Mercurial > vim
view src/testdir/test_vimscript.vim @ 18069:1f52c157c2e9
Added tag v8.1.2029 for changeset 1101eacc1444fe34d9cb7c7a499843f16c07f360
author | Bram Moolenaar <Bram@vim.org> |
---|---|
date | Sat, 14 Sep 2019 21:15:04 +0200 |
parents | 8a2fb21c23c0 |
children | ece46bd3c9af |
line wrap: on
line source
" Test various aspects of the Vim script language. " Most of this was formerly in test49. source check.vim source shared.vim "------------------------------------------------------------------------------- " Test environment {{{1 "------------------------------------------------------------------------------- com! XpathINIT let g:Xpath = '' com! -nargs=1 -bar Xpath let g:Xpath = g:Xpath . <args> " Append a message to the "messages" file func Xout(text) split messages $put =a:text wq endfunc com! -nargs=1 Xout call Xout(<args>) " MakeScript() - Make a script file from a function. {{{2 " " Create a script that consists of the body of the function a:funcname. " Replace any ":return" by a ":finish", any argument variable by a global " variable, and every ":call" by a ":source" for the next following argument " in the variable argument list. This function is useful if similar tests are " to be made for a ":return" from a function call or a ":finish" in a script " file. func MakeScript(funcname, ...) let script = tempname() execute "redir! >" . script execute "function" a:funcname redir END execute "edit" script " Delete the "function" and the "endfunction" lines. Do not include the " word "function" in the pattern since it might be translated if LANG is " set. When MakeScript() is being debugged, this deletes also the debugging " output of its line 3 and 4. exec '1,/.*' . a:funcname . '(.*)/d' /^\d*\s*endfunction\>/,$d %s/^\d*//e %s/return/finish/e %s/\<a:\(\h\w*\)/g:\1/ge normal gg0 let cnt = 0 while search('\<call\s*\%(\u\|s:\)\w*\s*(.*)', 'W') > 0 let cnt = cnt + 1 s/\<call\s*\%(\u\|s:\)\w*\s*(.*)/\='source ' . a:{cnt}/ endwhile g/^\s*$/d write bwipeout return script endfunc " ExecAsScript - Source a temporary script made from a function. {{{2 " " Make a temporary script file from the function a:funcname, ":source" it, and " delete it afterwards. However, if an exception is thrown the file may remain, " the caller should call DeleteTheScript() afterwards. let s:script_name = '' function! ExecAsScript(funcname) " Make a script from the function passed as argument. let s:script_name = MakeScript(a:funcname) " Source and delete the script. exec "source" s:script_name call delete(s:script_name) let s:script_name = '' endfunction function! DeleteTheScript() if s:script_name call delete(s:script_name) let s:script_name = '' endif endfunc com! -nargs=1 -bar ExecAsScript call ExecAsScript(<f-args>) "------------------------------------------------------------------------------- " Test 1: :endwhile in function {{{1 " " Detect if a broken loop is (incorrectly) reactivated by the " :endwhile. Use a :return to prevent an endless loop, and make " this test first to get a meaningful result on an error before other " tests will hang. "------------------------------------------------------------------------------- function! T1_F() Xpath 'a' let first = 1 while 1 Xpath 'b' if first Xpath 'c' let first = 0 break else Xpath 'd' return endif endwhile endfunction function! T1_G() Xpath 'h' let first = 1 while 1 Xpath 'i' if first Xpath 'j' let first = 0 break else Xpath 'k' return endif if 1 " unmatched :if endwhile endfunction func Test_endwhile_function() XpathINIT call T1_F() Xpath 'F' try call T1_G() catch " Catch missing :endif call assert_true(v:exception =~ 'E171') Xpath 'x' endtry Xpath 'G' call assert_equal('abcFhijxG', g:Xpath) endfunc "------------------------------------------------------------------------------- " Test 2: :endwhile in script {{{1 " " Detect if a broken loop is (incorrectly) reactivated by the " :endwhile. Use a :finish to prevent an endless loop, and place " this test before others that might hang to get a meaningful result " on an error. " " This test executes the bodies of the functions T1_F and T1_G from " the previous test as script files (:return replaced by :finish). "------------------------------------------------------------------------------- func Test_endwhile_script() XpathINIT ExecAsScript T1_F Xpath 'F' call DeleteTheScript() try ExecAsScript T1_G catch " Catch missing :endif call assert_true(v:exception =~ 'E171') Xpath 'x' endtry Xpath 'G' call DeleteTheScript() call assert_equal('abcFhijxG', g:Xpath) endfunc "------------------------------------------------------------------------------- " Test 3: :if, :elseif, :while, :continue, :break {{{1 "------------------------------------------------------------------------------- function Test_if_while() XpathINIT if 1 Xpath 'a' let loops = 3 while loops > -1 " main loop: loops == 3, 2, 1 (which breaks) if loops <= 0 let break_err = 1 let loops = -1 else Xpath 'b' . loops endif if (loops == 2) while loops == 2 " dummy loop Xpath 'c' . loops let loops = loops - 1 continue " stop dummy loop Xpath 'd' . loops endwhile continue " continue main loop Xpath 'e' . loops elseif (loops == 1) let p = 1 while p " dummy loop Xpath 'f' . loops let p = 0 break " break dummy loop Xpath 'g' . loops endwhile Xpath 'h' . loops unlet p break " break main loop Xpath 'i' . loops endif if (loops > 0) Xpath 'j' . loops endif while loops == 3 " dummy loop let loops = loops - 1 endwhile " end dummy loop endwhile " end main loop Xpath 'k' else Xpath 'l' endif Xpath 'm' if exists("break_err") Xpath 'm' unlet break_err endif unlet loops call assert_equal('ab3j3b2c2b1f1h1km', g:Xpath) endfunc "------------------------------------------------------------------------------- " Test 4: :return {{{1 "------------------------------------------------------------------------------- function! T4_F() if 1 Xpath 'a' let loops = 3 while loops > 0 " 3: 2: 1: Xpath 'b' . loops if (loops == 2) Xpath 'c' . loops return Xpath 'd' . loops endif Xpath 'e' . loops let loops = loops - 1 endwhile Xpath 'f' else Xpath 'g' endif endfunction function Test_return() XpathINIT call T4_F() Xpath '4' call assert_equal('ab3e3b2c24', g:Xpath) endfunction "------------------------------------------------------------------------------- " Test 5: :finish {{{1 " " This test executes the body of the function T4_F from the previous " test as a script file (:return replaced by :finish). "------------------------------------------------------------------------------- function Test_finish() XpathINIT ExecAsScript T4_F Xpath '5' call DeleteTheScript() call assert_equal('ab3e3b2c25', g:Xpath) endfunction "------------------------------------------------------------------------------- " Test 6: Defining functions in :while loops {{{1 " " Functions can be defined inside other functions. An inner function " gets defined when the outer function is executed. Functions may " also be defined inside while loops. Expressions in braces for " defining the function name are allowed. " " The functions are defined when sourcing the script, only the " resulting path is checked in the test function. "------------------------------------------------------------------------------- XpathINIT " The command CALL collects the argument of all its invocations in "calls" " when used from a function (that is, when the global variable "calls" needs " the "g:" prefix). This is to check that the function code is skipped when " the function is defined. For inner functions, do so only if the outer " function is not being executed. " let calls = "" com! -nargs=1 CALL \ if !exists("calls") && !exists("outer") | \ let g:calls = g:calls . <args> | \ endif let i = 0 while i < 3 let i = i + 1 if i == 1 Xpath 'a' function! F1(arg) CALL a:arg let outer = 1 let j = 0 while j < 1 Xpath 'b' let j = j + 1 function! G1(arg) CALL a:arg endfunction Xpath 'c' endwhile endfunction Xpath 'd' continue endif Xpath 'e' . i function! F{i}(i, arg) CALL a:arg let outer = 1 if a:i == 3 Xpath 'f' endif let k = 0 while k < 3 Xpath 'g' . k let k = k + 1 function! G{a:i}{k}(arg) CALL a:arg endfunction Xpath 'h' . k endwhile endfunction Xpath 'i' endwhile if exists("*G1") Xpath 'j' endif if exists("*F1") call F1("F1") if exists("*G1") call G1("G1") endif endif if exists("G21") || exists("G22") || exists("G23") Xpath 'k' endif if exists("*F2") call F2(2, "F2") if exists("*G21") call G21("G21") endif if exists("*G22") call G22("G22") endif if exists("*G23") call G23("G23") endif endif if exists("G31") || exists("G32") || exists("G33") Xpath 'l' endif if exists("*F3") call F3(3, "F3") if exists("*G31") call G31("G31") endif if exists("*G32") call G32("G32") endif if exists("*G33") call G33("G33") endif endif Xpath 'm' let g:test6_result = g:Xpath let g:test6_calls = calls unlet calls delfunction F1 delfunction G1 delfunction F2 delfunction G21 delfunction G22 delfunction G23 delfunction G31 delfunction G32 delfunction G33 function Test_defining_functions() call assert_equal('ade2ie3ibcg0h1g1h2g2h3fg0h1g1h2g2h3m', g:test6_result) call assert_equal('F1G1F2G21G22G23F3G31G32G33', g:test6_calls) endfunc "------------------------------------------------------------------------------- " Test 7: Continuing on errors outside functions {{{1 " " On an error outside a function, the script processing continues " at the line following the outermost :endif or :endwhile. When not " inside an :if or :while, the script processing continues at the next " line. "------------------------------------------------------------------------------- XpathINIT if 1 Xpath 'a' while 1 Xpath 'b' asdf Xpath 'c' break endwhile | Xpath 'd' Xpath 'e' endif | Xpath 'f' Xpath 'g' while 1 Xpath 'h' if 1 Xpath 'i' asdf Xpath 'j' endif | Xpath 'k' Xpath 'l' break endwhile | Xpath 'm' Xpath 'n' asdf Xpath 'o' asdf | Xpath 'p' Xpath 'q' let g:test7_result = g:Xpath func Test_error_in_script() call assert_equal('abghinoq', g:test7_result) endfunc "------------------------------------------------------------------------------- " Test 8: Aborting and continuing on errors inside functions {{{1 " " On an error inside a function without the "abort" attribute, the " script processing continues at the next line (unless the error was " in a :return command). On an error inside a function with the " "abort" attribute, the function is aborted and the script processing " continues after the function call; the value -1 is returned then. "------------------------------------------------------------------------------- XpathINIT function! T8_F() if 1 Xpath 'a' while 1 Xpath 'b' asdf Xpath 'c' asdf | Xpath 'd' Xpath 'e' break endwhile Xpath 'f' endif | Xpath 'g' Xpath 'h' while 1 Xpath 'i' if 1 Xpath 'j' asdf Xpath 'k' asdf | Xpath 'l' Xpath 'm' endif Xpath 'n' break endwhile | Xpath 'o' Xpath 'p' return novar " returns (default return value 0) Xpath 'q' return 1 " not reached endfunction function! T8_G() abort if 1 Xpath 'r' while 1 Xpath 's' asdf " returns -1 Xpath 't' break endwhile Xpath 'v' endif | Xpath 'w' Xpath 'x' return -4 " not reached endfunction function! T8_H() abort while 1 Xpath 'A' if 1 Xpath 'B' asdf " returns -1 Xpath 'C' endif Xpath 'D' break endwhile | Xpath 'E' Xpath 'F' return -4 " not reached endfunction " Aborted functions (T8_G and T8_H) return -1. let g:test8_sum = (T8_F() + 1) - 4 * T8_G() - 8 * T8_H() Xpath 'X' let g:test8_result = g:Xpath func Test_error_in_function() call assert_equal(13, g:test8_sum) call assert_equal('abcefghijkmnoprsABX', g:test8_result) delfunction T8_F delfunction T8_G delfunction T8_H endfunc "------------------------------------------------------------------------------- " Test 9: Continuing after aborted functions {{{1 " " When a function with the "abort" attribute is aborted due to an " error, the next function back in the call hierarchy without an " "abort" attribute continues; the value -1 is returned then. "------------------------------------------------------------------------------- XpathINIT function! F() abort Xpath 'a' let result = G() " not aborted Xpath 'b' if result != 2 Xpath 'c' endif return 1 endfunction function! G() " no abort attribute Xpath 'd' if H() != -1 " aborted Xpath 'e' endif Xpath 'f' return 2 endfunction function! H() abort Xpath 'g' call I() " aborted Xpath 'h' return 4 endfunction function! I() abort Xpath 'i' asdf " error Xpath 'j' return 8 endfunction if F() != 1 Xpath 'k' endif let g:test9_result = g:Xpath delfunction F delfunction G delfunction H delfunction I func Test_func_abort() call assert_equal('adgifb', g:test9_result) endfunc "------------------------------------------------------------------------------- " Test 10: :if, :elseif, :while argument parsing {{{1 " " A '"' or '|' in an argument expression must not be mixed up with " a comment or a next command after a bar. Parsing errors should " be recognized. "------------------------------------------------------------------------------- XpathINIT function! MSG(enr, emsg) let english = v:lang == "C" || v:lang =~ '^[Ee]n' if a:enr == "" Xout "TODO: Add message number for:" a:emsg let v:errmsg = ":" . v:errmsg endif let match = 1 if v:errmsg !~ '^'.a:enr.':' || (english && v:errmsg !~ a:emsg) let match = 0 if v:errmsg == "" Xout "Message missing." else let v:errmsg = v:errmsg->escape('"') Xout "Unexpected message:" v:errmsg endif endif return match endfunc if 1 || strlen("\"") | Xpath 'a' Xpath 'b' endif Xpath 'c' if 0 elseif 1 || strlen("\"") | Xpath 'd' Xpath 'e' endif Xpath 'f' while 1 || strlen("\"") | Xpath 'g' Xpath 'h' break endwhile Xpath 'i' let v:errmsg = "" if 1 ||| strlen("\"") | Xpath 'j' Xpath 'k' endif Xpath 'l' if !MSG('E15', "Invalid expression") Xpath 'm' endif let v:errmsg = "" if 0 elseif 1 ||| strlen("\"") | Xpath 'n' Xpath 'o' endif Xpath 'p' if !MSG('E15', "Invalid expression") Xpath 'q' endif let v:errmsg = "" while 1 ||| strlen("\"") | Xpath 'r' Xpath 's' break endwhile Xpath 't' if !MSG('E15', "Invalid expression") Xpath 'u' endif let g:test10_result = g:Xpath delfunction MSG func Test_expr_parsing() call assert_equal('abcdefghilpt', g:test10_result) endfunc "------------------------------------------------------------------------------- " Test 11: :if, :elseif, :while argument evaluation after abort {{{1 " " When code is skipped over due to an error, the boolean argument to " an :if, :elseif, or :while must not be evaluated. "------------------------------------------------------------------------------- XpathINIT let calls = 0 function! P(num) let g:calls = g:calls + a:num " side effect on call return 0 endfunction if 1 Xpath 'a' asdf " error Xpath 'b' if P(1) " should not be called Xpath 'c' elseif !P(2) " should not be called Xpath 'd' else Xpath 'e' endif Xpath 'f' while P(4) " should not be called Xpath 'g' endwhile Xpath 'h' endif Xpath 'x' let g:test11_calls = calls let g:test11_result = g:Xpath unlet calls delfunction P func Test_arg_abort() call assert_equal(0, g:test11_calls) call assert_equal('ax', g:test11_result) endfunc "------------------------------------------------------------------------------- " Test 12: Expressions in braces in skipped code {{{1 " " In code skipped over due to an error or inactive conditional, " an expression in braces as part of a variable or function name " should not be evaluated. "------------------------------------------------------------------------------- XpathINIT function! NULL() Xpath 'a' return 0 endfunction function! ZERO() Xpath 'b' return 0 endfunction function! F0() Xpath 'c' endfunction function! F1(arg) Xpath 'e' endfunction let V0 = 1 Xpath 'f' echo 0 ? F{NULL() + V{ZERO()}}() : 1 Xpath 'g' if 0 Xpath 'h' call F{NULL() + V{ZERO()}}() endif Xpath 'i' if 1 asdf " error Xpath 'j' call F1(F{NULL() + V{ZERO()}}()) endif Xpath 'k' if 1 asdf " error Xpath 'l' call F{NULL() + V{ZERO()}}() endif let g:test12_result = g:Xpath func Test_braces_skipped() call assert_equal('fgik', g:test12_result) endfunc "------------------------------------------------------------------------------- " Test 13: Failure in argument evaluation for :while {{{1 " " A failure in the expression evaluation for the condition of a :while " causes the whole :while loop until the matching :endwhile being " ignored. Continuation is at the next following line. "------------------------------------------------------------------------------- XpathINIT Xpath 'a' while asdf Xpath 'b' while 1 Xpath 'c' break endwhile Xpath 'd' break endwhile Xpath 'e' while asdf | Xpath 'f' | endwhile | Xpath 'g' Xpath 'h' let g:test13_result = g:Xpath func Test_while_fail() call assert_equal('aeh', g:test13_result) endfunc "------------------------------------------------------------------------------- " Test 14: Failure in argument evaluation for :if {{{1 " " A failure in the expression evaluation for the condition of an :if " does not cause the corresponding :else or :endif being matched to " a previous :if/:elseif. Neither of both branches of the failed :if " are executed. "------------------------------------------------------------------------------- XpathINIT function! F() Xpath 'a' let x = 0 if x " false Xpath 'b' elseif !x " always true Xpath 'c' let x = 1 if g:boolvar " possibly undefined Xpath 'd' else Xpath 'e' endif Xpath 'f' elseif x " never executed Xpath 'g' endif Xpath 'h' endfunction let boolvar = 1 call F() Xpath '-' unlet boolvar call F() let g:test14_result = g:Xpath delfunction F func Test_if_fail() call assert_equal('acdfh-acfh', g:test14_result) endfunc "------------------------------------------------------------------------------- " Test 15: Failure in argument evaluation for :if (bar) {{{1 " " Like previous test, except that the failing :if ... | ... | :endif " is in a single line. "------------------------------------------------------------------------------- XpathINIT function! F() Xpath 'a' let x = 0 if x " false Xpath 'b' elseif !x " always true Xpath 'c' let x = 1 if g:boolvar | Xpath 'd' | else | Xpath 'e' | endif Xpath 'f' elseif x " never executed Xpath 'g' endif Xpath 'h' endfunction let boolvar = 1 call F() Xpath '-' unlet boolvar call F() let g:test15_result = g:Xpath delfunction F func Test_if_bar_fail() call assert_equal('acdfh-acfh', g:test15_result) endfunc "------------------------------------------------------------------------------- " Test 90: Recognizing {} in variable name. {{{1 "------------------------------------------------------------------------------- func Test_curlies() let s:var = 66 let ns = 's' call assert_equal(66, {ns}:var) let g:a = {} let g:b = 't' let g:a[g:b] = 77 call assert_equal(77, g:a['t']) endfunc "------------------------------------------------------------------------------- " Test 91: using type(). {{{1 "------------------------------------------------------------------------------- func Test_type() call assert_equal(0, type(0)) call assert_equal(1, type("")) call assert_equal(2, type(function("tr"))) call assert_equal(2, type(function("tr", [8]))) call assert_equal(3, type([])) call assert_equal(4, type({})) call assert_equal(5, type(0.0)) call assert_equal(6, type(v:false)) call assert_equal(6, type(v:true)) call assert_equal(7, type(v:none)) call assert_equal(7, type(v:null)) call assert_equal(8, v:t_job) call assert_equal(9, v:t_channel) call assert_equal(v:t_number, type(0)) call assert_equal(v:t_string, type("")) call assert_equal(v:t_func, type(function("tr"))) call assert_equal(v:t_func, type(function("tr", [8]))) call assert_equal(v:t_list, type([])) call assert_equal(v:t_dict, type({})) call assert_equal(v:t_float, type(0.0)) call assert_equal(v:t_bool, type(v:false)) call assert_equal(v:t_bool, type(v:true)) call assert_equal(v:t_none, type(v:none)) call assert_equal(v:t_none, type(v:null)) call assert_equal(0, 0 + v:false) call assert_equal(1, 0 + v:true) call assert_equal(0, 0 + v:none) call assert_equal(0, 0 + v:null) call assert_equal('v:false', '' . v:false) call assert_equal('v:true', '' . v:true) call assert_equal('v:none', '' . v:none) call assert_equal('v:null', '' . v:null) call assert_true(v:false == 0) call assert_false(v:false != 0) call assert_true(v:true == 1) call assert_false(v:true != 1) call assert_false(v:true == v:false) call assert_true(v:true != v:false) call assert_true(v:null == 0) call assert_false(v:null != 0) call assert_true(v:none == 0) call assert_false(v:none != 0) call assert_true(v:false is v:false) call assert_true(v:true is v:true) call assert_true(v:none is v:none) call assert_true(v:null is v:null) call assert_false(v:false isnot v:false) call assert_false(v:true isnot v:true) call assert_false(v:none isnot v:none) call assert_false(v:null isnot v:null) call assert_false(v:false is 0) call assert_false(v:true is 1) call assert_false(v:true is v:false) call assert_false(v:none is 0) call assert_false(v:null is 0) call assert_false(v:null is v:none) call assert_true(v:false isnot 0) call assert_true(v:true isnot 1) call assert_true(v:true isnot v:false) call assert_true(v:none isnot 0) call assert_true(v:null isnot 0) call assert_true(v:null isnot v:none) call assert_equal(v:false, eval(string(v:false))) call assert_equal(v:true, eval(string(v:true))) call assert_equal(v:none, eval(string(v:none))) call assert_equal(v:null, eval(string(v:null))) call assert_equal(v:false, copy(v:false)) call assert_equal(v:true, copy(v:true)) call assert_equal(v:none, copy(v:none)) call assert_equal(v:null, copy(v:null)) call assert_equal([v:false], deepcopy([v:false])) call assert_equal([v:true], deepcopy([v:true])) call assert_equal([v:none], deepcopy([v:none])) call assert_equal([v:null], deepcopy([v:null])) call assert_true(empty(v:false)) call assert_false(empty(v:true)) call assert_true(empty(v:null)) call assert_true(empty(v:none)) func ChangeYourMind() try return v:true finally return 'something else' endtry endfunc call ChangeYourMind() endfunc "------------------------------------------------------------------------------- " Test 92: skipping code {{{1 "------------------------------------------------------------------------------- func Test_skip() let Fn = function('Test_type') call assert_false(0 && Fn[1]) call assert_false(0 && string(Fn)) call assert_false(0 && len(Fn)) let l = [] call assert_false(0 && l[1]) call assert_false(0 && string(l)) call assert_false(0 && len(l)) let f = 1.0 call assert_false(0 && f[1]) call assert_false(0 && string(f)) call assert_false(0 && len(f)) let sp = v:null call assert_false(0 && sp[1]) call assert_false(0 && string(sp)) call assert_false(0 && len(sp)) endfunc "------------------------------------------------------------------------------- " Test 93: :echo and string() {{{1 "------------------------------------------------------------------------------- func Test_echo_and_string() " String let a = 'foo bar' redir => result echo a echo string(a) redir END let l = split(result, "\n") call assert_equal(["foo bar", \ "'foo bar'"], l) " Float if has('float') let a = -1.2e0 redir => result echo a echo string(a) redir END let l = split(result, "\n") call assert_equal(["-1.2", \ "-1.2"], l) endif " Funcref redir => result echo function('string') echo string(function('string')) redir END let l = split(result, "\n") call assert_equal(["string", \ "function('string')"], l) " Recursive dictionary let a = {} let a["a"] = a redir => result echo a echo string(a) redir END let l = split(result, "\n") call assert_equal(["{'a': {...}}", \ "{'a': {...}}"], l) " Recursive list let a = [0] let a[0] = a redir => result echo a echo string(a) redir END let l = split(result, "\n") call assert_equal(["[[...]]", \ "[[...]]"], l) " Empty dictionaries in a list let a = {} redir => result echo [a, a, a] echo string([a, a, a]) redir END let l = split(result, "\n") call assert_equal(["[{}, {}, {}]", \ "[{}, {}, {}]"], l) " Empty dictionaries in a dictionary let a = {} let b = {"a": a, "b": a} redir => result echo b echo string(b) redir END let l = split(result, "\n") call assert_equal(["{'a': {}, 'b': {}}", \ "{'a': {}, 'b': {}}"], l) " Empty lists in a list let a = [] redir => result echo [a, a, a] echo string([a, a, a]) redir END let l = split(result, "\n") call assert_equal(["[[], [], []]", \ "[[], [], []]"], l) " Empty lists in a dictionary let a = [] let b = {"a": a, "b": a} redir => result echo b echo string(b) redir END let l = split(result, "\n") call assert_equal(["{'a': [], 'b': []}", \ "{'a': [], 'b': []}"], l) " Dictionaries in a list let a = {"one": "yes", "two": "yes", "three": "yes"} redir => result echo [a, a, a] echo string([a, a, a]) redir END let l = split(result, "\n") call assert_equal(["[{'one': 'yes', 'two': 'yes', 'three': 'yes'}, {...}, {...}]", \ "[{'one': 'yes', 'two': 'yes', 'three': 'yes'}, {'one': 'yes', 'two': 'yes', 'three': 'yes'}, {'one': 'yes', 'two': 'yes', 'three': 'yes'}]"], l) " Dictionaries in a dictionary let a = {"one": "yes", "two": "yes", "three": "yes"} let b = {"a": a, "b": a} redir => result echo b echo string(b) redir END let l = split(result, "\n") call assert_equal(["{'a': {'one': 'yes', 'two': 'yes', 'three': 'yes'}, 'b': {...}}", \ "{'a': {'one': 'yes', 'two': 'yes', 'three': 'yes'}, 'b': {'one': 'yes', 'two': 'yes', 'three': 'yes'}}"], l) " Lists in a list let a = [1, 2, 3] redir => result echo [a, a, a] echo string([a, a, a]) redir END let l = split(result, "\n") call assert_equal(["[[1, 2, 3], [...], [...]]", \ "[[1, 2, 3], [1, 2, 3], [1, 2, 3]]"], l) " Lists in a dictionary let a = [1, 2, 3] let b = {"a": a, "b": a} redir => result echo b echo string(b) redir END let l = split(result, "\n") call assert_equal(["{'a': [1, 2, 3], 'b': [...]}", \ "{'a': [1, 2, 3], 'b': [1, 2, 3]}"], l) endfunc "------------------------------------------------------------------------------- " Test 94: 64-bit Numbers {{{1 "------------------------------------------------------------------------------- func Test_num64() if !has('num64') return endif call assert_notequal( 4294967296, 0) call assert_notequal(-4294967296, 0) call assert_equal( 4294967296, 0xFFFFffff + 1) call assert_equal(-4294967296, -0xFFFFffff - 1) call assert_equal( 9223372036854775807, 1 / 0) call assert_equal(-9223372036854775807, -1 / 0) call assert_equal(-9223372036854775807 - 1, 0 / 0) call assert_equal( 0x7FFFffffFFFFffff, float2nr( 1.0e150)) call assert_equal(-0x7FFFffffFFFFffff, float2nr(-1.0e150)) let rng = range(0xFFFFffff, 0x100000001) call assert_equal([0xFFFFffff, 0x100000000, 0x100000001], rng) call assert_equal(0x100000001, max(rng)) call assert_equal(0xFFFFffff, min(rng)) call assert_equal(rng, sort(range(0x100000001, 0xFFFFffff, -1), 'N')) endfunc "------------------------------------------------------------------------------- " Test 95: lines of :append, :change, :insert {{{1 "------------------------------------------------------------------------------- function! DefineFunction(name, body) let func = join(['function! ' . a:name . '()'] + a:body + ['endfunction'], "\n") exec func endfunction func Test_script_lines() " :append try call DefineFunction('T_Append', [ \ 'append', \ 'py <<EOS', \ '.', \ ]) catch call assert_report("Can't define function") endtry try call DefineFunction('T_Append', [ \ 'append', \ 'abc', \ ]) call assert_report("Shouldn't be able to define function") catch call assert_exception('Vim(function):E126: Missing :endfunction') endtry " :change try call DefineFunction('T_Change', [ \ 'change', \ 'py <<EOS', \ '.', \ ]) catch call assert_report("Can't define function") endtry try call DefineFunction('T_Change', [ \ 'change', \ 'abc', \ ]) call assert_report("Shouldn't be able to define function") catch call assert_exception('Vim(function):E126: Missing :endfunction') endtry " :insert try call DefineFunction('T_Insert', [ \ 'insert', \ 'py <<EOS', \ '.', \ ]) catch call assert_report("Can't define function") endtry try call DefineFunction('T_Insert', [ \ 'insert', \ 'abc', \ ]) call assert_report("Shouldn't be able to define function") catch call assert_exception('Vim(function):E126: Missing :endfunction') endtry endfunc "------------------------------------------------------------------------------- " Test 96: line continuation {{{1 " " Undefined behavior was detected by ubsan with line continuation " after an empty line. "------------------------------------------------------------------------------- func Test_script_emty_line_continuation() \ endfunc "------------------------------------------------------------------------------- " Test 97: bitwise functions {{{1 "------------------------------------------------------------------------------- func Test_bitwise_functions() " and call assert_equal(127, and(127, 127)) call assert_equal(16, and(127, 16)) eval 127->and(16)->assert_equal(16) call assert_equal(0, and(127, 128)) call assert_fails("call and(1.0, 1)", 'E805:') call assert_fails("call and([], 1)", 'E745:') call assert_fails("call and({}, 1)", 'E728:') call assert_fails("call and(1, 1.0)", 'E805:') call assert_fails("call and(1, [])", 'E745:') call assert_fails("call and(1, {})", 'E728:') " or call assert_equal(23, or(16, 7)) call assert_equal(15, or(8, 7)) eval 8->or(7)->assert_equal(15) call assert_equal(123, or(0, 123)) call assert_fails("call or(1.0, 1)", 'E805:') call assert_fails("call or([], 1)", 'E745:') call assert_fails("call or({}, 1)", 'E728:') call assert_fails("call or(1, 1.0)", 'E805:') call assert_fails("call or(1, [])", 'E745:') call assert_fails("call or(1, {})", 'E728:') " xor call assert_equal(0, xor(127, 127)) call assert_equal(111, xor(127, 16)) eval 127->xor(16)->assert_equal(111) call assert_equal(255, xor(127, 128)) call assert_fails("call xor(1.0, 1)", 'E805:') call assert_fails("call xor([], 1)", 'E745:') call assert_fails("call xor({}, 1)", 'E728:') call assert_fails("call xor(1, 1.0)", 'E805:') call assert_fails("call xor(1, [])", 'E745:') call assert_fails("call xor(1, {})", 'E728:') " invert call assert_equal(65408, and(invert(127), 65535)) eval 127->invert()->and(65535)->assert_equal(65408) call assert_equal(65519, and(invert(16), 65535)) call assert_equal(65407, and(invert(128), 65535)) call assert_fails("call invert(1.0)", 'E805:') call assert_fails("call invert([])", 'E745:') call assert_fails("call invert({})", 'E728:') endfunc " Test trailing text after :endfunction {{{1 func Test_endfunction_trailing() call assert_false(exists('*Xtest')) exe "func Xtest()\necho 'hello'\nendfunc\nlet done = 'yes'" call assert_true(exists('*Xtest')) call assert_equal('yes', done) delfunc Xtest unlet done exe "func Xtest()\necho 'hello'\nendfunc|let done = 'yes'" call assert_true(exists('*Xtest')) call assert_equal('yes', done) delfunc Xtest unlet done " trailing line break exe "func Xtest()\necho 'hello'\nendfunc\n" call assert_true(exists('*Xtest')) delfunc Xtest set verbose=1 exe "func Xtest()\necho 'hello'\nendfunc \" garbage" call assert_notmatch('W22:', split(execute('1messages'), "\n")[0]) call assert_true(exists('*Xtest')) delfunc Xtest exe "func Xtest()\necho 'hello'\nendfunc garbage" call assert_match('W22:', split(execute('1messages'), "\n")[0]) call assert_true(exists('*Xtest')) delfunc Xtest set verbose=0 function Foo() echo 'hello' endfunction | echo 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx' delfunc Foo endfunc func Test_delfunction_force() delfunc! Xtest delfunc! Xtest func Xtest() echo 'nothing' endfunc delfunc! Xtest delfunc! Xtest endfunc " Test using bang after user command {{{1 func Test_user_command_with_bang() command -bang Nieuw let nieuw = 1 Ni! call assert_equal(1, nieuw) unlet nieuw delcommand Nieuw endfunc " Test for script-local function func <SID>DoLast() call append(line('$'), "last line") endfunc func s:DoNothing() call append(line('$'), "nothing line") endfunc func Test_script_local_func() set nocp viminfo+=nviminfo new nnoremap <buffer> _x :call <SID>DoNothing()<bar>call <SID>DoLast()<bar>delfunc <SID>DoNothing<bar>delfunc <SID>DoLast<cr> normal _x call assert_equal('nothing line', getline(2)) call assert_equal('last line', getline(3)) enew! | close endfunc func Test_compound_assignment_operators() " Test for number let x = 1 let x += 10 call assert_equal(11, x) let x -= 5 call assert_equal(6, x) let x *= 4 call assert_equal(24, x) let x /= 3 call assert_equal(8, x) let x %= 3 call assert_equal(2, x) let x .= 'n' call assert_equal('2n', x) " Test special cases: division or modulus with 0. let x = 1 let x /= 0 if has('num64') call assert_equal(0x7FFFFFFFFFFFFFFF, x) else call assert_equal(0x7fffffff, x) endif let x = -1 let x /= 0 if has('num64') call assert_equal(-0x7FFFFFFFFFFFFFFF, x) else call assert_equal(-0x7fffffff, x) endif let x = 0 let x /= 0 if has('num64') call assert_equal(-0x7FFFFFFFFFFFFFFF - 1, x) else call assert_equal(-0x7FFFFFFF - 1, x) endif let x = 1 let x %= 0 call assert_equal(0, x) let x = -1 let x %= 0 call assert_equal(0, x) let x = 0 let x %= 0 call assert_equal(0, x) " Test for string let x = 'str' let x .= 'ing' call assert_equal('string', x) let x += 1 call assert_equal(1, x) let x -= 1.5 call assert_equal(-0.5, x) if has('float') " Test for float let x = 0.5 let x += 4.5 call assert_equal(5.0, x) let x -= 1.5 call assert_equal(3.5, x) let x *= 3.0 call assert_equal(10.5, x) let x /= 2.5 call assert_equal(4.2, x) call assert_fails('let x %= 0.5', 'E734') call assert_fails('let x .= "f"', 'E734') endif " Test for environment variable let $FOO = 1 call assert_fails('let $FOO += 1', 'E734') call assert_fails('let $FOO -= 1', 'E734') call assert_fails('let $FOO *= 1', 'E734') call assert_fails('let $FOO /= 1', 'E734') call assert_fails('let $FOO %= 1', 'E734') let $FOO .= 's' call assert_equal('1s', $FOO) unlet $FOO " Test for option variable (type: number) let &scrolljump = 1 let &scrolljump += 5 call assert_equal(6, &scrolljump) let &scrolljump -= 2 call assert_equal(4, &scrolljump) let &scrolljump *= 3 call assert_equal(12, &scrolljump) let &scrolljump /= 2 call assert_equal(6, &scrolljump) let &scrolljump %= 5 call assert_equal(1, &scrolljump) call assert_fails('let &scrolljump .= "j"', 'E734') set scrolljump&vim " Test for register let @/ = 1 call assert_fails('let @/ += 1', 'E734') call assert_fails('let @/ -= 1', 'E734') call assert_fails('let @/ *= 1', 'E734') call assert_fails('let @/ /= 1', 'E734') call assert_fails('let @/ %= 1', 'E734') let @/ .= 's' call assert_equal('1s', @/) let @/ = '' endfunc func Test_refcount() " Immediate values call assert_equal(-1, test_refcount(1)) call assert_equal(-1, test_refcount('s')) call assert_equal(-1, test_refcount(v:true)) call assert_equal(0, test_refcount([])) call assert_equal(0, test_refcount({})) call assert_equal(0, test_refcount(0zff)) call assert_equal(0, test_refcount({-> line('.')})) if has('float') call assert_equal(-1, test_refcount(0.1)) endif if has('job') call assert_equal(0, test_refcount(job_start([&shell, &shellcmdflag, 'echo .']))) endif " No refcount types let x = 1 call assert_equal(-1, test_refcount(x)) let x = 's' call assert_equal(-1, test_refcount(x)) let x = v:true call assert_equal(-1, test_refcount(x)) if has('float') let x = 0.1 call assert_equal(-1, test_refcount(x)) endif " Check refcount let x = [] call assert_equal(1, test_refcount(x)) let x = {} call assert_equal(1, x->test_refcount()) let x = 0zff call assert_equal(1, test_refcount(x)) let X = {-> line('.')} call assert_equal(1, test_refcount(X)) let Y = X call assert_equal(2, test_refcount(X)) if has('job') let job = job_start([&shell, &shellcmdflag, 'echo .']) call assert_equal(1, test_refcount(job)) call assert_equal(1, test_refcount(job_getchannel(job))) call assert_equal(1, test_refcount(job)) endif " Function arguments, copying and unassigning func ExprCheck(x, i) let i = a:i + 1 call assert_equal(i, test_refcount(a:x)) let Y = a:x call assert_equal(i + 1, test_refcount(a:x)) call assert_equal(test_refcount(a:x), test_refcount(Y)) let Y = 0 call assert_equal(i, test_refcount(a:x)) endfunc call ExprCheck([], 0) call ExprCheck({}, 0) call ExprCheck(0zff, 0) call ExprCheck({-> line('.')}, 0) if has('job') call ExprCheck(job, 1) call ExprCheck(job_getchannel(job), 1) call job_stop(job) endif delfunc ExprCheck " Regarding function func Func(x) abort call assert_equal(2, test_refcount(function('Func'))) call assert_equal(0, test_refcount(funcref('Func'))) endfunc call assert_equal(1, test_refcount(function('Func'))) call assert_equal(0, test_refcount(function('Func', [1]))) call assert_equal(0, test_refcount(funcref('Func'))) call assert_equal(0, test_refcount(funcref('Func', [1]))) let X = function('Func') let Y = X call assert_equal(1, test_refcount(X)) let X = function('Func', [1]) let Y = X call assert_equal(2, test_refcount(X)) let X = funcref('Func') let Y = X call assert_equal(2, test_refcount(X)) let X = funcref('Func', [1]) let Y = X call assert_equal(2, test_refcount(X)) unlet X unlet Y call Func(1) delfunc Func " Function with dict func DictFunc() dict call assert_equal(3, test_refcount(self)) endfunc let d = {'Func': function('DictFunc')} call assert_equal(1, test_refcount(d)) call assert_equal(0, test_refcount(d.Func)) call d.Func() unlet d delfunc DictFunc endfunc func Test_funccall_garbage_collect() func Func(x, ...) call add(a:x, a:000) endfunc call Func([], []) " Must not crash cause by invalid freeing call test_garbagecollect_now() call assert_true(v:true) delfunc Func endfunc func Test_function_defined_line() CheckNotGui let lines =<< trim [CODE] " F1 func F1() " F2 func F2() " " " return endfunc " F3 execute "func F3()\n\n\n\nreturn\nendfunc" " F4 execute "func F4()\n \\n \\n \\n \return\n \endfunc" endfunc " F5 execute "func F5()\n\n\n\nreturn\nendfunc" " F6 execute "func F6()\n \\n \\n \\n \return\n \endfunc" call F1() verbose func F1 verbose func F2 verbose func F3 verbose func F4 verbose func F5 verbose func F6 qall! [CODE] call writefile(lines, 'Xtest.vim') let res = system(GetVimCommandClean() .. ' -es -X -S Xtest.vim') call assert_equal(0, v:shell_error) let m = matchstr(res, 'function F1()[^[:print:]]*[[:print:]]*') call assert_match(' line 2$', m) let m = matchstr(res, 'function F2()[^[:print:]]*[[:print:]]*') call assert_match(' line 4$', m) let m = matchstr(res, 'function F3()[^[:print:]]*[[:print:]]*') call assert_match(' line 11$', m) let m = matchstr(res, 'function F4()[^[:print:]]*[[:print:]]*') call assert_match(' line 13$', m) let m = matchstr(res, 'function F5()[^[:print:]]*[[:print:]]*') call assert_match(' line 21$', m) let m = matchstr(res, 'function F6()[^[:print:]]*[[:print:]]*') call assert_match(' line 23$', m) call delete('Xtest.vim') endfunc "------------------------------------------------------------------------------- " Modelines {{{1 " vim: ts=8 sw=4 tw=80 fdm=marker "-------------------------------------------------------------------------------