*/
#include "seqsummarycommand.h"
+#include "sequence.hpp"
//***************************************************************************************************************
SeqSummaryCommand::SeqSummaryCommand(){
try {
globaldata = GlobalData::getInstance();
-
- if(globaldata->getFastaFile() != "") { readSeqs = new ReadFasta(globaldata->inputFileName); }
- else if(globaldata->getNexusFile() != "") { readSeqs = new ReadNexus(globaldata->inputFileName); }
- else if(globaldata->getClustalFile() != "") { readSeqs = new ReadClustal(globaldata->inputFileName); }
- else if(globaldata->getPhylipFile() != "") { readSeqs = new ReadPhylip(globaldata->inputFileName); }
-
- readSeqs->read();
- db = readSeqs->getDB();
- numSeqs = db->size();
+ if(globaldata->getFastaFile() == "") { cout << "you need to at least enter a fasta file name" << endl; }
}
catch(exception& e) {
cout << "Standard Error: " << e.what() << " has occurred in the SeqCoordCommand class Function SeqCoordCommand. Please contact Pat Schloss at pschloss@microbio.umass.edu." << "\n";
//***************************************************************************************************************
-SeqSummaryCommand::~SeqSummaryCommand(){
-}
+SeqSummaryCommand::~SeqSummaryCommand(){ /* do nothing */ }
//***************************************************************************************************************
int SeqSummaryCommand::execute(){
try{
-
- ofstream outfile;
- string summaryFile = getRootName(globaldata->inputFileName) + "summary";
- openOutputFile(summaryFile, outfile);
- vector<int> startPosition(numSeqs, 0);
- vector<int> endPosition(numSeqs, 0);
- vector<int> seqLength(numSeqs, 0);
- vector<int> ambigBases(numSeqs, 0);
- vector<int> longHomoPolymer(numSeqs, 0);
+ ifstream inFASTA;
+ openInputFile(globaldata->getFastaFile(), inFASTA);
+ int numSeqs = 0;
+
+ ofstream outSummary;
+ string summaryFile = globaldata->getFastaFile() + ".summary";
+ openOutputFile(summaryFile, outSummary);
- if(db->get(0).getIsAligned() == 1){
- outfile << "seqname\tstart\tend\tlength\tambiguities\tlonghomopolymer" << endl;
- for(int i = 0; i < numSeqs; i++) {
- Sequence current = db->get(i);
- startPosition[i] = current.getStartPos();
- endPosition[i] = current.getEndPos();
- seqLength[i] = current.getNumBases();
- ambigBases[i] = current.getAmbigBases();
- longHomoPolymer[i] = current.getLongHomoPolymer();
- outfile << current.getName() << '\t' << startPosition[i] << '\t' << endPosition[i] << '\t' << seqLength[i] << '\t' << ambigBases[i] << '\t' << longHomoPolymer[i] << endl;
- }
- }
- else{
- outfile << "seqname\tlength\tambiguities\tlonghomopolymer" << endl;
- for(int i=0;i<numSeqs;i++){
- Sequence current = db->get(i);
- seqLength[i] = current.getNumBases();
- ambigBases[i] = current.getAmbigBases();
- longHomoPolymer[i] = current.getLongHomoPolymer();
- outfile << current.getName() << '\t' << seqLength[i] << '\t' << ambigBases[i] << '\t' << longHomoPolymer[i] << endl;
- }
+ vector<int> startPosition;
+ vector<int> endPosition;
+ vector<int> seqLength;
+ vector<int> ambigBases;
+ vector<int> longHomoPolymer;
+
+ outSummary << "seqname\tstart\tend\tnbases\tambigs\tpolymer" << endl;
+
+ while(!inFASTA.eof()){
+ Sequence current(inFASTA);
+ startPosition.push_back(current.getStartPos());
+ endPosition.push_back(current.getEndPos());
+ seqLength.push_back(current.getNumBases());
+ ambigBases.push_back(current.getAmbigBases());
+ longHomoPolymer.push_back(current.getLongHomoPolymer());
+
+ outSummary << current.getName() << '\t';
+ outSummary << current.getStartPos() << '\t' << current.getEndPos() << '\t';
+ outSummary << current.getNumBases() << '\t' << current.getAmbigBases() << '\t';
+ outSummary << current.getLongHomoPolymer() << endl;
+
+ numSeqs++;
+ gobble(inFASTA);
}
+ inFASTA.close();
+ sort(startPosition.begin(), startPosition.end());
+ sort(endPosition.begin(), endPosition.end());
sort(seqLength.begin(), seqLength.end());
sort(ambigBases.begin(), ambigBases.end());
sort(longHomoPolymer.begin(), longHomoPolymer.end());
- int median = int(numSeqs * 0.500);
- int lowestPtile = int(numSeqs * 0.025);
- int lowPtile = int(numSeqs * 0.250);
- int highPtile = int(numSeqs * 0.750);
- int highestPtile = int(numSeqs * 0.975);
- int max = numSeqs - 1;
+ int ptile0_25 = int(numSeqs * 0.025);
+ int ptile25 = int(numSeqs * 0.250);
+ int ptile50 = int(numSeqs * 0.500);
+ int ptile75 = int(numSeqs * 0.750);
+ int ptile97_5 = int(numSeqs * 0.975);
+ int ptile100 = numSeqs - 1;
cout << endl;
- if(db->get(0).getIsAligned() == 1){
- sort(startPosition.begin(), startPosition.end());
- sort(endPosition.begin(), endPosition.end());
-
- cout << "\t\tStart\tEnd\tLength\tN's\tPolymer" << endl;
- cout << "Minimum:\t" << startPosition[0] << '\t' << endPosition[0] << '\t' << seqLength[0] << '\t' << ambigBases[0] << '\t' << longHomoPolymer[0] << endl;
- cout << "2.5%-tile:\t" << startPosition[lowestPtile] << '\t' << endPosition[lowestPtile] << '\t' << seqLength[lowestPtile] << '\t' << ambigBases[lowestPtile] << '\t' << longHomoPolymer[lowestPtile] << endl;
- cout << "25%-tile:\t" << startPosition[lowPtile] << '\t' << endPosition[lowPtile] << '\t' << seqLength[lowPtile] << '\t' << ambigBases[lowPtile] << '\t' << longHomoPolymer[lowPtile] << endl;
- cout << "Median: \t" << startPosition[median] << '\t' << endPosition[median] << '\t' << seqLength[median] << '\t' << ambigBases[median] << '\t' << longHomoPolymer[median] << endl;
- cout << "75%-tile:\t" << startPosition[highPtile] << '\t' << endPosition[highPtile] << '\t' << seqLength[highPtile] << '\t' << ambigBases[highPtile] << '\t' << longHomoPolymer[highPtile] << endl;
- cout << "97.5%-tile:\t" << startPosition[highestPtile] << '\t' << endPosition[highestPtile] << '\t' << seqLength[highestPtile] << '\t' << ambigBases[highestPtile] << '\t' << longHomoPolymer[highestPtile] << endl;
- cout << "Maximum:\t" << startPosition[max] << '\t' << endPosition[max] << '\t' << seqLength[max] << '\t' << ambigBases[max] << '\t' << longHomoPolymer[max] << endl;
- }
- else{
- cout << "\t\tLength\tN's\tPolymer" << endl;
- cout << "Minimum:\t" << seqLength[0] << '\t' << ambigBases[0] << '\t' << longHomoPolymer[0] << endl;
- cout << "2.5%-tile:\t" << seqLength[lowestPtile] << '\t' << ambigBases[lowestPtile] << '\t' << longHomoPolymer[lowestPtile] << endl;
- cout << "25%-tile:\t" << seqLength[lowPtile] << '\t' << ambigBases[lowPtile] << '\t' << longHomoPolymer[lowPtile] << endl;
- cout << "Median: \t" << seqLength[median] << '\t' << ambigBases[median] << '\t' << longHomoPolymer[median] << endl;
- cout << "75%-tile:\t"<< seqLength[highPtile] << '\t' << ambigBases[highPtile] << '\t' << longHomoPolymer[highPtile] << endl;
- cout << "97.5%-tile:\t"<< seqLength[highestPtile] << '\t' << ambigBases[highestPtile] << '\t' << longHomoPolymer[highestPtile] << endl;
- cout << "Maximum:\t" << seqLength[max] << '\t' << ambigBases[max] << '\t' << longHomoPolymer[max] << endl;
- }
+ cout << "\t\tStart\tEnd\tNBases\tAmbigs\tPolymer" << endl;
+ cout << "Minimum:\t" << startPosition[0] << '\t' << endPosition[0] << '\t' << seqLength[0] << '\t' << ambigBases[0] << '\t' << longHomoPolymer[0] << endl;
+ cout << "2.5%-tile:\t" << startPosition[ptile0_25] << '\t' << endPosition[ptile0_25] << '\t' << seqLength[ptile0_25] << '\t' << ambigBases[ptile0_25] << '\t' << longHomoPolymer[ptile0_25] << endl;
+ cout << "25%-tile:\t" << startPosition[ptile25] << '\t' << endPosition[ptile25] << '\t' << seqLength[ptile25] << '\t' << ambigBases[ptile25] << '\t' << longHomoPolymer[ptile25] << endl;
+ cout << "Median: \t" << startPosition[ptile50] << '\t' << endPosition[ptile50] << '\t' << seqLength[ptile50] << '\t' << ambigBases[ptile50] << '\t' << longHomoPolymer[ptile50] << endl;
+ cout << "75%-tile:\t" << startPosition[ptile75] << '\t' << endPosition[ptile75] << '\t' << seqLength[ptile75] << '\t' << ambigBases[ptile75] << '\t' << longHomoPolymer[ptile75] << endl;
+ cout << "97.5%-tile:\t" << startPosition[ptile97_5] << '\t' << endPosition[ptile97_5] << '\t' << seqLength[ptile97_5] << '\t' << ambigBases[ptile97_5] << '\t' << longHomoPolymer[ptile97_5] << endl;
+ cout << "Maximum:\t" << startPosition[ptile100] << '\t' << endPosition[ptile100] << '\t' << seqLength[ptile100] << '\t' << ambigBases[ptile100] << '\t' << longHomoPolymer[ptile100] << endl;
cout << "# of Seqs:\t" << numSeqs << endl;
return 0;