/**************************************************************************************************/
Bayesian::~Bayesian() {
try {
-
- delete phyloTree;
- if (database != NULL) { delete database; }
+ if (phyloTree != NULL) { delete phyloTree; }
+ if (database != NULL) { delete database; }
}
catch(exception& e) {
m->errorOut(e, "Bayesian", "~Bayesian");
}
}
- if (queryKmers.size() == 0) { m->mothurOut(seq->getName() + "is bad."); m->mothurOutEndLine(); simpleTax = "unknown;"; return "unknown;"; }
+ if (queryKmers.size() == 0) { m->mothurOut(seq->getName() + " is bad. It has no kmers of length " + toString(kmerSize) + "."); m->mothurOutEndLine(); simpleTax = "unknown;"; return "unknown;"; }
int index = getMostProbableTaxonomy(queryKmers);
//bootstrap - to set confidenceScore
int numToSelect = queryKmers.size() / 8;
+ if (m->debug) { m->mothurOut(seq->getName() + "\t"); }
+
tax = bootstrapResults(queryKmers, index, numToSelect);
+
+ if (m->debug) { m->mothurOut("\n"); }
return tax;
}
int seqTaxIndex = tax;
TaxNode seqTax = phyloTree->get(tax);
+
while (seqTax.level != 0) { //while you are not at the root
itBoot2 = confidenceScores.find(seqTaxIndex); //is this a classification we already have a count on
confidence = itBoot2->second;
}
+ if (m->debug) { m->mothurOut(seqTax.name + "(" + toString(((confidence/(float)iters) * 100)) + ");"); }
+
if (((confidence/(float)iters) * 100) >= confidenceThreshold) {
confidenceTax = seqTax.name + "(" + toString(((confidence/(float)iters) * 100)) + ");" + confidenceTax;
simpleTax = seqTax.name + ";" + simpleTax;
}
-
+
seqTaxIndex = seqTax.parent;
seqTax = phyloTree->get(seqTax.parent);
}