Version: 2023.2
LanguageEnglish
  • C#

Cubemap.SetPixelData

Suggest a change

Success!

Thank you for helping us improve the quality of Unity Documentation. Although we cannot accept all submissions, we do read each suggested change from our users and will make updates where applicable.

Close

Submission failed

For some reason your suggested change could not be submitted. Please <a>try again</a> in a few minutes. And thank you for taking the time to help us improve the quality of Unity Documentation.

Close

Cancel

Switch to Manual

Declaration

public void SetPixelData(T[] data, int mipLevel, CubemapFace face, int sourceDataStartIndex = 0);

Declaration

public void SetPixelData(NativeArray<T> data, int mipLevel, CubemapFace face, int sourceDataStartIndex = 0);

Parameters

data The array of data to use.
mipLevel The mipmap level to write to. The range is 0 through the texture's Texture.mipmapCount. The default value is 0.
face The CubemapFace to write to.
sourceDataStartIndex The index in the source array to start copying from. The default value is 0.

Description

Sets the raw data of an entire mipmap level of a face directly in CPU memory.

This method sets pixel data for the texture in CPU memory. Texture.isReadable must be true, and you must call Apply after SetPixelData to upload the changed pixels to the GPU.

SetPixelData is useful if you want to load compressed or other non-color texture format data into a texture.

The size of the data array must be the width × height of the mipmap level, and the data layout must match the texture format, otherwise SetPixelData fails. You can use byte for T if you don't want to define a custom struct to match the texture format.

Unity throws an exception when SetPixelData fails.

Additional resources: SetPixels, GetPixelData, Apply.

using UnityEngine;

public class ExampleScript : MonoBehaviour { public void Start() { Cubemap cubemap = new Cubemap(2, TextureFormat.RGB24, true);

var byteArray = new byte[] {255, 0, 0, 0, 255, 0, 0, 0, 255, 255, 235, 4, 255, 0, 255, 255, 255, 255, 0, 0, 0, 0, 255, 255, 255, 0, 255};

cubemap.SetPixelData(byteArray, 0, CubemapFace.PositiveX); cubemap.SetPixelData(byteArray, 1, CubemapFace.PositiveX, 12);

cubemap.SetPixelData(byteArray, 0, CubemapFace.NegativeX, 15); cubemap.SetPixelData(byteArray, 1, CubemapFace.NegativeX, 12);

cubemap.SetPixelData(byteArray, 0, CubemapFace.PositiveY); cubemap.SetPixelData(byteArray, 1, CubemapFace.PositiveY, 12);

cubemap.SetPixelData(byteArray, 0, CubemapFace.NegativeY, 15); cubemap.SetPixelData(byteArray, 1, CubemapFace.NegativeY, 12);

cubemap.SetPixelData(byteArray, 0, CubemapFace.PositiveZ); cubemap.SetPixelData(byteArray, 1, CubemapFace.PositiveZ, 12);

cubemap.SetPixelData(byteArray, 0, CubemapFace.NegativeZ, 15); cubemap.SetPixelData(byteArray, 1, CubemapFace.NegativeZ, 12);

cubemap.Apply(updateMipmaps: false); } }