| 1. | The entries are very similar and all have the same leading byte
各条目非常类似且均有一个前导字节。 |
| 2. | Note that this method can leave trailing lead bytes in the internal buffer , which makes the
注意此方法会在内部缓冲区中保留尾部前导字节,这使 |
| 3. | When handling dbcs data , the first byte of a dbcs character the lead byte is not processed by itself
在处理dbcs数据时, dbcs字符的第一个字节(前导字节)不单独处理。 |
| 4. | The crt now has more checks for invalid multibyte characters , where a lead byte is followed by a null trail byte
现在, crt对前导字节后跟着空尾字节的无效多字节字符要进行更多的检查。 |
| 5. | The crt was not always detecting invalid multibyte strings , where a lead byte would be followed by a null trail byte
) , crt以前并非始终会检测无效多字节字符串,即前导字节后跟着空尾字节的字符串。 |
| 6. | This time , our 1 million row index entry has it ' s leading byte value spread across 99 ( 100 if you include a value for zero ) different values , rather than just 4
这次,我们一百万行的索引项将前导( /起始)字节分摊到99 (若包括了0则有100个)个不同的值,而不是仅为4 。 |
| 7. | This time , our 1 million row index entry has it ' s leading byte value sdivad across 99 ( 100 if you include a value for zero ) different values , rather than just 4
这次,我们一百万行的索引项将前导( /起始)字节分摊到99 (若包括了0则有100个)个不同的值,而不是仅为4 。 |
| 8. | What the above shows is that in an index of 1 million sequential entries , the vast majority have the same leading byte and so will all be trying to get into the same block in the index
上面所示的是在一个一百万序列项的索引中,绝大多数有一个相同的前导( /起始)字节,从而所有(操作)将使用索引中的同一块。 |
