I think given a local terminal running fish on a remote system, we can't
assume that an input sequence like \ea is sent all in one packet. (If we
could that would be perfect.)
Let's readd the default escape delay, to avoid a potential regression, but
make it only apply to raw escape bindings like "bind \e123". Treat sequences
like "bind escape,1,2,3" like regular sequences, so they can be bound on
all terminals.
This partially reverts commit b815319607.
Given "abbr foo something", the input sequence
foo<space><ctrl-z><space>
would re-expand the abbreviation on the second space which is surprising
because the cursor is not at or inside the command token. This looks to be
a regression from 00432df42 (Trigger abbreviations after inserting process
separators, 2024-04-13)
Happily, 69583f303 (Allow restricting abbreviations to specific commands
(#10452), 2024-04-24) made some changes that mean the bad commit seems no
longer necessary. Not sure why it works but I'll take it.
Remove the last non scoped place where we disable protocols (just before
exec(1)); it's not necessary with the current approach because we always
disable inside eval.
There is an edge case where we don't:
fish -ic "exec bash"
leaving bash with CSI u enabled. Disable that also in -ic mode where we
don't have a reader.
In future we should use the same approach for restore_term_mode() but I'm
not sure which one is better.
We enable terminal protocols once at startup, and disable them before exit.
Additionally, we disable them while evaluating commands (see 8164855b7 (Disable
terminal protocols throughout evaluation, 2024-04-02))..
Thirdly, we re-enable protocols inside builtin read (where it's disabled
because we are evaluating something). All of these three are scoped and
statically guaranteed to not leak into each others scopes.
There is another place where we enable protocols non-scoped: when we
receive a notification that a job is stopped. If this is ever hit, things
will be imbalanced and we'll fail to restore the right terminal state,
or (more likely) crash due the assertion in terminal_protocols_enable().
This code path used to be necessary when we disabled protocols only while
actually executing an external command but we changed that in 8164855b7,
so it should no longer be. Remove it.
I haven't been able to find a test case, I'll try to do that later.
The main reason we changed the scope of protocols was focus reporting (#10408).
We have given up on that for now (outside tmux where I can't get it to work)
so we might want to reconsider and go back to the "optimized" approach of
enabling it for as long as possible. But this is simpler, easier to verify.
We sometimes leak ^[[I and ^[[O focus reporting events when run from VSCode's
"Run python file" button in the top right corner. To reproduce I installed
the ms-python extension set the VSCode default shell to fish and repeatedly
ran a script that does "time.sleep(1)". I believe VSCode synthesizes keys
and triggers a race condition.
We can probably fix this but I'm not sure when I'll get to it (given how
relatively unimportant this feature is).
So let's go back to the old behavior of only enabling focus reporting in tmux.
I believe that tmux is affected by the same VSCode issue (also on 3.7.1 I
think) but I haven't been able to get tmux to emit focus reporting sequences
yet. Still, keep it to not regress cursor shape (#4788). So far this is
the only motivation for focus reporting and I believe it is only relevant
for terminals that can split windows (though there are a bunch that do).
Closes#10448
On Konsole with
function my-bindings
bind --preset --erase escape
bind escape,i 'echo escape i'
end
set fish_key_bindings my-bindings
the "escape,i" binding doesn't trigger. This is because of our special
handling of the escape key prefix. Other multi-key bindings like "bind j,k"
wait indefinitely for the second character. But not "escape,i"; that one
has historically had a low timeout (fish_escape_delay_ms). The motivation
is probably that we have a "escape" binding as well that shouldn't wait
indefinitely.
We can distinguish between the case of raw escape sequence binding like "\e123"
and a binding that talks about the actual escape key like "escape,i". For the
latter we don't need the special treatment of having a low timeout, so make it
fall back to "fish_sequence_key_delay_ms" which waits indefinitely by default.
On
a;
we don't expand the abbreviation because the cursor is right of semicolon,
not on the command token. Fix this by making sure that we call expand-abbr
with the cursor on the semicolon which is the end of the command token.
(Now that our bind command execution order is less surprising, this is doable.)
This means that we need to fix the cursor after successfully expanding
an abbreviation. Do this by setting the position explicitly even when no
--set-position is in effect.
An earlier version of this patch used
bind space self-insert backward-char expand-abbr or forward-char
The problem with that (as a failing test shows) was that given "abbr m
myabbr", after typing "m space ctrl-z", the cursor would be after the "m",
not after the space. The second space removes the space, not changing the
cursor position, which is weird. I initially tried to fix this by adding
a hack to the undo group logic, to always restore the cursor position from
when begin-undo-group was used.
bind space self-insert begin-undo-group backward-char expand-abbr end-undo-group or forward-char
However this made test_torn_escapes.py fail for mysterious reasons.
I believe this is because that test registers and triggers a SIGUSR1 handler;
since the signal handler will rearrange char events, that probably messes
with the undo group guards.
I resorted to adding a tailor-made readline cmd. We could probably remove
it and give the new behavior to expand-abbr, not sure.
Fixes#9730
See the parent commit for some context. Turns out that 8bf8b10f6 (Extended &
human-friendly keys, 2024-03-30) broke this for terminals that speak CSI u.
This is pretty complex, probably not worth it.
When a terminal sends \x1ba, that could be either escape,a or alt-a.
Historically we've handled this with an escape delay that defaults to 30
milliseconds. If we read nothing for that time, it's escape. Otherwise it's
an alt modifier (or an escape sequence).
As a side effect of 8bf8b10f6 (Extended & human-friendly keys, 2024-03-30) we
added a new way of disambiguating escape: whenever we read the escape byte,
we immediately try another (nonblocking) read. If it succeeds, we treat it
as modifier, else it's escape. Before that commit, we didn't have a concept
of modifiers.
The new way works fine for disambiguating escape,a from alt-a (as pressed
by the user) because only for alt-a the data is sent in the same packet.
So we no longer need the escape delay to disambiguate the alt from the
escape key. Let's simplify things by not using it by default.
The escape delay as set by fish_escape_delay_ms also serves another purpose;
it allows to disambiguate "escape,a" from "escape (pause) a". For that use
case we want to keep it.
Commit 8164855b7 (Disable terminal protocols throughout evaluation, 2024-04-02)
changed where we output control sequences (to enable bracketed paste and CSI).
Likewise, f285e85b0 (Enable focus reporting only just before reading from
stdin, 2024-04-06) added control sequence output just before we read().
This output causes problems because it invalidates our stdout/stderr
timestamps, which causes us to think that a rogue background process wrote
to the terminal; we react by abandoning the current line and redrawing the
prompt below. Our fix was to refresh the TTY timestamps after we run a bind
command that might add stdout (#3481).
Since commit c3cd68dda (Process shell commands from bindings like regular
char events, 2024-03-02), this timestamp refresh logic is in the wrong place;
shell commands are run later now; we could move it but wait -
... we also need to make sure to refresh timestamps after outputting control
sequences. Since bracketed paste is enabled after CSI u, we can skip the
latter. Additionally, since we currently output control sequences before
every single top-level interactive command, we no longer need to separately
refresh timestamps in between commands.
Fixes#10409
Some terminals send the focus-in sequences ("^[I") whenever focus reporting is
enabled. We enable focus reporting whenever we are finished running a command.
If we run two commands without reading in between, the focus sequences
will show up on the terminal.
Fix this by enabling focus-reporting as late as possible.
This fixes the problem with `^[I` showing up when running "cat" in
gnome-terminal https://github.com/fish-shell/fish-shell/issues/10411.
This begs the question if we should do the same for CSI u and bracketed paste.
It's difficult to answer that; let's hope we find motivating test cases.
If we enable CSI u too late, we might misinterpret key presses, so for now
we still enable those as early as possible.
Also, since we now read immediately after enabling focus events, we can get
rid of the hack where we defer enabling them until after the first prompt.
When I start a fresh terminal, the ^[I no longer shows up.
See the changelog additions for user-visible changes.
Since we enable/disable terminal protocols whenever we pass terminal ownership,
tests can no longer run in parallel on the same terminal.
For the same reason, readline shortcuts in the gdb REPL will not work anymore.
As a remedy, use gdbserver, or lobby for CSI u support in libreadline.
Add sleep to some tests, otherwise they fall (both in CI and locally).
There are two weird failures on FreeBSD remaining, disable them for now
https://github.com/fish-shell/fish-shell/pull/10359/checks?check_run_id=23330096362
Design and implementation borrows heavily from Kakoune.
In future, we should try to implement more of the kitty progressive
enhancements.
Closes#10359
This binding is akin to ForwardSingleChar but it is "passive" in that is not
intended to affect the meta state of the shell: autocompletions are not accepted
if the cursor is at the end of input and it does not have any effect in the
completions pager.
A long standing issue is that bindings cannot mix special input functions
and shell commands. For example,
bind x end-of-line "commandline -i x"
silently does nothing. Instead we have to do lift everything to shell commands
bind x "commandline -f end-of-line; commandline -i x"
for no good reason.
Additionally, there is a weird ordering difference between special input
functions and shell commands. Special input functions are pushed into the
the queue whereas shell commands are executed immediately.
This weird ordering means that the above "bind x" still doesn't work as
expected, because "commandline -i" is processed before "end-of-line".
Finally, this is all implemented via weird hack to allow recursive use of
a mutable reference to the reader state.
Fix all of this by processing shell commands the same as both special input
functions and regular chars. Hopefully this doesn't break anything.
Fixes#8186Fixes#10360Closes#9398
Unlike C++, Rust requires "char" to be a valid Unicode code point. As a
workaround, we take the raw (probably UTF-8-encoded) input and convert each
input byte to a char representation from the private use area (see commit
3b15e995e (str2wcs: encode invalid Unicode characters in the private use
area, 2023-04-01)). We convert back whenever we output the string, which
is correct as long as the encoding didn't change since the data was input.
We also need to convert keyboard input; do that.
Quick testing shows that our reader drops PUA characters. Since this patch
converts both invalid Unicode input as well as PUA input into a safe PUA
representation, there's no longer a reason to not add PUA characters to
the commandline, so let's do that to restore traditional behavior.
Render them as � (REPLACEMENT CHARACTER); unfortunately we show one per
input byte instead of one per code point. To fix this we probably need our
own char type.
While at it, remove some special cases that try to prevent insertion of
control characters. I don't think they are necessary. Could be wrong..
