Пример #1
0
unsigned EvaluatePOET:: compute_exp_lookahead(std::vector<POETCode*>& res)
{
   res.push_back(fac->new_string("("));
   if (exp_item->get_entry().get_code() == 0)
      SYM_UNDEFINED("EXP_BASE");
   compute_lookaheadInfo(exp_item->get_entry().get_code(), res);
   POETCode* uop = exp_uop->get_entry().get_code();
   while (uop != 0) {
       res.push_back(get_head(uop));
       uop = get_tail(uop);
   }
   return 1;
}
Пример #2
0
unsigned POETTypeTor::
compute_lookaheadInfo(EvaluatePOET* op, std::vector<POETCode*>& res, unsigned need)
{
    int size = args.size();
    unsigned len = -1;
    for (int i = 0; i < size; ++i)
     {
        unsigned curlen = compute_lookaheadInfo(op, i,need);
        if (len > curlen) len = curlen;
        ParseInfo& cur = parseInfo[i];
        for (unsigned i = 0; i < cur.filter.size(); ++i) {
            res.push_back(cur.filter[i]);
        }
    }
    return len;
}
Пример #3
0
POETCode* POETTypeTor::get_parseInfo(EvaluatePOET* op, POETCode* r1)
{ /*QY: compute and set parsing information*/
    int size = args.size();
    for (int i = 0; i < size-1; ++i)
     {
        compute_lookaheadInfo(op, i, 1);
        ParseInfo& cur = parseInfo[i];
        if (cur.lookahead == 0) LOOKAHEAD_EMPTY(args[i]);  
        assert(cur.filter.size() > 0);
        for (int j = 0; j < cur.filter.size(); ++j) {
            POETCode* cur_filter = cur.filter[j];
            if (op->match_lookahead(r1, cur_filter))
               return args[i];
        }
     }
     return args[size-1];
}
Пример #4
0
/*QY: return the min length of tokens placed in the filter res*/
unsigned EvaluatePOET::
compute_lookaheadInfo(POETCode* cur, std::vector<POETCode*>& res, unsigned need)
{
 try {
    assert(cur != 0);
    switch (cur->get_enum()) {
     case SRC_TYPE: 
         if (cur != ANY) { res.push_back(cur); return 1; }
         return 0;
     case SRC_STRING: 
         if (cur != EMPTY) { res.push_back(cur); return 1; }
         return 0;
     case SRC_ICONST:  
         res.push_back(cur); res.push_back(AST2String(cur)); 
         return 1;
     case SRC_CVAR:  {
         CodeVar* cvar = static_cast<CodeVar*>(cur);
         POETCode* parse=cvar->get_parseInfo();
         unsigned lookahead = cvar->get_entry().get_lookahead();
         if (need < lookahead) need = lookahead;
         if (parse != EMPTY) {
            unsigned len = compute_lookaheadInfo(parse, res, need);
            if (lookahead > 1 && len < lookahead) 
               { LOOKAHEAD_AMBIGUOUS(cvar); return 0; }
            return len;
         }
         res.push_back(cvar);  /*QY: the code var is a token */
         return 1;
        }
     case SRC_LVAR: {
          LocalVar* lvar = static_cast<LocalVar*>(cur);
          POETCode* restr = 0;
          switch (lvar->get_entry().get_entry_type())
          {
            case LVAR_CODEPAR: case LVAR_ATTR:
                 restr = lvar->get_entry().get_restr(); break;
            default: restr = lvar->get_entry().get_code(); 
                 break;
          }
          if (restr == 0) { LOOKAHEAD_AMBIGUOUS(cur); return 0; }
          else return compute_lookaheadInfo(restr,res,need); 
        }
     case SRC_LIST: {
         POETList* curlist = static_cast<POETList*>(cur);
         int curstart = res.size();
         unsigned len = compute_lookaheadInfo(curlist->get_first(),res,need);
         cur = curlist->get_rest();
         if (cur == 0) return len;
         int cursize = res.size();
         if (need == 1) {
            if (len == 0) return compute_lookaheadInfo(cur, res, need);
            return len;
         }
         if (len < need ) {
            std::vector<POETCode*> tailres;
            unsigned len2 = compute_lookaheadInfo(cur, tailres, need-len);
            ASTFactory* fac = ASTFactory::inst();
            for (int i = curstart; i < cursize; ++i) {
               POETCode* first = res[i]; 
               res[i] = fac->append_tuple(first,tailres[0]);
               for (unsigned j = 1; j < tailres.size(); ++j) 
                   res.push_back(fac->append_tuple(first,tailres[j]));
            }
            return len+len2;
         }
         return len;
        }
     case SRC_OP : {
        POETOperator* op = static_cast<POETOperator*>(cur);
        switch(op->get_op()) {
        case TYPE_TOR: {
            POETTypeTor* tor = static_cast<POETTypeTor*>(cur);
            return tor->compute_lookaheadInfo(this, res, need);
           }
        case POET_OP_LIST1: 
        case TYPE_LIST1: 
            return compute_lookaheadInfo(op->get_arg(0),res,need);
        case POET_OP_LIST: 
        case TYPE_LIST: 
            compute_lookaheadInfo(op->get_arg(0),res); return 0;
        case POET_OP_EXP:
            return compute_exp_lookahead(res);
        default:
           LOOKAHEAD_AMBIGUOUS(cur); return 0;
        }
       }
     default:
        LOOKAHEAD_AMBIGUOUS(cur); return 0;
     }
   }
   catch (Error err) { std::cerr << " From computing filter information for " << cur->toString() << "\n"; throw err; }
}