This isn't unique to Python. The other answers are good, but just some additional thoughts that didn't fit well into a comment:
- You use exceptions when you don't want (or need) to check for the result. In this mode, you just do it, and if there's an error somewhere, you throw an exception. Getting rid of the explicit checks makes for shorter code, and you still get good debugging information when you DO get an exception, so it's common. This is the EAFP (easier to ask forgiveness than permission) style above.
- You use return codes when you do want to check for the result. Explicit checking is sometimes necessary if failures won't always fail cleanly, or to aid debugging in complex code flows. This is sometimes called the LBYL (look before you leap) style.
In Python, like most interpreted languages, because the overhead is so high, exceptions are relatively cheap, so it's much more common to use EAFP in Python than, say, C++ where the overhead is lower and exceptions are (relatively) more expensive.
Note that a function might both give a return value and possibly throw an exception.
In your example, a function like
doesPointExist implies that the user is actually wanting to verify access before trying something. This is LBYL. Throwing an exception as a result value is part of the EAFP programming style, and wouldn't make sense for this function - if you wanted that style, you wouldn't check, you would just do it, and catch the exception when the point didn't exist.
However, even here there are assumptions - that you've given a valid point. It would be fine for the function to return True/False for whether the point exists, while throwing an exception if something that wasn't a point was passed to it.