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How to deal with Python ~ static typing?

I'm basically a Java programmer with little knowledge of python.I really like the syntax of python and the ease with which a programmer is able to express his idea's but also I'm aware that python is dynamically typed and thus is not as fast as Java.My question is why can't python infer type like languages such as scala ?

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marked as duplicate by katrielalex, pyfunc, missingfaktor, SilentGhost, Roger Pate Oct 20 '10 at 9:27

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Scala has types. You just do not have to type them all the time (pun intended). –  Thilo Oct 20 '10 at 7:08
    
I don't think that is a duplicate. The other question is more about "why Python does not need typing at all". –  Thilo Oct 20 '10 at 7:11
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@Emil: Why do every one want all programming language to look the same? –  pyfunc Oct 20 '10 at 7:12
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@pyfunc: Emil did not ask about changing the look of Python. He just asked why type inference (which could lead to better compile-time error checking and improved performance) is not done. –  Thilo Oct 20 '10 at 7:15
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While it is true that Python is usually not as fast as Java in many common applications, I fail to see what that has to do with static vs. dynamic typing. –  MAK Oct 20 '10 at 7:34
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3 Answers 3

up vote 19 down vote accepted

It is not that Python can't, but it don't. The difference is in the type systems that the designers of the languages choose to follow.

Python uses duck typing and has typed objects but untyped variable names. Type constraints are not checked at compile time; rather, operations on an object may fail, signifying that the given object is not of a suitable type. Despite being dynamically typed, Python is strongly typed, forbidding operations that are not well-defined (for example, adding a number to a string) rather than silently attempting to make sense of them.

Scala is a statically typed language, that is, types are checked at compile time. A local type inference mechanism takes care that the user is not required to annotate the program with redundant type information. Operations that break type constraints leads to compiler errors, not runtime errors. Also see The Purpose of Scala's Type System, especially the section where duck typing is discussed.

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Python doesn't do static type inference, because it wants to let you do things that are impossible under such a scheme. For example:

def myfn():
  if random.random() > 0.5
    return "howdy"
  else:
    return 7

x = myfn() #  Am I a string or an integer?

What should the type of x be?

EDIT : example was:

def myfn(x):
  try:
    return str(x[0]+1) + " is my favourite"
  catch IndexError:
    return x+1

myfn(1) #  = 2
myfn( [2,4,6] ) # = "3 is my favourite"
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Well... it could generate two behind-the-scene functions: Sequence -> str (or maybe Sequence -> Sequence) and int -> int. Kind of like overloading. –  Ionuț G. Stan Oct 20 '10 at 7:28
    
OK, I'll ajust it to something that is even more trivial yet harder to track. –  Michael Anderson Oct 20 '10 at 7:37
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def myfn(x: Array[Int]) = try Left(str(x(0) + 1) catch { case e: ArrayIndexOutOfBoundsException => Right(x + 1) –  Ricky Clarkson Oct 20 '10 at 8:01
    
You're right, that's trickier. In my opinion though, it matters a lot how that function is used, so in this latest case, the compiler knows that myfn returns a string or an int and can at least ensure that you're not calling list methods on the return value. Now, that's a strange example anyway, and I can't really see a real world usage of it, which tells me that some trade-offs can be employed, like forbidding functions returning really different type of arguments. –  Ionuț G. Stan Oct 20 '10 at 8:02
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Impossible? def myfn = if (util.Random.nextBoolean) "rowdy" else 7; val x = myfn <-- perfectly valid Scala. –  Daniel C. Sobral Oct 20 '10 at 12:57
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Python is dynamically-typed, whereas type inference is only possible in statically typed languages. Static typing would be impossible to implement without dropping support for features such as lists of arbitrary objects.

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Not sure. For "x = 123" the compiler should be able to infer that x is an integer. –  Thilo Oct 20 '10 at 7:13
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@Thilo: "x = 123; x = str(x); x = [c for c in x]" , is x an int, a string, or a list? –  Lie Ryan Oct 20 '10 at 7:18
    
@Lie Ryan, I guess the compiler could rewrite the identifier names, so that all can live together. x_int = 123; x_str = str(x_str); x_list = [c for c in x_str]. –  Ionuț G. Stan Oct 20 '10 at 7:23
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@Ionuț G. Stan: let's assume the compiler does that, how would you rewrite x = 123 # assume this is from function argument; if x in [123, '234']:; ` x = '123'; else:; x = ['2', '3', '4']; print x if '3' in x else 'no 3'`; it gets really messy to retranslate that to statically typed names. –  Lie Ryan Oct 20 '10 at 7:36
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@Thilo: Psyco does a limited form of type inference at runtime. It basically detects the type of the objects, recompiles the python to x86 instructions under that type assumption, and then injects the compiled code into the running code and adds some type checking to ensure that the type inference is not violated; if the type inference do gets violated, two things can happen: the python version will get invoked or psyco will generate a second version of the compiled code using the second type assumption. –  Lie Ryan Oct 20 '10 at 7:48
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