Ejemplo n.º 1
0
        /// <summary>Create a Boolean classifier.</summary>
        /// <param name="solver">Character algebra (the algebra is not stored in the classifier)</param>
        /// <param name="bdd">Elements that map to true.</param>
        public BooleanClassifier(CharSetSolver solver, BDD bdd)
        {
            // We want to optimize for ASCII, so query the BDD for each ASCII character in
            // order to precompute a lookup table we'll use at match time.
            var ascii = new bool[128];

            for (int i = 0; i < ascii.Length; i++)
            {
                ascii[i] = bdd.Contains(i);
            }

            // At this point, we'll never consult the BDD for ASCII characters, so as an
            // optimization we can remove them from the BDD in hopes of simplifying it and making
            // it faster to query for the non-ASCII characters we will use it for. However, while
            // this is typically an optimization, it isn't always: the act of removing some
            // characters from the BDD can actually make the branching more complicated.  The
            // extreme case of this is when the BDD is True, meaning everything maps to True, which
            // is as simple a BDD as you can get.  In such a case, even though it's rare, this would
            // definitively be a deoptimization, so we avoid doing so.  Other trivial cases are handled
            // by And itself, e.g. if the BDD == False, then And will just return False.
            if (!bdd.IsFull)
            {
                bdd = solver.And(solver._nonAscii, bdd);
            }

            _ascii    = ascii;
            _nonAscii = bdd;
        }
Ejemplo n.º 2
0
 public bool IsTrue(char c)
 {
     bool[] ascii = _ascii;
     return(c < ascii.Length ? ascii[c] : _nonAscii.Contains(c));
 }