" Test for commands that operate on the spellfile. source shared.vim source check.vim CheckFeature spell CheckFeature syntax func Test_spell_normal() new call append(0, ['1 good', '2 goood', '3 goood']) set spell spellfile=./Xspellfile.add spelllang=en let oldlang=v:lang lang C " Test for zg 1 norm! ]s call assert_equal('2 goood', getline('.')) norm! zg 1 let a=execute('unsilent :norm! ]s') call assert_equal('1 good', getline('.')) call assert_equal('search hit BOTTOM, continuing at TOP', a[1:]) let cnt=readfile('./Xspellfile.add') call assert_equal('goood', cnt[0]) " zg should fail in operator-pending mode call assert_beeps('norm! czg') " zg fails in visual mode when not able to get the visual text call assert_beeps('norm! ggVjzg') norm! V " zg fails for a non-identifier word call append(line('$'), '###') call assert_fails('norm! Gzg', 'E349:') $d " Test for zw 2 norm! $zw 1 norm! ]s call assert_equal('2 goood', getline('.')) let cnt=readfile('./Xspellfile.add') call assert_equal('#oood', cnt[0]) call assert_equal('goood/!', cnt[1]) " Test for :spellrare spellrare rare let cnt=readfile('./Xspellfile.add') call assert_equal(['#oood', 'goood/!', 'rare/?'], cnt) " Make sure :spellundo works for rare words. spellundo rare let cnt=readfile('./Xspellfile.add') call assert_equal(['#oood', 'goood/!', '#are/?'], cnt) " Test for zg in visual mode let a=execute('unsilent :norm! V$zg') call assert_equal("Word '2 goood' added to ./Xspellfile.add", a[1:]) 1 norm! ]s call assert_equal('3 goood', getline('.')) let cnt=readfile('./Xspellfile.add') call assert_equal('2 goood', cnt[3]) " Remove "2 good" from spellfile 2 let a=execute('unsilent norm! V$zw') call assert_equal("Word '2 goood' added to ./Xspellfile.add", a[1:]) let cnt=readfile('./Xspellfile.add') call assert_equal('2 goood/!', cnt[4]) " Test for zG let a=execute('unsilent norm! V$zG') call assert_match("Word '2 goood' added to .*", a) let fname=matchstr(a, 'to\s\+\zs\f\+$') let cnt=readfile(fname) call assert_equal('2 goood', cnt[0]) " Test for zW let a=execute('unsilent norm! V$zW') call assert_match("Word '2 goood' added to .*", a) let cnt=readfile(fname) call assert_equal('# goood', cnt[0]) call assert_equal('2 goood/!', cnt[1]) " Test for zuW let a=execute('unsilent norm! V$zuW') call assert_match("Word '2 goood' removed from .*", a) let cnt=readfile(fname) call assert_equal('# goood', cnt[0]) call assert_equal('# goood/!', cnt[1]) " Test for zuG let a=execute('unsilent norm! $zG') call assert_match("Word 'goood' added to .*", a) let cnt=readfile(fname) call assert_equal('# goood', cnt[0]) call assert_equal('# goood/!', cnt[1]) call assert_equal('goood', cnt[2]) let a=execute('unsilent norm! $zuG') let cnt=readfile(fname) call assert_match("Word 'goood' removed from .*", a) call assert_equal('# goood', cnt[0]) call assert_equal('# goood/!', cnt[1]) call assert_equal('#oood', cnt[2]) " word not found in wordlist let a=execute('unsilent norm! V$zuG') let cnt=readfile(fname) call assert_match("", a) call assert_equal('# goood', cnt[0]) call assert_equal('# goood/!', cnt[1]) call assert_equal('#oood', cnt[2]) " Test for zug call delete('./Xspellfile.add') 2 let a=execute('unsilent norm! $zg') let cnt=readfile('./Xspellfile.add') call assert_equal('goood', cnt[0]) let a=execute('unsilent norm! $zug') call assert_match("Word 'goood' removed from \./Xspellfile.add", a) let cnt=readfile('./Xspellfile.add') call assert_equal('#oood', cnt[0]) " word not in wordlist let a=execute('unsilent norm! V$zug') call assert_match('', a) let cnt=readfile('./Xspellfile.add') call assert_equal('#oood', cnt[0]) " Test for zuw call delete('./Xspellfile.add') 2 let a=execute('unsilent norm! Vzw') let cnt=readfile('./Xspellfile.add') call assert_equal('2 goood/!', cnt[0]) let a=execute('unsilent norm! Vzuw') call assert_match("Word '2 goood' removed from \./Xspellfile.add", a) let cnt=readfile('./Xspellfile.add') call assert_equal('# goood/!', cnt[0]) " word not in wordlist let a=execute('unsilent norm! $zug') call assert_match('', a) let cnt=readfile('./Xspellfile.add') call assert_equal('# goood/!', cnt[0]) " add second entry to spellfile setting set spellfile=./Xspellfile.add,./Xspellfile2.add call delete('./Xspellfile.add') 2 let a=execute('unsilent norm! $2zg') let cnt=readfile('./Xspellfile2.add') call assert_match("Word 'goood' added to ./Xspellfile2.add", a) call assert_equal('goood', cnt[0]) " Test for :spellgood! let temp = execute(':spe!0/0') call assert_match('Invalid region', temp) let spellfile = matchstr(temp, 'Invalid region nr in \zs.*\ze line \d: 0') call assert_equal(['# goood', '# goood/!', '#oood', '0/0'], readfile(spellfile)) " Test for :spellrare! :spellrare! raare call assert_equal(['# goood', '# goood/!', '#oood', '0/0', 'raare/?'], readfile(spellfile)) call delete(spellfile) " clean up exe "lang" oldlang call delete("./Xspellfile.add") call delete("./Xspellfile2.add") call delete("./Xspellfile.add.spl") call delete("./Xspellfile2.add.spl") " zux -> no-op 2 norm! $zux call assert_equal([], glob('Xspellfile.add',0,1)) call assert_equal([], glob('Xspellfile2.add',0,1)) set spellfile= spell& spelllang& bw! endfunc " Spell file content test. Write 'content' to the spell file prefixed by the " spell file header and then enable spell checking. If 'emsg' is not empty, " then check for error. func Spellfile_Test(content, emsg) let splfile = './Xtest/spell/Xtest.utf-8.spl' " Add the spell file header and version (VIMspell2) let v = 0z56494D7370656C6C32 + a:content call writefile(v, splfile, 'b') " 'encoding' is set before each test to clear the previously loaded suggest " file from memory. set encoding=utf-8 set runtimepath=./Xtest set spelllang=Xtest if a:emsg != '' call assert_fails('set spell', a:emsg) else " FIXME: With some invalid spellfile contents, there are no error " messages. So don't know how to check for the test result. set spell endif set nospell spelllang& rtp& endfunc " Test for spell file format errors. " The spell file format is described in spellfile.c func Test_spellfile_format_error() let save_rtp = &rtp call mkdir('Xtest/spell', 'pR') let splfile = './Xtest/spell/Xtest.utf-8.spl' " empty spell file call writefile([], splfile) set runtimepath=./Xtest set spelllang=Xtest call assert_fails('set spell', 'E757:') set nospell spelllang& " invalid file ID call writefile(0z56494D, splfile, 'b') set runtimepath=./Xtest set spelllang=Xtest call assert_fails('set spell', 'E757:') set nospell spelllang& " missing version number call writefile(0z56494D7370656C6C, splfile, 'b') set runtimepath=./Xtest set spelllang=Xtest call assert_fails('set spell', 'E771:') set nospell spelllang& " invalid version number call writefile(0z56494D7370656C6C7A, splfile, 'b') set runtimepath=./Xtest set spelllang=Xtest call assert_fails('set spell', 'E772:') set nospell spelllang& " no sections call Spellfile_Test(0z, 'E758:') " missing section length call Spellfile_Test(0z00, 'E758:') " unsupported required section call Spellfile_Test(0z7A0100000004, 'E770:') " unsupported not-required section call Spellfile_Test(0z7A0000000004, 'E758:') " SN_REGION: invalid number of region names call Spellfile_Test(0z0000000000FF, 'E759:') " SN_CHARFLAGS: missing length call Spellfile_Test(0z010000000004, 'E758:') " SN_CHARFLAGS: invalid length call Spellfile_Test(0z0100000000010201, '') " SN_CHARFLAGS: charflagslen == 0 and folcharslen != 0 call Spellfile_Test(0z01000000000400000101, 'E759:') " SN_CHARFLAGS: missing length call Spellfile_Test(0z01000000000100, 'E758:') " SN_PREFCOND: invalid prefcondcnt call Spellfile_Test(0z03000000000100, 'E759:') " SN_PREFCOND: invalid condlen call Spellfile_Test(0z0300000000020001, 'E759:') " SN_REP: invalid repcount call Spellfile_Test(0z04000000000100, 'E758:') " SN_REP: missing rep call Spellfile_Test(0z0400000000020004, 'E758:') " SN_REP: zero repfromlen call Spellfile_Test(0z040000000003000100, 'E759:') " SN_REP: invalid reptolen call Spellfile_Test(0z0400000000050001014101, '') " SN_REP: zero reptolen call Spellfile_Test(0z0400000000050001014100, 'E759:') " SN_SAL: missing salcount call Spellfile_Test(0z05000000000102, 'E758:') " SN_SAL: missing salfromlen call Spellfile_Test(0z050000000003080001, 'E758:') " SN_SAL: missing saltolen call Spellfile_Test(0z0500000000050400010161, 'E758:') " SN_WORDS: non-NUL terminated word call Spellfile_Test(0z0D000000000376696D, 'E758:') " SN_WORDS: very long word let v = eval('0z0D000000012C' .. repeat('41', 300)) call Spellfile_Test(v, 'E759:') " SN_SOFO: missing sofofromlen call Spellfile_Test(0z06000000000100, 'E758:') " SN_SOFO: missing sofotolen call Spellfile_Test(0z06000000000400016100, 'E758:') " SN_SOFO: missing sofoto call Spellfile_Test(0z0600000000050001610000, 'E759:') " SN_SOFO: empty sofofrom and sofoto call Spellfile_Test(0z06000000000400000000FF000000000000000000000000, '') " SN_SOFO: multi-byte characters in sofofrom and sofoto call Spellfile_Test(0z0600000000080002CF810002CF82FF000000000000000000000000, '') " SN_COMPOUND: compmax is less than 2 call Spellfile_Test(0z08000000000101, 'E759:') " SN_COMPOUND: missing compsylmax and other options call Spellfile_Test(0z0800000000020401, 'E759:') " SN_COMPOUND: missing compoptions call Spellfile_Test(0z080000000005040101, 'E758:') " SN_COMPOUND: missing comppattern call Spellfile_Test(0z08000000000704010100000001, 'E758:') " SN_COMPOUND: incorrect comppatlen call Spellfile_Test(0z080000000007040101000000020165, 'E758:') " SN_INFO: missing info call Spellfile_Test(0z0F0000000005040101, '') " SN_MIDWORD: missing midword call Spellfile_Test(0z0200000000040102, '') " SN_MAP: missing midword call Spellfile_Test(0z0700000000040102, '') " SN_MAP: empty map string call Spellfile_Test(0z070000000000FF000000000000000000000000, '') " SN_MAP: duplicate multibyte character call Spellfile_Test(0z070000000004DC81DC81, 'E783:') " SN_SYLLABLE: missing SYLLABLE item call Spellfile_Test(0z0900000000040102, '') " SN_SYLLABLE: More than SY_MAXLEN size let v = eval('0z090000000022612F' .. repeat('62', 32)) call Spellfile_Test(v, '') " LWORDTREE: missing call Spellfile_Test(0zFF, 'E758:') " LWORDTREE: missing tree node call Spellfile_Test(0zFF00000004, 'E758:') " LWORDTREE: missing tree node value call Spellfile_Test(0zFF0000000402, 'E758:') " LWORDTREE: incorrect sibling node count call Spellfile_Test(0zFF00000001040000000000000000, 'E759:') " KWORDTREE: missing tree node call Spellfile_Test(0zFF0000000000000004, 'E758:') " PREFIXTREE: missing tree node call Spellfile_Test(0zFF000000000000000000000004, 'E758:') " PREFIXTREE: incorrect prefcondnr call Spellfile_Test(0zFF000000000000000000000002010200000020, 'E759:') " PREFIXTREE: invalid nodeidx call Spellfile_Test(0zFF00000000000000000000000201010000, 'E759:') let &rtp = save_rtp endfunc " Test for format errors in suggest file func Test_sugfile_format_error() let save_rtp = &rtp call mkdir('Xtest/spell', 'pR') let splfile = './Xtest/spell/Xtest.utf-8.spl' let sugfile = './Xtest/spell/Xtest.utf-8.sug' " create an empty spell file with a suggest timestamp call writefile(0z56494D7370656C6C320B00000000080000000000000044FF000000000000000000000000, splfile, 'b') " 'encoding' is set before each test to clear the previously loaded suggest " file from memory. " empty suggest file set encoding=utf-8 call writefile([], sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E778:') set nospell spelllang& " zero suggest version set encoding=utf-8 call writefile(0z56494D73756700, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E779:') set nospell spelllang& " unsupported suggest version set encoding=utf-8 call writefile(0z56494D7375671F, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E780:') set nospell spelllang& " missing suggest timestamp set encoding=utf-8 call writefile(0z56494D73756701, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E781:') set nospell spelllang& " incorrect suggest timestamp set encoding=utf-8 call writefile(0z56494D7375670100000000000000FF, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E781:') set nospell spelllang& " missing suggest wordtree set encoding=utf-8 call writefile(0z56494D737567010000000000000044, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E782:') set nospell spelllang& " invalid suggest word count in SUGTABLE set encoding=utf-8 call writefile(0z56494D7375670100000000000000440000000022, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E782:') set nospell spelllang& " missing sugline in SUGTABLE set encoding=utf-8 call writefile(0z56494D7375670100000000000000440000000000000005, sugfile) set runtimepath=./Xtest set spelllang=Xtest set spell call assert_fails("let s = spellsuggest('abc')", 'E782:') set nospell spelllang& let &rtp = save_rtp endfunc " Test for using :mkspell to create a spell file from a list of words func Test_wordlist_dic() " duplicate encoding let lines =<< trim [END] # This is an example word list /encoding=latin1 /encoding=latin1 example [END] call writefile(lines, 'Xwordlist.dic', 'D') let output = execute('mkspell Xwordlist.spl Xwordlist.dic') call assert_match('Duplicate /encoding= line ignored in Xwordlist.dic line 4: /encoding=latin1', output) " multiple encoding for a word let lines =<< trim [END] example /encoding=latin1 example [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('/encoding= line after word ignored in Xwordlist.dic line 2: /encoding=latin1', output) " unsupported encoding for a word let lines =<< trim [END] /encoding=Xtest example [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('Conversion in Xwordlist.dic not supported: from Xtest to utf-8', output) " duplicate region let lines =<< trim [END] /regions=usca /regions=usca example [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('Duplicate /regions= line ignored in Xwordlist.dic line 2: regions=usca', output) " maximum regions let lines =<< trim [END] /regions=uscauscauscauscausca example [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('Too many regions in Xwordlist.dic line 1: uscauscauscauscausca', output) " unsupported '/' value let lines =<< trim [END] /test=abc example [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('/ line ignored in Xwordlist.dic line 1: /test=abc', output) " unsupported flag let lines =<< trim [END] example/+ [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('Unrecognized flags in Xwordlist.dic line 1: +', output) " non-ascii word call writefile(["ʀʀ"], 'Xwordlist.dic') let output = execute('mkspell! -ascii Xwordlist.spl Xwordlist.dic') call assert_match('Ignored 1 words with non-ASCII characters', output) " keep case of a word let lines =<< trim [END] example/= [END] call writefile(lines, 'Xwordlist.dic') let output = execute('mkspell! Xwordlist.spl Xwordlist.dic') call assert_match('Compressed keep-case:', output) call delete('Xwordlist.spl') endfunc " Test for the :mkspell command func Test_mkspell() call assert_fails('mkspell Xtest_us.spl', 'E751:') call assert_fails('mkspell Xtest.spl abc', 'E484:') call assert_fails('mkspell a b c d e f g h i j k', 'E754:') " create a .aff file but not the .dic file call writefile([], 'Xtest.aff') call assert_fails('mkspell Xtest.spl Xtest', 'E484:') call delete('Xtest.aff') call writefile([], 'Xtest.spl') call writefile([], 'Xtest.dic') call assert_fails('mkspell Xtest.spl Xtest.dic', 'E13:') call delete('Xtest.spl') call delete('Xtest.dic') call mkdir('Xtest.spl') call assert_fails('mkspell! Xtest.spl Xtest.dic', 'E17:') call delete('Xtest.spl', 'rf') " can't write the .spl file as its directory does not exist call writefile([], 'Xtest.aff') call writefile([], 'Xtest.dic') call assert_fails('mkspell DOES_NOT_EXIT/Xtest.spl Xtest.dic', 'E484:') call delete('Xtest.aff') call delete('Xtest.dic') call assert_fails('mkspell en en_US abc_xyz', 'E755:') endfunc " Tests for :mkspell with a .dic and .aff file func Test_aff_file_format_error() " FIXME: For some reason, the :mkspell command below doesn't fail on the " MS-Windows CI build. Disable this test on MS-Windows for now. CheckNotMSWindows " No word count in .dic file call writefile([], 'Xtest.dic', 'D') call writefile([], 'Xtest.aff', 'D') call assert_fails('mkspell! Xtest.spl Xtest', 'E760:') " create a .dic file for the tests below call writefile(['1', 'work'], 'Xtest.dic') " Invalid encoding in .aff file call writefile(['# comment', 'SET Xinvalidencoding'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Conversion in Xtest.aff not supported: from xinvalidencoding', output) " Invalid flag in .aff file call writefile(['FLAG xxx'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Invalid value for FLAG in Xtest.aff line 1: xxx', output) " set FLAGS after using flag for an affix call writefile(['SFX L Y 1', 'SFX L 0 re [^x]', 'FLAG long'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('FLAG after using flags in Xtest.aff line 3: long', output) " INFO in affix file let save_encoding = &encoding call mkdir('Xrtp/spell', 'p') call writefile(['1', 'work'], 'Xrtp/spell/Xtest.dic') call writefile(['NAME klingon', 'VERSION 1.4', 'AUTHOR Spock'], \ 'Xrtp/spell/Xtest.aff') silent mkspell! Xrtp/spell/Xtest.utf-8.spl Xrtp/spell/Xtest let save_rtp = &rtp set runtimepath=./Xrtp set spelllang=Xtest set spell let output = split(execute('spellinfo'), "\n") call assert_equal("NAME klingon", output[1]) call assert_equal("VERSION 1.4", output[2]) call assert_equal("AUTHOR Spock", output[3]) let &rtp = save_rtp call delete('Xrtp', 'rf') set spell& spelllang& spellfile& %bw! " 'encoding' must be set again to clear the spell file in memory let &encoding = save_encoding " COMPOUNDFORBIDFLAG flag after PFX in an affix file call writefile(['PFX L Y 1', 'PFX L 0 re x', 'COMPOUNDFLAG c', 'COMPOUNDFORBIDFLAG x'], \ 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Defining COMPOUNDFORBIDFLAG after PFX item may give wrong results in Xtest.aff line 4', output) " COMPOUNDPERMITFLAG flag after PFX in an affix file call writefile(['PFX L Y 1', 'PFX L 0 re x', 'COMPOUNDPERMITFLAG c'], \ 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Defining COMPOUNDPERMITFLAG after PFX item may give wrong results in Xtest.aff line 3', output) " Wrong COMPOUNDRULES flag value in an affix file call writefile(['COMPOUNDRULES a'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Wrong COMPOUNDRULES value in Xtest.aff line 1: a', output) " Wrong COMPOUNDWORDMAX flag value in an affix file call writefile(['COMPOUNDWORDMAX 0'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Wrong COMPOUNDWORDMAX value in Xtest.aff line 1: 0', output) " Wrong COMPOUNDMIN flag value in an affix file call writefile(['COMPOUNDMIN 0'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Wrong COMPOUNDMIN value in Xtest.aff line 1: 0', output) " Wrong COMPOUNDSYLMAX flag value in an affix file call writefile(['COMPOUNDSYLMAX 0'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Wrong COMPOUNDSYLMAX value in Xtest.aff line 1: 0', output) " Wrong CHECKCOMPOUNDPATTERN flag value in an affix file call writefile(['CHECKCOMPOUNDPATTERN 0'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Wrong CHECKCOMPOUNDPATTERN value in Xtest.aff line 1: 0', output) " Both compounding and NOBREAK specified call writefile(['COMPOUNDFLAG c', 'NOBREAK'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Warning: both compounding and NOBREAK specified', output) " Duplicate affix entry in an affix file call writefile(['PFX L Y 1', 'PFX L 0 re x', 'PFX L Y 1', 'PFX L 0 re x'], \ 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Duplicate affix in Xtest.aff line 3: L', output) " Duplicate affix entry in an affix file call writefile(['PFX L Y 1', 'PFX L Y 1'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Unrecognized or duplicate item in Xtest.aff line 2: PFX', output) " Different combining flags in an affix file call writefile(['PFX L Y 1', 'PFX L 0 re x', 'PFX L N 1'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Different combining flag in continued affix block in Xtest.aff line 3', output) " Try to reuse an affix used for BAD flag call writefile(['BAD x', 'PFX x Y 1', 'PFX x 0 re x'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Affix also used for BAD/RARE/KEEPCASE/NEEDAFFIX/NEEDCOMPOUND/NOSUGGEST in Xtest.aff line 2: x', output) " Trailing characters in an affix entry call writefile(['PFX L Y 1 Test', 'PFX L 0 re x'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Trailing text in Xtest.aff line 1: Test', output) " Trailing characters in an affix entry call writefile(['PFX L Y 1', 'PFX L 0 re x Test'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Trailing text in Xtest.aff line 2: Test', output) " Incorrect combine flag in an affix entry call writefile(['PFX L X 1', 'PFX L 0 re x'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Expected Y or N in Xtest.aff line 1: X', output) " Invalid count for REP item call writefile(['REP a'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Expected REP(SAL) count in Xtest.aff line 1', output) " Trailing characters in REP item call writefile(['REP 1', 'REP f ph test'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Trailing text in Xtest.aff line 2: test', output) " Invalid count for MAP item call writefile(['MAP a'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Expected MAP count in Xtest.aff line 1', output) " Duplicate character in a MAP item call writefile(['MAP 2', 'MAP xx', 'MAP yy'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Duplicate character in MAP in Xtest.aff line 2', output) " Use COMPOUNDSYLMAX without SYLLABLE call writefile(['COMPOUNDSYLMAX 2'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('COMPOUNDSYLMAX used without SYLLABLE', output) " Missing SOFOTO call writefile(['SOFOFROM abcdef'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Missing SOFOTO line in Xtest.aff', output) " Length of SOFOFROM and SOFOTO differ call writefile(['SOFOFROM abcde', 'SOFOTO ABCD'], 'Xtest.aff') call assert_fails('mkspell! Xtest.spl Xtest', 'E759:') " Both SAL and SOFOFROM/SOFOTO items call writefile(['SOFOFROM abcd', 'SOFOTO ABCD', 'SAL CIA X'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Both SAL and SOFO lines in Xtest.aff', output) " use an alphabet flag when FLAG is num call writefile(['FLAG num', 'SFX L Y 1', 'SFX L 0 re [^x]'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Flag is not a number in Xtest.aff line 2: L', output) " use number and alphabet flag when FLAG is num call writefile(['FLAG num', 'SFX 4f Y 1', 'SFX 4f 0 re [^x]'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Affix name too long in Xtest.aff line 2: 4f', output) " use a single character flag when FLAG is long call writefile(['FLAG long', 'SFX L Y 1', 'SFX L 0 re [^x]'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Illegal flag in Xtest.aff line 2: L', output) " missing character in UPP entry. The character table is used only in a " non-utf8 encoding call writefile(['FOL abc', 'LOW abc', 'UPP A'], 'Xtest.aff') let save_encoding = &encoding set encoding=cp949 call assert_fails('mkspell! Xtest.spl Xtest', 'E761:') let &encoding = save_encoding " character range doesn't match between FOL and LOW entries call writefile(["FOL \u0102bc", 'LOW abc', 'UPP ABC'], 'Xtest.aff') let save_encoding = &encoding set encoding=cp949 call assert_fails('mkspell! Xtest.spl Xtest', 'E762:') let &encoding = save_encoding " character range doesn't match between FOL and UPP entries call writefile(["FOL \u0102bc", "LOW \u0102bc", 'UPP ABC'], 'Xtest.aff') let save_encoding = &encoding set encoding=cp949 call assert_fails('mkspell! Xtest.spl Xtest', 'E762:') let &encoding = save_encoding " additional characters in LOW and UPP entries call writefile(["FOL ab", "LOW abc", 'UPP ABC'], 'Xtest.aff') let save_encoding = &encoding set encoding=cp949 call assert_fails('mkspell! Xtest.spl Xtest', 'E761:') let &encoding = save_encoding " missing UPP entry call writefile(["FOL abc", "LOW abc"], 'Xtest.aff') let save_encoding = &encoding set encoding=cp949 let output = execute('mkspell! Xtest.spl Xtest') call assert_match('Missing FOL/LOW/UPP line in Xtest.aff', output) let &encoding = save_encoding " duplicate word in the .dic file call writefile(['2', 'good', 'good', 'good'], 'Xtest.dic') call writefile(['NAME vim'], 'Xtest.aff') let output = execute('mkspell! Xtest.spl Xtest') call assert_match('First duplicate word in Xtest.dic line 3: good', output) call assert_match('2 duplicate word(s) in Xtest.dic', output) " use multiple .aff files with different values for COMPOUNDWORDMAX and " MIDWORD (number and string) call writefile(['1', 'world'], 'Xtest_US.dic', 'D') call writefile(['1', 'world'], 'Xtest_CA.dic', 'D') call writefile(["COMPOUNDWORDMAX 3", "MIDWORD '-"], 'Xtest_US.aff', 'D') call writefile(["COMPOUNDWORDMAX 4", "MIDWORD '="], 'Xtest_CA.aff', 'D') let output = execute('mkspell! Xtest.spl Xtest_US Xtest_CA') call assert_match('COMPOUNDWORDMAX value differs from what is used in another .aff file', output) call assert_match('MIDWORD value differs from what is used in another .aff file', output) call delete('Xtest.spl') call delete('Xtest.sug') endfunc func Test_spell_add_word() set spellfile= call assert_fails('spellgood abc', 'E764:') set spellfile=Xtest.utf-8.add call assert_fails('2spellgood abc', 'E765:') edit Xtest.utf-8.add call setline(1, 'sample') call assert_fails('spellgood abc', 'E139:') set spellfile& %bw! endfunc func Test_spellfile_verbose() call writefile(['1', 'one'], 'XtestVerbose.dic', 'D') call writefile([], 'XtestVerbose.aff', 'D') mkspell! XtestVerbose-utf8.spl XtestVerbose set spell " First time: the spl file should be read. let a = execute('3verbose set spelllang=XtestVerbose-utf8.spl') call assert_match('Reading spell file "XtestVerbose-utf8.spl"', a) " Second time time: the spl file should not be read (already read). let a = execute('3verbose set spelllang=XtestVerbose-utf8.spl') call assert_notmatch('Reading spell file "XtestVerbose-utf8.spl"', a) set spell& spelllang& call delete('XtestVerbose-utf8.spl') endfunc " Test NOBREAK (see :help spell-NOBREAK) func Test_NOBREAK() call writefile(['3', 'one', 'two', 'three' ], 'XtestNOBREAK.dic', 'D') call writefile(['NOBREAK' ], 'XtestNOBREAK.aff', 'D') mkspell! XtestNOBREAK-utf8.spl XtestNOBREAK set spell spelllang=XtestNOBREAK-utf8.spl call assert_equal(['', ''], spellbadword('One two three onetwo onetwothree threetwoone')) call assert_equal(['x', 'bad'], spellbadword('x')) call assert_equal(['y', 'bad'], spellbadword('yone')) call assert_equal(['z', 'bad'], spellbadword('onez')) call assert_equal(['zero', 'bad'], spellbadword('Onetwozerothree')) new call setline(1, 'Onetwwothree') norm! fw1z= call assert_equal('Onetwothree', getline(1)) call setline(1, 'Onetwothre') norm! fh1z= call assert_equal('Onetwothree', getline(1)) bw! set spell& spelllang& call delete('XtestNOBREAK-utf8.spl') endfunc " Test CHECKCOMPOUNDPATTERN (see :help spell-CHECKCOMPOUNDPATTERN) func Test_spellfile_CHECKCOMPOUNDPATTERN() call writefile(['4', \ 'one/c', \ 'two/c', \ 'three/c', \ 'four'], 'XtestCHECKCOMPOUNDPATTERN.dic', 'D') " Forbid compound words where first word ends with 'wo' and second starts with 'on'. call writefile(['CHECKCOMPOUNDPATTERN 1', \ 'CHECKCOMPOUNDPATTERN wo on', \ 'COMPOUNDFLAG c'], 'XtestCHECKCOMPOUNDPATTERN.aff', 'D') mkspell! XtestCHECKCOMPOUNDPATTERN-utf8.spl XtestCHECKCOMPOUNDPATTERN set spell spelllang=XtestCHECKCOMPOUNDPATTERN-utf8.spl " Check valid words with and without valid compounds. for goodword in ['one', 'two', 'three', 'four', \ 'oneone', 'onetwo', 'onethree', \ 'twotwo', 'twothree', \ 'threeone', 'threetwo', 'threethree', \ 'onetwothree', 'onethreetwo', 'twothreeone', 'oneoneone'] call assert_equal(['', ''], spellbadword(goodword), goodword) endfor " Compounds 'twoone' or 'threetwoone' should be forbidden by CHECKCOMPOUNPATTERN. " 'four' does not have the 'c' flag in *.aff file so no compound. " 'five' is not in the *.dic file. for badword in ['five', 'onetwox', \ 'twoone', 'threetwoone', \ 'fourone', 'onefour'] call assert_equal([badword, 'bad'], spellbadword(badword)) endfor set spell& spelllang& call delete('XtestCHECKCOMPOUNDPATTERN-utf8.spl') endfunc " Test NOCOMPOUNDSUGS (see :help spell-NOCOMPOUNDSUGS) func Test_spellfile_NOCOMPOUNDSUGS() call writefile(['3', \ 'one/c', \ 'two/c', \ 'three/c'], 'XtestNOCOMPOUNDSUGS.dic', 'D') " pass 0 tests without NOCOMPOUNDSUGS, pass 1 tests with NOCOMPOUNDSUGS for pass in [0, 1] if pass == 0 call writefile(['COMPOUNDFLAG c'], 'XtestNOCOMPOUNDSUGS.aff', 'D') else call writefile(['NOCOMPOUNDSUGS', \ 'COMPOUNDFLAG c'], 'XtestNOCOMPOUNDSUGS.aff', 'D') endif mkspell! XtestNOCOMPOUNDSUGS-utf8.spl XtestNOCOMPOUNDSUGS set spell spelllang=XtestNOCOMPOUNDSUGS-utf8.spl for goodword in ['one', 'two', 'three', \ 'oneone', 'onetwo', 'onethree', \ 'twoone', 'twotwo', 'twothree', \ 'threeone', 'threetwo', 'threethree', \ 'onetwothree', 'onethreetwo', 'twothreeone', 'oneoneone'] call assert_equal(['', ''], spellbadword(goodword), goodword) endfor for badword in ['four', 'onetwox', 'onexone'] call assert_equal([badword, 'bad'], spellbadword(badword)) endfor if pass == 0 call assert_equal(['one', 'oneone'], spellsuggest('onne', 2)) call assert_equal(['onethree', 'one three'], spellsuggest('onethre', 2)) else call assert_equal(['one', 'one one'], spellsuggest('onne', 2)) call assert_equal(['one three'], spellsuggest('onethre', 2)) endif endfor set spell& spelllang& call delete('XtestNOCOMPOUNDSUGS-utf8.spl') endfunc " Test COMMON (better suggestions with common words, see :help spell-COMMON) func Test_spellfile_COMMON() call writefile(['7', \ 'and', \ 'ant', \ 'end', \ 'any', \ 'tee', \ 'the', \ 'ted'], 'XtestCOMMON.dic', 'D') call writefile(['COMMON the and'], 'XtestCOMMON.aff', 'D') mkspell! XtestCOMMON-utf8.spl XtestCOMMON set spell spelllang=XtestCOMMON-utf8.spl " COMMON words 'and' and 'the' should be the top suggestions. call assert_equal(['and', 'ant'], spellsuggest('anr', 2)) call assert_equal(['and', 'end'], spellsuggest('ond', 2)) call assert_equal(['the', 'ted'], spellsuggest('tha', 2)) call assert_equal(['the', 'tee'], spellsuggest('dhe', 2)) set spell& spelllang& call delete('XtestCOMMON-utf8.spl') endfunc " Test NOSUGGEST (see :help spell-COMMON) func Test_spellfile_NOSUGGEST() call writefile(['2', 'foo/X', 'fog'], 'XtestNOSUGGEST.dic', 'D') call writefile(['NOSUGGEST X'], 'XtestNOSUGGEST.aff', 'D') mkspell! XtestNOSUGGEST-utf8.spl XtestNOSUGGEST set spell spelllang=XtestNOSUGGEST-utf8.spl for goodword in ['foo', 'Foo', 'FOO', 'fog', 'Fog', 'FOG'] call assert_equal(['', ''], spellbadword(goodword), goodword) endfor for badword in ['foO', 'fOO', 'fooo', 'foog', 'foofog', 'fogfoo'] call assert_equal([badword, 'bad'], spellbadword(badword)) endfor call assert_equal(['fog'], spellsuggest('fooo', 1)) call assert_equal(['fog'], spellsuggest('fOo', 1)) call assert_equal(['fog'], spellsuggest('foG', 1)) call assert_equal(['fog'], spellsuggest('fogg', 1)) set spell& spelllang& call delete('XtestNOSUGGEST-utf8.spl') endfunc " Test CIRCUMFIX (see: :help spell-CIRCUMFIX) func Test_spellfile_CIRCUMFIX() " Example taken verbatim from https://github.com/hunspell/hunspell/tree/master/tests call writefile(['1', \ 'nagy/C po:adj'], 'XtestCIRCUMFIX.dic', 'D') call writefile(['# circumfixes: ~ obligate prefix/suffix combinations', \ '# superlative in Hungarian: leg- (prefix) AND -bb (suffix)', \ '', \ 'CIRCUMFIX X', \ '', \ 'PFX A Y 1', \ 'PFX A 0 leg/X .', \ '', \ 'PFX B Y 1', \ 'PFX B 0 legesleg/X .', \ '', \ 'SFX C Y 3', \ 'SFX C 0 obb . is:COMPARATIVE', \ 'SFX C 0 obb/AX . is:SUPERLATIVE', \ 'SFX C 0 obb/BX . is:SUPERSUPERLATIVE'], 'XtestCIRCUMFIX.aff', 'D') mkspell! XtestCIRCUMFIX-utf8.spl XtestCIRCUMFIX set spell spelllang=XtestCIRCUMFIX-utf8.spl " From https://catalog.ldc.upenn.edu/docs/LDC2008T01/acta04.pdf: " Hungarian English " --------- ------- " nagy great " nagyobb greater " legnagyobb greatest " legeslegnagyob most greatest call assert_equal(['', ''], spellbadword('nagy nagyobb legnagyobb legeslegnagyobb')) for badword in ['legnagy', 'legeslegnagy', 'legobb', 'legeslegobb'] call assert_equal([badword, 'bad'], spellbadword(badword)) endfor set spell& spelllang& call delete('XtestCIRCUMFIX-utf8.spl') endfunc " Test SFX that strips/chops characters func Test_spellfile_SFX_strip() " Simplified conjugation of Italian verbs ending in -are (first conjugation). call writefile(['SFX A Y 4', \ 'SFX A are iamo [^icg]are', \ 'SFX A are hiamo [cg]are', \ 'SFX A re mo iare', \ 'SFX A re vamo are'], \ 'XtestSFX.aff', 'D') " Examples of Italian verbs: " - cantare = to sing " - cercare = to search " - odiare = to hate call writefile(['3', 'cantare/A', 'cercare/A', 'odiare/A'], 'XtestSFX.dic', 'D') mkspell! XtestSFX-utf8.spl XtestSFX set spell spelllang=XtestSFX-utf8.spl " To sing, we're singing, we were singing. call assert_equal(['', ''], spellbadword('cantare cantiamo cantavamo')) " To search, we're searching, we were searching. call assert_equal(['', ''], spellbadword('cercare cerchiamo cercavamo')) " To hate, we hate, we were hating. call assert_equal(['', ''], spellbadword('odiare odiamo odiavamo')) for badword in ['canthiamo', 'cerciamo', 'cantarevamo', 'odiiamo'] call assert_equal([badword, 'bad'], spellbadword(badword)) endfor call assert_equal(['cantiamo'], spellsuggest('canthiamo', 1)) call assert_equal(['cerchiamo'], spellsuggest('cerciamo', 1)) call assert_equal(['cantavamo'], spellsuggest('cantarevamo', 1)) call assert_equal(['odiamo'], spellsuggest('odiiamo', 1)) set spell& spelllang& call delete('XtestSFX-utf8.spl') endfunc " When 'spellfile' is not set, adding a new good word will automatically set " the 'spellfile' func Test_init_spellfile() let save_rtp = &rtp let save_encoding = &encoding call mkdir('Xrtp/spell', 'pR') call writefile(['vim'], 'Xrtp/spell/Xtest.dic') silent mkspell Xrtp/spell/Xtest.utf-8.spl Xrtp/spell/Xtest.dic set runtimepath=./Xrtp set spelllang=Xtest set spell silent spellgood abc call assert_equal('./Xrtp/spell/Xtest.utf-8.add', &spellfile) call assert_equal(['abc'], readfile('Xrtp/spell/Xtest.utf-8.add')) call assert_true(filereadable('Xrtp/spell/Xtest.utf-8.spl')) set spell& spelllang& spellfile& let &encoding = save_encoding let &rtp = save_rtp %bw! endfunc " Test for the 'mkspellmem' option func Test_mkspellmem_opt() call assert_fails('set mkspellmem=1000', 'E474:') call assert_fails('set mkspellmem=1000,', 'E474:') call assert_fails('set mkspellmem=1000,50', 'E474:') call assert_fails('set mkspellmem=1000,50,', 'E474:') call assert_fails('set mkspellmem=1000,50,10,', 'E474:') call assert_fails('set mkspellmem=1000,50,0', 'E474:') endfunc " 'spellfile' accepts '@' on top of 'isfname'. def Test_spellfile_allow_at_character() mkdir('Xtest/the foo@bar,dir', 'p') &spellfile = './Xtest/the foo@bar,dir/Xspellfile.add' &spellfile = '' delete('Xtest', 'rf') enddef " this was using a NULL pointer func Test_mkspell_empty_dic() call writefile(['1'], 'XtestEmpty.dic', 'D') call writefile(['SOFOFROM abcd', 'SOFOTO ABCD', 'SAL CIA X'], 'XtestEmpty.aff', 'D') mkspell! XtestEmpty.spl XtestEmpty call delete('XtestEmpty.spl') endfunc " vim: shiftwidth=2 sts=2 expandtab