tmux-direct is functionally the same as tmux-256color, except it
directly reports 24-bit color and how to set them (setaf/setab)
via ncurses 6.x's extended terminfo format.
Problem:
Hover response of MarkedString[] where the first element contains a
language identifier treated as empty.
Solution:
Fix empty check to handle case of MarkedString[] where the first element
is a pair of a language and value.
Problem:
Nvim does not have a core concept for indicating "progress" of
long-running tasks. The LspProgress event is specific to LSP.
Solution:
- `nvim_echo` can emit `kind="progress"` messages.
- Emits a `Progress` event.
- Includes new fields (id, status, percent) in the `msg_show` ui-event.
- The UI is expected to overwrite any message having the same id.
- Messages have a globally unique ID.
- `nvim_echo` returns the message ID.
- `nvim_echo(… {id=…})` updates existing messages.
Example:
local grp = vim.api.nvim_create_augroup("Msg", {clear = true})
vim.api.nvim_create_autocmd('Progress', {
pattern={"term"},
group = grp,
callback = function(ev)
print(string.format('event fired: %s', vim.inspect(ev))..'\n')
end
})
-- require('vim._extui').enable({enable=true, msg={target='msg', timeout=1000}})
vim.api.nvim_echo({{'searching'}}, true, {kind='progress', percent=80, status='running', title="terminal(ripgrep)"})
local id = vim.api.nvim_echo({{'searching'}}, true, {kind='progress', status='running', percent=10, title="terminal(ripgrep)"})
vim.api.nvim_echo({}, true, {id = id, kind='progress', percent=20, status = 'running', title='find tests'})
vim.api.nvim_echo({}, true, {id = id, kind='progress', status='running', percent=70})
vim.api.nvim_echo({{'complete'}}, true, {id = id, kind='progress', status='success', percent=100, title="find tests"})
Followups:
- Integrate with 'statusline' by listening to the Progress autocmd event.
- Integrate progress ui-event with `vim._extui`.
Problem: completion: not possible to delay the autcompletion
Solution: add the 'autocompletedelay' option value (Girish Palya).
This patch introduces a new global option 'autocompletedelay'/'acl' that
specifies the delay, in milliseconds, before the autocomplete menu
appears after typing.
When set to a non-zero value, Vim waits for the specified time before
showing the completion popup, allowing users to reduce distraction from
rapid suggestion pop-ups or to fine-tune the responsiveness of
completion.
The default value is 0, which preserves the current immediate-popup
behavior.
closes: vim/vim#17960a09b1604d4
N/A patch: vim-patch:9.1.1641: a few compiler warnings are output
Co-authored-by: Girish Palya <girishji@gmail.com>
Problem: Some use cases might lead to `vim.pack.add()` failing to
`:packadd` a plugin because of missing entry in 'packpath'. Like with
`nvim --clean` or manually setting `$XDG_DATA_HOME` during startup.
Solution: Document it. A more proactive approach can be ensuring correct
'packpath' entry, but it is currently somewhat verbose to do (due to
having to adjust for Windows using `\` in 'packpath' entries).
Problem:
The load function in opts was difficult to use if you wished to
customize based on the plugin being loaded.
You could get the name, but without some way to mark a spec, that was of
limited usefulness unless you wanted to hardcode a list of names in the
function, or write a wrapper around the whole thing
Solution:
Allow users to provide an arbitrary data field in plugin specs so that
they may receive info as to how to handle that plugin in load, get() and
events, and act upon it
Co-authored-by: BirdeeHub <birdee@localhost>
Co-authored-by: Evgeni Chasnovski <evgeni.chasnovski@gmail.com>
Problem: Unable to see e.g. `inputlist()` prompts that exceed the dialog
window height.
Multi-line prompts are not handled properly, and tracking
is insufficient for messages in cmdline_block mode.
Solution: Add vim.on_key handler while the dialog window is open that
forwards paging keys to the window.
Properly render multi-line prompts. Keep track of both the start
and end of the current cmdline prompt. Append messages after the
current prompt in cmdline_block mode.
Problem: filetype: Cangjie files are not recognized
Solution: Detect *.cj files as cangjie filetype, include a syntax plugin
(WuJunkai2004)
This commit introduces a new syntax highlighting file for the Cangjie
programming language, includes 4 parts as required:
- The main syntax file: runtime/syntax/cangjie.vim
- The filetype detection rule in: runtime/filetype.vim
- The documentation update in: runtime/doc/syntax.txt
- Some menus
References:
- https://gitcode.com/Cangjie
- https://cangjie-lang.cn/
fixes: 18014
closes: vim/vim#180270c4405a6b2
Co-authored-by: WuJunkai2004 <wujunkai20041123@outlook.com>
Problem: many FileType autocommands assume curbuf is the same as the target
buffer; this can cause &syntax to be restored for the wrong buffer in some cases
when TSHighlighter:destroy is called.
Solution: run nvim_exec_autocmds in the context of the target buffer via
nvim_buf_call.
Problem:
Detection of the pynvim module is currently done by finding the first
Python interpreter in the `PATH` and checking if it can import pynvim.
This has several problems:
- Activation of an unrelated Python virtual environment will break
automatic detection, unless pynvim is also installed in that
environment.
- Installing pynvim to the expected location is difficult. User
installation into the system-wide or user-wide Python site area is now
deprecated. On Ubuntu 24.04 with Python 3.12, for example, the
command `pip install --user pynvim` now fails with the error message
`error: externally-managed-environment`.
- Users may create a dedicated virtual environment in which to install
pynvim, but Nvim won't detect it; instead, they must either activate
it before launching Nvim (which interferes with the user of other
virtual environments) or else hard-code the variable
`g:python3_host_prog` in their `init.vim` to the path of the correct
Python interpreter. Neither option is desirable.
Solution:
Expose pynvim's Python interpreter on the `PATH` under the
name `pynvim-python`. Typical user-flow:
1. User installs either uv or pipx.
2. User installs pynvim via:
```
uv tool install --upgrade pynvim
# Or:
pipx install --upgrade pynvim
```
With corresponding changes in pynvim https://github.com/neovim/pynvim/issues/593
the above user-flow is all that's needed for Nvim to detect the
installed location of pynvim, even if an unrelated Python virtual
environments is activated. It uses standard Python tooling to automate
the necessary creation of a Python virtual environment for pyenv and the
publication of `pynvim-python` to a directory on `PATH`.
