georgesi's answer perfectly answers the exact question you asked—but then so do the docs you linked to, because he's just quoting from those docs. So, presumably you want more.
You could be asking two things:
- Why was Python designed this way, when my native intuition/favorite language says
or should return a
- How does Python implement this?
Since you bolded the question "What really happen behind Python
or operation", I'm guessing it's the latter.
Remember that there are multiple implementations of Python, and they're free to implement things however they want, as long as they meet the spec set by the reference docs. But usually, when people ask "how does Python do this?" they mean "how does the CPython implementation do this?"
First, let's look at some bytecode:
>>> def f():
... return 1 or 2
>>> import dis
2 0 LOAD_CONST 1 (1)
3 JUMP_IF_TRUE_OR_POP 9
6 LOAD_CONST 2 (2)
>> 9 RETURN_VALUE
What does this mean? In Python-esque pseudocode, it's like this:
top = 1
top = 2
If you want to understand better (and CPython is the implementation you care about), you just need to know that the CPython bytecode interpreter is a simple stack machine, and the code for that stack machine is inside the file
ceval.c. So, we can find the
JUMP_IF_TRUE_OR_POP code here. (The
LOAD_CONST opcodes just push the constant value onto the stack, so that
w = TOP() can find them. I don't think we really need to look into that to understand how
You can see that it's a bit more complicated.
Mainly this is because it optimizes the
if top part by checking
if top == False and
if top == True before calling the C-API equivalent of
bool(top), and because it has to handle exceptions from that
bool call. But it's also optimizing stack usage. Without explaining how
FAST_DISPATCH work it's hard to get too precise, but the basic idea is, it avoids popping values off the stack just to push them back for return.
But that's "What really happen behind Python
You also bolded "Isn't
or suppose to yield
False only ?" So, that brings us back to question 1.
First, remember that duck typing is pretty central to Python.
or is supposed to yield something which can be used as if it were
False anywhere that it matters. You're specifically supposed to write things like
if foo: rather than
if foo == True: (or
if foo is True: or
if foo != False: or whatever), so you shouldn't be caring about the difference.
Second, about half the languages agree with your that a "boolean operation" should strictly return boolean-typed values, while half of them disagree. Even in languages that aren't built around duck typing, like C. So, how's a language designer to decide?
The "C++ style" of making the
or operator always return
bool avoids copies, allows better static type enforcement by the compiler, and gives better dynamic type information to the programmer. The first two are completely irrelevant in Python, and the last is generally only useful when you're writing code that relies on types instead of duck typing, which is generally considered unpythonic.
The "C style" of making it return the first truthy value (or the last falsy value) as-is makes for a slightly simpler implementation, and offers the programmer a sort of shorthand for the ternary
Back when Python didn't have a ternary
else, this was an easier call to make. Nowadays, maybe it's a closer call—especially since some people hate
a or b as shorthand for
a if a else b and consider it unpythonic.
But history is on the side of what's already there; nothing gets changed unless there's a compelling reason, and a close call that arguably might go in the opposite direction depending on your taste is not a compelling reason.