if polyglot#init#is_disabled(expand('<sfile>:p'), 'julia', 'autoload/LaTeXtoUnicode.vim')
finish
endif
""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""
" Support for LaTex-to-Unicode conversion as in the Julia REPL "
""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""
function! s:L2U_Setup()
call s:L2U_SetupGlobal()
" Keep track of whether LaTeX-to-Unicode is activated
" (used when filetype changes)
let b:l2u_enabled = get(b:, "l2u_enabled", 0)
let b:l2u_autodetect_enable = get(b:, "l2u_autodetect_enable", 1)
" Did we install the L2U tab/as-you-type/keymap... mappings?
let b:l2u_tab_set = get(b:, "l2u_tab_set", 0)
let b:l2u_cmdtab_set = get(b:, "l2u_cmdtab_set", 0)
let b:l2u_autosub_set = get(b:, "l2u_autosub_set", 0)
let b:l2u_keymap_set = get(b:, "l2u_keymap_set", 0)
" Following are some flags used to pass information between the function which
" attempts the LaTeX-to-Unicode completion and the fallback function
" Was a (possibly partial) completion found?
let b:l2u_found_completion = 0
" Is the cursor just after a single backslash
let b:l2u_singlebslash = 0
" Are we in the middle of a L2U tab completion?
let b:l2u_tab_completing = 0
" Are we calling the tab fallback?
let b:l2u_in_fallback = 0
endfunction
function! s:L2U_SetupGlobal()
" Initialization of global and script-local variables
" is only performed once
if get(g:, "l2u_did_global_setup", 0)
return
endif
let g:l2u_did_global_setup = 1
let g:l2u_symbols_dict = julia_latex_symbols#get_dict()
call s:L2U_deprecated_options()
if v:version < 704
let g:latex_to_unicode_tab = "off"
let g:latex_to_unicode_auto = 0
endif
" YouCompleteMe and neocomplcache/neocomplete/deoplete plug-ins do not work well
" with LaTeX symbols suggestions
if exists("g:loaded_youcompleteme") ||
\ exists("g:loaded_neocomplcache") ||
\ exists("g:loaded_neocomplete") ||
\ exists("g:loaded_deoplete")
let g:latex_to_unicode_suggestions = 0
endif
" Forcibly get out of completion mode: feed
" this string with feedkeys(s:l2u_esc_sequence, 'n')
let s:l2u_esc_sequence = " \b"
" Trigger for the previous mapping of <Tab>
let s:l2u_fallback_trigger = "\u0091L2UFallbackTab"
" Trigger for the previous mapping of <CR>
let s:l2u_fallback_trigger_cr = "\u0091L2UFallbackCR"
endfunction
" Each time the filetype changes, we may need to enable or
" disable the LaTeX-to-Unicode functionality
function! LaTeXtoUnicode#Refresh()
call s:L2U_Setup()
" skip if manually overridden
if !b:l2u_autodetect_enable
return ''
endif
" by default, LaTeX-to-Unicode is only active on julia files
let file_types = s:L2U_file_type_regex(get(g:, "latex_to_unicode_file_types", "julia"))
let file_types_blacklist = s:L2U_file_type_regex(get(g:, "latex_to_unicode_file_types_blacklist", "$^"))
if match(&filetype, file_types) < 0 || match(&filetype, file_types_blacklist) >= 0
if b:l2u_enabled
call LaTeXtoUnicode#Disable(1)
else
return ''
endif
elseif !b:l2u_enabled
call LaTeXtoUnicode#Enable(1)
endif
endfunction
function! LaTeXtoUnicode#Enable(...)
let auto_set = a:0 > 0 ? a:1 : 0
if b:l2u_enabled
return ''
end
call s:L2U_ResetLastCompletionInfo()
let b:l2u_enabled = 1
let b:l2u_autodetect_enable = auto_set
" If we're editing the first file upon opening vim, this will only init the
" command line mode mapping, and the full initialization will be performed by
" the autocmd triggered by InsertEnter, defined in /ftdetect.vim.
" Otherwise, if we're opening a file from within a running vim session, this
" will actually initialize all the LaTeX-to-Unicode substitutions.
call LaTeXtoUnicode#Init()
return ''
endfunction
function! LaTeXtoUnicode#Disable(...)
let auto_set = a:0 > 0 ? a:1 : 0
if !b:l2u_enabled
return ''
endif
let b:l2u_enabled = 0
let b:l2u_autodetect_enable = auto_set
call LaTeXtoUnicode#Init()
return ''
endfunction
" Translate old options to their new equivalents
function! s:L2U_deprecated_options()
for [new, old] in [["latex_to_unicode_tab", "julia_latex_to_unicode"],
\ ["latex_to_unicode_auto", "julia_auto_latex_to_unicode"],
\ ["latex_to_unicode_suggestions", "julia_latex_suggestions_enabled"],
\ ["latex_to_unicode_eager", "julia_latex_to_unicode_eager"]]
if !has_key(g:, new) && has_key(g:, old)
exec "let g:" . new . " = g:" . old
endif
endfor
if has_key(g:, "latex_to_unicode_tab")
if g:latex_to_unicode_tab is# 1
let g:latex_to_unicode_tab = "on"
elseif g:latex_to_unicode_tab is# 0
let g:latex_to_unicode_tab = "off"
endif
endif
endfunction
function! s:L2U_file_type_regex(ft)
if type(a:ft) == 3
let file_types = "\\%(" . join(a:ft, "\\|") . "\\)"
elseif type(a:ft) == 1
let file_types = a:ft
else
echoerr "invalid file_type specification"
endif
return "^" . file_types . "$"
endfunction
" Some data used to keep track of the previous completion attempt.
" Used to detect
" 1) if we just attempted the same completion, or
" 2) if backspace was just pressed while completing
" This function initializes and resets the required info
function! s:L2U_ResetLastCompletionInfo()
let b:l2u_completed_once = 0
let b:l2u_bs_while_completing = 0
let b:l2u_last_compl = {
\ 'line': '',
\ 'col0': -1,
\ 'col1': -1,
\ }
endfunction
" This function only detects whether an exact match is found for a LaTeX
" symbol in front of the cursor
function! s:L2U_ismatch()
let col1 = col('.')
let l = getline('.')
let col0 = match(l[0:col1-2], '\\[^[:space:]\\]\+$')
if col0 == -1
return 0
endif
let base = l[col0:col1-2]
return has_key(g:l2u_symbols_dict, base)
endfunction
" Helper function to sort suggestion entries
function! s:L2U_partmatches_sort(p1, p2)
return a:p1.word > a:p2.word ? 1 : a:p1.word < a:p2.word ? -1 : 0
endfunction
" Helper function to fix display of Unicode compose characters
" in the suggestions menu (they are displayed on top of '◌')
function! s:L2U_fix_compose_chars(uni)
let u = matchstr(a:uni, '^.')
let isc = ("\u0300" <= u && u <= "\u036F") ||
\ ("\u1DC0" <= u && u <= "\u1DFF") ||
\ ("\u20D0" <= u && u <= "\u20FF") ||
\ ("\uFE20" <= u && u <= "\uFE2F")
return isc ? "\u25CC" . a:uni : a:uni
endfunction
" Helper function to find the longest common prefix among
" partial completion matches (used when suggestions are disabled
" and in command line mode)
function! s:L2U_longest_common_prefix(partmatches)
let common = a:partmatches[0]
for i in range(1, len(a:partmatches)-1)
let p = a:partmatches[i]
if len(p) < len(common)
let common = common[0 : len(p)-1]
endif
for j in range(1, len(common)-1)
if p[j] != common[j]
let common = common[0 : j-1]
break
endif
endfor
endfor
return common
endfunction
" Completion function. Besides the usual two-stage completefunc behaviour,
" it has the following peculiar features:
" *) keeps track of the previous completion attempt
" *) sets some info to be used by the fallback function
" *) either returns a list of completions if a partial match is found, or a
" Unicode char if an exact match is found
" *) forces its way out of completion mode through a hack in some cases
function! LaTeXtoUnicode#completefunc(findstart, base)
if a:findstart
" first stage
" avoid infinite loop if the fallback happens to call completion
if b:l2u_in_fallback
let b:l2u_in_fallback = 0
return -3
endif
" make sure that the options are still set
" (it may happen that <C-X><C-U> itself triggers the fallback before
" restarting, thus reseetting them; this happens when the prompt is
" waiting for ^U^N^P during a partial completion)
call s:L2U_SetCompleteopt()
" setup the cleanup/fallback operations when we're done
call s:L2U_InsertCompleteDoneAutocommand()
call s:L2U_InsertInsertLeaveAutocommand()
" set info for the callback
let b:l2u_found_completion = 1
" analyse current line
let col1 = col('.')
let l = getline('.')
let col0 = match(l[0:col1-2], '\\[^[:space:]\\]\+$')
" compare with previous completion attempt
let b:l2u_bs_while_completing = 0
let b:l2u_completed_once = 0
if col0 == b:l2u_last_compl['col0']
let prevl = b:l2u_last_compl['line']
if col1 == b:l2u_last_compl['col1'] && l ==# prevl
let b:l2u_completed_once = 1
elseif col1 == b:l2u_last_compl['col1'] - 1 && l ==# prevl[0 : col1-2] . prevl[col1 : -1]
let b:l2u_bs_while_completing = 1
endif
endif
" store completion info for next attempt
let b:l2u_last_compl['col0'] = col0
let b:l2u_last_compl['col1'] = col1
let b:l2u_last_compl['line'] = l
" is the cursor right after a backslash?
let b:l2u_singlebslash = (match(l[0:col1-2], '\\$') >= 0)
" completion not found
if col0 == -1
let b:l2u_found_completion = 0
call feedkeys(s:l2u_esc_sequence, 'n')
let col0 = -2
endif
return col0
else
" read settings (eager mode is implicit when suggestions are disabled)
let suggestions = get(g:, "latex_to_unicode_suggestions", 1)
let eager = get(g:, "latex_to_unicode_eager", 1) || !suggestions
" search for matches
let partmatches = []
let exact_match = 0
for k in keys(g:l2u_symbols_dict)
if k ==# a:base
let exact_match = 1
endif
if len(k) >= len(a:base) && k[0 : len(a:base)-1] ==# a:base
let menu = s:L2U_fix_compose_chars(g:l2u_symbols_dict[k])
if suggestions
call add(partmatches, {'word': k, 'menu': menu})
else
call add(partmatches, k)
endif
endif
endfor
" exact matches are replaced with Unicode
" exceptions:
" *) we reached an exact match by pressing backspace while completing
" *) the exact match is one among many, and the eager setting is
" disabled, and it's the first time this completion is attempted
if exact_match && !b:l2u_bs_while_completing && (len(partmatches) == 1 || eager || b:l2u_completed_once)
" the completion is successful: reset the last completion info...
call s:L2U_ResetLastCompletionInfo()
" ...force our way out of completion mode...
call feedkeys(s:l2u_esc_sequence, 'n')
" ...return the Unicode symbol
return [g:l2u_symbols_dict[a:base]]
endif
if !empty(partmatches)
" here, only partial matches were found; either keep just the longest
" common prefix, or pass them on
if !suggestions
let partmatches = [s:L2U_longest_common_prefix(partmatches)]
else
call sort(partmatches, "s:L2U_partmatches_sort")
endif
endif
if empty(partmatches)
call feedkeys(s:l2u_esc_sequence, 'n')
let b:l2u_found_completion = 0
endif
return partmatches
endif
endfunction
function! LaTeXtoUnicode#PutLiteral(k)
call feedkeys(a:k, 'ni')
return ''
endfunction
function! LaTeXtoUnicode#PutLiteralCR()
call feedkeys('
', 'ni')
return ''
endfunction
" Function which saves the current insert-mode mapping of a key sequence `s`
" and associates it with another key sequence `k` (e.g. stores the current
" <Tab> mapping into the Fallback trigger).
" It returns the previous maparg dictionary, so that the previous mapping can
" be reinstated if needed.
function! s:L2U_SetFallbackMapping(s, k)
let mmdict = maparg(a:s, 'i', 0, 1)
if empty(mmdict)
exe 'inoremap <buffer> ' . a:k . ' ' . a:s
return mmdict
endif
let rhs = mmdict["rhs"]
if rhs =~# '^<Plug>L2U'
return mmdict
endif
let pre = '<buffer>'
let pre = pre . (mmdict["silent"] ? '<silent>' : '')
let pre = pre . (mmdict["expr"] ? '<expr>' : '')
if mmdict["noremap"]
let cmd = 'inoremap '
else
let cmd = 'imap '
" This is a nasty hack used to prevent infinite recursion. It's not a
" general solution. Also, it doesn't work with <CR> since that stops
" parsing of the <C-R>=... expression, so we need to special-case it.
" Also, if the original mapping was intended to be recursive, this
" will break it.
if a:s != "<CR>"
let rhs = substitute(rhs, '\c' . a:s, "\<C-R>=LaTeXtoUnicode#PutLiteral('" . a:s . "')\<CR>", 'g')
else
let rhs = substitute(rhs, '\c' . a:s, "\<C-R>=LaTeXtoUnicode#PutLiteralCR()\<CR>", 'g')
endif
" Make the mapping silent even if it wasn't originally
if !mmdict["silent"]
let pre = pre . '<silent>'
endif
endif
exe cmd . pre . ' ' . a:k . ' ' . rhs
return mmdict
endfunction
" Reinstate a mapping from the maparg dict returned by SetFallbackMapping
" (only if buffer-local, since otherwise it should still be available)
function! s:L2U_ReinstateMapping(mmdict)
if empty(a:mmdict) || !a:mmdict["buffer"]
return ''
endif
let lhs = a:mmdict["lhs"]
let rhs = a:mmdict["rhs"]
if rhs =~# '^<Plug>L2U'
return ''
endif
let pre = '<buffer>'
let pre = pre . (a:mmdict["silent"] ? '<silent>' : '')
let pre = pre . (a:mmdict["expr"] ? '<expr>' : '')
let cmd = a:mmdict["noremap"] ? 'inoremap ' : 'imap '
exe cmd . pre . ' ' . lhs . ' ' . rhs
endfunction
" This is the function which is mapped to <Tab>
function! LaTeXtoUnicode#Tab()
" the <Tab> is passed through to the fallback mapping if the completion
" menu is present, and it hasn't been raised by the L2U tab, and there
" isn't an exact match before the cursor
if pumvisible() && !b:l2u_tab_completing && !s:L2U_ismatch()
call feedkeys(s:l2u_fallback_trigger)
return ''
endif
" ensure that we start completion with some reasonable options
call s:L2U_SetCompleteopt()
" reset the in_fallback info
let b:l2u_in_fallback = 0
let b:l2u_tab_completing = 1
" invoke completion; failure to perform LaTeX-to-Unicode completion is
" handled by the CompleteDone autocommand.
call feedkeys("\<C-X>\<C-U>", 'n')
return ""
endfunction
" This function is called at every CompleteDone event, and is meant to handle
" the failures of LaTeX-to-Unicode completion by calling a fallback
function! LaTeXtoUnicode#FallbackCallback()
call s:L2U_RemoveCompleteDoneAutocommand()
call s:L2U_RestoreCompleteopt()
if !b:l2u_tab_completing
" completion was not initiated by L2U, nothing to do
return
endif
" at this point L2U tab completion is over
let b:l2u_tab_completing = 0
" if the completion was successful do nothing
if b:l2u_found_completion == 1 || b:l2u_singlebslash == 1
return
endif
" fallback
let b:l2u_in_fallback = 1
call feedkeys(s:l2u_fallback_trigger)
return
endfunction
" This is the function that performs the substitution in command-line mode
function! LaTeXtoUnicode#CmdTab(trigger)
" first stage
" analyse command line
let col1 = getcmdpos() - 1
let l = getcmdline()
let col0 = match(l[0:col1-1], '\\[^[:space:]\\]\+$')
let b:l2u_singlebslash = (match(l[0:col1-1], '\\$') >= 0)
" completion not found
if col0 == -1
if a:trigger == &wildchar
call feedkeys(nr2char(a:trigger), 'nt') " fall-back to the default wildchar
elseif a:trigger == char2nr("\<S-Tab>")
call feedkeys("\<S-Tab>", 'nt') " fall-back to the default <S-Tab>
endif
return ''
endif
let base = l[col0 : col1-1]
" search for matches
let partmatches = []
let exact_match = 0
for k in keys(g:l2u_symbols_dict)
if k ==# base
let exact_match = 1
break
elseif len(k) >= len(base) && k[0 : len(base)-1] ==# base
call add(partmatches, k)
endif
endfor
if !exact_match && len(partmatches) == 0
" no matches, call fallbacks
if a:trigger == &wildchar
call feedkeys(nr2char(a:trigger), 'nt') " fall-back to the default wildchar
elseif a:trigger == char2nr("\<S-Tab>")
call feedkeys("\<S-Tab>", 'nt') " fall-back to the default <S-Tab>
endif
elseif exact_match
" exact matches are replaced with Unicode
let unicode = g:l2u_symbols_dict[base]
call feedkeys(repeat("\b", len(base)) . unicode, 'nt')
else
" no exact match: complete with the longest common prefix
let common = s:L2U_longest_common_prefix(partmatches)
call feedkeys(common[len(base):], 'nt')
endif
return ''
endfunction
function! s:L2U_SetCompleteopt()
" temporary change completeopt to use settings which make sense
" for L2U
let backup_new = 0
if !exists('b:l2u_backup_completeopt')
let b:l2u_backup_completeopt = &completeopt
let backup_new = 1
endif
noautocmd set completeopt+=longest
noautocmd set completeopt-=noinsert
noautocmd set completeopt-=noselect
noautocmd set completeopt-=menuone
if backup_new
let b:l2u_modified_completeopt = &completeopt
endif
endfunction
function! s:L2U_RestoreCompleteopt()
" restore completeopt, but only if nothing else has
" messed with it in the meanwhile
if exists('b:l2u_backup_completeopt')
if exists('b:l2u_modified_completeopt')
if &completeopt ==# b:l2u_modified_completeopt
noautocmd let &completeopt = b:l2u_backup_completeopt
endif
unlet b:l2u_modified_completeopt
endif
unlet b:l2u_backup_completeopt
endif
endfunction
function! s:L2U_InsertCompleteDoneAutocommand()
augroup L2UCompleteDone
autocmd! * <buffer>
" Every time a L2U completion finishes, the fallback may be invoked
autocmd CompleteDone <buffer> call LaTeXtoUnicode#FallbackCallback()
augroup END
endfunction
function! s:L2U_RemoveCompleteDoneAutocommand()
augroup L2UCompleteDone
autocmd! * <buffer>
augroup END
endfunction
function s:L2U_InsertLeaveClenup()
call s:L2U_ResetLastCompletionInfo()
augroup L2UInsertLeave
autocmd! * <buffer>
augroup END
endfunction
function! s:L2U_InsertInsertLeaveAutocommand()
augroup L2UInsertLeave
autocmd! * <buffer>
autocmd InsertLeave <buffer> call s:L2U_InsertLeaveClenup()
augroup END
endfunction
" Setup the L2U tab mapping
function! s:L2U_SetTab(wait_insert_enter)
let opt_do_cmdtab = index(["on", "command", "cmd"], get(g:, "latex_to_unicode_tab", "on")) != -1
let opt_do_instab = index(["on", "insert", "ins"], get(g:, "latex_to_unicode_tab", "on")) != -1
if !b:l2u_cmdtab_set && opt_do_cmdtab && b:l2u_enabled
let b:l2u_cmdtab_keys = get(g:, "latex_to_unicode_cmd_mapping", ['<Tab>','<S-Tab>'])
if type(b:l2u_cmdtab_keys) != type([]) " avoid using v:t_list for backward compatibility
let b:l2u_cmdtab_keys = [b:l2u_cmdtab_keys]
endif
for k in b:l2u_cmdtab_keys
exec 'let trigger = char2nr("'.(k[0] == '<' ? '\' : '').k.'")'
exec 'cnoremap <buffer><expr> '.k.' LaTeXtoUnicode#CmdTab('.trigger.')'
endfor
let b:l2u_cmdtab_set = 1
endif
if b:l2u_tab_set
return
endif
" g:did_insert_enter is set from an autocommand in ftdetect
if a:wait_insert_enter && !get(g:, "did_insert_enter", 0)
return
endif
if !opt_do_instab || !b:l2u_enabled
return
endif
" Backup the previous completefunc (the check is probably not really needed)
if get(b:, "l2u_prev_completefunc", "") != "LaTeXtoUnicode#completefunc"
let b:l2u_prev_completefunc = &completefunc
endif
setlocal completefunc=LaTeXtoUnicode#completefunc
let b:l2u_prev_map_tab = s:L2U_SetFallbackMapping('<Tab>', s:l2u_fallback_trigger)
imap <buffer> <Tab> <Plug>L2UTab
inoremap <buffer><expr> <Plug>L2UTab LaTeXtoUnicode#Tab()
let b:l2u_tab_set = 1
endfunction
" Revert the LaTeX-to-Unicode tab mapping settings
function! s:L2U_UnsetTab()
if b:l2u_cmdtab_set
for k in b:l2u_cmdtab_keys
exec 'cunmap <buffer> '.k
endfor
let b:l2u_cmdtab_set = 0
endif
if !b:l2u_tab_set
return
endif
exec "setlocal completefunc=" . get(b:, "l2u_prev_completefunc", "")
iunmap <buffer> <Tab>
if empty(maparg("<Tab>", "i"))
call s:L2U_ReinstateMapping(b:l2u_prev_map_tab)
endif
iunmap <buffer> <Plug>L2UTab
exe 'iunmap <buffer> ' . s:l2u_fallback_trigger
let b:l2u_tab_set = 0
endfunction
" Function which looks for viable LaTeX-to-Unicode supstitutions as you type
function! LaTeXtoUnicode#AutoSub(...)
" avoid recursive calls
if get(b:, "l2u_in_autosub", 0)
return ''
endif
let vc = a:0 == 0 ? v:char : a:1
" for some reason function keys seem to be passed as characters 149 (F1-F12)
" or 186 (F13-F37, these are entered with shift/ctrl). In such cases, we
" can't really do any better than giving up.
if char2nr(vc) == 149 || char2nr(vc) == 186
return ''
endif
let b:l2u_in_autosub = 1
let col1 = col('.')
let lnum = line('.')
if col1 == 1
if a:0 > 1
call feedkeys(a:2, 'mi')
endif
let b:l2u_in_autosub = 0
return ''
endif
let bs = (vc != "\n")
let l = getline(lnum)[0 : col1-1-bs] . v:char
let col0 = match(l, '\\\%([_^]\?[A-Za-z]\+\%' . col1 . 'c\%([^A-Za-z]\|$\)\|[_^]\%([0-9()=+-]\)\%' . col1 .'c\%(.\|$\)\)')
if col0 == -1
if a:0 > 1
call feedkeys(a:2, 'mi')
endif
let b:l2u_in_autosub = 0
return ''
endif
let base = l[col0 : col1-1-bs]
let unicode = get(g:l2u_symbols_dict, base, '')
if empty(unicode)
if a:0 > 1
call feedkeys(a:2, 'mi')
endif
let b:l2u_in_autosub = 0
return ''
endif
" perform the substitution, wrapping it in undo breakpoints so that
" we can revert it as a whole
" at the end, reset the l2u_in_autosub variable without leaving insert mode
" the 'i' mode is the only one that works correctly when executing macros
" the 'n' mode is to avoid user-defined mappings of \b, <C-G> and <C-\><C-O>
call feedkeys("\<C-G>u" .
\ repeat("\b", len(base) + bs) . unicode . vc . s:l2u_esc_sequence .
\ "\<C-G>u" .
\ "\<C-\>\<C-O>:let b:l2u_in_autosub = 0\<CR>",
\ 'ni')
return ''
endfunction
" Setup the auto as-you-type LaTeX-to-Unicode substitution
function! s:L2U_SetAutoSub(wait_insert_enter)
if b:l2u_autosub_set
return
endif
" g:did_insert_enter is set from an autocommand in ftdetect
if a:wait_insert_enter && !get(g:, "did_insert_enter", 0)
return
endif
if !get(g:, "latex_to_unicode_auto", 0) || !b:l2u_enabled
return
endif
" Viable substitutions are searched at every character insertion via the
" autocmd InsertCharPre. The <Enter> key does not seem to be catched in
" this way though, so we use a mapping for that case.
let b:l2u_prev_map_cr = s:L2U_SetFallbackMapping('<CR>', s:l2u_fallback_trigger_cr)
imap <buffer> <CR> <Plug>L2UAutoSub
exec 'inoremap <buffer><expr> <Plug>L2UAutoSub LaTeXtoUnicode#AutoSub("\n", "' . s:l2u_fallback_trigger_cr . '")'
augroup L2UAutoSub
autocmd! * <buffer>
autocmd InsertCharPre <buffer> call LaTeXtoUnicode#AutoSub()
augroup END
let b:l2u_autosub_set = 1
endfunction
" Revert the auto LaTeX-to-Unicode settings
function! s:L2U_UnsetAutoSub()
if !b:l2u_autosub_set
return
endif
iunmap <buffer> <CR>
if empty(maparg("<CR>", "i"))
call s:L2U_ReinstateMapping(b:l2u_prev_map_cr)
endif
iunmap <buffer> <Plug>L2UAutoSub
exe 'iunmap <buffer> ' . s:l2u_fallback_trigger_cr
augroup L2UAutoSub
autocmd! * <buffer>
augroup END
let b:l2u_autosub_set = 0
endfunction
function! s:L2U_SetKeymap()
if !b:l2u_keymap_set && get(g:, "latex_to_unicode_keymap", 0) && b:l2u_enabled
setlocal keymap=latex2unicode
let b:l2u_keymap_set = 1
endif
endfunction
function! s:L2U_UnsetKeymap()
if !b:l2u_keymap_set
return
endif
setlocal keymap=
let b:l2u_keymap_set = 0
endfunction
" Initialization. Can be used to re-init when global settings have changed.
function! LaTeXtoUnicode#Init(...)
let wait_insert_enter = a:0 > 0 ? a:1 : 1
if !wait_insert_enter
augroup L2UInit
autocmd!
augroup END
endif
call s:L2U_UnsetTab()
call s:L2U_UnsetAutoSub()
call s:L2U_UnsetKeymap()
call s:L2U_SetTab(wait_insert_enter)
call s:L2U_SetAutoSub(wait_insert_enter)
call s:L2U_SetKeymap()
return ''
endfunction
function! LaTeXtoUnicode#Toggle()
call s:L2U_Setup()
if b:l2u_enabled
call LaTeXtoUnicode#Disable()
echo "LaTeX-to-Unicode disabled"
else
call LaTeXtoUnicode#Enable()
echo "LaTeX-to-Unicode enabled"
endif
return ''
endfunction
