112554Scsvaf /* Copyright (c) 1982 Regents of the University of California */ 212554Scsvaf 3*16610Ssam static char sccsid[] = "@(#)fortran.c 1.3 5/20/83"; 412554Scsvaf 5*16610Ssam static char rcsid[] = "$Header: fortran.c,v 1.3 84/03/27 10:20:53 linton Exp $"; 6*16610Ssam 712549Scsvaf /* 812549Scsvaf * FORTRAN dependent symbol routines. 912549Scsvaf */ 1012549Scsvaf 1112549Scsvaf #include "defs.h" 1212549Scsvaf #include "symbols.h" 1312549Scsvaf #include "printsym.h" 1412549Scsvaf #include "languages.h" 1512549Scsvaf #include "fortran.h" 1612549Scsvaf #include "tree.h" 1712549Scsvaf #include "eval.h" 1812549Scsvaf #include "operators.h" 1912549Scsvaf #include "mappings.h" 2012549Scsvaf #include "process.h" 2112549Scsvaf #include "runtime.h" 2212549Scsvaf #include "machine.h" 2312549Scsvaf 2412549Scsvaf #define isfloat(range) ( \ 2512549Scsvaf range->symvalue.rangev.upper == 0 and range->symvalue.rangev.lower > 0 \ 2612549Scsvaf ) 2712549Scsvaf 2812549Scsvaf #define isrange(t, name) (t->class == RANGE and istypename(t->type, name)) 2912549Scsvaf 3012549Scsvaf #define MAXDIM 20 31*16610Ssam 32*16610Ssam private Language fort; 33*16610Ssam 3412549Scsvaf /* 3512549Scsvaf * Initialize FORTRAN language information. 3612549Scsvaf */ 3712549Scsvaf 3812549Scsvaf public fortran_init() 3912549Scsvaf { 40*16610Ssam fort = language_define("fortran", ".f"); 41*16610Ssam language_setop(fort, L_PRINTDECL, fortran_printdecl); 42*16610Ssam language_setop(fort, L_PRINTVAL, fortran_printval); 43*16610Ssam language_setop(fort, L_TYPEMATCH, fortran_typematch); 44*16610Ssam language_setop(fort, L_BUILDAREF, fortran_buildaref); 45*16610Ssam language_setop(fort, L_EVALAREF, fortran_evalaref); 46*16610Ssam language_setop(fort, L_MODINIT, fortran_modinit); 47*16610Ssam language_setop(fort, L_HASMODULES, fortran_hasmodules); 48*16610Ssam language_setop(fort, L_PASSADDR, fortran_passaddr); 4912549Scsvaf } 5012549Scsvaf 5112549Scsvaf /* 5212549Scsvaf * Test if two types are compatible. 5312549Scsvaf * 5412549Scsvaf * Integers and reals are not compatible since they cannot always be mixed. 5512549Scsvaf */ 5612549Scsvaf 5712549Scsvaf public Boolean fortran_typematch(type1, type2) 5812549Scsvaf Symbol type1, type2; 5912549Scsvaf { 6012549Scsvaf 6112549Scsvaf /* only does integer for now; may need to add others 6212549Scsvaf */ 6312549Scsvaf 6412549Scsvaf Boolean b; 6512549Scsvaf register Symbol t1, t2, tmp; 6612549Scsvaf 6712549Scsvaf t1 = rtype(type1); 6812549Scsvaf t2 = rtype(type2); 6912549Scsvaf if(t1 == nil or t1->type == nil or t2 == nil or t2->type == nil ) b = false; 7012549Scsvaf else { b = (Boolean) ( 7112549Scsvaf (t1 == t2) or 7212549Scsvaf (t1->type == t_int and (istypename(t2->type, "integer") or 7312549Scsvaf istypename(t2->type, "integer*2")) ) or 7412549Scsvaf (t2->type == t_int and (istypename(t1->type, "integer") or 7512549Scsvaf istypename(t1->type, "integer*2")) ) 7612549Scsvaf ); 7712549Scsvaf } 7812549Scsvaf /*OUT fprintf(stderr," %d compat %s %s \n", b, 7912549Scsvaf (t1 == nil or t1->type == nil ) ? "nil" : symname(t1->type), 8012549Scsvaf (t2 == nil or t2->type == nil ) ? "nil" : symname(t2->type) );*/ 8112549Scsvaf return b; 8212549Scsvaf } 8312549Scsvaf 8412549Scsvaf private String typename(s) 8512549Scsvaf Symbol s; 8612549Scsvaf { 8712549Scsvaf int ub; 8812549Scsvaf static char buf[20]; 8912549Scsvaf char *pbuf; 9012549Scsvaf Symbol st,sc; 9112549Scsvaf 9212549Scsvaf if(s->type->class == TYPE) return(symname(s->type)); 9312549Scsvaf 9412549Scsvaf for(st = s->type; st->type->class != TYPE; st = st->type); 9512549Scsvaf 9612549Scsvaf pbuf=buf; 9712549Scsvaf 9812549Scsvaf if(istypename(st->type,"char")) { 9912549Scsvaf sprintf(pbuf,"character*"); 10012549Scsvaf pbuf += strlen(pbuf); 10112549Scsvaf sc = st->chain; 10212549Scsvaf if(sc->symvalue.rangev.uppertype == R_ARG or 10312549Scsvaf sc->symvalue.rangev.uppertype == R_TEMP) { 10412549Scsvaf if( ! getbound(s,sc->symvalue.rangev.upper, 10512549Scsvaf sc->symvalue.rangev.uppertype, &ub) ) 10612549Scsvaf sprintf(pbuf,"(*)"); 10712549Scsvaf else 10812549Scsvaf sprintf(pbuf,"%d",ub); 10912549Scsvaf } 11012549Scsvaf else sprintf(pbuf,"%d",sc->symvalue.rangev.upper); 11112549Scsvaf } 11212549Scsvaf else { 11312549Scsvaf sprintf(pbuf,"%s ",symname(st->type)); 11412549Scsvaf } 11512549Scsvaf return(buf); 11612549Scsvaf } 11712549Scsvaf 11812549Scsvaf private Symbol mksubs(pbuf,st) 11912549Scsvaf Symbol st; 12012549Scsvaf char **pbuf; 12112549Scsvaf { 12212549Scsvaf int lb, ub; 12312549Scsvaf Symbol r, eltype; 12412549Scsvaf 12512549Scsvaf if(st->class != ARRAY or (istypename(st->type, "char")) ) return; 12612549Scsvaf else { 12712549Scsvaf mksubs(pbuf,st->type); 12812549Scsvaf assert( (r = st->chain)->class == RANGE); 12912549Scsvaf 13012549Scsvaf if(r->symvalue.rangev.lowertype == R_ARG or 13112549Scsvaf r->symvalue.rangev.lowertype == R_TEMP) { 13212549Scsvaf if( ! getbound(st,r->symvalue.rangev.lower, 13312549Scsvaf r->symvalue.rangev.lowertype, &lb) ) 13412549Scsvaf sprintf(*pbuf,"?:"); 13512549Scsvaf else 13612549Scsvaf sprintf(*pbuf,"%d:",lb); 13712549Scsvaf } 13812549Scsvaf else { 13912549Scsvaf lb = r->symvalue.rangev.lower; 14012549Scsvaf sprintf(*pbuf,"%d:",lb); 14112549Scsvaf } 14212549Scsvaf *pbuf += strlen(*pbuf); 14312549Scsvaf 14412549Scsvaf if(r->symvalue.rangev.uppertype == R_ARG or 14512549Scsvaf r->symvalue.rangev.uppertype == R_TEMP) { 14612549Scsvaf if( ! getbound(st,r->symvalue.rangev.upper, 14712549Scsvaf r->symvalue.rangev.uppertype, &ub) ) 14812549Scsvaf sprintf(*pbuf,"?,"); 14912549Scsvaf else 15012549Scsvaf sprintf(*pbuf,"%d,",ub); 15112549Scsvaf } 15212549Scsvaf else { 15312549Scsvaf ub = r->symvalue.rangev.upper; 15412549Scsvaf sprintf(*pbuf,"%d,",ub); 15512549Scsvaf } 15612549Scsvaf *pbuf += strlen(*pbuf); 15712549Scsvaf 15812549Scsvaf } 15912549Scsvaf } 16012549Scsvaf 16112549Scsvaf /* 16212549Scsvaf * Print out the declaration of a FORTRAN variable. 16312549Scsvaf */ 16412549Scsvaf 16512549Scsvaf public fortran_printdecl(s) 16612549Scsvaf Symbol s; 16712549Scsvaf { 16812549Scsvaf 16912549Scsvaf 17012549Scsvaf Symbol eltype; 17112549Scsvaf 17212549Scsvaf switch (s->class) { 173*16610Ssam 17412549Scsvaf case CONST: 175*16610Ssam 17612549Scsvaf printf("parameter %s = ", symname(s)); 17712549Scsvaf printval(s); 17812549Scsvaf break; 17912549Scsvaf 18012549Scsvaf case REF: 18112549Scsvaf printf(" (dummy argument) "); 182*16610Ssam 18314652Slinton case VAR: 184*16610Ssam if (s->type->class == ARRAY && 185*16610Ssam (not istypename(s->type->type,"char")) ) { 186*16610Ssam char bounds[130], *p1, **p; 18712549Scsvaf p1 = bounds; 18812549Scsvaf p = &p1; 189*16610Ssam mksubs(p,s->type); 19012549Scsvaf *p -= 1; 19112549Scsvaf **p = '\0'; /* get rid of trailing ',' */ 192*16610Ssam printf(" %s %s[%s] ",typename(s), symname(s), bounds); 19312549Scsvaf } else { 19412549Scsvaf printf("%s %s", typename(s), symname(s)); 19512549Scsvaf } 19612549Scsvaf break; 19712549Scsvaf 19812549Scsvaf case FUNC: 19912627Scsvaf if (not istypename(s->type, "void")) { 20012549Scsvaf printf(" %s function ", typename(s) ); 20112549Scsvaf } 202*16610Ssam else printf(" subroutine"); 20312549Scsvaf printf(" %s ", symname(s)); 20412549Scsvaf fortran_listparams(s); 20512549Scsvaf break; 20612549Scsvaf 20712549Scsvaf case MODULE: 208*16610Ssam printf("source file \"%s.c\"", symname(s)); 20912549Scsvaf break; 21012549Scsvaf 21112549Scsvaf case PROG: 21212549Scsvaf printf("executable file \"%s\"", symname(s)); 21312549Scsvaf break; 21412549Scsvaf 21512549Scsvaf default: 21612549Scsvaf error("class %s in fortran_printdecl", classname(s)); 21712549Scsvaf } 21812549Scsvaf putchar('\n'); 21912549Scsvaf } 22012549Scsvaf 22112549Scsvaf /* 22212549Scsvaf * List the parameters of a procedure or function. 22312549Scsvaf * No attempt is made to combine like types. 22412549Scsvaf */ 22512549Scsvaf 22612549Scsvaf public fortran_listparams(s) 22712549Scsvaf Symbol s; 22812549Scsvaf { 22912549Scsvaf register Symbol t; 23012549Scsvaf 23112549Scsvaf putchar('('); 23212549Scsvaf for (t = s->chain; t != nil; t = t->chain) { 23312549Scsvaf printf("%s", symname(t)); 23412549Scsvaf if (t->chain != nil) { 23512549Scsvaf printf(", "); 23612549Scsvaf } 23712549Scsvaf } 23812549Scsvaf putchar(')'); 23912549Scsvaf if (s->chain != nil) { 24012549Scsvaf printf("\n"); 24112549Scsvaf for (t = s->chain; t != nil; t = t->chain) { 24212549Scsvaf if (t->class != REF) { 24312549Scsvaf panic("unexpected class %d for parameter", t->class); 24412549Scsvaf } 24512549Scsvaf printdecl(t, 0); 24612549Scsvaf } 24712549Scsvaf } else { 24812549Scsvaf putchar('\n'); 24912549Scsvaf } 25012549Scsvaf } 25112549Scsvaf 25212549Scsvaf /* 25312549Scsvaf * Print out the value on the top of the expression stack 25412549Scsvaf * in the format for the type of the given symbol. 25512549Scsvaf */ 25612549Scsvaf 25712549Scsvaf public fortran_printval(s) 25812549Scsvaf Symbol s; 25912549Scsvaf { 26012549Scsvaf register Symbol t; 26112549Scsvaf register Address a; 26212549Scsvaf register int i, len; 26312549Scsvaf 26412549Scsvaf /* printf("fortran_printval with class %s \n",classname(s)); OUT*/ 26512549Scsvaf switch (s->class) { 26612549Scsvaf case CONST: 26712549Scsvaf case TYPE: 26812549Scsvaf case VAR: 26912549Scsvaf case REF: 27012549Scsvaf case FVAR: 27112549Scsvaf case TAG: 27212549Scsvaf fortran_printval(s->type); 27312549Scsvaf break; 27412549Scsvaf 27512549Scsvaf case ARRAY: 27612549Scsvaf t = rtype(s->type); 27712549Scsvaf if (t->class == RANGE and istypename(t->type, "char")) { 27812549Scsvaf len = size(s); 27912549Scsvaf sp -= len; 28012549Scsvaf printf("\"%.*s\"", len, sp); 28112549Scsvaf } else { 28212549Scsvaf fortran_printarray(s); 28312549Scsvaf } 28412549Scsvaf break; 28512549Scsvaf 28612549Scsvaf case RANGE: 28712549Scsvaf if (isfloat(s)) { 28812549Scsvaf switch (s->symvalue.rangev.lower) { 28912549Scsvaf case sizeof(float): 29012549Scsvaf prtreal(pop(float)); 29112549Scsvaf break; 29212549Scsvaf 29312549Scsvaf case sizeof(double): 29412549Scsvaf if(istypename(s->type,"complex")) { 29512549Scsvaf printf("("); 29612549Scsvaf prtreal(pop(float)); 29712549Scsvaf printf(","); 29812549Scsvaf prtreal(pop(float)); 29912549Scsvaf printf(")"); 30012549Scsvaf } 30112549Scsvaf else prtreal(pop(double)); 30212549Scsvaf break; 30312549Scsvaf 30412549Scsvaf default: 30512549Scsvaf panic("bad size \"%d\" for real", 30612549Scsvaf t->symvalue.rangev.lower); 30712549Scsvaf break; 30812549Scsvaf } 30912549Scsvaf } else { 31012549Scsvaf printint(popsmall(s), s); 31112549Scsvaf } 31212549Scsvaf break; 31312549Scsvaf 31412549Scsvaf default: 31512549Scsvaf if (ord(s->class) > ord(TYPEREF)) { 31612549Scsvaf panic("printval: bad class %d", ord(s->class)); 31712549Scsvaf } 31812549Scsvaf error("don't know how to print a %s", fortran_classname(s)); 31912549Scsvaf /* NOTREACHED */ 32012549Scsvaf } 32112549Scsvaf } 32212549Scsvaf 32312549Scsvaf /* 32412549Scsvaf * Print out an int 32512549Scsvaf */ 32612549Scsvaf 32712549Scsvaf private printint(i, t) 32812549Scsvaf Integer i; 32912549Scsvaf register Symbol t; 33012549Scsvaf { 33112549Scsvaf if (istypename(t->type, "logical")) { 33212549Scsvaf printf(((Boolean) i) == true ? "true" : "false"); 33312549Scsvaf } 33412549Scsvaf else if ( (t->type == t_int) or istypename(t->type, "integer") or 33512549Scsvaf istypename(t->type,"integer*2") ) { 33612549Scsvaf printf("%ld", i); 33712549Scsvaf } else { 33812549Scsvaf error("unkown type in fortran printint"); 33912549Scsvaf } 34012549Scsvaf } 34112549Scsvaf 34212549Scsvaf /* 34312549Scsvaf * Print out a null-terminated string (pointer to char) 34412549Scsvaf * starting at the given address. 34512549Scsvaf */ 34612549Scsvaf 34712549Scsvaf private printstring(addr) 34812549Scsvaf Address addr; 34912549Scsvaf { 35012549Scsvaf register Address a; 35112549Scsvaf register Integer i, len; 35212549Scsvaf register Boolean endofstring; 35312549Scsvaf union { 35412549Scsvaf char ch[sizeof(Word)]; 35512549Scsvaf int word; 35612549Scsvaf } u; 35712549Scsvaf 35812549Scsvaf putchar('"'); 35912549Scsvaf a = addr; 36012549Scsvaf endofstring = false; 36112549Scsvaf while (not endofstring) { 36212549Scsvaf dread(&u, a, sizeof(u)); 36312549Scsvaf i = 0; 36412549Scsvaf do { 36512549Scsvaf if (u.ch[i] == '\0') { 36612549Scsvaf endofstring = true; 36712549Scsvaf } else { 36812549Scsvaf printchar(u.ch[i]); 36912549Scsvaf } 37012549Scsvaf ++i; 37112549Scsvaf } while (i < sizeof(Word) and not endofstring); 37212549Scsvaf a += sizeof(Word); 37312549Scsvaf } 37412549Scsvaf putchar('"'); 37512549Scsvaf } 37612549Scsvaf /* 37712549Scsvaf * Return the FORTRAN name for the particular class of a symbol. 37812549Scsvaf */ 37912549Scsvaf 38012549Scsvaf public String fortran_classname(s) 38112549Scsvaf Symbol s; 38212549Scsvaf { 38312549Scsvaf String str; 38412549Scsvaf 38512549Scsvaf switch (s->class) { 38612549Scsvaf case REF: 38712549Scsvaf str = "dummy argument"; 38812549Scsvaf break; 38912549Scsvaf 39012549Scsvaf case CONST: 39112549Scsvaf str = "parameter"; 39212549Scsvaf break; 39312549Scsvaf 39412549Scsvaf default: 39512549Scsvaf str = classname(s); 39612549Scsvaf } 39712549Scsvaf return str; 39812549Scsvaf } 39912549Scsvaf 40012549Scsvaf /* reverses the indices from the expr_list; should be folded into buildaref 40112549Scsvaf * and done as one recursive routine 40212549Scsvaf */ 40312549Scsvaf Node private rev_index(here,n) 40412549Scsvaf register Node here,n; 40512549Scsvaf { 40612549Scsvaf 40712549Scsvaf register Node i; 40812549Scsvaf 40912549Scsvaf if( here == nil or here == n) i=nil; 41012549Scsvaf else if( here->value.arg[1] == n) i = here; 41112549Scsvaf else i=rev_index(here->value.arg[1],n); 41212549Scsvaf return i; 41312549Scsvaf } 41412549Scsvaf 41512549Scsvaf public Node fortran_buildaref(a, slist) 41612549Scsvaf Node a, slist; 41712549Scsvaf { 41812549Scsvaf register Symbol as; /* array of array of .. cursor */ 41912549Scsvaf register Node en; /* Expr list cursor */ 42012549Scsvaf Symbol etype; /* Type of subscript expr */ 42112549Scsvaf Node esub, tree; /* Subscript expression ptr and tree to be built*/ 42212549Scsvaf 42312549Scsvaf tree=a; 42412549Scsvaf 42512549Scsvaf as = rtype(tree->nodetype); /* node->sym.type->array*/ 42612549Scsvaf if ( not ( 42712549Scsvaf (tree->nodetype->class == VAR or tree->nodetype->class == REF) 42812549Scsvaf and as->class == ARRAY 42912549Scsvaf ) ) { 43012549Scsvaf beginerrmsg(); 43112549Scsvaf prtree(stderr, a); 43212549Scsvaf fprintf(stderr, " is not an array"); 43312549Scsvaf /*fprintf(stderr, " a-> %x as %x ", tree->nodetype, as ); OUT*/ 43412549Scsvaf enderrmsg(); 43512549Scsvaf } else { 43612549Scsvaf for (en = rev_index(slist,nil); en != nil and as->class == ARRAY; 43712549Scsvaf en = rev_index(slist,en), as = as->type) { 43812549Scsvaf esub = en->value.arg[0]; 43912549Scsvaf etype = rtype(esub->nodetype); 44012549Scsvaf assert(as->chain->class == RANGE); 44112549Scsvaf if ( not compatible( t_int, etype) ) { 44212549Scsvaf beginerrmsg(); 44312549Scsvaf fprintf(stderr, "subscript "); 44412549Scsvaf prtree(stderr, esub); 44512549Scsvaf fprintf(stderr, " is type %s ",symname(etype->type) ); 44612549Scsvaf enderrmsg(); 44712549Scsvaf } 44812549Scsvaf tree = build(O_INDEX, tree, esub); 44912549Scsvaf tree->nodetype = as->type; 45012549Scsvaf } 45112549Scsvaf if (en != nil or 45212549Scsvaf (as->class == ARRAY && (not istypename(as->type,"char"))) ) { 45312549Scsvaf beginerrmsg(); 45412549Scsvaf if (en != nil) { 45512549Scsvaf fprintf(stderr, "too many subscripts for "); 45612549Scsvaf } else { 45712549Scsvaf fprintf(stderr, "not enough subscripts for "); 45812549Scsvaf } 45912549Scsvaf prtree(stderr, tree); 46012549Scsvaf enderrmsg(); 46112549Scsvaf } 46212549Scsvaf } 46312549Scsvaf return tree; 46412549Scsvaf } 46512549Scsvaf 46612549Scsvaf /* 46712549Scsvaf * Evaluate a subscript index. 46812549Scsvaf */ 46912549Scsvaf 47012549Scsvaf public int fortran_evalaref(s, i) 47112549Scsvaf Symbol s; 47212549Scsvaf long i; 47312549Scsvaf { 47412549Scsvaf Symbol r; 47512549Scsvaf long lb, ub; 47612549Scsvaf 47712549Scsvaf r = rtype(s)->chain; 47812549Scsvaf if(r->symvalue.rangev.lowertype == R_ARG or 47912549Scsvaf r->symvalue.rangev.lowertype == R_TEMP ) { 48012549Scsvaf if(! getbound(s,r->symvalue.rangev.lower, 48112549Scsvaf r->symvalue.rangev.lowertype,&lb)) 48212549Scsvaf error("dynamic bounds not currently available"); 48312549Scsvaf } 48412549Scsvaf else lb = r->symvalue.rangev.lower; 48512549Scsvaf 48612549Scsvaf if(r->symvalue.rangev.uppertype == R_ARG or 48712549Scsvaf r->symvalue.rangev.uppertype == R_TEMP ) { 48812549Scsvaf if(! getbound(s,r->symvalue.rangev.upper, 48912549Scsvaf r->symvalue.rangev.uppertype,&ub)) 49012549Scsvaf error("dynamic bounds not currently available"); 49112549Scsvaf } 49212549Scsvaf else ub = r->symvalue.rangev.upper; 49312549Scsvaf 49412549Scsvaf if (i < lb or i > ub) { 49512549Scsvaf error("subscript out of range"); 49612549Scsvaf } 49712549Scsvaf return (i - lb); 49812549Scsvaf } 49912549Scsvaf 50012549Scsvaf private fortran_printarray(a) 50112549Scsvaf Symbol a; 50212549Scsvaf { 50312549Scsvaf struct Bounds { int lb, val, ub} dim[MAXDIM]; 50412549Scsvaf 50512549Scsvaf Symbol sc,st,eltype; 50612549Scsvaf char buf[50]; 50712549Scsvaf char *subscr; 50812549Scsvaf int i,ndim,elsize; 50912549Scsvaf Stack *savesp; 51012549Scsvaf Boolean done; 51112549Scsvaf 51212549Scsvaf st = a; 51312549Scsvaf 51412549Scsvaf savesp = sp; 51512549Scsvaf sp -= size(a); 51612549Scsvaf ndim=0; 51712549Scsvaf 51812549Scsvaf for(;;){ 51912549Scsvaf sc = st->chain; 52012549Scsvaf if(sc->symvalue.rangev.lowertype == R_ARG or 52112549Scsvaf sc->symvalue.rangev.lowertype == R_TEMP) { 52212549Scsvaf if( ! getbound(a,sc->symvalue.rangev.lower, 52312627Scsvaf sc->symvalue.rangev.lowertype, &dim[ndim].lb) ) 52412549Scsvaf error(" dynamic bounds not currently available"); 52512549Scsvaf } 52612549Scsvaf else dim[ndim].lb = sc->symvalue.rangev.lower; 52712549Scsvaf 52812549Scsvaf if(sc->symvalue.rangev.uppertype == R_ARG or 52912549Scsvaf sc->symvalue.rangev.uppertype == R_TEMP) { 53012549Scsvaf if( ! getbound(a,sc->symvalue.rangev.upper, 53112549Scsvaf sc->symvalue.rangev.uppertype, &dim[ndim].ub) ) 53212549Scsvaf error(" dynamic bounds not currently available"); 53312549Scsvaf } 53412549Scsvaf else dim[ndim].ub = sc->symvalue.rangev.upper; 53512549Scsvaf 53612549Scsvaf ndim ++; 53712549Scsvaf if (st->type->class == ARRAY) st=st->type; 53812549Scsvaf else break; 53912549Scsvaf } 54012549Scsvaf 54112549Scsvaf if(istypename(st->type,"char")) { 54212549Scsvaf eltype = st; 54312549Scsvaf ndim--; 54412549Scsvaf } 54512549Scsvaf else eltype=st->type; 54612549Scsvaf elsize=size(eltype); 54712549Scsvaf sp += elsize; 54812549Scsvaf /*printf("ndim %d elsize %lx in fortran_printarray\n",ndim,elsize);OUT*/ 54912549Scsvaf 55012549Scsvaf ndim--; 55112549Scsvaf for (i=0;i<=ndim;i++){ 55212549Scsvaf dim[i].val=dim[i].lb; 55312549Scsvaf /*OUT printf(" %d %d %d \n",i,dim[i].lb,dim[i].ub); 55412549Scsvaf fflush(stdout); OUT*/ 55512549Scsvaf } 55612549Scsvaf 55712549Scsvaf 55812549Scsvaf for(;;) { 55912549Scsvaf buf[0]=','; 56012549Scsvaf subscr = buf+1; 56112549Scsvaf 56212549Scsvaf for (i=ndim-1;i>=0;i--) { 56312549Scsvaf 56412549Scsvaf sprintf(subscr,"%d,",dim[i].val); 56512549Scsvaf subscr += strlen(subscr); 56612549Scsvaf } 56712549Scsvaf *--subscr = '\0'; 56812549Scsvaf 56912549Scsvaf for(i=dim[ndim].lb;i<=dim[ndim].ub;i++) { 57012549Scsvaf printf("[%d%s]\t",i,buf); 57112549Scsvaf printval(eltype); 57212549Scsvaf printf("\n"); 57312549Scsvaf sp += 2*elsize; 57412549Scsvaf } 57512549Scsvaf dim[ndim].val=dim[ndim].ub; 57612549Scsvaf 57712549Scsvaf i=ndim-1; 57812549Scsvaf if (i<0) break; 57912549Scsvaf 58012549Scsvaf done=false; 58112549Scsvaf do { 58212549Scsvaf dim[i].val++; 58312549Scsvaf if(dim[i].val > dim[i].ub) { 58412549Scsvaf dim[i].val = dim[i].lb; 58512549Scsvaf if(--i<0) done=true; 58612549Scsvaf } 58712549Scsvaf else done=true; 58812549Scsvaf } 58912549Scsvaf while (not done); 59012549Scsvaf if (i<0) break; 59112549Scsvaf } 59212549Scsvaf } 593*16610Ssam 594*16610Ssam /* 595*16610Ssam * Initialize typetable at beginning of a module. 596*16610Ssam */ 597*16610Ssam 598*16610Ssam public fortran_modinit (typetable) 599*16610Ssam Symbol typetable[]; 600*16610Ssam { 601*16610Ssam /* nothing for now */ 602*16610Ssam } 603*16610Ssam 604*16610Ssam public boolean fortran_hasmodules () 605*16610Ssam { 606*16610Ssam return false; 607*16610Ssam } 608*16610Ssam 609*16610Ssam public boolean fortran_passaddr (param, exprtype) 610*16610Ssam Symbol param, exprtype; 611*16610Ssam { 612*16610Ssam return false; 613*16610Ssam } 614