" Test binding arguments to a Funcref. func MyFunc(arg1, arg2, arg3) return a:arg1 . '/' . a:arg2 . '/' . a:arg3 endfunc func MySort(up, one, two) if a:one == a:two return 0 endif if a:up return a:one > a:two ? 1 : -1 endif return a:one < a:two ? 1 : -1 endfunc func MyMap(sub, index, val) return a:val - a:sub endfunc func MyFilter(threshold, index, val) return a:val > a:threshold endfunc func Test_partial_args() let Cb = function('MyFunc', ["foo", "bar"]) call Cb("zzz") call assert_equal("foo/bar/xxx", Cb("xxx")) call assert_equal("foo/bar/yyy", call(Cb, ["yyy"])) let Cb2 = function(Cb) call assert_equal("foo/bar/zzz", Cb2("zzz")) let Cb3 = function(Cb, ["www"]) call assert_equal("foo/bar/www", Cb3()) let Cb = function('MyFunc', []) call assert_equal("a/b/c", Cb("a", "b", "c")) let Cb2 = function(Cb, []) call assert_equal("a/b/d", Cb2("a", "b", "d")) let Cb3 = function(Cb, ["a", "b"]) call assert_equal("a/b/e", Cb3("e")) let Sort = function('MySort', [1]) call assert_equal([1, 2, 3], sort([3, 1, 2], Sort)) let Sort = function('MySort', [0]) call assert_equal([3, 2, 1], sort([3, 1, 2], Sort)) let Map = function('MyMap', [2]) call assert_equal([-1, 0, 1], map([1, 2, 3], Map)) let Map = function('MyMap', [3]) call assert_equal([-2, -1, 0], map([1, 2, 3], Map)) let Filter = function('MyFilter', [1]) call assert_equal([2, 3], filter([1, 2, 3], Filter)) let Filter = function('MyFilter', [2]) call assert_equal([3], filter([1, 2, 3], Filter)) endfunc func MyDictFunc(arg1, arg2) dict return self.name . '/' . a:arg1 . '/' . a:arg2 endfunc func Test_partial_dict() let dict = {'name': 'hello'} let Cb = function('MyDictFunc', ["foo", "bar"], dict) call assert_equal("hello/foo/bar", Cb()) call assert_fails('Cb("xxx")', 'E492:') let Cb = function('MyDictFunc', ["foo"], dict) call assert_equal("hello/foo/xxx", Cb("xxx")) call assert_fails('Cb()', 'E492:') let Cb = function('MyDictFunc', [], dict) call assert_equal("hello/ttt/xxx", Cb("ttt", "xxx")) call assert_fails('Cb("yyy")', 'E492:') let Cb = function('MyDictFunc', dict) call assert_equal("hello/xxx/yyy", Cb("xxx", "yyy")) call assert_fails('Cb("fff")', 'E492:') let Cb = function('MyDictFunc', dict) call assert_equal({"foo": "hello/foo/1", "bar": "hello/bar/2"}, map({"foo": 1, "bar": 2}, Cb)) let dict = {"tr": function('tr', ['hello', 'h', 'H'])} call assert_equal("Hello", dict.tr()) endfunc func Test_partial_implicit() let dict = {'name': 'foo'} func dict.MyFunc(arg) dict return self.name . '/' . a:arg endfunc call assert_equal('foo/bar', dict.MyFunc('bar')) call assert_fails('let func = dict.MyFunc', 'E704:') let Func = dict.MyFunc call assert_equal('foo/aaa', Func('aaa')) let Func = function(dict.MyFunc, ['bbb']) call assert_equal('foo/bbb', Func()) endfunc fun InnerCall(funcref) return a:funcref endfu fun OuterCall() let opt = { 'func' : function('sin') } call InnerCall(opt.func) endfu func Test_function_in_dict() call OuterCall() endfunc func s:cache_clear() dict return self.name endfunc func Test_script_function_in_dict() let s:obj = {'name': 'foo'} let s:obj2 = {'name': 'bar'} let s:obj['clear'] = function('s:cache_clear') call assert_equal('foo', s:obj.clear()) let F = s:obj.clear call assert_equal('foo', F()) call assert_equal('foo', call(s:obj.clear, [], s:obj)) call assert_equal('bar', call(s:obj.clear, [], s:obj2)) let s:obj2['clear'] = function('s:cache_clear') call assert_equal('bar', s:obj2.clear()) let B = s:obj2.clear call assert_equal('bar', B()) endfunc func s:cache_arg(arg) dict let s:result = self.name . '/' . a:arg return s:result endfunc func Test_script_function_in_dict_arg() let s:obj = {'name': 'foo'} let s:obj['clear'] = function('s:cache_arg') call assert_equal('foo/bar', s:obj.clear('bar')) let F = s:obj.clear let s:result = '' call assert_equal('foo/bar', F('bar')) call assert_equal('foo/bar', s:result) let s:obj['clear'] = function('s:cache_arg', ['bar']) call assert_equal('foo/bar', s:obj.clear()) let s:result = '' call s:obj.clear() call assert_equal('foo/bar', s:result) let F = s:obj.clear call assert_equal('foo/bar', F()) let s:result = '' call F() call assert_equal('foo/bar', s:result) call assert_equal('foo/bar', call(s:obj.clear, [], s:obj)) endfunc func Test_partial_exists() let F = function('MyFunc') call assert_true(exists('*F')) let lF = [F] call assert_true(exists('*lF[0]')) let F = function('MyFunc', ['arg']) call assert_true(exists('*F')) let lF = [F] call assert_true(exists('*lF[0]')) endfunc func Test_partial_string() let F = function('MyFunc') call assert_equal("function('MyFunc')", string(F)) let F = function('MyFunc', ['foo']) call assert_equal("function('MyFunc', ['foo'])", string(F)) let F = function('MyFunc', ['foo', 'bar']) call assert_equal("function('MyFunc', ['foo', 'bar'])", string(F)) let d = {'one': 1} let F = function('MyFunc', d) call assert_equal("function('MyFunc', {'one': 1})", string(F)) let F = function('MyFunc', ['foo'], d) call assert_equal("function('MyFunc', ['foo'], {'one': 1})", string(F)) endfunc func Test_func_unref() let obj = {} function! obj.func() abort endfunction let funcnumber = matchstr(string(obj.func), '^function(''\zs.\{-}\ze''') call assert_true(exists('*{' . funcnumber . '}')) unlet obj call assert_false(exists('*{' . funcnumber . '}')) endfunc func Test_tostring() let d = {} let d.d = d function d.test3() echo 42 endfunction try call string(d.test3) catch call assert_true(v:false, v:exception) endtry endfunc func Test_redefine_dict_func() let d = {} function d.test4() endfunction let d.test4 = d.test4 try function! d.test4(name) endfunction catch call assert_true(v:errmsg, v:exception) endtry endfunc func Test_bind_in_python() if has('python') let g:d = {} function g:d.test2() endfunction python import vim try call assert_equal(pyeval('vim.bindeval("g:d.test2")'), g:d.test2) catch call assert_true(v:false, v:exception) endtry endif endfunc " This caused double free on exit if EXITFREE is defined. func Test_cyclic_list_arg() let l = [] let Pt = function('string', [l]) call add(l, Pt) unlet l unlet Pt endfunc " This caused double free on exit if EXITFREE is defined. func Test_cyclic_dict_arg() let d = {} let Pt = function('string', [d]) let d.Pt = Pt unlet d unlet Pt endfunc func Ignored3(job1, job2, status) endfunc func Test_cycle_partial_job() if has('job') let job = job_start('echo') call job_setoptions(job, {'exit_cb': function('Ignored3', [job])}) unlet job endif endfunc func Ignored2(job, status) endfunc func Test_ref_job_partial_dict() if has('job') let g:ref_job = job_start('echo') let d = {'a': 'b'} call job_setoptions(g:ref_job, {'exit_cb': function('Ignored2', [], d)}) endif endfunc func Test_auto_partial_rebind() let dict1 = {'name': 'dict1'} func! dict1.f1() return self.name endfunc let dict1.f2 = function(dict1.f1, dict1) call assert_equal('dict1', dict1.f1()) call assert_equal('dict1', dict1['f1']()) call assert_equal('dict1', dict1.f2()) call assert_equal('dict1', dict1['f2']()) let dict2 = {'name': 'dict2'} let dict2.f1 = dict1.f1 let dict2.f2 = dict1.f2 call assert_equal('dict2', dict2.f1()) call assert_equal('dict2', dict2['f1']()) call assert_equal('dict1', dict2.f2()) call assert_equal('dict1', dict2['f2']()) endfunc func Test_get_partial_items() let dict = {'name': 'hello'} let args = ["foo", "bar"] let Func = function('MyDictFunc') let Cb = function('MyDictFunc', args, dict) call assert_equal(Func, get(Cb, 'func')) call assert_equal('MyDictFunc', get(Cb, 'name')) call assert_equal(args, get(Cb, 'args')) call assert_equal(dict, get(Cb, 'dict')) call assert_fails('call get(Cb, "xxx")', 'E475:') call assert_equal(Func, get(Func, 'func')) call assert_equal('MyDictFunc', get(Func, 'name')) call assert_equal([], get(Func, 'args')) call assert_true(empty( get(Func, 'dict'))) endfunc func Test_compare_partials() let d1 = {} let d2 = {} function d1.f1() dict endfunction function d1.f2() dict endfunction let F1 = get(d1, 'f1') let F2 = get(d1, 'f2') let F1d1 = function(F1, d1) let F2d1 = function(F2, d2) let F1d1a1 = function(F1d1, [1]) let F1d1a12 = function(F1d1, [1, 2]) let F1a1 = function(F1, [1]) let F1a2 = function(F1, [2]) let F1d2 = function(F1, d2) let d3 = {'f1': F1, 'f2': F2} let F1d3 = function(F1, d3) let F1ad1 = function(F1, [d1]) let F1ad3 = function(F1, [d3]) call assert_match('^function(''\d\+'')$', string(F1)) " Not a partial call assert_match('^function(''\d\+'')$', string(F2)) " Not a partial call assert_match('^function(''\d\+'', {.*})$', string(F1d1)) " A partial call assert_match('^function(''\d\+'', {.*})$', string(F2d1)) " A partial call assert_match('^function(''\d\+'', \[.*\])$', string(F1a1)) " No dict " != let X = F1 call assert_false(F1 != X) " same function let X = F1d1 call assert_false(F1d1 != X) " same partial let X = F1d1a1 call assert_false(F1d1a1 != X) " same partial let X = F1a1 call assert_false(F1a1 != X) " same partial call assert_true(F1 != F2) " Different functions call assert_true(F1 != F1d1) " Partial /= non-partial call assert_true(F1d1a1 != F1d1a12) " Different number of arguments call assert_true(F1a1 != F1d1a12) " One has no dict call assert_true(F1a1 != F1a2) " Different arguments call assert_true(F1d2 != F1d1) " Different dictionaries call assert_false(F1d1 != F1d3) " Equal dictionaries, even though d1 isnot d3 " isnot, option 1 call assert_true(F1 isnot# F2) " Different functions call assert_true(F1 isnot# F1d1) " Partial /= non-partial call assert_true(F1d1 isnot# F1d3) " d1 isnot d3, even though d1 == d3 call assert_true(F1a1 isnot# F1d1a12) " One has no dict call assert_true(F1a1 isnot# F1a2) " Different number of arguments call assert_true(F1ad1 isnot# F1ad3) " In arguments d1 isnot d3 " isnot, option 2 call assert_true(F1 isnot# F2) " Different functions call assert_true(F1 isnot# F1d1) " Partial /= non-partial call assert_true(d1.f1 isnot# d1.f1) " handle_subscript creates new partial each time endfunc