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Merge remote-tracking branch 'upstream/master'

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fievel
2018-06-15 10:20:56 +02:00
parent 73cb823d09 387bbadda9
commit 877515b0d8
17 changed files with 3048 additions and 1627 deletions
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14
README.md
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@@ -17,10 +17,10 @@ creates the tags it needs on-the-fly in-memory without creating any files.
## Dependencies
[Vim 7.0](http://www.vim.org/) (But see note below)
[Exuberant ctags 5.5](http://ctags.sourceforge.net/) or
[Universal Ctags](https://ctags.io/) which is a fork of exuberant ctags
continuing the development.
[Vim 7.3.1058](http://www.vim.org/)
[Exuberant Ctags 5.5](http://ctags.sourceforge.net/) or
[Universal Ctags](https://ctags.io) (recommended), a maintained fork of
Exuberant Ctags.
## Installation
@@ -30,12 +30,6 @@ Extract the archive or clone the repository into a directory in your
`:helptags` if your plugin manager doesn't do it for you so you can access the
documentation with `:help tagbar`.
Note: Vim versions < 7.0.167 have a bug that prevents Tagbar from working. If
you are affected by this use this alternate Tagbar download instead:
[zip](https://github.com/majutsushi/tagbar/zipball/70fix). It is on par with
version 2.2 but probably won't be updated after that due to the amount of
changes required.
If the ctags executable is not installed in one of the directories in your
`$PATH` environment variable you have to set the `g:tagbar_ctags_bin`
variable, see the documentation for more info.

1974
autoload/tagbar.vim
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62
autoload/tagbar/debug.vim Normal file
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@@ -0,0 +1,62 @@
function! tagbar#debug#start_debug(...) abort
let filename = a:0 > 0 ? a:1 : ''
if empty(filename)
let s:debug_file = 'tagbardebug.log'
else
let s:debug_file = filename
endif
" Clear log file and start it with version info
exe 'redir! > ' . s:debug_file
silent version
redir END
" Check whether the log file could be created
if !filewritable(s:debug_file)
echomsg 'Tagbar: Unable to create log file ' . s:debug_file
let s:debug_file = ''
return
endif
let s:debug_enabled = 1
endfunction
function! tagbar#debug#stop_debug() abort
let s:debug_enabled = 0
let s:debug_file = ''
endfunction
function! tagbar#debug#log(msg) abort
if s:debug_enabled
execute 'redir >> ' . s:debug_file
silent echon s:gettime() . ': ' . a:msg . "\n"
redir END
endif
endfunction
function! tagbar#debug#log_ctags_output(output) abort
if s:debug_enabled
exe 'redir! > ' . s:debug_file . '.ctags_out'
silent echon a:output
redir END
endif
endfunction
function! tagbar#debug#enabled() abort
return s:debug_enabled
endfunction
if has('reltime')
function! s:gettime() abort
let time = split(reltimestr(reltime()), '\.')
return strftime('%Y-%m-%d %H:%M:%S.', time[0]) . time[1]
endfunction
else
function! s:gettime() abort
return strftime('%Y-%m-%d %H:%M:%S')
endfunction
endif
let s:debug_enabled = 0
let s:debug_file = ''

237
autoload/tagbar/prototypes/basetag.vim Normal file
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@@ -0,0 +1,237 @@
let s:visibility_symbols = {
\ 'public' : '+',
\ 'protected' : '#',
\ 'private' : '-'
\ }
function! tagbar#prototypes#basetag#new(name) abort
let newobj = {}
let newobj.name = a:name
let newobj.fields = {}
let newobj.fields.line = 0
let newobj.fields.column = 0
let newobj.prototype = ''
let newobj.path = ''
let newobj.fullpath = a:name
let newobj.depth = 0
let newobj.parent = {}
let newobj.tline = -1
let newobj.fileinfo = {}
let newobj.typeinfo = {}
let newobj._childlist = []
let newobj._childdict = {}
let newobj.isNormalTag = function(s:add_snr('s:isNormalTag'))
let newobj.isPseudoTag = function(s:add_snr('s:isPseudoTag'))
let newobj.isSplitTag = function(s:add_snr('s:isSplitTag'))
let newobj.isKindheader = function(s:add_snr('s:isKindheader'))
let newobj.getPrototype = function(s:add_snr('s:getPrototype'))
let newobj._getPrefix = function(s:add_snr('s:_getPrefix'))
let newobj.initFoldState = function(s:add_snr('s:initFoldState'))
let newobj.getClosedParentTline = function(s:add_snr('s:getClosedParentTline'))
let newobj.isFoldable = function(s:add_snr('s:isFoldable'))
let newobj.isFolded = function(s:add_snr('s:isFolded'))
let newobj.openFold = function(s:add_snr('s:openFold'))
let newobj.closeFold = function(s:add_snr('s:closeFold'))
let newobj.setFolded = function(s:add_snr('s:setFolded'))
let newobj.openParents = function(s:add_snr('s:openParents'))
let newobj.addChild = function(s:add_snr('s:addChild'))
let newobj.getChildren = function(s:add_snr('s:getChildren'))
let newobj.getChildrenByName = function(s:add_snr('s:getChildrenByName'))
let newobj.removeChild = function(s:add_snr('s:removeChild'))
return newobj
endfunction
" s:isNormalTag() {{{1
function! s:isNormalTag() abort dict
return 0
endfunction
" s:isPseudoTag() {{{1
function! s:isPseudoTag() abort dict
return 0
endfunction
" s:isSplitTag {{{1
function! s:isSplitTag() abort dict
return 0
endfunction
" s:isKindheader() {{{1
function! s:isKindheader() abort dict
return 0
endfunction
" s:getPrototype() {{{1
function! s:getPrototype(short) abort dict
return self.prototype
endfunction
" s:_getPrefix() {{{1
function! s:_getPrefix() abort dict
let fileinfo = self.fileinfo
if !empty(self._childlist)
if fileinfo.tagfolds[self.fields.kind][self.fullpath]
let prefix = g:tagbar#icon_closed
else
let prefix = g:tagbar#icon_open
endif
else
let prefix = ' '
endif
" Visibility is called 'access' in the ctags output
if g:tagbar_show_visibility
if has_key(self.fields, 'access')
let prefix .= get(s:visibility_symbols, self.fields.access, ' ')
elseif has_key(self.fields, 'file')
let prefix .= s:visibility_symbols.private
else
let prefix .= ' '
endif
endif
return prefix
endfunction
" s:initFoldState() {{{1
function! s:initFoldState(known_files) abort dict
let fileinfo = self.fileinfo
if a:known_files.has(fileinfo.fpath) &&
\ has_key(fileinfo, '_tagfolds_old') &&
\ has_key(fileinfo._tagfolds_old[self.fields.kind], self.fullpath)
" The file has been updated and the tag was there before, so copy its
" old fold state
let fileinfo.tagfolds[self.fields.kind][self.fullpath] =
\ fileinfo._tagfolds_old[self.fields.kind][self.fullpath]
elseif self.depth >= fileinfo.foldlevel
let fileinfo.tagfolds[self.fields.kind][self.fullpath] = 1
else
let fileinfo.tagfolds[self.fields.kind][self.fullpath] =
\ fileinfo.kindfolds[self.fields.kind]
endif
endfunction
" s:getClosedParentTline() {{{1
function! s:getClosedParentTline() abort dict
let tagline = self.tline
" Find the first closed parent, starting from the top of the hierarchy.
let parents = []
let curparent = self.parent
while !empty(curparent)
call add(parents, curparent)
let curparent = curparent.parent
endwhile
for parent in reverse(parents)
if parent.isFolded()
let tagline = parent.tline
break
endif
endfor
return tagline
endfunction
" s:isFoldable() {{{1
function! s:isFoldable() abort dict
return !empty(self._childlist)
endfunction
" s:isFolded() {{{1
function! s:isFolded() abort dict
return self.fileinfo.tagfolds[self.fields.kind][self.fullpath]
endfunction
" s:openFold() {{{1
function! s:openFold() abort dict
if self.isFoldable()
let self.fileinfo.tagfolds[self.fields.kind][self.fullpath] = 0
endif
endfunction
" s:closeFold() {{{1
function! s:closeFold() abort dict
let newline = line('.')
if !empty(self.parent) && self.parent.isKindheader()
" Tag is child of generic 'kind'
call self.parent.closeFold()
let newline = self.parent.tline
elseif self.isFoldable() && !self.isFolded()
" Tag is parent of a scope and is not folded
let self.fileinfo.tagfolds[self.fields.kind][self.fullpath] = 1
let newline = self.tline
elseif !empty(self.parent)
" Tag is normal child, so close parent
let parent = self.parent
let self.fileinfo.tagfolds[parent.fields.kind][parent.fullpath] = 1
let newline = parent.tline
endif
return newline
endfunction
" s:setFolded() {{{1
function! s:setFolded(folded) abort dict
let self.fileinfo.tagfolds[self.fields.kind][self.fullpath] = a:folded
endfunction
" s:openParents() {{{1
function! s:openParents() abort dict
let parent = self.parent
while !empty(parent)
call parent.openFold()
let parent = parent.parent
endwhile
endfunction
" s:addChild() {{{1
function! s:addChild(tag) abort dict
call add(self._childlist, a:tag)
if has_key(self._childdict, a:tag.name)
call add(self._childdict[a:tag.name], a:tag)
else
let self._childdict[a:tag.name] = [a:tag]
endif
endfunction
" s:getChildren() {{{1
function! s:getChildren() dict abort
return self._childlist
endfunction
" s:getChildrenByName() {{{1
function! s:getChildrenByName(tagname) dict abort
return get(self._childdict, a:tagname, [])
endfunction
" s:removeChild() {{{1
function! s:removeChild(tag) dict abort
let idx = index(self._childlist, a:tag)
if idx >= 0
call remove(self._childlist, idx)
endif
let namelist = get(self._childdict, a:tag.name, [])
let idx = index(namelist, a:tag)
if idx >= 0
call remove(namelist, idx)
endif
endfunction
" s:add_snr() {{{1
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

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autoload/tagbar/prototypes/fileinfo.vim Normal file
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@@ -0,0 +1,146 @@
function! tagbar#prototypes#fileinfo#new(fname, ftype, typeinfo) abort
let newobj = {}
" The complete file path
let newobj.fpath = a:fname
let newobj.bufnr = bufnr(a:fname)
" File modification time
let newobj.mtime = getftime(a:fname)
" The vim file type
let newobj.ftype = a:ftype
" List of the tags that are present in the file, sorted according to the
" value of 'g:tagbar_sort'
let newobj._taglist = []
let newobj._tagdict = {}
" Dictionary of the tags, indexed by line number in the file
let newobj.fline = {}
" Dictionary of the tags, indexed by line number in the tagbar
let newobj.tline = {}
" Dictionary of the folding state of 'kind's, indexed by short name
let newobj.kindfolds = {}
let newobj.typeinfo = a:typeinfo
" copy the default fold state from the type info
for kind in a:typeinfo.kinds
let newobj.kindfolds[kind.short] =
\ g:tagbar_foldlevel == 0 ? 1 : kind.fold
endfor
" Dictionary of dictionaries of the folding state of individual tags,
" indexed by kind and full path
let newobj.tagfolds = {}
for kind in a:typeinfo.kinds
let newobj.tagfolds[kind.short] = {}
endfor
" The current foldlevel of the file
let newobj.foldlevel = g:tagbar_foldlevel
let newobj.addTag = function(s:add_snr('s:addTag'))
let newobj.getTags = function(s:add_snr('s:getTags'))
let newobj.getTagsByName = function(s:add_snr('s:getTagsByName'))
let newobj.removeTag = function(s:add_snr('s:removeTag'))
let newobj.reset = function(s:add_snr('s:reset'))
let newobj.clearOldFolds = function(s:add_snr('s:clearOldFolds'))
let newobj.sortTags = function(s:add_snr('s:sortTags'))
let newobj.openKindFold = function(s:add_snr('s:openKindFold'))
let newobj.closeKindFold = function(s:add_snr('s:closeKindFold'))
return newobj
endfunction
" s:addTag() {{{1
function! s:addTag(tag) abort dict
call add(self._taglist, a:tag)
if has_key(self._tagdict, a:tag.name)
call add(self._tagdict[a:tag.name], a:tag)
else
let self._tagdict[a:tag.name] = [a:tag]
endif
endfunction
" s:getTags() {{{1
function! s:getTags() dict abort
return self._taglist
endfunction
" s:getTagsByName() {{{1
function! s:getTagsByName(tagname) dict abort
return get(self._tagdict, a:tagname, [])
endfunction
" s:removeTag() {{{1
function! s:removeTag(tag) dict abort
let idx = index(self._taglist, a:tag)
if idx >= 0
call remove(self._taglist, idx)
endif
let namelist = get(self._tagdict, a:tag.name, [])
let idx = index(namelist, a:tag)
if idx >= 0
call remove(namelist, idx)
endif
endfunction
" s:reset() {{{1
" Reset stuff that gets regenerated while processing a file and save the old
" tag folds
function! s:reset() abort dict
let self.mtime = getftime(self.fpath)
let self._taglist = []
let self._tagdict = {}
let self.fline = {}
let self.tline = {}
let self._tagfolds_old = self.tagfolds
let self.tagfolds = {}
for kind in self.typeinfo.kinds
let self.tagfolds[kind.short] = {}
endfor
endfunction
" s:clearOldFolds() {{{1
function! s:clearOldFolds() abort dict
if exists('self._tagfolds_old')
unlet self._tagfolds_old
endif
endfunction
" s:sortTags() {{{1
function! s:sortTags(compare_typeinfo) abort dict
if get(a:compare_typeinfo, 'sort', g:tagbar_sort)
call tagbar#sorting#sort(self._taglist, 'kind', a:compare_typeinfo)
else
call tagbar#sorting#sort(self._taglist, 'line', a:compare_typeinfo)
endif
endfunction
" s:openKindFold() {{{1
function! s:openKindFold(kind) abort dict
let self.kindfolds[a:kind.short] = 0
endfunction
" s:closeKindFold() {{{1
function! s:closeKindFold(kind) abort dict
let self.kindfolds[a:kind.short] = 1
endfunction
" s:add_snr() {{{1
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

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autoload/tagbar/prototypes/kindheadertag.vim Normal file
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@@ -0,0 +1,61 @@
function! tagbar#prototypes#kindheadertag#new(name) abort
let newobj = tagbar#prototypes#basetag#new(a:name)
let newobj.isKindheader = function(s:add_snr('s:isKindheader'))
let newobj.getPrototype = function(s:add_snr('s:getPrototype'))
let newobj.isFoldable = function(s:add_snr('s:isFoldable'))
let newobj.isFolded = function(s:add_snr('s:isFolded'))
let newobj.openFold = function(s:add_snr('s:openFold'))
let newobj.closeFold = function(s:add_snr('s:closeFold'))
let newobj.toggleFold = function(s:add_snr('s:toggleFold'))
return newobj
endfunction
" s:isKindheader() {{{1
function! s:isKindheader() abort dict
return 1
endfunction
" s:getPrototype() {{{1
function! s:getPrototype(short) abort dict
return self.name . ': ' .
\ self.numtags . ' ' . (self.numtags > 1 ? 'tags' : 'tag')
endfunction
" s:isFoldable() {{{1
function! s:isFoldable() abort dict
return 1
endfunction
" s:isFolded() {{{1
function! s:isFolded() abort dict
return self.fileinfo.kindfolds[self.short]
endfunction
" s:openFold() {{{1
function! s:openFold() abort dict
let self.fileinfo.kindfolds[self.short] = 0
endfunction
" s:closeFold() {{{1
function! s:closeFold() abort dict
let self.fileinfo.kindfolds[self.short] = 1
return line('.')
endfunction
" s:toggleFold() {{{1
function! s:toggleFold(fileinfo) abort dict
let a:fileinfo.kindfolds[self.short] = !a:fileinfo.kindfolds[self.short]
endfunction
" s:add_snr() {{{1
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

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autoload/tagbar/prototypes/normaltag.vim Normal file
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@@ -0,0 +1,119 @@
function! tagbar#prototypes#normaltag#new(name) abort
let newobj = tagbar#prototypes#basetag#new(a:name)
let newobj.isNormalTag = function(s:add_snr('s:isNormalTag'))
let newobj.strfmt = function(s:add_snr('s:strfmt'))
let newobj.str = function(s:add_snr('s:str'))
let newobj.getPrototype = function(s:add_snr('s:getPrototype'))
return newobj
endfunction
" s:isNormalTag() {{{1
function! s:isNormalTag() abort dict
return 1
endfunction
" s:strfmt() {{{1
function! s:strfmt() abort dict
let typeinfo = self.typeinfo
let suffix = get(self.fields, 'signature', '')
if has_key(self.fields, 'type')
let suffix .= ' : ' . self.fields.type
elseif has_key(get(typeinfo, 'kind2scope', {}), self.fields.kind)
let suffix .= ' : ' . typeinfo.kind2scope[self.fields.kind]
endif
return self._getPrefix() . self.name . suffix
endfunction
" s:str() {{{1
function! s:str(longsig, full) abort dict
if a:full && self.path != ''
let str = self.path . self.typeinfo.sro . self.name
else
let str = self.name
endif
if has_key(self.fields, 'signature')
if a:longsig
let str .= self.fields.signature
else
let str .= '()'
endif
endif
return str
endfunction
" s:getPrototype() {{{1
function! s:getPrototype(short) abort dict
if self.prototype != ''
let prototype = self.prototype
else
let bufnr = self.fileinfo.bufnr
if self.fields.line == 0 || !bufloaded(bufnr)
" No linenumber available or buffer not loaded (probably due to
" 'nohidden'), try the pattern instead
return substitute(self.pattern, '^\\M\\^\\C\s*\(.*\)\\$$', '\1', '')
endif
let line = getbufline(bufnr, self.fields.line)[0]
let list = split(line, '\zs')
let start = index(list, '(')
if start == -1
return substitute(line, '^\s\+', '', '')
endif
let opening = count(list, '(', 0, start)
let closing = count(list, ')', 0, start)
if closing >= opening
return substitute(line, '^\s\+', '', '')
endif
let balance = opening - closing
let prototype = line
let curlinenr = self.fields.line + 1
while balance > 0
let curline = getbufline(bufnr, curlinenr)[0]
let curlist = split(curline, '\zs')
let balance += count(curlist, '(')
let balance -= count(curlist, ')')
let prototype .= "\n" . curline
let curlinenr += 1
endwhile
let self.prototype = prototype
endif
if a:short
" join all lines and remove superfluous spaces
let prototype = substitute(prototype, '^\s\+', '', '')
let prototype = substitute(prototype, '\_s\+', ' ', 'g')
let prototype = substitute(prototype, '(\s\+', '(', 'g')
let prototype = substitute(prototype, '\s\+)', ')', 'g')
" Avoid hit-enter prompts
let maxlen = &columns - 12
if len(prototype) > maxlen
let prototype = prototype[:maxlen - 1 - 3]
let prototype .= '...'
endif
endif
return prototype
endfunction
" s:add_snr() {{{1
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

36
autoload/tagbar/prototypes/pseudotag.vim Normal file
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@@ -0,0 +1,36 @@
function! tagbar#prototypes#pseudotag#new(name) abort
let newobj = tagbar#prototypes#basetag#new(a:name)
let newobj.isPseudoTag = function(s:add_snr('s:isPseudoTag'))
let newobj.strfmt = function(s:add_snr('s:strfmt'))
return newobj
endfunction
" s:isPseudoTag() {{{1
function! s:isPseudoTag() abort dict
return 1
endfunction
" s:strfmt() {{{1
function! s:strfmt() abort dict
let typeinfo = self.typeinfo
let suffix = get(self.fields, 'signature', '')
if has_key(typeinfo.kind2scope, self.fields.kind)
let suffix .= ' : ' . typeinfo.kind2scope[self.fields.kind]
endif
return self._getPrefix() . self.name . '*' . suffix
endfunction
" s:add_snr() {{{1
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

26
autoload/tagbar/prototypes/splittag.vim Normal file
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@@ -0,0 +1,26 @@
" A tag that was created because of a tag name that covers multiple scopes
" Inherits the fields of the "main" tag it was split from.
" May be replaced during tag processing if it appears as a normal tag later,
" just like a pseudo tag.
function! tagbar#prototypes#splittag#new(name) abort
let newobj = tagbar#prototypes#normaltag#new(a:name)
let newobj.isSplitTag = function(s:add_snr('s:isSplitTag'))
return newobj
endfunction
function! s:isSplitTag() abort dict
return 1
endfunction
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

42
autoload/tagbar/prototypes/typeinfo.vim Normal file
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@@ -0,0 +1,42 @@
function! tagbar#prototypes#typeinfo#new(...) abort
let newobj = {}
let newobj.kinddict = {}
if a:0 > 0
call extend(newobj, a:1)
endif
let newobj.getKind = function(s:add_snr('s:getKind'))
let newobj.createKinddict = function(s:add_snr('s:createKinddict'))
return newobj
endfunction
" s:getKind() {{{1
function! s:getKind(kind) abort dict
let idx = self.kinddict[a:kind]
return self.kinds[idx]
endfunction
" s:createKinddict() {{{1
" Create a dictionary of the kind order for fast access in sorting functions
function! s:createKinddict() abort dict
let i = 0
for kind in self.kinds
let self.kinddict[kind.short] = i
let i += 1
endfor
let self.kinddict['?'] = i
endfunction
" s:add_snr() {{{1
function! s:add_snr(funcname) abort
if !exists("s:snr")
let s:snr = matchstr(expand('<sfile>'), '<SNR>\d\+_\zeget_snr$')
endif
return s:snr . a:funcname
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

57
autoload/tagbar/sorting.vim Normal file
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@@ -0,0 +1,57 @@
" Script-local variable needed since compare functions can't
" take additional arguments
let s:compare_typeinfo = {}
function! tagbar#sorting#sort(tags, compareby, compare_typeinfo) abort
let s:compare_typeinfo = a:compare_typeinfo
let comparemethod =
\ a:compareby == 'kind' ? 's:compare_by_kind' : 's:compare_by_line'
call sort(a:tags, comparemethod)
for tag in a:tags
if !empty(tag.getChildren())
call tagbar#sorting#sort(tag.getChildren(), a:compareby,
\ a:compare_typeinfo)
endif
endfor
endfunction
function! s:compare_by_kind(tag1, tag2) abort
let typeinfo = s:compare_typeinfo
if typeinfo.kinddict[a:tag1.fields.kind] <#
\ typeinfo.kinddict[a:tag2.fields.kind]
return -1
elseif typeinfo.kinddict[a:tag1.fields.kind] >#
\ typeinfo.kinddict[a:tag2.fields.kind]
return 1
else
" Ignore '~' prefix for C++ destructors to sort them directly under
" the constructors
if a:tag1.name[0] ==# '~'
let name1 = a:tag1.name[1:]
else
let name1 = a:tag1.name
endif
if a:tag2.name[0] ==# '~'
let name2 = a:tag2.name[1:]
else
let name2 = a:tag2.name
endif
let ci = g:tagbar_case_insensitive
if (((!ci) && (name1 <=# name2)) || (ci && (name1 <=? name2)))
return -1
else
return 1
endif
endif
endfunction
function! s:compare_by_line(tag1, tag2) abort
return a:tag1.fields.line - a:tag2.fields.line
endfunction
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

51
autoload/tagbar/state.vim Normal file
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function! tagbar#state#get_current_file(force_current) abort
return s:get().getCurrent(a:force_current)
endfunction
function! tagbar#state#set_current_file(fileinfo) abort
call s:get().setCurrentFile(a:fileinfo)
endfunction
function! tagbar#state#set_paused() abort
call s:get().setPaused()
endfunction
function! s:get() abort
if !exists('t:tagbar_state')
let t:tagbar_state = s:State.New()
endif
return t:tagbar_state
endfunction
let s:State = {
\ '_current' : {},
\ '_paused' : {},
\ }
" s:state.New() {{{1
function! s:State.New() abort dict
return deepcopy(self)
endfunction
" s:state.getCurrent() {{{1
function! s:State.getCurrent(force_current) abort dict
if !tagbar#is_paused() || a:force_current
return self._current
else
return self._paused
endif
endfunction
" s:state.setCurrentFile() {{{1
function! s:State.setCurrentFile(fileinfo) abort dict
let self._current = a:fileinfo
endfunction
" s:state.setPaused() {{{1
function! s:State.setPaused() abort dict
let self._paused = self._current
endfunction
" Modeline {{{1
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

752
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" Type definitions for standard Exuberant Ctags
function! tagbar#types#ctags#init(supported_types) abort
let types = {}
" Ant {{{1
let type_ant = tagbar#prototypes#typeinfo#new()
let type_ant.ctagstype = 'ant'
let type_ant.kinds = [
\ {'short' : 'p', 'long' : 'projects', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'targets', 'fold' : 0, 'stl' : 1}
\ ]
let types.ant = type_ant
" Asm {{{1
let type_asm = tagbar#prototypes#typeinfo#new()
let type_asm.ctagstype = 'asm'
let type_asm.kinds = [
\ {'short' : 'm', 'long' : 'macros', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'types', 'fold' : 0, 'stl' : 1},
\ {'short' : 'd', 'long' : 'defines', 'fold' : 0, 'stl' : 1},
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 1}
\ ]
let types.asm = type_asm
" ASP {{{1
let type_aspvbs = tagbar#prototypes#typeinfo#new()
let type_aspvbs.ctagstype = 'asp'
let type_aspvbs.kinds = [
\ {'short' : 'd', 'long' : 'constants', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'subroutines', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 1}
\ ]
let types.aspvbs = type_aspvbs
" Asymptote {{{1
" Asymptote gets parsed well using filetype = c
let type_asy = tagbar#prototypes#typeinfo#new()
let type_asy.ctagstype = 'c'
let type_asy.kinds = [
\ {'short' : 'd', 'long' : 'macros', 'fold' : 1, 'stl' : 0},
\ {'short' : 'p', 'long' : 'prototypes', 'fold' : 1, 'stl' : 0},
\ {'short' : 'g', 'long' : 'enums', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enumerators', 'fold' : 0, 'stl' : 0},
\ {'short' : 't', 'long' : 'typedefs', 'fold' : 0, 'stl' : 0},
\ {'short' : 's', 'long' : 'structs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'u', 'long' : 'unions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'members', 'fold' : 0, 'stl' : 0},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let type_asy.sro = '::'
let type_asy.kind2scope = {
\ 'g' : 'enum',
\ 's' : 'struct',
\ 'u' : 'union'
\ }
let type_asy.scope2kind = {
\ 'enum' : 'g',
\ 'struct' : 's',
\ 'union' : 'u'
\ }
let types.asy = type_asy
" Awk {{{1
let type_awk = tagbar#prototypes#typeinfo#new()
let type_awk.ctagstype = 'awk'
let type_awk.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.awk = type_awk
" Basic {{{1
let type_basic = tagbar#prototypes#typeinfo#new()
let type_basic.ctagstype = 'basic'
let type_basic.kinds = [
\ {'short' : 'c', 'long' : 'constants', 'fold' : 0, 'stl' : 1},
\ {'short' : 'g', 'long' : 'enumerations', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'types', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 1}
\ ]
let types.basic = type_basic
" BETA {{{1
let type_beta = tagbar#prototypes#typeinfo#new()
let type_beta.ctagstype = 'beta'
let type_beta.kinds = [
\ {'short' : 'f', 'long' : 'fragments', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'slots', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'patterns', 'fold' : 0, 'stl' : 1}
\ ]
let types.beta = type_beta
" C {{{1
let type_c = tagbar#prototypes#typeinfo#new()
let type_c.ctagstype = 'c'
let type_c.kinds = [
\ {'short' : 'd', 'long' : 'macros', 'fold' : 1, 'stl' : 0},
\ {'short' : 'p', 'long' : 'prototypes', 'fold' : 1, 'stl' : 0},
\ {'short' : 'g', 'long' : 'enums', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enumerators', 'fold' : 0, 'stl' : 0},
\ {'short' : 't', 'long' : 'typedefs', 'fold' : 0, 'stl' : 0},
\ {'short' : 's', 'long' : 'structs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'u', 'long' : 'unions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'members', 'fold' : 0, 'stl' : 0},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let type_c.sro = '::'
let type_c.kind2scope = {
\ 'g' : 'enum',
\ 's' : 'struct',
\ 'u' : 'union'
\ }
let type_c.scope2kind = {
\ 'enum' : 'g',
\ 'struct' : 's',
\ 'union' : 'u'
\ }
let types.c = type_c
" C++ {{{1
let type_cpp = tagbar#prototypes#typeinfo#new()
let type_cpp.ctagstype = 'c++'
let type_cpp.kinds = [
\ {'short' : 'd', 'long' : 'macros', 'fold' : 1, 'stl' : 0},
\ {'short' : 'p', 'long' : 'prototypes', 'fold' : 1, 'stl' : 0},
\ {'short' : 'g', 'long' : 'enums', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enumerators', 'fold' : 0, 'stl' : 0},
\ {'short' : 't', 'long' : 'typedefs', 'fold' : 0, 'stl' : 0},
\ {'short' : 'n', 'long' : 'namespaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'structs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'u', 'long' : 'unions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'members', 'fold' : 0, 'stl' : 0},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0}
\ ]
let type_cpp.sro = '::'
let type_cpp.kind2scope = {
\ 'g' : 'enum',
\ 'n' : 'namespace',
\ 'c' : 'class',
\ 's' : 'struct',
\ 'u' : 'union'
\ }
let type_cpp.scope2kind = {
\ 'enum' : 'g',
\ 'namespace' : 'n',
\ 'class' : 'c',
\ 'struct' : 's',
\ 'union' : 'u'
\ }
let types.cpp = type_cpp
let types.cuda = type_cpp
" C# {{{1
let type_cs = tagbar#prototypes#typeinfo#new()
let type_cs.ctagstype = 'c#'
let type_cs.kinds = [
\ {'short' : 'd', 'long' : 'macros', 'fold' : 1, 'stl' : 0},
\ {'short' : 'f', 'long' : 'fields', 'fold' : 0, 'stl' : 1},
\ {'short' : 'g', 'long' : 'enums', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enumerators', 'fold' : 0, 'stl' : 0},
\ {'short' : 't', 'long' : 'typedefs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'n', 'long' : 'namespaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'i', 'long' : 'interfaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'structs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'E', 'long' : 'events', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'properties', 'fold' : 0, 'stl' : 1}
\ ]
let type_cs.sro = '.'
let type_cs.kind2scope = {
\ 'n' : 'namespace',
\ 'i' : 'interface',
\ 'c' : 'class',
\ 's' : 'struct',
\ 'g' : 'enum'
\ }
let type_cs.scope2kind = {
\ 'namespace' : 'n',
\ 'interface' : 'i',
\ 'class' : 'c',
\ 'struct' : 's',
\ 'enum' : 'g'
\ }
let types.cs = type_cs
" COBOL {{{1
let type_cobol = tagbar#prototypes#typeinfo#new()
let type_cobol.ctagstype = 'cobol'
let type_cobol.kinds = [
\ {'short' : 'd', 'long' : 'data items', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'file descriptions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'g', 'long' : 'group items', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'paragraphs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'P', 'long' : 'program ids', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'sections', 'fold' : 0, 'stl' : 1}
\ ]
let types.cobol = type_cobol
" DOS Batch {{{1
let type_dosbatch = tagbar#prototypes#typeinfo#new()
let type_dosbatch.ctagstype = 'dosbatch'
let type_dosbatch.kinds = [
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 1}
\ ]
let types.dosbatch = type_dosbatch
" Eiffel {{{1
let type_eiffel = tagbar#prototypes#typeinfo#new()
let type_eiffel.ctagstype = 'eiffel'
let type_eiffel.kinds = [
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'features', 'fold' : 0, 'stl' : 1}
\ ]
let type_eiffel.sro = '.' " Not sure, is nesting even possible?
let type_eiffel.kind2scope = {
\ 'c' : 'class',
\ 'f' : 'feature'
\ }
let type_eiffel.scope2kind = {
\ 'class' : 'c',
\ 'feature' : 'f'
\ }
let types.eiffel = type_eiffel
" Erlang {{{1
let type_erlang = tagbar#prototypes#typeinfo#new()
let type_erlang.ctagstype = 'erlang'
let type_erlang.kinds = [
\ {'short' : 'm', 'long' : 'modules', 'fold' : 0, 'stl' : 1},
\ {'short' : 'd', 'long' : 'macro definitions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'r', 'long' : 'record definitions', 'fold' : 0, 'stl' : 1}
\ ]
let type_erlang.sro = '.' " Not sure, is nesting even possible?
let type_erlang.kind2scope = {
\ 'm' : 'module'
\ }
let type_erlang.scope2kind = {
\ 'module' : 'm'
\ }
let types.erlang = type_erlang
" Flex {{{1
" Vim doesn't support Flex out of the box, this is based on rough
" guesses and probably requires
" http://www.vim.org/scripts/script.php?script_id=2909
" Improvements welcome!
let type_as = tagbar#prototypes#typeinfo#new()
let type_as.ctagstype = 'flex'
let type_as.kinds = [
\ {'short' : 'v', 'long' : 'global variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'properties', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'x', 'long' : 'mxtags', 'fold' : 0, 'stl' : 0}
\ ]
let type_as.sro = '.'
let type_as.kind2scope = {
\ 'c' : 'class'
\ }
let type_as.scope2kind = {
\ 'class' : 'c'
\ }
let types.mxml = type_as
let types.actionscript = type_as
" Fortran {{{1
let type_fortran = tagbar#prototypes#typeinfo#new()
let type_fortran.ctagstype = 'fortran'
let type_fortran.kinds = [
\ {'short' : 'm', 'long' : 'modules', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'programs', 'fold' : 0, 'stl' : 1},
\ {'short' : 'k', 'long' : 'components', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'derived types and structures', 'fold' : 0,
\ 'stl' : 1},
\ {'short' : 'c', 'long' : 'common blocks', 'fold' : 0, 'stl' : 1},
\ {'short' : 'b', 'long' : 'block data', 'fold' : 0, 'stl' : 0},
\ {'short' : 'e', 'long' : 'entry points', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'subroutines', 'fold' : 0, 'stl' : 1},
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 1},
\ {'short' : 'n', 'long' : 'namelists', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0}
\ ]
let type_fortran.sro = '.' " Not sure, is nesting even possible?
let type_fortran.kind2scope = {
\ 'm' : 'module',
\ 'p' : 'program',
\ 'f' : 'function',
\ 's' : 'subroutine'
\ }
let type_fortran.scope2kind = {
\ 'module' : 'm',
\ 'program' : 'p',
\ 'function' : 'f',
\ 'subroutine' : 's'
\ }
let types.fortran = type_fortran
" HTML {{{1
let type_html = tagbar#prototypes#typeinfo#new()
let type_html.ctagstype = 'html'
let type_html.kinds = [
\ {'short' : 'f', 'long' : 'JavaScript functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'a', 'long' : 'named anchors', 'fold' : 0, 'stl' : 1}
\ ]
let types.html = type_html
" Java {{{1
let type_java = tagbar#prototypes#typeinfo#new()
let type_java.ctagstype = 'java'
let type_java.kinds = [
\ {'short' : 'p', 'long' : 'packages', 'fold' : 1, 'stl' : 0},
\ {'short' : 'f', 'long' : 'fields', 'fold' : 0, 'stl' : 0},
\ {'short' : 'g', 'long' : 'enum types', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enum constants', 'fold' : 0, 'stl' : 0},
\ {'short' : 'i', 'long' : 'interfaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'methods', 'fold' : 0, 'stl' : 1}
\ ]
let type_java.sro = '.'
let type_java.kind2scope = {
\ 'g' : 'enum',
\ 'i' : 'interface',
\ 'c' : 'class'
\ }
let type_java.scope2kind = {
\ 'enum' : 'g',
\ 'interface' : 'i',
\ 'class' : 'c'
\ }
let types.java = type_java
" JavaScript {{{1
let type_javascript = tagbar#prototypes#typeinfo#new()
let type_javascript.ctagstype = 'javascript'
let type_javascript.kinds = [
\ {'short': 'v', 'long': 'global variables', 'fold': 0, 'stl': 0},
\ {'short': 'c', 'long': 'classes', 'fold': 0, 'stl': 1},
\ {'short': 'p', 'long': 'properties', 'fold': 0, 'stl': 0},
\ {'short': 'm', 'long': 'methods', 'fold': 0, 'stl': 1},
\ {'short': 'f', 'long': 'functions', 'fold': 0, 'stl': 1},
\ ]
let type_javascript.sro = '.'
let type_javascript.kind2scope = {
\ 'c' : 'class',
\ 'f' : 'function',
\ 'm' : 'method',
\ 'p' : 'property',
\ }
let type_javascript.scope2kind = {
\ 'class' : 'c',
\ 'function' : 'f',
\ }
let types.javascript = type_javascript
" Lisp {{{1
let type_lisp = tagbar#prototypes#typeinfo#new()
let type_lisp.ctagstype = 'lisp'
let type_lisp.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.lisp = type_lisp
let types.clojure = type_lisp
" Lua {{{1
let type_lua = tagbar#prototypes#typeinfo#new()
let type_lua.ctagstype = 'lua'
let type_lua.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.lua = type_lua
" Make {{{1
let type_make = tagbar#prototypes#typeinfo#new()
let type_make.ctagstype = 'make'
let type_make.kinds = [
\ {'short' : 'm', 'long' : 'macros', 'fold' : 0, 'stl' : 1}
\ ]
let types.make = type_make
" Matlab {{{1
let type_matlab = tagbar#prototypes#typeinfo#new()
let type_matlab.ctagstype = 'matlab'
let type_matlab.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.matlab = type_matlab
" ObjectiveC {{{1
let type_objc = tagbar#prototypes#typeinfo#new()
let type_objc.ctagstype = 'objectivec'
let type_objc.kinds = [
\ {'short' : 'M', 'long' : 'preprocessor macros', 'fold' : 1, 'stl' : 0},
\ {'short' : 'v', 'long' : 'global variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'i', 'long' : 'class interfaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'I', 'long' : 'class implementations', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'class methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'F', 'long' : 'object fields', 'fold' : 0, 'stl' : 0},
\ {'short' : 'm', 'long' : 'object methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'type structures', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'type aliases', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enumerations', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'properties', 'fold' : 0, 'stl' : 0},
\ ]
let type_objc.sro = ':'
let type_objc.kind2scope = {
\ 'i' : 'interface',
\ 'I' : 'implementation',
\ 's' : 'struct',
\ }
let type_objc.scope2kind = {
\ 'interface' : 'i',
\ 'implementation' : 'I',
\ 'struct' : 's',
\ }
let types.objc = type_objc
let types.objcpp = type_objc
" Ocaml {{{1
let type_ocaml = tagbar#prototypes#typeinfo#new()
let type_ocaml.ctagstype = 'ocaml'
let type_ocaml.kinds = [
\ {'short' : 'M', 'long' : 'modules or functors', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'global variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'C', 'long' : 'constructors', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'exceptions', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'type names', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'r', 'long' : 'structure fields', 'fold' : 0, 'stl' : 0}
\ ]
let type_ocaml.sro = '.' " Not sure, is nesting even possible?
let type_ocaml.kind2scope = {
\ 'M' : 'Module',
\ 'c' : 'class',
\ 't' : 'type'
\ }
let type_ocaml.scope2kind = {
\ 'Module' : 'M',
\ 'class' : 'c',
\ 'type' : 't'
\ }
let types.ocaml = type_ocaml
" Pascal {{{1
let type_pascal = tagbar#prototypes#typeinfo#new()
let type_pascal.ctagstype = 'pascal'
let type_pascal.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'procedures', 'fold' : 0, 'stl' : 1}
\ ]
let types.pascal = type_pascal
" Perl {{{1
let type_perl = tagbar#prototypes#typeinfo#new()
let type_perl.ctagstype = 'perl'
let type_perl.kinds = [
\ {'short' : 'p', 'long' : 'packages', 'fold' : 1, 'stl' : 0},
\ {'short' : 'c', 'long' : 'constants', 'fold' : 0, 'stl' : 0},
\ {'short' : 'f', 'long' : 'formats', 'fold' : 0, 'stl' : 0},
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'subroutines', 'fold' : 0, 'stl' : 1}
\ ]
let types.perl = type_perl
" PHP {{{1
let type_php = tagbar#prototypes#typeinfo#new()
let type_php.ctagstype = 'php'
let type_php.kinds = [
\ {'short' : 'i', 'long' : 'interfaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'd', 'long' : 'constant definitions', 'fold' : 0, 'stl' : 0},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'j', 'long' : 'javascript functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.php = type_php
" Python {{{1
let type_python = tagbar#prototypes#typeinfo#new()
let type_python.ctagstype = 'python'
let type_python.kinds = [
\ {'short' : 'i', 'long' : 'imports', 'fold' : 1, 'stl' : 0},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'members', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0}
\ ]
let type_python.sro = '.'
let type_python.kind2scope = {
\ 'c' : 'class',
\ 'f' : 'function',
\ 'm' : 'function'
\ }
let type_python.scope2kind = {
\ 'class' : 'c',
\ 'function' : 'f'
\ }
let types.python = type_python
let types.pyrex = type_python
let types.cython = type_python
" REXX {{{1
let type_rexx = tagbar#prototypes#typeinfo#new()
let type_rexx.ctagstype = 'rexx'
let type_rexx.kinds = [
\ {'short' : 's', 'long' : 'subroutines', 'fold' : 0, 'stl' : 1}
\ ]
let types.rexx = type_rexx
" Ruby {{{1
let type_ruby = tagbar#prototypes#typeinfo#new()
let type_ruby.ctagstype = 'ruby'
let type_ruby.kinds = [
\ {'short' : 'm', 'long' : 'modules', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'F', 'long' : 'singleton methods', 'fold' : 0, 'stl' : 1}
\ ]
let type_ruby.sro = '.'
let type_ruby.kind2scope = {
\ 'c' : 'class',
\ 'm' : 'class',
\ 'f' : 'class'
\ }
let type_ruby.scope2kind = {
\ 'class' : 'c'
\ }
let types.ruby = type_ruby
" Scheme {{{1
let type_scheme = tagbar#prototypes#typeinfo#new()
let type_scheme.ctagstype = 'scheme'
let type_scheme.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'sets', 'fold' : 0, 'stl' : 1}
\ ]
let types.scheme = type_scheme
let types.racket = type_scheme
" Shell script {{{1
let type_sh = tagbar#prototypes#typeinfo#new()
let type_sh.ctagstype = 'sh'
let type_sh.kinds = [
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.sh = type_sh
let types.csh = type_sh
let types.zsh = type_sh
" SLang {{{1
let type_slang = tagbar#prototypes#typeinfo#new()
let type_slang.ctagstype = 'slang'
let type_slang.kinds = [
\ {'short' : 'n', 'long' : 'namespaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1}
\ ]
let types.slang = type_slang
" SML {{{1
let type_sml = tagbar#prototypes#typeinfo#new()
let type_sml.ctagstype = 'sml'
let type_sml.kinds = [
\ {'short' : 'e', 'long' : 'exception declarations', 'fold' : 0, 'stl' : 0},
\ {'short' : 'f', 'long' : 'function definitions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'functor definitions', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'signature declarations', 'fold' : 0, 'stl' : 0},
\ {'short' : 'r', 'long' : 'structure declarations', 'fold' : 0, 'stl' : 0},
\ {'short' : 't', 'long' : 'type definitions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'value bindings', 'fold' : 0, 'stl' : 0}
\ ]
let types.sml = type_sml
" SQL {{{1
" The SQL ctags parser seems to be buggy for me, so this just uses the
" normal kinds even though scopes should be available. Improvements
" welcome!
let type_sql = tagbar#prototypes#typeinfo#new()
let type_sql.ctagstype = 'sql'
let type_sql.kinds = [
\ {'short' : 'P', 'long' : 'packages', 'fold' : 1, 'stl' : 1},
\ {'short' : 'd', 'long' : 'prototypes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'cursors', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'F', 'long' : 'record fields', 'fold' : 0, 'stl' : 1},
\ {'short' : 'L', 'long' : 'block label', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'procedures', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'subtypes', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'tables', 'fold' : 0, 'stl' : 1},
\ {'short' : 'T', 'long' : 'triggers', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 1},
\ {'short' : 'i', 'long' : 'indexes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'events', 'fold' : 0, 'stl' : 1},
\ {'short' : 'U', 'long' : 'publications', 'fold' : 0, 'stl' : 1},
\ {'short' : 'R', 'long' : 'services', 'fold' : 0, 'stl' : 1},
\ {'short' : 'D', 'long' : 'domains', 'fold' : 0, 'stl' : 1},
\ {'short' : 'V', 'long' : 'views', 'fold' : 0, 'stl' : 1},
\ {'short' : 'n', 'long' : 'synonyms', 'fold' : 0, 'stl' : 1},
\ {'short' : 'x', 'long' : 'MobiLink Table Scripts', 'fold' : 0, 'stl' : 1},
\ {'short' : 'y', 'long' : 'MobiLink Conn Scripts', 'fold' : 0, 'stl' : 1},
\ {'short' : 'z', 'long' : 'MobiLink Properties', 'fold' : 0, 'stl' : 1}
\ ]
let types.sql = type_sql
" Tcl {{{1
let type_tcl = tagbar#prototypes#typeinfo#new()
let type_tcl.ctagstype = 'tcl'
let type_tcl.kinds = [
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'procedures', 'fold' : 0, 'stl' : 1}
\ ]
let types.tcl = type_tcl
" LaTeX {{{1
let type_tex = tagbar#prototypes#typeinfo#new()
let type_tex.ctagstype = 'tex'
let type_tex.kinds = [
\ {'short' : 'i', 'long' : 'includes', 'fold' : 1, 'stl' : 0},
\ {'short' : 'p', 'long' : 'parts', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'chapters', 'fold' : 0, 'stl' : 1},
\ {'short' : 's', 'long' : 'sections', 'fold' : 0, 'stl' : 1},
\ {'short' : 'u', 'long' : 'subsections', 'fold' : 0, 'stl' : 1},
\ {'short' : 'b', 'long' : 'subsubsections', 'fold' : 0, 'stl' : 1},
\ {'short' : 'P', 'long' : 'paragraphs', 'fold' : 0, 'stl' : 0},
\ {'short' : 'G', 'long' : 'subparagraphs', 'fold' : 0, 'stl' : 0},
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 0}
\ ]
let type_tex.sro = '""'
let type_tex.kind2scope = {
\ 'p' : 'part',
\ 'c' : 'chapter',
\ 's' : 'section',
\ 'u' : 'subsection',
\ 'b' : 'subsubsection'
\ }
let type_tex.scope2kind = {
\ 'part' : 'p',
\ 'chapter' : 'c',
\ 'section' : 's',
\ 'subsection' : 'u',
\ 'subsubsection' : 'b'
\ }
let type_tex.sort = 0
let types.tex = type_tex
" Vala {{{1
" Vala is supported by the ctags fork provided by Anjuta, so only add the
" type if the fork is used to prevent error messages otherwise
if has_key(a:supported_types, 'vala') || executable('anjuta-tags')
let type_vala = tagbar#prototypes#typeinfo#new()
let type_vala.ctagstype = 'vala'
let type_vala.kinds = [
\ {'short' : 'e', 'long' : 'Enumerations', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'Enumeration values', 'fold' : 0, 'stl' : 0},
\ {'short' : 's', 'long' : 'Structures', 'fold' : 0, 'stl' : 1},
\ {'short' : 'i', 'long' : 'Interfaces', 'fold' : 0, 'stl' : 1},
\ {'short' : 'd', 'long' : 'Delegates', 'fold' : 0, 'stl' : 1},
\ {'short' : 'c', 'long' : 'Classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'Properties', 'fold' : 0, 'stl' : 0},
\ {'short' : 'f', 'long' : 'Fields', 'fold' : 0, 'stl' : 0},
\ {'short' : 'm', 'long' : 'Methods', 'fold' : 0, 'stl' : 1},
\ {'short' : 'E', 'long' : 'Error domains', 'fold' : 0, 'stl' : 1},
\ {'short' : 'r', 'long' : 'Error codes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'S', 'long' : 'Signals', 'fold' : 0, 'stl' : 1}
\ ]
let type_vala.sro = '.'
" 'enum' doesn't seem to be used as a scope, but it can't hurt to have
" it here
let type_vala.kind2scope = {
\ 's' : 'struct',
\ 'i' : 'interface',
\ 'c' : 'class',
\ 'e' : 'enum'
\ }
let type_vala.scope2kind = {
\ 'struct' : 's',
\ 'interface' : 'i',
\ 'class' : 'c',
\ 'enum' : 'e'
\ }
let types.vala = type_vala
endif
if !has_key(a:supported_types, 'vala') && executable('anjuta-tags')
let types.vala.ctagsbin = 'anjuta-tags'
endif
" Vera {{{1
" Why are variables 'virtual'?
let type_vera = tagbar#prototypes#typeinfo#new()
let type_vera.ctagstype = 'vera'
let type_vera.kinds = [
\ {'short' : 'd', 'long' : 'macros', 'fold' : 1, 'stl' : 0},
\ {'short' : 'g', 'long' : 'enums', 'fold' : 0, 'stl' : 1},
\ {'short' : 'T', 'long' : 'typedefs', 'fold' : 0, 'stl' : 0},
\ {'short' : 'c', 'long' : 'classes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'enumerators', 'fold' : 0, 'stl' : 0},
\ {'short' : 'm', 'long' : 'members', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'tasks', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 0, 'stl' : 0},
\ {'short' : 'p', 'long' : 'programs', 'fold' : 0, 'stl' : 1}
\ ]
let type_vera.sro = '.' " Nesting doesn't seem to be possible
let type_vera.kind2scope = {
\ 'g' : 'enum',
\ 'c' : 'class',
\ 'v' : 'virtual'
\ }
let type_vera.scope2kind = {
\ 'enum' : 'g',
\ 'class' : 'c',
\ 'virtual' : 'v'
\ }
let types.vera = type_vera
" Verilog {{{1
let type_verilog = tagbar#prototypes#typeinfo#new()
let type_verilog.ctagstype = 'verilog'
let type_verilog.kinds = [
\ {'short' : 'c', 'long' : 'constants', 'fold' : 0, 'stl' : 0},
\ {'short' : 'e', 'long' : 'events', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'm', 'long' : 'modules', 'fold' : 0, 'stl' : 1},
\ {'short' : 'n', 'long' : 'net data types', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'ports', 'fold' : 0, 'stl' : 1},
\ {'short' : 'r', 'long' : 'register data types', 'fold' : 0, 'stl' : 1},
\ {'short' : 't', 'long' : 'tasks', 'fold' : 0, 'stl' : 1}
\ ]
let types.verilog = type_verilog
" VHDL {{{1
" The VHDL ctags parser unfortunately doesn't generate proper scopes
let type_vhdl = tagbar#prototypes#typeinfo#new()
let type_vhdl.ctagstype = 'vhdl'
let type_vhdl.kinds = [
\ {'short' : 'P', 'long' : 'packages', 'fold' : 1, 'stl' : 0},
\ {'short' : 'c', 'long' : 'constants', 'fold' : 0, 'stl' : 0},
\ {'short' : 't', 'long' : 'types', 'fold' : 0, 'stl' : 1},
\ {'short' : 'T', 'long' : 'subtypes', 'fold' : 0, 'stl' : 1},
\ {'short' : 'r', 'long' : 'records', 'fold' : 0, 'stl' : 1},
\ {'short' : 'e', 'long' : 'entities', 'fold' : 0, 'stl' : 1},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'p', 'long' : 'procedures', 'fold' : 0, 'stl' : 1}
\ ]
let types.vhdl = type_vhdl
" Vim {{{1
let type_vim = tagbar#prototypes#typeinfo#new()
let type_vim.ctagstype = 'vim'
let type_vim.kinds = [
\ {'short' : 'n', 'long' : 'vimball filenames', 'fold' : 0, 'stl' : 1},
\ {'short' : 'v', 'long' : 'variables', 'fold' : 1, 'stl' : 0},
\ {'short' : 'f', 'long' : 'functions', 'fold' : 0, 'stl' : 1},
\ {'short' : 'a', 'long' : 'autocommand groups', 'fold' : 1, 'stl' : 1},
\ {'short' : 'c', 'long' : 'commands', 'fold' : 0, 'stl' : 0},
\ {'short' : 'm', 'long' : 'maps', 'fold' : 1, 'stl' : 0}
\ ]
let types.vim = type_vim
" YACC {{{1
let type_yacc = tagbar#prototypes#typeinfo#new()
let type_yacc.ctagstype = 'yacc'
let type_yacc.kinds = [
\ {'short' : 'l', 'long' : 'labels', 'fold' : 0, 'stl' : 1}
\ ]
let types.yacc = type_yacc
" }}}1
for [type, typeinfo] in items(types)
let typeinfo.ftype = type
endfor
for typeinfo in values(types)
call typeinfo.createKinddict()
endfor
return types
endfunction
" vim: ts=8 sw=4 sts=4 et foldenable foldmethod=marker foldcolumn=1

1064
autoload/tagbar/types/uctags.vim Normal file
View File

File diff suppressed because it is too large Load Diff

25
doc/tagbar.txt
View File

@@ -346,6 +346,12 @@ o/za Toggle the fold under the cursor or the current one if there is
Map option: tagbar_map_openallfolds
=/zM Close all folds by setting foldlevel to 0.
Map option: tagbar_map_closeallfolds
zr Increase the fold level of the buffer by 1. Opens all folds one
level.
Map option: tagbar_map_incrementfolds
zm Decrease the fold level of the buffer by 1. Closes all folds one
level.
Map option: tagbar_map_decrementfolds
zj Go to the start of the next fold, like the standard Vim |zj|.
Map option: tagbar_map_nextfold
zk Go to the end of the previous fold, like the standard Vim |zk|.
@@ -1200,8 +1206,11 @@ certain tag kinds in some projects.
In order to use this feature you need to create User |autocommand|s in an
augroup called "TagbarProjects" and have it create a buffer-local variable
called "b:tagbar_type". This variable has to hold a type definition just like
the normal ones described in this chapter. This definition will then be
applied only to the files matched by the autocommand.
the normal ones described in this chapter. If there already is a definition
then the project-specific one will be merged with the existing one, with the
project-specific one taking precedence. This makes it possible to have
project-specific overrides. This definition will then be applied only to the
files matched by the autocommand.
Note that there can be multiple definitions of the augroup with their own
autocommands (for example in separate project directories); they will get
@@ -1269,8 +1278,9 @@ have been missed.
If the bug does seem to be in Tagbar then you can use Tagbar's debug mode to
try to find the source of the problem. Usually you would use it like this:
1. Remove the |tagbar-statusline| support from your vimrc if you use it, and
make sure you don't have any autocommands that load Tagbar on startup.
1. Remove the |tagbar-statusline| support from your vimrc if you use it
unless the problem is with this functionality, and make sure you don't
have any autocommands that load Tagbar on startup.
2. Open Vim without loading any files.
3. Run :TagbarDebug.
4. Open the file you are having problems with.
@@ -1282,7 +1292,12 @@ Note that it is important that the "TagbarDebug" command gets called before
any other call to a Tagbar command or function, so step 1 is important to get
a complete log.
This should leave a file called "tagbardebug.log" in the current directory.
This should leave a file called "tagbardebug.log" in the current directory. If
ctags got executed successfully then there should also be a file called
"tagbardebug.log.ctags_out" which contains the full output of the last ctags
invocation. This can be very helpful when debugging but may contain sensitive
information and is therefore kept in a separate file.
See |tagbar-commands| for more information on the debug commands. When you
look at the file you should especially pay attention to the reported file type
and the ctags command line in the log file.

6
plugin/tagbar.vim
View File

@@ -108,6 +108,8 @@ function! s:setup_keymaps() abort
\ ['togglefold', ['o', 'za']],
\ ['openallfolds', ['*', '<kMultiply>', 'zR']],
\ ['closeallfolds', ['=', 'zM']],
\ ['incrementfolds', ['zr']],
\ ['decrementfolds', ['zm']],
\ ['nextfold', 'zj'],
\ ['prevfold', 'zk'],
\
@@ -141,8 +143,8 @@ command! -nargs=1 -bang TagbarSetFoldlevel call tagbar#SetFoldLevel(<args>, <ba
command! -nargs=0 TagbarShowTag call tagbar#highlighttag(1, 1)
command! -nargs=? TagbarCurrentTag echo tagbar#currenttag('%s', 'No current tag', <f-args>)
command! -nargs=1 TagbarGetTypeConfig call tagbar#gettypeconfig(<f-args>)
command! -nargs=? TagbarDebug call tagbar#StartDebug(<f-args>)
command! -nargs=0 TagbarDebugEnd call tagbar#StopDebug()
command! -nargs=? TagbarDebug call tagbar#debug#start_debug(<f-args>)
command! -nargs=0 TagbarDebugEnd call tagbar#debug#stop_debug()
command! -nargs=0 TagbarTogglePause call tagbar#toggle_pause()
" Modeline {{{1

3
syntax/tagbar.vim
View File

@@ -12,7 +12,8 @@ if exists("b:current_syntax")
endif
let s:ics = escape(join(g:tagbar_iconchars, ''), ']^\-')
let s:pattern = '\(^[' . s:ics . '] \?\)\@<=[^-+: ]\+[^:]\+$'
let s:pattern = '\(^[' . s:ics . '] \?\)\@3<=[^-+: ]\+[^:]\+$'
execute "syntax match TagbarKind '" . s:pattern . "'"
let s:pattern = '\(\S\@<![' . s:ics . '][-+# ]\?\)\@<=[^*(]\+\(\*\?\(([^)]\+)\)\? :\)\@='