author |
Steve Losh <steve@stevelosh.com> |
date |
Tue, 15 Mar 2011 14:55:09 -0400 |
parents |
fc8ea0a42a45 |
children |
(none) |
" Vim indent file
" Language: Clojure
" Maintainer: Meikel Brandmeyer <mb@kotka.de>
" URL: http://kotka.de/projects/clojure/vimclojure.html
" Only load this indent file when no other was loaded.
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 ai< si< lw< et< sts< sw< inde< indk<"
setlocal autoindent expandtab nosmartindent
setlocal softtabstop=2
setlocal shiftwidth=2
setlocal indentkeys=!,o,O
if exists("*searchpairpos")
function! s:MatchPairs(open, close, stopat)
" Stop only on vector and map [ resp. {. Ignore the ones in strings and
" comments.
return searchpairpos(a:open, '', a:close, 'bWn',
\ 'vimclojure#SynIdName() !~ "clojureParen\\d"',
\ a:stopat)
endfunction
function! VimClojureCheckForStringWorker()
" 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("$") - 1)
if vimclojure#SynIdName() != "clojureString"
return -1
endif
" This will not work for a " in the first column...
if vimclojure#Yank('l', 'normal! "lyl') == '"'
call cursor(0, col("$") - 2)
if vimclojure#SynIdName() != "clojureString"
return -1
endif
if vimclojure#Yank('l', 'normal! "lyl') != '\\'
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! VimClojureCheckForString()
return vimclojure#WithSavedPosition({'f': function("VimClojureCheckForStringWorker")})
endfunction
function! GetClojureIndent()
" Get rid of special case.
if line(".") == 1
return 0
endif
" We have to apply some heuristics here to figure out, whether to use
" normal lisp indenting or not.
let i = VimClojureCheckForString()
if i > -1
return i
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:MatchPairs('(', ')', 0)
let bracket = s:MatchPairs('\[', '\]', paren[0])
let curly = s:MatchPairs('{', '}', 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[1]
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[1]
endif
" There are neither { nor [ nor (, ie. we are at the toplevel.
if paren == [0, 0]
return 0
endif
" Now we have to reimplement lispindent. This is surprisingly easy, as
" soon as one has access to syntax items.
"
" - 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[0] , paren[1])
" In case we are at the last character, we use the paren position.
if col("$") - 1 == paren[1]
return paren[1]
endif
" In case after the paren is a whitespace, we search for the next word.
normal! l
let reg = getreg("l")
normal! "lyl
if getreg("l") == ' '
normal! w
endif
call setreg("l", reg)
" If we moved to another line, there is no word after the (. We
" use the ( position for indent.
if line(".") > paren[0]
return paren[1]
endif
" We still have to check, whether the keyword starts with a (, [ or {.
" In that case we use the ( position for indent.
let reg = getreg("l")
normal! "lye
let w = getreg("l")
call setreg("l", reg)
if stridx('([{', w[0]) > 0
return paren[1]
endif
if &lispwords =~ '\<' . w . '\>'
return paren[1] + &shiftwidth - 1
endif
normal! w
if paren[0] < line(".")
return paren[1] + &shiftwidth - 1
endif
normal! ge
return col(".") + 1
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 .= " lisp<"
endif
" Defintions:
setlocal lispwords=def,def-,defn,defn-,defmacro,defmacro-,defmethod,defmulti
setlocal lispwords+=defonce,defvar,defvar-,defunbound,let,fn,letfn,binding,proxy
setlocal lispwords+=defnk,definterface,defprotocol,deftype,defrecord,reify
setlocal lispwords+=extend,extend-protocol,extend-type,bound-fn
" Conditionals and Loops:
setlocal lispwords+=if,if-not,if-let,when,when-not,when-let,when-first
setlocal lispwords+=condp,case,loop,dotimes,for,while
" Blocks:
setlocal lispwords+=do,doto,try,catch,locking,with-in-str,with-out-str,with-open
setlocal lispwords+=dosync,with-local-vars,doseq,dorun,doall,->,->>,future
setlocal lispwords+=with-bindings
" Namespaces:
setlocal lispwords+=ns,clojure.core/ns
" Java Classes:
setlocal lispwords+=gen-class,gen-interface
let &cpo = s:save_cpo