I am using 3 vertex buffers at one time (I actually have many, but there are only 3 used at once).
They contain information which is mixed together in a shader to produce the desired output -- a 2D skeletal animation.
There are two bone buffers, which contain the position/rotation/scale for a bone at any given frame.
There is one skin buffer, which contains the vertices for rendering a region of a texture as if it were at the world origin, (0,0).
In the shader, the two bone buffers are combined with an easing value (passed through as a uniform), and then by transforming the skin vertices, the parts are rendered in the correct places.
This performs great, and is a good improvement on where I started out -- I calculated everything on the GPU, and just passed in x/y/u/v coordinates, I was limited by streaming so much data to the GPU each frame.
However, there's a lot of duplicated information. The skin buffer contains only what it needs, 4 vertices per skin part, each unique.
When it gets combined with the bone though, each bone vertex is duplicated 4 times -- to match the skin buffer. Working on mobile, this is a pain in the nuts, because I'm running low on memory, and it annoys me that there's so much wastage.
This is how the buffers would look if there were just 1 bone.
Bone buffer 1
[x1,y1,rot1] [x1,y1,rot1] [x1,y1,rot1] [x1,y1,rot1]
Bone buffer 2
[x2,y2,rot2] [x2,y2,rot2] [x2,y2,rot2] [x2,y2,rot2]
[xA,yA,uA,vA] [xB,yB,uB,vB] [xC,yC,uC,vC] [xD,yD,uD,vD]
I won't post the full shader, because there's too much extra stuff going on in there (rotation and scale work similarly):
attribute vec2 bonePosition1; // x1, y1 attribute vec2 bonePosition2; // x2, y2 attribute vec2 skinPosition; // xA (or xB .. ), yA (or yB .. ) uniform float a; // Some value 0..1 depending on time ... vec2 bonePosition = mix(bonePosition1, bonePosition2, a); vec2 combinedPosition = skinPosition * bonePosition;
Note; since I'm targeting iOS primarily (others too, but it's the most restrictive), I know I'm limited to 16 attributes.
Is there some way to shrink down the memory footprint of the bone buffers? I have many, many frames to one skin buffer.