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package javafx.scene.media;

import com.sun.media.jfxmedia.MetadataParser;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.FileNotFoundException;
import java.net.URI;
import java.net.URISyntaxException;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

import javafx.application.Platform;
import javafx.beans.NamedArg;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.ObjectPropertyBase;
import javafx.collections.FXCollections;
import javafx.collections.ObservableList;
import javafx.collections.ObservableMap;
import javafx.scene.image.Image;
import javafx.util.Duration;

import com.sun.media.jfxmedia.locator.Locator;
import javafx.beans.property.ReadOnlyIntegerProperty;
import javafx.beans.property.ReadOnlyIntegerWrapper;
import javafx.beans.property.ReadOnlyObjectProperty;
import javafx.beans.property.ReadOnlyObjectWrapper;
import com.sun.media.jfxmedia.events.MetadataListener;
import com.sun.media.jfxmedia.track.VideoResolution;

The Media class represents a media resource. It is instantiated from the string form of a source URI. Information about the media such as duration, metadata, tracks, and video resolution may be obtained from a Media instance. The media information is obtained asynchronously and so not necessarily available immediately after instantiation of the class. All information should however be available if the instance has been associated with a MediaPlayer and that player has transitioned to Status.READY status. To be notified when metadata or Tracks are added, observers may be registered with the collections returned by getMetadata()and getTracks(), respectively.

The same Media object may be shared among multiple MediaPlayer objects. Such a shared instance might manage a single copy of the source media data to be used by all players, or it might require a separate copy of the data for each player. The choice of implementation will not however have any effect on player behavior at the interface level.

See Also:
Since:JavaFX 2.0
/** * The <code>Media</code> class represents a media resource. It is instantiated * from the string form of a source URI. Information about the media such as * duration, metadata, tracks, and video resolution may be obtained from a * <code>Media</code> instance. The media information is obtained asynchronously * and so not necessarily available immediately after instantiation of the class. * All information should however be available if the instance has been * associated with a {@link MediaPlayer} and that player has transitioned to * {@link MediaPlayer.Status#READY} status. To be notified when metadata or * {@link Track}s are added, observers may be registered with the collections * returned by {@link #getMetadata()}and {@link #getTracks()}, respectively. * * <p>The same <code>Media</code> object may be shared among multiple * <code>MediaPlayer</code> objects. Such a shared instance might manage a single * copy of the source media data to be used by all players, or it might require a * separate copy of the data for each player. The choice of implementation will * not however have any effect on player behavior at the interface level.</p> * * @see MediaPlayer * @see MediaException * @since JavaFX 2.0 */
public final class Media {
A property set to a MediaException value when an error occurs. If error is non-null, then the media could not be loaded and is not usable. If onError is non-null, it will be invoked when the error property is set.
See Also:
/** * A property set to a MediaException value when an error occurs. * If <code>error</code> is non-<code>null</code>, then the media could not * be loaded and is not usable. If {@link #onErrorProperty onError} is non-<code>null</code>, * it will be invoked when the <code>error</code> property is set. * * @see MediaException */
private ReadOnlyObjectWrapper<MediaException> error; private void setError(MediaException value) { if (getError() == null) { errorPropertyImpl().set(value); } }
Return any error encountered in the media.
Returns:a MediaException or null if there is no error.
/** * Return any error encountered in the media. * @return a {@link MediaException} or <code>null</code> if there is no error. */
public final MediaException getError() { return error == null ? null : error.get(); } public ReadOnlyObjectProperty<MediaException> errorProperty() { return errorPropertyImpl().getReadOnlyProperty(); } private ReadOnlyObjectWrapper<MediaException> errorPropertyImpl() { if (error == null) { error = new ReadOnlyObjectWrapper<MediaException>() { @Override protected void invalidated() { if (getOnError() != null) { Platform.runLater(getOnError()); } } @Override public Object getBean() { return Media.this; } @Override public String getName() { return "error"; } }; } return error; }
Event handler called when an error occurs. This will happen if a malformed or invalid URL is passed to the constructor or there is a problem accessing the URL.
/** * Event handler called when an error occurs. This will happen * if a malformed or invalid URL is passed to the constructor or there is * a problem accessing the URL. */
private ObjectProperty<Runnable> onError;
Set the event handler to be called when an error occurs.
Params:
  • value – the error event handler.
/** * Set the event handler to be called when an error occurs. * @param value the error event handler. */
public final void setOnError(Runnable value) { onErrorProperty().set(value); }
Retrieve the error handler to be called if an error occurs.
Returns:the error handler or null if none is defined.
/** * Retrieve the error handler to be called if an error occurs. * @return the error handler or <code>null</code> if none is defined. */
public final Runnable getOnError() { return onError == null ? null : onError.get(); } public ObjectProperty<Runnable> onErrorProperty() { if (onError == null) { onError = new ObjectPropertyBase<Runnable>() { @Override protected void invalidated() { /* * if we have an existing error condition schedule the handler to be * called immediately. This way the client app does not have to perform * an explicit error check. */ if (get() != null && getError() != null) { Platform.runLater(get()); } } @Override public Object getBean() { return Media.this; } @Override public String getName() { return "onError"; } }; } return onError; } private MetadataListener metadataListener = new _MetadataListener();
An ObservableMap of metadata which can contain information about the media. Metadata entries use Strings for keys and contain Object values. This map is unmodifiable: its contents or stored values cannot be changed.
/** * An {@link ObservableMap} of metadata which can contain information about * the media. Metadata entries use {@link String}s for keys and contain * {@link Object} values. This map is unmodifiable: its contents or stored * values cannot be changed. */
// FIXME: define standard metadata keys and the corresponding objects types // FIXME: figure out how to make the entries read-only to observers, we'll // need to enhance javafx.collections a bit to accomodate this private ObservableMap<String, Object> metadata;
Retrieve the metadata contained in this media source. If there are no metadata, the returned ObservableMap will be empty.
Returns:the metadata contained in this media source.
/** * Retrieve the metadata contained in this media source. If there are * no metadata, the returned {@link ObservableMap} will be empty. * @return the metadata contained in this media source. */
public final ObservableMap<String, Object> getMetadata() { return metadata; } private final ObservableMap<String,Object> metadataBacking = FXCollections.observableMap(new HashMap<String,Object>());
The width in pixels of the source media. This may be zero if the media has no width, e.g., when playing audio, or if the width is currently unknown which may occur with streaming media.
See Also:
  • height
/** * The width in pixels of the source media. * This may be zero if the media has no width, e.g., when playing audio, * or if the width is currently unknown which may occur with streaming * media. * @see height */
private ReadOnlyIntegerWrapper width; final void setWidth(int value) { widthPropertyImpl().set(value); }
Retrieve the width in pixels of the media.
Returns:the media width or zero if the width is undefined or unknown.
/** * Retrieve the width in pixels of the media. * @return the media width or zero if the width is undefined or unknown. */
public final int getWidth() { return width == null ? 0 : width.get(); } public ReadOnlyIntegerProperty widthProperty() { return widthPropertyImpl().getReadOnlyProperty(); } private ReadOnlyIntegerWrapper widthPropertyImpl() { if (width == null) { width = new ReadOnlyIntegerWrapper(this, "width"); } return width; }
The height in pixels of the source media. This may be zero if the media has no height, e.g., when playing audio, or if the height is currently unknown which may occur with streaming media.
See Also:
  • width
/** * The height in pixels of the source media. * This may be zero if the media has no height, e.g., when playing audio, * or if the height is currently unknown which may occur with streaming * media. * @see width */
private ReadOnlyIntegerWrapper height; final void setHeight(int value) { heightPropertyImpl().set(value); }
Retrieve the height in pixels of the media.
Returns:the media height or zero if the height is undefined or unknown.
/** * Retrieve the height in pixels of the media. * @return the media height or zero if the height is undefined or unknown. */
public final int getHeight() { return height == null ? 0 : height.get(); } public ReadOnlyIntegerProperty heightProperty() { return heightPropertyImpl().getReadOnlyProperty(); } private ReadOnlyIntegerWrapper heightPropertyImpl() { if (height == null) { height = new ReadOnlyIntegerWrapper(this, "height"); } return height; }
The duration in seconds of the source media. If the media duration is unknown then this property value will be Duration.UNKNOWN.
/** * The duration in seconds of the source media. If the media duration is * unknown then this property value will be {@link Duration#UNKNOWN}. */
private ReadOnlyObjectWrapper<Duration> duration; final void setDuration(Duration value) { durationPropertyImpl().set(value); }
Retrieve the duration in seconds of the media.
Returns:the duration of the media, Duration.UNKNOWN if unknown or Duration.INDEFINITE for live streams
/** * Retrieve the duration in seconds of the media. * @return the duration of the media, {@link Duration#UNKNOWN} if unknown or {@link Duration#INDEFINITE} for live streams */
public final Duration getDuration() { return duration == null || duration.get() == null ? Duration.UNKNOWN : duration.get(); } public ReadOnlyObjectProperty<Duration> durationProperty() { return durationPropertyImpl().getReadOnlyProperty(); } private ReadOnlyObjectWrapper<Duration> durationPropertyImpl() { if (duration == null) { duration = new ReadOnlyObjectWrapper<Duration>(this, "duration"); } return duration; }
An ObservableList of tracks contained in this media object. A Media object can contain multiple tracks, such as a video track with several audio track. This list is unmodifiable: the contents cannot be changed.
See Also:
  • Track
/** * An <code>ObservableList</code> of tracks contained in this media object. * A <code>Media</code> object can contain multiple tracks, such as a video track * with several audio track. This list is unmodifiable: the contents cannot * be changed. * @see Track */
private ObservableList<Track> tracks;
Retrieve the tracks contained in this media source. If there are no tracks, the returned ObservableList will be empty.
Returns:the tracks contained in this media source.
/** * Retrieve the tracks contained in this media source. If there are * no tracks, the returned {@link ObservableList} will be empty. * @return the tracks contained in this media source. */
public final ObservableList<Track> getTracks() { return tracks; } private final ObservableList<Track> tracksBacking = FXCollections.observableArrayList();
The markers defined on this media source. A marker is defined to be a mapping from a name to a point in time between the beginning and end of the media.
/** * The markers defined on this media source. A marker is defined to be a * mapping from a name to a point in time between the beginning and end of * the media. */
private ObservableMap<String, Duration> markers = FXCollections.observableMap(new HashMap<String,Duration>());
Retrieve the markers defined on this Media instance. If there are no markers the returned ObservableMap will be empty. Programmatic markers may be added by inserting entries in the returned Map.
Returns:the markers defined on this media source.
/** * Retrieve the markers defined on this <code>Media</code> instance. If * there are no markers the returned {@link ObservableMap} will be empty. * Programmatic markers may be added by inserting entries in the returned * <code>Map</code>. * * @return the markers defined on this media source. */
public final ObservableMap<String, Duration> getMarkers() { return markers; }
Constructs a Media instance. This is the only way to specify the media source. The source must represent a valid URI and is immutable. Only HTTP, HTTPS, FILE, and JAR URLs are supported. If the provided URL is invalid then an exception will be thrown. If an asynchronous error occurs, the error property will be set. Listen to this property to be notified of any such errors.

If the source uses a non-blocking protocol such as FILE, then any problems which can be detected immediately will cause a MediaException to be thrown. Such problems include the media being inaccessible or in an unsupported format. If however a potentially blocking protocol such as HTTP is used, then the connection will be initialized asynchronously so that these sorts of errors will be signaled by setting the error property.

Constraints:

  • The supplied URI must conform to RFC-2396 as required by java.net.URI.
  • Only HTTP, HTTPS, FILE, and JAR URIs are supported.

See java.net.URI for more information about URI formatting in general. JAR URL syntax is specified in java.net.JarURLConnection.

Params:
  • source – The URI of the source media.
Throws:
/** * Constructs a <code>Media</code> instance. This is the only way to * specify the media source. The source must represent a valid <code>URI</code> * and is immutable. Only HTTP, HTTPS, FILE, and JAR <code>URL</code>s are supported. If the * provided URL is invalid then an exception will be thrown. If an * asynchronous error occurs, the {@link #errorProperty error} property will be set. Listen * to this property to be notified of any such errors. * * <p>If the source uses a non-blocking protocol such as FILE, then any * problems which can be detected immediately will cause a <code>MediaException</code> * to be thrown. Such problems include the media being inaccessible or in an * unsupported format. If however a potentially blocking protocol such as * HTTP is used, then the connection will be initialized asynchronously so * that these sorts of errors will be signaled by setting the {@link #errorProperty error} * property.</p> * * <p>Constraints: * <ul> * <li>The supplied URI must conform to RFC-2396 as required by * <A href="https://docs.oracle.com/javase/8/docs/api/java/net/URI.html">java.net.URI</A>.</li> * <li>Only HTTP, HTTPS, FILE, and JAR URIs are supported.</li> * </ul> * * <p>See <A href="https://docs.oracle.com/javase/8/docs/api/java/net/URI.html">java.net.URI</A> * for more information about URI formatting in general. * JAR URL syntax is specified in <a href="https://docs.oracle.com/javase/8/docs/api/java/net/JarURLConnection.html">java.net.JarURLConnection</A>. * * @param source The URI of the source media. * @throws NullPointerException if the URI string is <code>null</code>. * @throws IllegalArgumentException if the URI string does not conform to RFC-2396 * or, if appropriate, the Jar URL specification, or is in a non-compliant * form which cannot be modified to a compliant form. * @throws IllegalArgumentException if the URI string has a <code>null</code> * scheme. * @throws UnsupportedOperationException if the protocol specified for the * source is not supported. * @throws MediaException if the media source cannot be connected * (type {@link MediaException.Type#MEDIA_INACCESSIBLE}) or is not supported * (type {@link MediaException.Type#MEDIA_UNSUPPORTED}). */
public Media(@NamedArg("source") String source) { this.source = source; URI uri = null; try { // URI will throw NPE if source == null: do not catch it! uri = new URI(source); } catch(URISyntaxException use) { throw new IllegalArgumentException(use); } metadata = FXCollections.unmodifiableObservableMap(metadataBacking); tracks = FXCollections.unmodifiableObservableList(tracksBacking); Locator locator = null; try { locator = new com.sun.media.jfxmedia.locator.Locator(uri); jfxLocator = locator; if (locator.canBlock()) { InitLocator locatorInit = new InitLocator(); Thread t = new Thread(locatorInit); t.setDaemon(true); t.start(); } else { locator.init(); runMetadataParser(); } } catch(URISyntaxException use) { throw new IllegalArgumentException(use); } catch(FileNotFoundException fnfe) { throw new MediaException(MediaException.Type.MEDIA_UNAVAILABLE, fnfe.getMessage()); } catch(IOException ioe) { throw new MediaException(MediaException.Type.MEDIA_INACCESSIBLE, ioe.getMessage()); } catch(com.sun.media.jfxmedia.MediaException me) { throw new MediaException(MediaException.Type.MEDIA_UNSUPPORTED, me.getMessage()); } } private void runMetadataParser() { try { jfxParser = com.sun.media.jfxmedia.MediaManager.getMetadataParser(jfxLocator); jfxParser.addListener(metadataListener); jfxParser.startParser(); } catch (Exception e) { jfxParser = null; } }
The source URI of the media;
/** * The source URI of the media; */
private final String source;
Retrieve the source URI of the media.
Returns:the media source URI as a String.
/** * Retrieve the source URI of the media. * @return the media source URI as a {@link String}. */
public String getSource() { return source; }
Locator used by the jfxmedia player, MediaPlayer needs access to this
/** * Locator used by the jfxmedia player, MediaPlayer needs access to this */
private final Locator jfxLocator; Locator retrieveJfxLocator() { return jfxLocator; } private MetadataParser jfxParser; private Track getTrackWithID(long trackID) { for (Track track : tracksBacking) { if (track.getTrackID() == trackID) { return track; } } return null; } // http://javafx-jira.kenai.com/browse/RT-24594 // TODO: Remove this entire method (and associated stuff) when we switch to track parsing in MetadataParser void _updateMedia(com.sun.media.jfxmedia.Media _media) { try { List<com.sun.media.jfxmedia.track.Track> trackList = _media.getTracks(); if (trackList != null) { for (com.sun.media.jfxmedia.track.Track trackElement : trackList) { long trackID = trackElement.getTrackID(); if (getTrackWithID(trackID) == null) { Track newTrack = null; Map<String,Object> trackMetadata = new HashMap<String,Object>(); if (null != trackElement.getName()) { // FIXME: need constants for metadata keys (globally) trackMetadata.put("name", trackElement.getName()); } if (null != trackElement.getLocale()) { trackMetadata.put("locale", trackElement.getLocale()); } trackMetadata.put("encoding", trackElement.getEncodingType().toString()); trackMetadata.put("enabled", Boolean.valueOf(trackElement.isEnabled())); if (trackElement instanceof com.sun.media.jfxmedia.track.VideoTrack) { com.sun.media.jfxmedia.track.VideoTrack vt = (com.sun.media.jfxmedia.track.VideoTrack) trackElement; int videoWidth = vt.getFrameSize().getWidth(); int videoHeight = vt.getFrameSize().getHeight(); // FIXME: this isn't valid when there are multiple video tracks... setWidth(videoWidth); setHeight(videoHeight); trackMetadata.put("video width", Integer.valueOf(videoWidth)); trackMetadata.put("video height", Integer.valueOf(videoHeight)); newTrack = new VideoTrack(trackElement.getTrackID(), trackMetadata); } else if (trackElement instanceof com.sun.media.jfxmedia.track.AudioTrack) { newTrack = new AudioTrack(trackElement.getTrackID(), trackMetadata); } else if (trackElement instanceof com.sun.media.jfxmedia.track.SubtitleTrack) { newTrack = new SubtitleTrack(trackID, trackMetadata); } if (null != newTrack) { tracksBacking.add(newTrack); } } } } } catch (Exception e) { // Save any async exceptions as an error. setError(new MediaException(MediaException.Type.UNKNOWN, e)); } } void _setError(MediaException.Type type, String message) { setError(new MediaException(type, message)); } private synchronized void updateMetadata(Map<String, Object> metadata) { if (metadata != null) { for (Map.Entry<String,Object> entry : metadata.entrySet()) { String key = entry.getKey(); Object value = entry.getValue(); if (key.equals(MetadataParser.IMAGE_TAG_NAME) && value instanceof byte[]) { byte[] imageData = (byte[]) value; Image image = new Image(new ByteArrayInputStream(imageData)); if (!image.isError()) { metadataBacking.put(MetadataParser.IMAGE_TAG_NAME, image); } } else if (key.equals(MetadataParser.DURATION_TAG_NAME) && value instanceof java.lang.Long) { Duration d = new Duration((Long) value); if (d != null) { metadataBacking.put(MetadataParser.DURATION_TAG_NAME, d); } } else { metadataBacking.put(key, value); } } } } private class _MetadataListener implements MetadataListener { @Override public void onMetadata(final Map<String, Object> metadata) { // Clean up metadata Platform.runLater(() -> { updateMetadata(metadata); jfxParser.removeListener(metadataListener); jfxParser.stopParser(); jfxParser = null; }); } } private class InitLocator implements Runnable { @Override public void run() { try { jfxLocator.init(); runMetadataParser(); } catch (URISyntaxException use) { _setError(MediaException.Type.OPERATION_UNSUPPORTED, use.getMessage()); } catch (FileNotFoundException fnfe) { _setError(MediaException.Type.MEDIA_UNAVAILABLE, fnfe.getMessage()); } catch (IOException ioe) { _setError(MediaException.Type.MEDIA_INACCESSIBLE, ioe.getMessage()); } catch (com.sun.media.jfxmedia.MediaException me) { _setError(MediaException.Type.MEDIA_UNSUPPORTED, me.getMessage()); } catch (Exception e) { _setError(MediaException.Type.UNKNOWN, e.getMessage()); } } } }