" Language: OCaml
" Maintainer: David Baelde <[email protected]>
" Mike Leary <[email protected]>
" Markus Mottl <[email protected]>
" Stefano Zacchiroli <[email protected]>
" URL: http://www.ocaml.info/vim/ftplugin/ocaml.vim
" Last Change: 2006 May 01 - Added .annot support for file.whateverext (SZ)
" 2006 Apr 11 - Fixed an initialization bug; fixed ASS abbrev (MM)
" 2005 Oct 13 - removed GPL; better matchit support (MM, SZ)
"
if exists("b:did_ftplugin")
finish
endif
let b:did_ftplugin=1
" Error handling -- helps moving where the compiler wants you to go
let s:cposet=&cpoptions
set cpo-=C
setlocal efm=
\%EFile\ \"%f\"\\,\ line\ %l\\,\ characters\ %c-%*\\d:,
\%EFile\ \"%f\"\\,\ line\ %l\\,\ character\ %c:%m,
\%+EReference\ to\ unbound\ regexp\ name\ %m,
\%Eocamlyacc:\ e\ -\ line\ %l\ of\ \"%f\"\\,\ %m,
\%Wocamlyacc:\ w\ -\ %m,
\%-Zmake%.%#,
\%C%m,
\%D%*\\a[%*\\d]:\ Entering\ directory\ `%f',
\%X%*\\a[%*\\d]:\ Leaving\ directory\ `%f',
\%D%*\\a:\ Entering\ directory\ `%f',
\%X%*\\a:\ Leaving\ directory\ `%f',
\%DMaking\ %*\\a\ in\ %f
" Add mappings, unless the user didn't want this.
if !exists("no_plugin_maps") && !exists("no_ocaml_maps")
" (un)commenting
if !hasmapto('<Plug>Comment')
nmap <buffer> <LocalLeader>c <Plug>LUncomOn
vmap <buffer> <LocalLeader>c <Plug>BUncomOn
nmap <buffer> <LocalLeader>C <Plug>LUncomOff
vmap <buffer> <LocalLeader>C <Plug>BUncomOff
endif
nnoremap <buffer> <Plug>LUncomOn mz0i(* <ESC>$A *)<ESC>`z
nnoremap <buffer> <Plug>LUncomOff :s/^(\* \(.*\) \*)/\1/<CR>:noh<CR>
vnoremap <buffer> <Plug>BUncomOn <ESC>:'<,'><CR>`<O<ESC>0i(*<ESC>`>o<ESC>0i*)<ESC>`<
vnoremap <buffer> <Plug>BUncomOff <ESC>:'<,'><CR>`<dd`>dd`<
if !hasmapto('<Plug>Abbrev')
iabbrev <buffer> ASS (assert (0=1) (* XXX *))
endif
endif
" Let % jump between structure elements (due to Issac Trotts)
let b:mw = ''
let b:mw = b:mw . ',\<let\>:\<and\>:\(\<in\>\|;;\)'
let b:mw = b:mw . ',\<if\>:\<then\>:\<else\>'
let b:mw = b:mw . ',\<\(for\|while\)\>:\<do\>:\<done\>,'
let b:mw = b:mw . ',\<\(object\|sig\|struct\|begin\)\>:\<end\>'
let b:mw = b:mw . ',\<\(match\|try\)\>:\<with\>'
let b:match_words = b:mw
let b:match_ignorecase=0
" switching between interfaces (.mli) and implementations (.ml)
if !exists("g:did_ocaml_switch")
let g:did_ocaml_switch = 1
map <LocalLeader>s :call OCaml_switch(0)<CR>
map <LocalLeader>S :call OCaml_switch(1)<CR>
fun OCaml_switch(newwin)
if (match(bufname(""), "\\.mli$") >= 0)
let fname = substitute(bufname(""), "\\.mli$", ".ml", "")
if (a:newwin == 1)
exec "new " . fname
else
exec "arge " . fname
endif
elseif (match(bufname(""), "\\.ml$") >= 0)
let fname = bufname("") . "i"
if (a:newwin == 1)
exec "new " . fname
else
exec "arge " . fname
endif
endif
endfun
endif
" Folding support
" Get the modeline because folding depends on indentation
let s:s = line2byte(line('.'))+col('.')-1
if search('^\s*(\*:o\?caml:')
let s:modeline = getline(".")
else
let s:modeline = ""
endif
if s:s > 0
exe 'goto' s:s
endif
" Get the indentation params
let s:m = matchstr(s:modeline,'default\s*=\s*\d\+')
if s:m != ""
let s:idef = matchstr(s:m,'\d\+')
elseif exists("g:omlet_indent")
let s:idef = g:omlet_indent
else
let s:idef = 2
endif
let s:m = matchstr(s:modeline,'struct\s*=\s*\d\+')
if s:m != ""
let s:i = matchstr(s:m,'\d\+')
elseif exists("g:omlet_indent_struct")
let s:i = g:omlet_indent_struct
else
let s:i = s:idef
endif
" Set the folding method
if exists("g:ocaml_folding")
setlocal foldmethod=expr
setlocal foldexpr=OMLetFoldLevel(v:lnum)
endif
" - Only definitions below, executed once -------------------------------------
if exists("*OMLetFoldLevel")
finish
endif
function s:topindent(lnum)
let l = a:lnum
while l > 0
if getline(l) =~ '\s*\%(\<struct\>\|\<sig\>\|\<object\>\)'
return indent(l)
endif
let l = l-1
endwhile
return -s:i
endfunction
function OMLetFoldLevel(l)
" This is for not merging blank lines around folds to them
if getline(a:l) !~ '\S'
return -1
endif
" We start folds for modules, classes, and every toplevel definition
if getline(a:l) =~ '^\s*\%(\<val\>\|\<module\>\|\<class\>\|\<type\>\|\<method\>\|\<initializer\>\|\<inherit\>\|\<exception\>\|\<external\>\)'
exe 'return ">' (indent(a:l)/s:i)+1 '"'
endif
" Toplevel let are detected thanks to the indentation
if getline(a:l) =~ '^\s*let\>' && indent(a:l) == s:i+s:topindent(a:l)
exe 'return ">' (indent(a:l)/s:i)+1 '"'
endif
" We close fold on end which are associated to struct, sig or object.
" We use syntax information to do that.
if getline(a:l) =~ '^\s*end\>' && synIDattr(synID(a:l, indent(a:l)+1, 0), "name") != "ocamlKeyword"
return (indent(a:l)/s:i)+1
endif
" Folds end on ;;
if getline(a:l) =~ '^\s*;;'
exe 'return "<' (indent(a:l)/s:i)+1 '"'
endif
" Comments around folds aren't merged to them.
if synIDattr(synID(a:l, indent(a:l)+1, 0), "name") == "ocamlComment"
return -1
endif
return '='
endfunction
" Vim support for OCaml .annot files (requires Vim with python support)
"
" Executing OCamlPrintType(<mode>) function will display in the Vim bottom
" line(s) the type of an ocaml value getting it from the corresponding .annot
" file (if any). If Vim is in visual mode, <mode> should be "visual" and the
" selected ocaml value correspond to the highlighted text, otherwise (<mode>
" can be anything else) it corresponds to the literal found at the current
" cursor position.
"
" .annot files are parsed lazily the first time OCamlPrintType is invoked; is
" also possible to force the parsing using the OCamlParseAnnot() function.
"
" Typing ',3' will cause OCamlPrintType function to be invoked with
" the right argument depending on the current mode (visual or not).
"
" Copyright (C) <2003-2004> Stefano Zacchiroli <[email protected]>
"
" Created: Wed, 01 Oct 2003 18:16:22 +0200 zack
" LastModified: Wed, 25 Aug 2004 18:28:39 +0200 zack
if !has("python")
finish
endif
python << EOF
import re
import os
import os.path
import string
import time
import vim
debug = False
class AnnExc(Exception):
def __init__(self, reason):
self.reason = reason
no_annotations = AnnExc("No type annotations (.annot) file found")
annotation_not_found = AnnExc("No type annotation found for the given text")
def malformed_annotations(lineno):
return AnnExc("Malformed .annot file (line = %d)" % lineno)
class Annotations:
"""
.annot ocaml file representation
File format (copied verbatim from caml-types.el)
file ::= block *
block ::= position <SP> position <LF> annotation *
position ::= filename <SP> num <SP> num <SP> num
annotation ::= keyword open-paren <LF> <SP> <SP> data <LF> close-paren
<SP> is a space character (ASCII 0x20)
<LF> is a line-feed character (ASCII 0x0A)
num is a sequence of decimal digits
filename is a string with the lexical conventions of O'Caml
open-paren is an open parenthesis (ASCII 0x28)
close-paren is a closed parenthesis (ASCII 0x29)
data is any sequence of characters where <LF> is always followed by
at least two space characters.
- in each block, the two positions are respectively the start and the
end of the range described by the block.
- in a position, the filename is the name of the file, the first num
is the line number, the second num is the offset of the beginning
of the line, the third num is the offset of the position itself.
- the char number within the line is the difference between the third
and second nums.
For the moment, the only possible keyword is \"type\"."
"""
def __init__(self):
self.__filename = None # last .annot parsed file
self.__ml_filename = None # as above but s/.annot/.ml/
self.__timestamp = None # last parse action timestamp
self.__annot = {}
self.__re = re.compile(
'^"[^"]*"\s+(\d+)\s+(\d+)\s+(\d+)\s+"[^"]*"\s+(\d+)\s+(\d+)\s+(\d+)$')
def __parse(self, fname):
try:
f = open(fname)
line = f.readline() # position line
lineno = 1
while (line != ""):
m = self.__re.search(line)
if (not m):
raise malformed_annotations(lineno)
line1 = int(m.group(1))
col1 = int(m.group(3)) - int(m.group(2))
line2 = int(m.group(4))
col2 = int(m.group(6)) - int(m.group(5))
line = f.readline() # "type(" string
lineno += 1
if (line == ""): raise malformed_annotations(lineno)
type = []
line = f.readline() # type description
lineno += 1
if (line == ""): raise malformed_annotations(lineno)
while line != ")\n":
type.append(string.strip(line))
line = f.readline()
lineno += 1
if (line == ""): raise malformed_annotations(lineno)
type = string.join(type, "\n")
key = ((line1, col1), (line2, col2))
if not self.__annot.has_key(key):
self.__annot[key] = type
line = f.readline() # position line
f.close()
self.__filename = fname
self.__ml_filename = vim.current.buffer.name
self.__timestamp = int(time.time())
except IOError:
raise no_annotations
def parse(self):
annot_file = os.path.splitext(vim.current.buffer.name)[0] + ".annot"
self.__parse(annot_file)
def get_type(self, (line1, col1), (line2, col2)):
if debug:
print line1, col1, line2, col2
if vim.current.buffer.name == None:
raise no_annotations
if vim.current.buffer.name != self.__ml_filename or \
os.stat(self.__filename).st_mtime > self.__timestamp:
self.parse()
try:
return self.__annot[(line1, col1), (line2, col2)]
except KeyError:
raise annotation_not_found
word_char_RE = re.compile("^[\w.]$")
# TODO this function should recognize ocaml literals, actually it's just an
# hack that recognize continuous sequences of word_char_RE above
def findBoundaries(line, col):
""" given a cursor position (as returned by vim.current.window.cursor)
return two integers identify the beggining and end column of the word at
cursor position, if any. If no word is at the cursor position return the
column cursor position twice """
left, right = col, col
line = line - 1 # mismatch vim/python line indexes
(begin_col, end_col) = (0, len(vim.current.buffer[line]) - 1)
try:
while word_char_RE.search(vim.current.buffer[line][left - 1]):
left = left - 1
except IndexError:
pass
try:
while word_char_RE.search(vim.current.buffer[line][right + 1]):
right = right + 1
except IndexError:
pass
return (left, right)
annot = Annotations() # global annotation object
def printOCamlType(mode):
try:
if mode == "visual": # visual mode: lookup highlighted text
(line1, col1) = vim.current.buffer.mark("<")
(line2, col2) = vim.current.buffer.mark(">")
else: # any other mode: lookup word at cursor position
(line, col) = vim.current.window.cursor
(col1, col2) = findBoundaries(line, col)
(line1, line2) = (line, line)
begin_mark = (line1, col1)
end_mark = (line2, col2 + 1)
print annot.get_type(begin_mark, end_mark)
except AnnExc, exc:
print exc.reason
def parseOCamlAnnot():
try:
annot.parse()
except AnnExc, exc:
print exc.reason
EOF
fun! OCamlPrintType(current_mode)
if (a:current_mode == "visual")
python printOCamlType("visual")
else
python printOCamlType("normal")
endif
endfun
fun! OCamlParseAnnot()
python parseOCamlAnnot()
endfun
map <LocalLeader>t :call OCamlPrintType("normal")<RETURN>
vmap <LocalLeader>t :call OCamlPrintType("visual")<RETURN>
let &cpoptions=s:cposet
unlet s:cposet
" vim:sw=2
|