My process looks like this:
- define a rectangle I want to draw in, using point dimensions.
- define CGFloat scale = [[UIScreen mainsScreen] scale]
- Multiply the rectangle's size by the scale
- Create an image context of the rectangle size using CGBitmapContextCreate
- Draw within the image context
- call CGBitmapContextCreateImage
- call UIImage imageWithCGImage:scale:orientation: with the appropriate scale.
I had thought this has always resulted in perfect images on both retina and and older screens, but haven't been paying close attention to the line contrast/thickness. Generally, the strokes have a high contrast to the fill so I didn't paid attention until now, with low contrast between a line and fill.
I think perhaps I'm misunderstanding the user space, but I thought it was simply a direct conversion through the scaling, and transforms applied. There are no scaling and transforms applied in my particular case except for the retina screen double scaling.
Trying to render a 2-pixel line rather than 1-pixel is easier to explain: when I call UIContextSetLineWidth(context, 2), the line is rendered as 1 pixel thick on the retina simulator. 1 pixel! But this should be two pixels, on a retina display.
UIContextSetLineWidth(context, 2 * scale) produces a line that is two pixels wide on a retina screen, but I'm expecting it to be 4 pixels.
UIContextSetLineWidth(context, 1) produces a 1-pixel wide line that is partly transparent. I understand about the stroke straddling the path, so I prefer talking in terms of 2-pixel-wide strokes and the paths being on pixel boundaries.
I need to understand why the rendered line width is being divided in half.