Before: Save g:ale_root Save b:ale_root let g:ale_root = {} unlet! b:ale_root let g:linter = {} After: unlet g:linter Execute (PreProcess should throw when the linter object is not a Dictionary): AssertThrows call ale#linter#PreProcess('testft', '') AssertEqual 'The linter object must be a Dictionary', g:vader_exception Execute (PreProcess should throw when there is no name): AssertThrows call ale#linter#PreProcess('testft', { \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \}) AssertEqual '`name` must be defined to name the linter', g:vader_exception Execute (PreProcess should throw when there is no callback): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'executable': 'echo', \ 'command': 'echo', \}) AssertEqual '`callback` must be defined with a callback to accept output', g:vader_exception Execute (PreProcess should throw when then callback is not a function): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 1, \ 'executable': 'echo', \ 'command': 'echo', \}) AssertEqual '`callback` must be defined with a callback to accept output', g:vader_exception Execute (PreProcess should throw when there is no executable): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'command': 'echo', \}) AssertEqual '`executable` must be defined', g:vader_exception Execute (PreProcess should throw when executable is not a string): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 123, \ 'command': 'echo', \}) AssertEqual '`executable` must be a String or Function if defined', g:vader_exception Execute (PreProcess should allow executable to be a callback): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': function('type'), \ 'command': 'echo', \}) Execute (PreProcess should throw when there is no command): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \}) AssertEqual '`command` must be defined', g:vader_exception Execute (PreProcess should throw when command is not a string): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': [], \}) AssertEqual '`command` must be a String or Function if defined', g:vader_exception Execute (PreProcess should allow command to be a callback): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': function('type'), \}) Execute (PreProcess should throw when cwd is not a string): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'cwd': [], \ 'command': 'echo', \}) AssertEqual '`cwd` must be a String or Function if defined', g:vader_exception Execute (PreProcess should allow cwd to be a callback): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'cwd': function('type'), \ 'command': 'echo', \}) Execute (PreProcess should allow cwd to be a string): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'cwd': '/foo/bar', \ 'command': 'echo', \}) Execute (PreProcess should when the output stream isn't a valid string): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \ 'output_stream': 'xxx', \}) AssertEqual "`output_stream` must be 'stdout', 'stderr', or 'both'", g:vader_exception Execute (PreProcess should not throw when everything is correct): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \}) Execute (PreProcess should accept an stdout output_stream): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \ 'output_stream': 'stdout', \}) Execute (PreProcess should accept an stderr output_stream): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \ 'output_stream': 'stderr', \}) Execute (PreProcess should accept a 'both' output_stream): call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \ 'output_stream': 'both', \}) Execute(PreProcess should process the read_buffer option correctly): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \ 'read_buffer': '0', \} AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`read_buffer` must be `0` or `1`', g:vader_exception let g:linter.read_buffer = 0 call ale#linter#PreProcess('testft', g:linter) let g:linter.read_buffer = 1 call ale#linter#PreProcess('testft', g:linter) Execute(PreProcess should set a default value for read_buffer): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \} AssertEqual 1, ale#linter#PreProcess('testft', g:linter).read_buffer Execute(PreProcess should process the lint_file option correctly): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \ 'lint_file': 'x', \} AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`lint_file` must be `0`, `1`, or a Function', g:vader_exception let g:linter.lint_file = 0 AssertEqual 0, ale#linter#PreProcess('testft', g:linter).lint_file " The default for read_buffer should be 1 when lint_file is 0 AssertEqual 1, ale#linter#PreProcess('testft', g:linter).read_buffer let g:linter.lint_file = 1 AssertEqual 1, ale#linter#PreProcess('testft', g:linter).lint_file " The default for read_buffer should still be 1 AssertEqual 1, ale#linter#PreProcess('testft', g:linter).read_buffer let g:linter.read_buffer = 1 " We should be able to set `read_buffer` and `lint_file` at the same time. AssertEqual 1, ale#linter#PreProcess('testft', g:linter).read_buffer let g:linter.lint_file = function('type') Assert type(ale#linter#PreProcess('testft', g:linter).lint_file) is v:t_func Execute(PreProcess should set a default value for lint_file): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \} AssertEqual 0, ale#linter#PreProcess('testft', g:linter).lint_file Execute(PreProcess should set a default value for aliases): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \} AssertEqual [], ale#linter#PreProcess('testft', g:linter).aliases Execute(PreProcess should complain about invalid `aliases` values): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \ 'aliases': 'foo', \} AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`aliases` must be a List of String values', g:vader_exception let g:linter.aliases = [1] AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`aliases` must be a List of String values', g:vader_exception Execute(PreProcess should accept `aliases` lists): let g:linter = { \ 'name': 'x', \ 'callback': 'x', \ 'executable': 'x', \ 'command': 'x', \ 'aliases': [], \} AssertEqual [], ale#linter#PreProcess('testft', g:linter).aliases let g:linter.aliases = ['foo', 'bar'] AssertEqual ['foo', 'bar'], ale#linter#PreProcess('testft', g:linter).aliases Execute(PreProcess should accept tsserver LSP configuration): let g:linter = { \ 'name': 'x', \ 'executable': 'x', \ 'command': 'x', \ 'lsp': 'tsserver', \ 'language': 'x', \ 'project_root': 'x', \} AssertEqual 'tsserver', ale#linter#PreProcess('testft', g:linter).lsp Execute(PreProcess should accept stdio LSP configuration): let g:linter = { \ 'name': 'x', \ 'executable': 'x', \ 'command': 'x', \ 'lsp': 'stdio', \ 'language': 'x', \ 'project_root': 'x', \} AssertEqual 'stdio', ale#linter#PreProcess('testft', g:linter).lsp Execute(PreProcess should accept LSP server configurations): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'foobar', \ 'project_root': 'x', \} AssertEqual 'socket', ale#linter#PreProcess('testft', g:linter).lsp Execute(PreProcess should accept let you specify the `language` as a Function): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': {-> 'foobar'}, \ 'project_root': 'x', \} AssertEqual 'foobar', ale#linter#PreProcess('testft', g:linter).language(bufnr('')) Execute(PreProcess should complain about invalid language values): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 0, \ 'project_root': 'x', \} AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`language` must be a String or Function if defined', g:vader_exception Execute(PreProcess should use the filetype as the language string by default): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'X', \ 'project_root': 'x', \} AssertEqual 'testft', ale#linter#PreProcess('testft', g:linter).language Execute(PreProcess should require an `address` for LSP socket configurations): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \} AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`address` must be defined for getting the LSP address', g:vader_exception Execute(PreProcess should complain about `address` for non-LSP linters): let g:linter = { \ 'name': 'x', \ 'callback': 'SomeFunction', \ 'executable': 'echo', \ 'command': 'echo', \ 'address': 'X', \} AssertThrows call ale#linter#PreProcess('testft', g:linter) AssertEqual '`address` cannot be used when lsp != ''socket''', g:vader_exception Execute(PreProcess accept `address` as a String): let g:linter = ale#linter#PreProcess('testft', { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'foo:123', \ 'language': 'x', \ 'project_root': 'x', \}) AssertEqual 'foo:123', ale#linter#GetAddress(0, g:linter) Execute(PreProcess accept address as a Function): let g:linter = ale#linter#PreProcess('testft', { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': {-> 'foo:123'}, \ 'language': 'x', \ 'project_root': 'x', \}) AssertEqual 'foo:123', ale#linter#GetAddress(0, g:linter) Execute(PreProcess should complain about invalid address values): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 0, \ 'language': 'x', \ 'project_root': 'x', \}) AssertEqual '`address` must be a String or Function if defined', g:vader_exception Execute(PreProcess should allow the `project_root` to be set as a String): let g:linter = ale#linter#PreProcess('testft', { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'foo:123', \ 'language': 'x', \ 'project_root': '/foo/bar', \}) AssertEqual '/foo/bar', ale#lsp_linter#FindProjectRoot(0, g:linter) Execute(PreProcess should `project_root` be set as a Function): let g:linter = ale#linter#PreProcess('testft', { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'foo:123', \ 'language': 'x', \ 'project_root': {-> '/foo/bar'}, \}) AssertEqual '/foo/bar', ale#lsp_linter#FindProjectRoot(0, g:linter) Execute(PreProcess should complain when `project_root` is invalid): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'foo:123', \ 'language': 'x', \ 'project_root': 0, \}) AssertEqual '`project_root` must be a String or Function', g:vader_exception Execute(PreProcess should throw when `initialization_options` is not a Dictionary or callback): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'x', \ 'project_root': 'x', \ 'initialization_options': 0, \}) AssertEqual '`initialization_options` must be a Dictionary or Function if defined', g:vader_exception Execute(PreProcess should accept `initialization_options` as a Dictionary): let g:linter = ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'x', \ 'project_root': 'x', \ 'initialization_options': {'foo': v:true}, \}) AssertEqual {'foo': v:true}, ale#lsp_linter#GetOptions(0, g:linter) Execute(PreProcess should accept `initialization_options` as a Function): let g:linter = ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'x', \ 'project_root': 'x', \ 'initialization_options': {-> {'foo': v:true}}, \}) AssertEqual {'foo': v:true}, ale#lsp_linter#GetOptions(0, g:linter) Execute(PreProcess should accept `lsp_config` as a Dictionary): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'x', \ 'project_root': 'x', \ 'lsp_config': {'foo': 'bar'}, \} AssertEqual {'foo': 'bar'}, ale#lsp_linter#GetConfig(0, g:linter) Execute(PreProcess should accept `lsp_config` as a Function): let g:linter = { \ 'name': 'x', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'x', \ 'project_root': 'x', \ 'lsp_config': {-> {'foo': 'bar'}}, \} AssertEqual {'foo': 'bar'}, ale#lsp_linter#GetConfig(0, g:linter) Execute(PreProcess should throw when `lsp_config` is not a Dictionary or Function): AssertThrows call ale#linter#PreProcess('testft', { \ 'name': 'foo', \ 'lsp': 'socket', \ 'address': 'X', \ 'language': 'x', \ 'project_root': 'x', \ 'lsp_config': 'x', \}) AssertEqual '`lsp_config` must be a Dictionary or Function if defined', g:vader_exception