The existing c-charp linter used the --syntax check mode of the mono mcs
compiler only. The new mcsc linter tries to compile the files located in
a directory tree located bejond the specified source directory or the
current one if no source is explicitly specified. The resulting module
target is placed in a temporary file managed by ale.
* Add prettier fixer support for typescript
* Add prettier fixer support for css and scss
* Add prettier fixer support for json
* Use getbufvar() to get &filetype
This linter works by invoking the `thrift` compiler with the buffer
contents and reporting any parser and code generation issues.
The handler rolls its own output-matching loop because we have the
(unfortunate) requirement of handling error output that spans multiple
lines.
Unit tests cover both the command callback and handler, and there is
initial documentation for all of the option variables.
SwiftFormat is a tool that can be used to format Swift files. This commit adds
support for using SwiftFormat as a fixer from ALE. It looks for executables in
the Pods directory, then the Pods directory for a React Native project, then
finally falls back to the globally installed instance if neither of those were
found.
https://github.com/nicklockwood/SwiftFormat
A limited number of clang-tidy checks can be used with C, too. I pretty much
copied and refactored the C++ clang-tidy linter, and added some documentation
about C-compatible checks.
* Add support for scalastyle
* Add scalastyle docs
* scalastyle support for column numbers
* off by one column
* Add tests for scalastyle command and handler
* update readme for scalastyle
* allow full scalastyle options instead of just config file
* fix indentation
* allow scalastyle config file in parent directories by a couple names.
* check for missing match args with empty
* remove echo
* use a for loop
* Move FindRailsRoot() to more general location
* Add rails_best_practices handler (resolves#655)
* Update documentation for rails_best_practices
Also add brakeman to *ale* documentation.
* rails_best_practices: allow overriding the executable
* rails_best_practices: format help correctly
* rails_best_practices: capture tool output on Windows
* Add stack-build linter for Haskell
The stack-build linter works better than the other two linters when
you're working with an entire Haskell project. It builds the project
entirely and reports any errors.
The other two Haskell GHC linters only work on single files, which can
result in spurious errors (for example, not being able to find imports).
* Document all available Haskell linters
* Split GHC checkers into separate files