Difference between revisions of "Mesh/Decomposing a mesh for physics shape"
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Latest revision as of 12:51, 12 August 2011
Important: This article has been translated. The translation was imported on Aug 19 2011. Any changes will require re-export for incremental translation. |
This tab is the second step in the model upload process.
A model's physics shape defines how it collides with other objects, and is typically simpler than its visual appearance to reduce computational cost. For example, a complex vehicle model might have a square physical box shape. NOTE: Models meant to be used as vehicles must not have a physics weight higher than 32.
Step 2: Analyze and Step 3: Simplify are not mandatory for creating a physics shape for your model, but can significantly decrease your model's physics weight.
After you make selections in this tab, click the Modifiers tab.
Step 1: Level of Detail
Choose one... | Select a level of detail to automatically generate a physics model based on an existing visual level of detail:
Lowest or Low are adequate for most purposes and incur a relatively small physics cost. |
From file | Select this option to upload your own physical model from a .dae file. This gives you the greatest control over the model's physics shape. Click Browse to select a file. |
Step 2: Analyze
Select options in this section, then click Analyze.
Method | Select a decomposition method for the model. Each method is best suited to a particular type of shape, because it will return the most accurate and least costly results for models of that type:
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Quality | Select how much combining and overlap reduction is performed on the hulls at the decomposition stage. High returns the best simplification results, but requires the most time to process. If you experience performance problems, try Preview setting first to confirm your smoothing and select Close Holes, then switch to High to get the best simplification results. |
Smooth | Set the tolerance to which coplanar triangles are merged. The value is the angle between adjacent triangles for which merging is permitted. A value of zero allows some angle between triangles, resulting in gently-curving surfaces being flattened.
A lower Smooth setting results in a lower physics cost for objects with curved surfaces. |
Close Holes (slow) | Select to fill any holes in the physical representation of the model (if possible) to fix minor errors in the model. Selecting this option will also close intentional openings in objects: do not use for models that have intentional openings, such as door frames. |
Step 3: Simplify
Select options in this section, then click Simplify.
Method | Select a simplification method:
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Passes | Increase this value to create results with fewer overlapping hulls and more accurate overall representation of your model's physical shape. |
Detail Scale | Reduce this number to preserve more fine detail in your model during the simplification process. Larger values result in a decreased physics cost, but lower accuracy in the physics model. For many models, most of the simplification takes place at very low values, between 0.0 and 0.3, after which the physics model is reduced to a single hull. |
Preview Spread | Move the Preview Spread slider (below the Preview pane) to explode your view of the hulls that comprise your physical model. Make sure the Physics box below the Preview pane is also checked. On objects with many hulls, this can help you to find and examine hulls that would not otherwise be entirely visible. |