use of org.opencastproject.composer.api.EncoderException in project opencast by opencast.
the class TextAnalysisWorkflowOperationHandler method extractVideoText.
/**
* Runs the text analysis service on each of the video segments found.
*
* @param mediaPackage
* the original mediapackage
* @param operation
* the workflow operation
* @throws ExecutionException
* @throws InterruptedException
* @throws NotFoundException
* @throws WorkflowOperationException
*/
protected WorkflowOperationResult extractVideoText(final MediaPackage mediaPackage, WorkflowOperationInstance operation) throws EncoderException, InterruptedException, ExecutionException, IOException, NotFoundException, MediaPackageException, TextAnalyzerException, WorkflowOperationException, ServiceRegistryException {
long totalTimeInQueue = 0;
List<String> sourceTagSet = asList(operation.getConfiguration("source-tags"));
List<String> targetTagSet = asList(operation.getConfiguration("target-tags"));
// Select the catalogs according to the tags
Map<Catalog, Mpeg7Catalog> catalogs = loadSegmentCatalogs(mediaPackage, operation);
// Was there at least one matching catalog
if (catalogs.size() == 0) {
logger.debug("Mediapackage {} has no suitable mpeg-7 catalogs based on tags {} to to run text analysis", mediaPackage, sourceTagSet);
return createResult(mediaPackage, Action.CONTINUE);
}
// Loop over all existing segment catalogs
for (Entry<Catalog, Mpeg7Catalog> mapEntry : catalogs.entrySet()) {
Map<VideoSegment, Job> jobs = new HashMap<VideoSegment, Job>();
List<Attachment> images = new LinkedList<Attachment>();
Catalog segmentCatalog = mapEntry.getKey();
try {
MediaPackageReference catalogRef = segmentCatalog.getReference();
// Make sure we can figure out the source track
if (catalogRef == null) {
logger.info("Skipping catalog {} since we can't determine the source track", segmentCatalog);
} else if (mediaPackage.getElementByReference(catalogRef) == null) {
logger.info("Skipping catalog {} since we can't determine the source track", segmentCatalog);
} else if (!(mediaPackage.getElementByReference(catalogRef) instanceof Track)) {
logger.info("Skipping catalog {} since it's source was not a track", segmentCatalog);
}
logger.info("Analyzing mpeg-7 segments catalog {} for text", segmentCatalog);
// Create a copy that will contain the segments enriched with the video text elements
Mpeg7Catalog textCatalog = mapEntry.getValue().clone();
Track sourceTrack = mediaPackage.getTrack(catalogRef.getIdentifier());
// Load the temporal decomposition (segments)
Video videoContent = textCatalog.videoContent().next();
TemporalDecomposition<? extends Segment> decomposition = videoContent.getTemporalDecomposition();
Iterator<? extends Segment> segmentIterator = decomposition.segments();
// For every segment, try to find the still image and run text analysis on it
List<VideoSegment> videoSegments = new LinkedList<VideoSegment>();
while (segmentIterator.hasNext()) {
Segment segment = segmentIterator.next();
if ((segment instanceof VideoSegment))
videoSegments.add((VideoSegment) segment);
}
// argument array for image extraction
long[] times = new long[videoSegments.size()];
for (int i = 0; i < videoSegments.size(); i++) {
VideoSegment videoSegment = videoSegments.get(i);
MediaTimePoint segmentTimePoint = videoSegment.getMediaTime().getMediaTimePoint();
MediaDuration segmentDuration = videoSegment.getMediaTime().getMediaDuration();
// Choose a time
MediaPackageReference reference = null;
if (catalogRef == null)
reference = new MediaPackageReferenceImpl();
else
reference = new MediaPackageReferenceImpl(catalogRef.getType(), catalogRef.getIdentifier());
reference.setProperty("time", segmentTimePoint.toString());
// Have the time for ocr image created. To circumvent problems with slowly building slides, we take the image
// that is
// almost at the end of the segment, it should contain the most content and is stable as well.
long startTimeSeconds = segmentTimePoint.getTimeInMilliseconds() / 1000;
long durationSeconds = segmentDuration.getDurationInMilliseconds() / 1000;
times[i] = Math.max(startTimeSeconds + durationSeconds - stabilityThreshold + 1, 0);
}
// Have the ocr image(s) created.
// TODO: Note that the way of having one image extracted after the other is suited for
// the ffmpeg-based encoder. When switching to other encoding engines such as gstreamer, it might be preferable
// to pass in all timepoints to the image extraction method at once.
SortedMap<Long, Job> extractImageJobs = new TreeMap<Long, Job>();
try {
for (long time : times) {
extractImageJobs.put(time, composer.image(sourceTrack, IMAGE_EXTRACTION_PROFILE, time));
}
if (!waitForStatus(extractImageJobs.values().toArray(new Job[extractImageJobs.size()])).isSuccess())
throw new WorkflowOperationException("Extracting scene image from " + sourceTrack + " failed");
for (Map.Entry<Long, Job> entry : extractImageJobs.entrySet()) {
Job job = serviceRegistry.getJob(entry.getValue().getId());
Attachment image = (Attachment) MediaPackageElementParser.getFromXml(job.getPayload());
images.add(image);
totalTimeInQueue += job.getQueueTime();
}
} catch (EncoderException e) {
logger.error("Error creating still image(s) from {}", sourceTrack);
throw e;
}
// Run text extraction on each of the images
Iterator<VideoSegment> it = videoSegments.iterator();
for (MediaPackageElement element : images) {
Attachment image = (Attachment) element;
VideoSegment videoSegment = it.next();
jobs.put(videoSegment, analysisService.extract(image));
}
// Wait for all jobs to be finished
if (!waitForStatus(jobs.values().toArray(new Job[jobs.size()])).isSuccess()) {
throw new WorkflowOperationException("Text extraction failed on images from " + sourceTrack);
}
// Process the text extraction results
for (Map.Entry<VideoSegment, Job> entry : jobs.entrySet()) {
Job job = serviceRegistry.getJob(entry.getValue().getId());
totalTimeInQueue += job.getQueueTime();
VideoSegment videoSegment = entry.getKey();
MediaDuration segmentDuration = videoSegment.getMediaTime().getMediaDuration();
Catalog catalog = (Catalog) MediaPackageElementParser.getFromXml(job.getPayload());
if (catalog == null) {
logger.warn("Text analysis did not return a valid mpeg7 for segment {}", videoSegment);
continue;
}
Mpeg7Catalog videoTextCatalog = loadMpeg7Catalog(catalog);
if (videoTextCatalog == null)
throw new IllegalStateException("Text analysis service did not return a valid mpeg7");
// Add the spatiotemporal decompositions from the new catalog to the existing video segments
Iterator<Video> videoTextContents = videoTextCatalog.videoContent();
if (videoTextContents == null || !videoTextContents.hasNext()) {
logger.debug("Text analysis was not able to extract any text from {}", job.getArguments().get(0));
break;
}
try {
Video textVideoContent = videoTextContents.next();
VideoSegment textVideoSegment = (VideoSegment) textVideoContent.getTemporalDecomposition().segments().next();
VideoText[] videoTexts = textVideoSegment.getSpatioTemporalDecomposition().getVideoText();
SpatioTemporalDecomposition std = videoSegment.createSpatioTemporalDecomposition(true, false);
for (VideoText videoText : videoTexts) {
MediaTime mediaTime = new MediaTimeImpl(new MediaRelTimePointImpl(0), segmentDuration);
SpatioTemporalLocator locator = new SpatioTemporalLocatorImpl(mediaTime);
videoText.setSpatioTemporalLocator(locator);
std.addVideoText(videoText);
}
} catch (Exception e) {
logger.warn("The mpeg-7 structure returned by the text analyzer is not what is expected", e);
continue;
}
}
// Put the catalog into the workspace and add it to the media package
MediaPackageElementBuilder builder = MediaPackageElementBuilderFactory.newInstance().newElementBuilder();
Catalog catalog = (Catalog) builder.newElement(MediaPackageElement.Type.Catalog, MediaPackageElements.TEXTS);
catalog.setIdentifier(null);
catalog.setReference(segmentCatalog.getReference());
// the catalog now has an ID, so we can store the file properly
mediaPackage.add(catalog);
InputStream in = mpeg7CatalogService.serialize(textCatalog);
String filename = "slidetext.xml";
URI workspaceURI = workspace.put(mediaPackage.getIdentifier().toString(), catalog.getIdentifier(), filename, in);
catalog.setURI(workspaceURI);
// Since we've enriched and stored the mpeg7 catalog, remove the original
try {
mediaPackage.remove(segmentCatalog);
workspace.delete(segmentCatalog.getURI());
} catch (Exception e) {
logger.warn("Unable to delete segment catalog {}: {}", segmentCatalog.getURI(), e);
}
// Add flavor and target tags
catalog.setFlavor(MediaPackageElements.TEXTS);
for (String tag : targetTagSet) {
catalog.addTag(tag);
}
} finally {
// Remove images that were created for text extraction
logger.debug("Removing temporary images");
for (Attachment image : images) {
try {
workspace.delete(image.getURI());
} catch (Exception e) {
logger.warn("Unable to delete temporary image {}: {}", image.getURI(), e);
}
}
// Remove the temporary text
for (Job j : jobs.values()) {
Catalog catalog = null;
try {
Job job = serviceRegistry.getJob(j.getId());
if (!Job.Status.FINISHED.equals(job.getStatus()))
continue;
catalog = (Catalog) MediaPackageElementParser.getFromXml(job.getPayload());
if (catalog != null)
workspace.delete(catalog.getURI());
} catch (Exception e) {
if (catalog != null) {
logger.warn("Unable to delete temporary text file {}: {}", catalog.getURI(), e);
} else {
logger.warn("Unable to parse textextraction payload of job {}", j.getId());
}
}
}
}
}
logger.debug("Text analysis completed");
return createResult(mediaPackage, Action.CONTINUE, totalTimeInQueue);
}
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