/* MIRANDA DATA REPRESENTATIONS */ /************************************************************************** * Copyright (C) Research Software Limited 1985-90. All rights reserved. * * The Miranda system is distributed as free software under the terms in * * the file "COPYING" which is included in the distribution. * * * * Revised to C11 standard and made 64bit compatible, January 2020 * *------------------------------------------------------------------------*/ #include "data.h" #include "big.h" #include "lex.h" #define INITSPACE 1250000 word SPACE=INITSPACE; /* false ceiling in heap to improve paging behaviour during compilation */ extern word SPACELIMIT; /* see steer.c for default value */ /* SPACELIMIT controls the size of the heap (i.e. the number of list cells available) - the minimum survivable number given the need to compile the prelude etc is probably about 6000 */ /* Note: the size of a list cell is 2 ints + 1 char */ #define BIGTOP (SPACELIMIT + ATOMLIMIT) word listp=ATOMLIMIT-1; word *hdspace,*tlspace; long long cellcount=0; long claims=0; long nogcs=0; extern int atgc,loading; /* flags, set in steer.c */ word *dstack=0,*stackp,*dlim; /* stackp=dstack; /* if load_script made interruptible, add to reset */ #define poschar(c) !(negchar((c)-1)) #define negchar(c) (c&128) /* safest to test for -ve chars this way, since not all m/c's do sign extension - DT Jan 84 */ static void bases(void); static void bindparams(word,word); static void dsetup(void); static void dump_defs(word,FILE *); static void dump_ob(word,FILE *); static word hdsort(word); static word load_defs(FILE *); static void mark(word); static void unscramble(word); word trueheapsize() { return(nogcs==0?listp-ATOMLIMIT+1:SPACE); } void setupheap() { hdspace=(word *)malloc(SPACELIMIT*sizeof(word)); tlspace=(word *)malloc(SPACELIMIT*sizeof(word)); hd=hdspace-ATOMLIMIT; tl=tlspace-ATOMLIMIT; if(SPACE>SPACELIMIT)SPACE=SPACELIMIT; tag=(char *)calloc(BIGTOP+1,sizeof(char)); /* NB use calloc because it sets contents to zero */ /* tag[TOP] must be zero and exists as a sentinel */ if(hdspace==NULL||tlspace==NULL||tag==NULL)mallocfail("heap"); } void resetheap() /* warning - cannot do this dynamically, because both the compiler and the reducer hold onto absolute heap addresses during certain space consuming computations */ { if(SPACELIMITSPACELIMIT)SPACE=SPACELIMIT; if(SPACE1) { /* during compilation we raise false ceiling whenever residency reaches 75% on 2 successive gc's */ static word wait=0; word sp=SPACE; if(wait)wait--; else SPACE+= SPACE/2,wait=2, SPACE=5000*(1+(SPACE-1)/5000); /* round upwards */ if(SPACE>SPACELIMIT)SPACE=SPACELIMIT; if(atgc&&SPACE>sp) printf( "\n<>\n",sp,SPACE); } if(listp==TOP) { #if defined ORION105 asm("savew6"); gc(); asm("restw6"); #elif defined sparc asm("ta 0x03"); /* see /usr/include/sun4/trap.h */ /* asm("ta ST_FLUSH_WINDOWS"); */ gc(); #else gc(); #endif if(t>STRCONS)mark(x); if(t>=INT)mark(y); return(make(t,x,y)); } } claims++; tag[listp]= t; hd[listp]= x; tl[listp]= y; return(listp); } /* cons ap ap2 ap3 are all #defined in terms of make - see MIRANDA DECLARATIONS */ void setwd(x,a,b) word x,a,b; { hd[x]= a; tl[x]= b; } int collecting=0; /* flag for reset(), in case interrupt strikes in gc */ void gc() /* the "garbage collector" */ { char *p1; extern word making; collecting=1; p1= &(tag[ATOMLIMIT]); if(atgc) printf("\n<>\n",claims); if(claims<=SPACE/10 && nogcs>1 && SPACE==SPACELIMIT) { /* if heap utilisation exceeds 90% on 2 successive gc's, give up */ static word hnogcs=0; if(nogcs==hnogcs) { extern int ideep; extern char *current_script; fprintf(stderr,"<>\n"); if(!compiling)outstats(); if(compiling&&ideep==0) fprintf(stderr,"not enough heap to compile current script\n"), fprintf(stderr,"script = \"%s\", heap = %ld\n",current_script,SPACE); exit(1); } /* if compiling should reset() instead - FIX LATER */ else hnogcs=nogcs+1; } nogcs++; while(*p1= -*p1)p1++; /* make all tags -ve (= unwanted) */ bases(); /*if(atgc)printf("bases() done\n"); /* DEBUG */ listp= ATOMLIMIT - 1; cellcount+= claims; claims= 0; collecting=0; } /* int Icount; /* DEBUG */ void gcpatch() /* called when gc interrupted - see reset in steer.c */ /* must not allocate any cells between calling this and next gc() */ { char *p1; for(p1= &(tag[ATOMLIMIT]);*p1;p1++)if(negchar(*p1))*p1= -*p1; /* otherwise mutator crashes on funny tags */ } void bases() /* marks everthing that must be saved */ { word *p; extern YYSTYPE yyval; extern word *cstack; extern word fileq,primenv; extern word cook_stdin,common_stdin,common_stdinb,rv_expr,rv_script; extern word margstack,vergstack,litstack,linostack,prefixstack; extern word idsused,suppressids,lastname, eprodnts,nonterminals,ntmap,ihlist,ntspecmap,gvars,lexvar; extern word R,TABSTRS,SGC,ND,SBND,NT,current_id,meta_pending; extern word showchain,newtyps,algshfns,errs,speclocs; extern word SUBST[],tvmap,localtvmap; extern word tfnum,tfbool,tfbool2,tfnum2,tfstrstr, tfnumnum,ltchar,bnf_t,tstep,tstepuntil; extern word exec_t,read_t,filestat_t; extern word big_one; extern word nill,standardout; extern word lexstates,lexdefs,oldfiles,includees,embargoes,exportfiles, exports,internals, freeids,tlost,detrop,rfl,bereaved,ld_stuff; extern word CLASHES,ALIASES,SUPPRESSED,TSUPPRESSED,DETROP,MISSING,fnts,FBS; extern word outfilq,waiting; /* Icount=0; /* DEBUG */ p= (word *)&p; /* we follow everything on the C stack that looks like a pointer into list space. This is failsafe in that the worst that can happen,if e.g. a stray integer happens to point into list space, is that the garbage collector will collect less garbage than it could have done */ if(p>\n",Icount); /* DEBUG */ } void mark(x) /* a marked cell is distinguished by having a +ve "tag" */ word x; { x&= ~tlptrbits; /* x may be a `reversed pointer' (see reduce.c) */ while(isptr(x)&&negchar(tag[x])) { /*if(hd[x]==I)Icount++; /* DEBUG */ if((tag[x]= -tag[x])STRCONS)mark(hd[x]); x= tl[x]&~tlptrbits; } } /* test added Jan 2020 - DT */ #define wordsize (__WORDSIZE) #if wordsize==32 #define splitdouble union fpdatum {double real; struct{word left;word right;} bits;}; #elif wordsize==64 union fpdatum {double real; word bits;}; #else #error "platform has unknown word size" #endif double get_dbl(x) word x; { union fpdatum r; #ifdef splitdouble r.bits.left= hd[x]; r.bits.right= tl[x]; #else r.bits= hd[x]; #endif return(r.real); } /* Miranda's arithmetic model requires fp overflow trapped. On sparc this can be done by setting a trap with ieee_handler (see steer.c) otherwise we test for overflow with isfinite() */ word sto_dbl(R) double R; { union fpdatum r; #if !defined sparc /* */ if(!isfinite(R))fpe_error(); /* see note on arithmetic model above */ #endif r.real=R; #ifdef splitdouble return(make(DOUBLE,r.bits.left,r.bits.right)); #else return(make(DOUBLE,r.bits,0)); #endif } void setdbl(x,R) word x; double R; { union fpdatum r; #if !defined sparc /* */ if(!isfinite(R))fpe_error(); /* see note on arithmetic model above */ #endif r.real=R; tag[x]=DOUBLE; #ifdef splitdouble hd[x]=r.bits.left; tl[x]=r.bits.right; #else hd[x]=r.bits; tl[x]=0; #endif } word sto_char(c) /* assumes 0<=c<=UMAX */ int c; { return c<256?c:make(UNICODE,c,0); } word get_char(x) word x; { if(x<256)return x; if(tag[x]==UNICODE)return hd[x]; fprintf(stderr,"impossible event in get_char(x), tag[x]==%d\n",tag[x]); exit(1); } int is_char(x) word x; { return 0<=x && x<256 || tag[x]==UNICODE; } word sto_id(p1) char *p1; { return(make(ID,cons(strcons(p1,NIL),undef_t),UNDEF)); } /* the hd of an ID contains cons(strcons(name,who),type) and the tl has the value */ /* who is NIL, hereinfo, or cons(aka,hereinfo) where aka is of the form datapair(oldname,0) oldname being a string */ /* hereinfo is fileinfo(script,line_no) */ /* hereafter is stuff for dumping and undumping compiled scripts w means (sizeof(word)) in bytes (internal heap object) (external file rep - char sequence) ---------------------- ----------------------------------- 0..127 self 128..383 CHAR_X (self-128) 384..ATOMLIMIT-1 (self-256) integer (-127..127) SHORT_X integer INT_X <4n bytes> (-1) double DBL_X <8 bytes> unicode_char UNICODE_X <4 bytes> typevar TVAR_X ap(x,y) [x] [y] AP_X cons(x,y) [y] [x] CONS_X id (=occurrence) ID_X pname (=occurrence) PN_X <2 bytes> PN1_X <4 bytes> datapair(string,0) AKA_X fileinfo(script,line_no) HERE_X <2 bytes> (**) constructor(n,x) [x] CONSTRUCT_X <2 bytes> readvals(h,t) [t] RV_X definition [val] [type] [who] [id] DEF_X [val] [pname] DEF_X definition-list [definition*] DEF_X filename mtime complete script __WORDSIZE XVERSION [ [filename] [mtime] [shareable] (=0 or 1) [definition-list] ]+ '\0' [definition-list] (algshfns) [ND] or [True] (see below) DEF_X [SGC] DEF_X [freeids] DEF_X [definition-list] (internals) type-error script __WORDSIZE XVERSION '\1' (=errline) ... (rest as normal script) syntax-error script __WORDSIZE XVERSION `\0' (=errline) [ [filename] [mtime] ]+ Notes ----- first filename in dump must be that of `current_script' (ie the main source file). All pathnames in dump are correct wrt the directory of the main source. (**) empty string is abbreviation for current filename in hereinfo True in ND position indicates an otherwise correct dump whose exports include type orphans Pending: -------- could have abbreviation for iterated ap and cons remaining issue - external format should be machine and version independent - not clear how to do this */ #define XBASE ATOMLIMIT-256 #define CHAR_X (XBASE) #define SHORT_X (XBASE+1) #define INT_X (XBASE+2) #define DBL_X (XBASE+3) #define ID_X (XBASE+4) #define AKA_X (XBASE+5) #define HERE_X (XBASE+6) #define CONSTRUCT_X (XBASE+7) #define RV_X (XBASE+8) #define PN_X (XBASE+9) #define PN1_X (XBASE+10) #define DEF_X (XBASE+11) #define AP_X (XBASE+12) #define CONS_X (XBASE+13) #define TVAR_X (XBASE+14) #define UNICODE_X (XBASE+15) #define XLIMIT (XBASE+16) #if XLIMIT>512 #error "coding scheme breaks down: XLIMIT>512" #endif void putword(x,f) word x; FILE *f; { int i=sizeof(word); putc(x&255,f); while(--i)x>>=8,putc(x&255,f); } word getword(f) FILE *f; { int s=0, i=sizeof(word); word x=getc(f); while(--i)s += 8, x |= getc(f)<bits_15) putc(PN1_X,f), putint(v,f); else putc(PN_X,f), putc(v&255,f), putc(v >> 8,f); putc(DEF_X,f); defs=tl[defs]; } else { dump_ob(id_val(hd[defs]),f); dump_ob(id_type(hd[defs]),f); dump_ob(id_who(hd[defs]),f); putc(ID_X,f); fprintf(f,"%s",(char *)get_id(hd[defs])); putc(0,f); putc(DEF_X,f); defs=tl[defs]; } putc(DEF_X,f); /* delimiter */ } void dump_ob(x,f) /* write combinatory expression x to file f */ word x; FILE *f; { /* printob("dumping: ",x); /* DEBUG */ switch(tag[x]) { case ATOM: if(x<128)putc(x,f); else if(x>=384)putc(x-256,f); else putc(CHAR_X,f),putc(x-128,f); return; case TVAR: putc(TVAR_X,f), putc(gettvar(x),f); if(gettvar(x)>255) fprintf(stderr,"panic, tvar too large\n"); return; case INT: { word d=digit(x); if(rest(x)==0&&(d&MAXDIGIT)<=127) { if(d&SIGNBIT)d= -(d&MAXDIGIT); putc(SHORT_X,f); putc(d,f); return; } putc(INT_X,f); putint(d,f); x=rest(x); while(x) putint(digit(x),f),x=rest(x); putint(-1,f); return; } /* 4 bytes per digit wasteful at current value of IBASE */ case DOUBLE: putc(DBL_X,f); putdbl(x,f); /* putword(hd[x],f); #ifdef splitdouble putword(tl[x],f); #endif */ return; case UNICODE: putc(UNICODE_X,f); putint(hd[x],f); return; case DATAPAIR: fprintf(f,"%c%s",AKA_X,(char *)hd[x]); putc(0,f); return; case FILEINFO: { word line=tl[x]; if((char *)hd[x]==CFN)putc(HERE_X,f); else fprintf(f,"%c%s",HERE_X,mkrel(hd[x])); putc(0,f); putc(line&255,f); putc((line >>= 8)&255,f); if(line>255)fprintf(stderr, "impossible line number %ld in dump_ob\n",tl[x]); return; } case CONSTRUCTOR: dump_ob(tl[x],f); putc(CONSTRUCT_X,f); putc(hd[x]&255,f); putc(hd[x]>>8,f); return; case STARTREADVALS: dump_ob(tl[x],f); putc(RV_X,f); return; case ID: fprintf(f,"%c%s",ID_X,get_id(x)); putc(0,f); return; case STRCONS: { word v=get_pn(x); /* private name */ if(v>bits_15) putc(PN1_X,f), putint(v,f); else putc(PN_X,f), putc(v&255,f), putc(v >> 8,f); return; } case AP: dump_ob(hd[x],f); dump_ob(tl[x],f); putc(AP_X,f); return; case CONS: dump_ob(tl[x],f); dump_ob(hd[x],f); putc(CONS_X,f); return; default: fprintf(stderr,"impossible tag %d in dump_ob\n",tag[x]); } } #define ovflocheck if(dicq-dic>DICSPACE)dicovflo() extern char *dic; extern word DICSPACE; word BAD_DUMP=0,CLASHES=NIL,ALIASES=NIL,PNBASE=0,SUPPRESSED=NIL, TSUPPRESSED=NIL,TORPHANS=0; word load_script(f,src,aliases,params,main) /* loads a compiled script from file f for source src */ /* main=1 if is being loaded as main script, 0 otherwise */ FILE *f; char *src; word aliases,params,main; { extern word nextpn,ND,errline,algshfns,internals,freeids,includees,SGC; extern char *dicp, *dicq; word ch,files=NIL; TORPHANS=BAD_DUMP=0; CLASHES=NIL; dsetup(); setprefix(src); if(getc(f)!= wordsize || getc(f)!=XVERSION) { BAD_DUMP= -1; return(NIL); } if(aliases!=NIL) { /* for each `old' install diversion to `new' */ /* if alias is of form -old `new' is a pname */ word a,hold; ALIASES=aliases; for(a=aliases;a!=NIL;a=tl[a]) { word old=tl[hd[a]],new=hd[hd[a]]; hold=cons(id_who(old),cons(id_type(old),id_val(old))); id_type(old)=alias_t; id_val(old)=new; if(tag[new]==ID) if((id_type(new)!=undef_t||id_val(new)!=UNDEF) &&id_type(new)!=alias_t) CLASHES=add1(new,CLASHES); hd[hd[a]]=hold; } if(CLASHES!=NIL){ BAD_DUMP= -2; unscramble(aliases); return(NIL); } for(a=aliases;a!=NIL;a=tl[a]) /* FIX1 */ if(tag[ch=id_val(tl[hd[a]])]==ID) /* FIX1 */ if(id_type(ch)!=alias_t) /* FIX1 */ id_type(ch)=new_t; /* FIX1 */ } PNBASE=nextpn; /* base for relocation of internal names in dump */ SUPPRESSED=NIL; /* list of `-id' aliases successfully obeyed */ TSUPPRESSED=NIL; /* list of -typename aliases (illegal just now) */ while((ch=getc(f))!=0&&ch!=EOF&&!BAD_DUMP) { word s,holde=0; dicq=dicp; if(files==NIL&&ch==1) /* type error script */ { holde=getword(f),ch=getc(f); if(main)errline=holde; } if(ch!='/')(void)strcpy(dicp,prefix),dicq+=preflen; /* locate wrt current posn */ *dicq++ = ch; while((*dicq++ =ch=getc(f))&&ch!=EOF); /* filename */ ovflocheck; ch=getword(f); /* mtime */ s=getc(f); /* share bit */ /*printf("loading: %s(%d)\n",dicp,ch); /* DEBUG */ if(files==NIL) /* is this the right dump? */ if(strcmp(dicp,src)) { BAD_DUMP=1; if(aliases!=NIL)unscramble(aliases); return(NIL); } CFN=get_id(name()); /* wasteful way to share filename */ files = cons(make_fil(CFN,ch,s,load_defs(f)), files); } /* warning: load_defs side effects id's in namebuckets, cannot be undone by unload until attached to global `files', so interrupts are disabled during load_script - see steer.c */ /* for big dumps this may be too coarse - FIX */ if(ch==EOF||BAD_DUMP){ if(!BAD_DUMP)BAD_DUMP=2; if(aliases!=NIL)unscramble(aliases); return(files); } if(files==NIL){ /* dump of syntax error state */ extern word oldfiles; ch=getword(f); if(main)errline=ch; while((ch=getc(f))!=EOF) { dicq=dicp; if(ch!='/')(void)strcpy(dicp,prefix),dicq+=preflen; /* locate wrt current posn */ *dicq++ = ch; while((*dicq++ =ch=getc(f))&&ch!=EOF); /* filename */ ovflocheck; ch=getword(f); /* mtime */ if(oldfiles==NIL) /* is this the right dump? */ if(strcmp(dicp,src)) { BAD_DUMP=1; if(aliases!=NIL)unscramble(aliases); return(NIL); } oldfiles = cons(make_fil(get_id(name()),ch,0,NIL), oldfiles); } if(aliases!=NIL)unscramble(aliases); return(NIL); } algshfns=append1(algshfns,load_defs(f)); ND=load_defs(f); if(ND==True)ND=NIL,TORPHANS=1; SGC=append1(SGC,load_defs(f)); if(main||includees==NIL)freeids=load_defs(f); else bindparams(load_defs(f),hdsort(params)); if(aliases!=NIL)unscramble(aliases); if(main)internals=load_defs(f); return(reverse(files)); }/* was it necessary to unscramble aliases before error returns? check this later */ /* actions labelled FIX1 were inserted to deal with the pathological case that the destination of an alias (not part of a cyclic alias) has a direct definition in the file and the aliasee is missing from the file - this is both nameclash and missing aliasee, but without fix the two errors cancel each other out and are unreported */ word DETROP=NIL,MISSING=NIL; void bindparams(formal,actual) /* process bindings of free ids */ /* formal is list of cons(id,cons(original_name,type)) */ /* actual is list of cons(name,value) | ap(name,typevalue)) */ /* both in alpha order of original name */ word formal,actual; { extern word FBS; word badkind=NIL; DETROP=MISSING=NIL; FBS=cons(formal,FBS); /* FBS is list of list of formals bound in current script */ for(;;) { word a; char *f; while(formal!=NIL && (actual==NIL || strcmp((f=(char *)hd[hd[tl[hd[formal]]]]),get_id(a=hd[hd[actual]]))<0)) /* the_val(hd[hd[formal]])=findid((char *)hd[hd[tl[hd[formal]]]]), above line picks up identifier of that name in current scope */ MISSING=cons(hd[tl[hd[formal]]],MISSING), formal=tl[formal]; if(actual==NIL)break; if(formal==NIL||strcmp(f,get_id(a)))DETROP=cons(a,DETROP); else { word fa=tl[tl[hd[formal]]]==type_t?t_arity(hd[hd[formal]]):-1; word ta=tag[hd[actual]]==AP?t_arity(hd[actual]):-1; if(fa!=ta) badkind=cons(cons(hd[hd[actual]],datapair(fa,ta)),badkind); the_val(hd[hd[formal]])=tl[hd[actual]]; formal=tl[formal]; } actual=tl[actual]; } for(;badkind!=NIL;badkind=tl[badkind]) DETROP=cons(hd[badkind],DETROP); } void unscramble(aliases) /* remove old to new diversions installed above */ word aliases; { word a=NIL; for(;aliases!=NIL;aliases=tl[aliases]) { word old=tl[hd[aliases]],hold=hd[hd[aliases]]; word new=id_val(old); hd[hd[aliases]]=new; /* put back for missing check, see below */ id_who(old)=hd[hold]; hold=tl[hold]; id_type(old)=hd[hold]; id_val(old)=tl[hold]; } for(;ALIASES!=NIL;ALIASES=tl[ALIASES]) { word new=hd[hd[ALIASES]]; word old=tl[hd[ALIASES]]; if(tag[new]!=ID) { if(!member(SUPPRESSED,new))a=cons(old,a); continue; } /* aka stuff irrelevant to pnames */ if(id_type(new)==new_t)id_type(new)=undef_t; /* FIX1 */ if(id_type(new)==undef_t)a=cons(old,a); else if(!member(CLASHES,new)) /* install aka info in new */ if(tag[id_who(new)]!=CONS) id_who(new)=cons(datapair(get_id(old),0),id_who(new)); } ALIASES=a; /* transmits info about missing aliasees */ } char *getaka(x) /* returns original name of x (as a string) */ word x; { word y=id_who(x); return(tag[y]!=CONS?get_id(x):(char *)hd[hd[y]]); } word get_here(x) /* here info for id x */ word x; { word y=id_who(x); return(tag[y]==CONS?tl[y]:y); } void dsetup() { if(!dstack) { dstack=(word *)malloc(1000*sizeof(word)); if(dstack==NULL)mallocfail("dstack"); dlim=dstack+1000; } stackp=dstack; } void dgrow() { word *hold=dstack; dstack=(word *)realloc(dstack,2*(dlim-dstack)*sizeof(word)); if(dstack==NULL)mallocfail("dstack"); dlim=dstack+2*(dlim-hold); stackp += dstack-hold; /*printf("dsize=%d\n",dlim-dstack); /* DEBUG */ } word load_defs(f) /* load a sequence of definitions from file f, terminated by DEF_X, or a single object terminated by DEF_X */ FILE *f; { extern char *dicp, *dicq; extern word *pnvec,common_stdin,common_stdinb,nextpn,rv_script; word ch, defs=NIL; while((ch=getc(f))!=EOF) { if(stackp==dlim)dgrow(); switch(ch) { case CHAR_X: *stackp++ = getc(f)+128; continue; case TVAR_X: *stackp++ = mktvar(getc(f)); continue; case SHORT_X: ch = getc(f); if(ch&128)ch= ch|(~127); /*force a sign extension*/ *stackp++ = stosmallint(ch); continue; case INT_X: { word *x; ch = getint(f); *stackp++ = make(INT,ch,0); x = &rest(stackp[-1]); ch = getint(f); while(ch!= -1) *x=make(INT,ch,0),ch=getint(f),x= &rest(*x); continue; } case DBL_X: *stackp++ = getdbl(f); /* #ifdef splitdouble *stackp++ = make(DOUBLE,ch,getword(f)); #else *stackp++ = make(DOUBLE,ch,0); #endif */ continue; case UNICODE_X: *stackp++ = make(UNICODE,getint(f),0); continue; case PN_X: ch = getc(f); ch = PNBASE+(ch|(getc(f)<<8)); *stackp++ = ch127?ch+256:ch; }} BAD_DUMP=4; /* should unsetids */ return(defs); } extern char *obsuffix; int okdump(t) /* return 1 if script t has a non-syntax-error dump */ char *t; { char obf[120]; FILE *f; (void)strcpy(obf,t); (void)strcpy(obf+strlen(obf)-1,obsuffix); f=fopen(obf,"r"); if(f&&getc(f)==XVERSION&&getc(f)){fclose(f); return(1); } return(0); } word geterrlin(t) /* returns errline from dump of t if relevant, 0 otherwise */ char *t; { char obf[120]; extern char *dicp,*dicq; int ch; word el; FILE *f; (void)strcpy(obf,t); (void)strcpy(obf+strlen(obf)-1,obsuffix); if(!(f=fopen(obf,"r")))return(0); if(getc(f)!=XVERSION||(ch=getc(f))&&ch!=1){ fclose(f); return(0); } el=getword(f); /* now check this is right dump */ setprefix(t); ch=getc(f); dicq=dicp; if(ch!='/')(void)strcpy(dicp,prefix),dicq+=preflen; /* locate wrt current posn */ *dicq++ = ch; while((*dicq++ =ch=getc(f))&&ch!=EOF); /* filename */ ch=getword(f); /* mtime */ if(strcmp(dicp,t)||ch!=fm_time(t))return(0); /* wrong dump */ /* this test not foolproof, strictly should extract all files and check their mtimes, as in undump, but this involves reading the whole dump */ return(el); } word hdsort(x) /* sorts list of name-value pairs on name */ word x; { word a=NIL,b=NIL,hold=NIL; if(x==NIL)return(NIL); if(tl[x]==NIL)return(x); while(x!=NIL) /* split x */ { hold=a,a=cons(hd[x],b),b=hold; x=tl[x]; } a=hdsort(a),b=hdsort(b); /* now merge two halves back together */ while(a!=NIL&&b!=NIL) if(strcmp(get_id(hd[hd[a]]),get_id(hd[hd[b]]))<0)x=cons(hd[a],x),a=tl[a]; else x=cons(hd[b],x),b=tl[b]; if(a==NIL)a=b; while(a!=NIL)x=cons(hd[a],x),a=tl[a]; return(reverse(x)); } word append1(x,y) /* rude append */ word x,y; { word x1=x; if(x1==NIL)return(y); while(tl[x1]!=NIL)x1=tl[x1]; tl[x1]=y; return(x); } /* following is stuff for printing heap objects in readable form - used for miscellaneous diagnostics etc - main function is out(FILE *,object) */ /* charname returns the printable name of a character, as a string (using C conventions for control characters */ /* DAT 13/9/83 */ /* NB we use DECIMAL (not octal) for miscellaneous unprintables */ /* WARNING - you should take a copy of the name if you intend to do anything with it other than print it immediately */ char *charname(c) word c; { static char s[5]; switch(c) { case '\n': return("\\n"); case '\t': return("\\t"); case '\b': return("\\b"); case '\f': return("\\f"); /* form feed */ case '\r': return("\\r"); /* carriage return */ case '\\': return("\\\\"); case '\'': return("\\'"); case '"': return("\\\""); /* we escape all quotes for safety, since the context could be either character or string quotation */ default: if(c<32||c>126) /* miscellaneous unprintables -- convert to decimal */ sprintf(s,"\\%ld",c); else s[0]=c,s[1]='\0'; return(s); } } void out(f,x) /* the routines "out","out1","out2" are for printing compiled expressions */ FILE *f; word x; { #ifdef DEBUG static pending=NIL; /* cycle trap */ word oldpending=pending; /* cycle trap */ #endif if(x<0||x>TOP){ fprintf(f,"<%ld>",x); return; } #ifdef DEBUG if(member(pending,x)){ fprintf(f,"..."); return; } /* cycle trap */ pending=cons(x,pending); /* cycle trap */ #endif if(tag[x]==LAMBDA) { fprintf(f,"$(");out(f,hd[x]);putc(')',f); out(f,tl[x]); } else { while(tag[x]==CONS) { out1(f,hd[x]); putc(':',f); x= tl[x]; #ifdef DEBUG if(member(pending,x))break; /* cycle trap */ pending=cons(x,pending); /* cycle trap */ #endif } out1(f,x); } #ifdef DEBUG pending=oldpending; /* cycle trap */ #endif } /* warning - cycle trap not interrupt safe if `out' used in compiling process */ void out1(f,x) FILE *f; word x; { if(x<0||x>TOP){ fprintf(f,"<%ld>",x); return; } if(tag[x]==AP) { out1(f,hd[x]); putc(' ',f); out2(f,tl[x]); } else out2(f,x); } void out2(f,x) FILE *f; word x; { extern char *yysterm[], *cmbnms[]; if(x<0||x>TOP){ fprintf(f,"<%ld>",x); return; } if(tag[x]==INT) { if(rest(x)) { x=bigtostr(x); while(x)putc(hd[x],f),x=tl[x]; } else fprintf(f,"%ld",getsmallint(x)); return; } if(tag[x]==DOUBLE){ outr(f,get_dbl(x)); return; } if(tag[x]==ID){ fprintf(f,"%s",get_id(x)); return; } if(x<256){ fprintf(f,"\'%s\'",charname(x)); return; } if(tag[x]==UNICODE){ fprintf(f,"'\%lx'",hd[x]); return; } if(tag[x]==ATOM) { fprintf(f,"%s",x",hd[x]); return; }/* used as private id's, inter alia*/ if(tag[x]==SHARE) { fprintf(f,"(SHARE:"); out(f,hd[x]); fprintf(f,")"); return; } if(tag[x]!=CONS&&tag[x]!=AP&&tag[x]!=LAMBDA) /* not a recognised structure */ { fprintf(f,"<%ld|tag=%d>",x,tag[x]); return; } putc('(',f); out(f,x); putc(')',f); } void outr(f,r) /* prints a number */ FILE *f; double r; { double p; p= r<0?-r: r; if(p>=1000.0||p<=.001)fprintf(f,"%e",r); else fprintf(f,"%f",r); } /* end of MIRANDA DATA REPRESENTATIONS */