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I have the following code:

UINT64 time1 = 215510*10000;
UINT64 time2 = (UINT64)(215510 * 10000);

When printing them or in Watch, it turns out:

time1 = 18446744071569684320
time2 = 18446744071569684320

Actually I know how to make it right here. We have to use one of the following codes in order to get correct answer (the following 3 versions are all right):

UINT64 time3 = (UINT64)215510 * 10000;
UINT64 time4 = 215510 * (UINT64)10000;
UINT64 time5 = (UINT64)215510 * (UINT64)10000;

But why the first two lines cannot give the right answer?

marked as duplicate by John Zwinck, user529758, lpapp, KillianDS, Benjamin Bannier Dec 26 '13 at 19:25

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • 2
    @JohnZwinck: No, it's not a duplicate. The other question is about floating-point arithmetic; this is purely integer arithmetic. – Keith Thompson Dec 22 '13 at 8:20
  • 1
    215510*10000 is an int because both operands are int. – chris Dec 22 '13 at 8:20
up vote 9 down vote accepted

Because a literal constant like 215510 is usually an int (not a long) in standard C++. It is not related to Visual Studio (it should be the same with another compiler like GCC a.k.a. g++ at least if int-s have 32 bits), so 215510 * 10000 is also an int. Try 215510L * 10000 to have one multiplicand be a long (hence the product also be a long - that won't change the product if long-s are still 32 bits!), or even 215510LL to make it long long or with a explicit cast (int64_t)215510 ...

And on your platform, int are probably 32 bits. So the signed INT_MAX is 2147483647 (which is 231 - 1).

And Keith Thompson commented rightly that

The type of an integer constant is the first of the corresponding list in which its value can be represented.

per (the C11 standard § item 5 or) the C++11 standard §2.14.2 item 2. So on an implementation with 16 bits int-s and 32 bits long-s 215510 is a long literal constant (because 215510 > 32767 which would be its INT_MAX....).

So contrarily to what I believed, the type of a literal integral constant is not defined by its suffix -or lack of it- alone, but also by its value!

  • 1
    215510 is of type int only if int is big enough to hold it. int can be as narrow as 16 bits, which makes INT_MAX 32767; on such a system, 215510 would be of type long. – Keith Thompson Dec 22 '13 at 8:27
  • If long also has 32 bits, this answer won't be useful. And according to the documentation, it does. – user743382 Dec 22 '13 at 8:27
  • @KeithThompson: are you sure of that? I thought the standard typed literal constants independently of their value (only using the suffix L etc... or lack of it)! – Basile Starynkevitch Dec 22 '13 at 8:28
  • @BasileStarynkevitch Keith Thompson is entirely correct. It wouldn't be useful to give a constant of, say, 60000, a type of int if it cannot be represented in an int. On other systems, it might still be int. – user743382 Dec 22 '13 at 8:28
  • 1
    Again you've taken my comment as saying the opposite of what I both meant and posted. Oh well, it doesn't matter. – user743382 Dec 22 '13 at 8:46

It's because you are invoking integer overflow by multiplying two 32-bit numbers whose result is larger than 32 bits. You need to convert to 64 bits first, as you have already shown.

In C++, an unsuffixed integer literal has type int, long int, or long long int, whichever is the first in which its value can be represented. (long long int was a relatively recent addition to the language.)

Probably on your system both 215510 and 10000 are of type int, which is probably a 32-bit type.

Expressions are (usually) evaluated by themselves, without regard to the context in which they appear. So the expression 215510*10000 is evaluated as an int. Since the mathematical result exceeds INT_MAX, the result is undefined, but it's likely to be -2139867296.

When that value is converted to a 64-bit unsigned type, it wraps around, yielding 18446744071569684320 (which is slightly less than 264).

  • The literal constant 215510 is always an int (this is not system specific, it is required by the standard). – Basile Starynkevitch Dec 22 '13 at 8:26
  • @BasileStarynkevitch: That's incorrect. I suggest you check your sources. Quoting the 2003 ISO C++ standard, 2.13.1p2: "The type of an integer literal depends on its form, value, and suffix. If it is decimal and has no suffix, it has the first of these types in which its value can be represented: int, long int; if the value cannot be represented as a long int, the behavior is undefined." The 2011 standard adds long long int and shows the rules in a table. – Keith Thompson Dec 22 '13 at 8:29

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