neovim/test/old/testdir/test_map_functions.vim

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" Tests for maparg(), mapcheck(), mapset(), maplist()
" Also test utf8 map with a 0x80 byte.
source shared.vim
func s:SID()
return str2nr(matchstr(expand('<sfile>'), '<SNR>\zs\d\+\ze_SID$'))
endfunc
func Test_maparg()
new
set cpo-=<
set encoding=utf8
" Test maparg() with a string result
let sid = s:SID()
let lnum = expand('<sflnum>')
map foo<C-V> is<F4>foo
vnoremap <script> <buffer> <expr> <silent> bar isbar
call assert_equal("is<F4>foo", maparg('foo<C-V>'))
call assert_equal({'silent': 0, 'noremap': 0, 'script': 0, 'lhs': 'foo<C-V>',
\ 'lhsraw': "foo\x80\xfc\x04V", 'lhsrawalt': "foo\x16",
\ 'mode': ' ', 'nowait': 0, 'expr': 0, 'sid': sid, 'scriptversion': 1,
\ 'lnum': lnum + 1,
\ 'rhs': 'is<F4>foo', 'buffer': 0, 'abbr': 0, 'mode_bits': 0x47},
\ maparg('foo<C-V>', '', 0, 1))
call assert_equal({'silent': 1, 'noremap': 1, 'script': 1, 'lhs': 'bar',
\ 'lhsraw': 'bar', 'mode': 'v',
\ 'nowait': 0, 'expr': 1, 'sid': sid, 'scriptversion': 1,
\ 'lnum': lnum + 2,
\ 'rhs': 'isbar', 'buffer': 1, 'abbr': 0, 'mode_bits': 0x42},
\ 'bar'->maparg('', 0, 1))
let lnum = expand('<sflnum>')
map <buffer> <nowait> foo bar
call assert_equal({'silent': 0, 'noremap': 0, 'script': 0, 'lhs': 'foo',
\ 'lhsraw': 'foo', 'mode': ' ',
\ 'nowait': 1, 'expr': 0, 'sid': sid, 'scriptversion': 1,
\ 'lnum': lnum + 1, 'rhs': 'bar',
\ 'buffer': 1, 'abbr': 0, 'mode_bits': 0x47},
\ maparg('foo', '', 0, 1))
let lnum = expand('<sflnum>')
tmap baz foo
call assert_equal({'silent': 0, 'noremap': 0, 'script': 0, 'lhs': 'baz',
\ 'lhsraw': 'baz', 'mode': 't',
\ 'nowait': 0, 'expr': 0, 'sid': sid, 'scriptversion': 1,
\ 'lnum': lnum + 1, 'rhs': 'foo',
\ 'buffer': 0, 'abbr': 0, 'mode_bits': 0x80},
\ maparg('baz', 't', 0, 1))
let lnum = expand('<sflnum>')
iab A B
call assert_equal({'silent': 0, 'noremap': 0, 'script': 0, 'lhs': 'A',
\ 'lhsraw': 'A', 'mode': 'i',
\ 'nowait': 0, 'expr': 0, 'sid': sid, 'scriptversion': 1,
\ 'lnum': lnum + 1, 'rhs': 'B',
\ 'buffer': 0, 'abbr': 1, 'mode_bits': 0x0010},
\ maparg('A', 'i', 1, 1))
iuna A
map abc x<char-114>x
call assert_equal("xrx", maparg('abc'))
map abc y<S-char-114>y
call assert_equal("yRy", maparg('abc'))
" character with K_SPECIAL byte
nmap abc
call assert_equal('…', maparg('abc'))
" modified character with K_SPECIAL byte
nmap abc <M->
call assert_equal('<M-…>', maparg('abc'))
" illegal bytes
let str = ":\x7f:\x80:\x90:\xd0:"
exe 'nmap abc ' .. str
call assert_equal(str, maparg('abc'))
unlet str
omap { w
let d = maparg('{', 'o', 0, 1)
call assert_equal(['{', 'w', 'o'], [d.lhs, d.rhs, d.mode])
ounmap {
lmap { w
let d = maparg('{', 'l', 0, 1)
call assert_equal(['{', 'w', 'l'], [d.lhs, d.rhs, d.mode])
lunmap {
nmap { w
let d = maparg('{', 'n', 0, 1)
call assert_equal(['{', 'w', 'n'], [d.lhs, d.rhs, d.mode])
nunmap {
xmap { w
let d = maparg('{', 'x', 0, 1)
call assert_equal(['{', 'w', 'x'], [d.lhs, d.rhs, d.mode])
xunmap {
smap { w
let d = maparg('{', 's', 0, 1)
call assert_equal(['{', 'w', 's'], [d.lhs, d.rhs, d.mode])
sunmap {
map <C-I> foo
unmap <Tab>
" This used to cause a segfault
call maparg('<C-I>', '', 0, 1)
unmap <C-I>
map abc <Nop>
call assert_equal("<Nop>", maparg('abc'))
unmap abc
call feedkeys(":abbr esc \<C-V>\<C-V>\<C-V>\<C-V>\<C-V>\<Esc>\<CR>", "xt")
let d = maparg('esc', 'i', 1, 1)
call assert_equal(['esc', "\<C-V>\<C-V>\<Esc>", '!'], [d.lhs, d.rhs, d.mode])
abclear
unlet d
endfunc
func Test_mapcheck()
call assert_equal('', mapcheck('a'))
call assert_equal('', mapcheck('abc'))
call assert_equal('', mapcheck('ax'))
call assert_equal('', mapcheck('b'))
map a something
call assert_equal('something', mapcheck('a'))
call assert_equal('something', mapcheck('a', 'n'))
call assert_equal('', mapcheck('a', 'c'))
call assert_equal('', mapcheck('a', 'i'))
call assert_equal('something', 'abc'->mapcheck())
call assert_equal('something', 'ax'->mapcheck())
call assert_equal('', mapcheck('b'))
unmap a
map ab foobar
call assert_equal('foobar', mapcheck('a'))
call assert_equal('foobar', mapcheck('abc'))
call assert_equal('', mapcheck('ax'))
call assert_equal('', mapcheck('b'))
unmap ab
map abc barfoo
call assert_equal('barfoo', mapcheck('a'))
call assert_equal('barfoo', mapcheck('a', 'n', 0))
call assert_equal('', mapcheck('a', 'n', 1))
call assert_equal('barfoo', mapcheck('abc'))
call assert_equal('', mapcheck('ax'))
call assert_equal('', mapcheck('b'))
unmap abc
abbr ab abbrev
call assert_equal('abbrev', mapcheck('a', 'i', 1))
call assert_equal('', mapcheck('a', 'n', 1))
call assert_equal('', mapcheck('a', 'i', 0))
unabbr ab
endfunc
func Test_range_map()
new
" Outside of the range, minimum
inoremap <Char-0x1040> a
execute "normal a\u1040\<Esc>"
" Inside of the range, minimum
inoremap <Char-0x103f> b
execute "normal a\u103f\<Esc>"
" Inside of the range, maximum
inoremap <Char-0xf03f> c
execute "normal a\uf03f\<Esc>"
" Outside of the range, maximum
inoremap <Char-0xf040> d
execute "normal a\uf040\<Esc>"
call assert_equal("abcd", getline(1))
endfunc
func One_mapset_test(keys, rhs)
exe 'nnoremap ' .. a:keys .. ' ' .. a:rhs
let orig = maparg(a:keys, 'n', 0, 1)
call assert_equal(a:keys, orig.lhs)
call assert_equal(a:rhs, orig.rhs)
call assert_equal('n', orig.mode)
exe 'nunmap ' .. a:keys
let d = maparg(a:keys, 'n', 0, 1)
call assert_equal({}, d)
call mapset('n', 0, orig)
let d = maparg(a:keys, 'n', 0, 1)
call assert_equal(a:keys, d.lhs)
call assert_equal(a:rhs, d.rhs)
call assert_equal('n', d.mode)
exe 'nunmap ' .. a:keys
endfunc
func Test_mapset()
call One_mapset_test('K', 'original<CR>')
call One_mapset_test('<F3>', 'original<CR>')
call One_mapset_test('<F3>', '<lt>Nop>')
" Check <> key conversion
new
inoremap K one<Left>x
call feedkeys("iK\<Esc>", 'xt')
call assert_equal('onxe', getline(1))
let orig = maparg('K', 'i', 0, 1)
call assert_equal('K', orig.lhs)
call assert_equal('one<Left>x', orig.rhs)
call assert_equal('i', orig.mode)
iunmap K
let d = maparg('K', 'i', 0, 1)
call assert_equal({}, d)
call mapset('i', 0, orig)
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('onxe', getline(1))
iunmap K
" Test that <Nop> is restored properly
inoremap K <Nop>
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('', getline(1))
let orig = maparg('K', 'i', 0, 1)
call assert_equal('K', orig.lhs)
call assert_equal('<Nop>', orig.rhs)
call assert_equal('i', orig.mode)
inoremap K foo
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('foo', getline(1))
call mapset('i', 0, orig)
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('', getline(1))
iunmap K
" Test literal <CR> using a backslash
let cpo_save = &cpo
set cpo-=B
inoremap K one\<CR>two
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('one<CR>two', getline(1))
let orig = maparg('K', 'i', 0, 1)
call assert_equal('K', orig.lhs)
call assert_equal('one\<CR>two', orig.rhs)
call assert_equal('i', orig.mode)
iunmap K
let d = maparg('K', 'i', 0, 1)
call assert_equal({}, d)
call mapset('i', 0, orig)
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('one<CR>two', getline(1))
iunmap K
" Test literal <CR> using CTRL-V
inoremap K one<CR>two
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('one<CR>two', getline(1))
let orig = maparg('K', 'i', 0, 1)
call assert_equal('K', orig.lhs)
call assert_equal("one\x16<CR>two", orig.rhs)
call assert_equal('i', orig.mode)
iunmap K
let d = maparg('K', 'i', 0, 1)
call assert_equal({}, d)
call mapset('i', 0, orig)
call feedkeys("SK\<Esc>", 'xt')
call assert_equal('one<CR>two', getline(1))
iunmap K
let &cpo = cpo_save
bwipe!
call assert_fails('call mapset([], v:false, {})', 'E730:')
call assert_fails('call mapset("i", 0, "")', 'E1206:')
call assert_fails('call mapset("i", 0, {})', 'E460:')
endfunc
func Test_mapset_arg1_dir()
" This test is mostly about get_map_mode_string.
" Once the code gets past that, it's common with the 3 arg mapset.
" GetModes() return list of modes for 'XZ' lhs using maplist.
" There is one list item per mapping
func s:GetModes(abbr = v:false)
return maplist(a:abbr)->filter({_, m -> m.lhs == 'XZ'})
\ ->mapnew({_, m -> m.mode})
endfunc
func s:UnmapAll(lhs)
const unmap_cmds = [ 'unmap', 'unmap!', 'tunmap', 'lunmap' ]
for cmd in unmap_cmds
try | call execute(cmd .. ' ' .. a:lhs) | catch /E31/ | endtry
endfor
endfunc
let tmap = {}
" some mapset(mode, abbr, dict) tests using get_map_mode_str
map XZ x
let tmap = maplist()->filter({_, m -> m.lhs == 'XZ'})[0]->copy()
" this splits the mapping into 2 mappings
call mapset('ox', v:false, tmap)
call assert_equal(2, len(s:GetModes()))
call mapset('o', v:false, tmap)
call assert_equal(3, len(s:GetModes()))
" test that '' acts like ' ', and that the 3 mappings become 1
call mapset('', v:false, tmap)
call assert_equal([' '], s:GetModes())
" dict's mode/abbr are ignored
call s:UnmapAll('XZ')
let tmap.mode = '!'
let tmap.abbr = v:true
call mapset('o', v:false, tmap)
call assert_equal(['o'], s:GetModes())
" test the 3 arg version handles bad mode string, dict not used
call assert_fails("call mapset('vi', v:false, {})", 'E1276:')
" get the abbreviations out of the way
abbreviate XZ ZX
let tmap = maplist(v:true)->filter({_, m -> m.lhs == 'XZ'})[0]->copy()
abclear
" 'ic' is the default ab command, shows up as '!'
let tmap.mode = 'ic'
call mapset(tmap)
call assert_equal(['!'], s:GetModes(v:true))
abclear
let tmap.mode = 'i'
call mapset(tmap)
call assert_equal(['i'], s:GetModes(v:true))
abclear
let tmap.mode = 'c'
call mapset(tmap)
call assert_equal(['c'], s:GetModes(v:true))
abclear
let tmap.mode = '!'
call mapset(tmap)
call assert_equal(['!'], s:GetModes(v:true))
call assert_fails("call mapset(#{mode: ' !', abbr: 1})", 'E1276:')
call assert_fails("call mapset(#{mode: 'cl', abbr: 1})", 'E1276:')
call assert_fails("call mapset(#{mode: 'in', abbr: 1})", 'E1276:')
" the map commands
map XZ x
let tmap = maplist()->filter({_, m -> m.lhs == 'XZ'})[0]->copy()
" try the combos
call s:UnmapAll('XZ')
" 'nxso' is ' ', the unadorned :map
let tmap.mode = 'nxso'
call mapset(tmap)
call assert_equal([' '], s:GetModes())
cal s:UnmapAll('XZ')
" 'ic' is '!'
let tmap.mode = 'ic'
call mapset(tmap)
call assert_equal(['!'], s:GetModes())
call s:UnmapAll('XZ')
" 'xs' is really 'v'
let tmap.mode = 'xs'
call mapset(tmap)
call assert_equal(['v'], s:GetModes())
" try the individual modes
call s:UnmapAll('XZ')
let tmap.mode = 'n'
call mapset(tmap)
call assert_equal(['n'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 'x'
call mapset(tmap)
call assert_equal(['x'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 's'
call mapset(tmap)
call assert_equal(['s'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 'o'
call mapset(tmap)
call assert_equal(['o'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 'i'
call mapset(tmap)
call assert_equal(['i'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 'c'
call mapset(tmap)
call assert_equal(['c'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 't'
call mapset(tmap)
call assert_equal(['t'], s:GetModes())
call s:UnmapAll('XZ')
let tmap.mode = 'l'
call mapset(tmap)
call assert_equal(['l'], s:GetModes())
call s:UnmapAll('XZ')
" get errors for modes that can't be in one mapping
call assert_fails("call mapset(#{mode: 'nxsoi', abbr: 0})", 'E1276:')
call assert_fails("call mapset(#{mode: ' !', abbr: 0})", 'E1276:')
call assert_fails("call mapset(#{mode: 'ix', abbr: 0})", 'E1276:')
call assert_fails("call mapset(#{mode: 'tl', abbr: 0})", 'E1276:')
call assert_fails("call mapset(#{mode: ' l', abbr: 0})", 'E1276:')
call assert_fails("call mapset(#{mode: ' t', abbr: 0})", 'E1276:')
endfunc
func Check_ctrlb_map(d, check_alt)
call assert_equal('<C-B>', a:d.lhs)
if a:check_alt
call assert_equal("\x80\xfc\x04B", a:d.lhsraw)
call assert_equal("\x02", a:d.lhsrawalt)
else
call assert_equal("\x02", a:d.lhsraw)
endif
endfunc
func Test_map_local()
nmap a global
nmap <buffer>a local
let prev_map_list = split(execute('nmap a'), "\n")
call assert_match('n\s*a\s*@local', prev_map_list[0])
call assert_match('n\s*a\s*global', prev_map_list[1])
let mapping = maparg('a', 'n', 0, 1)
call assert_equal(1, mapping.buffer)
let mapping.rhs = 'new_local'
call mapset('n', 0, mapping)
" Check that the global mapping is left untouched.
let map_list = split(execute('nmap a'), "\n")
call assert_match('n\s*a\s*@new_local', map_list[0])
call assert_match('n\s*a\s*global', map_list[1])
nunmap a
endfunc
func Test_map_restore()
" Test restoring map with alternate keycode
nmap <C-B> back
let d = maparg('<C-B>', 'n', 0, 1)
call Check_ctrlb_map(d, 1)
let dsimp = maparg("\x02", 'n', 0, 1)
call Check_ctrlb_map(dsimp, 0)
nunmap <C-B>
call mapset('n', 0, d)
let d = maparg('<C-B>', 'n', 0, 1)
call Check_ctrlb_map(d, 1)
let dsimp = maparg("\x02", 'n', 0, 1)
call Check_ctrlb_map(dsimp, 0)
nunmap <C-B>
endfunc
" Test restoring an <SID> mapping
func Test_map_restore_sid()
func RestoreMap()
const d = maparg('<CR>', 'i', v:false, v:true)
iunmap <buffer> <CR>
call mapset('i', v:false, d)
endfunc
let mapscript =<< trim [CODE]
inoremap <silent><buffer> <SID>Return <C-R>=42<CR>
inoremap <script><buffer> <CR> <CR><SID>Return
[CODE]
call writefile(mapscript, 'Xmapscript', 'D')
new
source Xmapscript
inoremap <buffer> <C-B> <Cmd>call RestoreMap()<CR>
call feedkeys("i\<CR>\<*C-B>\<CR>", 'xt')
call assert_equal(['', '42', '42'], getline(1, '$'))
bwipe!
delfunc RestoreMap
endfunc
" Test restoring a mapping with a negative script ID
func Test_map_restore_negative_sid()
let after =<< trim [CODE]
call assert_equal("\tLast set from --cmd argument",
\ execute('verbose nmap ,n')->trim()->split("\n")[-1])
let d = maparg(',n', 'n', 0, 1)
nunmap ,n
call assert_equal('No mapping found',
\ execute('verbose nmap ,n')->trim()->split("\n")[-1])
call mapset('n', 0, d)
call assert_equal("\tLast set from --cmd argument",
\ execute('verbose nmap ,n')->trim()->split("\n")[-1])
call writefile(v:errors, 'Xresult')
qall!
[CODE]
if RunVim([], after, '--clean --cmd "nmap ,n <Nop>"')
call assert_equal([], readfile('Xresult'))
endif
call delete('Xresult')
endfunc
" Check that restoring a mapping doesn't remove a mapping whose {rhs} matches
" the restored mapping's {lhs}.
func Test_map_restore_with_rhs_match_lhs()
nnoremap <F2> <F3>
nnoremap <F3> <F4>
call assert_equal('<F3>', maparg('<F2>', 'n'))
call assert_equal('<F4>', maparg('<F3>', 'n'))
let d = maparg('<F3>', 'n', v:false, v:true)
nunmap <F3>
call assert_equal('<F3>', maparg('<F2>', 'n'))
call assert_equal('', maparg('<F3>', 'n'))
call mapset(d)
call assert_equal('<F3>', maparg('<F2>', 'n'))
call assert_equal('<F4>', maparg('<F3>', 'n'))
nunmap <F2>
nunmap <F3>
endfunc
func Test_maplist()
new
func s:ClearMappingsAbbreviations()
mapclear | nmapclear | vmapclear | xmapclear | smapclear | omapclear
mapclear! | imapclear | lmapclear | cmapclear | tmapclear
mapclear <buffer> | nmapclear <buffer> | vmapclear <buffer>
xmapclear <buffer> | smapclear <buffer> | omapclear <buffer>
mapclear! <buffer> | imapclear <buffer> | lmapclear <buffer>
cmapclear <buffer> | tmapclear <buffer>
abclear | abclear <buffer>
endfunc
func s:AddMaps(new, accum)
if len(a:new) > 0 && a:new[0] != "No mapping found"
eval a:accum->extend(a:new)
endif
endfunc
call s:ClearMappingsAbbreviations()
call assert_equal(0, len(maplist()))
call assert_equal(0, len(maplist(v:true)))
" Set up some mappings.
map dup bar
map <buffer> dup bufbar
map foo<C-V> is<F4>foo
vnoremap <script> <buffer> <expr> <silent> bar isbar
tmap baz foo
omap h w
lmap i w
nmap j w
xmap k w
smap l w
map abc <Nop>
nmap <M-j> x
nmap <M-Space> y
" And abbreviations
abbreviate xy he
abbreviate xx she
abbreviate <buffer> x they
" Get a list of the mappings with the ':map' commands.
" Check maplist() return a list of the same size.
call assert_equal(13, len(maplist()))
call assert_equal(3, len(maplist(v:true)))
call assert_equal(13, len(maplist(v:false)))
" collect all the current maps using :map commands
let maps_command = []
call s:AddMaps(split(execute('map'), '\n'), maps_command)
call s:AddMaps(split(execute('map!'), '\n'), maps_command)
call s:AddMaps(split(execute('tmap'), '\n'), maps_command)
call s:AddMaps(split(execute('lmap'), '\n'), maps_command)
" Use maplist to get all the maps
let maps_maplist = maplist()
call assert_equal(len(maps_command), len(maps_maplist))
" make sure all the mode-lhs are unique, no duplicates
let map_set = {}
for d in maps_maplist
let map_set[d.mode .. "-" .. d.lhs .. "-" .. d.buffer] = 0
endfor
call assert_equal(len(maps_maplist), len(map_set))
" For everything returned by maplist, should be the same as from maparg.
" Except for "map dup", because maparg returns the <buffer> version
for d in maps_maplist
if d.lhs == 'dup' && d.buffer == 0
continue
endif
let d_maparg = maparg(d.lhs, d.mode, v:false, v:true)
call assert_equal(d_maparg, d)
endfor
" Check abbr matches maparg
for d in maplist(v:true)
" Note, d.mode is '!', but can't use that with maparg
let d_maparg = maparg(d.lhs, 'i', v:true, v:true)
call assert_equal(d_maparg, d)
endfor
call s:ClearMappingsAbbreviations()
call assert_equal(0, len(maplist()))
call assert_equal(0, len(maplist(v:true)))
endfunc
" vim: shiftwidth=2 sts=2 expandtab