This feature makes it possible to workaround problems such as:
- long baking time due to heavy synchronization when parsing geometry
from mesh instances
- crash when freeing `NavigationMeshInstance` while baking
- errors when actively baking node tree is being detached from the
scene tree
This makes it possible to create more aesthetically pleasing
styleboxes for GUI theming, especially in games that have
a futuristic appearance (where skewed buttons and progress bars
are common).
The data flow to the VisualServer of current and previous transforms is essential for allowing correct interpolation. An optimization was present that disabled sending transforms when nodes were hidden, however this meant that when unhidden, nodes would interpolate incorrectly from the last transform received when hiding, rather than the up to date previous transform.
This PR disables the optimization and sends always sends transforms when a node is interpolated.
When switching emission on and off, processing was always being switched on and off using internal_process, which was incorrect for using physics interpolation (where physics_process is the relevant one).
This PR correctly updates the process mode according to whether physics interpolation is being used.
Zero or negative ratios are not valid, so the property hint prevents
choosing such values.
The property hint allows using 4 decimals so that common aspect ratios
like 16/9 can be specified with a good level of precision.
Bug problem:
No condition for when the first character of the label is a space character
Fix:
Added an IF condition for when the first character is a space character
The autowrap boundary treat this space character as another dummy word in the WordCache linked list and proceed to function normally, by detecting when line width is 0
Move VisualServer interpolation data out of Scenario and into VisualServerScene, so the interpolation data and enabled status is now common to all Scenarios.
Fix physics interpolation in multithreaded mode by ensuring tick and pre-draw are called.
This allows for lower field of view (or higher zoom) in orthogonal
and frustum camera modes.
The property hint also allows setting the size with greater precision.