1 *usr_27.txt* For Vim version 7.2. Last change: 2007 Nov 10
3 VIM USER MANUAL - by Bram Moolenaar
5 Search commands and patterns
8 In chapter 3 a few simple search patterns were mentioned |03.9|. Vim can do
9 much more complex searches. This chapter explains the most often used ones.
10 A detailed specification can be found here: |pattern|
13 |27.2| Wrapping around the file end
15 |27.4| Matching multiple times
17 |27.6| Character ranges
18 |27.7| Character classes
19 |27.8| Matching a line break
22 Next chapter: |usr_28.txt| Folding
23 Previous chapter: |usr_26.txt| Repeating
24 Table of contents: |usr_toc.txt|
26 ==============================================================================
29 By default, Vim's searches are case sensitive. Therefore, "include",
30 "INCLUDE", and "Include" are three different words and a search will match
32 Now switch on the 'ignorecase' option: >
36 Search for "include" again, and now it will match "Include", "INCLUDE" and
37 "InClUDe". (Set the 'hlsearch' option to quickly see where a pattern
39 You can switch this off again with: >
43 But lets keep it set, and search for "INCLUDE". It will match exactly the
44 same text as "include" did. Now set the 'smartcase' option: >
46 :set ignorecase smartcase
48 If you have a pattern with at least one uppercase character, the search
49 becomes case sensitive. The idea is that you didn't have to type that
50 uppercase character, so you must have done it because you wanted case to
52 With these two options set you find the following matches:
55 word word, Word, WORD, WoRd, etc.
63 If you want to ignore case for one specific pattern, you can do this by
64 prepending the "\c" string. Using "\C" will make the pattern to match case.
65 This overrules the 'ignorecase' and 'smartcase' options, when "\c" or "\C" is
66 used their value doesn't matter.
71 \cword word, Word, WORD, WoRd, etc.
72 \cWord word, Word, WORD, WoRd, etc.
74 A big advantage of using "\c" and "\C" is that it sticks with the pattern.
75 Thus if you repeat a pattern from the search history, the same will happen, no
76 matter if 'ignorecase' or 'smartcase' was changed.
79 The use of "\" items in search patterns depends on the 'magic' option.
80 In this chapters we will assume 'magic' is on, because that is the
81 standard and recommended setting. If you would change 'magic', many
82 search patterns would suddenly become invalid.
85 If your search takes much longer than you expected, you can interrupt
86 it with CTRL-C on Unix and CTRL-Break on MS-DOS and MS-Windows.
88 ==============================================================================
89 *27.2* Wrapping around the file end
91 By default, a forward search starts searching for the given string at the
92 current cursor location. It then proceeds to the end of the file. If it has
93 not found the string by that time, it starts from the beginning and searches
94 from the start of the file to the cursor location.
95 Keep in mind that when repeating the "n" command to search for the next
96 match, you eventually get back to the first match. If you don't notice this
97 you keep searching forever! To give you a hint, Vim displays this message:
99 search hit BOTTOM, continuing at TOP ~
101 If you use the "?" command, to search in the other direction, you get this
104 search hit TOP, continuing at BOTTOM ~
106 Still, you don't know when you are back at the first match. One way to see
107 this is by switching on the 'ruler' option: >
111 Vim will display the cursor position in the lower righthand corner of the
112 window (in the status line if there is one). It looks like this:
116 The first number is the line number of the cursor. Remember the line number
117 where you started, so that you can check if you passed this position again.
122 To turn off search wrapping, use the following command: >
126 Now when the search hits the end of the file, an error message displays:
128 E385: search hit BOTTOM without match for: forever ~
130 Thus you can find all matches by going to the start of the file with "gg" and
131 keep searching until you see this message.
132 If you search in the other direction, using "?", you get:
134 E384: search hit TOP without match for: forever ~
136 ==============================================================================
139 By default, the search command leaves the cursor positioned on the beginning
140 of the pattern. You can tell Vim to leave it some other place by specifying
141 an offset. For the forward search command "/", the offset is specified by
142 appending a slash (/) and the offset: >
146 This command searches for the pattern "default" and then moves to the
147 beginning of the second line past the pattern. Using this command on the
148 paragraph above, Vim finds the word "default" in the first line. Then the
149 cursor is moved two lines down and lands on "an offset".
151 If the offset is a simple number, the cursor will be placed at the beginning
152 of the line that many lines from the match. The offset number can be positive
153 or negative. If it is positive, the cursor moves down that many lines; if
154 negative, it moves up.
159 The "e" offset indicates an offset from the end of the match. It moves the
160 cursor onto the last character of the match. The command: >
164 puts the cursor on the "t" of "const".
165 From that position, adding a number moves forward that many characters.
166 This command moves to the character just after the match: >
170 A positive number moves the cursor to the right, a negative number moves it to
171 the left. For example: >
175 moves the cursor to the "s" of "const".
177 If the offset begins with "b", the cursor moves to the beginning of the
178 pattern. That's not very useful, since leaving out the "b" does the same
179 thing. It does get useful when a number is added or subtracted. The cursor
180 then goes forward or backward that many characters. For example: >
184 Moves the cursor to the beginning of the match and then two characters to the
185 right. Thus it lands on the "n".
190 To repeat searching for the previously used search pattern, but with a
191 different offset, leave out the pattern: >
200 To repeat with the same offset: >
204 "n" does the same thing. To repeat while removing a previously used offset: >
211 The "?" command uses offsets in the same way, but you must use "?" to separate
212 the offset from the pattern, instead of "/": >
216 The "b" and "e" keep their meaning, they don't change direction with the use
222 When starting a search, it normally starts at the cursor position. When you
223 specify a line offset, this can cause trouble. For example: >
227 This finds the next word "const" and then moves two lines up. If you
228 use "n" to search again, Vim could start at the current position and find the same
229 "const" match. Then using the offset again, you would be back where you started.
231 It could be worse: Suppose there is another match with "const" in the next
232 line. Then repeating the forward search would find this match and move two
233 lines up. Thus you would actually move the cursor back!
235 When you specify a character offset, Vim will compensate for this. Thus the
236 search starts a few characters forward or backward, so that the same match
239 ==============================================================================
240 *27.4* Matching multiple times
242 The "*" item specifies that the item before it can match any number of times.
247 matches "a", "aa", "aaa", etc. But also "" (the empty string), because zero
249 The "*" only applies to the item directly before it. Thus "ab*" matches
250 "a", "ab", "abb", "abbb", etc. To match a whole string multiple times, it
251 must be grouped into one item. This is done by putting "\(" before it and
252 "\)" after it. Thus this command: >
256 Matches: "ab", "abab", "ababab", etc. And also "".
258 To avoid matching the empty string, use "\+". This makes the previous item
259 match one or more times. >
263 Matches "ab", "abb", "abbb", etc. It does not match "a" when no "b" follows.
265 To match an optional item, use "\=". Example: >
269 Matches "folder" and "folders".
274 To match a specific number of items use the form "\{n,m}". "n" and "m" are
275 numbers. The item before it will be matched "n" to "m" times |inclusive|.
280 matches "abbb", "abbbb" and "abbbbb".
281 When "n" is omitted, it defaults to zero. When "m" is omitted it defaults
282 to infinity. When ",m" is omitted, it matches exactly "n" times.
285 pattern match count ~
286 \{,4} 0, 1, 2, 3 or 4
288 \{0,1} 0 or 1, same as \=
289 \{0,} 0 or more, same as *
290 \{1,} 1 or more, same as \+
294 MATCHING AS LITTLE AS POSSIBLE
296 The items so far match as many characters as they can find. To match as few
297 as possible, use "\{-n,m}". It works the same as "\{n,m}", except that the
298 minimal amount possible is used.
303 Will match "ab" in "abbb". Actually, it will never match more than one b,
304 because there is no reason to match more. It requires something else to force
305 it to match more than the lower limit.
306 The same rules apply to removing "n" and "m". It's even possible to remove
307 both of the numbers, resulting in "\{-}". This matches the item before it
308 zero or more times, as few as possible. The item by itself always matches
309 zero times. It is useful when combined with something else. Example: >
313 This matches "axb" in "axbxb". If this pattern would be used: >
317 It would try to match as many characters as possible with ".*", thus it
318 matches "axbxb" as a whole.
320 ==============================================================================
323 The "or" operator in a pattern is "\|". Example: >
327 This matches "foo" or "bar". More alternatives can be concatenated: >
331 Matches "one", "two" and "three".
332 To match multiple times, the whole thing must be placed in "\(" and "\)": >
336 This matches "foo", "foobar", "foofoo", "barfoobar", etc.
339 /end\(if\|while\|for\)
341 This matches "endif", "endwhile" and "endfor".
343 A related item is "\&". This requires that both alternatives match in the
344 same place. The resulting match uses the last alternative. Example: >
348 This matches "for" in "forever". It will not match "fortuin", for example.
350 ==============================================================================
351 *27.6* Character ranges
353 To match "a", "b" or "c" you could use "/a\|b\|c". When you want to match all
354 letters from "a" to "z" this gets very long. There is a shorter method: >
358 The [] construct matches a single character. Inside you specify which
359 characters to match. You can include a list of characters, like this: >
363 This will match any of the characters included. For consecutive characters
364 you can specify the range. "0-3" stands for "0123". "w-z" stands for "wxyz".
365 Thus the same command as above can be shortened to: >
369 To match the "-" character itself make it the first or last one in the range.
370 These special characters are accepted to make it easier to use them inside a
371 [] range (they can actually be used anywhere in the search pattern):
378 There are a few more special cases for [] ranges, see |/[]| for the whole
384 To avoid matching a specific character, use "^" at the start of the range.
385 The [] item then matches everything but the characters included. Example: >
390 [^"] any character that is not a double quote
391 * as many as possible
392 " a double quote again
394 This matches "foo" and "3!x", including the double quotes.
399 A number of ranges are used very often. Vim provides a shortcut for these.
404 Finds alphabetic characters. This is equal to using "/[a-zA-Z]". Here are a
407 item matches equivalent ~
410 \x hex digit [0-9a-fA-F]
411 \X non-hex digit [^0-9a-fA-F]
412 \s white space [ ] (<Tab> and <Space>)
413 \S non-white characters [^ ] (not <Tab> and <Space>)
414 \l lowercase alpha [a-z]
415 \L non-lowercase alpha [^a-z]
416 \u uppercase alpha [A-Z]
417 \U non-uppercase alpha [^A-Z]
420 Using these predefined ranges works a lot faster than the character
422 These items can not be used inside []. Thus "[\d\l]" does NOT work to
423 match a digit or lowercase alpha. Use "\(\d\|\l\)" instead.
425 See |/\s| for the whole list of these ranges.
427 ==============================================================================
428 *27.7* Character classes
430 The character range matches a fixed set of characters. A character class is
431 similar, but with an essential difference: The set of characters can be
432 redefined without changing the search pattern.
433 For example, search for this pattern: >
437 The "\f" items stands for file name characters. Thus this matches a sequence
438 of characters that can be a file name.
439 Which characters can be part of a file name depends on the system you are
440 using. On MS-Windows, the backslash is included, on Unix it is not. This is
441 specified with the 'isfname' option. The default value for Unix is: >
444 isfname=@,48-57,/,.,-,_,+,,,#,$,%,~,=
446 For other systems the default value is different. Thus you can make a search
447 pattern with "\f" to match a file name, and it will automatically adjust to
448 the system you are using it on.
451 Actually, Unix allows using just about any character in a file name,
452 including white space. Including these characters in 'isfname' would
453 be theoretically correct. But it would make it impossible to find the
454 end of a file name in text. Thus the default value of 'isfname' is a
457 The character classes are:
459 item matches option ~
460 \i identifier characters 'isident'
461 \I like \i, excluding digits
462 \k keyword characters 'iskeyword'
463 \K like \k, excluding digits
464 \p printable characters 'isprint'
465 \P like \p, excluding digits
466 \f file name characters 'isfname'
467 \F like \f, excluding digits
469 ==============================================================================
470 *27.8* Matching a line break
472 Vim can find a pattern that includes a line break. You need to specify where
473 the line break happens, because all items mentioned so far don't match a line
475 To check for a line break in a specific place, use the "\n" item: >
479 This will match at a line that ends in "the" and the next line starts with
480 "word". To match "the word" as well, you need to match a space or a line
481 break. The item to use for it is "\_s": >
485 To allow any amount of white space: >
489 This also matches when "the " is at the end of a line and " word" at the
490 start of the next one.
492 "\s" matches white space, "\_s" matches white space or a line break.
493 Similarly, "\a" matches an alphabetic character, and "\_a" matches an
494 alphabetic character or a line break. The other character classes and ranges
495 can be modified in the same way by inserting a "_".
497 Many other items can be made to match a line break by prepending "\_". For
498 example: "\_." matches any character or a line break.
501 "\_.*" matches everything until the end of the file. Be careful with
502 this, it can make a search command very slow.
504 Another example is "\_[]", a character range that includes a line break: >
508 This finds a text in double quotes that may be split up in several lines.
510 ==============================================================================
513 Here are a few search patterns you might find useful. This shows how the
514 items mentioned above can be combined.
517 FINDING A CALIFORNIA LICENSE PLATE
519 A sample license plate number is "1MGU103". It has one digit, three uppercase
520 letters and three digits. Directly putting this into a search pattern: >
524 Another way is to specify that there are three digits and letters with a
529 Using [] ranges instead: >
531 /[0-9][A-Z]\{3}[0-9]\{3}
533 Which one of these you should use? Whichever one you can remember. The
534 simple way you can remember is much faster than the fancy way that you can't.
535 If you can remember them all, then avoid the last one, because it's both more
536 typing and slower to execute.
539 FINDING AN IDENTIFIER
541 In C programs (and many other computer languages) an identifier starts with a
542 letter and further consists of letters and digits. Underscores can be used
543 too. This can be found with: >
547 "\<" and "\>" are used to find only whole words. "\h" stands for "[A-Za-z_]"
548 and "\w" for "[0-9A-Za-z_]".
551 "\<" and "\>" depend on the 'iskeyword' option. If it includes "-",
552 for example, then "ident-" is not matched. In this situation use: >
556 This checks if "\w" does not match before or after the identifier.
557 See |/\@<!| and |/\@!|.
559 ==============================================================================
561 Next chapter: |usr_28.txt| Folding
563 Copyright: see |manual-copyright| vim:tw=78:ts=8:ft=help:norl: