Windows does not recognize the "America/Recife" as a valid timezone
identifier, so setting the TZ envvar to that will result in "UTC" to
be returned on Windows.
Instead, set TZ to be the Windows equivilant "SA Eastern Standard
Time", and see whether that is indeed our identifier when we create the
GTimeZone using that.
On Windows, we may be using the US DST boundaries by using the default
"Pacific Standard Time" for rules_from_windows_time_zone() in
rules_from_identifier(). This has the unfortunate side-effect of
hardcoding the out_identifier to "Pacific Standard Time", which is
likely not what we want.
Instead, upon retrieving the items successfully using
rules_from_windows_time_zone ("Pacific Standard Time", ...), we just
set the out_identifier to whatever identifier that was passed into
rules_from_identifier().
Update the gdatetime test program to make use of the updates that was
done in gtimezone.c in the previous commit, so that we don't have to
worry what language version of Windows the tests are being run in, but
instead be assured that we produce and check for the English-language
time zone name strings.
Also, instead of testing for "Pacific Standard Time" in
test_GDAteTime_printf(), use GetDynamicTimeZoneInformation() to get the
actual time zone string (where the system running the test program is)
we want to check for, because on Windows the actual result will be
dependent on which timezone the system running the test program is in.
https://bugzilla.gnome.org/show_bug.cgi?id=719344
The existing method of using RegQueryValueExW() to query the Std/Dlt
strings can only retrive the localized versions of those strings, so
that means they will vary by the language version of Windows. Instead,
use RegQueryValueExW() only as a fallback when RegLoadMUIStringW() fails,
as RegLoadMUIStringW() can query for the Std and Dlt strings in
whatever language we need by setting the locale stuff programatically on
the fly.
We are going to use RegLoadMUIStringW() in the next commit, since there
is no real RegLoadMUIStringA() function (it exists as a stub only).
This is done so that we are consistent along the way
Also fix rule_from_windows_time_zone_info() as we can't just do a strncpy()
of tzi->StandardName and tzi->DaylightName directly, as they are wchar_t/
gunichar2 strings, where we must convert to UTF-8 first.
https://bugzilla.gnome.org/show_bug.cgi?id=719344
We said the type must support being cleaned up and will be cleaned up in
an appropriate way, but in order to figure out how to do that, you had
to jump forward in the documentation to the other macros. Just say them.
This is a follow-up to a0c7f85437.
In addition LC_MESSAGES, we should remove LC_ALL from the environment
as well. Otherwise, LC_ALL overrides LC_MESSAGES, causing the test to
fail on FreeBSD when LC_ALL is set to a non-English locale.
This (dubious) testcase fails before the previous commit due to errno
being clobbered by the interrupted wait on the contended mutex. The
previous commit fixes that.
The testcase is dubious because, in theory (as per POSIX),
g_cond_wait_until() is permitted to return TRUE at any time for any
reason, due to so-called "spurious wakeups". Having a testcase that
asserts that the return value should be FALSE is therefore fundamentally
broken. We do it anyway, though.
We're only really trying to test a bug in our homemade Linux/futex
implementation here, and it takes a fair amount of effort to actually
convince the old code to fail (including some system stuff which
probably isn't available on Windows). There's also the spurious wakeup
situation mentioned above to worry about on other systems. For all of
those reasons, this test is only enabled on Linux.
The return value from `g_cond_wait_until()` is calculated, based on the
value of `errno` after reacquiring the mutex. This is a problem because
`errno` can be overwritten in the case the mutex is contended (in which
case the slow-path code will re-enter the kernel).
Perform the calculation before reacquiring the mutex.
See merge request GNOME/glib!958
Visual Studio 2010 and later support static_assert on both C and C++,
but we can only enable it for plain-C code on Visual Studio 2013 and
later, as apparently the static_assert macro implementation will carry
out something after defining certain variables.
For C++ code, we use static_assert on Visual Studio 2010 and later.
The return value for g_utf8_normalize may be null, but the return type
is not annotated as such. This is important for language bindings for
langs that are about nullability, such as Vala and Haskell.
The static assert message is much nicer to read, and is less likely to
be misinterpreted as a false positive.
glib is built with `-std=gnu89`, but this macro will be available to
projects that use glib with c11 or gnu11.
LoadLibrary() is not available when building for the Universal Windows
Platform, which is used for shipping apps to the Windows Store on all
devices (Windows Desktop, Windows Phone, Surface, XBox, etc).
Apps are not allowed to load arbitrary DLLs from the system. The only
DLLs they can load are those that are bundled with the app as assets.
LoadPackagedLibrary() can be used to access those assets by filename.
The function is meant to be a drop-in replacement for LoadLibrary(),
and the HANDLE returned can be treated the same as before.
This commit changes a comment in _g_dbus_worker_do_read_cb() to be
slightly more useful. At least in my experience debugging an
intermittent unit test failure in another project, this failure
condition occurred because although g_test_dbus_down() ensures that the
session GDBusConnection has exit-on-close set to FALSE before killing
its dbus-daemon, there was still a GDBusConnection on the system bus
which hit this failed read code path, because we had
DBUS_SYSTEM_BUS_ADDRESS set to the address of the #GTestDBus daemon, to
appease libudisks.
Also, make a few other minor improvements to the docs.
The two test scripts actually assumed some *NIX paradigms, so we need
to adapt them so that they can work on Windows as well, the changes are
namely:
-Call the glib-mkenums and glib-genmarshal Python scripts with the
Python interpreter, not just relying on shebang lines, on Windows.
This is because the native Windows console (cmd.exe) does not support
shebang lines, for subprocess.run().
-Use NamedTemporaryFile with delete=False, otherwise Windows cannot find
the temp files we need when running the tests.
-Use universal_newlines=True for subprocess.run() so that we do not need
to worry out line ending differences on different systems.
-Make sure we are not in the temp directories we create, where the tests
are being run, upon cleanup. Windows does not like deleting
directories that we are currently in.