Version: 2019.2
Spatial Mapping Collider
Spatial Mapping low level API

Spatial Mapping Renderer

The Spatial Mapping Renderer component provides a visual representation of Spatial MappingThe process of mapping real-world surfaces into the virtual world. More info
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Surfaces. This is useful for visually debugging Surfaces and adding visual effects to the environment.

The system periodically sends data to the Spatial Mapping Renderer component about changes in physical space. Each time the component is notified of these changes by the Spatial Mapping system, it bakes the returned Surface data into GameObjectsThe fundamental object in Unity scenes, which can represent characters, props, scenery, cameras, waypoints, and more. A GameObject’s functionality is defined by the Components attached to it. More info
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that contain both Mesh FilterA mesh component that takes a mesh from your assets and passes it to the Mesh Renderer for rendering on the screen. More info
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and Mesh RendererA mesh component that takes the geometry from the Mesh Filter and renders it at the position defined by the object’s Transform component. More info
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components. The Spatial Mapping Renderer component manages the lifetime of these Surface GameObjects. This means that it handles creating, updating, and destroying the Surface GameObject MeshThe main graphics primitive of Unity. Meshes make up a large part of your 3D worlds. Unity supports triangulated or Quadrangulated polygon meshes. Nurbs, Nurms, Subdiv surfaces must be converted to polygons. More info
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Renderers in the SceneA Scene contains the environments and menus of your game. Think of each unique Scene file as a unique level. In each Scene, you place your environments, obstacles, and decorations, essentially designing and building your game in pieces. More info
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.

Spatial Mapping Renderer component as it appears in the Unity Editor
Spatial Mapping Renderer component as it appears in the Unity Editor

Render Settings

The table below lists all unique Render Settings available for the Spatial Mapping Renderer component.

Setting Description
Render State All Surface GameObjects take their material from the Render State setting. When you change the Render State setting (for example, by script during run time), all Surface GameObjects’ render Materials change to those of the chosen Render State setting. This reduces the number of draw calls, which in turn improves the rendering performance. Using a shared material also reduces the amount of memory used by the application during rendering. Select one of the three options to render Surfaces.

See Using the Spatial Mapping Renderer, below, for more information.
Occlusion Apply the Material defined in Occlusion Material. This is a transparent Material which hides GameObjects behind real world Surfaces. See Using the Spatial Mapping Renderer, below, for more information.

Note: This enables all of a Surface’s Mesh Renderers, overriding any other setting.
Visualisation Apply the Material defined in Visualization Material for visualizing the Spatial Mapping Surfaces (usually a wireframe Material) in your environment. See Using the Spatial Mapping Renderer, below, for more information.

Note: This enables all of a Surface’s Mesh Renderers, overriding any other setting.
None Choose to disable all the Mesh Renderers assigned to the Spatial Mapping Surfaces.
Occlusion Material The material you select here applies when the Spatial Mapping Renderer’s Render State is set to Occlusion. The default is the built-in SpatialMappingOcclusion material.
Visual Material The material you select here is the Visual Material that applies when the Spatial Mapping Renderer Render State is set to Visualization. The default is the built-in SpatialMappingWireframe material.

General Settings

See SpatialMapping General Settings.

Using the Spatial Mapping Renderer

This component provides an easy way to change the material on all generated Surfaces dynamically. Unity provides two pre-built Material types for you to use:

Occlusion Material

This makes the GameObject appear transparent, but holograms are not visible through the GameObject. For example, this might be useful if you require a real-world desk to conceal an in-game holographicThe former name for Windows Mixed Reality. More info
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object placed underneath it.

Visual Material

This is a wireframe Material that Unity applies to all Surfaces in the Spatial Mapping Renderer component. With the default Wireframe 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
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, the colors of the wireframe represent real-world distances. This is usually the most useful option for debugging, but you can also use it for visual effects. The Shader uses color mapping to indicate distance; the table below shows this color mapping:

Distance from HoloLens Color
0 to 1 meters Black
1 to 2 meters Red
2 to 3 meters Green
3 to 4 meters Blue
4 to 5 meters Yellow
5 to 6 meters Cyan
6 to 7 meters Magenta
7 to 8 meters Maroon
8 to 9 meters Teal
9 to 10 meters Orange
10 meters or greater White
The default wireframe Shader used as the Visualization Material in the Spatial Mapping Renderer component (colors in the wireframe represent distances)
The default wireframe Shader used as the Visualization Material in the Spatial Mapping Renderer component (colors in the wireframe represent distances)

When you assign a new Material to either the Visual Material or Occlusion Material, the Material of your Surface GameObjects does not automatically change. To apply the new Material to all Surfaces, you need to set the Render State to the Material you have changed (Visual Material or Occlusion Material).

If you only assign the Occlusion Material or Visual Material properties in Render State from the Unity Editor (directly on the GameObject in your scene), Spatial Mapping destroys them at the same time as the Spatial Mapping Renderer component. However, Spatial Mapping doesn’t destroy any Occlusion or Visual Materials assigned or changed through script with the component, so you will need to destroy them manually.

The code snippet below changes the Material that Spatial Mapping applies to all Surface GameObjects dynamically at run time.


SpatialMappingRenderer renderer = spatialMappingGameObject.AddComponent<SpatialMappingRenderer>();
renderer.visualMaterial = new Material(Shader.Find("VR/SpatialMapping/Wireframe"));
renderer.renderState = SpatialMappingRenderer.RenderState.Visualization;

Surface GameObjects

The Spatial Mapping Renderer component creates its own separate set of Surface GameObjects during run time. These appear in your Scene parented to a Surface Parent GameObject:

Example Surface Parent GameObject and Surface GameObject children
Example Surface Parent GameObject and Surface GameObject children

When a Spatial Mapping Renderer generates Surface GameObjects, they contain the following component

  • Mesh Filter

  • World Anchor

  • Mesh Renderer

  • A shared MaterialAn asset that defines how a surface should be rendered, by including references to the Textures it uses, tiling information, Color tints and more. The available options for a Material depend on which Shader the Material is using. More info
    See in Glossary
    (this is either a Visualization or Occlusion Material, depending on the Render State setting)

Inspector view of a Surface GameObject generated by a Spatial Mapping Renderer
Inspector view of a Surface GameObject generated by a Spatial Mapping Renderer

If you add multiple Spatial Mapping Renderer components to your Scene, each component generates its own set of Surface GameObjects. For example, if you have two GameObjects with Spatial Mapping Renderer components, then your Scene contains two sets of Surface GameObjects: one generated by each component at run time. This is important to keep in mind for optimization purposes.


  • 2018–05–01 Page published

  • Spatial Mapping for Hololens documentation updated in 2017.3

Spatial Mapping Collider
Spatial Mapping low level API
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