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namespace WhiteRabbit
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{
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using System.Collections.Generic;
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using System.Collections.Immutable;
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using System.Linq;
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internal class StringsProcessor
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{
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public StringsProcessor(string sourceString, int maxWordsCount)
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{
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var filteredSource = new string(sourceString.Where(ch => ch != ' ').ToArray());
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this.VectorsConverter = new VectorsConverter(filteredSource);
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this.VectorsProcessor = new VectorsProcessor(
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this.VectorsConverter.GetVector(filteredSource).Value,
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maxWordsCount,
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this.VectorsConverter.GetString);
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}
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private VectorsConverter VectorsConverter { get; }
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private VectorsProcessor VectorsProcessor { get; }
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public IEnumerable<string> GeneratePhrases(IEnumerable<string> words)
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{
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// Dictionary of vectors to array of words represented by this vector
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var formattedWords = words
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.Distinct()
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.Select(word => new { word, vector = this.VectorsConverter.GetVector(word) })
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.Where(tuple => tuple.vector != null)
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.Select(tuple => new { tuple.word, vector = tuple.vector.Value })
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.GroupBy(tuple => tuple.vector)
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.ToDictionary(group => group.Key, group => group.Select(tuple => tuple.word).ToArray());
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// task of finding anagrams could be reduced to the task of finding sequences of dictionary vectors with the target sum
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var sums = this.VectorsProcessor.GenerateSequences(formattedWords.Keys);
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// converting sequences of vectors to the sequences of words...
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var anagramsWords = sums
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.Select(sum => ImmutableStack.Create(sum.Select(vector => formattedWords[vector]).ToArray()))
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.SelectMany(Flatten)
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.Select(stack => stack.ToArray());
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return anagramsWords.Select(list => string.Join(" ", list));
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}
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// Converts e.g. pair of variants [[a, b, c], [d, e]] into all possible pairs: [[a, d], [a, e], [b, d], [b, e], [c, d], [c, e]]
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private IEnumerable<ImmutableStack<T>> Flatten<T>(ImmutableStack<T[]> phrase)
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{
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if (phrase.IsEmpty)
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{
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return new[] { ImmutableStack.Create<T>() };
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}
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T[] wordVariants;
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var newStack = phrase.Pop(out wordVariants);
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return Flatten(newStack).SelectMany(remainder => wordVariants.Select(word => remainder.Push(word)));
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}
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}
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}
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