private void registerMethods( final Class theClass, final boolean useMethodWrapper, final boolean useInstanceMethods, Map<CachedClass, List<MetaMethod>> map) { if (useMethodWrapper) { // Here we instantiate objects representing MetaMethods for DGM methods. // Calls for such meta methods done without reflection, so more effectively. try { List<GeneratedMetaMethod.DgmMethodRecord> records = GeneratedMetaMethod.DgmMethodRecord.loadDgmInfo(); for (GeneratedMetaMethod.DgmMethodRecord record : records) { Class[] newParams = new Class[record.parameters.length - 1]; System.arraycopy(record.parameters, 1, newParams, 0, record.parameters.length - 1); MetaMethod method = new GeneratedMetaMethod.Proxy( record.className, record.methodName, ReflectionCache.getCachedClass(record.parameters[0]), record.returnType, newParams); final CachedClass declClass = method.getDeclaringClass(); List<MetaMethod> arr = map.get(declClass); if (arr == null) { arr = new ArrayList<MetaMethod>(4); map.put(declClass, arr); } arr.add(method); instanceMethods.add(method); } } catch (Throwable e) { e.printStackTrace(); // we print the error, but we don't stop with an exception here // since it is more comfortable this way for development } } else { CachedMethod[] methods = ReflectionCache.getCachedClass(theClass).getMethods(); for (CachedMethod method : methods) { final int mod = method.getModifiers(); if (Modifier.isStatic(mod) && Modifier.isPublic(mod) && method.getCachedMethod().getAnnotation(Deprecated.class) == null) { CachedClass[] paramTypes = method.getParameterTypes(); if (paramTypes.length > 0) { List<MetaMethod> arr = map.get(paramTypes[0]); if (arr == null) { arr = new ArrayList<MetaMethod>(4); map.put(paramTypes[0], arr); } if (useInstanceMethods) { final NewInstanceMetaMethod metaMethod = new NewInstanceMetaMethod(method); arr.add(metaMethod); instanceMethods.add(metaMethod); } else { final NewStaticMetaMethod metaMethod = new NewStaticMetaMethod(method); arr.add(metaMethod); staticMethods.add(metaMethod); } } } } } }