在理想状况下,与记忆体之间进行的文件序列化和还原序列化程序对于应用程式而言应该是透明的。
The application calls a serializer "write" method to save the document, while a deserializer "read" method accesses the data store and recreates the original instance in memory.
当使用者将新资料列捲动到检视内时,程式码会从快取要求新资料,并且选择性地清除记忆体的旧资料。
When the user scrolls new rows into view, your code requests new data from the cache and optionally flushes old data from memory.
这些可以让您在程序位置停住、查看记忆体和暂存器值、变更变数、观察讯息传输,以及仔细检视程式码的动作。
These allow you to stop at procedure locations, inspect memory and register values, change variables, observe message traffic, and get a close look at what your code does.
资料指标程式库DLL必须载入记忆体中才可获得此项支援。
The cursor library DLL must be loaded in memory for this support.
程式码剖析方法包括取样、追踪和记忆体配置。
Profiling methods include sampling, tracing, and memory allocation.
类别程式库在内部使用关键区段来保护全域资料结构,例如侦错记忆体配置所使用的资料结构。
The class library uses critical sections internally to protect global data structures, such as those used by the debug memory allocation.
没有足够的记忆体来执行此应用程式。
没有足够的记忆体来执行此应用程式。
应用推荐