mirror of
https://github.com/dense-analysis/ale
synced 2024-12-21 05:43:05 +00:00
34e409ea21
`lint_file` can now be computed dynamically with a callback function, which can return a deferred result, as per `ale#command#Run`. This allows linters to dynamically switch between checking files on disk, or checking code on the fly. Some tests have been fixed on Windows.
474 lines
13 KiB
Plaintext
474 lines
13 KiB
Plaintext
Before:
|
|
Save g:ale_lsp_root
|
|
Save b:ale_lsp_root
|
|
|
|
let g:ale_lsp_root = {}
|
|
unlet! b:ale_lsp_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 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 Funcref 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
|