#include "rc.h" #include "exec.h" #include "fns.h" char *globname; struct word *globv; /* * delete all the GLOB marks from s, in place */ void deglob(char *s) { char *t=s; do{ if(*t==GLOB) t++; *s++=*t; }while(*t++); } int globcmp(char **s, char **t) { return strcmp(*s, *t); } void globsort(word *left, word *right) { char **list; word *a; int n=0; for(a=left;a!=right;a=a->next) n++; list=(char **)emalloc(n*sizeof(char *)); for(a=left,n=0;a!=right;a=a->next,n++) list[n]=a->word; qsort((char *)list, n, sizeof(char *), globcmp); for(a=left,n=0;a!=right;a=a->next,n++) a->word=list[n]; efree((char *)list); } /* * Push names prefixed by globname and suffixed by a match of p onto the astack. * namep points to the end of the prefix in globname. */ void globdir(char *p, char *namep) { char *t, *newp; int f; /* scan the pattern looking for a component with a metacharacter in it */ if(*p=='\0'){ globv=newword(globname, globv); return; } t=namep; newp=p; while(*newp){ if(*newp==GLOB) break; *t=*newp++; if(*t++=='/'){ namep=t; p=newp; } } /* If we ran out of pattern, append the name if accessible */ if(*newp=='\0'){ *t='\0'; if(access(globname, 0)==0) globv=newword(globname, globv); return; } /* read the directory and recur for any entry that matches */ *namep='\0'; if((f=Opendir(globname[0]?globname:"."))<0) return; while(*newp!='/' && *newp!='\0') newp++; while(Readdir(f, namep)){ if(matchfn(namep, p)){ for(t=namep;*t;t++); globdir(newp, t); } } Closedir(f); } /* * Push all file names matched by p on the current thread's stack. * If there are no matches, the list consists of p. */ void glob(char *p) { word *svglobv=globv; int globlen=Globsize(p); if(!globlen){ deglob(p); globv=newword(p, globv); return; } globname=emalloc(globlen); globname[0]='\0'; globdir(p, globname); efree(globname); if(svglobv==globv){ deglob(p); globv=newword(p, globv); } else globsort(globv, svglobv); } /* * Do p and q point at equal utf codes */ int equtf(char *p, char *q){ if(*p!=*q) return 0; if(twobyte(*p)) return p[1]==q[1]; if(threebyte(*p)){ if(p[1]!=q[1]) return 0; if(p[1]=='\0') return 1; /* broken code at end of string! */ return p[2]==q[2]; } return 1; } /* * Return a pointer to the next utf code in the string, * not jumping past nuls in broken utf codes! */ char *nextutf(char *p){ int u=*p&0xff; if(twobyte(*p)) return p[1]=='\0'?p+1:p+2; if(threebyte(*p)) return p[1]=='\0'?p+1:p[2]=='\0'?p+2:p+3; return p+1; } /* * Convert the utf code at *p to a unicode value */ int unicode(char *p){ int u=*p&0xff, v; if(twobyte(u)) return ((u&0x1f)<<6)|(p[1]&0x3f); if(threebyte(u)) return (u<<12)|((p[1]&0x3f)<<6)|(p[2]&0x3f); return u; } /* * Does the string s match the pattern p * . and .. are only matched by patterns starting with . * * matches any sequence of characters * ? matches any single character * [...] matches the enclosed list of characters */ int matchfn(char *s, char *p) { if(s[0]=='.' && (s[1]=='\0' || s[1]=='.' && s[2]=='\0') && p[0]!='.') return 0; return match(s, p, '/'); } int match(char *s, char *p, int stop) { int compl, hit, lo, hi, t, c; for(;*p!=stop && *p!='\0';s=nextutf(s),p=nextutf(p)){ if(*p!=GLOB){ if(!equtf(p, s)) return 0; } else switch(*++p){ case GLOB: if(*s!=GLOB) return 0; break; case '*': for(;;){ if(match(s, nextutf(p), stop)) return 1; if(!*s) break; s=nextutf(s); } return 0; case '?': if(*s=='\0') return 0; break; case '[': if(*s=='\0') return 0; c=unicode(s); p++; compl=*p=='~'; if(compl) p++; hit=0; while(*p!=']'){ if(*p=='\0') return 0; /* syntax error */ lo=unicode(p); p=nextutf(p); if(*p!='-') hi=lo; else{ p++; if(*p=='\0') return 0; /* syntax error */ hi=unicode(p); p=nextutf(p); if(hinext); glob(gl->word); } } void globlist(void){ word *a; globv=0; globlist1(runq->argv->words); poplist(); pushlist(); if(globv){ for(a=globv;a->next;a=a->next); a->next=runq->argv->words; runq->argv->words=globv; } }