/***********************************************************************/
Maligner::Maligner(vector<Sequence*> temp, int num, int match, int misMatch, float div, int ms, int minCov, string mode, Database* dataLeft, Database* dataRight) :
- db(temp), numWanted(num), matchScore(match), misMatchPenalty(misMatch), minDivR(div), minSimilarity(ms), minCoverage(minCov), searchMethod(mode), databaseLeft(dataLeft), databaseRight(dataRight) {}
+ db(temp), numWanted(num), matchScore(match), misMatchPenalty(misMatch), minDivR(div), minSimilarity(ms), minCoverage(minCov), searchMethod(mode), databaseLeft(dataLeft), databaseRight(dataRight) {
+
+
+ m = MothurOut::getInstance();
+
+// cout << matchScore << '\t' << misMatchPenalty << endl;
+//
+// matchScore = 1;
+// misMatchPenalty = -1;
+
+ }
+
/***********************************************************************/
string Maligner::getResults(Sequence* q, DeCalculator* decalc) {
try {
refSeqs = getBlastSeqs(query, numWanted); //fills indexes
}else if (searchMethod == "kmer") {
refSeqs = getKmerSeqs(query, numWanted); //fills indexes
- }else { mothurOut("not valid search."); exit(1); } //should never get here
+ }else { m->mothurOut("not valid search."); exit(1); } //should never get here
+
+ if (m->control_pressed) { return chimera; }
refSeqs = minCoverageFilter(refSeqs);
//fills outputResults
chimera = chimeraMaligner(chimeraPenalty, decalc);
-
+
+ if (m->control_pressed) { return chimera; }
//free memory
delete query;
return chimera;
}
catch(exception& e) {
- errorOut(e, "Maligner", "getResults");
+ m->errorOut(e, "Maligner", "getResults");
exit(1);
}
}
//trims seqs to first non gap char in all seqs and last non gap char in all seqs
spotMap = decalc->trimSeqs(query, refSeqs);
+
+ //you trimmed the whole sequence, skip
+ if (query->getAligned() == "") { return "no"; }
vector<Sequence*> temp = refSeqs;
temp.push_back(query);
verticalFilter(temp);
-//for (int i = 0; i < temp.size(); i++) { cout << temp[i]->getName() << '\n' << temp[i]->getAligned() << endl; } return "no";
vector< vector<score_struct> > matrix = buildScoreMatrix(query->getAligned().length(), refSeqs.size()); //builds and initializes
+ if (m->control_pressed) { return chimera; }
+
fillScoreMatrix(matrix, refSeqs, chimeraPenalty);
- vector<score_struct> path = extractHighestPath(matrix);
+ vector<trace_struct> trace = extractHighestPath(matrix);
+
+// cout << "traces\n";
+// for(int i=0;i<trace.size();i++){
+// cout << trace[i].col << '\t' << trace[i].oldCol << '\t' << refSeqs[trace[i].row]->getName() << endl;
+// }
- vector<trace_struct> trace = mapTraceRegionsToAlignment(path, refSeqs);
-
if (trace.size() > 1) { chimera = "yes"; }
else { chimera = "no"; }
- int traceStart = path[0].col;
- int traceEnd = path[path.size()-1].col;
+ int traceStart = trace[0].col;
+ int traceEnd = trace[trace.size()-1].oldCol;
string queryInRange = query->getAligned();
queryInRange = queryInRange.substr(traceStart, (traceEnd-traceStart+1));
-
- string chimeraSeq = constructChimericSeq(trace, refSeqs);
-
- percentIdenticalQueryChimera = computePercentID(queryInRange, chimeraSeq);
+
+ if (m->control_pressed) { return chimera; }
//save output results
for (int i = 0; i < trace.size(); i++) {
temp.queryToParent = computePercentID(queryInRange, parentInRange);
temp.divR = (percentIdenticalQueryChimera / temp.queryToParent);
-
+
string queryInRegion = query->getAligned();
queryInRegion = queryInRegion.substr(regionStart, (regionEnd-regionStart+1));
outputResults.push_back(temp);
}
-
+
return chimera;
}
catch(exception& e) {
- errorOut(e, "Maligner", "chimeraMaligner");
+ m->errorOut(e, "Maligner", "chimeraMaligner");
exit(1);
}
}
//if coverage above minimum
if (coverage > minCoverage) {
newRefs.push_back(ref[i]);
+ }else {
+ delete ref[i];
}
}
return newRefs;
}
catch(exception& e) {
- errorOut(e, "Maligner", "minCoverageFilter");
+ m->errorOut(e, "Maligner", "minCoverageFilter");
exit(1);
}
}
try {
int numAllowable = ((1.0 - (1.0/minDivR)) * query->getNumBases());
-
+
+// if(numAllowable < 2){ numAllowable = 2; }
+
int penalty = int(numAllowable + 1) * misMatchPenalty;
-
+
return penalty;
}
catch(exception& e) {
- errorOut(e, "Maligner", "computeChimeraPenalty");
+ m->errorOut(e, "Maligner", "computeChimeraPenalty");
exit(1);
}
}
spotMap = newMap;
}
catch(exception& e) {
- errorOut(e, "Maligner", "verticalFilter");
+ m->errorOut(e, "Maligner", "verticalFilter");
exit(1);
}
}
vector< vector<score_struct> > Maligner::buildScoreMatrix(int cols, int rows) {
try{
- vector< vector<score_struct> > m; m.resize(rows);
+ vector< vector<score_struct> > m(rows);
- for (int i = 0; i < m.size(); i++) {
+ for (int i = 0; i < rows; i++) {
for (int j = 0; j < cols; j++) {
//initialize each cell
return m;
}
catch(exception& e) {
- errorOut(e, "Maligner", "buildScoreMatrix");
+ m->errorOut(e, "Maligner", "buildScoreMatrix");
exit(1);
}
}
+
//***************************************************************************************************************
-void Maligner::fillScoreMatrix(vector<vector<score_struct> >& m, vector<Sequence*> seqs, int penalty) {
+
+void Maligner::fillScoreMatrix(vector<vector<score_struct> >& ms, vector<Sequence*> seqs, int penalty) {
try{
//get matrix dimensions
//are you both gaps?
if ((!isalpha(queryAligned[0])) && (!isalpha(subjectAligned[0]))) {
- m[i][0].score = 0;
+ ms[i][0].score = 0;
+// ms[i][0].mismatches = 0;
}else if (queryAligned[0] == subjectAligned[0]) {
- m[i][0].score = matchScore;
+ ms[i][0].score = matchScore;
+// ms[i][0].mismatches = 0;
}else{
- m[i][0].score = 0;
+ ms[i][0].score = 0;
+// ms[i][0].mismatches = 1;
}
}
//leave the same
}else if (queryAligned[j] == subjectAligned[j]) {
matchMisMatchScore = matchScore;
+// ms[i][j].mismatches = ms[i][j-1].mismatches;
}else if (queryAligned[j] != subjectAligned[j]) {
matchMisMatchScore = misMatchPenalty;
+// ms[i][j].mismatches = ms[i][j-1].mismatches + 1;
}
//compute score based on previous columns scores
for (int prevIndex = 0; prevIndex < numRows; prevIndex++) { //iterate through rows
- int sumScore = matchMisMatchScore + m[prevIndex][j-1].score;
+ int sumScore = matchMisMatchScore + ms[prevIndex][j-1].score;
//you are not at yourself
if (prevIndex != i) { sumScore += penalty; }
if (sumScore < 0) { sumScore = 0; }
- if (sumScore > m[i][j].score) {
- m[i][j].score = sumScore;
- m[i][j].prev = prevIndex;
+ if (sumScore > ms[i][j].score) {
+ ms[i][j].score = sumScore;
+ ms[i][j].prev = prevIndex;
}
}
}
}
+// for(int i=0;i<numRows;i++){
+// cout << seqs[i]->getName();
+// for(int j=0;j<numCols;j++){
+// cout << '\t' << ms[i][j].mismatches;
+// }
+// cout << endl;
+// }
+// cout << endl;
+// for(int i=0;i<numRows;i++){
+// cout << seqs[i]->getName();
+// for(int j=0;j<numCols;j++){
+// cout << '\t' << ms[i][j].score;
+// }
+// cout << endl;
+// }
+// cout << endl;
+// for(int i=0;i<numRows;i++){
+// cout << seqs[i]->getName();
+// for(int j=0;j<numCols;j++){
+// cout << '\t' << ms[i][j].prev;
+// }
+// cout << endl;
+// }
+
+
}
catch(exception& e) {
- errorOut(e, "Maligner", "fillScoreMatrix");
+ m->errorOut(e, "Maligner", "fillScoreMatrix");
exit(1);
}
}
+
//***************************************************************************************************************
-vector<score_struct> Maligner::extractHighestPath(vector<vector<score_struct> > m) {
+
+vector<trace_struct> Maligner::extractHighestPath(vector<vector<score_struct> > ms) {
try {
+
//get matrix dimensions
int numCols = query->getAligned().length();
- int numRows = m.size();
+ int numRows = ms.size();
//find highest score scoring matrix
- score_struct highestStruct;
+ vector<score_struct> highestStruct;
int highestScore = 0;
for (int i = 0; i < numRows; i++) {
for (int j = 0; j < numCols; j++) {
- if (m[i][j].score > highestScore) {
- highestScore = m[i][j].score;
- highestStruct = m[i][j];
+ if (ms[i][j].score > highestScore) {
+ highestScore = ms[i][j].score;
+ highestStruct.resize(0);
+ highestStruct.push_back(ms[i][j]);
+ }
+ else if(ms[i][j].score == highestScore){
+ highestStruct.push_back(ms[i][j]);
}
}
}
-
- vector<score_struct> path;
+
+// cout << highestScore << '\t' << highestStruct.size() << endl;
- int rowIndex = highestStruct.row;
- int pos = highestStruct.col;
- int score = highestStruct.score;
+ vector<trace_struct> maxTrace;
+ double maxPercentIdenticalQueryAntiChimera = 0;
+ int maxIndex = -1;
- while (pos >= 0 && score > 0) {
- score_struct temp = m[rowIndex][pos];
- score = temp.score;
+ for(int i=0;i<highestStruct.size();i++){
- if (score > 0) { path.push_back(temp); }
+ vector<score_struct> path;
+
+ int rowIndex = highestStruct[i].row;
+ int pos = highestStruct[i].col;
+ int score = highestStruct[i].score;
+
+ while (pos >= 0 && score > 0) {
+ score_struct temp = ms[rowIndex][pos];
+ score = temp.score;
+
+ if (score > 0) { path.push_back(temp); }
+
+ rowIndex = temp.prev;
+ pos--;
+ }
+
+ reverse(path.begin(), path.end());
+
+ vector<trace_struct> trace = mapTraceRegionsToAlignment(path, refSeqs);
+
+// cout << "traces\n";
+// for(int j=0;j<trace.size();j++){
+// cout << trace[j].col << '\t' << trace[j].oldCol << '\t' << refSeqs[trace[j].row]->getName() << endl;
+// }
+
+// Need to do something with this in a bit...
+// if (trace.size() > 1) { chimera = "yes"; }
+// else { chimera = "no"; }
+
+ int traceStart = path[0].col;
+ int traceEnd = path[path.size()-1].col;
+// cout << "traceStart/End\t" << traceStart << '\t' << traceEnd << endl;
- rowIndex = temp.prev;
- pos--;
+ string queryInRange = query->getAligned();
+ queryInRange = queryInRange.substr(traceStart, (traceEnd-traceStart+1));
+// cout << "here" << endl;
+ string chimeraSeq = constructChimericSeq(trace, refSeqs);
+ string antiChimeraSeq = constructAntiChimericSeq(trace, refSeqs);
+
+ percentIdenticalQueryChimera = computePercentID(queryInRange, chimeraSeq);
+ double percentIdenticalQueryAntiChimera = computePercentID(queryInRange, antiChimeraSeq);
+// cout << i << '\t' << percentIdenticalQueryChimera << '\t' << percentIdenticalQueryAntiChimera << endl;
+
+ if(percentIdenticalQueryAntiChimera > maxPercentIdenticalQueryAntiChimera){
+ maxPercentIdenticalQueryAntiChimera = percentIdenticalQueryAntiChimera;
+ maxTrace = trace;
+ maxIndex = i;
+ }
}
-
- reverse(path.begin(), path.end());
-
- return path;
+// cout << maxPercentIdenticalQueryAntiChimera << '\t' << maxIndex << endl;
+ return maxTrace;
}
catch(exception& e) {
- errorOut(e, "Maligner", "extractHighestPath");
+ m->errorOut(e, "Maligner", "extractHighestPath");
exit(1);
}
}
+
//***************************************************************************************************************
+
vector<trace_struct> Maligner::mapTraceRegionsToAlignment(vector<score_struct> path, vector<Sequence*> seqs) {
try {
vector<trace_struct> trace;
temp.row = region_index;
trace.push_back(temp);
+// cout << endl;
+// cout << trace.size() << endl;
+// for(int i=0;i<trace.size();i++){
+// cout << seqs[trace[i].row]->getName() << endl;
+// }
+// cout << endl;
+
return trace;
}
catch(exception& e) {
- errorOut(e, "Maligner", "mapTraceRegionsToAlignment");
+ m->errorOut(e, "Maligner", "mapTraceRegionsToAlignment");
exit(1);
}
}
+
//***************************************************************************************************************
+
string Maligner::constructChimericSeq(vector<trace_struct> trace, vector<Sequence*> seqs) {
try {
string chimera = "";
for (int i = 0; i < trace.size(); i++) {
+// cout << i << '\t' << trace[i].row << '\t' << trace[i].col << '\t' << trace[i].oldCol << endl;
+
string seqAlign = seqs[trace[i].row]->getAligned();
seqAlign = seqAlign.substr(trace[i].col, (trace[i].oldCol-trace[i].col+1));
chimera += seqAlign;
return chimera;
}
catch(exception& e) {
- errorOut(e, "Maligner", "constructChimericSeq");
+ m->errorOut(e, "Maligner", "constructChimericSeq");
+ exit(1);
+ }
+}
+
+//***************************************************************************************************************
+
+string Maligner::constructAntiChimericSeq(vector<trace_struct> trace, vector<Sequence*> seqs) {
+ try {
+ string antiChimera = "";
+
+ for (int i = 0; i < trace.size(); i++) {
+// cout << i << '\t' << (trace.size() - i - 1) << '\t' << trace[i].row << '\t' << trace[i].col << '\t' << trace[i].oldCol << endl;
+
+ int oppositeIndex = trace.size() - i - 1;
+
+ string seqAlign = seqs[trace[oppositeIndex].row]->getAligned();
+ seqAlign = seqAlign.substr(trace[i].col, (trace[i].oldCol-trace[i].col+1));
+ antiChimera += seqAlign;
+ }
+
+ return antiChimera;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "Maligner", "constructChimericSeq");
exit(1);
}
}
+
//***************************************************************************************************************
float Maligner::computePercentID(string queryAlign, string chimera) {
try {
if (queryAlign.length() != chimera.length()) {
- mothurOut("Error, alignment strings are of different lengths: "); mothurOutEndLine();
- mothurOut(toString(queryAlign.length())); mothurOutEndLine(); mothurOutEndLine(); mothurOutEndLine(); mothurOutEndLine();
- mothurOut(toString(chimera.length())); mothurOutEndLine();
+ m->mothurOut("Error, alignment strings are of different lengths: "); m->mothurOutEndLine();
+ m->mothurOut(toString(queryAlign.length())); m->mothurOutEndLine(); m->mothurOutEndLine(); m->mothurOutEndLine(); m->mothurOutEndLine();
+ m->mothurOut(toString(chimera.length())); m->mothurOutEndLine();
return -1.0;
}
}
catch(exception& e) {
- errorOut(e, "Maligner", "computePercentID");
+ m->errorOut(e, "Maligner", "computePercentID");
exit(1);
}
}
try {
indexes.clear();
vector<Sequence*> refResults;
- //generate blastdb
- Database* database = new BlastDB(-2.0, -1.0, matchScore, misMatchPenalty);
- for (int i = 0; i < db.size(); i++) { database->addSequence(*db[i]); }
- database->generateDB();
- database->setNumSeqs(db.size());
-
+
//get parts of query
string queryUnAligned = q->getUnaligned();
string leftQuery = queryUnAligned.substr(0, int(queryUnAligned.length() * 0.33)); //first 1/3 of the sequence
string rightQuery = queryUnAligned.substr(int(queryUnAligned.length() * 0.66)); //last 1/3 of the sequence
- Sequence* queryLeft = new Sequence(q->getName(), leftQuery);
- Sequence* queryRight = new Sequence(q->getName(), rightQuery);
-
- vector<int> tempIndexesRight = database->findClosestMegaBlast(queryRight, num+1);
- vector<int> tempIndexesLeft = database->findClosestMegaBlast(queryLeft, num+1);
+ Sequence* queryLeft = new Sequence(q->getName()+"left", leftQuery);
+ Sequence* queryRight = new Sequence(q->getName()+"right", rightQuery);
- //if ((tempIndexesRight.size() != (num+1)) || (tempIndexesLeft.size() != (num+1))) { mothurOut("megablast returned " + toString(tempIndexesRight.size()) + " results for the right end, and " + toString(tempIndexesLeft.size()) + " for the left end. Needed " + toString(num+1) + ". Unable to porcess sequence " + q->getName()); mothurOutEndLine(); return refResults; }
+ vector<int> tempIndexesRight = databaseLeft->findClosestMegaBlast(queryRight, num+1);
+ vector<int> tempIndexesLeft = databaseLeft->findClosestMegaBlast(queryLeft, num+1);
+
+ //if ((tempIndexesRight.size() == 0) && (tempIndexesLeft.size() == 0)) { m->mothurOut("megablast returned " + toString(tempIndexesRight.size()) + " results for the right end, and " + toString(tempIndexesLeft.size()) + " for the left end. Needed " + toString(num+1) + ". Unable to process sequence " + q->getName()); m->mothurOutEndLine(); return refResults; }
vector<int> smaller;
vector<int> larger;
}
if (mergedResults.size() < numWanted) { numWanted = mergedResults.size(); }
-//cout << q->getName() << endl;
+//cout << q->getName() << " merged results size = " << mergedResults.size() << '\t' << "numwanted = " << numWanted << endl;
for (int i = 0; i < numWanted; i++) {
-//cout << db[mergedResults[i]]->getName() << endl;
+//cout << db[mergedResults[i]]->getName() << '\t' << mergedResults[i] << endl;
if (db[mergedResults[i]]->getName() != q->getName()) {
Sequence* temp = new Sequence(db[mergedResults[i]]->getName(), db[mergedResults[i]]->getAligned());
refResults.push_back(temp);
}
//cout << mergedResults[i] << endl;
}
-//cout << endl;
+//cout << "done " << q->getName() << endl;
delete queryRight;
delete queryLeft;
- delete database;
-
+
return refResults;
}
catch(exception& e) {
- errorOut(e, "Maligner", "getBlastSeqs");
+ m->errorOut(e, "Maligner", "getBlastSeqs");
exit(1);
}
}
return refResults;
}
catch(exception& e) {
- errorOut(e, "Maligner", "getBlastSeqs");
+ m->errorOut(e, "Maligner", "getKmerSeqs");
exit(1);
}
}