This page has been translated automatically.
编程
Fundamentals
Setting Up Development Environment
Usage Examples
UnigineScript
C++
C#
UUSL (Unified UNIGINE Shader Language)
File Formats
Rebuilding the Engine and Tools
GUI
Double Precision Coordinates
应用程序接口
Containers
Common Functionality
Controls-Related Classes
Engine-Related Classes
Filesystem Functionality
GUI-Related Classes
Math Functionality
Node-Related Classes
Networking Functionality
Pathfinding-Related Classes
Physics-Related Classes
Plugins-Related Classes
CIGI Client Plugin
Rendering-Related Classes
注意! 这个版本的文档是过时的,因为它描述了一个较老的SDK版本!请切换到最新SDK版本的文档。
注意! 这个版本的文档描述了一个不再受支持的旧SDK版本!请升级到最新的SDK版本。

Occluder Terrain

Occluder terrain provides the cheaper and more efficient way of handling intersections with the terrain, especially when they are large-scaled and have a lot of objects placed upon it. Invisible objects that are culled by the occluder are not sent to the GPU, which increases performance.

Notice
If terrain relief is changed in the runtime, it is not recommended to use the occluder terrain.

See also

Occluder Terrain Usage

To provide increased performance, occluder terrain should be used in the following cases:

  • An occluder terrain can be a great benefit in case of mountains or complex urban environments.
  • An occluder terrain is highly effective if there are many objects that are costly to render (they have a lot of polygons and/or heavy shaders). However, these objects should not be too large since if any part of their surface is seen, it cannot be culled.
    Notice
    If a terrain is flat, occluder can reduce FPS since there are no surfaces that can be culled.

However, there are cases when the occluder terrain should not be used:

  • When the camera is high above the ground (for example, for flight simulators), an occluder should be disabled. At the same time, when it is near or on the ground (during a takeoff or landing), occluders can be enabled to provide performance gain.
  • If terrain relief is changed in the runtime, it is not recommended to use the occluder. As a possible variant in this case, you can black out those areas in the height map where changes will take place.

Occluder Terrain Texture

Occluder Terrain is a RGB8 texture automatically generated from the downsized height map. It contains:

  • Red channel - a height map
  • Green and Blue channels - a cone map (radius and height of cones).

To create the occluder texture, the engine is fed with a height map, the same as for the occluded terrain, but downsized. The smaller the imported height map, the better. If the visible relief is falsely culled by the occluder, use the bigger sized height map. For example, the 8193x8193 terrain can be occluded with the use of 256x256 or 512x512 height map.

On the base of a downsized height map, the cone map is automatically calculated and the height map is replaced with the occluder texture.

Cone-Step Mapping

The simple approach to calculate intersection with the occluder terrain is to trace a ray from the camera and use a fixed step to advance it, until it intersects with the height map. This approach has the disadvantages of both slow speed, a lot of texture fetches and low accuracy.

Instead, cone-step mapping provides a more effective solution that uses a precomputed cone map to substantially accelerate calculations. A cone map places an inverted cone with a vertex on each of the height map texels. The radius of the cone is expanded until it hits any of surrounding heights with its side.

  • This maximum wide angle is stored in the green channel of the occluder texture - the cone map.
  • The height of the cone is stored in the blue channel.

When the ray is traced along the viewing direction, it intersects with a cone and instead of continuing to sample within it, it leaps straight to its outside. Searching inside the cone can be safely omitted since no intersections with the height field are guaranteed within it. The next tracing point to leap to along the ray is the outside of the next cone, thus skipping large areas of texture space. This approach is both cheap, fast and accurate.

Parameters

Size Size of the occluder terrain box along X, Y and Z axis.

Notice
To avoid the visual artifacts, it is strongly recommended to place the occluder terrain node slightly lower than the occluded terrain.
Radius The distance from the camera to perform the occlusion. Up to this distance the ray is traced. Most of the geometry is culled by the foreground objects, so the occlusion by the distant objects can be disregarded to save performance.
Distance The occluder terrain is completely disabled when the camera moves away from its box on the specified distance.
Heights
  • On creation of the occluder terrain, specify the downsized heights texture, the same as for the occluded terrain. It is replaced by the automatically generated occluder texture that contains a cone map.
  • Once an occluder texture (in RGB format) has been generated by the engine, specify it in this texture slot.
Notice
Cone-step mapping is a time consuming operation. If there are no changes in terrain relief, do not assign heights texture each time on world load. Instead, simply specify the occluder texture directly for faster loading.
Last update: 2017-12-21
Build: ()