File perq-pascal-lisp-project/pas0.save artifact 32c96d71fe part of check-in 3af273af29


#padtwv (* PreProcessor Version - Run  through Filter *)
#p      (* PERQ version *)
#a      (* Apollo Version *)
#d      (* DEC-20 Version *)
#t      (* Terak Version *)
#w      (* Wicat Version *)
#v      (* VAX version *)
(*********************************************************************
                                    
                PASCAL BASED MINI-LISP

 File:  PAS0.PAS - PASCAL/LISP KERNEL
 ChangeHistory:
    9 Dec 81, RO: Remove apollo specific I/O.
    1 Dec 81  RO: I/O fixes for wicat & fixnum bug
   14 Nov 81, MLG:add some PERQ updates from Voelker
   28 Oct 81, RO: GENSYM & fixnum gc
 
   All RIGHTS RESERVED
   COPYRIGHT (C) - 1981 - M. L. Griss and R. Ottenheimer
   Computer Science Department
           University of Utah

           Do Not distribute with out written consent of M. L. Griss

********************************************************************)

#t (*$S+*) (* swapping mode *)
#t (*$G+*) (* goto is legal *)

#adtvw PROGRAM pas0 ; (* (input*,output) *)
#p    PROGRAM pas0 (input,output, symin, finput,foutput);
    (************************************************************)
    (* support routines for a "lisp" machine.  uses a register  *)
    (* model with a stack for holding frames.  stack also used  *)
    (* to hold compiler generated constants.                    *)
    (* written by:                                              *)
    (*      william f. galway, martin l. griss                  *)
    (*      ralph ottenheimer                                   *)
    (* append pas1...pasn at  end                               *)
    (* -------------------------------------------------------- *)
    (* symin is input channel one--used to initialize "symbol   *)
    (* table".  input is input channel two--standard input.     *)
    (* output is output channel one--the standard output.       *)
    (* finput is file input channel three.                      *)
    (* foutput is file output channel four.                     *)
    (************************************************************)
#a (* Apollo System include files *)
#a %include '/sys/ins/base.ins.pas';
#a %include '/sys/ins/base_transition.ins.pas';
#a %include '/sys/ins/streams.ins.pas';
#a %include '/sys/ins/pgm.ins.pas';


#p imports Stream from Stream;
#p imports system from system;
#p imports io_others from io_others;
#p imports io_unit from io_unit;

    (************************************************************)

CONST
#aptv    (* for terak, perq, Apollo, vax  *)
#aptvw sp = ' '; 
#aptvw ht = 9;          (* ascii codes *)
#aptvw lf = 10;
#aptvw cr = 13; 
#aptvw nul = 0;

#d    eos = nul;      (* terminator character for strings. *)
#t    (* use eos=chr(nul)  *)
#av  eos=chr(nul) ;
#pw  eos = chr(0);        (* KLUDGE: null string *)
#adtwpv   inchns = 3;       (* number of input channels.  *)
#adtwpv   outchns = 2;      (* number of output channels. *)
    begin_comment = '%';

(* Initial symbols, needed in Kernel *)
    xtoktype  = 129;  (* slot in idspace for toktype. *)
    xbstack   = 130;  (* Bstack Pointer *)
    xthrowing = 131;  (* If throw mode *)
    xinitform = 132;  (* for restart *)
    xraise    = 133;  (* for RAISE of lc in ids *)
    Xinput    = 134;  (* For Open *)
    Xoutput   = 135;  (* For Open *)
    chartype  =  3;   (* various token types *)
    inttype  =  1;
    idtype  =  2;

    max_gsym = 4;       (* number of digits in gen'd id. *)

#dt  shift_const = 8192; (* tags and info are packed into an integer *)
#av shift_const = 4096;
#p   (* no shift const *)
#w   (* no shift const *)
    (* assumed to be at least 16 bits long.  low order 13 bits  *)
    (* are the info, top 3 are the tag.                         *)
#dt    int_offset = 4096;  (* small integers are stored 0..8191    *)
#av    int_offset = 2048;  (* small integers are stored -2048..2047 *)
#pw     int_offset = 32767; (* PERQ and WICAT items are records *)
#dt (* instead of -4096..4095 because it will pack smaller      *)
#dt (* under ucsd pascal.                                       *)

    (* the various tags - can't use a defined scalar type *)
    (* because of the lack of convertion functions.       *)
    inttag = 0;    (* info is an integer                  *)
    chartag = 1;   (* info is a character code            *)
    pairtag = 2;   (* info points to pair                 *)
    idtag = 3;     (* info points to identifier           *)
    codetag = 4;   (* info is index into a case statement *)
    (*                that calls appropriate function.    *)
    errtag = 5;    (* info is an error code - see below.  *)
    fixtag = 6;    (* info points to a full word (or      *)
    (*                longer) integer.                    *)
    flotag = 7;    (* info points to a float number.      *)

    (* error codes.  corresponding to tag = errtag.  *)
    noprspace = 1;    (* no more "pair space"--can't cons. *)
    notpair = 2;      (* a pair operation attempted on a non-pair. *)
    noidspace = 3;    (* no more free identifiers *)
    undefined = 4;    (* used to mark undefined function cells (etc?) *)
    noint = 5;        (* no free integer space after garbage collection *)
    notid = 6;

     (* data space sizes *)
#adwv    maxpair = 10000;  (* max number of pairs allowed. *)
#p       maxpair = 3700;   (* max number of pairs allowed. *)
#t       maxpair = 1000;   (* max number of pairs allowed *)
#t       maxident = 400;   (* max number of identifiers *)
#adpwv   maxident = 800;   (* max number of identifiers *)
#adpwv   maxstrsp = 4500;  (* size of string (literal) storage space. *)
#t      maxstrsp = 2000;  (* size of string (literal) storage space. *)
    maxintsp = 200;   (* max number of long integers allowed *)
#t  maxflosp = 2;     (* max number of floating numbers allowed *)
#adpwv maxflosp = 50; (* max number of floating numbers allowed *)

    hidmax = 50;      (* number of hash values for identifiers *)
    maxgcstk = 100;   (* size of garbage collection stack.    *)
    stksize = 500;    (* stack size *)
    maxreg = 15;      (* number of registers in lisp machine. *)

    eofcode = 26;     (* magic character code for eof, ascii for *)
    (*  cntrl-z.  kludge, see note in xrdtok.  *)
    choffset = 1;     (* add choffset to ascii code to get address  *)
    (* in id space for corresponding identifier.  *)
    nillnk = 0;       (* when integers are used as pointers.  *)
    end_flag = maxint;  (* marks end of fixnum space *)

    (************************************************************)

TYPE
#w   regblk_type:array[0..16] of longint;
#d   onechar = ascii;     (* for DEC *)
#aptvw    onechar = char;     (* for terak,perq,Apollo,Wicat*)
#a   real= integer32;        (* Kludge, no reals yet *)
#p   FileName= String;       (* For PERQ FileName *)
#atwv FileName=Packed ARRAY[0..8] of onechar;
#d    FileName=Packed ARRAY[1..9] of onechar;
    (* note we allow zero for id_ptr, allowing a "nil" link. *)

    stringp = 1..maxstrsp;        (* pointer into string space. *)
    id_ptr = 0..maxident;            (* pointer into id space. *)

#adtv    itemref = integer;
#pw      itemref = RECORD
#pw                tag:integer;
#pw                info:integer;
#pw                END;
    itemtype = 0..7;    (* the tags *)


    pair = PACKED RECORD
                      prcar: itemref;
                      prcdr: itemref;
        (* OLD        markflag:boolean , but wastes space *)
                  END;


#aw       ascfile = text;
#dptv    ascfile = PACKED FILE OF onechar;
#d       textfile =PACKED FILE of char;
#a      (* No PASCAL file I/O yet *)

    ident = PACKED RECORD           (* identifier *)
                       idname: stringp;
                       val: itemref;       (* value *)
                       plist: itemref;     (* property list *)
                       funcell: itemref;   (* function cell *)
                       idhlink: id_ptr;    (* hash link *)
                   END;
#dptvw   longint = integer;
#a       longint = integer; (* Should be integer32  ? *)

    (************************************************************)

VAR
    (* global information *)
    nilref, trueref, tmpref: itemref; 
    (* refers to identifiers "nil", "t", and a temp to get around bug in. *)
    (* apollo & wicat pascal *)
    initphase: integer;                (* Start up *)
#adpvw r: ARRAY[1..maxreg] OF itemref;
#t     r: ARRAY[0..maxreg] OF itemref;  (* cuts code size down *)
    rxx,ryy: itemref;

#tw  CHARCNT: INTEGER;   (* input buffer & pointer *)
#tw  LINE: STRING;

    (* "st" is the stack pointer into "stk".  it counts the number of  *)
    (* items on the stack, so it runs from zero while the stack starts *)
    (* at one.                                                         *)
    st: 0..stksize;
    stk: ARRAY[1..stksize] OF itemref;

    (* pair space *)
    prspace: PACKED ARRAY[1..maxpair] OF pair; (* all pairs stored here. *)
    freepair: integer;          (* pointer to next free pair in prspace. *)

    (* identifier space *)
    idhead: ARRAY[0..hidmax] OF id_ptr;
    idspace: PACKED ARRAY[1..maxident] OF ident;
    freeident: integer;
    g_sym: ARRAY[1..max_gsym] OF onechar;

    (* string space *)
    strspace: PACKED ARRAY[1..maxstrsp] OF onechar;
    freestr: stringp;

    (* large integer space *)
    intspace: ARRAY[1..maxintsp] OF longint;    (* use long int on terak *)
    freeint: 1..maxintsp;

    (* floating point number space *)
    flospace: ARRAY[1..maxflosp] OF real;
    freefloat: 1..maxflosp;

    (* i/o channels *)
#p  (* files declared on header *)
#adptvw    symin: ascfile;
#adptvw    finput : ascfile;
#aptvw    foutput: ascfile;
#d       foutput: textfile;
#d  input: ascfile;
#a  IoStatus:Integer32;
    inchnl: 1..inchns;      (* current input channel number  *)
    outchnl: 1..outchns;    (* current output channel number *)

    (* "current character" for each input channel.                    *)
    (* may want to include more than one character at some later date *)
    (* (for more lookahead).                                          *)
    ichrbuf: ARRAY[1..inchns] OF onechar;

    (* for collecting statistics. *)
    gccount: integer;           (* counts garbage collections *)
    (* counts from last garbage collection. *)
    consknt: integer;           (* number of times "cons" called *)



(* ........ Everything nested inside CATCH *)

#w procedure _setjmp(var regblk:regblk_type);external;
#w procedure _long_jump(var regblk:regblk_type);external;

Procedure Xcatch;  (* ----------- Outermost Procedure ----------- *)
#adv LABEL 9999;
#w  (* need to use special ASM68 procedures for Wicat *)
 var catch_stk:0..stksize;
     catch_Bstk:itemref;
#w   Catch_regs:regblk_type;

#t Procedure xeval;
#t  Forward;
PROCEDURE xread;
    FORWARD;

PROCEDURE xprint;
    FORWARD;

PROCEDURE xunbindto;
    FORWARD;

PROCEDURE xeval;
    FORWARD;

 Procedure Xthrow;
    begin (* throw value *)
        idspace[Xthrowing].val := trueref;
#dav     goto 9999
#w       _long_jump(Catch_regs);
#tp      exit(xeval)
    end (* throw *);
#p (* Special handlers *)
#p Handler CtlC;  (* ------- handle runaway aborts ------- *)

#p begin
#p    write('^C');
#p    IOKeyClear;
#p    IObeep;
#p    if initphase > 1 then Xthrow;
#p end;

    (********************************************************)
    (*                                                      *)
    (*             item selectors & constructors            *)
    (*                                                      *)
    (********************************************************)

#a (* use some SHIFTS ? *)

FUNCTION tag_of(item: itemref): itemtype;
#t       VAR gettag: PACKED RECORD
#t                   CASE boolean OF
#t                   TRUE: (i: itemref);
#t                   FALSE: (info: 0..8191;
#t                           tag: 0..7)
#t               END;

    BEGIN (* tag_of *)
#t    gettag.i := item;
#t    tag_of := gettag.tag
#adv    tag_of := item DIV shift_const;
#pw       tag_of := item.tag;
    END;
    (* tag_of *)

FUNCTION info_of(item: itemref): integer;
#t       VAR getinfo: PACKED RECORD
#t                   CASE boolean OF
#t                   TRUE: (i: itemref);
#t                   FALSE: (info: 0..8191;
#t                           tag: 0..7)
#t               END;

 BEGIN (* info_of *)
#t    getinfo.i := item;
#t    if getinfo.tag = inttag then
#t        info_of := getinfo.info - int_offset
#t    else info_of := getinfo.info
#adv  IF item DIV shift_const = inttag THEN
#adv      info_of := item MOD shift_const - int_offset
#adv  ELSE
#adv      info_of := item MOD shift_const
#pw   info_of := item.info
    END;
    (* info_of *)

FUNCTION xnull(item: itemref): boolean;
    BEGIN
    xnull := (tag_of(item) = tag_of(nilref)) AND 
             (info_of(item) = info_of(nilref))
    END;


PROCEDURE mkitem(tag: itemtype; info: longint; VAR item: itemref);
    (* do range checking on info. ints run from -4096 to +4095 *)
    (* everything else runs from 0 to 8191. ints & chars       *)
    (* contain their info, all others points into an           *)
    (* appropriate space.                                      *)

    PROCEDURE mkfixint;
        VAR nextfree: integer;

        PROCEDURE gc_int;
            VAR i: integer;
            mark_flag: PACKED ARRAY[1..maxintsp] OF boolean;


            PROCEDURE mark(u: itemref);
                BEGIN (* Mark *)
                IF tag_of(u) = pairtag THEN
                    BEGIN
                    mark(prspace[info_of(u)].prcar);
                    mark(prspace[info_of(u)].prcdr)
                    END
                ELSE IF tag_of(u) = fixtag THEN
                    mark_flag[info_of(u)] := true
                END (* Mark *);

            BEGIN (* Gc_int *)
            writeln('*** Gc int');
            FOR i := 1 TO maxintsp do   (* clear mark flags *)
                mark_flag[i] := false;

            FOR i := 1 TO st DO             (* mark from the stack *)
                Mark(stk[i]);

            FOR i := 1 TO maxident DO       (* mark from the symbol table *)
                BEGIN
                Mark(idspace[i].val);
                Mark(idspace[i].plist);
                Mark(idspace[i].funcell)        (* probably NOT necessary *)
                END;

            (* reconstruct free list *)
            FOR i := 1 TO maxintsp - 1 DO
                IF NOT mark_flag[i] THEN
                    BEGIN
                    intspace[i] := freeint;
                    freeint := i
                    END
            END (* Gc_int *);

        BEGIN (* mkfixint *)
        IF intspace[freeint] = end_flag THEN 
            gc_int;    (* garbage collect intspace *)

        IF intspace[freeint] <> end_flag THEN 
            BEGIN    (* convert to fixnum *)
            tag := fixtag;
            nextfree := intspace[freeint];
            intspace[freeint] := info;
            info := freeint;        (* since we want the pointer *)
            freeint := nextfree
            END
        ELSE
            BEGIN mkitem(errtag,noint, r[1]);
            writeln('***** Integer space exhausted')
            END
        END;
        (* mkfixint *)


    BEGIN (* mkitem *)
    IF tag = inttag THEN
#pw     BEGIN
        IF (info < -int_offset) OR (info > int_offset - 1) THEN mkfixint
#adtv   ELSE info := info + int_offset    (* info was in range so add offset *)
#pw     END
    ELSE IF tag = fixtag THEN mkfixint

         ELSE IF info < 0 THEN
                  BEGIN
                  writeln('*****MKITEM: BAD NEG');
#d                break(output); 
#dtv              halt;
#p                exit(pas0);
#a                pgm_$exit;
                  END;
    (* nothing special to do for other types *)

    (* pack tag and info into 16-bit item.   *)
#adtv    item := tag * shift_const + info
#pw      item.tag := tag;
#pw      item.info := info
    END;
    (* mkitem *)

PROCEDURE mkerr(info: longint; VAR item: itemref);
 Begin
     mkitem(errtag,info,item);
 End;


PROCEDURE set_info(VAR item: itemref; newinfo: longint);
    BEGIN (* set_info *)
    mkitem(tag_of(item), newinfo, item)
    END;
    (* set_info *)

PROCEDURE set_tag(VAR item: itemref; newtag: itemtype);
    BEGIN (* set_tag *)
    mkitem(newtag, info_of(item), item)
    END;
    (* set_tag *)

PROCEDURE mkident(id: integer; reg: integer);
    (* make identifier "id" in register "reg" *)
    BEGIN       (* mkident *)
    mkitem(idtag, id, r[reg]);
    END;
    (* mkident *)

PROCEDURE mkint(int: longint; reg: integer);
    BEGIN       (* mkint *)
    mkitem(inttag, int, r[reg]);
    END;
    (* mkint *)

PROCEDURE mkpair(pr: integer; reg: integer);
    BEGIN (* mkpair *)
    mkitem(pairtag, pr, r[reg])
    END;
    (* mkpair *)

PROCEDURE int_val(item: itemref; VAR number: longint);
    (* returns integer value of item (int or fixnum). *)
    (* must return 'number' in var parameter instead  *)
    (* of function value since long integers are not  *)
    (* a legal function type in ucsd pascal.          *)
    BEGIN (* int_val *)
    IF tag_of(item) = inttag THEN
        number := info_of(item)
    ELSE IF tag_of(item) = fixtag THEN
             number := intspace[info_of(item)]
    ELSE writeln('***** ILLEGAL DATA TYPE FOR NUMERIC OPERATION')
        (* halt or fatal error *)
    END;
    (* int_val *)


    (********************************************************)
    (*                                                      *)
    (*                  stack allocation                    *)
    (*                                                      *)
    (********************************************************)

PROCEDURE alloc(n: integer);
    BEGIN
    IF n + st <= stksize THEN
        st := n+st
    ELSE
        BEGIN
        writeln('*****LISP STACK OVERFLOW');
        writeln('     TRIED TO ALLOCATE ',n);
        writeln('     CURRENT STACK TOP IS ',st);
#d      break(output);
        END;
    END;

PROCEDURE dealloc(n: integer);
    BEGIN
    IF st - n >= 0 THEN
        st := st - n
    ELSE
        writeln('*****LISP STACK UNDERFLOW');
    END;

    (* optimized allocs *)

PROCEDURE alloc1;
    BEGIN alloc(1) END;

PROCEDURE dealloc1;
    BEGIN dealloc(1) END;

PROCEDURE alloc2;
    BEGIN alloc(2) END;

PROCEDURE dealloc2;
    BEGIN dealloc(2) END;

PROCEDURE alloc3;
    BEGIN alloc(3) END;

PROCEDURE dealloc3;
    BEGIN dealloc(3) END;


    (********************************************************)
    (*                                                      *)
    (*              support for register model              *)
    (*                                                      *)
    (********************************************************)

PROCEDURE load(reg: integer; sloc: integer);
    BEGIN
    IF sloc < 0 THEN r[reg] := r[-sloc]
    ELSE  r[reg] := stk[st-sloc];
    (* will, fix for load (pos,pos) *)
    END;

PROCEDURE store(reg: integer; sloc: integer);
    BEGIN
    stk[st-sloc] := r[reg];
    END;

    (* optimized load/store. *)
PROCEDURE load10;
    BEGIN
    load(1,0);
    END;

PROCEDURE store10;
    BEGIN
    store(1,0);
    END;

PROCEDURE storenil(sloc: integer);
    BEGIN
    stk[st-sloc] := nilref;
    END;

(* Other primitives ?? *)

    (********************************************************)
    (*                                                      *)
    (*              identifier lookup & entry               *)
    (*                                                      *)
    (********************************************************)

function nmhash(nm: stringp): integer;
    CONST
        hashc = 256;
    VAR
        i,tmp: integer;
    BEGIN
    tmp := 0;
    i := 1;     (* get hash code from first three chars of string. *)
    WHILE (i <= 3) AND (strspace[nm+i] <> eos) DO
        BEGIN
        tmp := ord(strspace[nm+i]) + hashc*tmp;
        i := i + 1;
        END;
    nmhash := abs(tmp) MOD hidmax;      (* abs because mod is screwy. *)
    END;

FUNCTION eqstr(s1,s2: stringp): boolean;
    BEGIN
    WHILE (strspace[s1] = strspace[s2]) AND (strspace[s1] <> eos) DO
        BEGIN
        s1 := s1 + 1;
        s2 := s2 + 1;
        END;
    eqstr := (strspace[s1] = strspace[s2]);
    END;

PROCEDURE nmlookup(nm: stringp; VAR found: boolean; VAR hash: integer;
                   VAR loc: itemref);
    (* lookup a name in "identifier space".                                 *)
    (* "hash" returns the hash value for the name.                          *)
    (* "loc" returns the location in the space for the (possibly new)       *)
    (* identifier.                                                          *)
    BEGIN
    hash := nmhash(nm);
    mkitem(idtag, idhead[hash], loc);
    (* default is identifier, but may be "error". *)
    (* start at appropriate hash chain. *)

    found := false;
    WHILE (info_of(loc) <> nillnk) AND (NOT found) DO
        BEGIN
        found := eqstr(nm, idspace[info_of(loc)].idname);
        IF NOT found THEN
            set_info(loc, idspace[info_of(loc)].idhlink);
        (* next id in chain *)
        END;
    IF NOT found THEN               (* find spot for new identifier *)
        BEGIN
        IF freeident=nillnk THEN    (* no more free identifiers. *)
            mkerr( noidspace, loc)
        ELSE
            BEGIN
            set_info(loc, freeident);
            freeident := idspace[freeident].idhlink;
            END;
        END;
    END;

PROCEDURE putnm(nm: stringp; VAR z: itemref; VAR found: boolean);
    (* put a new name into identifier space, or return old location *)
    (* if it's already there.                                       *)
    VAR
        tmp: ident;
        hash: integer;
    BEGIN
    nmlookup(nm, found, hash, z);
    IF (NOT found) AND (tag_of(z) = idtag) THEN
        BEGIN
        tmp.idname := nm;
        tmp.idhlink := idhead[hash];   (* put new ident at head of chain     *)
        tmp.val := nilref;             (* initialize value and property list *)
        tmp.plist := nilref;
        tmp.funcell := nilref;         (* also, the function cell *)
        idhead[hash] := info_of(z);
        idspace[info_of(z)] := tmp;
        END;
    END;

PROCEDURE xfaststat;
    (* give quick summary of statistics gathered *)
    BEGIN
          writeln('CONSES:',consknt);
          writeln('ST    :',st);
#d       break(output)
    END;


    (********************************************************)
    (*                                                      *)
    (*              the garbage collector                   *)
    (*                                                      *)
    (********************************************************)

PROCEDURE xgcollect;
    VAR
        i: integer;
        markedk: integer;   (* counts the number of pairs marked *)
        freedk: integer;    (* counts the number of pairs freed. *)
        gcstkp: 0..maxgcstk; (* note the garbage collection stack   *)
        mxgcstk: 0..maxgcstk;           (* is local to this procedure. *)
        gcstk: ARRAY[1..maxgcstk] OF integer;
        markflag: PACKED ARRAY[1..maxpair] OF boolean;
(* used not to have array here *)
        
    PROCEDURE pushref(pr: itemref);
        (* push the address of an unmarked pair, if that's what it is. *)
        BEGIN
        IF tag_of(pr) = pairtag THEN
            IF NOT markflag[info_of(pr)] THEN  (* was .markflag *)
                BEGIN
                IF gcstkp < maxgcstk THEN
                    BEGIN
                    gcstkp := gcstkp + 1;
                    gcstk[gcstkp] := info_of(pr);
                    IF gcstkp > mxgcstk THEN
                        mxgcstk := gcstkp;
                    END
                ELSE
                    BEGIN
                    writeln('*****GARBAGE STACK OVERFLOW');
#dtv                halt;
#p                  exit(pas0);
#a                pgm_$exit;
                    END;
                END;
        END;

    PROCEDURE mark;
        (* "recursively" mark pairs referred to from gcstk. gcstk is used to *)
        (* simulate recursion.                                               *)
        VAR
            prloc: integer;
        BEGIN
        WHILE gcstkp > 0 DO
            BEGIN
            prloc := gcstk[gcstkp];
            gcstkp := gcstkp - 1;
            markflag[prloc] := true;
(* OLD      prspace[prloc].markflag := true;  *)
            pushref(prspace[prloc].prcdr);
            pushref(prspace[prloc].prcar);  (* trace the car first. *)
            END;
        END;

    BEGIN       (* xgcollect *)
    writeln('***GARBAGE COLLECTOR CALLED');
#d  break(output);
    gccount := gccount + 1;          (* count garbage collections. *)
    xfaststat;   (* give summary of statistics collected *)
    consknt := 0;       (* clear out the cons counter *)
    gcstkp := 0;        (* initialize the garbage stack pointer. *)
    mxgcstk := 0;       (* keeps track of max stack depth. *)

    (* clear markflags *)
    FOR i := 1 TO maxpair DO markflag[i] := false;
    (* OLD: wasnt needed *)
    (* mark things from the "computation" stack. *)
    FOR i := 1 TO st DO
        BEGIN
        pushref(stk[i]);
        mark;
        END;
    (* mark things from identifier space. *)
    FOR i := 1 TO maxident DO
        BEGIN
        pushref(idspace[i].val);
        mark;
        pushref(idspace[i].plist);
        mark;
        pushref(idspace[i].funcell);
        mark;
        END;

    (* reconstruct free list by adding things to the head. *)
    freedk := 0;
    markedk := 0;
    FOR i:= 1 TO maxpair - 1 DO
        BEGIN
        IF markflag[i] THEN
        (* OLD: IF prspace[i].markflag THEN  *)
            BEGIN
            markedk := markedk + 1;
            markflag[i] := false
            (* OLD: prspace[i].markflag := false *)
            END
        ELSE
            BEGIN
            prspace[i].prcar := nilref;
            mkitem(pairtag, freepair, prspace[i].prcdr);
            freepair := i;
            freedk := freedk + 1
            END
        END;
    writeln(freedk,' PAIRS FREED.');
    writeln(markedk,' PAIRS IN USE.');
    writeln('MAX GC STACK WAS ',mxgcstk);
#d  break(output);
    END;
    (* xgcollect *)

    (********************************************************)
    (*                                                      *)
    (*                  lisp primitives                     *)
    (*                                                      *)
    (********************************************************)

    (* return r[1].r[2] in r[1] *)
PROCEDURE xcons;
    VAR p: integer;

    BEGIN
    (* push args onto stack, in case we need to garbage collect the *)
    (* references will be detected.                                 *)
    alloc(2);
    stk[st] := r[1];
    stk[st-1] := r[2];

    IF xNull(prspace[freepair].prcdr) THEN xgcollect;

    p := freepair;
    freepair := info_of(prspace[p].prcdr);
    prspace[p].prcar := stk[st];
    prspace[p].prcdr := stk[st - 1];
    mkpair(p, 1);       (* leave r[1] pointing at new pair. *)

    consknt := consknt + 1;
    dealloc(2);
    END;

PROCEDURE xncons;
    BEGIN r[2] := nilref;
    xcons;
    END;

PROCEDURE xxcons;
    BEGIN rxx := r[1];
    r[1] := r[2];
    r[2] := rxx;
    xcons;
    END;

    (* return car of r[1] in r[1] *)
PROCEDURE xcar;
    BEGIN
    IF tag_of(r[1]) = pairtag THEN
        r[1] := prspace[info_of(r[1])].prcar
    ELSE
        mkerr( notpair, r[1]);
    END;

PROCEDURE xcdr;
    BEGIN
    IF tag_of(r[1]) = pairtag THEN
        r[1] := prspace[info_of(r[1])].prcdr
    ELSE
        mkerr( notpair, r[1]);
    END;

PROCEDURE xrplaca;
    BEGIN
    IF tag_of(r[1]) = pairtag THEN
        prspace[info_of(r[1])].prcar:=r[2]
    ELSE
        mkerr( notpair, r[1]);
    END;

PROCEDURE xrplacd;
    BEGIN
    IF tag_of(r[1]) = pairtag THEN
        prspace[info_of(r[1])].prcdr :=r[2]
    ELSE
        mkerr( notpair, r[1]);
    END;

    (* anyreg car and cdr *)
PROCEDURE anycar(a: itemref; VAR b: itemref);
    BEGIN
    IF tag_of(a) = pairtag THEN
        b := prspace[info_of(a)].prcar
    ELSE
        mkerr( notpair, b);
    END;

PROCEDURE anycdr(a: itemref; VAR b: itemref);
    BEGIN
    IF tag_of(a) = pairtag THEN
        b := prspace[info_of(a)].prcdr
    ELSE
        mkerr( notpair, b);
    END;


    (********************************************************)
    (*                                                      *)
    (*              compress & explode                      *)
    (*                                                      *)
    (********************************************************)

PROCEDURE compress;     (* returns new id from list of chars *)
      VAR i: stringp;
          clist, c: itemref;
          found: boolean;
          int: integer;

    FUNCTION is_int(i: stringp; VAR int: longint): boolean;
        VAR negative, could_be: boolean;

        BEGIN   (* is_int *)
        int := 0;
        could_be := true;
        negative := strspace[i] = '-';
        IF negative OR (strspace[i] = '+') THEN i := i + 1;

        WHILE could_be AND (strspace[i] <> eos) DO
            BEGIN
            IF (strspace[i] >= '0') AND (strspace[i] <= '9') THEN
                 int := int * 10 + (ord(strspace[i]) - ord('0'))
            ELSE could_be := false;
            i := i + 1
            END;

        IF negative THEN int := -int;
        is_int := could_be
        END     (* is_int *);

    BEGIN     (* compress *)
    clist := r[1];        (* list of chars *)
    i := freestr; (* point to possible new string *)

    WHILE (i < maxstrsp) AND NOT xNull(clist) DO
        BEGIN
        IF tag_of(clist) = PAIRTAG THEN
            BEGIN
            c := prspace[info_of(clist)].prcar;
            clist := prspace[info_of(clist)].prcdr;
            IF tag_of(c) = IDTAG THEN
                IF (info_of(c) > choffset) AND
                   (info_of(c) < choffset + 128) THEN 
                    BEGIN 
                    strspace[i] := chr(info_of(c) - choffset);
                    i := i + 1
                    END
                ELSE 
                    writeln('*****COMPRESS: LIST ID NOT SINGLE CHAR')
            ELSE 
                writeln('*****COMPRESS: LIST ITEM NOT ID');
            END 
        ELSE 
            writeln('*****COMPRESS: ITEM NOT LIST')
        END (* WHILE *);

    strspace[i] := eos;   (* terminate string *)

    IF (i >= maxstrsp) THEN
        writeln('*****STRING SPACE EXHAUSTED')
    ELSE IF is_int(freestr, int) THEN
         mkint(int, 1)
    ELSE (* look the name up, return itemref for it *)
        BEGIN
        putnm(freestr, r[1], found);
        IF NOT found THEN
            freestr := i + 1;
        END
    END       (* compress *);

PROCEDURE explode;      (* returns list of chars from id or int *)
      
      FUNCTION id_explode(i: stringp): itemref;
          BEGIN (* id_explode *)
          IF strspace[i] = eos THEN id_explode := nilref
          ELSE 
              BEGIN
              r[2] := id_explode(i + 1);
              mkident(ord(strspace[i]) + choffset, 1);
              xcons;
              id_explode := r[1]
              END
          END   (* id_explode *);

     FUNCTION int_explode(i: integer): itemref;
          VAR negative: boolean;

          BEGIN (* int_explode *)
          r[1] := nilref;
          IF i < 0 THEN
              BEGIN negative := true;
              i := -i
              END
          ELSE negative := false;

          WHILE i > 0 DO
              BEGIN
              r[2] := r[1];
              mkident(i MOD 10 + ord('0') + choffset, 1);
              xcons;
              i := i DIV 10
              END;

          IF negative THEN
              BEGIN 
              r[2] := r[1];
              mkident(ord('-') + choffset, 1);
              xcons
              END;
          int_explode := r[1]
          END (* int_explode *);

      BEGIN     (* explode *)
      IF tag_of(r[1]) = IDTAG THEN 
          r[1] := id_explode(idspace[info_of(r[1])].idname)
      ELSE IF tag_of(r[1]) = INTTAG THEN 
          r[1] := int_explode(info_of(r[1]))
      ELSE IF tag_of(r[1]) = FIXTAG THEN
          r[1] := int_explode(intspace[info_of(r[1])])
      ELSE 
          writeln('***** EXPLODE: ARG BAD TYPE')
      END       (* explode *);

PROCEDURE gensym;
    VAR i: integer;

    PROCEDURE kick(i: integer);     (* increments gsym digit *)
        BEGIN (* Kick *)
        IF (g_sym[i] = '9') THEN 
            BEGIN
            g_sym[i] := '0';
            IF (i < max_gsym) THEN kick(i + 1)  (* otherwise wrap around *)
            END
        ELSE g_sym[i] := succ(g_sym[i])
        
        END (* Kick *);

    BEGIN (* gensym *)
    r[1] := nilref;

    FOR i := 1 TO max_gsym DO
        BEGIN
        r[2] := r[1];
        mkident(ord(g_sym[i]) + choffset, 1);
        xcons
        END;
    r[2] := r[1];
    mkident(ord('G') + choffset, 1);
    xcons;
    compress;

    Kick(1);
    END; (* gensym *)


    (********************************************************)
    (*                                                      *)
    (*                    i/o primitives                    *)
    (*                                                      *)
    (********************************************************)

PROCEDURE xopen;   (* Simple OPEN, but see NPAS0 *)

var s1: FileName;
    i,j : integer;
#p (* catch some I/O errors *)
#p  handler ResetError(name: PathName);
#p  begin
#p    writeln('**** Could not open file -  ',name,' for read');
#p    exit(xopen);
#p  end;

#p  handler RewriteError(name: PathName);
#p  begin
#p    writeln('**** Could not open file -  ',name,' for write');
#p    exit(xopen);
#p  end;
  
begin
      IF tag_of(r[1]) = IDTAG THEN 
      begin
        i := idspace[info_of(r[1])].idname;
#p      s1[0] := chr(255);  (* set length *)
#d      s1:='         ';
        j:= 0;
        WHILE (i <= maxstrsp) AND (strspace[i] <> eos) 
#d             AND (j <9 )
          do
        begin
          j:= j + 1;
          s1[j] := strspace[i];
          i:= i + 1;
        end;
#p      s1[0]:= chr(j);  (* set Actual Length *)
       
        IF tag_of(r[2]) = IDTAG THEN 
          BEGIN
           If info_of(r[2])= Xinput then
             begin 
#p              reset(finput,s1); 
#d              reset(finput,s1,0,0,'DSK   '); 
           mkint(3,1) end
           else if info_of(r[2])= Xoutput then
             begin 
#p           rewrite(foutput,s1); 
#d           rewrite(foutput,s1,0,0,'DSK   '); 
                 mkint(2,1) end
           else
             begin writeln('**** OPEN: ARG2 NOT INPUT/OUTPUT');
                   mkerr(notid,r[1])
             end
         end  else writeln('**** OPEN: ARG2 BAD TYPE')
     end else writeln('**** OPEN: ARG1 BAD TYPE');
end;

procedure xclose;

begin
  case info_of(r[1]) of
  1: ;
#d  2: break(output);
#a  3: close(finput);
#d  3: ;
#ap 4: close(foutput);
#d  4: break(foutput);
  end;
end;

PROCEDURE xrds;
  (* Select channel for input *)        
  VAR tmp: longint;
    BEGIN
        tmp:=inchnl;
        inchnl := info_of(r[1]);
        mkint(tmp,1)
    END;

PROCEDURE Xwrs;
  (* Select channel for output *)
  VAR tmp:longint;
    BEGIN
        tmp:=outchnl;
        outchnl := info_of(r[1]);
        mkint(tmp,1)
    END;

PROCEDURE xterpri;
(* need to change for multiple output channels.  *)
    BEGIN
    CASE outchnl OF
#p 1: writeln(' ');
#d 1: begin writeln(output); break(output); end;
#dp 2: begin writeln(foutput,' '); break(foutput); end;
#awtv 1: writeln(output);
#wtv 2: writeln(foutput);
    END (* CASE *)
    END;

#adv FUNCTION Int_field(I:integer):Integer;
#adv  Begin
#adv  Int_field:=2+trunc(log(abs(I)));
#adv  END;

PROCEDURE XwriteInt(I:integer);
    BEGIN
#adptw CASE outchnl OF
#p      1: write('  ', I:0);
#dv     1: If I=0 then Write('0') else write(I:Int_field(I) );
#atw    1: write(i);
#p      2: write(foutput,'  ', I:0);
#dv     2: If I=0 then Write(foutput,'0') else write(foutput,I:Int_field(I) );
#atw    2: write(foutput, i);
#adptw   END     (* CASE *)
    END  (* XwriteInt *);

PROCEDURE Xwritereal(R:real);
    BEGIN
#adtpw CASE outchnl OF
#p     1: write(' real Bug ', trunc(R));
#adtvw 1:  write(output,R);
#p     2: write(foutput,' real Bug ', trunc(R));
#dtvw 2:  write(foutput,R);
#adtpw END        (* CASE *)
    END;

PROCEDURE XwriteChar(C:onechar);
    BEGIN
#adptw CASE outchnl OF
#p         1: write('  ', C);
#adtvw     1: write(C);
#p         2: write(foutput,'  ', C);
#adtvw     2: write(foutput,C);
#adptw     END        (* CASE *)
    END;

PROCEDURE xwrtok;
    (* doesn't expand escaped characters in identifier names *)
  VAR  i: integer;
  BEGIN
   IF tag_of(r[1]) = inttag THEN  XwriteInt(info_of(R[1]))
    ELSE IF tag_of(r[1]) = fixtag THEN XwriteInt(intspace[info_of(R[1])])
    ELSE IF tag_of(r[1]) = flotag THEN XwriteReal(flospace[info_of(r[1])])
    ELSE IF tag_of(r[1]) = idtag THEN
         BEGIN
           i := idspace[info_of(r[1])].idname;
           WHILE (i <= maxstrsp) AND (strspace[i] <> eos) DO
                    BEGIN
                    XwriteChar(strspace[i]);
                    i:= i + 1;
                    END;
                END
    ELSE IF tag_of(r[1]) = chartag THEN
           XwriteChar(chr(info_of(r[1]) - choffset))
    ELSE IF tag_of(r[1]) = errtag THEN
      Begin XwriteChar(' ');
         XwriteChar('*'); XwriteChar('*'); XwriteChar('*');
         XwriteChar(' '); XwriteChar('#'); XwriteChar(' ');
            XwriteInt(info_of(r[1]));   Xterpri;
      End
    ELSE IF tag_of(r[1]) = codetag THEN
         Begin XwriteChar(' '); XwriteChar('#'); XwriteChar('#');
               XwriteInt(info_of(r[1]));
         End
    ELSE
         Begin
         XwriteChar(' '); XwriteChar('?'); XwriteChar(' ');
            XwriteInt(tag_of(r[1]));
         XwriteChar(' '); XwriteChar('/'); XwriteChar(' ');
            XwriteInt(info_of(r[1]));
         XwriteChar(' '); XwriteChar('?'); XwriteChar(' ');
         End;
#d   break(output);  
    END;

PROCEDURE rdchnl(chnlnum: integer; VAR ch: onechar);
    BEGIN
    IF (chnlnum < 1) OR (chnlnum > inchns) THEN
     writeln('*****BAD INPUT CHANNEL FOR RDCHNL',chnlnum)
    ELSE
        CASE chnlnum OF
            1:  BEGIN
#adptvw      ch := symin^;  (* a little strange, but avoids  *)
#adptvw      get(symin);              (* initialization problems *)
#adptvw      ichrbuf[inchnl] := symin^; (* Peek ahead *)
            END;

            2:  BEGIN
#tw             IF charcnt > Length(line) THEN
#tw                 BEGIN
#tw                 charcnt := 1;
#tw                 Readln(line)
#tw                 END;
#tw             ch := line[charcnt];
#tw             IF Length(line) > charcnt THEN
#tw                 ichrbuf[inchnl] := line[charcnt + 1]
#tw             ELSE ichrbuf[inchnl] := sp;
#tw             charcnt := charcnt + 1
#adpv        ch := input^;
#adpv        get(input);
#adpv        ichrbuf[inchnl] := input^;
            END;
#dp      3:  begin
#dp          ch := finput^;
#dp          get(finput);
#dp          ichrbuf[inchnl] := finput^;
#dp         END;
            END;
    (* case *)
    END;
    (* rdchnl *)

FUNCTION eofchnl: boolean;
    BEGIN
#adptvw  CASE inchnl OF
#adptvw      1:  eofchnl := eof(symin);
#adptvw      2:  eofchnl := eof(input);
#adptvw      3:  eofchnl := eof(finput);
#adptvw      END;
    END;

 FUNCTION eol: boolean;
    BEGIN
    CASE inchnl OF
        1:  eol := eoln(symin);
        2:  eol := eoln(input);
        3:  eol := eoln(finput);
        END;
    END;

    (********************************************************)
    (*                                                      *)
    (*                   token scanner                      *)
    (*                                                      *)
    (********************************************************)

PROCEDURE xrdtok;
LABEL 1;

    VAR
        ch,ch1,ChangedCh: onechar;
        i: integer;
        anint: longint;
        moreid: boolean;
        found: boolean;
        negflag: integer;

    FUNCTION digit(ch: onechar): boolean;
        BEGIN
        digit := ( '0' <= ch ) AND ( ch <= '9');
        END;


    FUNCTION escalpha(VAR ch: onechar): boolean;
        (* test for alphabetic or escaped character.                 *)
        (* note side effect in ChangedCh.                                *)
        BEGIN
        ChangedCh := Ch;
        IF ( 'A' <= ch ) AND ( ch <= 'Z') THEN
            escalpha := true
        ELSE IF ( ord('A')+32 <= ord(ch)) AND ( ord(ch) <= ord('Z')+32) THEN
               BEGIN
                 IF NOT xNull(idspace[xraise].val) THEN
                     Changedch := chr(ord(ch)-32);
                 escalpha := true;    (* lower case alphabetics *)
               END
             ELSE IF ch='!' THEN
                      BEGIN
                      rdchnl(inchnl,ch);
                      ChangedCh:=Ch;
                      escalpha := true;
                      END
                  ELSE
                      escalpha := false;
        END;

    FUNCTION alphanum(VAR ch: onechar): boolean;
        (* test if escalfa or digit *)
        VAR b: boolean;
        BEGIN
        ChangedCh:=Ch;
        b := digit(ch);
        IF NOT b THEN b := escalpha(ch);
        alphanum := b;
        END;

    FUNCTION whitesp(ch: onechar): boolean;
#d     BEGIN
#d      (* may want a faster test *)
#d      whitesp := (ch = sp) OR (ch = cr) OR (ch = lf) OR (ch = ht)
#d      OR (ch = nul);       (* null?? *)
#aptvw    VAR ascode:integer;
#aptvw    BEGIN
#aptvw        ascode:=ord(ch);
#aptvw        WHITESP := (CH = SP) OR (ascode = CR) OR (ascode = LF)
#aptvw    OR (ascode = ht) or (ascode = nul);        (* null?? *)
    END; 

        (* reads fixnums...need to read flonums too *)
    BEGIN       (* xrdtok *)
1:
    IF NOT eofchnl THEN
        REPEAT                          (* skip leading white space. *)
            rdchnl(inchnl,ch)
        UNTIL (NOT whitesp(ch)) OR eofchnl;
    IF eofchnl THEN
        mkitem(chartag, eofcode + choffset, r[1])
        (* should really return !$eof!$  *)
    ELSE
        BEGIN
        IF digit(ch) or (ch = '-') THEN
            set_tag(r[1], inttag)
        ELSE IF escalpha(ch) THEN
                 set_tag(r[1], idtag)
             ELSE
                 set_tag(r[1], chartag);

        CASE tag_of(r[1]) OF
            chartag:  BEGIN
                  if ch = begin_comment then
                      BEGIN
                      While not eol do rdchnl(inchnl,ch);
                      rdchnl(inchnl, ch);
                      GOTO 1
                      END;
                  set_tag(r[1], idtag);
                  mkitem(inttag, chartype, tmpref);
                  idspace[xtoktype].val := tmpref;
                  set_info(r[1], ord(ch) + choffset);
                  END;
            inttag:   BEGIN
                 mkitem(inttag, inttype, tmpref;
                idspace[xtoktype].val :=tmpref;
                 negflag := 1;
                 if ch = '-' then
            begin anint := 0; negflag :=-1 end
                     else anint := ord(ch) - ord('0');
                 WHILE digit(ichrbuf[inchnl]) DO
                     BEGIN
                     rdchnl(inchnl,ch);
                     anint := 10 * anint + (ord(ch) - ord('0'))
                     END;
                 anint := negflag * anint;
                 set_info(r[1], anint)
                 END;
            idtag:    BEGIN
                mkitem(inttag, idtype, tmpref);
                idspace[xtoktype].val:=tmpref;
                i := freestr; (* point to possible new string *)
                moreid := true;
                WHILE (i < maxstrsp) AND moreid DO
                    BEGIN
                    strspace[i] := ChangedCh; (* May have Case Change, etc *)
                    i:= i + 1;
                    moreid :=alphanum(ichrbuf[inchnl]);  (* PEEK ahead char *)
                    IF moreid THEN rdchnl(inchnl,ch) (* Advance readch *)
                    END;
                strspace[i] := eos;   (* terminate string *)
                IF (i >= maxstrsp) THEN
                   writeln('*****STRING SPACE EXHAUSTED')
                ELSE  (* look the name up, return itemref for it *)
                    BEGIN
                    putnm(freestr, r[1], found);
                    IF NOT found THEN
                        freestr := i + 1;
                    END;
                END;
                (* of case idtag *)
            END;
        (* of case *)
        END;
    END;
    (* xrdtok *)
    (* for DEBUG *)
    (********************************************************)
    (*                                                      *)
    (*                    initialization                    *)
    (*                                                      *)
    (********************************************************)


PROCEDURE init;
    (* initialization procedure depends on  *)
    (* ability to load stack with constants *)
    (* from a file.                         *)
    VAR
        strptr: stringp;
#dptvw  nam: PACKED ARRAY[1..3] OF onechar;
#a      nam: PACKED ARRAY[1..4] OF onechar; (* SPL bug for Apollo *)
        (* holds 'nil', other strings? *)
        i, n: integer;
        idref: itemref;
        found: boolean;

#aptv   (* init is divided into two parts so it can compile on terak *)
    PROCEDURE init1;
        BEGIN
#tw      CHARCNT := 1;
#tw      LINE := '';

        (* initialize top of stack *)
        st := 0;

        freefloat := 1;
        (* initialize fixnum free list *)
        FOR freeint := 1 TO maxintsp - 1 DO 
            intspace[freeint] := freeint + 1;
        intspace[maxintsp] := end_flag;
        freeint := 1;

        (* define nilref - the id, nil, is defined a little later. *)
        freeident := 1;
        mkitem(idtag, freeident, nilref);

        (* initialize pair space. *)
        FOR i := 1 TO maxpair - 1 DO      (* initialize free list. *)
            BEGIN
          (* OLD: prspace[i].MarkFlag := false; *)
            prspace[i].prcar := nilref;         (* just for fun *)
            mkitem(pairtag, i + 1, prspace[i].prcdr);
            END;
        prspace[maxpair].prcar := nilref;
        prspace[maxpair].prcdr := nilref;       (* end flag *)
        freepair := 1;                  (* point to first free pair *)


        (* initialize identifier space and string space. *)
        freestr := 1;
        FOR i := 0 TO hidmax - 1 DO
            idhead[i] := nillnk;
        FOR i := 1 TO maxident DO
            BEGIN
            IF i < maxident THEN
                idspace[i].idhlink := i + 1
            ELSE    (* nil to mark the final identifier in the table. *)
                idspace[i].idhlink := nillnk;
            (* set function cells to undefined *)
            mkerr( undefined, tmpref);
            idspace[i].funcell :=tmpref;
            idspace[i].val :=tmpref;
            idspace[i].plist :=tmpref;
            END;

        (* nil must be the first identifier in the table--id #1 *)
        (* must fill in fields by hand for nilref.*)
        (* putnm can handle any later additions.  *)
        nam := 'NIL';
        strptr := freestr;
        FOR i := 1 TO 3 DO
            BEGIN
            strspace[strptr] := nam[i];
            strptr:= strptr + 1;
            END;
        strspace[strptr] := eos;
        putnm(freestr, nilref, found);
        IF NOT found THEN
            freestr := strptr + 1;

        (* make the single character ascii identifiers, except nul(=eos). *)
        FOR i := 1 TO 127  DO
            BEGIN
            strspace[freestr] := chr(i);
            strspace[freestr + 1] := eos;
            putnm(freestr, idref, found);
            IF NOT found THEN
                freestr := freestr + 2;
            IF i = ord('T') THEN
                trueref := idref;
            (* returns location for 't. *)
            END;

        (* init gensym id list *)
        FOR i := 1 TO max_gsym DO g_sym[i] := '0';

        (* clear the counters *)
        idspace[xraise].val := trueref;
        gccount := 0;
        consknt := 0;
        END;
        (* init1 *)

    PROCEDURE init2;
        BEGIN
        (* load "symbol table" with identifiers, constants, and functions.  *)
        inchnl := 1;        (* select symbol input file. *)
        outchnl := 1;        (* select symbol OUTPUT file. *)
#p      reset(symin,'paslsp.ini');
#p      reset(input);
#p      rewrite(output);
#w      reset(symin, "paslsp.ini");
#t      reset(symin,'#5:poly.data');
#d      reset(symin,'paslspini',0,0,'DSK   ');
#d      reset(input,'tty      ',0,0,'TTY   ');
#d      rewrite(output,'tty      ',0,0,'TTY   ');
#a      open(symin,'paslsp.ini','old',iostatus);
#a      reset(symin);
#a      for i:=1 to inchns do
#a       BEGIN;
#a         ichrbuf[i]:=' ';
#a       END;
        xrdtok;     (* get count of identifiers. *)
        IF tag_of(r[1]) <> inttag THEN
           writeln('*****BAD SYMBOL TABLE, INTEGER EXPECTED AT START');
        n := info_of(r[1]);
        FOR i := 1 TO n DO
            xrdtok;
        (* reading token magically loads it into id space. *)
        xrdtok;         (* look for zero terminator. *)
        IF (tag_of(r[1]) <> inttag) OR (info_of(r[1]) <> 0) THEN
          writeln('*****BAD SYMBOL TABLE, ZERO EXPECTED AFTER IDENTIFIERS');

        xrdtok;         (* count of constants  *)
        IF tag_of(r[1]) <> inttag THEN
           writeln('*****BAD SYMBOL TABLE, INTEGER EXPECTED BEFORE CONSTANTS');
        n := info_of(r[1]);
        alloc(n);       (* space for constants on the stack *)
        FOR i := 1 TO n DO
            BEGIN
            xread;
            stk[i] := r[1];
            END;
        xrdtok;
        IF (tag_of(r[1]) <> inttag) OR (info_of(r[1]) <> 0) THEN
         writeln('*****BAD SYMBOL TABLE, ZERO EXPECTED AFTER CONSTANTS');
        xrdtok;     (* count of functions. *)
        IF tag_of(r[1]) <> inttag THEN
           writeln('*****BAD SYMBOL TABLE, INTEGER EXPECTED BEFORE FUNCTIONS');
        n := info_of(r[1]);
        FOR i := 1 TO n DO
            (* for each function *)
            (* store associated code *)
            BEGIN
            xrdtok;
            mkitem(codetag, i, tmpref);
            idspace[info_of(r[1])].funcell :=tmpref;
            END;
        xrdtok;
        IF (tag_of(r[1]) <> inttag) OR (info_of(r[1]) <> 0) THEN
         writeln('*****BAD SYMBOL TABLE, ZERO EXPECTED AFTER FUNCTIONS');
        END;
        (* init2 *)

PROCEDURE dumpids;
    VAR i, p: integer;

    BEGIN
    FOR i := 1 TO freeident - 1 DO
        BEGIN
        p := idspace[i].idname;
        write('id #', i:5, ' at', p:5, ': ');
        WHILE strspace[p] <> eos DO
            BEGIN 
            write(strspace[p]);
            p := p + 1
            END;
        write('.  Function code: ');
        writeln(INFO_OF(idspace[i].funcell)); 
        END
    END;

    BEGIN       (* init *)
    init1;
    init2;
    END;
    (* init *)

    (********************************************************)
    (*                                                      *)
    (*                 arithmetic functions                 *)
    (*                                                      *)
    (********************************************************)

PROCEDURE xadd1;
    VAR i: longint;

    BEGIN
    int_val(r[1], i);
    mkint(i + 1, 1)
    END;

PROCEDURE xdifference;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);
    mkint(i1 - i2, 1)
    END;

PROCEDURE xdivide;      (* returns dotted pair (quotient . remainder). *)
    VAR quot, rem: integer;
        i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);

    mkint(i1 DIV i2, 1);
    mkint(i1 MOD i2, 2);
    xcons
    END;

PROCEDURE xgreaterp;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);

    IF i1 > i2 THEN
        r[1] := trueref
    ELSE
        r[1] := nilref;
    END;

PROCEDURE xlessp;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);

    IF i1 < i2 THEN
        r[1] := trueref
    ELSE
        r[1] := nilref;
    END;

PROCEDURE xminus;
    VAR i: longint;

    BEGIN
    int_val(r[1], i);
    mkint(-i, 1)
    END;

PROCEDURE xplus2;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);
    mkint(i1 + i2, 1)
    END;

PROCEDURE xquotient;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);
    mkint(i1 DIV i2, 1)
    END;

PROCEDURE xremainder;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);
    mkint(i1 MOD i2, 1)
    END;

PROCEDURE xtimes2;
    VAR i1, i2: longint;

    BEGIN
    int_val(r[1], i1);
    int_val(r[2], i2);
    mkint(i1 * i2, 1)
    END;
    (* xtimes2 *)


    (********************************************************)
    (*                                                      *)
    (*                    support for eval                  *)
    (*                                                      *)
    (********************************************************)


PROCEDURE execute(code: integer);
    FORWARD;

    (* Xapply(fn,arglist)-- "fn" is an operation code. *)
PROCEDURE xxapply;
    VAR
        i: integer;
        code: integer;
        tmp: itemref;
        tmpreg: ARRAY[1..maxreg] OF itemref;
    BEGIN
    code := info_of(r[1]);
    r[1] := r[2];
    i := 1;
    (* spread the arguments  *)
    WHILE NOT xNull(r[1]) AND (i <= maxreg) DO
        BEGIN
        tmp := r[1];
        xcar;
        tmpreg[i] := r[1];
        i := i + 1;
        r[1] := tmp;
        xcdr;
        END;
    WHILE i > 1 DO
        BEGIN
        i := i - 1;
        r[i] := tmpreg[i];
        END;
    execute(code);
    END;

    (*  rest of pas1...pasn follow , pasn Closes definition of Catch *)



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