Version: 2020.1
Generating lightmap UVs
Lightmap seam stitching

UV overlap

Each lightmapA pre-rendered texture that contains the effects of light sources on static objects in the scene. Lightmaps are overlaid on top of scene geometry to create the effect of lighting. More info
See in Glossary
contains a number of charts. At run time, Unity maps these charts onto 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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faces, and uses the charts’ lighting data to calculate the final appearance. Because of the way GPU sampling works, data from one chart can bleed onto another if they are too close to each other. This usually leads to unintended aliasing, pixelation, and other graphical results (these are called artifacts).

Example of graphical artifacts due to chart bleeding
Example of graphical artifacts due to chart bleeding

To avoid light bleeding, there must be a sufficient amount of space between charts. When a GPU samples a lightmap, the lighting system calculates the final sample value from the four texels closest to the sampled point (assuming bilinear filtering is used). These four texels are called the bilinear “neighborhood” of the sampled point. Charts are too close together if they overlap - that is, if the neighbourhood of any point inside a chart overlaps with the neighborhood of any point in another chart. In the image below, the white pixelsThe smallest unit in a computer image. Pixel size depends on your screen resolution. Pixel lighting is calculated at every screen pixel. More info
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indicate chart neighbourhoods, and red pixels indicate overlapping neighbourhoods.

Red pixels indicate overlapping chart neighbourhoods
Red pixels indicate overlapping chart neighbourhoods

Determining optimal chart placements and spacing can be difficult, because it depends on several parameters (such as lightmap resolution, mesh UVs, and Importer settings). For this reason, Unity provides the ability to identify these issues easily, as outlined in the following section.

Identification

There are three ways to identify overlaps:

  • Keep an eye on Unity’s console. If Unity detects overlapping UVs, it prints a warning message with a list of affected 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
    See in Glossary
    .

  • Use the UV Overlap draw mode 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
    See in Glossary
    View (see GI visualizations in the Scene View for more information). When you have this mode enabled, Unity adds a red highlight to chart texels that are too close to texels of other charts. This is especially useful if you discover an artefact in the Scene viewAn interactive view into the world you are creating. You use the Scene View to select and position scenery, characters, cameras, lights, and all other types of Game Object. More info
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    , and want to quickly examine whether UV overlap is causing it.

Scene View using UV Overlap draw mode (see dropdown in top left)
Scene View using UV Overlap draw mode (see dropdown in top left)
  • Use Baked Lightmaps Preview. Select a GameObject and go to the Lighting window and then choose the Baked Lightmaps tab. Double-click the highlighted lightmap, navigate to the Preview window, and select Baked UV Overlap (see dropdown in upper right corner). The Preview window colours problematic texels red in this view.
The Baked Lightmaps Preview in the Lighting window’s Baked Lightmaps tab
The Baked Lightmaps Preview in the Lighting window’s Baked Lightmaps tab

Solutions

There is no one single solution for UV overlap, because there are so many things that can cause it. Here are the most common solutions to consider:

  • If Unity is automatically creating the lightmap UVs, you can increase the Pack Margin. To do this, navigate to the Model tab of the Mesh’s import settings. Make sure Generate Lightmap UVs is enabled, then fold out Advanced and use the Pack Margin slider to increase the value. This creates more spacing between charts, which reduces likelihood of overlap. However, this also increase the total space requirement for the lightmap, so try to apply enough spacing to avoid artifacts, but no more. For more information on lightmap UVs that Unity creates automatically, see documentation on Generating lightmapping UVs.

  • If you provide lightmap UVs yourself, you can try adding margins using your modelling package.

  • Increase the resolution of the entire lightmap. This will increase the numbers of pixels between the charts, and therefore reduce the likelihood of bleeding. The downside is that your lightmap may become too large. You can do this in the Lighting tab under Lightmapper Settings.

  • Increase the resolution of a single GameObject. This allows you to increase lightmap resolution only for GameObjects that have overlapping UVs. Though less likely, this can also increase your lightmap size. You can change a GameObject’s lightmap resolution inside its 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
    See in Glossary
    under Lightmap Settings.

Same mesh as before, but without bleeding artifacts
Same mesh as before, but without bleeding artifacts

Progressive Lightmapper added in 2018.1 NewIn20181

2018–03–28 Page published

Generating lightmap UVs
Lightmap seam stitching
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