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Consider the following code snippet:

dict [name] = 0
dict [name] += 1
dict [name] += 1

Does the python interpreter automatically recognise the repeated references to the dictionary value and use a cached local reference instead?, somewhat akin to the aliasing optimisations of C/C++, becoming something like so:

value = dict [name]
value = 0
value += 1
value += 1

Obviously, it's not a big deal to do this manually but I'm curious if it's actually necessary. any insight, feedback, etc is appreciated.

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That's the interpreter's implementation detail you should not worry about. Besides, this sort of micro-optimization is not all that meaningful on such a layer as Python's, stratosphere-high as it is. Any particular reason you are concerned about it? –  Santa Aug 12 '11 at 18:23
Curiosity and a tendency to fret over every aspect of my code :) –  Gearoid Murphy Aug 12 '11 at 18:26

4 Answers 4

up vote 26 down vote accepted

You can run it through the disassembler to find out:

import dis

def test():
    name = 'test'
    tdict = {}
    tdict[name] = 0
    tdict[name] += 1
    tdict[name] += 1


Running this we get:

 13           0 LOAD_CONST               1 ('test')
              3 STORE_FAST               0 (name)

 14           6 BUILD_MAP                0
              9 STORE_FAST               1 (tdict)

 15          12 LOAD_CONST               2 (0)
             15 LOAD_FAST                1 (tdict)
             18 LOAD_FAST                0 (name)
             21 STORE_SUBSCR        

 16          22 LOAD_FAST                1 (tdict)
             25 LOAD_FAST                0 (name)
             28 DUP_TOPX                 2
             31 BINARY_SUBSCR       
             32 LOAD_CONST               3 (1)
             35 INPLACE_ADD         
             36 ROT_THREE           
             37 STORE_SUBSCR        

 17          38 LOAD_FAST                1 (tdict)
             41 LOAD_FAST                0 (name)
             44 DUP_TOPX                 2
             47 BINARY_SUBSCR       
             48 LOAD_CONST               3 (1)
             51 INPLACE_ADD         
             52 ROT_THREE           
             53 STORE_SUBSCR        
             54 LOAD_CONST               0 (None)
             57 RETURN_VALUE        

It looks like, in this case, that LOAD_FAST is loading up the values of tdict and name each time we try to access it to perform the increment, so the answer would appear to be no.

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Impressive, I was not aware of the disassembler –  Gearoid Murphy Aug 12 '11 at 18:24
wow that is cool! did not know about that either. –  Saher Aug 12 '11 at 18:33

Changing your two examples into something like this:

di = {}
name = "hallo"
di[name] = 0
for i in range(2000000):
    di[name] += 1


di = {}
name = "hallo"
di[name] = 0
value = di[name]
for i in range(2000000):
    value += 1

You can see in the following tests, that v2 is faster, but pypy is much faster :-)

$ time python2.7 v1.py
real    0m0.788s
user    0m0.700s
sys     0m0.080s

$ time python2.7 v2.py
real    0m0.586s
user    0m0.490s
sys     0m0.090s

$ time pypy v1.py
real    0m0.203s
user    0m0.210s
sys     0m0.000s

$ time pypy v2.py
real    0m0.117s
user    0m0.080s
sys     0m0.030s

SO: it's not good to optimize code for a single interpreter (I have not tested Jython for example...), but it's great when someone optimizes the interpreter...

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I'm aware of that. But it's the same in the question: in v1, dict[name] is 2, in v2 value is 2. The question is whether both ways are treated (roughly) the same by the interpreter. And they are not, otherwise they would be (roughly) equally fast. –  xubuntix Aug 13 '11 at 13:44
I had forgotten that was what the question did between reading the question and reading your answer :) –  agf Aug 13 '11 at 13:48

No, because that would not work, and you even demonstated that with your own code - it's actually not equivalent:

>>> a = {}
>>> name = 'x'
>>> a[name] = 0
>>> a[name] += 1
>>> a[name] += 1
>>> a[name] # ok no suprises so far
>>> a = {}
>>> a[name] = 0
>>> x = a[name] # x is now literally `0`, not some sort of reference to a[name]
>>> x
>>> x += 1
>>> x += 1
>>> a[name] # so this never changed

Python does not have C-ish "references". What you had in mind would work only for mutable types such as list. This is a very fundamental property of Python and you should probably forget everything C taught you about variables when programming Python.

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Do you mean "C++ like references" instead of "C like references"? –  brandizzi Aug 12 '11 at 18:36
I would say that on the contrary, Python does have "C++-like" references; what it doesn't have is variables of value type. Values are values, and variables refer to values. Well - they're like C++ references in that they're always valid and non-null, and "automatically dereferenced"; but like C++ pointers in that they can be re-seated and that assigning to them re-seats them; and unlike C++ entirely in that they're dynamically typed. –  Karl Knechtel - away from home Aug 12 '11 at 19:00

That type of optimization isn't possible simply by inspecting the code. Your name dict could refer not to a native dictionary, but a user-defined object that implements __setitem__, and that method has to be called three times. At runtime, a sophisticated implementation could note the actual value of the name, and make an optimization, but it can't be done before runtime without breaking some Python semantics.

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