A Cubemap is a collection of six square textures that represent the reflections on an environment. The six squares form the faces of an imaginary cube that surrounds an object; each face represents the view along the directions of the world axes (up, down, left, right, forward and back).
The fastest way to create cubemaps is to import them from specially laid out Textures. Select the Texture in the Project window, to see the Import Settings in the Inspector window. In the Import Settings, set the Texture Type to Default, Normal Map or Single Channel, and the Texture Shape to Cube. Unity then automatically sets the Texture up as a Cubemap.
Several commonly-used cubemap layouts are supported (and in most cases, Unity detects them automatically).
Vertical and horizontal cross layouts, as well as column and row of cubemap faces are supported:
Another common layout is
LatLong (Latitude-Longitude, sometimes called cylindrical). Panorama images are
often in this layout:
SphereMap (spherical environment map) images can also be found:
By default Unity looks at the aspect ratio of the imported texture to determine the most appopriate layout from the above. When imported, a cubemap is produced which can be used for skyboxes and reflections:
Glossy Reflection option is useful for cubemap textures that will be used by
Reflection Probes. It processed cubemap mip levels in a special way
(specular convolution) that can be used to simulate reflections from surfaces of different smoothness:
Unity also supports creating cubemaps out of six separate textures. Select Assets > Create > Legacy > Cubemap from the menu, and drag six textures into empty slots in the inspector.
|Textures for the corresponding cubemap face.
|Width and Height of each Cubemap face in pixels. The textures will be scaled automatically to fit this size.
|Should mipmaps be created?
|Should the cubemap use linear color?
|Should the cubemap allow scripts to access the pixel data?
Note that it is preferred to create cubemaps using the Cubemap texture import type (see above) - this way cubemap texture data can be compressed; edge fixups and glossy reflection convolution be performed; and HDR cubemaps are supported.
Another useful technique is to generate the cubemap from the contents of a Unity scene using a script. The Camera.RenderToCubemap function can record the six face images from any desired position in the scene; the code example on the function’s script reference page adds a menu command to make this task easy.
2018–01–31 Page amended with limited editorial review