When upgrading projects from Unity 5.3 to Unity 5.4, there are some changes you should be aware of which may affect your existing project.
Numerous changes to the Networking API.
The WebRequest
interface has been promoted from UnityEngine.Experimental.Networking
to UnityEngine.Networking
. Unity 5.2 and 5.3 projects that use UnityWebRequest
will have to be updated.
An image effect with the ImageEffectTransformsToLDR
attribute will no longer be applied directly to the Scene viewAn interactive view into the world you are creating. You use the Scene View to select and position scenery, characters, cameras, lights, and all other types of Game Object. More info
See in Glossary if found. A new attribute exists for applying effects to the Scene view: ImageEffectAllowedInSceneView
. The 5.4 Standard AssetsA collection of useful assets supplied with Unity. Unity ships with multiple Standard Asset such as 2D, Cameras, Characters, CrossPlatformInput, Effects, Environment, ParticleSystems, Prototyping, Utility, and Vehicles. More info
See in Glossary have been upgraded to reflect this change.
A number of built-in shaderA small script that contains the mathematical calculations and algorithms for calculating the Color of each pixel rendered, based on the lighting input and the Material configuration. More info
See in Glossary variables were renamed for consistency:
The variable references will be automatically renamed in .shader and .cginc files when importing them. However, after the import the shaders will not be usable in Unity 5.3 or earlier, without manually renaming the variables.
In Unity 5.4, the way arrays of shader properties are handled has changed. Now there is “native” support for float/vector/matrix arrays in shaders (via MaterialPropertyBlock.SetFloatArray
, Shader.SetGlobalFloatArray
etc.). These new APIs allow arrays up to 1,023 elements.
The old way of using number-suffixed names for referring to individual array elements is deprecated (e.g. _Colors0
, _Colors1
) in both Material
and MaterialPropertyBlock
. Properties of this kind, serialized with the Material
are no longer able to set array elements (but if any uniform array’s name is suffixed by a number it still works).
The default shader compilation target has changed to “#pragma target 2.5” (SM3.0 on DX9, DX11 9.3 feature level on WinPhone). You can still target DX9 SM2.0 and DX11 9.1 feature level with “#pragma target 2.0”.
The majority of built-in shaders target 2.5 now: Notable exceptions are Unlit, VertexLit and fixed function shaders. In practice, this means that most of built-in shaders and newly-created shaders, by default, will not work on PC GPUs that are made before 2004. See this blog post for details.
The Material
class constructor Material(string)
, which was already deprecated, stops working in 5.4. Using it will print an error and result in the magenta error shader.
The internal shader used to compute screen-space directional light shadows has moved to Graphics Settings. If you were using a customized version of directional light shadows by having a copy of that shader in your project, it will no longer be used. Instead, select your custom shader under Edit > Project Settings > Graphics.
Reflection probes share a sampler between the two textures. If you are sampling them manually in your shader, and get an “undeclared identifier samplerunity_SpecCube1” error, you’ll need to change code from UNITY_PASS_TEXCUBE(unity_SpecCube1)
to UNITY_PASS_TEXCUBE_SAMPLER(unity_SpecCube1,unity_SpecCube0)
.
UnityEditor.ShaderUtil.ShaderPropertyTexDim
is deprecated; use Texture.dimension
.
The data layout of ComputeBuffers in automatically-converted OpenGL shaders has changed to match the layout of DirectX ComputeBuffers. If you use ComputeBuffers in OpenGL, remove any code that tweaks the data to match the previous OpenGL-specific layout rules. Please see Compute Shaders for more information.
Playables are now structs instead of classes.
The Playable
structs are handles to native Playable
classes, instead of pointers to native Playable
classes.
A non-null Playable
struct doesn’t guarantee that the Playable is usable. Use the .IsValid
method to verify that your Playable can be used.
Any method that used to return null for empty inputs/outputs will now return Playable.Null
.
Playable.Null
is an invalid Playable.
Playable.Null
can be passed to AddInput
, SetInput
and SetInputs
to reserve empty inputs, or to implicitly disconnect connected inputs.
Using Playable.Null
or any invalid Playable as an input to any method, or calling a method on an invalid Playable will throw appropriate exceptions for the operation.
Comparing Playables with null
is now meaningless. Compare with Playable.Null
.
Playables must be allocated using the Create
static method of the class you wish to use.
Playables must be de-allocated using the .Destroy
method on the Playable handle.
Playables that are not de-allocated will leak.
Playables were converted to structs to improve performance by avoiding boxing/unboxing (more info on boxing).
Casting a Playable
to an object, implicitly or explicitly, will cause boxing/unboxing, thus reducing performance.
Inheriting from a Playable class will cause boxing/unboxing of instances of the child class.
Since only animation is available for now, ScriptPlayable
s have been replaced by CustomAnimationPlayables
.
It is no longer possible to derive from base Playables. Simply aggregate Playables in your custom Playables.
Follow these instructions to upgrade your Oculus VR project from Unity 5.3:
Re-enable virtual reality support.
Remove Oculus Spatializer.
There has been a change to the events that are triggered when sibling GameObjects are re-ordered in Unity 5.4. Sibling GameObjects are GameObjects which all share the same parent in the Hierarchy window. In prior versions of Unity, changing the order of sibling GameObjects would cause every sibling to receive an OnTransformParentChanged
call. In 5.4, the sibling GameObjects no longer get this call. Instead, the parent GameObject receives a single call to OnTransformChildrenChanged
.
This means that if you have code in your project that relies on OnTransformParentChanged being called when siblings are re-ordered, these calls will no longer occur, and you need to update your code to take action when the parent object receives the OnTransformChildrenChanged call instead.
This changed because the new behavior gives improved performance.
Due to optimisations in the Transform component, using Transform.SetParent
or Destroy
ing parts of hierarchies involving 1000+ GameObjects may now take a long time. Calling SetParent
on or otherwise rearranging such large hierarchies at runtime is not recommended.
The generated Visual Studio project format was updated for all .NET scripting backend SDKs. This fixes excessive rebuilding when nothing has changed in the generated project. You might need to delete your existing generated *.csproj, especially if it was built with the “Generate C# projects” option checked, so Unity can regenerate it.
There are two new script serialization errors to catch when the Unity API is being called from constructors and field initializers during deserialization (loading). Deserialization might happen on a different thread to the main thread and it is therefore not safe to call the Unity API during deserialization. There are more details at the bottom of the (Script Serialization)[script-Serialization] page in the Unity Manual.
The editor now supports Retina resolutions on Mac OS X with high-resolution text, UI and 3D views.
The Editor GUI is now defined in point space rather than pixel space. On standard resolution displays, there is no change because each point is one pixel. On Retina displays, however, every point is two pixels. The current screen to UI scale is available as EditorGUIUtility.pixelsPerPoint
. Since Unity can have multiple windows, each on monitors with different pixel densities, this value might change between views.
If your editor code uses regular Editor/GUI/Layout methods, it is quite likely that you will not need to change anything.
If you are using Screen.width/height
, switch to EditorWindow.position.width/height
instead. This is because screen size is measured in pixels, but UI is defined in points. For custom Editors displaying in the Inspector, use EditorGUIUtility.currentViewWidth
, which properly accounts for the presence of a scroll bar.
If you are displaying other content in your UI, such as a RenderTexture, you are probably calculating its size in points. To support Retina resolutions, you will need to convert your point sizes to pixel sizes. There are new methods in EditorGUIUtility for this.
If you are using GUIStyles with custom backgrounds, you can add Retina versions of background textures by putting one texture with exactly doubled dimensions into a ‘GUIStyleState.scaledBackgrounds’ array.
Macs with underpowered graphics hardware may experience unacceptably slow editor frame rates in 3D views due to increased resolution. Retina support can be disabled by choosing “Get Info” on Unity.app in the Finder, and checking “Open in Low Resolution”.
There are:
The 5.3 behavior is that the animation system always sends Transform update messages for animation curves which are constant. These messages wake up the Rigidbodies and fixing this proved very risky in 5.3.
The 5.4 behavior is that if there are no position changes, the Rigidbody does not wake up (as most people would expect).
If your project relies on the 5.3 behavior of waking Rigidbody all the time, it might not work as expected in 5.4.
The Unity Web Player target has been dropped from Unity 5.4. If you upgrade your project to 5.4, you will not be able to deploy it to the Web Player platform.
If you have legacy Web Player projects that you need to maintain, do not upgrade them to 5.4 or later.
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