The contrib/zsh_completion file itself says to name it _hg.
With a name like `hg`, if the user has a line like `autoload ${^fpath}/*(N-.:t)`
in their zshrc, it will create a shell function named `hg` that will hide the
actual hg command and make hg unusable.
Separately from that though, the underscore prefix makes it actually work. The
zsh man page states:
The convention for autoloaded functions used in completion is that they
start with an underscore
This does not seem to just be a "convention", though. With the ill-advised line
removed from my zshrc and the file named
`/usr/local/share/zsh/site-functions/hg` (without the underscore), these
completions did not seem to get loaded and the ones from the zsh installation
were loaded instead. If I renamed them to be
`/usr/local/share/zsh/site-functions/_hg`, however, they were loaded.
I manually tested the above statement by starting a new zsh instance with the
file in `/usr/local/share/zsh/site-functions` with the following names:
- As `hg`, `which _hg_labels` did not show anything
- As `_hg`, `which _hg_labels` showed the expected function.
To quote `man 1 pkgbuild`:
--filter filter-expression
By default, --root will include the entire contents of the
given root-path in the package payload, except for any .svn
or CVS directories, and any .DS_Store files. You can override
these default filters by specifying one or more --filter
options. Each filter-expression is an re_format(7)
``extended'' expression: any path in the root which matches
any of the given expressions will be excluded from the pack-
age payload. (Note that specifying even one --filter inhibits
the default filters, so you must respecify the default fil-
ters if you still want them to be used.)
It turns out the default filter these days *also* includes .git and
.hg. Notice how that filter expression is a regular expression? That
(presumably unintentionally) prevents a file named "chg" or "_hg" from
getting included in the distribution. Many many thanks to spectral@
for trying to include a _hg file which led us to figure this bug out.
Bug filed with Apple for this as rdar://problem/32437369, mentioning
both the gap in documentation and the wrong defaults.
Having linux wheels is going to helps system without compiler or python-dev
plus speed up the installation for everyone.
I followed the manylinux example repository
https://github.com/pypa/python-manylinux-demo
to add a make target (build-linux-wheels) using
official docker image to build python 2 linux wheels
for mercurial. It generates Python 2.6 and Python 2.7 for both
32 and 64 bits architectures.
I had to blacklist several test cases for various reasons:
* test-convert-git.t and test-subrepo-git.t because of the git version
* test-patchbomb-tls.t because of warning using tls 1.0
It's likely because the docker image is based on centos 5.0 and
openssl is outdated.
The zsh location appears to be on the default $fpath for zsh. bash, on
the other hand, appears to have no default location for completion
scripts, so we follow the lead of Apple's Git distribution and select
a semi-arbitrary place in /usr/local for the file.
Ubuntu 15.10 (Wily Werewolf) came out on October 22, 2015 and reached end of
life on July 28, 2016 [1]. Users were encouraged to upgrade to 16.04 (Xenial).
PPA doesn't allow new uploads targeting 15.10 anymore.
[1]: https://wiki.ubuntu.com/Releases
Instead of using bdist_mpkg, we use the modern Apple-provided tools to
build an OS X Installer package directly. This has several advantages:
* Avoids bdist_mpkg which seems to be barely maintained and is hard to
use.
* Creates a single unified .pkg instead of a .mpkg.
* The package we produce is in the modern, single-file format instead of
a directory bundle that we have to zip up for download.
In addition, this way of building the package now correctly:
* Installs the manpages, bringing the `make osx`-generated package in
line with the official Mac packages we publish on the website.
* Installs files with the correct permissions instead of encoding the
UID of the user who happened to build the package.
Thanks to Augie for updating the test expectations.
This is a bit of a hack, but I don't really want to mount a dmg during
a test, and I don't see an option with hdiutil to take a dmg and spit
out a folder, so this is what we've got for now.
Support for '!=' was only added in GNU Make 4.0, and CentOS versions as new as
CentOS 7 only carry 3.82.
I will leave figuring out compatibility with BSD make as an exercise for
interested folks.
This is portable between BSD and GNU make.
As of this change, our Makefile appears to work in both BSD and GNU
make, with the caveat that the test-% and testpy-% wildcard rules
don't work on BSD make. That said, this still seems worthwhile because
it lets the buildbots work more consistently across platforms.
One problem reported by lintian is "bad-distribution-in-changes-file unstable"
in changelog, but the current changelog for the official package in Ubuntu also
uses that distribution name (unstable), because they import from Debian. This
certainly doesn't stop the build process.
Instead of rewriting __init__ to define the modulepolicy,
write out a __modulepolicy__.py file like __version__.py
This should work for both system-wide installation and in-place build. Therefore
we can avoid relying on two separate modulepolicy rules, '@MODULELOADPOLICY@'
and 'mercurial/modulepolicy'.
This allows builddeb to handle distributions that are not Debian.
Distributor ID is reported by lsb_release --id, and in case of builddeb it's
usually Debian or Ubuntu.
Debian and Ubuntu releases have both codenames and traditional version numbers.
An entire "branch" of releases is referred to by its codename, and version
numbers (e.g. 8.2, 14.04.3) are used to address individual releases.
Since we use codenames for building .deb packages, let's call the option and
the variable appropriately.
`make debian-jessie` was a poor name choice on my part, because it
really builds a package for the current debian platform, whatever that
happens to be, rather than a specific platform. Rename it to just
`make deb` so that it's a little clearer. As a result, it now places
built debs in a "debian-unknown" directory.
Future work will allow us to use docker to build debs.
Right now this doesn't install any config files. I plan to do that as
a followup, but getting something basic and working checked in seems
like more of a priority than getting everything done in one big step.
This also does not create a source deb yet. I haven't looked into that
process.
Note that this declares incompatibility with the `mercurial-common`
package. It's typical for debian packages to be split between
architecture-independent bits and native bits, meaning the python bits
downstream live in mercurial-common and the c extension bits live in
mercurial. We don't do that because we want to (ideally) give users a
single deb file to install.
Before this patch, doc string of each web commands isn't extracted as
translatable one, even though web commands are listed up in "hg help
hgweb".
This patch adds "mercurial/hgweb/webcommands.py" on to arguments of
"i18n/hggettext". "i18nfunctions" added into "webcommands.py" is used
by "i18n/hggettext" to get the list of functions having translatable
doc string.
I keep wanting to run 'make tests', but I forget to set TESTFLAGS='-j
16' or whatever is reasonable for my machine. This lets me just set it
once in my shell settings and forget it.
This makes it easy to do 'make testpy-2.4.6 TESTFLAGS="-j 16"' and the
Makefile will build Python if needed and then run tests (with -j 16)
with the resulting Python.
You can set the environment variable HGPYTHONS to a nice location on
your machine to cache the Python builds globally. If that's not set,
it builds them inside build/pythons.
The packages has to be installed by root but they would be installed
insecurely, owned by the uid of the unprivileged user that made the package.
The local user with that uid could thus write to /usr/local/bin/hg .
bdist_mpkg calls out to pax to create the package, but pax do apparently not
have the power to control what it is writing.
Instead, patch the pax files and set their uid fields to 0 before they are
wrapped in a dmg.
It seems like a default installation of bdist_mpkg makes it available as
Python module, but the corresponding executable is placed in a location like
/System/Library/Frameworks/Python.framework/Versions/2.7/Extras/bin which is
not in $PATH and thus not directly available. 'make osx' would thus fail.
Instead, skip the bdist_mpkg executable and invoke it as a Python module. That
works out of the box here.
bdist_mpkg do for some reason default to use the parameter --show ("Open with
Installer.app after building") if no parameters are specified. We do not like
that.
All the important parameters to bdist_mpkg are already specified in setup.py
and we don't have any to specify in the Makefile.
Instead, specify the parameter '--' which do no harm but will disable the
default opening of the installer. This makes it possible to build packages
"silently".