" Tests for various eval things. source view_util.vim source shared.vim function s:foo() abort try return [] == 0 catch return 1 endtry endfunction func Test_catch_return_with_error() call assert_equal(1, s:foo()) endfunc func Test_nocatch_restore_silent_emsg() silent! try throw 1 catch endtry echoerr 'wrong again' call assert_equal('wrong again', ScreenLine(&lines)) endfunc func Test_mkdir_p() call mkdir('Xmkdir/nested', 'pR') call assert_true(isdirectory('Xmkdir/nested')) try " Trying to make existing directories doesn't error call mkdir('Xmkdir', 'p') call mkdir('Xmkdir/nested', 'p') catch /E739:/ call assert_report('mkdir(..., "p") failed for an existing directory') endtry " 'p' doesn't suppress real errors call writefile([], 'Xmkdirfile', 'D') call assert_fails('call mkdir("Xmkdirfile", "p")', 'E739:') call assert_equal(0, mkdir(test_null_string())) call assert_fails('call mkdir([])', 'E730:') call assert_fails('call mkdir("abc", [], [])', 'E745:') endfunc func DoMkdirDel(name) call mkdir(a:name, 'pD') call assert_true(isdirectory(a:name)) endfunc func DoMkdirDelAddFile(name) call mkdir(a:name, 'pD') call assert_true(isdirectory(a:name)) call writefile(['text'], a:name .. '/file') endfunc func DoMkdirDelRec(name) call mkdir(a:name, 'pR') call assert_true(isdirectory(a:name)) endfunc func DoMkdirDelRecAddFile(name) call mkdir(a:name, 'pR') call assert_true(isdirectory(a:name)) call writefile(['text'], a:name .. '/file') endfunc func Test_mkdir_defer_del() " Xtopdir/tmp is created thus deleted, not Xtopdir itself call mkdir('Xtopdir', 'R') call DoMkdirDel('Xtopdir/tmp') call assert_true(isdirectory('Xtopdir')) call assert_false(isdirectory('Xtopdir/tmp')) " Deletion fails because "tmp" contains "sub" call DoMkdirDel('Xtopdir/tmp/sub') call assert_true(isdirectory('Xtopdir')) call assert_true(isdirectory('Xtopdir/tmp')) call delete('Xtopdir/tmp', 'rf') " Deletion fails because "tmp" contains "file" call DoMkdirDelAddFile('Xtopdir/tmp') call assert_true(isdirectory('Xtopdir')) call assert_true(isdirectory('Xtopdir/tmp')) call assert_true(filereadable('Xtopdir/tmp/file')) call delete('Xtopdir/tmp', 'rf') " Xtopdir/tmp is created thus deleted, not Xtopdir itself call DoMkdirDelRec('Xtopdir/tmp') call assert_true(isdirectory('Xtopdir')) call assert_false(isdirectory('Xtopdir/tmp')) " Deletion works even though "tmp" contains "sub" call DoMkdirDelRec('Xtopdir/tmp/sub') call assert_true(isdirectory('Xtopdir')) call assert_false(isdirectory('Xtopdir/tmp')) " Deletion works even though "tmp" contains "file" call DoMkdirDelRecAddFile('Xtopdir/tmp') call assert_true(isdirectory('Xtopdir')) call assert_false(isdirectory('Xtopdir/tmp')) endfunc func Test_line_continuation() let array = [5, "\ ignore this \ 6, "\ more to ignore "\ more moreto ignore \ ] "\ and some more call assert_equal([5, 6], array) endfunc func Test_E963() " These commands used to cause an internal error prior to vim 8.1.0563 let v_e = v:errors let v_o = v:oldfiles call assert_fails("let v:errors=''", 'E963:') call assert_equal(v_e, v:errors) call assert_fails("let v:oldfiles=''", 'E963:') call assert_equal(v_o, v:oldfiles) endfunc func Test_for_invalid() call assert_fails("for x in 99", 'E1098:') call assert_fails("for x in function('winnr')", 'E1098:') call assert_fails("for x in {'a': 9}", 'E1098:') call assert_fails("for v:maxcol in range(1)", 'E46:') if 0 /1/5/2/s/\n endif redraw endfunc func Test_for_over_null_string() let save_enc = &enc set enc=iso8859 let cnt = 0 for c in test_null_string() let cnt += 1 endfor call assert_equal(0, cnt) let &enc = save_enc endfunc func Test_for_with_modifier() " this checks has_loop_cmd() works with a modifier let result = [] vim9cmd for i in range(3) call extend(result, [i]) endfor call assert_equal([0, 1, 2], result) endfunc func Test_for_invalid_line_count() let lines =<< trim END 111111111111111111111111 for line in ['one'] endfor END call writefile(lines, 'XinvalidFor', 'D') " only test that this doesn't crash call RunVim([], [], '-u NONE -e -s -S XinvalidFor -c qa') endfunc func Test_readfile_binary() new call setline(1, ['one', 'two', 'three']) setlocal ff=dos silent write XReadfile_bin let lines = 'XReadfile_bin'->readfile() call assert_equal(['one', 'two', 'three'], lines) let lines = readfile('XReadfile_bin', '', 2) call assert_equal(['one', 'two'], lines) let lines = readfile('XReadfile_bin', 'b') call assert_equal(["one\r", "two\r", "three\r", ""], lines) let lines = readfile('XReadfile_bin', 'b', 2) call assert_equal(["one\r", "two\r"], lines) bwipe! call delete('XReadfile_bin') endfunc func Test_readfile_binary_empty() call writefile([], 'Xempty-file', 'D') " This used to compare uninitialized memory in Vim <= 8.2.4065 call assert_equal([''], readfile('Xempty-file', 'b')) endfunc func Test_readfile_bom() call writefile(["\ufeffFOO", "FOO\ufeffBAR"], 'XReadfile_bom') call assert_equal(['FOO', 'FOOBAR'], readfile('XReadfile_bom')) call delete('XReadfile_bom') endfunc func Test_readfile_max() call writefile(range(1, 4), 'XReadfile_max', 'D') call assert_equal(['1', '2'], readfile('XReadfile_max', '', 2)) call assert_equal(['3', '4'], readfile('XReadfile_max', '', -2)) endfunc func Test_let_errmsg() call assert_fails('let v:errmsg = []', 'E730:') let v:errmsg = '' call assert_fails('let v:errmsg = []', 'E730:') let v:errmsg = '' endfunc func Test_string_concatenation() call assert_equal('ab', 'a'.'b') call assert_equal('ab', 'a' .'b') call assert_equal('ab', 'a'. 'b') call assert_equal('ab', 'a' . 'b') call assert_equal('ab', 'a'..'b') call assert_equal('ab', 'a' ..'b') call assert_equal('ab', 'a'.. 'b') call assert_equal('ab', 'a' .. 'b') let a = 'a' let b = 'b' let a .= b call assert_equal('ab', a) let a = 'a' let a.=b call assert_equal('ab', a) let a = 'a' let a ..= b call assert_equal('ab', a) let a = 'a' let a..=b call assert_equal('ab', a) let a = 'A' let b = 1.234 call assert_equal('A1.234', a .. b) endfunc " Test fix for issue #4507 func Test_skip_after_throw() try throw 'something' let x = wincol() || &ts catch /something/ endtry endfunc scriptversion 2 func Test_string_concat_scriptversion2() call assert_true(has('vimscript-2')) let a = 'a' let b = 'b' call assert_fails('echo a . b', 'E15:') call assert_fails('let a .= b', 'E985:') call assert_fails('let vers = 1.2.3', 'E488:') let f = .5 call assert_equal(0.5, f) endfunc scriptversion 1 func Test_string_concat_scriptversion1() call assert_true(has('vimscript-1')) let a = 'a' let b = 'b' echo a . b let a .= b let vers = 1.2.3 call assert_equal('123', vers) call assert_fails('let f = .5', 'E15:') endfunc scriptversion 3 func Test_vvar_scriptversion3() call assert_true(has('vimscript-3')) call assert_fails('echo version', 'E121:') call assert_false(exists('version')) let version = 1 call assert_equal(1, version) endfunc scriptversion 2 func Test_vvar_scriptversion2() call assert_true(exists('version')) echo version call assert_fails('let version = 1', 'E46:') call assert_equal(v:version, version) call assert_equal(v:version, v:versionlong / 10000) call assert_true(v:versionlong > 8011525) endfunc func Test_dict_access_scriptversion2() let l:x = {'foo': 1} call assert_false(0 && l:x.foo) call assert_true(1 && l:x.foo) endfunc scriptversion 4 func Test_vvar_scriptversion4() call assert_true(has('vimscript-4')) call assert_equal(17, 017) call assert_equal(15, 0o17) call assert_equal(15, 0O17) call assert_equal(18, 018) call assert_equal(511, 0o777) call assert_equal(64, 0b1'00'00'00) call assert_equal(1048576, 0x10'00'00) call assert_equal(32768, 0o10'00'00) call assert_equal(1000000, 1'000'000) call assert_equal("1234", execute("echo 1'234")->trim()) call assert_equal('1 234', execute("echo 1''234")->trim()) call assert_fails("echo 1'''234", 'E115:') endfunc scriptversion 1 func Test_vvar_scriptversion1() call assert_equal(15, 017) call assert_equal(15, 0o17) call assert_equal(15, 0O17) call assert_equal(18, 018) call assert_equal(511, 0o777) endfunc func Test_scriptversion_fail() call writefile(['scriptversion 9'], 'Xversionscript', 'D') call assert_fails('source Xversionscript', 'E999:') endfunc func Test_execute_cmd_with_null() call assert_fails('execute test_null_list()', 'E730:') call assert_fails('execute test_null_dict()', 'E731:') call assert_fails('execute test_null_blob()', 'E976:') execute test_null_string() call assert_fails('execute test_null_partial()', 'E729:') call assert_fails('execute test_unknown()', 'E908:') if has('job') call assert_fails('execute test_null_job()', 'E908:') call assert_fails('execute test_null_channel()', 'E908:') endif endfunc func Test_number_max_min_size() " This will fail on systems without 64 bit number support or when not " configured correctly. call assert_equal(64, v:numbersize) call assert_true(v:numbermin < -9999999) call assert_true(v:numbermax > 9999999) endfunc func Assert_reg(name, type, value, valuestr, expr, exprstr) call assert_equal(a:type, getregtype(a:name)) call assert_equal(a:value, getreg(a:name)) call assert_equal(a:valuestr, string(getreg(a:name, 0, 1))) call assert_equal(a:expr, getreg(a:name, 1)) call assert_equal(a:exprstr, string(getreg(a:name, 1, 1))) endfunc func Test_let_register() let @" = 'abc' call Assert_reg('"', 'v', "abc", "['abc']", "abc", "['abc']") let @" = "abc\n" call Assert_reg('"', 'V', "abc\n", "['abc']", "abc\n", "['abc']") let @" = "abc\" call Assert_reg('"', 'V', "abc\r\n", "['abc\r']", "abc\r\n", "['abc\r']") let @= = '"abc"' call Assert_reg('=', 'v', "abc", "['abc']", '"abc"', "['\"abc\"']") endfunc func Assert_regput(name, result) new execute "silent normal! o==\n==\e\"" . a:name . "P" call assert_equal(a:result, getline(2, line('$'))) bwipe! endfunc func Test_setreg_basic() call setreg('a', 'abcA', 'c') call Assert_reg('a', 'v', "abcA", "['abcA']", "abcA", "['abcA']") call Assert_regput('a', ['==', '=abcA=']) call setreg('A', 'abcAc', 'c') call Assert_reg('A', 'v', "abcAabcAc", "['abcAabcAc']", "abcAabcAc", "['abcAabcAc']") call Assert_regput('a', ['==', '=abcAabcAc=']) call setreg('A', 'abcAl', 'l') call Assert_reg('A', 'V', "abcAabcAcabcAl\n", "['abcAabcAcabcAl']", "abcAabcAcabcAl\n", "['abcAabcAcabcAl']") call Assert_regput('a', ['==', 'abcAabcAcabcAl', '==']) call setreg('A', 'abcAc2','c') call Assert_reg('A', 'v', "abcAabcAcabcAl\nabcAc2", "['abcAabcAcabcAl', 'abcAc2']", "abcAabcAcabcAl\nabcAc2", "['abcAabcAcabcAl', 'abcAc2']") call Assert_regput('a', ['==', '=abcAabcAcabcAl', 'abcAc2=']) call setreg('b', 'abcB', 'v') call Assert_reg('b', 'v', "abcB", "['abcB']", "abcB", "['abcB']") call Assert_regput('b', ['==', '=abcB=']) call setreg('b', 'abcBc', 'ca') call Assert_reg('b', 'v', "abcBabcBc", "['abcBabcBc']", "abcBabcBc", "['abcBabcBc']") call Assert_regput('b', ['==', '=abcBabcBc=']) call setreg('b', 'abcBb', 'ba') call Assert_reg('b', "\5", "abcBabcBcabcBb", "['abcBabcBcabcBb']", "abcBabcBcabcBb", "['abcBabcBcabcBb']") call Assert_regput('b', ['==', '=abcBabcBcabcBb=']) call setreg('b', 'abcBc2','ca') call Assert_reg('b', "v", "abcBabcBcabcBb\nabcBc2", "['abcBabcBcabcBb', 'abcBc2']", "abcBabcBcabcBb\nabcBc2", "['abcBabcBcabcBb', 'abcBc2']") call Assert_regput('b', ['==', '=abcBabcBcabcBb', 'abcBc2=']) call setreg('b', 'abcBb2','b50a') call Assert_reg('b', "\50", "abcBabcBcabcBb\nabcBc2abcBb2", "['abcBabcBcabcBb', 'abcBc2abcBb2']", "abcBabcBcabcBb\nabcBc2abcBb2", "['abcBabcBcabcBb', 'abcBc2abcBb2']") call Assert_regput('b', ['==', '=abcBabcBcabcBb =', ' abcBc2abcBb2']) call setreg('c', 'abcC', 'l') call Assert_reg('c', 'V', "abcC\n", "['abcC']", "abcC\n", "['abcC']") call Assert_regput('c', ['==', 'abcC', '==']) call setreg('C', 'abcCl', 'l') call Assert_reg('C', 'V', "abcC\nabcCl\n", "['abcC', 'abcCl']", "abcC\nabcCl\n", "['abcC', 'abcCl']") call Assert_regput('c', ['==', 'abcC', 'abcCl', '==']) call setreg('C', 'abcCc', 'c') call Assert_reg('C', 'v', "abcC\nabcCl\nabcCc", "['abcC', 'abcCl', 'abcCc']", "abcC\nabcCl\nabcCc", "['abcC', 'abcCl', 'abcCc']") call Assert_regput('c', ['==', '=abcC', 'abcCl', 'abcCc=']) call setreg('d', 'abcD', 'V') call Assert_reg('d', 'V', "abcD\n", "['abcD']", "abcD\n", "['abcD']") call Assert_regput('d', ['==', 'abcD', '==']) call setreg('D', 'abcDb', 'b') call Assert_reg('d', "\5", "abcD\nabcDb", "['abcD', 'abcDb']", "abcD\nabcDb", "['abcD', 'abcDb']") call Assert_regput('d', ['==', '=abcD =', ' abcDb']) call setreg('e', 'abcE', 'b') call Assert_reg('e', "\4", "abcE", "['abcE']", "abcE", "['abcE']") call Assert_regput('e', ['==', '=abcE=']) call setreg('E', 'abcEb', 'b') call Assert_reg('E', "\5", "abcE\nabcEb", "['abcE', 'abcEb']", "abcE\nabcEb", "['abcE', 'abcEb']") call Assert_regput('e', ['==', '=abcE =', ' abcEb']) call setreg('E', 'abcEl', 'l') call Assert_reg('E', "V", "abcE\nabcEb\nabcEl\n", "['abcE', 'abcEb', 'abcEl']", "abcE\nabcEb\nabcEl\n", "['abcE', 'abcEb', 'abcEl']") call Assert_regput('e', ['==', 'abcE', 'abcEb', 'abcEl', '==']) call setreg('f', 'abcF', "\") call Assert_reg('f', "\4", "abcF", "['abcF']", "abcF", "['abcF']") call Assert_regput('f', ['==', '=abcF=']) call setreg('F', 'abcFc', 'c') call Assert_reg('F', "v", "abcF\nabcFc", "['abcF', 'abcFc']", "abcF\nabcFc", "['abcF', 'abcFc']") call Assert_regput('f', ['==', '=abcF', 'abcFc=']) call setreg('g', 'abcG', 'b10') call Assert_reg('g', "\10", "abcG", "['abcG']", "abcG", "['abcG']") call Assert_regput('g', ['==', '=abcG =']) call setreg('h', 'abcH', "\10") call Assert_reg('h', "\10", "abcH", "['abcH']", "abcH", "['abcH']") call Assert_regput('h', ['==', '=abcH =']) call setreg('I', 'abcI') call Assert_reg('I', "v", "abcI", "['abcI']", "abcI", "['abcI']") call Assert_regput('I', ['==', '=abcI=']) " Appending NL with setreg() call setreg('a', 'abcA2', 'c') call setreg('b', 'abcB2', 'v') call setreg('c', 'abcC2', 'l') call setreg('d', 'abcD2', 'V') call setreg('e', 'abcE2', 'b') call setreg('f', 'abcF2', "\") call setreg('g', 'abcG2', 'b10') call setreg('h', 'abcH2', "\10") call setreg('I', 'abcI2') call setreg('A', "\n") call Assert_reg('A', 'V', "abcA2\n", "['abcA2']", "abcA2\n", "['abcA2']") call Assert_regput('A', ['==', 'abcA2', '==']) call setreg('B', "\n", 'c') call Assert_reg('B', 'v', "abcB2\n", "['abcB2', '']", "abcB2\n", "['abcB2', '']") call Assert_regput('B', ['==', '=abcB2', '=']) call setreg('C', "\n") call Assert_reg('C', 'V', "abcC2\n\n", "['abcC2', '']", "abcC2\n\n", "['abcC2', '']") call Assert_regput('C', ['==', 'abcC2', '', '==']) call setreg('D', "\n", 'l') call Assert_reg('D', 'V', "abcD2\n\n", "['abcD2', '']", "abcD2\n\n", "['abcD2', '']") call Assert_regput('D', ['==', 'abcD2', '', '==']) call setreg('E', "\n") call Assert_reg('E', 'V', "abcE2\n\n", "['abcE2', '']", "abcE2\n\n", "['abcE2', '']") call Assert_regput('E', ['==', 'abcE2', '', '==']) call setreg('F', "\n", 'b') call Assert_reg('F', "\0", "abcF2\n", "['abcF2', '']", "abcF2\n", "['abcF2', '']") call Assert_regput('F', ['==', '=abcF2=', ' ']) " Setting lists with setreg() call setreg('a', ['abcA3'], 'c') call Assert_reg('a', 'v', "abcA3", "['abcA3']", "abcA3", "['abcA3']") call Assert_regput('a', ['==', '=abcA3=']) call setreg('b', ['abcB3'], 'l') call Assert_reg('b', 'V', "abcB3\n", "['abcB3']", "abcB3\n", "['abcB3']") call Assert_regput('b', ['==', 'abcB3', '==']) call setreg('c', ['abcC3'], 'b') call Assert_reg('c', "\5", "abcC3", "['abcC3']", "abcC3", "['abcC3']") call Assert_regput('c', ['==', '=abcC3=']) call setreg('d', ['abcD3']) call Assert_reg('d', 'V', "abcD3\n", "['abcD3']", "abcD3\n", "['abcD3']") call Assert_regput('d', ['==', 'abcD3', '==']) call setreg('e', [1, 2, 'abc', 3]) call Assert_reg('e', 'V', "1\n2\nabc\n3\n", "['1', '2', 'abc', '3']", "1\n2\nabc\n3\n", "['1', '2', 'abc', '3']") call Assert_regput('e', ['==', '1', '2', 'abc', '3', '==']) call setreg('f', [1, 2, 3]) call Assert_reg('f', 'V', "1\n2\n3\n", "['1', '2', '3']", "1\n2\n3\n", "['1', '2', '3']") call Assert_regput('f', ['==', '1', '2', '3', '==']) " Appending lists with setreg() call setreg('A', ['abcA3c'], 'c') call Assert_reg('A', 'v', "abcA3\nabcA3c", "['abcA3', 'abcA3c']", "abcA3\nabcA3c", "['abcA3', 'abcA3c']") call Assert_regput('A', ['==', '=abcA3', 'abcA3c=']) call setreg('b', ['abcB3l'], 'la') call Assert_reg('b', 'V', "abcB3\nabcB3l\n", "['abcB3', 'abcB3l']", "abcB3\nabcB3l\n", "['abcB3', 'abcB3l']") call Assert_regput('b', ['==', 'abcB3', 'abcB3l', '==']) call setreg('C', ['abcC3b'], 'lb') call Assert_reg('C', "\6", "abcC3\nabcC3b", "['abcC3', 'abcC3b']", "abcC3\nabcC3b", "['abcC3', 'abcC3b']") call Assert_regput('C', ['==', '=abcC3 =', ' abcC3b']) call setreg('D', ['abcD32']) call Assert_reg('D', 'V', "abcD3\nabcD32\n", "['abcD3', 'abcD32']", "abcD3\nabcD32\n", "['abcD3', 'abcD32']") call Assert_regput('D', ['==', 'abcD3', 'abcD32', '==']) call setreg('A', ['abcA32']) call Assert_reg('A', 'V', "abcA3\nabcA3c\nabcA32\n", "['abcA3', 'abcA3c', 'abcA32']", "abcA3\nabcA3c\nabcA32\n", "['abcA3', 'abcA3c', 'abcA32']") call Assert_regput('A', ['==', 'abcA3', 'abcA3c', 'abcA32', '==']) call setreg('B', ['abcB3c'], 'c') call Assert_reg('B', 'v', "abcB3\nabcB3l\nabcB3c", "['abcB3', 'abcB3l', 'abcB3c']", "abcB3\nabcB3l\nabcB3c", "['abcB3', 'abcB3l', 'abcB3c']") call Assert_regput('B', ['==', '=abcB3', 'abcB3l', 'abcB3c=']) call setreg('C', ['abcC3l'], 'l') call Assert_reg('C', 'V', "abcC3\nabcC3b\nabcC3l\n", "['abcC3', 'abcC3b', 'abcC3l']", "abcC3\nabcC3b\nabcC3l\n", "['abcC3', 'abcC3b', 'abcC3l']") call Assert_regput('C', ['==', 'abcC3', 'abcC3b', 'abcC3l', '==']) call setreg('D', ['abcD3b'], 'b') call Assert_reg('D', "\6", "abcD3\nabcD32\nabcD3b", "['abcD3', 'abcD32', 'abcD3b']", "abcD3\nabcD32\nabcD3b", "['abcD3', 'abcD32', 'abcD3b']") call Assert_regput('D', ['==', '=abcD3 =', ' abcD32', ' abcD3b']) " Appending lists with NL with setreg() call setreg('A', ["\n", 'abcA3l2'], 'l') call Assert_reg('A', "V", "abcA3\nabcA3c\nabcA32\n\n\nabcA3l2\n", "['abcA3', 'abcA3c', 'abcA32', '\n', 'abcA3l2']", "abcA3\nabcA3c\nabcA32\n\n\nabcA3l2\n", "['abcA3', 'abcA3c', 'abcA32', '\n', 'abcA3l2']") call Assert_regput('A', ['==', 'abcA3', 'abcA3c', 'abcA32', "\n", 'abcA3l2', '==']) call setreg('B', ["\n", 'abcB3c2'], 'c') call Assert_reg('B', "v", "abcB3\nabcB3l\nabcB3c\n\n\nabcB3c2", "['abcB3', 'abcB3l', 'abcB3c', '\n', 'abcB3c2']", "abcB3\nabcB3l\nabcB3c\n\n\nabcB3c2", "['abcB3', 'abcB3l', 'abcB3c', '\n', 'abcB3c2']") call Assert_regput('B', ['==', '=abcB3', 'abcB3l', 'abcB3c', "\n", 'abcB3c2=']) call setreg('C', ["\n", 'abcC3b2'], 'b') call Assert_reg('C', "7", "abcC3\nabcC3b\nabcC3l\n\n\nabcC3b2", "['abcC3', 'abcC3b', 'abcC3l', '\n', 'abcC3b2']", "abcC3\nabcC3b\nabcC3l\n\n\nabcC3b2", "['abcC3', 'abcC3b', 'abcC3l', '\n', 'abcC3b2']") call Assert_regput('C', ['==', '=abcC3 =', ' abcC3b', ' abcC3l', " \n", ' abcC3b2']) call setreg('D', ["\n", 'abcD3b50'],'b50') call Assert_reg('D', "50", "abcD3\nabcD32\nabcD3b\n\n\nabcD3b50", "['abcD3', 'abcD32', 'abcD3b', '\n', 'abcD3b50']", "abcD3\nabcD32\nabcD3b\n\n\nabcD3b50", "['abcD3', 'abcD32', 'abcD3b', '\n', 'abcD3b50']") call Assert_regput('D', ['==', '=abcD3 =', ' abcD32', ' abcD3b', " \n", ' abcD3b50']) " Setting lists with NLs with setreg() call setreg('a', ['abcA4-0', "\n", "abcA4-2\n", "\nabcA4-3", "abcA4-4\nabcA4-4-2"]) call Assert_reg('a', "V", "abcA4-0\n\n\nabcA4-2\n\n\nabcA4-3\nabcA4-4\nabcA4-4-2\n", "['abcA4-0', '\n', 'abcA4-2\n', '\nabcA4-3', 'abcA4-4\nabcA4-4-2']", "abcA4-0\n\n\nabcA4-2\n\n\nabcA4-3\nabcA4-4\nabcA4-4-2\n", "['abcA4-0', '\n', 'abcA4-2\n', '\nabcA4-3', 'abcA4-4\nabcA4-4-2']") call Assert_regput('a', ['==', 'abcA4-0', "\n", "abcA4-2\n", "\nabcA4-3", "abcA4-4\nabcA4-4-2", '==']) call setreg('b', ['abcB4c-0', "\n", "abcB4c-2\n", "\nabcB4c-3", "abcB4c-4\nabcB4c-4-2"], 'c') call Assert_reg('b', "v", "abcB4c-0\n\n\nabcB4c-2\n\n\nabcB4c-3\nabcB4c-4\nabcB4c-4-2", "['abcB4c-0', '\n', 'abcB4c-2\n', '\nabcB4c-3', 'abcB4c-4\nabcB4c-4-2']", "abcB4c-0\n\n\nabcB4c-2\n\n\nabcB4c-3\nabcB4c-4\nabcB4c-4-2", "['abcB4c-0', '\n', 'abcB4c-2\n', '\nabcB4c-3', 'abcB4c-4\nabcB4c-4-2']") call Assert_regput('b', ['==', '=abcB4c-0', "\n", "abcB4c-2\n", "\nabcB4c-3", "abcB4c-4\nabcB4c-4-2="]) call setreg('c', ['abcC4l-0', "\n", "abcC4l-2\n", "\nabcC4l-3", "abcC4l-4\nabcC4l-4-2"], 'l') call Assert_reg('c', "V", "abcC4l-0\n\n\nabcC4l-2\n\n\nabcC4l-3\nabcC4l-4\nabcC4l-4-2\n", "['abcC4l-0', '\n', 'abcC4l-2\n', '\nabcC4l-3', 'abcC4l-4\nabcC4l-4-2']", "abcC4l-0\n\n\nabcC4l-2\n\n\nabcC4l-3\nabcC4l-4\nabcC4l-4-2\n", "['abcC4l-0', '\n', 'abcC4l-2\n', '\nabcC4l-3', 'abcC4l-4\nabcC4l-4-2']") call Assert_regput('c', ['==', 'abcC4l-0', "\n", "abcC4l-2\n", "\nabcC4l-3", "abcC4l-4\nabcC4l-4-2", '==']) call setreg('d', ['abcD4b-0', "\n", "abcD4b-2\n", "\nabcD4b-3", "abcD4b-4\nabcD4b-4-2"], 'b') call Assert_reg('d', "19", "abcD4b-0\n\n\nabcD4b-2\n\n\nabcD4b-3\nabcD4b-4\nabcD4b-4-2", "['abcD4b-0', '\n', 'abcD4b-2\n', '\nabcD4b-3', 'abcD4b-4\nabcD4b-4-2']", "abcD4b-0\n\n\nabcD4b-2\n\n\nabcD4b-3\nabcD4b-4\nabcD4b-4-2", "['abcD4b-0', '\n', 'abcD4b-2\n', '\nabcD4b-3', 'abcD4b-4\nabcD4b-4-2']") call Assert_regput('d', ['==', '=abcD4b-0 =', " \n", " abcD4b-2\n", " \nabcD4b-3", " abcD4b-4\nabcD4b-4-2"]) call setreg('e', ['abcE4b10-0', "\n", "abcE4b10-2\n", "\nabcE4b10-3", "abcE4b10-4\nabcE4b10-4-2"], 'b10') call Assert_reg('e', "10", "abcE4b10-0\n\n\nabcE4b10-2\n\n\nabcE4b10-3\nabcE4b10-4\nabcE4b10-4-2", "['abcE4b10-0', '\n', 'abcE4b10-2\n', '\nabcE4b10-3', 'abcE4b10-4\nabcE4b10-4-2']", "abcE4b10-0\n\n\nabcE4b10-2\n\n\nabcE4b10-3\nabcE4b10-4\nabcE4b10-4-2", "['abcE4b10-0', '\n', 'abcE4b10-2\n', '\nabcE4b10-3', 'abcE4b10-4\nabcE4b10-4-2']") call Assert_regput('e', ['==', '=abcE4b10-0=', " \n", " abcE4b10-2\n", " \nabcE4b10-3", " abcE4b10-4\nabcE4b10-4-2"]) " Search and expressions call setreg('/', ['abc/']) call Assert_reg('/', 'v', "abc/", "['abc/']", "abc/", "['abc/']") call Assert_regput('/', ['==', '=abc/=']) call setreg('/', ["abc/\n"]) call Assert_reg('/', 'v', "abc/\n", "['abc/\n']", "abc/\n", "['abc/\n']") call Assert_regput('/', ['==', "=abc/\n="]) call setreg('=', ['"abc/"']) call Assert_reg('=', 'v', "abc/", "['abc/']", '"abc/"', "['\"abc/\"']") call setreg('=', ["\"abc/\n\""]) call Assert_reg('=', 'v', "abc/\n", "['abc/\n']", "\"abc/\n\"", "['\"abc/\n\"']") " System clipboard if has('clipboard') new | only! call setline(1, ['clipboard contents', 'something else']) " Save and restore system clipboard. " If no connection to X-Server is possible, test should succeed. let _clipreg = ['*', getreg('*'), getregtype('*')] let _clipopt = &cb let &cb='unnamed' 1y call Assert_reg('*', 'V', "clipboard contents\n", "['clipboard contents']", "clipboard contents\n", "['clipboard contents']") tabdo :windo :echo "hi" 2y call Assert_reg('*', 'V', "something else\n", "['something else']", "something else\n", "['something else']") let &cb=_clipopt call call('setreg', _clipreg) enew! endif " Error cases call assert_fails('call setreg()', 'E119:') call assert_fails('call setreg(1)', 'E119:') call assert_fails('call setreg(1, 2, 3, 4)', 'E118:') call assert_fails('call setreg([], 2)', 'E730:') call assert_fails('call setreg(1, 2, [])', 'E730:') call assert_fails('call setreg("/", ["1", "2"])', 'E883:') call assert_fails('call setreg("=", ["1", "2"])', 'E883:') call assert_fails('call setreg(1, ["", "", [], ""])', 'E730:') endfunc func Test_curly_assignment() let s:svar = 'svar' let g:gvar = 'gvar' let lname = 'gvar' let gname = 'gvar' let {'s:'.lname} = {'g:'.gname} call assert_equal('gvar', s:gvar) let s:gvar = '' let { 's:'.lname } = { 'g:'.gname } call assert_equal('gvar', s:gvar) let s:gvar = '' let { 's:' . lname } = { 'g:' . gname } call assert_equal('gvar', s:gvar) let s:gvar = '' let { 's:' .. lname } = { 'g:' .. gname } call assert_equal('gvar', s:gvar) unlet s:svar unlet s:gvar unlet g:gvar endfunc func Test_deep_recursion() " this was running out of stack call assert_fails("exe 'if ' .. repeat('(', 1002)", 'E1169: Expression too recursive: ((') endfunc " K_SPECIAL in the modified character used be escaped, which causes " double-escaping with feedkeys() or as the return value of an mapping, " and doesn't match what getchar() returns, func Test_modified_char_no_escape_special() nnoremap let g:got_m_ellipsis += 1 call feedkeys("\", 't') call assert_equal("\", getchar()) let g:got_m_ellipsis = 0 call feedkeys("\", 'xt') call assert_equal(1, g:got_m_ellipsis) func Func() return "\" endfunc nmap Func() call feedkeys("\", 'xt') call assert_equal(2, g:got_m_ellipsis) delfunc Func nunmap unlet g:got_m_ellipsis nunmap endfunc func Test_eval_string_in_special_key() " this was using the '{' inside <> as the start of an interpolated string silent! echo 0{1-$"\n|nö% endfunc " vim: shiftwidth=2 sts=2 expandtab