using System; using System.Collections.Generic; using System.Linq; namespace Implab.Automaton { public class MapAlphabet : IAlphabetBuilder { readonly Dictionary m_map; int m_nextCls; readonly bool m_supportUnclassified; public MapAlphabet(bool supportUnclassified, IEqualityComparer comparer) { m_map = comparer != null ? new Dictionary(comparer) : new Dictionary(); m_supportUnclassified = supportUnclassified; m_nextCls = supportUnclassified ? 1 : 0; } #region IAlphabetBuilder implementation public int DefineSymbol(T symbol) { int cls; return m_map.TryGetValue(symbol, out cls) ? cls : DefineSymbol(symbol, m_nextCls); } public int DefineSymbol(T symbol, int cls) { Safe.ArgumentAssert(cls >= 0, "cls"); m_nextCls = Math.Max(cls + 1, m_nextCls); m_map.Add(symbol, cls); return cls; } public int DefineClass(IEnumerable symbols) { return DefineClass(symbols, m_nextCls); } public int DefineClass(IEnumerable symbols, int cls) { Safe.ArgumentAssert(cls >= 0, "cls"); Safe.ArgumentNotNull(symbols, "symbols"); m_nextCls = Math.Max(cls + 1, m_nextCls); foreach (var symbol in symbols) m_map[symbol] = cls; return cls; } #endregion #region IAlphabet implementation public int Translate(T symbol) { int cls; if (m_map.TryGetValue(symbol, out cls)) return cls; if (!m_supportUnclassified) throw new ArgumentOutOfRangeException("symbol", "The specified symbol isn't in the alphabet"); return AutomatonConst.UNCLASSIFIED_INPUT; } public int Count { get { return m_nextCls; } } public bool Contains(T symbol) { return m_supportUnclassified || m_map.ContainsKey(symbol); } public IEnumerable GetSymbols(int cls) { Safe.ArgumentAssert(!m_supportUnclassified || cls > 0, "cls"); return m_map.Where(p => p.Value == cls).Select(p => p.Key); } #endregion public IEnumerable> Mappings { get { return m_map; } } } }