#include "maligner.h"
/***********************************************************************/ //int num, int match, int misMatch, , string mode, Database* dataLeft, Database* dataRight
-Maligner::Maligner(vector<Sequence*> temp, int match, int misMatch, float div, int ms, int minCov) : db(temp), matchScore(match), misMatchPenalty(misMatch), minDivR(div), minSimilarity(ms), minCoverage(minCov) {
+Maligner::Maligner(vector<Sequence> temp, int match, int misMatch, float div, int ms, int minCov) : db(temp), matchScore(match), misMatchPenalty(misMatch), minDivR(div), minSimilarity(ms), minCoverage(minCov) {
//numWanted(num), , searchMethod(mode), databaseLeft(dataLeft), databaseRight(dataRight)
m = MothurOut::getInstance();
}
/***********************************************************************/
-string Maligner::getResults(Sequence* q, DeCalculator* decalc) {
+string Maligner::getResults(Sequence q, DeCalculator decalc) {
try {
outputResults.clear();
//make copy so trimming doesn't destroy query from calling class - remember to deallocate
- query = new Sequence(q->getName(), q->getAligned());
+ query.setName(q.getName()); query.setAligned(q.getAligned());
string chimera;
//copy refSeqs so that filter does not effect original
for(int i = 0; i < db.size(); i++) {
- Sequence* newSeq = new Sequence(db[i]->getName(), db[i]->getAligned());
+ Sequence newSeq(db[i].getName(), db[i].getAligned());
refSeqs.push_back(newSeq);
}
refSeqs = minCoverageFilter(refSeqs);
if (refSeqs.size() < 2) {
- for (int i = 0; i < refSeqs.size(); i++) { delete refSeqs[i]; }
+ //for (int i = 0; i < refSeqs.size(); i++) { delete refSeqs[i]; }
percentIdenticalQueryChimera = 0.0;
return "unknown";
}
int chimeraPenalty = computeChimeraPenalty();
-
+
//fills outputResults
chimera = chimeraMaligner(chimeraPenalty, decalc);
if (m->control_pressed) { return chimera; }
//free memory
- delete query;
+ //delete query;
- for (int i = 0; i < refSeqs.size(); i++) { delete refSeqs[i]; }
+ //for (int i = 0; i < refSeqs.size(); i++) { delete refSeqs[i]; }
return chimera;
}
}
}
/***********************************************************************/
-string Maligner::chimeraMaligner(int chimeraPenalty, DeCalculator* decalc) {
+string Maligner::chimeraMaligner(int chimeraPenalty, DeCalculator decalc) {
try {
string chimera;
-
//trims seqs to first non gap char in all seqs and last non gap char in all seqs
- spotMap = decalc->trimSeqs(query, refSeqs);
-
+ spotMap = decalc.trimSeqs(query, refSeqs);
+
//you trimmed the whole sequence, skip
- if (query->getAligned() == "") { return "no"; }
+ if (query.getAligned() == "") { return "no"; }
- vector<Sequence*> temp = refSeqs;
-
-// for(int i=0;i<refSeqs.size();i++){
-// cout << refSeqs[i]->getName() << endl;
-// }
-
+ vector<Sequence> temp = refSeqs;
temp.push_back(query);
- verticalFilter(temp);
+ temp = verticalFilter(temp);
+ query = temp[temp.size()-1];
+ for (int i = 0; i < temp.size()-1; i++) { refSeqs[i] = temp[i]; }
//for (int i = 0; i < refSeqs.size(); i++) { cout << refSeqs[i]->getName() << endl ; }//<< refSeqs[i]->getAligned() << endl
- vector< vector<score_struct> > matrix = buildScoreMatrix(query->getAligned().length(), refSeqs.size()); //builds and initializes
+ vector< vector<score_struct> > matrix = buildScoreMatrix(query.getAligned().length(), refSeqs.size()); //builds and initializes
if (m->control_pressed) { return chimera; }
if (m->control_pressed) { return chimera; }
- vector<trace_struct> trace = mapTraceRegionsToAlignment(path, refSeqs);
-
+ vector<trace_struct> trace = mapTraceRegionsToAlignment(path);
+
if (trace.size() > 1) { chimera = "yes"; }
else { chimera = "no"; return chimera; }
int traceStart = path[0].col;
int traceEnd = path[path.size()-1].col;
- string queryInRange = query->getAligned();
+ string queryInRange = query.getAligned();
queryInRange = queryInRange.substr(traceStart, (traceEnd-traceStart+1));
// cout << queryInRange << endl;
string chimeraSeq = constructChimericSeq(trace, refSeqs);
// cout << regionStart << '\t' << regionEnd << '\t' << seqIndex << endl;
results temp;
- temp.parent = refSeqs[seqIndex]->getName();
- temp.parentAligned = db[seqIndex]->getAligned();
+ temp.parent = refSeqs[seqIndex].getName();
+ temp.parentAligned = db[seqIndex].getAligned();
temp.nastRegionStart = spotMap[regionStart];
temp.nastRegionEnd = spotMap[regionEnd];
- temp.regionStart = regionStart;
- temp.regionEnd = regionEnd;
+ temp.regionStart = unalignedMap[regionStart];
+ temp.regionEnd = unalignedMap[regionEnd];
- string parentInRange = refSeqs[seqIndex]->getAligned();
+ string parentInRange = refSeqs[seqIndex].getAligned();
parentInRange = parentInRange.substr(traceStart, (traceEnd-traceStart+1));
temp.queryToParent = computePercentID(queryInRange, parentInRange);
temp.divR = (percentIdenticalQueryChimera / temp.queryToParent);
- string queryInRegion = query->getAligned();
+ string queryInRegion = query.getAligned();
queryInRegion = queryInRegion.substr(regionStart, (regionEnd-regionStart+1));
- string parentInRegion = refSeqs[seqIndex]->getAligned();
+ string parentInRegion = refSeqs[seqIndex].getAligned();
parentInRegion = parentInRegion.substr(regionStart, (regionEnd-regionStart+1));
temp.queryToParentLocal = computePercentID(queryInRegion, parentInRegion);
-// cout << query->getName() << '\t' << temp.parent << '\t' << "NAST:" << temp.nastRegionStart << '-' << temp.nastRegionEnd << " G:" << temp.queryToParent << " L:" << temp.queryToParentLocal << ", " << temp.divR << endl;
+ //cout << query->getName() << '\t' << temp.parent << '\t' << "NAST:" << temp.nastRegionStart << '-' << temp.nastRegionEnd << " G:" << temp.queryToParent << " L:" << temp.queryToParentLocal << ", " << temp.divR << endl;
outputResults.push_back(temp);
}
}
/***********************************************************************/
//removes top matches that do not have minimum coverage with query.
-vector<Sequence*> Maligner::minCoverageFilter(vector<Sequence*> ref){
+vector<Sequence> Maligner::minCoverageFilter(vector<Sequence> ref){
try {
- vector<Sequence*> newRefs;
+ vector<Sequence> newRefs;
- string queryAligned = query->getAligned();
+ string queryAligned = query.getAligned();
for (int i = 0; i < ref.size(); i++) {
- string refAligned = ref[i]->getAligned();
+ string refAligned = ref[i].getAligned();
int numBases = 0;
int numCovered = 0;
//if coverage above minimum
if (coverage > minCoverage) {
newRefs.push_back(ref[i]);
- }else {
- delete ref[i];
- }
+ }//else {
+ //delete ref[i];
+ //}
}
return newRefs;
int Maligner::computeChimeraPenalty() {
try {
- int numAllowable = ((1.0 - (1.0/minDivR)) * query->getNumBases());
+ int numAllowable = ((1.0 - (1.0/minDivR)) * query.getNumBases());
// if(numAllowable < 1){ numAllowable = 1; }
}
/***********************************************************************/
//this is a vertical filter
-void Maligner::verticalFilter(vector<Sequence*> seqs) {
+vector<Sequence> Maligner::verticalFilter(vector<Sequence> seqs) {
try {
- vector<int> gaps; gaps.resize(query->getAligned().length(), 0);
+ vector<int> gaps; gaps.resize(query.getAligned().length(), 0);
- string filterString = (string(query->getAligned().length(), '1'));
+ string filterString = (string(query.getAligned().length(), '1'));
//for each sequence
for (int i = 0; i < seqs.size(); i++) {
- string seqAligned = seqs[i]->getAligned();
+ string seqAligned = seqs[i].getAligned();
for (int j = 0; j < seqAligned.length(); j++) {
//if this spot is a gap
//zero out spot where all sequences have blanks
int numColRemoved = 0;
- for(int i = 0; i < seqs[0]->getAligned().length(); i++){
+ for(int i = 0; i < seqs[0].getAligned().length(); i++){
if(gaps[i] == seqs.size()) { filterString[i] = '0'; numColRemoved++; }
}
//for each sequence
for (int i = 0; i < seqs.size(); i++) {
- string seqAligned = seqs[i]->getAligned();
+ string seqAligned = seqs[i].getAligned();
string newAligned = "";
int count = 0;
}
}
- seqs[i]->setAligned(newAligned);
+ seqs[i].setAligned(newAligned);
}
-
+
+ string query = seqs[seqs.size()-1].getAligned();
+ int queryLength = query.length();
+
+ unalignedMap.resize(queryLength, 0);
+
+
+ for(int i=1;i<queryLength;i++){
+ if(query[i] != '.' && query[i] != '-'){
+ unalignedMap[i] = unalignedMap[i-1] + 1;
+ }
+ else{
+ unalignedMap[i] = unalignedMap[i-1];
+ }
+ }
+
spotMap = newMap;
+
+ return seqs;
}
catch(exception& e) {
m->errorOut(e, "Maligner", "verticalFilter");
//***************************************************************************************************************
-void Maligner::fillScoreMatrix(vector<vector<score_struct> >& ms, vector<Sequence*> seqs, int penalty) {
+void Maligner::fillScoreMatrix(vector<vector<score_struct> >& ms, vector<Sequence> seqs, int penalty) {
try{
//get matrix dimensions
- int numCols = query->getAligned().length();
+ int numCols = query.getAligned().length();
int numRows = seqs.size();
// cout << numRows << endl;
//initialize first col
- string queryAligned = query->getAligned();
+ string queryAligned = query.getAligned();
for (int i = 0; i < numRows; i++) {
- string subjectAligned = seqs[i]->getAligned();
+ string subjectAligned = seqs[i].getAligned();
//are you both gaps?
if ((!isalpha(queryAligned[0])) && (!isalpha(subjectAligned[0]))) {
// for (int i = 0; i < 1; i++) { //iterate through matrix rows
for (int i = 0; i < numRows; i++) { //iterate through matrix rows
- string subjectAligned = seqs[i]->getAligned();
+ string subjectAligned = seqs[i].getAligned();
int matchMisMatchScore = 0;
//are you both gaps?
try {
//get matrix dimensions
- int numCols = query->getAligned().length();
+ int numCols = query.getAligned().length();
int numRows = ms.size();
}
}
-// cout << highestScore << endl;
vector<score_struct> path;
int rowIndex = highestStruct.row;
int pos = highestStruct.col;
int score = highestStruct.score;
+
+// cout << rowIndex << '\t' << pos << '\t' << score << endl;
while (pos >= 0 && score > 0) {
score_struct temp = ms[rowIndex][pos];
}
}
//***************************************************************************************************************
-vector<trace_struct> Maligner::mapTraceRegionsToAlignment(vector<score_struct> path, vector<Sequence*> seqs) {
+vector<trace_struct> Maligner::mapTraceRegionsToAlignment(vector<score_struct> path) {
try {
vector<trace_struct> trace;
for (int i = 1; i < path.size(); i++) {
int next_region_index = path[i].row;
-// cout << i << '\t' << next_region_index << endl;
+ //cout << i << '\t' << next_region_index << endl;
if (next_region_index != region_index) {
}
}
-//***************************************************************************************************************
+***************************************************************************************************************
vector<trace_struct> Maligner::mapTraceRegionsToAlignment(vector<score_struct> path, vector<Sequence*> seqs) {
try {
*/
//***************************************************************************************************************
-string Maligner::constructChimericSeq(vector<trace_struct> trace, vector<Sequence*> seqs) {
+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();
+ string seqAlign = seqs[trace[i].row].getAligned();
seqAlign = seqAlign.substr(trace[i].col, (trace[i].oldCol-trace[i].col+1));
chimera += seqAlign;
}
//***************************************************************************************************************
-string Maligner::constructAntiChimericSeq(vector<trace_struct> trace, vector<Sequence*> seqs) {
+string Maligner::constructAntiChimericSeq(vector<trace_struct> trace, vector<Sequence> seqs) {
try {
string antiChimera = "";
int oppositeIndex = trace.size() - i - 1;
- string seqAlign = seqs[trace[oppositeIndex].row]->getAligned();
+ string seqAlign = seqs[trace[oppositeIndex].row].getAligned();
seqAlign = seqAlign.substr(trace[i].col, (trace[i].oldCol-trace[i].col+1));
antiChimera += seqAlign;
}