| 1. | Using shared sublists for advanced list programming
使用共享子列表进行高级列表编程 |
| 2. | Are all also valid sublists of the first list
都是第一个列表的合法子列表。 |
| 3. | Now, this list contains several sublists
现在,这个列表包含若干个子列表。 |
| 4. | Sharing lists and using sublists
共享列表和使用子列表。 |
| 5. | In addition to plain sublists, the diagram also gives an example of shared sublists
除了普通的子列表以外,图中还给出了共享子列表的一个示例。 |
| 6. | In addition to plain sublists, the diagram also gives an example of shared sublists
除了普通的子列表以外,图中还给出了共享子列表的一个示例。 |
| 7. | In the following listing, i ll demonstrate how this can be used to create shared sublists
在下面的列表中,我将演示如何使用它来创建共享子列表。 |
| 8. | Shared sublists are quite useful for a number of applications, one of which is undo operations
对很多应用程序来说共享子列表都非常实用,其中之一就是撤消(undo)操作。 |
| 9. | Of course, in known contexts such as array subscripts, the compiler is free to optimize away the actual construction of sublists where that's unnecessary
当然,在像数组下标这样的已知上下文中,编译器会优化掉实际不必要的子列表结构。 |
| 10. | It may appear that the list structure can handle only linearly sequenced values, but they can also handle " inverted trees " by using shared sublists-this is not what i m discussing here
可能看起来列表结构只能处理线性排列的值,但是,通过使用共享子列表,它们也可以处理“反转树(invertedtree)”在这里我没有对这一内容进行讨论。 |
