Consider the following simple Python function by way of example:
def quantize(data, nlevels, quantizer=lambda x, d: int(floor(x/d))): llim = min(data) delta = (max(data) - llim)/(nlevels - 1) # last level x == max(data) only y = type(data) if delta == 0: return y( * len(data)) else: return y([quantizer(x - llim, delta) for x in data])
And here it is in action:
>>> from random import random >>> data = [10*random() for _ in range(10)] >>> data [6.6181668777075018, 9.0511321773967737, 1.8967672216187881, 7.3396890304913951, 4.0566699095012835, 2.3589022034131069, 0.76888247730320769, 8.994874996737197, 7.1717500363578246, 2.887112256757157] >>> quantize(data, nlevels=5) [2, 4, 0, 3, 1, 0, 0, 3, 3, 1] >>> quantize(tuple(data), nlevels=5) (2, 4, 0, 3, 1, 0, 0, 3, 3, 1) >>> from math import floor >>> quantize(data, nlevels=5, quantizer=lambda x, d: (floor(x/d) + 0.5)) [2.5, 4.5, 0.5, 3.5, 1.5, 0.5, 0.5, 3.5, 3.5, 1.5]
This function certainly has flaws --for one thing, it does not validate arguments, and it should be smarter about how it sets the type of the returned value--, but it has the virtue that it will work whether the elements in data are integers or floats or some other numeric type. Also, by default it returns a list of ints, though, by passing a suitable function as the optional quantizer argument, this type can be changed to something else. Furthermore, if the data parameter is a list, the returned value will be a list; if data is a tuple, the returned value will be a tuple. (This last feature is certainly the weakest one, but it is also the one that I'm least interested in replicating in Java, so I did not bother to make it more robust.)
I would like to write an efficient Java-equivalent of this function, which means figuring out how to get around Java's typing. Since I learned Java (aeons ago), generics were introduced into the language. I've tried learning about Java generics, but find them pretty incomprehensible. I don't know is this is due to early-onset senility, or because of the sheer growth in Java's complexity since I last programmed in it (ca. 2001), but every page I find on this topic is more confusing than the previous one. I'd really appreciate it if someone could show me how to do this in Java.