feat: updated engine version to 4.4-rc1

engine/doc/classes/BaseMaterial3D.xml

@@ -88,7 +88,7 @@
 			The strength of the anisotropy effect. This is multiplied by [member anisotropy_flowmap]'s alpha channel if a texture is defined there and the texture contains an alpha channel.
 		</member>
 		<member name="anisotropy_enabled" type="bool" setter="set_feature" getter="get_feature" default="false">
-			If [code]true[/code], anisotropy is enabled. Anisotropy changes the shape of the specular blob and aligns it to tangent space. This is useful for brushed aluminium and hair reflections.
+			If [code]true[/code], anisotropy is enabled. Anisotropy changes the shape of the specular blob and aligns it to tangent space. This is useful for brushed aluminum and hair reflections.
 			[b]Note:[/b] Mesh tangents are needed for anisotropy to work. If the mesh does not contain tangents, the anisotropy effect will appear broken.
 			[b]Note:[/b] Material anisotropy should not to be confused with anisotropic texture filtering, which can be enabled by setting [member texture_filter] to [constant TEXTURE_FILTER_LINEAR_WITH_MIPMAPS_ANISOTROPIC].
 		</member>
@@ -125,7 +125,6 @@
 		</member>
 		<member name="billboard_mode" type="int" setter="set_billboard_mode" getter="get_billboard_mode" enum="BaseMaterial3D.BillboardMode" default="0">
 			Controls how the object faces the camera. See [enum BillboardMode].
-			[b]Note:[/b] When billboarding is enabled and the material also casts shadows, billboards will face [b]the[/b] camera in the scene when rendering shadows. In scenes with multiple cameras, the intended shadow cannot be determined and this will result in undefined behavior. See [url=https://github.com/godotengine/godot/pull/72638]GitHub Pull Request #72638[/url] for details.
 			[b]Note:[/b] Billboard mode is not suitable for VR because the left-right vector of the camera is not horizontal when the screen is attached to your head instead of on the table. See [url=https://github.com/godotengine/godot/issues/41567]GitHub issue #41567[/url] for details.
 		</member>
 		<member name="blend_mode" type="int" setter="set_blend_mode" getter="get_blend_mode" enum="BaseMaterial3D.BlendMode" default="0">
@@ -220,7 +219,7 @@
 		</member>
 		<member name="grow" type="bool" setter="set_grow_enabled" getter="is_grow_enabled" default="false">
 			If [code]true[/code], enables the vertex grow setting. This can be used to create mesh-based outlines using a second material pass and its [member cull_mode] set to [constant CULL_FRONT]. See also [member grow_amount].
-			[b]Note:[/b] Vertex growth cannot create new vertices, which means that visible gaps may occur in sharp corners. This can be alleviated by designing the mesh to use smooth normals exclusively using [url=https://wiki.polycount.com/wiki/Face_weighted_normals]face weighted normals[/url] in the 3D authoring software. In this case, grow will be able to join every outline together, just like in the original mesh.
+			[b]Note:[/b] Vertex growth cannot create new vertices, which means that visible gaps may occur in sharp corners. This can be alleviated by designing the mesh to use smooth normals exclusively using [url=http://wiki.polycount.com/wiki/Face_weighted_normals]face weighted normals[/url] in the 3D authoring software. In this case, grow will be able to join every outline together, just like in the original mesh.
 		</member>
 		<member name="grow_amount" type="float" setter="set_grow" getter="get_grow" default="0.0">
 			Grows object vertices in the direction of their normals. Only effective if [member grow] is [code]true[/code].
@@ -316,6 +315,7 @@
 		</member>
 		<member name="refraction_enabled" type="bool" setter="set_feature" getter="get_feature" default="false">
 			If [code]true[/code], the refraction effect is enabled. Distorts transparency based on light from behind the object.
+			[b]Note:[/b] Refraction is implemented using the screen texture. Only opaque materials will appear in the refraction, since transparent materials do not appear in the screen texture.
 		</member>
 		<member name="refraction_scale" type="float" setter="set_refraction" getter="get_refraction" default="0.05">
 			The strength of the refraction effect.
@@ -350,7 +350,6 @@
 		</member>
 		<member name="shading_mode" type="int" setter="set_shading_mode" getter="get_shading_mode" enum="BaseMaterial3D.ShadingMode" default="1">
 			Sets whether the shading takes place, per-pixel, per-vertex or unshaded. Per-vertex lighting is faster, making it the best choice for mobile applications, however it looks considerably worse than per-pixel. Unshaded rendering is the fastest, but disables all interactions with lights.
-			[b]Note:[/b] Setting the shading mode vertex shading currently has no effect, as vertex shading is not implemented yet.
 		</member>
 		<member name="shadow_to_opacity" type="bool" setter="set_flag" getter="get_flag" default="false">
 			If [code]true[/code], enables the "shadow to opacity" render mode where lighting modifies the alpha so shadowed areas are opaque and non-shadowed areas are transparent. Useful for overlaying shadows onto a camera feed in AR.
@@ -553,7 +552,7 @@
 			The object will be shaded per pixel. Useful for realistic shading effects.
 		</constant>
 		<constant name="SHADING_MODE_PER_VERTEX" value="2" enum="ShadingMode">
-			The object will be shaded per vertex. Useful when you want cheaper shaders and do not care about visual quality. Not implemented yet (this mode will act like [constant SHADING_MODE_PER_PIXEL]).
+			The object will be shaded per vertex. Useful when you want cheaper shaders and do not care about visual quality.
 		</constant>
 		<constant name="SHADING_MODE_MAX" value="3" enum="ShadingMode">
 			Represents the size of the [enum ShadingMode] enum.