Adds a helper to truncate UTF8 strings in the middle, allowing to make
them fit certain size constraints.
This function is modeled after similar functionality that has existed
since 2008 in nautilus and in eel before that.
While x86_64 has enough precision in long double to do a round trip
from guint64 to long double and back, this is platform-specific, and
is a disservice to users trying to debug failing unit tests on other
architectures where it loses precision for g_assert_cmp{int,uint,hex}.
See also https://bugzilla.gnome.org/show_bug.cgi?id=788385 which
mentions having to add casts to specifically silence the compiler on
platforms where the precision loss occurs.
Meanwhile, g_assert_cmpuint() does an unsigned comparison, but outputs
signed values if the comparison fails, which is confusing.
Fix both issues by introducing a new g_assertion_message_cmpint()
function with a new 'u' numtype. For backwards compatibility, the
macros still call into the older g_assertion_message_cmpnum() when not
targetting 2.78, and that function still works when passed 'i' and 'x'
types even though code compiled for 2.78 and later will never invoke
it with numtype anything other than 'f'. Note that g_assert_cmpmem
can also take advantage of the new code, even though in practice,
comparison between two size_t values representing array lengths that
can actually be compiled is unlikely to have ever hit the precision
loss. The macros in signals.c test code does not have to worry about
versioning, since it is not part of the glib library proper.
Closes#2997
Signed-off-by: Eric Blake <eblake@redhat.com>
We need a way to initialise refcounted types placed in static storage,
or on the stack. Using proper macros avoids knowing the magic constant
used for grefcount and gatomicrefcount.
Historically GPtrArray made possible to compare pointers of pointers values
that it holds, however this is inconvenient in most cases as it requires
wrapper functions and not friendly castings.
So, add two functions that allow to perform the comparisons between the
pointer values that a GPtrArray holds following the same syntax that we
share everywhere in the codebase.
It allows to create a GPtrArray from a null-terminated C array computing its
size and in case performing copies of the its values using the provided
GCopyFunc.
GPtrArray is a nice interface to handle pointer arrays, however if a classic
array needs to be converted into a GPtrArray is currently needed to manually
go through all its elements and do new allocations that could be avoided.
So add g_ptr_array_new_take() which steals the data from an array of
pointers and allows to manage it using the GPtrArray API.
Add functions to steal all the keys or values from a ghash (especially
useful when it's used as a set), passing the ownership of then to a
GPtrArray container that preserves the destroy notify functions.
GPtrArray's are faster than lists and provide more flexibility, so add
APIs to get hash keys and values using these containers too.
Given that we know the size at array initialization we can optimize the
allocation quite a bit, making it faster than the API using GList both at
creation time and for consumers.
Sadly, in C++ there's not an universal way to get what language standard
is used to compile GLib-based programs, in fact while most compilers
relies on `__cplusplus`, MSVC is defining that, but it does not use it
to expose such information (unless `/Zc:__cplusplus` arg is used).
On the other side, MSVC reports the language standard via _MSVC_LANG [1].
This complication makes us defining some macros in a very complex way
(such as glib_typeof()), because we need to perform many checks just to
understand if a C++ compiler is used and what standard is expecting.
To avoid this, define multiple macros that can be used to figure out
what C++ standard is being used.
[1] https://docs.microsoft.com/en-us/cpp/build/reference/zc-cplusplus?view=msvc-170
Inspired by libglnx's glnx_close_fd() and glnx_autofd, these let us
have the same patterns as g_clear_object() and g_autoptr(GObject), but
for file descriptors. g_clear_fd() is cross-platform, while g_autofd
is syntactic sugar requiring a supported compiler (gcc or clang).
Now that g_close() checks for EBADF as a programming error, we can
implement the equivalent of glnx_autofd as an inline function without
needing to have errno and EBADF in the header file.
g_clear_fd() is like glnx_close_fd(), but with error checking.
The private _g_clear_fd_ignore_error() function used to implement
g_autofd is a closer equivalent of glnx_close_fd().
Signed-off-by: Simon McVittie <smcv@collabora.com>
GBookmarkFile has everything for being introspectable, but it lacks a
GType, because it can't be copied. So provide a copy function that
deeply copies all the bookmark structures.
Add tests for this.
This is like our other suite of g_set_*() based APIs to simplify and
improve correctness of setters for fields, properties, and more.
This implementation specifically handles setting string values that may
point to an offset within the current string by copying before free.
strcmp() is used directly (as opposed to g_strcmp0() due to it being in
gtestutils.h as well as to increase the chance that the compiler will
hoist the implementation.
Fixes#2747
There is currently no `dllimport` attribute on any of our function,
which prevents MSVC to optimize function calls.
To fix that issue, we need to redeclare all our visibility macros for
each of our libraries, because when compiling e.g. GIO code, we need
dllimport in GLIB headers and dllexport in GIO headers. That means they
cannot use the same GLIB_AVAILABLE_* macro.
Since that's a lot of boilerplate to copy/paste after each version bump,
this MR generate all those macros using a python script.
Also simplify the meson side by using `gnu_symbol_visibility : 'hidden'`
keyword argument instead of passing the cflag manually.
This leaves only API index to add manually into glib-docs.xml when
bumping GLib version. That file cannot be generated because Meson does
not allow passing a buit file to gnome.gtkdoc()'s main_xml kwarg
unfortunately.
