My guess is,
NinePatch would be slightly faster in most cases. Here's what I found.
GradientDrawable (the one used for rects in xml) uses this code to call through to
Canvas which in turn uses native call leading to
SkDraw and eventually
On the other hand,
NinePatch's draw() has almost zero Java code before the native call to
NinePatch.cpp which shortly calls
NinePatch_draw() --- and that's where the magic is. The code there iterates over the marked regions and after a number of subsequent calls draws stuff using roughly the same logic in
drawRect() instead of
drawPath()) but in the end it's the same
SkBlitter that do the work.
All that code is pretty hard to wrap my head around instantly, but what did catch my eye is that
GradientDrawable makes two calls to the whole native stack if it has both background and stroke (look here), while in any scenario a
NinePatch only makes one.
So, without actually measuring times for both approaches I get a feeling in most cases
NinePatch wins the race: if we [awfully] roughly assume that native call stacks for
drawPath() use pretty much the same logic and [another awful simplification] the parameter sets that get passed around there and are created by
GradientDrawable don't affect complexity of the methods that much, then
NinePatch turns out to be roughly 2 times faster than
GradientDrawable with filling and outline. Well, provided you use a regular, 9-section 9-Patch (i.e. don't shred you 9-Patch by an awful lot of markers, making the iteration over the pieces overly effort-expensive).
Anyone who'll stumble upon this and knows more on the subject (and/or better at estimating complexity of native code), please, correct me if I'm wrong.
PS yeah, I know this is not much of a straight answer