if (namefile != "") { nameMap = m->readNames(namefile); }
else if (countfile != "") {
CountTable ct;
- ct.readTable(countfile, false);
+ ct.readTable(countfile, false, false);
nameMap = ct.getNameMap();
}
int size = startPosition.size();
//find means
- double meanStartPosition, meanEndPosition, meanSeqLength, meanAmbigBases, meanLongHomoPolymer;
+ unsigned long long meanStartPosition, meanEndPosition, meanSeqLength, meanAmbigBases, meanLongHomoPolymer;
meanStartPosition = 0; meanEndPosition = 0; meanSeqLength = 0; meanAmbigBases = 0; meanLongHomoPolymer = 0;
for (int i = 0; i < size; i++) {
meanStartPosition += startPosition[i];
meanLongHomoPolymer += longHomoPolymer[i];
}
- //this is an int divide so the remainder is lost
- meanStartPosition /= (float) size; meanEndPosition /= (float) size; meanLongHomoPolymer /= (float) size; meanSeqLength /= (float) size; meanAmbigBases /= (float) size;
+ double meanstartPosition, meanendPosition, meanseqLength, meanambigBases, meanlongHomoPolymer;
+
+ meanstartPosition = meanStartPosition / (double) size; meanendPosition = meanEndPosition /(double) size; meanlongHomoPolymer = meanLongHomoPolymer / (double) size; meanseqLength = meanSeqLength / (double) size; meanambigBases = meanAmbigBases /(double) size;
int ptile0_25 = int(size * 0.025);
int ptile25 = int(size * 0.250);
m->mothurOut("75%-tile:\t" + toString(startPosition[ptile75]) + "\t" + toString(endPosition[ptile75]) + "\t" + toString(seqLength[ptile75]) + "\t" + toString(ambigBases[ptile75]) + "\t" + toString(longHomoPolymer[ptile75]) + "\t" + toString(ptile75+1)); m->mothurOutEndLine();
m->mothurOut("97.5%-tile:\t" + toString(startPosition[ptile97_5]) + "\t" + toString(endPosition[ptile97_5]) + "\t" + toString(seqLength[ptile97_5]) + "\t" + toString(ambigBases[ptile97_5]) + "\t" + toString(longHomoPolymer[ptile97_5]) + "\t" + toString(ptile97_5+1)); m->mothurOutEndLine();
m->mothurOut("Maximum:\t" + toString(startPosition[ptile100]) + "\t" + toString(endPosition[ptile100]) + "\t" + toString(seqLength[ptile100]) + "\t" + toString(ambigBases[ptile100]) + "\t" + toString(longHomoPolymer[ptile100]) + "\t" + toString(ptile100+1)); m->mothurOutEndLine();
- m->mothurOut("Mean:\t" + toString(meanStartPosition) + "\t" + toString(meanEndPosition) + "\t" + toString(meanSeqLength) + "\t" + toString(meanAmbigBases) + "\t" + toString(meanLongHomoPolymer)); m->mothurOutEndLine();
+ m->mothurOut("Mean:\t" + toString(meanstartPosition) + "\t" + toString(meanendPosition) + "\t" + toString(meanseqLength) + "\t" + toString(meanambigBases) + "\t" + toString(meanlongHomoPolymer)); m->mothurOutEndLine();
if ((namefile == "") && (countfile == "")) { m->mothurOut("# of Seqs:\t" + toString(numSeqs)); m->mothurOutEndLine(); }
else { m->mothurOut("# of unique seqs:\t" + toString(numSeqs)); m->mothurOutEndLine(); m->mothurOut("total # of seqs:\t" + toString(startPosition.size())); m->mothurOutEndLine(); }
}
//for each sequence this sequence represents
- for (int i = 0; i < num; i++) {
+ for (int j = 0; j < num; j++) {
startPosition.push_back(current.getStartPos());
endPosition.push_back(current.getEndPos());
seqLength.push_back(current.getNumBases());