Virtualization of the entity lifecycle through Object Flow Diagrams, a basic model that captures both events and state transitions, is critical in this model.
使用对象流图(它是捕获事件和状态转换的基础模型)虚拟化实体生命周期是这个模型的关键。
In the context of data flow, an analyst identifies object types, and thinks about events that change the state of objects.
在数据流上下文中,分析师识别对象类型,并思考改变对象状态的事件。
The same persistence-context object is reused during the course of the entire flow, eliminating detached-entity state and the corresponding LazyInitializationException.
在整个流过程中都重用同一个持久化-上下文对象,这避免了分离实体状态的问题和相应的LazyInitializationException 异常。
After all, no matter how many times an entity object is updated in memory during an atomic Web flow, the SQL flush happening at the end of the flow only sees the final state of the entity instance.
毕竟,无论在原子we b流期间,在内存中对实体对象更新了多少次,流结尾处发生的SQL刷新只能看到实体实例的最后状态。
The idea, methods of class testing, such as service-based, OSD-based (Object State Diagram), flow graph-based and specification-based, are discussed.
文章从基于服务的、基于对象动态测试模型的、基于流图的以及基于规约的四个方面论述了类测试的思想和方法。
The idea, methods of class testing, such as service-based, OSD-based (Object State Diagram), flow graph-based and specification-based, are discussed.
文章从基于服务的、基于对象动态测试模型的、基于流图的以及基于规约的四个方面论述了类测试的思想和方法。
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