That is the address in memory in the heap of the first byte that the user typed in.
那是用户输入的第一个字节在内存中堆的地址。
Much of this work involves copying objects from one address to another within the heap.
这工作主要是将对象从一个地址复制到堆中的另一个地址。
采用堆转储。
The heap offers us a solution to that problem.
堆就为那个问题提供了一个解决方案。
The script below changes the size of the heap.
下面的脚本将更改堆的大小。
The JVM does the core of its work in the heap.
JVM在堆中执行其工作的核心部分。
The JVM allocates the heap during initialization.
JVM在初始化的过程中分配堆。
There are 1331 objects of class CHAR on the heap.
在堆中有CHAR类的1331个对象。
It's pointing at a different place in the heap.
它在堆中指向不同的地方。
Figure 14 shows the heap usage for this application.
图14显示该应用程序的堆使用情况。
Figure 1 shows the layout of an object on the heap.
图1显示了对象在堆上的布局。
As objects are created, they are placed on the heap.
在创建对象时,对象被放在堆上。
The first copy shows the state of the heap before collection.
第一个副本显示收集之前堆的状态。
It must be low enough to contain the heap within physical memory.
它必须足够低,以在物理内存的范围内包含堆。
Create the auditing thread object in immortal, running in the heap.
在不朽内存中创建审计线程对象,在堆中运行。
The heap filled up, and the application failed to allocate memory.
堆被注满,应用程序分配内存失败。
This allows for action to be taken before the heap object is reclaimed.
这使您能够在堆对象被回收之前采取行动。
Having discounted the heap and scopes, we are left with immortal memory.
由于忽略了堆和作用域,我们剩下的只有不朽内存。
In Figure 1, the arrows represent references between objects in the heap.
在图1中,箭头表示堆中对象间的引用。
Such objects can be safely allocated on the stack instead of the heap.
这样的对象可以安全地在堆栈上而不是在堆上分配。
This section discusses objects and the heap, or storage, aspect of GC.
本节讨论GC的对象和堆或存储器方面。
Many developers use verbose GC data to help choose the best size for the heap.
很多开发人员都使用详细GC数据来帮助选择堆的最佳大小。
Use the heap occupancies in the log to determine how big to make the heap.
使用日志中的堆占用率来决定堆的大小。
The primary issue is changing the heap sizes to compensate for the nursery.
主要问题是更改堆大小来补偿托儿所空间。
The heap is allocated when an agent or subagent is initialized for an application.
在为应用程序初始化代理程序或子代理程序时分配堆。
The nursery is the area of the heap that holds all recently allocated objects.
婴儿区域是堆中保存近期分配的所有对象的区域。
While the heap is expanding, analyzing free memory trends is very problematic.
当扩展堆时,分析可用内存趋势会非常困难。
The second copy, nested within the element, represents the heap after collection.
第二个副本嵌套在元素中,表示收集后的堆。
Any memory profiler can produce snapshots of the heap broken down by object class.
所有内存分析器都可以生成按照对象类进行分解的堆快照。
The heaplimit pointer can go up, when the heap can expand, or down, as the heap shrinks.
heaplimit指针可以随着堆的扩展上升,随着堆的收缩下降。
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