public int hashCode() { int[] lengths = new int[coordinate.length]; lengths[0] = rows[getSeries()]; lengths[1] = cols[getSeries()]; for (String dim : dimensionOrdering.keySet()) { int index = dimensionOrdering.get(dim) + 2; if (dim.equals("Z")) { lengths[index] = getSizeZ(); } else if (dim.equals("C")) { lengths[index] = getEffectiveSizeC(); } else if (dim.equals("T")) { lengths[index] = getSizeT(); } } for (int i = 0; i < lengths.length; i++) { if (lengths[i] == 0) { lengths[i] = 1; } } return FormatTools.positionToRaster(lengths, coordinate); }
/** @see loci.formats.IFormatReader#openBytes(int, byte[], int, int, int, int) */ public byte[] openBytes(int no, byte[] buf, int x, int y, int w, int h) throws FormatException, IOException { if (getSeriesCount() == 1) return super.openBytes(no, buf, x, y, w, h); int[] lengths = new int[] { getSizeZ(), getEffectiveSizeC(), fieldColumnCount, fieldRowCount, wellCount, getSizeT() }; int[] zct = getZCTCoords(no); Well well = getWell(getSeries()); int[] position = new int[] {zct[0], zct[1], well.fieldCol, well.fieldRow, well.well, zct[2]}; int fileIndex = FormatTools.positionToRaster(lengths, position); RandomAccessInputStream s = null; if (fileIndex < files.length) { s = new RandomAccessInputStream(files[fileIndex]); } else { s = new RandomAccessInputStream(files[0]); } TiffParser parser = new TiffParser(s); IFD ifd = files.length == 1 ? ifds.get(getSeries() * getImageCount() + no) : parser.getFirstIFD(); parser.getSamples(ifd, buf, x, y, w, h); s.close(); return buf; }
private int getSeriesIndex(int fieldRow, int fieldColumn, int well) { return FormatTools.positionToRaster( new int[] {fieldColumnCount, fieldRowCount, wellCount}, new int[] {fieldColumn, fieldRow, well}); }
/* @see loci.formats.FormatReader#initFile(String) */ protected void initFile(String id) throws FormatException, IOException { super.initFile(id); Vector<String> uniqueChannels = new Vector<String>(); Vector<Double> uniqueZs = new Vector<Double>(); Vector<Double> stageX = new Vector<Double>(); Vector<Double> stageY = new Vector<Double>(); String filename = id.substring(id.lastIndexOf(File.separator) + 1); filename = filename.substring(0, filename.indexOf(".")); boolean integerFilename = true; try { Integer.parseInt(filename); } catch (NumberFormatException e) { integerFilename = false; } if (integerFilename && ifds.size() == 1 && ifds.get(0).getIFDIntValue(IFD.NEW_SUBFILE_TYPE) == 2) { // look for other files in the dataset findTIFFs(); String stageLabel = null; for (String tiff : files) { MetamorphHandler handler = new MetamorphHandler(); parseFile(tiff, handler); String label = handler.getStageLabel(); if (stageLabel == null) { stageLabel = label; } else if (!label.equals(stageLabel)) { break; } if (!uniqueChannels.contains(handler.getChannelName())) { uniqueChannels.add(handler.getChannelName()); } Vector<Double> zPositions = handler.getZPositions(); Double pos = Math.rint(zPositions.get(0)); if (!uniqueZs.contains(pos)) { uniqueZs.add(pos); } } MetamorphHandler handler = new MetamorphHandler(); parseFile(files[files.length - 1], handler); String lastStageLabel = handler.getStageLabel(); int lastField = getField(lastStageLabel); int lastWellRow = getWellRow(lastStageLabel); int lastWellColumn = getWellColumn(lastStageLabel); int field = getField(stageLabel); int fieldRow = getWellRow(stageLabel); int fieldColumn = getWellColumn(stageLabel); wellCount = lastField - field + 1; fieldRowCount = lastWellRow - fieldRow + 1; fieldColumnCount = lastWellColumn - fieldColumn + 1; core[0].sizeC = uniqueChannels.size(); core[0].sizeZ = uniqueZs.size(); } else { files = new String[] {id}; wellCount = 1; fieldRowCount = 1; fieldColumnCount = 1; core[0].sizeC = 0; } // parse XML comment MetamorphHandler handler = new MetamorphHandler(getGlobalMetadata()); Vector<Double> xPositions = new Vector<Double>(); Vector<Double> yPositions = new Vector<Double>(); for (IFD ifd : ifds) { String xml = XMLTools.sanitizeXML(ifd.getComment()); XMLTools.parseXML(xml, handler); double x = handler.getStagePositionX(); double y = handler.getStagePositionY(); if (xPositions.size() == 0) { xPositions.add(x); yPositions.add(y); } else { double previousX = xPositions.get(xPositions.size() - 1); double previousY = yPositions.get(yPositions.size() - 1); if (Math.abs(previousX - x) > 0.21 || Math.abs(previousY - y) > 0.21) { xPositions.add(x); yPositions.add(y); } } } if (xPositions.size() > 1) { fieldRowCount = xPositions.size(); } Vector<Integer> wavelengths = handler.getWavelengths(); Vector<Double> zPositions = handler.getZPositions(); // calculate axis sizes Vector<Integer> uniqueC = new Vector<Integer>(); for (Integer c : wavelengths) { if (!uniqueC.contains(c)) { uniqueC.add(c); } } int effectiveC = uniqueC.size(); if (effectiveC == 0) effectiveC = 1; if (getSizeC() == 0) core[0].sizeC = 1; int samples = ifds.get(0).getSamplesPerPixel(); core[0].sizeC *= effectiveC * samples; Vector<Double> uniqueZ = new Vector<Double>(); for (Double z : zPositions) { if (!uniqueZ.contains(z)) uniqueZ.add(z); } if (getSizeZ() == 0) core[0].sizeZ = 1; core[0].sizeZ *= uniqueZ.size(); int totalPlanes = files.length * ifds.size(); effectiveC = getSizeC() / samples; core[0].sizeT = totalPlanes / (wellCount * fieldRowCount * fieldColumnCount * getSizeZ() * effectiveC); if (getSizeT() == 0) core[0].sizeT = 1; int seriesCount = wellCount * fieldRowCount * fieldColumnCount; if (seriesCount > 1 && getSizeZ() > totalPlanes / seriesCount) { core[0].sizeZ = 1; core[0].sizeT = totalPlanes / (seriesCount * getSizeT() * effectiveC); } core[0].imageCount = getSizeZ() * getSizeT() * effectiveC; if (seriesCount > 1) { CoreMetadata oldCore = core[0]; core = new CoreMetadata[seriesCount]; for (int i = 0; i < seriesCount; i++) { core[i] = oldCore; } } for (int s = 0; s < wellCount * fieldRowCount * fieldColumnCount; s++) { if (files.length > 1) { int[] lengths = new int[] { getSizeZ(), getEffectiveSizeC(), fieldColumnCount, fieldRowCount, wellCount, getSizeT() }; Well well = getWell(s); int[] position = new int[] {0, 0, well.fieldCol, well.fieldRow, well.well, 0}; int fileIndex = FormatTools.positionToRaster(lengths, position); parseFile(files[fileIndex], handler); stageX.add(handler.getStagePositionX()); stageY.add(handler.getStagePositionY()); } else { stageX.add(xPositions.get(s)); stageY.add(yPositions.get(s)); } } MetadataStore store = makeFilterMetadata(); MetadataTools.populatePixels(store, this); store.setPlateID(MetadataTools.createLSID("Plate", 0), 0); store.setPlateRowNamingConvention(NamingConvention.LETTER, 0); store.setPlateColumnNamingConvention(NamingConvention.NUMBER, 0); for (int well = 0; well < wellCount; well++) { store.setWellID(MetadataTools.createLSID("Well", 0, well), 0, well); store.setWellRow(new NonNegativeInteger(0), 0, well); store.setWellColumn(new NonNegativeInteger(well), 0, well); for (int row = 0; row < fieldRowCount; row++) { for (int col = 0; col < fieldColumnCount; col++) { int field = row * fieldColumnCount + col; String wellSampleID = MetadataTools.createLSID("WellSample", 0, well, field); store.setWellSampleID(wellSampleID, 0, well, field); int seriesIndex = getSeriesIndex(row, col, well); String imageID = MetadataTools.createLSID("Image", seriesIndex); store.setImageID(imageID, seriesIndex); store.setWellSampleImageRef(imageID, 0, well, field); store.setWellSampleIndex(new NonNegativeInteger(seriesIndex), 0, well, field); } } } for (int s = 0; s < seriesCount; s++) { setSeries(s); Well well = getWell(s); String name = handler.getImageName(); if (seriesCount > 1) { name = "Field " + (char) (well.fieldRow + 'A') + (well.fieldCol + 1) + ", Well " + (well.well + 1) + ": " + name; } store.setImageName(name, s); String date = DateTools.formatDate(handler.getDate(), DateTools.ISO8601_FORMAT); store.setImageAcquiredDate(date, s); if (getMetadataOptions().getMetadataLevel() != MetadataLevel.MINIMUM) { Vector<String> timestamps = handler.getTimestamps(); Vector<Double> exposures = handler.getExposures(); for (int i = 0; i < timestamps.size(); i++) { long timestamp = DateTools.getTime(timestamps.get(i), DATE_FORMAT); addSeriesMeta("timestamp " + i, timestamp); } for (int i = 0; i < exposures.size(); i++) { addSeriesMeta("exposure time " + i + " (ms)", exposures.get(i).floatValue() * 1000); } long startDate = 0; if (timestamps.size() > 0) { startDate = DateTools.getTime(timestamps.get(0), DATE_FORMAT); } store.setImageDescription("", s); int image = 0; for (int c = 0; c < getEffectiveSizeC(); c++) { for (int t = 0; t < getSizeT(); t++) { store.setPlaneTheZ(new NonNegativeInteger(0), s, image); store.setPlaneTheC(new NonNegativeInteger(c), s, image); store.setPlaneTheT(new NonNegativeInteger(t), s, image); if (t < timestamps.size()) { String stamp = timestamps.get(t); long ms = DateTools.getTime(stamp, DATE_FORMAT); store.setPlaneDeltaT((ms - startDate) / 1000.0, s, image); } if (image < exposures.size()) { store.setPlaneExposureTime(exposures.get(image), s, image); } if (s < stageX.size()) { store.setPlanePositionX(stageX.get(s), s, image); } if (s < stageY.size()) { store.setPlanePositionY(stageY.get(s), s, image); } image++; } } store.setImagingEnvironmentTemperature(handler.getTemperature(), s); store.setPixelsPhysicalSizeX(new PositiveFloat(handler.getPixelSizeX()), s); store.setPixelsPhysicalSizeY(new PositiveFloat(handler.getPixelSizeY()), s); for (int c = 0; c < getEffectiveSizeC(); c++) { if (uniqueChannels.size() > c) { store.setChannelName(uniqueChannels.get(c), s, c); } else store.setChannelName(handler.getChannelName(), s, c); } } } }