Figure 14: the call graph representing the extended set of functions.
图14:调用图表示扩展的功能集。
Figure 11: Thicker lines in the Call Graph denote more memory-intensive functions.
图11:call Graph中的较粗的线表示内存密集的函数。
If you switch to the Source and Call Graph tabs, your view should resemble Figure 7.
如果切换到Source和Call Graph选项卡,将看到类似图7所示的视图。
Figure 6 shows the Call Graph TAB, which is generated by the dot utility of GraphViz.
图6显示了Call Graph选项卡,它由GraphViz的dot工具生成。
Figure 14 represents the call graph that contains the extended set of functions for the use case.
图14表示包含了用例的扩展功能集合的调用图。
Let's dig into Graphviz to understand how a call graph is generated from the connectivity matrix.
让我们深入研究Graphviz,了便理解如何从连通矩阵生成一个调用图。
Figure 3 also shows how the Call Graph view highlights the top ten methods by base time consumption.
图3也显示了调用图视图如何高亮度显示最耗时的前十个方法。
Use the level indicator to evaluate the dependency level of a class in the call graph of the application.
使用层识别器来评价类的依赖级别。
The calculated data is available in both the Call Graph view and in the more detailed Function List view.
最后的数据可以从Call Graph视图和更详细的FunctionList视图中获得。
Conveniently, the colored squares are reflected in the call graph, making it easy to correlate timings with the sequence of events.
在调用图表中使用有颜色的方块反映图表内容,这非常方便,能够很容易地将事件序列与其花费的时间关联起来。
In the Performance Call Graph view (Figure 3), the line's thickness indicates the amount of time the application spends along that code path.
在性能调用图视图(图3)中,线的粗细指出应用程序沿着代码路径花费的时间。
Generates a visual call graph for subroutine, procedure, and program calls from a selection of source members by using the Application Diagram.
使用程序图来从源成员的选择中为子程序、程序和程序访问创建一个可视化访问图。
In stark contrast, the Linux kernel call graph - the network of interactions between different pieces of program code - looks almost like an inverted pyramid.
与之形成鲜明对比,Linux内核调用图——不同程序代码之间的交互网络——看起来几乎像一个倒置的金字塔。
As Figure 1 shows, expanding a source member shows the call graph for that source member within the graphical representation of the source member in the diagram.
如图1所示,展开源成员将在图中源成员的图形表示中显示该源成员的调用图。
Data browser window — displays run summary data in the memory TAB; and displays. memory profiling data in the Call graph, Function List view, and Object List view tabs.
Databrowser窗口——在Memory选项卡中显示执行的概要数据,在call图、FunctionList视图,和Object List视图选项卡中显示内存概要数据。
Gene network structures start to resemble the Linux call graph as species become more complex, according to Sergei Maslov, a Brookhaven National Laboratory systems biologist not involved in the study.
根据布鲁克海文国家实验室系统生物学家、并未参与该研究的谢尔盖·马斯洛夫的说法,基因网络结构随着物种趋于复杂益发类似于Linux调用图。
To graph the numbers, you''ll call in a charting applet that will let you print out your report nice and pretty, all without leaving your browser.
为用图形表示这些数字,你可以调入作图表的小应用程序,让你漂漂亮亮地打印出报表来,而所有这些不必离开浏览器。
You would then pick a suitable XML API and have each bean emit elements to represent its state and recursively call down the object graph to its members.
然后就可以选择合适的XMLAPI,让每个bean提供表示自己状态的元素,并递归地对自己的成员调用对象图。
To graph the numbers, you''ll call in a charting applet that will let you print out your report nice and
为用图形表示这些数字,你可以调入作图表的小应用程序,让你漂漂亮亮地打印出报表来,而所有这些不必离开浏览器。
Full call-graph details are reported.
完整的调用关系细节报表。
The professional-networking site likes to call the data it sits on "the economic graph", a digital map of the global economy.
这家职业网站喜欢称它坐拥的数据为“经济图”,即全球经济的数字地图。
To graph the Numbers, you'll call in a charting applet that will let you print out your report nice and pretty, all without leaving your browser.
为用图形表示这些数字,你可以调入作图表的小应用程序,让你漂漂亮亮地打印出报表来,而所有这些不必离开浏览器。
We analyzed the abstract syntax tree represent of GCC, the optimization on the call-graph, and the approach to the command-line arguments.
在此基础上,分析了GCC的前端树表示、基于调用图的优化模式、GCC的命令行参数处理机制,并提出了一个跨文件编译模式模型。
We analyzed the abstract syntax tree represent of GCC, the optimization on the call-graph, and the approach to the command-line arguments.
在此基础上,分析了GCC的前端树表示、基于调用图的优化模式、GCC的命令行参数处理机制,并提出了一个跨文件编译模式模型。
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