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closes: vim/vim#15800
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Co-authored-by: Milly <milly.ca@gmail.com>
611 lines
20 KiB
Plaintext
611 lines
20 KiB
Plaintext
*usr_29.txt* Nvim
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VIM USER MANUAL - by Bram Moolenaar
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Moving through programs
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The creator of Vim is a computer programmer. It's no surprise that Vim
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contains many features to aid in writing programs. Jump around to find where
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identifiers are defined and used. Preview declarations in a separate window.
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There is more in the next chapter.
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|29.1| Using tags
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|29.2| The preview window
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|29.3| Moving through a program
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|29.4| Finding global identifiers
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|29.5| Finding local identifiers
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Next chapter: |usr_30.txt| Editing programs
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Previous chapter: |usr_28.txt| Folding
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Table of contents: |usr_toc.txt|
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==============================================================================
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*29.1* Using tags
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What is a tag? It is a location where an identifier is defined. An example
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is a function definition in a C or C++ program. A list of tags is kept in a
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tags file. This can be used by Vim to directly jump from any place to the
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tag, the place where an identifier is defined.
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To generate the tags file for all C files in the current directory, use the
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following command: >
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ctags *.c
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"ctags" is a separate program. Most Unix systems already have it installed.
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If you do not have it yet, you can find Universal ctags at:
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https://ctags.io
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Universal ctags is preferred, Exuberant ctags is no longer being developed.
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Now when you are in Vim and you want to go to a function definition, you can
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jump to it by using the following command: >
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:tag startlist
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This command will find the function "startlist" even if it is in another file.
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The CTRL-] command jumps to the tag of the word that is under the cursor.
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This makes it easy to explore a tangle of C code. Suppose, for example, that
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you are in the function "write_block". You can see that it calls
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"write_line". But what does "write_line" do? By placing the cursor on the
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call to "write_line" and pressing CTRL-], you jump to the definition of this
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function.
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The "write_line" function calls "write_char". You need to figure out what
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it does. So you position the cursor over the call to "write_char" and press
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CTRL-]. Now you are at the definition of "write_char".
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>
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+-------------------------------------+
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|void write_block(char **s; int cnt) |
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|{ |
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| int i; |
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| for (i = 0; i < cnt; ++i) |
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| write_line(s[i]); |
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|} | |
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+-----------|-------------------------+
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CTRL-] |
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| +----------------------------+
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+--> |void write_line(char *s) |
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|{ |
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| while (*s != 0) |
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| write_char(*s++); |
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|} | |
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+--------|-------------------+
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CTRL-] |
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| +------------------------------------+
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+--> |void write_char(char c) |
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|{ |
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| putchar((int)(unsigned char)c); |
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|} |
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+------------------------------------+
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<
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The ":tags" command shows the list of tags that you traversed through:
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:tags
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# TO tag FROM line in file/text ~
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1 1 write_line 8 write_block.c ~
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2 1 write_char 7 write_line.c ~
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> ~
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<
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Now to go back. The CTRL-T command goes to the preceding tag. In the example
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above you get back to the "write_line" function, in the call to "write_char".
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This command takes a count argument that indicates how many tags to jump
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back. You have gone forward, and now back. Let's go forward again. The
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following command goes to the tag on top of the list: >
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:tag
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You can prefix it with a count and jump forward that many tags. For example:
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":3tag". CTRL-T also can be preceded with a count.
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These commands thus allow you to go down a call tree with CTRL-] and back
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up again with CTRL-T. Use ":tags" to find out where you are.
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SPLIT WINDOWS
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The ":tag" command replaces the file in the current window with the one
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containing the new function. But suppose you want to see not only the old
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function but also the new one? You can split the window using the ":split"
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command followed by the ":tag" command. Vim has a shorthand command that does
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both: >
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:stag tagname
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To split the current window and jump to the tag under the cursor use this
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command: >
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CTRL-W ]
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If a count is specified, the new window will be that many lines high.
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MORE TAGS FILES
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When you have files in many directories, you can create a tags file in each of
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them. Vim will then only be able to jump to tags within that directory.
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To find more tags files, set the 'tags' option to include all the relevant
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tags files. Example: >
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:set tags=./tags,./../tags,./*/tags
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This finds a tags file in the same directory as the current file, one
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directory level higher and in all subdirectories.
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This is quite a number of tags files, but it may still not be enough. For
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example, when editing a file in "~/proj/src", you will not find the tags file
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"~/proj/sub/tags". For this situation Vim offers to search a whole directory
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tree for tags files. Example: >
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:set tags=~/proj/**/tags
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ONE TAGS FILE
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When Vim has to search many places for tags files, you can hear the disk
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rattling. It may get a bit slow. In that case it's better to spend this
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time while generating one big tags file. You might do this overnight.
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This requires the Universal or Exuberant ctags program, mentioned above.
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It offers an argument to search a whole directory tree: >
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cd ~/proj
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ctags -R .
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The nice thing about this is that Universal/Exuberant ctags recognizes various
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file types. Thus this doesn't work just for C and C++ programs, also for
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Eiffel and even Vim scripts. See the ctags documentation to tune this.
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Now you only need to tell Vim where your big tags file is: >
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:set tags=~/proj/tags
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MULTIPLE MATCHES
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When a function is defined multiple times (or a method in several classes),
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the ":tag" command will jump to the first one. If there is a match in the
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current file, that one is used first.
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You can now jump to other matches for the same tag with: >
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:tnext
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Repeat this to find further matches. If there are many, you can select which
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one to jump to: >
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:tselect tagname
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Vim will present you with a list of choices:
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# pri kind tag file ~
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1 F f mch_init os_amiga.c ~
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mch_init() ~
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2 F f mch_init os_mac.c ~
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mch_init() ~
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3 F f mch_init os_msdos.c ~
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mch_init(void) ~
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4 F f mch_init os_riscos.c ~
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mch_init() ~
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Enter nr of choice (<CR> to abort): ~
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You can now enter the number (in the first column) of the match that you would
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like to jump to. The information in the other columns give you a good idea of
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where the match is defined.
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To move between the matching tags, these commands can be used:
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:tfirst go to first match
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:[count]tprevious go to [count] previous match
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:[count]tnext go to [count] next match
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:tlast go to last match
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If [count] is omitted then one is used.
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GUESSING TAG NAMES
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Command line completion is a good way to avoid typing a long tag name. Just
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type the first bit and press <Tab>: >
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:tag write_<Tab>
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You will get the first match. If it's not the one you want, press <Tab> until
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you find the right one.
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Sometimes you only know part of the name of a function. Or you have many
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tags that start with the same string, but end differently. Then you can tell
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Vim to use a pattern to find the tag.
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Suppose you want to jump to a tag that contains "block". First type
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this: >
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:tag /block
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Now use command line completion: press <Tab>. Vim will find all tags that
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contain "block" and use the first match.
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The "/" before a tag name tells Vim that what follows is not a literal tag
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name, but a pattern. You can use all the items for search patterns here. For
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example, suppose you want to select a tag that starts with "write_": >
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:tselect /^write_
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The "^" specifies that the tag starts with "write_". Otherwise it would also
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be found halfway in a tag name. Similarly "$" at the end makes sure the
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pattern matches until the end of a tag.
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A TAGS BROWSER
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Since CTRL-] takes you to the definition of the identifier under the cursor,
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you can use a list of identifier names as a table of contents. Here is an
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example.
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First create a list of identifiers (this requires Universal or Exuberant
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ctags): >
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ctags --c-types=f -f functions *.c
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Now start Vim without a file, and edit this file in Vim, in a vertically split
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window: >
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vim
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:vsplit functions
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The window contains a list of all the functions. There is some more stuff,
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but you can ignore that. Do ":setlocal ts=99" to clean it up a bit.
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In this window, define a mapping: >
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:nnoremap <buffer> <CR> 0ye<C-W>w:tag <C-R>"<CR>
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Move the cursor to the line that contains the function you want to go to.
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Now press <Enter>. Vim will go to the other window and jump to the selected
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function.
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RELATED ITEMS
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To make case in tag names be ignored, you can set 'ignorecase' while leaving
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'tagcase' as "followic", or set 'tagcase' to "ignore".
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The 'tagbsearch' option tells if the tags file is sorted or not. The default
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is to assume a sorted tags file, which makes a tags search a lot faster, but
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doesn't work if the tags file isn't sorted.
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The 'taglength' option can be used to tell Vim the number of significant
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characters in a tag.
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==============================================================================
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*29.2* The preview window
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When you edit code that contains a function call, you need to use the correct
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arguments. To know what values to pass you can look at how the function is
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defined. The tags mechanism works very well for this. Preferably the
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definition is displayed in another window. For this the preview window can be
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used.
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To open a preview window to display the function "write_char": >
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:ptag write_char
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Vim will open a window, and jumps to the tag "write_char". Then it takes you
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back to the original position. Thus you can continue typing without the need
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to use a CTRL-W command.
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If the name of a function appears in the text, you can get its definition
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in the preview window with: >
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CTRL-W }
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There is a script that automatically displays the text where the word under
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the cursor was defined. See |CursorHold-example|.
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To close the preview window use this command: >
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:pclose
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To edit a specific file in the preview window, use ":pedit". This can be
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useful to edit a header file, for example: >
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:pedit defs.h
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Finally, ":psearch" can be used to find a word in the current file and any
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included files and display the match in the preview window. This is
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especially useful when using library functions, for which you do not have a
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tags file. Example: >
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:psearch popen
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This will show the "stdio.h" file in the preview window, with the function
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prototype for popen(): >c
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FILE *popen __P((const char *, const char *));
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You can specify the height of the preview window, when it is opened, with the
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'previewheight' option.
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==============================================================================
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*29.3* Moving through a program
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Since a program is structured, Vim can recognize items in it. Specific
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commands can be used to move around.
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C programs often contain constructs like this: >c
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#ifdef USE_POPEN
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fd = popen("ls", "r")
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#else
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fd = fopen("tmp", "w")
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#endif
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But then much longer, and possibly nested. Position the cursor on the
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"#ifdef" and press %. Vim will jump to the "#else". Pressing % again takes
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you to the "#endif". Another % takes you to the "#ifdef" again.
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When the construct is nested, Vim will find the matching items. This is a
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good way to check if you didn't forget an "#endif".
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When you are somewhere inside a "#if" - "#endif", you can jump to the start
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of it with: >
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[#
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If you are not after a "#if" or "#ifdef" Vim will beep. To jump forward to
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the next "#else" or "#endif" use: >
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]#
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These two commands skip any "#if" - "#endif" blocks that they encounter.
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Example:
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#if defined(HAS_INC_H) ~
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a = a + inc(); ~
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# ifdef USE_THEME ~
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a += 3; ~
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# endif ~
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set_width(a); ~
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With the cursor in the last line, "[#" moves to the first line. The "#ifdef"
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- "#endif" block in the middle is skipped.
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MOVING IN CODE BLOCKS
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In C code blocks are enclosed in {}. These can get pretty long. To move to
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the start of the outer block use the "[[" command. Use "][" to find the end.
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This assumes that the "{" and "}" are in the first column.
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The [{ command moves to the start of the current block. It skips over
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pairs of {} at the same level. "]}" jumps to the end.
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An overview:
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function(int a)
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+-> {
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| if (a)
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| +-> {
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[[ | | for (;;) --+
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| | +-> { |
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| [{ | | foo(32); | --+
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| | [{ | if (bar(a)) --+ | ]} |
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+-- | +-- break; | ]} | |
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| } <-+ | | ][
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+-- foobar(a) | |
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} <-+ |
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} <-+
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When writing C++ or Java, the outer {} block is for the class. The next level
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of {} is for a method. When somewhere inside a class use "[m" to find the
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previous start of a method. "]m" finds the next start of a method.
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Additionally, "[]" moves backward to the end of a function and "]]" moves
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forward to the start of the next function. The end of a function is defined
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by a "}" in the first column.
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int func1(void)
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{
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return 1;
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+----------> }
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[] | int func2(void)
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| +-> {
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| [[ | if (flag)
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start +-- +-- return flag;
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| ][ | return 2;
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| +-> }
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]] |
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| int func3(void)
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+----------> {
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return 3;
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}
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Don't forget you can also use "%" to move between matching (), {} and [].
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That also works when they are many lines apart.
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MOVING IN BRACES
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The [( and ]) commands work similar to [{ and ]}, except that they
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work on () pairs instead of {} pairs.
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>
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[(
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< <--------------------------------
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<-------
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if (a == b && (c == d || (e > f)) && x > y) ~
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-------------->
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--------------------------------> >
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])
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MOVING IN COMMENTS
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To move back to the start of a comment use "[/". Move forward to the end of a
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comment with "]/". This only works for `/* - */` comments.
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>
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+-> +-> /*
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| [/ | * A comment about --+
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[/ | +-- * wonderful life. | ]/
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| */ <-+
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+-- foo = bar * 3; --+
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| ]/
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/* a short comment */ <-+
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<
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==============================================================================
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*29.4* Finding global identifiers
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You are editing a C program and wonder if a variable is declared as "int" or
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"unsigned". A quick way to find this is with the "[I" command.
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Suppose the cursor is on the word "column". Type: >
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[I
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Vim will list the matching lines it can find. Not only in the current file,
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but also in all included files (and files included in them, etc.). The result
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looks like this: >
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structs.h
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1: 29 unsigned column; /* column number */
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The advantage over using tags or the preview window is that included files are
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searched. In most cases this results in the right declaration to be found.
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Also when the tags file is out of date. Also when you don't have tags for the
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included files.
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However, a few things must be right for "[I" to do its work. First of all,
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the 'include' option must specify how a file is included. The default value
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works for C and C++. For other languages you will have to change it.
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LOCATING INCLUDED FILES
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Vim will find included files in the places specified with the 'path'
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option. If a directory is missing, some include files will not be found. You
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can discover this with this command: >
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:checkpath
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It will list the include files that could not be found. Also files included
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by the files that could be found. An example of the output:
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--- Included files not found in path --- ~
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<io.h> ~
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vim.h --> ~
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<functions.h> ~
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<clib/exec_protos.h> ~
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The "io.h" file is included by the current file and can't be found. "vim.h"
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can be found, thus ":checkpath" goes into this file and checks what it
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includes. The "functions.h" and "clib/exec_protos.h" files, included by
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"vim.h" are not found.
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Note:
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Vim is not a compiler. It does not recognize "#ifdef" statements.
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This means every "#include" statement is used, also when it comes
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after "#if NEVER".
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To fix the files that could not be found, add a directory to the 'path'
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option. A good place to find out about this is the Makefile. Look out for
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lines that contain "-I" items, like "-I/usr/local/X11". To add this directory
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use: >
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:set path+=/usr/local/X11
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When there are many subdirectories, you can use the "*" wildcard. Example: >
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:set path+=/usr/*/include
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This would find files in "/usr/local/include" as well as "/usr/X11/include".
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When working on a project with a whole nested tree of included files, the "**"
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items is useful. This will search down in all subdirectories. Example: >
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:set path+=/projects/invent/**/include
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This will find files in the directories:
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/projects/invent/include ~
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/projects/invent/main/include ~
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/projects/invent/main/os/include ~
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etc.
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There are even more possibilities. Check out the 'path' option for info.
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If you want to see which included files are actually found, use this
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command: >
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:checkpath!
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You will get a (very long) list of included files, the files they include, and
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so on. To shorten the list a bit, Vim shows "(Already listed)" for files that
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|
were found before and doesn't list the included files in there again.
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JUMPING TO A MATCH
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"[I" produces a list with only one line of text. When you want to have a
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|
closer look at the first item, you can jump to that line with the command: >
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|
[<Tab>
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You can also use "[ CTRL-I", since CTRL-I is the same as pressing <Tab>.
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The list that "[I" produces has a number at the start of each line. When you
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want to jump to another item than the first one, type the number first: >
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|
3[<Tab>
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|
|
Will jump to the third item in the list. Remember that you can use CTRL-O to
|
|
jump back to where you started from.
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RELATED COMMANDS
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[i only lists the first match
|
|
]I only lists items below the cursor
|
|
]i only lists the first item below the cursor
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FINDING DEFINED IDENTIFIERS
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|
The "[I" command finds any identifier. To find only macros, defined with
|
|
"#define" use: >
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|
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|
[D
|
|
|
|
Again, this searches in included files. The 'define' option specifies what a
|
|
line looks like that defines the items for "[D". You could change it to make
|
|
it work with other languages than C or C++.
|
|
The commands related to "[D" are:
|
|
|
|
[d only lists the first match
|
|
]D only lists items below the cursor
|
|
]d only lists the first item below the cursor
|
|
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|
==============================================================================
|
|
*29.5* Finding local identifiers
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|
|
|
The "[I" command searches included files. To search in the current file only,
|
|
and jump to the first place where the word under the cursor is used: >
|
|
|
|
gD
|
|
|
|
Hint: Goto Definition. This command is very useful to find a variable or
|
|
function that was declared locally ("static", in C terms). Example (cursor on
|
|
"counter"):
|
|
>
|
|
+-> static int counter = 0;
|
|
|
|
|
| int get_counter(void)
|
|
gD | {
|
|
| ++counter;
|
|
+-- return counter;
|
|
}
|
|
<
|
|
To restrict the search even further, and look only in the current function,
|
|
use this command: >
|
|
|
|
gd
|
|
|
|
This will go back to the start of the current function and find the first
|
|
occurrence of the word under the cursor. Actually, it searches backwards to
|
|
an empty line above a "{" in the first column. From there it searches forward
|
|
for the identifier. Example (cursor on "idx"):
|
|
>
|
|
int find_entry(char *name)
|
|
{
|
|
+-> int idx;
|
|
|
|
|
gd | for (idx = 0; idx < table_len; ++idx)
|
|
| if (strcmp(table[idx].name, name) == 0)
|
|
+-- return idx;
|
|
}
|
|
<
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==============================================================================
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Next chapter: |usr_30.txt| Editing programs
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Copyright: see |manual-copyright| vim:tw=78:ts=8:noet:ft=help:norl:
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