This pulls in widechar_width.h from commit 7e9dfdaf05059b3f. The big change
here is that some characters which were previously marked as widened in 9
are now marked as unconditionally narrow; this includes some randoms like
hot pepper (U+1F336) but more importantly all of the regional indicators,
which affects how flags are rendered.
If you put two regional indicators together, you get a flag emoji. It's
unclear what the width of this flag emoji should be; Terminal and iTerm2
renders it as width 1, while kitty renders it as width 2. This is
unaffected by fish_emoji_width because the flag does not have an assigned
codepoint, it is a pair of codepoints.
The regional indicators are marked as "neutral" in EastAsianWidth.txt which
means they conceptually have width 1. So two of them have width 2. So now
we assume that flags are rendered as width 2.
This fixes#7237, for terminals that render flags as width 2 (but not 1,
unfortunately, which includes iTerm2 and Terminal.app).
This pulls in widechar_width.h from commit d4e75d5bb1930291223d1.
This is a "rebuild with latest data" before we attempt a risky bugfix.
The idea here is that bisecting can separate whether any regression is
due to using the latest Unicode data, or the bug fix.
Prior to this change, fish would "resolve" highlight specs to rgb colors
right before use. This requires a series of variable lookups; profiling
showed 30% of draw time was spent here.
Switch to caching these (within a single redraw only).
Have the reader accept a constant configuration object, which controls
whether autosuggestions, etc. are enabled. These things don't change
dynamically.
fish_color_match is a variable which controls syntax highlighting for
matching quotes and parens, but only with interactive `read` with shell
highlighting disabled. It seems unlikely that anybody cares about this.
There are a few code blocks where the default highlighting does not
work and the documentation looks bad as a result. Usually this happens
when we are demonstrating an important interactive feature, such as
autosuggestions, syntax highlighting, or tab completion.
The pygments highlighter was not designed for code samples like these.
But it is important to show the behavior clearly in the docs. I am
attempting to make these weird examples look as much like the "normal"
code blocks as possible.
https://docutils.sourceforge.io/docs/ref/rst/directives.html#parsed-literal
In principle this would allow 'string split' or whatever to output to
stderr and not lose the item separation. In practice this is not used
but it fixes a TODO.
builtins output to stdout and stderr via io_streams_t. Prior to this fix, it
contained an output_stream_t which just wraps a buffer. So all builtin output
went to this buffer (except for eval).
Switch output_stream_t to become a new abstract class which can output to a
buffer, file descriptor, or nowhere. This allows for example `string` to stream
its output as it is produced, instead of buffering it.
In commit fd6d814ea4, read_blocked was changed to read until EOF
or the full amount requested is returned. Switch this to returning
as soon as any data is available, which was the behavior prior to
fd6d814ea4.
This will allow builtin_string to output data in a "streaming"
fashion instead of needing to read a large block up-front.
Prior to this fix, if you invoked fish with --private and then used
`read --silent` to read something sensitive, the variable would be
stored in history, with the plain text available through up-arrow.
Fix it to not store items in silent mode.
Note the item was never written to disk; it was only stored in memory.
Fixes#7230
This is like wcs2string, but instead of returning a std::string, it invokes
a user-supplied function with each converted character.
The idea is to allow interleaved conversion and output.
This moves us slightly closer towards fish code in the background. The idea is
that a background job may still have "foreground" sub-jobs, example:
begin ; sleep 5 ; end &
The begin/end job runs in the background but should wait for `sleep`.
Prior to this fix, fish would see the overall job group is in the background
and not wait for any of its processes. With this change we detach waiting from
is_foreground.
This changes how fish attempts to protect itself from calling tcsetpgrp() too
aggressively. Recall that tcsetpgrp() will "force" itself, if SIGTTOU is
ignored (which it is in fish when job control is enabled).
Prior to this fix, we avoided SIGTTINs by only transferring the tty ownership
if fish was already the owner. This dated from a time before we had really
nailed down how pgroups should be assigned. Now we more deliberately assign a
job's pgroup so we don't need this conservative check.
However we still need logic to avoid transferring the tty if fish is not the
owner. The bad case is when job control is enabled while fish is running in the
background - here fish would transfer the tty and "steal" from the foreground
process.
So retain the checks of the current tty owner but migrate them to the point of
calling tcsetpgrp() itself.