Examples of org.broad.igv.sam.reader.AlignmentReader

• org.broad.igv.sam.reader.AlignmentReader
  @author jrobinso

            actMaxDepth = maxDepth;
        }

        try {
            ResourceLocator loc = new ResourceLocator(path);
            AlignmentReader reader = AlignmentReaderFactory.getReader(loc);
            AlignmentTileLoader loader = new AlignmentTileLoader(reader);

            AlignmentDataManager.DownsampleOptions downsampleOptions = new AlignmentDataManager.DownsampleOptions(true, 50, actMaxDepth);

            AlignmentTileLoader.AlignmentTile tile = loader.loadTile(sequence, start, end, null, downsampleOptions, null, null, null);

     * Should be read if available, not cause error if wrong format
     */
    @Test
    public void testFlowSignalTags() throws Exception {
        String inpath = TestUtils.DATA_DIR + "sam/zf_tags.sam";
        AlignmentReader reader = AlignmentReaderFactory.getReader(new ResourceLocator(inpath));
        Iterator<Alignment> iter = reader.iterator();

        int[] expFlowStarts = new int[]{-1, 5, -1};
        int row = 0;
        while (iter.hasNext()) {
            PicardAlignment alignment = (PicardAlignment) iter.next();

    boolean contained = false;


    private AlignmentInterval getAlignmentInterval() throws Exception {
        ResourceLocator rl = new ResourceLocator(path);
        AlignmentReader samReader = AlignmentReaderFactory.getReader(rl);
        CloseableIterator<Alignment> iter = samReader.query(chr, start, end, contained);
        List<Alignment> list = new ArrayList<Alignment>();
        while(iter.hasNext()){
            list.add(iter.next());
        }
        AlignmentInterval interval = new AlignmentInterval(chr, start, end, list, null, null, null);

     * @throws Exception
     */
    @Test
    public void testIterateMergedBam() throws Exception {
        String listPath = TestUtils.DATA_DIR + "bam/test.unindexed.bam.list";
        AlignmentReader reader = AlignmentReaderFactory.getReader(new ResourceLocator(listPath), false);

        Set<String> visitedChromosomes = new HashSet();
        String lastChr = null;
        int lastStart = -1;

        Iterator<Alignment> iter = reader.iterator();
        while (iter.hasNext()) {
            Alignment a1 = iter.next();
            Alignment a2 = iter.next();
            assertEquals(a1.getReadName(), a2.getReadName());
            assertEquals(a1.getChr(), a2.getChr());

     * and inclusive-end. AlignmentIntervalLoader is 0-based and exclusive end.
     */
    public void tstQuery(String testFile, String sequence, int start, int end, boolean contained, int maxDepth) throws IOException {

        ResourceLocator loc = new ResourceLocator(testFile);
        AlignmentReader reader = AlignmentReaderFactory.getReader(loc);
        CloseableIterator<Alignment> iter = reader.query(sequence, start, end, contained);

        List<Alignment> expectedResult = new ArrayList<Alignment>();
        while (iter.hasNext()) {
            Alignment rec = iter.next();

            // the following filters are applied in the Caching reader, so we need to apply them here.
            boolean filterFailedReads = PreferenceManager.getInstance().getAsBoolean(PreferenceManager.SAM_FILTER_FAILED_READS);
            ReadGroupFilter filter = ReadGroupFilter.getFilter();
            boolean showDuplicates = PreferenceManager.getInstance().getAsBoolean(PreferenceManager.SAM_SHOW_DUPLICATES);
            int qualityThreshold = PreferenceManager.getInstance().getAsInt(PreferenceManager.SAM_QUALITY_THRESHOLD);
            if (!rec.isMapped() || (!showDuplicates && rec.isDuplicate()) ||
                    (filterFailedReads && rec.isVendorFailedRead()) ||
                    rec.getMappingQuality() < qualityThreshold ||
                    (filter != null && filter.filterAlignment(rec))) {
                continue;
            }

            expectedResult.add(rec);
            //System.out.println("name: " + rec.getReadName() + "strt: " + rec.getStart() + " end: " + rec.getEnd());
            if (contained) {
                Assert.assertTrue(rec.getStart() >= start);
            } else {
                //All we require is some overlap
                boolean overlap = rec.getStart() >= start && rec.getStart() < end;
                overlap |= (rec.getEnd() >= start) && (rec.getStart() < start);
                Assert.assertTrue(overlap);
            }
            Assert.assertEquals(sequence, rec.getChr());
        }
        reader.close();
        AlignmentDataManager manager = new AlignmentDataManager(loc, genome);

        AlignmentInterval interval = loadInterval(manager, sequence, start, end);
        List<Alignment> result = new ArrayList();

     * @param origPath       Used for error message only. Can be null
     * @throws java.io.IOException
     */
    public void checkRecordsMatch(List<PicardAlignment> origAlignments, File outFile, String origPath) throws IOException {
        //Read back in, check equality
        AlignmentReader outputReader = AlignmentReaderFactory.getReader(outFile.getAbsolutePath(), false);
        Iterator<Alignment> outputIter = outputReader.iterator();
        int index = 0;
        while (outputIter.hasNext()) {
            Alignment outputAl = outputIter.next();
            Alignment origAl = origAlignments.get(index);

 */
public class BamToBed {

    public static void convert(File inputBam, File outputBed, boolean properPairs) throws IOException {

        AlignmentReader reader = null;
        CloseableIterator<Alignment> iter = null;
        PrintWriter bedWriter = null;

        int maxInsertSize = 0;

        try {
            bedWriter = new PrintWriter(new BufferedWriter(new FileWriter(outputBed)));
            reader = AlignmentReaderFactory.getReader(inputBam.getAbsolutePath(), false);
            iter = reader.iterator();

            while (iter.hasNext()) {
                Alignment a = iter.next();
                if(passFilter(a, properPairs)) {
                    int start = a.getAlignmentStart();
                    final int insertSize = Math.abs(a.getInferredInsertSize());
                    int end = properPairs ? (start + insertSize) : a.getAlignmentEnd();
                    String name = a.getReadName();
                    String strand = properPairs ? "." : (a.isNegativeStrand() ? "-" : "+");
                    bedWriter.print(a.getChr() + "\t" + start + "\t" + end + "\t" + name + "\t" + strand);
                    if(properPairs) {
                        bedWriter.println("\t" + insertSize);
                    }
                    else {
                        bedWriter.println();
                    }

                    maxInsertSize = insertSize > maxInsertSize ? insertSize : maxInsertSize;
                }

            }
        } finally {
            if(bedWriter != null) bedWriter.close();
            if(iter != null) iter.close();
            if(reader != null) reader.close();
        }
    }

        int maxExtFactor = Math.max(extFactor, Math.max(preExtFactor, postExtFactor));

        int tolerance = (int) (windowSize * (Math.floor(maxExtFactor / windowSize) + 2));
        consumer.setSortTolerance(tolerance);

        AlignmentReader reader = null;
        CloseableIterator<Alignment> iter = null;

        String lastChr = "";
        ReadCounter counter = null;

        WigWriter wigWriter = null;
        if (wigFile != null || writeStdOut) {
            wigWriter = new WigWriter(wigFile, windowSize);
        }

        try {

            if (queryInterval == null) {
                reader = AlignmentReaderFactory.getReader(alignmentFile, false);
                iter = reader.iterator();
            } else {
                reader = AlignmentReaderFactory.getReader(alignmentFile, true);
                iter = reader.query(queryInterval.getChr(), queryInterval.getStart() - 1, queryInterval.getEnd(), false);
            }

            while (iter != null && iter.hasNext()) {
                Alignment alignment = iter.next();
                if (passFilter(alignment)) {
                    //Sort into the read strand or first-in-pair strand,
                    //depending on input flag. Note that this can
                    //be very unreliable depending on data
                    Strand strand;
                    if (firstInPair) {
                        strand = alignment.getFirstOfPairStrand();
                    } else if (secondInPair) {
                        strand = alignment.getSecondOfPairStrand();
                    } else {
                        strand = alignment.getReadStrand();
                    }
                    if (strand.equals(Strand.NONE)) {
                        //TODO move this into passFilter, or move passFilter here
                        continue;
                    }
                    boolean readNegStrand = alignment.isNegativeStrand();

                    totalCount++;

                    String alignmentChr = alignment.getChr();

                    // Close all counters with position < alignment.getStart()
                    if (alignmentChr.equals(lastChr)) {
                        if (counter != null) {
                            counter.closeBucketsBefore(alignment.getAlignmentStart() - tolerance, wigWriter);
                        }
                    } else {  // New chromosome
                        if (counter != null) {
                            counter.closeBucketsBefore(Integer.MAX_VALUE, wigWriter);
                        }
                        counter = new ReadCounter(alignmentChr);
                        lastChr = alignmentChr;
                    }

                    AlignmentBlock[] blocks = alignment.getAlignmentBlocks();

                    if (blocks != null && !pairedCoverage) {
                        for (AlignmentBlock block : blocks) {

                            if (!block.isSoftClipped()) {

                                byte[] bases = block.getBases();
                                int blockStart = block.getStart();
                                int blockEnd = block.getEnd();


                                int adjustedStart = block.getStart();
                                int adjustedEnd = block.getEnd();


                                if (preExtFactor > 0) {
                                    if (readNegStrand) {
                                        adjustedEnd = blockEnd + preExtFactor;
                                    } else {
                                        adjustedStart = Math.max(0, blockStart - preExtFactor);
                                    }
                                }

                                // If both postExtFactor and extFactor are specified, postExtFactor takes precedence
                                if (postExtFactor > 0) {
                                    if (readNegStrand) {
                                        adjustedStart = Math.max(0, blockEnd - postExtFactor);
                                    } else {
                                        adjustedEnd = blockStart + postExtFactor;
                                    }

                                } else if (extFactor > 0) {
                                    // Standard extension option -- extend read on 3' end
                                    if (readNegStrand) {
                                        adjustedStart = Math.max(0, adjustedStart - extFactor);
                                    } else {
                                        adjustedEnd += extFactor;
                                    }
                                }


                                if (queryInterval != null) {
                                    adjustedStart = Math.max(queryInterval.getStart() - 1, adjustedStart);
                                    adjustedEnd = Math.min(queryInterval.getEnd(), adjustedEnd);
                                }

                                for (int pos = adjustedStart; pos < adjustedEnd; pos++) {
                                    byte base = 0;
                                    int baseIdx = pos - blockStart;
                                    if (bases != null && baseIdx >= 0 && baseIdx < bases.length) {
                                        base = bases[baseIdx];
                                    }
                                    //int idx = pos - blockStart;
                                    //byte quality = (idx >= 0 && idx < block.qualities.length) ?
                                            //block.qualities[pos - blockStart] : (byte) 0;
                                    counter.incrementCount(pos, base, strand);
                                }
                            }
                        }
                    } else {
                        int adjustedStart = alignment.getAlignmentStart();
                        int adjustedEnd = pairedCoverage ?
                                adjustedStart + Math.abs(alignment.getInferredInsertSize()) :
                                alignment.getAlignmentEnd();

                        if (readNegStrand) {
                            adjustedStart = Math.max(0, adjustedStart - extFactor);
                        } else {
                            adjustedEnd += extFactor;
                        }

                        if (queryInterval != null) {
                            adjustedStart = Math.max(queryInterval.getStart() - 1, adjustedStart);
                            adjustedEnd = Math.min(queryInterval.getEnd(), adjustedEnd);
                        }


                        for (int pos = adjustedStart; pos < adjustedEnd; pos++) {
                            counter.incrementCount(pos, (byte) 'N', strand);
                        }
                    }

                }

            }
            consumer.setAttribute("totalCount", String.valueOf(totalCount));
            consumer.parsingComplete();

        } catch (Exception e) {
            e.printStackTrace();
        } finally {

            if (counter != null) {
                counter.closeBucketsBefore(Integer.MAX_VALUE, wigWriter);
            }
            if (iter != null) {
                iter.close();
            }
            if (reader != null) {
                reader.close();
            }
            if (wigWriter != null) {
                wigWriter.close();
            }

    private double madInsertSize;
    private static final int MAX_PAIRS = 10000;

    public static void main(String[] args) throws IOException {

        AlignmentReader reader = AlignmentReaderFactory.getReader(args[0], false);
        CloseableIterator<Alignment> iter = reader.iterator();
        PairedEndStats stats = compute(iter, .1, 99.9);
        iter.close();
        reader.close();

        System.out.println(args[0] + "\t" + stats.averageInsertSize + "\t" + stats.medianInsertSize +
                "\t" + stats.stddevInsertSize + "\t" + stats.madInsertSize);
    }

        this.minPercentileInsertSize = secondPercentileSize;
        this.maxPercentileInsertSize = maxPercentileInsertSize;
    }

    public static PairedEndStats compute(String bamFile) {
        AlignmentReader reader = null;
        try {
            reader = AlignmentReaderFactory.getReader(bamFile, false);
            final CloseableIterator<Alignment> alignmentCloseableIterator = reader.iterator();
            PairedEndStats stats = compute(alignmentCloseableIterator, .1, 99.9);
            alignmentCloseableIterator.close();
            return stats;

        } catch (IOException e) {
            log.error("Error reading sam file: " + e.getMessage(), e);
            return null;
        }
        finally {
            try {
                if (reader != null)
                    reader.close();
            } catch (IOException e) {
                log.error(e.getMessage(), e);
            }
        }
    }