neovim/test/old/testdir/test_ins_complete.vim
dundargoc af23d17388
test: move oldtests to test directory (#22536)
The new oldtest directory is in test/old/testdir. The reason for this is
that many tests have hardcoded the parent directory name to be
'testdir'.
2023-03-07 11:13:04 +08:00

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" Test for insert completion
source screendump.vim
source check.vim
source vim9.vim
" Test for insert expansion
func Test_ins_complete()
edit test_ins_complete.vim
" The files in the current directory interferes with the files
" used by this test. So use a separate directory for the test.
call mkdir('Xdir')
cd Xdir
set ff=unix
call writefile(["test11\t36Gepeto\t/Tag/",
\ "asd\ttest11file\t36G",
\ "Makefile\tto\trun"], 'Xtestfile')
call writefile(['', 'start of testfile',
\ 'ru',
\ 'run1',
\ 'run2',
\ 'STARTTEST',
\ 'ENDTEST',
\ 'end of testfile'], 'Xtestdata')
set ff&
enew!
edit Xtestdata
new
call append(0, ['#include "Xtestfile"', ''])
call cursor(2, 1)
set cot=
set cpt=.,w
" add-expands (word from next line) from other window
exe "normal iru\<C-N>\<C-N>\<C-X>\<C-N>\<Esc>\<C-A>"
call assert_equal('run1 run3', getline('.'))
" add-expands (current buffer first)
exe "normal o\<C-P>\<C-X>\<C-N>"
call assert_equal('run3 run3', getline('.'))
" Local expansion, ends in an empty line (unless it becomes a global
" expansion)
exe "normal o\<C-X>\<C-P>\<C-P>\<C-P>\<C-P>\<C-P>"
call assert_equal('', getline('.'))
" starts Local and switches to global add-expansion
exe "normal o\<C-X>\<C-P>\<C-P>\<C-X>\<C-X>\<C-N>\<C-X>\<C-N>\<C-N>"
call assert_equal('run1 run2', getline('.'))
set cpt=.,\ ,w,i
" i-add-expands and switches to local
exe "normal OM\<C-N>\<C-X>\<C-N>\<C-X>\<C-N>\<C-X>\<C-X>\<C-X>\<C-P>"
call assert_equal("Makefile\tto\trun3", getline('.'))
" add-expands lines (it would end in an empty line if it didn't ignore
" itself)
exe "normal o\<C-X>\<C-L>\<C-X>\<C-L>\<C-P>\<C-P>"
call assert_equal("Makefile\tto\trun3", getline('.'))
call assert_equal("Makefile\tto\trun3", getline(line('.') - 1))
set cpt=kXtestfile
" checks k-expansion, and file expansion (use Xtest11 instead of test11,
" because TEST11.OUT may match first on DOS)
write Xtest11.one
write Xtest11.two
exe "normal o\<C-N>\<Esc>IX\<Esc>A\<C-X>\<C-F>\<C-N>"
call assert_equal('Xtest11.two', getline('.'))
" use CTRL-X CTRL-F to complete Xtest11.one, remove it and then use CTRL-X
" CTRL-F again to verify this doesn't cause trouble.
exe "normal oXt\<C-X>\<C-F>\<BS>\<BS>\<BS>\<BS>\<BS>\<BS>\<BS>\<BS>\<C-X>\<C-F>"
call assert_equal('Xtest11.one', getline('.'))
normal ddk
" Test for expanding a non-existing filename
exe "normal oa1b2X3Y4\<C-X>\<C-F>"
call assert_equal('a1b2X3Y4', getline('.'))
normal ddk
set cpt=w
" checks make_cyclic in other window
exe "normal oST\<C-N>\<C-P>\<C-P>\<C-P>\<C-P>"
call assert_equal('STARTTEST', getline('.'))
set cpt=u nohid
" checks unloaded buffer expansion
only
exe "normal oEN\<C-N>"
call assert_equal('ENDTEST', getline('.'))
" checks adding mode abortion
exe "normal ounl\<C-N>\<C-X>\<C-X>\<C-P>"
call assert_equal('unless', getline('.'))
set cpt=t,d def=^\\k* tags=Xtestfile notagbsearch
" tag expansion, define add-expansion interrupted
exe "normal o\<C-X>\<C-]>\<C-X>\<C-D>\<C-X>\<C-D>\<C-X>\<C-X>\<C-D>\<C-X>\<C-D>\<C-X>\<C-D>\<C-X>\<C-D>"
call assert_equal('test11file 36Gepeto /Tag/ asd', getline('.'))
" t-expansion
exe "normal oa\<C-N>\<Esc>"
call assert_equal('asd', getline('.'))
%bw!
call delete('Xtestfile')
call delete('Xtest11.one')
call delete('Xtest11.two')
call delete('Xtestdata')
set cpt& cot& def& tags& tagbsearch& hidden&
cd ..
call delete('Xdir', 'rf')
endfunc
func Test_omni_dash()
func Omni(findstart, base)
if a:findstart
return 5
else
echom a:base
return ['-help', '-v']
endif
endfunc
set omnifunc=Omni
new
exe "normal Gofind -\<C-x>\<C-o>"
call assert_equal("find -help", getline('$'))
bwipe!
delfunc Omni
set omnifunc=
endfunc
func Test_omni_throw()
let g:CallCount = 0
func Omni(findstart, base)
let g:CallCount += 1
if a:findstart
throw "he he he"
endif
endfunc
set omnifunc=Omni
new
try
exe "normal ifoo\<C-x>\<C-o>"
call assert_false(v:true, 'command should have failed')
catch
call assert_exception('he he he')
call assert_equal(1, g:CallCount)
endtry
bwipe!
delfunc Omni
unlet g:CallCount
set omnifunc=
endfunc
func Test_completefunc_args()
let s:args = []
func! CompleteFunc(findstart, base)
let s:args += [[a:findstart, empty(a:base)]]
endfunc
new
set completefunc=CompleteFunc
call feedkeys("i\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([1, 1], s:args[0])
call assert_equal(0, s:args[1][0])
set completefunc=
let s:args = []
set omnifunc=CompleteFunc
call feedkeys("i\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([1, 1], s:args[0])
call assert_equal(0, s:args[1][0])
set omnifunc=
bwipe!
unlet s:args
delfunc CompleteFunc
endfunc
func s:CompleteDone_CompleteFuncNone( findstart, base )
throw 'skipped: Nvim does not support v:none'
if a:findstart
return 0
endif
return v:none
endfunc
func s:CompleteDone_CompleteFuncDict( findstart, base )
if a:findstart
return 0
endif
return {
\ 'words': [
\ {
\ 'word': 'aword',
\ 'abbr': 'wrd',
\ 'menu': 'extra text',
\ 'info': 'words are cool',
\ 'kind': 'W',
\ 'user_data': ['one', 'two']
\ }
\ ]
\ }
endfunc
func s:CompleteDone_CheckCompletedItemNone()
let s:called_completedone = 1
endfunc
func s:CompleteDone_CheckCompletedItemDict(pre)
call assert_equal( 'aword', v:completed_item[ 'word' ] )
call assert_equal( 'wrd', v:completed_item[ 'abbr' ] )
call assert_equal( 'extra text', v:completed_item[ 'menu' ] )
call assert_equal( 'words are cool', v:completed_item[ 'info' ] )
call assert_equal( 'W', v:completed_item[ 'kind' ] )
call assert_equal( ['one', 'two'], v:completed_item[ 'user_data' ] )
if a:pre
call assert_equal('function', complete_info().mode)
endif
let s:called_completedone = 1
endfunc
func Test_CompleteDoneNone()
throw 'skipped: Nvim does not support v:none'
au CompleteDone * :call <SID>CompleteDone_CheckCompletedItemNone()
let oldline = join(map(range(&columns), 'nr2char(screenchar(&lines-1, v:val+1))'), '')
set completefunc=<SID>CompleteDone_CompleteFuncNone
execute "normal a\<C-X>\<C-U>\<C-Y>"
set completefunc&
let newline = join(map(range(&columns), 'nr2char(screenchar(&lines-1, v:val+1))'), '')
call assert_true(s:called_completedone)
call assert_equal(oldline, newline)
let s:called_completedone = 0
au! CompleteDone
endfunc
func Test_CompleteDoneDict()
au CompleteDonePre * :call <SID>CompleteDone_CheckCompletedItemDict(1)
au CompleteDone * :call <SID>CompleteDone_CheckCompletedItemDict(0)
set completefunc=<SID>CompleteDone_CompleteFuncDict
execute "normal a\<C-X>\<C-U>\<C-Y>"
set completefunc&
call assert_equal(['one', 'two'], v:completed_item[ 'user_data' ])
call assert_true(s:called_completedone)
let s:called_completedone = 0
au! CompleteDone
endfunc
func s:CompleteDone_CompleteFuncDictNoUserData(findstart, base)
if a:findstart
return 0
endif
return {
\ 'words': [
\ {
\ 'word': 'aword',
\ 'abbr': 'wrd',
\ 'menu': 'extra text',
\ 'info': 'words are cool',
\ 'kind': 'W',
\ }
\ ]
\ }
endfunc
func s:CompleteDone_CheckCompletedItemDictNoUserData()
call assert_equal( 'aword', v:completed_item[ 'word' ] )
call assert_equal( 'wrd', v:completed_item[ 'abbr' ] )
call assert_equal( 'extra text', v:completed_item[ 'menu' ] )
call assert_equal( 'words are cool', v:completed_item[ 'info' ] )
call assert_equal( 'W', v:completed_item[ 'kind' ] )
call assert_equal( '', v:completed_item[ 'user_data' ] )
let s:called_completedone = 1
endfunc
func Test_CompleteDoneDictNoUserData()
au CompleteDone * :call <SID>CompleteDone_CheckCompletedItemDictNoUserData()
set completefunc=<SID>CompleteDone_CompleteFuncDictNoUserData
execute "normal a\<C-X>\<C-U>\<C-Y>"
set completefunc&
call assert_equal('', v:completed_item[ 'user_data' ])
call assert_true(s:called_completedone)
let s:called_completedone = 0
au! CompleteDone
endfunc
func s:CompleteDone_CompleteFuncList(findstart, base)
if a:findstart
return 0
endif
return [ 'aword' ]
endfunc
func s:CompleteDone_CheckCompletedItemList()
call assert_equal( 'aword', v:completed_item[ 'word' ] )
call assert_equal( '', v:completed_item[ 'abbr' ] )
call assert_equal( '', v:completed_item[ 'menu' ] )
call assert_equal( '', v:completed_item[ 'info' ] )
call assert_equal( '', v:completed_item[ 'kind' ] )
call assert_equal( '', v:completed_item[ 'user_data' ] )
let s:called_completedone = 1
endfunc
func Test_CompleteDoneList()
au CompleteDone * :call <SID>CompleteDone_CheckCompletedItemList()
set completefunc=<SID>CompleteDone_CompleteFuncList
execute "normal a\<C-X>\<C-U>\<C-Y>"
set completefunc&
call assert_equal('', v:completed_item[ 'user_data' ])
call assert_true(s:called_completedone)
let s:called_completedone = 0
au! CompleteDone
endfunc
func Test_CompleteDone_undo()
au CompleteDone * call append(0, "prepend1")
new
call setline(1, ["line1", "line2"])
call feedkeys("Go\<C-X>\<C-N>\<CR>\<ESC>", "tx")
call assert_equal(["prepend1", "line1", "line2", "line1", ""],
\ getline(1, '$'))
undo
call assert_equal(["line1", "line2"], getline(1, '$'))
bwipe!
au! CompleteDone
endfunc
func Test_CompleteDone_modify()
let value = {
\ 'word': '',
\ 'abbr': '',
\ 'menu': '',
\ 'info': '',
\ 'kind': '',
\ 'user_data': '',
\ }
let v:completed_item = value
call assert_equal(value, v:completed_item)
endfunc
func CompleteTest(findstart, query)
if a:findstart
return col('.')
endif
return ['matched']
endfunc
func Test_completefunc_info()
new
set completeopt=menuone
set completefunc=CompleteTest
call feedkeys("i\<C-X>\<C-U>\<C-R>\<C-R>=string(complete_info())\<CR>\<ESC>", "tx")
call assert_equal("matched{'pum_visible': 1, 'mode': 'function', 'selected': 0, 'items': [{'word': 'matched', 'menu': '', 'user_data': '', 'info': '', 'kind': '', 'abbr': ''}]}", getline(1))
bwipe!
set completeopt&
set completefunc&
endfunc
" Test that mouse scrolling/movement should not interrupt completion.
func Test_mouse_scroll_move_during_completion()
new
com! -buffer TestCommand1 echo 'TestCommand1'
com! -buffer TestCommand2 echo 'TestCommand2'
call setline(1, ['', '', '', '', ''])
call cursor(5, 1)
" Without completion menu scrolling can move text.
set completeopt-=menu wrap
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelDown>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_notequal(1, winsaveview().topline)
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelUp>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_equal(1, winsaveview().topline)
set nowrap
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelRight>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_notequal(0, winsaveview().leftcol)
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelLeft>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_equal(0, winsaveview().leftcol)
call feedkeys("ccT\<C-X>\<C-V>\<MouseMove>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
" With completion menu scrolling cannot move text.
set completeopt+=menu wrap
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelDown>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_equal(1, winsaveview().topline)
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelUp>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_equal(1, winsaveview().topline)
set nowrap
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelRight>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_equal(0, winsaveview().leftcol)
call feedkeys("ccT\<C-X>\<C-V>\<ScrollWheelLeft>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
call assert_equal(0, winsaveview().leftcol)
call feedkeys("ccT\<C-X>\<C-V>\<MouseMove>\<C-V>", 'tx')
call assert_equal('TestCommand2', getline('.'))
bwipe!
set completeopt& wrap&
endfunc
" Check that when using feedkeys() typeahead does not interrupt searching for
" completions.
func Test_compl_feedkeys()
new
set completeopt=menuone,noselect
call feedkeys("ajump ju\<C-X>\<C-N>\<C-P>\<ESC>", "tx")
call assert_equal("jump jump", getline(1))
bwipe!
set completeopt&
endfunc
func s:ComplInCmdwin_GlobalCompletion(a, l, p)
return 'global'
endfunc
func s:ComplInCmdwin_LocalCompletion(a, l, p)
return 'local'
endfunc
func Test_compl_in_cmdwin()
set wildmenu wildchar=<Tab>
com! -nargs=1 -complete=command GetInput let input = <q-args>
com! -buffer TestCommand echo 'TestCommand'
let w:test_winvar = 'winvar'
let b:test_bufvar = 'bufvar'
" User-defined commands
let input = ''
call feedkeys("q:iGetInput T\<C-x>\<C-v>\<CR>", 'tx!')
call assert_equal('TestCommand', input)
let input = ''
call feedkeys("q::GetInput T\<Tab>\<CR>:q\<CR>", 'tx!')
call assert_equal('T', input)
com! -nargs=1 -complete=var GetInput let input = <q-args>
" Window-local variables
let input = ''
call feedkeys("q:iGetInput w:test_\<C-x>\<C-v>\<CR>", 'tx!')
call assert_equal('w:test_winvar', input)
let input = ''
call feedkeys("q::GetInput w:test_\<Tab>\<CR>:q\<CR>", 'tx!')
call assert_equal('w:test_', input)
" Buffer-local variables
let input = ''
call feedkeys("q:iGetInput b:test_\<C-x>\<C-v>\<CR>", 'tx!')
call assert_equal('b:test_bufvar', input)
let input = ''
call feedkeys("q::GetInput b:test_\<Tab>\<CR>:q\<CR>", 'tx!')
call assert_equal('b:test_', input)
" Argument completion of buffer-local command
func s:ComplInCmdwin_GlobalCompletionList(a, l, p)
return ['global']
endfunc
func s:ComplInCmdwin_LocalCompletionList(a, l, p)
return ['local']
endfunc
func s:ComplInCmdwin_CheckCompletion(arg)
call assert_equal('local', a:arg)
endfunc
com! -nargs=1 -complete=custom,<SID>ComplInCmdwin_GlobalCompletion
\ TestCommand call s:ComplInCmdwin_CheckCompletion(<q-args>)
com! -buffer -nargs=1 -complete=custom,<SID>ComplInCmdwin_LocalCompletion
\ TestCommand call s:ComplInCmdwin_CheckCompletion(<q-args>)
call feedkeys("q:iTestCommand \<Tab>\<CR>", 'tx!')
com! -nargs=1 -complete=customlist,<SID>ComplInCmdwin_GlobalCompletionList
\ TestCommand call s:ComplInCmdwin_CheckCompletion(<q-args>)
com! -buffer -nargs=1 -complete=customlist,<SID>ComplInCmdwin_LocalCompletionList
\ TestCommand call s:ComplInCmdwin_CheckCompletion(<q-args>)
call feedkeys("q:iTestCommand \<Tab>\<CR>", 'tx!')
func! s:ComplInCmdwin_CheckCompletion(arg)
call assert_equal('global', a:arg)
endfunc
new
call feedkeys("q:iTestCommand \<Tab>\<CR>", 'tx!')
quit
delfunc s:ComplInCmdwin_GlobalCompletion
delfunc s:ComplInCmdwin_LocalCompletion
delfunc s:ComplInCmdwin_GlobalCompletionList
delfunc s:ComplInCmdwin_LocalCompletionList
delfunc s:ComplInCmdwin_CheckCompletion
delcom -buffer TestCommand
delcom TestCommand
delcom GetInput
unlet w:test_winvar
unlet b:test_bufvar
set wildmenu& wildchar&
endfunc
" Test for insert path completion with completeslash option
func Test_ins_completeslash()
CheckMSWindows
call mkdir('Xdir')
let orig_shellslash = &shellslash
set cpt&
new
set noshellslash
set completeslash=
exe "normal oXd\<C-X>\<C-F>"
call assert_equal('Xdir\', getline('.'))
set completeslash=backslash
exe "normal oXd\<C-X>\<C-F>"
call assert_equal('Xdir\', getline('.'))
set completeslash=slash
exe "normal oXd\<C-X>\<C-F>"
call assert_equal('Xdir/', getline('.'))
set shellslash
set completeslash=
exe "normal oXd\<C-X>\<C-F>"
call assert_equal('Xdir/', getline('.'))
set completeslash=backslash
exe "normal oXd\<C-X>\<C-F>"
call assert_equal('Xdir\', getline('.'))
set completeslash=slash
exe "normal oXd\<C-X>\<C-F>"
call assert_equal('Xdir/', getline('.'))
%bw!
call delete('Xdir', 'rf')
set noshellslash
set completeslash=slash
call assert_true(stridx(globpath(&rtp, 'syntax/*.vim', 1, 1)[0], '\') != -1)
let &shellslash = orig_shellslash
set completeslash=
endfunc
func Test_pum_stopped_by_timer()
CheckScreendump
let lines =<< trim END
call setline(1, ['hello', 'hullo', 'heeee', ''])
func StartCompl()
call timer_start(100, { -> execute('stopinsert') })
call feedkeys("Gah\<C-N>")
endfunc
END
call writefile(lines, 'Xpumscript')
let buf = RunVimInTerminal('-S Xpumscript', #{rows: 12})
call term_sendkeys(buf, ":call StartCompl()\<CR>")
call TermWait(buf, 200)
call term_sendkeys(buf, "k")
call VerifyScreenDump(buf, 'Test_pum_stopped_by_timer', {})
call StopVimInTerminal(buf)
call delete('Xpumscript')
endfunc
func Test_complete_stopinsert_startinsert()
nnoremap <F2> <Cmd>startinsert<CR>
inoremap <F2> <Cmd>stopinsert<CR>
" This just checks if this causes an error
call feedkeys("i\<C-X>\<C-N>\<F2>\<F2>", 'x')
nunmap <F2>
iunmap <F2>
endfunc
func Test_pum_with_folds_two_tabs()
CheckScreendump
let lines =<< trim END
set fdm=marker
call setline(1, ['" x {{{1', '" a some text'])
call setline(3, range(&lines)->map({_, val -> '" a' .. val}))
norm! zm
tab sp
call feedkeys('2Gzv', 'xt')
call feedkeys("0fa", 'xt')
END
call writefile(lines, 'Xpumscript')
let buf = RunVimInTerminal('-S Xpumscript', #{rows: 10})
call term_wait(buf, 100)
call term_sendkeys(buf, "a\<C-N>")
call VerifyScreenDump(buf, 'Test_pum_with_folds_two_tabs', {})
call term_sendkeys(buf, "\<Esc>")
call StopVimInTerminal(buf)
call delete('Xpumscript')
endfunc
func Test_pum_with_preview_win()
CheckScreendump
let lines =<< trim END
funct Omni_test(findstart, base)
if a:findstart
return col(".") - 1
endif
return [#{word: "one", info: "1info"}, #{word: "two", info: "2info"}, #{word: "three", info: "3info"}]
endfunc
set omnifunc=Omni_test
set completeopt+=longest
END
call writefile(lines, 'Xpreviewscript')
let buf = RunVimInTerminal('-S Xpreviewscript', #{rows: 12})
call term_wait(buf, 100)
call term_sendkeys(buf, "Gi\<C-X>\<C-O>")
call term_wait(buf, 200)
call term_sendkeys(buf, "\<C-N>")
call VerifyScreenDump(buf, 'Test_pum_with_preview_win', {})
call term_sendkeys(buf, "\<Esc>")
call StopVimInTerminal(buf)
call delete('Xpreviewscript')
endfunc
" Test for inserting the tag search pattern in insert mode
func Test_ins_compl_tag_sft()
call writefile([
\ "!_TAG_FILE_ENCODING\tutf-8\t//",
\ "first\tXfoo\t/^int first() {}$/",
\ "second\tXfoo\t/^int second() {}$/",
\ "third\tXfoo\t/^int third() {}$/"],
\ 'Xtags')
set tags=Xtags
let code =<< trim [CODE]
int first() {}
int second() {}
int third() {}
[CODE]
call writefile(code, 'Xfoo')
enew
set showfulltag
exe "normal isec\<C-X>\<C-]>\<C-N>\<CR>"
call assert_equal('int second() {}', getline(1))
set noshowfulltag
call delete('Xtags')
call delete('Xfoo')
set tags&
%bwipe!
endfunc
" Test for 'completefunc' deleting text
func Test_completefunc_error()
new
" delete text when called for the first time
func CompleteFunc(findstart, base)
if a:findstart == 1
normal dd
return col('.') - 1
endif
return ['a', 'b']
endfunc
set completefunc=CompleteFunc
call setline(1, ['', 'abcd', ''])
call assert_fails('exe "normal 2G$a\<C-X>\<C-U>"', 'E565:')
" delete text when called for the second time
func CompleteFunc2(findstart, base)
if a:findstart == 1
return col('.') - 1
endif
normal dd
return ['a', 'b']
endfunc
set completefunc=CompleteFunc2
call setline(1, ['', 'abcd', ''])
call assert_fails('exe "normal 2G$a\<C-X>\<C-U>"', 'E565:')
" Jump to a different window from the complete function
func CompleteFunc3(findstart, base)
if a:findstart == 1
return col('.') - 1
endif
wincmd p
return ['a', 'b']
endfunc
set completefunc=CompleteFunc3
new
call assert_fails('exe "normal a\<C-X>\<C-U>"', 'E565:')
close!
set completefunc&
delfunc CompleteFunc
delfunc CompleteFunc2
delfunc CompleteFunc3
close!
endfunc
" Test for returning non-string values from 'completefunc'
func Test_completefunc_invalid_data()
new
func! CompleteFunc(findstart, base)
if a:findstart == 1
return col('.') - 1
endif
return [{}, '', 'moon']
endfunc
set completefunc=CompleteFunc
exe "normal i\<C-X>\<C-U>"
call assert_equal('moon', getline(1))
set completefunc&
close!
endfunc
" Test for errors in using complete() function
func Test_complete_func_error()
call assert_fails('call complete(1, ["a"])', 'E785:')
func ListColors()
call complete(col('.'), "blue")
endfunc
call assert_fails('exe "normal i\<C-R>=ListColors()\<CR>"', 'E474:')
func ListMonths()
call complete(col('.'), test_null_list())
endfunc
" Nvim allows a NULL list
" call assert_fails('exe "normal i\<C-R>=ListMonths()\<CR>"', 'E474:')
delfunc ListColors
delfunc ListMonths
call assert_fails('call complete_info({})', 'E714:')
call assert_equal([], complete_info(['items']).items)
endfunc
" Test for recursively starting completion mode using complete()
func Test_recursive_complete_func()
func ListColors()
call complete(5, ["red", "blue"])
return ''
endfunc
new
call setline(1, ['a1', 'a2'])
set complete=.
exe "normal Goa\<C-X>\<C-L>\<C-R>=ListColors()\<CR>\<C-N>"
call assert_equal('a2blue', getline(3))
delfunc ListColors
bw!
endfunc
" Test for using complete() with completeopt+=longest
func Test_complete_with_longest()
new
inoremap <buffer> <f3> <cmd>call complete(1, ["iaax", "iaay", "iaaz"])<cr>
" default: insert first match
set completeopt&
call setline(1, ['i'])
exe "normal Aa\<f3>\<esc>"
call assert_equal('iaax', getline(1))
" with longest: insert longest prefix
set completeopt+=longest
call setline(1, ['i'])
exe "normal Aa\<f3>\<esc>"
call assert_equal('iaa', getline(1))
set completeopt&
bwipe!
endfunc
" Test for completing words following a completed word in a line
func Test_complete_wrapscan()
" complete words from another buffer
new
call setline(1, ['one two', 'three four'])
new
setlocal complete=w
call feedkeys("itw\<C-N>\<C-X>\<C-N>\<C-X>\<C-N>\<C-X>\<C-N>", 'xt')
call assert_equal('two three four', getline(1))
close!
" complete words from the current buffer
setlocal complete=.
%d
call setline(1, ['one two', ''])
call cursor(2, 1)
call feedkeys("ion\<C-N>\<C-X>\<C-N>\<C-X>\<C-N>\<C-X>\<C-N>", 'xt')
call assert_equal('one two one two', getline(2))
close!
endfunc
" Test for completing special characters
func Test_complete_special_chars()
new
call setline(1, 'int .*[-\^$ func float')
call feedkeys("oin\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>", 'xt')
call assert_equal('int .*[-\^$ func float', getline(2))
close!
endfunc
" Test for completion when text is wrapped across lines.
func Test_complete_across_line()
new
call setline(1, ['red green blue', 'one two three'])
setlocal textwidth=20
exe "normal 2G$a re\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>"
call assert_equal(['one two three red', 'green blue one'], getline(2, '$'))
close!
endfunc
" Test for completing words with a '.' at the end of a word.
func Test_complete_joinspaces()
new
call setline(1, ['one two.', 'three. four'])
set joinspaces
exe "normal Goon\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>"
call assert_equal("one two. three. four", getline(3))
set joinspaces&
bw!
endfunc
" Test for using CTRL-L to add one character when completing matching
func Test_complete_add_onechar()
new
call setline(1, ['wool', 'woodwork'])
call feedkeys("Gowoo\<C-P>\<C-P>\<C-P>\<C-L>f", 'xt')
call assert_equal('woof', getline(3))
" use 'ignorecase' and backspace to erase characters from the prefix string
" and then add letters using CTRL-L
%d
set ignorecase backspace=2
setlocal complete=.
call setline(1, ['workhorse', 'workload'])
normal Go
exe "normal aWOR\<C-P>\<bs>\<bs>\<bs>\<bs>\<bs>\<bs>\<C-L>r\<C-L>\<C-L>"
call assert_equal('workh', getline(3))
set ignorecase& backspace&
close!
endfunc
" Test for using CTRL-X CTRL-L to complete whole lines lines
func Test_complete_wholeline()
new
" complete one-line
call setline(1, ['a1', 'a2'])
exe "normal ggoa\<C-X>\<C-L>"
call assert_equal(['a1', 'a1', 'a2'], getline(1, '$'))
" go to the next match (wrapping around the buffer)
exe "normal 2GCa\<C-X>\<C-L>\<C-N>"
call assert_equal(['a1', 'a', 'a2'], getline(1, '$'))
" go to the next match
exe "normal 2GCa\<C-X>\<C-L>\<C-N>\<C-N>"
call assert_equal(['a1', 'a2', 'a2'], getline(1, '$'))
exe "normal 2GCa\<C-X>\<C-L>\<C-N>\<C-N>\<C-N>"
call assert_equal(['a1', 'a1', 'a2'], getline(1, '$'))
" repeat the test using CTRL-L
" go to the next match (wrapping around the buffer)
exe "normal 2GCa\<C-X>\<C-L>\<C-L>"
call assert_equal(['a1', 'a2', 'a2'], getline(1, '$'))
" go to the next match
exe "normal 2GCa\<C-X>\<C-L>\<C-L>\<C-L>"
call assert_equal(['a1', 'a', 'a2'], getline(1, '$'))
exe "normal 2GCa\<C-X>\<C-L>\<C-L>\<C-L>\<C-L>"
call assert_equal(['a1', 'a1', 'a2'], getline(1, '$'))
%d
" use CTRL-X CTRL-L to add one more line
call setline(1, ['a1', 'b1'])
setlocal complete=.
exe "normal ggOa\<C-X>\<C-L>\<C-X>\<C-L>\<C-X>\<C-L>"
call assert_equal(['a1', 'b1', '', 'a1', 'b1'], getline(1, '$'))
bw!
endfunc
" Test insert completion with 'cindent' (adjust the indent)
func Test_complete_with_cindent()
new
setlocal cindent
call setline(1, ['if (i == 1)', " j = 2;"])
exe "normal Go{\<CR>i\<C-X>\<C-L>\<C-X>\<C-L>\<CR>}"
call assert_equal(['{', "\tif (i == 1)", "\t\tj = 2;", '}'], getline(3, '$'))
%d
call setline(1, ['when while', '{', ''])
setlocal cinkeys+==while
exe "normal Giwh\<C-P> "
call assert_equal("\twhile ", getline('$'))
close!
endfunc
" Test for <CTRL-X> <CTRL-V> completion. Complete commands and functions
func Test_complete_cmdline()
new
exe "normal icaddb\<C-X>\<C-V>"
call assert_equal('caddbuffer', getline(1))
exe "normal ocall getqf\<C-X>\<C-V>"
call assert_equal('call getqflist(', getline(2))
exe "normal oabcxyz(\<C-X>\<C-V>"
call assert_equal('abcxyz(', getline(3))
com! -buffer TestCommand1 echo 'TestCommand1'
com! -buffer TestCommand2 echo 'TestCommand2'
write TestCommand1Test
write TestCommand2Test
" Test repeating <CTRL-X> <CTRL-V> and switching to another CTRL-X mode
exe "normal oT\<C-X>\<C-V>\<C-X>\<C-V>\<C-X>\<C-F>\<Esc>"
call assert_equal('TestCommand2Test', getline(4))
call delete('TestCommand1Test')
call delete('TestCommand2Test')
delcom TestCommand1
delcom TestCommand2
close!
endfunc
" Test for <CTRL-X> <CTRL-Z> stopping completion without changing the match
func Test_complete_stop()
new
func Save_mode1()
let g:mode1 = mode(1)
return ''
endfunc
func Save_mode2()
let g:mode2 = mode(1)
return ''
endfunc
inoremap <F1> <C-R>=Save_mode1()<CR>
inoremap <F2> <C-R>=Save_mode2()<CR>
call setline(1, ['aaa bbb ccc '])
exe "normal A\<C-N>\<C-P>\<F1>\<C-X>\<C-Z>\<F2>\<Esc>"
call assert_equal('ic', g:mode1)
call assert_equal('i', g:mode2)
call assert_equal('aaa bbb ccc ', getline(1))
exe "normal A\<C-N>\<Down>\<F1>\<C-X>\<C-Z>\<F2>\<Esc>"
call assert_equal('ic', g:mode1)
call assert_equal('i', g:mode2)
call assert_equal('aaa bbb ccc aaa', getline(1))
set completeopt+=noselect
exe "normal A \<C-N>\<Down>\<Down>\<C-L>\<C-L>\<F1>\<C-X>\<C-Z>\<F2>\<Esc>"
call assert_equal('ic', g:mode1)
call assert_equal('i', g:mode2)
call assert_equal('aaa bbb ccc aaa bb', getline(1))
set completeopt&
exe "normal A d\<C-N>\<F1>\<C-X>\<C-Z>\<F2>\<Esc>"
call assert_equal('ic', g:mode1)
call assert_equal('i', g:mode2)
call assert_equal('aaa bbb ccc aaa bb d', getline(1))
com! -buffer TestCommand1 echo 'TestCommand1'
com! -buffer TestCommand2 echo 'TestCommand2'
exe "normal oT\<C-X>\<C-V>\<C-X>\<C-V>\<F1>\<C-X>\<C-Z>\<F2>\<Esc>"
call assert_equal('ic', g:mode1)
call assert_equal('i', g:mode2)
call assert_equal('TestCommand2', getline(2))
delcom TestCommand1
delcom TestCommand2
unlet g:mode1
unlet g:mode2
iunmap <F1>
iunmap <F2>
delfunc Save_mode1
delfunc Save_mode2
close!
endfunc
" Test for typing CTRL-R in insert completion mode to insert a register
" content.
func Test_complete_reginsert()
new
call setline(1, ['a1', 'a12', 'a123', 'a1234'])
" if a valid CTRL-X mode key is returned from <C-R>=, then it should be
" processed. Otherwise, CTRL-X mode should be stopped and the key should be
" inserted.
exe "normal Goa\<C-P>\<C-R>=\"\\<C-P>\"\<CR>"
call assert_equal('a123', getline(5))
let @r = "\<C-P>\<C-P>"
exe "normal GCa\<C-P>\<C-R>r"
call assert_equal('a12', getline(5))
exe "normal GCa\<C-P>\<C-R>=\"x\"\<CR>"
call assert_equal('a1234x', getline(5))
bw!
endfunc
func Test_issue_7021()
CheckMSWindows
let orig_shellslash = &shellslash
set noshellslash
set completeslash=slash
call assert_false(expand('~') =~ '/')
let &shellslash = orig_shellslash
set completeslash=
endfunc
" Test for 'longest' setting in 'completeopt' with latin1 and utf-8 encodings
func Test_complete_longest_match()
" for e in ['latin1', 'utf-8']
for e in ['utf-8']
exe 'set encoding=' .. e
new
set complete=.
set completeopt=menu,longest
call setline(1, ['pfx_a1', 'pfx_a12', 'pfx_a123', 'pfx_b1'])
exe "normal Gopfx\<C-P>"
call assert_equal('pfx_', getline(5))
bw!
endfor
" Test for completing additional words with longest match set
new
call setline(1, ['abc1', 'abd2'])
exe "normal Goab\<C-P>\<C-X>\<C-P>"
call assert_equal('ab', getline(3))
bw!
set complete& completeopt&
endfunc
" Test for removing the first displayed completion match and selecting the
" match just before that.
func Test_complete_erase_firstmatch()
new
call setline(1, ['a12', 'a34', 'a56'])
set complete=.
exe "normal Goa\<C-P>\<BS>\<BS>3\<CR>"
call assert_equal('a34', getline('$'))
set complete&
bw!
endfunc
" Test for completing words from unloaded buffers
func Test_complete_from_unloadedbuf()
call writefile(['abc'], "Xfile1")
call writefile(['def'], "Xfile2")
edit Xfile1
edit Xfile2
new | close
enew
bunload Xfile1 Xfile2
set complete=u
" complete from an unloaded buffer
exe "normal! ia\<C-P>"
call assert_equal('abc', getline(1))
exe "normal! od\<C-P>"
call assert_equal('def', getline(2))
set complete&
%bw!
call delete("Xfile1")
call delete("Xfile2")
endfunc
" Test for completing whole lines from unloaded buffers
func Test_complete_wholeline_unloadedbuf()
call writefile(['a line1', 'a line2', 'a line3'], "Xfile1")
edit Xfile1
enew
set complete=u
exe "normal! ia\<C-X>\<C-L>\<C-P>"
call assert_equal('a line2', getline(1))
%d
" completing from an unlisted buffer should fail
bdel Xfile1
exe "normal! ia\<C-X>\<C-L>\<C-P>"
call assert_equal('a', getline(1))
set complete&
%bw!
call delete("Xfile1")
endfunc
" Test for completing words from unlisted buffers
func Test_complete_from_unlistedbuf()
call writefile(['abc'], "Xfile1")
call writefile(['def'], "Xfile2")
edit Xfile1
edit Xfile2
new | close
bdel Xfile1 Xfile2
set complete=U
" complete from an unlisted buffer
exe "normal! ia\<C-P>"
call assert_equal('abc', getline(1))
exe "normal! od\<C-P>"
call assert_equal('def', getline(2))
set complete&
%bw!
call delete("Xfile1")
call delete("Xfile2")
endfunc
" Test for completing whole lines from unlisted buffers
func Test_complete_wholeline_unlistedbuf()
call writefile(['a line1', 'a line2', 'a line3'], "Xfile1")
edit Xfile1
enew
set complete=U
" completing from a unloaded buffer should fail
exe "normal! ia\<C-X>\<C-L>\<C-P>"
call assert_equal('a', getline(1))
%d
bdel Xfile1
exe "normal! ia\<C-X>\<C-L>\<C-P>"
call assert_equal('a line2', getline(1))
set complete&
%bw!
call delete("Xfile1")
endfunc
" Test for adding a multibyte character using CTRL-L in completion mode
func Test_complete_mbyte_char_add()
new
set complete=.
call setline(1, 'abė')
exe "normal! oa\<C-P>\<BS>\<BS>\<C-L>\<C-L>"
call assert_equal('abė', getline(2))
" Test for a leader with multibyte character
%d
call setline(1, 'abėĕ')
exe "normal! oabė\<C-P>"
call assert_equal('abėĕ', getline(2))
bw!
endfunc
" Test for using <C-X><C-P> for local expansion even if 'complete' is set to
" not to complete matches from the local buffer. Also test using multiple
" <C-X> to cancel the current completion mode.
func Test_complete_local_expansion()
new
set complete=t
call setline(1, ['abc', 'def'])
exe "normal! Go\<C-X>\<C-P>"
call assert_equal("def", getline(3))
exe "normal! Go\<C-P>"
call assert_equal("", getline(4))
exe "normal! Go\<C-X>\<C-N>"
call assert_equal("abc", getline(5))
exe "normal! Go\<C-N>"
call assert_equal("", getline(6))
" use multiple <C-X> to cancel the previous completion mode
exe "normal! Go\<C-P>\<C-X>\<C-P>"
call assert_equal("", getline(7))
exe "normal! Go\<C-P>\<C-X>\<C-X>\<C-P>"
call assert_equal("", getline(8))
exe "normal! Go\<C-P>\<C-X>\<C-X>\<C-X>\<C-P>"
call assert_equal("abc", getline(9))
" interrupt the current completion mode
set completeopt=menu,noinsert
exe "normal! Go\<C-X>\<C-F>\<C-X>\<C-X>\<C-P>\<C-Y>"
call assert_equal("abc", getline(10))
" when only one <C-X> is used to interrupt, do normal expansion
exe "normal! Go\<C-X>\<C-F>\<C-X>\<C-P>"
call assert_equal("", getline(11))
set completeopt&
" using two <C-X> in non-completion mode and restarting the same mode
exe "normal! God\<C-X>\<C-X>\<C-P>\<C-X>\<C-X>\<C-P>\<C-Y>"
call assert_equal("def", getline(12))
" test for adding a match from the original empty text
%d
call setline(1, 'abc def g')
exe "normal! o\<C-X>\<C-P>\<C-N>\<C-X>\<C-P>"
call assert_equal('def', getline(2))
exe "normal! 0C\<C-X>\<C-N>\<C-P>\<C-X>\<C-N>"
call assert_equal('abc', getline(2))
bw!
endfunc
" Test for undoing changes after a insert-mode completion
func Test_complete_undo()
new
set complete=.
" undo with 'ignorecase'
call setline(1, ['ABOVE', 'BELOW'])
set ignorecase
exe "normal! Goab\<C-G>u\<C-P>"
call assert_equal("ABOVE", getline(3))
undo
call assert_equal("ab", getline(3))
set ignorecase&
%d
" undo with longest match
set completeopt=menu,longest
call setline(1, ['above', 'about'])
exe "normal! Goa\<C-G>u\<C-P>"
call assert_equal("abo", getline(3))
undo
call assert_equal("a", getline(3))
set completeopt&
%d
" undo for line completion
call setline(1, ['above that change', 'below that change'])
exe "normal! Goabove\<C-G>u\<C-X>\<C-L>"
call assert_equal("above that change", getline(3))
undo
call assert_equal("above", getline(3))
bw!
endfunc
" Test for completing a very long word
func Test_complete_long_word()
set complete&
new
call setline(1, repeat('x', 950) .. ' one two three')
exe "normal! Gox\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>"
call assert_equal(repeat('x', 950) .. ' one two three', getline(2))
%d
" should fail when more than 950 characters are in a word
call setline(1, repeat('x', 951) .. ' one two three')
exe "normal! Gox\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>\<C-X>\<C-P>"
call assert_equal(repeat('x', 951), getline(2))
" Test for adding a very long word to an existing completion
%d
call setline(1, ['abc', repeat('x', 1016) .. '012345'])
exe "normal! Goab\<C-P>\<C-X>\<C-P>"
call assert_equal('abc ' .. repeat('x', 1016) .. '0123', getline(3))
bw!
endfunc
" Test for some fields in the complete items used by complete()
func Test_complete_items()
func CompleteItems(idx)
let items = [[#{word: "one", dup: 1, user_data: 'u1'}, #{word: "one", dup: 1, user_data: 'u2'}],
\ [#{word: "one", dup: 0, user_data: 'u3'}, #{word: "one", dup: 0, user_data: 'u4'}],
\ [#{word: "one", icase: 1, user_data: 'u7'}, #{word: "oNE", icase: 1, user_data: 'u8'}],
\ [#{user_data: 'u9'}],
\ [#{word: "", user_data: 'u10'}],
\ [#{word: "", empty: 1, user_data: 'u11'}]]
call complete(col('.'), items[a:idx])
return ''
endfunc
new
exe "normal! i\<C-R>=CompleteItems(0)\<CR>\<C-N>\<C-Y>"
call assert_equal('u2', v:completed_item.user_data)
call assert_equal('one', getline(1))
exe "normal! o\<C-R>=CompleteItems(1)\<CR>\<C-Y>"
call assert_equal('u3', v:completed_item.user_data)
call assert_equal('one', getline(2))
exe "normal! o\<C-R>=CompleteItems(1)\<CR>\<C-N>"
call assert_equal('', getline(3))
set completeopt=menu,noinsert
exe "normal! o\<C-R>=CompleteItems(2)\<CR>one\<C-N>\<C-Y>"
call assert_equal('oNE', getline(4))
call assert_equal('u8', v:completed_item.user_data)
set completeopt&
exe "normal! o\<C-R>=CompleteItems(3)\<CR>"
call assert_equal('', getline(5))
exe "normal! o\<C-R>=CompleteItems(4)\<CR>"
call assert_equal('', getline(6))
exe "normal! o\<C-R>=CompleteItems(5)\<CR>"
call assert_equal('', getline(7))
call assert_equal('u11', v:completed_item.user_data)
" pass invalid argument to complete()
let cmd = "normal! o\<C-R>=complete(1, [[]])\<CR>"
call assert_fails('exe cmd', 'E730:')
bw!
delfunc CompleteItems
endfunc
" Test for the "refresh" item in the dict returned by an insert completion
" function
func Test_complete_item_refresh_always()
let g:CallCount = 0
func! Tcomplete(findstart, base)
if a:findstart
" locate the start of the word
let line = getline('.')
let start = col('.') - 1
while start > 0 && line[start - 1] =~ '\a'
let start -= 1
endwhile
return start
else
let g:CallCount += 1
let res = ["update1", "update12", "update123"]
return #{words: res, refresh: 'always'}
endif
endfunc
new
set completeopt=menu,longest
set completefunc=Tcomplete
exe "normal! iup\<C-X>\<C-U>\<BS>\<BS>\<BS>\<BS>\<BS>"
call assert_equal('up', getline(1))
call assert_equal(2, g:CallCount)
set completeopt&
set completefunc&
bw!
delfunc Tcomplete
endfunc
" Test for completing from a thesaurus file without read permission
func Test_complete_unreadable_thesaurus_file()
CheckUnix
CheckNotRoot
call writefile(['about', 'above'], 'Xfile')
call setfperm('Xfile', '---r--r--')
new
set complete=sXfile
exe "normal! ia\<C-P>"
call assert_equal('a', getline(1))
bw!
call delete('Xfile')
set complete&
endfunc
" Test to ensure 'Scanning...' messages are not recorded in messages history
func Test_z1_complete_no_history()
new
messages clear
let currmess = execute('messages')
setlocal dictionary=README.txt
exe "normal owh\<C-X>\<C-K>"
exe "normal owh\<C-N>"
call assert_equal(currmess, execute('messages'))
bwipe!
endfunc
" A mapping is not used for the key after CTRL-X.
func Test_no_mapping_for_ctrl_x_key()
new
inoremap <buffer> <C-K> <Cmd>let was_mapped = 'yes'<CR>
setlocal dictionary=README.txt
call feedkeys("aexam\<C-X>\<C-K> ", 'xt')
call assert_equal('example ', getline(1))
call assert_false(exists('was_mapped'))
bwipe!
endfunc
" Test for different ways of setting the 'completefunc' option
func Test_completefunc_callback()
func CompleteFunc1(callnr, findstart, base)
call add(g:CompleteFunc1Args, [a:callnr, a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
func CompleteFunc2(findstart, base)
call add(g:CompleteFunc2Args, [a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
let lines =<< trim END
#" Test for using a global function name
LET &completefunc = 'g:CompleteFunc2'
new
call setline(1, 'global')
LET g:CompleteFunc2Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'global']], g:CompleteFunc2Args)
bw!
#" Test for using a function()
set completefunc=function('g:CompleteFunc1',\ [10])
new
call setline(1, 'one')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[10, 1, ''], [10, 0, 'one']], g:CompleteFunc1Args)
bw!
#" Using a funcref variable to set 'completefunc'
VAR Fn = function('g:CompleteFunc1', [11])
LET &completefunc = Fn
new
call setline(1, 'two')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[11, 1, ''], [11, 0, 'two']], g:CompleteFunc1Args)
bw!
#" Using string(funcref_variable) to set 'completefunc'
LET Fn = function('g:CompleteFunc1', [12])
LET &completefunc = string(Fn)
new
call setline(1, 'two')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[12, 1, ''], [12, 0, 'two']], g:CompleteFunc1Args)
bw!
#" Test for using a funcref()
set completefunc=funcref('g:CompleteFunc1',\ [13])
new
call setline(1, 'three')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[13, 1, ''], [13, 0, 'three']], g:CompleteFunc1Args)
bw!
#" Using a funcref variable to set 'completefunc'
LET Fn = funcref('g:CompleteFunc1', [14])
LET &completefunc = Fn
new
call setline(1, 'four')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[14, 1, ''], [14, 0, 'four']], g:CompleteFunc1Args)
bw!
#" Using a string(funcref_variable) to set 'completefunc'
LET Fn = funcref('g:CompleteFunc1', [15])
LET &completefunc = string(Fn)
new
call setline(1, 'four')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[15, 1, ''], [15, 0, 'four']], g:CompleteFunc1Args)
bw!
#" Test for using a lambda function with set
VAR optval = "LSTART a, b LMIDDLE CompleteFunc1(16, a, b) LEND"
LET optval = substitute(optval, ' ', '\\ ', 'g')
exe "set completefunc=" .. optval
new
call setline(1, 'five')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[16, 1, ''], [16, 0, 'five']], g:CompleteFunc1Args)
bw!
#" Set 'completefunc' to a lambda expression
LET &completefunc = LSTART a, b LMIDDLE CompleteFunc1(17, a, b) LEND
new
call setline(1, 'six')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[17, 1, ''], [17, 0, 'six']], g:CompleteFunc1Args)
bw!
#" Set 'completefunc' to string(lambda_expression)
LET &completefunc = 'LSTART a, b LMIDDLE CompleteFunc1(18, a, b) LEND'
new
call setline(1, 'six')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[18, 1, ''], [18, 0, 'six']], g:CompleteFunc1Args)
bw!
#" Set 'completefunc' to a variable with a lambda expression
VAR Lambda = LSTART a, b LMIDDLE CompleteFunc1(19, a, b) LEND
LET &completefunc = Lambda
new
call setline(1, 'seven')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[19, 1, ''], [19, 0, 'seven']], g:CompleteFunc1Args)
bw!
#" Set 'completefunc' to a string(variable with a lambda expression)
LET Lambda = LSTART a, b LMIDDLE CompleteFunc1(20, a, b) LEND
LET &completefunc = string(Lambda)
new
call setline(1, 'seven')
LET g:CompleteFunc1Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[20, 1, ''], [20, 0, 'seven']], g:CompleteFunc1Args)
bw!
#" Test for using a lambda function with incorrect return value
LET Lambda = LSTART a, b LMIDDLE strlen(a) LEND
LET &completefunc = Lambda
new
call setline(1, 'eight')
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
bw!
#" Test for clearing the 'completefunc' option
set completefunc=''
set completefunc&
call assert_fails("set completefunc=function('abc')", "E700:")
call assert_fails("set completefunc=funcref('abc')", "E700:")
#" set 'completefunc' to a non-existing function
set completefunc=CompleteFunc2
call setline(1, 'five')
call assert_fails("set completefunc=function('NonExistingFunc')", 'E700:')
call assert_fails("LET &completefunc = function('NonExistingFunc')", 'E700:')
LET g:CompleteFunc2Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'five']], g:CompleteFunc2Args)
bw!
END
call CheckLegacyAndVim9Success(lines)
" Test for using a script-local function name
func s:CompleteFunc3(findstart, base)
call add(g:CompleteFunc3Args, [a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
set completefunc=s:CompleteFunc3
new
call setline(1, 'script1')
let g:CompleteFunc3Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'script1']], g:CompleteFunc3Args)
bw!
let &completefunc = 's:CompleteFunc3'
new
call setline(1, 'script2')
let g:CompleteFunc3Args = []
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'script2']], g:CompleteFunc3Args)
bw!
delfunc s:CompleteFunc3
" invalid return value
let &completefunc = {a -> 'abc'}
call feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
" Using Vim9 lambda expression in legacy context should fail
" set completefunc=(a,\ b)\ =>\ CompleteFunc1(21,\ a,\ b)
new | only
let g:CompleteFunc1Args = []
" call assert_fails('call feedkeys("A\<C-X>\<C-U>\<Esc>", "x")', 'E117:')
call assert_equal([], g:CompleteFunc1Args)
" set 'completefunc' to a partial with dict. This used to cause a crash.
func SetCompleteFunc()
let params = {'complete': function('g:DictCompleteFunc')}
let &completefunc = params.complete
endfunc
func g:DictCompleteFunc(_) dict
endfunc
call SetCompleteFunc()
new
call SetCompleteFunc()
bw
call test_garbagecollect_now()
new
set completefunc=
wincmd w
set completefunc=
%bw!
delfunc g:DictCompleteFunc
delfunc SetCompleteFunc
" Vim9 tests
let lines =<< trim END
vim9script
def Vim9CompleteFunc(callnr: number, findstart: number, base: string): any
add(g:Vim9completeFuncArgs, [callnr, findstart, base])
return findstart ? 0 : []
enddef
# Test for using a def function with completefunc
set completefunc=function('Vim9CompleteFunc',\ [60])
new | only
setline(1, 'one')
g:Vim9completeFuncArgs = []
feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
assert_equal([[60, 1, ''], [60, 0, 'one']], g:Vim9completeFuncArgs)
bw!
# Test for using a global function name
&completefunc = g:CompleteFunc2
new | only
setline(1, 'two')
g:CompleteFunc2Args = []
feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
assert_equal([[1, ''], [0, 'two']], g:CompleteFunc2Args)
bw!
# Test for using a script-local function name
def s:LocalCompleteFunc(findstart: number, base: string): any
add(g:LocalCompleteFuncArgs, [findstart, base])
return findstart ? 0 : []
enddef
&completefunc = s:LocalCompleteFunc
new | only
setline(1, 'three')
g:LocalCompleteFuncArgs = []
feedkeys("A\<C-X>\<C-U>\<Esc>", 'x')
assert_equal([[1, ''], [0, 'three']], g:LocalCompleteFuncArgs)
bw!
END
call CheckScriptSuccess(lines)
" cleanup
set completefunc&
delfunc CompleteFunc1
delfunc CompleteFunc2
unlet g:CompleteFunc1Args g:CompleteFunc2Args
%bw!
endfunc
" Test for different ways of setting the 'omnifunc' option
func Test_omnifunc_callback()
func OmniFunc1(callnr, findstart, base)
call add(g:OmniFunc1Args, [a:callnr, a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
func OmniFunc2(findstart, base)
call add(g:OmniFunc2Args, [a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
let lines =<< trim END
#" Test for using a function name
LET &omnifunc = 'g:OmniFunc2'
new
call setline(1, 'zero')
LET g:OmniFunc2Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'zero']], g:OmniFunc2Args)
bw!
#" Test for using a function()
set omnifunc=function('g:OmniFunc1',\ [10])
new
call setline(1, 'one')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[10, 1, ''], [10, 0, 'one']], g:OmniFunc1Args)
bw!
#" Using a funcref variable to set 'omnifunc'
VAR Fn = function('g:OmniFunc1', [11])
LET &omnifunc = Fn
new
call setline(1, 'two')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[11, 1, ''], [11, 0, 'two']], g:OmniFunc1Args)
bw!
#" Using a string(funcref_variable) to set 'omnifunc'
LET Fn = function('g:OmniFunc1', [12])
LET &omnifunc = string(Fn)
new
call setline(1, 'two')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[12, 1, ''], [12, 0, 'two']], g:OmniFunc1Args)
bw!
#" Test for using a funcref()
set omnifunc=funcref('g:OmniFunc1',\ [13])
new
call setline(1, 'three')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[13, 1, ''], [13, 0, 'three']], g:OmniFunc1Args)
bw!
#" Use let to set 'omnifunc' to a funcref
LET Fn = funcref('g:OmniFunc1', [14])
LET &omnifunc = Fn
new
call setline(1, 'four')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[14, 1, ''], [14, 0, 'four']], g:OmniFunc1Args)
bw!
#" Using a string(funcref) to set 'omnifunc'
LET Fn = funcref("g:OmniFunc1", [15])
LET &omnifunc = string(Fn)
new
call setline(1, 'four')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[15, 1, ''], [15, 0, 'four']], g:OmniFunc1Args)
bw!
#" Test for using a lambda function with set
VAR optval = "LSTART a, b LMIDDLE OmniFunc1(16, a, b) LEND"
LET optval = substitute(optval, ' ', '\\ ', 'g')
exe "set omnifunc=" .. optval
new
call setline(1, 'five')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[16, 1, ''], [16, 0, 'five']], g:OmniFunc1Args)
bw!
#" Set 'omnifunc' to a lambda expression
LET &omnifunc = LSTART a, b LMIDDLE OmniFunc1(17, a, b) LEND
new
call setline(1, 'six')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[17, 1, ''], [17, 0, 'six']], g:OmniFunc1Args)
bw!
#" Set 'omnifunc' to a string(lambda_expression)
LET &omnifunc = 'LSTART a, b LMIDDLE OmniFunc1(18, a, b) LEND'
new
call setline(1, 'six')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[18, 1, ''], [18, 0, 'six']], g:OmniFunc1Args)
bw!
#" Set 'omnifunc' to a variable with a lambda expression
VAR Lambda = LSTART a, b LMIDDLE OmniFunc1(19, a, b) LEND
LET &omnifunc = Lambda
new
call setline(1, 'seven')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[19, 1, ''], [19, 0, 'seven']], g:OmniFunc1Args)
bw!
#" Set 'omnifunc' to a string(variable with a lambda expression)
LET Lambda = LSTART a, b LMIDDLE OmniFunc1(20, a, b) LEND
LET &omnifunc = string(Lambda)
new
call setline(1, 'seven')
LET g:OmniFunc1Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[20, 1, ''], [20, 0, 'seven']], g:OmniFunc1Args)
bw!
#" Test for using a lambda function with incorrect return value
LET Lambda = LSTART a, b LMIDDLE strlen(a) LEND
LET &omnifunc = Lambda
new
call setline(1, 'eight')
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
bw!
#" Test for clearing the 'omnifunc' option
set omnifunc=''
set omnifunc&
call assert_fails("set omnifunc=function('abc')", "E700:")
call assert_fails("set omnifunc=funcref('abc')", "E700:")
#" set 'omnifunc' to a non-existing function
set omnifunc=OmniFunc2
call setline(1, 'nine')
call assert_fails("set omnifunc=function('NonExistingFunc')", 'E700:')
call assert_fails("LET &omnifunc = function('NonExistingFunc')", 'E700:')
LET g:OmniFunc2Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'nine']], g:OmniFunc2Args)
bw!
END
call CheckLegacyAndVim9Success(lines)
" Test for using a script-local function name
func s:OmniFunc3(findstart, base)
call add(g:OmniFunc3Args, [a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
set omnifunc=s:OmniFunc3
new
call setline(1, 'script1')
let g:OmniFunc3Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'script1']], g:OmniFunc3Args)
bw!
let &omnifunc = 's:OmniFunc3'
new
call setline(1, 'script2')
let g:OmniFunc3Args = []
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'script2']], g:OmniFunc3Args)
bw!
delfunc s:OmniFunc3
" invalid return value
let &omnifunc = {a -> 'abc'}
call feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
" Using Vim9 lambda expression in legacy context should fail
" set omnifunc=(a,\ b)\ =>\ OmniFunc1(21,\ a,\ b)
new | only
let g:OmniFunc1Args = []
" call assert_fails('call feedkeys("A\<C-X>\<C-O>\<Esc>", "x")', 'E117:')
call assert_equal([], g:OmniFunc1Args)
" set 'omnifunc' to a partial with dict. This used to cause a crash.
func SetOmniFunc()
let params = {'omni': function('g:DictOmniFunc')}
let &omnifunc = params.omni
endfunc
func g:DictOmniFunc(_) dict
endfunc
call SetOmniFunc()
new
call SetOmniFunc()
bw
call test_garbagecollect_now()
new
set omnifunc=
wincmd w
set omnifunc=
%bw!
delfunc g:DictOmniFunc
delfunc SetOmniFunc
" Vim9 tests
let lines =<< trim END
vim9script
def Vim9omniFunc(callnr: number, findstart: number, base: string): any
add(g:Vim9omniFunc_Args, [callnr, findstart, base])
return findstart ? 0 : []
enddef
# Test for using a def function with omnifunc
set omnifunc=function('Vim9omniFunc',\ [60])
new | only
setline(1, 'one')
g:Vim9omniFunc_Args = []
feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
assert_equal([[60, 1, ''], [60, 0, 'one']], g:Vim9omniFunc_Args)
bw!
# Test for using a global function name
&omnifunc = g:OmniFunc2
new | only
setline(1, 'two')
g:OmniFunc2Args = []
feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
assert_equal([[1, ''], [0, 'two']], g:OmniFunc2Args)
bw!
# Test for using a script-local function name
def s:LocalOmniFunc(findstart: number, base: string): any
add(g:LocalOmniFuncArgs, [findstart, base])
return findstart ? 0 : []
enddef
&omnifunc = s:LocalOmniFunc
new | only
setline(1, 'three')
g:LocalOmniFuncArgs = []
feedkeys("A\<C-X>\<C-O>\<Esc>", 'x')
assert_equal([[1, ''], [0, 'three']], g:LocalOmniFuncArgs)
bw!
END
call CheckScriptSuccess(lines)
" cleanup
set omnifunc&
delfunc OmniFunc1
delfunc OmniFunc2
unlet g:OmniFunc1Args g:OmniFunc2Args
%bw!
endfunc
" Test for different ways of setting the 'thesaurusfunc' option
func Test_thesaurusfunc_callback()
func TsrFunc1(callnr, findstart, base)
call add(g:TsrFunc1Args, [a:callnr, a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
func TsrFunc2(findstart, base)
call add(g:TsrFunc2Args, [a:findstart, a:base])
return a:findstart ? 0 : ['sunday']
endfunc
let lines =<< trim END
#" Test for using a function name
LET &thesaurusfunc = 'g:TsrFunc2'
new
call setline(1, 'zero')
LET g:TsrFunc2Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'zero']], g:TsrFunc2Args)
bw!
#" Test for using a function()
set thesaurusfunc=function('g:TsrFunc1',\ [10])
new
call setline(1, 'one')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[10, 1, ''], [10, 0, 'one']], g:TsrFunc1Args)
bw!
#" Using a funcref variable to set 'thesaurusfunc'
VAR Fn = function('g:TsrFunc1', [11])
LET &thesaurusfunc = Fn
new
call setline(1, 'two')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[11, 1, ''], [11, 0, 'two']], g:TsrFunc1Args)
bw!
#" Using a string(funcref_variable) to set 'thesaurusfunc'
LET Fn = function('g:TsrFunc1', [12])
LET &thesaurusfunc = string(Fn)
new
call setline(1, 'two')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[12, 1, ''], [12, 0, 'two']], g:TsrFunc1Args)
bw!
#" Test for using a funcref()
set thesaurusfunc=funcref('g:TsrFunc1',\ [13])
new
call setline(1, 'three')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[13, 1, ''], [13, 0, 'three']], g:TsrFunc1Args)
bw!
#" Using a funcref variable to set 'thesaurusfunc'
LET Fn = funcref('g:TsrFunc1', [14])
LET &thesaurusfunc = Fn
new
call setline(1, 'four')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[14, 1, ''], [14, 0, 'four']], g:TsrFunc1Args)
bw!
#" Using a string(funcref_variable) to set 'thesaurusfunc'
LET Fn = funcref('g:TsrFunc1', [15])
LET &thesaurusfunc = string(Fn)
new
call setline(1, 'four')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[15, 1, ''], [15, 0, 'four']], g:TsrFunc1Args)
bw!
#" Test for using a lambda function
VAR optval = "LSTART a, b LMIDDLE TsrFunc1(16, a, b) LEND"
LET optval = substitute(optval, ' ', '\\ ', 'g')
exe "set thesaurusfunc=" .. optval
new
call setline(1, 'five')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[16, 1, ''], [16, 0, 'five']], g:TsrFunc1Args)
bw!
#" Test for using a lambda function with set
LET &thesaurusfunc = LSTART a, b LMIDDLE TsrFunc1(17, a, b) LEND
new
call setline(1, 'six')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[17, 1, ''], [17, 0, 'six']], g:TsrFunc1Args)
bw!
#" Set 'thesaurusfunc' to a string(lambda expression)
LET &thesaurusfunc = 'LSTART a, b LMIDDLE TsrFunc1(18, a, b) LEND'
new
call setline(1, 'six')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[18, 1, ''], [18, 0, 'six']], g:TsrFunc1Args)
bw!
#" Set 'thesaurusfunc' to a variable with a lambda expression
VAR Lambda = LSTART a, b LMIDDLE TsrFunc1(19, a, b) LEND
LET &thesaurusfunc = Lambda
new
call setline(1, 'seven')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[19, 1, ''], [19, 0, 'seven']], g:TsrFunc1Args)
bw!
#" Set 'thesaurusfunc' to a string(variable with a lambda expression)
LET Lambda = LSTART a, b LMIDDLE TsrFunc1(20, a, b) LEND
LET &thesaurusfunc = string(Lambda)
new
call setline(1, 'seven')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[20, 1, ''], [20, 0, 'seven']], g:TsrFunc1Args)
bw!
#" Test for using a lambda function with incorrect return value
LET Lambda = LSTART a, b LMIDDLE strlen(a) LEND
LET &thesaurusfunc = Lambda
new
call setline(1, 'eight')
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
bw!
#" Test for clearing the 'thesaurusfunc' option
set thesaurusfunc=''
set thesaurusfunc&
call assert_fails("set thesaurusfunc=function('abc')", "E700:")
call assert_fails("set thesaurusfunc=funcref('abc')", "E700:")
#" set 'thesaurusfunc' to a non-existing function
set thesaurusfunc=TsrFunc2
call setline(1, 'ten')
call assert_fails("set thesaurusfunc=function('NonExistingFunc')", 'E700:')
call assert_fails("LET &thesaurusfunc = function('NonExistingFunc')", 'E700:')
LET g:TsrFunc2Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'ten']], g:TsrFunc2Args)
bw!
#" Use a buffer-local value and a global value
set thesaurusfunc&
setlocal thesaurusfunc=function('g:TsrFunc1',\ [22])
call setline(1, 'sun')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", "x")
call assert_equal('sun', getline(1))
call assert_equal([[22, 1, ''], [22, 0, 'sun']], g:TsrFunc1Args)
new
call setline(1, 'sun')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", "x")
call assert_equal('sun', getline(1))
call assert_equal([], g:TsrFunc1Args)
set thesaurusfunc=function('g:TsrFunc1',\ [23])
wincmd w
call setline(1, 'sun')
LET g:TsrFunc1Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", "x")
call assert_equal('sun', getline(1))
call assert_equal([[22, 1, ''], [22, 0, 'sun']], g:TsrFunc1Args)
:%bw!
END
call CheckLegacyAndVim9Success(lines)
" Test for using a script-local function name
func s:TsrFunc3(findstart, base)
call add(g:TsrFunc3Args, [a:findstart, a:base])
return a:findstart ? 0 : []
endfunc
set tsrfu=s:TsrFunc3
new
call setline(1, 'script1')
let g:TsrFunc3Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'script1']], g:TsrFunc3Args)
bw!
let &tsrfu = 's:TsrFunc3'
new
call setline(1, 'script2')
let g:TsrFunc3Args = []
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
call assert_equal([[1, ''], [0, 'script2']], g:TsrFunc3Args)
bw!
delfunc s:TsrFunc3
" invalid return value
let &thesaurusfunc = {a -> 'abc'}
call feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
" Using Vim9 lambda expression in legacy context should fail
" set thesaurusfunc=(a,\ b)\ =>\ TsrFunc1(21,\ a,\ b)
new | only
let g:TsrFunc1Args = []
" call assert_fails('call feedkeys("A\<C-X>\<C-T>\<Esc>", "x")', 'E117:')
call assert_equal([], g:TsrFunc1Args)
bw!
" set 'thesaurusfunc' to a partial with dict. This used to cause a crash.
func SetTsrFunc()
let params = {'thesaurus': function('g:DictTsrFunc')}
let &thesaurusfunc = params.thesaurus
endfunc
func g:DictTsrFunc(_) dict
endfunc
call SetTsrFunc()
new
call SetTsrFunc()
bw
call test_garbagecollect_now()
new
set thesaurusfunc=
wincmd w
%bw!
delfunc SetTsrFunc
" set buffer-local 'thesaurusfunc' to a partial with dict. This used to
" cause a crash.
func SetLocalTsrFunc()
let params = {'thesaurus': function('g:DictTsrFunc')}
let &l:thesaurusfunc = params.thesaurus
endfunc
call SetLocalTsrFunc()
call test_garbagecollect_now()
call SetLocalTsrFunc()
set thesaurusfunc=
bw!
delfunc g:DictTsrFunc
delfunc SetLocalTsrFunc
" Vim9 tests
let lines =<< trim END
vim9script
def Vim9tsrFunc(callnr: number, findstart: number, base: string): any
add(g:Vim9tsrFunc_Args, [callnr, findstart, base])
return findstart ? 0 : []
enddef
# Test for using a def function with thesaurusfunc
set thesaurusfunc=function('Vim9tsrFunc',\ [60])
new | only
setline(1, 'one')
g:Vim9tsrFunc_Args = []
feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
assert_equal([[60, 1, ''], [60, 0, 'one']], g:Vim9tsrFunc_Args)
bw!
# Test for using a global function name
&thesaurusfunc = g:TsrFunc2
new | only
setline(1, 'two')
g:TsrFunc2Args = []
feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
assert_equal([[1, ''], [0, 'two']], g:TsrFunc2Args)
bw!
# Test for using a script-local function name
def s:LocalTsrFunc(findstart: number, base: string): any
add(g:LocalTsrFuncArgs, [findstart, base])
return findstart ? 0 : []
enddef
&thesaurusfunc = s:LocalTsrFunc
new | only
setline(1, 'three')
g:LocalTsrFuncArgs = []
feedkeys("A\<C-X>\<C-T>\<Esc>", 'x')
assert_equal([[1, ''], [0, 'three']], g:LocalTsrFuncArgs)
bw!
END
call CheckScriptSuccess(lines)
" cleanup
set thesaurusfunc&
delfunc TsrFunc1
delfunc TsrFunc2
unlet g:TsrFunc1Args g:TsrFunc2Args
%bw!
endfunc
func FooBarComplete(findstart, base)
if a:findstart
return col('.') - 1
else
return ["Foo", "Bar", "}"]
endif
endfunc
func Test_complete_smartindent()
new
setlocal smartindent completefunc=FooBarComplete
exe "norm! o{\<cr>\<c-x>\<c-u>\<c-p>}\<cr>\<esc>"
let result = getline(1,'$')
call assert_equal(['', '{','}',''], result)
bw!
delfunction! FooBarComplete
endfunc
func Test_complete_overrun()
" this was going past the end of the copied text
new
sil norm si”0s0 
bwipe!
endfunc
func Test_infercase_very_long_line()
" this was truncating the line when inferring case
new
let longLine = "blah "->repeat(300)
let verylongLine = "blah "->repeat(400)
call setline(1, verylongLine)
call setline(2, longLine)
set ic infercase
exe "normal 2Go\<C-X>\<C-L>\<Esc>"
call assert_equal(longLine, getline(3))
" check that the too long text is NUL terminated
%del
norm o
norm 1987ax
exec "norm ox\<C-X>\<C-L>"
call assert_equal(repeat('x', 1987), getline(3))
bwipe!
set noic noinfercase
endfunc
func Test_ins_complete_add()
" this was reading past the end of allocated memory
new
norm o
norm 7o€€
sil! norm o
bwipe!
endfunc
func Test_ins_complete_end_of_line()
" this was reading past the end of the line
new
norm 8o€ý 
sil! norm o
bwipe!
endfunc
" vim: shiftwidth=2 sts=2 expandtab