This updates is_windows_subsystem_for_linux() to take a WSL version to test for
(any, v1, or v2) and returns the boolean result depending on the system. I've
benchmarked and when running on regular Linux, this is still just as fast as the
previous binary check; it's only when it's WSL that this takes about 20ns
longer to figure out which variant.
Note that older WSLv2 kernels had a `-microsoft-standard` suffix while newer
ones appear to have a `-microsoft-standard-WSL2` suffix, so we make sure to test
for the least common denominator. (It doesn't matter to us, but note that newer
WSLv2 kernels have four dots in the version string!)
WSL workarounds pertaining to the default Windows terminal or executable
behavior of win32 binaries under a WSL shell are extended to WSLv2 while those
specific to oddities in kernel behavior are confined to WSLv1 only. (It
technically wouldn't hurt to extend them to WSLv2 but there's no good reason to
do so, either.)
A common complaint has been the massive amount of directories Windows appends to
$PATH slowing down fish when it attempts to find a non-existent binary (which it
does a lot more often than someone not in the know might think). The typical
workaround suggested is to trim unneeded entries from $PATH, but this a) has
considerable friction, b) breaks resolution of Windows binaries (you can no
longer use `clip.exe`, `cmd.exe`, etc).
This patch introduces a two-PATH workaround. If the cmd we are executing does
not contain a period (i.e. has no extension) it by definition cannot be a
Windows executable. In this case, we skip searching for it in any of the
auto-mounted, auto-PATH-appended directories like `/mnt/c/Windows/` or
`/mnt/c/Program Files`, but we *do* include those directories if what we're
searching for could be a Windows executable. (For now, instead of hard-coding a
list of known Windows executable extensions like .bat, .cmd, .exe, etc, we just
depend on the presence of an extension at all).
e.g. this is what starting up fish prints with logging enabled (that has been
removed):
bypassing 100 dirs for lookup of kill
bypassing 100 dirs for lookup of zoxide
bypassing 100 dirs for lookup of zoxide
bypassing 100 dirs for lookup of fd
not bypassing dirs for lookup of open.exe
not bypassing dirs for lookup of git.exe
This has resulted in a massive speedup of common fish functions, especially
anywhere we internally use or perform the equivalent of `if command -q foo`.
Note that the `is_windows_subsystem_for_linux()` check will need to be patched to
extend this workaround to WSLv2, but I'll do that separately.
Under WSL:
* Benchmark `external_cmds` improves by 10%
* Benchmark `load_completions` improves by an incredible 77%
c0bcd817ba removed some key bindings, including the bindings of
ESC ESC [ C for Alt-Right. the commit claimed that
"Sequences like \e\eOC are Escape followed by an SS3 arrow key which we
can already decode separately." but for whatever reason this doesn't work:
Alt-Right is broken in iTerm2 by default.
Restore the default ESC ESC [ X bindings for iTerm2 compatibility.
On this binding we fail to disable CSI u
bind c-t '
begin
set -lx FZF_DEFAULT_OPTS --height 40% --bind=ctrl-z:ignore
eval fzf | while read -l r; echo read $r; end
end
'
because for "fzf", ParseExecutionContext::setup_group() returns early with the
parent process group (which should be fish's own) , hence "wants_terminal"
is false. This seems questionable, I don't think the eval should make a
difference here.
For now, don't touch it; use the more accurate way of detecting whether
a process may read keyboard input. In many of such cases "wants_terminal"
is false, like
echo (echo 1\n2\n3 | fzf)
Fixes#10504
Don't unconditionally execute the plumbing to get `rustc -C` completions (use it
only when trying to complete `rustc -C`), filter out deprecated options, and use
fewer calls to the `string` builtin to optimize further.
Need to do the same thing for the `-Z` completions next, those hang the shell
for a good 1.5+ seconds.
I've been needing this for some time to generate completions for functions that
we can dynamically generate completions for that take one or more
comma-separated values in any order.
Try not to let `cargo asm` build a large project and hang the terminal (and make
the fans go crazy) if we try to generate a list of functions/paths and the
project is in a dirty state. Also support dynamic completion of --target.
If rustup is installed, use the existing `__rustup_installed_targets` to get a
list of installed targets to compile for. If it's not, print a list of all
targets known to rustc.
It sucks that the completions file is currently architected in a way where we
have to manually specify the arguments for each subcommand. 🤷
This hot function dominates the flamegraphs for the completions thread, and any
optimizations are worthwhile.
A variety of different approaches were tested and benchmarked against real-world
fish-history file inputs and this is the one that won out across all rustc
target-cpu variations tried.
Benchmarks and code at https://github.com/mqudsi/fish-yaml-unescape-benchmark
Fixes the build on Ubuntu distributions with aggressive enabling of LTO
for all builds.
This build profile sets CFLAGS and CXXFLAGS in a way that prevents cargo
tests from linking. This manifests as errors like:
= note: make[5]: *** read jobs pipe: Bad file descriptor. Stop.
make[5]: *** Waiting for unfinished jobs....
lto-wrapper: fatal error: make returned 2 exit status
compilation terminated.
/usr/bin/ld: error: lto-wrapper failed
collect2: error: ld returned 1 exit status
We don't forward this variable for storage in any structs, so there's no reason
to go through an Arc instead of returning the `&'static EnvStack` directly.
NB: This particular change was safe, and passes all tests on its own.
We don't forward this variable for storage in any structs, so there's no reason
to go through an Arc instead of returning the `&'static EnvStack` directly.
These have clearer sync/unsync semantics and now ship with rust itself.
They don't paper over any possible cross-thread issues, and we can specifically
choose which we want for the purpose.
`Parser` is a single-threaded `!Send`, `!Sync` type and does not need to use
`Arc` for anything. We were using it because that's all we had for the parser's
`EnvStack`, but though that is *technically* protected internally by a mutex
(shared with global EnvStack), there's nothing to say that other parsers with a
narrower scope/lifetime on other threads will be necessarily using the same
backing mutex.
We can safely marshal the existing `Arc<EnvStack>` we get from
`environment::principal()` into an `Rc<EnvStack>` since the underlying reference
is always valid. To prove this point, we could have PRINCIPAL_STACK be a static
`EnvStack` and have `environment::principal()` use `Arc::from_raw()` to turn
that into an `Arc<EnvStack>`, but there's no need to factorize this process.
By inverting the order of storage, we can use an `OnceCell`/`unsync::Lazy`
inside the Send/Sync `MainThread<T>` and remove the need for a lock altogether.
It's reasonable since this is only checking to see that the history file
contains the expected format and if it's corrupted but we at least got what we
expect to be the correct key/value pairs, then that's all we can do.
Of course the real motivation is to speed up this very hot function in any way
possible!
On the completions and history thread, the parent function
HistoryFileContents::decode_item() is responsible for ~60% of the CPU time, and
extract_prefix_and_unescape_yaml() alone comprising 14% (of the total).
This change removes allocations in the event that the history item is either
fully or partially plain yaml with no escapes to begin with, and brings down the
execution time of this function to only 7% of the total execution time.
The bulk of the remaining time is spent in wcs2string(), which is called
unconditionally and is naturally alloc-heavy.
- Remove duplicated options - we had `-type` 9 times!
- Remove deprecated options and synonyms
- Make descriptions shorter, even removing some - when they're inscrutable they might as well not be there.
Really, 99.8% of these options are of interest to nobody except possibly (a subset of) gcc developers, so it pays to have *less* on your screen that you don't use anyway.
We ignore typed control characters 33a7172ee (Revert to not inserting control
characters from keyboard input, 2024-03-02).
We used to do the same for bracketed paste but that changed in 8bf8b10f6
(Extended & human-friendly keys, 2024-03-30) which made bracketed paste
behave like fish_clipboard_paste; it inserts the exact input (minus leading
whitespace etc). At that time it wasn't clear to me which behavior was the
right one (because of the inconsistency between terminal and bracketed paste).
As reported in
https://matrix.to/#/!YLTeaulxSDauOOxBoR:matrix.org/$PEEOAoyJY-644amIio0CWmq1TkpEDdSy2QnfJdK-dco
trailing tabs in pasted text can be confusing.
There seems to be not real need to insert raw control characters into the
command line, so let's strip them when pasting.
Now the only way to insert a raw control character into the command line is
to recall it from command history. Not sure what the behavior should be for
that case, we can revisit that later. If we get rid of raw control characters
entirely, then we can also delete the new "control pictures" rendering :)
This allows running `set` without triggering any event handlers.
That is useful, for example, if you want to set a variable in an event
handler for that variable - we could do it, for example, in the
fish_user_path or fish_key_bindings handlers.
This is something the `block` builtin was supposed to be for, but it
never really worked because it only allows suppressing the event for
the duration, they would fire later. See #9030.
Because it is possible to abuse this, we only have a long-option so
that people see what is up.