ref: ca47fef0061954cda2355cc10dba774d6567051e
dir: /sys/src/ape/cmd/make/misc.c/
#include "defs.h" static int hasslash(char *); static int haspercent(char *); static void rehash(void); /* simple linear hash. hash function is sum of characters mod hash table size. */ static int hashloc(char *s) { int i; int hashval; char *t; hashval = 0; for(t=s; *t!='\0' ; ++t) hashval += *t; hashval %= hashsize; for(i=hashval; hashtab[i]!=0 && !equal(s,hashtab[i]->namep); i = i >= hashsize-1 ? 0 : i+1) ; return i; } nameblkp srchname(char *s) { return hashtab[hashloc(s)] ; } nameblkp makename(char *s) { nameblkp p; if(nhashed > hashthresh) rehash(); ++nhashed; hashtab[hashloc(s)] = p = ALLOC(nameblock); p->nxtnameblock = firstname; p->namep = copys(s); /* make a fresh copy of the string s */ /* p->linep = 0; p->done = 0; p->septype = 0; p->modtime = 0; */ firstname = p; if(mainname==NULL && !haspercent(s) && (*s!='.' || hasslash(s)) ) mainname = p; return p; } static int hasslash(char *s) { for( ; *s ; ++s) if(*s == '/') return YES; return NO; } static int haspercent(char *s) { for( ; *s ; ++s) if(*s == '%') return YES; return NO; } int hasparen(char *s) { for( ; *s ; ++s) if(*s == '(') return YES; return NO; } static void rehash(void) { nameblkp *ohash; nameblkp p, *hp, *endohash; hp = ohash = hashtab; endohash = hashtab + hashsize; newhash(2*hashsize); while( hp<endohash ) if(p = *hp++) hashtab[hashloc(p->namep)] = p; free( (char *) ohash); } void newhash(int newsize) { hashsize = newsize; hashtab = (nameblkp *) ckalloc(hashsize * sizeof(nameblkp)); hashthresh = (2*hashsize)/3; } nameblkp chkname(char *s) { nameblkp p; time_t k; /*TEMP NEW */ if(hasparen(s)) { k = lookarch(s); /*TEMP fprintf(stderr, "chkname(%s): look=%d\n", s, k); */ if(k == 0) return NULL; } if(p = srchname(s)) return p; dirsrch(s); return srchname(s); } char * copys(char *s) { char *t; if( (t = malloc( strlen(s)+1 ) ) == NULL) fatal("out of memory"); strcpy(t, s); return t; } char * concat(char *a, char *b, char *c) /* c = concatenation of a and b */ { char *t; t = c; while(*t = *a++) t++; while(*t++ = *b++); return c; } int suffix(char *a, char *b, char *p) /* is b the suffix of a? if so, set p = prefix */ { char *a0,*b0; a0 = a; b0 = b; while(*a++); while(*b++); if( (a-a0) < (b-b0) ) return 0; while(b>b0) if(*--a != *--b) return 0; while(a0<a) *p++ = *a0++; *p = '\0'; return 1; } int * ckalloc(int n) { int *p; if( p = (int *) calloc(1,n) ) return p; fatal("out of memory"); return 0;/* NOTREACHED */ } /* copy string a into b, substituting for arguments */ char * subst(char *a, char *b) { static depth = 0; char *s; char vname[100]; struct varblock *vbp; char closer; if(++depth > 100) fatal("infinitely recursive macro?"); if(a) while(*a) { if(*a!='$' || a[1]=='\0' || *++a=='$') /* if a non-macro character copy it. if $$ or $\0, copy $ */ *b++ = *a++; else { s = vname; if( *a=='(' || *a=='{' ) { closer = ( *a=='(' ? ')' : '}'); ++a; while(*a == ' ') ++a; while(*a!=' ' && *a!=closer && *a!='\0') *s++ = *a++; while(*a!=closer && *a!='\0') ++a; if(*a == closer) ++a; } else *s++ = *a++; *s = '\0'; if( (vbp = varptr(vname)) ->varval != 0) { b = subst(vbp->varval, b); vbp->used = YES; } } } *b = '\0'; --depth; return b; } void setvar(char *v, char *s, int dyn) { struct varblock *p; p = varptr(v); if( ! p->noreset ) { p->varval = s; p->noreset = inarglist; if(p->used && !dyn) fprintf(stderr, "Warning: %s changed after being used\n",v); if(p->export) { /* change string pointed to by environment to new v=s */ char *t; int lenv; lenv = strlen(v); *(p->export) = t = (char *) ckalloc(lenv + strlen(s) + 2); strcpy(t,v); t[lenv] = '='; strcpy(t+lenv+1, s); } else p->export = envpp; } } /* for setting Bradford's *D and *F family of macros whens setting * etc */ void set3var(char *macro, char *value) { char *s; char macjunk[8], *lastslash, *dirpart, *filepart; setvar(macro, value, YES); if(value == CHNULL) dirpart = filepart = CHNULL; else { lastslash = CHNULL; for(s = value; *s; ++s) if(*s == '/') lastslash = s; if(lastslash) { dirpart = copys(value); filepart = dirpart + (lastslash-value); filepart[-1] = '\0'; } else { dirpart = ""; filepart = value; } } setvar(concat(macro, "D", macjunk), dirpart, YES); setvar(concat(macro, "F", macjunk), filepart, YES); } int eqsign(char *a) /*look for arguments with equal signs but not colons */ { char *s, *t; char c; while(*a == ' ') ++a; for(s=a ; *s!='\0' && *s!=':' ; ++s) if(*s == '=') { for(t = a ; *t!='=' && *t!=' ' && *t!='\t' ; ++t ); c = *t; *t = '\0'; for(++s; *s==' ' || *s=='\t' ; ++s); setvar(a, copys(s), NO); *t = c; return YES; } return NO; } struct varblock * varptr(char *v) { struct varblock *vp; /* for compatibility, $(TGS) = $^ */ if(equal(v, "TGS") ) v = "^"; for(vp = firstvar; vp ; vp = vp->nxtvarblock) if(equal(v , vp->varname)) return vp; vp = ALLOC(varblock); vp->nxtvarblock = firstvar; firstvar = vp; vp->varname = copys(v); vp->varval = 0; return vp; } int dynmacro(char *line) { char *s; char endc, *endp; if(!isalpha(line[0])) return NO; for(s=line+1 ; *s && (isalpha(*s) | isdigit(*s)) ; ++s) ; endp = s; while( isspace(*s) ) ++s; if(s[0]!=':' || s[1]!='=') return NO; endc = *endp; *endp = '\0'; setvar(line, copys(s+2), YES); *endp = endc; return YES; } void fatal1(char *s, char *t) { char buf[100]; sprintf(buf, s, t); fatal(buf); } void fatal(char *s) { fflush(stdout); if(s) fprintf(stderr, "Make: %s. Stop.\n", s); else fprintf(stderr, "\nStop.\n"); waitstack(0); exit(1); } /* appends to the chain for $? and $^ */ chainp appendq(chainp head, char *tail) { chainp p, q; p = ALLOC(chain); p->datap = tail; if(head) { for(q = head ; q->nextp ; q = q->nextp) ; q->nextp = p; return head; } else return p; } /* builds the value for $? and $^ */ char * mkqlist(chainp p, char *qbuf) { char *qbufp, *s; if(p == NULL) return ""; qbufp = qbuf; for( ; p ; p = p->nextp) { s = p->datap; if(qbufp+strlen(s) > &qbuf[QBUFMAX-3]) { fprintf(stderr, "$? list too long\n"); break; } while (*s) *qbufp++ = *s++; *qbufp++ = ' '; } *--qbufp = '\0'; return qbuf; } wildp iswild(char *name) { char *s; wildp p; for(s=name; *s; ++s) if(*s == '%') { p = ALLOC(wild); *s = '\0'; p->left = copys(name); *s = '%'; p->right = copys(s+1); p->llen = strlen(p->left); p->rlen = strlen(p->right); p->totlen = p->llen + p->rlen; return p; } return NULL; } char * wildmatch(wildp p, char *name, int len) { char *stem; char *s; char c; if(len < p->totlen || strncmp(name, p->left, p->llen) || strncmp(s = name+len-p->rlen, p->right, p->rlen) ) return CHNULL; /*TEMP fprintf(stderr, "wildmatch(%s)=%s%%%s)\n", name,p->left,p->right); */ c = *s; *s = '\0'; stem = copys(name + p->llen); *s = c; return stem; } /* substitute stem for any % marks */ char * wildsub(char *pat, char *stem) { static char temp[100]; char *s, *t; s = temp; for(; *pat; ++pat) if(*pat == '%') for(t = stem ; *t; ) *s++ = *t++; else *s++ = *pat; *s = '\0'; return temp; }