Initially produced using:
for d in "test cases/failing/"* ; do rm -r _build ; ./meson.py setup "$d" _build | grep ERROR >"$d"/expected_stdout.txt; done
then converted to json with jq using:
jq --raw-input --slurp 'split("\n") | {stdout: map({line: select(. != "")})}' expected_stdout.txt >test.json
or merged with existing json using:
jq --slurp '.[0] + .[1]' test.json expected.json >test.json.new
v2:
Add some comments to explain the match when it isn't totally obvious
v3:
Add or adjust existing re: in expected output to handle '/' or '\' path
separators appearing in message, not location.
v4:
Put expected stdout in test.json, rather than a separate expected_stdout.txt file
Park comments in an unused 'comments' key, as JSON doesn't have a syntax for comments
Expected stdout lines must match lines from the actual stdout, in the
same order. Lines with match type 're' are regex matched.
v2:
Ignore comment lines in expected_stdout
v3:
Automatically adjust path separators for location in expected output
v4:
Put expected stdout in test.json, rather than a separate file
Cosmetic tweak to the error message for incdir() with an absolute path.
Don't split the message in the middle of a sentence at a point which may
or may not correspond to the terminal width.
For the sake of a consistent error message (irrespective of if 'valac' is
present or not), check if the 'c' language is present if we are adding
'vala' before (rather than after) we do compiler detection.
Generally, we'd want to use str() rather than repr() in error messages
anyhow, as that explicitly gives something designed to be read by
humans.
Sometimes {!r} is being used as a shortcut to avoid writing the quotes
in '{!s}'.
Unfortunately, these things aren't quite the same, as the repr of a
string containing '\' (the path separator on Windows) will have those
escaped.
We don't have a good string representation to use for the arbitrary
internal object used as an argument for install_data() when it's neither
a string nor file (which doesn't lead to a good error message), so drop
that for the moment.
Currently, colourize_console is a constant, set at process
initialization.
To allow the actual stdout to be easily compared with the expected when
running tests, we want to allow colourization to be on for the test
driver, but not for the in-process configure done by run_configure,
which has stdout redirected from a tty to a pipe.
v2:
Cache _colorize_console per file object
v3:
Reset cache on setup_console()
If the feature hadn't been broken in the first place it would have
worked on them anyway, so we might as well expose it. I'm loathe to do
it because one of the best features of meson in a mixed C/C++ code base
is that meson figures out the right linker every time, but there are
cases people have where they want to force a linker. We'll let them keep
the pieces.
Currently it does nothing, as the field is read too late, and additional
languages have already been considered. As such if the language
requested is closer to C (for example you want C but have a C++ source
with only extern C functions) then link_langauge is ignored.
Fixes#6453
This adds support for Files, CustomTarget, Indexs of CustomTargets,
ConfigureFiles, ExternalPrograms, and Executables.
Fixes: #1234Fixes: #3552Fixes: #6175
When wiping a build tree with --wipe, every entry in the build directory
is removed with mesonlib.windows_proof_rmtree() for directories and
mesonlib.windows_proof_rm() for other files. Symlinks to directories are
considered directories, resulting in the former being called. This
causes an exception to be raised, as the implementation calls
shutil.rmtree(), which isn't allowed on symlinks.
Fix this by using mesonlib.windows_proof_rm() for symlinks.
Signed-off-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
For instance if C:/Program Files (x86)/folder is passed to _guess_files, it would resolve to ['C:/Program Files', '(x86)/folder'] since C:/Program Files is an actual file location that can exist.
Adds the `tools` section to `tests.json` to specify requirements
for the tools in the environment. All tests that fail at least
one tool requirements check are skipped.
* dependency: log cached or skipped dependencies with reference to modules
If the dependency is a special dependency which takes modules, the
modules get cached separately and probably reference different
pkg-config files. It's very plausible that we have multiple
dependencies, using different modules. For example:
Run-time dependency qt5 (modules: Core) found: YES 5.14.2 (pkg-config)
Dependency qt5 skipped: feature gui disabled
Obviously this makes no sense, because of course we found qt5 and even
used it. The second line is a lot more readable if it shows this:
Dependency qt5 (modules: Widgets) skipped: feature gui disabled
Similar confusion abounds in the case where a module is found in the
cache -- which module, exactly, has been found here:
Dependency qt5 found: YES 5.14.2 (cached)
Rewrite the dependency function to *consistently* pass around (and use!)
the display_name even in cases where we know it isn't anonymous (this is
just more correct anyway), and make it serve a dual purpose by also
appending the list of modules just like we do for pretty-printing that a
dependency has just been found for the first time.
* fixup! dependency: log cached or skipped dependencies with reference to modules
pointlessly cast modules to str, as they cannot be anything else. But we
want to fail later on, with something more friendly than a stacktrace.
boost/wx have special exceptions for people passing an integer there.
- ExternalProgramHolder has path() method while CustomTargetHolder and
BuildTargetHolder have full_path().
- The returned ExternalProgramHolder's path() method was broken, because
build.Executable object has no get_path() method, it needs the
backend.
- find_program('overridden_prog', version : '>=1.0') was broken because
it needs to execute the exe that is not yet built. Now assume the
program has the (sub)project version.
- If the version check fails, interpreter uses
ExternalProgramHolder.get_name() for the error message but
build.Executable does not implement get_name() method.
It is not unheard-of for a project to use pch for C++ but not for C
(because C usually builds fast enough anyway, so it's not worth the
developer overhead of maintaining the pch file).
This code was trying to optimize the vcxproj file size by detecting
"only one language", but it was only looking at the number of
pch-languages defined. This is incorrect when pch is not defined for all
languages in use.
Instead of tweaking the optimization further, remove it. This makes the
vs backend behave more like the ninja backend.
JUnit is pretty ubiquitous, lots of services and results viewers
understand it, in particular gitlab and jenkins know how to consume
JUnit xml. This means projects using CI services can have their test
results consumed automatically.
Fixes: #6972
On some systems the binary 'cmake' for version 3 is named 'cmake3',
therefor printing its version number prints:
'cmake3 version X.Y.Z' instead of 'cmake version X.Y.Z'
This '3' digit in the middle breaks the regular expression
extracting the version number.
The following fix permit both way to work and the regexp to
match the proper version number.
Signed-off-by: Alexandre Lavigne <alexandre.lavigne@scality.com>
Doing this by hand is fraught with corner cases, and we're running into
some of those problems already. setuptools pkg_resource is a well tested
solution for not running into corner cases, and we already rely on
setuptools to make our entry point scripts work, so we might as well
make us of the other things it can solve for us.
Fixes#6801
Windows cmd.exe consoles may be using a code page that might choke
print() when we are outputting the output from calling gtk-doc. Let's
just ignore the error when it happens and print as much as we could in
this situation.