What's going on
input() returns a string (the characters you typed in, e.g. "123"), but you are getting a
TypeError because you are passing a string to something that expects a number (e.g. 123, without the quotes).
The fix is convert the string to a number by passing it through the
int(...) constructor, e.g.
int(input()) (just like
int("12") will give you
I'd like to apologize if you are not new to programming and this was a silly mistake, but in case you are new, here was my thought process which helped me debug the issue. I hope you do not find it condescending; I am sharing my thought process so others in similar situations can fix similar bugs.
How to diagnose these kinds of issues
You would debug this as follows by backtracking one step at a time:
� First test to make sure that you understand how to make
arrays properly. I would for example try to make an array of size 3x3 to make sure I understood the API.
>>> array(..., [3,3])
<array object at 0x...>
� Okay, that worked! We seem to be able to make
arrays properly if I just type in the numbers
array(..., [3,3]). Now let's try with
>>> boardsize = input()
>>> array(..., [boardsize, boardsize])
TypeError: string indices must be integers
� This is odd. I just made a 3x3 array with
array(..., [3,3]), why doesn't
array(..., [boardsize, boardsize]) work? Let's check what the value of
boardsize really is:
� How odd, the value seems to be
3, right? Let me double-check to make sure.
>>> boardsize == 3
� Wait, '3'!=3 ??? How is '3' not the same as 3?
� Ahah! The
' I see mean it is a string. It must be the case that
input returns a string. This makes sense, since for example I could type in "cat" and make
boardsize == 'cat', and I should not expect python to be able to tell whether an arbitrary string is a number.
� The fix would be to google for
python convert string to number: second hit: "use the built-in
tl;dr: Work your way backwards towards the error, sanity-checking yourself at each step. When you start making large programs, you can use automatically-called sanity check functions and "unit tests" to make debugging easier.
(sidenote: If you are curious how objects are printed out, it comes from the special
__repr__ method that all classes define. Calling
repr(something) will show fairly unambiguously what kind of object
repr is automatically called on the output of what you type into the interactive interpreter.)