On 4/4/2011 5:23 AM, Paul Rubin wrote:
Gregory Ewing<greg.ew...@canterbury.ac.nz> writes:
What might help more is having bytecodes that operate on
arrays of unboxed types -- numpy acceleration in hardware.
That is an interesting idea as an array or functools module patch.
Basically a way to map or fold arbitrary functions over arrays, with a
few obvious optimizations to avoid refcount churning. It could have
helped with a number of things I've done over the years.
For map, I presume you are thinking of an array.map(func) in system code
(C for CPython) equivalent to
def map(self,func):
for i,ob in enumerate(self):
self[i] = func(ob)
The question is whether it would be enough faster. Of course, what would
really be needed for speed are wrapped system-coded funcs that map would
recognize and pass and received unboxed array units to and from. At that
point, we just about invented 1-D numpy ;-).
I have always thought the array was underutilized, but I see now that it
only offers Python code space saving at a cost of interconversion time.
To be really useful, arrays of unboxed data, like strings and bytes,
need system-coded functions that directly operate on the unboxed data,
like strings and bytes have. Array comes with a few, but very few,
generic sequence methods, like .count(x) (a special-case of reduction).
--
Terry Jan Reedy
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