I'm using OpenGL ES 1.1 to render a large view in an iPhone app. I have a "screenshot"/"save" function, which basically creates a new GL context offscreen, and then takes exactly the same geometry and renders it to the offscreen context. This produces the expected result.
Yet for reasons I don't understand, the amount of time (measured with
CFAbsoluteTimeGetCurrent before and after) that the actual draw calls take when sending to the offscreen buffer is more than an order of magnitude longer than when drawing to the main framebuffer that backs an actual UIView. All of the GL state is the same for both, and the geometry list is the same, and the sequence of calls to draw is the same.
Note that there happens to be a LOT of geometry here-- the order of magnitude is clearly measurable and repeatable. Also note that I'm not timing the
glReadPixels call, which is the thing that I believe actually pulls data back from the GPU. This is just a mesaure of the time spent in e.g.
- Render that geometry to the screen again just after doing the offscreen render: takes the same quick time for the screen draw.
- Render the offscreen thing twice in a row-- both times show the same slow draw speed.
Is this an inherent limitation of offscreen buffers? Or might I be missing something fundamental here?
Thanks for your insight/explanation!