Mercurial > vim
view src/testdir/test_lambda.vim @ 33399:95db67c7b754 v9.0.1958
patch 9.0.1958: cannot complete option values
Commit: https://github.com/vim/vim/commit/900894b09a95398dfc75599e9f0aa2ea25723384
Author: Yee Cheng Chin <ychin.git@gmail.com>
Date: Fri Sep 29 20:42:32 2023 +0200
patch 9.0.1958: cannot complete option values
Problem: cannot complete option values
Solution: Add completion functions for several options
Add cmdline tab-completion for setting string options
Add tab-completion for setting string options on the cmdline using
`:set=` (along with `:set+=` and `:set-=`).
The existing tab completion for setting options currently only works
when nothing is typed yet, and it only fills in with the existing value,
e.g. when the user does `:set diffopt=<Tab>` it will be completed to
`set diffopt=internal,filler,closeoff` and nothing else. This isn't too
useful as a user usually wants auto-complete to suggest all the possible
values, such as 'iblank', or 'algorithm:patience'.
For set= and set+=, this adds a new optional callback function for each
option that can be invoked when doing completion. This allows for each
option to have control over how completion works. For example, in
'diffopt', it will suggest the default enumeration, but if `algorithm:`
is selected, it will further suggest different algorithm types like
'meyers' and 'patience'. When using set=, the existing option value will
be filled in as the first choice to preserve the existing behavior. When
using set+= this won't happen as it doesn't make sense.
For flag list options (e.g. 'mouse' and 'guioptions'), completion will
take into account existing typed values (and in the case of set+=, the
existing option value) to make sure it doesn't suggest duplicates.
For set-=, there is a new `ExpandSettingSubtract` function which will
handle flag list and comma-separated options smartly, by only suggesting
values that currently exist in the option.
Note that Vim has some existing code that adds special handling for
'filetype', 'syntax', and misc dir options like 'backupdir'. This change
preserves them as they already work, instead of converting to the new
callback API for each option.
closes: #13182
Signed-off-by: Christian Brabandt <cb@256bit.org>
Co-authored-by: Yee Cheng Chin <ychin.git@gmail.com>
| author | Christian Brabandt <cb@256bit.org> |
|---|---|
| date | Fri, 29 Sep 2023 20:45:04 +0200 |
| parents | cbfbf0e17cd0 |
| children |
line wrap: on
line source
" Test for lambda and closure source check.vim import './vim9.vim' as v9 func Test_lambda_feature() call assert_equal(1, has('lambda')) endfunc func Test_lambda_with_filter() let s:x = 2 call assert_equal([2, 3], filter([1, 2, 3], {i, v -> v >= s:x})) endfunc func Test_lambda_with_map() let s:x = 1 call assert_equal([2, 3, 4], map([1, 2, 3], {i, v -> v + s:x})) endfunc func Test_lambda_with_sort() call assert_equal([1, 2, 3, 4, 7], sort([3,7,2,1,4], {a, b -> a - b})) endfunc func Test_lambda_with_timer() CheckFeature timers let s:n = 0 let s:timer_id = 0 func! s:Foo() let s:timer_id = timer_start(10, {-> execute("let s:n += 1 | echo s:n", "")}, {"repeat": -1}) endfunc call s:Foo() " check timer works for i in range(0, 10) if s:n > 0 break endif sleep 10m endfor " do not collect lambda call test_garbagecollect_now() " check timer still works let m = s:n for i in range(0, 10) if s:n > m break endif sleep 10m endfor call timer_stop(s:timer_id) call assert_true(s:n > m) endfunc func Test_lambda_vim9cmd_linebreak() CheckFeature timers let g:test_is_flaky = 1 let lines =<< trim END vim9cmd call timer_start(10, (x) => { # comment g:result = 'done' }) END call v9.CheckScriptSuccess(lines) " sleep longer on a retry exe 'sleep ' .. [20, 100, 500, 500, 500][g:run_nr] .. 'm' call assert_equal('done', g:result) unlet g:result let lines =<< trim END g:result = [0]->map((_, v) => 1 # inline comment + 2 ) assert_equal([3], g:result) END call v9.CheckDefAndScriptSuccess(lines) endfunc def Test_lamba_compiled_linebreak() var lines =<< trim END vim9script def Echo(what: any) assert_equal('hello world', what) enddef def That() printf("hello ") ->((x) => x .. "world")() ->Echo() enddef That() END v9.CheckScriptSuccess(lines) enddef func Test_lambda_with_partial() let l:Cb = function({... -> ['zero', a:1, a:2, a:3]}, ['one', 'two']) call assert_equal(['zero', 'one', 'two', 'three'], l:Cb('three')) endfunc function Test_lambda_fails() call assert_equal(3, {a, b -> a + b}(1, 2)) call assert_fails('echo {a, a -> a + a}(1, 2)', 'E853:') call assert_fails('echo {a, b -> a + b)}(1, 2)', 'E451:') echo assert_fails('echo 10->{a -> a + 2}', 'E107:') call assert_fails('eval 0->(', "E110: Missing ')'") call assert_fails('eval 0->(3)()', "E1275:") call assert_fails('eval 0->([3])()', "E1275:") call assert_fails('eval 0->({"a": 3})()', "E1275:") call assert_fails('eval 0->(xxx)()', "E121:") endfunc func Test_not_lamda() let x = {'>' : 'foo'} call assert_equal('foo', x['>']) endfunc func Test_lambda_capture_by_reference() let v = 1 let l:F = {x -> x + v} let v = 2 call assert_equal(12, l:F(10)) endfunc func Test_lambda_side_effect() func! s:update_and_return(arr) let a:arr[1] = 5 return a:arr endfunc func! s:foo(arr) return {-> s:update_and_return(a:arr)} endfunc let arr = [3,2,1] call assert_equal([3, 5, 1], s:foo(arr)()) endfunc func Test_lambda_refer_local_variable_from_other_scope() func! s:foo(X) return a:X() " refer l:x in s:bar() endfunc func! s:bar() let x = 123 return s:foo({-> x}) endfunc call assert_equal(123, s:bar()) endfunc func Test_lambda_do_not_share_local_variable() func! s:define_funcs() let l:One = {-> split(execute("let a = 'abc' | echo a"))[0]} let l:Two = {-> exists("a") ? a : "no"} return [l:One, l:Two] endfunc let l:F = s:define_funcs() call assert_equal('no', l:F[1]()) call assert_equal('abc', l:F[0]()) call assert_equal('no', l:F[1]()) endfunc func Test_lambda_closure_counter() func! s:foo() let x = 0 return {-> [execute("let x += 1"), x][-1]} endfunc let l:F = s:foo() call test_garbagecollect_now() call assert_equal(1, l:F()) call assert_equal(2, l:F()) call assert_equal(3, l:F()) call assert_equal(4, l:F()) endfunc func Test_lambda_with_a_var() func! s:foo() let x = 2 return {... -> a:000 + [x]} endfunc func! s:bar() return s:foo()(1) endfunc call assert_equal([1, 2], s:bar()) endfunc func Test_lambda_call_lambda_from_lambda() func! s:foo(x) let l:F1 = {-> {-> a:x}} return {-> l:F1()} endfunc let l:F = s:foo(1) call assert_equal(1, l:F()()) endfunc func Test_lambda_delfunc() func! s:gen() let pl = l: let l:Foo = {-> get(pl, "Foo", get(pl, "Bar", {-> 0}))} let l:Bar = l:Foo delfunction l:Foo return l:Bar endfunc let l:F = s:gen() call assert_fails(':call l:F()', 'E933:') endfunc func Test_lambda_scope() func! s:NewCounter() let c = 0 return {-> [execute('let c += 1'), c][-1]} endfunc func! s:NewCounter2() return {-> [execute('let c += 100'), c][-1]} endfunc let l:C = s:NewCounter() let l:D = s:NewCounter2() call assert_equal(1, l:C()) call assert_fails(':call l:D()', 'E121:') call assert_equal(2, l:C()) endfunc func Test_lambda_share_scope() func! s:New() let c = 0 let l:Inc0 = {-> [execute('let c += 1'), c][-1]} let l:Dec0 = {-> [execute('let c -= 1'), c][-1]} return [l:Inc0, l:Dec0] endfunc let [l:Inc, l:Dec] = s:New() call assert_equal(1, l:Inc()) call assert_equal(2, l:Inc()) call assert_equal(1, l:Dec()) endfunc func Test_lambda_circular_reference() func! s:Foo() let d = {} let d.f = {-> d} return d.f endfunc call s:Foo() call test_garbagecollect_now() let i = 0 | while i < 10000 | call s:Foo() | let i+= 1 | endwhile call test_garbagecollect_now() endfunc func Test_lambda_combination() call assert_equal(2, {x -> {x -> x}}(1)(2)) call assert_equal(10, {y -> {x -> x(y)(10)}({y -> y})}({z -> z})) call assert_equal(5.0, {x -> {y -> x / y}}(10)(2.0)) call assert_equal(6, {x -> {y -> {z -> x + y + z}}}(1)(2)(3)) call assert_equal(6, {x -> {f -> f(x)}}(3)({x -> x * 2})) call assert_equal(6, {f -> {x -> f(x)}}({x -> x * 2})(3)) " Z combinator let Z = {f -> {x -> f({y -> x(x)(y)})}({x -> f({y -> x(x)(y)})})} let Fact = {f -> {x -> x == 0 ? 1 : x * f(x - 1)}} call assert_equal(120, Z(Fact)(5)) endfunc func Test_closure_counter() func! s:foo() let x = 0 func! s:bar() closure let x += 1 return x endfunc return function('s:bar') endfunc let l:F = s:foo() call test_garbagecollect_now() call assert_equal(1, l:F()) call assert_equal(2, l:F()) call assert_equal(3, l:F()) call assert_equal(4, l:F()) call assert_match("^\n function <SNR>\\d\\+_bar() closure" \ .. "\n1 let x += 1" \ .. "\n2 return x" \ .. "\n endfunction$", execute('func s:bar')) endfunc func Test_closure_unlet() func! s:foo() let x = 1 func! s:bar() closure unlet x endfunc call s:bar() return l: endfunc call assert_false(has_key(s:foo(), 'x')) call test_garbagecollect_now() endfunc func LambdaFoo() let x = 0 func! LambdaBar() closure let x += 1 return x endfunc return function('LambdaBar') endfunc func Test_closure_refcount() let g:Count = LambdaFoo() call test_garbagecollect_now() call assert_equal(1, g:Count()) let g:Count2 = LambdaFoo() call test_garbagecollect_now() call assert_equal(1, g:Count2()) call assert_equal(2, g:Count()) call assert_equal(3, g:Count2()) delfunc LambdaFoo delfunc LambdaBar endfunc func Test_named_function_closure() func! Afoo() let x = 14 func! s:Abar() closure return x endfunc call assert_equal(14, s:Abar()) endfunc call Afoo() call assert_equal(14, s:Abar()) call test_garbagecollect_now() call assert_equal(14, s:Abar()) endfunc func Test_lambda_with_index() let List = {x -> [x]} let Extract = {-> function(List, ['foobar'])()[0]} call assert_equal('foobar', Extract()) endfunc func Test_lambda_error() " This was causing a crash call assert_fails('ec{@{->{d->()()', 'E15:') endfunc func Test_closure_error() let l =<< trim END func F1() closure return 1 endfunc END call writefile(l, 'Xscript', 'D') let caught_932 = 0 try source Xscript catch /E932:/ let caught_932 = 1 endtry call assert_equal(1, caught_932) endfunc " vim: shiftwidth=2 sts=2 expandtab