110ce39a0SBram Moolenaar" Test for lambda and closure 210ce39a0SBram Moolenaar 3*9532fe7fSBram Moolenaarfunction! Test_lambda_feature() 4*9532fe7fSBram Moolenaar call assert_equal(1, has('lambda')) 5*9532fe7fSBram Moolenaarendfunction 6*9532fe7fSBram Moolenaar 7069c1e7fSBram Moolenaarfunction! Test_lambda_with_filter() 8069c1e7fSBram Moolenaar let s:x = 2 9069c1e7fSBram Moolenaar call assert_equal([2, 3], filter([1, 2, 3], {i, v -> v >= s:x})) 10069c1e7fSBram Moolenaarendfunction 11069c1e7fSBram Moolenaar 12069c1e7fSBram Moolenaarfunction! Test_lambda_with_map() 13069c1e7fSBram Moolenaar let s:x = 1 14069c1e7fSBram Moolenaar call assert_equal([2, 3, 4], map([1, 2, 3], {i, v -> v + s:x})) 15069c1e7fSBram Moolenaarendfunction 16069c1e7fSBram Moolenaar 17069c1e7fSBram Moolenaarfunction! Test_lambda_with_sort() 18069c1e7fSBram Moolenaar call assert_equal([1, 2, 3, 4, 7], sort([3,7,2,1,4], {a, b -> a - b})) 19069c1e7fSBram Moolenaarendfunction 20069c1e7fSBram Moolenaar 21069c1e7fSBram Moolenaarfunction! Test_lambda_with_timer() 22069c1e7fSBram Moolenaar if !has('timers') 23069c1e7fSBram Moolenaar return 24069c1e7fSBram Moolenaar endif 25069c1e7fSBram Moolenaar 26069c1e7fSBram Moolenaar let s:n = 0 27069c1e7fSBram Moolenaar let s:timer_id = 0 28069c1e7fSBram Moolenaar function! s:Foo() 29069c1e7fSBram Moolenaar "let n = 0 301e96d9bfSBram Moolenaar let s:timer_id = timer_start(50, {-> execute("let s:n += 1 | echo s:n", "")}, {"repeat": -1}) 31069c1e7fSBram Moolenaar endfunction 32069c1e7fSBram Moolenaar 33069c1e7fSBram Moolenaar call s:Foo() 34069c1e7fSBram Moolenaar sleep 200ms 35069c1e7fSBram Moolenaar " do not collect lambda 36069c1e7fSBram Moolenaar call test_garbagecollect_now() 37069c1e7fSBram Moolenaar let m = s:n 38069c1e7fSBram Moolenaar sleep 200ms 39069c1e7fSBram Moolenaar call timer_stop(s:timer_id) 40069c1e7fSBram Moolenaar call assert_true(m > 1) 41069c1e7fSBram Moolenaar call assert_true(s:n > m + 1) 42069c1e7fSBram Moolenaar call assert_true(s:n < 9) 43069c1e7fSBram Moolenaarendfunction 44069c1e7fSBram Moolenaar 45069c1e7fSBram Moolenaarfunction! Test_lambda_with_partial() 46069c1e7fSBram Moolenaar let l:Cb = function({... -> ['zero', a:1, a:2, a:3]}, ['one', 'two']) 47069c1e7fSBram Moolenaar call assert_equal(['zero', 'one', 'two', 'three'], l:Cb('three')) 48069c1e7fSBram Moolenaarendfunction 49069c1e7fSBram Moolenaar 50069c1e7fSBram Moolenaarfunction Test_lambda_fails() 51069c1e7fSBram Moolenaar call assert_equal(3, {a, b -> a + b}(1, 2)) 52069c1e7fSBram Moolenaar call assert_fails('echo {a, a -> a + a}(1, 2)', 'E15:') 53069c1e7fSBram Moolenaar call assert_fails('echo {a, b -> a + b)}(1, 2)', 'E15:') 54069c1e7fSBram Moolenaarendfunc 554f0383bcSBram Moolenaar 564f0383bcSBram Moolenaarfunc Test_not_lamda() 574f0383bcSBram Moolenaar let x = {'>' : 'foo'} 584f0383bcSBram Moolenaar call assert_equal('foo', x['>']) 594f0383bcSBram Moolenaarendfunc 601e96d9bfSBram Moolenaar 611e96d9bfSBram Moolenaarfunction! Test_lambda_capture_by_reference() 621e96d9bfSBram Moolenaar let v = 1 631e96d9bfSBram Moolenaar let l:F = {x -> x + v} 641e96d9bfSBram Moolenaar let v = 2 651e96d9bfSBram Moolenaar call assert_equal(12, l:F(10)) 661e96d9bfSBram Moolenaarendfunction 671e96d9bfSBram Moolenaar 681e96d9bfSBram Moolenaarfunction! Test_lambda_side_effect() 691e96d9bfSBram Moolenaar function! s:update_and_return(arr) 701e96d9bfSBram Moolenaar let a:arr[1] = 5 711e96d9bfSBram Moolenaar return a:arr 721e96d9bfSBram Moolenaar endfunction 731e96d9bfSBram Moolenaar 741e96d9bfSBram Moolenaar function! s:foo(arr) 751e96d9bfSBram Moolenaar return {-> s:update_and_return(a:arr)} 761e96d9bfSBram Moolenaar endfunction 771e96d9bfSBram Moolenaar 781e96d9bfSBram Moolenaar let arr = [3,2,1] 791e96d9bfSBram Moolenaar call assert_equal([3, 5, 1], s:foo(arr)()) 801e96d9bfSBram Moolenaarendfunction 811e96d9bfSBram Moolenaar 821e96d9bfSBram Moolenaarfunction! Test_lambda_refer_local_variable_from_other_scope() 831e96d9bfSBram Moolenaar function! s:foo(X) 841e96d9bfSBram Moolenaar return a:X() " refer l:x in s:bar() 851e96d9bfSBram Moolenaar endfunction 861e96d9bfSBram Moolenaar 871e96d9bfSBram Moolenaar function! s:bar() 881e96d9bfSBram Moolenaar let x = 123 891e96d9bfSBram Moolenaar return s:foo({-> x}) 901e96d9bfSBram Moolenaar endfunction 911e96d9bfSBram Moolenaar 921e96d9bfSBram Moolenaar call assert_equal(123, s:bar()) 931e96d9bfSBram Moolenaarendfunction 941e96d9bfSBram Moolenaar 951e96d9bfSBram Moolenaarfunction! Test_lambda_do_not_share_local_variable() 961e96d9bfSBram Moolenaar function! s:define_funcs() 971e96d9bfSBram Moolenaar let l:One = {-> split(execute("let a = 'abc' | echo a"))[0]} 981e96d9bfSBram Moolenaar let l:Two = {-> exists("a") ? a : "no"} 991e96d9bfSBram Moolenaar return [l:One, l:Two] 1001e96d9bfSBram Moolenaar endfunction 1011e96d9bfSBram Moolenaar 1021e96d9bfSBram Moolenaar let l:F = s:define_funcs() 1031e96d9bfSBram Moolenaar 1041e96d9bfSBram Moolenaar call assert_equal('no', l:F[1]()) 1051e96d9bfSBram Moolenaar call assert_equal('abc', l:F[0]()) 1061e96d9bfSBram Moolenaar call assert_equal('no', l:F[1]()) 1071e96d9bfSBram Moolenaarendfunction 1081e96d9bfSBram Moolenaar 10910ce39a0SBram Moolenaarfunction! Test_lambda_closure_counter() 1101e96d9bfSBram Moolenaar function! s:foo() 1111e96d9bfSBram Moolenaar let x = 0 1121e96d9bfSBram Moolenaar return {-> [execute("let x += 1"), x][-1]} 1131e96d9bfSBram Moolenaar endfunction 1141e96d9bfSBram Moolenaar 1151e96d9bfSBram Moolenaar let l:F = s:foo() 1161e96d9bfSBram Moolenaar call test_garbagecollect_now() 1171e96d9bfSBram Moolenaar call assert_equal(1, l:F()) 1181e96d9bfSBram Moolenaar call assert_equal(2, l:F()) 1191e96d9bfSBram Moolenaar call assert_equal(3, l:F()) 1201e96d9bfSBram Moolenaar call assert_equal(4, l:F()) 1211e96d9bfSBram Moolenaarendfunction 1221e96d9bfSBram Moolenaar 1231e96d9bfSBram Moolenaarfunction! Test_lambda_with_a_var() 1241e96d9bfSBram Moolenaar function! s:foo() 1251e96d9bfSBram Moolenaar let x = 2 1261e96d9bfSBram Moolenaar return {... -> a:000 + [x]} 1271e96d9bfSBram Moolenaar endfunction 1281e96d9bfSBram Moolenaar function! s:bar() 1291e96d9bfSBram Moolenaar return s:foo()(1) 1301e96d9bfSBram Moolenaar endfunction 1311e96d9bfSBram Moolenaar 1321e96d9bfSBram Moolenaar call assert_equal([1, 2], s:bar()) 1331e96d9bfSBram Moolenaarendfunction 1341e96d9bfSBram Moolenaar 1351e96d9bfSBram Moolenaarfunction! Test_lambda_call_lambda_from_lambda() 1361e96d9bfSBram Moolenaar function! s:foo(x) 1371e96d9bfSBram Moolenaar let l:F1 = {-> {-> a:x}} 1381e96d9bfSBram Moolenaar return {-> l:F1()} 1391e96d9bfSBram Moolenaar endfunction 1401e96d9bfSBram Moolenaar 1411e96d9bfSBram Moolenaar let l:F = s:foo(1) 1421e96d9bfSBram Moolenaar call assert_equal(1, l:F()()) 1431e96d9bfSBram Moolenaarendfunction 1441e96d9bfSBram Moolenaar 1451e96d9bfSBram Moolenaarfunction! Test_lambda_delfunc() 1461e96d9bfSBram Moolenaar function! s:gen() 1471e96d9bfSBram Moolenaar let pl = l: 1481e96d9bfSBram Moolenaar let l:Foo = {-> get(pl, "Foo", get(pl, "Bar", {-> 0}))} 1491e96d9bfSBram Moolenaar let l:Bar = l:Foo 1501e96d9bfSBram Moolenaar delfunction l:Foo 1511e96d9bfSBram Moolenaar return l:Bar 1521e96d9bfSBram Moolenaar endfunction 1531e96d9bfSBram Moolenaar 1541e96d9bfSBram Moolenaar let l:F = s:gen() 1551e96d9bfSBram Moolenaar call assert_fails(':call l:F()', 'E117:') 1561e96d9bfSBram Moolenaarendfunction 1571e96d9bfSBram Moolenaar 1581e96d9bfSBram Moolenaarfunction! Test_lambda_scope() 1591e96d9bfSBram Moolenaar function! s:NewCounter() 1601e96d9bfSBram Moolenaar let c = 0 1611e96d9bfSBram Moolenaar return {-> [execute('let c += 1'), c][-1]} 1621e96d9bfSBram Moolenaar endfunction 1631e96d9bfSBram Moolenaar 1641e96d9bfSBram Moolenaar function! s:NewCounter2() 1651e96d9bfSBram Moolenaar return {-> [execute('let c += 100'), c][-1]} 1661e96d9bfSBram Moolenaar endfunction 1671e96d9bfSBram Moolenaar 1681e96d9bfSBram Moolenaar let l:C = s:NewCounter() 1691e96d9bfSBram Moolenaar let l:D = s:NewCounter2() 1701e96d9bfSBram Moolenaar 1711e96d9bfSBram Moolenaar call assert_equal(1, l:C()) 1721e96d9bfSBram Moolenaar call assert_fails(':call l:D()', 'E15:') " E121: then E15: 1731e96d9bfSBram Moolenaar call assert_equal(2, l:C()) 1741e96d9bfSBram Moolenaarendfunction 1751e96d9bfSBram Moolenaar 1761e96d9bfSBram Moolenaarfunction! Test_lambda_share_scope() 1771e96d9bfSBram Moolenaar function! s:New() 1781e96d9bfSBram Moolenaar let c = 0 1791e96d9bfSBram Moolenaar let l:Inc0 = {-> [execute('let c += 1'), c][-1]} 1801e96d9bfSBram Moolenaar let l:Dec0 = {-> [execute('let c -= 1'), c][-1]} 1811e96d9bfSBram Moolenaar return [l:Inc0, l:Dec0] 1821e96d9bfSBram Moolenaar endfunction 1831e96d9bfSBram Moolenaar 1841e96d9bfSBram Moolenaar let [l:Inc, l:Dec] = s:New() 1851e96d9bfSBram Moolenaar 1861e96d9bfSBram Moolenaar call assert_equal(1, l:Inc()) 1871e96d9bfSBram Moolenaar call assert_equal(2, l:Inc()) 1881e96d9bfSBram Moolenaar call assert_equal(1, l:Dec()) 1891e96d9bfSBram Moolenaarendfunction 1901e96d9bfSBram Moolenaar 1911e96d9bfSBram Moolenaarfunction! Test_lambda_circular_reference() 1921e96d9bfSBram Moolenaar function! s:Foo() 1931e96d9bfSBram Moolenaar let d = {} 1941e96d9bfSBram Moolenaar let d.f = {-> d} 1951e96d9bfSBram Moolenaar return d.f 1961e96d9bfSBram Moolenaar endfunction 1971e96d9bfSBram Moolenaar 1981e96d9bfSBram Moolenaar call s:Foo() 1991e96d9bfSBram Moolenaar call test_garbagecollect_now() 2001e96d9bfSBram Moolenaar let i = 0 | while i < 10000 | call s:Foo() | let i+= 1 | endwhile 2011e96d9bfSBram Moolenaar call test_garbagecollect_now() 2021e96d9bfSBram Moolenaarendfunction 2031e96d9bfSBram Moolenaar 2041e96d9bfSBram Moolenaarfunction! Test_lambda_combination() 2051e96d9bfSBram Moolenaar call assert_equal(2, {x -> {x -> x}}(1)(2)) 2061e96d9bfSBram Moolenaar call assert_equal(10, {y -> {x -> x(y)(10)}({y -> y})}({z -> z})) 2071e96d9bfSBram Moolenaar call assert_equal(5.0, {x -> {y -> x / y}}(10)(2.0)) 2081e96d9bfSBram Moolenaar call assert_equal(6, {x -> {y -> {z -> x + y + z}}}(1)(2)(3)) 2091e96d9bfSBram Moolenaar 2101e96d9bfSBram Moolenaar call assert_equal(6, {x -> {f -> f(x)}}(3)({x -> x * 2})) 2111e96d9bfSBram Moolenaar call assert_equal(6, {f -> {x -> f(x)}}({x -> x * 2})(3)) 2121e96d9bfSBram Moolenaar 2131e96d9bfSBram Moolenaar " Z combinator 2141e96d9bfSBram Moolenaar let Z = {f -> {x -> f({y -> x(x)(y)})}({x -> f({y -> x(x)(y)})})} 2151e96d9bfSBram Moolenaar let Fact = {f -> {x -> x == 0 ? 1 : x * f(x - 1)}} 2161e96d9bfSBram Moolenaar call assert_equal(120, Z(Fact)(5)) 2171e96d9bfSBram Moolenaarendfunction 21810ce39a0SBram Moolenaar 21910ce39a0SBram Moolenaarfunction! Test_closure_counter() 22010ce39a0SBram Moolenaar function! s:foo() 22110ce39a0SBram Moolenaar let x = 0 22210ce39a0SBram Moolenaar function! s:bar() closure 22310ce39a0SBram Moolenaar let x += 1 22410ce39a0SBram Moolenaar return x 22510ce39a0SBram Moolenaar endfunction 22610ce39a0SBram Moolenaar return function('s:bar') 22710ce39a0SBram Moolenaar endfunction 22810ce39a0SBram Moolenaar 22910ce39a0SBram Moolenaar let l:F = s:foo() 23010ce39a0SBram Moolenaar call test_garbagecollect_now() 23110ce39a0SBram Moolenaar call assert_equal(1, l:F()) 23210ce39a0SBram Moolenaar call assert_equal(2, l:F()) 23310ce39a0SBram Moolenaar call assert_equal(3, l:F()) 23410ce39a0SBram Moolenaar call assert_equal(4, l:F()) 23510ce39a0SBram Moolenaarendfunction 23610ce39a0SBram Moolenaar 23710ce39a0SBram Moolenaarfunction! Test_closure_unlet() 23810ce39a0SBram Moolenaar function! s:foo() 23910ce39a0SBram Moolenaar let x = 1 24010ce39a0SBram Moolenaar function! s:bar() closure 24110ce39a0SBram Moolenaar unlet x 24210ce39a0SBram Moolenaar endfunction 24310ce39a0SBram Moolenaar call s:bar() 24410ce39a0SBram Moolenaar return l: 24510ce39a0SBram Moolenaar endfunction 24610ce39a0SBram Moolenaar 24710ce39a0SBram Moolenaar call assert_false(has_key(s:foo(), 'x')) 24810ce39a0SBram Moolenaar call test_garbagecollect_now() 24910ce39a0SBram Moolenaarendfunction 250