Currently the `title`, `message` and `percentage` is stored for a
progress, but there is also an optional `cancellable` that comes in with
both the `WorkDoneProgressBegin` and also `WorkDoneProgressReport`. This
change also stores that value so that a plugin can access it when they
do a lookup in `client.messages`.
Previously the `offset!` directive populated the metadata in such a way
that the new range could be attributed to a specific capture. #14046
made it so the directive simply stored just the new range in the
metadata and information about what capture the range is based from is
lost.
This change reverts that whilst also correcting the docs.
The client state is cleaned up both in client.stop() as well as in the
client.on_exit() handler. Technically, the client has not actually
stopped until the on_exit handler is called, so we should just do this
cleanup there and remove it from client.stop().
This makes the common use case easier.
If one really needs access to all clients, they can create a filter
function which manually calls `get_active_clients`.
The current approach of using `on_attach` callbacks for configuring
buffers for LSP is suboptimal:
1. It does not use the standard Nvim interface for driving and hooking
into events (i.e. autocommands)
2. There is no way for "third parties" (e.g. plugins) to hook into the
event. This means that *all* buffer configuration must go into the
user-supplied on_attach callback. This also makes it impossible for
these configurations to be modular, since it all must happen in the
same place.
3. There is currently no way to do something when a client detaches from
a buffer (there is no `on_detach` callback).
The solution is to use the traditional method of event handling in Nvim:
autocommands. When a LSP client is attached to a buffer, fire a
`LspAttach`. Likewise, when a client detaches from a buffer fire a
`LspDetach` event.
This enables plugins to easily add LSP-specific configuration to buffers
as well as enabling users to make their own configurations more modular
(e.g. by creating multiple LspAttach autocommands that each do
something unique).
Problem:
vim.lsp: require("vim.lsp.health").check()
========================================================================
- ERROR: Failed to run healthcheck for "vim.lsp" plugin. Exception:
function health#check, line 20
Vim(eval):E5108: Error executing lua ...m/HEAD-6613f58/share/nvim/runtime/lua/vim/lsp/health.lua:20: attempt to index a nil value
stack traceback:
...m/HEAD-6613f58/share/nvim/runtime/lua/vim/lsp/health.lua:20: in function 'check'
[string "luaeval()"]:1: in main chunk
Solution:
Check for nil.
fix#18602
Implement filtering of actions based on the kind when passing the 'only'
parameter to code_action(). Action kinds are hierachical with a '.' as
the separator, and the filter thus allows, for example, both 'quickfix'
and 'quickfix.foo' when requestiong only 'quickfix'.
Fix https://github.com/neovim/neovim/pull/18221#issuecomment-1110179121
LSP servers should be daemonized (detached) so that they run in a
separate process group from Neovim's. Among other things, this ensures
the process does not inherit Neovim's TTY (#18475).
Make this configurable so that clients can explicitly opt-out of
detaching from Nvim.
Adds filter and id options to filter the client to use for rename.
Similar to the recently added `format` function.
rename will use all matching clients one after another and can handle a
mix of prepareRename/rename support. Also ensures the right
`offset_encoding` is used for the `make_position_params` calls
This fixes issues where subsequent calls to vim.lsp.codelens.refresh()
would have no effect due to the buffer not getting cleared from the
active_refresh table.
Examples of how such scenarios would occur are:
- A textDocument/codeLens result yielded an error.
- The 'textDocument/codeLens' handler was overriden in such a way that
it no longer called vim.lsp.codelens.on_codelens().
This is primarily intended to act as documentation for the developer so
they know exactly when and what to remove. This will help prevent the
situation of deprecated code lingering for far too long as developers
don't have to worry if a function is safe to remove.
