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I like to have my code warning free for VS.NET and GCC, and I like to have my code 64-bit ready.

Today I wrote a little module that deals with in memory buffers and provides access to the data via a file-style interface (e.g. you can read bytes, write bytes, seek around etc.).

As the data-type for current read position and size I used size_t since that seems to be the most natural choice. I get around the warnings and it ought to work in 64-bit as well.

Just in case: My structure looks like this:

typedef struct
  unsigned char * m_Data;
  size_t          m_CurrentReadPosition;
  size_t          m_DataSize;
} MyMemoryFile;

The sign-ness (is this the correct word by the way?) of size_t seems not to be defined in practice. A Google code-search proved that.

Now I'm in a dilemma: I want to check additions with size_t for overflows because I have to deal with user supplied data and third party libraries will use my code. However, for the overflow check I have to know the sign-ness. It makes a huge difference in the implementation.

So - how the heck should I write such a code in a platform and compiler independent way?

Can I check the sign-ness of size_t at run or compile-time? That would solve my problem. Or maybe size_t wasn't the best idea in the first place.

Any ideas?

EDIT: I'm looking for a solution for the C-language!

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what version of gcc are you using? It looks like they made size_t unsigned in versions after and including 2.4 – Nicholas Mancuso Oct 15 '08 at 21:04
The versions I have to deal with are all over the place. I do embedded programming and sometimes I have to use compiler versions from the stone-ages. – Nils Pipenbrinck Oct 15 '08 at 21:08

6 Answers 6

up vote 10 down vote accepted

Regarding the whether size_t is signed or unsigned and GCC (from an old GCC manual - I'm not sure if it's still there):

There is a potential problem with the size_t type and versions of GCC prior to release 2.4. ANSI C requires that size_t always be an unsigned type. For compatibility with existing systems' header files, GCC defines size_t in stddef.h to be whatever type the system's sys/types.h defines it to be. Most Unix systems that define size_t in sys/types.h, define it to be a signed type. Some code in the library depends on size_t being an unsigned type, and will not work correctly if it is signed.

The GNU C library code which expects size_t to be unsigned is correct. The definition of size_t as a signed type is incorrect. We plan that in version 2.4, GCC will always define size_t as an unsigned type, and the 'fixincludes' script will massage the system's sys/types.h so as not to conflict with this.

In the meantime, we work around this problem by telling GCC explicitly to use an unsigned type for size_t when compiling the GNU C library. 'configure' will automatically detect what type GCC uses for size_t arrange to override it if necessary.

If you want a signed version of size_t use ptrdiff_t or on some systems there is a typedef for ssize_t.

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wow! thanks a lot for digging for the history of the issue. – Nils Pipenbrinck Oct 15 '08 at 21:52
Had to do it for my own curiosity - I found it hard to believe that GCC would disregard a pretty basic part of the standard without a decent explanation. – Michael Burr Oct 15 '08 at 22:08

size_t should be unsigned.

It's typically defined as unsigned long.

I've never seen it be defined otherwise. ssize_t is its signed counterpart.

EDIT: GCC defines it as signed in some circumstances. compiling in ASNI C mode or std-99 should force it to be unsigned.

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GCC defines size_t as signed :( – Nils Pipenbrinck Oct 15 '08 at 21:02
Isn't unsigned long 32 bits in 64 bit windows? Not a good assumption for size_t. – ejgottl Oct 15 '08 at 21:05
g++ 4.2.3 defines it as unsigned. – ejgottl Oct 15 '08 at 21:10
How did this issue come up in 2008? The last version of GCC that (wrongly) defined size_t as signed was obsolete more than 10 years ago. – R.. Mar 4 '12 at 17:28

Use safeint. It is a class designed by Michael Howard and released as open source from Microsoft. It is designed to make working with integers where overflow is identified as a risk. All overflows are converted to exceptions and handled. The class is designed to make correct usage easy.

For example :

char CouldBlowUp(char a, char b, char c)
   SafeInt<char> sa(a), sb(b), sc(c);

     return (sa * sb + sc).Value();
   catch(SafeIntException err)

   return 0;

Also safeint is used a lot internally at Microsoft in products like Office.

Ref: link text

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I can't use SaveInt. I'm C-only, and afaik saveint does not solve the sign-ness problem as well because it assumes the defaults from msvc. – Nils Pipenbrinck Oct 15 '08 at 20:58
Oh right the question was initially marked as C++. See my other answer for a C language library. – 1800 INFORMATION Oct 15 '08 at 21:09
Yes - I know. Sorry about that. I edited the question to make sure I don't mislead anyone else. – Nils Pipenbrinck Oct 16 '08 at 14:44

I am not sure if I understand the question exactly, but maybe you can do something like:

temp = value_to_be_added_to;

value_to_be_added_to += value_to_add;

if (temp > value_to_be_added_to)

Since it will wrap back to lower values you can easily check if it overflowed.

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What if value_to_add is negative? – Dour High Arch Oct 15 '08 at 21:01
Check the contrary. – Francisco Soto Oct 15 '08 at 21:14

For C language, use IntSafe. Also released by Microsoft (not to be confused with the C++ library SafeInt). IntSafe is a set of C language function calls that can perform math and do conversions safely.

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size_t is an unsigned integral type, according to the C++ C standards. Any implementation that has size_t signed is seriously nonconforming, and probably has other portability problems as well. It is guaranteed to wrap around when overflowing, meaning that you can write tests like if (a + b < a) to find overflow.

size_t is an excellent type for anything involving memory. You're doing it right.

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