In an interactive shell, typing "for x in (<RET>" would print an error:
fish: Expected end of the statement, but found a parse_token_type_t::tokenizer_error
Our tokenizer converts "(" into a special error token, hence this message.
Fix two cases by not reporting errors, but only if we allow parsing incomplete
input. I'm not really sure if this is necessary, but it's sufficient.
Fixes#7693
Prior to this change, if you pipe a builtin to another process, it would
be buffered. With this fix the builtin will write directly to the pipe if
safe (that is, if the other end of the pipe is owned by some external
process that has been launched).
Most builtins do not produce a lot of output so this is somewhat tricky to
reproduce, but it can be done like so:
bash -c 'for i in {1..500}; do echo $i ; sleep .5; done' |
string match --regex '[02468]' |
cat
Here 'string match' is filtering out numbers which contain no even digits.
With this change, the numbers are printed as they come, instead of
buffering all the output.
Note that bcfc54fdaa fixed this for the case where the
builtin outputs to stdout directly. This fix extends it to all pipelines
that include only one fish internal process.
Add compile-time checks to ensure list of string subcommands, builtins,
and electric variables are kept in asciibetical order to facilitate
binary search lookups.
This may slightly improve performance by allowing the compiler greater
visibility into what is happing on top of not executing at runtime in
some hot paths, but more importantly, it gets rid of magic constants in a
few different places.
These functions are called in the event queue hot path every time an
input event takes place. If we could guarantee a maximum length of
non-char (i.e. readline) events in the queue, we could use
`event_queue_peeker_t` with a fixed storage size of, e.g., 32 events,
but I'm not sure what a reasonable number would in fact be, so I'm just
changing these to use a thread-local vector that will re-use its
previous heap allocation in subsequent invocations rather than thrashing
the heap.
The lookups are executed on all input events, so they are worth
optimizing.
Cache the list of names, use binary search to get a function code from a
name, and stop enumerating mappings after `has_function` and `has_command`
have been determined.
builtin_set_query returns the number of missing variables. Because the
return value passed to the shell is an 8-bit unsigned integer, if the
number of missing variables is a multiple of 256, it would overflow to 0.
This commit saturates the return value at 255 if there are more than 255
missing variables.
[100%] Building HTML documentation with Sphinx
../CHANGELOG.rst:48: WARNING: Document or section may not begin with a transition.
../CHANGELOG.rst:48: WARNING: Document or section may not begin with a transition.
builtin_test stashes some variables in statics, to support
the `test -t` expression. However this will cause conflicts with
concurrent execution, where we may want to run two `test` expressions at
once. Do the grunt work of threading the data into all places it needs
to go.
fish isn't quite sure what to do if the user specifies an fd redirection
for builtins. For example `source <&5` could potentially just read from
an arbitrary file descriptor internal to fish, like the history file.
fish has some lame code that tries to detect these, but got the sense
wrong. Fix it so that fd redirections for builtins are restricted to
range 0 through 2.
This introduces a new variable $fish_color_keyword that will be used
to highlight keywords. If it's not defined, we fall back on
$fish_color_command as before.
An issue here is that most of our keywords have this weird duality of
also being builtins *if* executed without an argument or with
`--help`.
This means that e.g.
if
is highlighted as a command until you start typing
if t
and then it turns keyword.
The iothread pool has a feature where, if the thread is emptied, some
threads will choose to wait around in case new work appears, up to a
certain amount of time (500 msec). This prevents thrashing where new
threads are rapidly created and destroyed as the user types. This is
implemented via `std::condition_variable::wait_for`. However this function
is not properly instrumented under Thread Sanitizer (see
https://github.com/google/sanitizers/issues/1259) so TSan reports false
positives. Just disable this feature under TSan.
fd_monitor_t allows observing a collection of fds. It also has its own
fd, which it uses to awaken itself when there are changes. Switch to
using fd_event_signaller_t instead of a pipe; this reduces the number of
file descriptors and is more efficient under Linux.
I ran into problems described in https://github.com/fish-shell/fish-shell/issues/718 when using this prompt. This seems to be a bug in the prompt -- this change fixes it, at least on my system.
I tried this in tmux (TERM=screen) and gnome-terminal (TERM=xterm-256) with fish 3.1.2, on Linux.
queues use std::deque under the hood which is more expensive than a vector.
We always consume the entire queue so there is no advantage to use deque here.
Just use a vector.
Replace the complicated implementation which shared a condition variable, with
one which just uses std::future<void>. This may allocate more condition
variables but is much simpler.
Fish was previously oblivious to the existence of mouse-tracking ANSI
escapes; this was mostly OK because they're disabled by default and we
don't enable them, but if a TUI application that turned on mouse
reporting crashed or exited without turning mouse reporting off, fish
would be left in an unusable state as all mouse reporting CSI sequences
would be posted to the prompt.
This can be tested by executing `printf '\x1b[?1003h'` at the prompt,
then clicking with any mouse button anywhere within the terminal window.
Previously, this would have resulted in seeming garbage being spewed to
the prompt; now, fish detects the mouse tracking CSIs posted to stdin by
the terminal emulator and a) ignores them to prevent invalid input, as
well as b) posts the CSI needed to disable future mouse tracking events
from being emitted on subsequent mouse interactions (until re-enabled).
Note that since we respond to a mouse tracking CSI rather than
pre-emptively disable mouse reporting, we do not need to do any sort of
feature detection to determine whether or not the terminal supports
mouse reporting (otherwise, if it didn't support it and we posted the
CSI anyway, we'd end up with exactly the kind of cruft posted to the
prompt that we're trying to avoid).
Fixes#4873
This is a stack-allocating utility class to peek up to N
characters/events out of an `event_queue_t` object. The need for a
hard-coded maximum peek length N at each call site is to avoid any heap
allocation, as this would be called in a hot path on every input event.
This allows directly inserting multiple characters/events in one go at
the front of the input queue, instead of needing to add them one-by-one
in reverse order.
In addition to improving performance in case of fragmented dequeue
allocation, this also is less error prone since a dev need not remember
to use reverse iterators when looping over a vector of peeked events.
Under non-Linux builds, binary_semaphore is implemented with a
self-pipe. When TSan is active we mark the pipe as non-blocking as TSan
cannot interrupt read (but can interrupt select). However we weren't
properly testing for EAGAIN leading to an assertion failure.
Allow looping on EAGAIN.
io_buffer_t is a buffer that fills itself by reading from a file
descriptor (typically a pipe). When the file descriptor is widowed, the
operation completes, and it reports completion by marking a
`std::promise<void>`. The "main thread" waits for this by waiting on the
promise's future. However TSan was reporting that the future's destructor
races with its promise's wait method. It's not obvious if this is valid,
but we can fix it by keeping the promise alive until the io_buffer_t is
deallocated.
This fixes the TSan issues reported under
`complete_background_fillthread_and_take_buffer` for #7681 (but there
are other unresolved issues).