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|
" Author: w0rp <devw0rp@gmail.com>
" Description: Linter registration and lazy-loading
" Retrieves linters as requested by the engine, loading them if needed.
let s:linters = {}
" Default filetype aliases.
" The user defined aliases will be merged with this Dictionary.
let s:default_ale_linter_aliases = {
\ 'Dockerfile': 'dockerfile',
\ 'csh': 'sh',
\ 'plaintex': 'tex',
\ 'systemverilog': 'verilog',
\ 'zsh': 'sh',
\}
" Default linters to run for particular filetypes.
" The user defined linter selections will be merged with this Dictionary.
"
" No linters are used for plaintext files by default.
"
" Only cargo is enabled for Rust by default.
" rpmlint is disabled by default because it can result in code execution.
let s:default_ale_linters = {
\ 'csh': ['shell'],
\ 'go': ['gofmt', 'golint', 'go vet'],
\ 'help': [],
\ 'rust': ['cargo'],
\ 'spec': [],
\ 'text': [],
\ 'zsh': ['shell'],
\}
" Testing/debugging helper to unload all linters.
function! ale#linter#Reset() abort
let s:linters = {}
endfunction
function! s:IsCallback(value) abort
return type(a:value) == type('') || type(a:value) == type(function('type'))
endfunction
function! s:IsBoolean(value) abort
return type(a:value) == type(0) && (a:value == 0 || a:value == 1)
endfunction
function! ale#linter#PreProcess(linter) abort
if type(a:linter) != type({})
throw 'The linter object must be a Dictionary'
endif
let l:obj = {
\ 'name': get(a:linter, 'name'),
\ 'lsp': get(a:linter, 'lsp', ''),
\}
if type(l:obj.name) != type('')
throw '`name` must be defined to name the linter'
endif
let l:needs_address = l:obj.lsp ==# 'socket'
let l:needs_executable = l:obj.lsp !=# 'socket'
let l:needs_command = l:obj.lsp !=# 'socket'
if empty(l:obj.lsp)
let l:obj.callback = get(a:linter, 'callback')
if !s:IsCallback(l:obj.callback)
throw '`callback` must be defined with a callback to accept output'
endif
endif
if index(['', 'socket', 'stdio', 'tsserver'], l:obj.lsp) < 0
throw '`lsp` must be either `''lsp''` or `''tsserver''` if defined'
endif
if !l:needs_executable
if has_key(a:linter, 'executable')
\|| has_key(a:linter, 'executable_callback')
throw '`executable` and `executable_callback` cannot be used when lsp == ''socket'''
endif
elseif has_key(a:linter, 'executable_callback')
let l:obj.executable_callback = a:linter.executable_callback
if !s:IsCallback(l:obj.executable_callback)
throw '`executable_callback` must be a callback if defined'
endif
elseif has_key(a:linter, 'executable')
let l:obj.executable = a:linter.executable
if type(l:obj.executable) != type('')
throw '`executable` must be a string if defined'
endif
else
throw 'Either `executable` or `executable_callback` must be defined'
endif
if !l:needs_command
if has_key(a:linter, 'command')
\|| has_key(a:linter, 'command_callback')
\|| has_key(a:linter, 'command_chain')
throw '`command` and `command_callback` and `command_chain` cannot be used when lsp == ''socket'''
endif
elseif has_key(a:linter, 'command_chain')
let l:obj.command_chain = a:linter.command_chain
if type(l:obj.command_chain) != type([])
throw '`command_chain` must be a List'
endif
if empty(l:obj.command_chain)
throw '`command_chain` must contain at least one item'
endif
let l:link_index = 0
for l:link in l:obj.command_chain
let l:err_prefix = 'The `command_chain` item ' . l:link_index . ' '
if !s:IsCallback(get(l:link, 'callback'))
throw l:err_prefix . 'must define a `callback` function'
endif
if has_key(l:link, 'output_stream')
if type(l:link.output_stream) != type('')
\|| index(['stdout', 'stderr', 'both'], l:link.output_stream) < 0
throw l:err_prefix . '`output_stream` flag must be '
\ . "'stdout', 'stderr', or 'both'"
endif
endif
if has_key(l:link, 'read_buffer') && !s:IsBoolean(l:link.read_buffer)
throw l:err_prefix . 'value for `read_buffer` must be `0` or `1`'
endif
let l:link_index += 1
endfor
elseif has_key(a:linter, 'command_callback')
let l:obj.command_callback = a:linter.command_callback
if !s:IsCallback(l:obj.command_callback)
throw '`command_callback` must be a callback if defined'
endif
elseif has_key(a:linter, 'command')
let l:obj.command = a:linter.command
if type(l:obj.command) != type('')
throw '`command` must be a string if defined'
endif
else
throw 'Either `command`, `executable_callback`, `command_chain` '
\ . 'must be defined'
endif
if (
\ has_key(a:linter, 'command')
\ + has_key(a:linter, 'command_chain')
\ + has_key(a:linter, 'command_callback')
\) > 1
throw 'Only one of `command`, `command_callback`, or `command_chain` '
\ . 'should be set'
endif
if !l:needs_address
if has_key(a:linter, 'address_callback')
throw '`address_callback` cannot be used when lsp != ''socket'''
endif
elseif has_key(a:linter, 'address_callback')
let l:obj.address_callback = a:linter.address_callback
if !s:IsCallback(l:obj.address_callback)
throw '`address_callback` must be a callback if defined'
endif
else
throw '`address_callback` must be defined for getting the LSP address'
endif
let l:obj.output_stream = get(a:linter, 'output_stream', 'stdout')
if type(l:obj.output_stream) != type('')
\|| index(['stdout', 'stderr', 'both'], l:obj.output_stream) < 0
throw "`output_stream` must be 'stdout', 'stderr', or 'both'"
endif
" An option indicating that this linter should only be run against the
" file on disk.
let l:obj.lint_file = get(a:linter, 'lint_file', 0)
if !s:IsBoolean(l:obj.lint_file)
throw '`lint_file` must be `0` or `1`'
endif
" An option indicating that the buffer should be read.
let l:obj.read_buffer = get(a:linter, 'read_buffer', !l:obj.lint_file)
if !s:IsBoolean(l:obj.read_buffer)
throw '`read_buffer` must be `0` or `1`'
endif
if l:obj.lint_file && l:obj.read_buffer
throw 'Only one of `lint_file` or `read_buffer` can be `1`'
endif
let l:obj.aliases = get(a:linter, 'aliases', [])
if type(l:obj.aliases) != type([])
\|| len(filter(copy(l:obj.aliases), 'type(v:val) != type('''')')) > 0
throw '`aliases` must be a List of String values'
endif
return l:obj
endfunction
function! ale#linter#Define(filetype, linter) abort
if !has_key(s:linters, a:filetype)
let s:linters[a:filetype] = []
endif
let l:new_linter = ale#linter#PreProcess(a:linter)
call add(s:linters[a:filetype], l:new_linter)
endfunction
function! ale#linter#GetAll(filetypes) abort
let l:combined_linters = []
for l:filetype in a:filetypes
" Load linter defintions from files if we haven't loaded them yet.
if !has_key(s:linters, l:filetype)
execute 'silent! runtime! ale_linters/' . l:filetype . '/*.vim'
" Always set an empty List for the loaded linters if we don't find
" any. This will prevent us from executing the runtime command
" many times, redundantly.
if !has_key(s:linters, l:filetype)
let s:linters[l:filetype] = []
endif
endif
call extend(l:combined_linters, get(s:linters, l:filetype, []))
endfor
return l:combined_linters
endfunction
function! s:GetAliasedFiletype(original_filetype) abort
" Check for aliased filetypes first in a buffer variable,
" then the global variable,
" then in the default mapping,
" otherwise use the original filetype.
for l:dict in [
\ get(b:, 'ale_linter_aliases', {}),
\ g:ale_linter_aliases,
\ s:default_ale_linter_aliases,
\]
if has_key(l:dict, a:original_filetype)
return l:dict[a:original_filetype]
endif
endfor
return a:original_filetype
endfunction
function! ale#linter#ResolveFiletype(original_filetype) abort
let l:filetype = s:GetAliasedFiletype(a:original_filetype)
if type(l:filetype) != type([])
return [l:filetype]
endif
return l:filetype
endfunction
function! s:GetLinterNames(original_filetype) abort
for l:dict in [
\ get(b:, 'ale_linters', {}),
\ g:ale_linters,
\ s:default_ale_linters,
\]
if has_key(l:dict, a:original_filetype)
return l:dict[a:original_filetype]
endif
endfor
return 'all'
endfunction
function! ale#linter#Get(original_filetypes) abort
let l:possibly_duplicated_linters = []
" Handle dot-seperated filetypes.
for l:original_filetype in split(a:original_filetypes, '\.')
let l:filetype = ale#linter#ResolveFiletype(l:original_filetype)
let l:linter_names = s:GetLinterNames(l:original_filetype)
let l:all_linters = ale#linter#GetAll(l:filetype)
let l:filetype_linters = []
if type(l:linter_names) == type('') && l:linter_names ==# 'all'
let l:filetype_linters = l:all_linters
elseif type(l:linter_names) == type([])
" Select only the linters we or the user has specified.
for l:linter in l:all_linters
let l:name_list = [l:linter.name] + l:linter.aliases
for l:name in l:name_list
if index(l:linter_names, l:name) >= 0
call add(l:filetype_linters, l:linter)
break
endif
endfor
endfor
endif
call extend(l:possibly_duplicated_linters, l:filetype_linters)
endfor
let l:name_list = []
let l:combined_linters = []
" Make sure we override linters so we don't get two with the same name,
" like 'eslint' for both 'javascript' and 'typescript'
"
" Note that the reverse calls here modify the List variables.
for l:linter in reverse(l:possibly_duplicated_linters)
if index(l:name_list, l:linter.name) < 0
call add(l:name_list, l:linter.name)
call add(l:combined_linters, l:linter)
endif
endfor
return reverse(l:combined_linters)
endfunction
" Given a buffer and linter, get the executable String for the linter.
function! ale#linter#GetExecutable(buffer, linter) abort
return has_key(a:linter, 'executable_callback')
\ ? ale#util#GetFunction(a:linter.executable_callback)(a:buffer)
\ : a:linter.executable
endfunction
" Given a buffer and linter, get the command String for the linter.
" The command_chain key is not supported.
function! ale#linter#GetCommand(buffer, linter) abort
return has_key(a:linter, 'command_callback')
\ ? ale#util#GetFunction(a:linter.command_callback)(a:buffer)
\ : a:linter.command
endfunction
|