`gh` doesn't write its errors to stderr and doesn't exit with a non-zero status
code in case of failure. The completions are short enough that buffering them
isn't a huge deal.
There's no guarantee (nor requirement) that the filesystem support pre-epoch
modification dates. If it doesn't, the `test` tests were failing to get the
expected results.
Skip the test if it seems the fs doesn't support pre-epoch timestamps
(determined by pre-epoch mt of `oldest` evaluating to 0 or the unix epoch).
This cuts down `__fish_git_using_command` calls from 75 to 68, saving
some time in the common case.
(it would be possible to remove the check from
`__fish_git_stash_using_command` now, but that's brittle and it's one
call, so it's not a big issue)
* Replace ";" with "\n" in alias-generated functions
This can let us add a "#" in our aliases to make
them ignore additional arguments.
* Update changelog about aliases that ignore arguments
* Update test for alias.fish
This is now compliant with the aliases that can
ignore arguments.
This used a prompt command, but since the prompt was interpolated and
included a `?` it would be run as a glob without qmark-noglob.
Since it's simpler to pass a prompt string, just do that.
When fish runs with job control enabled, it transfers ownership of the
tty to a child process, and then reclaims the tty after the process
exits. If job control is disabled then fish does not transfer or reclaim
the tty.
It may happen that the child process creates a pgroup and then transfers
the tty to it. In that case fish will not attempt to reclaim the tty, as
fish did not transfer it. Then when fish reads from stdin it will
receive SIGTTIN instead of data.
Fix this by unconditionally claiming the tty in readline().
Fixes#9181
This errored out *later* because the result was infinite or NaN, but
it didn't actually stop evaluation.
I'm not sure if there is a way to get floating point math to turn an
infinity back into something that doesn't depend on a literal
infinity, but division by zero conceptually isn't a thing we can
support.
There's entire branches of maths dedicated to figuring out what
dividing by "basically zero" means and we don't have to get into it.
This checked the locale, but did so in a way that's fundamentally
broken:
1. $LANG isn't the only variable ($LC_ALL and $LC_CTYPE)
2. Even if $LANG is set that doesn't mean it's actually working
We could add a `status is-multibyte` here to figure out if we have a
multibyte locale?
But instead, since this is dealing with adding an ellipsis, let's just
add it to `string ellipsize`.
One slight difference is that shortening the branch now counts the ellipsis width.
I.e. assuming the branch is "long-branch-name"
```fish
set -g __fish_git_prompt_shorten_branch_len 8
```
might now print "long-br…" instead of "long-bra…". This is nicer because we can now give the actual maximum width.
The alternative is to add a "--exclusive" option to "string ellipsize" that doesn't count the ellipsis width. So `string ellipsize --char "..." --max 8" long-branch-name` might result in "long-bra...", which is 11 wide.
This is essentially the inverse of `string pad`.
Where that adds characters to get up to the specified width,
this adds an ellipsis to a string if it goes over a specific maximum width.
The char can be given, but defaults to our ellipsis string.
("…" if the locale can handle it and "..." otherwise)
If the ellipsis string is empty, it just truncates.
For arguments given via argv, it goes line-by-line,
because otherwise length makes no sense.
If "--no-newline" is given, it adds an ellipsis instead and removes all subsequent lines.
Like pad and `length --visible`, it goes by visible width,
skipping recognized escape sequences, as those have no influence on width.
The default target width is the shortest of the given widths that is non-zero.
If the ellipsis is already wider than the target width,
we truncate instead. This is safer overall, so we don't e.g. move into a new line.
This is especially important given our default ellipsis might be width 3.
pipenv switched from older click-completion package to new built-in completions
from click framework in v2021.11.9.
This command achieves compatibility with both, older and more recent versions.
`cargo search` can be used to quickly get crates matching a search string, so we
can pass the current token for first-arg completions to `cargo add` and `cargo
install` to `cargo search` to look up matches.
`cargo search` doesn't restrict itself to (nor prioritize for) prefix matches,
while fish will only display prefix matches (for dynamically generated
completions) so it's perfectly possible for `cargo search foo` to return 20
results none of which will successfully result in a completion, but for a
further-narrowed completion of `cargo install foob^I" to then result in
completions because `cargo search` ended up returning a prefix match for `foob`
while it didn't for `foo`.
The only other oob cargo subcommand that takes a crate name (that isn't the name
of a crate specified in `Cargo.toml`) is `cargo search` but there's no point in
providing completions to that... I think (it's possible to search for crate
"foo" in order to get its latest version number rather than its name, but I'm
not sure that's worth supporting).
This expands completions of `cargo^I` to list any commands named `cargo-xxx` as
cargo subcommands invokable as `cargo xxx` in addition to the default oob
subcommands cargo ships with.
(This is very similar to how git allows users to shim their own subcommands.)
NOTE: This would stay even after cargo someday moves to clap and generates or
even ships/installs an official machine-generated `cargo.fish` completions
script.
The old way of generating cargo completions no longer work, so we need
to manually maintain the completions until clap completions support[1].
[1]: https://github.com/clap-rs/clap/issues/3166