- Implements asynchronous transfer queues from PR #87590.
- Adds ubershaders that can run with specialization constants specified as push constants.
- Pipelines with specialization constants can compile in the background.
- Added monitoring for pipeline compilations.
- Materials and shaders can now be created asynchronously on background threads.
- Meshes that are loaded on background threads can also compile pipelines as part of the loading process.
Thanks for the fix of `JavaClassWrapper` in https://github.com/godotengine/godot/pull/96182 and the changes in the previous commit, this introduces an `AndroidRuntime` plugin which provides GDScript access to the Android runtime capabilities.
This allows developers to get access to various Android capabilities without the need of a plugin.
For example, the following logic can be used to check whether the device supports vibration:
```
var android_runtime = Engine.get_singleton("AndroidRuntime")
if android_runtime:
print("Checking if the device supports vibration")
var vibrator_service = android_runtime.getApplicationContext().getSystemService("vibrator")
if vibrator_service:
if vibrator_service.hasVibrator():
print("Vibration is supported on device!")
else:
printerr("Vibration is not supported on device")
else:
printerr("Unable to retrieve the vibrator service")
else:
printerr("Couldn't find AndroidRuntime singleton")
```
The Android plugin implementation is updated to use `JavaClassWrapper` which was fixed in https://github.com/godotengine/godot/pull/96182, thus removing the limitation on supported types.
Note that `JavaClassWrapper` has also been updated in order to only provide access to public methods and constructor to GDScript.
A few permissions including the `USE_SCENE` permission are being renamed with the launch of the Meta Spatial SDK, so we update the excluded list to avoid requesting them on app start.
Some platforms don't support hostfxr but we can use the coreclr/monosgen library directly to initialize the runtime.
Android exports now use the `android` runtime identifier instead of `linux-bionic`, this removes the restrictions we previously had:
- Adds support for all Android architectures (arm32, arm64, x32, and x64), previously only the 64-bit architectures were supported.
- Loads `System.Security.Cryptography.Native.Android` (the .NET library that binds to the Android OS crypto functions).
Make Drag and Drop an application-wide operation.
This allows do drop on Controls in other Viewports/Windows.
In order to achieve this, `Viewport::_update_mouse_over` is adjusted to
remember the Control, that the mouse is over (possibly within nested
viewports). This Control is used as a basis for the Drop-operation, which
replaces the previous algorithm, which was only aware of the topmost
Viewport.
Also now all nodes in the SceneTree are notified about the Drag and Drop
operation, with the exception of SubViewports that are not children of
SubViewportContainers.
Initially the WaylandThread cursor code was supposed to be as stateless
as possible but, as time went on, this wasn't possible.
This expectation made the resulting API quite convoluted, so this patch
aims to simplify it substantially bot in terms of API surface and, most
importantly, in terms of actual implementation complexity.
This patch also fixes custom cursors since I accidentally changed the
mmap flags to MAP_PRIVATE some time ago. This took me hours to notice.
