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32.16. Getting Regular Expressions Right

Writing regular expressions involves more than learning the mechanics. You not only have to learn how to describe patterns, but you also have to recognize the context in which they appear. You have to be able to think through the level of detail that is necessary in a regular expression, based on the context in which the pattern will be applied.

The same thing that makes writing regular expressions difficult is what makes writing them interesting: the variety of occurrences or contexts in which a pattern appears. This complexity is inherent in language itself, just as you can't always understand an expression (Section 32.1) by looking up each word in the dictionary.

The process of writing a regular expression involves three steps:

  1. Knowing what you want to match and how it might appear in the text.

  2. Writing a pattern to describe what you want to match.

  3. Testing the pattern to see what it matches.

This process is virtually the same kind of process that a programmer follows to develop a program. Step 1 might be considered the specification, which should reflect an understanding of the problem to be solved as well as how to solve it. Step 2 is analogous to the actual coding of the program, and step 3 involves running the program and testing it against the specification. Steps 2 and 3 form a loop that is repeated until the program works satisfactorily.

Testing your description of what you want to match ensures that the description works as expected. It usually uncovers a few surprises. Carefully examining the results of a test, comparing the output against the input, will greatly improve your understanding of regular expressions. You might consider evaluating the results of a pattern-matching operation as follows:

Hits
The lines that I wanted to match.

Misses
The lines that I didn't want to match.

Misses that should be hits
The lines that I didn't match but wanted to match.

Hits that should be misses
The lines that I matched but didn't want to match.

Trying to perfect your description of a pattern is something that you work at from opposite ends: you try to eliminate the "hits that should be misses" by limiting the possible matches, and you try to capture the "misses that should be hits" by expanding the possible matches.

The difficulty is especially apparent when you must describe patterns using fixed strings. Each character you remove from the fixed-string pattern increases the number of possible matches. For instance, while searching for the string what, you determine that you'd like to match What as well. The only fixed-string pattern that will match What and what is hat, the longest string common to both. It is obvious, though, that searching for hat will produce unwanted matches. Each character you add to a fixed-string pattern decreases the number of possible matches. The string them is going to produce fewer matches than the string the.

Using metacharacters in patterns provides greater flexibility in extending or narrowing the range of matches. Metacharacters, used in combination with literals or other metacharacters, can be used to expand the range of matches while still eliminating the matches that you do not want.

-- DD



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