out << "Name\tScore\tLeft\tRight\t" << endl;
//output prefenence structure to .chimeras file
for (int i = 0; i < pref.size(); i++) {
- out << pref[i].name << '\t' << pref[i].score[0] << '\t' << pref[i].leftParent[0] << '\t' << pref[i].rightParent[0] << endl;
+ out << pref[i].name << '\t' << setprecision(3) << pref[i].score[0] << '\t' << pref[i].leftParent[0] << '\t' << pref[i].rightParent[0] << endl;
//calc # of seqs with preference above 1.0
if (pref[i].score[0] > 1.0) {
//do soft filter
if (filter) {
- string optionString = "fasta=" + fastafile + ", soft=50, vertical=F";
+ string optionString = "fasta=" + fastafile + ", soft=50";
filterSeqs = new FilterSeqsCommand(optionString);
filterSeqs->execute();
delete filterSeqs;
distCalculator = new eachGapDist();
//read in sequences
- readSeqs();
+ seqs = readSeqs(fastafile);
int numSeqs = seqs.size();
if (numSeqs == 0) { mothurOut("Error in reading you sequences."); mothurOutEndLine(); exit(1); }
//set default window to 25% of sequence length
- string seq0 = seqs[0].getAligned();
+ string seq0 = seqs[0]->getAligned();
if (window == 0) { window = seq0.length() / 4; }
else if (window > (seq0.length() / 2)) {
mothurOut("Your sequence length is = " + toString(seq0.length()) + ". You have selected a window size greater than the length of half your aligned sequence. I will run it with a window size of " + toString((seq0.length() / 2))); mothurOutEndLine();
window = (seq0.length() / 2);
}
- if (increment > (seqs[0].getAlignLength() - (2*window))) {
+ if (increment > (seqs[0]->getAlignLength() - (2*window))) {
if (increment != 10) {
mothurOut("You have selected a increment that is too large. I will use the default."); mothurOutEndLine();
increment = 10;
- if (increment > (seqs[0].getAlignLength() - (2*window))) { increment = 0; }
+ if (increment > (seqs[0]->getAlignLength() - (2*window))) { increment = 0; }
}else{ increment = 0; }
}
-cout << "increment = " << increment << endl;
+
if (increment == 0) { iters = 1; }
- else { iters = ((seqs[0].getAlignLength() - (2*window)) / increment); }
+ else { iters = ((seqs[0]->getAlignLength() - (2*window)) / increment); }
//initialize pref
pref.resize(numSeqs);
for (int i = 0; i < numSeqs; i++ ) {
pref[i].leftParent.resize(2); pref[i].rightParent.resize(2); pref[i].score.resize(2); pref[i].closestLeft.resize(2); pref[i].closestRight.resize(3);
- pref[i].name = seqs[i].getName();
+ pref[i].name = seqs[i]->getName();
pref[i].score[0] = 0.0; pref[i].score[1] = 0.0;
pref[i].closestLeft[0] = 100000.0; pref[i].closestLeft[1] = 100000.0;
pref[i].closestRight[0] = 100000.0; pref[i].closestRight[1] = 100000.0;
for (int i = 0; i < seqs.size(); i++) {
//cout << "whole = " << seqs[i].getAligned() << endl;
//save left side
- string seqLeft = seqs[i].getAligned().substr(midpoint-window, window);
+ string seqLeft = seqs[i]->getAligned().substr(midpoint-window, window);
Sequence tempLeft;
- tempLeft.setName(seqs[i].getName());
+ tempLeft.setName(seqs[i]->getName());
tempLeft.setAligned(seqLeft);
left.push_back(tempLeft);
//cout << "left = " << tempLeft.getAligned() << endl;
//save right side
- string seqRight = seqs[i].getAligned().substr(midpoint, window);
+ string seqRight = seqs[i]->getAligned().substr(midpoint, window);
Sequence tempRight;
- tempRight.setName(seqs[i].getName());
+ tempRight.setName(seqs[i]->getName());
tempRight.setAligned(seqRight);
right.push_back(tempRight);
//cout << "right = " << seqRight << endl;
vector<SeqMap> distMapLeft;
// Create a data structure to quickly access the distance information.
+ //this is from thallingers reimplementation on get.oturep
// It consists of a vector of distance maps, where each map contains
// all distances of a certain sequence. Vector and maps are accessed
// via the index of a sequence in the distance matrix
delete SparseLeft;
delete SparseRight;
-
//fill preference structure
generatePreferences(distMapLeft, distMapRight, midpoint);
//how much higher or lower is this than expected
pref[i].score[0] = pref[i].score[0] / expectedPercent;
-
- }
+ }
//sort Preferences highest to lowest
sort(pref.begin(), pref.end(), comparePref);
-
-
}
catch(exception& e) {
errorOut(e, "Bellerophon", "getChimeras");
}
}
-//***************************************************************************************************************
-void Bellerophon::readSeqs(){
- try {
- ifstream inFASTA;
- openInputFile(fastafile, inFASTA);
-
- //read in seqs and store in vector
- while(!inFASTA.eof()){
- Sequence current(inFASTA);
-
- if (current.getAligned() == "") { current.setAligned(current.getUnaligned()); }
-
- seqs.push_back(current);
-
- gobble(inFASTA);
- }
- inFASTA.close();
-
- }
- catch(exception& e) {
- errorOut(e, "Bellerophon", "readSeqs");
- exit(1);
- }
-}
-
/***************************************************************************************************************/
int Bellerophon::createSparseMatrix(int startSeq, int endSeq, SparseMatrix* sparse, vector<Sequence> s){
try {
}
}
-
-
+
return 1;
}
catch(exception& e) {
if (itL->second < pref[i].closestLeft[1]) {
pref[i].closestLeft[1] = itL->second;
- pref[i].leftParent[1] = seqs[j].getName();
+ pref[i].leftParent[1] = seqs[j]->getName();
//cout << "updating closest left to " << pref[i].leftParent[1] << endl;
}
//cout << "pref[" << j << "].closestLeft[1] = " << pref[j].closestLeft[1] << " parent = " << pref[j].leftParent[1] << endl;
if (itL->second < pref[j].closestLeft[1]) {
pref[j].closestLeft[1] = itL->second;
- pref[j].leftParent[1] = seqs[i].getName();
+ pref[j].leftParent[1] = seqs[i]->getName();
//cout << "updating closest left to " << pref[j].leftParent[1] << endl;
}
//are you the closest right sequence
if (itR->second < pref[i].closestRight[1]) {
pref[i].closestRight[1] = itR->second;
- pref[i].rightParent[1] = seqs[j].getName();
+ pref[i].rightParent[1] = seqs[j]->getName();
}
if (itR->second < pref[j].closestRight[1]) {
pref[j].closestRight[1] = itR->second;
- pref[j].rightParent[1] = seqs[i].getName();
+ pref[j].rightParent[1] = seqs[i]->getName();
}
}
//calculate the dme
-
int count0 = 0;
for (int i = 0; i < pref.size(); i++) { dme += pref[i].score[1]; if (pref[i].score[1] == 0.0) { count0++; } }