if exists('g:polyglot_disabled') && index(g:polyglot_disabled, 'crystal') != -1 finish endif " Only load this indent file when no other was loaded. if exists('b:did_indent') finish endif let b:did_indent = 1 if !exists('g:crystal_indent_access_modifier_style') " Possible values: "normal", "indent", "outdent" let g:crystal_indent_access_modifier_style = 'normal' endif setlocal nosmartindent " Now, set up our indentation expression and keys that trigger it. setlocal indentexpr=GetCrystalIndent(v:lnum) setlocal indentkeys=0{,0},0),0],!^F,o,O,e,:,. setlocal indentkeys+==end,=else,=elsif,=when,=ensure,=rescue,==begin,==end setlocal indentkeys+==private,=protected,=public " Only define the function once. if exists('*GetCrystalIndent') finish endif let s:cpo_save = &cpo set cpo&vim " 1. Variables {{{1 " ============ " Regex of syntax group names that are or delimit strings/symbols or are comments. let s:syng_strcom = '\' " Regex of syntax group names that are strings. let s:syng_string = \ '\' " Regex of syntax group names that are strings or documentation. let s:syng_stringdoc = \'\' " Expression used to check whether we should skip a match with searchpair(). let s:skip_expr = \ "synIDattr(synID(line('.'),col('.'),1),'name') =~ '".s:syng_strcom."'" " Regex used for words that, at the start of a line, add a level of indent. let s:crystal_indent_keywords = \ '^\s*\zs\<\%(module\|\%(private\s\+\)\=\%(abstract\s\+\)\=\%(class\|struct\)\|enum\|if' . \ '\|for\|macro\|while\|until\|else\|elsif\|case\|when\|unless\|begin\|ensure\|rescue\|lib' . \ '\|\%(protected\|private\)\=\s*def\):\@!\>' . \ '\|\%([=,*/%+-]\|<<\|>>\|:\s\)\s*\zs' . \ '\<\%(if\|for\|while\|until\|case\|unless\|begin\):\@!\>' . \ '\|{%\s*\<\%(if\|for\|while\|until\|lib\|case\|unless\|begin\|else\|elsif\|when\)' " Regex used for words that, at the start of a line, remove a level of indent. let s:crystal_deindent_keywords = \ '^\s*\zs\<\%(ensure\|else\|rescue\|elsif\|when\|end\):\@!\>' . \ '\|{%\s*\<\%(ensure\|else\|rescue\|elsif\|when\|end\)\>' " Regex that defines the start-match for the 'end' keyword. " TODO: the do here should be restricted somewhat (only at end of line)? let s:end_start_regex = \ '{%\s*\<\%(if\|for\|while\|until\|unless\|begin\|lib\)\>\|' . \ '\C\%(^\s*\|[=,*/%+\-|;{]\|<<\|>>\|:\s\)\s*\zs' . \ '\<\%(module\|\%(private\s\+\)\=\%(abstract\s\+\)\=\%(class\|struct\)\|enum\|macro\|if\|for\|while\|until\|case\|unless\|begin\|lib' . \ '\|\%(protected\|private\)\=\s*def\):\@!\>' . \ '\|\%(^\|[^.:@$]\)\@<=\' " Regex that defines the middle-match for the 'end' keyword. let s:end_middle_regex = \ '{%\s*\<\%(ensure\|else\|when\|elsif\)\>\s*%}\|' . \ '\<\%(ensure\|else\|\%(\%(^\|;\)\s*\)\@<=\\|when\|elsif\):\@!\>' " Regex that defines the end-match for the 'end' keyword. let s:end_end_regex = '\%(^\|[^.:@$]\)\@<=\\|{%\s*\<\%(end\)\>' " Expression used for searchpair() call for finding match for 'end' keyword. let s:end_skip_expr = s:skip_expr . \ ' || (expand("") == "do"' . \ ' && getline(".") =~ "^\\s*\\<\\(while\\|until\\|for\\):\\@!\\>")' " Regex that defines continuation lines, not including (, {, or [. let s:non_bracket_continuation_regex = '\%([\\.,:*/%+]\|\>\|:\s\)\s*\zs' . \ '\<\%(if\|for\|while\|until\|unless\):\@!\>' " Regex that defines bracket continuations let s:bracket_continuation_regex = '%\@\|%\@ 0 " Go in and out of blocks comments as necessary. " If the line isn't empty (with opt. comment) or in a string, end search. let line = getline(lnum) if line =~# '^=begin' if in_block let in_block = 0 else break endif elseif !in_block && line =~# '^=end' let in_block = 1 elseif !in_block && line !~# '^\s*#.*$' && !(s:IsInStringOrComment(lnum, 1) \ && s:IsInStringOrComment(lnum, strlen(line))) break endif let lnum = prevnonblank(lnum - 1) endwhile return lnum endfunction " Find line above 'lnum' that started the continuation 'lnum' may be part of. function s:GetMSL(lnum) " Start on the line we're at and use its indent. let msl = a:lnum let msl_body = getline(msl) let lnum = s:PrevNonBlankNonString(a:lnum - 1) while lnum > 0 " If we have a continuation line, or we're in a string, use line as MSL. " Otherwise, terminate search as we have found our MSL already. let line = getline(lnum) if s:Match(msl, s:leading_operator_regex) " If the current line starts with a leading operator, keep its indent " and keep looking for an MSL. let msl = lnum elseif s:Match(lnum, s:splat_regex) " If the above line looks like the "*" of a splat, use the current one's " indentation. " " Example: " Hash[* " method_call do " something " return msl elseif s:Match(lnum, s:non_bracket_continuation_regex) && \ s:Match(msl, s:non_bracket_continuation_regex) " If the current line is a non-bracket continuation and so is the " previous one, keep its indent and continue looking for an MSL. " " Example: " method_call one, " two, " three " let msl = lnum elseif s:Match(lnum, s:non_bracket_continuation_regex) && \ (s:Match(msl, s:bracket_continuation_regex) || s:Match(msl, s:block_continuation_regex)) " If the current line is a bracket continuation or a block-starter, but " the previous is a non-bracket one, respect the previous' indentation, " and stop here. " " Example: " method_call one, " two { " three " return lnum elseif s:Match(lnum, s:bracket_continuation_regex) && \ (s:Match(msl, s:bracket_continuation_regex) || s:Match(msl, s:block_continuation_regex)) " If both lines are bracket continuations (the current may also be a " block-starter), use the current one's and stop here " " Example: " method_call( " other_method_call( " foo return msl elseif s:Match(lnum, s:block_regex) && \ !s:Match(msl, s:continuation_regex) && \ !s:Match(msl, s:block_continuation_regex) " If the previous line is a block-starter and the current one is " mostly ordinary, use the current one as the MSL. " " Example: " method_call do " something " something_else return msl else let col = match(line, s:continuation_regex) + 1 if (col > 0 && !s:IsInStringOrComment(lnum, col)) \ || s:IsInString(lnum, strlen(line)) let msl = lnum else break endif endif let msl_body = getline(msl) let lnum = s:PrevNonBlankNonString(lnum - 1) endwhile return msl endfunction " Check if line 'lnum' has more opening brackets than closing ones. function s:ExtraBrackets(lnum) let opening = {'parentheses': [], 'braces': [], 'brackets': []} let closing = {'parentheses': [], 'braces': [], 'brackets': []} let line = getline(a:lnum) let pos = match(line, '[][(){}]', 0) " Save any encountered opening brackets, and remove them once a matching " closing one has been found. If a closing bracket shows up that doesn't " close anything, save it for later. while pos != -1 if !s:IsInStringOrComment(a:lnum, pos + 1) if line[pos] ==# '(' call add(opening.parentheses, {'type': '(', 'pos': pos}) elseif line[pos] ==# ')' if empty(opening.parentheses) call add(closing.parentheses, {'type': ')', 'pos': pos}) else let opening.parentheses = opening.parentheses[0:-2] endif elseif line[pos] ==# '{' call add(opening.braces, {'type': '{', 'pos': pos}) elseif line[pos] ==# '}' if empty(opening.braces) call add(closing.braces, {'type': '}', 'pos': pos}) else let opening.braces = opening.braces[0:-2] endif elseif line[pos] ==# '[' call add(opening.brackets, {'type': '[', 'pos': pos}) elseif line[pos] ==# ']' if empty(opening.brackets) call add(closing.brackets, {'type': ']', 'pos': pos}) else let opening.brackets = opening.brackets[0:-2] endif endif endif let pos = match(line, '[][(){}]', pos + 1) endwhile " Find the rightmost brackets, since they're the ones that are important in " both opening and closing cases let rightmost_opening = {'type': '(', 'pos': -1} let rightmost_closing = {'type': ')', 'pos': -1} for opening in opening.parentheses + opening.braces + opening.brackets if opening.pos > rightmost_opening.pos let rightmost_opening = opening endif endfor for closing in closing.parentheses + closing.braces + closing.brackets if closing.pos > rightmost_closing.pos let rightmost_closing = closing endif endfor return [rightmost_opening, rightmost_closing] endfunction function s:Match(lnum, regex) let line = getline(a:lnum) let offset = match(line, '\C'.a:regex) let col = offset + 1 while offset > -1 && s:IsInStringOrComment(a:lnum, col) let offset = match(line, '\C'.a:regex, offset + 1) let col = offset + 1 endwhile if offset > -1 return col else return 0 endif endfunction " Locates the containing class/module's definition line, ignoring nested classes " along the way. " function! s:FindContainingClass() let saved_position = getpos('.') while searchpair(s:end_start_regex, s:end_middle_regex, s:end_end_regex, 'bW', \ s:end_skip_expr) > 0 if expand('') =~# '\' let found_lnum = line('.') call setpos('.', saved_position) return found_lnum endif endwhile call setpos('.', saved_position) return 0 endfunction " 3. GetCrystalIndent Function {{{1 " ========================= function GetCrystalIndent(...) " 3.1. Setup {{{2 " ---------- " The value of a single shift-width if exists('*shiftwidth') let sw = shiftwidth() else let sw = &sw endif " For the current line, use the first argument if given, else v:lnum let clnum = a:0 ? a:1 : v:lnum " Set up variables for restoring position in file. Could use clnum here. let vcol = col('.') " 3.2. Work on the current line {{{2 " ----------------------------- " Get the current line. let line = getline(clnum) let ind = -1 " If this line is an access modifier keyword, align according to the closest " class declaration. if g:crystal_indent_access_modifier_style ==? 'indent' if s:Match(clnum, s:access_modifier_regex) let class_line = s:FindContainingClass() if class_line > 0 return indent(class_line) + sw endif endif elseif g:crystal_indent_access_modifier_style ==? 'outdent' if s:Match(clnum, s:access_modifier_regex) let class_line = s:FindContainingClass() if class_line > 0 return indent(class_line) endif endif endif " If we got a closing bracket on an empty line, find its match and indent " according to it. For parentheses we indent to its column - 1, for the " others we indent to the containing line's MSL's level. Return -1 if fail. let col = matchend(line, '^\s*[]})]') if col > 0 && !s:IsInStringOrComment(clnum, col) call cursor(clnum, col) let bs = strpart('(){}[]', stridx(')}]', line[col - 1]) * 2, 2) if searchpair(escape(bs[0], '\['), '', bs[1], 'bW', s:skip_expr) > 0 if line[col-1] ==# ')' && col('.') != col('$') - 1 let ind = virtcol('.') - 1 else let ind = indent(s:GetMSL(line('.'))) endif endif return ind endif " If we have a =begin or =end set indent to first column. if match(line, '^\s*\%(=begin\|=end\)$') != -1 return 0 endif " If we have a deindenting keyword, find its match and indent to its level. " TODO: this is messy if s:Match(clnum, s:crystal_deindent_keywords) call cursor(clnum, 1) if searchpair(s:end_start_regex, s:end_middle_regex, s:end_end_regex, 'bW', \ s:end_skip_expr) > 0 let msl = s:GetMSL(line('.')) let line = getline(line('.')) if strpart(line, 0, col('.') - 1) =~# '=\s*$' && \ strpart(line, col('.') - 1, 2) !~# 'do' " assignment to case/begin/etc, on the same line, hanging indent let ind = virtcol('.') - 1 elseif getline(msl) =~# '=\s*\(#.*\)\=$' " in the case of assignment to the msl, align to the starting line, " not to the msl let ind = indent(line('.')) else " align to the msl let ind = indent(msl) endif endif return ind endif " If we are in a multi-line string or line-comment, don't do anything to it. if s:IsInStringOrDocumentation(clnum, matchend(line, '^\s*') + 1) return indent('.') endif " If we are at the closing delimiter of a "<<" heredoc-style string, set the " indent to 0. if line =~# '^\k\+\s*$' \ && s:IsInStringDelimiter(clnum, 1) \ && search('\V<<'.line, 'nbW') > 0 return 0 endif " If the current line starts with a leading operator, add a level of indent. if s:Match(clnum, s:leading_operator_regex) return indent(s:GetMSL(clnum)) + sw endif " 3.3. Work on the previous line. {{{2 " ------------------------------- " Find a non-blank, non-multi-line string line above the current line. let lnum = s:PrevNonBlankNonString(clnum - 1) " If the line is empty and inside a string, use the previous line. if line =~# '^\s*$' && lnum != prevnonblank(clnum - 1) return indent(prevnonblank(clnum)) endif " At the start of the file use zero indent. if lnum == 0 return 0 endif " Set up variables for the previous line. let line = getline(lnum) let ind = indent(lnum) if s:Match(lnum, s:continuable_regex) && s:Match(lnum, s:continuation_regex) return indent(s:GetMSL(lnum)) + sw + sw endif " If the previous line ended with a block opening, add a level of indent. if s:Match(lnum, s:block_regex) let msl = s:GetMSL(lnum) if getline(msl) =~# '=\s*\(#.*\)\=$' " in the case of assignment to the msl, align to the starting line, " not to the msl let ind = indent(lnum) + sw else let ind = indent(msl) + sw endif return ind endif " If the previous line started with a leading operator, use its MSL's level " of indent if s:Match(lnum, s:leading_operator_regex) return indent(s:GetMSL(lnum)) endif " If the previous line ended with the "*" of a splat, add a level of indent if line =~ s:splat_regex return indent(lnum) + sw endif " If the previous line contained unclosed opening brackets and we are still " in them, find the rightmost one and add indent depending on the bracket " type. " " If it contained hanging closing brackets, find the rightmost one, find its " match and indent according to that. if line =~# '[[({]' || line =~# '[])}]\s*\%(#.*\)\=$' let [opening, closing] = s:ExtraBrackets(lnum) if opening.pos != -1 if opening.type ==# '(' && searchpair('(', '', ')', 'bW', s:skip_expr) > 0 if col('.') + 1 == col('$') return ind + sw else return virtcol('.') endif else let nonspace = matchend(line, '\S', opening.pos + 1) - 1 return nonspace > 0 ? nonspace : ind + sw endif elseif closing.pos != -1 call cursor(lnum, closing.pos + 1) normal! % if s:Match(line('.'), s:crystal_indent_keywords) return indent('.') + sw else return indent('.') endif else call cursor(clnum, vcol) end endif " If the previous line ended with an "end", match that "end"s beginning's " indent. let col = s:Match(lnum, '\%(^\|[^.:@$]\)\\s*\%(#.*\)\=$') if col > 0 call cursor(lnum, col) if searchpair(s:end_start_regex, '', s:end_end_regex, 'bW', \ s:end_skip_expr) > 0 let n = line('.') let ind = indent('.') let msl = s:GetMSL(n) if msl != n let ind = indent(msl) end return ind endif end let col = s:Match(lnum, s:crystal_indent_keywords) if col > 0 call cursor(lnum, col) let ind = virtcol('.') - 1 + sw " TODO: make this better (we need to count them) (or, if a searchpair " fails, we know that something is lacking an end and thus we indent a " level if s:Match(lnum, s:end_end_regex) let ind = indent('.') endif return ind endif " 3.4. Work on the MSL line. {{{2 " -------------------------- " Set up variables to use and search for MSL to the previous line. let p_lnum = lnum let lnum = s:GetMSL(lnum) " If the previous line wasn't a MSL. if p_lnum != lnum " If previous line ends bracket and begins non-bracket continuation decrease indent by 1. if s:Match(p_lnum, s:bracket_switch_continuation_regex) return ind - 1 " If previous line is a continuation return its indent. " TODO: the || s:IsInString() thing worries me a bit. elseif s:Match(p_lnum, s:non_bracket_continuation_regex) || s:IsInString(p_lnum,strlen(line)) return ind endif endif " Set up more variables, now that we know we wasn't continuation bound. let line = getline(lnum) let msl_ind = indent(lnum) " If the MSL line had an indenting keyword in it, add a level of indent. " TODO: this does not take into account contrived things such as " module Foo; class Bar; end if s:Match(lnum, s:crystal_indent_keywords) let ind = msl_ind + sw if s:Match(lnum, s:end_end_regex) let ind = ind - sw endif return ind endif " If the previous line ended with [*+/.,-=], but wasn't a block ending or a " closing bracket, indent one extra level. if s:Match(lnum, s:non_bracket_continuation_regex) && !s:Match(lnum, '^\s*\([\])}]\|end\)') if lnum == p_lnum let ind = msl_ind + sw else let ind = msl_ind endif return ind endif " }}}2 return ind endfunction " }}}1 let &cpo = s:cpo_save unlet s:cpo_save " vim:set sw=2 sts=2 ts=8 et: