I wrote a quick application to get a feel for the limits of RenderScript and discoved that when reaching approximately 65,000 triangles, the system simply does not draw any additional ones. For example, if I create a cylinder with 70,000 triangles, there is a missing wedge from the cylinder corresponding to the triangles that exceed the ~65,000 count. The triangles are textured and for ease of writing the app, I simply used a
TriangleMeshBuilder class so there is no real optimization going on such as using trifans or tristrips. The hardware is a Samsung Galaxy Nexus. LogCat reports a heap size of about 15MB with 3% free. I receive no errors or warnings regarding the graphics system or RenderScript.
Can anyone explain the reason for the triangles being dropped? Am I at a hardware limit that RenderScript is handling gracefully?
UPDATE Happens on a Samsung Galaxy Nexus (4.0.3), Samsung Galaxy Tab 7.0+ (3.2) and Motorola Xoom (3.2). All at the same point of approximately 65,000 triangles. Each of these devices have different GPU's.
UPDATE 2 In response to Steve Blackwell's insights, I have some additional thoughts.
Lines 710-712 do indeed downcast the
int indices to
short, thus 65536 goes to 0 as Steve points out. Additionally, the "cast" on line 757 is not so much of a cast as telling the RenderScript the format of the binary data that will eventually be sent to it. RenderScript requires all data to be packed into a RenderScript specific data type called an
Allocation to move from Java to the RenderScript runtime, and this needs to be informed as to the data structure. In line with Steve's opinion that this is a bug, line 757 informs RenderScript to treat the index data as
short (unsigned 16bit) but it sends it a 32 bit signed value (which will be accepted due to the lack of a check and treated unsigned, and then only the lower 16 bits used, hence why we get something drawn when below this threshold and triangles connecting back to the first indices when we go over).
TriangleMeshBuilder to see if I can make it accept these values all as integers to increase this limit did not work, which leads me to believe that somewhere in the deep code we do not have access to, there is an additional reference to unsigned shorts. Looks like the only work around is to add additional vertex buffers as Steve suggests, which is easily done with the existing
Mesh.AllocationBuilder class. I will also bring it up with Google in the Developer Hangouts to determine if this is in fact a bug or intentional.