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runtime(java): Improve the recognition of the "style" method declarations
Commit: https://github.com/vim/vim/commit/a4c085a3e607bd01d34e1db600b6460fc35fb0a3
Author: Aliaksei Budavei <0x000c70@gmail.com>
Date: Wed Apr 24 21:04:25 2024 +0200
runtime(java): Improve the recognition of the "style" method declarations
- Request the new regexp engine (v7.3.970) for [:upper:] and
[:lower:].
- Recognise declarations of in-line annotated methods.
- Recognise declarations of _strictfp_ methods.
- Establish partial order for method modifiers as shown in
the MethodModifier production; namely, _public_ and
friends should be written the leftmost, possibly followed
by _abstract_ or _default_, or possibly followed by other
modifiers.
- Stop looking for parameterisable primitive types (void<?>,
int<Object>, etc., are malformed).
- Stop looking for arrays of _void_.
- Acknowledge the prevailing convention for method names to
begin with a small letter and for class/interface names to
begin with a capital letter; and, therefore, desist from
claiming declarations of enum constants and constructors
with javaFuncDef.
Rationale:
+ Constructor is distinct from method:
* its (overloaded) name is not arbitrary;
* its return type is implicit;
* its _throws_ clause depends on indirect vagaries of
instance (variable) initialisers;
* its invocation makes other constructors of its type
hierarchy invoked one by one, concluding with the
primordial constructor;
* its explicit invocation, via _this_ or _super_, can
only appear as the first statement in a constructor
(not anymore, see JEP 447); else, its _super_ call
cannot appear in constructors of _record_ or _enum_;
and neither invocation is allowed for the primordial
constructor;
* it is not a member of its class, like initialisers,
and is never inherited;
* it is never _abstract_ or _native_.
+ Constructor declarations tend to be few in number and
merit visual recognition from method declarations.
+ Enum constants define a fixed set of type instances
and more resemble class variable initialisers.
Note that the code duplicated for @javaFuncParams is written
keeping in mind for g:java_highlight_functions a pending 3rd
variant, which would require none of the :syn-cluster added
groups.
closes: #14620
Signed-off-by: Aliaksei Budavei <0x000c70@gmail.com>
Signed-off-by: Christian Brabandt <cb@256bit.org>
| author | Christian Brabandt <cb@256bit.org> |
|---|---|
| date | Wed, 24 Apr 2024 21:15:02 +0200 |
| parents | 3cacfb652766 |
| children |
line wrap: on
line source
" Tests for expressions. source check.vim import './vim9.vim' as v9 func Test_equal() let base = {} func base.method() return 1 endfunc func base.other() dict return 1 endfunc let instance = copy(base) call assert_true(base.method == instance.method) call assert_true([base.method] == [instance.method]) call assert_true(base.other == instance.other) call assert_true([base.other] == [instance.other]) call assert_false(base.method == base.other) call assert_false([base.method] == [base.other]) call assert_false(base.method == instance.other) call assert_false([base.method] == [instance.other]) call assert_fails('echo base.method > instance.method') call assert_equal(0, test_null_function() == function('min')) call assert_equal(1, test_null_function() == test_null_function()) call assert_fails('eval 10 == test_unknown()', ['E340:', 'E685:']) endfunc func Test_version() call assert_true(has('patch-7.4.001')) call assert_true(has('patch-7.4.01')) call assert_true(has('patch-7.4.1')) call assert_true(has('patch-6.9.999')) call assert_true(has('patch-7.1.999')) call assert_true(has('patch-7.4.123')) call assert_true(has('patch-7.4.123 ')) " Trailing space can be allowed. call assert_true(has('patch-9.1.0')) call assert_true(has('patch-9.1.0000')) call assert_false(has('patch-7')) call assert_false(has('patch-7.4')) call assert_false(has('patch-7.4.')) call assert_false(has('patch-9.2.0')) call assert_false(has('patch-9.9.1')) call assert_false(has('patch-abc')) call assert_false(has('patchabc')) call assert_false(has('patch-8x001')) call assert_false(has('patch-9X0X0')) call assert_false(has('patch-9-0-0')) call assert_false(has('patch-09.0.0')) call assert_false(has('patch-9.00.0')) endfunc func Test_op_ternary() let lines =<< trim END call assert_equal('yes', 1 ? 'yes' : 'no') call assert_equal('no', 0 ? 'yes' : 'no') call assert_fails('echo [1] ? "yes" : "no"', 'E745:') call assert_fails('echo {} ? "yes" : "no"', 'E728:') END call v9.CheckLegacyAndVim9Success(lines) call assert_equal('no', 'x' ? 'yes' : 'no') call v9.CheckDefAndScriptFailure(["'x' ? 'yes' : 'no'"], 'E1135:') call assert_equal('yes', '1x' ? 'yes' : 'no') call v9.CheckDefAndScriptFailure(["'1x' ? 'yes' : 'no'"], 'E1135:') endfunc func Test_op_falsy() let lines =<< trim END call assert_equal(v:true, v:true ?? 456) call assert_equal(123, 123 ?? 456) call assert_equal('yes', 'yes' ?? 456) call assert_equal(0z00, 0z00 ?? 456) call assert_equal([1], [1] ?? 456) call assert_equal({'one': 1}, {'one': 1} ?? 456) call assert_equal(0.1, 0.1 ?? 456) call assert_equal(456, v:false ?? 456) call assert_equal(456, 0 ?? 456) call assert_equal(456, '' ?? 456) call assert_equal(456, 0z ?? 456) call assert_equal(456, [] ?? 456) call assert_equal(456, {} ?? 456) call assert_equal(456, 0.0 ?? 456) call assert_equal(456, v:null ?? 456) call assert_equal(456, v:none ?? 456) call assert_equal(456, test_null_string() ?? 456) call assert_equal(456, test_null_blob() ?? 456) call assert_equal(456, test_null_list() ?? 456) call assert_equal(456, test_null_dict() ?? 456) call assert_equal(456, test_null_function() ?? 456) call assert_equal(456, test_null_partial() ?? 456) if has('job') call assert_equal(456, test_null_job() ?? 456) endif if has('channel') call assert_equal(456, test_null_channel() ?? 456) endif END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_dict() let lines =<< trim END VAR d = {'': 'empty', 'a': 'a', 0: 'zero'} call assert_equal('empty', d['']) call assert_equal('a', d['a']) call assert_equal('zero', d[0]) call assert_true(has_key(d, '')) call assert_true(has_key(d, 'a')) LET d[''] = 'none' LET d['a'] = 'aaa' call assert_equal('none', d['']) call assert_equal('aaa', d['a']) LET d[ 'b' ] = 'bbb' call assert_equal('bbb', d[ 'b' ]) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(["VAR i = has_key([], 'a')"], ['E1206:', 'E1013:', 'E1206:']) endfunc func Test_strgetchar() let lines =<< trim END call assert_equal(char2nr('a'), strgetchar('axb', 0)) call assert_equal(char2nr('x'), 'axb'->strgetchar(1)) call assert_equal(char2nr('b'), strgetchar('axb', 2)) call assert_equal(-1, strgetchar('axb', -1)) call assert_equal(-1, strgetchar('axb', 3)) call assert_equal(-1, strgetchar('', 0)) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(["VAR c = strgetchar([], 1)"], ['E730:', 'E1013:', 'E1174:']) call v9.CheckLegacyAndVim9Failure(["VAR c = strgetchar('axb', [])"], ['E745:', 'E1013:', 'E1210:']) endfunc func Test_strcharpart() let lines =<< trim END call assert_equal('a', strcharpart('axb', 0, 1)) call assert_equal('x', 'axb'->strcharpart(1, 1)) call assert_equal('b', strcharpart('axb', 2, 1)) call assert_equal('xb', strcharpart('axb', 1)) call assert_equal('', strcharpart('axb', 1, 0)) call assert_equal('', strcharpart('axb', 1, -1)) call assert_equal('', strcharpart('axb', -1, 1)) call assert_equal('', strcharpart('axb', -2, 2)) call assert_equal('a', strcharpart('axb', -1, 2)) call assert_equal('edit', "editor"[-10 : 3]) END call v9.CheckLegacyAndVim9Success(lines) call assert_fails('call strcharpart("", 0, 0, {})', ['E728:', 'E728:']) call assert_fails('call strcharpart("", 0, 0, -1)', ['E1023:', 'E1023:']) endfunc func Test_getreg_empty_list() let lines =<< trim END call assert_equal('', getreg('x')) call assert_equal([], getreg('x', 1, 1)) VAR x = getreg('x', 1, 1) VAR y = x call add(x, 'foo') call assert_equal(['foo'], y) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(['call getreg([])'], ['E730:', 'E1013:', 'E1174:']) endfunc func Test_loop_over_null_list() let lines =<< trim END VAR nulllist = test_null_list() for i in nulllist call assert_report('should not get here') endfor END call v9.CheckLegacyAndVim9Success(lines) let lines =<< trim END var nulllist = null_list for i in nulllist call assert_report('should not get here') endfor END call v9.CheckDefAndScriptSuccess(lines) let lines =<< trim END let nulllist = null_list for i in nulllist call assert_report('should not get here') endfor END call v9.CheckScriptFailure(lines, 'E121: Undefined variable: null_list') endfunc func Test_compare_with_null() let s:value = v:null call assert_true(s:value == v:null) let s:value = v:true call assert_false(s:value == v:null) let s:value = v:none call assert_false(s:value == v:null) let s:value = 0 call assert_true(s:value == v:null) let s:value = 0.0 call assert_true(s:value == v:null) let s:value = '' call assert_false(s:value == v:null) let s:value = 0z call assert_false(s:value == v:null) let s:value = [] call assert_false(s:value == v:null) let s:value = {} call assert_false(s:value == v:null) let s:value = function('len') call assert_false(s:value == v:null) if has('job') let s:value = test_null_job() call assert_true(s:value == v:null) let s:value = test_null_channel() call assert_true(s:value == v:null) endif unlet s:value endfunc func Test_setreg_null_list() let lines =<< trim END call setreg('x', test_null_list()) END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_special_char() " The failure is only visible using valgrind. call v9.CheckLegacyAndVim9Failure(['echo "\<C-">'], ['E15:', 'E1004:', 'E1004:']) endfunc func Test_method_with_prefix() let lines =<< trim END call assert_equal(TRUE, !range(5)->empty()) call assert_equal(FALSE, !-3) END call v9.CheckLegacyAndVim9Success(lines) call assert_equal([0, 1, 2], --3->range()) call v9.CheckDefAndScriptFailure(['eval --3->range()'], 'E15') call assert_equal(1, !+-+0) call v9.CheckDefAndScriptFailure(['eval !+-+0'], 'E15') endfunc func Test_option_value() let lines =<< trim END #" boolean set bri call assert_equal(TRUE, &bri) set nobri call assert_equal(FALSE, &bri) #" number set ts=1 call assert_equal(1, &ts) set ts=8 call assert_equal(8, &ts) #" string exe "set cedit=\<Esc>" call assert_equal("\<Esc>", &cedit) set cpo= call assert_equal("", &cpo) set cpo=abcdefgi call assert_equal("abcdefgi", &cpo) set cpo&vim END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_printf_misc() let lines =<< trim END call assert_equal('123', printf('123')) call assert_equal('', printf('%')) call assert_equal('', printf('%.0d', 0)) call assert_equal('123', printf('%d', 123)) call assert_equal('123', printf('%i', 123)) call assert_equal('123', printf('%D', 123)) call assert_equal('123', printf('%U', 123)) call assert_equal('173', printf('%o', 123)) call assert_equal('173', printf('%O', 123)) call assert_equal('7b', printf('%x', 123)) call assert_equal('7B', printf('%X', 123)) call assert_equal('123', printf('%hd', 123)) call assert_equal('-123', printf('%hd', -123)) call assert_equal('-1', printf('%hd', 0xFFFF)) call assert_equal('-1', printf('%hd', 0x1FFFFF)) call assert_equal('123', printf('%hu', 123)) call assert_equal('65413', printf('%hu', -123)) call assert_equal('65535', printf('%hu', 0xFFFF)) call assert_equal('65535', printf('%hu', 0x1FFFFF)) call assert_equal('123', printf('%ld', 123)) call assert_equal('-123', printf('%ld', -123)) call assert_equal('65535', printf('%ld', 0xFFFF)) call assert_equal('131071', printf('%ld', 0x1FFFF)) call assert_equal('{', printf('%c', 123)) call assert_equal('abc', printf('%s', 'abc')) call assert_equal('abc', printf('%S', 'abc')) call assert_equal('+123', printf('%+d', 123)) call assert_equal('-123', printf('%+d', -123)) call assert_equal('+123', printf('%+ d', 123)) call assert_equal(' 123', printf('% d', 123)) call assert_equal(' 123', printf('% d', 123)) call assert_equal('-123', printf('% d', -123)) call assert_equal('123', printf('%2d', 123)) call assert_equal(' 123', printf('%6d', 123)) call assert_equal('000123', printf('%06d', 123)) call assert_equal('+00123', printf('%+06d', 123)) call assert_equal(' 00123', printf('% 06d', 123)) call assert_equal(' +123', printf('%+6d', 123)) call assert_equal(' 123', printf('% 6d', 123)) call assert_equal(' -123', printf('% 6d', -123)) #" Test left adjusted. call assert_equal('123 ', printf('%-6d', 123)) call assert_equal('+123 ', printf('%-+6d', 123)) call assert_equal(' 123 ', printf('%- 6d', 123)) call assert_equal('-123 ', printf('%- 6d', -123)) call assert_equal(' 00123', printf('%7.5d', 123)) call assert_equal(' -00123', printf('%7.5d', -123)) call assert_equal(' +00123', printf('%+7.5d', 123)) #" Precision field should not be used when combined with %0 call assert_equal(' 00123', printf('%07.5d', 123)) call assert_equal(' -00123', printf('%07.5d', -123)) call assert_equal(' 123', printf('%*d', 5, 123)) call assert_equal('123 ', printf('%*d', -5, 123)) call assert_equal('00123', printf('%.*d', 5, 123)) call assert_equal(' 123', printf('% *d', 5, 123)) call assert_equal(' +123', printf('%+ *d', 5, 123)) call assert_equal('foobar', printf('%.*s', 9, 'foobar')) call assert_equal('foo', printf('%.*s', 3, 'foobar')) call assert_equal('', printf('%.*s', 0, 'foobar')) call assert_equal('foobar', printf('%.*s', -1, 'foobar')) #" Simple quote (thousand grouping char) is ignored. call assert_equal('+00123456', printf("%+'09d", 123456)) #" Unrecognized format specifier kept as-is. call assert_equal('_123', printf("%_%d", 123)) #" Test alternate forms. call assert_equal('0x7b', printf('%#x', 123)) call assert_equal('0X7B', printf('%#X', 123)) call assert_equal('0173', printf('%#o', 123)) call assert_equal('0173', printf('%#O', 123)) call assert_equal('abc', printf('%#s', 'abc')) call assert_equal('abc', printf('%#S', 'abc')) call assert_equal(' 0173', printf('%#6o', 123)) call assert_equal(' 00173', printf('%#6.5o', 123)) call assert_equal(' 0173', printf('%#6.2o', 123)) call assert_equal(' 0173', printf('%#6.2o', 123)) call assert_equal('0173', printf('%#2.2o', 123)) call assert_equal(' 00123', printf('%6.5d', 123)) call assert_equal(' 0007b', printf('%6.5x', 123)) call assert_equal('123', printf('%.2d', 123)) call assert_equal('0123', printf('%.4d', 123)) call assert_equal('0000000123', printf('%.10d', 123)) call assert_equal('123', printf('%.0d', 123)) call assert_equal('abc', printf('%2s', 'abc')) call assert_equal('abc', printf('%2S', 'abc')) call assert_equal('abc', printf('%.4s', 'abc')) call assert_equal('abc', printf('%.4S', 'abc')) call assert_equal('ab', printf('%.2s', 'abc')) call assert_equal('ab', printf('%.2S', 'abc')) call assert_equal('', printf('%.0s', 'abc')) call assert_equal('', printf('%.s', 'abc')) call assert_equal(' abc', printf('%4s', 'abc')) call assert_equal(' abc', printf('%4S', 'abc')) call assert_equal('0abc', printf('%04s', 'abc')) call assert_equal('0abc', printf('%04S', 'abc')) call assert_equal('abc ', printf('%-4s', 'abc')) call assert_equal('abc ', printf('%-4S', 'abc')) call assert_equal('π', printf('%.2S', 'ππ')) call assert_equal('', printf('%.1S', 'ππ')) call assert_equal('[ γγγ]', printf('[%10.6S]', 'γγγγγ')) call assert_equal('[ γγγγ]', printf('[%10.8S]', 'γγγγγ')) call assert_equal('[γγγγγ]', printf('[%10.10S]', 'γγγγγ')) call assert_equal('[γγγγγ]', printf('[%10.12S]', 'γγγγγ')) call assert_equal('γγγ', printf('%S', 'γγγ')) call assert_equal('γγγ', printf('%#S', 'γγγ')) call assert_equal('γb', printf('%2S', 'γb')) call assert_equal('γb', printf('%.4S', 'γb')) call assert_equal('γ', printf('%.2S', 'γb')) call assert_equal(' γb', printf('%4S', 'γb')) call assert_equal('0γb', printf('%04S', 'γb')) call assert_equal('γb ', printf('%-4S', 'γb')) call assert_equal('γ ', printf('%-4.2S', 'γb')) call assert_equal('aγ', printf('%2S', 'aγ')) call assert_equal('aγ', printf('%.4S', 'aγ')) call assert_equal('a', printf('%.2S', 'aγ')) call assert_equal(' aγ', printf('%4S', 'aγ')) call assert_equal('0aγ', printf('%04S', 'aγ')) call assert_equal('aγ ', printf('%-4S', 'aγ')) call assert_equal('a ', printf('%-4.2S', 'aγ')) call assert_equal('[γγγ]', printf('[%05S]', 'γγγ')) call assert_equal('[γγγ]', printf('[%06S]', 'γγγ')) call assert_equal('[0γγγ]', printf('[%07S]', 'γγγ')) call assert_equal('[γiγ]', printf('[%05S]', 'γiγ')) call assert_equal('[0γiγ]', printf('[%06S]', 'γiγ')) call assert_equal('[00γiγ]', printf('[%07S]', 'γiγ')) call assert_equal('[0γγ]', printf('[%05.4S]', 'γγγ')) call assert_equal('[00γγ]', printf('[%06.4S]', 'γγγ')) call assert_equal('[000γγ]', printf('[%07.4S]', 'γγγ')) call assert_equal('[00γi]', printf('[%05.4S]', 'γiγ')) call assert_equal('[000γi]', printf('[%06.4S]', 'γiγ')) call assert_equal('[0000γi]', printf('[%07.4S]', 'γiγ')) call assert_equal('[0γγ]', printf('[%05.5S]', 'γγγ')) call assert_equal('[00γγ]', printf('[%06.5S]', 'γγγ')) call assert_equal('[000γγ]', printf('[%07.5S]', 'γγγ')) call assert_equal('[γiγ]', printf('[%05.5S]', 'γiγ')) call assert_equal('[0γiγ]', printf('[%06.5S]', 'γiγ')) call assert_equal('[00γiγ]', printf('[%07.5S]', 'γiγ')) call assert_equal('[0000000000]', printf('[%010.0S]', 'γγγ')) call assert_equal('[0000000000]', printf('[%010.1S]', 'γγγ')) call assert_equal('[00000000γ]', printf('[%010.2S]', 'γγγ')) call assert_equal('[00000000γ]', printf('[%010.3S]', 'γγγ')) call assert_equal('[000000γγ]', printf('[%010.4S]', 'γγγ')) call assert_equal('[000000γγ]', printf('[%010.5S]', 'γγγ')) call assert_equal('[0000γγγ]', printf('[%010.6S]', 'γγγ')) call assert_equal('[0000γγγ]', printf('[%010.7S]', 'γγγ')) call assert_equal('[0000000000]', printf('[%010.1S]', 'γiγ')) call assert_equal('[00000000γ]', printf('[%010.2S]', 'γiγ')) call assert_equal('[0000000γi]', printf('[%010.3S]', 'γiγ')) call assert_equal('[0000000γi]', printf('[%010.4S]', 'γiγ')) call assert_equal('[00000γiγ]', printf('[%010.5S]', 'γiγ')) call assert_equal('[00000γiγ]', printf('[%010.6S]', 'γiγ')) call assert_equal('[00000γiγ]', printf('[%010.7S]', 'γiγ')) call assert_equal('1%', printf('%d%%', 1)) call assert_notequal('', printf('%p', "abc")) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(["call printf('123', 3)"], "E767:") " this was using uninitialized memory call v9.CheckLegacyAndVim9Failure(["eval ''->printf()"], "E119:") endfunc func Test_printf_float() let lines =<< trim END call assert_equal('1.000000', printf('%f', 1)) call assert_equal('1.230000', printf('%f', 1.23)) call assert_equal('1.230000', printf('%F', 1.23)) call assert_equal('9999999.9', printf('%g', 9999999.9)) call assert_equal('9999999.9', printf('%G', 9999999.9)) call assert_equal('1.00000001e7', printf('%.8g', 10000000.1)) call assert_equal('1.00000001E7', printf('%.8G', 10000000.1)) call assert_equal('1.230000e+00', printf('%e', 1.23)) call assert_equal('1.230000E+00', printf('%E', 1.23)) call assert_equal('1.200000e-02', printf('%e', 0.012)) call assert_equal('-1.200000e-02', printf('%e', -0.012)) call assert_equal('0.33', printf('%.2f', 1.0 / 3.0)) call assert_equal(' 0.33', printf('%6.2f', 1.0 / 3.0)) call assert_equal(' -0.33', printf('%6.2f', -1.0 / 3.0)) call assert_equal('000.33', printf('%06.2f', 1.0 / 3.0)) call assert_equal('-00.33', printf('%06.2f', -1.0 / 3.0)) call assert_equal('-00.33', printf('%+06.2f', -1.0 / 3.0)) call assert_equal('+00.33', printf('%+06.2f', 1.0 / 3.0)) call assert_equal(' 00.33', printf('% 06.2f', 1.0 / 3.0)) call assert_equal('000.33', printf('%06.2g', 1.0 / 3.0)) call assert_equal('-00.33', printf('%06.2g', -1.0 / 3.0)) call assert_equal('0.33', printf('%3.2f', 1.0 / 3.0)) call assert_equal('003.33e-01', printf('%010.2e', 1.0 / 3.0)) call assert_equal(' 03.33e-01', printf('% 010.2e', 1.0 / 3.0)) call assert_equal('+03.33e-01', printf('%+010.2e', 1.0 / 3.0)) call assert_equal('-03.33e-01', printf('%010.2e', -1.0 / 3.0)) #" When precision is 0, the dot should be omitted. call assert_equal(' 2', printf('%3.f', 7.0 / 3.0)) call assert_equal(' 2', printf('%3.g', 7.0 / 3.0)) call assert_equal(' 2e+00', printf('%7.e', 7.0 / 3.0)) #" Float zero can be signed. call assert_equal('+0.000000', printf('%+f', 0.0)) call assert_equal('0.000000', printf('%f', 1.0 / (1.0 / 0.0))) call assert_equal('-0.000000', printf('%f', 1.0 / (-1.0 / 0.0))) call assert_equal('0.0', printf('%s', 1.0 / (1.0 / 0.0))) call assert_equal('-0.0', printf('%s', 1.0 / (-1.0 / 0.0))) call assert_equal('0.0', printf('%S', 1.0 / (1.0 / 0.0))) call assert_equal('-0.0', printf('%S', 1.0 / (-1.0 / 0.0))) #" Float infinity can be signed. call assert_equal('inf', printf('%f', 1.0 / 0.0)) call assert_equal('-inf', printf('%f', -1.0 / 0.0)) call assert_equal('inf', printf('%g', 1.0 / 0.0)) call assert_equal('-inf', printf('%g', -1.0 / 0.0)) call assert_equal('inf', printf('%e', 1.0 / 0.0)) call assert_equal('-inf', printf('%e', -1.0 / 0.0)) call assert_equal('INF', printf('%F', 1.0 / 0.0)) call assert_equal('-INF', printf('%F', -1.0 / 0.0)) call assert_equal('INF', printf('%E', 1.0 / 0.0)) call assert_equal('-INF', printf('%E', -1.0 / 0.0)) call assert_equal('INF', printf('%E', 1.0 / 0.0)) call assert_equal('-INF', printf('%G', -1.0 / 0.0)) call assert_equal('+inf', printf('%+f', 1.0 / 0.0)) call assert_equal('-inf', printf('%+f', -1.0 / 0.0)) call assert_equal(' inf', printf('% f', 1.0 / 0.0)) call assert_equal(' inf', printf('%6f', 1.0 / 0.0)) call assert_equal(' -inf', printf('%6f', -1.0 / 0.0)) call assert_equal(' inf', printf('%6g', 1.0 / 0.0)) call assert_equal(' -inf', printf('%6g', -1.0 / 0.0)) call assert_equal(' +inf', printf('%+6f', 1.0 / 0.0)) call assert_equal(' inf', printf('% 6f', 1.0 / 0.0)) call assert_equal(' +inf', printf('%+06f', 1.0 / 0.0)) call assert_equal('inf ', printf('%-6f', 1.0 / 0.0)) call assert_equal('-inf ', printf('%-6f', -1.0 / 0.0)) call assert_equal('+inf ', printf('%-+6f', 1.0 / 0.0)) call assert_equal(' inf ', printf('%- 6f', 1.0 / 0.0)) call assert_equal('-INF ', printf('%-6F', -1.0 / 0.0)) call assert_equal('+INF ', printf('%-+6F', 1.0 / 0.0)) call assert_equal(' INF ', printf('%- 6F', 1.0 / 0.0)) call assert_equal('INF ', printf('%-6G', 1.0 / 0.0)) call assert_equal('-INF ', printf('%-6G', -1.0 / 0.0)) call assert_equal('INF ', printf('%-6E', 1.0 / 0.0)) call assert_equal('-INF ', printf('%-6E', -1.0 / 0.0)) call assert_equal('inf', printf('%s', 1.0 / 0.0)) call assert_equal('-inf', printf('%s', -1.0 / 0.0)) #" Test special case where max precision is truncated at 340. call assert_equal('1.000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000', printf('%.330f', 1.0)) call assert_equal('1.0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000', printf('%.340f', 1.0)) call assert_equal('1.0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000', printf('%.350f', 1.0)) #" Float nan (not a number) has no sign. call assert_equal('nan', printf('%f', sqrt(-1.0))) call assert_equal('nan', printf('%f', 0.0 / 0.0)) call assert_equal('nan', printf('%f', -0.0 / 0.0)) call assert_equal('nan', printf('%g', 0.0 / 0.0)) call assert_equal('nan', printf('%e', 0.0 / 0.0)) call assert_equal('NAN', printf('%F', 0.0 / 0.0)) call assert_equal('NAN', printf('%G', 0.0 / 0.0)) call assert_equal('NAN', printf('%E', 0.0 / 0.0)) call assert_equal('NAN', printf('%F', -0.0 / 0.0)) call assert_equal('NAN', printf('%G', -0.0 / 0.0)) call assert_equal('NAN', printf('%E', -0.0 / 0.0)) call assert_equal(' nan', printf('%6f', 0.0 / 0.0)) call assert_equal(' nan', printf('%06f', 0.0 / 0.0)) call assert_equal('nan ', printf('%-6f', 0.0 / 0.0)) call assert_equal('nan ', printf('%- 6f', 0.0 / 0.0)) call assert_equal('nan', printf('%s', 0.0 / 0.0)) call assert_equal('nan', printf('%s', -0.0 / 0.0)) call assert_equal('nan', printf('%S', 0.0 / 0.0)) call assert_equal('nan', printf('%S', -0.0 / 0.0)) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(['echo printf("%f", "a")'], 'E807:') endfunc func Test_printf_errors() call v9.CheckLegacyAndVim9Failure(['echo printf("%d", {})'], 'E728:') call v9.CheckLegacyAndVim9Failure(['echo printf("%d", [])'], 'E745:') call v9.CheckLegacyAndVim9Failure(['echo printf("%d", 1, 2)'], 'E767:') call v9.CheckLegacyAndVim9Failure(['echo printf("%*d", 1)'], 'E766:') call v9.CheckLegacyAndVim9Failure(['echo printf("%s")'], 'E766:') call v9.CheckLegacyAndVim9Failure(['echo printf("%d", 1.2)'], 'E805:') call v9.CheckLegacyAndVim9Failure(['echo printf("%f")'], 'E766:') endfunc func Test_printf_64bit() let lines =<< trim END call assert_equal("123456789012345", printf('%d', 123456789012345)) END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_printf_spec_s() let lines =<< trim END #" number call assert_equal("1234567890", printf('%s', 1234567890)) #" string call assert_equal("abcdefgi", printf('%s', "abcdefgi")) #" float call assert_equal("1.23", printf('%s', 1.23)) #" list VAR lvalue = [1, 'two', ['three', 4]] call assert_equal(string(lvalue), printf('%s', lvalue)) #" dict VAR dvalue = {'key1': 'value1', 'key2': ['list', 'lvalue'], 'key3': {'dict': 'lvalue'}} call assert_equal(string(dvalue), printf('%s', dvalue)) #" funcref call assert_equal('printf', printf('%s', 'printf'->function())) #" partial call assert_equal(string(function('printf', ['%s'])), printf('%s', function('printf', ['%s']))) END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_printf_spec_b() let lines =<< trim END call assert_equal("0", printf('%b', 0)) call assert_equal("00001100", printf('%08b', 12)) call assert_equal("11111111", printf('%08b', 0xff)) call assert_equal(" 1111011", printf('%10b', 123)) call assert_equal("0001111011", printf('%010b', 123)) call assert_equal(" 0b1111011", printf('%#10b', 123)) call assert_equal("0B01111011", printf('%#010B', 123)) call assert_equal("1001001100101100000001011010010", printf('%b', 1234567890)) call assert_equal("11100000100100010000110000011011101111101111001", printf('%b', 123456789012345)) call assert_equal("1111111111111111111111111111111111111111111111111111111111111111", printf('%b', -1)) END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_max_min_errors() call v9.CheckLegacyAndVim9Failure(['call max(v:true)'], ['E712:', 'E1013:', 'E1227:']) call v9.CheckLegacyAndVim9Failure(['call max(v:true)'], ['max()', 'E1013:', 'E1227:']) call v9.CheckLegacyAndVim9Failure(['call min(v:true)'], ['E712:', 'E1013:', 'E1227:']) call v9.CheckLegacyAndVim9Failure(['call min(v:true)'], ['min()', 'E1013:', 'E1227:']) endfunc func Test_function_with_funcref() let lines =<< trim END let s:F = function('type') let s:Fref = function(s:F) call assert_equal(v:t_string, s:Fref('x')) call assert_fails("call function('s:F')", 'E700:') call assert_fails("call function('foo()')", 'E475:') call assert_fails("call function('foo()')", 'foo()') call assert_fails("function('')", 'E129:') let s:Len = {s -> strlen(s)} call assert_equal(6, s:Len('foobar')) let name = string(s:Len) " can evaluate "function('<lambda>99')" call execute('let Ref = ' .. name) call assert_equal(4, Ref('text')) END call v9.CheckScriptSuccess(lines) let lines =<< trim END vim9script var F = function('type') var Fref = function(F) call assert_equal(v:t_string, Fref('x')) call assert_fails("call function('F')", 'E700:') call assert_fails("call function('foo()')", 'E475:') call assert_fails("call function('foo()')", 'foo()') call assert_fails("function('')", 'E129:') var Len = (s) => strlen(s) call assert_equal(6, Len('foobar')) var name = string(Len) # can evaluate "function('<lambda>99')" call execute('var Ref = ' .. name) call assert_equal(4, Ref('text')) END call v9.CheckScriptSuccess(lines) endfunc func Test_funcref() func! One() return 1 endfunc let OneByName = function('One') let OneByRef = funcref('One') func! One() return 2 endfunc call assert_equal(2, OneByName()) call assert_equal(1, OneByRef()) let OneByRef = 'One'->funcref() call assert_equal(2, OneByRef()) call assert_fails('echo funcref("{")', 'E475:') let OneByRef = funcref("One", repeat(["foo"], 20)) call assert_fails('let OneByRef = funcref("One", repeat(["foo"], 21))', 'E118:') call assert_fails('echo function("min") =~ function("min")', 'E694:') call assert_fails('echo test_null_function()->funcref()', 'E475: Invalid argument: NULL') endfunc " Test for calling function() and funcref() outside of a Vim script context. func Test_function_outside_script() let cleanup =<< trim END call writefile([execute('messages')], 'Xtest.out') qall END call writefile(cleanup, 'Xverify.vim', 'D') call RunVim([], [], "-c \"echo function('s:abc')\" -S Xverify.vim") call assert_match('E81: Using <SID> not in a', readfile('Xtest.out')[0]) call RunVim([], [], "-c \"echo funcref('s:abc')\" -S Xverify.vim") call assert_match('E81: Using <SID> not in a', readfile('Xtest.out')[0]) call delete('Xtest.out') endfunc func Test_setmatches() let lines =<< trim END hi def link 1 Comment hi def link 2 PreProc VAR set = [{"group": 1, "pattern": 2, "id": 3, "priority": 4}] VAR exp = [{"group": '1', "pattern": '2', "id": 3, "priority": 4}] if has('conceal') LET set[0]['conceal'] = 5 LET exp[0]['conceal'] = '5' endif eval set->setmatches() call assert_equal(exp, getmatches()) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(['VAR m = setmatches([], [])'], ['E745:', 'E1013:', 'E1210:']) endfunc func Test_empty_concatenate() let lines =<< trim END call assert_equal('b', 'a'[4 : 0] .. 'b') call assert_equal('b', 'b' .. 'a'[4 : 0]) END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_broken_number() call v9.CheckLegacyAndVim9Failure(['VAR X = "bad"', 'echo 1X'], 'E15:') call v9.CheckLegacyAndVim9Failure(['VAR X = "bad"', 'echo 0b1X'], 'E15:') call v9.CheckLegacyAndVim9Failure(['echo 0b12'], 'E15:') call v9.CheckLegacyAndVim9Failure(['VAR X = "bad"', 'echo 0x1X'], 'E15:') call v9.CheckLegacyAndVim9Failure(['VAR X = "bad"', 'echo 011X'], 'E15:') call v9.CheckLegacyAndVim9Success(['call assert_equal(2, str2nr("2a"))']) call v9.CheckLegacyAndVim9Failure(['inoremap <Char-0b1z> b'], 'E474:') endfunc func Test_eval_after_if() let s:val = '' func SetVal(x) let s:val ..= a:x endfunc if 0 | eval SetVal('a') | endif | call SetVal('b') call assert_equal('b', s:val) endfunc func Test_divide_by_zero() " only tests that this doesn't crash, the result is not important echo 0 / 0 echo 0 / 0 / -1 endfunc " Test for command-line completion of expressions func Test_expr_completion() CheckFeature cmdline_compl for cmd in [ \ 'let a = ', \ 'const a = ', \ 'if', \ 'elseif', \ 'while', \ 'for', \ 'echo', \ 'echon', \ 'execute', \ 'echomsg', \ 'echoerr', \ 'call', \ 'return', \ 'cexpr', \ 'caddexpr', \ 'cgetexpr', \ 'lexpr', \ 'laddexpr', \ 'lgetexpr'] call feedkeys(":" . cmd . " getl\<Tab>\<Home>\"\<CR>", 'xt') call assert_equal('"' . cmd . ' getline(', getreg(':')) endfor " completion for the expression register call feedkeys(":\"\<C-R>=float2\t\"\<C-B>\"\<CR>", 'xt') call assert_equal('"float2nr("', @=) " completion for window local variables let w:wvar1 = 10 let w:wvar2 = 10 call feedkeys(":echo w:wvar\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"echo w:wvar1 w:wvar2', @:) unlet w:wvar1 w:wvar2 " completion for tab local variables let t:tvar1 = 10 let t:tvar2 = 10 call feedkeys(":echo t:tvar\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"echo t:tvar1 t:tvar2', @:) unlet t:tvar1 t:tvar2 " completion for variables let g:tvar1 = 1 let g:tvar2 = 2 call feedkeys(":let g:tv\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"let g:tvar1 g:tvar2', @:) " completion for variables after a || call feedkeys(":echo 1 || g:tv\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"echo 1 || g:tvar1 g:tvar2', @:) " completion for options call feedkeys(":echo &compat\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"echo &compatible', @:) call feedkeys(":echo 1 && &compat\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"echo 1 && &compatible', @:) call feedkeys(":echo &g:equala\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal('"echo &g:equalalways', @:) " completion for string call feedkeys(":echo \"Hello\\ World\"\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal("\"echo \"Hello\\ World\"\<C-A>", @:) call feedkeys(":echo 'Hello World'\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal("\"echo 'Hello World'\<C-A>", @:) " completion for command after a | call feedkeys(":echo 'Hello' | cwin\<C-A>\<C-B>\"\<CR>", 'xt') call assert_equal("\"echo 'Hello' | cwindow", @:) " completion for environment variable let $X_VIM_TEST_COMPLETE_ENV = 'foo' call feedkeys(":let $X_VIM_TEST_COMPLETE_E\<C-A>\<C-B>\"\<CR>", 'tx') call assert_match('"let $X_VIM_TEST_COMPLETE_ENV', @:) unlet $X_VIM_TEST_COMPLETE_ENV endfunc " Test for errors in expression evaluation func Test_expr_eval_error() call v9.CheckLegacyAndVim9Failure(["VAR i = 'abc' .. []"], ['E730:', 'E1105:', 'E730:']) call v9.CheckLegacyAndVim9Failure(["VAR l = [] + 10"], ['E745:', 'E1051:', 'E745']) call v9.CheckLegacyAndVim9Failure(["VAR v = 10 + []"], ['E745:', 'E1051:', 'E745:']) call v9.CheckLegacyAndVim9Failure(["VAR v = 10 / []"], ['E745:', 'E1036:', 'E745:']) call v9.CheckLegacyAndVim9Failure(["VAR v = -{}"], ['E728:', 'E1012:', 'E728:']) endfunc func Test_white_in_function_call() let lines =<< trim END VAR text = substitute ( 'some text' , 't' , 'T' , 'g' ) call assert_equal('some TexT', text) END call v9.CheckTransLegacySuccess(lines) let lines =<< trim END var text = substitute ( 'some text' , 't' , 'T' , 'g' ) call assert_equal('some TexT', text) END call v9.CheckDefAndScriptFailure(lines, ['E1001:', 'E121:']) endfunc " Test for float value comparison func Test_float_compare() let lines =<< trim END call assert_true(1.2 == 1.2) call assert_true(1.0 != 1.2) call assert_true(1.2 > 1.0) call assert_true(1.2 >= 1.2) call assert_true(1.0 < 1.2) call assert_true(1.2 <= 1.2) call assert_true(+0.0 == -0.0) #" two NaNs (not a number) are not equal call assert_true(sqrt(-4.01) != (0.0 / 0.0)) #" two inf (infinity) are equal call assert_true((1.0 / 0) == (2.0 / 0)) #" two -inf (infinity) are equal call assert_true(-(1.0 / 0) == -(2.0 / 0)) #" +infinity != -infinity call assert_true((1.0 / 0) != -(2.0 / 0)) END call v9.CheckLegacyAndVim9Success(lines) endfunc func Test_string_interp() let lines =<< trim END call assert_equal('', $"") call assert_equal('foobar', $"foobar") #" Escaping rules. call assert_equal('"foo"{bar}', $"\"foo\"{{bar}}") call assert_equal('"foo"{bar}', $'"foo"{{bar}}') call assert_equal('foobar', $"{"foo"}" .. $'{'bar'}') #" Whitespace before/after the expression. call assert_equal('3', $"{ 1 + 2 }") #" String conversion. call assert_equal('hello from ' .. v:version, $"hello from {v:version}") call assert_equal('hello from ' .. v:version, $'hello from {v:version}') #" Paper over a small difference between VimScript behaviour. call assert_equal(string(v:true), $"{v:true}") call assert_equal('(1+1=2)', $"(1+1={1 + 1})") #" Hex-escaped opening brace: char2nr('{') == 0x7b call assert_equal('esc123ape', $"esc{123}ape") call assert_equal('me{}me', $"me{"\x7b"}\x7dme") VAR var1 = "sun" VAR var2 = "shine" call assert_equal('sunshine', $"{var1}{var2}") call assert_equal('sunsunsun', $"{var1->repeat(3)}") #" Multibyte strings. call assert_equal('say γγγΌγ»γ―γΌγ«γ', $"say {'γγγΌγ»γ―γΌγ«γ'}") #" Nested. call assert_equal('foobarbaz', $"foo{$"{'bar'}"}baz") #" Do not evaluate blocks when the expr is skipped. VAR tmp = 0 if v:false echo "${ LET tmp += 1 }" endif call assert_equal(0, tmp) #" Dict interpolation VAR d = {'a': 10, 'b': [1, 2]} call assert_equal("{'a': 10, 'b': [1, 2]}", $'{d}') VAR emptydict = {} call assert_equal("a{}b", $'a{emptydict}b') VAR nulldict = test_null_dict() call assert_equal("a{}b", $'a{nulldict}b') #" List interpolation VAR l = ['a', 'b', 'c'] call assert_equal("['a', 'b', 'c']", $'{l}') VAR emptylist = [] call assert_equal("a[]b", $'a{emptylist}b') VAR nulllist = test_null_list() call assert_equal("a[]b", $'a{nulllist}b') #" Stray closing brace. call assert_fails('echo $"moo}"', 'E1278:') #" Undefined variable in expansion. call assert_fails('echo $"{moo}"', 'E121:') #" Empty blocks are rejected. call assert_fails('echo $"{}"', 'E15:') call assert_fails('echo $"{ }"', 'E15:') END call v9.CheckLegacyAndVim9Success(lines) let lines =<< trim END call assert_equal('5', $"{({x -> x + 1})(4)}") END call v9.CheckLegacySuccess(lines) let lines =<< trim END call assert_equal('5', $"{((x) => x + 1)(4)}") call assert_fails('echo $"{ # foo }"', 'E1279:') END call v9.CheckDefAndScriptSuccess(lines) endfunc " Test for bitwise left and right shift (<< and >>) func Test_bitwise_shift() let lines =<< trim END call assert_equal(16, 1 << 4) call assert_equal(2, 16 >> 3) call assert_equal(0, 0 << 2) call assert_equal(0, 0 >> 4) call assert_equal(3, 3 << 0) call assert_equal(3, 3 >> 0) call assert_equal(0, 0 >> 4) call assert_equal(0, 999999 >> 100) call assert_equal(0, 999999 << 100) call assert_equal(-1, -1 >> 0) call assert_equal(-1, -1 << 0) VAR a = 8 VAR b = 2 call assert_equal(2, a >> b) call assert_equal(32, a << b) #" operator precedence call assert_equal(48, 1 + 2 << 5 - 1) call assert_equal(3, 8 + 4 >> 4 - 2) call assert_true(1 << 2 < 1 << 3) call assert_true(1 << 4 > 1 << 3) VAR val = 0 for i in range(0, v:numbersize - 2) LET val = or(val, 1 << i) endfor call assert_equal(v:numbermax, val) LET val = v:numbermax for i in range(0, v:numbersize - 2) LET val = and(val, invert(1 << i)) endfor #" -1 has all the bits set call assert_equal(-2, -1 << 1) call assert_equal(-4, -1 << 2) call assert_equal(-8, -1 << 3) if v:numbersize == 64 call assert_equal(0x7fffffffffffffff, -1 >> 1) call assert_equal(0x3fffffffffffffff, -1 >> 2) call assert_equal(0x1fffffffffffffff, -1 >> 3) endif call assert_equal(0, val) #" multiple operators call assert_equal(16, 1 << 2 << 2) call assert_equal(4, 64 >> 2 >> 2) call assert_true(1 << 2 << 2 == 256 >> 2 >> 2) END call v9.CheckLegacyAndVim9Success(lines) call v9.CheckLegacyAndVim9Failure(['VAR v = 2 << -1'], ['E1283:', 'E1283:', 'E1283:']) call v9.CheckLegacyAndVim9Failure(['VAR a = 2', 'VAR b = -1', 'VAR v = a << b'], ['E1283:', 'E1283:', 'E1283:']) call v9.CheckLegacyAndVim9Failure(['VAR v = "8" >> 2'], ['E1282:', 'E1282:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR v = 1 << "2"'], ['E1282:', 'E1282:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR a = "8"', 'VAR b = 2', 'VAR v = a << b'], ['E1282:', 'E1012:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR a = 8', 'VAR b = "2"', 'VAR v = a >> b'], ['E1282:', 'E1012:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR v = ![] << 1'], ['E745:', 'E1012:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR v = 1 << ![]'], ['E745:', 'E1012:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR v = ![] >> 1'], ['E745:', 'E1012:', 'E1282:']) call v9.CheckLegacyAndVim9Failure(['VAR v = 1 >> ![]'], ['E745:', 'E1012:', 'E1282:']) call v9.CheckDefAndScriptFailure(['echo 1<< 2'], ['E1004:', 'E1004:']) call v9.CheckDefAndScriptFailure(['echo 1 <<2'], ['E1004:', 'E1004:']) call v9.CheckDefAndScriptFailure(['echo 1>> 2'], ['E1004:', 'E1004:']) call v9.CheckDefAndScriptFailure(['echo 1 >>2'], ['E1004:', 'E1004:']) let lines =<< trim END var a = 1 << 4 assert_equal(16, a) END call v9.CheckDefAndScriptSuccess(lines) let lines =<< trim END # Use in a lambda function const DivBy2Ref_A = (n: number): number => n >> 1 assert_equal(16, DivBy2Ref_A(32)) const DivBy2Ref_B = (n: number): number => (<number>n) >> 1 assert_equal(16, DivBy2Ref_B(32)) const MultBy2Ref_A = (n: number): number => n << 1 assert_equal(8, MultBy2Ref_A(4)) const MultBy2Ref_B = (n: number): number => (<number>n) << 1 assert_equal(8, MultBy2Ref_B(4)) def DivBy2_A(): func(number): number return (n: number): number => n >> 1 enddef assert_equal(16, DivBy2_A()(32)) def DivBy2_B(): func(number): number return (n: number): number => (<number>n) >> 1 enddef assert_equal(16, DivBy2_B()(32)) def MultBy2_A(): func(number): number return (n: number): number => n << 1 enddef assert_equal(64, MultBy2_A()(32)) def MultBy2_B(): func(number): number return (n: number): number => (<number>n) << 1 enddef assert_equal(64, MultBy2_B()(32)) END call v9.CheckDefAndScriptSuccess(lines) " Use in a legacy lambda function const DivBy2Ref_A = {n -> n >> 1} call assert_equal(16, DivBy2Ref_A(32)) func DivBy2_A() return {n -> n >> 1} endfunc call assert_equal(16, DivBy2_A()(32)) const MultBy2Ref_A = {n -> n << 1} call assert_equal(64, MultBy2Ref_A(32)) func MultBy2_A() return {n -> n << 1} endfunc call assert_equal(64, MultBy2_A()(32)) endfunc " vim: shiftwidth=2 sts=2 expandtab