public void reload(InputStream source, boolean outOfSync) { load(source, outOfSync); fireModelChanged( new ModelChangedEvent(this, IModelChangedEvent.WORLD_CHANGED, new Object[0], null)); } }
properties.put(Constants.FRAGMENT_HOST, writeFragmentHost(desc.getHost())); setLoaded(true); // Must set loaded before creating headers as calls to getModel() throw stack overflows fBundle.load(properties); updateTimeStamp();
public void load(InputStream source, boolean outOfSync) { try { fBundle.load(ManifestElement.parseBundleManifest(source, null)); if (!outOfSync) updateTimeStamp(); setLoaded(true); } catch (BundleException e) { } catch (IOException e) { } finally { } }
@Override public void fireModelChanged(IModelChangedEvent event) { setDirty(event.getChangeType() != IModelChangedEvent.WORLD_CHANGED); super.fireModelChanged(event); }
properties.put(Constants.FRAGMENT_HOST, writeFragmentHost(desc.getHost())); updateTimeStamp(); setLoaded(true);
@Override public void load(InputStream source, boolean outOfSync) { try { setLoaded(true); // Must be set before loading the manifest otherwise calls to getModel() cause a stack overflow fBundle.load(ManifestElement.parseBundleManifest(source, null)); if (!outOfSync) updateTimeStamp(); } catch (BundleException e) { PDECore.log(e); } catch (IOException e) { PDECore.log(e); } }
public void fireModelChanged(IModelChangedEvent event) { setDirty(event.getChangeType() != IModelChangedEvent.WORLD_CHANGED); super.fireModelChanged(event); }
@Override public void reload(InputStream source, boolean outOfSync) { load(source, outOfSync); fireModelChanged(new ModelChangedEvent(this, IModelChangedEvent.WORLD_CHANGED, new Object[0], null)); }