prompt has fuzzy filtering which is more discoverable than the menu
mode's regex filtering (because that one needs / to trigger it).
There are no important differences left, so replace the menu builtin
with a prompt-based command.
prompt does not support markup in the completion menu, so drop that
feature for now.
I dedicate any and all copyright interest in this software to the
public domain. I make this dedication for the benefit of the public
at large and to the detriment of my heirs and successors. I intend
this dedication to be an overt act of relinquishment in perpetuity
of all present and future rights to this software under copyright
law.
Remove FirstCharMatch which does not impact any of the test cases
and explicitely detect paths by using a BaseName flag when we match
the basename of the path.
Read output from the script as it comes and update the candidate
list progressively.
Disable updating of the list when a completion has been explicitely
selected.
This make the completer lifetime tied to the Prompt mode and removes
the need for the Start flag. It also makes it possible to cleanup
on completer destruction.
Usually, the prompt resets "m_line_changed" after invoking the
change handler:
if (m_line_changed)
{
m_callback(m_line_editor.line(), PromptEvent::Change, context());
m_line_changed = false;
}
but with
prompt '' '' -on-change %{ execute-keys <a-semicolon>vl } -shell-script-candidates %{ seq 100 }
the change handler pushes a normal mode with "<a-semicolon>" and then
hands back control to the event loop. Later when the normal mode is
popped we run "Prompt::on_enabled()" but don't actually redraw the
completion pager.
Since the <a-semicolon> excursion by definition did not change our
prompt state, we don't need to recompute completions, only render them.
Do that.
This helps commands that use preview the selected completion via a
"prompt -on-change" handler.
Recent changes to `make_error_pattern` added a space to the default
value. This means that
set g make_error_pattern <tab>
now produces an invalid command because regexes are not quoted. We do
quote strings; regexes are not all that different so quote them too.
Today I can control "terminal" and "new" by changing the terminal
alias but I always need to choose a concrete implementation, like
"tmux-terminal-horizontal", even when there is otherwise no need to
mention tmux in my config.
Allow to configure windowing system and window placement independently
by introducing dedicated options.
This allows to create mappings that work in any windowing system like
map global user c %{:with-option windowing_placement window new<ret>}
map global user '"' %{:with-option windowing_placement vertical new<ret>}
map global user '%' %{:with-option windowing_placement horizontal new<ret>}
For windowing systems that don't support all placements, you can wrap
the above in try/catch to fall back on the "window" variant which is
defined for all windowing systems.
When using multiple (nested) windowing systems, you might want to
add mappings like
map global user t %{:with-option windowing_module tmux new<ret>}
map global user T %{:with-option windowing_module wayland new<ret>}
---
This changes the default "terminal" alias for some modules. In
particular, instead of delegating to
iterm-terminal-vertical
screen-terminal-vertical
tmux-terminal-horizontal
wezterm-terminal-vertical
it will now by default delegate to the respective "-window" variant.
We could maintain backwards compatiblity here by setting the
"windowing_placement" option accordingly, but the new behavior seems
more logical?
Also, this removes the "terminal-tab" alias which was only defined
by the kitty module.
We could try to keep the alias approach and implement a "with-alias"
command, however that approach can only capture both dimensions
(windowing system and placement) if we add tons of commands
like "terminal-horizontal" (with implied windowing system) and
"tmux-terminal" (with implied placement).
Side thought: we could also get rid of the "focus" alias and instead
define
define-command focus %{
"%opt{windowing_module}-focus"
}
Closes#3943, #4425
Running an invalid command like "grep -abc" shows no output at all.
Let's give better feedback by showing the error message from grep.
We used to do this until an unrelated change, bd5955c73 (grep: remove
eventual \r, 2013-02-13).
subsequence_match_smart_case does not necessarily find the word,
but we then check for a contiguous match in which case, if the query
is a word, we also have a single word match.
This removes the need for the setup_child callback which is quite
tricky as it cannot touch any memory due to vfork, and removes the
Pipe abstraction in favor of a more general UniqueFd one.
Accepter is a wrapper around a socket watcher. It always uses
EventMode::Urgent, so it will be included in pselect(2) (via
EventManager::handle_next_events()) even while we are waiting for a
(blocking) shell command. However we will not execute the command
received on this socket until after the shell command is done.
This is implemented with an early return:
void handle_available_input(EventMode mode)
{
while (not m_reader.ready() and fd_readable(sock))
m_reader.read_available(sock);
if (mode != EventMode::Normal or not m_reader.ready())
return;
so we read available data but don't close the socket.
When using this reproducer
{
sleep 1 && echo 'nop' | kak -p session
} &
kak -n -s session -e '%sh{sleep 7}'
the first "m_reader.read_available(sock);" will read "nop". Then
"m_reader.ready()" is true but the socket is still readable. This
means that pselect(2) will return it every time, without blocking.
This means that the shell manager runs a hot loop between pselect(2)
and waitpid(2).
Fix this problem demoting command socket watchers from
EventMode::Urgent. This means that we won't pselect(2) it when handling
only urgent events. Control-C still works, I'm not sure why.
Alternative fix: we could read the commands but then disable the
socket. I tried this but it seems too complex.
Closes#5014
This adds a somewhat discoverable frontend for common uses of the
patch command.
Here are some frequently used commands
# apply selected changes
git apply
# revert selected changes
git apply -R
# stage selected changes
git apply --cached
# unstage selected changes
git apply --cached -R
# apply selected changes and stage them
git apply --index
For everyday use that's a lot of typing so I recommend adding mappings.
One of the features I miss most from Magit/Fugitive/Tig is to
apply/revert/stage/unstage individual hunks or even exactly the
selected line(s). This provides a much more convenient way of
splitting changes than "git add/restore -p".
Implement a "patch" command that applies the selected lines within
a diff by piping them to the "patch" program.
It can also feed other programs like "git apply" (see the next commit).
Original discussion: https://discuss.kakoune.com/t/atomic-commits-in-kakoune/1446
Interestingly, :patch is defined outside the "patch" module. This is
to make it readily available for interactive use.
Putting it into the module does not save any work.
I tentatively added a patch module anyway so we can explicitly declare
this dependency.. although there is the argument that this is not
really needed?