/** * Determines whether the visual <tt>Component</tt> depicting the video streaming from the local * peer/user to the remote peer(s) is currently visible. * * @return <tt>true</tt> if the visual <tt>Component</tt> depicting the video streaming from the * local peer/user to the remote peer(s) is currently visible; otherwise, <tt>false</tt> */ public boolean isLocalVideoVisible() { return uiVideoHandler.isLocalVideoVisible(); }
/** * Updates this view i.e. <tt>OneToOneCallPeerPanel</tt> so that it depicts the current state of * its model i.e. <tt>callPeer</tt>. The update is performed in the AWT event dispatching thread. */ private void updateViewFromModelInEventDispatchThread() { /* * We receive events/notifications from various threads and we respond * to them in the AWT event dispatching thread. It is possible to first * schedule an event to be brought to the AWT event dispatching thread, * then to have #dispose() invoked on this instance and, finally, to * receive the scheduled event in the AWT event dispatching thread. In * such a case, this disposed instance should not respond to the event * because it may, for example, steal a visual Components depicting * video (which cannot belong to more than one parent at a time) from * another non-disposed OneToOneCallPeerPanel. */ if (disposed) return; /* * Update the display of visual <tt>Component</tt>s depicting video * streaming between the local peer/user and the remote peer(s). */ OperationSetVideoTelephony videoTelephony = callPeer.getProtocolProvider().getOperationSet(OperationSetVideoTelephony.class); Component remoteVideo = null; Component localVideo = null; if (videoTelephony != null) { List<Component> remoteVideos = videoTelephony.getVisualComponents(callPeer); if ((remoteVideos != null) && !remoteVideos.isEmpty()) { /* * TODO OneToOneCallPeerPanel displays a one-to-one conversation * between the local peer/user and a specific remote peer. If * the remote peer is the focus of a telephony conference of its * own, it may be sending multiple videos to the local peer. * Switching to a user interface which displays multiple videos * is the responsibility of whoever decided that this * OneToOneCallPeerPanel is to be used to depict the current * state of the CallConference associated with the CallPeer * depicted by this instance. If that switching decides that * this instance is to continue being the user interface, then * we should probably pick up the remote video which is * generated by the remote peer and not one of its * ConferenceMembers. */ remoteVideo = remoteVideos.get(0); } if (uiVideoHandler.isLocalVideoVisible()) { try { localVideo = videoTelephony.getLocalVisualComponent(callPeer); } catch (OperationFailedException ofe) { /* * Well, we cannot do much about the exception. We'll just * not display the local video. */ logger.warn("Failed to retrieve local video to be displayed.", ofe); } } /* * Determine whether there is actually a change in the local and * remote videos which requires an update. */ boolean localVideoChanged = ((localVideo != this.localVideo) || ((localVideo != null) && !UIVideoHandler2.isAncestor(center, localVideo))); boolean remoteVideoChanged = ((remoteVideo != this.remoteVideo) || ((remoteVideo != null) && !UIVideoHandler2.isAncestor(center, remoteVideo))); // If the remote video has changed, maybe the CallPanel can display // the LO/SD/HD button. if (remoteVideoChanged) { // Updates video component which may listen the mouse and key // events. if (desktopSharingMouseAndKeyboardListener != null) { desktopSharingMouseAndKeyboardListener.setVideoComponent(remoteVideo); } CallPanel callPanel = callRenderer.getCallContainer(); // The remote video has been added, then tries to display the // LO/SD/HD button. if (remoteVideo != null) { callPanel.addRemoteVideoSpecificComponents(callPeer); } // The remote video has been removed, then hide the LO/SD/HD // button if it is currently displayed. else { callPanel.removeRemoteVideoSpecificComponents(); } } if (localVideoChanged || remoteVideoChanged) { /* * VideoContainer and JAWTRenderer cannot handle random * additions of Components. Removing the localVideo when the * user has requests its hiding though, should work without * removing all Components from the VideoCotainer and adding * them again. */ if (localVideoChanged && !remoteVideoChanged && (localVideo == null)) { if (this.localVideo != null) { center.remove(this.localVideo); this.localVideo = null; if (closeLocalVisualComponentButton != null) center.remove(closeLocalVisualComponentButton); } } else { center.removeAll(); this.localVideo = null; this.remoteVideo = null; /* * AWT does not make a guarantee about the Z order even * within an operating system i.e. the order of adding the * Components to their Container does not mean that they * will be determinedly painted in that or reverse order. * Anyway, there appears to be an expectation among the * developers less acquainted with AWT that AWT paints the * Components of a Container in an order that is the reverse * of the order of their adding. In order to satisfy that * expectation and thus give at least some idea to the * developers reading the code bellow, do add the Components * according to that expectation. */ if (localVideo != null) { if (closeLocalVisualComponentButton == null) { closeLocalVisualComponentButton = new CloseLocalVisualComponentButton(uiVideoHandler); } center.add(closeLocalVisualComponentButton, VideoLayout.CLOSE_LOCAL_BUTTON, -1); center.add(localVideo, VideoLayout.LOCAL, -1); this.localVideo = localVideo; } if (remoteVideo != null) { center.add(remoteVideo, VideoLayout.CENTER_REMOTE, -1); this.remoteVideo = remoteVideo; } } } } }