2D テクスチャ配列を扱うクラス
Modern graphics APIs (e.g. D3D10 and later, OpenGL ES 3.0 and later, Metal etc.) support "texture arrays", which is an array of same size & format textures.
From the shader side, they are treated as a single resource, and sampling them needs an extra coordinate that indicates which array element to sample from.
一般的に、テクスチャ配列はテクスチャアトラスの代替えとして使われます。また、他の場合では、オブジェクトが 1 組の同サイズのテクスチャ (例えば、テレインなど) を使用するときなどに便利です。
Currently in Unity texture arrays do not have an import pipeline for them, and must be created from code, either at runtime or in editor scripts.
Using Graphics.CopyTexture is useful for fast copying of pixel data from regular 2D textures into elements of a texture array. From editor scripts,
a common way of creating serialized texture array is to create it, fill with data (either via Graphics.CopyTexture from regular 2D textures, or via SetPixels or
SetPixels32) and save it as an asset via AssetDatabase.CreateAsset.
Note that not all platforms and GPUs support texture arrays; for example Direct3D9 does not. Use SystemInfo.supports2DArrayTextures to check. Also, this class does not support Texture2DArray creation with a Crunch compression TextureFormat.
allSlices | Read Only. This property is used as a parameter in some overloads of the CommandBuffer.Blit, Graphics.Blit, CommandBuffer.SetRenderTarget, and Graphics.SetRenderTarget methods to indicate that all texture array slices are bound. The value of this property is -1. |
activeMipmapLimit | The number of high resolution mipmap levels from the texture that Unity doesn't upload to the GPU. (Read Only) |
depth | テクスチャ配列の要素の数 (読み込み専用) |
format | テクスチャ形式 (読み込み専用) |
ignoreMipmapLimit | This property causes a texture to ignore all texture mipmap limit settings. |
mipmapLimitGroup | The name of the texture mipmap limit group that this texture is associated with. (Read Only) |
Texture2DArray | 新しいテクスチャ配列を作成 |
Apply | Copies changes you've made in a CPU texture to the GPU. |
GetPixelData | Gets the raw data from a texture. |
GetPixels | Gets the pixel color data for a mipmap level of a slice as Color structs. |
GetPixels32 | Gets the pixel color data for a mipmap level of a slice as Color32 structs. |
SetPixelData | Sets the raw data of an entire mipmap level directly in CPU memory. |
SetPixels | Sets the pixel colors of an entire mipmap level of a slice. |
SetPixels32 | Sets the pixel colors of an entire mipmap level of a slice. |
allowThreadedTextureCreation | Allow Unity internals to perform Texture creation on any thread (rather than the dedicated render thread). |
currentTextureMemory | The amount of memory that all Textures in the scene use. |
desiredTextureMemory | The total size of the Textures, in bytes, that Unity loads if there were no other constraints. Before Unity loads any Textures, it applies the memory budget which reduces the loaded Texture resolution if the Texture sizes exceed its value. The desiredTextureMemory value takes into account the mipmap levels that Unity has requested or that you have set manually.For example, if Unity does not load a Texture at full resolution because it is far away or its requested mipmap level is greater than 0, Unity reduces the desiredTextureMemory value to match the total memory needed.The desiredTextureMemory value can be greater than the Texture.targetTextureMemory value. |
GenerateAllMips | Can be used with Texture constructors that take a mip count to indicate that all mips should be generated. The value of this field is -1. |
nonStreamingTextureCount | The number of non-streaming Textures in the scene. This includes instances of Texture2D and CubeMap Textures. This does not include any other Texture types, or 2D and CubeMap Textures that Unity creates internally. |
nonStreamingTextureMemory | The amount of memory Unity allocates for non-streaming Textures in the scene. This only includes instances of Texture2D and CubeMap Textures. This does not include any other Texture types, or 2D and CubeMap Textures that Unity creates internally. |
streamingMipmapUploadCount | How many times has a Texture been uploaded due to Texture mipmap streaming. |
streamingRendererCount | Number of renderers registered with the Texture streaming system. |
streamingTextureCount | Number of streaming Textures. |
streamingTextureDiscardUnusedMips | This property forces the streaming Texture system to discard all unused mipmaps instead of caching them until the Texture memory budget is exceeded. This is useful when you profile or write tests to keep a predictable set of Textures in memory. |
streamingTextureForceLoadAll | Force streaming Textures to load all mipmap levels. |
streamingTextureLoadingCount | Number of streaming Textures with mipmaps currently loading. |
streamingTexturePendingLoadCount | Number of streaming Textures with outstanding mipmaps to be loaded. |
targetTextureMemory | The total amount of Texture memory that Unity allocates to the Textures in the scene after it applies the memory budget and finishes loading Textures. `targetTextureMemory`also takes mipmap streaming settings into account. This value only includes instances of Texture2D and CubeMap Textures. This value does not include any other Texture types, or 2D and CubeMap Textures that Unity creates internally. |
totalTextureMemory | The total amount of Texture memory that Unity would use if it loads all Textures at mipmap level 0.This is a theoretical value that does not take into account any input from the streaming system or any other input, for example when you set the`Texture2D.requestedMipmapLevel` manually.To see a Texture memory value that takes inputs into account, use `desiredTextureMemory`.`totalTextureMemory` only includes instances of Texture2D and CubeMap Textures. This value does not include any other Texture types, or 2D and CubeMap Textures that Unity creates internally. |
hideFlags | Should the object be hidden, saved with the Scene or modifiable by the user? |
name | オブジェクト名 |
anisoLevel | Defines the anisotropic filtering level of the Texture. |
dimension | Dimensionality (type) of the Texture (Read Only). |
filterMode | Filtering mode of the Texture. |
graphicsFormat | Returns the GraphicsFormat format or color format of a Texture object. |
graphicsTexture | GraphicsTexture that represents the texture resource uploaded to the graphics device (Read Only). |
height | Height of the Texture in pixels (Read Only). |
imageContentsHash | The hash value of the Texture. |
isDataSRGB | Returns true if the texture pixel data is in sRGB color space (Read Only). |
isReadable | Whether Unity stores an additional copy of this texture's pixel data in CPU-addressable memory. |
mipMapBias | The mipmap bias of the Texture. |
mipmapCount | How many mipmap levels are in this Texture (Read Only). |
updateCount | This counter is incremented when the Texture is updated. |
width | Width of the Texture in pixels (Read Only). |
wrapMode | Texture coordinate wrapping mode. |
wrapModeU | Texture U coordinate wrapping mode. |
wrapModeV | Texture V coordinate wrapping mode. |
wrapModeW | Texture W coordinate wrapping mode for Texture3D. |
GetInstanceID | Gets the instance ID of the object. |
ToString | Returns the name of the object. |
GetNativeTexturePtr | Retrieve a native (underlying graphics API) pointer to the Texture resource. |
IncrementUpdateCount | Increment the update counter. |
Destroy | Removes a GameObject, component or asset. |
DestroyImmediate | Destroys the object obj immediately. You are strongly recommended to use Destroy instead. |
DontDestroyOnLoad | Do not destroy the target Object when loading a new Scene. |
FindAnyObjectByType | Retrieves any active loaded object of Type type. |
FindFirstObjectByType | Retrieves the first active loaded object of Type type. |
FindObjectsByType | Retrieves a list of all loaded objects of Type type. |
Instantiate | original のオブジェクトをクローンします |
SetGlobalAnisotropicFilteringLimits | 異方性のリミットを設定します |
SetStreamingTextureMaterialDebugProperties | This function sets mipmap streaming debug properties on any materials that use this Texture through the mipmap streaming system. |
bool | オブジェクトが存在するかどうか |
operator != | 二つのオブジェクトが異なるオブジェクトを参照しているか比較します |
operator == | 2つのオブジェクト参照が同じオブジェクトを参照しているか比較します。 |