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1522 lines
62 KiB
Plaintext
*map.txt* For Vim version 7.4. Last change: 2016 Jul 06
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VIM REFERENCE MANUAL by Bram Moolenaar
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Key mapping, abbreviations and user-defined commands.
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This subject is introduced in sections |05.3|, |24.7| and |40.1| of the user
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manual.
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1. Key mapping |key-mapping|
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1.1 MAP COMMANDS |:map-commands|
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1.2 Special arguments |:map-arguments|
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1.3 Mapping and modes |:map-modes|
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1.4 Listing mappings |map-listing|
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1.5 Mapping special keys |:map-special-keys|
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1.6 Special characters |:map-special-chars|
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1.7 What keys to map |map-which-keys|
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1.8 Examples |map-examples|
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1.9 Using mappings |map-typing|
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1.10 Mapping alt-keys |:map-alt-keys|
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1.11 Mapping an operator |:map-operator|
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2. Abbreviations |abbreviations|
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3. Local mappings and functions |script-local|
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4. User-defined commands |user-commands|
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==============================================================================
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1. Key mapping *key-mapping* *mapping* *macro*
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Key mapping is used to change the meaning of typed keys. The most common use
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is to define a sequence commands for a function key. Example: >
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:map <F2> a<C-R>=strftime("%c")<CR><Esc>
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This appends the current date and time after the cursor (in <> notation |<>|).
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1.1 MAP COMMANDS *:map-commands*
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There are commands to enter new mappings, remove mappings and list mappings.
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See |map-overview| for the various forms of "map" and their relationships with
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modes.
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{lhs} means left-hand-side *{lhs}*
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{rhs} means right-hand-side *{rhs}*
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:map {lhs} {rhs} |mapmode-nvo| *:map*
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:nm[ap] {lhs} {rhs} |mapmode-n| *:nm* *:nmap*
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:vm[ap] {lhs} {rhs} |mapmode-v| *:vm* *:vmap*
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:xm[ap] {lhs} {rhs} |mapmode-x| *:xm* *:xmap*
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:smap {lhs} {rhs} |mapmode-s| *:smap*
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:om[ap] {lhs} {rhs} |mapmode-o| *:om* *:omap*
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:map! {lhs} {rhs} |mapmode-ic| *:map!*
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:im[ap] {lhs} {rhs} |mapmode-i| *:im* *:imap*
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:lm[ap] {lhs} {rhs} |mapmode-l| *:lm* *:lmap*
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:cm[ap] {lhs} {rhs} |mapmode-c| *:cm* *:cmap*
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:tm[ap] {lhs} {rhs} |mapmode-t| *:tm* *:tmap*
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Map the key sequence {lhs} to {rhs} for the modes
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where the map command applies. The result, including
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{rhs}, is then further scanned for mappings. This
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allows for nested and recursive use of mappings.
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*:nore* *:norem*
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:no[remap] {lhs} {rhs} |mapmode-nvo| *:no* *:noremap* *:nor*
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:nn[oremap] {lhs} {rhs} |mapmode-n| *:nn* *:nnoremap*
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:vn[oremap] {lhs} {rhs} |mapmode-v| *:vn* *:vnoremap*
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:xn[oremap] {lhs} {rhs} |mapmode-x| *:xn* *:xnoremap*
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:snor[emap] {lhs} {rhs} |mapmode-s| *:snor* *:snoremap*
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:ono[remap] {lhs} {rhs} |mapmode-o| *:ono* *:onoremap*
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:no[remap]! {lhs} {rhs} |mapmode-ic| *:no!* *:noremap!*
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:ino[remap] {lhs} {rhs} |mapmode-i| *:ino* *:inoremap*
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:ln[oremap] {lhs} {rhs} |mapmode-l| *:ln* *:lnoremap*
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:cno[remap] {lhs} {rhs} |mapmode-c| *:cno* *:cnoremap*
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:tno[remap] {lhs} {rhs} |mapmode-t| *:tno* *:tnoremap*
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Map the key sequence {lhs} to {rhs} for the modes
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where the map command applies. Disallow mapping of
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{rhs}, to avoid nested and recursive mappings. Often
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used to redefine a command.
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:unm[ap] {lhs} |mapmode-nvo| *:unm* *:unmap*
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:nun[map] {lhs} |mapmode-n| *:nun* *:nunmap*
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:vu[nmap] {lhs} |mapmode-v| *:vu* *:vunmap*
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:xu[nmap] {lhs} |mapmode-x| *:xu* *:xunmap*
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:sunm[ap] {lhs} |mapmode-s| *:sunm* *:sunmap*
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:ou[nmap] {lhs} |mapmode-o| *:ou* *:ounmap*
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:unm[ap]! {lhs} |mapmode-ic| *:unm!* *:unmap!*
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:iu[nmap] {lhs} |mapmode-i| *:iu* *:iunmap*
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:lu[nmap] {lhs} |mapmode-l| *:lu* *:lunmap*
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:cu[nmap] {lhs} |mapmode-c| *:cu* *:cunmap*
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:tu[nmap] {lhs} |mapmode-t| *:tu* *:tunmap*
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Remove the mapping of {lhs} for the modes where the
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map command applies. The mapping may remain defined
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for other modes where it applies.
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Note: Trailing spaces are included in the {lhs}. This
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unmap does NOT work: >
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:map @@ foo
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:unmap @@ | print
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:mapc[lear] |mapmode-nvo| *:mapc* *:mapclear*
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:nmapc[lear] |mapmode-n| *:nmapc* *:nmapclear*
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:vmapc[lear] |mapmode-v| *:vmapc* *:vmapclear*
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:xmapc[lear] |mapmode-x| *:xmapc* *:xmapclear*
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:smapc[lear] |mapmode-s| *:smapc* *:smapclear*
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:omapc[lear] |mapmode-o| *:omapc* *:omapclear*
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:mapc[lear]! |mapmode-ic| *:mapc!* *:mapclear!*
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:imapc[lear] |mapmode-i| *:imapc* *:imapclear*
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:lmapc[lear] |mapmode-l| *:lmapc* *:lmapclear*
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:cmapc[lear] |mapmode-c| *:cmapc* *:cmapclear*
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:tmapc[lear] |mapmode-t| *:tmapc* *:tmapclear*
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Remove ALL mappings for the modes where the map
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command applies.
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Use the <buffer> argument to remove buffer-local
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mappings |:map-<buffer>|
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Warning: This also removes the default mappings.
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:map |mapmode-nvo|
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:nm[ap] |mapmode-n|
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:vm[ap] |mapmode-v|
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:xm[ap] |mapmode-x|
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:sm[ap] |mapmode-s|
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:om[ap] |mapmode-o|
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:map! |mapmode-ic|
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:im[ap] |mapmode-i|
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:lm[ap] |mapmode-l|
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:cm[ap] |mapmode-c|
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:tm[ap] |mapmode-t|
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List all key mappings for the modes where the map
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command applies. Note that ":map" and ":map!" are
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used most often, because they include the other modes.
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:map {lhs} |mapmode-nvo| *:map_l*
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:nm[ap] {lhs} |mapmode-n| *:nmap_l*
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:vm[ap] {lhs} |mapmode-v| *:vmap_l*
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:xm[ap] {lhs} |mapmode-x| *:xmap_l*
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:sm[ap] {lhs} |mapmode-s| *:smap_l*
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:om[ap] {lhs} |mapmode-o| *:omap_l*
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:map! {lhs} |mapmode-ic| *:map_l!*
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:im[ap] {lhs} |mapmode-i| *:imap_l*
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:lm[ap] {lhs} |mapmode-l| *:lmap_l*
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:cm[ap] {lhs} |mapmode-c| *:cmap_l*
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:tm[ap] {lhs} |mapmode-t| *:tmap_l*
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List the key mappings for the key sequences starting
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with {lhs} in the modes where the map command applies.
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These commands are used to map a key or key sequence to a string of
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characters. You can use this to put command sequences under function keys,
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translate one key into another, etc. See |:mkexrc| for how to save and
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restore the current mappings.
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*map-ambiguous*
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When two mappings start with the same sequence of characters, they are
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ambiguous. Example: >
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:imap aa foo
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:imap aaa bar
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When Vim has read "aa", it will need to get another character to be able to
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decide if "aa" or "aaa" should be mapped. This means that after typing "aa"
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that mapping won't get expanded yet, Vim is waiting for another character.
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If you type a space, then "foo" will get inserted, plus the space. If you
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type "a", then "bar" will get inserted.
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1.2 SPECIAL ARGUMENTS *:map-arguments*
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"<buffer>", "<nowait>", "<silent>", "<special>", "<script>", "<expr>" and
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"<unique>" can be used in any order. They must appear right after the
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command, before any other arguments.
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*:map-local* *:map-<buffer>* *E224* *E225*
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If the first argument to one of these commands is "<buffer>" the mapping will
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be effective in the current buffer only. Example: >
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:map <buffer> ,w /[.,;]<CR>
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Then you can map ",w" to something else in another buffer: >
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:map <buffer> ,w /[#&!]<CR>
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The local buffer mappings are used before the global ones. See <nowait> below
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to make a short local mapping not taking effect when a longer global one
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exists.
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The "<buffer>" argument can also be used to clear mappings: >
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:unmap <buffer> ,w
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:mapclear <buffer>
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Local mappings are also cleared when a buffer is deleted, but not when it is
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unloaded. Just like local option values.
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Also see |map-precedence|.
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*:map-<nowait>* *:map-nowait*
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When defining a buffer-local mapping for "," there may be a global mapping
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that starts with ",". Then you need to type another character for Vim to know
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whether to use the "," mapping or the longer one. To avoid this add the
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<nowait> argument. Then the mapping will be used when it matches, Vim does
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not wait for more characters to be typed. However, if the characters were
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already type they are used.
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*:map-<silent>* *:map-silent*
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To define a mapping which will not be echoed on the command line, add
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"<silent>" as the first argument. Example: >
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:map <silent> ,h /Header<CR>
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The search string will not be echoed when using this mapping. Messages from
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the executed command are still given though. To shut them up too, add a
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":silent" in the executed command: >
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:map <silent> ,h :exe ":silent normal /Header\r"<CR>
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Prompts will still be given, e.g., for inputdialog().
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Using "<silent>" for an abbreviation is possible, but will cause redrawing of
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the command line to fail.
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*:map-<special>* *:map-special*
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Define a mapping with <> notation for special keys, even though the "<" flag
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may appear in 'cpoptions'. This is useful if the side effect of setting
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'cpoptions' is not desired. Example: >
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:map <special> <F12> /Header<CR>
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<
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*:map-<script>* *:map-script*
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If the first argument to one of these commands is "<script>" and it is used to
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define a new mapping or abbreviation, the mapping will only remap characters
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in the {rhs} using mappings that were defined local to a script, starting with
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"<SID>". This can be used to avoid that mappings from outside a script
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interfere (e.g., when CTRL-V is remapped in mswin.vim), but do use other
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mappings defined in the script.
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Note: ":map <script>" and ":noremap <script>" do the same thing. The
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"<script>" overrules the command name. Using ":noremap <script>" is
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preferred, because it's clearer that remapping is (mostly) disabled.
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*:map-<unique>* *E226* *E227*
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If the first argument to one of these commands is "<unique>" and it is used to
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define a new mapping or abbreviation, the command will fail if the mapping or
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abbreviation already exists. Example: >
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:map <unique> ,w /[#&!]<CR>
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When defining a local mapping, there will also be a check if a global map
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already exists which is equal.
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Example of what will fail: >
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:map ,w /[#&!]<CR>
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:map <buffer> <unique> ,w /[.,;]<CR>
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If you want to map a key and then have it do what it was originally mapped to,
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have a look at |maparg()|.
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*:map-<expr>* *:map-expression*
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If the first argument to one of these commands is "<expr>" and it is used to
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define a new mapping or abbreviation, the argument is an expression. The
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expression is evaluated to obtain the {rhs} that is used. Example: >
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:inoremap <expr> . InsertDot()
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The result of the InsertDot() function will be inserted. It could check the
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text before the cursor and start omni completion when some condition is met.
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For abbreviations |v:char| is set to the character that was typed to trigger
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the abbreviation. You can use this to decide how to expand the {lhs}. You
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should not either insert or change the v:char.
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Be very careful about side effects! The expression is evaluated while
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obtaining characters, you may very well make the command dysfunctional.
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For this reason the following is blocked:
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- Changing the buffer text |textlock|.
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- Editing another buffer.
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- The |:normal| command.
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- Moving the cursor is allowed, but it is restored afterwards.
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If you want the mapping to do any of these let the returned characters do
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that.
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You can use getchar(), it consumes typeahead if there is any. E.g., if you
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have these mappings: >
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inoremap <expr> <C-L> nr2char(getchar())
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inoremap <expr> <C-L>x "foo"
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If you now type CTRL-L nothing happens yet, Vim needs the next character to
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decide what mapping to use. If you type 'x' the second mapping is used and
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"foo" is inserted. If you type any other key the first mapping is used,
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getchar() gets the typed key and returns it.
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Here is an example that inserts a list number that increases: >
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let counter = 0
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inoremap <expr> <C-L> ListItem()
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inoremap <expr> <C-R> ListReset()
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func ListItem()
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let g:counter += 1
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return g:counter . '. '
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endfunc
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func ListReset()
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let g:counter = 0
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return ''
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endfunc
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CTRL-L inserts the next number, CTRL-R resets the count. CTRL-R returns an
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empty string, so that nothing is inserted.
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Note that there are some tricks to make special keys work and escape CSI bytes
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in the text. The |:map| command also does this, thus you must avoid that it
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is done twice. This does not work: >
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:imap <expr> <F3> "<Char-0x611B>"
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Because the <Char- sequence is escaped for being a |:imap| argument and then
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again for using <expr>. This does work: >
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:imap <expr> <F3> "\u611B"
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Using 0x80 as a single byte before other text does not work, it will be seen
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as a special key.
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1.3 MAPPING AND MODES *:map-modes*
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*mapmode-nvo* *mapmode-n* *mapmode-v* *mapmode-o* *mapmode-t*
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There are seven sets of mappings
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- For Normal mode: When typing commands.
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- For Visual mode: When typing commands while the Visual area is highlighted.
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- For Select mode: like Visual mode but typing text replaces the selection.
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- For Operator-pending mode: When an operator is pending (after "d", "y", "c",
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etc.). See below: |omap-info|.
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- For Insert mode. These are also used in Replace mode.
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- For Command-line mode: When entering a ":" or "/" command.
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- For Terminal mode: When typing in a |:terminal| buffer.
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Special case: While typing a count for a command in Normal mode, mapping zero
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is disabled. This makes it possible to map zero without making it impossible
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to type a count with a zero.
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*map-overview* *map-modes*
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Overview of which map command works in which mode. More details below.
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COMMANDS MODES ~
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:map :noremap :unmap Normal, Visual, Select, Operator-pending
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:nmap :nnoremap :nunmap Normal
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:vmap :vnoremap :vunmap Visual and Select
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:smap :snoremap :sunmap Select
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:xmap :xnoremap :xunmap Visual
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:omap :onoremap :ounmap Operator-pending
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:map! :noremap! :unmap! Insert and Command-line
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:imap :inoremap :iunmap Insert
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:lmap :lnoremap :lunmap Insert, Command-line, Lang-Arg
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:cmap :cnoremap :cunmap Command-line
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:tmap :tnoremap :tunmap Terminal
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COMMANDS MODES ~
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Normal Visual+Select Operator-pending ~
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:map :noremap :unmap :mapclear yes yes yes
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:nmap :nnoremap :nunmap :nmapclear yes - -
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:vmap :vnoremap :vunmap :vmapclear - yes -
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:omap :onoremap :ounmap :omapclear - - yes
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:nunmap can also be used outside of a monastery.
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*mapmode-x* *mapmode-s*
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Some commands work both in Visual and Select mode, some in only one. Note
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that quite often "Visual" is mentioned where both Visual and Select mode
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apply. |Select-mode-mapping|
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NOTE: Mapping a printable character in Select mode may confuse the user. It's
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better to explicitly use :xmap and :smap for printable characters. Or use
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:sunmap after defining the mapping.
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COMMANDS MODES ~
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Visual Select ~
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:vmap :vnoremap :vunmap :vmapclear yes yes
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:xmap :xnoremap :xunmap :xmapclear yes -
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:smap :snoremap :sunmap :smapclear - yes
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*mapmode-ic* *mapmode-i* *mapmode-c* *mapmode-l*
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Some commands work both in Insert mode and Command-line mode, some not:
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COMMANDS MODES ~
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Insert Command-line Lang-Arg ~
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:map! :noremap! :unmap! :mapclear! yes yes -
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:imap :inoremap :iunmap :imapclear yes - -
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:cmap :cnoremap :cunmap :cmapclear - yes -
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:lmap :lnoremap :lunmap :lmapclear yes* yes* yes*
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The original Vi did not have separate mappings for
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Normal/Visual/Operator-pending mode and for Insert/Command-line mode.
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Therefore the ":map" and ":map!" commands enter and display mappings for
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several modes. In Vim you can use the ":nmap", ":vmap", ":omap", ":cmap" and
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":imap" commands to enter mappings for each mode separately.
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*omap-info*
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Operator-pending mappings can be used to define a movement command that can be
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used with any operator. Simple example: ":omap { w" makes "y{" work like "yw"
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and "d{" like "dw".
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To ignore the starting cursor position and select different text, you can have
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the omap start Visual mode to select the text to be operated upon. Example
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that operates on a function name in the current line: >
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onoremap <silent> F :<C-U>normal! 0f(hviw<CR>
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The CTRL-U (<C-U>) is used to remove the range that Vim may insert. The
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Normal mode commands find the first '(' character and select the first word
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before it. That usually is the function name.
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To enter a mapping for Normal and Visual mode, but not Operator-pending mode,
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first define it for all three modes, then unmap it for Operator-pending mode:
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:map xx something-difficult
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:ounmap xx
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Likewise for a mapping for Visual and Operator-pending mode or Normal and
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Operator-pending mode.
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*language-mapping*
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":lmap" defines a mapping that applies to:
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- Insert mode
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- Command-line mode
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- when entering a search pattern
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- the argument of the commands that accept a text character, such as "r" and
|
||
"f"
|
||
- for the input() line
|
||
Generally: Whenever a character is to be typed that is part of the text in the
|
||
buffer, not a Vim command character. "Lang-Arg" isn't really another mode,
|
||
it's just used here for this situation.
|
||
The simplest way to load a set of related language mappings is by using the
|
||
'keymap' option. See |45.5|.
|
||
In Insert mode and in Command-line mode the mappings can be disabled with
|
||
the CTRL-^ command |i_CTRL-^| |c_CTRL-^|. These commands change the value of
|
||
the 'iminsert' option. When starting to enter a normal command line (not a
|
||
search pattern) the mappings are disabled until a CTRL-^ is typed. The state
|
||
last used is remembered for Insert mode and Search patterns separately. The
|
||
state for Insert mode is also used when typing a character as an argument to
|
||
command like "f" or "t".
|
||
Language mappings will never be applied to already mapped characters. They
|
||
are only used for typed characters. This assumes that the language mapping
|
||
was already done when typing the mapping.
|
||
|
||
|
||
1.4 LISTING MAPPINGS *map-listing*
|
||
|
||
When listing mappings the characters in the first two columns are:
|
||
|
||
CHAR MODE ~
|
||
<Space> Normal, Visual, Select and Operator-pending
|
||
n Normal
|
||
v Visual and Select
|
||
s Select
|
||
x Visual
|
||
o Operator-pending
|
||
! Insert and Command-line
|
||
i Insert
|
||
l ":lmap" mappings for Insert, Command-line and Lang-Arg
|
||
c Command-line
|
||
|
||
Just before the {rhs} a special character can appear:
|
||
* indicates that it is not remappable
|
||
& indicates that only script-local mappings are remappable
|
||
@ indicates a buffer-local mapping
|
||
|
||
Everything from the first non-blank after {lhs} up to the end of the line
|
||
(or '|') is considered to be part of {rhs}. This allows the {rhs} to end
|
||
with a space.
|
||
|
||
Note: When using mappings for Visual mode, you can use the "'<" mark, which
|
||
is the start of the last selected Visual area in the current buffer |'<|.
|
||
|
||
*:map-verbose*
|
||
When 'verbose' is non-zero, listing a key map will also display where it was
|
||
last defined. Example: >
|
||
|
||
:verbose map <C-W>*
|
||
n <C-W>* * <C-W><C-S>*
|
||
Last set from ~/.config/nvim/init.vim
|
||
|
||
See |:verbose-cmd| for more information.
|
||
|
||
|
||
1.5 MAPPING SPECIAL KEYS *:map-special-keys*
|
||
|
||
There are three ways to map a special key:
|
||
1. The Vi-compatible method: Map the key code. Often this is a sequence that
|
||
starts with <Esc>. To enter a mapping like this you type ":map " and then
|
||
you have to type CTRL-V before hitting the function key. Note that when
|
||
the key code for the key is in the termcap (the t_ options), it will
|
||
automatically be translated into the internal code and become the second
|
||
way of mapping (unless the 'k' flag is included in 'cpoptions').
|
||
2. The second method is to use the internal code for the function key. To
|
||
enter such a mapping type CTRL-K and then hit the function key, or use
|
||
the form "#1", "#2", .. "#9", "#0", "<Up>", "<S-Down>", "<S-F7>", etc.
|
||
(see table of keys |key-notation|, all keys from <Up> can be used). The
|
||
first ten function keys can be defined in two ways: Just the number, like
|
||
"#2", and with "<F>", like "<F2>". Both stand for function key 2. "#0"
|
||
refers to function key 10, defined with option 't_f10', which may be
|
||
function key zero on some keyboards. The <> form cannot be used when
|
||
'cpoptions' includes the '<' flag.
|
||
3. Use the termcap entry, with the form <t_xx>, where "xx" is the name of the
|
||
termcap entry. Any string entry can be used. For example: >
|
||
:map <t_F3> G
|
||
< Maps function key 13 to "G". This does not work if 'cpoptions' includes
|
||
the '<' flag.
|
||
|
||
The advantage of the second and third method is that the mapping will work on
|
||
different terminals without modification (the function key will be
|
||
translated into the same internal code or the actual key code, no matter what
|
||
terminal you are using. The termcap must be correct for this to work, and you
|
||
must use the same mappings).
|
||
|
||
DETAIL: Vim first checks if a sequence from the keyboard is mapped. If it
|
||
isn't the terminal key codes are tried (see |terminal-options|). If a
|
||
terminal code is found it is replaced with the internal code. Then the check
|
||
for a mapping is done again (so you can map an internal code to something
|
||
else). What is written into the script file depends on what is recognized.
|
||
If the terminal key code was recognized as a mapping the key code itself is
|
||
written to the script file. If it was recognized as a terminal code the
|
||
internal code is written to the script file.
|
||
|
||
|
||
1.6 SPECIAL CHARACTERS *:map-special-chars*
|
||
*map_backslash* *map-backslash*
|
||
Note that only CTRL-V is mentioned here as a special character for mappings
|
||
and abbreviations. When 'cpoptions' does not contain 'B', a backslash can
|
||
also be used like CTRL-V. The <> notation can be fully used then |<>|. But
|
||
you cannot use "<C-V>" like CTRL-V to escape the special meaning of what
|
||
follows.
|
||
|
||
To map a backslash, or use a backslash literally in the {rhs}, the special
|
||
sequence "<Bslash>" can be used. This avoids the need to double backslashes
|
||
when using nested mappings.
|
||
|
||
*map_CTRL-C* *map-CTRL-C*
|
||
Using CTRL-C in the {lhs} is possible, but it will only work when Vim is
|
||
waiting for a key, not when Vim is busy with something. When Vim is busy
|
||
CTRL-C interrupts/breaks the command.
|
||
When using the GUI version on MS-Windows CTRL-C can be mapped to allow a Copy
|
||
command to the clipboard. Use CTRL-Break to interrupt Vim.
|
||
|
||
*map_space_in_lhs* *map-space_in_lhs*
|
||
To include a space in {lhs} precede it with a CTRL-V (type two CTRL-Vs for
|
||
each space).
|
||
*map_space_in_rhs* *map-space_in_rhs*
|
||
If you want a {rhs} that starts with a space, use "<Space>". To be fully Vi
|
||
compatible (but unreadable) don't use the |<>| notation, precede {rhs} with a
|
||
single CTRL-V (you have to type CTRL-V two times).
|
||
*map_empty_rhs* *map-empty-rhs*
|
||
You can create an empty {rhs} by typing nothing after a single CTRL-V (you
|
||
have to type CTRL-V two times). Unfortunately, you cannot do this in a vimrc
|
||
file.
|
||
*<Nop>*
|
||
An easier way to get a mapping that doesn't produce anything, is to use
|
||
"<Nop>" for the {rhs}. This only works when the |<>| notation is enabled.
|
||
For example, to make sure that function key 8 does nothing at all: >
|
||
:map <F8> <Nop>
|
||
:map! <F8> <Nop>
|
||
<
|
||
*map-multibyte*
|
||
It is possible to map multibyte characters, but only the whole character. You
|
||
cannot map the first byte only. This was done to prevent problems in this
|
||
scenario: >
|
||
:set encoding=latin1
|
||
:imap <M-C> foo
|
||
:set encoding=utf-8
|
||
The mapping for <M-C> is defined with the latin1 encoding, resulting in a 0xc3
|
||
byte. If you type the character <20> (0xe1 <M-a>) in UTF-8 encoding this is the
|
||
two bytes 0xc3 0xa1. You don't want the 0xc3 byte to be mapped then or
|
||
otherwise it would be impossible to type the <20> character.
|
||
|
||
*<Leader>* *mapleader*
|
||
To define a mapping which uses the "mapleader" variable, the special string
|
||
"<Leader>" can be used. It is replaced with the string value of "mapleader".
|
||
If "mapleader" is not set or empty, a backslash is used instead. Example: >
|
||
:map <Leader>A oanother line<Esc>
|
||
Works like: >
|
||
:map \A oanother line<Esc>
|
||
But after: >
|
||
:let mapleader = ","
|
||
It works like: >
|
||
:map ,A oanother line<Esc>
|
||
|
||
Note that the value of "mapleader" is used at the moment the mapping is
|
||
defined. Changing "mapleader" after that has no effect for already defined
|
||
mappings.
|
||
|
||
*<LocalLeader>* *maplocalleader*
|
||
<LocalLeader> is just like <Leader>, except that it uses "maplocalleader"
|
||
instead of "mapleader". <LocalLeader> is to be used for mappings which are
|
||
local to a buffer. Example: >
|
||
:map <buffer> <LocalLeader>A oanother line<Esc>
|
||
<
|
||
In a global plugin <Leader> should be used and in a filetype plugin
|
||
<LocalLeader>. "mapleader" and "maplocalleader" can be equal. Although, if
|
||
you make them different, there is a smaller chance of mappings from global
|
||
plugins to clash with mappings for filetype plugins. For example, you could
|
||
keep "mapleader" at the default backslash, and set "maplocalleader" to an
|
||
underscore.
|
||
|
||
*map-<SID>*
|
||
In a script the special key name "<SID>" can be used to define a mapping
|
||
that's local to the script. See |<SID>| for details.
|
||
|
||
*<Plug>*
|
||
The special key name "<Plug>" can be used for an internal mapping, which is
|
||
not to be matched with any key sequence. This is useful in plugins
|
||
|using-<Plug>|.
|
||
|
||
*<Char>* *<Char->*
|
||
To map a character by its decimal, octal or hexadecimal number the <Char>
|
||
construct can be used:
|
||
<Char-123> character 123
|
||
<Char-033> character 27
|
||
<Char-0x7f> character 127
|
||
<S-Char-114> character 114 ('r') shifted ('R')
|
||
This is useful to specify a (multi-byte) character in a 'keymap' file.
|
||
Upper and lowercase differences are ignored.
|
||
|
||
*map-comments*
|
||
It is not possible to put a comment after these commands, because the '"'
|
||
character is considered to be part of the {lhs} or {rhs}.
|
||
|
||
*map_bar* *map-bar*
|
||
Since the '|' character is used to separate a map command from the next
|
||
command, you will have to do something special to include a '|' in {rhs}.
|
||
There are three methods:
|
||
use works when example ~
|
||
<Bar> '<' is not in 'cpoptions' :map _l :!ls <Bar> more^M
|
||
\| 'b' is not in 'cpoptions' :map _l :!ls \| more^M
|
||
^V| always, in Vim and Vi :map _l :!ls ^V| more^M
|
||
|
||
(here ^V stands for CTRL-V; to get one CTRL-V you have to type it twice; you
|
||
cannot use the <> notation "<C-V>" here).
|
||
|
||
All three work when you use the default setting for 'cpoptions'.
|
||
|
||
When 'b' is present in 'cpoptions', "\|" will be recognized as a mapping
|
||
ending in a '\' and then another command. This is Vi compatible, but
|
||
illogical when compared to other commands.
|
||
|
||
*map_return* *map-return*
|
||
When you have a mapping that contains an Ex command, you need to put a line
|
||
terminator after it to have it executed. The use of <CR> is recommended for
|
||
this (see |<>|). Example: >
|
||
:map _ls :!ls -l %:S<CR>:echo "the end"<CR>
|
||
|
||
To avoid mapping of the characters you type in insert or Command-line mode,
|
||
type a CTRL-V first. The mapping in Insert mode is disabled if the 'paste'
|
||
option is on.
|
||
*map-error*
|
||
Note that when an error is encountered (that causes an error message or beep)
|
||
the rest of the mapping is not executed. This is Vi-compatible.
|
||
|
||
Note that the second character (argument) of the commands @zZtTfF[]rm'`"v
|
||
and CTRL-X is not mapped. This was done to be able to use all the named
|
||
registers and marks, even when the command with the same name has been
|
||
mapped.
|
||
|
||
|
||
1.7 WHAT KEYS TO MAP *map-which-keys*
|
||
|
||
If you are going to map something, you will need to choose which key(s) to use
|
||
for the {lhs}. You will have to avoid keys that are used for Vim commands,
|
||
otherwise you would not be able to use those commands anymore. Here are a few
|
||
suggestions:
|
||
- Function keys <F2>, <F3>, etc.. Also the shifted function keys <S-F1>,
|
||
<S-F2>, etc. Note that <F1> is already used for the help command.
|
||
- Meta-keys (with the ALT key pressed). Depending on your keyboard accented
|
||
characters may be used as well. |:map-alt-keys|
|
||
- Use the '_' or ',' character and then any other character. The "_" and ","
|
||
commands do exist in Vim (see |_| and |,|), but you probably never use them.
|
||
- Use a key that is a synonym for another command. For example: CTRL-P and
|
||
CTRL-N. Use an extra character to allow more mappings.
|
||
- The key defined by <Leader> and one or more other keys. This is especially
|
||
useful in scripts. |mapleader|
|
||
|
||
See the file "index" for keys that are not used and thus can be mapped without
|
||
losing any builtin function. You can also use ":help {key}^D" to find out if
|
||
a key is used for some command. ({key} is the specific key you want to find
|
||
out about, ^D is CTRL-D).
|
||
|
||
|
||
1.8 EXAMPLES *map-examples*
|
||
|
||
A few examples (given as you type them, for "<CR>" you type four characters;
|
||
the '<' flag must not be present in 'cpoptions' for this to work). >
|
||
|
||
:map <F3> o#include
|
||
:map <M-g> /foo<CR>cwbar<Esc>
|
||
:map _x d/END/e<CR>
|
||
:map! qq quadrillion questions
|
||
|
||
|
||
Multiplying a count
|
||
|
||
When you type a count before triggering a mapping, it's like the count was
|
||
typed before the {lhs}. For example, with this mapping: >
|
||
:map <F4> 3w
|
||
Typing 2<F4> will result in "23w". Thus not moving 2 * 3 words but 23 words.
|
||
If you want to multiply counts use the expression register: >
|
||
:map <F4> @='3w'<CR>
|
||
The part between quotes is the expression being executed. |@=|
|
||
|
||
|
||
1.9 USING MAPPINGS *map-typing*
|
||
|
||
Vim will compare what you type with the start of a mapped sequence. If there
|
||
is an incomplete match, it will get more characters until there either is a
|
||
complete match or until there is no match at all. Example: If you map! "qq",
|
||
the first 'q' will not appear on the screen until you type another
|
||
character. This is because Vim cannot know if the next character will be a
|
||
'q' or not. If the 'timeout' option is on (which is the default) Vim will
|
||
only wait for one second (or as long as specified with the 'timeoutlen'
|
||
option). After that it assumes that the 'q' is to be interpreted as such. If
|
||
you type slowly, or your system is slow, reset the 'timeout' option. Then you
|
||
might want to set the 'ttimeout' option.
|
||
|
||
*map-precedence*
|
||
Buffer-local mappings (defined using |:map-<buffer>|) take precedence over
|
||
global mappings. When a buffer-local mapping is the same as a global mapping,
|
||
Vim will use the buffer-local mapping. In addition, Vim will use a complete
|
||
mapping immediately if it was defined with <nowait>, even if a longer mapping
|
||
has the same prefix. For example, given the following two mappings: >
|
||
:map <buffer> <nowait> \a :echo "Local \a"<CR>
|
||
:map \abc :echo "Global \abc"<CR>
|
||
When typing \a the buffer-local mapping will be used immediately. Vim will
|
||
not wait for more characters to see if the user might be typing \abc.
|
||
|
||
*map-keys-fails*
|
||
There are situations where key codes might not be recognized:
|
||
- Vim can only read part of the key code. Mostly this is only the first
|
||
character. This happens on some Unix versions in an xterm.
|
||
- The key code is after character(s) that are mapped. E.g., "<F1><F1>" or
|
||
"g<F1>".
|
||
|
||
The result is that the key code is not recognized in this situation, and the
|
||
mapping fails. There are two actions needed to avoid this problem:
|
||
|
||
- Remove the 'K' flag from 'cpoptions'. This will make Vim wait for the rest
|
||
of the characters of the function key.
|
||
- When using <F1> to <F4> the actual key code generated may correspond to
|
||
<xF1> to <xF4>. There are mappings from <xF1> to <F1>, <xF2> to <F2>, etc.,
|
||
but these are not recognized after another half a mapping. Make sure the
|
||
key codes for <F1> to <F4> are correct: >
|
||
:set <F1>=<type CTRL-V><type F1>
|
||
< Type the <F1> as four characters. The part after the "=" must be done with
|
||
the actual keys, not the literal text.
|
||
Another solution is to use the actual key code in the mapping for the second
|
||
special key: >
|
||
:map <F1><Esc>OP :echo "yes"<CR>
|
||
Don't type a real <Esc>, Vim will recognize the key code and replace it with
|
||
<F1> anyway.
|
||
|
||
Another problem may be that when keeping ALT or Meta pressed the terminal
|
||
prepends ESC instead of setting the 8th bit. See |:map-alt-keys|.
|
||
|
||
*recursive_mapping*
|
||
If you include the {lhs} in the {rhs} you have a recursive mapping. When
|
||
{lhs} is typed, it will be replaced with {rhs}. When the {lhs} which is
|
||
included in {rhs} is encountered it will be replaced with {rhs}, and so on.
|
||
This makes it possible to repeat a command an infinite number of times. The
|
||
only problem is that the only way to stop this is by causing an error. The
|
||
macros to solve a maze uses this, look there for an example. There is one
|
||
exception: If the {rhs} starts with {lhs}, the first character is not mapped
|
||
again (this is Vi compatible).
|
||
For example: >
|
||
:map ab abcd
|
||
will execute the "a" command and insert "bcd" in the text. The "ab" in the
|
||
{rhs} will not be mapped again.
|
||
|
||
If you want to exchange the meaning of two keys you should use the :noremap
|
||
command. For example: >
|
||
:noremap k j
|
||
:noremap j k
|
||
This will exchange the cursor up and down commands.
|
||
|
||
With the normal :map command, when the 'remap' option is on, mapping takes
|
||
place until the text is found not to be a part of a {lhs}. For example, if
|
||
you use: >
|
||
:map x y
|
||
:map y x
|
||
Vim will replace x with y, and then y with x, etc. When this has happened
|
||
'maxmapdepth' times (default 1000), Vim will give the error message
|
||
"recursive mapping".
|
||
|
||
*:map-undo*
|
||
If you include an undo command inside a mapped sequence, this will bring the
|
||
text back in the state before executing the macro. This is compatible with
|
||
the original Vi, as long as there is only one undo command in the mapped
|
||
sequence (having two undo commands in a mapped sequence did not make sense
|
||
in the original Vi, you would get back the text before the first undo).
|
||
|
||
|
||
1.10 MAPPING ALT-KEYS *:map-alt-keys*
|
||
|
||
In the GUI Vim handles the Alt key itself, thus mapping keys with ALT should
|
||
always work. But in a terminal Vim gets a sequence of bytes and has to figure
|
||
out whether ALT was pressed or not.
|
||
|
||
By default Vim assumes that pressing the ALT key sets the 8th bit of a typed
|
||
character. Most decent terminals can work that way, such as xterm, aterm and
|
||
rxvt. If your <A-k> mappings don't work it might be that the terminal is
|
||
prefixing the character with an ESC character. But you can just as well type
|
||
ESC before a character, thus Vim doesn't know what happened (except for
|
||
checking the delay between characters, which is not reliable).
|
||
|
||
As of this writing, some mainstream terminals like gnome-terminal and konsole
|
||
use the ESC prefix. There doesn't appear a way to have them use the 8th bit
|
||
instead. Xterm should work well by default. Aterm and rxvt should work well
|
||
when started with the "--meta8" argument. You can also tweak resources like
|
||
"metaSendsEscape", "eightBitInput" and "eightBitOutput".
|
||
|
||
On the Linux console, this behavior can be toggled with the "setmetamode"
|
||
command. Bear in mind that not using an ESC prefix could get you in trouble
|
||
with other programs. You should make sure that bash has the "convert-meta"
|
||
option set to "on" in order for your Meta keybindings to still work on it
|
||
(it's the default readline behavior, unless changed by specific system
|
||
configuration). For that, you can add the line: >
|
||
|
||
set convert-meta on
|
||
|
||
to your ~/.inputrc file. If you're creating the file, you might want to use: >
|
||
|
||
$include /etc/inputrc
|
||
|
||
as the first line, if that file exists on your system, to keep global options.
|
||
This may cause a problem for entering special characters, such as the umlaut.
|
||
Then you should use CTRL-V before that character.
|
||
|
||
Bear in mind that convert-meta has been reported to have troubles when used in
|
||
UTF-8 locales. On terminals like xterm, the "metaSendsEscape" resource can be
|
||
toggled on the fly through the "Main Options" menu, by pressing Ctrl-LeftClick
|
||
on the terminal; that's a good last resource in case you want to send ESC when
|
||
using other applications but not when inside VIM.
|
||
|
||
|
||
1.11 MAPPING AN OPERATOR *:map-operator*
|
||
|
||
An operator is used before a {motion} command. To define your own operator
|
||
you must create mapping that first sets the 'operatorfunc' option and then
|
||
invoke the |g@| operator. After the user types the {motion} command the
|
||
specified function will be called.
|
||
|
||
*g@* *E774* *E775*
|
||
g@{motion} Call the function set by the 'operatorfunc' option.
|
||
The '[ mark is positioned at the start of the text
|
||
moved over by {motion}, the '] mark on the last
|
||
character of the text.
|
||
The function is called with one String argument:
|
||
"line" {motion} was |linewise|
|
||
"char" {motion} was |characterwise|
|
||
"block" {motion} was |blockwise-visual|
|
||
Although "block" would rarely appear, since it can
|
||
only result from Visual mode where "g@" is not useful.
|
||
{not available when compiled without the |+eval|
|
||
feature}
|
||
|
||
Here is an example that counts the number of spaces with <F4>: >
|
||
|
||
nmap <silent> <F4> :set opfunc=CountSpaces<CR>g@
|
||
vmap <silent> <F4> :<C-U>call CountSpaces(visualmode(), 1)<CR>
|
||
|
||
function! CountSpaces(type, ...)
|
||
let sel_save = &selection
|
||
let &selection = "inclusive"
|
||
let reg_save = @@
|
||
|
||
if a:0 " Invoked from Visual mode, use gv command.
|
||
silent exe "normal! gvy"
|
||
elseif a:type == 'line'
|
||
silent exe "normal! '[V']y"
|
||
else
|
||
silent exe "normal! `[v`]y"
|
||
endif
|
||
|
||
echomsg strlen(substitute(@@, '[^ ]', '', 'g'))
|
||
|
||
let &selection = sel_save
|
||
let @@ = reg_save
|
||
endfunction
|
||
|
||
Note that the 'selection' option is temporarily set to "inclusive" to be able
|
||
to yank exactly the right text by using Visual mode from the '[ to the ']
|
||
mark.
|
||
|
||
Also note that there is a separate mapping for Visual mode. It removes the
|
||
"'<,'>" range that ":" inserts in Visual mode and invokes the function with
|
||
visualmode() and an extra argument.
|
||
|
||
==============================================================================
|
||
2. Abbreviations *abbreviations* *Abbreviations*
|
||
|
||
Abbreviations are used in Insert mode, Replace mode and Command-line mode.
|
||
If you enter a word that is an abbreviation, it is replaced with the word it
|
||
stands for. This can be used to save typing for often used long words. And
|
||
you can use it to automatically correct obvious spelling errors.
|
||
Examples:
|
||
|
||
:iab ms Microsoft
|
||
:iab tihs this
|
||
|
||
There are three types of abbreviations:
|
||
|
||
full-id The "full-id" type consists entirely of keyword characters (letters
|
||
and characters from 'iskeyword' option). This is the most common
|
||
abbreviation.
|
||
|
||
Examples: "foo", "g3", "-1"
|
||
|
||
end-id The "end-id" type ends in a keyword character, but all the other
|
||
characters are not keyword characters.
|
||
|
||
Examples: "#i", "..f", "$/7"
|
||
|
||
non-id The "non-id" type ends in a non-keyword character, the other
|
||
characters may be of any type, excluding space and tab.
|
||
|
||
Examples: "def#", "4/7$"
|
||
|
||
Examples of strings that cannot be abbreviations: "a.b", "#def", "a b", "_$r"
|
||
|
||
An abbreviation is only recognized when you type a non-keyword character.
|
||
This can also be the <Esc> that ends insert mode or the <CR> that ends a
|
||
command. The non-keyword character which ends the abbreviation is inserted
|
||
after the expanded abbreviation. An exception to this is the character <C-]>,
|
||
which is used to expand an abbreviation without inserting any extra
|
||
characters.
|
||
|
||
Example: >
|
||
:ab hh hello
|
||
< "hh<Space>" is expanded to "hello<Space>"
|
||
"hh<C-]>" is expanded to "hello"
|
||
|
||
The characters before the cursor must match the abbreviation. Each type has
|
||
an additional rule:
|
||
|
||
full-id In front of the match is a non-keyword character, or this is where
|
||
the line or insertion starts. Exception: When the abbreviation is
|
||
only one character, it is not recognized if there is a non-keyword
|
||
character in front of it, other than a space or a tab.
|
||
|
||
end-id In front of the match is a keyword character, or a space or a tab,
|
||
or this is where the line or insertion starts.
|
||
|
||
non-id In front of the match is a space, tab or the start of the line or
|
||
the insertion.
|
||
|
||
Examples: ({CURSOR} is where you type a non-keyword character) >
|
||
:ab foo four old otters
|
||
< " foo{CURSOR}" is expanded to " four old otters"
|
||
" foobar{CURSOR}" is not expanded
|
||
"barfoo{CURSOR}" is not expanded
|
||
>
|
||
:ab #i #include
|
||
< "#i{CURSOR}" is expanded to "#include"
|
||
">#i{CURSOR}" is not expanded
|
||
>
|
||
:ab ;; <endofline>
|
||
< "test;;" is not expanded
|
||
"test ;;" is expanded to "test <endofline>"
|
||
|
||
To avoid the abbreviation in Insert mode: Type CTRL-V before the character
|
||
that would trigger the abbreviation. E.g. CTRL-V <Space>. Or type part of
|
||
the abbreviation, exit insert mode with <Esc>, re-enter insert mode with "a"
|
||
and type the rest.
|
||
|
||
To avoid the abbreviation in Command-line mode: Type CTRL-V twice somewhere in
|
||
the abbreviation to avoid it to be replaced. A CTRL-V in front of a normal
|
||
character is mostly ignored otherwise.
|
||
|
||
It is possible to move the cursor after an abbreviation: >
|
||
:iab if if ()<Left>
|
||
This does not work if 'cpoptions' includes the '<' flag. |<>|
|
||
|
||
You can even do more complicated things. For example, to consume the space
|
||
typed after an abbreviation: >
|
||
func Eatchar(pat)
|
||
let c = nr2char(getchar(0))
|
||
return (c =~ a:pat) ? '' : c
|
||
endfunc
|
||
iabbr <silent> if if ()<Left><C-R>=Eatchar('\s')<CR>
|
||
|
||
There are no default abbreviations.
|
||
|
||
Abbreviations are never recursive. You can use ":ab f f-o-o" without any
|
||
problem. But abbreviations can be mapped. {some versions of Vi support
|
||
recursive abbreviations, for no apparent reason}
|
||
|
||
Abbreviations are disabled if the 'paste' option is on.
|
||
|
||
*:abbreviate-local* *:abbreviate-<buffer>*
|
||
Just like mappings, abbreviations can be local to a buffer. This is mostly
|
||
used in a |filetype-plugin| file. Example for a C plugin file: >
|
||
:abb <buffer> FF for (i = 0; i < ; ++i)
|
||
<
|
||
*:ab* *:abbreviate*
|
||
:ab[breviate] list all abbreviations. The character in the first
|
||
column indicates the mode where the abbreviation is
|
||
used: 'i' for insert mode, 'c' for Command-line
|
||
mode, '!' for both. These are the same as for
|
||
mappings, see |map-listing|.
|
||
|
||
*:abbreviate-verbose*
|
||
When 'verbose' is non-zero, listing an abbreviation will also display where it
|
||
was last defined. Example: >
|
||
|
||
:verbose abbreviate
|
||
! teh the
|
||
Last set from /home/abcd/vim/abbr.vim
|
||
|
||
See |:verbose-cmd| for more information.
|
||
|
||
:ab[breviate] {lhs} list the abbreviations that start with {lhs}
|
||
You may need to insert a CTRL-V (type it twice) to
|
||
avoid that a typed {lhs} is expanded, since
|
||
command-line abbreviations apply here.
|
||
|
||
:ab[breviate] [<expr>] [<buffer>] {lhs} {rhs}
|
||
add abbreviation for {lhs} to {rhs}. If {lhs} already
|
||
existed it is replaced with the new {rhs}. {rhs} may
|
||
contain spaces.
|
||
See |:map-<expr>| for the optional <expr> argument.
|
||
See |:map-<buffer>| for the optional <buffer> argument.
|
||
|
||
*:una* *:unabbreviate*
|
||
:una[bbreviate] {lhs} Remove abbreviation for {lhs} from the list. If none
|
||
is found, remove abbreviations in which {lhs} matches
|
||
with the {rhs}. This is done so that you can even
|
||
remove abbreviations after expansion. To avoid
|
||
expansion insert a CTRL-V (type it twice).
|
||
|
||
*:norea* *:noreabbrev*
|
||
:norea[bbrev] [<expr>] [<buffer>] [lhs] [rhs]
|
||
same as ":ab", but no remapping for this {rhs}
|
||
|
||
*:ca* *:cabbrev*
|
||
:ca[bbrev] [<expr>] [<buffer>] [lhs] [rhs]
|
||
same as ":ab", but for Command-line mode only.
|
||
|
||
*:cuna* *:cunabbrev*
|
||
:cuna[bbrev] {lhs} same as ":una", but for Command-line mode only.
|
||
|
||
*:cnorea* *:cnoreabbrev*
|
||
:cnorea[bbrev] [<expr>] [<buffer>] [lhs] [rhs]
|
||
same as ":ab", but for Command-line mode only and no
|
||
remapping for this {rhs}
|
||
|
||
*:ia* *:iabbrev*
|
||
:ia[bbrev] [<expr>] [<buffer>] [lhs] [rhs]
|
||
same as ":ab", but for Insert mode only.
|
||
|
||
*:iuna* *:iunabbrev*
|
||
:iuna[bbrev] {lhs} same as ":una", but for insert mode only.
|
||
|
||
*:inorea* *:inoreabbrev*
|
||
:inorea[bbrev] [<expr>] [<buffer>] [lhs] [rhs]
|
||
same as ":ab", but for Insert mode only and no
|
||
remapping for this {rhs}
|
||
|
||
*:abc* *:abclear*
|
||
:abc[lear] [<buffer>] Remove all abbreviations.
|
||
|
||
*:iabc* *:iabclear*
|
||
:iabc[lear] [<buffer>] Remove all abbreviations for Insert mode.
|
||
|
||
*:cabc* *:cabclear*
|
||
:cabc[lear] [<buffer>] Remove all abbreviations for Command-line mode.
|
||
|
||
*using_CTRL-V*
|
||
It is possible to use special characters in the rhs of an abbreviation.
|
||
CTRL-V has to be used to avoid the special meaning of most non printable
|
||
characters. How many CTRL-Vs need to be typed depends on how you enter the
|
||
abbreviation. This also applies to mappings. Let's use an example here.
|
||
|
||
Suppose you want to abbreviate "esc" to enter an <Esc> character. When you
|
||
type the ":ab" command in Vim, you have to enter this: (here ^V is a CTRL-V
|
||
and ^[ is <Esc>)
|
||
|
||
You type: ab esc ^V^V^V^V^V^[
|
||
|
||
All keyboard input is subjected to ^V quote interpretation, so
|
||
the first, third, and fifth ^V characters simply allow the second,
|
||
and fourth ^Vs, and the ^[, to be entered into the command-line.
|
||
|
||
You see: ab esc ^V^V^[
|
||
|
||
The command-line contains two actual ^Vs before the ^[. This is
|
||
how it should appear in your vimrc file, if you choose to go that
|
||
route. The first ^V is there to quote the second ^V; the :ab
|
||
command uses ^V as its own quote character, so you can include quoted
|
||
whitespace or the | character in the abbreviation. The :ab command
|
||
doesn't do anything special with the ^[ character, so it doesn't need
|
||
to be quoted. (Although quoting isn't harmful; that's why typing 7
|
||
[but not 8!] ^Vs works.)
|
||
|
||
Stored as: esc ^V^[
|
||
|
||
After parsing, the abbreviation's short form ("esc") and long form
|
||
(the two characters "^V^[") are stored in the abbreviation table.
|
||
If you give the :ab command with no arguments, this is how the
|
||
abbreviation will be displayed.
|
||
|
||
Later, when the abbreviation is expanded because the user typed in
|
||
the word "esc", the long form is subjected to the same type of
|
||
^V interpretation as keyboard input. So the ^V protects the ^[
|
||
character from being interpreted as the "exit Insert mode" character.
|
||
Instead, the ^[ is inserted into the text.
|
||
|
||
Expands to: ^[
|
||
|
||
[example given by Steve Kirkendall]
|
||
|
||
==============================================================================
|
||
3. Local mappings and functions *script-local*
|
||
|
||
When using several Vim script files, there is the danger that mappings and
|
||
functions used in one script use the same name as in other scripts. To avoid
|
||
this, they can be made local to the script.
|
||
|
||
*<SID>* *<SNR>* *E81*
|
||
The string "<SID>" can be used in a mapping or menu. This requires that the
|
||
'<' flag is not present in 'cpoptions'.
|
||
When executing the map command, Vim will replace "<SID>" with the special
|
||
key code <SNR>, followed by a number that's unique for the script, and an
|
||
underscore. Example: >
|
||
:map <SID>Add
|
||
could define a mapping "<SNR>23_Add".
|
||
|
||
When defining a function in a script, "s:" can be prepended to the name to
|
||
make it local to the script. But when a mapping is executed from outside of
|
||
the script, it doesn't know in which script the function was defined. To
|
||
avoid this problem, use "<SID>" instead of "s:". The same translation is done
|
||
as for mappings. This makes it possible to define a call to the function in
|
||
a mapping.
|
||
|
||
When a local function is executed, it runs in the context of the script it was
|
||
defined in. This means that new functions and mappings it defines can also
|
||
use "s:" or "<SID>" and it will use the same unique number as when the
|
||
function itself was defined. Also, the "s:var" local script variables can be
|
||
used.
|
||
|
||
When executing an autocommand or a user command, it will run in the context of
|
||
the script it was defined in. This makes it possible that the command calls a
|
||
local function or uses a local mapping.
|
||
|
||
Otherwise, using "<SID>" outside of a script context is an error.
|
||
|
||
If you need to get the script number to use in a complicated script, you can
|
||
use this function: >
|
||
function s:SID()
|
||
return matchstr(expand('<sfile>'), '<SNR>\zs\d\+\ze_SID$')
|
||
endfun
|
||
|
||
The "<SNR>" will be shown when listing functions and mappings. This is useful
|
||
to find out what they are defined to.
|
||
|
||
The |:scriptnames| command can be used to see which scripts have been sourced
|
||
and what their <SNR> number is.
|
||
|
||
==============================================================================
|
||
4. User-defined commands *user-commands*
|
||
|
||
It is possible to define your own Ex commands. A user-defined command can act
|
||
just like a built-in command (it can have a range or arguments, arguments can
|
||
be completed as filenames or buffer names, etc), except that when the command
|
||
is executed, it is transformed into a normal Ex command and then executed.
|
||
|
||
For starters: See section |40.2| in the user manual.
|
||
|
||
*E183* *E841* *user-cmd-ambiguous*
|
||
All user defined commands must start with an uppercase letter, to avoid
|
||
confusion with builtin commands. Exceptions are these builtin commands:
|
||
:Next
|
||
They cannot be used for a user defined command.
|
||
|
||
The other characters of the user command can be uppercase letters, lowercase
|
||
letters or digits. When using digits, note that other commands that take a
|
||
numeric argument may become ambiguous. For example, the command ":Cc2" could
|
||
be the user command ":Cc2" without an argument, or the command ":Cc" with
|
||
argument "2". It is advised to put a space between the command name and the
|
||
argument to avoid these problems.
|
||
|
||
When using a user-defined command, the command can be abbreviated. However, if
|
||
an abbreviation is not unique, an error will be issued. Furthermore, a
|
||
built-in command will always take precedence.
|
||
|
||
Example: >
|
||
:command Rename ...
|
||
:command Renumber ...
|
||
:Rena " Means "Rename"
|
||
:Renu " Means "Renumber"
|
||
:Ren " Error - ambiguous
|
||
:command Paste ...
|
||
|
||
It is recommended that full names for user-defined commands are used in
|
||
scripts.
|
||
|
||
:com[mand] *:com* *:command*
|
||
List all user-defined commands. When listing commands,
|
||
the characters in the first two columns are
|
||
! Command has the -bang attribute
|
||
" Command has the -register attribute
|
||
b Command is local to current buffer
|
||
(see below for details on attributes)
|
||
|
||
:com[mand] {cmd} List the user-defined commands that start with {cmd}
|
||
|
||
*:command-verbose*
|
||
When 'verbose' is non-zero, listing a command will also display where it was
|
||
last defined. Example: >
|
||
|
||
:verbose command TOhtml
|
||
< Name Args Range Complete Definition ~
|
||
TOhtml 0 % :call Convert2HTML(<line1>, <line2>) ~
|
||
Last set from /usr/share/vim/vim-7.0/plugin/tohtml.vim ~
|
||
|
||
See |:verbose-cmd| for more information.
|
||
|
||
*E174* *E182*
|
||
:com[mand][!] [{attr}...] {cmd} {rep}
|
||
Define a user command. The name of the command is
|
||
{cmd} and its replacement text is {rep}. The command's
|
||
attributes (see below) are {attr}. If the command
|
||
already exists, an error is reported, unless a ! is
|
||
specified, in which case the command is redefined.
|
||
|
||
:delc[ommand] {cmd} *:delc* *:delcommand* *E184*
|
||
Delete the user-defined command {cmd}.
|
||
|
||
:comc[lear] *:comc* *:comclear*
|
||
Delete all user-defined commands.
|
||
|
||
Command attributes
|
||
|
||
User-defined commands are treated by Vim just like any other Ex commands. They
|
||
can have arguments, or have a range specified. Arguments are subject to
|
||
completion as filenames, buffers, etc. Exactly how this works depends upon the
|
||
command's attributes, which are specified when the command is defined.
|
||
|
||
There are a number of attributes, split into four categories: argument
|
||
handling, completion behavior, range handling, and special cases. The
|
||
attributes are described below, by category.
|
||
|
||
Argument handling *E175* *E176* *:command-nargs*
|
||
|
||
By default, a user defined command will take no arguments (and an error is
|
||
reported if any are supplied). However, it is possible to specify that the
|
||
command can take arguments, using the -nargs attribute. Valid cases are:
|
||
|
||
-nargs=0 No arguments are allowed (the default)
|
||
-nargs=1 Exactly one argument is required, it includes spaces
|
||
-nargs=* Any number of arguments are allowed (0, 1, or many),
|
||
separated by white space
|
||
-nargs=? 0 or 1 arguments are allowed
|
||
-nargs=+ Arguments must be supplied, but any number are allowed
|
||
|
||
Arguments are considered to be separated by (unescaped) spaces or tabs in this
|
||
context, except when there is one argument, then the white space is part of
|
||
the argument.
|
||
|
||
Note that arguments are used as text, not as expressions. Specifically,
|
||
"s:var" will use the script-local variable in the script where the command was
|
||
defined, not where it is invoked! Example:
|
||
script1.vim: >
|
||
:let s:error = "None"
|
||
:command -nargs=1 Error echoerr <args>
|
||
< script2.vim: >
|
||
:source script1.vim
|
||
:let s:error = "Wrong!"
|
||
:Error s:error
|
||
Executing script2.vim will result in "None" being echoed. Not what you
|
||
intended! Calling a function may be an alternative.
|
||
|
||
Completion behavior *:command-completion* *E179*
|
||
*E180* *E181* *:command-complete*
|
||
By default, the arguments of user defined commands do not undergo completion.
|
||
However, by specifying one or the other of the following attributes, argument
|
||
completion can be enabled:
|
||
|
||
-complete=augroup autocmd groups
|
||
-complete=buffer buffer names
|
||
-complete=behave :behave suboptions
|
||
-complete=color color schemes
|
||
-complete=command Ex command (and arguments)
|
||
-complete=compiler compilers
|
||
-complete=cscope |:cscope| suboptions
|
||
-complete=dir directory names
|
||
-complete=environment environment variable names
|
||
-complete=event autocommand events
|
||
-complete=expression Vim expression
|
||
-complete=file file and directory names
|
||
-complete=file_in_path file and directory names in |'path'|
|
||
-complete=filetype filetype names |'filetype'|
|
||
-complete=function function name
|
||
-complete=help help subjects
|
||
-complete=highlight highlight groups
|
||
-complete=history :history suboptions
|
||
-complete=locale locale names (as output of locale -a)
|
||
-complete=mapping mapping name
|
||
-complete=menu menus
|
||
-complete=option options
|
||
-complete=packadd optional package |pack-add| names
|
||
-complete=shellcmd Shell command
|
||
-complete=sign |:sign| suboptions
|
||
-complete=syntax syntax file names |'syntax'|
|
||
-complete=syntime |:syntime| suboptions
|
||
-complete=tag tags
|
||
-complete=tag_listfiles tags, file names are shown when CTRL-D is hit
|
||
-complete=user user names
|
||
-complete=var user variables
|
||
-complete=custom,{func} custom completion, defined via {func}
|
||
-complete=customlist,{func} custom completion, defined via {func}
|
||
|
||
Note: That some completion methods might expand environment variables.
|
||
|
||
|
||
Custom completion *:command-completion-custom*
|
||
*:command-completion-customlist*
|
||
*E467* *E468*
|
||
It is possible to define customized completion schemes via the "custom,{func}"
|
||
or the "customlist,{func}" completion argument. The {func} part should be a
|
||
function with the following signature: >
|
||
|
||
:function {func}(ArgLead, CmdLine, CursorPos)
|
||
|
||
The function need not use all these arguments. The function should provide the
|
||
completion candidates as the return value.
|
||
|
||
For the "custom" argument, the function should return the completion
|
||
candidates one per line in a newline separated string.
|
||
|
||
For the "customlist" argument, the function should return the completion
|
||
candidates as a Vim List. Non-string items in the list are ignored.
|
||
|
||
The function arguments are:
|
||
ArgLead the leading portion of the argument currently being
|
||
completed on
|
||
CmdLine the entire command line
|
||
CursorPos the cursor position in it (byte index)
|
||
The function may use these for determining context. For the "custom"
|
||
argument, it is not necessary to filter candidates against the (implicit
|
||
pattern in) ArgLead. Vim will filter the candidates with its regexp engine
|
||
after function return, and this is probably more efficient in most cases. For
|
||
the "customlist" argument, Vim will not filter the returned completion
|
||
candidates and the user supplied function should filter the candidates.
|
||
|
||
The following example lists user names to a Finger command >
|
||
:com -complete=custom,ListUsers -nargs=1 Finger !finger <args>
|
||
:fun ListUsers(A,L,P)
|
||
: return system("cut -d: -f1 /etc/passwd")
|
||
:endfun
|
||
|
||
The following example completes filenames from the directories specified in
|
||
the 'path' option: >
|
||
:com -nargs=1 -bang -complete=customlist,EditFileComplete
|
||
\ EditFile edit<bang> <args>
|
||
:fun EditFileComplete(A,L,P)
|
||
: return split(globpath(&path, a:A), "\n")
|
||
:endfun
|
||
<
|
||
This example does not work for file names with spaces!
|
||
|
||
|
||
Range handling *E177* *E178* *:command-range*
|
||
*:command-count*
|
||
By default, user-defined commands do not accept a line number range. However,
|
||
it is possible to specify that the command does take a range (the -range
|
||
attribute), or that it takes an arbitrary count value, either in the line
|
||
number position (-range=N, like the |:split| command) or as a "count"
|
||
argument (-count=N, like the |:Next| command). The count will then be
|
||
available in the argument with |<count>|.
|
||
|
||
Possible attributes are:
|
||
|
||
-range Range allowed, default is current line
|
||
-range=% Range allowed, default is whole file (1,$)
|
||
-range=N A count (default N) which is specified in the line
|
||
number position (like |:split|); allows for zero line
|
||
number.
|
||
-count=N A count (default N) which is specified either in the line
|
||
number position, or as an initial argument (like |:Next|).
|
||
Specifying -count (without a default) acts like -count=0
|
||
|
||
Note that -range=N and -count=N are mutually exclusive - only one should be
|
||
specified.
|
||
|
||
*:command-addr*
|
||
It is possible that the special characters in the range like `.`, `$` or `%`
|
||
which by default correspond to the current line, last line and the whole
|
||
buffer, relate to arguments, (loaded) buffers, windows or tab pages.
|
||
|
||
Possible values are:
|
||
-addr=lines Range of lines (this is the default)
|
||
-addr=arguments Range for arguments
|
||
-addr=buffers Range for buffers (also not loaded buffers)
|
||
-addr=loaded_buffers Range for loaded buffers
|
||
-addr=windows Range for windows
|
||
-addr=tabs Range for tab pages
|
||
|
||
|
||
Special cases *:command-bang* *:command-bar*
|
||
*:command-register* *:command-buffer*
|
||
There are some special cases as well:
|
||
|
||
-bang The command can take a ! modifier (like :q or :w)
|
||
-bar The command can be followed by a "|" and another command.
|
||
A "|" inside the command argument is not allowed then.
|
||
Also checks for a " to start a comment.
|
||
-register The first argument to the command can be an optional
|
||
register name (like :del, :put, :yank).
|
||
-buffer The command will only be available in the current buffer.
|
||
|
||
In the cases of the -count and -register attributes, if the optional argument
|
||
is supplied, it is removed from the argument list and is available to the
|
||
replacement text separately.
|
||
Note that these arguments can be abbreviated, but that is a deprecated
|
||
feature. Use the full name for new scripts.
|
||
|
||
Replacement text
|
||
|
||
The replacement text for a user defined command is scanned for special escape
|
||
sequences, using <...> notation. Escape sequences are replaced with values
|
||
from the entered command line, and all other text is copied unchanged. The
|
||
resulting string is executed as an Ex command. To avoid the replacement use
|
||
<lt> in place of the initial <. Thus to include "<bang>" literally use
|
||
"<lt>bang>".
|
||
|
||
The valid escape sequences are
|
||
|
||
*<line1>*
|
||
<line1> The starting line of the command range.
|
||
*<line2>*
|
||
<line2> The final line of the command range.
|
||
*<count>*
|
||
<count> Any count supplied (as described for the '-range'
|
||
and '-count' attributes).
|
||
*<bang>*
|
||
<bang> (See the '-bang' attribute) Expands to a ! if the
|
||
command was executed with a ! modifier, otherwise
|
||
expands to nothing.
|
||
*<mods>*
|
||
<mods> The command modifiers, if specified. Otherwise, expands to
|
||
nothing. Supported modifiers are |:aboveleft|, |:belowright|,
|
||
|:botright|, |:browse|, |:confirm|, |:hide|, |:keepalt|,
|
||
|:keepjumps|, |:keepmarks|, |:keeppatterns|, |:lockmarks|,
|
||
|:noswapfile|, |:silent|, |:tab|, |:topleft|, |:verbose|, and
|
||
|:vertical|.
|
||
Examples: >
|
||
command! -nargs=+ -complete=file MyEdit
|
||
\ for f in expand(<q-args>, 0, 1) |
|
||
\ exe '<mods> split ' . f |
|
||
\ endfor
|
||
|
||
function! SpecialEdit(files, mods)
|
||
for f in expand(a:files, 0, 1)
|
||
exe a:mods . ' split ' . f
|
||
endfor
|
||
endfunction
|
||
command! -nargs=+ -complete=file Sedit
|
||
\ call SpecialEdit(<q-args>, <q-mods>)
|
||
<
|
||
*<reg>* *<register>*
|
||
<reg> (See the '-register' attribute) The optional register,
|
||
if specified. Otherwise, expands to nothing. <register>
|
||
is a synonym for this.
|
||
*<args>*
|
||
<args> The command arguments, exactly as supplied (but as
|
||
noted above, any count or register can consume some
|
||
of the arguments, which are then not part of <args>).
|
||
<lt> A single '<' (Less-Than) character. This is needed if you
|
||
want to get a literal copy of one of these escape sequences
|
||
into the expansion - for example, to get <bang>, use
|
||
<lt>bang>.
|
||
|
||
*<q-args>*
|
||
If the first two characters of an escape sequence are "q-" (for example,
|
||
<q-args>) then the value is quoted in such a way as to make it a valid value
|
||
for use in an expression. This uses the argument as one single value.
|
||
When there is no argument <q-args> is an empty string.
|
||
*<f-args>*
|
||
To allow commands to pass their arguments on to a user-defined function, there
|
||
is a special form <f-args> ("function args"). This splits the command
|
||
arguments at spaces and tabs, quotes each argument individually, and the
|
||
<f-args> sequence is replaced by the comma-separated list of quoted arguments.
|
||
See the Mycmd example below. If no arguments are given <f-args> is removed.
|
||
To embed whitespace into an argument of <f-args>, prepend a backslash.
|
||
<f-args> replaces every pair of backslashes (\\) with one backslash. A
|
||
backslash followed by a character other than white space or a backslash
|
||
remains unmodified. Overview:
|
||
|
||
command <f-args> ~
|
||
XX ab 'ab'
|
||
XX a\b 'a\b'
|
||
XX a\ b 'a b'
|
||
XX a\ b 'a ', 'b'
|
||
XX a\\b 'a\b'
|
||
XX a\\ b 'a\', 'b'
|
||
XX a\\\b 'a\\b'
|
||
XX a\\\ b 'a\ b'
|
||
XX a\\\\b 'a\\b'
|
||
XX a\\\\ b 'a\\', 'b'
|
||
|
||
Examples >
|
||
|
||
" Delete everything after here to the end
|
||
:com Ddel +,$d
|
||
|
||
" Rename the current buffer
|
||
:com -nargs=1 -bang -complete=file Ren f <args>|w<bang>
|
||
|
||
" Replace a range with the contents of a file
|
||
" (Enter this all as one line)
|
||
:com -range -nargs=1 -complete=file
|
||
Replace <line1>-pu_|<line1>,<line2>d|r <args>|<line1>d
|
||
|
||
" Count the number of lines in the range
|
||
:com! -range -nargs=0 Lines echo <line2> - <line1> + 1 "lines"
|
||
|
||
" Call a user function (example of <f-args>)
|
||
:com -nargs=* Mycmd call Myfunc(<f-args>)
|
||
|
||
When executed as: >
|
||
:Mycmd arg1 arg2
|
||
This will invoke: >
|
||
:call Myfunc("arg1","arg2")
|
||
|
||
:" A more substantial example
|
||
:function Allargs(command)
|
||
: let i = 0
|
||
: while i < argc()
|
||
: if filereadable(argv(i))
|
||
: execute "e " . argv(i)
|
||
: execute a:command
|
||
: endif
|
||
: let i = i + 1
|
||
: endwhile
|
||
:endfunction
|
||
:command -nargs=+ -complete=command Allargs call Allargs(<q-args>)
|
||
|
||
The command Allargs takes any Vim command(s) as argument and executes it on all
|
||
files in the argument list. Usage example (note use of the "e" flag to ignore
|
||
errors and the "update" command to write modified buffers): >
|
||
:Allargs %s/foo/bar/ge|update
|
||
This will invoke: >
|
||
:call Allargs("%s/foo/bar/ge|update")
|
||
<
|
||
When defining a user command in a script, it will be able to call functions
|
||
local to the script and use mappings local to the script. When the user
|
||
invokes the user command, it will run in the context of the script it was
|
||
defined in. This matters if |<SID>| is used in a command.
|
||
|
||
vim:tw=78:ts=8:ft=help:norl:
|