X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;f=trimoligos.cpp;h=ecdca9bfe60f44c972d821b5f82c7353ee9a9561;hb=f12174bc43f9e8ad536f2a37fb3a763b1ac90ba9;hp=c35971a676f1c9af3de404bb5f0a4ca707a82f1f;hpb=55bbd10379db27def51cec72a8819d775f73e45b;p=mothur.git diff --git a/trimoligos.cpp b/trimoligos.cpp index c35971a..ecdca9b 100644 --- a/trimoligos.cpp +++ b/trimoligos.cpp @@ -259,7 +259,7 @@ int TrimOligos::stripBarcode(Sequence& seq, QualityScores& qual, int& group){ } } //*******************************************************************/ -int TrimOligos::stripBarcode(Sequence& forwardSeq, Sequence& reverseSeq, QualityScores& forwardQual, QualityScores& reverseQual, int& group){ +int TrimOligos::stripBarcode(Sequence& forwardSeq, Sequence& reverseSeq, int& group){ try { //look for forward barcode string rawFSequence = forwardSeq.getUnaligned(); @@ -284,8 +284,6 @@ int TrimOligos::stripBarcode(Sequence& forwardSeq, Sequence& reverseSeq, Quality group = it->first; forwardSeq.setUnaligned(rawFSequence.substr(foligo.length())); reverseSeq.setUnaligned(rawRSequence.substr(0,(rawRSequence.length()-roligo.length()))); - forwardQual.trimQScores(foligo.length(), -1); - reverseQual.trimQScores(-1, rawRSequence.length()-roligo.length()); success = 0; break; } @@ -464,6 +462,233 @@ int TrimOligos::stripBarcode(Sequence& forwardSeq, Sequence& reverseSeq, Quality rStart = minRPos[0]; } + //we have an acceptable match for the forward and reverse, but do they match? + if (foundMatch) { + forwardSeq.setUnaligned(rawFSequence.substr(fStart)); + reverseSeq.setUnaligned(rawRSequence.substr(rStart)); + success = minDiff; + }else { success = bdiffs + 100; } + } + } + + if (alignment != NULL) { delete alignment; } + } + + return success; + + } + catch(exception& e) { + m->errorOut(e, "TrimOligos", "stripIBarcode"); + exit(1); + } + +} +//*******************************************************************/ +int TrimOligos::stripBarcode(Sequence& forwardSeq, Sequence& reverseSeq, QualityScores& forwardQual, QualityScores& reverseQual, int& group){ + try { + //look for forward barcode + string rawFSequence = forwardSeq.getUnaligned(); + string rawRSequence = reverseSeq.getUnaligned(); + int success = bdiffs + 1; //guilty until proven innocent + + //can you find the forward barcode + for(map::iterator it=ipbarcodes.begin();it!=ipbarcodes.end();it++){ + string foligo = it->second.forward; + string roligo = it->second.reverse; + + if(rawFSequence.length() < foligo.length()){ //let's just assume that the barcodes are the same length + success = bdiffs + 10; //if the sequence is shorter than the barcode then bail out + break; + } + if(rawRSequence.length() < roligo.length()){ //let's just assume that the barcodes are the same length + success = bdiffs + 10; //if the sequence is shorter than the barcode then bail out + break; + } + + if((compareDNASeq(foligo, rawFSequence.substr(0,foligo.length()))) && (compareDNASeq(roligo, rawRSequence.substr((rawRSequence.length()-roligo.length()),roligo.length())))) { + group = it->first; + forwardSeq.setUnaligned(rawFSequence.substr(foligo.length())); + reverseSeq.setUnaligned(rawRSequence.substr(0,(rawRSequence.length()-roligo.length()))); + forwardQual.trimQScores(foligo.length(), -1); + reverseQual.trimQScores(-1, rawRSequence.length()-roligo.length()); + success = 0; + break; + } + } + + //if you found the barcode or if you don't want to allow for diffs + if ((bdiffs == 0) || (success == 0)) { return success; } + else { //try aligning and see if you can find it + Alignment* alignment; + if (ifbarcodes.size() > 0) { alignment = new NeedlemanOverlap(-1.0, 1.0, -1.0, (maxFBarcodeLength+bdiffs+1)); } + else{ alignment = NULL; } + + //can you find the barcode + int minDiff = 1e6; + int minCount = 1; + vector< vector > minFGroup; + vector minFPos; + + //the pair can have duplicates, but we only want to search for the unique forward and reverses, example + /* + 1 Sarah Westcott + 2 John Westcott + 3 Anna Westcott + 4 Sarah Schloss + 5 Pat Schloss + 6 Gail Brown + 7 Pat Moore + + only want to look for forward = Sarah, John, Anna, Pat, Gail + reverse = Westcott, Schloss, Brown, Moore + + but if best match forward = 4, and reverse = 1, we want to count as a valid match because forward 1 and forward 4 are the same. so both barcodes map to same group. + */ + //cout << endl << forwardSeq.getName() << endl; + for(map >::iterator it=ifbarcodes.begin();it!=ifbarcodes.end();it++){ + string oligo = it->first; + + if(rawFSequence.length() < maxFBarcodeLength){ //let's just assume that the barcodes are the same length + success = bdiffs + 10; + break; + } + //cout << "before = " << oligo << '\t' << rawFSequence.substr(0,oligo.length()+bdiffs) << endl; + //use needleman to align first barcode.length()+numdiffs of sequence to each barcode + alignment->align(oligo, rawFSequence.substr(0,oligo.length()+bdiffs)); + oligo = alignment->getSeqAAln(); + string temp = alignment->getSeqBAln(); + + int alnLength = oligo.length(); + + for(int i=oligo.length()-1;i>=0;i--){ if(oligo[i] != '-'){ alnLength = i+1; break; } } + oligo = oligo.substr(0,alnLength); + temp = temp.substr(0,alnLength); + int numDiff = countDiffs(oligo, temp); + + if (alnLength == 0) { numDiff = bdiffs + 100; } + //cout << "after = " << oligo << '\t' << temp << '\t' << numDiff << endl; + + if(numDiff < minDiff){ + minDiff = numDiff; + minCount = 1; + minFGroup.clear(); + minFGroup.push_back(it->second); + int tempminFPos = 0; + minFPos.clear(); + for(int i=0;isecond); + int tempminFPos = 0; + for(int i=0;i bdiffs) { success = minDiff; } //no good matches + else{ + //check for reverse match + if (alignment != NULL) { delete alignment; } + + if (irbarcodes.size() > 0) { alignment = new NeedlemanOverlap(-1.0, 1.0, -1.0, (maxRBarcodeLength+bdiffs+1)); } + else{ alignment = NULL; } + + //can you find the barcode + minDiff = 1e6; + minCount = 1; + vector< vector > minRGroup; + vector minRPos; + + for(map >::iterator it=irbarcodes.begin();it!=irbarcodes.end();it++){ + string oligo = it->first; + //cout << "before = " << oligo << '\t' << rawRSequence.substr(0,oligo.length()+bdiffs) << endl; + if(rawRSequence.length() < maxRBarcodeLength){ //let's just assume that the barcodes are the same length + success = bdiffs + 10; + break; + } + + //use needleman to align first barcode.length()+numdiffs of sequence to each barcode + alignment->align(oligo, rawRSequence.substr(0,oligo.length()+bdiffs)); + oligo = alignment->getSeqAAln(); + string temp = alignment->getSeqBAln(); + + int alnLength = oligo.length(); + for(int i=oligo.length()-1;i>=0;i--){ if(oligo[i] != '-'){ alnLength = i+1; break; } } + oligo = oligo.substr(0,alnLength); + temp = temp.substr(0,alnLength); + int numDiff = countDiffs(oligo, temp); + if (alnLength == 0) { numDiff = bdiffs + 100; } + + //cout << "after = " << oligo << '\t' << temp << '\t' << numDiff << endl; + if(numDiff < minDiff){ + minDiff = numDiff; + minCount = 1; + minRGroup.clear(); + minRGroup.push_back(it->second); + int tempminRPos = 0; + minRPos.clear(); + for(int i=0;isecond); + } + + } + + /*cout << minDiff << '\t' << minCount << '\t' << endl; + for (int i = 0; i < minFGroup.size(); i++) { + cout << i << '\t'; + for (int j = 0; j < minFGroup[i].size(); j++) { cout << minFGroup[i][j] << " "; } + cout << endl; + } + cout << endl; + for (int i = 0; i < minRGroup.size(); i++) { + cout << i << '\t'; + for (int j = 0; j < minRGroup[i].size(); j++) { cout << minRGroup[i][j] << " "; } + cout << endl; + } + cout << endl;*/ + if(minDiff > bdiffs) { success = minDiff; } //no good matches + else { + bool foundMatch = false; + vector matches; + for (int i = 0; i < minFGroup.size(); i++) { + for (int j = 0; j < minFGroup[i].size(); j++) { + for (int k = 0; k < minRGroup.size(); k++) { + if (m->inUsersGroups(minFGroup[i][j], minRGroup[k])) { matches.push_back(minFGroup[i][j]); k+= minRGroup.size(); } + } + } + } + + int fStart = 0; + int rStart = 0; + if (matches.size() == 1) { + foundMatch = true; + group = matches[0]; + fStart = minFPos[0]; + rStart = minRPos[0]; + } + //we have an acceptable match for the forward and reverse, but do they match? if (foundMatch) { forwardSeq.setUnaligned(rawFSequence.substr(fStart)); @@ -715,6 +940,231 @@ int TrimOligos::stripForward(Sequence& forwardSeq, Sequence& reverseSeq, Quality exit(1); } +} +//*******************************************************************/ +int TrimOligos::stripForward(Sequence& forwardSeq, Sequence& reverseSeq, int& group){ + try { + //look for forward barcode + string rawFSequence = forwardSeq.getUnaligned(); + string rawRSequence = reverseSeq.getUnaligned(); + int success = pdiffs + 1; //guilty until proven innocent + + //can you find the forward barcode + for(map::iterator it=ipprimers.begin();it!=ipprimers.end();it++){ + string foligo = it->second.forward; + string roligo = it->second.reverse; + + if(rawFSequence.length() < foligo.length()){ //let's just assume that the barcodes are the same length + success = pdiffs + 10; //if the sequence is shorter than the barcode then bail out + break; + } + if(rawRSequence.length() < roligo.length()){ //let's just assume that the barcodes are the same length + success = pdiffs + 10; //if the sequence is shorter than the barcode then bail out + break; + } + + if((compareDNASeq(foligo, rawFSequence.substr(0,foligo.length()))) && (compareDNASeq(roligo, rawRSequence.substr((rawRSequence.length()-roligo.length()),roligo.length())))) { + group = it->first; + forwardSeq.setUnaligned(rawFSequence.substr(foligo.length())); + reverseSeq.setUnaligned(rawRSequence.substr(0,(rawRSequence.length()-roligo.length()))); + success = 0; + break; + } + } + + //if you found the barcode or if you don't want to allow for diffs + if ((pdiffs == 0) || (success == 0)) { return success; } + else { //try aligning and see if you can find it + Alignment* alignment; + if (ifprimers.size() > 0) { alignment = new NeedlemanOverlap(-1.0, 1.0, -1.0, (maxFPrimerLength+pdiffs+1)); } + else{ alignment = NULL; } + + //can you find the barcode + int minDiff = 1e6; + int minCount = 1; + vector< vector > minFGroup; + vector minFPos; + + //the pair can have duplicates, but we only want to search for the unique forward and reverses, example + /* + 1 Sarah Westcott + 2 John Westcott + 3 Anna Westcott + 4 Sarah Schloss + 5 Pat Schloss + 6 Gail Brown + 7 Pat Moore + + only want to look for forward = Sarah, John, Anna, Pat, Gail + reverse = Westcott, Schloss, Brown, Moore + + but if best match forward = 4, and reverse = 1, we want to count as a valid match because forward 1 and forward 4 are the same. so both barcodes map to same group. + */ + //cout << endl << forwardSeq.getName() << endl; + for(map >::iterator it=ifprimers.begin();it!=ifprimers.end();it++){ + string oligo = it->first; + + if(rawFSequence.length() < maxFPrimerLength){ //let's just assume that the barcodes are the same length + success = pdiffs + 10; + break; + } + //cout << "before = " << oligo << '\t' << rawFSequence.substr(0,oligo.length()+pdiffs) << endl; + //use needleman to align first barcode.length()+numdiffs of sequence to each barcode + alignment->align(oligo, rawFSequence.substr(0,oligo.length()+pdiffs)); + oligo = alignment->getSeqAAln(); + string temp = alignment->getSeqBAln(); + + int alnLength = oligo.length(); + + for(int i=oligo.length()-1;i>=0;i--){ if(oligo[i] != '-'){ alnLength = i+1; break; } } + oligo = oligo.substr(0,alnLength); + temp = temp.substr(0,alnLength); + int numDiff = countDiffs(oligo, temp); + + if (alnLength == 0) { numDiff = pdiffs + 100; } + //cout << "after = " << oligo << '\t' << temp << '\t' << numDiff << endl; + + if(numDiff < minDiff){ + minDiff = numDiff; + minCount = 1; + minFGroup.clear(); + minFGroup.push_back(it->second); + int tempminFPos = 0; + minFPos.clear(); + for(int i=0;isecond); + int tempminFPos = 0; + for(int i=0;i pdiffs) { success = minDiff; } //no good matches + else{ + //check for reverse match + if (alignment != NULL) { delete alignment; } + + if (irbarcodes.size() > 0) { alignment = new NeedlemanOverlap(-1.0, 1.0, -1.0, (maxRPrimerLength+pdiffs+1)); } + else{ alignment = NULL; } + + //can you find the barcode + minDiff = 1e6; + minCount = 1; + vector< vector > minRGroup; + vector minRPos; + + for(map >::iterator it=irprimers.begin();it!=irprimers.end();it++){ + string oligo = it->first; + //cout << "before = " << oligo << '\t' << rawRSequence.substr(0,oligo.length()+pdiffs) << endl; + if(rawRSequence.length() < maxRPrimerLength){ //let's just assume that the barcodes are the same length + success = pdiffs + 10; + break; + } + + //use needleman to align first barcode.length()+numdiffs of sequence to each barcode + alignment->align(oligo, rawRSequence.substr(0,oligo.length()+pdiffs)); + oligo = alignment->getSeqAAln(); + string temp = alignment->getSeqBAln(); + + int alnLength = oligo.length(); + for(int i=oligo.length()-1;i>=0;i--){ if(oligo[i] != '-'){ alnLength = i+1; break; } } + oligo = oligo.substr(0,alnLength); + temp = temp.substr(0,alnLength); + int numDiff = countDiffs(oligo, temp); + if (alnLength == 0) { numDiff = pdiffs + 100; } + + //cout << "after = " << oligo << '\t' << temp << '\t' << numDiff << endl; + if(numDiff < minDiff){ + minDiff = numDiff; + minCount = 1; + minRGroup.clear(); + minRGroup.push_back(it->second); + int tempminRPos = 0; + minRPos.clear(); + for(int i=0;isecond); + } + + } + + /*cout << minDiff << '\t' << minCount << '\t' << endl; + for (int i = 0; i < minFGroup.size(); i++) { + cout << i << '\t'; + for (int j = 0; j < minFGroup[i].size(); j++) { cout << minFGroup[i][j] << " "; } + cout << endl; + } + cout << endl; + for (int i = 0; i < minRGroup.size(); i++) { + cout << i << '\t'; + for (int j = 0; j < minRGroup[i].size(); j++) { cout << minRGroup[i][j] << " "; } + cout << endl; + } + cout << endl;*/ + if(minDiff > pdiffs) { success = minDiff; } //no good matches + else { + bool foundMatch = false; + vector matches; + for (int i = 0; i < minFGroup.size(); i++) { + for (int j = 0; j < minFGroup[i].size(); j++) { + for (int k = 0; k < minRGroup.size(); k++) { + if (m->inUsersGroups(minFGroup[i][j], minRGroup[k])) { matches.push_back(minFGroup[i][j]); k+= minRGroup.size(); } + } + } + } + + int fStart = 0; + int rStart = 0; + if (matches.size() == 1) { + foundMatch = true; + group = matches[0]; + fStart = minFPos[0]; + rStart = minRPos[0]; + } + + //we have an acceptable match for the forward and reverse, but do they match? + if (foundMatch) { + forwardSeq.setUnaligned(rawFSequence.substr(fStart)); + reverseSeq.setUnaligned(rawRSequence.substr(rStart)); + success = minDiff; + }else { success = pdiffs + 100; } + } + } + + if (alignment != NULL) { delete alignment; } + } + + return success; + + } + catch(exception& e) { + m->errorOut(e, "TrimOligos", "stripIForward"); + exit(1); + } + } //*******************************************************************/ int TrimOligos::stripBarcode(Sequence& seq, int& group){