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On Visual Studio 2010 the following program

#include <iostream>
using std::cout;

int main()
    cout << -2147483646 << '\n';
    cout << -2147483647 << '\n';
    cout << -2147483648 << '\n';    // numeric_limits<int>::min()
    cout << -2147483649 << '\n';
    cout << -2147483650 << '\n';
    cout << "..." << '\n';
    cout << -4294967293 << '\n';
    cout << -4294967294 << '\n';
    cout << -4294967295 << '\n';    // -numeric_limits<unsigned int>::max()
    cout << -4294967296 << '\n';
    cout << -4294967297 << '\n';

generates the following output


What is going on?

Is this standard behavior or a Visual Studio bug?

Edit: As several people have pointed out, there is no such thing as a negative integer literal. See Keith Thompson's excellent answer below for more details.

share|improve this question
Interesting, here's disassembly : cout << -4294967293 << '\n'; push 0Ah mov esi,esp push 3 Notice it pushes 3 as an immediate right away. (VS2010 ultimate) – ScarletAmaranth Dec 14 '11 at 21:09
The stream operator of std::cout probably is not promoting those literals as you'd expect. – AJG85 Dec 14 '11 at 21:10
@ScarletAmaranth I think that's ok, because 4294967293 is first read as unsigned int and than negated which yields 3. Not quite sure though – hirschhornsalz Dec 14 '11 at 21:19
@drhirsch: he isn't using numeric_limits<int>::min() he's using hard coded literals which will be whatever the compiler uses by default. – AJG85 Dec 14 '11 at 21:21
He wrote the numeric_limits as comments to make clear what the compiler uses, and his values were correct – hirschhornsalz Dec 14 '11 at 21:25
up vote 14 down vote accepted

-2147483648, for example, is not an integer literal; it's an expression consisting of a unary - operator applied to the literal 2147483648.

Prior to the new C++ 2011 standard, C++ doesn't require the existence of any type bigger than 32 bits (C++2011 adds long long), so the literal 2147483648 is non-portable.

A decimal integer literal is of the first of the following types in which its value fits:

long int
long long int (new in C++ 2011)

Note that it's never of an unsigned type in standard C++. In the 1998 and 2003 versions of the C standard (which don't have long long int), a decimal integer literal that's too big to fit in long int results in undefined behavior. In C++2011, if a decimal integer literal doesn't fit in long long int, then the program is "ill-formed".

But gcc (at least as of release 4.6.1, the latest one I have) doesn't implement the C++2011 semantics. The literal 2147483648, which doesn't fit in a 32-bit long, is treated as unsigned long, at least on my 32-bit system. (That's fine for C++98 or C++2003; the behavior is undefined, so the compiler can do anything it likes.)

So given a typical 32-bit 2's-complement int type, this:

cout << -2147483647 << '\n';

takes the int value 2147483647, negates it, and prints the result, which matches the mathematical result you'd expect. But this:

cout << -2147483648 << '\n';

(when compiled with gcc 4.6.1) takes the long or unsigned long value 2147483648, negates it as an unsigned int, yielding 2147483648, and prints that.

As others have mentioned, you can use suffixes to force a particular type.

Here's a small program that you can use to show how your compiler treats literals:

#include <iostream>
#include <climits>

const char *type_of(int)                { return "int"; }
const char *type_of(unsigned int)       { return "unsigned int"; }
const char *type_of(long)               { return "long"; }
const char *type_of(unsigned long)      { return "unsigned long"; }
const char *type_of(long long)          { return "long long"; }
const char *type_of(unsigned long long) { return "unsigned long long"; }

int main()
    std::cout << "int: " << INT_MIN << " .. " << INT_MAX << "\n";
    std::cout << "long: " << LONG_MIN << " .. " << LONG_MAX << "\n";
    std::cout << "long long: " << LLONG_MIN << " .. " << LLONG_MAX << "\n";

    std::cout << "2147483647 is of type " << type_of(2147483647) << "\n";
    std::cout << "2147483648 is of type " << type_of(2147483648) << "\n";
    std::cout << "-2147483647 is of type " << type_of(-2147483647) << "\n";
    std::cout << "-2147483648 is of type " << type_of(-2147483648) << "\n";

When I compile it, I get some warnings:

lits.cpp:18:5: warning: this decimal constant is unsigned only in ISO C90
lits.cpp:20:5: warning: this decimal constant is unsigned only in ISO C90

and the following output, even with gcc -std=c++0x:

int: -2147483648 .. 2147483647
long: -2147483648 .. 2147483647
long long: -9223372036854775808 .. 9223372036854775807
2147483647 is of type int
2147483648 is of type unsigned long
-2147483647 is of type int
-2147483648 is of type unsigned long

I get the same output with VS2010, at least with default settings.

share|improve this answer
But, as you just explained, an integer literal is never unsigned. 2147483648 should have type long long here. – Alan Stokes Dec 14 '11 at 21:30
@Keith: You are contradicting yourself: "Note that it's never of an unsigned type" and "takes the unsigned int value 2147483648". Could you please clarify? – user763305 Dec 14 '11 at 21:48
OOPS! I'll fix it. – Keith Thompson Dec 14 '11 at 21:50
It should be ok now. – Keith Thompson Dec 14 '11 at 22:29
@user763305: Or if it's int, long, unsigned long, ..., which I think is what gcc does. I suppose I should try this with VS2010. – Keith Thompson Dec 14 '11 at 22:30

When I compile this in GCC, I get the following message:

warning: this decimal constant is unsigned only in ISO C90 [enabled by default]

It occurs for every line after (and including)

cout << -2147483648 << '\n';    // numeric_limits<int>::min()

So what's happening is both Visual Studio's compiler and GCC allow us to write these literals, and they just treat them as though there were marked as unsigned. This explains the behaviour of what gets printed, and it makes me pretty confident that the output is correct (supposing we had placed a u suffix on the numbers).

I still find it interesting that -2147483648 is not a valid signed integer literal, even though it is a valid signed integer value. Any thought on that anyone?

share|improve this answer
-2147483648 is not a signed integer literal at all. 2147483648 is an integer literal (constant, really), and - is the unary minus operator. – James McNellis Dec 14 '11 at 21:20
Possibly because it is read as 2147483648, which exists as unsigned only, and then negated. – hirschhornsalz Dec 14 '11 at 21:21
@James: Thanks for not. I was not aware that - is not a part of the literal – Ken Wayne VanderLinde Dec 14 '11 at 21:23
Try specifying "-std=c++11" or "-std=gnu++11" for C++ code or "-std=c99" for C code in the command line when compiling. That should help (it certainly helps with C, but my C++ compilers are too old to validate). – Alexey Frunze Dec 14 '11 at 22:54

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