Example 16 with Pixels
use of ome.xml.model.Pixels in project bioformats by openmicroscopy.
the class Upgrade200809Test method validateUpgrade.
@Test
public void validateUpgrade() throws ServiceException {
assertEquals(1, ome.sizeOfImageList());
Image image = ome.getImage(0);
Pixels pixels = image.getPixels();
assertNotNull(pixels);
}Example 17 with Pixels
use of ome.xml.model.Pixels in project bioformats by openmicroscopy.
the class Upgrade200909Test method validateUpgrade.
@Test
public void validateUpgrade() throws ServiceException {
assertEquals(1, ome.sizeOfImageList());
Image image = ome.getImage(0);
Pixels pixels = image.getPixels();
assertNotNull(pixels);
assertEquals(1, pixels.sizeOfChannelList());
Channel channel = pixels.getChannel(0);
// XSLT transform of Channel.AcquisitionMode
// <map from="LaserScanningMicroscopy" to="LaserScanningConfocalMicroscopy"/>
assertEquals(AcquisitionMode.LASERSCANNINGCONFOCALMICROSCOPY, channel.getAcquisitionMode());
}Example 18 with Pixels
use of ome.xml.model.Pixels in project bioformats by openmicroscopy.
the class Upgrade201006Test method validateUpgrade.
@Test
public void validateUpgrade() throws ServiceException {
assertEquals(1, ome.sizeOfImageList());
Image image = ome.getImage(0);
Pixels pixels = image.getPixels();
// Pixels physical sizes are restricted to positive values
PositiveFloat positiveFloatValue = new PositiveFloat(10000.0);
assertEquals(FormatTools.createLength(positiveFloatValue, UNITS.MICROMETER), pixels.getPhysicalSizeX());
assertEquals(FormatTools.createLength(positiveFloatValue, UNITS.MICROMETER), pixels.getPhysicalSizeY());
assertNull(pixels.getPhysicalSizeZ());
}
Also used :
PositiveFloat(ome.xml.model.primitives.PositiveFloat)
Image(ome.xml.model.Image)
Pixels(ome.xml.model.Pixels)
Test(org.testng.annotations.Test)
Example 19 with Pixels
use of ome.xml.model.Pixels in project bioformats by openmicroscopy.
the class OMETiffReader method initFile.
// -- Internal FormatReader API methods --
/* @see loci.formats.FormatReader#initFile(String) */
@Override
protected void initFile(String id) throws FormatException, IOException {
// normalize file name
super.initFile(normalizeFilename(null, id));
id = currentId;
String dir = new File(id).getParent();
// parse and populate OME-XML metadata
String fileName = new Location(id).getAbsoluteFile().getAbsolutePath();
if (!new File(fileName).exists()) {
fileName = currentId;
}
String xml;
IFD firstIFD = null;
boolean companion = false;
if (checkSuffix(fileName, "companion.ome")) {
xml = DataTools.readFile(fileName);
companion = true;
} else {
RandomAccessInputStream ras = new RandomAccessInputStream(fileName, 16);
try {
TiffParser tp = new TiffParser(ras);
firstIFD = tp.getFirstIFD();
xml = firstIFD.getComment();
} finally {
ras.close();
}
}
if (service == null)
setupService();
try {
if (meta == null || !metaFile.equals(currentId)) {
meta = service.createOMEXMLMetadata(xml);
metaFile = currentId;
}
if (companion) {
String firstTIFF = meta.getUUIDFileName(0, 0);
initFile(new Location(dir, firstTIFF).getAbsolutePath());
return;
}
} catch (ServiceException se) {
throw new FormatException(se);
}
String metadataPath = null;
try {
metadataPath = meta.getBinaryOnlyMetadataFile();
} catch (NullPointerException e) {
}
if (metadataPath != null) {
// this is a binary-only file
// overwrite XML with what is in the companion OME-XML file
Location path = new Location(dir, metadataPath);
if (path.exists()) {
metadataFile = path.getAbsolutePath();
xml = readMetadataFile();
try {
meta = service.createOMEXMLMetadata(xml);
} catch (ServiceException se) {
throw new FormatException(se);
} catch (NullPointerException e) {
metadataFile = null;
metadataPath = null;
}
}
}
hasSPW = meta.getPlateCount() > 0;
for (int i = 0; i < meta.getImageCount(); i++) {
int sizeC = meta.getPixelsSizeC(i).getValue().intValue();
service.removeChannels(meta, i, sizeC);
}
Hashtable originalMetadata = service.getOriginalMetadata(meta);
if (originalMetadata != null)
metadata = originalMetadata;
LOGGER.trace(xml);
if (meta.getRoot() == null) {
throw new FormatException("Could not parse OME-XML from TIFF comment");
}
String[] acquiredDates = new String[meta.getImageCount()];
for (int i = 0; i < acquiredDates.length; i++) {
Timestamp acquisitionDate = meta.getImageAcquisitionDate(i);
if (acquisitionDate != null) {
acquiredDates[i] = acquisitionDate.getValue();
}
}
String currentUUID = meta.getUUID();
if (!isGroupFiles() && !isSingleFile(currentId)) {
IFormatReader reader = new MinimalTiffReader();
reader.setId(currentId);
core.set(0, reader.getCoreMetadataList().get(0));
int ifdCount = reader.getImageCount();
reader.close();
int maxSeries = 0;
info = new OMETiffPlane[meta.getImageCount()][];
ArrayList<Integer> imagesToRemove = new ArrayList<Integer>();
ArrayList<int[]> cBounds = new ArrayList<int[]>();
for (int i = 0; i < meta.getImageCount(); i++) {
int maxZ = 0;
int maxC = 0;
int maxT = 0;
int minZ = Integer.MAX_VALUE;
int minC = Integer.MAX_VALUE;
int minT = Integer.MAX_VALUE;
int sizeZ = meta.getPixelsSizeZ(i).getValue();
int sizeC = meta.getChannelCount(i);
int sizeT = meta.getPixelsSizeT(i).getValue();
String order = meta.getPixelsDimensionOrder(i).getValue();
int num = sizeZ * sizeC * sizeT;
CoreMetadata m = i < core.size() ? core.get(i) : new CoreMetadata(core.get(0));
m.dimensionOrder = order;
info[i] = new OMETiffPlane[meta.getTiffDataCount(i)];
int next = 0;
for (int td = 0; td < meta.getTiffDataCount(i); td++) {
String uuid = null;
try {
uuid = meta.getUUIDValue(i, td);
} catch (NullPointerException e) {
}
String filename = null;
try {
filename = meta.getUUIDFileName(i, td);
} catch (NullPointerException e) {
}
if ((uuid == null || !uuid.equals(currentUUID)) && (filename == null || !currentId.endsWith(filename))) {
// this plane doesn't appear to be in the current file
continue;
}
if (i > maxSeries) {
maxSeries = i;
}
NonNegativeInteger ifd = meta.getTiffDataIFD(i, td);
NonNegativeInteger count = meta.getTiffDataPlaneCount(i, td);
NonNegativeInteger firstZ = meta.getTiffDataFirstZ(i, td);
NonNegativeInteger firstC = meta.getTiffDataFirstC(i, td);
NonNegativeInteger firstT = meta.getTiffDataFirstT(i, td);
int realCount = count == null ? 1 : count.getValue();
if (ifd == null && count == null) {
realCount = ifdCount;
}
for (int q = 0; q < realCount; q++) {
OMETiffPlane p = new OMETiffPlane();
p.id = currentId;
p.ifd = q;
if (ifd != null) {
p.ifd += ifd.getValue();
}
p.reader = reader;
info[i][next++] = p;
int z = firstZ == null ? 0 : firstZ.getValue();
int c = firstC == null ? 0 : firstC.getValue();
int t = firstT == null ? 0 : firstT.getValue();
if (q > 0) {
int index = FormatTools.getIndex(order, sizeZ, sizeC, sizeT, num, z, c, t);
int[] add = FormatTools.getZCTCoords(order, sizeZ, sizeC, sizeT, num, q);
z += add[0];
c += add[1];
t += add[2];
}
if (z > maxZ) {
maxZ = z;
}
if (c > maxC) {
maxC = c;
}
if (t > maxT) {
maxT = t;
}
if (z < minZ) {
minZ = z;
}
if (c < minC) {
minC = c;
}
if (t < minT) {
minT = t;
}
}
}
if (i <= maxSeries) {
m.sizeZ = (maxZ - minZ) + 1;
m.sizeC = (maxC - minC) + 1;
m.sizeT = (maxT - minT) + 1;
m.imageCount = m.sizeZ * m.sizeC * m.sizeT;
m.sizeC *= meta.getChannelSamplesPerPixel(i, 0).getValue();
if (i >= core.size()) {
core.add(m);
}
cBounds.add(new int[] { minC, maxC });
} else {
imagesToRemove.add(i);
}
}
// remove extra Images, Channels, and Planes
meta.resolveReferences();
OMEXMLMetadataRoot root = (OMEXMLMetadataRoot) meta.getRoot();
List<Image> images = root.copyImageList();
for (int i = imagesToRemove.size() - 1; i >= 0; i--) {
images.remove(imagesToRemove.get(i));
}
for (int i = 0; i < images.size(); i++) {
Image img = images.get(i);
Pixels pix = img.getPixels();
List<Plane> planes = pix.copyPlaneList();
for (int p = 0; p < planes.size(); p++) {
Plane plane = planes.get(p);
if (plane.getTheZ().getValue() >= core.get(i).sizeZ || plane.getTheC().getValue() >= core.get(i).sizeC || plane.getTheT().getValue() >= core.get(i).sizeT) {
pix.removePlane(planes.get(p));
}
}
pix.setMetadataOnly(null);
List<Channel> channels = pix.copyChannelList();
for (int c = 0; c < channels.size(); c++) {
if (c < cBounds.get(i)[0] || c > cBounds.get(i)[1]) {
pix.removeChannel(channels.get(c));
}
}
}
meta.setRoot(root);
service.convertMetadata(meta, metadataStore);
MetadataTools.populatePixels(metadataStore, this);
return;
}
service.convertMetadata(meta, metadataStore);
// determine series count from Image and Pixels elements
int seriesCount = meta.getImageCount();
core.clear();
for (int i = 0; i < seriesCount; i++) {
core.add(new CoreMetadata());
}
info = new OMETiffPlane[seriesCount][];
tileWidth = new int[seriesCount];
tileHeight = new int[seriesCount];
// compile list of file/UUID mappings
Hashtable<String, String> files = new Hashtable<String, String>();
boolean needSearch = false;
for (int i = 0; i < seriesCount; i++) {
int tiffDataCount = meta.getTiffDataCount(i);
for (int td = 0; td < tiffDataCount; td++) {
String uuid = null;
try {
uuid = meta.getUUIDValue(i, td);
} catch (NullPointerException e) {
}
String filename = null;
if (uuid == null) {
// no UUID means that TiffData element refers to this file
uuid = "";
filename = id;
} else {
filename = meta.getUUIDFileName(i, td);
if (!new Location(dir, filename).exists())
filename = null;
if (filename == null) {
if (uuid.equals(currentUUID) || currentUUID == null) {
// UUID references this file
filename = id;
} else {
// will need to search for this UUID
filename = "";
needSearch = true;
}
} else
filename = normalizeFilename(dir, filename);
}
String existing = files.get(uuid);
if (existing == null)
files.put(uuid, filename);
else if (!existing.equals(filename)) {
throw new FormatException("Inconsistent UUID filenames");
}
}
}
// search for missing filenames
if (needSearch) {
Enumeration en = files.keys();
while (en.hasMoreElements()) {
String uuid = (String) en.nextElement();
String filename = files.get(uuid);
if (filename.equals("")) {
// to make this work with OME server may be a little tricky?
throw new FormatException("Unmatched UUID: " + uuid);
}
}
}
// build list of used files
Enumeration en = files.keys();
int numUUIDs = files.size();
// ensure no duplicate filenames
HashSet fileSet = new HashSet();
for (int i = 0; i < numUUIDs; i++) {
String uuid = (String) en.nextElement();
String filename = files.get(uuid);
fileSet.add(filename);
}
used = new String[fileSet.size()];
Iterator iter = fileSet.iterator();
for (int i = 0; i < used.length; i++) used[i] = (String) iter.next();
// process TiffData elements
Hashtable<String, IFormatReader> readers = new Hashtable<String, IFormatReader>();
boolean adjustedSamples = false;
for (int i = 0; i < seriesCount; i++) {
int s = i;
LOGGER.debug("Image[{}] {", i);
LOGGER.debug(" id = {}", meta.getImageID(i));
String order = meta.getPixelsDimensionOrder(i).toString();
PositiveInteger samplesPerPixel = null;
if (meta.getChannelCount(i) > 0) {
samplesPerPixel = meta.getChannelSamplesPerPixel(i, 0);
}
int samples = samplesPerPixel == null ? -1 : samplesPerPixel.getValue();
int tiffSamples = firstIFD.getSamplesPerPixel();
if (adjustedSamples || (samples != tiffSamples && (i == 0 || samples < 0))) {
LOGGER.warn("SamplesPerPixel mismatch: OME={}, TIFF={}", samples, tiffSamples);
samples = tiffSamples;
adjustedSamples = true;
} else {
adjustedSamples = false;
}
if (adjustedSamples && meta.getChannelCount(i) <= 1) {
adjustedSamples = false;
}
int effSizeC = meta.getPixelsSizeC(i).getValue().intValue();
if (!adjustedSamples) {
effSizeC /= samples;
}
if (effSizeC == 0)
effSizeC = 1;
if (effSizeC * samples != meta.getPixelsSizeC(i).getValue().intValue()) {
effSizeC = meta.getPixelsSizeC(i).getValue().intValue();
}
int sizeT = meta.getPixelsSizeT(i).getValue().intValue();
int sizeZ = meta.getPixelsSizeZ(i).getValue().intValue();
int num = effSizeC * sizeT * sizeZ;
OMETiffPlane[] planes = new OMETiffPlane[num];
for (int no = 0; no < num; no++) planes[no] = new OMETiffPlane();
int tiffDataCount = meta.getTiffDataCount(i);
Boolean zOneIndexed = null;
Boolean cOneIndexed = null;
Boolean tOneIndexed = null;
for (int td = 0; td < tiffDataCount; td++) {
NonNegativeInteger firstC = meta.getTiffDataFirstC(i, td);
NonNegativeInteger firstT = meta.getTiffDataFirstT(i, td);
NonNegativeInteger firstZ = meta.getTiffDataFirstZ(i, td);
int c = firstC == null ? 0 : firstC.getValue();
int t = firstT == null ? 0 : firstT.getValue();
int z = firstZ == null ? 0 : firstZ.getValue();
if (c >= effSizeC && cOneIndexed == null) {
cOneIndexed = true;
} else if (c == 0) {
cOneIndexed = false;
}
if (z >= sizeZ && zOneIndexed == null) {
zOneIndexed = true;
} else if (z == 0) {
zOneIndexed = false;
}
if (t >= sizeT && tOneIndexed == null) {
tOneIndexed = true;
} else if (t == 0) {
tOneIndexed = false;
}
}
for (int td = 0; td < tiffDataCount; td++) {
LOGGER.debug(" TiffData[{}] {", td);
// extract TiffData parameters
String filename = null;
String uuid = null;
try {
filename = meta.getUUIDFileName(i, td);
} catch (NullPointerException e) {
LOGGER.debug("Ignoring null UUID object when retrieving filename.");
}
try {
uuid = meta.getUUIDValue(i, td);
} catch (NullPointerException e) {
LOGGER.debug("Ignoring null UUID object when retrieving value.");
}
NonNegativeInteger tdIFD = meta.getTiffDataIFD(i, td);
int ifd = tdIFD == null ? 0 : tdIFD.getValue();
NonNegativeInteger numPlanes = meta.getTiffDataPlaneCount(i, td);
NonNegativeInteger firstC = meta.getTiffDataFirstC(i, td);
NonNegativeInteger firstT = meta.getTiffDataFirstT(i, td);
NonNegativeInteger firstZ = meta.getTiffDataFirstZ(i, td);
int c = firstC == null ? 0 : firstC.getValue();
int t = firstT == null ? 0 : firstT.getValue();
int z = firstZ == null ? 0 : firstZ.getValue();
// NB: some writers index FirstC, FirstZ and FirstT from 1
if (cOneIndexed != null && cOneIndexed)
c--;
if (zOneIndexed != null && zOneIndexed)
z--;
if (tOneIndexed != null && tOneIndexed)
t--;
if (z >= sizeZ || c >= effSizeC || t >= sizeT) {
LOGGER.warn("Found invalid TiffData: Z={}, C={}, T={}", new Object[] { z, c, t });
break;
}
int index = FormatTools.getIndex(order, sizeZ, effSizeC, sizeT, num, z, c, t);
int count = numPlanes == null ? 1 : numPlanes.getValue();
if (count == 0) {
core.set(s, null);
break;
}
// get reader object for this filename
if (filename == null) {
if (uuid == null)
filename = id;
else
filename = files.get(uuid);
} else
filename = normalizeFilename(dir, filename);
IFormatReader r = readers.get(filename);
if (r == null) {
r = new MinimalTiffReader();
readers.put(filename, r);
}
Location file = new Location(filename);
boolean exists = true;
if (!file.exists()) {
// if this is an absolute file name, try using a relative name
// old versions of OMETiffWriter wrote an absolute path to
// UUID.FileName, which causes problems if the file is moved to
// a different directory
filename = filename.substring(filename.lastIndexOf(File.separator) + 1);
filename = dir + File.separator + filename;
if (!new Location(filename).exists()) {
filename = currentId;
// if only one file is defined, we have to assume that it
// corresponds to the current file
exists = fileSet.size() == 1;
}
}
// populate plane index -> IFD mapping
for (int q = 0; q < count; q++) {
int no = index + q;
planes[no].reader = r;
planes[no].id = filename;
planes[no].ifd = ifd + q;
planes[no].certain = true;
planes[no].exists = exists;
LOGGER.debug(" Plane[{}]: file={}, IFD={}", new Object[] { no, planes[no].id, planes[no].ifd });
}
if (numPlanes == null) {
// unknown number of planes; fill down
for (int no = index + 1; no < num; no++) {
if (planes[no].certain)
break;
planes[no].reader = r;
planes[no].id = filename;
planes[no].ifd = planes[no - 1].ifd + 1;
planes[no].exists = exists;
LOGGER.debug(" Plane[{}]: FILLED", no);
}
} else {
// known number of planes; clear anything subsequently filled
for (int no = index + count; no < num; no++) {
if (planes[no].certain)
break;
planes[no].reader = null;
planes[no].id = null;
planes[no].ifd = -1;
LOGGER.debug(" Plane[{}]: CLEARED", no);
}
}
LOGGER.debug(" }");
}
if (core.get(s) == null)
continue;
// verify that all planes are available
LOGGER.debug(" --------------------------------");
for (int no = 0; no < num; no++) {
LOGGER.debug(" Plane[{}]: file={}, IFD={}", new Object[] { no, planes[no].id, planes[no].ifd });
if (planes[no].reader == null) {
LOGGER.warn("Image ID '{}': missing plane #{}. " + "Using TiffReader to determine the number of planes.", meta.getImageID(i), no);
TiffReader r = new TiffReader();
r.setId(currentId);
try {
planes = new OMETiffPlane[r.getImageCount()];
for (int plane = 0; plane < planes.length; plane++) {
planes[plane] = new OMETiffPlane();
planes[plane].id = currentId;
planes[plane].reader = r;
planes[plane].ifd = plane;
}
num = planes.length;
} finally {
r.close();
}
}
}
LOGGER.debug(" }");
// populate core metadata
CoreMetadata m = core.get(s);
info[s] = planes;
try {
RandomAccessInputStream testFile = new RandomAccessInputStream(info[s][0].id, 16);
String firstFile = info[s][0].id;
if (!info[s][0].reader.isThisType(testFile)) {
LOGGER.warn("{} is not a valid OME-TIFF", info[s][0].id);
info[s][0].id = currentId;
info[s][0].exists = false;
}
testFile.close();
for (int plane = 1; plane < info[s].length; plane++) {
if (info[s][plane].id.equals(firstFile)) {
// don't repeat slow type checking if the files are the same
if (!info[s][0].exists) {
info[s][plane].id = info[s][0].id;
info[s][plane].exists = false;
}
continue;
}
testFile = new RandomAccessInputStream(info[s][plane].id, 16);
if (!info[s][plane].reader.isThisType(testFile)) {
LOGGER.warn("{} is not a valid OME-TIFF", info[s][plane].id);
info[s][plane].id = info[s][0].id;
info[s][plane].exists = false;
}
testFile.close();
}
info[s][0].reader.setId(info[s][0].id);
tileWidth[s] = info[s][0].reader.getOptimalTileWidth();
tileHeight[s] = info[s][0].reader.getOptimalTileHeight();
m.sizeX = meta.getPixelsSizeX(i).getValue().intValue();
int tiffWidth = (int) firstIFD.getImageWidth();
if (m.sizeX != tiffWidth && s == 0) {
LOGGER.warn("SizeX mismatch: OME={}, TIFF={}", m.sizeX, tiffWidth);
}
m.sizeY = meta.getPixelsSizeY(i).getValue().intValue();
int tiffHeight = (int) firstIFD.getImageLength();
if (m.sizeY != tiffHeight && s == 0) {
LOGGER.warn("SizeY mismatch: OME={}, TIFF={}", m.sizeY, tiffHeight);
}
m.sizeZ = meta.getPixelsSizeZ(i).getValue().intValue();
m.sizeC = meta.getPixelsSizeC(i).getValue().intValue();
m.sizeT = meta.getPixelsSizeT(i).getValue().intValue();
m.pixelType = FormatTools.pixelTypeFromString(meta.getPixelsType(i).toString());
int tiffPixelType = firstIFD.getPixelType();
if (m.pixelType != tiffPixelType && (s == 0 || adjustedSamples)) {
LOGGER.warn("PixelType mismatch: OME={}, TIFF={}", m.pixelType, tiffPixelType);
m.pixelType = tiffPixelType;
}
m.imageCount = num;
m.dimensionOrder = meta.getPixelsDimensionOrder(i).toString();
// hackish workaround for files exported by OMERO that have an
// incorrect dimension order
String uuidFileName = "";
try {
if (meta.getTiffDataCount(i) > 0) {
uuidFileName = meta.getUUIDFileName(i, 0);
}
} catch (NullPointerException e) {
}
if (meta.getChannelCount(i) > 0 && meta.getChannelName(i, 0) == null && meta.getTiffDataCount(i) > 0 && uuidFileName.indexOf("__omero_export") != -1) {
m.dimensionOrder = "XYZCT";
}
m.orderCertain = true;
PhotoInterp photo = firstIFD.getPhotometricInterpretation();
m.rgb = samples > 1 || photo == PhotoInterp.RGB;
if ((samples != m.sizeC && (samples % m.sizeC) != 0 && (m.sizeC % samples) != 0) || m.sizeC == 1 || adjustedSamples) {
m.sizeC *= samples;
}
if (m.sizeZ * m.sizeT * m.sizeC > m.imageCount && !m.rgb) {
if (m.sizeZ == m.imageCount) {
m.sizeT = 1;
m.sizeC = 1;
} else if (m.sizeT == m.imageCount) {
m.sizeZ = 1;
m.sizeC = 1;
} else if (m.sizeC == m.imageCount) {
m.sizeT = 1;
m.sizeZ = 1;
}
}
if (meta.getPixelsBinDataCount(i) > 1) {
LOGGER.warn("OME-TIFF Pixels element contains BinData elements! " + "Ignoring.");
}
m.littleEndian = firstIFD.isLittleEndian();
m.interleaved = false;
m.indexed = photo == PhotoInterp.RGB_PALETTE && firstIFD.getIFDValue(IFD.COLOR_MAP) != null;
if (m.indexed) {
m.rgb = false;
}
m.falseColor = true;
m.metadataComplete = true;
if (meta.getPixelsSignificantBits(i) != null) {
m.bitsPerPixel = meta.getPixelsSignificantBits(i).getValue();
}
} catch (NullPointerException exc) {
throw new FormatException("Incomplete Pixels metadata", exc);
}
}
// remove null CoreMetadata entries
ArrayList<CoreMetadata> series = new ArrayList<CoreMetadata>();
final List<OMETiffPlane[]> planeInfo = new ArrayList<OMETiffPlane[]>();
for (int i = 0; i < core.size(); i++) {
if (core.get(i) != null) {
series.add(core.get(i));
planeInfo.add(info[i]);
}
}
core = series;
info = planeInfo.toArray(new OMETiffPlane[0][0]);
if (getImageCount() == 1) {
CoreMetadata ms0 = core.get(0);
ms0.sizeZ = 1;
if (!ms0.rgb) {
ms0.sizeC = 1;
}
ms0.sizeT = 1;
}
for (int i = 0; i < core.size(); i++) {
CoreMetadata m = core.get(i);
Modulo z = service.getModuloAlongZ(meta, i);
if (z != null) {
m.moduloZ = z;
}
Modulo c = service.getModuloAlongC(meta, i);
if (c != null) {
m.moduloC = c;
}
Modulo t = service.getModuloAlongT(meta, i);
if (t != null) {
m.moduloT = t;
}
}
MetadataTools.populatePixels(metadataStore, this, false, false);
for (int i = 0; i < meta.getImageCount(); i++) {
// TheT values are not changed
for (int p = 0; p < meta.getPlaneCount(i); p++) {
NonNegativeInteger z = meta.getPlaneTheZ(i, p);
NonNegativeInteger c = meta.getPlaneTheC(i, p);
NonNegativeInteger t = meta.getPlaneTheT(i, p);
if (z == null) {
z = new NonNegativeInteger(0);
metadataStore.setPlaneTheZ(z, i, p);
}
if (c == null) {
c = new NonNegativeInteger(0);
metadataStore.setPlaneTheC(c, i, p);
}
if (t == null) {
t = new NonNegativeInteger(0);
metadataStore.setPlaneTheT(t, i, p);
}
}
}
for (int i = 0; i < acquiredDates.length; i++) {
if (acquiredDates[i] != null) {
metadataStore.setImageAcquisitionDate(new Timestamp(acquiredDates[i]), i);
}
}
}
Also used :
IFormatReader(loci.formats.IFormatReader)
IFD(loci.formats.tiff.IFD)
ArrayList(java.util.ArrayList)
Image(ome.xml.model.Image)
Timestamp(ome.xml.model.primitives.Timestamp)
Pixels(ome.xml.model.Pixels)
Iterator(java.util.Iterator)
HashSet(java.util.HashSet)
PositiveInteger(ome.xml.model.primitives.PositiveInteger)
Enumeration(java.util.Enumeration)
Plane(ome.xml.model.Plane)
Hashtable(java.util.Hashtable)
NonNegativeInteger(ome.xml.model.primitives.NonNegativeInteger)
Modulo(loci.formats.Modulo)
Channel(ome.xml.model.Channel)
PhotoInterp(loci.formats.tiff.PhotoInterp)
CoreMetadata(loci.formats.CoreMetadata)
FormatException(loci.formats.FormatException)
PositiveInteger(ome.xml.model.primitives.PositiveInteger)
NonNegativeInteger(ome.xml.model.primitives.NonNegativeInteger)
ServiceException(loci.common.services.ServiceException)
OMEXMLMetadataRoot(ome.xml.meta.OMEXMLMetadataRoot)
TiffParser(loci.formats.tiff.TiffParser)
RandomAccessInputStream(loci.common.RandomAccessInputStream)
File(java.io.File)
Location(loci.common.Location)
Aggregations
Pixels (ome.xml.model.Pixels)19
Image (ome.xml.model.Image)15
Channel (ome.xml.model.Channel)10
OMEXMLMetadataRoot (ome.xml.meta.OMEXMLMetadataRoot)6
PositiveInteger (ome.xml.model.primitives.PositiveInteger)5
Test (org.testng.annotations.Test)5
ArrayList (java.util.ArrayList)4
BeforeClass (org.testng.annotations.BeforeClass)4
BinData (ome.xml.model.BinData)3
Instrument (ome.xml.model.Instrument)3
LightSourceSettings (ome.xml.model.LightSourceSettings)3
MapPair (ome.xml.model.MapPair)3
Location (loci.common.Location)2
ServiceException (loci.common.services.ServiceException)2
FormatException (loci.formats.FormatException)2
XMLAnnotation (ome.xml.model.XMLAnnotation)2
NonNegativeLong (ome.xml.model.primitives.NonNegativeLong)2
BufferedReader (java.io.BufferedReader)1
File (java.io.File)1
InputStreamReader (java.io.InputStreamReader)1
