ref: cb474632d3f23de10fea2d70a4b4c98d8f3a3755
dir: /sys/src/ape/lib/regexp/rregexec.c/
#include <stdlib.h> #include <stdio.h> #include "regexp.h" #include "regcomp.h" static Resublist sempty; /* empty set of matches */ /* * return 0 if no match * >0 if a match * <0 if we ran out of _relist space */ static int rregexec1(Reprog *progp, /* program to run */ wchar_t *bol, /* string to run machine on */ Resub *mp, /* subexpression elements */ int ms, /* number of elements at mp */ wchar_t *starts, wchar_t *eol, wchar_t startchar) { int flag=0; Reinst *inst; Relist *tlp; wchar_t *s; int i, checkstart; wchar_t r, *rp, *ep; int n; Relist* tl; /* This list, next list */ Relist* nl; Relist* tle; /* ends of this and next list */ Relist* nle; int match; match = 0; checkstart = startchar; sempty.m[0].s.rsp = 0; if(mp!=0) for(i=0; i<ms; i++) mp[i].s.rsp = mp[i].e.rep = 0; _relist[0][0].inst = _relist[1][0].inst = 0; /* Execute machine once for each character, including terminal NUL */ s = starts; do{ r = *s; /* fast check for first char */ if(checkstart && r!=startchar){ s++; continue; } /* switch run lists */ tl = _relist[flag]; tle = _reliste[flag]; nl = _relist[flag^=1]; nle = _reliste[flag]; nl->inst = 0; /* Add first instruction to current list */ sempty.m[0].s.rsp = s; _renewthread(tl, progp->startinst, &sempty); /* Execute machine until current list is empty */ for(tlp=tl; tlp->inst; tlp++){ /* assignment = */ if(s == eol) break; for(inst=tlp->inst; ; inst = inst->l.next){ switch(inst->type){ case RUNE: /* regular character */ if(inst->r.r == r) if(_renewthread(nl, inst->l.next, &tlp->se)==nle) return -1; break; case LBRA: tlp->se.m[inst->r.subid].s.rsp = s; continue; case RBRA: tlp->se.m[inst->r.subid].e.rep = s; continue; case ANY: if(r != '\n') if(_renewthread(nl, inst->l.next, &tlp->se)==nle) return -1; break; case ANYNL: if(_renewthread(nl, inst->l.next, &tlp->se)==nle) return -1; break; case BOL: if(s == bol || *(s-1) == '\n') continue; break; case EOL: if(r == 0 || r == '\n') continue; break; case CCLASS: ep = inst->r.cp->end; for(rp = inst->r.cp->spans; rp < ep; rp += 2) if(r >= rp[0] && r <= rp[1]){ if(_renewthread(nl, inst->l.next, &tlp->se)==nle) return -1; break; } break; case NCCLASS: ep = inst->r.cp->end; for(rp = inst->r.cp->spans; rp < ep; rp += 2) if(r >= rp[0] && r <= rp[1]) break; if(rp == ep) if(_renewthread(nl, inst->l.next, &tlp->se)==nle) return -1; break; case OR: /* evaluate right choice later */ if(_renewthread(tlp, inst->r.right, &tlp->se) == tle) return -1; /* efficiency: advance and re-evaluate */ continue; case END: /* Match! */ match = 1; tlp->se.m[0].e.rep = s; if(mp != 0) _renewmatch(mp, ms, &tlp->se); break; } break; } } checkstart = startchar && nl->inst==0; s++; }while(r); return match; } extern int rregexec(Reprog *progp, /* program to run */ wchar_t *bol, /* string to run machine on */ Resub *mp, /* subexpression elements */ int ms) /* number of elements at mp */ { wchar_t *starts; /* where to start match */ wchar_t *eol; /* where to end match */ wchar_t startchar; int rv; /* * use user-specified starting/ending location if specified */ starts = bol; eol = 0; if(mp && ms>0){ if(mp->s.rsp) starts = mp->s.rsp; if(mp->e.rep) eol = mp->e.rep; } startchar = progp->startinst->type == RUNE ? progp->startinst->r.r : 0; /* keep trying till we have enough list space to terminate */ for(;;){ if(_relist[0] == 0){ _relist[0] = malloc(2*_relistsize*sizeof(Relist)); _relist[1] = _relist[0] + _relistsize; _reliste[0] = _relist[0] + _relistsize - 1; _reliste[1] = _relist[1] + _relistsize - 1; if(_relist[0] == 0) regerror("_relist overflow"); } rv = rregexec1(progp, bol, mp, ms, starts, eol, startchar); if(rv >= 0) return rv; free(_relist[0]); _relist[0] = 0; _relistsize += LISTINCREMENT; } }