I was wondering is this a good technique to avoid cumbersome work to
supply so many different size images? Any side effect on this
I imagine there are (at least) two:
This may not always work with 9-patches, especially if the stretchable area is defined by one or more single pixels. For example, if you would provide such a 9patch as xhdpi drawable, then on an mdpi device that single pixel will effectively be 'halved' and thus either disappear completely or blended with the surrounding transparent pixels. The latter is generally true for any upscale/downscale operation, so it's quite likely that your 9patch will not appear as intended.
Larger images will simply take up more space in memory. Especially on low(er)-end devices, with a limited amount of internal memory and a reasonably strict heap space limit, you're likely to run out of memory fast when loading images way larger than required for displaying.
Regarding your comment: it's fairly easy to come up with a sample 9patch that will not visually look as intended across all different screen densities if you supply it only as xhdpi resource. Consider the following 9patch:
Enlarged snapshot for the sake of visibility:
Obviously, the idea is that when this 9patch gets stretched, the result is a 1-pixel thick horizontal blue line. Now, drop this 9patch in just the xhdpi folder and compare the results on xhdpi vs. mdpi:
Clearly, the mdpi device has scaled down the 9patch from the xhdpi folder and the result doesn't look like intended.
Anyways, my point is that in a lot of cases not supplying 9patches for every density bucket may end up looking fine. Just be aware of the fact that there are definitely scenarios out there for which it may not give the desired result. Also, take into consideration the memory argument.