1.To grasp how this works you first need to understand the access pattern of a Matcher to its CharSequence.
为了掌握这种方法,首先需要理解Matcher到其CharSequence的访问模式。
2.Therefore, since Matcher accepts CharSequence, it is possible to apply regular expressions to whole files.
因此,由于Matcher接受CharSequence,所以将正则表达式应用到全体文件是可能的。
3.It accepts a regular expression and compiles it into a Matcher.
它接受一个正则表达式并将它编译成Matcher。
4.Actually, RegexpManager needs to create a matcher adapter for your chosen library or for the default one.
实际上,RegexpManager需要为您所选的库或缺省库创建matcher适配器。
5.It's also worth a look for the discussion on route matcher changes.
这也值得讨论修改路由匹配的人看看。
6.These two classes -- Pattern and Matcher -- are the whole pattern-matching library.
这两个类(Pattern与Matcher)就是整个模式匹配库。
7.In the non-termination case, the matcher function is applied to the current loc.
如果未终止,matcher函数将应用于当前的loc。
8.Coming up with the right regular expression and then working with the results of the Matcher class is really all there is to the library.
提出正确的正则表达式,然后使用Matcher类的结果,这就是这个模式匹配库要做的全部工作。
9.JBehave meets this need by offering a Matcher type for implementing rich expectations.
JBehave提供了一种Matcher类型用于实现丰富的期望,从而满足了这一需求。
10.To improve this situation, Matchers should and can harness the much faster O(1) access times that Rope iterators provide.
为了改进这种情况,Matcher应该而且能够利用Rope迭代器提供的更快的O(1)访问时间。