Mercurial > vim
view src/testdir/vim9.vim @ 33260:aba1fa2b7d1e v9.0.1898
patch 9.0.1898: Vim9: restrict access to static vars
Commit: https://github.com/vim/vim/commit/c30a90d9b2c029f794cea502f6b824f71e4876dd
Author: Yegappan Lakshmanan <yegappan@yahoo.com>
Date: Fri Sep 15 20:14:55 2023 +0200
patch 9.0.1898: Vim9: restrict access to static vars
Problem: Vim9: restrict access to static vars and methods
Solution: Class members are accesible only from the class where they are
defined.
Based on the #13004 discussion, the following changes are made:
1) Static variables and methods are accessible only using the class
name and inside the class where they are defined.
2) Static variables and methods can be used without the class name in
the class where they are defined.
3) Static variables of a super class are not copied to the sub class.
4) A sub class can declare a class variable with the same name as the
super class.
5) When a method or member is found during compilation, use more
specific error messages.
This aligns the Vim9 class variable/method implementation with the Dart
implementation.
Also while at it, ignore duplicate class and object methods.
The access level of an object method can however be changed in a
subclass.
For the tests, use the new CheckSourceFailure() function instead of the
CheckScriptFailure() function in the tests.
closes: #13086
Signed-off-by: Christian Brabandt <cb@256bit.org>
Co-authored-by: Yegappan Lakshmanan <yegappan@yahoo.com>
| author | Christian Brabandt <cb@256bit.org> |
|---|---|
| date | Fri, 15 Sep 2023 20:30:05 +0200 |
| parents | dbec60b8c253 |
| children | 3f9d9ee5cb7c |
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vim9script # Utility functions for testing vim9 script # Use a different file name for each run. var sequence = 1 # Check that "lines" inside a ":def" function has no error when called. export func CheckDefSuccess(lines) let cwd = getcwd() let fname = 'XdefSuccess' .. s:sequence let s:sequence += 1 call writefile(['def Func()'] + a:lines + ['enddef', 'defcompile'], fname) try exe 'so ' .. fname call Func() finally call chdir(cwd) call delete(fname) delfunc! Func endtry endfunc # Check that "lines" inside a ":def" function has no error when compiled. export func CheckDefCompileSuccess(lines) let fname = 'XdefSuccess' .. s:sequence let s:sequence += 1 call writefile(['def Func()'] + a:lines + ['enddef', 'defcompile'], fname) try exe 'so ' .. fname finally call delete(fname) delfunc! Func endtry endfunc # Check that "lines" inside ":def" results in an "error" message. # If "lnum" is given check that the error is reported for this line. # Add a line before and after to make it less likely that the line number is # accidentally correct. export func CheckDefFailure(lines, error, lnum = -3) let cwd = getcwd() let fname = 'XdefFailure' .. s:sequence let s:sequence += 1 call writefile(['def Func()', '# comment'] + a:lines + ['#comment', 'enddef', 'defcompile'], fname) try call assert_fails('so ' .. fname, a:error, a:lines, a:lnum + 1) finally call chdir(cwd) call delete(fname) delfunc! Func endtry endfunc # Check that "lines" inside ":def" results in an "error" message when executed. # If "lnum" is given check that the error is reported for this line. # Add a line before and after to make it less likely that the line number is # accidentally correct. export func CheckDefExecFailure(lines, error, lnum = -3) let cwd = getcwd() let fname = 'XdefExecFailure' .. s:sequence let s:sequence += 1 call writefile(['def Func()', '# comment'] + a:lines + ['#comment', 'enddef'], fname) try exe 'so ' .. fname call assert_fails('call Func()', a:error, a:lines, a:lnum + 1) finally call chdir(cwd) call delete(fname) delfunc! Func endtry endfunc export def CheckScriptFailure(lines: list<string>, error: string, lnum = -3) var cwd = getcwd() var fname = 'XScriptFailure' .. sequence sequence += 1 writefile(lines, fname) try assert_fails('so ' .. fname, error, lines, lnum) finally chdir(cwd) delete(fname) endtry enddef export def CheckScriptFailureList(lines: list<string>, errors: list<string>, lnum = -3) var cwd = getcwd() var fname = 'XScriptFailure' .. sequence sequence += 1 writefile(lines, fname) try assert_fails('so ' .. fname, errors, lines, lnum) finally chdir(cwd) delete(fname) endtry enddef export def CheckScriptSuccess(lines: list<string>) var cwd = getcwd() var fname = 'XScriptSuccess' .. sequence sequence += 1 writefile(lines, fname) try exe 'so ' .. fname finally chdir(cwd) delete(fname) endtry enddef # :source a list of "lines" and check whether it fails with "error" export def CheckSourceFailure(lines: list<string>, error: string, lnum = -3) new setline(1, lines) try assert_fails('source', error, lines, lnum) finally bw! endtry enddef # :source a list of "lines" and check whether it fails with the list of # "errors" export def CheckSourceFailureList(lines: list<string>, errors: list<string>, lnum = -3) new setline(1, lines) try assert_fails('source', errors, lines, lnum) finally bw! endtry enddef # :source a list of "lines" and check whether it succeeds export def CheckSourceSuccess(lines: list<string>) new setline(1, lines) try :source finally bw! endtry enddef export def CheckDefAndScriptSuccess(lines: list<string>) CheckDefSuccess(lines) CheckScriptSuccess(['vim9script'] + lines) enddef # Check that a command fails when used in a :def function and when used in # Vim9 script. # When "error" is a string, both with the same error. # When "error" is a list, the :def function fails with "error[0]" , the script # fails with "error[1]". export def CheckDefAndScriptFailure(lines: list<string>, error: any, lnum = -3) var errorDef: string var errorScript: string if type(error) == v:t_string errorDef = error errorScript = error elseif type(error) == v:t_list && len(error) == 2 errorDef = error[0] errorScript = error[1] else echoerr 'error argument must be a string or a list with two items' return endif CheckDefFailure(lines, errorDef, lnum) CheckScriptFailure(['vim9script'] + lines, errorScript, lnum + 1) enddef # Check that a command fails when executed in a :def function and when used in # Vim9 script. # When "error" is a string, both with the same error. # When "error" is a list, the :def function fails with "error[0]" , the script # fails with "error[1]". export def CheckDefExecAndScriptFailure(lines: list<string>, error: any, lnum = -3) var errorDef: string var errorScript: string if type(error) == v:t_string errorDef = error errorScript = error elseif type(error) == v:t_list && len(error) == 2 errorDef = error[0] errorScript = error[1] else echoerr 'error argument must be a string or a list with two items' return endif CheckDefExecFailure(lines, errorDef, lnum) CheckScriptFailure(['vim9script'] + lines, errorScript, lnum + 1) enddef # Check that "lines" inside a legacy function has no error. export func CheckLegacySuccess(lines) let cwd = getcwd() let fname = 'XlegacySuccess' .. s:sequence let s:sequence += 1 call writefile(['func Func()'] + a:lines + ['endfunc'], fname) try exe 'so ' .. fname call Func() finally delfunc! Func call chdir(cwd) call delete(fname) endtry endfunc # Check that "lines" inside a legacy function results in the expected error export func CheckLegacyFailure(lines, error) let cwd = getcwd() let fname = 'XlegacyFails' .. s:sequence let s:sequence += 1 call writefile(['func Func()'] + a:lines + ['endfunc', 'call Func()'], fname) try call assert_fails('so ' .. fname, a:error) finally delfunc! Func call chdir(cwd) call delete(fname) endtry endfunc # Execute "lines" in a legacy function, translated as in # CheckLegacyAndVim9Success() export def CheckTransLegacySuccess(lines: list<string>) var legacylines = lines->mapnew((_, v) => v->substitute('\<VAR\>', 'let', 'g') ->substitute('\<LET\>', 'let', 'g') ->substitute('\<LSTART\>', '{', 'g') ->substitute('\<LMIDDLE\>', '->', 'g') ->substitute('\<LEND\>', '}', 'g') ->substitute('\<TRUE\>', '1', 'g') ->substitute('\<FALSE\>', '0', 'g') ->substitute('#"', ' "', 'g')) CheckLegacySuccess(legacylines) enddef export def Vim9Trans(lines: list<string>): list<string> return lines->mapnew((_, v) => v->substitute('\<VAR\>', 'var', 'g') ->substitute('\<LET ', '', 'g') ->substitute('\<LSTART\>', '(', 'g') ->substitute('\<LMIDDLE\>', ') =>', 'g') ->substitute(' *\<LEND\> *', '', 'g') ->substitute('\<TRUE\>', 'true', 'g') ->substitute('\<FALSE\>', 'false', 'g')) enddef # Execute "lines" in a :def function, translated as in # CheckLegacyAndVim9Success() export def CheckTransDefSuccess(lines: list<string>) CheckDefSuccess(Vim9Trans(lines)) enddef # Execute "lines" in a Vim9 script, translated as in # CheckLegacyAndVim9Success() export def CheckTransVim9Success(lines: list<string>) CheckScriptSuccess(['vim9script'] + Vim9Trans(lines)) enddef # Execute "lines" in a legacy function, :def function and Vim9 script. # Use 'VAR' for a declaration. # Use 'LET' for an assignment # Use ' #"' for a comment # Use LSTART arg LMIDDLE expr LEND for lambda # Use 'TRUE' for 1 in legacy, true in Vim9 # Use 'FALSE' for 0 in legacy, false in Vim9 export def CheckLegacyAndVim9Success(lines: list<string>) CheckTransLegacySuccess(lines) CheckTransDefSuccess(lines) CheckTransVim9Success(lines) enddef # Execute "lines" in a legacy function, :def function and Vim9 script. # Use 'VAR' for a declaration. # Use 'LET' for an assignment # Use ' #"' for a comment export def CheckLegacyAndVim9Failure(lines: list<string>, error: any) var legacyError: string var defError: string var scriptError: string if type(error) == type('string') legacyError = error defError = error scriptError = error else legacyError = error[0] defError = error[1] scriptError = error[2] endif var legacylines = lines->mapnew((_, v) => v->substitute('\<VAR\>', 'let', 'g') ->substitute('\<LET\>', 'let', 'g') ->substitute('#"', ' "', 'g')) CheckLegacyFailure(legacylines, legacyError) var vim9lines = lines->mapnew((_, v) => v->substitute('\<VAR\>', 'var', 'g') ->substitute('\<LET ', '', 'g')) CheckDefExecFailure(vim9lines, defError) CheckScriptFailure(['vim9script'] + vim9lines, scriptError) enddef