public void When_Clauser_With_NBKP_WithoutNulThat_MoveToBeginningOfSentence() { // TMIn April and May NBKP, CShowever NBKP, PRENthe NNreport VBwasn’t ADJgood BKP. _shufflerPhraseRepository = new ShufflerPhraseRepository(new ShufflerDataAccess()); _document = _shufflerPhraseRepository.GetShufflerDocument(2016); var clauserUnitStrategy = new ClauserUnitStrategy(); // act var sentenceReturned = clauserUnitStrategy.ShuffleSentence( _document.Paragraphs[0].Sentences[0]); // CShowever NBKP, TMIn April and May NBKP, PRENthe NNreport VBwasn’t ADJgood BKP. Assert.That(sentenceReturned.Texts.Count == 12); Assert.That(sentenceReturned.Texts[0].pe_text, Is.EqualTo(" however ")); Assert.That(sentenceReturned.Texts[1].pe_text, Is.EqualTo(" , ")); Assert.That(sentenceReturned.Texts[2].pe_text, Is.EqualTo(" In ")); Assert.That(sentenceReturned.Texts[3].pe_text, Is.EqualTo(" April ")); Assert.That(sentenceReturned.Texts[4].pe_text, Is.EqualTo(" and ")); Assert.That(sentenceReturned.Texts[5].pe_text, Is.EqualTo(" May ")); Assert.That(sentenceReturned.Texts[6].pe_text, Is.EqualTo(" , ")); Assert.That(sentenceReturned.Texts[7].pe_text, Is.EqualTo(" the ")); Assert.That(sentenceReturned.Texts[8].pe_text, Is.EqualTo(" report ")); Assert.That(sentenceReturned.Texts[9].pe_text, Is.EqualTo(" wasn’t ")); Assert.That(sentenceReturned.Texts[10].pe_text, Is.EqualTo(" good ")); Assert.That(sentenceReturned.Texts[11].pe_text, Is.EqualTo(" . ")); }
public void When_Clauser_And_NulThat_WithoutNBKP_MoveToAfterNulThat() { // We were for PRENthe NNplan NULthat VBwas ADVwell PASTstructured CShowever long BKP. _shufflerPhraseRepository = new ShufflerPhraseRepository(new ShufflerDataAccess()); _document = _shufflerPhraseRepository.GetShufflerDocument(2016); var clauserUnitStrategy = new ClauserUnitStrategy(); // act var sentenceReturned = clauserUnitStrategy.ShuffleSentence( _document.Paragraphs[1].Sentences[0]); // We were for PRENthe NNplan NULthat CShowever long, VBwas ADVwell PASTstructured BKP. Assert.That(sentenceReturned.Texts.Count == 13); Assert.That(sentenceReturned.Texts[0].pe_text, Is.EqualTo(" We ")); Assert.That(sentenceReturned.Texts[1].pe_text, Is.EqualTo(" were ")); Assert.That(sentenceReturned.Texts[2].pe_text, Is.EqualTo(" for ")); Assert.That(sentenceReturned.Texts[3].pe_text, Is.EqualTo(" the ")); Assert.That(sentenceReturned.Texts[4].pe_text, Is.EqualTo(" plan ")); Assert.That(sentenceReturned.Texts[5].pe_text, Is.EqualTo(" that ")); Assert.That(sentenceReturned.Texts[6].pe_text, Is.EqualTo(" however ")); Assert.That(sentenceReturned.Texts[7].pe_text, Is.EqualTo(" long ")); Assert.That(sentenceReturned.Texts[8].pe_text, Is.EqualTo(" , ")); Assert.That(sentenceReturned.Texts[9].pe_text, Is.EqualTo(" was ")); Assert.That(sentenceReturned.Texts[10].pe_text, Is.EqualTo(" well ")); Assert.That(sentenceReturned.Texts[11].pe_text, Is.EqualTo(" structured ")); Assert.That(sentenceReturned.Texts[12].pe_text, Is.EqualTo(" . ")); }
public void When_Clauser_WithoutNBKP_WithoutNulThat_ShuffleClauserAndRestOfSentence_To_BeginningOfSentence() { //The meeting was over CSbefore he had a chance lai speak zhiqian BKP. _shufflerPhraseRepository = new ShufflerPhraseRepository(new ShufflerDataAccess()); _document = _shufflerPhraseRepository.GetShufflerDocument(2016); var clauserUnitStrategy = new ClauserUnitStrategy(); // act var sentenceReturned = clauserUnitStrategy.ShuffleSentence( _document.Paragraphs[2].Sentences[0]); //CSbefore he had a chance lai speak zhiqian NBKP, The meeting was over Assert.That(sentenceReturned.Texts[0].pe_text, Is.EqualTo(" before ")); Assert.That(sentenceReturned.Texts[1].pe_text, Is.EqualTo(" he ")); Assert.That(sentenceReturned.Texts[2].pe_text, Is.EqualTo(" had ")); Assert.That(sentenceReturned.Texts[3].pe_text, Is.EqualTo(" a ")); Assert.That(sentenceReturned.Texts[4].pe_text, Is.EqualTo(" chance ")); Assert.That(sentenceReturned.Texts[5].pe_text, Is.EqualTo("lai")); Assert.That(sentenceReturned.Texts[6].pe_text, Is.EqualTo(" speak ")); Assert.That(sentenceReturned.Texts[7].pe_text, Is.EqualTo(" zhiqian ")); Assert.That(sentenceReturned.Texts[8].pe_text, Is.EqualTo(" , ")); Assert.That(sentenceReturned.Texts[9].pe_text, Is.EqualTo(" The ")); Assert.That(sentenceReturned.Texts[10].pe_text, Is.EqualTo(" meeting ")); Assert.That(sentenceReturned.Texts[11].pe_text, Is.EqualTo(" was ")); Assert.That(sentenceReturned.Texts[12].pe_text, Is.EqualTo(" over ")); Assert.That(sentenceReturned.Texts[13].pe_text, Is.EqualTo(" . ")); }
public void WhenClauser_WithNBKP_WithNulThat_MoveToAfterNulThat() { //The meeting that was over CSbefore he had a chance lai speak zhiqian, I think BKP. _shufflerPhraseRepository = new ShufflerPhraseRepository(new ShufflerDataAccess()); _document = _shufflerPhraseRepository.GetShufflerDocument(2016); var clauserUnitStrategy = new ClauserUnitStrategy(); var sentence = _document.Paragraphs[2].Sentences[0]; sentence.Texts.Insert(2, new Text { pe_text = " that ", pe_tag_revised = "MDNUL" }); sentence.Texts[13].pe_tag_revised = "BKP"; sentence.Texts[13].pe_text = " , "; sentence.Texts.Add(new Text { pe_text = " I " }); sentence.Texts.Add(new Text { pe_text = " think " }); sentence.Texts.Add(new Text { pe_text = " . ", pe_tag = "BKP" }); sentence.pe_para_no = 123; // act var sentenceReturned = clauserUnitStrategy.ShuffleSentence( sentence); //The meeting that CSbefore he had a chance lai speak zhiqian, was over I think BKP. Assert.That(sentenceReturned.Texts[0].pe_text, Is.EqualTo(" The ")); Assert.That(sentenceReturned.Texts[1].pe_text, Is.EqualTo(" meeting ")); Assert.That(sentenceReturned.Texts[2].pe_text, Is.EqualTo(" that ")); Assert.That(sentenceReturned.Texts[3].pe_text, Is.EqualTo(" before ")); Assert.That(sentenceReturned.Texts[4].pe_text, Is.EqualTo(" he ")); Assert.That(sentenceReturned.Texts[5].pe_text, Is.EqualTo(" had ")); Assert.That(sentenceReturned.Texts[6].pe_text, Is.EqualTo(" a ")); Assert.That(sentenceReturned.Texts[7].pe_text, Is.EqualTo(" chance ")); Assert.That(sentenceReturned.Texts[8].pe_text, Is.EqualTo("lai")); Assert.That(sentenceReturned.Texts[9].pe_text, Is.EqualTo(" speak ")); Assert.That(sentenceReturned.Texts[10].pe_text, Is.EqualTo(" zhiqian ")); Assert.That(sentenceReturned.Texts[11].pe_text, Is.EqualTo(" , ")); Assert.That(sentenceReturned.Texts[12].pe_text, Is.EqualTo(" was ")); Assert.That(sentenceReturned.Texts[13].pe_text, Is.EqualTo(" over ")); Assert.That(sentenceReturned.Texts[14].pe_text, Is.EqualTo(" I ")); Assert.That(sentenceReturned.Texts[15].pe_text, Is.EqualTo(" think ")); Assert.That(sentenceReturned.Texts[16].pe_text, Is.EqualTo(" . ")); Assert.That(sentenceReturned.pe_para_no, Is.EqualTo(123)); }
public void When_Clauser_At_Start_Of_sentence_dont_shuffle() { var sentence = new Sentence(); sentence.Texts.Add( new Text() { pe_tag_revised = "CS", pe_text = "Before" }); sentence.Texts.Add(new Text() { pe_text = "today" }); sentence.Texts.Add(new Text() { pe_tag_revised = "BKP", pe_text = " , " }); sentence.Texts.Add(new Text() { pe_tag_revised = "PAST", pe_text = " was " }); sentence.Texts.Add(new Text() { pe_tag_revised = "ADJ", pe_text = " great " }); sentence.Texts.Add(new Text() { pe_tag_revised = "BKP", pe_text = " . " }); var clauserUnitStrategy = new ClauserUnitStrategy(); // act var sentenceReturned = clauserUnitStrategy.ShuffleSentence( sentence); Assert.That(sentenceReturned.Texts[0].pe_text == "Before"); Assert.That(sentenceReturned.Texts[1].pe_text == "today"); Assert.That(sentenceReturned.Texts[2].pe_text == " , "); Assert.That(sentenceReturned.Texts[3].pe_text == " was "); Assert.That(sentenceReturned.Texts[4].pe_text == " great "); Assert.That(sentenceReturned.Texts[5].pe_text == " . "); }
public void ShuffleClauserUnits_when_clauserAtStartOfSentence_DontMoveIt() { const string unShuffledSentence = "CSbefore he VBhad a chance VBto speak BKP, PRENThe meeting VBwas over BKP."; Paragraph paragraph = DocumentContentHelper.GetParagraphFromWordDocument(unShuffledSentence); var clauserUnitStrategy = new ClauserUnitStrategy(new ClauserUnitChecker()); // act var shufflerParagraph = clauserUnitStrategy.ShuffleSentenceUnit(paragraph); // assert Assert.That(shufflerParagraph.InnerText, Is.EqualTo( "CSbefore he VBhad a chance VBto speak BKP, PRENThe meeting VBwas over BKP.")); }
public void ShuffleClauserUnits_ToTheBeginningOfTheSentenceAndAddComma() { const string unShuffledSentence = "TMIn April and May BKP, CShowever BKP, PRENthe NNreport VBwasn’t ADJgood BKP."; Paragraph paragraph = DocumentContentHelper.GetParagraphFromWordDocument(unShuffledSentence); var clauserUnitStrategy = new ClauserUnitStrategy(new ClauserUnitChecker()); // act var shufflerParagraph = clauserUnitStrategy.ShuffleSentenceUnit(paragraph); // assert Assert.That(shufflerParagraph.InnerText, Is.EqualTo( "CShowever BKP, TMIn April and May BKP, PRENthe NNreport VBwasn’t ADJgood BKP.")); }
public void Shuffler_Routines_maintain_FullStop_At_end_of_sentences() { var sentence = LargeSentence; var clauserUnitStrategy = new ClauserUnitStrategy(); sentence = clauserUnitStrategy.ShuffleSentence(sentence); var adverbUnitStrategy = new AdverbUnitStrategy(); sentence = adverbUnitStrategy.ShuffleSentence(sentence); var timerUnitStrategy = new TimerUnitStrategy(); sentence = timerUnitStrategy.ShuffleSentence(sentence); var mDUnitStrategy = new MdUnitStrategy(); sentence = mDUnitStrategy.ShuffleSentence(sentence); var mdbkUnitStrategy = new MdbkUnitStrategy(); sentence = mdbkUnitStrategy.ShuffleSentence(sentence); var mdNulThatUnitStrategy = new MdNulThatUnitStrategy(); sentence = mdNulThatUnitStrategy.ShuffleSentence(sentence); var ddlUnitStrategy = new DdlUnitStrategy(); sentence = ddlUnitStrategy.ShuffleSentence(sentence); var pyYoUnitStrategy = new PyYoUnitStrategy(); sentence = pyYoUnitStrategy.ShuffleSentence(sentence); var percentUnitStrategy = new PercentUnitStrategy(); sentence = percentUnitStrategy.ShuffleSentence(sentence); Assert.That(sentence.Texts.Last().IsSentenceEnd); }
public void ShuffleClauserUnits_ToTheBeginningOfTheSentenceAndAddsComma_WhenSpaceElementBeforeComma( string sentenceFile, string expectation) { string unShuffledSentence = sentenceFile; Paragraph paragraph = DocumentContentHelper.GetParagraphFromWordDocument(unShuffledSentence); var clauserUnitStrategy = new ClauserUnitStrategy(new ClauserUnitChecker()); // act var shufflerParagraph = clauserUnitStrategy.ShuffleSentenceUnit(paragraph); // assert Assert.That(shufflerParagraph.InnerText, Is.EqualTo( expectation)); // multiple clauser units? // what if the bkp is a ? or ! }
public void WhenThatFound_MoveCSandNBKPToAfterThat() { //1.1. If ‘that’ is found, move from CS to and including NBKP to after ‘that’: //Bef: We VBbelieve NULthat we VBneed NNit, CShowever NNlong NNit VBtakes, to succeed BKP. var sentence = new Sentence() { Texts = new List <Text>() { new Text() { pe_tag = "", pe_text = "We" }, new Text() { pe_tag = "VB", pe_text = "believe" }, new Text() { pe_tag = "MDNUL", pe_text = "that" }, new Text() { pe_tag = "", pe_text = "we" }, new Text() { pe_tag = "VB", pe_text = "need" }, new Text() { pe_tag = "NN", pe_text = "it" }, new Text() { pe_tag = "BKP", pe_text = " , " }, new Text() { pe_tag = "CS", pe_text = "however" }, new Text() { pe_tag = "NN", pe_text = "long" }, new Text() { pe_tag = "NN", pe_text = "it" }, new Text() { pe_tag = "VB", pe_text = "takes" }, new Text() { pe_tag = "BKP", pe_text = " , " }, new Text() { pe_tag = "", pe_text = "to" }, new Text() { pe_tag = "", pe_text = "succeed" }, new Text() { pe_tag = "BKP", pe_text = " . " } } }; ClauserUnitStrategy clauserUnitStrategy = new ClauserUnitStrategy(); sentence = clauserUnitStrategy.ShuffleSentence(sentence); //Aft: We VBbelieve NULthat CShowever NNlong NNit VBtakesNBKP, we VBneed NNit to succeed BKP. Assert.That(sentence.Texts[0].pe_text, Is.EqualTo("We")); Assert.That(sentence.Texts[1].pe_text, Is.EqualTo("believe")); Assert.That(sentence.Texts[2].pe_text, Is.EqualTo("that")); Assert.That(sentence.Texts[3].pe_text, Is.EqualTo("however")); Assert.That(sentence.Texts[4].pe_text, Is.EqualTo("long")); Assert.That(sentence.Texts[5].pe_text, Is.EqualTo("it")); Assert.That(sentence.Texts[6].pe_text, Is.EqualTo("takes")); Assert.That(sentence.Texts[7].pe_text, Is.EqualTo(" , ")); Assert.That(sentence.Texts[8].pe_text, Is.EqualTo("we")); Assert.That(sentence.Texts[9].pe_text, Is.EqualTo("need")); Assert.That(sentence.Texts[10].pe_text, Is.EqualTo("it")); Assert.That(sentence.Texts[11].pe_text, Is.EqualTo(" , ")); Assert.That(sentence.Texts[12].pe_text, Is.EqualTo("to")); Assert.That(sentence.Texts[13].pe_text, Is.EqualTo("succeed")); Assert.That(sentence.Texts[14].pe_text, Is.EqualTo(" . ")); }
public void IfThatNotFound_MoveCsUpToNbkpToBeginningOfSentence() { // 1.1. If ‘that’ is NOT found, move from CS to and including NBKP to the beginning of the sentence: //Bef: TMIn April and May NBKP, CShowever NBKP, PRENthe NNreport VBwasn’t ADJgood BKP. var sentence = new Sentence() { Texts = new List <Text>() { new Text() { pe_tag = "TM", pe_text = "In" }, new Text() { pe_tag = "", pe_text = "April" }, new Text() { pe_tag = "MDNUL", pe_text = "and" }, new Text() { pe_tag = "", pe_text = "May" }, new Text() { pe_tag = "BKP", pe_text = " , " }, new Text() { pe_tag = "CS", pe_text = "however" }, new Text() { pe_tag = "BKP", pe_text = " , " }, new Text() { pe_tag = "PREN", pe_text = "the" }, new Text() { pe_tag = "NN", pe_text = "report" }, new Text() { pe_tag = "VB", pe_text = "wasn't" }, new Text() { pe_tag = "ADJ", pe_text = "good" }, new Text() { pe_tag = "BKP", pe_text = " . " } } }; ClauserUnitStrategy clauserUnitStrategy = new ClauserUnitStrategy(); sentence = clauserUnitStrategy.ShuffleSentence(sentence); //Aft: CShowever NBKP, TMIn April and May NBKP, PRENthe NNreport VBwasn’t ADJgood BKP. Assert.That(sentence.Texts[0].pe_text, Is.EqualTo("however")); //CS Assert.That(sentence.Texts[1].pe_text, Is.EqualTo(" , ")); Assert.That(sentence.Texts[2].pe_text, Is.EqualTo("In")); Assert.That(sentence.Texts[3].pe_text, Is.EqualTo("April")); Assert.That(sentence.Texts[4].pe_text, Is.EqualTo("and")); Assert.That(sentence.Texts[5].pe_text, Is.EqualTo("May")); Assert.That(sentence.Texts[6].pe_text, Is.EqualTo(" , ")); Assert.That(sentence.Texts[7].pe_text, Is.EqualTo("the")); Assert.That(sentence.Texts[8].pe_text, Is.EqualTo("report")); Assert.That(sentence.Texts[9].pe_text, Is.EqualTo("wasn't")); Assert.That(sentence.Texts[10].pe_text, Is.EqualTo("good")); Assert.That(sentence.Texts[11].pe_text, Is.EqualTo(" . ")); }
public void When_EconomicGrowth_Sentence_Shuffled_provides_Correct_Output() { var sentence = new Sentence() { Texts = new List <Text>() { new Text { pe_tag = "ADJ", pe_text = "Economic", pe_order = 10 }, new Text { pe_tag = "NN", pe_text = "growth", pe_order = 20 }, new Text { pe_tag = "DYN9", pe_tag_revised = "VBA", pe_text = "has", pe_order = 30 }, new Text { pe_tag = "PAST", pe_text = "continued", pe_order = 40 }, new Text { pe_tag = "MD", pe_tag_revised = "MD1", pe_text = "at", pe_order = 50, pe_merge_ahead = 3 }, new Text { pe_tag = "PREN", pe_text = "a", pe_order = 60, pe_merge_ahead = 2 }, new Text { pe_tag = "ADJ", pe_text = "moderate", pe_order = 70 }, new Text { pe_tag = "NN", pe_text = "rate", pe_order = 80 }, new Text { pe_tag = "TM", pe_tag_revised = "TM1", pe_text = "so far", pe_order = 90 }, new Text { pe_tag = "TM", pe_tag_revised = "TM2", pe_text = "this year", pe_order = 100 }, new Text { pe_tag = "BKP", pe_text = " . ", pe_order = 110 }, } }; var adverbUnitStrategy = new AdverbUnitStrategy(); sentence = adverbUnitStrategy.ShuffleSentence(sentence); var timerUnitStrategy = new TimerUnitStrategy(); sentence = timerUnitStrategy.ShuffleSentence(sentence); Assert.That(sentence.Texts[0].pe_text, Is.EqualTo("Economic")); Assert.That(sentence.Texts[1].pe_text, Is.EqualTo("growth")); //NN Assert.That(sentence.Texts[2].pe_text, Is.EqualTo("this year")); //TM Assert.That(sentence.Texts[3].pe_text, Is.EqualTo("so far")); Assert.That(sentence.Texts[4].pe_text, Is.EqualTo("has")); //VBA Assert.That(sentence.Texts[5].pe_text, Is.EqualTo("continued")); //PAST Assert.That(sentence.Texts[6].pe_text, Is.EqualTo("at")); Assert.That(sentence.Texts[7].pe_text, Is.EqualTo("a")); Assert.That(sentence.Texts[8].pe_text, Is.EqualTo("moderate")); Assert.That(sentence.Texts[9].pe_text, Is.EqualTo("rate")); Assert.That(sentence.Texts[10].pe_text, Is.EqualTo(" . ")); var mDUnitStrategy = new MdUnitStrategy(); sentence = mDUnitStrategy.ShuffleSentence(sentence); Assert.That(sentence.Texts[0].pe_text, Is.EqualTo("Economic")); Assert.That(sentence.Texts[1].pe_text, Is.EqualTo("growth")); Assert.That(sentence.Texts[2].pe_text, Is.EqualTo("this year")); //TM 2 & 1 Assert.That(sentence.Texts[3].pe_text, Is.EqualTo("so far")); Assert.That(sentence.Texts[4].pe_text, Is.EqualTo("has")); //VBA Assert.That(sentence.Texts[5].pe_text, Is.EqualTo("at")); //MD1 Assert.That(sentence.Texts[6].pe_text, Is.EqualTo("a")); Assert.That(sentence.Texts[7].pe_text, Is.EqualTo("moderate")); Assert.That(sentence.Texts[8].pe_text, Is.EqualTo("rate")); Assert.That(sentence.Texts[9].pe_text, Is.EqualTo("continued")); //PAST Assert.That(sentence.Texts[10].pe_text, Is.EqualTo(" . ")); var mdbkUnitStrategy = new MdbkUnitStrategy(); sentence = mdbkUnitStrategy.ShuffleSentence(sentence); var mdNulThatUnitStrategy = new MdNulThatUnitStrategy(); sentence = mdNulThatUnitStrategy.ShuffleSentence(sentence); var ddlUnitStrategy = new DdlUnitStrategy(); sentence = ddlUnitStrategy.ShuffleSentence(sentence); var pyYoUnitStrategy = new PyYoUnitStrategy(); sentence = pyYoUnitStrategy.ShuffleSentence(sentence); var percentUnitStrategy = new PercentUnitStrategy(); sentence = percentUnitStrategy.ShuffleSentence(sentence); var clauserUnitStrategy = new ClauserUnitStrategy(); sentence = clauserUnitStrategy.ShuffleSentence(sentence); Assert.That(sentence.Texts[0].pe_text, Is.EqualTo("Economic")); Assert.That(sentence.Texts[1].pe_text, Is.EqualTo("growth")); Assert.That(sentence.Texts[2].pe_text, Is.EqualTo("this year")); //TM 2 & 1 Assert.That(sentence.Texts[3].pe_text, Is.EqualTo("so far")); Assert.That(sentence.Texts[4].pe_text, Is.EqualTo("has")); //VBA Assert.That(sentence.Texts[5].pe_text, Is.EqualTo("at")); //MD1 Assert.That(sentence.Texts[6].pe_text, Is.EqualTo("a")); Assert.That(sentence.Texts[7].pe_text, Is.EqualTo("moderate")); Assert.That(sentence.Texts[8].pe_text, Is.EqualTo("rate")); Assert.That(sentence.Texts[9].pe_text, Is.EqualTo("continued")); //PAST Assert.That(sentence.Texts[10].pe_text, Is.EqualTo(" . ")); }
public void EachStrategyInTurnMaintainsTheSentenceEnding() { var realGdpSentence = new Sentence() { Texts = new List <Text>() { new Text() { pe_tag_revised = "ADJ", pe_text = "Real" }, new Text() { pe_tag_revised = "NN", pe_text = "gdp" }, new Text() { pe_tag_revised = "PAST", pe_text = "rose" }, new Text() { pe_tag_revised = "MD2", pe_text = "at" }, new Text() { pe_tag_revised = "PREN1", pe_text = "an" }, new Text() { pe_tag_revised = "NN", pe_text = "annual rate" }, new Text() { pe_tag_revised = "MD2", pe_text = "of " }, new Text() { pe_tag_revised = "PREN2", pe_text = "about" }, new Text() { pe_tag_revised = "DG", pe_text = "2" }, new Text() { pe_tag_revised = "NN", pe_text = "percent" }, new Text() { pe_tag_revised = "MD3", pe_text = "in" }, new Text() { pe_tag_revised = "PREN3", pe_text = "the" }, new Text() { pe_tag_revised = "TM1", pe_text = "first qtr" }, new Text() { pe_tag_revised = "CS", pe_text = "after" }, //CS 13 new Text() { pe_tag_revised = "PRES", pe_text = "increasing" }, new Text() { pe_tag_revised = "MD4", pe_text = "at" }, new Text() { pe_tag_revised = "PREN4", pe_text = "a" }, new Text() { pe_tag_revised = "DG", pe_text = "3" }, new Text() { pe_tag_revised = "NN", pe_text = "percent" }, new Text() { pe_tag_revised = "NN", pe_text = "pace" }, new Text() { pe_tag_revised = "MD5", pe_text = "in" }, new Text() { pe_tag_revised = "PREN5", pe_text = "the" }, new Text() { pe_tag_revised = "TM2", pe_text = "4th qtr" }, new Text() { pe_tag_revised = "MD6", pe_text = " of " }, new Text() { pe_tag_revised = "TMY", pe_text = "2011" }, new Text() { pe_tag_revised = "PY", pe_text = "zhihou" }, new Text() { pe_tag_revised = "BKP", pe_text = " . " } } }; ClauserUnitStrategy clauserUnitStrategy = new ClauserUnitStrategy(); realGdpSentence = clauserUnitStrategy.ShuffleSentence(realGdpSentence); Assert.That(realGdpSentence.Texts[0].pe_tag_revised == "CS"); Assert.That(realGdpSentence.Texts[realGdpSentence.TextCount - 1].pe_text == " . "); AdverbUnitStrategy adverbUnitStrategy = new AdverbUnitStrategy(); realGdpSentence = adverbUnitStrategy.ShuffleSentence(realGdpSentence); Assert.That(realGdpSentence.Texts[realGdpSentence.TextCount - 1].pe_text == " . "); TimerUnitStrategy timerUnitStrategy = new TimerUnitStrategy(); realGdpSentence = timerUnitStrategy.ShuffleSentence(realGdpSentence); Assert.That(realGdpSentence.Texts[realGdpSentence.TextCount - 1].pe_text == " . "); }