Ejemplo n.º 1
0
        public string TextBoxPrint()
        {
            string s = "state id: " + id + "\n" + "ExeStack: {";

            for (int i = 0; i < exeStack.GetLength(); i++)
            {
                s = s + exeStack.Get(i).ToStr() + " | ";
            }
            s = s + "} \n SymTbl: {";
            for (int i = 0; i < symTable.ElementAt(0).GetLength(); i++)
            {
                s = s + symTable.ElementAt(0).Get(i).ToStr() + " ; ";
            }
            s = s + "} \n List: {";
            for (int i = 0; i < output.Size(); i++)
            {
                s = s + output.Get(i) + " ; ";
            }
            s = s + "}\n" + "Heap: {";
            for (int i = 0; i < heap.Size(); i++)
            {
                s = s + heap.Gett(i).content + " ; ";
            }
            s = s + "}\n\n";
            return(s);
        }
Ejemplo n.º 2
0
        public void SizeTest(IHeap <int> heap)
        {
            var tmpLst   = new List <int>(TestList);
            var expected = tmpLst.Count;
            var result   = heap.Size();

            Console.WriteLine("Expect:" + expected + " Result:" + result);
            Assert.AreEqual(expected, result);
        }
Ejemplo n.º 3
0
        public void ExtractMinTest(IHeap <int> heap, bool isMin)
        {
            var tmpLst = new List <int>(TestList);

            Console.WriteLine("isMin:" + isMin);
            var expected = isMin ? tmpLst.Min() : tmpLst.Max();
            var result   = heap.ExtractMin().Value;

            Console.WriteLine("Expect:" + expected + " Result:" + result);
            Assert.AreEqual(expected, result);
            expected = tmpLst.Count - 1;
            result   = heap.Size();
            Console.WriteLine("Expect:" + expected + " Result:" + result);
            Assert.AreEqual(expected, result);
        }
Ejemplo n.º 4
0
        /// <summary>
        /// Returns the specified number of parses or fewer for the specified tokens.
        /// </summary>
        /// <param name="tokens">A parse containing the tokens with a single parent node.</param>
        /// <param name="numParses">The number of parses desired.</param>
        /// <returns>The specified number of parses for the specified tokens.</returns>
        /// <remarks>
        /// The nodes within the returned parses are shared with other parses and therefore their
        /// parent node references will not be consistent with their child node reference.
        /// <see cref="SharpNL.Parser.Parse.Parent"/> can be used to make the parents consistent with a
        /// particular parse, but subsequent calls to this property can invalidate the results of earlier
        /// calls.
        /// </remarks>
        public Parse[] Parse(Parse tokens, int numParses)
        {
            if (createDerivationString)
            {
                tokens.Derivation = new StringBuilder();
            }

            odh.Clear();
            ndh.Clear();
            completeParses.Clear();
            var derivationStage     = 0; //derivation length
            var maxDerivationLength = 2 * tokens.ChildCount + 3;

            odh.Add(tokens);
            Parse  guess        = null;
            double minComplete  = 2;
            double bestComplete = -100000; //approximating -infinity/0 in ln domain

            while (odh.Size() > 0 &&
                   (completeParses.Size() < M || odh.First().Probability < minComplete) &&
                   derivationStage < maxDerivationLength)
            {
                ndh = new ListHeap <Parse>(K);

                var derivationRank = 0;
                // foreach derivation
                for (var pi = odh.GetEnumerator(); pi.MoveNext() && derivationRank < K; derivationRank++)
                {
                    var tp = pi.Current;

                    //TODO: Need to look at this for K-best parsing cases

                    /*
                     * if (tp.getProb() < bestComplete) { //this parse and the ones which follow will never win, stop advancing.
                     * break;
                     * }
                     */

                    if (guess == null && derivationStage == 2)
                    {
                        guess = tp;
                    }
#if DEBUG
                    if (debugOn)
                    {
                        Console.Out.WriteLine(derivationStage + " " + derivationRank + " " + tp.Probability);
                        Console.Out.WriteLine(tp.ToString());
                        Console.Out.WriteLine();
                    }
#endif

                    Parse[] nd;

                    if (derivationStage == 0)
                    {
                        nd = AdvanceTags(tp);
                    }
                    else if (derivationStage == 1)
                    {
                        nd = AdvanceChunks(tp, ndh.Size() < K ? bestComplete : ndh.Last().Probability);
                    }
                    else
                    {
                        // i > 1
                        nd = AdvanceParses(tp, Q);
                    }

                    if (nd != null)
                    {
                        for (int k = 0, kl = nd.Length; k < kl; k++)
                        {
                            if (nd[k].Complete)
                            {
                                AdvanceTop(nd[k]);
                                if (nd[k].Probability > bestComplete)
                                {
                                    bestComplete = nd[k].Probability;
                                }
                                if (nd[k].Probability < minComplete)
                                {
                                    minComplete = nd[k].Probability;
                                }
                                completeParses.Add(nd[k]);
                            }
                            else
                            {
                                ndh.Add(nd[k]);
                            }
                        }
                    }
                    else
                    {
                        if (ReportFailedParse)
                        {
                            Console.Error.WriteLine("Couldn't advance parse " + derivationStage + " stage " +
                                                    derivationRank + "!\n");
                        }
                        AdvanceTop(tp);
                        completeParses.Add(tp);
                    }
                }
                derivationStage++;
                odh = ndh;
            }
            if (completeParses.Size() == 0)
            {
                if (ReportFailedParse)
                {
                    Console.Error.WriteLine("Couldn't find parse for: " + tokens);
                }
                //Parse r = (Parse) odh.first();
                //r.show();
                //System.out.println();
                return(new[] { guess });
            }
            if (numParses == 1)
            {
                return(new[] { completeParses.First() });
            }
            var topParses = new List <Parse>();
            while (!completeParses.IsEmpty() && topParses.Count < numParses)
            {
                var tp = completeParses.Extract();
                topParses.Add(tp);
                //parses.remove(tp);
            }
            return(topParses.ToArray());
        }
Ejemplo n.º 5
0
        /// <summary>
        /// Returns the specified number of parses or fewer for the specified tokens.
        /// </summary>
        /// <param name="tokens">A parse containing the tokens with a single parent node.</param>
        /// <param name="numParses">The number of parses desired.</param>
        /// <returns>The specified number of parses for the specified tokens.</returns>
        /// <remarks>
        /// The nodes within the returned parses are shared with other parses and therefore their 
        /// parent node references will not be consistent with their child node reference. 
        /// <see cref="SharpNL.Parser.Parse.Parent"/> can be used to make the parents consistent with a 
        /// particular parse, but subsequent calls to this property can invalidate the results of earlier
        /// calls.
        /// </remarks>
        public Parse[] Parse(Parse tokens, int numParses) {
            if (createDerivationString)
                tokens.Derivation = new StringBuilder();

            odh.Clear();
            ndh.Clear();
            completeParses.Clear();
            var derivationStage = 0; //derivation length
            var maxDerivationLength = 2*tokens.ChildCount + 3;
            odh.Add(tokens);
            Parse guess = null;
            double minComplete = 2;
            double bestComplete = -100000; //approximating -infinity/0 in ln domain

            while (odh.Size() > 0 && 
                  (completeParses.Size() < M || odh.First().Probability < minComplete) &&
                   derivationStage < maxDerivationLength) {

                ndh = new ListHeap<Parse>(K);

                var derivationRank = 0;
                // foreach derivation
                for (var pi = odh.GetEnumerator(); pi.MoveNext() && derivationRank < K; derivationRank++) {
                    var tp = pi.Current;

                    //TODO: Need to look at this for K-best parsing cases
                    /*
                     if (tp.getProb() < bestComplete) { //this parse and the ones which follow will never win, stop advancing.
                     break;
                     }
                     */

                    if (guess == null && derivationStage == 2) {
                        guess = tp;
                    }
#if DEBUG
                    if (debugOn) {
                        Console.Out.WriteLine(derivationStage + " " + derivationRank + " " + tp.Probability);
                        Console.Out.WriteLine(tp.ToString());
                        Console.Out.WriteLine();
                    }
#endif

                    Parse[] nd;

                    if (derivationStage == 0) {
                        nd = AdvanceTags(tp);

                    } else if (derivationStage == 1) {
                        nd = AdvanceChunks(tp, ndh.Size() < K ? bestComplete : ndh.Last().Probability);
                    } else {
                        // i > 1
                        nd = AdvanceParses(tp, Q);
                    }

                    if (nd != null) {
                        for (int k = 0, kl = nd.Length; k < kl; k++) {

                            if (nd[k].Complete) {
                                AdvanceTop(nd[k]);
                                if (nd[k].Probability > bestComplete) {
                                    bestComplete = nd[k].Probability;
                                }
                                if (nd[k].Probability < minComplete) {
                                    minComplete = nd[k].Probability;
                                }
                                completeParses.Add(nd[k]);
                            } else {
                                ndh.Add(nd[k]);
                            }
                        }
                    } else {
                        if (ReportFailedParse) {
                            Console.Error.WriteLine("Couldn't advance parse " + derivationStage + " stage " +
                                                    derivationRank + "!\n");
                        }
                        AdvanceTop(tp);
                        completeParses.Add(tp);
                    }
                }
                derivationStage++;
                odh = ndh;
            }
            if (completeParses.Size() == 0) {
                if (ReportFailedParse)
                    Console.Error.WriteLine("Couldn't find parse for: " + tokens);
                //Parse r = (Parse) odh.first();
                //r.show();
                //System.out.println();
                return new[] {guess};
            }
            if (numParses == 1) {
                return new[] {completeParses.First()};
            }
            var topParses = new List<Parse>();
            while (!completeParses.IsEmpty() && topParses.Count < numParses) {
                var tp = completeParses.Extract();
                topParses.Add(tp);
                //parses.remove(tp);
            }
            return topParses.ToArray();
        }