void MafftAddToAlignmentTask::prepare() { algoLog.info(tr("Align sequences to an existing alignment by MAFFT started")); MSAUtils::removeColumnsWithGaps(inputMsa, inputMsa->getNumRows()); tmpDirUrl = ExternalToolSupportUtils::createTmpDir("add_to_alignment", stateInfo); QString tmpAddedUrl = generateTmpFileUrl(tmpDirUrl + QDir::separator() + "XXXXXXXXXXXXXXXX_add.fa");; DocumentFormatRegistry *dfr = AppContext::getDocumentFormatRegistry(); DocumentFormat *dfd = dfr->getFormatById(BaseDocumentFormats::FASTA); Document* tempDocument = dfd->createNewLoadedDocument(IOAdapterUtils::get(BaseIOAdapters::LOCAL_FILE), GUrl(tmpAddedUrl), stateInfo); QListIterator<QString> namesIterator(settings.addedSequencesNames); int currentRowNumber = inputMsa->getNumRows(); foreach(const U2EntityRef& sequenceRef, settings.addedSequencesRefs) { uniqueIdsToNames[QString::number(currentRowNumber)] = namesIterator.next(); U2SequenceObject seqObject(QString::number(currentRowNumber), sequenceRef); GObject* cloned = seqObject.clone(tempDocument->getDbiRef(), stateInfo); CHECK_OP(stateInfo, ); cloned->setGObjectName(QString::number(currentRowNumber)); tempDocument->addObject(cloned); currentRowNumber++; } saveSequencesDocumentTask = new SaveDocumentTask(tempDocument, tempDocument->getIOAdapterFactory(), tmpAddedUrl, SaveDocFlags(SaveDoc_Roll) | SaveDoc_DestroyAfter | SaveDoc_ReduceLoggingLevel); addSubTask(saveSequencesDocumentTask); QString tmpExistingAlignmentUrl = generateTmpFileUrl(tmpDirUrl + QDir::separator() + "XXXXXXXXXXXXXXXX.fa"); saveAlignmentDocumentTask = new SaveMSA2SequencesTask(inputMsa, tmpExistingAlignmentUrl, false, BaseDocumentFormats::FASTA); addSubTask(saveAlignmentDocumentTask); }
QList<Task*> PairwiseAlignmentHirschbergTask::onSubTaskFinished(Task *subTask) { QList<Task*> res; if (hasError() || isCanceled()) { return res; } if (subTask->hasError() || subTask->isCanceled()) { return res; } if (subTask == kalignSubTask) { if (settings->inNewWindow == true) { TaskStateInfo localStateInfo; Project * currentProject = AppContext::getProject(); DocumentFormat * format = AppContext::getDocumentFormatRegistry()->getFormatById(BaseDocumentFormats::CLUSTAL_ALN); Document * alignmentDoc = NULL; QString newFileUrl = settings->resultFileName.getURLString(); changeGivenUrlIfDocumentExists(newFileUrl, currentProject); alignmentDoc = format->createNewLoadedDocument(IOAdapterUtils::get(BaseIOAdapters::LOCAL_FILE), GUrl(newFileUrl), localStateInfo); CHECK_OP(localStateInfo, res); MAlignment resultMa = kalignSubTask->resultMA; MAlignmentObject * docObject = MAlignmentImporter::createAlignment(alignmentDoc->getDbiRef(), resultMa, localStateInfo); CHECK_OP(localStateInfo, res); alignmentDoc->addObject(docObject); SaveDocFlags flags = SaveDoc_Overwrite; flags |= SaveDoc_OpenAfter; res << new SaveDocumentTask(alignmentDoc, flags); } else { //in current window U2OpStatus2Log os; DbiConnection con(settings->msaRef.dbiRef, os); CHECK_OP(os, res); QList<U2MsaRow> rows = con.dbi->getMsaDbi()->getRows(settings->msaRef.entityId, os); CHECK_OP(os, res); U2UseCommonUserModStep userModStep(settings->msaRef, os); Q_UNUSED(userModStep); SAFE_POINT_OP(os, res); for (int rowNumber = 0; rowNumber < rows.length(); ++rowNumber) { if (rows[rowNumber].sequenceId == settings->firstSequenceRef.entityId) { con.dbi->getMsaDbi()->updateGapModel(settings->msaRef.entityId, rows[rowNumber].rowId, kalignSubTask->resultMA.getRow(0).getGapModel(), os); CHECK_OP(os, res); } if (rows[rowNumber].sequenceId == settings->secondSequenceRef.entityId) { con.dbi->getMsaDbi()->updateGapModel(settings->msaRef.entityId, rows[rowNumber].rowId, kalignSubTask->resultMA.getRow(1).getGapModel(), os); CHECK_OP(os, res); } } } } return res; }
void ExportAlignmentTask::run() { DocumentFormatRegistry* r = AppContext::getDocumentFormatRegistry(); DocumentFormat* f = r->getFormatById(format); IOAdapterFactory* iof = AppContext::getIOAdapterRegistry()->getIOAdapterFactoryById(IOAdapterUtils::url2io(fileName)); resultDocument = f->createNewLoadedDocument(iof, fileName, stateInfo); CHECK_OP(stateInfo, ); MultipleSequenceAlignmentObject* obj = MultipleSequenceAlignmentImporter::createAlignment(resultDocument->getDbiRef(), ma, stateInfo); CHECK_OP(stateInfo, ); resultDocument->addObject(obj); f->storeDocument(resultDocument, stateInfo); }
SaveDocumentTask * TopHatSupportTask::createSaveTask(const QString &url, QPointer<Document> &doc, const QList<Workflow::SharedDbiDataHandler> &seqs) { DocumentFormat* docFormat = AppContext::getDocumentFormatRegistry()->getFormatById(BaseDocumentFormats::FASTQ); doc = docFormat->createNewLoadedDocument(IOAdapterUtils::get(BaseIOAdapters::LOCAL_FILE), GUrl(url), stateInfo); CHECK_OP(stateInfo, NULL); doc->setDocumentOwnsDbiResources(false); // Add all sequence objects to the document foreach (Workflow::SharedDbiDataHandler seqId, seqs) { U2SequenceObject* seqObj(Workflow::StorageUtils::getSequenceObject(settings.storage(), seqId)); if (NULL == seqObj) { stateInfo.setError(tr("An unexpected error has occurred during preparing the TopHat task!")); taskLog.trace(tr("Preparing TopHatSupportTask internal error: unable to get a sequence object!")); return NULL; } doc->addObject(seqObj); }
QList<Task*> DNASequenceGeneratorTask::onGenerateTaskFinished( ) { QList<Task *> resultTasks; SAFE_POINT( generateTask->isFinished( ) && !generateTask->getStateInfo( ).isCoR( ), "Invalid task encountered", resultTasks ); IOAdapterFactory *iof = AppContext::getIOAdapterRegistry( )->getIOAdapterFactoryById( IOAdapterUtils::url2io( cfg.getOutUrlString( ) ) ); if (cfg.saveDoc) { DocumentFormat *format = AppContext::getDocumentFormatRegistry()->getFormatById(cfg.getDocumentFormatId()); Document* doc = format->createNewLoadedDocument(iof, cfg.getOutUrlString(), stateInfo); CHECK_OP( stateInfo, resultTasks ); const QSet<QString> &supportedFormats = format->getSupportedObjectTypes( ); const bool isSequenceFormat = supportedFormats.contains( GObjectTypes::SEQUENCE ); if ( isSequenceFormat) { addSequencesToSeqDoc( doc ); } else { // consider alignment format SAFE_POINT( supportedFormats.contains( GObjectTypes::MULTIPLE_SEQUENCE_ALIGNMENT ), "Unexpected format encountered", resultTasks ); addSequencesToMsaDoc( doc ); } saveTask = new SaveDocumentTask(doc, SaveDoc_Overwrite); resultTasks << saveTask; } else { // TODO: avoid high memory consumption here const DNAAlphabet *alp = cfg.getAlphabet( ); SAFE_POINT( NULL != alp, "Generated sequence has invalid alphabet", resultTasks ); const U2DbiRef dbiRef = generateTask->getDbiRef( ); const QString baseSeqName = cfg.getSequenceName( ); QList<U2Sequence> seqs = generateTask->getResults( ); for ( int sequenceNum = 0, totalSeqCount = seqs.size( ); sequenceNum < totalSeqCount; ++sequenceNum ) { const QString seqName = ( 1 < totalSeqCount ) ? ( baseSeqName + " " + QString::number( sequenceNum + 1 ) ) : baseSeqName; DbiConnection con( dbiRef, stateInfo ); CHECK_OP( stateInfo, resultTasks ); const QByteArray seqContent = con.dbi->getSequenceDbi( )->getSequenceData( seqs[sequenceNum].id, U2_REGION_MAX, stateInfo ); results << DNASequence( seqName, seqContent, alp ); } } return resultTasks; }
void ExportMSA2SequencesTask::run() { DocumentFormatRegistry* r = AppContext::getDocumentFormatRegistry(); DocumentFormat* f = r->getFormatById(format); IOAdapterFactory* iof = AppContext::getIOAdapterRegistry()->getIOAdapterFactoryById(IOAdapterUtils::url2io(url)); resultDocument = f->createNewLoadedDocument(iof, url, stateInfo); CHECK_OP(stateInfo, ); QList<DNASequence> lst = MSAUtils::ma2seq(ma, trimAli); QSet<QString> usedNames; foreach(DNASequence s, lst) { QString name = s.getName(); if (usedNames.contains(name)) { name = TextUtils::variate(name, " ", usedNames, false, 1); s.setName(name); } U2EntityRef seqRef = U2SequenceUtils::import(stateInfo, resultDocument->getDbiRef(), s); CHECK_OP(stateInfo, ); resultDocument->addObject(new U2SequenceObject(name, seqRef)); usedNames.insert(name); }
Document * ImportAnnotationsFromCSVTask::prepareNewDocument(const QMap<QString, QList<SharedAnnotationData> > &groups) { DocumentFormat *format = AppContext::getDocumentFormatRegistry()->getFormatById(config.formatId); CHECK(NULL != format, NULL); IOAdapterId ioId = IOAdapterUtils::url2io(config.dstFile); IOAdapterFactory* iof = AppContext::getIOAdapterRegistry()->getIOAdapterFactoryById(ioId); U2OpStatus2Log os; Document *result = format->createNewLoadedDocument(iof, config.dstFile, os); CHECK_OP(os, NULL); AnnotationTableObject* ao = new AnnotationTableObject("Annotations", result->getDbiRef()); foreach (const QString &groupName, groups.keys()) { ao->addAnnotations(groups[groupName], groupName); } ao->setModified(false); result->addObject(ao); adjustRelations(ao); return result; }
void GTest_uHMMERSearch::prepare() { Document* doc = getContext<Document>(this, seqDocCtxName); if (doc == NULL) { stateInfo.setError( QString("context not found %1").arg(seqDocCtxName) ); return; } QList<GObject*> list = doc->findGObjectByType(GObjectTypes::SEQUENCE); if (list.size() == 0) { stateInfo.setError( QString("container of object with type \"%1\" is empty").arg(GObjectTypes::SEQUENCE) ); return; } GObject *obj = list.first(); if(obj==NULL){ stateInfo.setError( QString("object with type \"%1\" not found").arg(GObjectTypes::SEQUENCE) ); return; } assert(obj!=NULL); U2SequenceObject * mySequence = qobject_cast<U2SequenceObject*>(obj); if(mySequence==NULL){ stateInfo.setError( QString("error can't cast to sequence from GObject") ); return; } UHMMSearchSettings s; if (expertOptions){ s.globE = evalueCutoff; s.eValueNSeqs = number_of_seq; s.domE = domEvalueCutoff; s.domT = minScoreCutoff; } QString env_algo = env->getVar(ENV_HMMSEARCH_ALGORITHM_NAME); if( !env_algo.isEmpty() ) { if( ENV_HMMSEARCH_ALGORITHM_SSE == env_algo ) { #if !defined(HMMER_BUILD_WITH_SSE2) stateInfo.setError( QString("SSE2 was not enabled in this build") ); return; #endif s.alg = HMMSearchAlgo_SSEOptimized; } else if( ENV_HMMSEARCH_ALGORITHM_CELL == env_algo ) { #if !defined UGENE_CELL stateInfo.setError( QString("HMMER-Cell was not enabled in this build") ); return; #endif s.alg = HMMSearchAlgo_CellOptimized; } else { stateInfo.setError( QString("unknown hmmsearch algorithm is selected") ); return; } } if(customHmmSearchChunk) { s.searchChunkSize = hmmSearchChunk; } QString annotationName = "hmm_signal"; QString url = env->getVar("TEMP_DATA_DIR")+"/uhmmsearch/"+resultDocName; IOAdapterFactory* iof = AppContext::getIOAdapterRegistry()->getIOAdapterFactoryById(IOAdapterUtils::url2io(url)); DocumentFormat* df = AppContext::getDocumentFormatRegistry()->getFormatById(BaseDocumentFormats::PLAIN_GENBANK); assert(aDoc == NULL); aDoc = df->createNewLoadedDocument(iof, url, stateInfo); CHECK_OP(stateInfo, ); AnnotationTableObject *ao = new AnnotationTableObject( "Annotations", aDoc->getDbiRef( ) ); aDoc->addObject(ao); DNASequence dnaSequence = mySequence->getWholeSequence(stateInfo); CHECK_OP(stateInfo, ); searchTask = new HMMSearchToAnnotationsTask(env->getVar("COMMON_DATA_DIR")+"/"+hmmFileName, dnaSequence, ao, annotationName, "", U2FeatureTypes::MiscSignal, annotationName, s); addSubTask(searchTask); }