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When I reading some code, for integer, they use bunch of different type such as size_t, uint32, uint64 etc. What is the motivation or purpose to do this? Why not just use int? Related to platform-cross? Or low-level relevant.

Sometimes, the code make sense to me because they just want 32 bit int or something. But, what is size_t? Please help me make this clear.

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5 Answers 5

up vote 14 down vote accepted

These are for platform-independence.

size_t is, by definition, the type returned by sizeof. It is large enough to represent the largest object on the target system.

Not so many years ago, 32 bits would have been enough for any platform. 64 bits is enough today. But who knows how many bits will be needed 5, 10, or 50 years from now?

By writing your code not to care -- i.e., always use size_t when you mean "size of an object" -- you can write code that will actually compile and run 5, 10, or 50 years from now. Or at least have a fighting chance.

Use the types to say what you mean. If for some reason you require a specific number of bits (probably only when dealing with an externally-defined format), use a size-specific type. If you want something that is "the natural word size of the machine" -- i.e., fast -- use int.

If you are dealing with a programmatic like sizeof or strlen, use the data type appropriate for that interface, like size_t.

And never try to assign one type to another unless it is large enough to hold the value by definition.

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you can write code that will actually compile and run 5, 10, or 50 years from now +1 for the optimism :-) –  Praetorian Aug 26 '11 at 1:35
Well, not in C, but I have code that was written in 1996 and still compiles and runs. 15 years! <g> –  Rudy Velthuis Aug 26 '11 at 1:56

For info on size_t, see the Stack Overflow question: What is size_t in C?

You're right for uint32 and uint64 that they're just being specific about the number of bits that they would like, and that the compiler should interpret them as unsigned.

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The compiler may interpret uint32_t and uint64_t as any of several unsigned types. For example, uint32_t might be either unsigned int or unsigned long (or it might not exist if the system doesn't have a type that's exactly 32 bits). The point is that you know uint32_t is exactly 32 bits; all you can be sure of for unsigned int is that it's at least 16 bits. –  Keith Thompson Aug 26 '11 at 1:25

For most day-to-day programming, the size of an integer doesn't really matter all that much. But sometimes it is good to be specific. This is especially useful in low-level or embedded programming. Another place it is useful is scientific or computationally intensive tasks where it might be wasteful to use an int that is bigger than necessary.

The advantage of size_t is that it is unsigned. On the one hand it nice to use size_t because it adds more information about what the argument should be (i.e not negitave). On the other hand it is less tying vs. unsigned int.

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Being specific (uint64_t, int32_t, etc.) is also very important when writing to file, especially if the file is to be used on other platforms too, or if it should survive a move from, say, a 32-bit to a 64-bit platform or target. –  Rudy Velthuis Aug 26 '11 at 2:33

The motivation to use them is because you can't rely on int, short or long to have any particular size - a mistake made by too many programmers far too many times in the past. If you look not too far back in history, there was a transition from 16 bit to 32 bit processors, which broke lots of code because people had wrongly relied on int being 16 bits. The same mistake was made thereafter when people relied on int to be 32 bits, and still do so even to this day.

Not to mention the terms int, short and long have been truly nuked by language designers who all decide to make them mean something different. A Java programmer reading some C will naively expect long to mean 64 bits. These terms are truly meaningless - they don't specify anything about a type, and I facepalm every time I see a new language released that still uses the terms.

The standard int types were a necessity so you can use the type you want to use. They should've deprecated int, short and long decades ago.

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The "generic" types int, short and long, but also size_t, etc. should IMO be preferred for most code, where the exact size of the type is not really important. Only if the exact size matters, the "fixed-size" types like uint32_t or int64_t should be used. Note that they are mapped to the types int, long int, etc. that have that size for the implementation. –  Rudy Velthuis Aug 26 '11 at 1:54
But how do you make the choice whether to use int, short or long? If size is not important, why do we need 3 different keywords that are going to give use the same thing: a integer type whose size we don't know. –  Mark H Aug 26 '11 at 2:14
If you only need a small number, use short. If you need a big one, use long. Note that, say, on a 16-bit platform, using int32_t would be overkill and rather inefficient (probably requiring two registers). On such a platform, int is probably 16 bit too, and much more efficient. –  Rudy Velthuis Aug 26 '11 at 2:27
I would say there's never a valid reason to use short. Except in arrays or structs that will have many many instances of the type, smaller-than-int types should simply be Considered Harmful. And if you do need to save memory in an array or struct, you certainly know the range of values you need to represent, so you should be using an exact-size type like int16_t (or an "at-least" size type like int_least16_t) rather than short. –  R.. Aug 26 '11 at 5:23

There are many possible reasons for choosing an underlying type for an integer value. The most obvious one is the size of the maximum possible value that you can store -- uint32 will be able to store a number twice as large as int32, which might be desirable. int64 will be able to store a number much larger than int32 - up to 2^63 - 1 instead of 2^31 - 1.

There are other possible reasons as well. If you're directly reading binary data from some source (file, socket, etc), it is necessary to make sure it's interpreted correctly. If someone writes a uint32 and you interpret it as an int32, it's possible that you interpret a very large positive number as a negative number (overflow).

size_t is just a typedef for an unsigned int, usually 32-bit I believe.

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