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I am trying to figure out a type mismatch while adding a string to another string in a concatenate operation.

Basically the error returned is a type error (cannot concatenate string and tuple); so I would like to figure out where did i assigned a value as tuple instead than string.

All the values that I assign are strings, so I gotta figure out where the tuple is coming from, so I was hoping that there is a way in python to find out what is contained inside a variable and what type is it.

So far using pdb I was able to check the content of the variables, and I get correctly the values that I would expect; but I would like to know also the type of the variable (by logic, if the compiler is able to raise a type error, it means that somehow is able to know what is inside a variable and if it is compatible with the operation to perform....so there must be a way to get that value/flag out).

Is there any way to print out the type of a variable in python?

Btw I tried to change all my variables to be explicitly strings, but is not feasible to force str (myvar), so I cannot just cast strings types everywhere i use strings.

Thanks!

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5  
EAFP –  JBernardo Aug 17 '11 at 1:25
    
Not wanting to be picky, but variables never have a type in Python, only objects (referenced by variables) do. Because of this there are no real type casts, only object conversion functions. –  Jürgen Strobel Aug 17 '11 at 2:17
    
Indeed Jurgen; I am not fully aware of how python works under the hood, but i assume that is an object oriented language, so when i create a variable it will create an object of the right datatype and reference it with a pointer, so when i use the variable i am in fact using an instance of the object string (or whatever other datatype). The end point thou is to get the type of that object :) –  newbiez Aug 17 '11 at 20:37
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5 Answers 5

up vote 9 down vote accepted

You just use:

type(varname)

which will output int, str, float, etc...

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Using __class__ is almost always better than using type because in most situations, they'll return the same thing, except that type will declare the type of all old-style classes to be 'instance'. refer to this SO question –  Darren Yin Aug 17 '11 at 1:33
    
Thanks Gabriel; is this used at runtime while in pdb? because i get a syntax error when i try to do type(myvarname) –  newbiez Aug 17 '11 at 20:30
    
I've just added a print type(myvar) and got the type in pdb :) –  newbiez Aug 17 '11 at 22:05
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isinstance(obj, tuple)
isinstance(obj, basestring)
isinstance(obj, int)
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1  
basestring, not basicstring; it is the base for both str and unicode –  Mark Aug 17 '11 at 1:33
    
thanks, I updated. –  Nicolae Dascalu Aug 17 '11 at 1:39
    
also, isinstance, not isinstace –  Darren Yin Aug 17 '11 at 2:02
    
thanks, updated again, :) –  Nicolae Dascalu Aug 17 '11 at 2:19
    
thanks for the reply; this is great for a check while running the program, but I am trying to get the value while debugging with pdb. This is a great way to avoid the problem! –  newbiez Aug 17 '11 at 20:31
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make use of isinstance ?

if isinstance(var, int):

if isinstance(var, str):

if isinstance(var, tuple):
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Testing for str will fail on unicode strings. Also, isinstance(var, tuple) will miss any variables that happen to be lists, which will often arise in situations such as these. Of course, you might want to error out if the var is an instance of a list, but it's good to be sure that you know what's going to happen in different situations. –  Darren Yin Aug 17 '11 at 1:30
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You probably want to test (assuming Python 2.x) using isinstance(obj, basestring). You have the options of using isinstance, type, and calling the attribute __class__, but isinstance is likely to be the one you want here. Take a look at this article for a more thorough treatment of the differences between the three options.

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Thanks Darren; I will probably do the testing using your suggestion, but at the moment i am using pdb; so I can figure out which one is the problematic var and avoid to do the same mistake (I like defensive coding but at the same time i prefer to avoid to make a mistake in first instance, instead than relying on a check to catch a possible mistake ). Interesting that there is also the class attribute; never heard of it. –  newbiez Aug 17 '11 at 20:34
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repr(object) will give a textual description of object, which should show type and value. Your can print or view this in the debugger.

For simple values repr usually returns the same string as you would write the value literally in code. For custom classes it gives the class name and object id, or something else if the class'es

__repr__

is overridden.

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Thanks for the reply Jurgen. I tried repr but it returns me the value of the variable *in my case the string), so it does the same that p(varname) does...am I doing something wrong, since I should see as you mentioned, type, value and description of the object? –  newbiez Aug 17 '11 at 20:39
    
No. It returns a string literal for a str or unicode, including the quotes, so you should recognize it as that type. It returns unquoted digits for integer types and similiar for other numeric types. For a custom class A, it returns something like <mymodule.A instance at 0x123456> by default, but some classes overwrite this description string. –  Jürgen Strobel Aug 17 '11 at 21:19
    
I see; indeed it is really useful, thanks a lot!! –  newbiez Aug 17 '11 at 22:04
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