" {{{1 latex#complete#init function! latex#complete#init(initialized) if g:latex_complete_enabled setlocal omnifunc=latex#complete#omnifunc endif endfunction " {{{1 latex#complete#omnifunc let s:completion_type = '' function! latex#complete#omnifunc(findstart, base) if a:findstart " " First call: Find start of text to be completed " " Note: g:latex_complete_patterns is a dictionary where the keys are the " types of completion and the values are the patterns that must match for " the given type. Currently, it completes labels (e.g. \ref{...), bibtex " entries (e.g. \cite{...) and commands (e.g. \...). " let line = getline('.') let pos = col('.') - 1 for [type, pattern] in items(g:latex_complete_patterns) if line =~ pattern . '$' let s:completion_type = type while pos > 0 && line[pos - 1] !~ '{\|,' let pos -= 1 endwhile return pos > 0 ? pos : -2 endif endfor else " " Second call: Find list of matches " if s:completion_type == 'ref' return latex#complete#labels(a:base) elseif s:completion_type == 'bib' return latex#complete#bibtex(a:base) endif endif endfunction " {{{1 latex#complete#labels function! latex#complete#labels(regex) let labels = s:labels_get(g:latex#data[b:latex.id].aux()) let matches = filter(copy(labels), 'v:val[0] =~ ''' . a:regex . '''') " Try to match label and number if empty(matches) let regex_split = split(a:regex) if len(regex_split) > 1 let base = regex_split[0] let number = escape(join(regex_split[1:], ' '), '.') let matches = filter(copy(labels), \ 'v:val[0] =~ ''' . base . ''' &&' . \ 'v:val[1] =~ ''' . number . '''') endif endif " Try to match number if empty(matches) let matches = filter(copy(labels), 'v:val[1] =~ ''' . a:regex . '''') endif let suggestions = [] for m in matches let entry = { \ 'word': m[0], \ 'menu': printf("%7s [p. %s]", '('.m[1].')', m[2]) \ } if g:latex_complete_close_braces && !s:next_chars_match('^\s*[,}]') let entry = copy(entry) let entry.abbr = entry.word let entry.word = entry.word . '}' endif call add(suggestions, entry) endfor return suggestions endfunction " {{{1 latex#complete#bibtex function! latex#complete#bibtex(regexp) let res = [] let s:type_length = 4 for m in s:bibtex_search(a:regexp) let type = m['type'] == '' ? '[-]' : '[' . m['type'] . '] ' let auth = m['author'] == '' ? '' : m['author'][:20] . ' ' let year = m['year'] == '' ? '' : '(' . m['year'] . ')' " Align the type entry and fix minor annoyance in author list let type = printf('%-' . s:type_length . 's', type) let auth = substitute(auth, '\~', ' ', 'g') let w = { \ 'word': m['key'], \ 'abbr': type . auth . year, \ 'menu': m['title'] \ } " Close braces if desired if g:latex_complete_close_braces && !s:next_chars_match('^\s*[,}]') let w.word = w.word . '}' endif call add(res, w) endfor return res endfunction " }}}1 " {{{1 s:bibtex_search let s:bstfile = expand(':p:h') . '/vimcomplete' let s:type_length = 0 function! s:bibtex_search(regexp) let res = [] " Find data from external bib files let bibdata = join(s:bibtex_find_bibs(), ',') if bibdata != '' let tmp = { \ 'aux' : 'tmpfile.aux', \ 'bbl' : 'tmpfile.bbl', \ 'blg' : 'tmpfile.blg', \ } " Write temporary aux file call writefile([ \ '\citation{*}', \ '\bibstyle{' . s:bstfile . '}', \ '\bibdata{' . bibdata . '}', \ ], tmp.aux) " Create temporary bbl file silent execute '!bibtex -terse ' . tmp.aux . ' >/dev/null' if !has('gui_running') redraw! endif " Parse temporary bbl file let lines = split(substitute(join(readfile(tmp.bbl), "\n"), \ '\n\n\@!\(\s\=\)\s*\|{\|}', '\1', 'g'), "\n") for line in filter(lines, 'v:val =~ a:regexp') let matches = matchlist(line, \ '^\(.*\)||\(.*\)||\(.*\)||\(.*\)||\(.*\)') if !empty(matches) && !empty(matches[1]) let s:type_length = max([s:type_length, len(matches[2]) + 3]) call add(res, { \ 'key': matches[1], \ 'type': matches[2], \ 'author': matches[3], \ 'year': matches[4], \ 'title': matches[5], \ }) endif endfor call delete(tmp.aux) call delete(tmp.bbl) call delete(tmp.blg) endif " Find data from 'thebibliography' environments let lines = readfile(g:latex#data[b:latex.id].tex) if match(lines, '\C\\begin{thebibliography}') for line in filter(filter(lines, 'v:val =~ ''\C\\bibitem'''), \ 'v:val =~ a:regexp') let match = matchlist(line, '\\bibitem{\([^}]*\)')[1] call add(res, { \ 'key': match, \ 'type': '', \ 'author': '', \ 'year': '', \ 'title': match, \ }) endfor endif return res endfunction " {{{1 s:bibtex_find_bibs function! s:bibtex_find_bibs(...) if a:0 let file = a:1 else let file = g:latex#data[b:latex.id].tex endif if !filereadable(file) return '' endif let lines = readfile(file) let bibdata_list = [] " " Search for added bibliographies " * Parse commands such as \bibliography{file1,file2.bib,...} " * This also removes the .bib extensions " let bibsearch = '''\v\C\\' let bibsearch .= '(bibliography|add(bibresource|globalbib|sectionbib))' let bibsearch .= '\m\s*{\zs[^}]\+\ze}''' for entry in map(filter(copy(lines), \ 'v:val =~ ' . bibsearch), \ 'matchstr(v:val, ' . bibsearch . ')') let bibdata_list += map(split(entry, ','), 'fnamemodify(v:val, '':r'')') endfor " " Recursively search included files " let incsearch = '''\C\\' let incsearch .= '\%(input\|include\)' let incsearch .= '\s*{\zs[^}]\+\ze}''' for entry in map(filter(lines, \ 'v:val =~ ' . incsearch), \ 'matchstr(v:val, ' . incsearch . ')') let bibdata_list += s:bibtex_find_bibs(latex#util#kpsewhich(entry)) endfor return bibdata_list endfunction " {{{1 s:labels_cache " " s:label_cache is a dictionary that maps filenames to tuples of the form " " [ time, labels, inputs ] " " where time is modification time of the cache entry, labels is a list like " returned by extract_labels, and inputs is a list like returned by " s:extract_inputs. " let s:label_cache = {} " {{{1 s:labels_get function! s:labels_get(file) " " s:labels_get compares modification time of each entry in the label cache " and updates it if necessary. During traversal of the label cache, all " current labels are collected and returned. " if !filereadable(a:file) return [] endif " Open file in temporary split window for label extraction. if !has_key(s:label_cache , a:file) \ || s:label_cache[a:file][0] != getftime(a:file) let s:label_cache[a:file] = [ \ getftime(a:file), \ s:labels_extract(a:file), \ s:labels_extract_inputs(a:file), \ ] endif " We need to create a copy of s:label_cache[fid][1], otherwise all inputs' " labels would be added to the current file's label cache upon each " completion call, leading to duplicates/triplicates/etc. and decreased " performance. Also, because we don't anything with the list besides " matching copies, we can get away with a shallow copy for now. let labels = copy(s:label_cache[a:file][1]) for input in s:label_cache[a:file][2] let labels += s:labels_get(input) endfor return labels endfunction " {{{1 s:labels_extract function! s:labels_extract(file) " " Searches file for commands of the form " " \newlabel{name}{{number}{page}.*}.* " " and returns a list of [name, number, page] tuples. " let matches = [] let lines = readfile(a:file) let lines = filter(lines, 'v:val =~ ''\\newlabel{''') let lines = filter(lines, 'v:val !~ ''@cref''') let lines = map(lines, 'latex#util#convert_back(v:val)') for line in lines let tree = latex#util#tex2tree(line) call add(matches, [ \ latex#util#tree2tex(tree[1][0]), \ latex#util#tree2tex(tree[2][0][0]), \ latex#util#tree2tex(tree[2][1][0]), \ ]) endfor return matches endfunction " {{{1 s:labels_extract_inputs function! s:labels_extract_inputs(file) " " Searches file for \@input{file} entries and returns list of all files. " let matches = [] for line in filter(readfile(a:file), 'v:val =~ ''\\@input{''') call add(matches, matchstr(line, '{\zs.*\ze}')) endfor return matches endfunction " }}}1 " {{{1 s:next_chars_match function! s:next_chars_match(regex) return strpart(getline('.'), col('.') - 1) =~ a:regex endfunction " }}}1 " vim:fdm=marker:ff=unix