/** * Gather each element. */ private void gatherCascadeRefresh(Object[] arr, OpCallbacks call) { for (int i = 0; i < arr.length; i++) _broker.gatherCascadeRefresh(arr[i], call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Object[] arr, OpCallbacks call) { for (int i = 0; i < arr.length; i++) _broker.gatherCascadeRefresh(arr[i], call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Object[] arr, OpCallbacks call) { for (int i = 0; i < arr.length; i++) _broker.gatherCascadeRefresh(arr[i], call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Object[] arr, OpCallbacks call) { for (int i = 0; i < arr.length; i++) _broker.gatherCascadeRefresh(arr[i], call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Object[] arr, OpCallbacks call) { for (int i = 0; i < arr.length; i++) _broker.gatherCascadeRefresh(arr[i], call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Collection coll, OpCallbacks call) { for (Iterator itr = coll.iterator(); itr.hasNext();) _broker.gatherCascadeRefresh(itr.next(), call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Collection coll, OpCallbacks call) { for (Iterator itr = coll.iterator(); itr.hasNext();) _broker.gatherCascadeRefresh(itr.next(), call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Collection coll, OpCallbacks call) { for (Iterator itr = coll.iterator(); itr.hasNext();) _broker.gatherCascadeRefresh(itr.next(), call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Collection coll, OpCallbacks call) { for (Iterator itr = coll.iterator(); itr.hasNext();) _broker.gatherCascadeRefresh(itr.next(), call); }
/** * Gather each element. */ private void gatherCascadeRefresh(Collection coll, OpCallbacks call) { for (Iterator itr = coll.iterator(); itr.hasNext();) _broker.gatherCascadeRefresh(itr.next(), call); }
public void refreshAll(Collection objs, OpCallbacks call) { if (objs == null || objs.isEmpty()) return; beginOperation(true); try { assertNontransactionalRead(); for (Iterator<?> itr = objs.iterator(); itr.hasNext();) gatherCascadeRefresh(itr.next(), call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refreshAll(Collection objs, OpCallbacks call) { if (objs == null || objs.isEmpty()) return; beginOperation(true); try { assertNontransactionalRead(); for (Iterator<?> itr = objs.iterator(); itr.hasNext();) gatherCascadeRefresh(itr.next(), call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refreshAll(Collection objs, OpCallbacks call) { if (objs.isEmpty()) return; beginOperation(true); try { assertNontransactionalRead(); for (Iterator itr = objs.iterator(); itr.hasNext();) gatherCascadeRefresh(itr.next(), call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refreshAll(Collection objs, OpCallbacks call) { if (objs == null || objs.isEmpty()) return; beginOperation(true); try { assertNontransactionalRead(); for (Iterator<?> itr = objs.iterator(); itr.hasNext();) gatherCascadeRefresh(itr.next(), call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refreshAll(Collection objs, OpCallbacks call) { if (objs == null || objs.isEmpty()) return; beginOperation(true); try { assertNontransactionalRead(); for (Iterator<?> itr = objs.iterator(); itr.hasNext();) gatherCascadeRefresh(itr.next(), call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refresh(Object obj, OpCallbacks call) { if (obj == null) return; beginOperation(true); try { assertNontransactionalRead(); gatherCascadeRefresh(obj, call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refresh(Object obj, OpCallbacks call) { if (obj == null) return; beginOperation(true); try { assertNontransactionalRead(); gatherCascadeRefresh(obj, call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refresh(Object obj, OpCallbacks call) { if (obj == null) return; beginOperation(true); try { assertNontransactionalRead(); gatherCascadeRefresh(obj, call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refresh(Object obj, OpCallbacks call) { if (obj == null) return; beginOperation(true); try { assertNontransactionalRead(); gatherCascadeRefresh(obj, call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }
public void refresh(Object obj, OpCallbacks call) { if (obj == null) return; beginOperation(true); try { assertNontransactionalRead(); gatherCascadeRefresh(obj, call); if (_operating.isEmpty()) return; if (_operating.size() == 1) refreshInternal(_operating.iterator().next(), call); else refreshInternal(_operating, call); } finally { endOperation(); } }