public void Hamming_Empty_Strings_Throw_Exceptions() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); try { processor.HammingDistance("", ""); Assert.Fail(); } catch (AssertFailedException e) { throw e; } catch (ArgumentException) { } }
public void Hamming_Different_Multiple_Letters() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual(7, processor.HammingDistance("GAGCCTACTAACGGGAT", "CATCGTAATGACGGCCT")); }
public void Hamming_Different_Double_Letters() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual(2, processor.HammingDistance("GG", "AA")); }
public void Hamming_Same_Double_Letters() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual(0, processor.HammingDistance("AA", "AA")); }
public void C_Returns_0_1_0_0() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("0 1 0 0", processor.CountNucleotides("C")); }
public void TranscribeMultipleNucleotidesWithT() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("GGAACCUUAACC", processor.TranscribeDnaToRna("GGAACCTTAACC")); }
public void Gc_Content_Empty_String_Returns_0() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual(0.0, processor.GcPercentage(""), 0.000001); }
public void EmtpyStringReturnsEmptyString() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("", processor.TranscribeDnaToRna("")); }
public void AAAReturnsTTT() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("TTT", processor.ReverseComplement("AAA")); }
public void GTCAReturnsTGAC() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("TGAC", processor.ReverseComplement("GTCA")); }
public void CReturnsG() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("G", processor.ReverseComplement("C")); }
public void EmptyStringReturnsEmptyString() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("", processor.ReverseComplement("")); }
public void TranscribeMultipleNucleotidesWithTSecond() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("GAUGGAACUUGACUACGUAAAUU", processor.TranscribeDnaToRna("GATGGAACTTGACTACGTAAATT")); }
public void T_Returns_0_0_0_1() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("0 0 0 1", processor.CountNucleotides("T")); }
public void Gc_Content_One_Char_C_Returns_100() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual(100.0, processor.GcPercentage("C"), 0.000001); }
public void Returns_20_12_17_21() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("20 12 17 21", processor.CountNucleotides("AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC")); }
public void Gc_Content_Two_Char_Returns_50() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual(50.0, processor.GcPercentage("GT"), 0.000001); }
public void TTranscribesU() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("U", processor.TranscribeDnaToRna("T")); }
public void EmptyStringReturns_0_0_0_0() { DnaNucleotideStringProcessor processor = new DnaNucleotideStringProcessor(); Assert.AreEqual("0 0 0 0", processor.CountNucleotides("")); }