neovim/runtime/indent/clojure.vim
Justin M. Keyes a39bf01958 vim-patch:3ec574f2b549
Update runtime files.

Includes changing &sw to shiftwidth() for all indent scripts.

3ec574f2b5
2017-11-07 01:37:30 +01:00

395 lines
10 KiB
VimL
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

" Vim indent file
" Language: Clojure
" Author: Meikel Brandmeyer <mb@kotka.de>
" URL: http://kotka.de/projects/clojure/vimclojure.html
"
" Maintainer: Sung Pae <self@sungpae.com>
" URL: https://github.com/guns/vim-clojure-static
" License: Same as Vim
" Last Change: 18 July 2016
if exists("b:did_indent")
finish
endif
let b:did_indent = 1
let s:save_cpo = &cpo
set cpo&vim
let b:undo_indent = 'setlocal autoindent< smartindent< expandtab< softtabstop< shiftwidth< indentexpr< indentkeys<'
setlocal noautoindent nosmartindent
setlocal softtabstop=2 shiftwidth=2 expandtab
setlocal indentkeys=!,o,O
if exists("*searchpairpos")
if !exists('g:clojure_maxlines')
let g:clojure_maxlines = 100
endif
if !exists('g:clojure_fuzzy_indent')
let g:clojure_fuzzy_indent = 1
endif
if !exists('g:clojure_fuzzy_indent_patterns')
let g:clojure_fuzzy_indent_patterns = ['^with', '^def', '^let']
endif
if !exists('g:clojure_fuzzy_indent_blacklist')
let g:clojure_fuzzy_indent_blacklist = ['-fn$', '\v^with-%(meta|out-str|loading-context)$']
endif
if !exists('g:clojure_special_indent_words')
let g:clojure_special_indent_words = 'deftype,defrecord,reify,proxy,extend-type,extend-protocol,letfn'
endif
if !exists('g:clojure_align_multiline_strings')
let g:clojure_align_multiline_strings = 0
endif
if !exists('g:clojure_align_subforms')
let g:clojure_align_subforms = 0
endif
function! s:syn_id_name()
return synIDattr(synID(line("."), col("."), 0), "name")
endfunction
function! s:ignored_region()
return s:syn_id_name() =~? '\vstring|regex|comment|character'
endfunction
function! s:current_char()
return getline('.')[col('.')-1]
endfunction
function! s:current_word()
return getline('.')[col('.')-1 : searchpos('\v>', 'n', line('.'))[1]-2]
endfunction
function! s:is_paren()
return s:current_char() =~# '\v[\(\)\[\]\{\}]' && !s:ignored_region()
endfunction
" Returns 1 if string matches a pattern in 'patterns', which may be a
" list of patterns, or a comma-delimited string of implicitly anchored
" patterns.
function! s:match_one(patterns, string)
let list = type(a:patterns) == type([])
\ ? a:patterns
\ : map(split(a:patterns, ','), '"^" . v:val . "$"')
for pat in list
if a:string =~# pat | return 1 | endif
endfor
endfunction
function! s:match_pairs(open, close, stopat)
" Stop only on vector and map [ resp. {. Ignore the ones in strings and
" comments.
if a:stopat == 0
let stopat = max([line(".") - g:clojure_maxlines, 0])
else
let stopat = a:stopat
endif
let pos = searchpairpos(a:open, '', a:close, 'bWn', "!s:is_paren()", stopat)
return [pos[0], col(pos)]
endfunction
function! s:clojure_check_for_string_worker()
" Check whether there is the last character of the previous line is
" highlighted as a string. If so, we check whether it's a ". In this
" case we have to check also the previous character. The " might be the
" closing one. In case the we are still in the string, we search for the
" opening ". If this is not found we take the indent of the line.
let nb = prevnonblank(v:lnum - 1)
if nb == 0
return -1
endif
call cursor(nb, 0)
call cursor(0, col("$") - 1)
if s:syn_id_name() !~? "string"
return -1
endif
" This will not work for a " in the first column...
if s:current_char() == '"'
call cursor(0, col("$") - 2)
if s:syn_id_name() !~? "string"
return -1
endif
if s:current_char() != '\\'
return -1
endif
call cursor(0, col("$") - 1)
endif
let p = searchpos('\(^\|[^\\]\)\zs"', 'bW')
if p != [0, 0]
return p[1] - 1
endif
return indent(".")
endfunction
function! s:check_for_string()
let pos = getpos('.')
try
let val = s:clojure_check_for_string_worker()
finally
call setpos('.', pos)
endtry
return val
endfunction
function! s:strip_namespace_and_macro_chars(word)
return substitute(a:word, "\\v%(.*/|[#'`~@^,]*)(.*)", '\1', '')
endfunction
function! s:clojure_is_method_special_case_worker(position)
" Find the next enclosing form.
call search('\S', 'Wb')
" Special case: we are at a '(('.
if s:current_char() == '('
return 0
endif
call cursor(a:position)
let next_paren = s:match_pairs('(', ')', 0)
" Special case: we are now at toplevel.
if next_paren == [0, 0]
return 0
endif
call cursor(next_paren)
call search('\S', 'W')
let w = s:strip_namespace_and_macro_chars(s:current_word())
if g:clojure_special_indent_words =~# '\V\<' . w . '\>'
return 1
endif
return 0
endfunction
function! s:is_method_special_case(position)
let pos = getpos('.')
try
let val = s:clojure_is_method_special_case_worker(a:position)
finally
call setpos('.', pos)
endtry
return val
endfunction
" Check if form is a reader conditional, that is, it is prefixed by #?
" or @#?
function! s:is_reader_conditional_special_case(position)
if getline(a:position[0])[a:position[1] - 3 : a:position[1] - 2] == "#?"
return 1
endif
return 0
endfunction
" Returns 1 for opening brackets, -1 for _anything else_.
function! s:bracket_type(char)
return stridx('([{', a:char) > -1 ? 1 : -1
endfunction
" Returns: [opening-bracket-lnum, indent]
function! s:clojure_indent_pos()
" Get rid of special case.
if line(".") == 1
return [0, 0]
endif
" We have to apply some heuristics here to figure out, whether to use
" normal lisp indenting or not.
let i = s:check_for_string()
if i > -1
return [0, i + !!g:clojure_align_multiline_strings]
endif
call cursor(0, 1)
" Find the next enclosing [ or {. We can limit the second search
" to the line, where the [ was found. If no [ was there this is
" zero and we search for an enclosing {.
let paren = s:match_pairs('(', ')', 0)
let bracket = s:match_pairs('\[', '\]', paren[0])
let curly = s:match_pairs('{', '}', bracket[0])
" In case the curly brace is on a line later then the [ or - in
" case they are on the same line - in a higher column, we take the
" curly indent.
if curly[0] > bracket[0] || curly[1] > bracket[1]
if curly[0] > paren[0] || curly[1] > paren[1]
return curly
endif
endif
" If the curly was not chosen, we take the bracket indent - if
" there was one.
if bracket[0] > paren[0] || bracket[1] > paren[1]
return bracket
endif
" There are neither { nor [ nor (, ie. we are at the toplevel.
if paren == [0, 0]
return paren
endif
" Now we have to reimplement lispindent. This is surprisingly easy, as
" soon as one has access to syntax items.
"
" - Check whether we are in a special position after a word in
" g:clojure_special_indent_words. These are special cases.
" - Get the next keyword after the (.
" - If its first character is also a (, we have another sexp and align
" one column to the right of the unmatched (.
" - In case it is in lispwords, we indent the next line to the column of
" the ( + sw.
" - If not, we check whether it is last word in the line. In that case
" we again use ( + sw for indent.
" - In any other case we use the column of the end of the word + 2.
call cursor(paren)
if s:is_method_special_case(paren)
return [paren[0], paren[1] + shiftwidth() - 1]
endif
if s:is_reader_conditional_special_case(paren)
return paren
endif
" In case we are at the last character, we use the paren position.
if col("$") - 1 == paren[1]
return paren
endif
" In case after the paren is a whitespace, we search for the next word.
call cursor(0, col('.') + 1)
if s:current_char() == ' '
call search('\v\S', 'W')
endif
" If we moved to another line, there is no word after the (. We
" use the ( position for indent.
if line(".") > paren[0]
return paren
endif
" We still have to check, whether the keyword starts with a (, [ or {.
" In that case we use the ( position for indent.
let w = s:current_word()
if s:bracket_type(w[0]) == 1
return paren
endif
" Test words without namespace qualifiers and leading reader macro
" metacharacters.
"
" e.g. clojure.core/defn and #'defn should both indent like defn.
let ww = s:strip_namespace_and_macro_chars(w)
if &lispwords =~# '\V\<' . ww . '\>'
return [paren[0], paren[1] + shiftwidth() - 1]
endif
if g:clojure_fuzzy_indent
\ && !s:match_one(g:clojure_fuzzy_indent_blacklist, ww)
\ && s:match_one(g:clojure_fuzzy_indent_patterns, ww)
return [paren[0], paren[1] + shiftwidth() - 1]
endif
call search('\v\_s', 'cW')
call search('\v\S', 'W')
if paren[0] < line(".")
return [paren[0], paren[1] + (g:clojure_align_subforms ? 0 : shiftwidth() - 1)]
endif
call search('\v\S', 'bW')
return [line('.'), col('.') + 1]
endfunction
function! GetClojureIndent()
let lnum = line('.')
let orig_lnum = lnum
let orig_col = col('.')
let [opening_lnum, indent] = s:clojure_indent_pos()
" Account for multibyte characters
if opening_lnum > 0
let indent -= indent - virtcol([opening_lnum, indent])
endif
" Return if there are no previous lines to inherit from
if opening_lnum < 1 || opening_lnum >= lnum - 1
call cursor(orig_lnum, orig_col)
return indent
endif
let bracket_count = 0
" Take the indent of the first previous non-white line that is
" at the same sexp level. cf. src/misc1.c:get_lisp_indent()
while 1
let lnum = prevnonblank(lnum - 1)
let col = 1
if lnum <= opening_lnum
break
endif
call cursor(lnum, col)
" Handle bracket counting edge case
if s:is_paren()
let bracket_count += s:bracket_type(s:current_char())
endif
while 1
if search('\v[(\[{}\])]', '', lnum) < 1
break
elseif !s:ignored_region()
let bracket_count += s:bracket_type(s:current_char())
endif
endwhile
if bracket_count == 0
" Check if this is part of a multiline string
call cursor(lnum, 1)
if s:syn_id_name() !~? '\vstring|regex'
call cursor(orig_lnum, orig_col)
return indent(lnum)
endif
endif
endwhile
call cursor(orig_lnum, orig_col)
return indent
endfunction
setlocal indentexpr=GetClojureIndent()
else
" In case we have searchpairpos not available we fall back to
" normal lisp indenting.
setlocal indentexpr=
setlocal lisp
let b:undo_indent .= '| setlocal lisp<'
endif
let &cpo = s:save_cpo
unlet! s:save_cpo
" vim:sts=8:sw=8:ts=8:noet