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When I want to negate a number of type std::size_t, I usually do -static_cast<int>(number). However, I understand that the number might not fit into an int. So, my question is what is a safe portable way to do this?

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Cast to ssize_t? – Joachim Pileborg Aug 22 '12 at 21:21
You mean float nRec = -1.0f / number;? – user529758 Aug 22 '12 at 21:21
@H2CO3: Sorry, I meant negation not negative reciprocal. – Jesse Good Aug 22 '12 at 21:23
@JesseGood then just cast to ssize_t – user529758 Aug 22 '12 at 21:24
I think you have an inherent problem in that you can't possibly get the negative value of at least half the range of a std::size_t, since a std::ssize_t can only describe half the values in the range of std::size_t – Jason Aug 22 '12 at 21:25

4 Answers 4

up vote 3 down vote accepted

There is no safe portable way to do this.

size_t is an unsigned type. There is no guarantee that there is any signed integer type big enough to hold the maximum value of size_t.

If you're able to assume that the value you're negating isn't too big, you can convert it to long long (if your compiler supports it) or long (if it doesn't):

size_t s = some_value;
long long negative_s = -(long long)s;

If you're worried about overflow, you can compare the value of s to LLONG_MAX before doing the conversion.

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Would ptrdiff_t be better than long? – tenfour Aug 22 '12 at 21:26
Nitpick: you should use std::numeric_limits<long long> instead of LLONG_MAX – Kevin Ballard Aug 22 '12 at 21:29
Thanks, this answers my question, although the example is more C than C++. – Jesse Good Aug 22 '12 at 21:45

-static_cast<int>(number) is safe; the result of the static_cast is implementation-defined if it would not fit in an int.

To detect if the result would not fit:

(number <= std::numeric_limits<int>::max()) ? -static_cast<int>(number) : ...
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What do you mean by "safe"? The fact that it's implementation-defined means it's not portable, which is often what people mean by "safe". – Kevin Ballard Aug 22 '12 at 21:33
@KevinBallard it's not undefined behaviour. The fact that it may give different results on different platforms doesn't necessarily stop it being portable; it depends how the end result is going to be used. – ecatmur Aug 22 '12 at 21:43

The safe way checks whether the variable fits into the corresponding signed type:

typedef std::size_t my_uint;
typedef typename std::make_signed<my_uint>::type my_int;

my_uint n = /* ... */;

if (n > std::numeric_limits<my_int>::max()) { /* Error! */ }

my_int m = -static_cast<my_int>(n);

You need to #include <limits> and <type_traits>.

(Or wrap everything into one line:)

if (n > std::numeric_limits<typename std::make_signed<decltype(x)>::type>::max()) { /* Error! */ }
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Neat, but won't that turn an unsigned long into a long instead of a long long? The latter seems to be what's required, since the maximum unsigned long won't fit into a long. – Kevin Ballard Aug 22 '12 at 21:32
@KevinBallard: If you don't like make_signed, you can write your own make_as_large_as_possible trait! – Kerrek SB Aug 22 '12 at 21:43

I think you have an inherent problem in that you can't possibly negate the value in the upper-half range of a std::size_t using std::ssize_t, since a std::ssize_t can only describe half the values in the range of std::size_t. For instance, if you had a unsigned char value of 255, you could never get a signed char value of -255 ... you'd need a larger type, like a signed short. If std::size_t is the largest integral container of your platform, then you simply aren't going to be able to describe those values in a "negative" format without designating some custom data-type such as a struct with an extra flag variable for designating the sign of the value. That of course is no longer "portable"...

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Thanks for the interesting answer, so I guess portable is out of the question. – Jesse Good Aug 22 '12 at 21:32
Not if you want to keep the entire range of a std::size_t if in-fact the std:size_t is the largest integral value your machine describes ... the only "portable" solutions would involve some type of clipping of the range like the other answers have listed. – Jason Aug 22 '12 at 21:33

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