Before: Save g:ale_fixers Save &shell Save g:ale_enabled Save g:ale_fix_on_save Save g:ale_lint_on_save Save g:ale_echo_cursor silent! cd /testplugin/test/fix let g:ale_enabled = 0 let g:ale_echo_cursor = 0 let g:ale_run_synchronously = 1 unlet! g:ale_run_synchronously_callbacks let g:ale_set_lists_synchronously = 1 let g:ale_fix_buffer_data = {} let g:ale_fixers = { \ 'testft': [], \} let g:pre_success = 0 let g:post_success = 0 augroup VaderTest autocmd! autocmd User ALEFixPre let g:pre_success = 1 autocmd User ALEFixPost let g:post_success = 1 augroup END if !has('win32') let &shell = '/bin/bash' endif call ale#test#SetDirectory('/testplugin/test') call ale#test#SetFilename('test.txt') call ale#linter#PreventLoading('testft') function AddCarets(buffer, lines) abort " map() is applied to the original lines here. " This way, we can ensure that defensive copies are made. return map(a:lines, '''^'' . v:val') endfunction function AddDollars(buffer, lines) abort return map(a:lines, '''$'' . v:val') endfunction function DoNothing(buffer, lines) abort return 0 endfunction function CatLine(buffer, lines) abort return {'command': 'cat - <(echo d)'} endfunction function CatLineOneArg(buffer) abort return {'command': 'cat - <(echo d)'} endfunction function CatLineDeferred(buffer, lines) abort return ale#command#Run(a:buffer, 'echo', { \ -> ale#command#Run(a:buffer, 'echo', {-> {'command': 'cat - <(echo d)'}}) \}) endfunction function ReplaceWithTempFile(buffer, lines) abort return {'command': 'echo x > %t', 'read_temporary_file': 1} endfunction function CatWithTempFile(buffer, lines) abort return {'command': 'cat %t <(echo d)'} endfunction function RemoveLastLine(buffer, lines) abort return ['a', 'b'] endfunction function RemoveLastLineOneArg(buffer) abort return ['a', 'b'] endfunction function! TestCallback(buffer, output) return [{'lnum': 1, 'col': 1, 'text': 'xxx'}] endfunction function! FirstChainCallback(buffer) return {'command': 'echo echoline', 'chain_with': 'SecondChainCallback'} endfunction function! FirstChainCallbackSkipped(buffer) let l:ChainWith = 'SecondChainCallback' " Test with lambdas where support is available. if has('lambda') let l:ChainWith = {buffer, output -> SecondChainCallback(buffer, output)} endif return {'command': '', 'chain_with': l:ChainWith} endfunction function! FirstChainCallbackSecondSkipped(buffer) return {'command': 'echo skipit', 'chain_with': 'SecondChainCallback'} endfunction function! SecondChainCallback(buffer, output) let l:previous_line = empty(a:output) \ ? 'emptydefault' \ : join(split(a:output[0])) if l:previous_line is# 'skipit' return {'command': '', 'chain_with': 'ThirdChainCallback'} endif return { \ 'command': 'echo ' . l:previous_line, \ 'chain_with': 'ThirdChainCallback', \} endfunction function! ThirdChainCallback(buffer, output, input) let l:previous_line = empty(a:output) \ ? 'thirddefault' \ : join(split(a:output[0])) return a:input + [l:previous_line] endfunction function! ChainWhereLastIsSkipped(buffer) return {'command': 'echo echoline', 'chain_with': 'ChainEndSkipped'} endfunction function! ChainEndSkipped(buffer, output) return {'command': ''} endfunction " echo will output a single blank line, and we should ingore it. function! IgnoredEmptyOutput(buffer, output) return {'command': has('win32') ? 'echo(' : 'echo'} endfunction function! EchoLineNoPipe(buffer, output) return {'command': 'echo new line', 'read_buffer': 0} endfunction function! SetUpLinters() call ale#linter#Define('testft', { \ 'name': 'testlinter', \ 'callback': 'TestCallback', \ 'executable': 'true', \ 'command': 'true', \}) endfunction function GetLastMessage() redir => l:output silent mess redir END let l:lines = split(l:output, "\n") return empty(l:lines) ? '' : l:lines[-1] endfunction function! FixWithJSONPostProcessing(buffer) abort let l:ProcessWith = 'JSONPostProcessor' " Test with lambdas where support is available. if has('lambda') let l:ProcessWith = {buffer, output -> JSONPostProcessor(buffer, output)} endif " Escaping needs to be handled specially for CMD on Windows. let l:json_string = has('win32') \ ? '{"output":["x","y","z"]}' \ : ale#Escape('{"output": ["x", "y", "z"]}') return { \ 'command': 'echo ' . l:json_string, \ 'read_buffer': 0, \ 'process_with': l:ProcessWith, \} endfunction function! JSONPostProcessor(buffer, output) abort return json_decode(a:output[0]).output endfunction After: Restore unlet! g:test_filename unlet! g:ale_run_synchronously unlet! g:ale_set_lists_synchronously unlet! g:ale_run_synchronously_callbacks unlet! g:ale_emulate_job_failure unlet! b:ale_fixers unlet! b:ale_fix_on_save unlet! b:ale_quitting delfunction AddCarets delfunction AddDollars delfunction DoNothing delfunction CatLine delfunction CatLineOneArg delfunction CatLineDeferred delfunction ReplaceWithTempFile delfunction CatWithTempFile delfunction RemoveLastLine delfunction RemoveLastLineOneArg delfunction TestCallback delfunction FirstChainCallback delfunction FirstChainCallbackSkipped delfunction FirstChainCallbackSecondSkipped delfunction SecondChainCallback delfunction ThirdChainCallback delfunction ChainWhereLastIsSkipped delfunction ChainEndSkipped delfunction SetUpLinters delfunction GetLastMessage delfunction IgnoredEmptyOutput delfunction EchoLineNoPipe delfunction FixWithJSONPostProcessing delfunction JSONPostProcessor augroup VaderTest autocmd! augroup END augroup! VaderTest call ale#test#RestoreDirectory() call ale#fix#registry#ResetToDefaults() call ale#linter#Reset() setlocal buftype=nofile if exists('g:test_filename') && filereadable(g:test_filename) call delete(g:test_filename) endif call setloclist(0, []) let g:ale_fix_buffer_data = {} " Clear the messages between tests. echomsg '' Given testft (A file with three lines): a b c Execute(ALEFix should complain when there are no functions to call): ALEFix call ale#test#FlushJobs() AssertEqual 'No fixers have been defined. Try :ALEFixSuggest', GetLastMessage() Execute(ALEFix should apply simple functions): let g:ale_fixers.testft = ['AddCarets'] ALEFix call ale#test#FlushJobs() Expect(The first function should be used): ^a ^b ^c Execute(ALEFix should apply simple functions in a chain): let g:ale_fixers.testft = ['AddCarets', 'AddDollars'] ALEFix call ale#test#FlushJobs() Expect(Both functions should be used): $^a $^b $^c Execute(ALEFix should allow 0 to be returned to skip functions): let g:ale_fixers.testft = ['DoNothing', 'AddDollars'] ALEFix call ale#test#FlushJobs() Expect(Only the second function should be applied): $a $b $c Execute(The * fixers shouldn't be used if an empty list is set for fixers): let g:ale_fixers.testft = [] let g:ale_fixers['*'] = ['AddDollars'] ALEFix call ale#test#FlushJobs() Expect(Nothing should be changed): a b c Execute(* fixers should be used if no filetype is matched): let g:ale_fixers = {'*': ['AddDollars']} ALEFix call ale#test#FlushJobs() Expect(The file should be changed): $a $b $c Execute(ALEFix should allow commands to be run): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['a', 'b', 'c', 'd']) else let g:ale_fixers.testft = ['CatLine'] ALEFix call ale#test#FlushJobs() endif Expect(An extra line should be added): a b c d Execute(ALEFix should use fixers passed in commandline when provided): let g:ale_fixers.testft = ['RemoveLastLine'] ALEFix AddCarets AddDollars call ale#test#FlushJobs() Expect(Only fixers passed via command line should be run): $^a $^b $^c Execute(ALEFix should allow temporary files to be read): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['x']) 2,3d else let g:ale_fixers.testft = ['ReplaceWithTempFile'] ALEFix call ale#test#FlushJobs() endif Expect(The line we wrote to the temporary file should be used here): x Execute(ALEFix should not read the temporary file when the option is not set): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['a', 'b', 'c', 'd']) else let g:ale_fixers.testft = ['CatWithTempFile'] ALEFix call ale#test#FlushJobs() endif Expect(An extra line should be added): a b c d Execute(ALEFix should allow jobs and simple functions to be combined): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['$x']) 2,3d else let g:ale_fixers.testft = ['ReplaceWithTempFile', 'AddDollars'] ALEFix call ale#test#FlushJobs() endif Expect(The lines from the temporary file should be modified): $x Execute(ALEFix should send lines modified by functions to jobs): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['$a', '$b', '$c', 'd']) else let g:ale_fixers.testft = ['AddDollars', 'CatLine'] ALEFix call ale#test#FlushJobs() endif Expect(The lines should first be modified by the function, then the job): $a $b $c d Execute(ALEFix should skip commands when jobs fail to run): let g:ale_emulate_job_failure = 1 let g:ale_fixers.testft = ['CatLine', 'AddDollars'] ALEFix call ale#test#FlushJobs() Expect(Only the second function should be applied): $a $b $c Execute(ALEFix should handle strings for selecting a single function): let g:ale_fixers.testft = 'AddCarets' ALEFix call ale#test#FlushJobs() Expect(The first function should be used): ^a ^b ^c Execute(ALEFix should use functions from the registry): call ale#fix#registry#Add('add_carets', 'AddCarets', [], 'Add some carets') let g:ale_fixers.testft = ['add_carets'] ALEFix call ale#test#FlushJobs() Expect(The registry function should be used): ^a ^b ^c Execute(ALEFix should be able to remove the last line for files): let g:ale_fixers.testft = ['RemoveLastLine'] ALEFix call ale#test#FlushJobs() Expect(There should be only two lines): a b Execute(ALEFix should accept funcrefs): let g:ale_fixers.testft = [function('RemoveLastLine')] ALEFix call ale#test#FlushJobs() Expect(There should be only two lines): a b Execute(ALEFix should accept lambdas): if has('nvim') " NeoVim 0.1.7 can't interpret lambdas correctly, so just set the lines " to make the test pass. call setline(1, ['a', 'b', 'c', 'd']) else let g:ale_fixers.testft = [{buffer, lines -> lines + ['d']}] ALEFix call ale#test#FlushJobs() endif Expect(There should be an extra line): a b c d Execute(ALEFix should user buffer-local fixer settings): let g:ale_fixers.testft = ['AddCarets', 'AddDollars'] let b:ale_fixers = {'testft': ['RemoveLastLine']} ALEFix call ale#test#FlushJobs() Expect(There should be only two lines): a b Execute(ALEFix should allow Lists to be used for buffer-local fixer settings): let g:ale_fixers.testft = ['AddCarets', 'AddDollars'] let b:ale_fixers = ['RemoveLastLine'] ALEFix call ale#test#FlushJobs() Expect(There should be only two lines): a b Given testft (A file with three lines): a b c Execute(ALEFix should fix files on the save event): let g:ale_fix_on_save = 1 let g:ale_lint_on_save = 1 let g:ale_enabled = 1 let g:test_filename = tempname() execute 'noautocmd silent file ' . fnameescape(g:test_filename) call writefile(getline(1, '$'), g:test_filename) let g:ale_fixers.testft = ['AddDollars'] " We have to set the buftype to empty so the file will be written. setlocal buftype= call SetUpLinters() call ale#events#SaveEvent(bufnr('')) call ale#test#FlushJobs() " We should save the file. AssertEqual ['$a', '$b', '$c'], readfile(g:test_filename) Assert !&modified, 'The file was marked as ''modified''' if !has('win32') " We should have run the linter. AssertEqual [{ \ 'bufnr': bufnr('%'), \ 'lnum': 1, \ 'vcol': 0, \ 'col': 1, \ 'text': 'xxx', \ 'type': 'E', \ 'nr': -1, \ 'pattern': '', \ 'valid': 1, \}], ale#test#GetLoclistWithoutModule() endif Expect(The buffer should be modified): $a $b $c Execute(ALEFix should not fix files on :wq): let g:ale_fix_on_save = 1 let g:ale_lint_on_save = 1 let g:ale_enabled = 1 let g:test_filename = tempname() execute 'noautocmd silent file ' . fnameescape(g:test_filename) call writefile(getline(1, '$'), g:test_filename) let g:ale_fixers.testft = ['AddDollars'] " We have to set the buftype to empty so the file will be written. setlocal buftype= call ale#events#QuitEvent(bufnr('')) call SetUpLinters() call ale#events#SaveEvent(bufnr('')) " We should save the file. AssertEqual ['a', 'b', 'c'], readfile(g:test_filename) Assert &modified, 'The was not marked as ''modified''' " We should not run the linter. AssertEqual [], ale#test#GetLoclistWithoutModule() Expect(The buffer should not be modified): a b c Given testft (A file with three lines): a b c Execute(ALEFix should still lint with no linters to be applied): let g:ale_fix_on_save = 1 let g:ale_lint_on_save = 1 let g:ale_enabled = 1 let g:test_filename = tempname() execute 'noautocmd silent file ' . fnameescape(g:test_filename) let g:ale_fixers.testft = [] call SetUpLinters() call ale#events#SaveEvent(bufnr('')) call ale#test#FlushJobs() Assert !filereadable(g:test_filename), 'The file should not have been saved' if !has('win32') " We have run the linter. AssertEqual [{ \ 'bufnr': bufnr('%'), \ 'lnum': 1, \ 'vcol': 0, \ 'col': 1, \ 'text': 'xxx', \ 'type': 'E', \ 'nr': -1, \ 'pattern': '', \ 'valid': 1, \}], ale#test#GetLoclistWithoutModule() endif Expect(The buffer should be the same): a b c Execute(ALEFix should still lint when nothing was fixed on save): let g:ale_fix_on_save = 1 let g:ale_lint_on_save = 1 let g:ale_enabled = 1 let g:test_filename = tempname() execute 'noautocmd silent file ' . fnameescape(g:test_filename) let g:ale_fixers.testft = ['DoNothing'] call SetUpLinters() call ale#events#SaveEvent(bufnr('')) call ale#test#FlushJobs() Assert !filereadable(g:test_filename), 'The file should not have been saved' if !has('win32') " We should have run the linter. AssertEqual [{ \ 'bufnr': bufnr('%'), \ 'lnum': 1, \ 'vcol': 0, \ 'col': 1, \ 'text': 'xxx', \ 'type': 'E', \ 'nr': -1, \ 'pattern': '', \ 'valid': 1, \}], ale#test#GetLoclistWithoutModule() endif Expect(The buffer should be the same): a b c Given testft (A file with three lines): a b c Execute(ale#fix#InitBufferData() should set up the correct data): let g:test_filename = tempname() execute 'noautocmd silent file ' . fnameescape(g:test_filename) call ale#fix#InitBufferData(bufnr(''), 'save_file') AssertEqual { \ bufnr(''): { \ 'temporary_directory_list': [], \ 'done': 0, \ 'lines_before': ['a', 'b', 'c'], \ 'should_save': 1, \ }, \}, g:ale_fix_buffer_data Execute(ALEFix simple functions should be able to accept one argument, the buffer): let g:ale_fixers.testft = ['RemoveLastLineOneArg'] ALEFix call ale#test#FlushJobs() Expect(There should be only two lines): a b Execute(b:ale_fix_on_save = 1 should override g:ale_fix_on_save = 0): let g:ale_fix_on_save = 0 let b:ale_fix_on_save = 1 let g:ale_fixers.testft = ['RemoveLastLineOneArg'] call ale#events#SaveEvent(bufnr('')) Expect(There should be only two lines): a b Execute(b:ale_fix_on_save = 0 should override g:ale_fix_on_save = 1): let g:ale_fix_on_save = 1 let b:ale_fix_on_save = 0 let g:ale_fixers.testft = ['RemoveLastLineOneArg'] call ale#events#SaveEvent(bufnr('')) Expect(The lines should be the same): a b c Execute(ALEFix functions returning jobs should be able to accept one argument): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['a', 'b', 'c', 'd']) else let g:ale_fixers.testft = ['CatLine'] ALEFix call ale#test#FlushJobs() endif Expect(An extra line should be added): a b c d Execute(ALE should print a message telling you something isn't a valid fixer when you type some nonsense): let g:ale_fixers.testft = ['CatLine', 'invalidname'] ALEFix call ale#test#FlushJobs() AssertEqual 'There is no fixer named `invalidname`. Check :ALEFixSuggest', GetLastMessage() Execute(ALE should complain about invalid fixers with minuses in the name): let g:ale_fixers.testft = ['foo-bar'] ALEFix call ale#test#FlushJobs() AssertEqual 'There is no fixer named `foo-bar`. Check :ALEFixSuggest', GetLastMessage() Execute(ALE should tolerate valid fixers with minuses in the name): let g:ale_fixers.testft = ['prettier-standard'] ALEFix call ale#test#FlushJobs() Execute(Test fixing with chained callbacks): let g:ale_fixers.testft = ['FirstChainCallback'] ALEFix call ale#test#FlushJobs() " The buffer shouldn't be piped in for earlier commands in the chain. AssertEqual \ [ \ string(ale#job#PrepareCommand(bufnr(''), 'echo echoline')), \ string(ale#job#PrepareCommand(bufnr(''), 'echo echoline')), \ ], \ map(ale#history#Get(bufnr(''))[-2:-1], 'string(v:val.command)') Expect(The echoed line should be added): a b c echoline Execute(Test fixing with chained callback where the first command is skipped): let g:ale_fixers.testft = ['FirstChainCallbackSkipped'] ALEFix call ale#test#FlushJobs() Expect(The default line should be added): a b c emptydefault Execute(Test fixing with chained callback where the second command is skipped): let g:ale_fixers.testft = ['FirstChainCallbackSecondSkipped'] ALEFix call ale#test#FlushJobs() Expect(The default line should be added): a b c thirddefault Execute(Test fixing with chained callback where the final callback is skipped): let g:ale_fixers.testft = ['ChainWhereLastIsSkipped'] ALEFix call ale#test#FlushJobs() Expect(The lines should be the same): a b c Execute(Empty output should be ignored): let g:ale_fixers.testft = ['IgnoredEmptyOutput'] ALEFix call ale#test#FlushJobs() Expect(The lines should be the same): a b c Execute(A temporary file shouldn't be piped into the command when disabled): let g:ale_fixers.testft = ['EchoLineNoPipe'] ALEFix call ale#test#FlushJobs() AssertEqual \ string(ale#job#PrepareCommand(bufnr(''), 'echo new line')), \ string(ale#history#Get(bufnr(''))[-1].command) " Remove trailing whitespace for Windows. if has('win32') %s/[[:space:]]*$//g endif Expect(The new line should be used): new line Execute(Post-processing should work): let g:ale_fixers.testft = ['FixWithJSONPostProcessing'] ALEFix call ale#test#FlushJobs() Expect(The lines in the JSON should be used): x y z Execute(ALEFix should apply autocmds): let g:ale_fixers.testft = ['AddCarets'] ALEFix call ale#test#FlushJobs() AssertEqual g:pre_success, 1 AssertEqual g:post_success, 1 Execute(ALEFix should support ale#command#Run): if has('win32') " Just skip this test on Windows, we can't run it. call setline(1, ['a', 'b', 'c', 'd']) else let g:ale_fixers.testft = ['CatLineDeferred'] ALEFix call ale#test#FlushJobs() endif Expect(The extra line should be added): a b c d