Qt can make use of qwindowsvistastyle.dll if present, and our MinGW
container has the library, but it was not being copied during the
packaging process. Thus, yuzu looked like a Windows 98 application when
using the PR-verify artifacts.
This copies over the DLL during packaging, for that sweet-sweet Windows
Vista style.
In addition, set the Qt plugins path instead of the plugins/platforms
path. This way we can use the directory directly, rather than appending
a `..` everytime we need something just outside of it.
Removes the 7z from being package during CI, as only .tar.xz preserves
information needed on Linux, and otherwise is just extremely redundant
to package in addition to the .tar.xz. This affects Linux releases and
PR-verify artifacts only. MSVC releases do not use this script to my
knowledge.
After updating to 1.0.24, MinGW fails to build libusb as a result of
numerous errors. So we build libusb their way and let them update the
nontrivial stuff.
This only applies to MinGW: the old path is still in use for Linux
toolchains as well as MSVC.
This will dynamically link libusb, since I hit build errors with the old
way we used to resolve the conflict with SDL2.
A regression was introduced on May 13 by linuxdeploy that causes file
open dialogs to crash yuzu in the AppImage (likely this commit
1e28ee38fa174279defe70cdaadf2a552c80258c from
linuxdeploy/linuxdeploy-desktopfile). Instead of downloading the latest
version from each of the repos we use to build the AppImage, just
download the ones hosted at yuzu-emu/ext-linux-bin, which are the same
binaries we have been using, but verified to be working and won't update
on us beyond our control.
This can eventually be moved into the container itself to remove the
need to download them at build time.
Adds scripts that instruct CI to build yuzu with the installed Clang
compiler on yuzuemu/build-environments:linux-fresh.
These scripts are based on the .ci/scripts/linux scripts, minus AppImage
building since that isn't necessary. Re-uses linux-fresh since that
container has Clang 12 installed.
Moves the final step for building the AppImage to the upload script.
Instructs appimagetool to embed update information into the AppImage if
the release target is Mainline. Also tells it to create a zsync file to
enable partial-downloads when updating the AppImage.
Also renames the AppImage from `yuzu-{version info}-x86_64.AppImage` to
`yuzu-{version info}.AppImage` to avoid a bug in the downloads page at
yuzu-emu.org/downloads.
This builds yuzu in an AppImage alongside the other archives during
release. Required to allow distributing yuzu in the future with upgraded
dependencies, such as Qt.
Unicorn has been removed, yet CI still enables building with Unicorn.
This just cleans up a few leftovers by removing the variable from the
CMake parameters in CI.
yuzu's web applet does not or barely reacts to user input while open in
Linux. It can be closed via 'Exit Web Applet' on the menubar, however if
yuzu is in fullscreen, this is effectively a softlock as the menubar
cannot be accessed.
This disables building yuzu with the web applet on the Linux CI target.
In addition, this disables the QMessageBox warning about not having
compiled yuzu with the web applet.
* Remove git submodules that will be loaded through conan
* Move custom Find modules to their own folder
* Use conan for downloading missing external dependencies
* CI: Change the yuzu source folder user to the user that the containers run on
* Attempt to remove dirty mingw build hack
* Install conan on the msvc build
* Only set release build type when using not using multi config generator
* Re-add qt bundled to workaround an issue with conan qt not downloading prebuilt binaries
* Add workaround for submodules that use legacy CMAKE variables
* Re-add USE_BUNDLED_QT on the msvc build bot
This is possible now with the updated Docker images and their updated packages.
Before, there were build errors due to old QT5 packages on Ubuntu, but now since
they have updated packages it is feasible to build with Vulkan enabled once more.
We don't need to depend on a custom fork for this. We can add the
library as is, and then make it excluded from the ALL target, so we only
link in the libraries that we actually make use of.
