1407 lines
47 KiB
VimL
1407 lines
47 KiB
VimL
" EasyMotion - Vim motions on speed!
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"
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" Author: Kim Silkebækken <kim.silkebaekken+vim@gmail.com>
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" haya14busa <hayabusa1419@gmail.com>
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" Source: https://github.com/Lokaltog/vim-easymotion
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" Last Change: 04 Feb 2014.
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"=============================================================================
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" Saving 'cpoptions' {{{
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scriptencoding utf-8
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let s:save_cpo = &cpo
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set cpo&vim
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" }}}
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" Init: {{{
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function! EasyMotion#init()
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call EasyMotion#highlight#init()
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" Store previous motion info
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let s:previous = {}
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" Store previous operator-pending motion info for '.' repeat
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let s:dot_repeat = {}
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" Prepare 1-key Migemo Dictionary
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let s:migemo_dicts = {}
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let s:EasyMotion_is_active = 0
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call EasyMotion#reset()
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" Anywhere regular expression: {{{
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let re = '\v' .
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\ '(<.|^$)' . '|' .
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\ '(.>|^$)' . '|' .
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\ '(\l)\zs(\u)' . '|' .
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\ '(_\zs.)' . '|' .
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\ '(#\zs.)'
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" 1. word
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" 2. end of word
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" 3. CamelCase
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" 4. after '_' hoge_foo
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" 5. after '#' hoge#foo
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let g:EasyMotion_re_anywhere = get(g:, 'EasyMotion_re_anywhere', re)
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" Anywhere regular expression within line:
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let re = '\v' .
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\ '(<.|^$)' . '|' .
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\ '(.>|^$)' . '|' .
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\ '(\l)\zs(\u)' . '|' .
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\ '(_\zs.)' . '|' .
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\ '(#\zs.)'
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let g:EasyMotion_re_line_anywhere = get(g:, 'EasyMotion_re_line_anywhere', re)
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"}}}
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" For other plugin
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let s:EasyMotion_is_cancelled = 0
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" 0 -> Success
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" 1 -> Cancel
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let g:EasyMotion_ignore_exception = 0
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return ""
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endfunction "}}}
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" Reset: {{{
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function! EasyMotion#reset()
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let s:flag = {
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\ 'within_line' : 0,
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\ 'dot_repeat' : 0,
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\ 'regexp' : 0,
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\ 'bd_t' : 0,
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\ 'find_bd' : 0,
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\ }
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" regexp: -> regular expression
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" This value is used when multi input find motion. If this values is
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" 1, input text is treated as regexp.(Default: escaped)
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" bd_t: -> bi-directional 't' motion
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" This value is used to re-define regexp only for bi-directional 't'
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" motion
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" find_bd: -> bi-directional find motion
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" This value is used to recheck the motion is inclusive or exclusive
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" because 'f' & 't' forward find motion is inclusive, but 'F' & 'T'
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" backward find motion is exclusive
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let s:current = {
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\ 'is_operator' : 0,
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\ 'dot_repeat_target_cnt' : 0,
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\ 'dot_prompt_user_cnt' : 0,
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\ 'changedtick' : 0,
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\ }
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" \ 'start_position' : [],
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" \ 'cursor_position' : [],
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" is_operator:
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" Store is_operator value first because mode(1) value will be
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" changed by some operation.
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" dot_* :
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" These values are used when '.' repeat for automatically
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" select marker/label characters.(Using count avoid recursive
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" prompt)
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" changedtick:
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" :h b:changedtick
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" This value is used to avoid side effect of overwriting buffer text
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" which will change b:changedtick value. To overwrite g:repeat_tick
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" value(defined tpope/vim-repeat), I can avoid this side effect of
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" conflicting with tpope/vim-repeat
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" start_position:
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" Original, start cursor position.
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" cursor_position:
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" Usually, this valuse is same with start_position, but in
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" visualmode and 'n' key motion, this value could be different.
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return ""
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endfunction "}}}
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" Motion Functions: {{{
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" -- Find Motion -------------------------
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" Note: {{{
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" num_strokes:
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" The number of input characters. Currently provide 1, 2, or -1.
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" '-1' means no limit.
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" visualmode:
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" Vim script couldn't detect the function is called in visual mode by
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" mode(1), so tell whether it is in visual mode by argument explicitly
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" direction:
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" 0 -> forward
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" 1 -> backward
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" 2 -> bi-direction (handle forward & backward at the same time) }}}
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function! EasyMotion#S(num_strokes, visualmode, direction) " {{{
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if a:direction == 1
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let is_inclusive = 0
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else
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" Note: Handle bi-direction later because 'f' motion is inclusive but
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" 'F' motion is exclusive
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let is_inclusive = mode(1) ==# 'no' ? 1 : 0
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endif
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let s:flag.find_bd = a:direction == 2 ? 1 : 0
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let re = s:findMotion(a:num_strokes, a:direction)
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if s:handleEmpty(re, a:visualmode) | return | endif
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call s:EasyMotion(re, a:direction, a:visualmode ? visualmode() : '', is_inclusive)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#T(num_strokes, visualmode, direction) " {{{
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if a:direction == 1
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let is_inclusive = 0
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else
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" Note: Handle bi-direction later because 't' motion is inclusive but
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" 'T' motion is exclusive
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let is_inclusive = mode(1) ==# 'no' ? 1 : 0
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endif
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let s:flag.find_bd = a:direction == 2 ? 1 : 0
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let re = s:findMotion(a:num_strokes, a:direction)
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if s:handleEmpty(re, a:visualmode) | return | endif
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if a:direction == 2
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let s:flag.bd_t = 1
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elseif a:direction == 1
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let re = '\('.re.'\)\zs.'
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else
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let re = '.\ze\('.re.'\)'
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endif
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call s:EasyMotion(re, a:direction, a:visualmode ? visualmode() : '', is_inclusive)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- Word Motion -------------------------
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function! EasyMotion#WB(visualmode, direction) " {{{
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"FIXME: inconsistent with default vim motion
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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call s:EasyMotion('\(\<.\|^$\)', a:direction, a:visualmode ? visualmode() : '', 0)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#WBW(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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call s:EasyMotion('\(\(^\|\s\)\@<=\S\|^$\)', a:direction, a:visualmode ? visualmode() : '', 0)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#E(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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let is_inclusive = mode(1) ==# 'no' ? 1 : 0
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call s:EasyMotion('\(.\>\|^$\)', a:direction, a:visualmode ? visualmode() : '', is_inclusive)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#EW(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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let is_inclusive = mode(1) ==# 'no' ? 1 : 0
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call s:EasyMotion('\(\S\(\s\|$\)\|^$\)', a:direction, a:visualmode ? visualmode() : '', is_inclusive)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- JK Motion ---------------------------
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function! EasyMotion#JK(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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"FIXME: support exclusive
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if g:EasyMotion_startofline
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call s:EasyMotion('^\(\w\|\s*\zs\|$\)', a:direction, a:visualmode ? visualmode() : '', 0)
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else
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let prev_column = getpos('.')[2] - 1
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call s:EasyMotion('^.\{,' . prev_column . '}\zs\(.\|$\)', a:direction, a:visualmode ? visualmode() : '', 0)
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endif
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#Sol(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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call s:EasyMotion('^\(\w\|\s*\zs\|$\)', a:direction, a:visualmode ? visualmode() : '', '')
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#Eol(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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call s:EasyMotion('\(\w\|\s*\zs\|.\|^\)$', a:direction, a:visualmode ? visualmode() : '', '')
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- Search Motion -----------------------
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function! EasyMotion#Search(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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call s:EasyMotion(@/, a:direction, a:visualmode ? visualmode() : '', 0)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- JumpToAnywhere Motion ---------------
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function! EasyMotion#JumpToAnywhere(visualmode, direction) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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call s:EasyMotion( g:EasyMotion_re_anywhere, a:direction, a:visualmode ? visualmode() : '', 0)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- Line Motion -------------------------
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function! EasyMotion#SL(num_strokes, visualmode, direction) " {{{
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let s:flag.within_line = 1
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call EasyMotion#S(a:num_strokes, a:visualmode, a:direction)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#TL(num_strokes, visualmode, direction) " {{{
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let s:flag.within_line = 1
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call EasyMotion#T(a:num_strokes, a:visualmode, a:direction)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#WBL(visualmode, direction) " {{{
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let s:flag.within_line = 1
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call EasyMotion#WB(a:visualmode, a:direction)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#EL(visualmode, direction) " {{{
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let s:flag.within_line = 1
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call EasyMotion#E(a:visualmode, a:direction)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#LineAnywhere(visualmode, direction) " {{{
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let s:flag.within_line = 1
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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let re = g:EasyMotion_re_line_anywhere
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call s:EasyMotion(re, a:direction, a:visualmode ? visualmode() : '', 0)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- User Motion -------------------------
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function! EasyMotion#User(pattern, visualmode, direction, inclusive) " {{{
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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let is_inclusive = mode(1) ==# 'no' ? a:inclusive : 0
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let re = a:pattern
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call s:EasyMotion(re, a:direction, a:visualmode ? visualmode() : '', is_inclusive)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" -- Repeat Motion -----------------------
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function! EasyMotion#Repeat(visualmode) " {{{
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" Repeat previous motion with previous targets
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if s:previous ==# {}
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call s:Message("Previous targets doesn't exist")
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let s:EasyMotion_is_cancelled = 1
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return s:EasyMotion_is_cancelled
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endif
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let re = s:previous.regexp
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let direction = s:previous.direction
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let s:flag.within_line = s:previous.line_flag
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let s:flag.bd_t = s:previous.bd_t_flag
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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" FIXME: is_inclusive value is inappropriate but handling this value is
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" difficult and priorities is low because this motion maybe used usually
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" as a 'normal' motion.
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let is_inclusive = mode(1) ==# 'no' ? 1 : 0
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call s:EasyMotion(re, direction, a:visualmode ? visualmode() : '', is_inclusive)
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#DotRepeat(visualmode) " {{{
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" Repeat previous '.' motion with previous targets and operator
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if s:dot_repeat ==# {}
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call s:Message("Previous motion doesn't exist")
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let s:EasyMotion_is_cancelled = 1
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return s:EasyMotion_is_cancelled
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endif
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let re = s:dot_repeat.regexp
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let direction = s:dot_repeat.direction
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let is_inclusive = s:dot_repeat.is_inclusive
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let s:flag.within_line = s:dot_repeat.line_flag
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let s:flag.bd_t = s:dot_repeat.bd_t_flag
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let s:current.is_operator = 1
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for cnt in range(v:count1)
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let s:flag.dot_repeat = 1 " s:EasyMotion() always call reset
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silent call s:EasyMotion(re, direction, 0, is_inclusive)
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endfor
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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function! EasyMotion#NextPrevious(visualmode, direction) " {{{
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" Move next/previous destination using previous motion regexp
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if s:previous ==# {}
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call s:Message("Previous targets doesn't exist")
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let s:EasyMotion_is_cancelled = 1
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return s:EasyMotion_is_cancelled
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endif
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let re = s:previous.regexp
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let search_direction = (a:direction >= 1 ? 'b' : '')
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if g:EasyMotion_move_highlight
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call EasyMotion#highlight#attach_autocmd()
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call EasyMotion#highlight#add_highlight(re, g:EasyMotion_hl_move)
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endif
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if ! empty(a:visualmode)
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" FIXME: blink highlight
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silent exec 'normal! gv'
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endif
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for i in range(v:count1)
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" Do not treat this motion as 'jump' motion
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keepjumps call searchpos(re, search_direction)
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endfor
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call EasyMotion#reset()
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" -- Activate EasyMotion ----------------- {{{
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let s:EasyMotion_is_active = 1
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call EasyMotion#attach_active_autocmd() "}}}
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return s:EasyMotion_is_cancelled
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endfunction " }}}
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" }}}
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" Helper Functions: {{{
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" -- Message -----------------------------
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function! s:Message(message) " {{{
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echo 'EasyMotion: ' . a:message
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endfunction " }}}
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function! s:Prompt(message) " {{{
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echohl Question
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echo a:message . ': '
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echohl None
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endfunction " }}}
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" -- Save & Restore values ---------------
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function! s:VarReset(var, ...) " {{{
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if ! exists('s:var_reset')
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let s:var_reset = {}
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endif
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if a:0 == 0 && has_key(s:var_reset, a:var)
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" Reset var to original value
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" setbufbar( or bufname): '' or '%' can be used for the current buffer
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call setbufvar("", a:var, s:var_reset[a:var])
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elseif a:0 == 1
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" Save original value and set new var value
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let new_value = a:0 == 1 ? a:1 : ''
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" Store original value
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let s:var_reset[a:var] = getbufvar("", a:var)
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" Set new var value
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call setbufvar("", a:var, new_value)
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endif
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endfunction " }}}
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function! s:SaveValue() "{{{
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call s:VarReset('&scrolloff', 0)
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call s:VarReset('&modified', 0)
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call s:VarReset('&modifiable', 1)
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call s:VarReset('&readonly', 0)
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call s:VarReset('&spell', 0)
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call s:VarReset('&virtualedit', '')
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call s:VarReset('&foldmethod', 'manual')
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endfunction "}}}
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function! s:RestoreValue() "{{{
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call s:VarReset('&scrolloff')
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call s:VarReset('&modified')
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call s:VarReset('&modifiable')
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call s:VarReset('&readonly')
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call s:VarReset('&spell')
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call s:VarReset('&virtualedit')
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call s:VarReset('&foldmethod')
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endfunction "}}}
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" -- Draw --------------------------------
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function! s:SetLines(lines, key) " {{{
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for [line_num, line] in a:lines
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call setline(line_num, line[a:key])
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endfor
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endfunction " }}}
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" -- Get characters from user input ------
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function! s:GetChar() " {{{
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let char = getchar()
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if char == 27
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" Escape key pressed
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redraw
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call s:Message('Cancelled')
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return ''
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endif
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return nr2char(char)
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endfunction " }}}
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" -- Find Motion Helper ------------------
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function! s:findMotion(num_strokes, direction) "{{{
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" Find Motion: S,F,T
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let s:current.is_operator = mode(1) ==# 'no' ? 1: 0
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" store cursor pos because 'n' key find motion could be jump to offscreen
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let s:current.original_position = [line('.'), col('.')]
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let s:flag.regexp = a:num_strokes == -1 ? 1 : 0
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if g:EasyMotion_add_search_history && a:num_strokes == -1
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let s:previous['input'] = @/
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else
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let s:previous['input'] = get(s:previous, 'input', '')
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endif
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let input = EasyMotion#command_line#GetInput(
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\ a:num_strokes, s:previous.input, a:direction)
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let s:previous['input'] = input
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" Check that we have an input char
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if empty(input)
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return ''
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endif
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let re = s:convertRegep(input)
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if g:EasyMotion_add_search_history && a:num_strokes == -1
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let @/ = re "For textobject: 'gn'
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call histadd('search',
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\ substitute(re, '\\c\|\\C', '', ''))
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endif
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return re
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endfunction "}}}
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function! s:convertRegep(input) "{{{
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" 1. regexp
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" 2. migemo
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" 3. smartsign
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" 4. smartcase
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let re = s:should_use_regexp() ? a:input : escape(a:input, '.$^~\[]')
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||
" Convert space to match only start of spaces
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if re ==# ' '
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let re = '\s\+'
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endif
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||
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if s:should_use_migemo(a:input)
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let re = s:convertMigemo(re)
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endif
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if s:should_use_smartsign(a:input)
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let re = s:convertSmartsign(re, a:input)
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endif
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let case_flag = EasyMotion#helper#should_use_smartcase(a:input) ? '\c' : '\C'
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let re = case_flag . re
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return re
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endfunction "}}}
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function! s:convertMigemo(re) "{{{
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let re = a:re
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if len(re) > 1
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||
" System cmigemo
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return EasyMotion#cmigemo#getMigemoPattern(re)
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endif
|
||
|
||
" EasyMotion migemo one key dict
|
||
if ! has_key(s:migemo_dicts, &l:encoding)
|
||
let s:migemo_dicts[&l:encoding] = EasyMotion#helper#load_migemo_dict()
|
||
endif
|
||
if re =~# '^\a$'
|
||
let re = get(s:migemo_dicts[&l:encoding], re, a:re)
|
||
endif
|
||
return re
|
||
endfunction "}}}
|
||
function! s:convertSmartsign(re, char) "{{{
|
||
let smart_dict = s:load_smart_dict()
|
||
let upper_sign = escape(get(smart_dict, a:char, ''), '.$^~')
|
||
if upper_sign ==# ''
|
||
return a:re
|
||
else
|
||
let re = a:re . '\|' . upper_sign
|
||
return re
|
||
endif
|
||
endfunction "}}}
|
||
function! s:convertSmartcase(re, char) "{{{
|
||
let re = a:re
|
||
if a:char =~# '\U' "nonuppercase
|
||
return '\c' . re
|
||
else "uppercase
|
||
return '\C' . re
|
||
endif
|
||
endfunction "}}}
|
||
function! s:should_use_regexp() "{{{
|
||
return g:EasyMotion_use_regexp == 1 && s:flag.regexp == 1
|
||
endfunction "}}}
|
||
function! s:should_use_migemo(char) "{{{
|
||
if ! g:EasyMotion_use_migemo || match(a:char, '\A') != -1
|
||
return 0
|
||
endif
|
||
|
||
" TODO: use direction to improve
|
||
if s:flag.within_line == 1
|
||
let first_line = line('.')
|
||
let end_line = line('.')
|
||
else
|
||
let first_line = line('w0')
|
||
let end_line = line('w$')
|
||
endif
|
||
|
||
|
||
" Skip folded line and check if text include multibyte haracters
|
||
for line in range(first_line, end_line)
|
||
if EasyMotion#helper#is_folded(line)
|
||
continue
|
||
endif
|
||
|
||
if EasyMotion#helper#include_multibyte_char(getline(line)) == 1
|
||
return 1
|
||
endif
|
||
endfor
|
||
|
||
return 0
|
||
endfunction "}}}
|
||
function! s:should_use_smartsign(char) "{{{
|
||
if (exists('g:EasyMotion_use_smartsign_us') ||
|
||
\ exists('g:EasyMotion_use_smartsign_jp')) &&
|
||
\ match(a:char, '\A') != -1
|
||
return 1
|
||
else
|
||
return 0
|
||
endif
|
||
endfunction "}}}
|
||
function! s:should_use_smartcase(input) "{{{
|
||
if g:EasyMotion_smartcase == 0
|
||
return 0
|
||
endif
|
||
" return 1 if input didn't match uppercase letter
|
||
return match(a:input, '\u') == -1
|
||
endfunction "}}}
|
||
function! s:handleEmpty(input, visualmode) "{{{
|
||
" if empty, reselect and return 1
|
||
if empty(a:input)
|
||
if ! empty(a:visualmode)
|
||
silent exec 'normal! gv'
|
||
endif
|
||
let s:EasyMotion_is_cancelled = 1 " Cancel
|
||
return 1
|
||
endif
|
||
return 0
|
||
endfunction "}}}
|
||
function! s:load_smart_dict() "{{{
|
||
if exists('g:EasyMotion_use_smartsign_us')
|
||
return g:EasyMotion#sticky_table#us
|
||
elseif exists('g:EasyMotion_use_smartsign_jp')
|
||
return g:EasyMotion#sticky_table#jp
|
||
else
|
||
return {}
|
||
endif
|
||
endfunction "}}}
|
||
" -- Handle Visual Mode ------------------
|
||
function! s:GetVisualStartPosition(c_pos, v_start, v_end, search_direction) "{{{
|
||
let vmode = mode(1)
|
||
if match('Vv',vmode) < 0
|
||
throw 'Unkown visual mode:'.vmode
|
||
endif
|
||
|
||
if vmode ==# 'V' "line-wise Visual
|
||
" Line-wise Visual {{{
|
||
if a:v_start[0] == a:v_end[0]
|
||
if a:search_direction == ''
|
||
return a:v_start
|
||
elseif a:search_direction == 'b'
|
||
return a:v_end
|
||
else
|
||
throw 'Unkown search_direction'
|
||
endif
|
||
else
|
||
if a:c_pos[0] == a:v_start[0]
|
||
return a:v_end
|
||
elseif a:c_pos[0] == a:v_end[0]
|
||
return a:v_start
|
||
endif
|
||
endif
|
||
"}}}
|
||
else
|
||
" Character-wise or Block-wise Visual"{{{
|
||
if a:c_pos == a:v_start
|
||
return a:v_end
|
||
elseif a:c_pos == a:v_end
|
||
return a:v_start
|
||
endif
|
||
|
||
" virtualedit
|
||
if a:c_pos[0] == a:v_start[0]
|
||
return a:v_end
|
||
elseif a:c_pos[0] == a:v_end[0]
|
||
return a:v_start
|
||
elseif EasyMotion#helper#is_greater_coords(a:c_pos, a:v_start) == 1
|
||
return a:v_end
|
||
else
|
||
return a:v_start
|
||
endif
|
||
"}}}
|
||
endif
|
||
endfunction "}}}
|
||
" -- Others ------------------------------
|
||
function! s:is_cmdwin() "{{{
|
||
return bufname('%') ==# '[Command Line]'
|
||
endfunction "}}}
|
||
function! s:should_use_wundo() "{{{
|
||
" wundu cannot use in command-line window and
|
||
" unless undolist is not empty
|
||
return ! s:is_cmdwin() && undotree().seq_last != 0
|
||
endfunction "}}}
|
||
function! EasyMotion#attach_active_autocmd() "{{{
|
||
" Reference: https://github.com/justinmk/vim-sneak
|
||
augroup plugin-easymotion-active
|
||
autocmd!
|
||
autocmd InsertEnter,WinLeave,BufLeave <buffer>
|
||
\ let s:EasyMotion_is_active = 0
|
||
\ | autocmd! plugin-easymotion-active * <buffer>
|
||
autocmd CursorMoved <buffer>
|
||
\ autocmd plugin-easymotion-active CursorMoved <buffer>
|
||
\ let s:EasyMotion_is_active = 0
|
||
\ | autocmd! plugin-easymotion-active * <buffer>
|
||
augroup END
|
||
endfunction "}}}
|
||
function! EasyMotion#is_active() "{{{
|
||
return s:EasyMotion_is_active
|
||
endfunction "}}}
|
||
function! EasyMotion#activate(is_visual) "{{{
|
||
let s:EasyMotion_is_active = 1
|
||
call EasyMotion#attach_active_autocmd()
|
||
call EasyMotion#highlight#add_highlight(s:previous.regexp,
|
||
\ g:EasyMotion_hl_move)
|
||
call EasyMotion#highlight#attach_autocmd()
|
||
if a:is_visual == 1
|
||
normal! gv
|
||
endif
|
||
endfunction "}}}
|
||
"}}}
|
||
" Grouping Algorithms: {{{
|
||
let s:grouping_algorithms = {
|
||
\ 1: 'SCTree'
|
||
\ , 2: 'Original'
|
||
\ }
|
||
" -- Single-key/closest target priority tree {{{
|
||
" This algorithm tries to assign one-key jumps to all the targets closest to the cursor.
|
||
" It works recursively and will work correctly with as few keys as two.
|
||
function! s:GroupingAlgorithmSCTree(targets, keys) "{{{
|
||
" Prepare variables for working
|
||
let targets_len = len(a:targets)
|
||
let keys_len = len(a:keys)
|
||
|
||
let groups = {}
|
||
|
||
let keys = reverse(copy(a:keys))
|
||
|
||
" Semi-recursively count targets {{{
|
||
" We need to know exactly how many child nodes (targets) this branch will have
|
||
" in order to pass the correct amount of targets to the recursive function.
|
||
|
||
" Prepare sorted target count list {{{
|
||
" This is horrible, I know. But dicts aren't sorted in vim, so we need to
|
||
" work around that. That is done by having one sorted list with key counts,
|
||
" and a dict which connects the key with the keys_count list.
|
||
|
||
let keys_count = []
|
||
let keys_count_keys = {}
|
||
|
||
let i = 0
|
||
for key in keys
|
||
call add(keys_count, 0)
|
||
|
||
let keys_count_keys[key] = i
|
||
|
||
let i += 1
|
||
endfor
|
||
" }}}
|
||
|
||
let targets_left = targets_len
|
||
let level = 0
|
||
let i = 0
|
||
|
||
while targets_left > 0
|
||
" Calculate the amount of child nodes based on the current level
|
||
let childs_len = (level == 0 ? 1 : (keys_len - 1) )
|
||
|
||
for key in keys
|
||
" Add child node count to the keys_count array
|
||
let keys_count[keys_count_keys[key]] += childs_len
|
||
|
||
" Subtract the child node count
|
||
let targets_left -= childs_len
|
||
|
||
if targets_left <= 0
|
||
" Subtract the targets left if we added too many too
|
||
" many child nodes to the key count
|
||
let keys_count[keys_count_keys[key]] += targets_left
|
||
|
||
break
|
||
endif
|
||
|
||
let i += 1
|
||
endfor
|
||
|
||
let level += 1
|
||
endwhile
|
||
" }}}
|
||
" Create group tree {{{
|
||
let i = 0
|
||
let key = 0
|
||
|
||
call reverse(keys_count)
|
||
|
||
for key_count in keys_count
|
||
if key_count > 1
|
||
" We need to create a subgroup
|
||
" Recurse one level deeper
|
||
let groups[a:keys[key]] = s:GroupingAlgorithmSCTree(a:targets[i : i + key_count - 1], a:keys)
|
||
elseif key_count == 1
|
||
" Assign single target key
|
||
let groups[a:keys[key]] = a:targets[i]
|
||
else
|
||
" No target
|
||
continue
|
||
endif
|
||
|
||
let key += 1
|
||
let i += key_count
|
||
endfor
|
||
" }}}
|
||
|
||
" Finally!
|
||
return groups
|
||
endfunction "}}}
|
||
" }}}
|
||
" -- Original ---------------------------- {{{
|
||
function! s:GroupingAlgorithmOriginal(targets, keys)
|
||
" Split targets into groups (1 level)
|
||
let targets_len = len(a:targets)
|
||
let keys_len = len(a:keys)
|
||
|
||
let groups = {}
|
||
|
||
let i = 0
|
||
let root_group = 0
|
||
try
|
||
while root_group < targets_len
|
||
let groups[a:keys[root_group]] = {}
|
||
|
||
for key in a:keys
|
||
let groups[a:keys[root_group]][key] = a:targets[i]
|
||
|
||
let i += 1
|
||
endfor
|
||
|
||
let root_group += 1
|
||
endwhile
|
||
catch | endtry
|
||
|
||
" Flatten the group array
|
||
if len(groups) == 1
|
||
let groups = groups[a:keys[0]]
|
||
endif
|
||
|
||
return groups
|
||
endfunction
|
||
" }}}
|
||
|
||
" -- Coord/key dictionary creation ------- {{{
|
||
function! s:CreateCoordKeyDict(groups, ...)
|
||
" Dict structure:
|
||
" 1,2 : a
|
||
" 2,3 : b
|
||
let sort_list = []
|
||
let coord_keys = {}
|
||
let group_key = a:0 == 1 ? a:1 : ''
|
||
|
||
for [key, item] in items(a:groups)
|
||
let key = group_key . key
|
||
"let key = ( ! empty(group_key) ? group_key : key)
|
||
|
||
if type(item) == 3 " List
|
||
" Destination coords
|
||
|
||
" The key needs to be zero-padded in order to
|
||
" sort correctly
|
||
let dict_key = printf('%05d,%05d', item[0], item[1])
|
||
let coord_keys[dict_key] = key
|
||
|
||
" We need a sorting list to loop correctly in
|
||
" PromptUser, dicts are unsorted
|
||
call add(sort_list, dict_key)
|
||
else
|
||
" Item is a dict (has children)
|
||
let coord_key_dict = s:CreateCoordKeyDict(item, key)
|
||
|
||
" Make sure to extend both the sort list and the
|
||
" coord key dict
|
||
call extend(sort_list, coord_key_dict[0])
|
||
call extend(coord_keys, coord_key_dict[1])
|
||
endif
|
||
|
||
unlet item
|
||
endfor
|
||
|
||
return [sort_list, coord_keys]
|
||
endfunction
|
||
" }}}
|
||
" }}}
|
||
" Core Functions: {{{
|
||
function! s:PromptUser(groups) "{{{
|
||
" Recursive
|
||
let group_values = values(a:groups)
|
||
|
||
" -- If only one possible match, jump directly to it {{{
|
||
if len(group_values) == 1
|
||
if mode(1) ==# 'no'
|
||
" Consider jump to first match
|
||
let s:dot_repeat['target'] = g:EasyMotion_keys[0]
|
||
endif
|
||
redraw
|
||
return group_values[0]
|
||
endif
|
||
" }}}
|
||
" -- Prepare marker lines ---------------- {{{
|
||
let lines = {}
|
||
let hl_coords = []
|
||
let hl2_first_coords = [] " Highlight for two characters
|
||
let hl2_second_coords = [] " Highlight for two characters
|
||
|
||
let coord_key_dict = s:CreateCoordKeyDict(a:groups)
|
||
|
||
for dict_key in sort(coord_key_dict[0])
|
||
let target_key = coord_key_dict[1][dict_key]
|
||
let [line_num, col_num] = split(dict_key, ',')
|
||
|
||
let line_num = str2nr(line_num)
|
||
let col_num = str2nr(col_num)
|
||
|
||
" Add original line and marker line
|
||
if ! has_key(lines, line_num)
|
||
let current_line = getline(line_num)
|
||
let lines[line_num] = {
|
||
\ 'orig': current_line,
|
||
\ 'marker': current_line,
|
||
\ 'mb_compensation': 0,
|
||
\ }
|
||
endif
|
||
|
||
" Solve multibyte issues by matching the byte column
|
||
" number instead of the visual column
|
||
let col_num -= lines[line_num]['mb_compensation']
|
||
|
||
" Compensate for byte difference between marker
|
||
" character and target character
|
||
"
|
||
" This has to be done in order to match the correct
|
||
" column; \%c matches the byte column and not display
|
||
" column.
|
||
let target_char_len = strdisplaywidth(
|
||
\ matchstr(lines[line_num]['marker'],
|
||
\ '\%' . col_num . 'c.'))
|
||
let target_key_len = strdisplaywidth(target_key)
|
||
|
||
|
||
let target_line_byte_len = strlen(lines[line_num]['marker'])
|
||
|
||
let target_char_byte_len = strlen(matchstr(
|
||
\ lines[line_num]['marker'],
|
||
\ '\%' . col_num . 'c.'))
|
||
|
||
if strlen(lines[line_num]['marker']) > 0
|
||
" Substitute marker character if line length > 0
|
||
let c = 0
|
||
while c < target_key_len && c < 2
|
||
if strlen(lines[line_num]['marker']) >= col_num + c
|
||
" Substitute marker character if line length > 0
|
||
if c == 0
|
||
let lines[line_num]['marker'] = substitute(
|
||
\ lines[line_num]['marker'],
|
||
\ '\%' . (col_num + c) . 'c.',
|
||
\ strpart(target_key, c, 1) . repeat(' ', target_char_len - 1),
|
||
\ '')
|
||
else
|
||
let lines[line_num]['marker'] = substitute(
|
||
\ lines[line_num]['marker'],
|
||
\ '\%' . (col_num + c) . 'c.',
|
||
\ strpart(target_key, c, 1),
|
||
\ '')
|
||
endif
|
||
else
|
||
let lines[line_num]['marker'] .= strpart(target_key, c, 1)
|
||
endif
|
||
let c += 1
|
||
endwhile
|
||
else
|
||
" Set the line to the marker character if the line is empty
|
||
let lines[line_num]['marker'] = target_key
|
||
endif
|
||
|
||
" Add highlighting coordinates
|
||
if target_key_len == 1
|
||
call add(hl_coords, '\%' . line_num . 'l\%' . col_num . 'c')
|
||
else
|
||
call add(hl2_first_coords,
|
||
\ '\%' . line_num . 'l\%' . col_num . 'c')
|
||
call add(hl2_second_coords,
|
||
\ '\%' . line_num . 'l\%' . (col_num + 1) . 'c')
|
||
endif
|
||
|
||
" Add marker/target length difference for multibyte
|
||
" compensation
|
||
let lines[line_num]['mb_compensation'] +=
|
||
\ (target_line_byte_len - strlen(lines[line_num]['marker']))
|
||
endfor
|
||
|
||
let lines_items = items(lines)
|
||
" }}}
|
||
" -- Highlight targets ------------------- {{{
|
||
if len(hl_coords) > 0
|
||
let hl_coords_re = '\%(' . join(hl_coords, '\|') . '\)'
|
||
call EasyMotion#highlight#add_highlight(
|
||
\ hl_coords_re, g:EasyMotion_hl_group_target)
|
||
endif
|
||
if len(hl2_first_coords) > 0
|
||
let hl2_first_coords_re = '\%(' . join(hl2_first_coords, '\|') . '\)'
|
||
call EasyMotion#highlight#add_highlight(
|
||
\ hl2_first_coords_re, g:EasyMotion_hl2_first_group_target)
|
||
endif
|
||
if len(hl2_second_coords) > 0
|
||
let hl2_second_coords_re = '\%(' . join(hl2_second_coords, '\|') . '\)'
|
||
call EasyMotion#highlight#add_highlight(
|
||
\ hl2_second_coords_re, g:EasyMotion_hl2_second_group_target)
|
||
endif
|
||
" }}}
|
||
|
||
" -- Put labels on targets & Get User Input & Restore all {{{
|
||
" Save undo tree {{{
|
||
let s:undo_file = tempname()
|
||
if s:should_use_wundo()
|
||
execute "wundo" s:undo_file
|
||
endif
|
||
"}}}
|
||
try
|
||
" Set lines with markers {{{
|
||
call s:SetLines(lines_items, 'marker')
|
||
redraw "}}}
|
||
|
||
" Get target character {{{
|
||
call s:Prompt('Target key')
|
||
let char = s:GetChar()
|
||
"}}}
|
||
|
||
" Convert uppercase {{{
|
||
if g:EasyMotion_use_upper == 1 && match(g:EasyMotion_keys, '\l') == -1
|
||
let char = toupper(char)
|
||
endif "}}}
|
||
|
||
" Jump first target when Enter key is pressed "{{{
|
||
if char ==# "\<CR>" && g:EasyMotion_enter_jump_first == 1
|
||
let char = g:EasyMotion_keys[0]
|
||
endif "}}}
|
||
|
||
" For dot repeat {{{
|
||
if mode(1) ==# 'no'
|
||
" Store previous target when operator pending mode
|
||
if s:current.dot_prompt_user_cnt == 0
|
||
" Store
|
||
let s:dot_repeat['target'] = char
|
||
else
|
||
" Append target chars
|
||
let s:dot_repeat['target'] .= char
|
||
endif
|
||
endif "}}}
|
||
|
||
finally
|
||
" Restore original lines
|
||
call s:SetLines(lines_items, 'orig')
|
||
|
||
" Un-highlight targets {{{
|
||
call EasyMotion#highlight#delete_highlight(
|
||
\ g:EasyMotion_hl_group_target,
|
||
\ g:EasyMotion_hl2_first_group_target,
|
||
\ g:EasyMotion_hl2_second_group_target,
|
||
\ )
|
||
" }}}
|
||
|
||
" Restore undo tree {{{
|
||
if s:should_use_wundo() && filereadable(s:undo_file)
|
||
silent execute "rundo" s:undo_file
|
||
unlet s:undo_file
|
||
else
|
||
" Break undo history (undobreak)
|
||
let old_undolevels = &undolevels
|
||
set undolevels=-1
|
||
call setline('.', getline('.'))
|
||
let &undolevels = old_undolevels
|
||
unlet old_undolevels
|
||
" FIXME: Error occur by GundoToggle for undo number 2 is empty
|
||
call setline('.', getline('.'))
|
||
endif "}}}
|
||
|
||
redraw
|
||
endtry "}}}
|
||
|
||
" -- Check if we have an input char ------ {{{
|
||
if empty(char)
|
||
throw 'Cancelled'
|
||
endif
|
||
" }}}
|
||
" -- Check if the input char is valid ---- {{{
|
||
if ! has_key(a:groups, char)
|
||
throw 'Invalid target'
|
||
endif
|
||
" }}}
|
||
|
||
let target = a:groups[char]
|
||
|
||
if type(target) == 3
|
||
" Return target coordinates
|
||
return target
|
||
else
|
||
" Prompt for new target character
|
||
let s:current.dot_prompt_user_cnt += 1
|
||
return s:PromptUser(target)
|
||
endif
|
||
endfunction "}}}
|
||
function! s:DotPromptUser(groups) "{{{
|
||
" Get char from previous target
|
||
let char = s:dot_repeat.target[s:current.dot_repeat_target_cnt]
|
||
" For dot repeat target chars
|
||
let s:current.dot_repeat_target_cnt += 1
|
||
|
||
let target = a:groups[char]
|
||
|
||
if type(target) == 3
|
||
" Return target coordinates
|
||
return target
|
||
else
|
||
" Prompt for new target character
|
||
return s:PromptUser(target)
|
||
endif
|
||
endfunction "}}}
|
||
function! s:EasyMotion(regexp, direction, visualmode, is_inclusive) " {{{
|
||
" Store s:current original_position & cursor_position {{{
|
||
" current cursor pos.
|
||
let s:current.cursor_position = [line('.'), col('.')]
|
||
" original start position. This value could be changed later in visual
|
||
" mode
|
||
let s:current.original_position =
|
||
\ get(s:current, 'original_position', s:current.cursor_position)
|
||
"}}}
|
||
|
||
let win_first_line = line('w0') " visible first line num
|
||
let win_last_line = line('w$') " visible last line num
|
||
|
||
let targets = []
|
||
|
||
" Store info for Repeat motion {{{
|
||
if s:flag.dot_repeat != 1
|
||
" Store Regular Expression
|
||
let s:previous['regexp'] = a:regexp
|
||
let s:previous['direction'] = a:direction
|
||
let s:previous['operator'] = v:operator
|
||
|
||
" Note: 'is_inclusive' value could be changed later when
|
||
" bi-directional find motion depend on 'true' direction the cursor
|
||
" will move.
|
||
let s:previous['is_inclusive'] = a:is_inclusive
|
||
|
||
" For special motion flag
|
||
let s:previous['line_flag'] = s:flag.within_line
|
||
let s:previous['bd_t_flag'] = s:flag.bd_t " bi-directional t motion
|
||
endif "}}}
|
||
|
||
" To avoid side effect of overwriting buffer for tpope/repeat
|
||
" store current b:changedtick. Use this value later
|
||
let s:current.changedtick = b:changedtick
|
||
|
||
try
|
||
" -- Reset properties -------------------- {{{
|
||
" Save original value and set new value
|
||
call s:SaveValue()
|
||
" }}}
|
||
" Setup searchpos args {{{
|
||
let search_direction = (a:direction >= 1 ? 'b' : '')
|
||
let search_stopline = a:direction >= 1 ? win_first_line : win_last_line
|
||
|
||
if s:flag.within_line == 1
|
||
let search_stopline = s:current.original_position[0]
|
||
endif
|
||
"}}}
|
||
|
||
" Handle visual mode {{{
|
||
if ! empty(a:visualmode)
|
||
" Decide at where visual mode start {{{
|
||
normal! gv
|
||
let v_start = [line("'<"),col("'<")] " visual_start_position
|
||
let v_end = [line("'>"),col("'>")] " visual_end_position
|
||
|
||
let v_original_pos = s:GetVisualStartPosition(
|
||
\ s:current.cursor_position, v_start, v_end, search_direction)
|
||
"}}}
|
||
|
||
" Reselect visual text {{{
|
||
keepjumps call cursor(v_original_pos)
|
||
exec "normal! " . a:visualmode
|
||
keepjumps call cursor(s:current.cursor_position)
|
||
"}}}
|
||
" Update s:current.original_position
|
||
let s:current.original_position = v_original_pos " overwrite original start positio
|
||
endif "}}}
|
||
|
||
" Handle bi-directional t motion {{{
|
||
if s:flag.bd_t == 1
|
||
let regexp = '\('.a:regexp.'\)\zs.'
|
||
else
|
||
let regexp = a:regexp
|
||
endif
|
||
"}}}
|
||
|
||
" Construct match dict {{{
|
||
while 1
|
||
" Note: searchpos() has side effect which jump cursor position.
|
||
" You can disable this side effect by add 'n' flags,
|
||
" but in this case, it's better to allows jump side effect
|
||
" to gathering matched targets coordinates.
|
||
let pos = searchpos(regexp, search_direction, search_stopline)
|
||
|
||
" Reached end of search range
|
||
if pos == [0, 0]
|
||
break
|
||
endif
|
||
|
||
" Skip folded lines {{{
|
||
if EasyMotion#helper#is_folded(pos[0])
|
||
if search_direction ==# 'b'
|
||
keepjumps call cursor(foldclosed(pos[0]-1), 0)
|
||
else
|
||
keepjumps call cursor(foldclosedend(pos[0]+1), 0)
|
||
endif
|
||
continue
|
||
endif "}}}
|
||
|
||
call add(targets, pos)
|
||
endwhile
|
||
"}}}
|
||
|
||
" Handle bidirection "{{{
|
||
" For bi-directional t motion {{{
|
||
if s:flag.bd_t == 1
|
||
let regexp = '.\ze\('.a:regexp.'\)'
|
||
endif
|
||
"}}}
|
||
" Reconstruct match dict
|
||
if a:direction == 2
|
||
" Forward
|
||
|
||
" Jump back cursor_position
|
||
keepjumps call cursor(s:current.cursor_position[0],
|
||
\ s:current.cursor_position[1])
|
||
|
||
let targets2 = []
|
||
if s:flag.within_line == 0
|
||
let search_stopline = win_last_line
|
||
else
|
||
let search_stopline = s:current.cursor_position[0]
|
||
endif
|
||
while 1
|
||
" TODO: refactoring
|
||
let pos = searchpos(regexp, '', search_stopline)
|
||
" Reached end of search range
|
||
if pos == [0, 0]
|
||
break
|
||
endif
|
||
|
||
" Skip folded lines {{{
|
||
if EasyMotion#helper#is_folded(pos[0])
|
||
" Always forward
|
||
keepjumps call cursor(foldclosedend(pos[0]+1), 0)
|
||
continue
|
||
endif
|
||
"}}}
|
||
|
||
call add(targets2, pos)
|
||
endwhile
|
||
" Merge match target dict"{{{
|
||
let t1 = 0 " backward
|
||
let t2 = 0 " forward
|
||
let targets3 = []
|
||
while t1 < len(targets) || t2 < len(targets2)
|
||
" Forward -> Backward -> F -> B -> ...
|
||
if t2 < len(targets2)
|
||
call add(targets3, targets2[t2])
|
||
let t2 += 1
|
||
endif
|
||
if t1 < len(targets)
|
||
call add(targets3, targets[t1])
|
||
let t1 += 1
|
||
endif
|
||
endwhile
|
||
let targets = targets3
|
||
"}}}
|
||
endif
|
||
"}}}
|
||
" Handle no match"{{{
|
||
let targets_len = len(targets)
|
||
if targets_len == 0
|
||
throw 'No matches'
|
||
endif
|
||
"}}}
|
||
|
||
" Attach specific key as marker to gathered matched coordinates
|
||
let GroupingFn = function('s:GroupingAlgorithm' . s:grouping_algorithms[g:EasyMotion_grouping])
|
||
let groups = GroupingFn(targets, split(g:EasyMotion_keys, '\zs'))
|
||
|
||
" -- Shade inactive source --------------- {{{
|
||
if g:EasyMotion_do_shade && targets_len != 1 && s:flag.dot_repeat != 1
|
||
if a:direction == 1
|
||
" Backward
|
||
let shade_hl_re = '\%'. win_first_line .'l\_.*\%#'
|
||
elseif a:direction == 0
|
||
" Forward
|
||
let shade_hl_re = '\%#\_.*\%'. win_last_line .'l'
|
||
elseif a:direction == 2
|
||
" Both directions"
|
||
let shade_hl_re = '\_.*'
|
||
endif
|
||
|
||
call EasyMotion#highlight#add_highlight(
|
||
\ shade_hl_re, g:EasyMotion_hl_group_shade)
|
||
if g:EasyMotion_cursor_highlight
|
||
let cursor_hl_re = '\%#'
|
||
call EasyMotion#highlight#add_highlight(cursor_hl_re,
|
||
\ g:EasyMotion_hl_inc_cursor)
|
||
endif
|
||
endif
|
||
" }}}
|
||
|
||
" -- Jump back before prompt for visual scroll {{{
|
||
" Because searchpos() change current cursor position and
|
||
" if you just use cursor(s:current.cursor_position) to jump back,
|
||
" current line will become middle of line window
|
||
if ! empty(a:visualmode)
|
||
keepjumps call cursor(win_first_line,0)
|
||
normal! zt
|
||
else
|
||
" for adjusting cursorline
|
||
keepjumps call cursor(s:current.cursor_position)
|
||
endif
|
||
"}}}
|
||
|
||
" -- Prompt user for target group/character {{{
|
||
if s:flag.dot_repeat != 1
|
||
let coords = s:PromptUser(groups)
|
||
let s:previous_target_coord = coords
|
||
else
|
||
let coords = s:DotPromptUser(groups)
|
||
endif
|
||
"}}}
|
||
|
||
" -- Update cursor position -------------- {{{
|
||
" First, jump back cursor to original position
|
||
keepjumps call cursor(s:current.original_position)
|
||
|
||
" Consider EasyMotion as jump motion :h jump-motion
|
||
normal! m`
|
||
|
||
" Update selection for visual mode {{{
|
||
if ! empty(a:visualmode)
|
||
exec 'normal! ' . a:visualmode
|
||
endif
|
||
" }}}
|
||
|
||
" For bi-directional motion, checking again whether the motion is
|
||
" inclusive is necessary. This value will might be updated later
|
||
let is_inclusive_check = a:is_inclusive
|
||
" For bi-directional motion, store 'true' direction for dot repeat
|
||
" to handling inclusive/exclusive motion
|
||
if a:direction == 2
|
||
let true_direction =
|
||
\ EasyMotion#helper#is_greater_coords(
|
||
\ s:current.original_position, coords) > 0 ?
|
||
\ 0 : 1
|
||
" forward : backward
|
||
else
|
||
let true_direction = a:direction
|
||
endif
|
||
|
||
if s:flag.dot_repeat == 1
|
||
" support dot repeat {{{
|
||
" Use visual mode to emulate dot repeat
|
||
normal! v
|
||
|
||
" Deal with exclusive {{{
|
||
if s:dot_repeat.is_inclusive == 0
|
||
" exclusive
|
||
if s:dot_repeat.true_direction == 0 "Forward
|
||
let coords[1] -= 1
|
||
elseif s:dot_repeat.true_direction == 1 "Backward
|
||
" Shift visual selection to left by making cursor one key
|
||
" left.
|
||
normal! hoh
|
||
endif
|
||
endif "}}}
|
||
|
||
" Jump to destination
|
||
keepjumps call cursor(coords[0], coords[1])
|
||
|
||
" Execute previous operator
|
||
let cmd = s:dot_repeat.operator
|
||
if s:dot_repeat.operator ==# 'c'
|
||
let cmd .= getreg('.')
|
||
endif
|
||
exec 'normal! ' . cmd
|
||
"}}}
|
||
else
|
||
" Handle inclusive & exclusive {{{
|
||
" Overwrite inclusive flag for special case {{{
|
||
if s:flag.find_bd == 1 && true_direction == 1
|
||
" Note: For bi-directional find motion s(f) & t
|
||
" If true_direction is backward, the motion is 'exclusive'
|
||
let is_inclusive_check = 0 " overwrite
|
||
let s:previous.is_inclusive = 0 " overwrite
|
||
endif "}}}
|
||
if is_inclusive_check
|
||
" Note: {{{
|
||
" Inclusive motion requires that we eat one more
|
||
" character to the right by forcing the motion to inclusive
|
||
" if we're using a forward motion because
|
||
" > :h exclusive
|
||
" > Note that when using ':' any motion becomes characterwise
|
||
" > exclusive.
|
||
" and EasyMotion use ':'
|
||
" See: h: o_v }}}
|
||
normal! v
|
||
endif " }}}
|
||
|
||
" Adjust screen especially for visual scroll & offscreen search {{{
|
||
" Otherwise, cursor line will move middle line of window
|
||
keepjumps call cursor(win_first_line, 0)
|
||
normal! zt
|
||
|
||
" Jump to destination
|
||
keepjumps call cursor(coords[0], coords[1])
|
||
|
||
" To avoid side effect of overwriting buffer {{{
|
||
" for tpope/vim-repeat
|
||
" See: :h b:changedtick
|
||
if exists('g:repeat_tick')
|
||
if g:repeat_tick == s:current.changedtick
|
||
let g:repeat_tick = b:changedtick
|
||
endif
|
||
endif "}}}
|
||
endif
|
||
|
||
" Set tpope/vim-repeat {{{
|
||
if s:current.is_operator == 1 &&
|
||
\ !(v:operator ==# 'y' && match(&cpo, 'y') == -1)
|
||
" Store previous info for dot repeat {{{
|
||
let s:dot_repeat.regexp = a:regexp
|
||
let s:dot_repeat.direction = a:direction
|
||
let s:dot_repeat.line_flag = s:flag.within_line
|
||
let s:dot_repeat.is_inclusive = is_inclusive_check
|
||
let s:dot_repeat.operator = v:operator
|
||
let s:dot_repeat.bd_t_flag = s:flag.bd_t " Bidirectional t motion
|
||
let s:dot_repeat.true_direction = true_direction " Check inclusive
|
||
"}}}
|
||
silent! call repeat#set("\<Plug>(easymotion-dotrepeat)")
|
||
endif "}}}
|
||
|
||
call s:Message('Jumping to [' . coords[0] . ', ' . coords[1] . ']')
|
||
let s:EasyMotion_is_cancelled = 0 " Success
|
||
"}}}
|
||
|
||
catch
|
||
redraw
|
||
|
||
" Show exception message
|
||
if g:EasyMotion_ignore_exception != 1
|
||
call s:Message(v:exception)
|
||
endif
|
||
|
||
" -- Restore original cursor position/selection {{{
|
||
if ! empty(a:visualmode)
|
||
silent exec 'normal! gv'
|
||
keepjumps call cursor(s:current.cursor_position)
|
||
else
|
||
keepjumps call cursor(s:current.original_position)
|
||
endif
|
||
" }}}
|
||
let s:EasyMotion_is_cancelled = 1 " Cancel
|
||
finally
|
||
" -- Restore properties ------------------ {{{
|
||
call s:RestoreValue()
|
||
call EasyMotion#reset()
|
||
" }}}
|
||
" -- Remove shading ---------------------- {{{
|
||
call EasyMotion#highlight#delete_highlight()
|
||
" }}}
|
||
|
||
if s:EasyMotion_is_cancelled == 0 " Success
|
||
" -- Landing Highlight ------------------- {{{
|
||
if g:EasyMotion_landing_highlight
|
||
call EasyMotion#highlight#add_highlight(a:regexp,
|
||
\ g:EasyMotion_hl_move)
|
||
call EasyMotion#highlight#attach_autocmd()
|
||
endif "}}}
|
||
" -- Activate EasyMotion ----------------- {{{
|
||
let s:EasyMotion_is_active = 1
|
||
call EasyMotion#attach_active_autocmd() "}}}
|
||
endif
|
||
endtry
|
||
endfunction " }}}
|
||
"}}}
|
||
" Call Init: {{{
|
||
call EasyMotion#init()
|
||
"}}}
|
||
" Restore 'cpoptions' {{{
|
||
let &cpo = s:save_cpo
|
||
unlet s:save_cpo
|
||
" }}}
|
||
" vim: fdm=marker:et:ts=4:sw=4:sts=4
|