" Test for insert completion source screendump.vim source check.vim import './vim9.vim' as v9 " 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('Xcpldir') cd Xcpldir set ff=unix call writefile(["test11\t36Gepeto\t/Tag/", \ "asd\ttest11file\t36G", \ "Makefile\tto\trun"], 'Xtestfile', 'D') call writefile(['', 'start of testfile', \ 'ru', \ 'run1', \ 'run2', \ 'STARTTEST', \ 'ENDTEST', \ 'end of testfile'], 'Xtestdata', 'D') 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\\\\\\" call assert_equal('run1 run3', getline('.')) " add-expands (current buffer first) exe "normal o\\\" call assert_equal('run3 run3', getline('.')) " Local expansion, ends in an empty line (unless it becomes a global " expansion) exe "normal o\\\\\\" call assert_equal('', getline('.')) " starts Local and switches to global add-expansion exe "normal o\\\\\\\\\" call assert_equal('run1 run2', getline('.')) set cpt=.,\ ,w,i " i-add-expands and switches to local exe "normal OM\\\\\\\\\" 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\\\\\\" 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\\IX\A\\\" 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\\\\\\\\\\\\" call assert_equal('Xtest11.one', getline('.')) normal ddk " Test for expanding a non-existing filename exe "normal oa1b2X3Y4\\" call assert_equal('a1b2X3Y4', getline('.')) normal ddk set cpt=w " checks make_cyclic in other window exe "normal oST\\\\\" call assert_equal('STARTTEST', getline('.')) set cpt=u nohid " checks unloaded buffer expansion only exe "normal oEN\" call assert_equal('ENDTEST', getline('.')) " checks adding mode abortion exe "normal ounl\\\\" call assert_equal('unless', getline('.')) set cpt=t,d def=^\\k* tags=Xtestfile notagbsearch " tag expansion, define add-expansion interrupted exe "normal o\\\\\\\\\\\\\\\" call assert_equal('test11file 36Gepeto /Tag/ asd', getline('.')) " t-expansion exe "normal oa\\" call assert_equal('asd', getline('.')) %bw! call delete('Xtest11.one') call delete('Xtest11.two') set cpt& cot& def& tags& tagbsearch& hidden& cd .. call delete('Xcpldir', 'rf') endfunc func Test_ins_complete_invalid_byte() if has('unix') && executable('base64') " this weird command was causing an illegal memory access call writefile(['bm9ybTlvMDCAMM4Dbw4OGA4ODg=='], 'Xinvalid64', 'D') call system('base64 -d Xinvalid64 > Xinvalid') call writefile(['qa!'], 'Xexit', 'D') call RunVim([], [], " -i NONE -n -X -Z -e -m -s -S Xinvalid -S Xexit") call delete('Xinvalid') endif 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 -\\" 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\\" 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_omni_autoload() let save_rtp = &rtp set rtp=Xruntime/some let dir = 'Xruntime/some/autoload' call mkdir(dir, 'pR') let lines =<< trim END vim9script export def Func(findstart: bool, base: string): any if findstart return 1 else return ['match'] endif enddef { eval 1 + 2 } END call writefile(lines, dir .. '/omni.vim') new setlocal omnifunc=omni#Func call feedkeys("i\\\", 'xt') bwipe! set omnifunc= let &rtp = save_rtp 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\\\", '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\\\", '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 ) 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() au CompleteDone * :call CompleteDone_CheckCompletedItemNone() let oldline = join(map(range(&columns), 'nr2char(screenchar(&lines-1, v:val+1))'), '') set completefunc=CompleteDone_CompleteFuncNone execute "normal a\\\" 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 CompleteDone_CheckCompletedItemDict(1) au CompleteDone * :call CompleteDone_CheckCompletedItemDict(0) set completefunc=CompleteDone_CompleteFuncDict execute "normal a\\\" 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 CompleteDone_CheckCompletedItemDictNoUserData() set completefunc=CompleteDone_CompleteFuncDictNoUserData execute "normal a\\\" 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 CompleteDone_CheckCompletedItemList() set completefunc=CompleteDone_CompleteFuncList execute "normal a\\\" 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\\\\", "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\\\\=string(complete_info())\\", "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\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_notequal(1, winsaveview().topline) call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_equal(1, winsaveview().topline) set nowrap call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_notequal(0, winsaveview().leftcol) call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_equal(0, winsaveview().leftcol) call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) " With completion menu scrolling cannot move text. set completeopt+=menu wrap call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_equal(1, winsaveview().topline) call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_equal(1, winsaveview().topline) set nowrap call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_equal(0, winsaveview().leftcol) call feedkeys("ccT\\\\", 'tx') call assert_equal('TestCommand2', getline('.')) call assert_equal(0, winsaveview().leftcol) call feedkeys("ccT\\\\", '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\\\\", "tx") call assert_equal("jump jump", getline(1)) bwipe! set completeopt& endfunc " Test for insert path completion with completeslash option func Test_ins_completeslash() CheckMSWindows call mkdir('Xcpldir', 'R') let orig_shellslash = &shellslash set cpt& new set noshellslash set completeslash= exe "normal oXcp\\" call assert_equal('Xcpldir\', getline('.')) set completeslash=backslash exe "normal oXcp\\" call assert_equal('Xcpldir\', getline('.')) set completeslash=slash exe "normal oXcp\\" call assert_equal('Xcpldir/', getline('.')) set shellslash set completeslash= exe "normal oXcp\\" call assert_equal('Xcpldir/', getline('.')) set completeslash=backslash exe "normal oXcp\\" call assert_equal('Xcpldir\', getline('.')) set completeslash=slash exe "normal oXcp\\" call assert_equal('Xcpldir/', getline('.')) %bw! 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\") endfunc END call writefile(lines, 'Xpumscript', 'D') let buf = RunVimInTerminal('-S Xpumscript', #{rows: 12}) call term_sendkeys(buf, ":call StartCompl()\") call TermWait(buf, 200) call term_sendkeys(buf, "k") call VerifyScreenDump(buf, 'Test_pum_stopped_by_timer', {}) call StopVimInTerminal(buf) endfunc func Test_complete_stopinsert_startinsert() nnoremap startinsert inoremap stopinsert " This just checks if this causes an error call feedkeys("i\\\\", 'x') nunmap iunmap 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', 'D') let buf = RunVimInTerminal('-S Xpumscript', #{rows: 10}) call TermWait(buf, 50) call term_sendkeys(buf, "a\") call VerifyScreenDump(buf, 'Test_pum_with_folds_two_tabs', {}) call term_sendkeys(buf, "\") call StopVimInTerminal(buf) 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', 'D') let buf = RunVimInTerminal('-S Xpreviewscript', #{rows: 12}) call term_sendkeys(buf, "Gi\\") call TermWait(buf, 200) call term_sendkeys(buf, "\") call VerifyScreenDump(buf, 'Test_pum_with_preview_win', {}) call term_sendkeys(buf, "\") call StopVimInTerminal(buf) endfunc func Test_scrollbar_on_wide_char() CheckScreendump let lines =<< trim END call setline(1, ['a', ' 啊啊啊', \ ' 哦哦哦', \ ' 呃呃呃']) call setline(5, range(10)->map({i, v -> 'aa' .. v .. 'bb'})) END call writefile(lines, 'Xwidescript', 'D') let buf = RunVimInTerminal('-S Xwidescript', #{rows: 10}) call term_sendkeys(buf, "A\") call VerifyScreenDump(buf, 'Test_scrollbar_on_wide_char', {}) call StopVimInTerminal(buf) 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', 'D') set tags=Xtags let code =<< trim [CODE] int first() {} int second() {} int third() {} [CODE] call writefile(code, 'Xfoo', 'D') enew set showfulltag exe "normal isec\\\\" call assert_equal('int second() {}', getline(1)) set noshowfulltag 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$a\\"', 'E565:') " delete text when called for the second time func CompleteFunc2(findstart, base) if a:findstart == 1 return col('.') - 1 endif normal dd return ['a', 'b'] endfunc set completefunc=CompleteFunc2 call setline(1, ['', 'abcd', '']) call assert_fails('exe "normal 2G$a\\"', '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\\"', '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\\" 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\=ListColors()\"', 'E1211:') func ListMonths() call complete(col('.'), test_null_list()) endfunc call assert_fails('exe "normal i\=ListMonths()\"', 'E1298:') delfunc ListColors delfunc ListMonths call assert_fails('call complete_info({})', 'E1211:') 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\\\=ListColors()\\" call assert_equal('a2blue', getline(3)) delfunc ListColors bw! endfunc " Test for using complete() with completeopt+=longest func Test_complete_with_longest() new inoremap call complete(1, ["iaax", "iaay", "iaaz"]) " default: insert first match set completeopt& call setline(1, ['i']) exe "normal Aa\\" call assert_equal('iaax', getline(1)) " with longest: insert longest prefix set completeopt+=longest call setline(1, ['i']) exe "normal Aa\\" 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\\\\\\\", '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\\\\\\\", '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\\\\\\", '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$a re\\\\\\\\" call assert_equal(['one two three red', 'green blue one'], getline(2, '$')) 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\\\\\\\\\" 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\\\\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\\\\\\\\r\\" 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\\" call assert_equal(['a1', 'a1', 'a2'], getline(1, '$')) " go to the next match (wrapping around the buffer) exe "normal 2GCa\\\" call assert_equal(['a1', 'a', 'a2'], getline(1, '$')) " go to the next match exe "normal 2GCa\\\\" call assert_equal(['a1', 'a2', 'a2'], getline(1, '$')) exe "normal 2GCa\\\\\" call assert_equal(['a1', 'a1', 'a2'], getline(1, '$')) " repeat the test using CTRL-L " go to the next match (wrapping around the buffer) exe "normal 2GCa\\\" call assert_equal(['a1', 'a2', 'a2'], getline(1, '$')) " go to the next match exe "normal 2GCa\\\\" call assert_equal(['a1', 'a', 'a2'], getline(1, '$')) exe "normal 2GCa\\\\\" call assert_equal(['a1', 'a1', 'a2'], getline(1, '$')) %d " use CTRL-X CTRL-L to add one more line call setline(1, ['a1', 'b1']) setlocal complete=. exe "normal ggOa\\\\\\" call assert_equal(['a1', 'b1', '', 'a1', 'b1'], getline(1, '$')) 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{\i\\\\\}" call assert_equal(['{', "\tif (i == 1)", "\t\tj = 2;", '}'], getline(3, '$')) %d call setline(1, ['when while', '{', '']) setlocal cinkeys+==while exe "normal Giwh\ " call assert_equal("\twhile ", getline('$')) close! endfunc " Test for completion. Complete commands and functions func Test_complete_cmdline() new exe "normal icaddb\\" call assert_equal('caddbuffer', getline(1)) exe "normal ocall getqf\\" call assert_equal('call getqflist(', getline(2)) exe "normal oabcxyz(\\" call assert_equal('abcxyz(', getline(3)) com! -buffer TestCommand1 echo 'TestCommand1' com! -buffer TestCommand2 echo 'TestCommand2' write TestCommand1Test write TestCommand2Test " Test repeating and switching to another CTRL-X mode exe "normal oT\\\\\\\" call assert_equal('TestCommand2Test', getline(4)) call delete('TestCommand1Test') call delete('TestCommand2Test') delcom TestCommand1 delcom TestCommand2 close! endfunc " Test for 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 =Save_mode1() inoremap =Save_mode2() call setline(1, ['aaa bbb ccc ']) exe "normal A\\\\\\\" call assert_equal('ic', g:mode1) call assert_equal('i', g:mode2) call assert_equal('aaa bbb ccc ', getline(1)) exe "normal A\\\\\\\" 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 \\\\\\\\\\" 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\\\\\\" 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\\\\\\\\\" 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 iunmap 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 =, then it should be " processed. Otherwise, CTRL-X mode should be stopped and the key should be " inserted. exe "normal Goa\\=\"\\\"\" call assert_equal('a123', getline(5)) let @r = "\\" exe "normal GCa\\r" call assert_equal('a12', getline(5)) exe "normal GCa\\=\"x\"\" 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'] 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\" 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\\\" 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\\\3\" 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", 'D') call writefile(['def'], "Xfile2", 'D') edit Xfile1 edit Xfile2 new | close enew bunload Xfile1 Xfile2 set complete=u " complete from an unloaded buffer exe "normal! ia\" call assert_equal('abc', getline(1)) exe "normal! od\" call assert_equal('def', getline(2)) set complete& %bw! endfunc " Test for completing whole lines from unloaded buffers func Test_complete_wholeline_unloadedbuf() call writefile(['a line1', 'a line2', 'a line3'], "Xfile1", 'D') edit Xfile1 enew set complete=u exe "normal! ia\\\" call assert_equal('a line2', getline(1)) %d " completing from an unlisted buffer should fail bdel Xfile1 exe "normal! ia\\\" call assert_equal('a', getline(1)) set complete& %bw! endfunc " Test for completing words from unlisted buffers func Test_complete_from_unlistedbuf() call writefile(['abc'], "Xfile1", 'D') call writefile(['def'], "Xfile2", 'D') edit Xfile1 edit Xfile2 new | close bdel Xfile1 Xfile2 set complete=U " complete from an unlisted buffer exe "normal! ia\" call assert_equal('abc', getline(1)) exe "normal! od\" call assert_equal('def', getline(2)) set complete& %bw! endfunc " Test for completing whole lines from unlisted buffers func Test_complete_wholeline_unlistedbuf() call writefile(['a line1', 'a line2', 'a line3'], "Xfile1", 'D') edit Xfile1 enew set complete=U " completing from a unloaded buffer should fail exe "normal! ia\\\" call assert_equal('a', getline(1)) %d bdel Xfile1 exe "normal! ia\\\" call assert_equal('a line2', getline(1)) set complete& %bw! 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\\\\\" call assert_equal('abė', getline(2)) " Test for a leader with multibyte character %d call setline(1, 'abėĕ') exe "normal! oabė\" call assert_equal('abėĕ', getline(2)) bw! endfunc " Test for using for local expansion even if 'complete' is set to " not to complete matches from the local buffer. Also test using multiple " to cancel the current completion mode. func Test_complete_local_expansion() new set complete=t call setline(1, ['abc', 'def']) exe "normal! Go\\" call assert_equal("def", getline(3)) exe "normal! Go\" call assert_equal("", getline(4)) exe "normal! Go\\" call assert_equal("abc", getline(5)) exe "normal! Go\" call assert_equal("", getline(6)) " use multiple to cancel the previous completion mode exe "normal! Go\\\" call assert_equal("", getline(7)) exe "normal! Go\\\\" call assert_equal("", getline(8)) exe "normal! Go\\\\\" call assert_equal("abc", getline(9)) " interrupt the current completion mode set completeopt=menu,noinsert exe "normal! Go\\\\\\" call assert_equal("abc", getline(10)) " when only one is used to interrupt, do normal expansion exe "normal! Go\\\\" call assert_equal("", getline(11)) set completeopt& " using two in non-completion mode and restarting the same mode exe "normal! God\\\\\\\" 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\\\\\" call assert_equal('def', getline(2)) exe "normal! 0C\\\\\" 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\u\" 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\u\" 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\u\\" 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\\\\\\\\" 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\\\\\\\\" 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\\\" 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\=CompleteItems(0)\\\" call assert_equal('u2', v:completed_item.user_data) call assert_equal('one', getline(1)) exe "normal! o\=CompleteItems(1)\\" call assert_equal('u3', v:completed_item.user_data) call assert_equal('one', getline(2)) exe "normal! o\=CompleteItems(1)\\" call assert_equal('', getline(3)) set completeopt=menu,noinsert exe "normal! o\=CompleteItems(2)\one\\" call assert_equal('oNE', getline(4)) call assert_equal('u8', v:completed_item.user_data) set completeopt& exe "normal! o\=CompleteItems(3)\" call assert_equal('', getline(5)) exe "normal! o\=CompleteItems(4)\" call assert_equal('', getline(6)) exe "normal! o\=CompleteItems(5)\" call assert_equal('', getline(7)) call assert_equal('u11', v:completed_item.user_data) " pass invalid argument to complete() let cmd = "normal! o\=complete(1, [[]])\" 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\\\\\\\" 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'], 'Xunrfile', 'D') call setfperm('Xunrfile', '---r--r--') new set complete=sXfile exe "normal! ia\" call assert_equal('a', getline(1)) bw! 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\\" exe "normal owh\" 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 let was_mapped = 'yes' setlocal dictionary=README.txt call feedkeys("aexam\\ ", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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 g: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\\\", 'x') call assert_equal([[16, 1, ''], [16, 0, 'five']], g:CompleteFunc1Args) bw! #" Set 'completefunc' to a lambda expression LET &completefunc = LSTART a, b LMIDDLE g:CompleteFunc1(17, a, b) LEND new call setline(1, 'six') LET g:CompleteFunc1Args = [] call feedkeys("A\\\", 'x') call assert_equal([[17, 1, ''], [17, 0, 'six']], g:CompleteFunc1Args) bw! #" Set 'completefunc' to string(lambda_expression) LET &completefunc = 'LSTART a, b LMIDDLE g:CompleteFunc1(18, a, b) LEND' new call setline(1, 'six') LET g:CompleteFunc1Args = [] call feedkeys("A\\\", '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 g:CompleteFunc1(19, a, b) LEND LET &completefunc = Lambda new call setline(1, 'seven') LET g:CompleteFunc1Args = [] call feedkeys("A\\\", '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 g:CompleteFunc1(20, a, b) LEND LET &completefunc = string(Lambda) new call setline(1, 'seven') LET g:CompleteFunc1Args = [] call feedkeys("A\\\", '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\\\", '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=g: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\\\", 'x') call assert_equal([[1, ''], [0, 'five']], g:CompleteFunc2Args) bw! END call v9.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\\\", '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\\\", 'x') call assert_equal([[1, ''], [0, 'script2']], g:CompleteFunc3Args) bw! delfunc s:CompleteFunc3 " In Vim9 script s: can be omitted let lines =<< trim END vim9script var CompleteFunc4Args = [] def CompleteFunc4(findstart: bool, base: string): any add(CompleteFunc4Args, [findstart, base]) return findstart ? 0 : [] enddef set completefunc=CompleteFunc4 new setline(1, 'script1') feedkeys("A\\\", 'x') assert_equal([[1, ''], [0, 'script1']], CompleteFunc4Args) bw! END call v9.CheckScriptSuccess(lines) " invalid return value let &completefunc = {a -> 'abc'} call feedkeys("A\\\", 'x') " Using Vim9 lambda expression in legacy context should fail set completefunc=(a,\ b)\ =>\ g:CompleteFunc1(21,\ a,\ b) new | only let g:CompleteFunc1Args = [] call assert_fails('call feedkeys("A\\\", "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\\\", '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\\\", 'x') assert_equal([[1, ''], [0, 'two']], g:CompleteFunc2Args) bw! # Test for using a script-local function name def LocalCompleteFunc(findstart: number, base: string): any add(g:LocalCompleteFuncArgs, [findstart, base]) return findstart ? 0 : [] enddef &completefunc = LocalCompleteFunc new | only setline(1, 'three') g:LocalCompleteFuncArgs = [] feedkeys("A\\\", 'x') assert_equal([[1, ''], [0, 'three']], g:LocalCompleteFuncArgs) bw! END call v9.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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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 g: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\\\", 'x') call assert_equal([[16, 1, ''], [16, 0, 'five']], g:OmniFunc1Args) bw! #" Set 'omnifunc' to a lambda expression LET &omnifunc = LSTART a, b LMIDDLE g:OmniFunc1(17, a, b) LEND new call setline(1, 'six') LET g:OmniFunc1Args = [] call feedkeys("A\\\", '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 g:OmniFunc1(18, a, b) LEND' new call setline(1, 'six') LET g:OmniFunc1Args = [] call feedkeys("A\\\", '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 g:OmniFunc1(19, a, b) LEND LET &omnifunc = Lambda new call setline(1, 'seven') LET g:OmniFunc1Args = [] call feedkeys("A\\\", '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 g:OmniFunc1(20, a, b) LEND LET &omnifunc = string(Lambda) new call setline(1, 'seven') LET g:OmniFunc1Args = [] call feedkeys("A\\\", '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\\\", '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=g: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\\\", 'x') call assert_equal([[1, ''], [0, 'nine']], g:OmniFunc2Args) bw! END call v9.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\\\", '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\\\", 'x') call assert_equal([[1, ''], [0, 'script2']], g:OmniFunc3Args) bw! delfunc s:OmniFunc3 " invalid return value let &omnifunc = {a -> 'abc'} call feedkeys("A\\\", '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\\\", "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\\\", '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\\\", 'x') assert_equal([[1, ''], [0, 'two']], g:OmniFunc2Args) bw! # Test for using a script-local function name def LocalOmniFunc(findstart: number, base: string): any add(g:LocalOmniFuncArgs, [findstart, base]) return findstart ? 0 : [] enddef &omnifunc = LocalOmniFunc new | only setline(1, 'three') g:LocalOmniFuncArgs = [] feedkeys("A\\\", 'x') assert_equal([[1, ''], [0, 'three']], g:LocalOmniFuncArgs) bw! END call v9.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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", '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\\\", 'x') call assert_equal([[15, 1, ''], [15, 0, 'four']], g:TsrFunc1Args) bw! #" Test for using a lambda function VAR optval = "LSTART a, b LMIDDLE g: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\\\", '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 g:TsrFunc1(17, a, b) LEND new call setline(1, 'six') LET g:TsrFunc1Args = [] call feedkeys("A\\\", '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 g:TsrFunc1(18, a, b) LEND' new call setline(1, 'six') LET g:TsrFunc1Args = [] call feedkeys("A\\\", '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 g:TsrFunc1(19, a, b) LEND LET &thesaurusfunc = Lambda new call setline(1, 'seven') LET g:TsrFunc1Args = [] call feedkeys("A\\\", '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 g:TsrFunc1(20, a, b) LEND LET &thesaurusfunc = string(Lambda) new call setline(1, 'seven') LET g:TsrFunc1Args = [] call feedkeys("A\\\", '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\\\", '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=g: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\\\", '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\\\", "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\\\", "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\\\", "x") call assert_equal('sun', getline(1)) call assert_equal([[22, 1, ''], [22, 0, 'sun']], g:TsrFunc1Args) :%bw! END call v9.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\\\", '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\\\", 'x') call assert_equal([[1, ''], [0, 'script2']], g:TsrFunc3Args) bw! delfunc s:TsrFunc3 " invalid return value let &thesaurusfunc = {a -> 'abc'} call feedkeys("A\\\", '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\\\", "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\\\", '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\\\", 'x') assert_equal([[1, ''], [0, 'two']], g:TsrFunc2Args) bw! # Test for using a script-local function name def LocalTsrFunc(findstart: number, base: string): any add(g:LocalTsrFuncArgs, [findstart, base]) return findstart ? 0 : [] enddef &thesaurusfunc = LocalTsrFunc new | only setline(1, 'three') g:LocalTsrFuncArgs = [] feedkeys("A\\\", 'x') assert_equal([[1, ''], [0, 'three']], g:LocalTsrFuncArgs) bw! END call v9.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{\\\\}\\" 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\\\" call assert_equal(longLine, getline(3)) " check that the too long text is NUL terminated %del norm o norm 1987ax exec "norm ox\\" 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 func s:Tagfunc(t,f,o) bwipe! return [] endfunc " This was using freed memory, since 'complete' was in a wiped out buffer. " Also using a window that was closed. func Test_tagfunc_wipes_out_buffer() new set complete=.,t,w,b,u,i se tagfunc=s:Tagfunc sil norm i bwipe! endfunc " vim: shiftwidth=2 sts=2 expandtab