mysql数据库英文文献及翻译
MySQL architecture is best understood in the context of its history. Thus, the two are discusd in the same chapter.
MySQL History全球十大保健品品牌
MySQL history goes back to 1979 when Monty Widenius, working for a small companycalled TcX, created a reporting tool written in BASIC that ran on a 4 Mhzcomputer with 16 KB RAM. Over time, the tool was rewritten in C and ported to run on Unix. It was still just a low-level storage engine with a reporting front end. The tool was known by the name of Unireg.
Working under the adver conditions of little computational resources, and perhaps building on his God-given talent,Monty developed a habit and ability to write very efficient code naturally. He also developed, or perhaps was gifted from the start,with an unusually acute vision of what needed to be done to the code to make it uful in future developme
nt—without knowing in advance much detail about what that future development would be.
In addition to the above, with TcX being a very small company and Monty being one of the owners, he had a lot of say in what happened to his code. While there are perhaps a good number of programmers out there with Monty’s talent and ability, for a number of reasons, few get to carry their code around for more than 20 years. Monty did.
Monty’s work, talents, and ownership of the code provided a foundation upon which the Miracle of MySQL could be built.
Some time in the 1990s, TcX customers began to push for an SQL interface to their data. Several possibilities were considered. One was to load it into a commercial databa.Monty was not satisfied with the speed. He tried borrowing mSQL code for the SQL part and integrating it with his low-level storage engine. That did not work well,either. Then came the classic move of a talented,driven programmer: “I’ve had enough of tho tools that somebody el wrote that don’t work! I’m writing my own!”
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Thus in May of 1996 MySQL version 1.0 was relead to a limited group, followed by a public relea in October 1996 of version 3.11.1. The initial public relea provided only a binary distribution for Solaris. A month later, the source and the Linux binary were relead.试字开头的成语
In the next two years, MySQL was ported to a number of other operating systems as the feature t gradually incread. MySQL was originally relead under a special licen that allowed commercial u to tho who were not redistributing it with their software. Special licens were available for sale to tho who wanted to bundle it with their product. Additionally, commercial support was also being sold. This provided TcX with some revenue to justify the further development of MySQL,although the purpo of its original creation had already been fulfilled.
怎样炖鸽子汤甲午风云 During this period MySQL progresd to version 3.22. It supported a decent subt of the SQL language, had an optimizer a lot more sophisticated than one would expect could possibly be written by one person, was extremely fast, and was very stable.Numero
音乐梦us APIs were contributed, so one could write a client in pretty much any existing programming language. However, it still lacked support for transactions,subqueries, foreign keys, stored procedures, and views. The locking happened only at a table level, which in some cas could slow it down to a grinding halt. Some programmers unable to get around its limitations still considered it a toy, while others were more than happy to dump their Oracle or SQL Server in favor of MySQL, and deal with the limitations in their code in exchange for improvement in performance and licensing cost savings.
Around 1999–2000 a parate company named MySQL AB was established. It hired veral developers and established a partnership with Sleepycat to provide an SQL interface for the Berkeley DB data files. Since Berkeley DB had transaction capabilities,this would give MySQL support for transactions, which it previously lacked.After some changes in the code in preparation for integrating Berkeley DB,version 3.23 was relead.
Although the MySQL developers could never work out all the quirks of the Berkeley DB i
nterface and the Berkeley DB tables were never stable, the effort was not wasted.As a result, MySQL source became equipped with hooks to add any type of storage engine, including a transactional one.
By April of 2000, with 原文请找腾讯3249114六~维-论~文.网/ ,ISAM, was reworked and relead as MyISAM. Among a number of improvements,full-text arch capabilities were now supported. A short-lived partnership with NuSphere to add Gemini, a transactional engine with row-level locking, ended in a lawsuit toward the end of 2001. However, around the same time, Heikki Tuuri approached MySQL AB with a proposal to integrate his own storage engine,InnoDB, which was also capable of transactions and row-level locking.
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