int a = 2147483647; short b = (short)a;
and I get
b = -1 whereas I expect
int32 to be converted to
short). I expect to see some value and not
Please someone help me with this.
Your int A is larger than the size of short. When you convert A to short, you get a 1 in the left most bit, which is going to indicate that it is a negative number. Since you're getting -1, I suppose you're getting 1s in all 16 bits, which is going to give you -2^15 + 2^14 + 2^13... + 2^0, which will give you -1. In short (no pun intended), you can't convert the integer to a short if it is too large.
The value 2147483647, or 231-1 overflows a 16-bit integer. Its binary representation is zero in the MSB followed by 31 ones in the remaining bits.
It looks like in your implementation the last 16 bits are taken in the conversion to
However, neither the 2-compliment representation nor this behavior in general is part of the C++ standard, so this behavior is implementation-defined.
Converting a value to a signed type, when the source value doesn't fit in the target type, yield an implementation-defined result. That means that any conforming compiler's documentation must document what that result is.
(This is unlike the behavior on overflow of an arithmetic operator. For example:
actually has undefined behavior. But in either case, you should be careful to write your code so it doesn't trigger this kind of problem.)
For many implementations, for both conversion and arithmetic, an overflow where the target is an N-bit type simply takes the N low-order bits of the correct result.
In your case, apparently
For conversion to unsigned types, the result is strictly defined by the standard; it takes the low-order N bits of the result. And for overflowing floating-point conversion (say, converting a very large
So far, this is all the same for C and C++. But just to add to the confusion, starting with the 1999 standard an overflowing signed conversion is permitted to raise an implementation-defined signal. C++ doesn't have this. I don't know of any compiler that actually does this.
The cast is unnecessary. Assignment, initialization, parameter passing, and
This can differ from compiler to compiler, I am not able to dig up similar documents for
From the draft C++ standard, section
If this was
The language is similar in the
You can do this:
Here is another way: