) OR MEMORY[PB+STATUS]=2 THEN
EV1ERR("Terminated");
GETLSCOPE(LCHAIN,LDEPTH,MEMORY[PB+PCW]);
GETDSCOPE(MEMORY[PB+ACF],MEMORY[PB+ACP],MEMORY[PB+PCW],DDEPTH,DCHAIN);
END "SETSCOPE";
INTERNAL PROCEDURE !!STEP; BEGIN STEPIT(PC,STEPINSTR,STEPMASK);
GOTO RET END;
INTERNAL PROCEDURE !!GSTEP; BEGIN STEPIT(PC,GSTEPINSTR,GSTEPMASK);
GOTO RET END;
INTERNAL PROCEDURE !!GOTO(STRING WHERE); BEGIN
PC←LOC!PC(WHERE); FLAGS←FLAGS LOR ('20 LSH 18); # JRST MODE; GOTO RET END;
PROCEDURE Q!BRECOV; GOTO BRECOV;
SIMPLE PROCEDURE CLNRET; BEGIN "CLNRET"
PLANT!BREAKS;
IF CURBRK=N!BK AND NOT(FLAGS LAND '20)
THEN NXTINSTR←MEMORY[PC←PC+1]; # EXPLICIT USER CALL;
ARRTRAN(TEMP!ACS,SAVED!ACS); # RESTORE ACS;
START!CODE LABEL LUP1,SIM1,SIMI2,SIM2,SIMDON;
DEFINE T1=['13],T2=['14],T3=['15];
SOS BKLEV;
MOVE T1,PCSHADOW;
MOVEM T1,-1(F); # CORRECT THE FAKE RETURN ADDR;
MOVS T1,FLAGS;
TLZ T1,'37;
HRRI T1,TRAP[1];
MOVEM T1,TRAP[0]; # JRSTF @[FLAGS,,TRAP[1]] RESUMES;
HRRZ T2,PC;
TLO T2,'254000; # JRST;
MOVSI T3,-6;
LUP1: MOVEM T2,TRAP[1](T3); # JRST PC+i IN TRAP[i+1];
ADDI T2,1;
AOBJN T3,LUP1;
HRRI T1,-5(T2); # FLAGS,,PC+1;
MOVEM T1,TRAP[7]; # RETURN WORD TO BE PUSHED;
MOVE T2,NXTINSTR;
MOVEM T2,TRAP[1]; # DONE FOR USUSAL CASE, NOW CHECK SUBROUTINE CALLS;
MOVE T3,T2; # COPY OF NEXT INSTR;
LDB T1,[('331100 LSH 18)+T2]; # 9 BIT OPCODE;
CAIE T1,'260; # PUSHJ;
JRST SIM1;
TLZ T3,'000037; # CLEAR INDEX AND INDIR;
TLO T3,'261000; # TURN INTO PUSH;
HRRI T3,TRAP[7];
MOVEM T3,TRAP[1]; # FIRST HALF: PUSH RETURN WORD;
TLZ T2,'777740; # LEAVE INDEX AND INDIR;
TLO T2,'254000; # TURN INTO JRST;
MOVEM T2,TRAP[2]; # SECOND HALF: JUMP TO DESTINATION;
SIM1: CAIE T1,'264; # JSR;
JRST SIM2;
TLZ T2,'777740; # LEAVE ONLY INDIRECT AND INDEX;
TLO T2,'202040; # MOVEM 1,;
MOVEM T2,TRAP[1]; # SAVE AC1 IN JSR DESTINATION;
MOVE T3,SIMI2;
MOVEM T3,TRAP[2]; # GET ACTUAL RETURN WORD IN AC1;
TLC T2,'052000; # TURN MOVEM INTO EXCH;
MOVEM T2,TRAP[3]; # PLANT RETURN WORD, RETRIEVE AC1;
TLO T2,'254000; # TURN EXCH INTO JRST;
HRRI T2,1(T2); # AND INCREMENT ADDR;
MOVEM T2,TRAP[4];
SIMI2: MOVE 1,TRAP[7]; # A LITERAL;
SIM2: CAIE T1,'265; # JSP;
JRST SIMDON;
TLZ T3,'777037; # LEAVE ONLY AC;
TLO T3,'200000; # MOVE;
HRRI T3,TRAP[7];
MOVEM T3,TRAP[1]; # PLACE RETURN WORD IN AC;
TLZ T2,'777740; # LEAVE INDEX AND INDIR;
TLO T2,'254000; # JRST;
MOVEM T2,TRAP[2];
SIMDON: END;
END "CLNRET";
CLEANUP CLNRET;
INTERNAL PROCEDURE !!UP(INTEGER LEVEL); BEGIN "!!UP"
# PEEL BACK TO LEVEL (CF SETLEX);
OWN INTEGER BACKF,PC;
LEVEL←0 MAX LEVEL MIN DDEPTH; # Clip bounds;
WHILE (BACKF←DCHAIN[LEVEL,0])<0 DO LEVEL←LEVEL+1; # AVOID GOING TO SIMPLE LEVEL;
PC←DCHAIN[LEVEL,1]+1;
START!CODE DEFINE LPSA=['13];
LABEL LUP,DUN,DUN1; EXTERNAL INTEGER STKUWD;
LUP: HRRZ LPSA,BACKF; # DESIRED DESTINATION;
CAIN LPSA,(F); # VS. CURRENT;
JRST DUN;
HRRZ LPSA,(F); # UP DYNAMIC LINK;
HLRO LPSA,1(LPSA); # LEVEL 777777,,PDA -- THUS NO DEALLOCATION AT DEST;
HRLM F,BACKF; # REMEMBER F BEFORE STKUWD;
PUSHJ P,STKUWD; # ATTEMPT IT;
HLRZ LPSA,BACKF; # OLD F;
CAIE LPSA,(F); # VS. CURRENT;
JRST LUP; # MADE IT;
HRRZ LPSA,(F); # DIDN'T MAKE IT, MUST FORCE IT;
HLRZ LPSA,1(LPSA); # LEVEL 0,,PDA -- THUS EVERYTHING DEALLOCATED;
PUSHJ P,STKUWD; # DEALLOCATE;
HRRZ F,(F); # FORCE BACK;
JRST LUP;
DUN: # RESTORE ACS IF F REGISTER MATCHES;
HRRZ LPSA,TEMP!ACS[F];
CAIE LPSA,(F);
JRST DUN1; # DON'T KNOW WHAT'S GOING ON HERE;
MOVSI '17,TEMP!ACS[0];
BLT '17,'17;
DUN1: PUSH P,PC;
JRST BAIL;
END;
END "!!UP";
SIMPLE INTEGER PROCEDURE P!BRECOV(INTEGER LOC; STRING MSG,RSP); BEGIN
LABEL PRUNE;
!ERRJ!←LOCATION(PRUNE); RETURN("C"+(2 LSH 18)); # CONTINUE, INHIBIT Called from;
PRUNE: !ERRP! SWAP !RECOVERY!;
START!CODE LABEL LUP; DEFINE T2=['14],T1=['13],T3=['15];
MOVEI T2,Q!BRECOV; # ENTRY ADDR;
PUSH P,T2;
PUSHJ P,PDFIND; # AC1←PDA;
HRRZ T3,PD!PPD(1); # PARENT'S PDA;
MOVEI T2,(F);
LUP: HRRZ T2,(T2); # UP DYNAMIC LINK;
HLRZ T1,1(T2); # PDA FROM STACK;
CAIE T1,(T3);
JRST LUP;
PUSH P,F; # NEW DYNAMIC LINK;
HRLI T2,(1);
PUSH P,T2; # PDA,,STATIC LINK;
PUSH P,SP;
HLRZ T2,PD!PPD(1);
JRST (T2); # PCNT AT MKSEMT;
END;
END;
ARRTRAN(SAVED!ACS,TEMP!ACS); # RECURSIVE SAVE;
# There are three modes of calling: explicit user call via PUSHJ P,BAIL,
call from a BAIL-planted breakpoint via PUSHJ P,BAIL with a displaced
instruction, and "JRST MODE" in which a fake return word is put on the
stack and then JRST BAIL. In the case of JRST, the '20 bit is on
(otherwise illegal as a flag bit);
IF (FLAGS←LEFT(TRAP[0])) LAND '20
THEN BEGIN PC←RIGHT(TRAP[0]); CURBRK←N!BK END
ELSE BEGIN
PC←RIGHT(TRAP[0])-1;
NOHAND([
CURBRK←-1; WHILE (CURBRK←CURBRK+1)<N!BK AND RIGHT(BK!LOC[CURBRK])
NEQ PC DO;
]) # NOHAND;
HAND([
START!CODE LABEL LOOP;
DEFINE KEY=[0],I=['14];
MOVSI I,-N!BK;
LOOP:HRRZ KEY,BK!LOC[0](I);
CAME KEY,PC;
AOBJN I,LOOP;
HRRZM I,CURBRK;
END;]) # HAND;
END;
START!CODE DEFINE T=['14];
AOS BKLEV; # RECURSION LEVEL;
MOVE T,PC; # Make it look like BAILOR was called from;
MOVEI T,1(T); # PC rather than BAIL+16, but remember return;
HLL T,-1(F); # word so that CLNRET can put it back together;
EXCH T,-1(F);
MOVEM T,PCSHADOW;
END;
CLRTBK(PC); # CLEAR TEMPORARY BREAKPOINTS;
UNPLANT!BREAKS;
NXTINSTR←MEMORY[PC];
DISPLVL←0;
!RECOVERY!←LOCATION(P!BRECOV); # GOTO BRECOV IF BAIL ERRORS OCCUR;
GETLSCOPE(LCHAIN,LDEPTH,PC);
IF (CURBRK=N!BK) THEN # EXPLICIT USER CALL;
GETDSCOPE(SAVED!ACS[F],SAVED!ACS[P],PC,DDEPTH,DCHAIN)
ELSE BEGIN # BAIL-PLANTED BREAKPOINT;
IF LEFT(NXTINSTR)='551517 THEN
# '551517 IS THE LEFT HALF OF HRRZI F,(P). IF THE BROKEN INSTR
IS THIS, ASSUME THAT WE HAVE BROKEN A NON-SIMPLE PROCEDURE AND THAT
THE INSTR IS THE ONE THAT SETS THE F REGISTER. IN ORDER TO MAKE
PARAMETER ACCESSING CONSISTENT WITH BREAKS INSIDE THE PROCEDURE,
SET UP SAVED!ACS AS IF THE HRRZI HAD BEEN EXECUTED;
SAVED!ACS[F]←RIGHT(SAVED!ACS[P])+
(RIGHT(NXTINSTR) LSH 18 ASH -18);
GETDSCOPE(SAVED!ACS[F],SAVED!ACS[P],PC,DDEPTH,DCHAIN);
IF LENGTH(BK!COND[CURBRK]) AND MEMORY[EVAL(BK!COND[CURBRK])]
AND (BK!COUNT[CURBRK]←BK!COUNT[CURBRK]-1)<0 AND
LENGTH(BK!ACT[CURBRK]) THEN EVAL(BK!ACT[CURBRK]) END;
# TELL USER HOW HE GOT HERE, BUT KEEP QUIET IF USER STUFFED REQUEST INTO !!QUERY;
IF NOT(LENGTH(!!QUERY)) THEN
OUTSTR(CRLFCAT(
(IF CURBRK=N!BK OR NOT LENGTH(BK!NAME[CURBRK]) THEN GETTEXT(PC)
ELSE BK!NAME[CURBRK]) ));
BRECOV:
WHILE TRUE DO BEGIN
IF NOT(LENGTH(!!QUERY)) THEN OUTSTR(CRLFCAT(CVS(BKLEV)&":"));
EVAL(LINED) END;
"BREAK RETURN"
RET: # ALL THE WORK IS DONE IN THE CLEANUP;
RETURN
END "BAILOR";
�# BAIL,UBINIT,DDBAIL,B!;
SIMPLE INTERNAL PROCEDURE BAIL; START!CODE "BAIL"
DEFINE TEMP=['14],USER=['15],F=['12];
POP P,TRAP[0];
MOVEM '17,TEMP!ACS['17];
MOVEI '17,TEMP!ACS[0];
BLT '17,TEMP!ACS['16];
MOVE '17,TEMP!ACS['17];
MOVE USER,GOGTAB; # DAMN RUNTIMES AREN'T REENTRANT, MUST SAVE THEIR;
HRRI TEMP,TEMP!ACS['20]; # SAVED ACS;
HRLI TEMP,RACS(USER);
BLT TEMP,TEMP!ACS['20+F];
MOVE TEMP,UUO1(USER); # AND THIS FUNNY RETURN LOCATION;
MOVEM TEMP,TEMP!ACS['20+F+1];
SKIPL BAILOC(USER); # SIGN BIT SET IFF INITIALIZED;
PUSHJ P,STBAIL;
SKIPE BALNK; # IN CASE BAIL LOADED BUT NO /B COMPILATIONS;
PUSHJ P,BAILOR;
MOVE USER,GOGTAB;
MOVE TEMP,TEMP!ACS['20+F+1];
MOVEM TEMP,UUO1(USER);
HRRI TEMP,RACS(USER);
HRLI TEMP,TEMP!ACS['20];
BLT TEMP,RACS+F(USER);
HRLZI '17,TEMP!ACS[0];
BLT '17,'17;
JRSTF @TRAP[0];
END "BAIL";
SIMPLE INTERNAL PROCEDURE DDBAIL; START!CODE
# Break the next location to be executed, except try to diagnose procedure
returns which rely on positive stack displacements. Use a "JRST MODE" break
to avoid problems in case the location is in an upper segment.
For TENEX, this procedure is entered only via ctrl-B pseudo interrupt, since
TENEX always manages to find DDT somehow. For non-TENEX, you get here
when BAIL is your DDT and you say "DDT" to the monitor or "D" to the SAIL
error handler. The assumption is that !JBOPC contains the PC. Thus you
should not say "D" to the SAIL error handler, because the PC will be lost.;
LABEL BOT,LOOP,BOT1,BOT2,SIMSTK,STKCHK,SIMXCT;
NOTENX([
MOVEM 1,TEMP!ACS[1];
MOVEM 2,TEMP!ACS[2];
MOVE 2,!JBOPC;
]) # NOTENX;
TENX([ EXTERNAL INTEGER PS3ACS; # ACS AT INTERRUPT;
MOVEI 1,'400000; # CURRENT FORK;
RIR; # READ INTERRUPT REGISTER?;
MOVSS 2; # CHNTAB,,LEVTAB;
MOVE 2,@2(2); # PC FOR LEVEL 2;
MOVEI 1,PS3ACS; # GET REAL P AND SP FOR A WHILE;
EXCH P,P(1);
EXCH SP,SP(1);
]) # TENX;
# IF LAST INSTR EXECUTED KILLED THE STACK,
THEN MUST ALLOW THE STACK KILL TO FINISH, SINCE
4 INSTR COULD BE INVOLVED (MOVE F,(F) SUB SP,[m,,m]
SUB P,[n,,n] JRST @k(P) ) AND WE DONT WANT
TO BE IN THE MIDDLE;
STKCHK: HLRZ 1,-1(2); # OPCODE HALF OF LAST INSTR;
CAIE 1,'274740; # SUB P,;
CAIN 1,'274700; # SUB SP,;
JRST SIMSTK; # BLETCH, STACK HAS BEEN WIPED;
CAIE 1,'105740; # ADJSP P,;
CAIN 1,'105700; # ADJSP SP,;
JRST SIMSTK; # BLETCH, STACK HAS BEEN WIPED;
CAIE 1,'200512; # MOVE F,(F);
JRST BOT; # WAS OK, NO WORRY;
SIMSTK: HLRZ 1,(2); # GET OPCODE HALF OF NEXT INSTR;
CAIE 1,'105740; # ADJSP P,;
CAIN 1,'105700; # ADJSP SP,;
JRST SIMXCT;
CAIE 1,'274740; # SUB P,;
CAIN 1,'274700; # SUB SP,;
SKIPA; # MUST SIMULATE THIS ONE;
JRST BOT1; # DONE INTERPRETING;
SIMXCT: XCT (2); # DO THE SUBTRACT;
AOJA 2,SIMSTK; # KEEP ON SIMULATING UNTIL NO MORE BAD ONES;
BOT1: CAIE 1,'263740; # POPJ P,;
JRST BOT2;
HRR 2,(P); # MUST SIMULATE THIS ONE, TOO;
SUB P,['1000001];
BOT2: CAIN 1,'254037; # JRST @(P);
HRRI 2,@(2); # AND THIS ONE;
MOVEM 2,!JBOPC; # LEAVE GOOD TRACKS;
BOT: TLO 2,'20; # JRST MODE;
PUSH P,2; # CREATED RETURN WORD;
NOTENX([MOVE 1,TEMP!ACS[1];
MOVE 2,TEMP!ACS[2];
JRST BAIL;
]) # NOTENX;
TENX([ MOVEI 1,'400000; # ALL THIS BALONEY AGAIN;
RIR;
MOVS 1,2;
MOVE 2,!JBOPC;
HRRI 2,BAIL; # THIS IS HOW WE GET INTO BAIL;
MOVEM 2,@2(1);
MOVEI 1,PS3ACS;
EXCH P,P(1); # RESTORE ACS;
EXCH SP,SP(1);
]) # TENX;
END;
FORWARD INTERNAL SIMPLE PROCEDURE B!;
SIMPLE PROCEDURE UBINIT; BEGIN # TRY TO LIVE WITH RESETS AND SAVED CORE IMAGES;
# USERCON(BAILOC,#SKIP#←LOCATION(BAIL),TRUE); # INFORM ERROR HANDLER WE ARE HERE;
GOGTAB[BAILOC]←LOCATION(BAIL);
C!NAME←C!BLKADR←C!CRDIDX←0; BAIJFN←TMPJFN←-1;
NOTENX([ # SET !JBDDT IF NOT ALREADY SET;
DEFINE SETDDT=['047000000002];
START!CODE
MOVEI 1,DDBAIL;
SKIPN !JBDDT;
SETZM !JBSYM; # WE REALLY DONT HAVE SYMBOLS;
SKIPE 2,!JBDDT;
CAIN 2,B!; # IF (.JBDDT)=B., THEN RESET IT ANYWAY;
SETDDT 1,0;
END;
]) # NOTENX;
TENX([
PSIMAP(34,DDBAIL,0,3); # USE CHANNEL 34, GOTO DDBAIL, , LEVEL 3;
ENABLE(34); ATI(34,"B"-'100); # <ctrl>B !!!!!!!!;
]) # TENX;
END;
REQUIRE UBINIT INITIALIZATION [0];
INTERNAL SIMPLE PROCEDURE B!;
BEGIN
COMMENT
The location B! (B. in DDT or RAID) is meant to be
a universal entry to BAIL from DDT. By typing B.$G, we get
to BAIL. Upon exit from BAIL, we return to DDT.
The main problem is that if the core image is
not initialized by the SAILOR call, then we must initialize it.
Non-TENEX sites: When loaded, .JBDDT (location '74) will be set to LOCATION(B.)
by some external means. This is so that GET followed by DD works. Attempt to
!!GO from this first entry will start the program.
;
INTEGER SAVE13,OJOBSA;
EXTERNAL INTEGER !JBSA,SAILOR;
LABEL DOINIT,GO,B!DDT;
DEFINE ! = [COMMENT];
DEFINE P=['17],SP=['16],RF=['12];
START!CODE
MOVEM '13,SAVE13;
MOVE '13,!JBSA;
MOVEM '13,OJOBSA; ! SAVE IT;
MOVS '13,('13); ! GET THE CONTENTS OF THE STARTING
ADDRESS;
SKIPE SAILOR; # ANOTHER CONDITION WHICH FORCES INITIALIZATION;
CAIN '13,'334000; ! IS IT THE ORIGINAL STARTING ADDRESS?;
JRST DOINIT; ! GO THRU SAIL INITIALIZATION;
GO: MOVE '13,SAVE13;
ADD P,['12000012]; ! ADD A FEW LOCATIONS TO THE P STACK;
PUSHJ P,BAIL; ! CALL BAIL;
SUB P,['12000012];
B!DDT:
HRRZ '13,!JBDDT;
SKIPE '13; # IF !JBDDT=0 THEN WE ARE AT FUNNY TENEX;
CAIN '13,B!; # IF !JBDDT=B. THEN USER TYPED GET THEN DDT;
HRRZ '13,!JBSA; # IN EITHER CASE, START PROGRAM;
JRST ('13);
DOINIT: JSR SAILOR; ! INITIALIZE;
HRLOI RF,1; ! SET UP RF;
PUSH P,RF;
HRRZ '13,OJOBSA; # OLD STARTING ADDRESS;
PUSH P,@4('13); # PDA,,0 FOR OUTER BLOCK;
PUSH P,SP;
HRRI RF,-2(P);
HRRZ '13,OJOBSA; ! GET THE OLD STARTING ADDRESS;
ADDI '13,3; ! ADD 3;
HRLI '13,'310000; ! PUT A "CAM" ON THE LEFT ;
MOVEM '13,SAILOR; ! CONVINCE IT THAT THIS IS
THE USER'S STARTING ADDRESS;
MOVE '13,SAVE13; ! GET BACK 13;
PUSHJ P,BAIL; ! CALL SDDT;
SUB P,['3000003]; ! ADJUST P STACK, FOR PUSHING DONE ABOVE;
JRST B!DDT; ! RETURN TO DDT (PRESUMABLY);
END; ! OF START!CODE;
END;
NOTENX([
PROCEDURE DDT; START!CODE LABEL DUMB,DONE;
DEC([ LABEL FNDDDT; ])
SUAI([ LABEL PRAID; ])
EXTERNAL INTEGER OUTSTR;
DEC([
HRRZ 1,!JBCST; # "SDDT" PUTS DDT START ADDR HERE;
JUMPN 1,FNDDDT;
]) # DEC;
HRRZ 1,!JBDDT; # PICK UP ADDRESS;
CAIN 1,DDBAIL;
JRST DUMB;
DEC([
FNDDDT:
PUSH SP,[29];
PUSH SP,["
DDT (POPJ 17,$X to return)"];
PUSHJ P,OUTSTR;
]) # DEC;
SUAI([
MOVEI 2,["
DDT. αP or POPJ 17,$X to return."];
PUSH SP,-1(2);
PUSH SP,(2);
PUSHJ P,OUTSTR;
MOVE 2,-1('12); # RETURN WD FOR THIS PROCEDURE, FLAGS IN LH;
HRRI 2,PRAID; # FAKE RETURN ADDR;
MOVEM 2,!JBOPC; # SO <CTRL>P WORKS FROM RAID;
]) # SUAI;
PUSHJ P,(1);
JRST DONE;
SUAI([
PRAID: POPJ P,; # A "LITERAL";
]) # SUAI;
DUMB: PUSH SP,[18];
PUSH SP,["
BAIL is your DDT"];
PUSHJ P,OUTSTR;
DONE: END;
]) # NOTENX;
TENX([
PROCEDURE DDT;
COMMENT
Call from SAIL to go to DDT on a TENEX system.
Tries several ways.;
BEGIN
DEFINE DDTORG=['770000],
DDTPAGE=['770];
SIMPLE PROCEDURE GO1(INTEGER ADDR);
BEGIN
OUTSTR("
DDT POPJ 17,$x to return
");
START!CODE PUSHJ P,@ADDR; END;
END;
SIMPLE BOOLEAN PROCEDURE PAGE!EXISTS(INTEGER PAGE);
START!CODE
MOVE 1,PAGE;
HRLI 1,'400000;
RPACS;
TLNE 2,'010000;
SKIPA 1,[-1];
SETZ 1,;
END;
IF !JBDDT AND RIGHT(!JBDDT) NEQ LOCATION(DDBAIL)
THEN GO1(!JBDDT LAND '777777)
ELSE
BEGIN
IF PAGE!EXISTS(DDTPAGE) AND MEMORY[DDTORG]='254000000000+DDTORG+2 THEN
GO1(DDTORG+2) ELSE
BEGIN
INTEGER JFN;
JFN ← GTJFN("<SAIL>UDDT.SAV",'100000000000);
IF JFN=-1 THEN JFN ← GTJFN("<SUBSYS>UDDT.SAV",'100000000000);
IF JFN=-1 THEN NONFATAL("CANNOT GO TO DDT") ELSE
BEGIN
START!CODE
PUSH P,JFN;
PUSHJ P,CVJFN;
HRLI 1,'400000;
GET;
END;
COMMENT MOVE UP SYMBOL TABLE POINTER;
MEMORY[MEMORY[DDTORG+1]]←!JBSYM;
GO1(DDTORG+2);
END;
END;
END;
END;
END;
]) # TENX;
END "BILGE"