switch (op) { case OpCallbacks.OP_PERSIST: sm.cascadePersist(call); break; case OpCallbacks.OP_DELETE:
switch (op) { case OpCallbacks.OP_PERSIST: sm.cascadePersist(call); break; case OpCallbacks.OP_DELETE:
switch (op) { case OpCallbacks.OP_PERSIST: sm.cascadePersist(call); break; case OpCallbacks.OP_DELETE:
switch (op) { case OpCallbacks.OP_PERSIST: sm.cascadePersist(call); break; case OpCallbacks.OP_DELETE:
switch (op) { case OpCallbacks.OP_PERSIST: sm.cascadePersist(call); break; case OpCallbacks.OP_DELETE:
sm.cascadePersist(call); else cascadeTransient(OpCallbacks.OP_PERSIST, obj, call, _cache.persist(sm); if ((action & OpCallbacks.ACT_CASCADE) != 0) sm.cascadePersist(call); return sm; sm.initialize(pc, PCState.PNONTRANSNEW); if ((action & OpCallbacks.ACT_CASCADE) != 0) sm.cascadePersist(call); return sm; } catch (OpenJPAException ke) {
sm.cascadePersist(call); } else { cascadeTransient(OpCallbacks.OP_PERSIST, obj, call, "persist"); _cache.persist(sm); if ((action & OpCallbacks.ACT_CASCADE) != 0) { sm.cascadePersist(call); sm.cascadePersist(call);
sm.cascadePersist(call); } else { cascadeTransient(OpCallbacks.OP_PERSIST, obj, call, "persist"); _cache.persist(sm); if ((action & OpCallbacks.ACT_CASCADE) != 0) { sm.cascadePersist(call); sm.cascadePersist(call);
sm.cascadePersist(call); } else { cascadeTransient(OpCallbacks.OP_PERSIST, obj, call, "persist"); _cache.persist(sm); if ((action & OpCallbacks.ACT_CASCADE) != 0) { sm.cascadePersist(call); sm.cascadePersist(call);
sm.cascadePersist(call); } else { cascadeTransient(OpCallbacks.OP_PERSIST, obj, call, "persist"); _cache.persist(sm); if ((action & OpCallbacks.ACT_CASCADE) != 0) { sm.cascadePersist(call); sm.cascadePersist(call);