>> int64(4611695988848162845)
ans =
int64
4611695988848162845
>> int64(4611695988848162845.3)
ans =
int64
4611695988848162816
So int64(00000000) is not the same as x=00000000; int64(x). int64 doesn't cast its input if the input is explicit digits, instead it causes the interpreter to read those digits as a 64-bit integer. But if those digits are not an integer, it does actual casting.
I somehow expected either an error or the .3 to be ignored. Instead it ignores not only the .3 but also the two digits before the .!
The following is a post from Shounak Mitra, Product Manager for Deep Learning Toolbox, here to talk about practical ways to work with TensorFlow and MATLAB. In release R2021a, a converter for... read more >>
@AndrasDeak indeed. But it seems that the MATLAB interpreter doesn’t see int64 as a regular function, its argument is parsed differently than for other functions.
@cris I always thought an interpreter executed statements independently of each other. I find its lack of discreetness disturbing — Luis MendoSep 16 '19 at 18:24
@LuisMendo Oh, but in this case it is independent. You don't see each number in your code as a separate statement, do you? int64(0) is a different statement than 0. int64 is just not a regular function, it's a way to tell the interpreter to generate a 64-bit integer out of the argument. Just like in C you'd do 0LL.
@CrisLuengo I do see each number as an statement. To me, int64(0) is the function int64 applied to 0, which is a double number. That's why I find these things disturbing. What's the next step? x = int64(zeros(1e5,1e5); clear x runs in zero time because there's a clear so the interpreter skips the x = ... statement? I think there's something fundamentally wrong with that. But maybe it's me
Yeah, I agree that syntactically int64(literal) looks like two expressions. For instance if something instead of the literal raised an error, I would expect it to happen before int64 is called.
I understand the reasoning, but I think it makes sense to treat int64(0) as a literal. It is much easier than to come up with a new syntax for integer literals larger than flintmax. And it's more efficient than to parse the literal as a double and then cast to integer.
"LL is part of the literal, not a function LL applied to literal 0" In modern C++ you can write functions that are applied to a literal with a postfix: en.cppreference.com/w/cpp/language/user_literal
@CrisLuengo Ah, so the distinction is also blurry in C++
I see our point of int64(0) being a convenient way instead of a new literal syntax. But it looks totally like a function call, so one would expect it to behave like one!