view runtime/indent/erlang.vim @ 33767:4913b4f5a133 v9.0.2104

patch 9.0.2104: wast filetype should be replaced by wat filetype Commit: https://github.com/vim/vim/commit/bc8f79d36a456054ed29f46585830af6d71f57c8 Author: rhysd <lin90162@yahoo.co.jp> Date: Tue Nov 14 16:46:07 2023 +0100 patch 9.0.2104: wast filetype should be replaced by wat filetype Problem: wast filetype should be replaced by wat filetype Solution: start using the official wat filetype name runtime: rename `wast` filetype to `wat` (Wasm text format) The problem is the name of the current filetype wast. When the plugin was initially created, the file extension for Wasm text format was not fixed and .wast was more popular. However, recently .wat became the official file extension for WebAssembly text (WAT) format and .wast is now a file extension for the unofficial WAST format, which is a superset of .wat for the convenience to describe the Wasm specification conformance tests. https://webassembly.js.org/docs/contrib-wat-vs-wast.html However for now, let's keep using the `wat` filetype even for the .wast extension, so that we at least do not lose the filetype settings and syntax highlighting. This can be adjusted later, if it turns out to have a separate need for. closes: #13533 Signed-off-by: rhysd <lin90162@yahoo.co.jp> Signed-off-by: Christian Brabandt <cb@256bit.org>
author Christian Brabandt <cb@256bit.org>
date Tue, 14 Nov 2023 17:15:03 +0100
parents d6dde6229b36
children
line wrap: on
line source

" Vim indent file
" Language:     Erlang (http://www.erlang.org)
" Author:       Csaba Hoch <csaba.hoch@gmail.com>
" Contributors: Edwin Fine <efine145_nospam01 at usa dot net>
"               Pawel 'kTT' Salata <rockplayer.pl@gmail.com>
"               Ricardo Catalinas Jiménez <jimenezrick@gmail.com>
" Last Update:  2022-Sep-06
" License:      Vim license
" URL:          https://github.com/vim-erlang/vim-erlang-runtime

" Note About Usage:
"   This indentation script works best with the Erlang syntax file created by
"   Kreąimir Marľić (Kresimir Marzic) and maintained by Csaba Hoch.

" Notes About Implementation:
"
" - LTI = Line to indent.
" - The index of the first line is 1, but the index of the first column is 0.


" Initialization {{{1
" ==============

" Only load this indent file when no other was loaded
" Vim 7 or later is needed
if exists("b:did_indent") || version < 700
  finish
else
  let b:did_indent = 1
endif

setlocal indentexpr=ErlangIndent()
setlocal indentkeys+=0=end,0=of,0=catch,0=after,0=else,0=when,0=),0=],0=},0=>>

let b:undo_indent = "setl inde< indk<"

" Only define the functions once
if exists("*ErlangIndent")
  finish
endif

let s:cpo_save = &cpo
set cpo&vim

" Logging library {{{1
" ===============

" Purpose:
"   Logs the given string using the ErlangIndentLog function if it exists.
" Parameters:
"   s: string
function! s:Log(s)
  if exists("*ErlangIndentLog")
    call ErlangIndentLog(a:s)
  endif
endfunction

" Line tokenizer library {{{1
" ======================

" Indtokens are "indentation tokens". See their exact format in the
" documentation of the s:GetTokensFromLine function.

" Purpose:
"   Calculate the new virtual column after the given segment of a line.
" Parameters:
"   line: string
"   first_index: integer -- the index of the first character of the segment
"   last_index: integer -- the index of the last character of the segment
"   vcol: integer -- the virtual column of the first character of the token
"   tabstop: integer -- the value of the 'tabstop' option to be used
" Returns:
"   vcol: integer
" Example:
"   " index:    0 12 34567
"   " vcol:     0 45 89
"   s:CalcVCol("\t'\tx', b", 1, 4, 4)  -> 10
function! s:CalcVCol(line, first_index, last_index, vcol, tabstop)

  " We copy the relevant segment of the line, otherwise if the line were
  " e.g. `"\t", term` then the else branch below would consume the `", term`
  " part at once.
  let line = a:line[a:first_index : a:last_index]

  let i = 0
  let last_index = a:last_index - a:first_index
  let vcol = a:vcol

  while 0 <= i && i <= last_index

    if line[i] ==# "\t"
      " Example (when tabstop == 4):
      "
      " vcol + tab -> next_vcol
      " 0 + tab -> 4
      " 1 + tab -> 4
      " 2 + tab -> 4
      " 3 + tab -> 4
      " 4 + tab -> 8
      "
      " next_i - i == the number of tabs
      let next_i = matchend(line, '\t*', i + 1)
      let vcol = (vcol / a:tabstop + (next_i - i)) * a:tabstop
      call s:Log('new vcol after tab: '. vcol)
    else
      let next_i = matchend(line, '[^\t]*', i + 1)
      let vcol += next_i - i
      call s:Log('new vcol after other: '. vcol)
    endif
    let i = next_i
  endwhile

  return vcol
endfunction

" Purpose:
"   Go through the whole line and return the tokens in the line.
" Parameters:
"   line: string -- the line to be examined
"   string_continuation: bool
"   atom_continuation: bool
" Returns:
"   indtokens = [indtoken]
"   indtoken = [token, vcol, col]
"   token = string (examples: 'begin', '<quoted_atom>', '}')
"   vcol = integer (the virtual column of the first character of the token;
"                   counting starts from 0)
"   col = integer (counting starts from 0)
function! s:GetTokensFromLine(line, string_continuation, atom_continuation,
                             \tabstop)

  let linelen = strlen(a:line) " The length of the line
  let i = 0 " The index of the current character in the line
  let vcol = 0 " The virtual column of the current character
  let indtokens = []

  if a:string_continuation
    let i = matchend(a:line, '^\%([^"\\]\|\\.\)*"', 0)
    if i ==# -1
      call s:Log('    Whole line is string continuation -> ignore')
      return []
    else
      let vcol = s:CalcVCol(a:line, 0, i - 1, 0, a:tabstop)
      call add(indtokens, ['<string_end>', vcol, i])
    endif
  elseif a:atom_continuation
    let i = matchend(a:line, "^\\%([^'\\\\]\\|\\\\.\\)*'", 0)
    if i ==# -1
      call s:Log('    Whole line is quoted atom continuation -> ignore')
      return []
    else
      let vcol = s:CalcVCol(a:line, 0, i - 1, 0, a:tabstop)
      call add(indtokens, ['<quoted_atom_end>', vcol, i])
    endif
  endif

  while 0 <= i && i < linelen

    let next_vcol = ''

    " Spaces
    if a:line[i] ==# ' '
      let next_i = matchend(a:line, ' *', i + 1)

    " Tabs
    elseif a:line[i] ==# "\t"
      let next_i = matchend(a:line, '\t*', i + 1)

      " See example in s:CalcVCol
      let next_vcol = (vcol / a:tabstop + (next_i - i)) * a:tabstop

    " Comment
    elseif a:line[i] ==# '%'
      let next_i = linelen

    " String token: "..."
    elseif a:line[i] ==# '"'
      let next_i = matchend(a:line, '\%([^"\\]\|\\.\)*"', i + 1)
      if next_i ==# -1
        call add(indtokens, ['<string_start>', vcol, i])
      else
        let next_vcol = s:CalcVCol(a:line, i, next_i - 1, vcol, a:tabstop)
        call add(indtokens, ['<string>', vcol, i])
      endif

    " Quoted atom token: '...'
    elseif a:line[i] ==# "'"
      let next_i = matchend(a:line, "\\%([^'\\\\]\\|\\\\.\\)*'", i + 1)
      if next_i ==# -1
        call add(indtokens, ['<quoted_atom_start>', vcol, i])
      else
        let next_vcol = s:CalcVCol(a:line, i, next_i - 1, vcol, a:tabstop)
        call add(indtokens, ['<quoted_atom>', vcol, i])
      endif

    " Keyword or atom or variable token or number
    elseif a:line[i] =~# '[a-zA-Z_@0-9]'
      let next_i = matchend(a:line,
                           \'[[:alnum:]_@:]*\%(\s*#\s*[[:alnum:]_@:]*\)\=',
                           \i + 1)
      call add(indtokens, [a:line[(i):(next_i - 1)], vcol, i])

    " Character token: $<char> (as in: $a)
    elseif a:line[i] ==# '$'
      call add(indtokens, ['$.', vcol, i])
      let next_i = i + 2

    " Dot token: .
    elseif a:line[i] ==# '.'

      let next_i = i + 1

      if i + 1 ==# linelen || a:line[i + 1] =~# '[[:blank:]%]'
        " End of clause token: . (as in: f() -> ok.)
        call add(indtokens, ['<end_of_clause>', vcol, i])

      else
        " Possibilities:
        " - Dot token in float: . (as in: 3.14)
        " - Dot token in record: . (as in: #myrec.myfield)
        call add(indtokens, ['.', vcol, i])
      endif

    " Equal sign
    elseif a:line[i] ==# '='
      " This is handled separately so that "=<<" will be parsed as
      " ['=', '<<'] instead of ['=<', '<']. Although Erlang parses it
      " currently in the latter way, that may be fixed some day.
      call add(indtokens, [a:line[i], vcol, i])
      let next_i = i + 1

    " Three-character tokens
    elseif i + 1 < linelen &&
         \ index(['=:=', '=/='], a:line[i : i + 1]) != -1
      call add(indtokens, [a:line[i : i + 1], vcol, i])
      let next_i = i + 2

    " Two-character tokens
    elseif i + 1 < linelen &&
         \ index(['->', '<<', '>>', '||', '==', '/=', '=<', '>=', '?=', '++',
         \        '--', '::'],
         \       a:line[i : i + 1]) != -1
      call add(indtokens, [a:line[i : i + 1], vcol, i])
      let next_i = i + 2

    " Other character: , ; < > ( ) [ ] { } # + - * / : ? = ! |
    else
      call add(indtokens, [a:line[i], vcol, i])
      let next_i = i + 1

    endif

    if next_vcol ==# ''
      let vcol += next_i - i
    else
      let vcol = next_vcol
    endif

    let i = next_i

  endwhile

  return indtokens

endfunction

" TODO: doc, handle "not found" case
function! s:GetIndtokenAtCol(indtokens, col)
  let i = 0
  while i < len(a:indtokens)
    if a:indtokens[i][2] ==# a:col
      return [1, i]
    elseif a:indtokens[i][2] > a:col
      return [0, s:IndentError('No token at col ' . a:col . ', ' .
                              \'indtokens = ' . string(a:indtokens),
                              \'', '')]
    endif
    let i += 1
  endwhile
  return [0, s:IndentError('No token at col ' . a:col . ', ' .
                           \'indtokens = ' . string(a:indtokens),
                           \'', '')]
endfunction

" Stack library {{{1
" =============

" Purpose:
"   Push a token onto the parser's stack.
" Parameters:
"   stack: [token]
"   token: string
function! s:Push(stack, token)
  call s:Log('    Stack Push: "' . a:token . '" into ' . string(a:stack))
  call insert(a:stack, a:token)
endfunction

" Purpose:
"   Pop a token from the parser's stack.
" Parameters:
"   stack: [token]
"   token: string
" Returns:
"   token: string -- the removed element
function! s:Pop(stack)
  let head = remove(a:stack, 0)
  call s:Log('    Stack Pop: "' . head . '" from ' . string(a:stack))
  return head
endfunction

" Library for accessing and storing tokenized lines {{{1
" =================================================

" The Erlang token cache: an `lnum -> indtokens` dictionary that stores the
" tokenized lines.
let s:all_tokens = {}
let s:file_name = ''
let s:last_changedtick = -1

" Purpose:
"   Clear the Erlang token cache if we have a different file or the file has
"   been changed since the last indentation.
function! s:ClearTokenCacheIfNeeded()
  let file_name = expand('%:p')
  if file_name != s:file_name ||
   \ b:changedtick != s:last_changedtick
    let s:file_name = file_name
    let s:last_changedtick = b:changedtick
    let s:all_tokens = {}
  endif
endfunction

" Purpose:
"   Return the tokens of line `lnum`, if that line is not empty. If it is
"   empty, find the first non-empty line in the given `direction` and return
"   the tokens of that line.
" Parameters:
"   lnum: integer
"   direction: 'up' | 'down'
" Returns:
"   result: [] -- the result is an empty list if we hit the beginning or end
"                  of the file
"           | [lnum, indtokens]
"   lnum: integer -- the index of the non-empty line that was found and
"                    tokenized
"   indtokens: [indtoken] -- the tokens of line `lnum`
function! s:TokenizeLine(lnum, direction)

  call s:Log('Tokenizing starts from line ' . a:lnum)
  if a:direction ==# 'up'
    let lnum = prevnonblank(a:lnum)
  else " a:direction ==# 'down'
    let lnum = nextnonblank(a:lnum)
  endif

  " We hit the beginning or end of the file
  if lnum ==# 0
    let indtokens = []
    call s:Log('  We hit the beginning or end of the file.')

    " The line has already been parsed
  elseif has_key(s:all_tokens, lnum)
    let indtokens = s:all_tokens[lnum]
    call s:Log('Cached line ' . lnum . ': ' . getline(lnum))
    call s:Log("  Tokens in the line:\n    - " . join(indtokens, "\n    - "))

    " The line should be parsed now
  else

    " Parse the line
    let line = getline(lnum)
    let string_continuation = s:IsLineStringContinuation(lnum)
    let atom_continuation = s:IsLineAtomContinuation(lnum)
    let indtokens = s:GetTokensFromLine(line, string_continuation,
                                       \atom_continuation, &tabstop)
    let s:all_tokens[lnum] = indtokens
    call s:Log('Tokenizing line ' . lnum . ': ' . line)
    call s:Log("  Tokens in the line:\n    - " . join(indtokens, "\n    - "))

  endif

  return [lnum, indtokens]
endfunction

" Purpose:
"   As a helper function for PrevIndToken and NextIndToken, the FindIndToken
"   function finds the first line with at least one token in the given
"   direction.
" Parameters:
"   lnum: integer
"   direction: 'up' | 'down'
" Returns:
"   result: [[], 0, 0]
"             -- the result is an empty list if we hit the beginning or end of
"             the file
"           | [indtoken, lnum, i]
"             -- the content, lnum and token index of the next (or previous)
"             indtoken
function! s:FindIndToken(lnum, dir)
  let lnum = a:lnum
  while 1
    let lnum += (a:dir ==# 'up' ? -1 : 1)
    let [lnum, indtokens] = s:TokenizeLine(lnum, a:dir)
    if lnum ==# 0
      " We hit the beginning or end of the file
      return [[], 0, 0]
    elseif !empty(indtokens)
      " We found a non-empty line. If we were moving up, we return the last
      " token of this line. Otherwise we return the first token if this line.
      let i = (a:dir ==# 'up' ? len(indtokens) - 1 : 0)
      return [indtokens[i], lnum, i]
    endif
  endwhile
endfunction

" Purpose:
"   Find the token that directly precedes the given token.
" Parameters:
"   lnum: integer -- the line of the given token
"   i: the index of the given token within line `lnum`
" Returns:
"   result = [] -- the result is an empty list if the given token is the first
"                  token of the file
"          | indtoken
function! s:PrevIndToken(lnum, i)
  call s:Log('    PrevIndToken called: lnum=' . a:lnum . ', i =' . a:i)

  " If the current line has a previous token, return that
  if a:i > 0
    return [s:all_tokens[a:lnum][a:i - 1], a:lnum, a:i - 1]
  else
    return s:FindIndToken(a:lnum, 'up')
  endif
endfunction

" Purpose:
"   Find the token that directly succeeds the given token.
" Parameters:
"   lnum: integer -- the line of the given token
"   i: the index of the given token within line `lnum`
" Returns:
"   result = [] -- the result is an empty list if the given token is the last
"                  token of the file
"          | indtoken
function! s:NextIndToken(lnum, i)
  call s:Log('    NextIndToken called: lnum=' . a:lnum . ', i =' . a:i)

  " If the current line has a next token, return that
  if len(s:all_tokens[a:lnum]) > a:i + 1
    return [s:all_tokens[a:lnum][a:i + 1], a:lnum, a:i + 1]
  else
    return s:FindIndToken(a:lnum, 'down')
  endif
endfunction

" ErlangCalcIndent helper functions {{{1
" =================================

" Purpose:
"   This function is called when the parser encounters a syntax error.
"
"   If we encounter a syntax error, we return
"   g:erlang_unexpected_token_indent, which is -1 by default. This means that
"   the indentation of the LTI will not be changed.
" Parameter:
"   msg: string
"   token: string
"   stack: [token]
" Returns:
"   indent: integer
function! s:IndentError(msg, token, stack)
  call s:Log('Indent error: ' . a:msg . ' -> return')
  call s:Log('  Token = ' . a:token . ', ' .
            \'  stack = ' . string(a:stack))
  return g:erlang_unexpected_token_indent
endfunction

" Purpose:
"   This function is called when the parser encounters an unexpected token,
"   and the parser will return the number given back by UnexpectedToken.
"
"   If we encounter an unexpected token, we return
"   g:erlang_unexpected_token_indent, which is -1 by default. This means that
"   the indentation of the LTI will not be changed.
" Parameter:
"   token: string
"   stack: [token]
" Returns:
"   indent: integer
function! s:UnexpectedToken(token, stack)
  call s:Log('    Unexpected token ' . a:token . ', stack = ' .
            \string(a:stack) . ' -> return')
  return g:erlang_unexpected_token_indent
endfunction

if !exists('g:erlang_unexpected_token_indent')
  let g:erlang_unexpected_token_indent = -1
endif

" Purpose:
"   Return whether the given line starts with a string continuation.
" Parameter:
"   lnum: integer
" Returns:
"   result: bool
" Example:
"   f() ->           % IsLineStringContinuation = false
"       "This is a   % IsLineStringContinuation = false
"       multiline    % IsLineStringContinuation = true
"       string".     % IsLineStringContinuation = true
function! s:IsLineStringContinuation(lnum)
  if has('syntax_items')
    return synIDattr(synID(a:lnum, 1, 0), 'name') =~# '^erlangString'
  else
    return 0
  endif
endfunction

" Purpose:
"   Return whether the given line starts with an atom continuation.
" Parameter:
"   lnum: integer
" Returns:
"   result: bool
" Example:
"   'function with   % IsLineAtomContinuation = true, but should be false
"   weird name'() -> % IsLineAtomContinuation = true
"       ok.          % IsLineAtomContinuation = false
function! s:IsLineAtomContinuation(lnum)
  if has('syntax_items')
    let syn_name = synIDattr(synID(a:lnum, 1, 0), 'name')
    return syn_name =~# '^erlangQuotedAtom' ||
         \ syn_name =~# '^erlangQuotedRecord'
  else
    return 0
  endif
endfunction

" Purpose:
"   Return whether the 'catch' token (which should be the `i`th token in line
"   `lnum`) is standalone or part of a try-catch block, based on the preceding
"   token.
" Parameters:
"   lnum: integer
"   i: integer
" Return:
"   is_standalone: bool
function! s:IsCatchStandalone(lnum, i)
  call s:Log('    IsCatchStandalone called: lnum=' . a:lnum . ', i=' . a:i)
  let [prev_indtoken, _, _] = s:PrevIndToken(a:lnum, a:i)

  " If we hit the beginning of the file, it is not a catch in a try block
  if prev_indtoken == []
    return 1
  endif

  let prev_token = prev_indtoken[0]

  if prev_token =~# '^[A-Z_@0-9]'
    let is_standalone = 0
  elseif prev_token =~# '[a-z]'
    if index(['after', 'and', 'andalso', 'band', 'begin', 'bnot', 'bor', 'bsl',
            \ 'bsr', 'bxor', 'case', 'catch', 'div', 'maybe', 'not', 'or',
            \ 'orelse', 'rem', 'try', 'xor'], prev_token) != -1
      " If catch is after these keywords, it is standalone
      let is_standalone = 1
    else
      " If catch is after another keyword (e.g. 'end') or an atom, it is
      " part of try-catch.
      "
      " Keywords:
      " - may precede 'catch': end
      " - may not precede 'catch': else fun if of receive when
      " - unused: cond let query
      let is_standalone = 0
    endif
  elseif index([')', ']', '}', '<string>', '<string_end>', '<quoted_atom>',
              \ '<quoted_atom_end>', '$.'], prev_token) != -1
    let is_standalone = 0
  else
    " This 'else' branch includes the following tokens:
    "   -> == /= =< < >= > ?= =:= =/= + - * / ++ -- :: < > ; ( [ { ? = ! . |
    let is_standalone = 1
  endif

  call s:Log('   "catch" preceded by "' . prev_token  . '" -> catch ' .
            \(is_standalone ? 'is standalone' : 'belongs to try-catch'))
  return is_standalone

endfunction

" Purpose:
"   This function is called when a begin-type element ('begin', 'case',
"   '[', '<<', etc.) is found. It asks the caller to return if the stack
"   if already empty.
" Parameters:
"   stack: [token]
"   token: string
"   curr_vcol: integer
"   stored_vcol: integer
"   sw: integer -- number of spaces to be used after the begin element as
"                  indentation
" Returns:
"   result: [should_return, indent]
"   should_return: bool -- if true, the caller should return `indent` to Vim
"   indent -- integer
function! s:BeginElementFoundIfEmpty(stack, token, curr_vcol, stored_vcol, sw)
  if empty(a:stack)
    if a:stored_vcol ==# -1
      call s:Log('    "' . a:token . '" directly precedes LTI -> return')
      return [1, a:curr_vcol + a:sw]
    else
      call s:Log('    "' . a:token .
                \'" token (whose expression includes LTI) found -> return')
      return [1, a:stored_vcol]
    endif
  else
    return [0, 0]
  endif
endfunction

" Purpose:
"   This function is called when a begin-type element ('begin', 'case', '[',
"   '<<', etc.) is found, and in some cases when 'after' and 'when' is found.
"   It asks the caller to return if the stack is already empty.
" Parameters:
"   stack: [token]
"   token: string
"   curr_vcol: integer
"   stored_vcol: integer
"   end_token: end token that belongs to the begin element found (e.g. if the
"              begin element is 'begin', the end token is 'end')
"   sw: integer -- number of spaces to be used after the begin element as
"                  indentation
" Returns:
"   result: [should_return, indent]
"   should_return: bool -- if true, the caller should return `indent` to Vim
"   indent -- integer
function! s:BeginElementFound(stack, token, curr_vcol, stored_vcol, end_token, sw)

  " Return 'return' if the stack is empty
  let [ret, res] = s:BeginElementFoundIfEmpty(a:stack, a:token, a:curr_vcol,
                                             \a:stored_vcol, a:sw)
  if ret | return [ret, res] | endif

  if a:stack[0] ==# a:end_token
    call s:Log('    "' . a:token . '" pops "' . a:end_token . '"')
    call s:Pop(a:stack)
    if !empty(a:stack) && a:stack[0] ==# 'align_to_begin_element'
      call s:Pop(a:stack)
      if empty(a:stack)
        return [1, a:curr_vcol]
      else
        return [1, s:UnexpectedToken(a:token, a:stack)]
      endif
    else
      return [0, 0]
    endif
  else
    return [1, s:UnexpectedToken(a:token, a:stack)]
  endif
endfunction

" Purpose:
"   This function is called when we hit the beginning of a file or an
"   end-of-clause token -- i.e. when we found the beginning of the current
"   clause.
"
"   If the stack contains an '->' or 'when', this means that we can return
"   now, since we were looking for the beginning of the clause.
" Parameters:
"   stack: [token]
"   token: string
"   stored_vcol: integer
"   lnum: the line number of the "end of clause" mark (or 0 if we hit the
"         beginning of the file)
"   i: the index of the "end of clause" token within its own line
" Returns:
"   result: [should_return, indent]
"   should_return: bool -- if true, the caller should return `indent` to Vim
"   indent -- integer
function! s:BeginningOfClauseFound(stack, token, stored_vcol, lnum, i)
  if !empty(a:stack) && a:stack[0] ==# 'when'
    call s:Log('    BeginningOfClauseFound: "when" found in stack')
    call s:Pop(a:stack)
    if empty(a:stack)
      call s:Log('    Stack is ["when"], so LTI is in a guard -> return')
      return [1, a:stored_vcol + shiftwidth() + 2]
    else
      return [1, s:UnexpectedToken(a:token, a:stack)]
    endif
  elseif !empty(a:stack) && a:stack[0] ==# '->'
    call s:Log('    BeginningOfClauseFound: "->" found in stack')
    call s:Pop(a:stack)
    if empty(a:stack)
      call s:Log('    Stack is ["->"], so LTI is in function body -> return')
      return [1, a:stored_vcol + shiftwidth()]
    elseif a:stack[0] ==# ';'
      call s:Pop(a:stack)

      if !empty(a:stack)
        return [1, s:UnexpectedToken(a:token, a:stack)]
      endif

      if a:lnum ==# 0
        " Set lnum and i to be NextIndToken-friendly
        let lnum = 1
        let i = -1 
      else
        let lnum = a:lnum
        let i = a:i
      endif

      " Are we after a "-spec func() ...;" clause?
      let [next1_indtoken, next1_lnum, next1_i] = s:NextIndToken(lnum, i)
      if !empty(next1_indtoken) && next1_indtoken[0] =~# '-'
        let [next2_indtoken, next2_lnum, next2_i] =
           \s:NextIndToken(next1_lnum, next1_i)
        if !empty(next2_indtoken) && next2_indtoken[0] =~# 'spec'
          let [next3_indtoken, next3_lnum, next3_i] =
             \s:NextIndToken(next2_lnum, next2_i)
          if !empty(next3_indtoken)
            let [next4_indtoken, next4_lnum, next4_i] =
               \s:NextIndToken(next3_lnum, next3_i)
            if !empty(next4_indtoken)
              " Yes, we are.
              call s:Log('    Stack is ["->", ";"], so LTI is in a "-spec" ' .
                        \'attribute -> return')
              return [1, next4_indtoken[1]]
            endif
          endif
        endif
      endif

      call s:Log('    Stack is ["->", ";"], so LTI is in a function head ' .
                \'-> return')
      return [1, a:stored_vcol]

    else
      return [1, s:UnexpectedToken(a:token, a:stack)]
    endif
  else
    return [0, 0]
  endif
endfunction

let g:erlang_indent_searchpair_timeout = 2000

" TODO
function! s:SearchPair(lnum, curr_col, start, middle, end)
  call cursor(a:lnum, a:curr_col + 1)
  let [lnum_new, col1_new] = 
      \searchpairpos(a:start, a:middle, a:end, 'bW',
                    \'synIDattr(synID(line("."), col("."), 0), "name") ' .
                    \'=~? "string\\|quotedatom\\|todo\\|comment\\|' . 
                    \'erlangmodifier"',
                    \0, g:erlang_indent_searchpair_timeout)
  return [lnum_new, col1_new - 1]
endfunction

function! s:SearchEndPair(lnum, curr_col)
  return s:SearchPair(
         \ a:lnum, a:curr_col,
         \ '\C\<\%(case\|try\|begin\|receive\|if\|maybe\)\>\|' .
         \ '\<fun\>\%(\s\|\n\|%.*$\|[A-Z_@][a-zA-Z_@]*\)*(',
         \ '',
         \ '\<end\>')
endfunction

" ErlangCalcIndent {{{1
" ================

" Purpose:
"   Calculate the indentation of the given line.
" Parameters:
"   lnum: integer -- index of the line for which the indentation should be
"                    calculated
"   stack: [token] -- initial stack
" Return:
"   indent: integer -- if -1, that means "don't change the indentation";
"                      otherwise it means "indent the line with `indent`
"                      number of spaces or equivalent tabs"
function! s:ErlangCalcIndent(lnum, stack)
  let res = s:ErlangCalcIndent2(a:lnum, a:stack)
  call s:Log("ErlangCalcIndent returned: " . res)
  return res
endfunction

function! s:ErlangCalcIndent2(lnum, stack)

  let lnum = a:lnum
  let stored_vcol = -1 " Virtual column of the first character of the token that
                   " we currently think we might align to.
  let mode = 'normal'
  let stack = a:stack
  let semicolon_abscol = ''

  " Walk through the lines of the buffer backwards (starting from the
  " previous line) until we can decide how to indent the current line.
  while 1

    let [lnum, indtokens] = s:TokenizeLine(lnum, 'up')

    " Hit the start of the file
    if lnum ==# 0
      let [ret, res] = s:BeginningOfClauseFound(stack, 'beginning_of_file',
                                               \stored_vcol, 0, 0)
      if ret | return res | endif

      return 0
    endif

    let i = len(indtokens) - 1
    let last_token_of_line = 1

    while i >= 0

      let [token, curr_vcol, curr_col] = indtokens[i]
      call s:Log('  Analyzing the following token: ' . string(indtokens[i]))

      if len(stack) > 256 " TODO: magic number
        return s:IndentError('Stack too long', token, stack)
      endif

      if token ==# '<end_of_clause>'
        let [ret, res] = s:BeginningOfClauseFound(stack, token, stored_vcol,
                                                 \lnum, i)
        if ret | return res | endif

        if stored_vcol ==# -1
          call s:Log('    End of clause directly precedes LTI -> return')
          return 0
        else
          call s:Log('    End of clause (but not end of line) -> return')
          return stored_vcol
        endif

      elseif stack == ['prev_term_plus']
        if token =~# '[a-zA-Z_@#]' ||
         \ token ==# '<string>' || token ==# '<string_start>' ||
         \ token ==# '<quoted_atom>' || token ==# '<quoted_atom_start>'
          call s:Log('    previous token found: curr_vcol + plus = ' .
                    \curr_vcol . " + " . plus)
          return curr_vcol + plus
        endif

      elseif token ==# 'begin'
        let [ret, res] = s:BeginElementFound(stack, token, curr_vcol,
                                            \stored_vcol, 'end', shiftwidth())
        if ret | return res | endif

      " case EXPR of BRANCHES end
      " if BRANCHES end
      " try EXPR catch BRANCHES end
      " try EXPR after BODY end
      " try EXPR catch BRANCHES after BODY end
      " try EXPR of BRANCHES catch BRANCHES end
      " try EXPR of BRANCHES after BODY end
      " try EXPR of BRANCHES catch BRANCHES after BODY end
      " receive BRANCHES end
      " receive BRANCHES after BRANCHES end
      " maybe EXPR end
      " maybe EXPR else BRANCHES end

      " This branch is not Emacs-compatible
      elseif (index(['of', 'receive', 'after', 'if', 'else'], token) != -1 ||
           \  (token ==# 'catch' && !s:IsCatchStandalone(lnum, i))) &&
           \ !last_token_of_line &&
           \ (empty(stack) || stack ==# ['when'] || stack ==# ['->'] ||
           \  stack ==# ['->', ';'])

        " If we are after of/receive/etc, but these are not the last
        " tokens of the line, we want to indent like this:
        "
        "   % stack == []
        "   receive stored_vcol,
        "           LTI
        "
        "   % stack == ['->', ';']
        "   receive stored_vcol ->
        "               B;
        "           LTI
        "
        "   % stack == ['->']
        "   receive stored_vcol ->
        "               LTI
        "
        "   % stack == ['when']
        "   receive stored_vcol when
        "               LTI

        " stack = []  =>  LTI is a condition
        " stack = ['->']  =>  LTI is a branch
        " stack = ['->', ';']  =>  LTI is a condition
        " stack = ['when']  =>  LTI is a guard
        if empty(stack) || stack == ['->', ';']
          call s:Log('    LTI is in a condition after ' .
                    \'"of/receive/after/if/else/catch" -> return')
          return stored_vcol
        elseif stack == ['->']
          call s:Log('    LTI is in a branch after ' .
                    \'"of/receive/after/if/else/catch" -> return')
          return stored_vcol + shiftwidth()
        elseif stack == ['when']
          call s:Log('    LTI is in a guard after ' .
                    \'"of/receive/after/if/else/catch" -> return')
          return stored_vcol + shiftwidth()
        else
          return s:UnexpectedToken(token, stack)
        endif

      elseif index(['case', 'if', 'try', 'receive', 'maybe'], token) != -1

        " stack = []  =>  LTI is a condition
        " stack = ['->']  =>  LTI is a branch
        " stack = ['->', ';']  =>  LTI is a condition
        " stack = ['when']  =>  LTI is in a guard
        if empty(stack)
          " pass
        elseif (token ==# 'case' && stack[0] ==# 'of') ||
             \ (token ==# 'if') ||
             \ (token ==# 'maybe' && stack[0] ==# 'else') ||
             \ (token ==# 'try' && (stack[0] ==# 'of' ||
             \                     stack[0] ==# 'catch' ||
             \                     stack[0] ==# 'after')) ||
             \ (token ==# 'receive')

          " From the indentation point of view, the keyword
          " (of/catch/after/else/end) before the LTI is what counts, so
          " when we reached these tokens, and the stack already had
          " a catch/after/else/end, we didn't modify it.
          "
          " This way when we reach case/try/receive/maybe (i.e. now),
          " there is at most one of/catch/after/else/end token in the
          " stack.
          if token ==# 'case' || token ==# 'try' ||
           \ (token ==# 'receive' && stack[0] ==# 'after') ||
           \ (token ==# 'maybe' && stack[0] ==# 'else')
            call s:Pop(stack)
          endif

          if empty(stack)
            call s:Log('    LTI is in a condition; matching ' .
                      \'"case/if/try/receive/maybe" found')
            let stored_vcol = curr_vcol + shiftwidth()
          elseif stack[0] ==# 'align_to_begin_element'
            call s:Pop(stack)
            let stored_vcol = curr_vcol
          elseif len(stack) > 1 && stack[0] ==# '->' && stack[1] ==# ';'
            call s:Log('    LTI is in a condition; matching ' .
                      \'"case/if/try/receive/maybe" found')
            call s:Pop(stack)
            call s:Pop(stack)
            let stored_vcol = curr_vcol + shiftwidth()
          elseif stack[0] ==# '->'
            call s:Log('    LTI is in a branch; matching ' .
                      \'"case/if/try/receive/maybe" found')
            call s:Pop(stack)
            let stored_vcol = curr_vcol + 2 * shiftwidth()
          elseif stack[0] ==# 'when'
            call s:Log('    LTI is in a guard; matching ' .
                      \'"case/if/try/receive/maybe" found')
            call s:Pop(stack)
            let stored_vcol = curr_vcol + 2 * shiftwidth() + 2
          endif

        endif

        let [ret, res] = s:BeginElementFound(stack, token, curr_vcol,
                                            \stored_vcol, 'end', shiftwidth())
        if ret | return res | endif

      elseif token ==# 'fun'
        let [next_indtoken, next_lnum, next_i] = s:NextIndToken(lnum, i)
        call s:Log('    Next indtoken = ' . string(next_indtoken))

        if !empty(next_indtoken) && next_indtoken[0] =~# '^[A-Z_@]'
          " The "fun" is followed by a variable, so we might have a named fun:
          " "fun Fun() -> ok end". Thus we take the next token to decide
          " whether this is a function definition ("fun()") or just a function
          " reference ("fun Mod:Fun").
          let [next_indtoken, _, _] = s:NextIndToken(next_lnum, next_i)
          call s:Log('    Next indtoken = ' . string(next_indtoken))
        endif

        if !empty(next_indtoken) && next_indtoken[0] ==# '('
          " We have an anonymous function definition
          " (e.g. "fun () -> ok end")

          " stack = []  =>  LTI is a condition
          " stack = ['->']  =>  LTI is a branch
          " stack = ['->', ';']  =>  LTI is a condition
          " stack = ['when']  =>  LTI is in a guard
          if empty(stack)
            call s:Log('    LTI is in a condition; matching "fun" found')
            let stored_vcol = curr_vcol + shiftwidth()
          elseif len(stack) > 1 && stack[0] ==# '->' && stack[1] ==# ';'
            call s:Log('    LTI is in a condition; matching "fun" found')
            call s:Pop(stack)
            call s:Pop(stack)
          elseif stack[0] ==# '->'
            call s:Log('    LTI is in a branch; matching "fun" found')
            call s:Pop(stack)
            let stored_vcol = curr_vcol + 2 * shiftwidth()
          elseif stack[0] ==# 'when'
            call s:Log('    LTI is in a guard; matching "fun" found')
            call s:Pop(stack)
            let stored_vcol = curr_vcol + 2 * shiftwidth() + 2
          endif

          let [ret, res] = s:BeginElementFound(stack, token, curr_vcol,
                                              \stored_vcol, 'end', shiftwidth())
          if ret | return res | endif
        else
          " Pass: we have a function reference (e.g. "fun f/0")
        endif

      elseif token ==# '['
        " Emacs compatibility
        let [ret, res] = s:BeginElementFound(stack, token, curr_vcol,
                                            \stored_vcol, ']', 1)
        if ret | return res | endif

      elseif token ==# '<<'
        " Emacs compatibility
        let [ret, res] = s:BeginElementFound(stack, token, curr_vcol,
                                            \stored_vcol, '>>', 2)
        if ret | return res | endif

      elseif token ==# '(' || token ==# '{'

        let end_token = (token ==# '(' ? ')' :
                        \token ==# '{' ? '}' : 'error')

        if empty(stack)
          " We found the opening paren whose block contains the LTI.
          let mode = 'inside'
        elseif stack[0] ==# end_token
          call s:Log('    "' . token . '" pops "' . end_token . '"')
          call s:Pop(stack)

          if !empty(stack) && stack[0] ==# 'align_to_begin_element'
            " We found the opening paren whose closing paren
            " starts LTI
            let mode = 'align_to_begin_element'
          else
            " We found the opening pair for a closing paren that
            " was already in the stack.
            let mode = 'outside'
          endif
        else
          return s:UnexpectedToken(token, stack)
        endif

        if mode ==# 'inside' || mode ==# 'align_to_begin_element'

          if last_token_of_line && i != 0
            " Examples: {{{
            "
            " mode == 'inside':
            "
            "     my_func(
            "       LTI
            "
            "     [Variable, {
            "        LTI
            "
            " mode == 'align_to_begin_element':
            "
            "     my_func(
            "       Params
            "      ) % LTI
            "
            "     [Variable, {
            "        Terms
            "       } % LTI
            " }}}
            let stack = ['prev_term_plus']
            let plus = (mode ==# 'inside' ? 2 : 1)
            call s:Log('    "' . token .
                      \'" token found at end of line -> find previous token')
          elseif mode ==# 'align_to_begin_element'
            " Examples: {{{
            "
            " mode == 'align_to_begin_element' && !last_token_of_line
            "
            "     my_func(stored_vcol
            "            ) % LTI
            "
            "     [Variable, {stored_vcol
            "                } % LTI
            "
            " mode == 'align_to_begin_element' && i == 0
            "
            "     (
            "       stored_vcol
            "     ) % LTI
            "
            "     {
            "       stored_vcol
            "     } % LTI
            " }}}
            call s:Log('    "' . token . '" token (whose closing token ' .
                      \'starts LTI) found -> return')
            return curr_vcol
          elseif stored_vcol ==# -1
            " Examples: {{{
            "
            " mode == 'inside' && stored_vcol == -1 && !last_token_of_line
            "
            "     my_func(
            "             LTI
            "     [Variable, {
            "                 LTI
            "
            " mode == 'inside' && stored_vcol == -1 && i == 0
            "
            "     (
            "      LTI
            "
            "     {
            "      LTI
            " }}}
            call s:Log('    "' . token .
                      \'" token (which directly precedes LTI) found -> return')
            return curr_vcol + 1
          else
            " Examples: {{{
            "
            " mode == 'inside' && stored_vcol != -1 && !last_token_of_line
            "
            "     my_func(stored_vcol,
            "             LTI
            "
            "     [Variable, {stored_vcol,
            "                 LTI
            "
            " mode == 'inside' && stored_vcol != -1 && i == 0
            "
            "     (stored_vcol,
            "      LTI
            "
            "     {stored_vcol,
            "      LTI
            " }}}
            call s:Log('    "' . token .
                      \'" token (whose block contains LTI) found -> return')
            return stored_vcol
          endif
        endif

      elseif index(['end', ')', ']', '}', '>>'], token) != -1

        " If we can be sure that there is synchronization in the Erlang
        " syntax, we use searchpair to make the script quicker. Otherwise we
        " just push the token onto the stack and keep parsing.
    
        " No synchronization -> no searchpair optimization
        if !exists('b:erlang_syntax_synced')
          call s:Push(stack, token)

        " We don't have searchpair optimization for '>>'
        elseif token ==# '>>'
          call s:Push(stack, token)

        elseif token ==# 'end'
          let [lnum_new, col_new] = s:SearchEndPair(lnum, curr_col)

          if lnum_new ==# 0
            return s:IndentError('Matching token for "end" not found',
                                \token, stack)
          else
            if lnum_new != lnum
              call s:Log('    Tokenize for "end" <<<<')
              let [lnum, indtokens] = s:TokenizeLine(lnum_new, 'up')
              call s:Log('    >>>> Tokenize for "end"')
            endif

            let [success, i] = s:GetIndtokenAtCol(indtokens, col_new)
            if !success | return i | endif
            let [token, curr_vcol, curr_col] = indtokens[i]
            call s:Log('    Match for "end" in line ' . lnum_new . ': ' .
                      \string(indtokens[i]))
          endif

        else " token is one of the following: ')', ']', '}'

          call s:Push(stack, token)

          " We have to escape '[', because this string will be interpreted as a
          " regexp
          let open_paren = (token ==# ')' ? '(' :
                           \token ==# ']' ? '\[' :
                           \               '{')

          let [lnum_new, col_new] = s:SearchPair(lnum, curr_col,
                                                \open_paren, '', token)

          if lnum_new ==# 0
            return s:IndentError('Matching token not found',
                                \token, stack)
          else
            if lnum_new != lnum
              call s:Log('    Tokenize the opening paren <<<<')
              let [lnum, indtokens] = s:TokenizeLine(lnum_new, 'up')
              call s:Log('    >>>>')
            endif

            let [success, i] = s:GetIndtokenAtCol(indtokens, col_new)
            if !success | return i | endif
            let [token, curr_vcol, curr_col] = indtokens[i]
            call s:Log('    Match in line ' . lnum_new . ': ' .
                      \string(indtokens[i]))

            " Go back to the beginning of the loop and handle the opening paren
            continue
          endif
        endif

      elseif token ==# ';'

        if empty(stack)
          call s:Push(stack, ';')
        elseif index([';', '->', 'when', 'end', 'after', 'catch', 'else'],
                    \stack[0]) != -1
          " Pass:
          "
          " - If the stack top is another ';', then one ';' is
          "   enough.
          " - If the stack top is an '->' or a 'when', then we
          "   should keep that, because they signify the type of the
          "   LTI (branch, condition or guard).
          " - From the indentation point of view, the keyword
          "   (of/catch/after/else/end) before the LTI is what counts, so
          "   if the stack already has a catch/after/else/end, we don't
          "   modify it. This way when we reach case/try/receive/maybe,
          "   there will be at most one of/catch/after/else/end token in
          "   the stack.
        else
          return s:UnexpectedToken(token, stack)
        endif

      elseif token ==# '->'

        if empty(stack) && !last_token_of_line
          call s:Log('    LTI is in expression after arrow -> return')
          return stored_vcol
        elseif empty(stack) || stack[0] ==# ';' || stack[0] ==# 'end'
          " stack = [';']  -> LTI is either a branch or in a guard
          " stack = ['->']  ->  LTI is a condition
          " stack = ['->', ';']  -> LTI is a branch
          call s:Push(stack, '->')
        elseif index(['->', 'when', 'end', 'after', 'catch', 'else'],
                    \stack[0]) != -1
          " Pass:
          "
          " - If the stack top is another '->', then one '->' is
          "   enough.
          " - If the stack top is a 'when', then we should keep
          "   that, because this signifies that LTI is a in a guard.
          " - From the indentation point of view, the keyword
          "   (of/catch/after/else/end) before the LTI is what counts, so
          "   if the stack already has a catch/after/else/end, we don't
          "   modify it. This way when we reach case/try/receive/maybe,
          "   there will be at most one of/catch/after/else/end token in
          "   the stack.
        else
          return s:UnexpectedToken(token, stack)
        endif

      elseif token ==# 'when'

        " Pop all ';' from the top of the stack
        while !empty(stack) && stack[0] ==# ';'
          call s:Pop(stack)
        endwhile

        if empty(stack)
          if semicolon_abscol != ''
            let stored_vcol = semicolon_abscol
          endif
          if !last_token_of_line
            " Example:
            "   when A,
            "        LTI
            let [ret, res] = s:BeginElementFoundIfEmpty(stack, token, curr_vcol,
                                                       \stored_vcol, shiftwidth())
            if ret | return res | endif
          else
            " Example:
            "   when
            "       LTI
            call s:Push(stack, token)
          endif
        elseif index(['->', 'when', 'end', 'after', 'catch', 'else'],
                    \stack[0]) != -1
          " Pass:
          " - If the stack top is another 'when', then one 'when' is
          "   enough.
          " - If the stack top is an '->' or a 'when', then we
          "   should keep that, because they signify the type of the
          "   LTI (branch, condition or guard).
          " - From the indentation point of view, the keyword
          "   (of/catch/after/else/end) before the LTI is what counts, so
          "   if the stack already has a catch/after/else/end, we don't
          "   modify it. This way when we reach case/try/receive/maybe,
          "   there will be at most one of/catch/after/else/end token in
          "   the stack.
        else
          return s:UnexpectedToken(token, stack)
        endif

      elseif token ==# 'of' || token ==# 'after' || token ==# 'else' ||
           \ (token ==# 'catch' && !s:IsCatchStandalone(lnum, i))

        if token ==# 'after' || token ==# 'else'
          " If LTI is between an after/else and the corresponding 'end', then
          " let's return because calculating the indentation based on
          " after/else is enough.
          "
          " Example:
          "   receive A after
          "                 LTI
          "   maybe A else
          "               LTI
          "
          " Note about Emacs compatibility {{{
          "
          " It would be fine to indent the examples above the following way:
          "
          "   receive A after
          "       LTI
          "   maybe A else
          "       LTI
          "
          " We intend it the way above because that is how Emacs does it.
          " Also, this is a bit faster.
          "
          " We are still not 100% Emacs compatible because of placing the
          " 'end' after the indented blocks.
          "
          " Emacs example:
          "
          "   receive A after
          "                 LTI
          "             end,
          "   maybe A else
          "               LTI
          "               end % Yes, it's here (in OTP 25.0, might change
          "                   % later)
          "
          " vim-erlang example:
          "
          "   receive A after
          "                 LTI
          "   end,
          "   maybe A else
          "               LTI
          "   end
          " }}}
          let [ret, res] = s:BeginElementFoundIfEmpty(stack, token, curr_vcol,
                                                     \stored_vcol, shiftwidth())
          if ret | return res | endif
        endif

        if empty(stack) || stack[0] ==# '->' || stack[0] ==# 'when'
          call s:Push(stack, token)
        elseif stack[0] ==# 'catch' || stack[0] ==# 'after' ||
              \stack[0] ==# 'else' || stack[0] ==# 'end'
          " Pass: From the indentation point of view, the keyword
          " (of/catch/after/end) before the LTI is what counts, so
          " if the stack already has a catch/after/end, we don't
          " modify it. This way when we reach case/try/receive,
          " there will be at most one of/catch/after/end token in
          " the stack.
        else
          return s:UnexpectedToken(token, stack)
        endif

      elseif token ==# '||' && empty(stack) && !last_token_of_line

        call s:Log('    LTI is in expression after "||" -> return')
        return stored_vcol

      else
        call s:Log('    Misc token, stack unchanged = ' . string(stack))

      endif

      if empty(stack) || stack[0] ==# '->' || stack[0] ==# 'when'
        let stored_vcol = curr_vcol
        let semicolon_abscol = ''
        call s:Log('    Misc token when the stack is empty or has "->" ' .
                  \'-> setting stored_vcol to ' . stored_vcol)
      elseif stack[0] ==# ';'
        let semicolon_abscol = curr_vcol
        call s:Log('    Setting semicolon-stored_vcol to ' . stored_vcol)
      endif

      let i -= 1
      call s:Log('    Token processed. stored_vcol=' . stored_vcol)

      let last_token_of_line = 0

    endwhile " iteration on tokens in a line

    call s:Log('  Line analyzed. stored_vcol=' . stored_vcol)

    if empty(stack) && stored_vcol != -1 &&
     \ (!empty(indtokens) && indtokens[0][0] != '<string_end>' &&
     \                       indtokens[0][0] != '<quoted_atom_end>')
      call s:Log('    Empty stack at the beginning of the line -> return')
      return stored_vcol
    endif

    let lnum -= 1

  endwhile " iteration on lines

endfunction

" ErlangIndent function {{{1
" =====================

function! ErlangIndent()

  call s:ClearTokenCacheIfNeeded()

  let currline = getline(v:lnum)
  call s:Log('Indenting line ' . v:lnum . ': ' . currline)

  if s:IsLineStringContinuation(v:lnum) || s:IsLineAtomContinuation(v:lnum)
    call s:Log('String or atom continuation found -> ' .
              \'leaving indentation unchanged')
    return -1
  endif

  " If the line starts with the comment, and so is the previous non-blank line
  if currline =~# '^\s*%'
    let lnum = prevnonblank(v:lnum - 1)
    if lnum ==# 0
      call s:Log('First non-empty line of the file -> return 0.')
      return 0
    else
      let ml = matchlist(getline(lnum), '^\(\s*\)%')
      " If the previous line also starts with a comment, then return the same
      " indentation that line has. Otherwise exit from this special "if" and
      " don't care that the current line is a comment.
      if !empty(ml)
        let new_col = s:CalcVCol(ml[1], 0, len(ml[1]) - 1, 0, &tabstop)
        call s:Log('Comment line after another comment line -> ' .
                  \'use same indent: ' . new_col)
        return new_col
      endif
    endif
  endif

  let ml = matchlist(currline,
                    \'^\(\s*\)\(\%(end\|of\|catch\|after\|else\)\>\|[)\]}]\|>>\)')

  " If the line has a special beginning, but not a standalone catch
  if !empty(ml) && !(ml[2] ==# 'catch' && s:IsCatchStandalone(v:lnum, 0))

    let curr_col = len(ml[1])

    " If we can be sure that there is synchronization in the Erlang
    " syntax, we use searchpair to make the script quicker.
    if ml[2] ==# 'end' && exists('b:erlang_syntax_synced')

      let [lnum, col] = s:SearchEndPair(v:lnum, curr_col)

      if lnum ==# 0
        return s:IndentError('Matching token for "end" not found',
                            \'end', [])
      else
        call s:Log('    Tokenize for "end" <<<<')
        let [lnum, indtokens] = s:TokenizeLine(lnum, 'up')
        call s:Log('    >>>> Tokenize for "end"')

        let [success, i] = s:GetIndtokenAtCol(indtokens, col)
        if !success | return i | endif
        let [token, curr_vcol, curr_col] = indtokens[i]
        call s:Log('    Match for "end" in line ' . lnum . ': ' .
                   \string(indtokens[i]))
        return curr_vcol
      endif

    else

      call s:Log("  Line type = 'end'")
      let new_col = s:ErlangCalcIndent(v:lnum - 1,
                                      \[ml[2], 'align_to_begin_element'])
    endif
  else
    call s:Log("  Line type = 'normal'")

    let new_col = s:ErlangCalcIndent(v:lnum - 1, [])
    if currline =~# '^\s*when\>'
      let new_col += 2
    endif
  endif

  if new_col < -1
    call s:Log('WARNING: returning new_col == ' . new_col)
    return g:erlang_unexpected_token_indent
  endif

  return new_col

endfunction

" ErlangShowTokensInLine functions {{{1
" ================================

" These functions are useful during development.

function! ErlangShowTokensInLine(line)
  echo "Line: " . a:line
  let indtokens = s:GetTokensFromLine(a:line, 0, 0, &tabstop)
  echo "Tokens:"
  for it in indtokens
    echo it
  endfor
endfunction

function! ErlangShowTokensInCurrentLine()
  return ErlangShowTokensInLine(getline('.'))
endfunction

" Cleanup {{{1
" =======

let &cpo = s:cpo_save
unlet s:cpo_save

" vim: sw=2 et fdm=marker