Using `allow_fallback: false` on the first check for libpcre
was unnecessary, as `required: false` already disables using
fallbacks. `allow_fallback: false` meant that
`--force-fallback-for` couldn’t work. This commit fixes that.
Also allow the fallback libpcre to be built statically so it
can be linked into GLib.
Helps: #3025
This was originally removed in !2734 but still appears to be required for
some MinGW setups, such as the `x86_64-w64-mingw32.static` target in
[mxe](https://github.com/mxe/mxe).
Currently, this configuration fails the libintl internal assert on line
2128, as on this platform `ngettext()` is only found inside libiconv.
This commit will look up iconv potentially twice, once as `libiconv` and
potentially once as `libintl_iconv`. This is what the code did before
!2734 landed, so it’s known to work reliably on a number of platforms.
Just in case anyone tries to look it up using `find_program()` in a
`meson.build` in GLib (or a project pulling GLib in as a subproject) in
future.
Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
The code to test that `g_usleep(0)` returns immediately assumes that
`g_usleep(1)` always takes longer, but that’s not necessarily always the
case. Even if no sleeping happens, the function call for `g_usleep(0)`
could get descheduled and take longer than normal.
This results in occasional failures like this one:
```
GLib:ERROR:../glib/tests/timer.c:367:test_usleep_with_zero_wait: assertion failed (elapsed0 <= elapsed1): (0.000206 <= 0.000202)
```
(Source: https://gitlab.gnome.org/GNOME/glib/-/jobs/2898468)
I can’t think of a suitable invariant comparison which can be done with
the timers, but running the comparison 10 times and allowing it to fail
once should work. A probabilistic test of `g_usleep(0)`.
Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
Add to script the new functions added in
commit 2368187e and commit e5ee6e14 which are:
signal_emitv_unlocked()
signal_emit_valist_unlocked()
so that the "<emit signal 'blabla'>" line keeps
showing after them.
It’s almost a complete waste of time at the moment. For several reasons,
jobs flakily fail on it more often than they succeed. It’s wasting
resources, slowing down development and making people quite frustrated.
* https://gitlab.gnome.org/Infrastructure/GitLab/-/issues/627
* https://gitlab.gnome.org/GNOME/glib/-/issues/2949
* https://gitlab.gnome.org/GNOME/glib/-/merge_requests/3462 and related
test failures
Nobody has stepped up to deal with the test or CI runner flakiness, or
generally maintain this CI runner. If someone does care about preventing
regressions for GLib on macOS, and can put time into making the CI
reliable, then this commit can be reverted.
Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
It’s fairly consistently timing out on macOS. Looking at the verbose
test output, it’s still making progress right up until when it times out
(i.e. it hasn’t hit a `GRecMutex` bug and hasn’t deadlocked), so it
seems that the test runner is just hopelessly overloaded/underpowered
for the number of threads and iterations we’re asking it to test.
Tone those numbers down for CI test runs then.
Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
And dynamically allocate the arrays. This will allow the scale of the
test to be configured in the following commit, which will allow it to be
tweaked to not time out on slow CI runners.
Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
Displaying the execution time will aid developers in understanding which
test cases are responsible for slow execution times. The test code is
already measuring the execution time for every test case, but is not
reporting that data anywhere accessible to developers running the tests.
The new code will print a TAP comment:
# slow test /the/test/path executed in NN.NN secs
for any test taking longer than 0.5 seconds to run.
Example new output format:
$ ./build/glib/tests/unix
TAP version 13
# random seed: R02S690dc3c7a04866e4890501eedc7f8eef
1..13
# Start of glib-unix tests
ok 1 /glib-unix/pipe
# /glib-unix/pipe-stdio-overwrite summary: Test that g_unix_open_pipe() will use the first available FD, even if it?s stdin/stdout/stderr
# Bug Reference: https://gitlab.gnome.org/GNOME/glib/-/issues/2795
ok 2 /glib-unix/pipe-stdio-overwrite
ok 3 /glib-unix/error
ok 4 /glib-unix/nonblocking
ok 5 /glib-unix/sighup
# slow test /glib-unix/sighup executed in 0.50 secs
ok 6 /glib-unix/sigterm
# slow test /glib-unix/sigterm executed in 0.50 secs
ok 7 /glib-unix/sighup_again
# slow test /glib-unix/sighup_again executed in 0.50 secs
ok 8 /glib-unix/sighup_add_remove
ok 9 /glib-unix/sighup_nested
ok 10 /glib-unix/callback_after_signal
# slow test /glib-unix/callback_after_signal took 2.00 secs
ok 11 /glib-unix/child-wait
# Start of get-passwd-entry tests
# /glib-unix/get-passwd-entry/root summary: Tests that g_unix_get_passwd_entry() works for a known-existing username.
ok 12 /glib-unix/get-passwd-entry/root
# /glib-unix/get-passwd-entry/nonexistent summary: Tests that g_unix_get_passwd_entry() returns an error for a nonexistent username.
ok 13 /glib-unix/get-passwd-entry/nonexistent
# End of get-passwd-entry tests
# End of glib-unix tests
As a practical usage example, the meson log can be queried to find
slow tests project-wide:
$ grep 'slow test' build/meson-logs/testlog.txt | sort -n -k 7 -r | head
# slow test /threadpool/basics executed in 36.04 secs
# slow test /gobject/refcount/properties-3 executed in 30.00 secs
# slow test /gio/io-basics executed in 12.54 secs
# slow test /timeout/rounding executed in 10.60 secs
# slow test /GObject/threaded-weak-ref executed in 10.42 secs
# slow test /thread/rerun-all executed in 9.84 secs
# slow test /gobject/refcount/object-advanced executed in 5.46 secs
# slow test /thread/static-rw-lock executed in 5.00 secs
# slow test /gobject/refcount/signals executed in 5.00 secs
# slow test /gobject/refcount/signals executed in 5.00 secs
Signed-off-by: Daniel P. Berrangé <berrange@redhat.com>
glib-compile-resources --dependency-file= currently generates a depfile
with rules that look like this:
foo.xml: resource1 resource2
This means that if any of the files listed in the GResource manifest
foo.xml change, rebuild foo.xml because foo.xml depends on those files.
This is not useful because the XML manifest is not expected to be a
generated dependency and even if it was, changes to the listed files
would not imply any need to regenerate the manifest. What we really do
need to regenerate is the C source file that is generated by
glib-compile-resources after processing the XML manifest and all the
resource files. That is, the rule should look like this:
foo.c: foo.xml resource1 resource2
as suggested by Hans Ulrich Niedermann in the issue report.
Fixes#2829
This is useful when writing similarly low-level code, and was always true
as implemented here; let's document it so that other codebases can rely
on it.
Signed-off-by: Simon McVittie <smcv@collabora.com>