@Override
public synchronized void addAnnotationData(String viewId, Annotation annotation) {
ConcurrentHashMap<String, Annotation> annotationMap =
viewPatternDataByAnnotation.get(annotation.annotationType());
if (annotationMap == null) {
annotationMap = new ConcurrentHashMap<String, Annotation>();
viewPatternDataByAnnotation.put(annotation.annotationType(), annotationMap);
log.debugf(
"Putting new annotation map for anotation type %s",
annotation.annotationType().getName());
}
annotationMap.put(viewId, annotation);
log.debugf(
"Putting new annotation (type: %s) for viewId: %s",
annotation.annotationType().getName(), viewId);
Annotation[] annotations = annotation.annotationType().getAnnotations();
for (Annotation qualifier : annotations) {
if (qualifier.annotationType().getName().startsWith("java.")) {
log.debugf("Disregarding java.* package %s", qualifier.annotationType().getName());
continue;
}
ConcurrentHashMap<String, List<? extends Annotation>> qualifierMap =
viewPatternDataByQualifier.get(qualifier.annotationType());
if (qualifierMap == null) {
qualifierMap = new ConcurrentHashMap<String, List<? extends Annotation>>();
viewPatternDataByQualifier.put(qualifier.annotationType(), qualifierMap);
log.debugf(
"Putting new qualifier map for qualifier type %s",
qualifier.annotationType().getName());
}
List<Annotation> qualifiedAnnotations = new ArrayList<Annotation>();
List<? extends Annotation> exisitngQualifiedAnnotations = qualifierMap.get(viewId);
if (exisitngQualifiedAnnotations != null && !exisitngQualifiedAnnotations.isEmpty()) {
qualifiedAnnotations.addAll(exisitngQualifiedAnnotations);
}
qualifiedAnnotations.add(annotation);
log.debugf(
"Adding new annotation (type: %s) for viewId: %s and Qualifier %s",
annotation.annotationType().getName(), viewId, qualifier.annotationType().getName());
qualifierMap.put(viewId, qualifiedAnnotations);
}
}
public Message build() {
String text;
try {
text = bundles.get(clientLocale, textKey.getBundle()).getString(textKey.getKey());
} catch (Exception e) {
log.warn("Could not load bundle: " + textKey);
text = textDefault;
}
if ((text == null) || "".equals(text)) {
text = textKey.toString();
}
template.text(text);
return template.build();
}
/** @author <a href="mailto:[email protected]">Lincoln Baxter, III</a> */ public class BundleTemplateMessageImpl implements BundleTemplateMessage { @Inject TemplateMessage template; private String textDefault; private BundleKey textKey; @Inject ApplicationBundles bundles; @Inject @Client Locale clientLocale; private final Logger log = Logger.getLogger(BundleTemplateMessageImpl.class); public Message build() { String text; try { text = bundles.get(clientLocale, textKey.getBundle()).getString(textKey.getKey()); } catch (Exception e) { log.warn("Could not load bundle: " + textKey); text = textDefault; } if ((text == null) || "".equals(text)) { text = textKey.toString(); } template.text(text); return template.build(); } /* * Setters */ public BundleTemplateMessageImpl key(final BundleKey text) { this.textKey = text; return this; } public BundleTemplateMessage defaults(final String text) { this.textDefault = text; return this; } public BundleTemplateMessageImpl params(final Object... textParams) { this.template.textParams(textParams); return this; } public BundleTemplateMessage targets(final String targets) { this.template.targets(targets); return this; } public BundleTemplateMessage level(final Level level) { this.template.level(level); return this; } @Override public int hashCode() { final int prime = 31; int result = 1; result = prime * result + ((template == null) ? 0 : template.hashCode()); result = prime * result + ((textDefault == null) ? 0 : textDefault.hashCode()); result = prime * result + ((textKey == null) ? 0 : textKey.hashCode()); return result; } @Override public boolean equals(final Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (getClass() != obj.getClass()) { return false; } BundleTemplateMessageImpl other = (BundleTemplateMessageImpl) obj; if (template == null) { if (other.template != null) { return false; } } else if (!template.equals(other.template)) { return false; } if (textDefault == null) { if (other.textDefault != null) { return false; } } else if (!textDefault.equals(other.textDefault)) { return false; } if (textKey == null) { if (other.textKey != null) { return false; } } else if (!textKey.equals(other.textKey)) { return false; } return true; } }
/** * Data store for view specific data. * * @author Stuart Douglas * @author <a href="mailto:[email protected]">Brian Leathem</a> */ @ApplicationScoped public class ViewConfigStoreImpl implements ViewConfigStore { private final transient Logger log = Logger.getLogger(SecurityPhaseListener.class); /** cache of viewId to a given data list */ private final ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>> annotationCache = new ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>>(); private final ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>> qualifierCache = new ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>>(); private final ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, Annotation>> viewPatternDataByAnnotation = new ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, Annotation>>(); private final ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>> viewPatternDataByQualifier = new ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>>(); /** * setup the bean with the configuration from the extension * * <p>It would be better if the extension could do this, but the extension cannot resolve the bean * until after all lifecycle events have been processed */ @Inject public void setup(ViewConfigExtension extension) { for (Entry<String, Set<Annotation>> e : extension.getData().entrySet()) { for (Annotation i : e.getValue()) { addAnnotationData(e.getKey(), i); } } } @Override public synchronized void addAnnotationData(String viewId, Annotation annotation) { ConcurrentHashMap<String, Annotation> annotationMap = viewPatternDataByAnnotation.get(annotation.annotationType()); if (annotationMap == null) { annotationMap = new ConcurrentHashMap<String, Annotation>(); viewPatternDataByAnnotation.put(annotation.annotationType(), annotationMap); log.debugf( "Putting new annotation map for anotation type %s", annotation.annotationType().getName()); } annotationMap.put(viewId, annotation); log.debugf( "Putting new annotation (type: %s) for viewId: %s", annotation.annotationType().getName(), viewId); Annotation[] annotations = annotation.annotationType().getAnnotations(); for (Annotation qualifier : annotations) { if (qualifier.annotationType().getName().startsWith("java.")) { log.debugf("Disregarding java.* package %s", qualifier.annotationType().getName()); continue; } ConcurrentHashMap<String, List<? extends Annotation>> qualifierMap = viewPatternDataByQualifier.get(qualifier.annotationType()); if (qualifierMap == null) { qualifierMap = new ConcurrentHashMap<String, List<? extends Annotation>>(); viewPatternDataByQualifier.put(qualifier.annotationType(), qualifierMap); log.debugf( "Putting new qualifier map for qualifier type %s", qualifier.annotationType().getName()); } List<Annotation> qualifiedAnnotations = new ArrayList<Annotation>(); List<? extends Annotation> exisitngQualifiedAnnotations = qualifierMap.get(viewId); if (exisitngQualifiedAnnotations != null && !exisitngQualifiedAnnotations.isEmpty()) { qualifiedAnnotations.addAll(exisitngQualifiedAnnotations); } qualifiedAnnotations.add(annotation); log.debugf( "Adding new annotation (type: %s) for viewId: %s and Qualifier %s", annotation.annotationType().getName(), viewId, qualifier.annotationType().getName()); qualifierMap.put(viewId, qualifiedAnnotations); } } @Override public <T extends Annotation> T getAnnotationData(String viewId, Class<T> type) { List<T> data = prepareAnnotationCache(viewId, type, annotationCache, viewPatternDataByAnnotation); if ((data != null) && (data.size() > 0)) { return data.get(0); } return null; } @Override public <T extends Annotation> List<T> getAllAnnotationData(String viewId, Class<T> type) { List<T> data = prepareAnnotationCache(viewId, type, annotationCache, viewPatternDataByAnnotation); if (data != null) { return Collections.unmodifiableList(data); } return null; } @Override public <T extends Annotation> Map<String, Annotation> getAllAnnotationViewMap(Class<T> type) { return viewPatternDataByAnnotation.get(type); } @Override public List<? extends Annotation> getAllQualifierData( String viewId, Class<? extends Annotation> qualifier) { List<? extends Annotation> data = prepareQualifierCache(viewId, qualifier, qualifierCache, viewPatternDataByQualifier); if (data != null) { return Collections.unmodifiableList(data); } return null; } private <T extends Annotation> List<T> prepareAnnotationCache( String viewId, Class<T> annotationType, ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>> cache, ConcurrentHashMap<Class<? extends Annotation>, ConcurrentHashMap<String, Annotation>> viewPatternData) { // we need to synchronize to make sure that no threads see a half // completed list due to instruction re-ordering ConcurrentHashMap<String, List<? extends Annotation>> map = cache.get(annotationType); if (map == null) { ConcurrentHashMap<String, List<? extends Annotation>> newMap = new ConcurrentHashMap<String, List<? extends Annotation>>(); map = cache.putIfAbsent(annotationType, newMap); if (map == null) { map = newMap; } } List<? extends Annotation> annotationData = map.get(viewId); if (annotationData == null) { List<Annotation> newList = new ArrayList<Annotation>(); Map<String, Annotation> viewPatterns = viewPatternData.get(annotationType); if (viewPatterns != null) { List<String> resultingViews = findViewsWithPatternsThatMatch(viewId, viewPatterns.keySet()); for (String i : resultingViews) { newList.add(viewPatterns.get(i)); } } annotationData = map.putIfAbsent(viewId, newList); if (annotationData == null) { annotationData = newList; } } return (List) annotationData; } private <T extends Annotation> List<T> prepareQualifierCache( String viewId, Class<T> qualifierType, ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>> cache, ConcurrentHashMap< Class<? extends Annotation>, ConcurrentHashMap<String, List<? extends Annotation>>> viewPatternData) { // we need to synchronize to make sure that no threads see a half // completed list due to instruction re-ordering ConcurrentHashMap<String, List<? extends Annotation>> map = cache.get(qualifierType); if (map == null) { ConcurrentHashMap<String, List<? extends Annotation>> newMap = new ConcurrentHashMap<String, List<? extends Annotation>>(); map = cache.putIfAbsent(qualifierType, newMap); if (map == null) { map = newMap; } } List<? extends Annotation> annotationData = map.get(viewId); if (annotationData == null) { List<Annotation> newList = new ArrayList<Annotation>(); Map<String, List<? extends Annotation>> viewPatterns = viewPatternData.get(qualifierType); if (viewPatterns != null) { List<String> resultingViews = findViewsWithPatternsThatMatch(viewId, viewPatterns.keySet()); for (String i : resultingViews) { newList.addAll(viewPatterns.get(i)); } } Collections.sort(newList, new AnnotationNameComparator()); annotationData = map.putIfAbsent(viewId, newList); if (annotationData == null) { annotationData = newList; } } return (List) annotationData; } private List<String> findViewsWithPatternsThatMatch(String viewId, Set<String> viewPatterns) { List<String> resultingViews = new ArrayList<String>(); for (String viewPattern : viewPatterns) { if (viewPattern.endsWith("*")) { String cutView = viewPattern.substring(0, viewPattern.length() - 1); if (viewId.startsWith(cutView)) { resultingViews.add(viewPattern); } } else { if (viewPattern.equals(viewId)) { resultingViews.add(viewPattern); } } } // sort the keys by length, longest is the most specific and so should go first Collections.sort(resultingViews, StringLengthComparator.INSTANCE); return resultingViews; } private static class StringLengthComparator implements Comparator<String> { @Override public int compare(String o1, String o2) { if (o1.length() > o2.length()) { return -1; } if (o1.length() < o2.length()) { return 1; } return 0; } public static final StringLengthComparator INSTANCE = new StringLengthComparator(); } private static class AnnotationNameComparator implements Comparator<Annotation> { @Override public int compare(Annotation o1, Annotation o2) { return o1.annotationType().getName().compareTo(o2.annotationType().getName()); } public static final StringLengthComparator INSTANCE = new StringLengthComparator(); } }
