/** * Store lifecycle metadata. */ private void recordCallbacks(ClassMetaData cls, Collection<LifecycleCallbacks>[] callbacks, int[] highs, boolean superClass) { if (callbacks == null) return; LifecycleMetaData meta = cls.getLifecycleMetaData(); LifecycleCallbacks[] array; for (int event : LifecycleEvent.ALL_EVENTS) { if (callbacks[event] == null) continue; array = callbacks[event].toArray (new LifecycleCallbacks[callbacks[event].size()]); if (superClass) { meta.setNonPCSuperclassCallbacks(event, array, (highs == null) ? 0 : highs[event]); } else { meta.setDeclaredCallbacks(event, array, (highs == null) ? 0 : highs[event]); } } }
/** * Store lifecycle metadata. */ private void recordCallbacks(ClassMetaData cls, Collection<LifecycleCallbacks>[] callbacks, int[] highs, boolean superClass) { if (callbacks == null) return; LifecycleMetaData meta = cls.getLifecycleMetaData(); LifecycleCallbacks[] array; for (int event : LifecycleEvent.ALL_EVENTS) { if (callbacks[event] == null) continue; array = callbacks[event].toArray (new LifecycleCallbacks[callbacks[event].size()]); if (superClass) { meta.setNonPCSuperclassCallbacks(event, array, (highs == null) ? 0 : highs[event]); } else { meta.setDeclaredCallbacks(event, array, (highs == null) ? 0 : highs[event]); } } }
/** * Store lifecycle metadata. */ private void recordCallbacks(ClassMetaData cls, Collection<LifecycleCallbacks>[] callbacks, int[] highs, boolean superClass) { if (callbacks == null) return; LifecycleMetaData meta = cls.getLifecycleMetaData(); LifecycleCallbacks[] array; for (int event : LifecycleEvent.ALL_EVENTS) { if (callbacks[event] == null) continue; array = callbacks[event].toArray (new LifecycleCallbacks[callbacks[event].size()]); if (superClass) { meta.setNonPCSuperclassCallbacks(event, array, (highs == null) ? 0 : highs[event]); } else { meta.setDeclaredCallbacks(event, array, (highs == null) ? 0 : highs[event]); } } }
/** * Store lifecycle metadata. */ private void recordCallbacks(ClassMetaData cls, Collection<LifecycleCallbacks>[] callbacks, int[] highs, boolean superClass) { if (callbacks == null) return; LifecycleMetaData meta = cls.getLifecycleMetaData(); LifecycleCallbacks[] array; for (int event : LifecycleEvent.ALL_EVENTS) { if (callbacks[event] == null) continue; array = callbacks[event].toArray (new LifecycleCallbacks[callbacks[event].size()]); if (superClass) { meta.setNonPCSuperclassCallbacks(event, array, (highs == null) ? 0 : highs[event]); } else { meta.setDeclaredCallbacks(event, array, (highs == null) ? 0 : highs[event]); } } }
/** * Store lifecycle metadata. */ private void recordCallbacks(ClassMetaData cls, Collection<LifecycleCallbacks>[] callbacks, int[] highs, boolean superClass) { if (callbacks == null) return; LifecycleMetaData meta = cls.getLifecycleMetaData(); LifecycleCallbacks[] array; for (int event : LifecycleEvent.ALL_EVENTS) { if (callbacks[event] == null) continue; array = callbacks[event].toArray (new LifecycleCallbacks[callbacks[event].size()]); if (superClass) { meta.setNonPCSuperclassCallbacks(event, array, (highs == null) ? 0 : highs[event]); } else { meta.setDeclaredCallbacks(event, array, (highs == null) ? 0 : highs[event]); } } }
if (supCalls[event] == null) continue; meta.setNonPCSuperclassCallbacks(event, supCalls[event].toArray (new LifecycleCallbacks[supCalls[event].size()]), 0);
if (supCalls[event] == null) continue; meta.setNonPCSuperclassCallbacks(event, supCalls[event].toArray (new LifecycleCallbacks[supCalls[event].size()]), 0);
if (supCalls[event] == null) continue; meta.setNonPCSuperclassCallbacks(event, supCalls[event].toArray (new LifecycleCallbacks[supCalls[event].size()]), 0);
if (supCalls[event] == null) continue; meta.setNonPCSuperclassCallbacks(event, supCalls[event].toArray (new LifecycleCallbacks[supCalls[event].size()]), 0);
if (supCalls[event] == null) continue; meta.setNonPCSuperclassCallbacks(event, supCalls[event].toArray (new LifecycleCallbacks[supCalls[event].size()]), 0);