Mercurial > vim
view src/testdir/test_vim9_disassemble.vim @ 22125:602e660d5ccf v8.2.1612
patch 8.2.1612: Vim9: cannot pass "true" to prop_remove()
Commit: https://github.com/vim/vim/commit/a5a40c569695a750cace7d29824101ec8ef2b48f
Author: Bram Moolenaar <Bram@vim.org>
Date: Sat Sep 5 20:50:49 2020 +0200
patch 8.2.1612: Vim9: cannot pass "true" to prop_remove()
Problem: Vim9: cannot pass "true" to prop_remove().
Solution: Use dict_get_bool(). (closes https://github.com/vim/vim/issues/6853)
author | Bram Moolenaar <Bram@vim.org> |
---|---|
date | Sat, 05 Sep 2020 21:00:03 +0200 |
parents | e3f9528bddda |
children | d55008685870 |
line wrap: on
line source
" Test the :disassemble command, and compilation as a side effect source check.vim func NotCompiled() echo "not" endfunc let s:scriptvar = 4 let g:globalvar = 'g' let b:buffervar = 'b' let w:windowvar = 'w' let t:tabpagevar = 't' def s:ScriptFuncLoad(arg: string) let local = 1 buffers echo arg echo local echo &lines echo v:version echo s:scriptvar echo g:globalvar echo get(g:, "global") echo b:buffervar echo get(b:, "buffer") echo w:windowvar echo get(w:, "window") echo t:tabpagevar echo get(t:, "tab") echo &tabstop echo $ENVVAR echo @z enddef def Test_disassemble_load() assert_fails('disass NoFunc', 'E1061:') assert_fails('disass NotCompiled', 'E1091:') assert_fails('disass', 'E471:') assert_fails('disass [', 'E475:') assert_fails('disass 234', 'E129:') assert_fails('disass <XX>foo', 'E129:') let res = execute('disass s:ScriptFuncLoad') assert_match('<SNR>\d*_ScriptFuncLoad.*' .. 'buffers.*' .. ' EXEC \+buffers.*' .. ' LOAD arg\[-1\].*' .. ' LOAD $0.*' .. ' LOADOPT &lines.*' .. ' LOADV v:version.*' .. ' LOADS s:scriptvar from .*test_vim9_disassemble.vim.*' .. ' LOADG g:globalvar.*' .. 'echo get(g:, "global")\_s*' .. '\d\+ LOAD g:\_s*' .. '\d\+ PUSHS "global"\_s*' .. '\d\+ BCALL get(argc 2).*' .. ' LOADB b:buffervar.*' .. 'echo get(b:, "buffer")\_s*' .. '\d\+ LOAD b:\_s*' .. '\d\+ PUSHS "buffer"\_s*' .. '\d\+ BCALL get(argc 2).*' .. ' LOADW w:windowvar.*' .. 'echo get(w:, "window")\_s*' .. '\d\+ LOAD w:\_s*' .. '\d\+ PUSHS "window"\_s*' .. '\d\+ BCALL get(argc 2).*' .. ' LOADT t:tabpagevar.*' .. 'echo get(t:, "tab")\_s*' .. '\d\+ LOAD t:\_s*' .. '\d\+ PUSHS "tab"\_s*' .. '\d\+ BCALL get(argc 2).*' .. ' LOADENV $ENVVAR.*' .. ' LOADREG @z.*', res) enddef def s:EditExpand() let filename = "file" let filenr = 123 edit the`=filename``=filenr`.txt enddef def Test_disassemble_exec_expr() let res = execute('disass s:EditExpand') assert_match('<SNR>\d*_EditExpand\_s*' .. ' let filename = "file"\_s*' .. '\d PUSHS "file"\_s*' .. '\d STORE $0\_s*' .. ' let filenr = 123\_s*' .. '\d STORE 123 in $1\_s*' .. ' edit the`=filename``=filenr`.txt\_s*' .. '\d PUSHS "edit the"\_s*' .. '\d LOAD $0\_s*' .. '\d LOAD $1\_s*' .. '\d 2STRING stack\[-1\]\_s*' .. '\d\+ PUSHS ".txt"\_s*' .. '\d\+ EXECCONCAT 4\_s*' .. '\d\+ PUSHNR 0\_s*' .. '\d\+ RETURN', res) enddef def s:YankRange() norm! m[jjm] :'[,']yank enddef def Test_disassemble_yank_range() let res = execute('disass s:YankRange') assert_match('<SNR>\d*_YankRange.*' .. ' norm! m\[jjm\]\_s*' .. '\d EXEC norm! m\[jjm\]\_s*' .. ' :''\[,''\]yank\_s*' .. '\d EXEC :''\[,''\]yank\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', res) enddef def s:ScriptFuncPush() let localbool = true let localspec = v:none let localblob = 0z1234 if has('float') let localfloat = 1.234 endif enddef def Test_disassemble_push() let res = execute('disass s:ScriptFuncPush') assert_match('<SNR>\d*_ScriptFuncPush.*' .. 'localbool = true.*' .. ' PUSH v:true.*' .. 'localspec = v:none.*' .. ' PUSH v:none.*' .. 'localblob = 0z1234.*' .. ' PUSHBLOB 0z1234.*', res) if has('float') assert_match('<SNR>\d*_ScriptFuncPush.*' .. 'localfloat = 1.234.*' .. ' PUSHF 1.234.*', res) endif enddef def s:ScriptFuncStore() let localnr = 1 localnr = 2 let localstr = 'abc' localstr = 'xyz' v:char = 'abc' s:scriptvar = 'sv' g:globalvar = 'gv' b:buffervar = 'bv' w:windowvar = 'wv' t:tabpagevar = 'tv' &tabstop = 8 $ENVVAR = 'ev' @z = 'rv' enddef def Test_disassemble_store() let res = execute('disass s:ScriptFuncStore') assert_match('<SNR>\d*_ScriptFuncStore.*' .. 'let localnr = 1.*' .. 'localnr = 2.*' .. ' STORE 2 in $0.*' .. 'let localstr = ''abc''.*' .. 'localstr = ''xyz''.*' .. ' STORE $1.*' .. 'v:char = ''abc''.*' .. 'STOREV v:char.*' .. 's:scriptvar = ''sv''.*' .. ' STORES s:scriptvar in .*test_vim9_disassemble.vim.*' .. 'g:globalvar = ''gv''.*' .. ' STOREG g:globalvar.*' .. 'b:buffervar = ''bv''.*' .. ' STOREB b:buffervar.*' .. 'w:windowvar = ''wv''.*' .. ' STOREW w:windowvar.*' .. 't:tabpagevar = ''tv''.*' .. ' STORET t:tabpagevar.*' .. '&tabstop = 8.*' .. ' STOREOPT &tabstop.*' .. '$ENVVAR = ''ev''.*' .. ' STOREENV $ENVVAR.*' .. '@z = ''rv''.*' .. ' STOREREG @z.*', res) enddef def s:ScriptFuncStoreMember() let locallist: list<number> = [] locallist[0] = 123 let localdict: dict<number> = {} localdict["a"] = 456 enddef def Test_disassemble_store_member() let res = execute('disass s:ScriptFuncStoreMember') assert_match('<SNR>\d*_ScriptFuncStoreMember\_s*' .. 'let locallist: list<number> = []\_s*' .. '\d NEWLIST size 0\_s*' .. '\d STORE $0\_s*' .. 'locallist\[0\] = 123\_s*' .. '\d PUSHNR 123\_s*' .. '\d PUSHNR 0\_s*' .. '\d LOAD $0\_s*' .. '\d STORELIST\_s*' .. 'let localdict: dict<number> = {}\_s*' .. '\d NEWDICT size 0\_s*' .. '\d STORE $1\_s*' .. 'localdict\["a"\] = 456\_s*' .. '\d\+ PUSHNR 456\_s*' .. '\d\+ PUSHS "a"\_s*' .. '\d\+ LOAD $1\_s*' .. '\d\+ STOREDICT\_s*' .. '\d\+ PUSHNR 0\_s*' .. '\d\+ RETURN', res) enddef def s:ListAssign() let x: string let y: string let l: list<any> [x, y; l] = g:stringlist enddef def Test_disassemble_list_assign() let res = execute('disass s:ListAssign') assert_match('<SNR>\d*_ListAssign\_s*' .. 'let x: string\_s*' .. '\d PUSHS "\[NULL\]"\_s*' .. '\d STORE $0\_s*' .. 'let y: string\_s*' .. '\d PUSHS "\[NULL\]"\_s*' .. '\d STORE $1\_s*' .. 'let l: list<any>\_s*' .. '\d NEWLIST size 0\_s*' .. '\d STORE $2\_s*' .. '\[x, y; l\] = g:stringlist\_s*' .. '\d LOADG g:stringlist\_s*' .. '\d CHECKTYPE list stack\[-1\]\_s*' .. '\d CHECKLEN >= 2\_s*' .. '\d\+ ITEM 0\_s*' .. '\d\+ CHECKTYPE string stack\[-1\]\_s*' .. '\d\+ STORE $0\_s*' .. '\d\+ ITEM 1\_s*' .. '\d\+ CHECKTYPE string stack\[-1\]\_s*' .. '\d\+ STORE $1\_s*' .. '\d\+ SLICE 2\_s*' .. '\d\+ STORE $2\_s*' .. '\d\+ PUSHNR 0\_s*' .. '\d\+ RETURN', res) enddef def s:ScriptFuncUnlet() g:somevar = "value" unlet g:somevar unlet! g:somevar unlet $SOMEVAR enddef def Test_disassemble_unlet() let res = execute('disass s:ScriptFuncUnlet') assert_match('<SNR>\d*_ScriptFuncUnlet\_s*' .. 'g:somevar = "value"\_s*' .. '\d PUSHS "value"\_s*' .. '\d STOREG g:somevar\_s*' .. 'unlet g:somevar\_s*' .. '\d UNLET g:somevar\_s*' .. 'unlet! g:somevar\_s*' .. '\d UNLET! g:somevar\_s*' .. 'unlet $SOMEVAR\_s*' .. '\d UNLETENV $SOMEVAR\_s*', res) enddef def s:ScriptFuncTry() try echo "yes" catch /fail/ echo "no" finally throw "end" endtry enddef def Test_disassemble_try() let res = execute('disass s:ScriptFuncTry') assert_match('<SNR>\d*_ScriptFuncTry\_s*' .. 'try\_s*' .. '\d TRY catch -> \d\+, finally -> \d\+\_s*' .. 'echo "yes"\_s*' .. '\d PUSHS "yes"\_s*' .. '\d ECHO 1\_s*' .. 'catch /fail/\_s*' .. '\d JUMP -> \d\+\_s*' .. '\d PUSH v:exception\_s*' .. '\d PUSHS "fail"\_s*' .. '\d COMPARESTRING =\~\_s*' .. '\d JUMP_IF_FALSE -> \d\+\_s*' .. '\d CATCH\_s*' .. 'echo "no"\_s*' .. '\d\+ PUSHS "no"\_s*' .. '\d\+ ECHO 1\_s*' .. 'finally\_s*' .. 'throw "end"\_s*' .. '\d\+ PUSHS "end"\_s*' .. '\d\+ THROW\_s*' .. 'endtry\_s*' .. '\d\+ ENDTRY', res) enddef def s:ScriptFuncNew() let ll = [1, "two", 333] let dd = #{one: 1, two: "val"} enddef def Test_disassemble_new() let res = execute('disass s:ScriptFuncNew') assert_match('<SNR>\d*_ScriptFuncNew\_s*' .. 'let ll = \[1, "two", 333\]\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHS "two"\_s*' .. '\d PUSHNR 333\_s*' .. '\d NEWLIST size 3\_s*' .. '\d STORE $0\_s*' .. 'let dd = #{one: 1, two: "val"}\_s*' .. '\d PUSHS "one"\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHS "two"\_s*' .. '\d PUSHS "val"\_s*' .. '\d NEWDICT size 2\_s*', res) enddef def FuncWithArg(arg: any) echo arg enddef func UserFunc() echo 'nothing' endfunc func UserFuncWithArg(arg) echo a:arg endfunc def s:ScriptFuncCall(): string changenr() char2nr("abc") Test_disassemble_new() FuncWithArg(343) ScriptFuncNew() s:ScriptFuncNew() UserFunc() UserFuncWithArg("foo") let FuncRef = function("UserFunc") FuncRef() let FuncRefWithArg = function("UserFuncWithArg") FuncRefWithArg("bar") return "yes" enddef def Test_disassemble_call() let res = execute('disass s:ScriptFuncCall') assert_match('<SNR>\d\+_ScriptFuncCall\_s*' .. 'changenr()\_s*' .. '\d BCALL changenr(argc 0)\_s*' .. '\d DROP\_s*' .. 'char2nr("abc")\_s*' .. '\d PUSHS "abc"\_s*' .. '\d BCALL char2nr(argc 1)\_s*' .. '\d DROP\_s*' .. 'Test_disassemble_new()\_s*' .. '\d DCALL Test_disassemble_new(argc 0)\_s*' .. '\d DROP\_s*' .. 'FuncWithArg(343)\_s*' .. '\d\+ PUSHNR 343\_s*' .. '\d\+ DCALL FuncWithArg(argc 1)\_s*' .. '\d\+ DROP\_s*' .. 'ScriptFuncNew()\_s*' .. '\d\+ DCALL <SNR>\d\+_ScriptFuncNew(argc 0)\_s*' .. '\d\+ DROP\_s*' .. 's:ScriptFuncNew()\_s*' .. '\d\+ DCALL <SNR>\d\+_ScriptFuncNew(argc 0)\_s*' .. '\d\+ DROP\_s*' .. 'UserFunc()\_s*' .. '\d\+ UCALL UserFunc(argc 0)\_s*' .. '\d\+ DROP\_s*' .. 'UserFuncWithArg("foo")\_s*' .. '\d\+ PUSHS "foo"\_s*' .. '\d\+ UCALL UserFuncWithArg(argc 1)\_s*' .. '\d\+ DROP\_s*' .. 'let FuncRef = function("UserFunc")\_s*' .. '\d\+ PUSHS "UserFunc"\_s*' .. '\d\+ BCALL function(argc 1)\_s*' .. '\d\+ STORE $0\_s*' .. 'FuncRef()\_s*' .. '\d\+ LOAD $\d\_s*' .. '\d\+ PCALL (argc 0)\_s*' .. '\d\+ DROP\_s*' .. 'let FuncRefWithArg = function("UserFuncWithArg")\_s*' .. '\d\+ PUSHS "UserFuncWithArg"\_s*' .. '\d\+ BCALL function(argc 1)\_s*' .. '\d\+ STORE $1\_s*' .. 'FuncRefWithArg("bar")\_s*' .. '\d\+ PUSHS "bar"\_s*' .. '\d\+ LOAD $\d\_s*' .. '\d\+ PCALL (argc 1)\_s*' .. '\d\+ DROP\_s*' .. 'return "yes"\_s*' .. '\d\+ PUSHS "yes"\_s*' .. '\d\+ RETURN', res) enddef def s:CreateRefs() let local = 'a' def Append(arg: string) local ..= arg enddef g:Append = Append def Get(): string return local enddef g:Get = Get enddef def Test_disassemble_closure() CreateRefs() let res = execute('disass g:Append') assert_match('<lambda>\d\_s*' .. 'local ..= arg\_s*' .. '\d LOADOUTER $0\_s*' .. '\d LOAD arg\[-1\]\_s*' .. '\d CONCAT\_s*' .. '\d STOREOUTER $0\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', res) res = execute('disass g:Get') assert_match('<lambda>\d\_s*' .. 'return local\_s*' .. '\d LOADOUTER $0\_s*' .. '\d RETURN', res) unlet g:Append unlet g:Get enddef def EchoArg(arg: string): string return arg enddef def RefThis(): func return function('EchoArg') enddef def s:ScriptPCall() RefThis()("text") enddef def Test_disassemble_pcall() let res = execute('disass s:ScriptPCall') assert_match('<SNR>\d\+_ScriptPCall\_s*' .. 'RefThis()("text")\_s*' .. '\d DCALL RefThis(argc 0)\_s*' .. '\d PUSHS "text"\_s*' .. '\d PCALL top (argc 1)\_s*' .. '\d PCALL end\_s*' .. '\d DROP\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', res) enddef def s:FuncWithForwardCall(): string return g:DefinedLater("yes") enddef def DefinedLater(arg: string): string return arg enddef def Test_disassemble_update_instr() let res = execute('disass s:FuncWithForwardCall') assert_match('FuncWithForwardCall\_s*' .. 'return g:DefinedLater("yes")\_s*' .. '\d PUSHS "yes"\_s*' .. '\d DCALL DefinedLater(argc 1)\_s*' .. '\d RETURN', res) # Calling the function will change UCALL into the faster DCALL assert_equal('yes', FuncWithForwardCall()) res = execute('disass s:FuncWithForwardCall') assert_match('FuncWithForwardCall\_s*' .. 'return g:DefinedLater("yes")\_s*' .. '\d PUSHS "yes"\_s*' .. '\d DCALL DefinedLater(argc 1)\_s*' .. '\d RETURN', res) enddef def FuncWithDefault(arg: string = 'default'): string return arg enddef def Test_disassemble_call_default() let res = execute('disass FuncWithDefault') assert_match('FuncWithDefault\_s*' .. '\d PUSHS "default"\_s*' .. '\d STORE arg\[-1]\_s*' .. 'return arg\_s*' .. '\d LOAD arg\[-1]\_s*' .. '\d RETURN', res) enddef def HasEval() if has("eval") echo "yes" else echo "no" endif enddef def HasNothing() if has("nothing") echo "yes" else echo "no" endif enddef def HasSomething() if has("nothing") echo "nothing" elseif has("something") echo "something" elseif has("eval") echo "eval" elseif has("less") echo "less" endif enddef def Test_disassemble_const_expr() assert_equal("\nyes", execute('call HasEval()')) let instr = execute('disassemble HasEval') assert_match('HasEval\_s*' .. 'if has("eval")\_s*' .. 'echo "yes"\_s*' .. '\d PUSHS "yes"\_s*' .. '\d ECHO 1\_s*' .. 'else\_s*' .. 'echo "no"\_s*' .. 'endif\_s*', instr) assert_notmatch('JUMP', instr) assert_equal("\nno", execute('call HasNothing()')) instr = execute('disassemble HasNothing') assert_match('HasNothing\_s*' .. 'if has("nothing")\_s*' .. 'echo "yes"\_s*' .. 'else\_s*' .. 'echo "no"\_s*' .. '\d PUSHS "no"\_s*' .. '\d ECHO 1\_s*' .. 'endif', instr) assert_notmatch('PUSHS "yes"', instr) assert_notmatch('JUMP', instr) assert_equal("\neval", execute('call HasSomething()')) instr = execute('disassemble HasSomething') assert_match('HasSomething.*' .. 'if has("nothing")\_s*' .. 'echo "nothing"\_s*' .. 'elseif has("something")\_s*' .. 'echo "something"\_s*' .. 'elseif has("eval")\_s*' .. 'echo "eval"\_s*' .. '\d PUSHS "eval"\_s*' .. '\d ECHO 1\_s*' .. 'elseif has("less").*' .. 'echo "less"\_s*' .. 'endif', instr) assert_notmatch('PUSHS "nothing"', instr) assert_notmatch('PUSHS "something"', instr) assert_notmatch('PUSHS "less"', instr) assert_notmatch('JUMP', instr) enddef def ReturnInIf(): string if g:cond return "yes" else return "no" endif enddef def Test_disassemble_return_in_if() let instr = execute('disassemble ReturnInIf') assert_match('ReturnInIf\_s*' .. 'if g:cond\_s*' .. '0 LOADG g:cond\_s*' .. '1 JUMP_IF_FALSE -> 4\_s*' .. 'return "yes"\_s*' .. '2 PUSHS "yes"\_s*' .. '3 RETURN\_s*' .. 'else\_s*' .. ' return "no"\_s*' .. '4 PUSHS "no"\_s*' .. '5 RETURN$', instr) enddef def WithFunc() let Funky1: func let Funky2: func = function("len") let Party2: func = funcref("UserFunc") enddef def Test_disassemble_function() let instr = execute('disassemble WithFunc') assert_match('WithFunc\_s*' .. 'let Funky1: func\_s*' .. '0 PUSHFUNC "\[none]"\_s*' .. '1 STORE $0\_s*' .. 'let Funky2: func = function("len")\_s*' .. '2 PUSHS "len"\_s*' .. '3 BCALL function(argc 1)\_s*' .. '4 STORE $1\_s*' .. 'let Party2: func = funcref("UserFunc")\_s*' .. '\d PUSHS "UserFunc"\_s*' .. '\d BCALL funcref(argc 1)\_s*' .. '\d STORE $2\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', instr) enddef if has('channel') def WithChannel() let job1: job let job2: job = job_start("donothing") let chan1: channel enddef endif def Test_disassemble_channel() CheckFeature channel let instr = execute('disassemble WithChannel') assert_match('WithChannel\_s*' .. 'let job1: job\_s*' .. '\d PUSHJOB "no process"\_s*' .. '\d STORE $0\_s*' .. 'let job2: job = job_start("donothing")\_s*' .. '\d PUSHS "donothing"\_s*' .. '\d BCALL job_start(argc 1)\_s*' .. '\d STORE $1\_s*' .. 'let chan1: channel\_s*' .. '\d PUSHCHANNEL 0\_s*' .. '\d STORE $2\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', instr) enddef def WithLambda(): string let F = {a -> "X" .. a .. "X"} return F("x") enddef def Test_disassemble_lambda() assert_equal("XxX", WithLambda()) let instr = execute('disassemble WithLambda') assert_match('WithLambda\_s*' .. 'let F = {a -> "X" .. a .. "X"}\_s*' .. '\d FUNCREF <lambda>\d\+ $1\_s*' .. '\d STORE $0\_s*' .. 'return F("x")\_s*' .. '\d PUSHS "x"\_s*' .. '\d LOAD $0\_s*' .. '\d PCALL (argc 1)\_s*' .. '\d RETURN', instr) let name = substitute(instr, '.*\(<lambda>\d\+\).*', '\1', '') instr = execute('disassemble ' .. name) assert_match('<lambda>\d\+\_s*' .. 'return "X" .. a .. "X"\_s*' .. '\d PUSHS "X"\_s*' .. '\d LOAD arg\[-1\]\_s*' .. '\d 2STRING_ANY stack\[-1\]\_s*' .. '\d CONCAT\_s*' .. '\d PUSHS "X"\_s*' .. '\d CONCAT\_s*' .. '\d RETURN', instr) enddef def NestedOuter() def g:Inner() echomsg "inner" enddef enddef def Test_nested_func() let instr = execute('disassemble NestedOuter') assert_match('NestedOuter\_s*' .. 'def g:Inner()\_s*' .. 'echomsg "inner"\_s*' .. 'enddef\_s*' .. '\d NEWFUNC <lambda>\d\+ Inner\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', instr) enddef def AndOr(arg: any): string if arg == 1 && arg != 2 || arg == 4 return 'yes' endif return 'no' enddef def Test_disassemble_and_or() assert_equal("yes", AndOr(1)) assert_equal("no", AndOr(2)) assert_equal("yes", AndOr(4)) let instr = execute('disassemble AndOr') assert_match('AndOr\_s*' .. 'if arg == 1 && arg != 2 || arg == 4\_s*' .. '\d LOAD arg\[-1]\_s*' .. '\d PUSHNR 1\_s*' .. '\d COMPAREANY ==\_s*' .. '\d JUMP_AND_KEEP_IF_FALSE -> \d\+\_s*' .. '\d LOAD arg\[-1]\_s*' .. '\d PUSHNR 2\_s*' .. '\d COMPAREANY !=\_s*' .. '\d JUMP_AND_KEEP_IF_TRUE -> \d\+\_s*' .. '\d LOAD arg\[-1]\_s*' .. '\d\+ PUSHNR 4\_s*' .. '\d\+ COMPAREANY ==\_s*' .. '\d\+ JUMP_IF_FALSE -> \d\+', instr) enddef def ForLoop(): list<number> let res: list<number> for i in range(3) res->add(i) endfor return res enddef def Test_disassemble_for_loop() assert_equal([0, 1, 2], ForLoop()) let instr = execute('disassemble ForLoop') assert_match('ForLoop\_s*' .. 'let res: list<number>\_s*' .. '\d NEWLIST size 0\_s*' .. '\d STORE $0\_s*' .. 'for i in range(3)\_s*' .. '\d STORE -1 in $1\_s*' .. '\d PUSHNR 3\_s*' .. '\d BCALL range(argc 1)\_s*' .. '\d FOR $1 -> \d\+\_s*' .. '\d STORE $2\_s*' .. 'res->add(i)\_s*' .. '\d LOAD $0\_s*' .. '\d LOAD $2\_s*' .. '\d\+ BCALL add(argc 2)\_s*' .. '\d\+ DROP\_s*' .. 'endfor\_s*' .. '\d\+ JUMP -> \d\+\_s*' .. '\d\+ DROP', instr) enddef def ForLoopEval(): string let res = "" for str in eval('["one", "two"]') res ..= str endfor return res enddef def Test_disassemble_for_loop_eval() assert_equal('onetwo', ForLoopEval()) let instr = execute('disassemble ForLoopEval') assert_match('ForLoopEval\_s*' .. 'let res = ""\_s*' .. '\d PUSHS ""\_s*' .. '\d STORE $0\_s*' .. 'for str in eval(''\["one", "two"\]'')\_s*' .. '\d STORE -1 in $1\_s*' .. '\d PUSHS "\["one", "two"\]"\_s*' .. '\d BCALL eval(argc 1)\_s*' .. '\d CHECKTYPE list stack\[-1\]\_s*' .. '\d FOR $1 -> \d\+\_s*' .. '\d STORE $2\_s*' .. 'res ..= str\_s*' .. '\d\+ LOAD $0\_s*' .. '\d\+ LOAD $2\_s*' .. '\d\+ CHECKTYPE string stack\[-1\]\_s*' .. '\d\+ CONCAT\_s*' .. '\d\+ STORE $0\_s*' .. 'endfor\_s*' .. '\d\+ JUMP -> 6\_s*' .. '\d\+ DROP\_s*' .. 'return res\_s*' .. '\d\+ LOAD $0\_s*' .. '\d\+ RETURN', instr) enddef let g:number = 42 def TypeCast() let l: list<number> = [23, <number>g:number] enddef def Test_disassemble_typecast() let instr = execute('disassemble TypeCast') assert_match('TypeCast.*' .. 'let l: list<number> = \[23, <number>g:number\].*' .. '\d PUSHNR 23\_s*' .. '\d LOADG g:number\_s*' .. '\d CHECKTYPE number stack\[-1\]\_s*' .. '\d NEWLIST size 2\_s*' .. '\d STORE $0\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN\_s*', instr) enddef def Computing() let nr = 3 let nrres = nr + 7 nrres = nr - 7 nrres = nr * 7 nrres = nr / 7 nrres = nr % 7 let anyres = g:number + 7 anyres = g:number - 7 anyres = g:number * 7 anyres = g:number / 7 anyres = g:number % 7 if has('float') let fl = 3.0 let flres = fl + 7.0 flres = fl - 7.0 flres = fl * 7.0 flres = fl / 7.0 endif enddef def Test_disassemble_computing() let instr = execute('disassemble Computing') assert_match('Computing.*' .. 'let nr = 3.*' .. '\d STORE 3 in $0.*' .. 'let nrres = nr + 7.*' .. '\d LOAD $0.*' .. '\d PUSHNR 7.*' .. '\d OPNR +.*' .. '\d STORE $1.*' .. 'nrres = nr - 7.*' .. '\d OPNR -.*' .. 'nrres = nr \* 7.*' .. '\d OPNR \*.*' .. 'nrres = nr / 7.*' .. '\d OPNR /.*' .. 'nrres = nr % 7.*' .. '\d OPNR %.*' .. 'let anyres = g:number + 7.*' .. '\d LOADG g:number.*' .. '\d PUSHNR 7.*' .. '\d OPANY +.*' .. '\d STORE $2.*' .. 'anyres = g:number - 7.*' .. '\d OPANY -.*' .. 'anyres = g:number \* 7.*' .. '\d OPANY \*.*' .. 'anyres = g:number / 7.*' .. '\d OPANY /.*' .. 'anyres = g:number % 7.*' .. '\d OPANY %.*', instr) if has('float') assert_match('Computing.*' .. 'let fl = 3.0.*' .. '\d PUSHF 3.0.*' .. '\d STORE $3.*' .. 'let flres = fl + 7.0.*' .. '\d LOAD $3.*' .. '\d PUSHF 7.0.*' .. '\d OPFLOAT +.*' .. '\d STORE $4.*' .. 'flres = fl - 7.0.*' .. '\d OPFLOAT -.*' .. 'flres = fl \* 7.0.*' .. '\d OPFLOAT \*.*' .. 'flres = fl / 7.0.*' .. '\d OPFLOAT /.*', instr) endif enddef def AddListBlob() let reslist = [1, 2] + [3, 4] let resblob = 0z1122 + 0z3344 enddef def Test_disassemble_add_list_blob() let instr = execute('disassemble AddListBlob') assert_match('AddListBlob.*' .. 'let reslist = \[1, 2] + \[3, 4].*' .. '\d PUSHNR 1.*' .. '\d PUSHNR 2.*' .. '\d NEWLIST size 2.*' .. '\d PUSHNR 3.*' .. '\d PUSHNR 4.*' .. '\d NEWLIST size 2.*' .. '\d ADDLIST.*' .. '\d STORE $.*.*' .. 'let resblob = 0z1122 + 0z3344.*' .. '\d PUSHBLOB 0z1122.*' .. '\d PUSHBLOB 0z3344.*' .. '\d ADDBLOB.*' .. '\d STORE $.*', instr) enddef let g:aa = 'aa' def ConcatString(): string let res = g:aa .. "bb" return res enddef def Test_disassemble_concat() let instr = execute('disassemble ConcatString') assert_match('ConcatString.*' .. 'let res = g:aa .. "bb".*' .. '\d LOADG g:aa.*' .. '\d PUSHS "bb".*' .. '\d 2STRING_ANY stack\[-2].*' .. '\d CONCAT.*' .. '\d STORE $.*', instr) assert_equal('aabb', ConcatString()) enddef def StringIndex(): string let s = "abcd" let res = s[1] return res enddef def Test_disassemble_string_index() let instr = execute('disassemble StringIndex') assert_match('StringIndex\_s*' .. 'let s = "abcd"\_s*' .. '\d PUSHS "abcd"\_s*' .. '\d STORE $0\_s*' .. 'let res = s\[1]\_s*' .. '\d LOAD $0\_s*' .. '\d PUSHNR 1\_s*' .. '\d STRINDEX\_s*' .. '\d STORE $1\_s*', instr) assert_equal('b', StringIndex()) enddef def StringSlice(): string let s = "abcd" let res = s[1:8] return res enddef def Test_disassemble_string_slice() let instr = execute('disassemble StringSlice') assert_match('StringSlice\_s*' .. 'let s = "abcd"\_s*' .. '\d PUSHS "abcd"\_s*' .. '\d STORE $0\_s*' .. 'let res = s\[1:8]\_s*' .. '\d LOAD $0\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHNR 8\_s*' .. '\d STRSLICE\_s*' .. '\d STORE $1\_s*', instr) assert_equal('bcd', StringSlice()) enddef def ListIndex(): number let l = [1, 2, 3] let res = l[1] return res enddef def Test_disassemble_list_index() let instr = execute('disassemble ListIndex') assert_match('ListIndex\_s*' .. 'let l = \[1, 2, 3]\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHNR 2\_s*' .. '\d PUSHNR 3\_s*' .. '\d NEWLIST size 3\_s*' .. '\d STORE $0\_s*' .. 'let res = l\[1]\_s*' .. '\d LOAD $0\_s*' .. '\d PUSHNR 1\_s*' .. '\d LISTINDEX\_s*' .. '\d STORE $1\_s*', instr) assert_equal(2, ListIndex()) enddef def ListSlice(): list<number> let l = [1, 2, 3] let res = l[1:8] return res enddef def Test_disassemble_list_slice() let instr = execute('disassemble ListSlice') assert_match('ListSlice\_s*' .. 'let l = \[1, 2, 3]\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHNR 2\_s*' .. '\d PUSHNR 3\_s*' .. '\d NEWLIST size 3\_s*' .. '\d STORE $0\_s*' .. 'let res = l\[1:8]\_s*' .. '\d LOAD $0\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHNR 8\_s*' .. '\d LISTSLICE\_s*' .. '\d STORE $1\_s*', instr) assert_equal([2, 3], ListSlice()) enddef def DictMember(): number let d = #{item: 1} let res = d.item res = d["item"] return res enddef def Test_disassemble_dict_member() let instr = execute('disassemble DictMember') assert_match('DictMember\_s*' .. 'let d = #{item: 1}\_s*' .. '\d PUSHS "item"\_s*' .. '\d PUSHNR 1\_s*' .. '\d NEWDICT size 1\_s*' .. '\d STORE $0\_s*' .. 'let res = d.item\_s*' .. '\d\+ LOAD $0\_s*' .. '\d\+ MEMBER item\_s*' .. '\d\+ STORE $1\_s*' .. 'res = d\["item"\]\_s*' .. '\d\+ LOAD $0\_s*' .. '\d\+ PUSHS "item"\_s*' .. '\d\+ MEMBER\_s*' .. '\d\+ STORE $1\_s*', instr) call assert_equal(1, DictMember()) enddef let somelist = [1, 2, 3, 4, 5] def AnyIndex(): number let res = g:somelist[2] return res enddef def Test_disassemble_any_index() let instr = execute('disassemble AnyIndex') assert_match('AnyIndex\_s*' .. 'let res = g:somelist\[2\]\_s*' .. '\d LOADG g:somelist\_s*' .. '\d PUSHNR 2\_s*' .. '\d ANYINDEX\_s*' .. '\d STORE $0\_s*' .. 'return res\_s*' .. '\d LOAD $0\_s*' .. '\d CHECKTYPE number stack\[-1\]\_s*' .. '\d RETURN', instr) assert_equal(3, AnyIndex()) enddef def AnySlice(): list<number> let res = g:somelist[1:3] return res enddef def Test_disassemble_any_slice() let instr = execute('disassemble AnySlice') assert_match('AnySlice\_s*' .. 'let res = g:somelist\[1:3\]\_s*' .. '\d LOADG g:somelist\_s*' .. '\d PUSHNR 1\_s*' .. '\d PUSHNR 3\_s*' .. '\d ANYSLICE\_s*' .. '\d STORE $0\_s*' .. 'return res\_s*' .. '\d LOAD $0\_s*' .. '\d CHECKTYPE list stack\[-1\]\_s*' .. '\d RETURN', instr) assert_equal([2, 3, 4], AnySlice()) enddef def NegateNumber(): number let nr = 9 let plus = +nr let res = -nr return res enddef def Test_disassemble_negate_number() let instr = execute('disassemble NegateNumber') assert_match('NegateNumber\_s*' .. 'let nr = 9\_s*' .. '\d STORE 9 in $0\_s*' .. 'let plus = +nr\_s*' .. '\d LOAD $0\_s*' .. '\d CHECKNR\_s*' .. '\d STORE $1\_s*' .. 'let res = -nr\_s*' .. '\d LOAD $0\_s*' .. '\d NEGATENR\_s*' .. '\d STORE $2\_s*', instr) call assert_equal(-9, NegateNumber()) enddef def InvertBool(): bool let flag = true let invert = !flag let res = !!flag return res enddef def Test_disassemble_invert_bool() let instr = execute('disassemble InvertBool') assert_match('InvertBool\_s*' .. 'let flag = true\_s*' .. '\d PUSH v:true\_s*' .. '\d STORE $0\_s*' .. 'let invert = !flag\_s*' .. '\d LOAD $0\_s*' .. '\d INVERT (!val)\_s*' .. '\d STORE $1\_s*' .. 'let res = !!flag\_s*' .. '\d LOAD $0\_s*' .. '\d 2BOOL (!!val)\_s*' .. '\d STORE $2\_s*', instr) call assert_equal(true, InvertBool()) enddef def Test_disassemble_compare() let cases = [ ['true == isFalse', 'COMPAREBOOL =='], ['true != isFalse', 'COMPAREBOOL !='], ['v:none == isNull', 'COMPARESPECIAL =='], ['v:none != isNull', 'COMPARESPECIAL !='], ['111 == aNumber', 'COMPARENR =='], ['111 != aNumber', 'COMPARENR !='], ['111 > aNumber', 'COMPARENR >'], ['111 < aNumber', 'COMPARENR <'], ['111 >= aNumber', 'COMPARENR >='], ['111 <= aNumber', 'COMPARENR <='], ['111 =~ aNumber', 'COMPARENR =\~'], ['111 !~ aNumber', 'COMPARENR !\~'], ['"xx" != aString', 'COMPARESTRING !='], ['"xx" > aString', 'COMPARESTRING >'], ['"xx" < aString', 'COMPARESTRING <'], ['"xx" >= aString', 'COMPARESTRING >='], ['"xx" <= aString', 'COMPARESTRING <='], ['"xx" =~ aString', 'COMPARESTRING =\~'], ['"xx" !~ aString', 'COMPARESTRING !\~'], ['"xx" is aString', 'COMPARESTRING is'], ['"xx" isnot aString', 'COMPARESTRING isnot'], ['0z11 == aBlob', 'COMPAREBLOB =='], ['0z11 != aBlob', 'COMPAREBLOB !='], ['0z11 is aBlob', 'COMPAREBLOB is'], ['0z11 isnot aBlob', 'COMPAREBLOB isnot'], ['[1, 2] == aList', 'COMPARELIST =='], ['[1, 2] != aList', 'COMPARELIST !='], ['[1, 2] is aList', 'COMPARELIST is'], ['[1, 2] isnot aList', 'COMPARELIST isnot'], ['#{a: 1} == aDict', 'COMPAREDICT =='], ['#{a: 1} != aDict', 'COMPAREDICT !='], ['#{a: 1} is aDict', 'COMPAREDICT is'], ['#{a: 1} isnot aDict', 'COMPAREDICT isnot'], ['{->33} == {->44}', 'COMPAREFUNC =='], ['{->33} != {->44}', 'COMPAREFUNC !='], ['{->33} is {->44}', 'COMPAREFUNC is'], ['{->33} isnot {->44}', 'COMPAREFUNC isnot'], ['77 == g:xx', 'COMPAREANY =='], ['77 != g:xx', 'COMPAREANY !='], ['77 > g:xx', 'COMPAREANY >'], ['77 < g:xx', 'COMPAREANY <'], ['77 >= g:xx', 'COMPAREANY >='], ['77 <= g:xx', 'COMPAREANY <='], ['77 =~ g:xx', 'COMPAREANY =\~'], ['77 !~ g:xx', 'COMPAREANY !\~'], ['77 is g:xx', 'COMPAREANY is'], ['77 isnot g:xx', 'COMPAREANY isnot'], ] let floatDecl = '' if has('float') cases->extend([ ['1.1 == aFloat', 'COMPAREFLOAT =='], ['1.1 != aFloat', 'COMPAREFLOAT !='], ['1.1 > aFloat', 'COMPAREFLOAT >'], ['1.1 < aFloat', 'COMPAREFLOAT <'], ['1.1 >= aFloat', 'COMPAREFLOAT >='], ['1.1 <= aFloat', 'COMPAREFLOAT <='], ['1.1 =~ aFloat', 'COMPAREFLOAT =\~'], ['1.1 !~ aFloat', 'COMPAREFLOAT !\~'], ]) floatDecl = 'let aFloat = 2.2' endif let nr = 1 for case in cases # declare local variables to get a non-constant with the right type writefile(['def TestCase' .. nr .. '()', ' let isFalse = false', ' let isNull = v:null', ' let aNumber = 222', ' let aString = "yy"', ' let aBlob = 0z22', ' let aList = [3, 4]', ' let aDict = #{x: 2}', floatDecl, ' if ' .. case[0], ' echo 42' ' endif', 'enddef'], 'Xdisassemble') source Xdisassemble let instr = execute('disassemble TestCase' .. nr) assert_match('TestCase' .. nr .. '.*' .. 'if ' .. substitute(case[0], '[[~]', '\\\0', 'g') .. '.*' .. '\d \(PUSH\|FUNCREF\).*' .. '\d \(PUSH\|FUNCREF\|LOAD\).*' .. '\d ' .. case[1] .. '.*' .. '\d JUMP_IF_FALSE -> \d\+.*', instr) nr += 1 endfor delete('Xdisassemble') enddef def Test_disassemble_compare_const() let cases = [ ['"xx" == "yy"', false], ['"aa" == "aa"', true], ['has("eval") ? true : false', true], ['has("asdf") ? true : false', false], ] let nr = 1 for case in cases writefile(['def TestCase' .. nr .. '()', ' if ' .. case[0], ' echo 42' ' endif', 'enddef'], 'Xdisassemble') source Xdisassemble let instr = execute('disassemble TestCase' .. nr) if case[1] # condition true, "echo 42" executed assert_match('TestCase' .. nr .. '.*' .. 'if ' .. substitute(case[0], '[[~]', '\\\0', 'g') .. '.*' .. '\d PUSHNR 42.*' .. '\d ECHO 1.*' .. '\d PUSHNR 0.*' .. '\d RETURN.*', instr) else # condition false, function just returns assert_match('TestCase' .. nr .. '.*' .. 'if ' .. substitute(case[0], '[[~]', '\\\0', 'g') .. '[ \n]*' .. 'echo 42[ \n]*' .. 'endif[ \n]*' .. '\s*\d PUSHNR 0.*' .. '\d RETURN.*', instr) endif nr += 1 endfor delete('Xdisassemble') enddef def s:Execute() execute 'help vim9.txt' let cmd = 'help vim9.txt' execute cmd let tag = 'vim9.txt' execute 'help ' .. tag enddef def Test_disassemble_execute() let res = execute('disass s:Execute') assert_match('\<SNR>\d*_Execute\_s*' .. "execute 'help vim9.txt'\\_s*" .. '\d PUSHS "help vim9.txt"\_s*' .. '\d EXECUTE 1\_s*' .. "let cmd = 'help vim9.txt'\\_s*" .. '\d PUSHS "help vim9.txt"\_s*' .. '\d STORE $0\_s*' .. 'execute cmd\_s*' .. '\d LOAD $0\_s*' .. '\d EXECUTE 1\_s*' .. "let tag = 'vim9.txt'\\_s*" .. '\d PUSHS "vim9.txt"\_s*' .. '\d STORE $1\_s*' .. "execute 'help ' .. tag\\_s*" .. '\d\+ PUSHS "help "\_s*' .. '\d\+ LOAD $1\_s*' .. '\d\+ CONCAT\_s*' .. '\d\+ EXECUTE 1\_s*' .. '\d\+ PUSHNR 0\_s*' .. '\d\+ RETURN', res) enddef def s:Echomsg() echomsg 'some' 'message' echoerr 'went' .. 'wrong' enddef def Test_disassemble_echomsg() let res = execute('disass s:Echomsg') assert_match('\<SNR>\d*_Echomsg\_s*' .. "echomsg 'some' 'message'\\_s*" .. '\d PUSHS "some"\_s*' .. '\d PUSHS "message"\_s*' .. '\d ECHOMSG 2\_s*' .. "echoerr 'went' .. 'wrong'\\_s*" .. '\d PUSHS "wentwrong"\_s*' .. '\d ECHOERR 1\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', res) enddef def SomeStringArg(arg: string) echo arg enddef def SomeAnyArg(arg: any) echo arg enddef def SomeStringArgAndReturn(arg: string): string return arg enddef def Test_display_func() let res1 = execute('function SomeStringArg') assert_match('.* def SomeStringArg(arg: string)\_s*' .. '\d *echo arg.*' .. ' *enddef', res1) let res2 = execute('function SomeAnyArg') assert_match('.* def SomeAnyArg(arg: any)\_s*' .. '\d *echo arg\_s*' .. ' *enddef', res2) let res3 = execute('function SomeStringArgAndReturn') assert_match('.* def SomeStringArgAndReturn(arg: string): string\_s*' .. '\d *return arg\_s*' .. ' *enddef', res3) enddef def Test_vim9script_forward_func() let lines =<< trim END vim9script def FuncOne(): string return FuncTwo() enddef def FuncTwo(): string return 'two' enddef g:res_FuncOne = execute('disass FuncOne') END writefile(lines, 'Xdisassemble') source Xdisassemble # check that the first function calls the second with DCALL assert_match('\<SNR>\d*_FuncOne\_s*' .. 'return FuncTwo()\_s*' .. '\d DCALL <SNR>\d\+_FuncTwo(argc 0)\_s*' .. '\d RETURN', g:res_FuncOne) delete('Xdisassemble') unlet g:res_FuncOne enddef def s:ConcatStrings(): string return 'one' .. 'two' .. 'three' enddef def s:ComputeConst(): number return 2 + 3 * 4 / 6 + 7 enddef def s:ComputeConstParen(): number return ((2 + 4) * (8 / 2)) / (3 + 4) enddef def Test_simplify_const_expr() let res = execute('disass s:ConcatStrings') assert_match('<SNR>\d*_ConcatStrings\_s*' .. "return 'one' .. 'two' .. 'three'\\_s*" .. '\d PUSHS "onetwothree"\_s*' .. '\d RETURN', res) res = execute('disass s:ComputeConst') assert_match('<SNR>\d*_ComputeConst\_s*' .. 'return 2 + 3 \* 4 / 6 + 7\_s*' .. '\d PUSHNR 11\_s*' .. '\d RETURN', res) res = execute('disass s:ComputeConstParen') assert_match('<SNR>\d*_ComputeConstParen\_s*' .. 'return ((2 + 4) \* (8 / 2)) / (3 + 4)\_s*' .. '\d PUSHNR 3\>\_s*' .. '\d RETURN', res) enddef def s:CallAppend() eval "some text"->append(2) enddef def Test_shuffle() let res = execute('disass s:CallAppend') assert_match('<SNR>\d*_CallAppend\_s*' .. 'eval "some text"->append(2)\_s*' .. '\d PUSHS "some text"\_s*' .. '\d PUSHNR 2\_s*' .. '\d SHUFFLE 2 up 1\_s*' .. '\d BCALL append(argc 2)\_s*' .. '\d DROP\_s*' .. '\d PUSHNR 0\_s*' .. '\d RETURN', res) enddef " vim: ts=8 sw=2 sts=2 expandtab tw=80 fdm=marker