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This doesn't make all these modules actually work with Qt6 yet, but it
prevents them from unconditionally pulling in Qt5 in a Qt6 build.
This is useful in order to even be able to pass a CMake run to the
point one can port, test and debug the rest.
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CMake >= 3.0 supports bracket comments, and the reStructuredText
integration code in sphinx/ext/ecm.py already supports extracting
the docs from a bracket comment instead.
Editing documentation without leading line comment markers is more simple,
e,g. when reflowing text over lines.
With ECM meanwhile requiring CMake 3.5 now it is possible to switch
(and thus follow also the approach used by cmake itself).
NO_CHANGELOG
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Summary:
Allows to have headers be found by doxygen, e.g. to properly process
preprocessor macros.
Reviewers: #build_system, dfaure
Reviewed By: dfaure
Subscribers: dfaure, kde-frameworks-devel, kde-buildsystem
Tags: #frameworks, #build_system
Differential Revision: https://phabricator.kde.org/D23791
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Summary:
These typos show up in the generated manpages.
Reviewers: #frameworks, alexmerry, kossebau, cgiboudeaux
Reviewed By: cgiboudeaux
Subscribers: cgiboudeaux, kde-frameworks-devel, kde-buildsystem
Tags: #frameworks, #build_system
Differential Revision: https://phabricator.kde.org/D12867
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Summary:
when KDE_INSTALL_USE_QT_SYS_PATHS has been explicitely set,
qmake can be considered a required dependency, otherwise the
paths will not be known, which would be unexpected.
Also does the code calling query_qmake, besides the one testing
for the same install prefix, not handle the case of empty strings
being returned and then results in bogus behaviour.
Thus this patch makes code fail hard if query_qmake is expected
to yield a result, but no qmake executable is found.
Reviewers: #frameworks, ltoscano, rdieter, apol
Reviewed By: apol
Subscribers: #build_system
Tags: #frameworks, #build_system
Differential Revision: https://phabricator.kde.org/D6772
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Cmp. https://bugzilla.gnome.org/show_bug.cgi?id=783759
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Summary:
Enables generation of QCH files during a normal build,
for documenting the public API of a library.
These macros are especially done with release builds in mind,
so distributed packages (like from Linux distributions) can
include QCH files matching the version of the library and will be
also automatically updated on new versions of the libary.
Next to that these macros also support linking between different
QCH files, so a subclass from another library for which there also
is a QCH file installed will be linked to the entry in that other
QCH file.
This inter-QCH linking is especially useful for libraries extending Qt,
where many of the used types are from Qt libraries. The macros
come with the needed information for Qt libraries prepared, so the
used Qt libraries just need to be listed in the LINK_QCHS argument
by target names, like Qt5Core_QCH or Qt5Widgets_QCH.
This should be a nice supplement to online services like api.kde.org,
like Qt's own QCH files are to doc.qt.io,
While QCH files from an abstract POV could be seen similar to code
libraries, being components with links to lookup symbols/entries in
other QCH files, so the rules and code should be done with similar
concepts, currently CMake's target system seems bound to executable
code creation. So things like "file(EXPORT ...)" could sadly not be
reused, as custom targets are not supported with that.
Thus a custom macro had to be created for now. Also could I not find
a way to use namespaces like KF5::, for more consistent target naming.
The patch also adds two variables to KDEInstallDirs.cmake for
controlling where the QCH (and respective doxygen tag files) are
installed. The QTQCHDIR variant allows to install QCH files for
Qt-extending libraries into the same folder where Qt's own QCH
files are, so Qt Assistant & other QCH viewer pick up them automatically
to add them to the default help file collection.
The QCHDIR variant would provide a neutral, but central installation
location. Neutral, as it never "pollutes" the Qt system dirs with files
possibly unrelated to Qt-based development (e.g. when simply using qthelp
tools for documentation), and central, to help with finding available QCH
files for manually adding/loading them into a viewer, given there is no
official way currently to register the availability of QCH files on
installing.
Open questions:
a) target system for exporting/importing done in a sane way?
Better name pattern for the QCH targets than xxx_QCH
(see the targets created for Qt, like Qt5Core_QCH)?
b) sharing metadata with kapidox
Initially I placed these macros into the kapidox module, as this seems the
logic place. And would match what kdoctools does for user manuals.
Just, that would create a build dependency on kapidox which complicates usage
a little. Having these macros in ECM delivers them with no extra effort
needed.
The data in metainfo.yaml is partially duplicated with the data feed into
the macros. How to deduplicate that is still open. Especially with the need
to not depend on external data sources like identify.kde.org.
Issues:
* doxygen versions before 1.8.13 are broken and miss to include some files
with generated QCH (https://bugzilla.gnome.org/show_bug.cgi?id=773693)
* Qt Assistant often only built with QTextBrowser, while doxygen uses lots
of HTML5 (incl. hardcoded JavaScript)
(https://bugzilla.gnome.org/show_bug.cgi?id=773715),
needs e.g. distributions to use QtWebKit to work, upcoming Qt versions
might soon also have QtWebEngine based help viewer
(https://codereview.qt-project.org/#/c/111559/)
* inter-QCH links do not work in KDevelop currently
(see https://bugs.kde.org/show_bug.cgi?id=372747) if installed as
separate QCH files
More details/background info at
https://frinring.wordpress.com/2016/09/27/adding-api-dox-generation-to-the-build-by-cmake-macros/
Tags: #frameworks, #build_system
Differential Revision: https://phabricator.kde.org/D2854
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