__fish_cancel_commandline was unused (even before) and has some issues
on multiline commandlines. Make it use the previously active logic.
Closes#10935
Cherry-picked from 5de6f4bb3d
Part of #1842
It's like jump-to-matching-bracket, but jumps right before the bracket
I will use it to mimic vi 'ab' and 'ib' text objects in the next commit
Given complicated semantics of jump-till-matching-bracket, an alternative name
could be 'jump-inside-matching-brackets'. But that would make names non-symmetrical.
I'm not sure what is worse.
Prior to this commit, there was a stack of ReaderDatas, each one has a
reference to a Parser (same Parser in each, for now). However, the current
ReaderData is globally accessible. Because it holds a Parser, effectively
anything can run fish script; this also prevents us from making the Parser
&mut.
Split these up. Create ReaderData, which holds the data portion of the
reader machinery, and then create Reader which holds a ReaderData and a
Parser. Now `reader_current_data()` can only return the data itself; it
cannot execute fish script.
This results in some other nice simplifications.
This is a start on untangling input. Prior to this, a ReaderData and an
Inputter would communicate with each other; this is natural in C++ but
difficult in Rust because the Reader would own an Inputter and therefore
the Inputter could not easily reference the Reader. This was previously
"resolved" via unsafe code.
Fix this by collapsing Inputter into Reader. Now they're the same object!
Migrate Inputter's logic into a trait, so we get some modularity, and then
directly implement the remaining input methods on ReaderData.
This would crash if you ran `commandline -f backward-jump`.
The C++ version would read a char (but badly), this doesn't anymore.
So, at least instead of crashing, just do nothing.
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.
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
On Konsole, given
bind escape,i 'echo escape i'
bind alt-i 'echo alt-i'
pressing alt-i triggers the wrong binding. This is because we treat "escape
followed by i" as "alt-i". This is to support raw sequences like "\ei"
which are probably meant as "alt-i" -- we match such inputs to both mappings.
This double matching is not necessary for new-style bindings which
unambiguously describe the key presses, so let's activate this sequence
matching only for bindings specified as raw sequences.
Conversely, we currently fail to match an XTerm raw binding for ctrl-enter:
echo 'XTerm.vt100.formatOtherKeys: 0' | xrdb
xterm -e fish
bind \e\[27\;5\;13~ execute
because we decode this to a single char; we match the leading CSI but not
the entire sequence. So this is a raw binding where we accidentally
match full, modified keys. Fix that too (two birds with one stone).
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.
If a binding was input starting with "\e", it's usually a raw control sequence.
Today we display the canonical version like:
bind --preset alt-\[,1,\;,5,C foo
even if the input is
bind --preset \e\[1\;5C foo
Make it look like the input again. This looks more familiar and less
surprising (especially since we canonicalize CSI to "alt-[").
Except that we use the \x01 representation instead of \ca because the
"control" part can be confusing. We're inside an escape sequence so it seems
highly unlikely that an ASCII control character actually comes from the user
holding the control key.
The downside is that this hides the canonical version; it might be surprising
that a raw-escape-sequence binding can be erased using the new syntax and
vice versa.
For numpad 1 with nulock, Alacritty sends
escape,[,5,7,4,0,0,u
which is codepoint \x31, key "1". We have a terminfo mapping for "sright"
which translates to
escape,[,1,;,2,C
The first two characters, escape and [ match. Then we accidentally match the
"1" from the mapping against the entire sequence, because that sequence is
canonicalized to codepoint "1" . The most blatant problem is that we discard
the rest of the sequence. Fix that.
This allows us to re-enable raw CSI u mappings like "bind \e[1u ..."
which is what kitty uses for shell integration.
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
