*/
#include "chimeraslayer.h"
+#include "chimerarealigner.h"
+#include "kmerdb.hpp"
+#include "blastdb.hpp"
//***************************************************************************************************************
-ChimeraSlayer::ChimeraSlayer(string filename, string temp) { fastafile = filename; templateFile = temp; }
+ChimeraSlayer::ChimeraSlayer(string file, string temp, bool trim, string mode, int k, int ms, int mms, int win, float div,
+int minsim, int mincov, int minbs, int minsnp, int par, int it, int inc, int numw, bool r, string blas) : Chimera() {
+ try {
+ fastafile = file;
+ templateFileName = temp; templateSeqs = readSeqs(temp);
+ searchMethod = mode;
+ kmerSize = k;
+ match = ms;
+ misMatch = mms;
+ window = win;
+ divR = div;
+ minSim = minsim;
+ minCov = mincov;
+ minBS = minbs;
+ minSNP = minsnp;
+ parents = par;
+ iters = it;
+ increment = inc;
+ numWanted = numw;
+ realign = r;
+ trimChimera = trim;
+ numNoParents = 0;
+ blastlocation = blas;
+
+ doPrep();
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "ChimeraSlayer");
+ exit(1);
+ }
+}
//***************************************************************************************************************
-
-ChimeraSlayer::~ChimeraSlayer() {
+//template=self
+ChimeraSlayer::ChimeraSlayer(string file, string temp, bool trim, map<string, int>& prior, string mode, int k, int ms, int mms, int win, float div,
+ int minsim, int mincov, int minbs, int minsnp, int par, int it, int inc, int numw, bool r, string blas) : Chimera() {
try {
- for (int i = 0; i < querySeqs.size(); i++) { delete querySeqs[i]; }
- for (int i = 0; i < templateSeqs.size(); i++) { delete templateSeqs[i]; }
+ fastafile = file; templateSeqs = readSeqs(fastafile);
+ templateFileName = temp;
+ searchMethod = mode;
+ kmerSize = k;
+ match = ms;
+ misMatch = mms;
+ window = win;
+ divR = div;
+ minSim = minsim;
+ minCov = mincov;
+ minBS = minbs;
+ minSNP = minsnp;
+ parents = par;
+ iters = it;
+ increment = inc;
+ numWanted = numw;
+ realign = r;
+ trimChimera = trim;
+ priority = prior;
+ numNoParents = 0;
+ blastlocation = blas;
+
+ createFilter(templateSeqs, 0.0); //just removed columns where all seqs have a gap
+
+ if (searchMethod == "distance") {
+ createFilter(templateSeqs, 0.0); //just removed columns where all seqs have a gap
+
+ //run filter on template copying templateSeqs into filteredTemplateSeqs
+ for (int i = 0; i < templateSeqs.size(); i++) {
+ if (m->control_pressed) { break; }
+
+ Sequence* newSeq = new Sequence(templateSeqs[i]->getName(), templateSeqs[i]->getAligned());
+ runFilter(newSeq);
+ filteredTemplateSeqs.push_back(newSeq);
+ }
+ }
}
catch(exception& e) {
- errorOut(e, "ChimeraSlayer", "~ChimeraSlayer");
+ m->errorOut(e, "ChimeraSlayer", "ChimeraSlayer");
exit(1);
}
-}
+}
//***************************************************************************************************************
-void ChimeraSlayer::print(ostream& out) {
+int ChimeraSlayer::doPrep() {
try {
- mothurOutEndLine();
- mothurOut("Only reporting sequence supported by 90% of bootstrapped results.");
- mothurOutEndLine();
-
- for (int i = 0; i < querySeqs.size(); i++) {
-
- if (chimeraFlags[i] == "yes") {
-// cout << i << endl;
- if ((chimeraResults[i][0].bsa >= 90.0) || (chimeraResults[i][0].bsb >= 90.0)) {
- mothurOut(querySeqs[i]->getName() + "\tyes"); mothurOutEndLine();
- out << querySeqs[i]->getName() << "\tyes" << endl;
- }else {
- out << querySeqs[i]->getName() << "\tyes" << endl;
- //mothurOut(querySeqs[i]->getName() + "\tno"); mothurOutEndLine();
- }
-
- printBlock(chimeraResults[i][0], out, i);
+ if (searchMethod == "distance") {
+ //read in all query seqs
+ vector<Sequence*> tempQuerySeqs = readSeqs(fastafile);
+
+ vector<Sequence*> temp = templateSeqs;
+ for (int i = 0; i < tempQuerySeqs.size(); i++) { temp.push_back(tempQuerySeqs[i]); }
+
+ createFilter(temp, 0.0); //just removed columns where all seqs have a gap
+
+ for (int i = 0; i < tempQuerySeqs.size(); i++) { delete tempQuerySeqs[i]; }
+
+ if (m->control_pressed) { return 0; }
+
+ //run filter on template copying templateSeqs into filteredTemplateSeqs
+ for (int i = 0; i < templateSeqs.size(); i++) {
+ if (m->control_pressed) { return 0; }
- out << endl;
- }else{
- out << querySeqs[i]->getName() << "\tno" << endl;
- //mothurOut(querySeqs[i]->getName() + "\tno"); mothurOutEndLine();
+ Sequence* newSeq = new Sequence(templateSeqs[i]->getName(), templateSeqs[i]->getAligned());
+ runFilter(newSeq);
+ filteredTemplateSeqs.push_back(newSeq);
}
}
+ string kmerDBNameLeft;
+ string kmerDBNameRight;
+
+ //generate the kmerdb to pass to maligner
+ if (searchMethod == "kmer") {
+ string templatePath = m->hasPath(templateFileName);
+ string rightTemplateFileName = templatePath + "right." + m->getRootName(m->getSimpleName(templateFileName));
+ databaseRight = new KmerDB(rightTemplateFileName, kmerSize);
+
+ string leftTemplateFileName = templatePath + "left." + m->getRootName(m->getSimpleName(templateFileName));
+ databaseLeft = new KmerDB(leftTemplateFileName, kmerSize);
+ #ifdef USE_MPI
+ for (int i = 0; i < templateSeqs.size(); i++) {
+
+ if (m->control_pressed) { return 0; }
+
+ string leftFrag = templateSeqs[i]->getUnaligned();
+ leftFrag = leftFrag.substr(0, int(leftFrag.length() * 0.33));
+
+ Sequence leftTemp(templateSeqs[i]->getName(), leftFrag);
+ databaseLeft->addSequence(leftTemp);
+ }
+ databaseLeft->generateDB();
+ databaseLeft->setNumSeqs(templateSeqs.size());
+
+ for (int i = 0; i < templateSeqs.size(); i++) {
+ if (m->control_pressed) { return 0; }
+
+ string rightFrag = templateSeqs[i]->getUnaligned();
+ rightFrag = rightFrag.substr(int(rightFrag.length() * 0.66));
+
+ Sequence rightTemp(templateSeqs[i]->getName(), rightFrag);
+ databaseRight->addSequence(rightTemp);
+ }
+ databaseRight->generateDB();
+ databaseRight->setNumSeqs(templateSeqs.size());
+
+ #else
+ //leftside
+ kmerDBNameLeft = leftTemplateFileName.substr(0,leftTemplateFileName.find_last_of(".")+1) + char('0'+ kmerSize) + "mer";
+ ifstream kmerFileTestLeft(kmerDBNameLeft.c_str());
+ bool needToGenerateLeft = true;
+
+ if(kmerFileTestLeft){
+ bool GoodFile = m->checkReleaseVersion(kmerFileTestLeft, m->getVersion());
+ if (GoodFile) { needToGenerateLeft = false; }
+ }
+
+ if(needToGenerateLeft){
+
+ for (int i = 0; i < templateSeqs.size(); i++) {
+
+ if (m->control_pressed) { return 0; }
+
+ string leftFrag = templateSeqs[i]->getUnaligned();
+ leftFrag = leftFrag.substr(0, int(leftFrag.length() * 0.33));
+
+ Sequence leftTemp(templateSeqs[i]->getName(), leftFrag);
+ databaseLeft->addSequence(leftTemp);
+ }
+ databaseLeft->generateDB();
+ }else {
+ databaseLeft->readKmerDB(kmerFileTestLeft);
+ }
+ kmerFileTestLeft.close();
+
+ databaseLeft->setNumSeqs(templateSeqs.size());
+
+ //rightside
+ kmerDBNameRight = rightTemplateFileName.substr(0,rightTemplateFileName.find_last_of(".")+1) + char('0'+ kmerSize) + "mer";
+ ifstream kmerFileTestRight(kmerDBNameRight.c_str());
+ bool needToGenerateRight = true;
+
+ if(kmerFileTestRight){
+ bool GoodFile = m->checkReleaseVersion(kmerFileTestRight, m->getVersion());
+ if (GoodFile) { needToGenerateRight = false; }
+ }
+
+ if(needToGenerateRight){
+
+ for (int i = 0; i < templateSeqs.size(); i++) {
+ if (m->control_pressed) { return 0; }
+
+ string rightFrag = templateSeqs[i]->getUnaligned();
+ rightFrag = rightFrag.substr(int(rightFrag.length() * 0.66));
+
+ Sequence rightTemp(templateSeqs[i]->getName(), rightFrag);
+ databaseRight->addSequence(rightTemp);
+ }
+ databaseRight->generateDB();
+
+ }else {
+ databaseRight->readKmerDB(kmerFileTestRight);
+ }
+ kmerFileTestRight.close();
+
+ databaseRight->setNumSeqs(templateSeqs.size());
+ #endif
+ }else if (searchMethod == "blast") {
+
+ //generate blastdb
+ databaseLeft = new BlastDB(m->getRootName(m->getSimpleName(fastafile)), -1.0, -1.0, 1, -3, blastlocation);
+
+ if (m->control_pressed) { return 0; }
+
+ for (int i = 0; i < templateSeqs.size(); i++) { databaseLeft->addSequence(*templateSeqs[i]); }
+ databaseLeft->generateDB();
+ databaseLeft->setNumSeqs(templateSeqs.size());
+ }
+
+ return 0;
+
}
catch(exception& e) {
- errorOut(e, "ChimeraSlayer", "print");
+ m->errorOut(e, "ChimeraSlayer", "doprep");
exit(1);
}
}
-
//***************************************************************************************************************
-int ChimeraSlayer::getChimeras() {
+vector<Sequence*> ChimeraSlayer::getTemplate(Sequence q, vector<Sequence*>& userTemplateFiltered) {
try {
- //read in query sequences and subject sequences
- mothurOut("Reading sequences and template file... "); cout.flush();
- querySeqs = readSeqs(fastafile);
- templateSeqs = readSeqs(templateFile);
- mothurOut("Done."); mothurOutEndLine();
+ //when template=self, the query file is sorted from most abundance to least abundant
+ //userTemplate grows as the query file is processed by adding sequences that are not chimeric and more abundant
+ vector<Sequence*> userTemplate;
- int numSeqs = querySeqs.size();
+ int myAbund = priority[q.getName()];
- if (unaligned) { mothurOut("Your sequences need to be aligned when you use the chimeraslayer method."); mothurOutEndLine(); return 1; }
+ for (int i = 0; i < templateSeqs.size(); i++) {
+
+ if (m->control_pressed) { return userTemplate; }
+
+ //have I reached a sequence with the same abundance as myself?
+ if (!(priority[templateSeqs[i]->getName()] > myAbund)) { break; }
+
+ //if its am not chimeric add it
+ if (chimericSeqs.count(templateSeqs[i]->getName()) == 0) {
+ userTemplate.push_back(templateSeqs[i]);
+ if (searchMethod == "distance") { userTemplateFiltered.push_back(filteredTemplateSeqs[i]); }
+ }
+ }
- chimeraResults.resize(numSeqs);
- chimeraFlags.resize(numSeqs, "no");
- spotMap.resize(numSeqs);
+ //avoids nuisance error from formatdb for making blank blast database
+ if (userTemplate.size() == 0) {
+ return userTemplate;
+ }
- //break up file if needed
- int linesPerProcess = numSeqs / processors ;
+ string kmerDBNameLeft;
+ string kmerDBNameRight;
- #if defined (__APPLE__) || (__MACH__) || (linux) || (__linux)
- //find breakup of sequences for all times we will Parallelize
- if (processors == 1) { lines.push_back(new linePair(0, numSeqs)); }
- else {
- //fill line pairs
- for (int i = 0; i < (processors-1); i++) {
- lines.push_back(new linePair((i*linesPerProcess), ((i*linesPerProcess) + linesPerProcess)));
- }
- //this is necessary to get remainder of processors / numSeqs so you don't miss any lines at the end
- int i = processors - 1;
- lines.push_back(new linePair((i*linesPerProcess), numSeqs));
+ //generate the kmerdb to pass to maligner
+ if (searchMethod == "kmer") {
+ string templatePath = m->hasPath(templateFileName);
+ string rightTemplateFileName = templatePath + "right." + m->getRootName(m->getSimpleName(templateFileName));
+ databaseRight = new KmerDB(rightTemplateFileName, kmerSize);
+
+ string leftTemplateFileName = templatePath + "left." + m->getRootName(m->getSimpleName(templateFileName));
+ databaseLeft = new KmerDB(leftTemplateFileName, kmerSize);
+#ifdef USE_MPI
+ for (int i = 0; i < userTemplate.size(); i++) {
+
+ if (m->control_pressed) { return userTemplate; }
+
+ string leftFrag = userTemplate[i]->getUnaligned();
+ leftFrag = leftFrag.substr(0, int(leftFrag.length() * 0.33));
+
+ Sequence leftTemp(userTemplate[i]->getName(), leftFrag);
+ databaseLeft->addSequence(leftTemp);
+ }
+ databaseLeft->generateDB();
+ databaseLeft->setNumSeqs(userTemplate.size());
+
+ for (int i = 0; i < userTemplate.size(); i++) {
+ if (m->control_pressed) { return userTemplate; }
+
+ string rightFrag = userTemplate[i]->getUnaligned();
+ rightFrag = rightFrag.substr(int(rightFrag.length() * 0.66));
+
+ Sequence rightTemp(userTemplate[i]->getName(), rightFrag);
+ databaseRight->addSequence(rightTemp);
+ }
+ databaseRight->generateDB();
+ databaseRight->setNumSeqs(userTemplate.size());
+
+#else
+
+
+ for (int i = 0; i < userTemplate.size(); i++) {
+
+ if (m->control_pressed) { return userTemplate; }
+
+ string leftFrag = userTemplate[i]->getUnaligned();
+ leftFrag = leftFrag.substr(0, int(leftFrag.length() * 0.33));
+
+ Sequence leftTemp(userTemplate[i]->getName(), leftFrag);
+ databaseLeft->addSequence(leftTemp);
}
- #else
- lines.push_back(new linePair(0, numSeqs));
- #endif
+ databaseLeft->generateDB();
+ databaseLeft->setNumSeqs(userTemplate.size());
+
+ for (int i = 0; i < userTemplate.size(); i++) {
+ if (m->control_pressed) { return userTemplate; }
+
+ string rightFrag = userTemplate[i]->getUnaligned();
+ rightFrag = rightFrag.substr(int(rightFrag.length() * 0.66));
+
+ Sequence rightTemp(userTemplate[i]->getName(), rightFrag);
+ databaseRight->addSequence(rightTemp);
+ }
+ databaseRight->generateDB();
+ databaseRight->setNumSeqs(userTemplate.size());
+#endif
+ }else if (searchMethod == "blast") {
+
+ //generate blastdb
+ databaseLeft = new BlastDB(m->getRootName(m->getSimpleName(templateFileName)), -1.0, -1.0, 1, -3, blastlocation);
+
+ if (m->control_pressed) { return userTemplate; }
+
+ for (int i = 0; i < userTemplate.size(); i++) { if (m->control_pressed) { return userTemplate; } databaseLeft->addSequence(*userTemplate[i]); }
+ databaseLeft->generateDB();
+ databaseLeft->setNumSeqs(userTemplate.size());
+ }
- if (seqMask != "") { decalc = new DeCalculator(); } //to use below
+ return userTemplate;
- //initialize spotMap
- for (int j = 0; j < numSeqs; j++) {
- for (int i = 0; i < querySeqs[0]->getAligned().length(); i++) {
- spotMap[j][i] = i;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "getTemplate");
+ exit(1);
+ }
+}
+
+//***************************************************************************************************************
+ChimeraSlayer::~ChimeraSlayer() {
+ if (templateFileName != "self") {
+ if (searchMethod == "kmer") { delete databaseRight; delete databaseLeft; }
+ else if (searchMethod == "blast") { delete databaseLeft; }
+ }
+}
+//***************************************************************************************************************
+void ChimeraSlayer::printHeader(ostream& out) {
+ m->mothurOutEndLine();
+ m->mothurOut("Only reporting sequence supported by " + toString(minBS) + "% of bootstrapped results.");
+ m->mothurOutEndLine();
+
+ out << "Name\tLeftParent\tRightParent\tDivQLAQRB\tPerIDQLAQRB\tBootStrapA\tDivQLBQRA\tPerIDQLBQRA\tBootStrapB\tFlag\tLeftWindow\tRightWindow\n";
+}
+//***************************************************************************************************************
+Sequence ChimeraSlayer::print(ostream& out, ostream& outAcc) {
+ try {
+ Sequence trim;
+ if (trimChimera) { trim.setName(trimQuery.getName()); trim.setAligned(trimQuery.getAligned()); }
+
+ if (chimeraFlags == "yes") {
+ string chimeraFlag = "no";
+ if( (chimeraResults[0].bsa >= minBS && chimeraResults[0].divr_qla_qrb >= divR)
+ ||
+ (chimeraResults[0].bsb >= minBS && chimeraResults[0].divr_qlb_qra >= divR) ) { chimeraFlag = "yes"; }
+
+
+ if (chimeraFlag == "yes") {
+ if ((chimeraResults[0].bsa >= minBS) || (chimeraResults[0].bsb >= minBS)) {
+ m->mothurOut(querySeq.getName() + "\tyes"); m->mothurOutEndLine();
+ outAcc << querySeq.getName() << endl;
+
+ if (templateFileName == "self") { chimericSeqs.insert(querySeq.getName()); }
+
+ if (trimChimera) {
+ int lengthLeft = chimeraResults[0].winLEnd - chimeraResults[0].winLStart;
+ int lengthRight = chimeraResults[0].winREnd - chimeraResults[0].winRStart;
+
+ string newAligned = trim.getAligned();
+
+ if (lengthLeft > lengthRight) { //trim right
+ for (int i = (chimeraResults[0].winRStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else { //trim left
+ for (int i = 0; i < chimeraResults[0].winLEnd; i++) { newAligned[i] = '.'; }
+ }
+ trim.setAligned(newAligned);
+ }
+ }
}
+
+ printBlock(chimeraResults[0], chimeraFlag, out);
+ out << endl;
+ }else {
+ out << querySeq.getName() << "\tno" << endl;
}
- //referenceSeqs, numWanted, matchScore, misMatchPenalty, divR, minSimilarity
- maligner = new Maligner(templateSeqs, numWanted, match, misMatch, 1.01, minSim);
- slayer = new Slayer(window, increment, minSim, divR, iters);
+ return trim;
- for (int i = 0; i < querySeqs.size(); i++) {
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "print");
+ exit(1);
+ }
+}
+//***************************************************************************************************************
+Sequence ChimeraSlayer::print(ostream& out, ostream& outAcc, data_results leftPiece, data_results rightPiece) {
+ try {
+ Sequence trim;
+
+ if (trimChimera) {
+ string aligned = leftPiece.trimQuery.getAligned() + rightPiece.trimQuery.getAligned();
+ trim.setName(leftPiece.trimQuery.getName()); trim.setAligned(aligned);
+ }
- string chimeraFlag = maligner->getResults(querySeqs[i]);
- //float percentIdentical = maligner->getPercentID();
- vector<results> Results = maligner->getOutput();
+ if ((leftPiece.flag == "yes") || (rightPiece.flag == "yes")) {
- cout << "Processing sequence: " << i+1 << endl;
+ string chimeraFlag = "no";
+ if (leftPiece.flag == "yes") {
+
+ if( (leftPiece.results[0].bsa >= minBS && leftPiece.results[0].divr_qla_qrb >= divR)
+ ||
+ (leftPiece.results[0].bsb >= minBS && leftPiece.results[0].divr_qlb_qra >= divR) ) { chimeraFlag = "yes"; }
+ }
- //for (int j = 0; j < Results.size(); j++) {
- //cout << "regionStart = " << Results[j].regionStart << "\tRegionEnd = " << Results[j].regionEnd << "\tName = " << Results[j].parent << "\tPerQP = " << Results[j].queryToParent << "\tLocalPerQP = " << Results[j].queryToParentLocal << "\tdivR = " << Results[j].divR << endl;
- //}
+ if (rightPiece.flag == "yes") {
+ if ( (rightPiece.results[0].bsa >= minBS && rightPiece.results[0].divr_qla_qrb >= divR)
+ ||
+ (rightPiece.results[0].bsb >= minBS && rightPiece.results[0].divr_qlb_qra >= divR) ) { chimeraFlag = "yes"; }
+ }
- //if (chimeraFlag == "yes") {
+ bool rightChimeric = false;
+ bool leftChimeric = false;
- //get sequence that were given from maligner results
- vector<SeqDist> seqs;
- map<string, float> removeDups;
- map<string, float>::iterator itDup;
- for (int j = 0; j < Results.size(); j++) {
- float dist = (Results[j].regionEnd - Results[j].regionStart + 1) * Results[j].queryToParentLocal;
- //only add if you are not a duplicate
- itDup = removeDups.find(Results[j].parent);
- if (itDup == removeDups.end()) { //this is not duplicate
- removeDups[Results[j].parent] = dist;
- }else if (dist > itDup->second) { //is this a stronger number for this parent
- removeDups[Results[j].parent] = dist;
+ if (chimeraFlag == "yes") {
+ //which peice is chimeric or are both
+ if (rightPiece.flag == "yes") { if ((rightPiece.results[0].bsa >= minBS) || (rightPiece.results[0].bsb >= minBS)) { rightChimeric = true; } }
+ if (leftPiece.flag == "yes") { if ((leftPiece.results[0].bsa >= minBS) || (leftPiece.results[0].bsb >= minBS)) { leftChimeric = true; } }
+
+ if (rightChimeric || leftChimeric) {
+ m->mothurOut(querySeq.getName() + "\tyes"); m->mothurOutEndLine();
+ outAcc << querySeq.getName() << endl;
+
+ if (templateFileName == "self") { chimericSeqs.insert(querySeq.getName()); }
+
+ if (trimChimera) {
+ string newAligned = trim.getAligned();
+
+ //right side is fine so keep that
+ if ((leftChimeric) && (!rightChimeric)) {
+ for (int i = 0; i < leftPiece.results[0].winREnd; i++) { newAligned[i] = '.'; }
+ }else if ((!leftChimeric) && (rightChimeric)) { //leftside is fine so keep that
+ for (int i = (rightPiece.results[0].winLStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else { //both sides are chimeric, keep longest piece
+
+ int lengthLeftLeft = leftPiece.results[0].winLEnd - leftPiece.results[0].winLStart;
+ int lengthLeftRight = leftPiece.results[0].winREnd - leftPiece.results[0].winRStart;
+
+ int longest = 1; // leftleft = 1, leftright = 2, rightleft = 3 rightright = 4
+ int length = lengthLeftLeft;
+ if (lengthLeftLeft < lengthLeftRight) { longest = 2; length = lengthLeftRight; }
+
+ int lengthRightLeft = rightPiece.results[0].winLEnd - rightPiece.results[0].winLStart;
+ int lengthRightRight = rightPiece.results[0].winREnd - rightPiece.results[0].winRStart;
+
+ if (lengthRightLeft > length) { longest = 3; length = lengthRightLeft; }
+ if (lengthRightRight > length) { longest = 4; }
+
+ if (longest == 1) { //leftleft
+ for (int i = (leftPiece.results[0].winRStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else if (longest == 2) { //leftright
+ //get rid of leftleft
+ for (int i = (leftPiece.results[0].winLStart-1); i < (leftPiece.results[0].winLEnd-1); i++) { newAligned[i] = '.'; }
+ //get rid of right
+ for (int i = (rightPiece.results[0].winLStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else if (longest == 3) { //rightleft
+ //get rid of left
+ for (int i = 0; i < leftPiece.results[0].winREnd; i++) { newAligned[i] = '.'; }
+ //get rid of rightright
+ for (int i = (rightPiece.results[0].winRStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else { //rightright
+ //get rid of left
+ for (int i = 0; i < leftPiece.results[0].winREnd; i++) { newAligned[i] = '.'; }
+ //get rid of rightleft
+ for (int i = (rightPiece.results[0].winLStart-1); i < (rightPiece.results[0].winLEnd-1); i++) { newAligned[i] = '.'; }
+ }
+ }
+
+ trim.setAligned(newAligned);
}
+
}
+ }
+
+ printBlock(leftPiece, rightPiece, leftChimeric, rightChimeric, chimeraFlag, out);
+ out << endl;
+ }else {
+ out << querySeq.getName() << "\tno" << endl;
+ }
+
+ return trim;
+
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "print");
+ exit(1);
+ }
+}
+
+#ifdef USE_MPI
+//***************************************************************************************************************
+Sequence ChimeraSlayer::print(MPI_File& out, MPI_File& outAcc, data_results leftPiece, data_results rightPiece) {
+ try {
+ MPI_Status status;
+ bool results = false;
+ string outAccString = "";
+ string outputString = "";
+
+ Sequence trim;
+
+ if (trimChimera) {
+ string aligned = leftPiece.trimQuery.getAligned() + rightPiece.trimQuery.getAligned();
+ trim.setName(leftPiece.trimQuery.getName()); trim.setAligned(aligned);
+ }
+
+
+ if ((leftPiece.flag == "yes") || (rightPiece.flag == "yes")) {
+
+ string chimeraFlag = "no";
+ if (leftPiece.flag == "yes") {
+
+ if( (leftPiece.results[0].bsa >= minBS && leftPiece.results[0].divr_qla_qrb >= divR)
+ ||
+ (leftPiece.results[0].bsb >= minBS && leftPiece.results[0].divr_qlb_qra >= divR) ) { chimeraFlag = "yes"; }
+ }
+
+ if (rightPiece.flag == "yes") {
+ if ( (rightPiece.results[0].bsa >= minBS && rightPiece.results[0].divr_qla_qrb >= divR)
+ ||
+ (rightPiece.results[0].bsb >= minBS && rightPiece.results[0].divr_qlb_qra >= divR) ) { chimeraFlag = "yes"; }
+ }
+
+ bool rightChimeric = false;
+ bool leftChimeric = false;
+
+ cout << endl;
+
+ if (chimeraFlag == "yes") {
+ //which peice is chimeric or are both
+ if (rightPiece.flag == "yes") { if ((rightPiece.results[0].bsa >= minBS) || (rightPiece.results[0].bsb >= minBS)) { rightChimeric = true; } }
+ if (leftPiece.flag == "yes") { if ((leftPiece.results[0].bsa >= minBS) || (leftPiece.results[0].bsb >= minBS)) { leftChimeric = true; } }
- for (itDup = removeDups.begin(); itDup != removeDups.end(); itDup++) {
- Sequence* seq = getSequence(itDup->first); //makes copy so you can filter and mask and not effect template
+ if (rightChimeric || leftChimeric) {
+ cout << querySeq.getName() << "\tyes" << endl;
+ outAccString += querySeq.getName() + "\n";
+ results = true;
- SeqDist member;
- member.seq = seq;
- member.dist = itDup->second;
+ if (templateFileName == "self") { chimericSeqs.insert(querySeq.getName()); }
- seqs.push_back(member);
- }
+ //write to accnos file
+ int length = outAccString.length();
+ char* buf2 = new char[length];
+ memcpy(buf2, outAccString.c_str(), length);
- //limit number of parents to explore - default 5
- if (Results.size() > parents) {
- //sort by distance
- sort(seqs.begin(), seqs.end(), compareSeqDist);
- //prioritize larger more similiar sequence fragments
- reverse(seqs.begin(), seqs.end());
+ MPI_File_write_shared(outAcc, buf2, length, MPI_CHAR, &status);
+ delete buf2;
- for (int k = seqs.size()-1; k > (parents-1); k--) {
- delete seqs[k].seq;
- seqs.pop_back();
+ if (trimChimera) {
+ string newAligned = trim.getAligned();
+
+ //right side is fine so keep that
+ if ((leftChimeric) && (!rightChimeric)) {
+ for (int i = 0; i < leftPiece.results[0].winREnd; i++) { newAligned[i] = '.'; }
+ }else if ((!leftChimeric) && (rightChimeric)) { //leftside is fine so keep that
+ for (int i = (rightPiece.results[0].winLStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else { //both sides are chimeric, keep longest piece
+
+ int lengthLeftLeft = leftPiece.results[0].winLEnd - leftPiece.results[0].winLStart;
+ int lengthLeftRight = leftPiece.results[0].winREnd - leftPiece.results[0].winRStart;
+
+ int longest = 1; // leftleft = 1, leftright = 2, rightleft = 3 rightright = 4
+ int length = lengthLeftLeft;
+ if (lengthLeftLeft < lengthLeftRight) { longest = 2; length = lengthLeftRight; }
+
+ int lengthRightLeft = rightPiece.results[0].winLEnd - rightPiece.results[0].winLStart;
+ int lengthRightRight = rightPiece.results[0].winREnd - rightPiece.results[0].winRStart;
+
+ if (lengthRightLeft > length) { longest = 3; length = lengthRightLeft; }
+ if (lengthRightRight > length) { longest = 4; }
+
+ if (longest == 1) { //leftleft
+ for (int i = (leftPiece.results[0].winRStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else if (longest == 2) { //leftright
+ //get rid of leftleft
+ for (int i = (leftPiece.results[0].winLStart-1); i < (leftPiece.results[0].winLEnd-1); i++) { newAligned[i] = '.'; }
+ //get rid of right
+ for (int i = (rightPiece.results[0].winLStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else if (longest == 3) { //rightleft
+ //get rid of left
+ for (int i = 0; i < leftPiece.results[0].winREnd; i++) { newAligned[i] = '.'; }
+ //get rid of rightright
+ for (int i = (rightPiece.results[0].winRStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else { //rightright
+ //get rid of left
+ for (int i = 0; i < leftPiece.results[0].winREnd; i++) { newAligned[i] = '.'; }
+ //get rid of rightleft
+ for (int i = (rightPiece.results[0].winLStart-1); i < (rightPiece.results[0].winLEnd-1); i++) { newAligned[i] = '.'; }
+ }
+ }
+
+ trim.setAligned(newAligned);
}
+
}
+ }
+
+ outputString = getBlock(leftPiece, rightPiece, leftChimeric, rightChimeric, chimeraFlag);
+ outputString += "\n";
- //put seqs into vector to send to slayer
- vector<Sequence*> seqsForSlayer;
- for (int k = 0; k < seqs.size(); k++) { seqsForSlayer.push_back(seqs[k].seq); }
-//ofstream out;
-//string name = querySeqs[i]->getName();
-//cout << name << endl;
-//name = name.substr(name.find_first_of("|")+1);
-//cout << name << endl;
-//name = name.substr(name.find_first_of("|")+1);
-//cout << name << endl;
-//name = name.substr(0, name.find_last_of("|"));
-//cout << name << endl;
-//string filename = name + ".seqsforslayer";
-//openOutputFile(filename, out);
-//for (int u = 0; u < seqsForSlayer.size(); u++) { seqsForSlayer[u]->printSequence(out); }
-//out.close();
-//filename = name + ".fasta";
-//openOutputFile(filename, out);
-//q->printSequence(out);
-//out.close();
+ //write to output file
+ int length = outputString.length();
+ char* buf = new char[length];
+ memcpy(buf, outputString.c_str(), length);
+
+ MPI_File_write_shared(out, buf, length, MPI_CHAR, &status);
+ delete buf;
+ }else {
+ outputString += querySeq.getName() + "\tno\n";
+
+ //write to output file
+ int length = outputString.length();
+ char* buf = new char[length];
+ memcpy(buf, outputString.c_str(), length);
+
+ MPI_File_write_shared(out, buf, length, MPI_CHAR, &status);
+ delete buf;
+ }
+
+
+ return trim;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "print");
+ exit(1);
+ }
+}
+//***************************************************************************************************************
+Sequence ChimeraSlayer::print(MPI_File& out, MPI_File& outAcc) {
+ try {
+ MPI_Status status;
+ bool results = false;
+ string outAccString = "";
+ string outputString = "";
+
+ Sequence trim;
+ if (trimChimera) { trim.setName(trimQuery.getName()); trim.setAligned(trimQuery.getAligned()); }
+
+ if (chimeraFlags == "yes") {
+ string chimeraFlag = "no";
+ if( (chimeraResults[0].bsa >= minBS && chimeraResults[0].divr_qla_qrb >= divR)
+ ||
+ (chimeraResults[0].bsb >= minBS && chimeraResults[0].divr_qlb_qra >= divR) ) { chimeraFlag = "yes"; }
- //mask then send to slayer...
- if (seqMask != "") {
- decalc->setMask(seqMask);
-
- //mask querys
- decalc->runMask(querySeqs[i]);
+
+ if (chimeraFlag == "yes") {
+ if ((chimeraResults[0].bsa >= minBS) || (chimeraResults[0].bsb >= minBS)) {
+ cout << querySeq.getName() << "\tyes" << endl;
+ outAccString += querySeq.getName() + "\n";
+ results = true;
- //mask parents
- for (int k = 0; k < seqsForSlayer.size(); k++) {
- decalc->runMask(seqsForSlayer[k]);
- }
+ if (templateFileName == "self") { chimericSeqs.insert(querySeq.getName()); }
+
+ //write to accnos file
+ int length = outAccString.length();
+ char* buf2 = new char[length];
+ memcpy(buf2, outAccString.c_str(), length);
- for (int i = 0; i < numSeqs; i++) {
- spotMap[i] = decalc->getMaskMap();
+ MPI_File_write_shared(outAcc, buf2, length, MPI_CHAR, &status);
+ delete buf2;
+
+ if (trimChimera) {
+ int lengthLeft = chimeraResults[0].winLEnd - chimeraResults[0].winLStart;
+ int lengthRight = chimeraResults[0].winREnd - chimeraResults[0].winRStart;
+
+ string newAligned = trim.getAligned();
+ if (lengthLeft > lengthRight) { //trim right
+ for (int i = (chimeraResults[0].winRStart-1); i < newAligned.length(); i++) { newAligned[i] = '.'; }
+ }else { //trim left
+ for (int i = 0; i < (chimeraResults[0].winLEnd-1); i++) { newAligned[i] = '.'; }
+ }
+ trim.setAligned(newAligned);
}
+ }
+ }
+
+ outputString = getBlock(chimeraResults[0], chimeraFlag);
+ outputString += "\n";
+
+ //write to output file
+ int length = outputString.length();
+ char* buf = new char[length];
+ memcpy(buf, outputString.c_str(), length);
+
+ MPI_File_write_shared(out, buf, length, MPI_CHAR, &status);
+ delete buf;
+
+ }else {
+ outputString += querySeq.getName() + "\tno\n";
+
+ //write to output file
+ int length = outputString.length();
+ char* buf = new char[length];
+ memcpy(buf, outputString.c_str(), length);
+
+ MPI_File_write_shared(out, buf, length, MPI_CHAR, &status);
+ delete buf;
+ }
+
+ return trim;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "print");
+ exit(1);
+ }
+}
+#endif
+
+//***************************************************************************************************************
+int ChimeraSlayer::getChimeras(Sequence* query) {
+ try {
+
+ trimQuery.setName(query->getName()); trimQuery.setAligned(query->getAligned());
+ printResults.trimQuery = trimQuery;
+
+ chimeraFlags = "no";
+ printResults.flag = "no";
+
+ querySeq = *query;
+
+ //you must create a template
+ vector<Sequence*> thisTemplate;
+ vector<Sequence*> thisFilteredTemplate;
+ if (templateFileName != "self") { thisTemplate = templateSeqs; thisFilteredTemplate = filteredTemplateSeqs; }
+ else { thisTemplate = getTemplate(*query, thisFilteredTemplate); } //fills this template and creates the databases
+
+ if (m->control_pressed) { return 0; }
+ if (thisTemplate.size() == 0) { return 0; } //not chimeric
+
+ //moved this out of maligner - 4/29/11
+ vector<Sequence> refSeqs = getRefSeqs(*query, thisTemplate, thisFilteredTemplate);
+
+ Maligner maligner(refSeqs, match, misMatch, divR, minSim, minCov);
+ Slayer slayer(window, increment, minSim, divR, iters, minSNP, minBS);
+
+ if (templateFileName == "self") {
+ if (searchMethod == "kmer") { delete databaseRight; delete databaseLeft; }
+ else if (searchMethod == "blast") { delete databaseLeft; }
+ }
+
+ if (m->control_pressed) { return 0; }
+
+ string chimeraFlag = maligner.getResults(*query, decalc);
+ if (m->control_pressed) { return 0; }
+
+ vector<results> Results = maligner.getOutput();
+
+ //for (int i = 0; i < refSeqs.size(); i++) { delete refSeqs[i]; }
+
+ if (chimeraFlag == "yes") {
+
+ if (realign) {
+ vector<string> parents;
+ for (int i = 0; i < Results.size(); i++) {
+ parents.push_back(Results[i].parentAligned);
}
- //send to slayer
- chimeraFlags[i] = slayer->getResults(querySeqs[i], seqsForSlayer);
- chimeraResults[i] = slayer->getOutput();
+ ChimeraReAligner realigner;
+ realigner.reAlign(query, parents);
+
+ }
- //free memory
- for (int k = 0; k < seqs.size(); k++) { delete seqs[k].seq; }
- //}
+// cout << query->getAligned() << endl;
+ //get sequence that were given from maligner results
+ vector<SeqCompare> seqs;
+ map<string, float> removeDups;
+ map<string, float>::iterator itDup;
+ map<string, string> parentNameSeq;
+ map<string, string>::iterator itSeq;
+ for (int j = 0; j < Results.size(); j++) {
+
+ float dist = (Results[j].regionEnd - Results[j].regionStart + 1) * Results[j].queryToParentLocal;
+ //only add if you are not a duplicate
+// cout << Results[j].parent << '\t' << Results[j].regionEnd << '\t' << Results[j].regionStart << '\t' << Results[j].regionEnd - Results[j].regionStart +1 << '\t' << Results[j].queryToParentLocal << '\t' << dist << endl;
+
+
+ if(Results[j].queryToParentLocal >= 90){ //local match has to be over 90% similarity
+
+ itDup = removeDups.find(Results[j].parent);
+ if (itDup == removeDups.end()) { //this is not duplicate
+ removeDups[Results[j].parent] = dist;
+ parentNameSeq[Results[j].parent] = Results[j].parentAligned;
+ }else if (dist > itDup->second) { //is this a stronger number for this parent
+ removeDups[Results[j].parent] = dist;
+ parentNameSeq[Results[j].parent] = Results[j].parentAligned;
+ }
+
+ }
+
+ }
+
+ for (itDup = removeDups.begin(); itDup != removeDups.end(); itDup++) {
+ itSeq = parentNameSeq.find(itDup->first);
+ Sequence seq(itDup->first, itSeq->second);
+
+ SeqCompare member;
+ member.seq = seq;
+ member.dist = itDup->second;
+ seqs.push_back(member);
+ }
- }
- //free memory
- for (int i = 0; i < lines.size(); i++) { delete lines[i]; }
+ //limit number of parents to explore - default 3
+ if (Results.size() > parents) {
+ //sort by distance
+ sort(seqs.begin(), seqs.end(), compareSeqCompare);
+ //prioritize larger more similiar sequence fragments
+ reverse(seqs.begin(), seqs.end());
+
+ //for (int k = seqs.size()-1; k > (parents-1); k--) {
+ // delete seqs[k].seq;
+ //seqs.pop_back();
+ //}
+ }
- if (seqMask != "") {
- delete decalc;
+ //put seqs into vector to send to slayer
+
+// cout << query->getAligned() << endl;
+ vector<Sequence> seqsForSlayer;
+ for (int k = 0; k < seqs.size(); k++) {
+// cout << seqs[k].seq->getAligned() << endl;
+ seqsForSlayer.push_back(seqs[k].seq);
+// cout << seqs[k].seq->getName() << endl;
+ }
+
+ if (m->control_pressed) { return 0; }
+
+ //send to slayer
+ chimeraFlags = slayer.getResults(*query, seqsForSlayer);
+ if (m->control_pressed) { return 0; }
+ chimeraResults = slayer.getOutput();
+
+ printResults.flag = chimeraFlags;
+ printResults.results = chimeraResults;
+
+ //free memory
+ //for (int k = 0; k < seqs.size(); k++) { delete seqs[k].seq; }
}
-
+ //cout << endl << endl;
return 0;
}
catch(exception& e) {
- errorOut(e, "ChimeraSlayer", "getChimeras");
+ m->errorOut(e, "ChimeraSlayer", "getChimeras");
exit(1);
}
}
//***************************************************************************************************************
-Sequence* ChimeraSlayer::getSequence(string name) {
- try{
- Sequence* temp;
+void ChimeraSlayer::printBlock(data_struct data, string flag, ostream& out){
+ try {
+ out << querySeq.getName() << '\t';
+ out << data.parentA.getName() << "\t" << data.parentB.getName() << '\t';
+
+ out << data.divr_qla_qrb << '\t' << data.qla_qrb << '\t' << data.bsa << '\t';
+ out << data.divr_qlb_qra << '\t' << data.qlb_qra << '\t' << data.bsb << '\t';
- //look through templateSeqs til you find it
- int spot = -1;
- for (int i = 0; i < templateSeqs.size(); i++) {
- if (name == templateSeqs[i]->getName()) {
- spot = i;
- break;
+ out << flag << '\t' << data.winLStart << "-" << data.winLEnd << '\t' << data.winRStart << "-" << data.winREnd << '\t';
+
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "printBlock");
+ exit(1);
+ }
+}
+//***************************************************************************************************************
+void ChimeraSlayer::printBlock(data_results leftdata, data_results rightdata, bool leftChimeric, bool rightChimeric, string flag, ostream& out){
+ try {
+
+ if ((leftChimeric) && (!rightChimeric)) { //print left
+ out << querySeq.getName() << '\t';
+ out << leftdata.results[0].parentA.getName() << "\t" << leftdata.results[0].parentB.getName() << '\t';
+
+ out << leftdata.results[0].divr_qla_qrb << '\t' << leftdata.results[0].qla_qrb << '\t' << leftdata.results[0].bsa << '\t';
+ out << leftdata.results[0].divr_qlb_qra << '\t' << leftdata.results[0].qlb_qra << '\t' << leftdata.results[0].bsb << '\t';
+
+ out << flag << '\t' << leftdata.results[0].winLStart << "-" << leftdata.results[0].winLEnd << '\t' << leftdata.results[0].winRStart << "-" << leftdata.results[0].winREnd << '\t';
+
+ }else if ((!leftChimeric) && (rightChimeric)) { //print right
+ out << querySeq.getName() << '\t';
+ out << rightdata.results[0].parentA.getName() << "\t" << rightdata.results[0].parentB.getName() << '\t';
+
+ out << rightdata.results[0].divr_qla_qrb << '\t' << rightdata.results[0].qla_qrb << '\t' << rightdata.results[0].bsa << '\t';
+ out << rightdata.results[0].divr_qlb_qra << '\t' << rightdata.results[0].qlb_qra << '\t' << rightdata.results[0].bsb << '\t';
+
+ out << flag << '\t' << rightdata.results[0].winLStart << "-" << rightdata.results[0].winLEnd << '\t' << rightdata.results[0].winRStart << "-" << rightdata.results[0].winREnd << '\t';
+
+ }else { //print both results
+ if (leftdata.flag == "yes") {
+ out << querySeq.getName() + "_LEFT" << '\t';
+ out << leftdata.results[0].parentA.getName() << "\t" << leftdata.results[0].parentB.getName() << '\t';
+
+ out << leftdata.results[0].divr_qla_qrb << '\t' << leftdata.results[0].qla_qrb << '\t' << leftdata.results[0].bsa << '\t';
+ out << leftdata.results[0].divr_qlb_qra << '\t' << leftdata.results[0].qlb_qra << '\t' << leftdata.results[0].bsb << '\t';
+
+ out << flag << '\t' << leftdata.results[0].winLStart << "-" << leftdata.results[0].winLEnd << '\t' << leftdata.results[0].winRStart << "-" << leftdata.results[0].winREnd << '\t';
+ }
+
+ if (rightdata.flag == "yes") {
+ if (leftdata.flag == "yes") { out << endl; }
+
+ out << querySeq.getName() + "_RIGHT"<< '\t';
+ out << rightdata.results[0].parentA.getName() << "\t" << rightdata.results[0].parentB.getName() << '\t';
+
+ out << rightdata.results[0].divr_qla_qrb << '\t' << rightdata.results[0].qla_qrb << '\t' << rightdata.results[0].bsa << '\t';
+ out << rightdata.results[0].divr_qlb_qra << '\t' << rightdata.results[0].qlb_qra << '\t' << rightdata.results[0].bsb << '\t';
+
+ out << flag << '\t' << rightdata.results[0].winLStart << "-" << rightdata.results[0].winLEnd << '\t' << rightdata.results[0].winRStart << "-" << rightdata.results[0].winREnd << '\t';
+
+ }
+ }
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "printBlock");
+ exit(1);
+ }
+}
+//***************************************************************************************************************
+string ChimeraSlayer::getBlock(data_results leftdata, data_results rightdata, bool leftChimeric, bool rightChimeric, string flag){
+ try {
+
+ string out = "";
+
+ if ((leftChimeric) && (!rightChimeric)) { //get left
+ out += querySeq.getName() + "\t";
+ out += leftdata.results[0].parentA.getName() + "\t" + leftdata.results[0].parentB.getName() + "\t";
+
+ out += toString(leftdata.results[0].divr_qla_qrb) + "\t" + toString(leftdata.results[0].qla_qrb) + "\t" + toString(leftdata.results[0].bsa) + "\t";
+ out += toString(leftdata.results[0].divr_qlb_qra) + "\t" + toString(leftdata.results[0].qlb_qra) + "\t" + toString(leftdata.results[0].bsb) + "\t";
+
+ out += flag + "\t" + toString(leftdata.results[0].winLStart) + "-" + toString(leftdata.results[0].winLEnd) + "\t" + toString(leftdata.results[0].winRStart) + "-" + toString(leftdata.results[0].winREnd) + "\t";
+
+ }else if ((!leftChimeric) && (rightChimeric)) { //print right
+ out += querySeq.getName() + "\t";
+ out += rightdata.results[0].parentA.getName() + "\t" + rightdata.results[0].parentB.getName() + "\t";
+
+ out += toString(rightdata.results[0].divr_qla_qrb) + "\t" + toString(rightdata.results[0].qla_qrb) + "\t" + toString(rightdata.results[0].bsa) + "\t";
+ out += toString(rightdata.results[0].divr_qlb_qra) + "\t" + toString(rightdata.results[0].qlb_qra) + "\t" + toString(rightdata.results[0].bsb) + "\t";
+
+ out += flag + "\t" + toString(rightdata.results[0].winLStart) + "-" + toString(rightdata.results[0].winLEnd) + "\t" + toString(rightdata.results[0].winRStart) + "-" + toString(rightdata.results[0].winREnd) + "\t";
+
+ }else { //print both results
+
+ if (leftdata.flag == "yes") {
+ out += querySeq.getName() + "_LEFT\t";
+ out += leftdata.results[0].parentA.getName() + "\t" + leftdata.results[0].parentB.getName() + "\t";
+
+ out += toString(leftdata.results[0].divr_qla_qrb) + "\t" + toString(leftdata.results[0].qla_qrb) + "\t" + toString(leftdata.results[0].bsa) + "\t";
+ out += toString(leftdata.results[0].divr_qlb_qra) + "\t" + toString(leftdata.results[0].qlb_qra) + "\t" + toString(leftdata.results[0].bsb) + "\t";
+
+ out += flag + "\t" + toString(leftdata.results[0].winLStart) + "-" + toString(leftdata.results[0].winLEnd) + "\t" + toString(leftdata.results[0].winRStart) + "-" + toString(leftdata.results[0].winREnd) + "\t";
+ }
+
+ if (rightdata.flag == "yes") {
+ if (leftdata.flag == "yes") { out += "\n"; }
+ out += querySeq.getName() + "_RIGHT\t";
+ out += rightdata.results[0].parentA.getName() + "\t" + rightdata.results[0].parentB.getName() + "\t";
+
+ out += toString(rightdata.results[0].divr_qla_qrb) + "\t" + toString(rightdata.results[0].qla_qrb) + "\t" + toString(rightdata.results[0].bsa) + "\t";
+ out += toString(rightdata.results[0].divr_qlb_qra) + "\t" + toString(rightdata.results[0].qlb_qra) + "\t" + toString(rightdata.results[0].bsb) + "\t";
+
+ out += flag + "\t" + toString(rightdata.results[0].winLStart) + "-" + toString(rightdata.results[0].winLEnd) + "\t" + toString(rightdata.results[0].winRStart) + "-" + toString(rightdata.results[0].winREnd) + "\t";
}
}
- if(spot == -1) { mothurOut("Error: Could not find sequence in chimeraSlayer."); mothurOutEndLine(); return NULL; }
+ return out;
+
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "getBlock");
+ exit(1);
+ }
+}
+//***************************************************************************************************************
+string ChimeraSlayer::getBlock(data_struct data, string flag){
+ try {
+
+ string outputString = "";
+
+ outputString += querySeq.getName() + "\t";
+ outputString += data.parentA.getName() + "\t" + data.parentB.getName() + "\t";
+
+ outputString += toString(data.divr_qla_qrb) + "\t" + toString(data.qla_qrb) + "\t" + toString(data.bsa) + "\t";
+ outputString += toString(data.divr_qlb_qra) + "\t" + toString(data.qlb_qra) + "\t" + toString(data.bsb) + "\t";
- temp = new Sequence(templateSeqs[spot]->getName(), templateSeqs[spot]->getAligned());
+ outputString += flag + "\t" + toString(data.winLStart) + "-" + toString(data.winLEnd) + "\t" + toString(data.winRStart) + "-" + toString(data.winREnd) + "\t";
- return temp;
+ return outputString;
}
catch(exception& e) {
- errorOut(e, "ChimeraSlayer", "getSequence");
+ m->errorOut(e, "ChimeraSlayer", "getBlock");
exit(1);
}
}
//***************************************************************************************************************
-void ChimeraSlayer::printBlock(data_struct data, ostream& out, int i){
+vector<Sequence> ChimeraSlayer::getRefSeqs(Sequence q, vector<Sequence*>& thisTemplate, vector<Sequence*>& thisFilteredTemplate){
try {
- out << "parentA: " << data.parentA.getName() << " parentB: " << data.parentB.getName() << endl;
- out << "Left Window: " << spotMap[i][data.winLStart] << " " << spotMap[i][data.winLEnd] << endl;
- out << "Right Window: " << spotMap[i][data.winRStart] << " " << spotMap[i][data.winREnd] << endl;
+ vector<Sequence> refSeqs;
- out << "Divergence of Query to Leftside ParentA and Rightside ParentB: " << data.divr_qla_qrb << '\t' << "Bootstrap: " << data.bsa << endl;
- out << "Divergence of Query to Rightside ParentA and Leftside ParentB: " << data.divr_qlb_qra << '\t' << "Bootstrap: " << data.bsb << endl;
+ if (searchMethod == "distance") {
+ //find closest seqs to query in template - returns copies of seqs so trim does not destroy - remember to deallocate
+ Sequence* newSeq = new Sequence(q.getName(), q.getAligned());
+ runFilter(newSeq);
+ refSeqs = decalc.findClosest(*newSeq, thisTemplate, thisFilteredTemplate, numWanted, minSim);
+ delete newSeq;
+ }else if (searchMethod == "blast") {
+ refSeqs = getBlastSeqs(q, thisTemplate, numWanted); //fills indexes
+ }else if (searchMethod == "kmer") {
+ refSeqs = getKmerSeqs(q, thisTemplate, numWanted); //fills indexes
+ }else { m->mothurOut("not valid search."); exit(1); } //should never get here
- out << "Similarity of parents: " << data.ab << endl;
- out << "Similarity of query to parentA: " << data.qa << endl;
- out << "Similarity of query to parentB: " << data.qb << endl;
+ return refSeqs;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "getRefSeqs");
+ exit(1);
+ }
+}
+//***************************************************************************************************************/
+vector<Sequence> ChimeraSlayer::getBlastSeqs(Sequence q, vector<Sequence*>& db, int num) {
+ try {
- //out << "Per_id(QL,A): " << data.qla << endl;
- //out << "Per_id(QL,B): " << data.qlb << endl;
- //out << "Per_id(QR,A): " << data.qra << endl;
- //out << "Per_id(QR,B): " << data.qrb << endl;
+ vector<Sequence> refResults;
+
+ //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
+//cout << "whole length = " << queryUnAligned.length() << '\t' << "left length = " << leftQuery.length() << '\t' << "right length = "<< rightQuery.length() << endl;
+ Sequence* queryLeft = new Sequence(q.getName(), leftQuery);
+ Sequence* queryRight = new Sequence(q.getName(), rightQuery);
+
+ vector<int> tempIndexesLeft = databaseLeft->findClosestMegaBlast(queryLeft, num+1, minSim);
+ vector<int> tempIndexesRight = databaseLeft->findClosestMegaBlast(queryRight, num+1, minSim);
+
+
+ //cout << q->getName() << '\t' << leftQuery << '\t' << "leftMatches = " << tempIndexesLeft.size() << '\t' << rightQuery << " rightMatches = " << tempIndexesRight.size() << endl;
+// vector<int> smaller;
+// vector<int> larger;
+//
+// if (tempIndexesRight.size() < tempIndexesLeft.size()) { smaller = tempIndexesRight; larger = tempIndexesLeft; }
+// else { smaller = tempIndexesLeft; larger = tempIndexesRight; }
+
+ //merge results
+ map<int, int> seen;
+ map<int, int>::iterator it;
+ vector<int> mergedResults;
+
+ int index = 0;
+// for (int i = 0; i < smaller.size(); i++) {
+ while(index < tempIndexesLeft.size() && index < tempIndexesRight.size()){
+
+ if (m->control_pressed) { delete queryRight; delete queryLeft; return refResults; }
+
+ //add left if you havent already
+ it = seen.find(tempIndexesLeft[index]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesLeft[index]);
+ seen[tempIndexesLeft[index]] = tempIndexesLeft[index];
+ }
+
+ //add right if you havent already
+ it = seen.find(tempIndexesRight[index]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesRight[index]);
+ seen[tempIndexesRight[index]] = tempIndexesRight[index];
+ }
+ index++;
+ }
- out << "DeltaL: " << (data.qla - data.qlb) << endl;
- out << "DeltaR: " << (data.qra - data.qrb) << endl;
+ for (int i = index; i < tempIndexesLeft.size(); i++) {
+ if (m->control_pressed) { delete queryRight; delete queryLeft; return refResults; }
+
+ //add right if you havent already
+ it = seen.find(tempIndexesLeft[i]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesLeft[i]);
+ seen[tempIndexesLeft[i]] = tempIndexesLeft[i];
+ }
+ }
+
+ for (int i = index; i < tempIndexesRight.size(); i++) {
+ if (m->control_pressed) { delete queryRight; delete queryLeft; return refResults; }
+
+ //add right if you havent already
+ it = seen.find(tempIndexesRight[i]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesRight[i]);
+ seen[tempIndexesRight[i]] = tempIndexesRight[i];
+ }
+ }
+ //string qname = q->getName().substr(0, q->getName().find_last_of('_'));
+ //cout << qname << endl;
+
+ if (mergedResults.size() == 0) { numNoParents++; }
+
+ for (int i = 0; i < mergedResults.size(); i++) {
+ //cout << q->getName() << mergedResults[i] << '\t' << db[mergedResults[i]]->getName() << endl;
+ if (db[mergedResults[i]]->getName() != q.getName()) {
+ Sequence temp(db[mergedResults[i]]->getName(), db[mergedResults[i]]->getAligned());
+ refResults.push_back(temp);
+ }
+ }
+ //cout << endl << endl;
+ delete queryRight;
+ delete queryLeft;
+
+ return refResults;
}
catch(exception& e) {
- errorOut(e, "ChimeraSlayer", "printBlock");
+ m->errorOut(e, "ChimeraSlayer", "getBlastSeqs");
exit(1);
}
}
//***************************************************************************************************************
+vector<Sequence> ChimeraSlayer::getKmerSeqs(Sequence q, vector<Sequence*>& db, int num) {
+ try {
+ vector<Sequence> refResults;
+
+ //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> tempIndexesLeft = databaseLeft->findClosestSequences(queryLeft, num);
+ vector<int> tempIndexesRight = databaseRight->findClosestSequences(queryRight, num);
+
+ //merge results
+ map<int, int> seen;
+ map<int, int>::iterator it;
+ vector<int> mergedResults;
+
+ int index = 0;
+ // for (int i = 0; i < smaller.size(); i++) {
+ while(index < tempIndexesLeft.size() && index < tempIndexesRight.size()){
+
+ if (m->control_pressed) { delete queryRight; delete queryLeft; return refResults; }
+
+ //add left if you havent already
+ it = seen.find(tempIndexesLeft[index]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesLeft[index]);
+ seen[tempIndexesLeft[index]] = tempIndexesLeft[index];
+ }
+
+ //add right if you havent already
+ it = seen.find(tempIndexesRight[index]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesRight[index]);
+ seen[tempIndexesRight[index]] = tempIndexesRight[index];
+ }
+ index++;
+ }
+
+
+ for (int i = index; i < tempIndexesLeft.size(); i++) {
+ if (m->control_pressed) { delete queryRight; delete queryLeft; return refResults; }
+
+ //add right if you havent already
+ it = seen.find(tempIndexesLeft[i]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesLeft[i]);
+ seen[tempIndexesLeft[i]] = tempIndexesLeft[i];
+ }
+ }
+
+ for (int i = index; i < tempIndexesRight.size(); i++) {
+ if (m->control_pressed) { delete queryRight; delete queryLeft; return refResults; }
+
+ //add right if you havent already
+ it = seen.find(tempIndexesRight[i]);
+ if (it == seen.end()) {
+ mergedResults.push_back(tempIndexesRight[i]);
+ seen[tempIndexesRight[i]] = tempIndexesRight[i];
+ }
+ }
+
+ for (int i = 0; i < mergedResults.size(); i++) {
+ //cout << mergedResults[i] << '\t' << db[mergedResults[i]]->getName() << endl;
+ if (db[mergedResults[i]]->getName() != q.getName()) {
+ Sequence temp(db[mergedResults[i]]->getName(), db[mergedResults[i]]->getAligned());
+ refResults.push_back(temp);
+
+ }
+ }
+
+ //cout << endl;
+ delete queryRight;
+ delete queryLeft;
+
+ return refResults;
+ }
+ catch(exception& e) {
+ m->errorOut(e, "ChimeraSlayer", "getKmerSeqs");
+ exit(1);
+ }
+}
+//***************************************************************************************************************
+