package jalview.ext.ensembl;
+import static org.testng.AssertJUnit.assertEquals;
+
import jalview.datamodel.Alignment;
import jalview.datamodel.AlignmentI;
import jalview.datamodel.SequenceI;
+ (isAvailable ? "UP!"
: "DOWN or unreachable ******************* BAD!"));
}
- // todo lots of tests
+
+ /**
+ * Tests for the method that computes all peptide variants given codon
+ * variants
+ */
+ @Test(groups = "Functional")
+ public void testComputePeptideVariants()
+ {
+ String[][] codonVariants = new String[][] { { "A" }, { "G" }, { "T" } };
+
+ /*
+ * AGT codes for S - this is not included in the variants returned
+ */
+ List<String> variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "S");
+ assertEquals("[]", variants.toString());
+
+ // S is reported if it differs from the current value (A):
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "A");
+ assertEquals("[S]", variants.toString());
+
+ /*
+ * synonymous variant is not reported
+ */
+ codonVariants = new String[][] { { "A" }, { "G" }, { "C", "T" } };
+ // AGC and AGT both code for S
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "s");
+ assertEquals("[]", variants.toString());
+
+ /*
+ * equivalent variants are only reported once
+ */
+ codonVariants = new String[][] { { "C" }, { "T" },
+ { "A", "C", "G", "T" } };
+ // CTA CTC CTG CTT all code for L
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "S");
+ assertEquals("[L]", variants.toString());
+
+ /*
+ * vary codons 1 and 2; variant products are sorted and non-redundant
+ */
+ codonVariants = new String[][] { { "a", "C" }, { "g", "T" }, { "A" } };
+ // aga ata cga cta code for R, I, R, L
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "S");
+ assertEquals("[I, L, R]", variants.toString());
+
+ /*
+ * vary codons 2 and 3
+ */
+ codonVariants = new String[][] { { "a" }, { "g", "T" }, { "A", "c" } };
+ // aga agc ata atc code for R, S, I, I
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "S");
+ assertEquals("[I, R]", variants.toString());
+
+ /*
+ * vary codons 1 and 3
+ */
+ codonVariants = new String[][] { { "a", "t" }, { "a" }, { "t", "g" } };
+ // aat aag tat tag code for N, K, Y, STOP - STOP sorted to end
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "S");
+ assertEquals("[K, N, Y, STOP]", variants.toString());
+
+ /*
+ * vary codons 1, 2 and 3
+ */
+ codonVariants = new String[][] { { "a", "t" }, { "G", "C" },
+ { "t", "g" } };
+ // agt agg act acg tgt tgg tct tcg code for S, R, T, T, C, W, S, S
+ variants = EnsemblSeqProxy.computePeptideVariants(codonVariants, "S");
+ assertEquals("[C, R, T, W]", variants.toString());
+ }
}
\ No newline at end of file