#include "trimseqscommand.h"
#include "needlemanoverlap.hpp"
-#include "nast.hpp"
//***************************************************************************************************************
if ((diffs == 0) || (success == 1)) { return success; }
else { //try aligning and see if you can find it
+
+ Alignment* alignment;
+ if (barcodes.size() > 0) { //assumes barcodes are all the same length
+ map<string,int>::iterator it=barcodes.begin();
+ string temp = it->first;
+
+ alignment = new NeedlemanOverlap(-2.0, 1.0, -1.0, (temp.length()+diffs+1));
+ }else{ alignment = NULL; }
+
+
//can you find the barcode
for(map<string,int>::iterator it=barcodes.begin();it!=barcodes.end();it++){
string oligo = it->first;
+ int length = oligo.length();
+
if(rawSequence.length() < oligo.length()){ //let's just assume that the barcodes are the same length
success = 0;
break;
}
//use needleman to align first barcode.length()+numdiffs of sequence to each barcode
- Alignment* alignment = new NeedlemanOverlap(-2.0, 1.0, -1.0, (oligo.length()+diffs+1));
- Sequence* templateSeq = new Sequence("temp", rawSequence.substr(0,(oligo.length()+diffs)));
- Sequence* candidateSeq = new Sequence("temp2", oligo);
- Nast nast(alignment, candidateSeq, templateSeq);
-
- oligo = candidateSeq->getAligned();
- cout << "barcode = " << oligo << " raw = " << rawSequence.substr(0,(oligo.length())) << endl;
- delete alignment;
- delete templateSeq;
- delete candidateSeq;
+ alignment->align(oligo, rawSequence.substr(0,length+diffs));
+ oligo = alignment->getSeqAAln();
+ string temp = alignment->getSeqBAln();
+ cout << "barcode = " << oligo << " raw = " << rawSequence.substr(0,oligo.length()) << " raw aligned = " << temp << endl;
- if(compareDNASeq(oligo, rawSequence.substr(0,oligo.length()))){
+ int newStart=0;
+ if(compareDNASeq(oligo, rawSequence.substr(0,oligo.length()), length, newStart)){
+ cout << "found match" << endl;
group = it->second;
- seq.setUnaligned(rawSequence.substr(0,oligo.length()));
+ seq.setUnaligned(rawSequence.substr(newStart));
success = 1;
break;
}
}
+
+ if (alignment != NULL) { delete alignment; }
}
return success;
if ((diffs == 0) || (success == 1)) { return success; }
else { //try aligning and see if you can find it
+
+
+ Alignment* alignment;
+ if (numFPrimers > 0) { alignment = new NeedlemanOverlap(-2.0, 1.0, -1.0, (forPrimer[0].length()+diffs+1)); } //assumes primers are all the same length
+ else{ alignment = NULL; }
+
//can you find the primer
for(int i=0;i<numFPrimers;i++){
string oligo = forPrimer[i];
+ int length = oligo.length();
+
if(rawSequence.length() < oligo.length()){
success = 0;
break;
}
//use needleman to align first primer.length()+numdiffs of sequence to each primer
- Alignment* alignment = new NeedlemanOverlap(-2.0, 1.0, -1.0, (oligo.length()+diffs+1));
- Sequence* templateSeq = new Sequence("temp", rawSequence.substr(0,(oligo.length()+diffs)));
- Sequence* candidateSeq = new Sequence("temp2", oligo);
- Nast nast(alignment, candidateSeq, templateSeq);
+ alignment->align(oligo, rawSequence.substr(0,length+diffs));
+ oligo = alignment->getSeqAAln();
- oligo = candidateSeq->getAligned();
-
- delete alignment;
- delete templateSeq;
- delete candidateSeq;
-
- if(compareDNASeq(oligo, rawSequence.substr(0,oligo.length()))){
- seq.setUnaligned(rawSequence.substr(0,oligo.length()));
+ int newStart = 0;
+ if(compareDNASeq(oligo, rawSequence.substr(0,oligo.length()), length, newStart)){
+ seq.setUnaligned(rawSequence.substr(newStart));
success = 1;
break;
}
}
+
+ if (alignment != NULL) { delete alignment; }
}
return success;
}
}
+//***************************************************************************************************************
+
+bool TrimSeqsCommand::compareDNASeq(string oligo, string seq, int numBases, int& end){
+ try {
+ bool success = 1;
+ int length = oligo.length();
+ end = length;
+ int countBases = 0;
+ int countDiffs = 0;
+
+ if (length != 0) {
+ if ((oligo[0] == '-') || (oligo[0] == '.')) { success = 0; return success; } //no gaps allowed at beginning
+ }
+
+ for(int i=0;i<length;i++){
+
+ if ((oligo[i] != '-') && (oligo[i] != '.')) { countBases++; }
+
+ //cout << oligo[i] << " " << seq[i] << " diffs = " << countDiffs << " countBases = " << countBases << endl;
+
+ if(oligo[i] != seq[i]){
+ if(oligo[i] == 'A' || oligo[i] == 'T' || oligo[i] == 'G' || oligo[i] == 'C' || oligo[i] == '-' || oligo[i] == '.') { countDiffs++; }
+ else if((oligo[i] == 'N' || oligo[i] == 'I') && (seq[i] == 'N')) { countDiffs++; }
+ else if(oligo[i] == 'R' && (seq[i] != 'A' && seq[i] != 'G')) { countDiffs++; }
+ else if(oligo[i] == 'Y' && (seq[i] != 'C' && seq[i] != 'T')) { countDiffs++; }
+ else if(oligo[i] == 'M' && (seq[i] != 'C' && seq[i] != 'A')) { countDiffs++; }
+ else if(oligo[i] == 'K' && (seq[i] != 'T' && seq[i] != 'G')) { countDiffs++; }
+ else if(oligo[i] == 'W' && (seq[i] != 'T' && seq[i] != 'A')) { countDiffs++; }
+ else if(oligo[i] == 'S' && (seq[i] != 'C' && seq[i] != 'G')) { countDiffs++; }
+ else if(oligo[i] == 'B' && (seq[i] != 'C' && seq[i] != 'T' && seq[i] != 'G')) { countDiffs++; }
+ else if(oligo[i] == 'D' && (seq[i] != 'A' && seq[i] != 'T' && seq[i] != 'G')) { countDiffs++; }
+ else if(oligo[i] == 'H' && (seq[i] != 'A' && seq[i] != 'T' && seq[i] != 'C')) { countDiffs++; }
+ else if(oligo[i] == 'V' && (seq[i] != 'A' && seq[i] != 'C' && seq[i] != 'G')) { countDiffs++; }
+
+ if(countDiffs > diffs) { success = 0; break; }
+ }
+ else{
+ success = 1;
+ }
+
+ if (countBases >= numBases) { end = i; break; } //stop checking after end of barcode or primer
+ }
+
+ return success;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "TrimSeqsCommand", "compareDNASeq");
+ exit(1);
+ }
+}
//***************************************************************************************************************
bool TrimSeqsCommand::stripQualThreshold(Sequence& seq, ifstream& qFile){