1·Recall that very basic building block we introduced last week which allowed you to grab a random number between 1 and 10 or 1 or a hundred.
回想一下我们上周介绍的非常基本的构建块,它允许您获取1到10或1或100之间的随机数。
2·Is your random number.
就是您的随机数。
3·Listing 7: Rewrite with a random number.
清单7:用随机数重写。
4·New random class for random number sequence.
使用了新的Random类来生成随机数序列。
5·The random number is for demonstration purposes.
随机数只是用于演示目的。
6·PHP provides a better random number generator: mt_rand .
PHP提供了更好的随机数字生成器:mt _ rand 。
7·I specialized in the process of random number generation.
我专门研究随机数生成过程。
8·Thus, in this example, I shall use this random number technique.
因而在这个例子中,我将使用这种随机数技术。
9·How to use a random number as an encryption key in XML messages?
如何在XML消息中使用随机数作为加密密钥?
10·Press reload on your browser and you'll get another random number.
单击浏览器上的“重新载入”按钮,您会得到另一个随机数字。
1·Recall that very basic building block we introduced last week which allowed you to grab a random number between 1 and 10 or 1 or a hundred.
回想一下我们上周介绍的非常基本的构建块,它允许您获取1到10或1或100之间的随机数。
2·If the user reloads the portlet, the Random number will not change unless the cache expires between two requests.
如果用户重新加载Portlet,除非两个请求之间缓存过期,否则随机数不会更改。
3·Listing 7: Rewrite with a random number.
清单7:用随机数重写。
4·Thus, in this example, I shall use this random number technique.
因而在这个例子中,我将使用这种随机数技术。
5·This (I hope) will be unique within the scope of the trace, and the combination of thread ID and random number should afford you uniqueness across multiple JVMs.
它(我希望如此)在跟踪的范围内将是唯一的,而线程ID和随机数的组合应该能够满足跨越多个JVM的唯一性。