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Fill Tessellation in C# Job


Example of a Sprite Shape: the blue area is the inner fill geometry, while the green area is the edge geometry.

The geometry of a Sprite Shape is made up of its outer edge (for both Open and Closed Shapes) and its inner fill (only for Closed Shapes). The geometry of the edge and fill are generated in different ways by default. The edge geometry is always generated in a C# Job which provides performance benefits and avoids potential performance loss from garbage collection (refer to Understanding Automatic Memory Management for more information). This method also gains additional performance if the Burst package is installed in the same Project.

By default, the fill geometry is generated as job in the main thread using LibNess.NET instead of a C# Job (see What is multithreading? for more information). In Sprite Shape version 5.1.0, there is now an additional option to have the tessellation of the fill geometry done in a C# Job instead, which provides the performance benefits mentioned earlier.

Requirements


The Fill Tessellation (C# Job) option in the Sprite Shape Controller Inspector window

To enable Fill Tessellation (C# Job), select a Sprite Shape and go to its Inspector window, then go to Fill > Fill Tessellation (C# Job) and select its check box. The Sprite Shape must also fulfill the following requirements for this option to work:

  1. The Sprite Shape cannot have any duplicate points in the same location. Duplicate points can occur if you drag a point over another point.
  2. The Sprite Shapes edges cannot intersect or overlap each other.

Note: If Fill Tessellation (C# Job) is enabled but the Sprite Shape does not fulfill these requirements, then the Sprite Shapes Fill geometry will not be generated. Disable **Fill Tessellation (C# Job) **to enable the default tessellation method to generate the geometry.

Enabling or disabling this option does not affect the edge geometry tessellation method which is always in a C# Job.

Examples for each method

Enabling Fill Tessellation (C# Job) is ideal for situations where you want to reduce memory usage for improved CPU performance. For example, when you have dynamic Sprite Shape objects generated at runtime, or are animating Sprite Shape objects at runtime. Both scenarios feature CPU intensive processes, and enabling Fill Tessellation (C# Job) helps to reduce the memory usage of these processes and improve performance overall.

In general, enabling Fill Tessellation (C# Job) is also recommended whenever size and memory usage are important constraints to consider for your application or game.

It is recommended to disable the Fill Tessellation (C# Job) option and use the default LibTess.NET generation method whenever the Sprite Shape cannot meet the requirements that allow it to be generated in a C# Job. This could be because the Sprite Shape has a complex spline shape, with overlapping edges or duplicate points. If the Sprite Shape is being generated with non-deterministic and random input points for the shape of its spline, then it is recommended to use LibTess.NET as it is not guaranteed that the Sprite Shape fulfils the Fill Tessellation requirements.

If you enabled Cache Geometry under the Sprite Shape Controller properties, then it is recommended that you use LibTess.NET instead of Fill Tessellation. The Sprite Shapes geometry is cached as it is generated in the Editor, and this stored data is used at runtime instead of being generated at runtime. Both the LibTess.NET and Fill Tessellation options use this stored data instead of recalculating and regenerating the geometry if it is available. As LibTess.NET is more flexible and is able to accept a wider range of inputs when generating the Sprite Shape, it is recommended to disable Fill Tessellation if Cache Geometry is used.