" Tests for various functions. source shared.vim source check.vim source term_util.vim source screendump.vim " Must be done first, since the alternate buffer must be unset. func Test_00_bufexists() call assert_equal(0, bufexists('does_not_exist')) call assert_equal(1, bufexists(bufnr('%'))) call assert_equal(0, bufexists(0)) new Xfoo let bn = bufnr('%') call assert_equal(1, bufexists(bn)) call assert_equal(1, bufexists('Xfoo')) call assert_equal(1, bufexists(getcwd() . '/Xfoo')) call assert_equal(1, bufexists(0)) bw call assert_equal(0, bufexists(bn)) call assert_equal(0, bufexists('Xfoo')) endfunc func Test_has() call assert_equal(1, has('eval')) call assert_equal(1, has('eval', 1)) if has('unix') call assert_equal(1, or(has('ttyin'), 1)) call assert_equal(0, and(has('ttyout'), 0)) call assert_equal(1, has('multi_byte_encoding')) endif call assert_equal(0, has('nonexistent')) call assert_equal(0, has('nonexistent', 1)) " Will we ever have patch 9999? let ver = 'patch-' .. v:version / 100 .. '.' .. v:version % 100 .. '.9999' call assert_equal(0, has(ver)) endfunc func Test_empty() call assert_equal(1, empty('')) call assert_equal(0, empty('a')) call assert_equal(1, empty(0)) call assert_equal(1, empty(-0)) call assert_equal(0, empty(1)) call assert_equal(0, empty(-1)) if has('float') call assert_equal(1, empty(0.0)) call assert_equal(1, empty(-0.0)) call assert_equal(0, empty(1.0)) call assert_equal(0, empty(-1.0)) call assert_equal(0, empty(1.0/0.0)) call assert_equal(0, empty(0.0/0.0)) endif call assert_equal(1, empty([])) call assert_equal(0, empty(['a'])) call assert_equal(1, empty({})) call assert_equal(0, empty({'a':1})) call assert_equal(1, empty(v:null)) call assert_equal(1, empty(v:none)) call assert_equal(1, empty(v:false)) call assert_equal(0, empty(v:true)) if has('channel') call assert_equal(1, empty(test_null_channel())) endif if has('job') call assert_equal(1, empty(test_null_job())) endif call assert_equal(0, empty(function('Test_empty'))) call assert_equal(0, empty(function('Test_empty', [0]))) call assert_fails("call empty(test_void())", 'E685:') call assert_fails("call empty(test_unknown())", 'E685:') endfunc func Test_test_void() call assert_fails('echo 1 == test_void()', 'E685:') if has('float') call assert_fails('echo 1.0 == test_void()', 'E685:') endif call assert_fails('let x = json_encode(test_void())', 'E685:') call assert_fails('let x = copy(test_void())', 'E685:') call assert_fails('let x = copy([test_void()])', 'E685:') endfunc func Test_len() call assert_equal(1, len(0)) call assert_equal(2, len(12)) call assert_equal(0, len('')) call assert_equal(2, len('ab')) call assert_equal(0, len([])) call assert_equal(2, len([2, 1])) call assert_equal(0, len({})) call assert_equal(2, len({'a': 1, 'b': 2})) call assert_fails('call len(v:none)', 'E701:') call assert_fails('call len({-> 0})', 'E701:') endfunc func Test_max() call assert_equal(0, max([])) call assert_equal(2, max([2])) call assert_equal(2, max([1, 2])) call assert_equal(2, max([1, 2, v:null])) call assert_equal(0, max({})) call assert_equal(2, max({'a':1, 'b':2})) call assert_fails('call max(1)', 'E712:') call assert_fails('call max(v:none)', 'E712:') endfunc func Test_min() call assert_equal(0, min([])) call assert_equal(2, min([2])) call assert_equal(1, min([1, 2])) call assert_equal(0, min([1, 2, v:null])) call assert_equal(0, min({})) call assert_equal(1, min({'a':1, 'b':2})) call assert_fails('call min(1)', 'E712:') call assert_fails('call min(v:none)', 'E712:') endfunc func Test_strwidth() for aw in ['single', 'double'] exe 'set ambiwidth=' . aw call assert_equal(0, strwidth('')) call assert_equal(1, strwidth("\t")) call assert_equal(3, strwidth('Vim')) call assert_equal(4, strwidth(1234)) call assert_equal(5, strwidth(-1234)) call assert_equal(2, strwidth('😉')) call assert_equal(17, strwidth('Eĥoŝanĝo ĉiuĵaŭde')) call assert_equal((aw == 'single') ? 6 : 7, strwidth('Straße')) call assert_fails('call strwidth({->0})', 'E729:') call assert_fails('call strwidth([])', 'E730:') call assert_fails('call strwidth({})', 'E731:') if has('float') call assert_fails('call strwidth(1.2)', 'E806:') endif endfor set ambiwidth& endfunc func Test_str2nr() call assert_equal(0, str2nr('')) call assert_equal(1, str2nr('1')) call assert_equal(1, str2nr(' 1 ')) call assert_equal(1, str2nr('+1')) call assert_equal(1, str2nr('+ 1')) call assert_equal(1, str2nr(' + 1 ')) call assert_equal(-1, str2nr('-1')) call assert_equal(-1, str2nr('- 1')) call assert_equal(-1, str2nr(' - 1 ')) call assert_equal(123456789, str2nr('123456789')) call assert_equal(-123456789, str2nr('-123456789')) call assert_equal(5, str2nr('101', 2)) call assert_equal(5, '0b101'->str2nr(2)) call assert_equal(5, str2nr('0B101', 2)) call assert_equal(-5, str2nr('-101', 2)) call assert_equal(-5, str2nr('-0b101', 2)) call assert_equal(-5, str2nr('-0B101', 2)) call assert_equal(65, str2nr('101', 8)) call assert_equal(65, str2nr('0101', 8)) call assert_equal(-65, str2nr('-101', 8)) call assert_equal(-65, str2nr('-0101', 8)) call assert_equal(11259375, str2nr('abcdef', 16)) call assert_equal(11259375, str2nr('ABCDEF', 16)) call assert_equal(-11259375, str2nr('-ABCDEF', 16)) call assert_equal(11259375, str2nr('0xabcdef', 16)) call assert_equal(11259375, str2nr('0Xabcdef', 16)) call assert_equal(11259375, str2nr('0XABCDEF', 16)) call assert_equal(-11259375, str2nr('-0xABCDEF', 16)) call assert_equal(1, str2nr("1'000'000", 10, 0)) call assert_equal(256, str2nr("1'0000'0000", 2, 1)) call assert_equal(262144, str2nr("1'000'000", 8, 1)) call assert_equal(1000000, str2nr("1'000'000", 10, 1)) call assert_equal(1000, str2nr("1'000''000", 10, 1)) call assert_equal(65536, str2nr("1'00'00", 16, 1)) call assert_equal(0, str2nr('0x10')) call assert_equal(0, str2nr('0b10')) call assert_equal(1, str2nr('12', 2)) call assert_equal(1, str2nr('18', 8)) call assert_equal(1, str2nr('1g', 16)) call assert_equal(0, str2nr(v:null)) call assert_equal(0, str2nr(v:none)) call assert_fails('call str2nr([])', 'E730:') call assert_fails('call str2nr({->2})', 'E729:') if has('float') call assert_fails('call str2nr(1.2)', 'E806:') endif call assert_fails('call str2nr(10, [])', 'E474:') endfunc func Test_strftime() CheckFunction strftime " Format of strftime() depends on system. We assume " that basic formats tested here are available and " identical on all systems which support strftime(). " " The 2nd parameter of strftime() is a local time, so the output day " of strftime() can be 17 or 18, depending on timezone. call assert_match('^2017-01-1[78]$', strftime('%Y-%m-%d', 1484695512)) " call assert_match('^\d\d\d\d-\(0\d\|1[012]\)-\([012]\d\|3[01]\) \([01]\d\|2[0-3]\):[0-5]\d:\([0-5]\d\|60\)$', '%Y-%m-%d %H:%M:%S'->strftime()) call assert_fails('call strftime([])', 'E730:') call assert_fails('call strftime("%Y", [])', 'E745:') " Check that the time changes after we change the timezone " Save previous timezone value, if any if exists('$TZ') let tz = $TZ endif " Force EST and then UTC, save the current hour (24-hour clock) for each let $TZ = 'EST' | let est = strftime('%H') let $TZ = 'UTC' | let utc = strftime('%H') " Those hours should be two bytes long, and should not be the same; if they " are, a tzset(3) call may have failed somewhere call assert_equal(strlen(est), 2) call assert_equal(strlen(utc), 2) " TODO: this fails on MS-Windows if has('unix') call assert_notequal(est, utc) endif " If we cached a timezone value, put it back, otherwise clear it if exists('tz') let $TZ = tz else unlet $TZ endif endfunc func Test_strptime() CheckFunction strptime if exists('$TZ') let tz = $TZ endif let $TZ = 'UTC' call assert_equal(1484653763, strptime('%Y-%m-%d %T', '2017-01-17 11:49:23')) call assert_fails('call strptime()', 'E119:') call assert_fails('call strptime("xxx")', 'E119:') call assert_equal(0, strptime("%Y", '')) call assert_equal(0, strptime("%Y", "xxx")) if exists('tz') let $TZ = tz else unlet $TZ endif endfunc func Test_resolve_unix() if !has('unix') return endif " Xlink1 -> Xlink2 " Xlink2 -> Xlink3 silent !ln -s -f Xlink2 Xlink1 silent !ln -s -f Xlink3 Xlink2 call assert_equal('Xlink3', resolve('Xlink1')) call assert_equal('./Xlink3', resolve('./Xlink1')) call assert_equal('Xlink3/', resolve('Xlink2/')) " FIXME: these tests result in things like "Xlink2/" instead of "Xlink3/"?! "call assert_equal('Xlink3/', resolve('Xlink1/')) "call assert_equal('./Xlink3/', resolve('./Xlink1/')) "call assert_equal(getcwd() . '/Xlink3/', resolve(getcwd() . '/Xlink1/')) call assert_equal(getcwd() . '/Xlink3', resolve(getcwd() . '/Xlink1')) " Test resolve() with a symlink cycle. " Xlink1 -> Xlink2 " Xlink2 -> Xlink3 " Xlink3 -> Xlink1 silent !ln -s -f Xlink1 Xlink3 call assert_fails('call resolve("Xlink1")', 'E655:') call assert_fails('call resolve("./Xlink1")', 'E655:') call assert_fails('call resolve("Xlink2")', 'E655:') call assert_fails('call resolve("Xlink3")', 'E655:') call delete('Xlink1') call delete('Xlink2') call delete('Xlink3') silent !ln -s -f Xdir//Xfile Xlink call assert_equal('Xdir/Xfile', resolve('Xlink')) call delete('Xlink') silent !ln -s -f Xlink2/ Xlink1 call assert_equal('Xlink2', 'Xlink1'->resolve()) call assert_equal('Xlink2/', resolve('Xlink1/')) call delete('Xlink1') silent !ln -s -f ./Xlink2 Xlink1 call assert_equal('Xlink2', resolve('Xlink1')) call assert_equal('./Xlink2', resolve('./Xlink1')) call delete('Xlink1') endfunc func s:normalize_fname(fname) let ret = substitute(a:fname, '\', '/', 'g') let ret = substitute(ret, '//', '/', 'g') return ret->tolower() endfunc func Test_resolve_win32() if !has('win32') return endif " test for shortcut file if executable('cscript') new Xfile wq let lines =<< trim END Set fs = CreateObject("Scripting.FileSystemObject") Set ws = WScript.CreateObject("WScript.Shell") Set shortcut = ws.CreateShortcut("Xlink.lnk") shortcut.TargetPath = fs.BuildPath(ws.CurrentDirectory, "Xfile") shortcut.Save END call writefile(lines, 'link.vbs') silent !cscript link.vbs call delete('link.vbs') call assert_equal(s:normalize_fname(getcwd() . '\Xfile'), s:normalize_fname(resolve('./Xlink.lnk'))) call delete('Xfile') call assert_equal(s:normalize_fname(getcwd() . '\Xfile'), s:normalize_fname(resolve('./Xlink.lnk'))) call delete('Xlink.lnk') else echomsg 'skipped test for shortcut file' endif " remove files call delete('Xlink') call delete('Xdir', 'd') call delete('Xfile') " test for symbolic link to a file new Xfile wq call assert_equal('Xfile', resolve('Xfile')) silent !mklink Xlink Xfile if !v:shell_error call assert_equal(s:normalize_fname(getcwd() . '\Xfile'), s:normalize_fname(resolve('./Xlink'))) call delete('Xlink') else echomsg 'skipped test for symbolic link to a file' endif call delete('Xfile') " test for junction to a directory call mkdir('Xdir') silent !mklink /J Xlink Xdir if !v:shell_error call assert_equal(s:normalize_fname(getcwd() . '\Xdir'), s:normalize_fname(resolve(getcwd() . '/Xlink'))) call delete('Xdir', 'd') " test for junction already removed call assert_equal(s:normalize_fname(getcwd() . '\Xlink'), s:normalize_fname(resolve(getcwd() . '/Xlink'))) call delete('Xlink') else echomsg 'skipped test for junction to a directory' call delete('Xdir', 'd') endif " test for symbolic link to a directory call mkdir('Xdir') silent !mklink /D Xlink Xdir if !v:shell_error call assert_equal(s:normalize_fname(getcwd() . '\Xdir'), s:normalize_fname(resolve(getcwd() . '/Xlink'))) call delete('Xdir', 'd') " test for symbolic link already removed call assert_equal(s:normalize_fname(getcwd() . '\Xlink'), s:normalize_fname(resolve(getcwd() . '/Xlink'))) call delete('Xlink') else echomsg 'skipped test for symbolic link to a directory' call delete('Xdir', 'd') endif " test for buffer name new Xfile wq silent !mklink Xlink Xfile if !v:shell_error edit Xlink call assert_equal('Xlink', bufname('%')) call delete('Xlink') bw! else echomsg 'skipped test for buffer name' endif call delete('Xfile') " test for reparse point call mkdir('Xdir') call assert_equal('Xdir', resolve('Xdir')) silent !mklink /D Xdirlink Xdir if !v:shell_error w Xdir/text.txt call assert_equal('Xdir/text.txt', resolve('Xdir/text.txt')) call assert_equal(s:normalize_fname(getcwd() . '\Xdir\text.txt'), s:normalize_fname(resolve('Xdirlink\text.txt'))) call assert_equal(s:normalize_fname(getcwd() . '\Xdir'), s:normalize_fname(resolve('Xdirlink'))) call delete('Xdirlink') else echomsg 'skipped test for reparse point' endif call delete('Xdir', 'rf') endfunc func Test_simplify() call assert_equal('', simplify('')) call assert_equal('/', simplify('/')) call assert_equal('/', simplify('/.')) call assert_equal('/', simplify('/..')) call assert_equal('/...', simplify('/...')) call assert_equal('./dir/file', './dir/file'->simplify()) call assert_equal('./dir/file', simplify('.///dir//file')) call assert_equal('./dir/file', simplify('./dir/./file')) call assert_equal('./file', simplify('./dir/../file')) call assert_equal('../dir/file', simplify('dir/../../dir/file')) call assert_equal('./file', simplify('dir/.././file')) call assert_fails('call simplify({->0})', 'E729:') call assert_fails('call simplify([])', 'E730:') call assert_fails('call simplify({})', 'E731:') if has('float') call assert_fails('call simplify(1.2)', 'E806:') endif endfunc func Test_pathshorten() call assert_equal('', pathshorten('')) call assert_equal('foo', pathshorten('foo')) call assert_equal('/foo', '/foo'->pathshorten()) call assert_equal('f/', pathshorten('foo/')) call assert_equal('f/bar', pathshorten('foo/bar')) call assert_equal('f/b/foobar', 'foo/bar/foobar'->pathshorten()) call assert_equal('/f/b/foobar', pathshorten('/foo/bar/foobar')) call assert_equal('.f/bar', pathshorten('.foo/bar')) call assert_equal('~f/bar', pathshorten('~foo/bar')) call assert_equal('~.f/bar', pathshorten('~.foo/bar')) call assert_equal('.~f/bar', pathshorten('.~foo/bar')) call assert_equal('~/f/bar', pathshorten('~/foo/bar')) endfunc func Test_strpart() call assert_equal('de', strpart('abcdefg', 3, 2)) call assert_equal('ab', strpart('abcdefg', -2, 4)) call assert_equal('abcdefg', 'abcdefg'->strpart(-2)) call assert_equal('fg', strpart('abcdefg', 5, 4)) call assert_equal('defg', strpart('abcdefg', 3)) call assert_equal('', strpart('abcdefg', 10)) call assert_fails("let s=strpart('abcdef', [])", 'E745:') call assert_equal('lép', strpart('éléphant', 2, 4)) call assert_equal('léphant', strpart('éléphant', 2)) endfunc func Test_tolower() call assert_equal("", tolower("")) " Test with all printable ASCII characters. call assert_equal(' !"#$%&''()*+,-./0123456789:;<=>?@abcdefghijklmnopqrstuvwxyz[\]^_`abcdefghijklmnopqrstuvwxyz{|}~', \ tolower(' !"#$%&''()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~')) " Test with a few uppercase diacritics. call assert_equal("aàáâãäåāăąǎǟǡả", tolower("AÀÁÂÃÄÅĀĂĄǍǞǠẢ")) call assert_equal("bḃḇ", tolower("BḂḆ")) call assert_equal("cçćĉċč", tolower("CÇĆĈĊČ")) call assert_equal("dďđḋḏḑ", tolower("DĎĐḊḎḐ")) call assert_equal("eèéêëēĕėęěẻẽ", tolower("EÈÉÊËĒĔĖĘĚẺẼ")) call assert_equal("fḟ ", tolower("FḞ ")) call assert_equal("gĝğġģǥǧǵḡ", tolower("GĜĞĠĢǤǦǴḠ")) call assert_equal("hĥħḣḧḩ", tolower("HĤĦḢḦḨ")) call assert_equal("iìíîïĩīĭįiǐỉ", tolower("IÌÍÎÏĨĪĬĮİǏỈ")) call assert_equal("jĵ", tolower("JĴ")) call assert_equal("kķǩḱḵ", tolower("KĶǨḰḴ")) call assert_equal("lĺļľŀłḻ", tolower("LĹĻĽĿŁḺ")) call assert_equal("mḿṁ", tolower("MḾṀ")) call assert_equal("nñńņňṅṉ", tolower("NÑŃŅŇṄṈ")) call assert_equal("oòóôõöøōŏőơǒǫǭỏ", tolower("OÒÓÔÕÖØŌŎŐƠǑǪǬỎ")) call assert_equal("pṕṗ", tolower("PṔṖ")) call assert_equal("q", tolower("Q")) call assert_equal("rŕŗřṙṟ", tolower("RŔŖŘṘṞ")) call assert_equal("sśŝşšṡ", tolower("SŚŜŞŠṠ")) call assert_equal("tţťŧṫṯ", tolower("TŢŤŦṪṮ")) call assert_equal("uùúûüũūŭůűųưǔủ", tolower("UÙÚÛÜŨŪŬŮŰŲƯǓỦ")) call assert_equal("vṽ", tolower("VṼ")) call assert_equal("wŵẁẃẅẇ", tolower("WŴẀẂẄẆ")) call assert_equal("xẋẍ", tolower("XẊẌ")) call assert_equal("yýŷÿẏỳỷỹ", tolower("YÝŶŸẎỲỶỸ")) call assert_equal("zźżžƶẑẕ", tolower("ZŹŻŽƵẐẔ")) " Test with a few lowercase diacritics, which should remain unchanged. call assert_equal("aàáâãäåāăąǎǟǡả", tolower("aàáâãäåāăąǎǟǡả")) call assert_equal("bḃḇ", tolower("bḃḇ")) call assert_equal("cçćĉċč", tolower("cçćĉċč")) call assert_equal("dďđḋḏḑ", tolower("dďđḋḏḑ")) call assert_equal("eèéêëēĕėęěẻẽ", tolower("eèéêëēĕėęěẻẽ")) call assert_equal("fḟ", tolower("fḟ")) call assert_equal("gĝğġģǥǧǵḡ", tolower("gĝğġģǥǧǵḡ")) call assert_equal("hĥħḣḧḩẖ", tolower("hĥħḣḧḩẖ")) call assert_equal("iìíîïĩīĭįǐỉ", tolower("iìíîïĩīĭįǐỉ")) call assert_equal("jĵǰ", tolower("jĵǰ")) call assert_equal("kķǩḱḵ", tolower("kķǩḱḵ")) call assert_equal("lĺļľŀłḻ", tolower("lĺļľŀłḻ")) call assert_equal("mḿṁ ", tolower("mḿṁ ")) call assert_equal("nñńņňʼnṅṉ", tolower("nñńņňʼnṅṉ")) call assert_equal("oòóôõöøōŏőơǒǫǭỏ", tolower("oòóôõöøōŏőơǒǫǭỏ")) call assert_equal("pṕṗ", tolower("pṕṗ")) call assert_equal("q", tolower("q")) call assert_equal("rŕŗřṙṟ", tolower("rŕŗřṙṟ")) call assert_equal("sśŝşšṡ", tolower("sśŝşšṡ")) call assert_equal("tţťŧṫṯẗ", tolower("tţťŧṫṯẗ")) call assert_equal("uùúûüũūŭůűųưǔủ", tolower("uùúûüũūŭůűųưǔủ")) call assert_equal("vṽ", tolower("vṽ")) call assert_equal("wŵẁẃẅẇẘ", tolower("wŵẁẃẅẇẘ")) call assert_equal("ẋẍ", tolower("ẋẍ")) call assert_equal("yýÿŷẏẙỳỷỹ", tolower("yýÿŷẏẙỳỷỹ")) call assert_equal("zźżžƶẑẕ", tolower("zźżžƶẑẕ")) " According to https://twitter.com/jifa/status/625776454479970304 " Ⱥ (U+023A) and Ⱦ (U+023E) are the *only* code points to increase " in length (2 to 3 bytes) when lowercased. So let's test them. call assert_equal("ⱥ ⱦ", tolower("Ⱥ Ⱦ")) " This call to tolower with invalid utf8 sequence used to cause access to " invalid memory. call tolower("\xC0\x80\xC0") call tolower("123\xC0\x80\xC0") endfunc func Test_toupper() call assert_equal("", toupper("")) " Test with all printable ASCII characters. call assert_equal(' !"#$%&''()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`ABCDEFGHIJKLMNOPQRSTUVWXYZ{|}~', \ toupper(' !"#$%&''()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~')) " Test with a few lowercase diacritics. call assert_equal("AÀÁÂÃÄÅĀĂĄǍǞǠẢ", "aàáâãäåāăąǎǟǡả"->toupper()) call assert_equal("BḂḆ", toupper("bḃḇ")) call assert_equal("CÇĆĈĊČ", toupper("cçćĉċč")) call assert_equal("DĎĐḊḎḐ", toupper("dďđḋḏḑ")) call assert_equal("EÈÉÊËĒĔĖĘĚẺẼ", toupper("eèéêëēĕėęěẻẽ")) call assert_equal("FḞ", toupper("fḟ")) call assert_equal("GĜĞĠĢǤǦǴḠ", toupper("gĝğġģǥǧǵḡ")) call assert_equal("HĤĦḢḦḨẖ", toupper("hĥħḣḧḩẖ")) call assert_equal("IÌÍÎÏĨĪĬĮǏỈ", toupper("iìíîïĩīĭįǐỉ")) call assert_equal("JĴǰ", toupper("jĵǰ")) call assert_equal("KĶǨḰḴ", toupper("kķǩḱḵ")) call assert_equal("LĹĻĽĿŁḺ", toupper("lĺļľŀłḻ")) call assert_equal("MḾṀ ", toupper("mḿṁ ")) call assert_equal("NÑŃŅŇʼnṄṈ", toupper("nñńņňʼnṅṉ")) call assert_equal("OÒÓÔÕÖØŌŎŐƠǑǪǬỎ", toupper("oòóôõöøōŏőơǒǫǭỏ")) call assert_equal("PṔṖ", toupper("pṕṗ")) call assert_equal("Q", toupper("q")) call assert_equal("RŔŖŘṘṞ", toupper("rŕŗřṙṟ")) call assert_equal("SŚŜŞŠṠ", toupper("sśŝşšṡ")) call assert_equal("TŢŤŦṪṮẗ", toupper("tţťŧṫṯẗ")) call assert_equal("UÙÚÛÜŨŪŬŮŰŲƯǓỦ", toupper("uùúûüũūŭůűųưǔủ")) call assert_equal("VṼ", toupper("vṽ")) call assert_equal("WŴẀẂẄẆẘ", toupper("wŵẁẃẅẇẘ")) call assert_equal("ẊẌ", toupper("ẋẍ")) call assert_equal("YÝŸŶẎẙỲỶỸ", toupper("yýÿŷẏẙỳỷỹ")) call assert_equal("ZŹŻŽƵẐẔ", toupper("zźżžƶẑẕ")) " Test that uppercase diacritics, which should remain unchanged. call assert_equal("AÀÁÂÃÄÅĀĂĄǍǞǠẢ", toupper("AÀÁÂÃÄÅĀĂĄǍǞǠẢ")) call assert_equal("BḂḆ", toupper("BḂḆ")) call assert_equal("CÇĆĈĊČ", toupper("CÇĆĈĊČ")) call assert_equal("DĎĐḊḎḐ", toupper("DĎĐḊḎḐ")) call assert_equal("EÈÉÊËĒĔĖĘĚẺẼ", toupper("EÈÉÊËĒĔĖĘĚẺẼ")) call assert_equal("FḞ ", toupper("FḞ ")) call assert_equal("GĜĞĠĢǤǦǴḠ", toupper("GĜĞĠĢǤǦǴḠ")) call assert_equal("HĤĦḢḦḨ", toupper("HĤĦḢḦḨ")) call assert_equal("IÌÍÎÏĨĪĬĮİǏỈ", toupper("IÌÍÎÏĨĪĬĮİǏỈ")) call assert_equal("JĴ", toupper("JĴ")) call assert_equal("KĶǨḰḴ", toupper("KĶǨḰḴ")) call assert_equal("LĹĻĽĿŁḺ", toupper("LĹĻĽĿŁḺ")) call assert_equal("MḾṀ", toupper("MḾṀ")) call assert_equal("NÑŃŅŇṄṈ", toupper("NÑŃŅŇṄṈ")) call assert_equal("OÒÓÔÕÖØŌŎŐƠǑǪǬỎ", toupper("OÒÓÔÕÖØŌŎŐƠǑǪǬỎ")) call assert_equal("PṔṖ", toupper("PṔṖ")) call assert_equal("Q", toupper("Q")) call assert_equal("RŔŖŘṘṞ", toupper("RŔŖŘṘṞ")) call assert_equal("SŚŜŞŠṠ", toupper("SŚŜŞŠṠ")) call assert_equal("TŢŤŦṪṮ", toupper("TŢŤŦṪṮ")) call assert_equal("UÙÚÛÜŨŪŬŮŰŲƯǓỦ", toupper("UÙÚÛÜŨŪŬŮŰŲƯǓỦ")) call assert_equal("VṼ", toupper("VṼ")) call assert_equal("WŴẀẂẄẆ", toupper("WŴẀẂẄẆ")) call assert_equal("XẊẌ", toupper("XẊẌ")) call assert_equal("YÝŶŸẎỲỶỸ", toupper("YÝŶŸẎỲỶỸ")) call assert_equal("ZŹŻŽƵẐẔ", toupper("ZŹŻŽƵẐẔ")) call assert_equal("Ⱥ Ⱦ", toupper("ⱥ ⱦ")) " This call to toupper with invalid utf8 sequence used to cause access to " invalid memory. call toupper("\xC0\x80\xC0") call toupper("123\xC0\x80\xC0") endfunc func Test_tr() call assert_equal('foo', tr('bar', 'bar', 'foo')) call assert_equal('zxy', 'cab'->tr('abc', 'xyz')) call assert_fails("let s=tr([], 'abc', 'def')", 'E730:') call assert_fails("let s=tr('abc', [], 'def')", 'E730:') call assert_fails("let s=tr('abc', 'abc', [])", 'E730:') call assert_fails("let s=tr('abcd', 'abcd', 'def')", 'E475:') set encoding=latin1 call assert_fails("let s=tr('abcd', 'abcd', 'def')", 'E475:') call assert_equal('hEllO', tr('hello', 'eo', 'EO')) call assert_equal('hello', tr('hello', 'xy', 'ab')) set encoding=utf8 endfunc " Tests for the mode() function let current_modes = '' func Save_mode() let g:current_modes = mode(0) . '-' . mode(1) return '' endfunc " Test for the mode() function func Test_mode() new call append(0, ["Blue Ball Black", "Brown Band Bowl", ""]) " Only complete from the current buffer. set complete=. inoremap =Save_mode() normal! 3G exe "normal i\\" call assert_equal('i-i', g:current_modes) " i_CTRL-P: Multiple matches exe "normal i\uBa\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-P: Single match exe "normal iBro\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X exe "normal iBa\\\u" call assert_equal('i-ix', g:current_modes) " i_CTRL-X CTRL-P: Multiple matches exe "normal iBa\\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X CTRL-P: Single match exe "normal iBro\\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X CTRL-P + CTRL-P: Single match exe "normal iBro\\\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X CTRL-L: Multiple matches exe "normal i\\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X CTRL-L: Single match exe "normal iBlu\\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-P: No match exe "normal iCom\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X CTRL-P: No match exe "normal iCom\\\\u" call assert_equal('i-ic', g:current_modes) " i_CTRL-X CTRL-L: No match exe "normal iabc\\\\u" call assert_equal('i-ic', g:current_modes) " R_CTRL-P: Multiple matches exe "normal RBa\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-P: Single match exe "normal RBro\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X exe "normal RBa\\\u" call assert_equal('R-Rx', g:current_modes) " R_CTRL-X CTRL-P: Multiple matches exe "normal RBa\\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X CTRL-P: Single match exe "normal RBro\\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X CTRL-P + CTRL-P: Single match exe "normal RBro\\\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X CTRL-L: Multiple matches exe "normal R\\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X CTRL-L: Single match exe "normal RBlu\\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-P: No match exe "normal RCom\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X CTRL-P: No match exe "normal RCom\\\\u" call assert_equal('R-Rc', g:current_modes) " R_CTRL-X CTRL-L: No match exe "normal Rabc\\\\u" call assert_equal('R-Rc', g:current_modes) call assert_equal('n', 0->mode()) call assert_equal('n', 1->mode()) " i_CTRL-O exe "normal i\:call Save_mode()\\" call assert_equal("n-niI", g:current_modes) " R_CTRL-O exe "normal R\:call Save_mode()\\" call assert_equal("n-niR", g:current_modes) " gR_CTRL-O exe "normal gR\:call Save_mode()\\" call assert_equal("n-niV", g:current_modes) " How to test operator-pending mode? call feedkeys("v", 'xt') call assert_equal('v', mode()) call assert_equal('v', mode(1)) call feedkeys("\V", 'xt') call assert_equal('V', mode()) call assert_equal('V', mode(1)) call feedkeys("\\", 'xt') call assert_equal("\", mode()) call assert_equal("\", mode(1)) call feedkeys("\", 'xt') call feedkeys("gh", 'xt') call assert_equal('s', mode()) call assert_equal('s', mode(1)) call feedkeys("\gH", 'xt') call assert_equal('S', mode()) call assert_equal('S', mode(1)) call feedkeys("\g\", 'xt') call assert_equal("\", mode()) call assert_equal("\", mode(1)) call feedkeys("\", 'xt') call feedkeys(":echo \=Save_mode()\\", 'xt') call assert_equal('c-c', g:current_modes) call feedkeys("gQecho \=Save_mode()\\vi\", 'xt') call assert_equal('c-cv', g:current_modes) call feedkeys("Qcall Save_mode()\vi\", 'xt') call assert_equal('c-ce', g:current_modes) " How to test Ex mode? bwipe! iunmap set complete& endfunc func Test_append() enew! split call append(0, ["foo"]) split only undo endfunc func Test_getbufvar() let bnr = bufnr('%') let b:var_num = '1234' let def_num = '5678' call assert_equal('1234', getbufvar(bnr, 'var_num')) call assert_equal('1234', getbufvar(bnr, 'var_num', def_num)) let bd = getbufvar(bnr, '') call assert_equal('1234', bd['var_num']) call assert_true(exists("bd['changedtick']")) call assert_equal(2, len(bd)) let bd2 = getbufvar(bnr, '', def_num) call assert_equal(bd, bd2) unlet b:var_num call assert_equal(def_num, getbufvar(bnr, 'var_num', def_num)) call assert_equal('', getbufvar(bnr, 'var_num')) let bd = getbufvar(bnr, '') call assert_equal(1, len(bd)) let bd = getbufvar(bnr, '',def_num) call assert_equal(1, len(bd)) call assert_equal('', getbufvar(9999, '')) call assert_equal(def_num, getbufvar(9999, '', def_num)) unlet def_num call assert_equal(0, getbufvar(bnr, '&autoindent')) call assert_equal(0, getbufvar(bnr, '&autoindent', 1)) " Set and get a buffer-local variable call setbufvar(bnr, 'bufvar_test', ['one', 'two']) call assert_equal(['one', 'two'], getbufvar(bnr, 'bufvar_test')) " Open new window with forced option values set fileformats=unix,dos new ++ff=dos ++bin ++enc=iso-8859-2 call assert_equal('dos', getbufvar(bufnr('%'), '&fileformat')) call assert_equal(1, getbufvar(bufnr('%'), '&bin')) call assert_equal('iso-8859-2', getbufvar(bufnr('%'), '&fenc')) close " Get the b: dict. let b:testvar = 'one' new let b:testvar = 'two' let thebuf = bufnr() wincmd w call assert_equal('two', getbufvar(thebuf, 'testvar')) call assert_equal('two', getbufvar(thebuf, '').testvar) bwipe! set fileformats& endfunc func Test_last_buffer_nr() call assert_equal(bufnr('$'), last_buffer_nr()) endfunc func Test_stridx() call assert_equal(-1, stridx('', 'l')) call assert_equal(0, stridx('', '')) call assert_equal(0, 'hello'->stridx('')) call assert_equal(-1, stridx('hello', 'L')) call assert_equal(2, stridx('hello', 'l', -1)) call assert_equal(2, stridx('hello', 'l', 0)) call assert_equal(2, 'hello'->stridx('l', 1)) call assert_equal(3, stridx('hello', 'l', 3)) call assert_equal(-1, stridx('hello', 'l', 4)) call assert_equal(-1, stridx('hello', 'l', 10)) call assert_equal(2, stridx('hello', 'll')) call assert_equal(-1, stridx('hello', 'hello world')) call assert_fails("let n=stridx('hello', [])", 'E730:') call assert_fails("let n=stridx([], 'l')", 'E730:') endfunc func Test_strridx() call assert_equal(-1, strridx('', 'l')) call assert_equal(0, strridx('', '')) call assert_equal(5, strridx('hello', '')) call assert_equal(-1, strridx('hello', 'L')) call assert_equal(3, 'hello'->strridx('l')) call assert_equal(3, strridx('hello', 'l', 10)) call assert_equal(3, strridx('hello', 'l', 3)) call assert_equal(2, strridx('hello', 'l', 2)) call assert_equal(-1, strridx('hello', 'l', 1)) call assert_equal(-1, strridx('hello', 'l', 0)) call assert_equal(-1, strridx('hello', 'l', -1)) call assert_equal(2, strridx('hello', 'll')) call assert_equal(-1, strridx('hello', 'hello world')) call assert_fails("let n=strridx('hello', [])", 'E730:') call assert_fails("let n=strridx([], 'l')", 'E730:') endfunc func Test_match_func() call assert_equal(4, match('testing', 'ing')) call assert_equal(4, 'testing'->match('ing', 2)) call assert_equal(-1, match('testing', 'ing', 5)) call assert_equal(-1, match('testing', 'ing', 8)) call assert_equal(1, match(['vim', 'testing', 'execute'], 'ing')) call assert_equal(-1, match(['vim', 'testing', 'execute'], 'img')) call assert_fails("let x=match('vim', [])", 'E730:') call assert_equal(3, match(['a', 'b', 'c', 'a'], 'a', 1)) call assert_equal(-1, match(['a', 'b', 'c', 'a'], 'a', 5)) call assert_equal(4, match('testing', 'ing', -1)) call assert_fails("let x=match('testing', 'ing', 0, [])", 'E745:') endfunc func Test_matchend() call assert_equal(7, matchend('testing', 'ing')) call assert_equal(7, 'testing'->matchend('ing', 2)) call assert_equal(-1, matchend('testing', 'ing', 5)) call assert_equal(-1, matchend('testing', 'ing', 8)) call assert_equal(match(['vim', 'testing', 'execute'], 'ing'), matchend(['vim', 'testing', 'execute'], 'ing')) call assert_equal(match(['vim', 'testing', 'execute'], 'img'), matchend(['vim', 'testing', 'execute'], 'img')) endfunc func Test_matchlist() call assert_equal(['acd', 'a', '', 'c', 'd', '', '', '', '', ''], matchlist('acd', '\(a\)\?\(b\)\?\(c\)\?\(.*\)')) call assert_equal(['d', '', '', '', 'd', '', '', '', '', ''], 'acd'->matchlist('\(a\)\?\(b\)\?\(c\)\?\(.*\)', 2)) call assert_equal([], matchlist('acd', '\(a\)\?\(b\)\?\(c\)\?\(.*\)', 4)) endfunc func Test_matchstr() call assert_equal('ing', matchstr('testing', 'ing')) call assert_equal('ing', 'testing'->matchstr('ing', 2)) call assert_equal('', matchstr('testing', 'ing', 5)) call assert_equal('', matchstr('testing', 'ing', 8)) call assert_equal('testing', matchstr(['vim', 'testing', 'execute'], 'ing')) call assert_equal('', matchstr(['vim', 'testing', 'execute'], 'img')) endfunc func Test_matchstrpos() call assert_equal(['ing', 4, 7], matchstrpos('testing', 'ing')) call assert_equal(['ing', 4, 7], 'testing'->matchstrpos('ing', 2)) call assert_equal(['', -1, -1], matchstrpos('testing', 'ing', 5)) call assert_equal(['', -1, -1], matchstrpos('testing', 'ing', 8)) call assert_equal(['ing', 1, 4, 7], matchstrpos(['vim', 'testing', 'execute'], 'ing')) call assert_equal(['', -1, -1, -1], matchstrpos(['vim', 'testing', 'execute'], 'img')) endfunc func Test_nextnonblank_prevnonblank() new insert This is a Test . call assert_equal(0, nextnonblank(-1)) call assert_equal(0, nextnonblank(0)) call assert_equal(1, nextnonblank(1)) call assert_equal(4, 2->nextnonblank()) call assert_equal(4, nextnonblank(3)) call assert_equal(4, nextnonblank(4)) call assert_equal(6, nextnonblank(5)) call assert_equal(6, nextnonblank(6)) call assert_equal(7, nextnonblank(7)) call assert_equal(0, 8->nextnonblank()) call assert_equal(0, prevnonblank(-1)) call assert_equal(0, prevnonblank(0)) call assert_equal(1, 1->prevnonblank()) call assert_equal(1, prevnonblank(2)) call assert_equal(1, prevnonblank(3)) call assert_equal(4, prevnonblank(4)) call assert_equal(4, 5->prevnonblank()) call assert_equal(6, prevnonblank(6)) call assert_equal(7, prevnonblank(7)) call assert_equal(0, prevnonblank(8)) bw! endfunc func Test_byte2line_line2byte() new set endofline call setline(1, ['a', 'bc', 'd']) set fileformat=unix call assert_equal([-1, -1, 1, 1, 2, 2, 2, 3, 3, -1], \ map(range(-1, 8), 'byte2line(v:val)')) call assert_equal([-1, -1, 1, 3, 6, 8, -1], \ map(range(-1, 5), 'line2byte(v:val)')) set fileformat=mac call assert_equal([-1, -1, 1, 1, 2, 2, 2, 3, 3, -1], \ map(range(-1, 8), 'v:val->byte2line()')) call assert_equal([-1, -1, 1, 3, 6, 8, -1], \ map(range(-1, 5), 'v:val->line2byte()')) set fileformat=dos call assert_equal([-1, -1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, -1], \ map(range(-1, 11), 'byte2line(v:val)')) call assert_equal([-1, -1, 1, 4, 8, 11, -1], \ map(range(-1, 5), 'line2byte(v:val)')) bw! set noendofline nofixendofline normal a- for ff in ["unix", "mac", "dos"] let &fileformat = ff call assert_equal(1, line2byte(1)) call assert_equal(2, line2byte(2)) " line2byte(line("$") + 1) is the buffer size plus one (as per :help line2byte). endfor set endofline& fixendofline& fileformat& bw! endfunc " Test for byteidx() and byteidxcomp() functions func Test_byteidx() let a = '.é.' " one char of two bytes call assert_equal(0, byteidx(a, 0)) call assert_equal(0, byteidxcomp(a, 0)) call assert_equal(1, byteidx(a, 1)) call assert_equal(1, byteidxcomp(a, 1)) call assert_equal(3, byteidx(a, 2)) call assert_equal(3, byteidxcomp(a, 2)) call assert_equal(4, byteidx(a, 3)) call assert_equal(4, byteidxcomp(a, 3)) call assert_equal(-1, byteidx(a, 4)) call assert_equal(-1, byteidxcomp(a, 4)) let b = '.é.' " normal e with composing char call assert_equal(0, b->byteidx(0)) call assert_equal(1, b->byteidx(1)) call assert_equal(4, b->byteidx(2)) call assert_equal(5, b->byteidx(3)) call assert_equal(-1, b->byteidx(4)) call assert_fails("call byteidx([], 0)", 'E730:') call assert_equal(0, b->byteidxcomp(0)) call assert_equal(1, b->byteidxcomp(1)) call assert_equal(2, b->byteidxcomp(2)) call assert_equal(4, b->byteidxcomp(3)) call assert_equal(5, b->byteidxcomp(4)) call assert_equal(-1, b->byteidxcomp(5)) call assert_fails("call byteidxcomp([], 0)", 'E730:') endfunc func Test_count() let l = ['a', 'a', 'A', 'b'] call assert_equal(2, count(l, 'a')) call assert_equal(1, count(l, 'A')) call assert_equal(1, count(l, 'b')) call assert_equal(0, count(l, 'B')) call assert_equal(2, count(l, 'a', 0)) call assert_equal(1, count(l, 'A', 0)) call assert_equal(1, count(l, 'b', 0)) call assert_equal(0, count(l, 'B', 0)) call assert_equal(3, count(l, 'a', 1)) call assert_equal(3, count(l, 'A', 1)) call assert_equal(1, count(l, 'b', 1)) call assert_equal(1, count(l, 'B', 1)) call assert_equal(0, count(l, 'c', 1)) call assert_equal(1, count(l, 'a', 0, 1)) call assert_equal(2, count(l, 'a', 1, 1)) call assert_fails('call count(l, "a", 0, 10)', 'E684:') call assert_fails('call count(l, "a", [])', 'E745:') let d = {1: 'a', 2: 'a', 3: 'A', 4: 'b'} call assert_equal(2, count(d, 'a')) call assert_equal(1, count(d, 'A')) call assert_equal(1, count(d, 'b')) call assert_equal(0, count(d, 'B')) call assert_equal(2, count(d, 'a', 0)) call assert_equal(1, count(d, 'A', 0)) call assert_equal(1, count(d, 'b', 0)) call assert_equal(0, count(d, 'B', 0)) call assert_equal(3, count(d, 'a', 1)) call assert_equal(3, count(d, 'A', 1)) call assert_equal(1, count(d, 'b', 1)) call assert_equal(1, count(d, 'B', 1)) call assert_equal(0, count(d, 'c', 1)) call assert_fails('call count(d, "a", 0, 1)', 'E474:') call assert_equal(0, count("foo", "bar")) call assert_equal(1, count("foo", "oo")) call assert_equal(2, count("foo", "o")) call assert_equal(0, count("foo", "O")) call assert_equal(2, count("foo", "O", 1)) call assert_equal(2, count("fooooo", "oo")) call assert_equal(0, count("foo", "")) call assert_fails('call count(0, 0)', 'E712:') endfunc func Test_changenr() new Xchangenr call assert_equal(0, changenr()) norm ifoo call assert_equal(1, changenr()) set undolevels=10 norm Sbar call assert_equal(2, changenr()) undo call assert_equal(1, changenr()) redo call assert_equal(2, changenr()) bw! set undolevels& endfunc func Test_filewritable() new Xfilewritable write! call assert_equal(1, filewritable('Xfilewritable')) call assert_notequal(0, setfperm('Xfilewritable', 'r--r-----')) call assert_equal(0, filewritable('Xfilewritable')) call assert_notequal(0, setfperm('Xfilewritable', 'rw-r-----')) call assert_equal(1, 'Xfilewritable'->filewritable()) call assert_equal(0, filewritable('doesnotexist')) call delete('Xfilewritable') bw! endfunc func Test_Executable() if has('win32') call assert_equal(1, executable('notepad')) call assert_equal(1, 'notepad.exe'->executable()) call assert_equal(0, executable('notepad.exe.exe')) call assert_equal(0, executable('shell32.dll')) call assert_equal(0, executable('win.ini')) elseif has('unix') call assert_equal(1, 'cat'->executable()) call assert_equal(0, executable('nodogshere')) " get "cat" path and remove the leading / let catcmd = exepath('cat')[1:] new " check that the relative path works in / lcd / call assert_equal(1, executable(catcmd)) call assert_equal('/' .. catcmd, catcmd->exepath()) bwipe endif endfunc func Test_executable_longname() if !has('win32') return endif let fname = 'X' . repeat('あ', 200) . '.bat' call writefile([], fname) call assert_equal(1, executable(fname)) call delete(fname) endfunc func Test_hostname() let hostname_vim = hostname() if has('unix') let hostname_system = systemlist('uname -n')[0] call assert_equal(hostname_vim, hostname_system) endif endfunc func Test_getpid() " getpid() always returns the same value within a vim instance. call assert_equal(getpid(), getpid()) if has('unix') call assert_equal(systemlist('echo $PPID')[0], string(getpid())) endif endfunc func Test_hlexists() call assert_equal(0, hlexists('does_not_exist')) call assert_equal(0, 'Number'->hlexists()) call assert_equal(0, highlight_exists('does_not_exist')) call assert_equal(0, highlight_exists('Number')) syntax on call assert_equal(0, hlexists('does_not_exist')) call assert_equal(1, hlexists('Number')) call assert_equal(0, highlight_exists('does_not_exist')) call assert_equal(1, highlight_exists('Number')) syntax off endfunc func Test_col() new call setline(1, 'abcdef') norm gg4|mx6|mY2| call assert_equal(2, col('.')) call assert_equal(7, col('$')) call assert_equal(2, col('v')) call assert_equal(4, col("'x")) call assert_equal(6, col("'Y")) call assert_equal(2, [1, 2]->col()) call assert_equal(7, col([1, '$'])) call assert_equal(0, col('')) call assert_equal(0, col('x')) call assert_equal(0, col([2, '$'])) call assert_equal(0, col([1, 100])) call assert_equal(0, col([1])) " test for getting the visual start column func T() let g:Vcol = col('v') return '' endfunc let g:Vcol = 0 xmap T() exe "normal gg3|ve\" call assert_equal(3, g:Vcol) xunmap delfunc T " Test for the visual line start and end marks '< and '> call setline(1, ['one', 'one two', 'one two three']) "normal! ggVG call feedkeys("ggVG\", 'xt') call assert_equal(1, col("'<")) call assert_equal(14, col("'>")) " Delete the last line of the visually selected region $d call assert_notequal(14, col("'>")) " Test with 'virtualedit' set virtualedit=all call cursor(1, 10) call assert_equal(4, col('.')) set virtualedit& bw! endfunc " Test for input() func Test_input_func() " Test for prompt with multiple lines redir => v call feedkeys(":let c = input(\"A\\nB\\nC\\n? \")\B\", 'xt') redir END call assert_equal("B", c) call assert_equal(['A', 'B', 'C'], split(v, "\n")) " Test for default value call feedkeys(":let c = input('color? ', 'red')\\", 'xt') call assert_equal('red', c) " Test for completion at the input prompt func! Tcomplete(arglead, cmdline, pos) return "item1\nitem2\nitem3" endfunc call feedkeys(":let c = input('Q? ', '' , 'custom,Tcomplete')\" \ .. "\\", 'xt') delfunc Tcomplete call assert_equal('item1 item2 item3', c) call assert_fails("call input('F:', '', 'invalid')", 'E180:') call assert_fails("call input('F:', '', [])", 'E730:') endfunc " Test for the inputdialog() function func Test_inputdialog() CheckNotGui call feedkeys(":let v=inputdialog('Q:', 'xx', 'yy')\\", 'xt') call assert_equal('xx', v) call feedkeys(":let v=inputdialog('Q:', 'xx', 'yy')\\", 'xt') call assert_equal('yy', v) endfunc " Test for inputlist() func Test_inputlist() call feedkeys(":let c = inputlist(['Select color:', '1. red', '2. green', '3. blue'])\1\", 'tx') call assert_equal(1, c) call feedkeys(":let c = ['Select color:', '1. red', '2. green', '3. blue']->inputlist()\2\", 'tx') call assert_equal(2, c) call feedkeys(":let c = inputlist(['Select color:', '1. red', '2. green', '3. blue'])\3\", 'tx') call assert_equal(3, c) " Use backspace to delete characters in the prompt call feedkeys(":let c = inputlist(['Select color:', '1. red', '2. green', '3. blue'])\1\3\2\", 'tx') call assert_equal(2, c) " Use mouse to make a selection call test_setmouse(&lines - 3, 2) call feedkeys(":let c = inputlist(['Select color:', '1. red', '2. green', '3. blue'])\\", 'tx') call assert_equal(1, c) " Mouse click outside of the list call test_setmouse(&lines - 6, 2) call feedkeys(":let c = inputlist(['Select color:', '1. red', '2. green', '3. blue'])\\", 'tx') call assert_equal(-2, c) call assert_fails('call inputlist("")', 'E686:') endfunc func Test_balloon_show() if has('balloon_eval') " This won't do anything but must not crash either. call balloon_show('hi!') if !has('gui_running') call balloon_show(range(3)) endif endif endfunc func Test_setbufvar_options() " This tests that aucmd_prepbuf() and aucmd_restbuf() properly restore the " window layout. call assert_equal(1, winnr('$')) split dummy_preview resize 2 set winfixheight winfixwidth let prev_id = win_getid() wincmd j let wh = winheight('.') let dummy_buf = bufnr('dummy_buf1', v:true) call setbufvar(dummy_buf, '&buftype', 'nofile') execute 'belowright vertical split #' . dummy_buf call assert_equal(wh, winheight('.')) let dum1_id = win_getid() wincmd h let wh = winheight('.') let dummy_buf = bufnr('dummy_buf2', v:true) eval 'nofile'->setbufvar(dummy_buf, '&buftype') execute 'belowright vertical split #' . dummy_buf call assert_equal(wh, winheight('.')) bwipe! call win_gotoid(prev_id) bwipe! call win_gotoid(dum1_id) bwipe! endfunc func Test_redo_in_nested_functions() nnoremap g. :set opfunc=Operatorg@ function Operator( type, ... ) let @x = 'XXX' execute 'normal! g`[' . (a:type ==# 'line' ? 'V' : 'v') . 'g`]' . '"xp' endfunction function! Apply() 5,6normal! . endfunction new call setline(1, repeat(['some "quoted" text', 'more "quoted" text'], 3)) 1normal g.i" call assert_equal('some "XXX" text', getline(1)) 3,4normal . call assert_equal('some "XXX" text', getline(3)) call assert_equal('more "XXX" text', getline(4)) call Apply() call assert_equal('some "XXX" text', getline(5)) call assert_equal('more "XXX" text', getline(6)) bwipe! nunmap g. delfunc Operator delfunc Apply endfunc func Test_shellescape() let save_shell = &shell set shell=bash call assert_equal("'text'", shellescape('text')) call assert_equal("'te\"xt'", 'te"xt'->shellescape()) call assert_equal("'te'\\''xt'", shellescape("te'xt")) call assert_equal("'te%xt'", shellescape("te%xt")) call assert_equal("'te\\%xt'", shellescape("te%xt", 1)) call assert_equal("'te#xt'", shellescape("te#xt")) call assert_equal("'te\\#xt'", shellescape("te#xt", 1)) call assert_equal("'te!xt'", shellescape("te!xt")) call assert_equal("'te\\!xt'", shellescape("te!xt", 1)) call assert_equal("'te\nxt'", shellescape("te\nxt")) call assert_equal("'te\\\nxt'", shellescape("te\nxt", 1)) set shell=tcsh call assert_equal("'te\\!xt'", shellescape("te!xt")) call assert_equal("'te\\\\!xt'", shellescape("te!xt", 1)) call assert_equal("'te\\\nxt'", shellescape("te\nxt")) call assert_equal("'te\\\\\nxt'", shellescape("te\nxt", 1)) let &shell = save_shell endfunc func Test_trim() call assert_equal("Testing", trim(" \t\r\r\x0BTesting \t\n\r\n\t\x0B\x0B")) call assert_equal("Testing", " \t \r\r\n\n\x0BTesting \t\n\r\n\t\x0B\x0B"->trim()) call assert_equal("RESERVE", trim("xyz \twwRESERVEzyww \t\t", " wxyz\t")) call assert_equal("wRE \tSERVEzyww", trim("wRE \tSERVEzyww")) call assert_equal("abcd\t xxxx tail", trim(" \tabcd\t xxxx tail")) call assert_equal("\tabcd\t xxxx tail", trim(" \tabcd\t xxxx tail", " ")) call assert_equal(" \tabcd\t xxxx tail", trim(" \tabcd\t xxxx tail", "abx")) call assert_equal("RESERVE", trim("你RESERVE好", "你好")) call assert_equal("您R E SER V E早", trim("你好您R E SER V E早好你你", "你好")) call assert_equal("你好您R E SER V E早好你你", trim(" \n\r\r 你好您R E SER V E早好你你 \t \x0B", )) call assert_equal("您R E SER V E早好你你 \t \x0B", trim(" 你好您R E SER V E早好你你 \t \x0B", " 你好")) call assert_equal("您R E SER V E早好你你 \t \x0B", trim(" tteesstttt你好您R E SER V E早好你你 \t \x0B ttestt", " 你好tes")) call assert_equal("您R E SER V E早好你你 \t \x0B", trim(" tteesstttt你好您R E SER V E早好你你 \t \x0B ttestt", " 你你你好好好tttsses")) call assert_equal("留下", trim("这些些不要这些留下这些", "这些不要")) call assert_equal("", trim("", "")) call assert_equal("a", trim("a", "")) call assert_equal("", trim("", "a")) let chars = join(map(range(1, 0x20) + [0xa0], {n -> n->nr2char()}), '') call assert_equal("x", trim(chars . "x" . chars)) call assert_fails('let c=trim([])', 'E730:') endfunc " Test for reg_recording() and reg_executing() func Test_reg_executing_and_recording() let s:reg_stat = '' func s:save_reg_stat() let s:reg_stat = reg_recording() . ':' . reg_executing() return '' endfunc new call s:save_reg_stat() call assert_equal(':', s:reg_stat) call feedkeys("qa\"=s:save_reg_stat()\pq", 'xt') call assert_equal('a:', s:reg_stat) call feedkeys("@a", 'xt') call assert_equal(':a', s:reg_stat) call feedkeys("qb@aq", 'xt') call assert_equal('b:a', s:reg_stat) call feedkeys("q\"\"=s:save_reg_stat()\pq", 'xt') call assert_equal('":', s:reg_stat) " :normal command saves and restores reg_executing let s:reg_stat = '' let @q = ":call TestFunc()\:call s:save_reg_stat()\" func TestFunc() abort normal! ia endfunc call feedkeys("@q", 'xt') call assert_equal(':q', s:reg_stat) delfunc TestFunc " getchar() command saves and restores reg_executing map W :call TestFunc() let @q = "W" let g:typed = '' let g:regs = [] func TestFunc() abort let g:regs += [reg_executing()] let g:typed = getchar(0) let g:regs += [reg_executing()] endfunc call feedkeys("@qy", 'xt') call assert_equal(char2nr("y"), g:typed) call assert_equal(['q', 'q'], g:regs) delfunc TestFunc unmap W unlet g:typed unlet g:regs " input() command saves and restores reg_executing map W :call TestFunc() let @q = "W" let g:typed = '' let g:regs = [] func TestFunc() abort let g:regs += [reg_executing()] let g:typed = '?'->input() let g:regs += [reg_executing()] endfunc call feedkeys("@qy\", 'xt') call assert_equal("y", g:typed) call assert_equal(['q', 'q'], g:regs) delfunc TestFunc unmap W unlet g:typed unlet g:regs bwipe! delfunc s:save_reg_stat unlet s:reg_stat endfunc func Test_inputsecret() map W :call TestFunc() let @q = "W" let g:typed1 = '' let g:typed2 = '' let g:regs = [] func TestFunc() abort let g:typed1 = '?'->inputsecret() let g:typed2 = inputsecret('password: ') endfunc call feedkeys("@qsomething\else\", 'xt') call assert_equal("something", g:typed1) call assert_equal("else", g:typed2) delfunc TestFunc unmap W unlet g:typed1 unlet g:typed2 endfunc func Test_getchar() call feedkeys('a', '') call assert_equal(char2nr('a'), getchar()) call setline(1, 'xxxx') call test_setmouse(1, 3) let v:mouse_win = 9 let v:mouse_winid = 9 let v:mouse_lnum = 9 let v:mouse_col = 9 call feedkeys("\", '') call assert_equal("\", getchar()) call assert_equal(1, v:mouse_win) call assert_equal(win_getid(1), v:mouse_winid) call assert_equal(1, v:mouse_lnum) call assert_equal(3, v:mouse_col) enew! endfunc func Test_libcall_libcallnr() if !has('libcall') return endif if has('win32') let libc = 'msvcrt.dll' elseif has('mac') let libc = 'libSystem.B.dylib' elseif executable('ldd') let libc = matchstr(split(system('ldd ' . GetVimProg())), '/libc\.so\>') endif if get(l:, 'libc', '') ==# '' " On Unix, libc.so can be in various places. if has('linux') " There is not documented but regarding the 1st argument of glibc's " dlopen an empty string and nullptr are equivalent, so using an empty " string for the 1st argument of libcall allows to call functions. let libc = '' elseif has('sun') " Set the path to libc.so according to the architecture. let test_bits = system('file ' . GetVimProg()) let test_arch = system('uname -p') if test_bits =~ '64-bit' && test_arch =~ 'sparc' let libc = '/usr/lib/sparcv9/libc.so' elseif test_bits =~ '64-bit' && test_arch =~ 'i386' let libc = '/usr/lib/amd64/libc.so' else let libc = '/usr/lib/libc.so' endif else " Unfortunately skip this test until a good way is found. return endif endif if has('win32') call assert_equal($USERPROFILE, 'USERPROFILE'->libcall(libc, 'getenv')) else call assert_equal($HOME, 'HOME'->libcall(libc, 'getenv')) endif " If function returns NULL, libcall() should return an empty string. call assert_equal('', libcall(libc, 'getenv', 'X_ENV_DOES_NOT_EXIT')) " Test libcallnr() with string and integer argument. call assert_equal(4, 'abcd'->libcallnr(libc, 'strlen')) call assert_equal(char2nr('A'), char2nr('a')->libcallnr(libc, 'toupper')) call assert_fails("call libcall(libc, 'Xdoesnotexist_', '')", 'E364:') call assert_fails("call libcallnr(libc, 'Xdoesnotexist_', '')", 'E364:') call assert_fails("call libcall('Xdoesnotexist_', 'getenv', 'HOME')", 'E364:') call assert_fails("call libcallnr('Xdoesnotexist_', 'strlen', 'abcd')", 'E364:') endfunc sandbox function Fsandbox() normal ix endfunc func Test_func_sandbox() sandbox let F = {-> 'hello'} call assert_equal('hello', F()) sandbox let F = {-> "normal ix\"->execute()} call assert_fails('call F()', 'E48:') unlet F call assert_fails('call Fsandbox()', 'E48:') delfunc Fsandbox " From a sandbox try to set a predefined variable (which cannot be modified " from a sandbox) call assert_fails('sandbox let v:lnum = 10', 'E794:') endfunc func EditAnotherFile() let word = expand('') edit Xfuncrange2 endfunc func Test_func_range_with_edit() " Define a function that edits another buffer, then call it with a range that " is invalid in that buffer. call writefile(['just one line'], 'Xfuncrange2') new eval 10->range()->setline(1) write Xfuncrange1 call assert_fails('5,8call EditAnotherFile()', 'E16:') call delete('Xfuncrange1') call delete('Xfuncrange2') bwipe! endfunc func Test_func_exists_on_reload() call writefile(['func ExistingFunction()', 'echo "yes"', 'endfunc'], 'Xfuncexists') call assert_equal(0, exists('*ExistingFunction')) source Xfuncexists call assert_equal(1, '*ExistingFunction'->exists()) " Redefining a function when reloading a script is OK. source Xfuncexists call assert_equal(1, exists('*ExistingFunction')) " But redefining in another script is not OK. call writefile(['func ExistingFunction()', 'echo "yes"', 'endfunc'], 'Xfuncexists2') call assert_fails('source Xfuncexists2', 'E122:') delfunc ExistingFunction call assert_equal(0, exists('*ExistingFunction')) call writefile([ \ 'func ExistingFunction()', 'echo "yes"', 'endfunc', \ 'func ExistingFunction()', 'echo "no"', 'endfunc', \ ], 'Xfuncexists') call assert_fails('source Xfuncexists', 'E122:') call assert_equal(1, exists('*ExistingFunction')) call delete('Xfuncexists2') call delete('Xfuncexists') delfunc ExistingFunction endfunc " Test confirm({msg} [, {choices} [, {default} [, {type}]]]) func Test_confirm() CheckUnix CheckNotGui call feedkeys('o', 'L') let a = confirm('Press O to proceed') call assert_equal(1, a) call feedkeys('y', 'L') let a = 'Are you sure?'->confirm("&Yes\n&No") call assert_equal(1, a) call feedkeys('n', 'L') let a = confirm('Are you sure?', "&Yes\n&No") call assert_equal(2, a) " confirm() should return 0 when pressing CTRL-C. call feedkeys("\", 'L') let a = confirm('Are you sure?', "&Yes\n&No") call assert_equal(0, a) " requires another character to avoid it being seen as the start of an " escape sequence. Zero should be harmless. eval "\0"->feedkeys('L') let a = confirm('Are you sure?', "&Yes\n&No") call assert_equal(0, a) " Default choice is returned when pressing . call feedkeys("\", 'L') let a = confirm('Are you sure?', "&Yes\n&No") call assert_equal(1, a) call feedkeys("\", 'L') let a = confirm('Are you sure?', "&Yes\n&No", 2) call assert_equal(2, a) call feedkeys("\", 'L') let a = confirm('Are you sure?', "&Yes\n&No", 0) call assert_equal(0, a) " Test with the {type} 4th argument for type in ['Error', 'Question', 'Info', 'Warning', 'Generic'] call feedkeys('y', 'L') let a = confirm('Are you sure?', "&Yes\n&No\n", 1, type) call assert_equal(1, a) endfor call assert_fails('call confirm([])', 'E730:') call assert_fails('call confirm("Are you sure?", [])', 'E730:') call assert_fails('call confirm("Are you sure?", "&Yes\n&No\n", [])', 'E745:') call assert_fails('call confirm("Are you sure?", "&Yes\n&No\n", 0, [])', 'E730:') endfunc func Test_platform_name() " The system matches at most only one name. let names = ['amiga', 'beos', 'bsd', 'hpux', 'linux', 'mac', 'qnx', 'sun', 'vms', 'win32', 'win32unix'] call assert_inrange(0, 1, len(filter(copy(names), 'has(v:val)'))) " Is Unix? call assert_equal(has('beos'), has('beos') && has('unix')) call assert_equal(has('bsd'), has('bsd') && has('unix')) call assert_equal(has('hpux'), has('hpux') && has('unix')) call assert_equal(has('linux'), has('linux') && has('unix')) call assert_equal(has('mac'), has('mac') && has('unix')) call assert_equal(has('qnx'), has('qnx') && has('unix')) call assert_equal(has('sun'), has('sun') && has('unix')) call assert_equal(has('win32'), has('win32') && !has('unix')) call assert_equal(has('win32unix'), has('win32unix') && has('unix')) if has('unix') && executable('uname') let uname = system('uname') call assert_equal(uname =~? 'BeOS', has('beos')) " GNU userland on BSD kernels (e.g., GNU/kFreeBSD) don't have BSD defined call assert_equal(uname =~? '\%(GNU/k\w\+\)\@readdir({ x -> stridx(x, 'f') !=- 1 }) call assert_equal(['foo.txt'], sort(files)) " Only .txt files let files = readdir('Xdir', { x -> x =~ '.txt$' }) call assert_equal(['bar.txt', 'foo.txt'], sort(files)) " Only .txt files with string let files = readdir('Xdir', 'v:val =~ ".txt$"') call assert_equal(['bar.txt', 'foo.txt'], sort(files)) " Limit to 1 result. let l = [] let files = readdir('Xdir', {x -> len(add(l, x)) == 2 ? -1 : 1}) call assert_equal(1, len(files)) " Nested readdir() must not crash let files = readdir('Xdir', 'readdir("Xdir", "1") != []') call sort(files)->assert_equal(['bar.txt', 'dir', 'foo.txt']) eval 'Xdir'->delete('rf') endfunc func Test_delete_rf() call mkdir('Xdir') call writefile([], 'Xdir/foo.txt') call writefile([], 'Xdir/bar.txt') call mkdir('Xdir/[a-1]') " issue #696 call writefile([], 'Xdir/[a-1]/foo.txt') call writefile([], 'Xdir/[a-1]/bar.txt') call assert_true(filereadable('Xdir/foo.txt')) call assert_true('Xdir/[a-1]/foo.txt'->filereadable()) call assert_equal(0, delete('Xdir', 'rf')) call assert_false(filereadable('Xdir/foo.txt')) call assert_false(filereadable('Xdir/[a-1]/foo.txt')) endfunc func Test_call() call assert_equal(3, call('len', [123])) call assert_equal(3, 'len'->call([123])) call assert_fails("call call('len', 123)", 'E714:') call assert_equal(0, call('', [])) function Mylen() dict return len(self.data) endfunction let mydict = {'data': [0, 1, 2, 3], 'len': function("Mylen")} eval mydict.len->call([], mydict)->assert_equal(4) call assert_fails("call call('Mylen', [], 0)", 'E715:') endfunc func Test_char2nr() call assert_equal(12354, char2nr('あ', 1)) call assert_equal(120, 'x'->char2nr()) set encoding=latin1 call assert_equal(120, 'x'->char2nr()) set encoding=utf-8 endfunc func Test_eventhandler() call assert_equal(0, eventhandler()) endfunc func Test_bufadd_bufload() call assert_equal(0, bufexists('someName')) let buf = bufadd('someName') call assert_notequal(0, buf) call assert_equal(1, bufexists('someName')) call assert_equal(0, getbufvar(buf, '&buflisted')) call assert_equal(0, bufloaded(buf)) call bufload(buf) call assert_equal(1, bufloaded(buf)) call assert_equal([''], getbufline(buf, 1, '$')) let curbuf = bufnr('') eval ['some', 'text']->writefile('XotherName') let buf = 'XotherName'->bufadd() call assert_notequal(0, buf) eval 'XotherName'->bufexists()->assert_equal(1) call assert_equal(0, getbufvar(buf, '&buflisted')) call assert_equal(0, bufloaded(buf)) eval buf->bufload() call assert_equal(1, bufloaded(buf)) call assert_equal(['some', 'text'], getbufline(buf, 1, '$')) call assert_equal(curbuf, bufnr('')) let buf1 = bufadd('') let buf2 = bufadd('') call assert_notequal(0, buf1) call assert_notequal(0, buf2) call assert_notequal(buf1, buf2) call assert_equal(1, bufexists(buf1)) call assert_equal(1, bufexists(buf2)) call assert_equal(0, bufloaded(buf1)) exe 'bwipe ' .. buf1 call assert_equal(0, bufexists(buf1)) call assert_equal(1, bufexists(buf2)) exe 'bwipe ' .. buf2 call assert_equal(0, bufexists(buf2)) bwipe someName bwipe XotherName call assert_equal(0, bufexists('someName')) call delete('XotherName') endfunc func Test_state() CheckRunVimInTerminal let getstate = ":echo 'state: ' .. g:state .. '; mode: ' .. g:mode\" let lines =<< trim END call setline(1, ['one', 'two', 'three']) map ;; gg set complete=. func RunTimer() call timer_start(10, {id -> execute('let g:state = state()') .. execute('let g:mode = mode()')}) endfunc au Filetype foobar let g:state = state()|let g:mode = mode() END call writefile(lines, 'XState') let buf = RunVimInTerminal('-S XState', #{rows: 6}) " Using a ":" command Vim is busy, thus "S" is returned call term_sendkeys(buf, ":echo 'state: ' .. state() .. '; mode: ' .. mode()\") call WaitForAssert({-> assert_match('state: S; mode: n', term_getline(buf, 6))}, 1000) call term_sendkeys(buf, ":\") " Using a timer callback call term_sendkeys(buf, ":call RunTimer()\") call TermWait(buf, 25) call term_sendkeys(buf, getstate) call WaitForAssert({-> assert_match('state: c; mode: n', term_getline(buf, 6))}, 1000) " Halfway a mapping call term_sendkeys(buf, ":call RunTimer()\;") call TermWait(buf, 25) call term_sendkeys(buf, ";") call term_sendkeys(buf, getstate) call WaitForAssert({-> assert_match('state: mSc; mode: n', term_getline(buf, 6))}, 1000) " Insert mode completion (bit slower on Mac) call term_sendkeys(buf, ":call RunTimer()\Got\") call TermWait(buf, 25) call term_sendkeys(buf, "\") call term_sendkeys(buf, getstate) call WaitForAssert({-> assert_match('state: aSc; mode: i', term_getline(buf, 6))}, 1000) " Autocommand executing call term_sendkeys(buf, ":set filetype=foobar\") call TermWait(buf, 25) call term_sendkeys(buf, getstate) call WaitForAssert({-> assert_match('state: xS; mode: n', term_getline(buf, 6))}, 1000) " Todo: "w" - waiting for ch_evalexpr() " messages scrolled call term_sendkeys(buf, ":call RunTimer()\:echo \"one\\ntwo\\nthree\"\") call TermWait(buf, 25) call term_sendkeys(buf, "\") call term_sendkeys(buf, getstate) call WaitForAssert({-> assert_match('state: Scs; mode: r', term_getline(buf, 6))}, 1000) call StopVimInTerminal(buf) call delete('XState') endfunc func Test_range() " destructuring let [x, y] = range(2) call assert_equal([0, 1], [x, y]) " index call assert_equal(4, range(1, 10)[3]) " add() call assert_equal([0, 1, 2, 3], add(range(3), 3)) call assert_equal([0, 1, 2, [0, 1, 2]], add([0, 1, 2], range(3))) call assert_equal([0, 1, 2, [0, 1, 2]], add(range(3), range(3))) " append() new call append('.', range(5)) call assert_equal(['', '0', '1', '2', '3', '4'], getline(1, '$')) bwipe! " appendbufline() new call appendbufline(bufnr(''), '.', range(5)) call assert_equal(['0', '1', '2', '3', '4', ''], getline(1, '$')) bwipe! " call() func TwoArgs(a, b) return [a:a, a:b] endfunc call assert_equal([0, 1], call('TwoArgs', range(2))) " col() new call setline(1, ['foo', 'bar']) call assert_equal(2, col(range(1, 2))) bwipe! " complete() execute "normal! a\=[complete(col('.'), range(10)), ''][1]\" " complete_info() execute "normal! a\=[complete(col('.'), range(10)), ''][1]\\=[complete_info(range(5)), ''][1]\" call assert_fails('call complete(1, ["a"])', 'E785:') " copy() call assert_equal([1, 2, 3], copy(range(1, 3))) " count() call assert_equal(0, count(range(0), 3)) call assert_equal(0, count(range(2), 3)) call assert_equal(1, count(range(5), 3)) " cursor() new call setline(1, ['aaa', 'bbb', 'ccc']) call cursor(range(1, 2)) call assert_equal([2, 1], [col('.'), line('.')]) bwipe! " deepcopy() call assert_equal([1, 2, 3], deepcopy(range(1, 3))) " empty() call assert_true(empty(range(0))) call assert_false(empty(range(2))) " execute() new call setline(1, ['aaa', 'bbb', 'ccc']) call execute(range(3)) call assert_equal(2, line('.')) bwipe! " extend() call assert_equal([1, 2, 3, 4], extend([1], range(2, 4))) call assert_equal([1, 2, 3, 4], extend(range(1, 1), range(2, 4))) call assert_equal([1, 2, 3, 4], extend(range(1, 1), [2, 3, 4])) " filter() call assert_equal([1, 3], filter(range(5), 'v:val % 2')) " funcref() call assert_equal([0, 1], funcref('TwoArgs', range(2))()) " function() call assert_equal([0, 1], function('TwoArgs', range(2))()) " garbagecollect() let thelist = [1, range(2), 3] let otherlist = range(3) call test_garbagecollect_now() " get() call assert_equal(4, get(range(1, 10), 3)) call assert_equal(-1, get(range(1, 10), 42, -1)) " index() call assert_equal(1, index(range(1, 5), 2)) call assert_fails("echo index([1, 2], 1, [])", 'E745:') " inputlist() call feedkeys(":let result = inputlist(range(10))\1\", 'x') call assert_equal(1, result) call feedkeys(":let result = inputlist(range(3, 10))\1\", 'x') call assert_equal(1, result) " insert() call assert_equal([42, 1, 2, 3, 4, 5], insert(range(1, 5), 42)) call assert_equal([42, 1, 2, 3, 4, 5], insert(range(1, 5), 42, 0)) call assert_equal([1, 42, 2, 3, 4, 5], insert(range(1, 5), 42, 1)) call assert_equal([1, 2, 3, 4, 42, 5], insert(range(1, 5), 42, 4)) call assert_equal([1, 2, 3, 4, 42, 5], insert(range(1, 5), 42, -1)) call assert_equal([1, 2, 3, 4, 5, 42], insert(range(1, 5), 42, 5)) " join() call assert_equal('0 1 2 3 4', join(range(5))) " json_encode() call assert_equal('[0,1,2,3]', json_encode(range(4))) " len() call assert_equal(0, len(range(0))) call assert_equal(2, len(range(2))) call assert_equal(5, len(range(0, 12, 3))) call assert_equal(4, len(range(3, 0, -1))) " list2str() call assert_equal('ABC', list2str(range(65, 67))) " lock() let thelist = range(5) lockvar thelist " map() call assert_equal([0, 2, 4, 6, 8], map(range(5), 'v:val * 2')) " match() call assert_equal(3, match(range(5), 3)) " matchaddpos() highlight MyGreenGroup ctermbg=green guibg=green call matchaddpos('MyGreenGroup', range(line('.'), line('.'))) " matchend() call assert_equal(4, matchend(range(5), '4')) call assert_equal(3, matchend(range(1, 5), '4')) call assert_equal(-1, matchend(range(1, 5), '42')) " matchstrpos() call assert_equal(['4', 4, 0, 1], matchstrpos(range(5), '4')) call assert_equal(['4', 3, 0, 1], matchstrpos(range(1, 5), '4')) call assert_equal(['', -1, -1, -1], matchstrpos(range(1, 5), '42')) " max() reverse() call assert_equal(0, max(range(0))) call assert_equal(0, max(range(10, 9))) call assert_equal(9, max(range(10))) call assert_equal(18, max(range(0, 20, 3))) call assert_equal(20, max(range(20, 0, -3))) call assert_equal(99999, max(range(100000))) call assert_equal(99999, max(range(99999, 0, -1))) call assert_equal(99999, max(reverse(range(100000)))) call assert_equal(99999, max(reverse(range(99999, 0, -1)))) " min() reverse() call assert_equal(0, min(range(0))) call assert_equal(0, min(range(10, 9))) call assert_equal(5, min(range(5, 10))) call assert_equal(5, min(range(5, 10, 3))) call assert_equal(2, min(range(20, 0, -3))) call assert_equal(0, min(range(100000))) call assert_equal(0, min(range(99999, 0, -1))) call assert_equal(0, min(reverse(range(100000)))) call assert_equal(0, min(reverse(range(99999, 0, -1)))) " remove() call assert_equal(1, remove(range(1, 10), 0)) call assert_equal(2, remove(range(1, 10), 1)) call assert_equal(9, remove(range(1, 10), 8)) call assert_equal(10, remove(range(1, 10), 9)) call assert_equal(10, remove(range(1, 10), -1)) call assert_equal([3, 4, 5], remove(range(1, 10), 2, 4)) " repeat() call assert_equal([0, 1, 2, 0, 1, 2], repeat(range(3), 2)) call assert_equal([0, 1, 2], repeat(range(3), 1)) call assert_equal([], repeat(range(3), 0)) call assert_equal([], repeat(range(5, 4), 2)) call assert_equal([], repeat(range(5, 4), 0)) " reverse() call assert_equal([2, 1, 0], reverse(range(3))) call assert_equal([0, 1, 2, 3], reverse(range(3, 0, -1))) call assert_equal([9, 8, 7, 6, 5, 4, 3, 2, 1, 0], reverse(range(10))) call assert_equal([20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10], reverse(range(10, 20))) call assert_equal([16, 13, 10], reverse(range(10, 18, 3))) call assert_equal([19, 16, 13, 10], reverse(range(10, 19, 3))) call assert_equal([19, 16, 13, 10], reverse(range(10, 20, 3))) call assert_equal([11, 14, 17, 20], reverse(range(20, 10, -3))) call assert_equal([], reverse(range(0))) " TODO: setpos() " new " call setline(1, repeat([''], bufnr(''))) " call setline(bufnr('') + 1, repeat('x', bufnr('') * 2 + 6)) " call setpos('x', range(bufnr(''), bufnr('') + 3)) " bwipe! " setreg() call setreg('a', range(3)) call assert_equal("0\n1\n2\n", getreg('a')) " settagstack() call settagstack(1, #{items : range(4)}) " sign_define() call assert_fails("call sign_define(range(5))", "E715:") call assert_fails("call sign_placelist(range(5))", "E715:") " sign_undefine() call assert_fails("call sign_undefine(range(5))", "E908:") " sign_unplacelist() call assert_fails("call sign_unplacelist(range(5))", "E715:") " sort() call assert_equal([0, 1, 2, 3, 4, 5], sort(range(5, 0, -1))) " string() call assert_equal('[0, 1, 2, 3, 4]', string(range(5))) " taglist() with 'tagfunc' func TagFunc(pattern, flags, info) return range(10) endfunc set tagfunc=TagFunc call assert_fails("call taglist('asdf')", 'E987:') set tagfunc= " term_start() if has('terminal') && has('termguicolors') call assert_fails('call term_start(range(3, 4))', 'E474:') let g:terminal_ansi_colors = range(16) if has('win32') let cmd = "cmd /c dir" else let cmd = "ls" endif call assert_fails('call term_start("' .. cmd .. '", #{term_finish: "close"})', 'E475:') unlet g:terminal_ansi_colors endif " type() call assert_equal(v:t_list, type(range(5))) " uniq() call assert_equal([0, 1, 2, 3, 4], uniq(range(5))) " errors call assert_fails('let x=range(2, 8, 0)', 'E726:') call assert_fails('let x=range(3, 1)', 'E727:') call assert_fails('let x=range(1, 3, -2)', 'E727:') endfunc func Test_echoraw() CheckScreendump " Normally used for escape codes, but let's test with a CR. let lines =<< trim END call echoraw("hello\x") END call writefile(lines, 'XTest_echoraw') let buf = RunVimInTerminal('-S XTest_echoraw', {'rows': 5, 'cols': 40}) call VerifyScreenDump(buf, 'Test_functions_echoraw', {}) " clean up call StopVimInTerminal(buf) call delete('XTest_echoraw') endfunc " Test for the eval() function func Test_eval() call assert_fails("call eval('5 a')", 'E488:') endfunc " Test for the nr2char() function func Test_nr2char() set encoding=latin1 call assert_equal('@', nr2char(64)) set encoding=utf8 call assert_equal('a', nr2char(97, 1)) call assert_equal('a', nr2char(97, 0)) endfunc " Test for screenattr(), screenchar() and screenchars() functions func Test_screen_functions() call assert_equal(-1, screenattr(-1, -1)) call assert_equal(-1, screenchar(-1, -1)) call assert_equal([], screenchars(-1, -1)) endfunc " vim: shiftwidth=2 sts=2 expandtab