Currently, meson hard codes the paths of these binaries which results in
cross-compiled environments to run the host versions of these tools.
However, GObject-introspection provides the appropriate paths to these
utilities via pkg-config
find_program is needed in the case g-i is built as a subproject. If
g-ir-scanner or g-ir-compiler are in the build or source directory use those.
If they aren't found in the source directory, use the results from pkg-config.
declare_dependencies
This allows dependencies declared in subprojects to set variables, and
for those variables to be accessed via the get_variable method, just
like those from pkg-config and cmake. This makes it easier to use
projects from subprojects in a polymorphic manner, lowering the
distinction between a subproject and an external dependency every
further.
When g-ir-scanner is overriden, we can't call it at configure time
but we know what options are avalaible (as it started using meson
after checked options where added) so do not try to call it to retrieve
the version as it will fail.
Also see https://github.com/mesonbuild/meson/issues/3442
GLib does not currently use override_find_program() for this tool
because it is compiled and would not work in cross build. But this
prepares Meson for when/if GLib will rewrite it in Python.
See https://gitlab.gnome.org/GNOME/glib/issues/1859.
This will allow using gtk-doc as a subproject instead of having to
install it on the system. It also has the side effect of failing at
configuration time with a proper message if gtkdoc is not installed,
instead of failing at build time with a python backtrace.
* gtkdoc: Add 'check' kwarg
This runs gtkdoc-check in meson tests.
Also reorganize the gtkdoc test because we cannot reliably build
multiple doc into the same directory. Not all files generated by gtk-doc
are prefixed with the target name.
In most cases instead pass `for_machine`, the name of the relevant
machines (what compilers target, what targets run on, etc). This allows
us to use the cross code path in the native case, deduplicating the
code.
As one can see, environment got bigger as more information is kept
structured there, while ninjabackend got a smaller. Overall a few amount
of lines were added, but the hope is what's added is a lot simpler than
what's removed.
determine_rpath_dirs() can return paths to external dependencies not
in the build dir and passing them first as a link path leads to
g-ir-scanner for example linking against the already installed library
instead of the just built one.
This was reported in g-i: https://gitlab.gnome.org/GNOME/gobject-introspection/issues/272
and comes up quite often when a library adds some new symbols which aren't present in the
system library, which then makes linking fail.
The first place where the order is changed is _scan_gir_targets(), which looks like an unintentional
change in the refactoring in 8377ea45aa
The second place in _get_link_args() has always been that way and only the rpath order is changed,
but it looks to me as if the same rules should apply here too.
Instead use coredata.compiler_options.<machine>. This brings the cross
and native code paths closer together, since both now use that.
Command line options are interpreted just as before, for backwards
compatibility. This does introduce some funny conditionals. In the
future, I'd like to change the interpretation of command line options so
- The logic is cross-agnostic, i.e. there are no conditions affected by
`is_cross_build()`.
- Compiler args for both the build and host machines can always be
controlled by the command line.
- Compiler args for both machines can always be controlled separately.
Although `gtkdoc` function has support for `c_args` argument[0], it
produces warning messages due to missing string in the permitted
arguments list.
[0] https://github.com/mesonbuild/meson/pull/4192
It is possible for compiler flags to include special characters, such as
double quotes which are needed to define macros with -D options. Since
gtkdoc-scangobj uses shlex.split to split arguments passed to --cc,
--ld, --cflags, --ldflags into lists, we can safely use shlex.quote to
properly quote arguments for these options.
When passing static libraries to gtkdoc, they are also appended as
shared libraries to ldflags, which makes the process to fail.
This has been changed to only append shared libraries to ldflags.
Fixes#3935
gtk-doc for autotools has the concept of module version, that is used to define
the module install path and the devhelp2 basename.
Add a `module_version` parameter to gnome.gtkdoc to replicate the same behavior.
Updated the test checking that the install_dir is properly computed (if not
passed), and that the .devhelp2 file has proper name.
https://gitlab.gnome.org/GNOME/gtk-doc/blob/GTK_DOC_1_29/buildsystems/autotools/gtk-doc.make#L269
gtkdoc-scangobj also accepts compiler arguments. In the same way
that include_directories includes directories, the new c_args
parameter also appends compiler arguments.
One of the gtkdoc's steps calls to gtkdoc-scangobj that also accepts
compiler arguments by using the cflags option.
Compiler arguments from dependencies are also appended now.
The regression was introduced in my recent refactoring of
that method (8377ea4).
This commit simply restores the ordering of the generated
scan_command, ensuring `-lasan` and other internal linker
flags come before `--library` or `--program`
g-ir-scanner is very picky about the flags that it can accept, so the
build fails on macOS if you have Framework external dependencies,
which add -F and -framework arguments.
Also fix incorrect de-duping of -framework arguments for gtkdoc.