Mercurial > vim
view runtime/indent/julia.vim @ 34653:8079960136db v9.1.0211
patch 9.1.0211: page-wise scrolling does not support smooth-scrolling
Commit: https://github.com/vim/vim/commit/b9f5b95b7bec2414a5a96010514702d99afea18e
Author: Luuk van Baal <luukvbaal@gmail.com>
Date: Tue Mar 26 18:46:45 2024 +0100
patch 9.1.0211: page-wise scrolling does not support smooth-scrolling
Problem: Page-wise scrolling with Ctrl-F/Ctrl-B implements
it's own logic to change the topline and cursor.
In doing so, skipcol is not handled properly for
'smoothscroll', and virtual lines.
Solution: Re-use the logic from Ctrl-E/Ctrl-Y while staying
backward compatible as much as possible.
closes: #14268
Signed-off-by: Luuk van Baal <luukvbaal@gmail.com>
Signed-off-by: Christian Brabandt <cb@256bit.org>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Tue, 26 Mar 2024 19:00:04 +0100 |
parents | d6dde6229b36 |
children |
line wrap: on
line source
" Vim indent file " Language: Julia " Maintainer: Carlo Baldassi <carlobaldassi@gmail.com> " Homepage: https://github.com/JuliaEditorSupport/julia-vim " Last Change: 2022 Jun 14 " 2023 Aug 28 by Vim Project (undo_indent) " Notes: originally based on Bram Moolenaar's indent file for vim " Only load this indent file when no other was loaded. if exists("b:did_indent") finish endif let b:did_indent = 1 setlocal autoindent setlocal indentexpr=GetJuliaIndent() setlocal indentkeys+==end,=else,=catch,=finally,),],} setlocal indentkeys-=0# setlocal indentkeys-=: setlocal indentkeys-=0{ setlocal indentkeys-=0} setlocal nosmartindent let b:undo_indent = "setl ai< inde< indk< si<" " Only define the function once. if exists("*GetJuliaIndent") finish endif let s:skipPatternsBasic = '\<julia\%(Comment\%([LM]\|Delim\)\)\>' let s:skipPatterns = '\<julia\%(Comprehension\%(For\|If\)\|RangeKeyword\|Comment\%([LM]\|Delim\)\|\%([bs]\|Shell\|Printf\|Doc\)\?String\|StringPrefixed\|DocStringM\(Raw\)\?\|RegEx\|SymbolS\?\|Macro\|Dotted\)\>' function JuliaMatch(lnum, str, regex, st, ...) let s = a:st let e = a:0 > 0 ? a:1 : -1 let basic_skip = a:0 > 1 ? a:2 : 'all' let skip = basic_skip ==# 'basic' ? s:skipPatternsBasic : s:skipPatterns while 1 let f = match(a:str, '\C' . a:regex, s) if e >= 0 && f >= e return -1 endif if f >= 0 let attr = synIDattr(synID(a:lnum,f+1,1),"name") let attrT = synIDattr(synID(a:lnum,f+1,0),"name") if attr =~# skip || attrT =~# skip let s = f+1 continue endif endif break endwhile return f endfunction function GetJuliaNestingStruct(lnum, ...) " Auxiliary function to inspect the block structure of a line let line = getline(a:lnum) let s = a:0 > 0 ? a:1 : 0 let e = a:0 > 1 ? a:2 : -1 let blocks_stack = [] let num_closed_blocks = 0 while 1 let fb = JuliaMatch(a:lnum, line, '\<\%(if\|else\%(if\)\?\|while\|for\|try\|catch\|finally\|\%(staged\)\?function\|macro\|begin\|mutable\s\+struct\|\%(mutable\s\+\)\@<!struct\|\%(abstract\|primitive\)\s\+type\|let\|\%(bare\)\?module\|quote\|do\)\>', s, e) let fe = JuliaMatch(a:lnum, line, '\<end\>', s, e) if fb < 0 && fe < 0 " No blocks found break end if fb >= 0 && (fb < fe || fe < 0) " The first occurrence is an opening block keyword " Note: some keywords (elseif,else,catch,finally) are both " closing blocks and opening new ones let i = JuliaMatch(a:lnum, line, '\<if\>', s) if i >= 0 && i == fb let s = i+1 call add(blocks_stack, 'if') continue endif let i = JuliaMatch(a:lnum, line, '\<elseif\>', s) if i >= 0 && i == fb let s = i+1 if len(blocks_stack) > 0 && blocks_stack[-1] == 'if' let blocks_stack[-1] = 'elseif' elseif (len(blocks_stack) > 0 && blocks_stack[-1] != 'elseif') || len(blocks_stack) == 0 call add(blocks_stack, 'elseif') let num_closed_blocks += 1 endif continue endif let i = JuliaMatch(a:lnum, line, '\<else\>', s) if i >= 0 && i == fb let s = i+1 if len(blocks_stack) > 0 && blocks_stack[-1] =~# '\<\%(else\)\=if\>' let blocks_stack[-1] = 'else' else call add(blocks_stack, 'else') let num_closed_blocks += 1 endif continue endif let i = JuliaMatch(a:lnum, line, '\<try\>', s) if i >= 0 && i == fb let s = i+1 call add(blocks_stack, 'try') continue endif let i = JuliaMatch(a:lnum, line, '\<catch\>', s) if i >= 0 && i == fb let s = i+1 if len(blocks_stack) > 0 && blocks_stack[-1] == 'try' let blocks_stack[-1] = 'catch' else call add(blocks_stack, 'catch') let num_closed_blocks += 1 endif continue endif let i = JuliaMatch(a:lnum, line, '\<finally\>', s) if i >= 0 && i == fb let s = i+1 if len(blocks_stack) > 0 && (blocks_stack[-1] == 'try' || blocks_stack[-1] == 'catch') let blocks_stack[-1] = 'finally' else call add(blocks_stack, 'finally') let num_closed_blocks += 1 endif continue endif let i = JuliaMatch(a:lnum, line, '\<\%(bare\)\?module\>', s) if i >= 0 && i == fb let s = i+1 if i == 0 call add(blocks_stack, 'col1module') else call add(blocks_stack, 'other') endif continue endif let i = JuliaMatch(a:lnum, line, '\<\%(while\|for\|function\|macro\|begin\|\%(mutable\s\+\)\?struct\|\%(abstract\|primitive\)\s\+type\|let\|quote\|do\)\>', s) if i >= 0 && i == fb if match(line, '\C\<\%(mutable\|abstract\|primitive\)', i) != -1 let s = i+11 else let s = i+1 endif call add(blocks_stack, 'other') continue endif " Note: it should be impossible to get here break else " The first occurrence is an 'end' let s = fe+1 if len(blocks_stack) == 0 let num_closed_blocks += 1 else call remove(blocks_stack, -1) endif continue endif " Note: it should be impossible to get here break endwhile let num_open_blocks = len(blocks_stack) - count(blocks_stack, 'col1module') return [num_open_blocks, num_closed_blocks] endfunction function GetJuliaNestingBrackets(lnum, c) " Auxiliary function to inspect the brackets structure of a line let line = getline(a:lnum)[0 : (a:c - 1)] let s = 0 let brackets_stack = [] let last_closed_bracket = -1 while 1 let fb = JuliaMatch(a:lnum, line, '[([{]', s) let fe = JuliaMatch(a:lnum, line, '[])}]', s) if fb < 0 && fe < 0 " No brackets found break end if fb >= 0 && (fb < fe || fe < 0) " The first occurrence is an opening bracket let i = JuliaMatch(a:lnum, line, '(', s) if i >= 0 && i == fb let s = i+1 call add(brackets_stack, ['par',i]) continue endif let i = JuliaMatch(a:lnum, line, '\[', s) if i >= 0 && i == fb let s = i+1 call add(brackets_stack, ['sqbra',i]) continue endif let i = JuliaMatch(a:lnum, line, '{', s) if i >= 0 && i == fb let s = i+1 call add(brackets_stack, ['curbra',i]) continue endif " Note: it should be impossible to get here break else " The first occurrence is a closing bracket let i = JuliaMatch(a:lnum, line, ')', s) if i >= 0 && i == fe let s = i+1 if len(brackets_stack) > 0 && brackets_stack[-1][0] == 'par' call remove(brackets_stack, -1) else let last_closed_bracket = i + 1 endif continue endif let i = JuliaMatch(a:lnum, line, ']', s) if i >= 0 && i == fe let s = i+1 if len(brackets_stack) > 0 && brackets_stack[-1][0] == 'sqbra' call remove(brackets_stack, -1) else let last_closed_bracket = i + 1 endif continue endif let i = JuliaMatch(a:lnum, line, '}', s) if i >= 0 && i == fe let s = i+1 if len(brackets_stack) > 0 && brackets_stack[-1][0] == 'curbra' call remove(brackets_stack, -1) else let last_closed_bracket = i + 1 endif continue endif " Note: it should be impossible to get here break endif " Note: it should be impossible to get here break endwhile let first_open_bracket = -1 let last_open_bracket = -1 let infuncargs = 0 if len(brackets_stack) > 0 let first_open_bracket = brackets_stack[0][1] let last_open_bracket = brackets_stack[-1][1] if brackets_stack[-1][0] == 'par' && IsFunctionArgPar(a:lnum, last_open_bracket+1) let infuncargs = 1 endif endif return [first_open_bracket, last_open_bracket, last_closed_bracket, infuncargs] endfunction let s:bracketBlocks = '\<julia\%(\%(\%(Printf\)\?Par\|SqBra\%(Idx\)\?\|CurBra\)Block\|ParBlockInRange\|StringVars\%(Par\|SqBra\|CurBra\)\|Dollar\%(Par\|SqBra\)\|QuotedParBlockS\?\)\>' function IsInBrackets(lnum, c) let stack = map(synstack(a:lnum, a:c), 'synIDattr(v:val, "name")') call filter(stack, 'v:val =~# s:bracketBlocks') return len(stack) > 0 endfunction function IsInDocString(lnum) let stack = map(synstack(a:lnum, 1), 'synIDattr(v:val, "name")') call filter(stack, 'v:val =~# "\\<juliaDocString\\(Delim\\|M\\\(Raw\\)\\?\\)\\?\\>"') return len(stack) > 0 endfunction function IsInContinuationImportLine(lnum) let stack = map(synstack(a:lnum, 1), 'synIDattr(v:val, "name")') call filter(stack, 'v:val =~# "\\<juliaImportLine\\>"') if len(stack) == 0 return 0 endif return JuliaMatch(a:lnum, getline(a:lnum), '\<\%(import\|using\|export\)\>', indent(a:lnum)) == -1 endfunction function IsFunctionArgPar(lnum, c) if a:c == 0 return 0 endif let stack = map(synstack(a:lnum, a:c-1), 'synIDattr(v:val, "name")') return len(stack) >= 2 && stack[-2] ==# 'juliaFunctionDef' endfunction function JumpToMatch(lnum, last_closed_bracket) " we use the % command to skip back (tries to use matchit if possible, " otherwise resorts to vim's default, which is buggy but better than " nothing) call cursor(a:lnum, a:last_closed_bracket) let percmap = maparg("%", "n") if exists("g:loaded_matchit") && percmap =~# 'Match\%(it\|_wrapper\)' normal % else normal! % end endfunction " Auxiliary function to find a line which does not start in the middle of a " multiline bracketed expression, to be used as reference for block " indentation. function LastBlockIndent(lnum) let lnum = a:lnum let ind = 0 while lnum > 0 let ind = indent(lnum) if ind == 0 return [lnum, 0] endif if !IsInBrackets(lnum, 1) break endif let lnum = prevnonblank(lnum - 1) endwhile return [max([lnum,1]), ind] endfunction function GetJuliaIndent() " Do not alter doctrings indentation if IsInDocString(v:lnum) return -1 endif " Find a non-blank line above the current line. let lnum = prevnonblank(v:lnum - 1) " At the start of the file use zero indent. if lnum == 0 return 0 endif let ind = -1 let st = -1 let lim = -1 " Multiline bracketed expressions take precedence let align_brackets = get(g:, "julia_indent_align_brackets", 1) let align_funcargs = get(g:, "julia_indent_align_funcargs", 0) let c = len(getline(lnum)) + 1 while IsInBrackets(lnum, c) let [first_open_bracket, last_open_bracket, last_closed_bracket, infuncargs] = GetJuliaNestingBrackets(lnum, c) " First scenario: the previous line has a hanging open bracket: " set the indentation to match the opening bracket (plus an extra space) " unless we're in a function arguments list or alignment is disabled, in " which case we just add an extra indent if last_open_bracket != -1 if (!infuncargs && align_brackets) || (infuncargs && align_funcargs) let st = last_open_bracket let ind = virtcol([lnum, st + 1]) else let ind = indent(lnum) + shiftwidth() endif " Second scenario: some multiline bracketed expression was closed in the " previous line. But since we know we are still in a bracketed expression, " we need to find the line where the bracket was opened elseif last_closed_bracket != -1 call JumpToMatch(lnum, last_closed_bracket) if line(".") == lnum " something wrong here, give up let ind = indent(lnum) else let lnum = line(".") let c = col(".") - 1 if c == 0 " uhm, give up let ind = 0 else " we skipped a bracket set, keep searching for an opening bracket let lim = c continue endif endif " Third scenario: nothing special: keep the indentation else let ind = indent(lnum) endif " Does the current line start with a closing bracket? Then depending on " the situation we align it with the opening one, or we let the rest of " the code figure it out (the case in which we're closing a function " argument list is special-cased) if JuliaMatch(v:lnum, getline(v:lnum), '[])}]', indent(v:lnum)) == indent(v:lnum) && ind > 0 if !align_brackets && !align_funcargs call JumpToMatch(v:lnum, indent(v:lnum)) return indent(line(".")) elseif (align_brackets && getline(v:lnum)[indent(v:lnum)] != ')') || align_funcargs return ind - 1 else " must be a ')' and align_brackets==1 and align_funcargs==0 call JumpToMatch(v:lnum, indent(v:lnum)) if IsFunctionArgPar(line("."), col(".")) let ind = -1 else return ind - 1 endif endif endif break endwhile if ind == -1 " We are not in a multiline bracketed expression. Thus we look for a " previous line to use as a reference let [lnum,ind] = LastBlockIndent(lnum) let c = len(getline(lnum)) + 1 if IsInBrackets(lnum, c) let [first_open_bracket, last_open_bracket, last_closed_bracket, infuncargs] = GetJuliaNestingBrackets(lnum, c) let lim = first_open_bracket endif end " Analyse the reference line let [num_open_blocks, num_closed_blocks] = GetJuliaNestingStruct(lnum, st, lim) " Increase indentation for each newly opened block in the reference line let ind += shiftwidth() * num_open_blocks " Analyse the current line let [num_open_blocks, num_closed_blocks] = GetJuliaNestingStruct(v:lnum) " Decrease indentation for each closed block in the current line let ind -= shiftwidth() * num_closed_blocks " Additional special case: multiline import/using/export statements let prevline = getline(lnum) " Are we in a multiline import/using/export statement, right below the " opening line? if IsInContinuationImportLine(v:lnum) && !IsInContinuationImportLine(lnum) if get(g:, 'julia_indent_align_import', 1) " if the opening line has a colon followed by non-comments, use it as " reference point let cind = JuliaMatch(lnum, prevline, ':', indent(lnum), lim) if cind >= 0 let nonwhiteind = JuliaMatch(lnum, prevline, '\S', cind+1, -1, 'basic') if nonwhiteind >= 0 " return match(prevline, '\S', cind+1) " a bit overkill... return cind + 2 endif else " if the opening line is not a naked import/using/export statement, use " it as reference let iind = JuliaMatch(lnum, prevline, '\<import\|using\|export\>', indent(lnum), lim) if iind >= 0 " assuming whitespace after using... so no `using(XYZ)` please! let nonwhiteind = JuliaMatch(lnum, prevline, '\S', iind+6, -1, 'basic') if nonwhiteind >= 0 return match(prevline, '\S', iind+6) endif endif endif endif let ind += shiftwidth() " Or did we just close a multiline import/using/export statement? elseif !IsInContinuationImportLine(v:lnum) && IsInContinuationImportLine(lnum) " find the starting line of the statement let ilnum = 0 for iln in range(lnum-1, 1, -1) if !IsInContinuationImportLine(iln) let ilnum = iln break endif endfor if ilnum == 0 " something went horribly wrong, give up let ind = indent(lnum) endif let ind = indent(ilnum) endif return ind endfunction