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At my code, I do not use int or unsigned int. I only use size_t or ssize_t for portable. For example:

typedef size_t intc;    // (instead of unsigned int)
typedef ssize_t uintc;  // (instead of int)

Because strlen, string, vector... all use size_t, so I usually use size_t. And I only use ssize_t when it may be negative.

But I find that:

The unsigned integer types are ideal for uses that treat storage as a bit array. Using an unsigned instead of an int to gain one more bit to represent positive integers is almost never a good idea. Attempts to ensure that some values are positive by declaring variables unsigned will typically be defeated by the implicit conversion rules.

in the book The C++ Programming Language.

So I am puzzled. Am I wrong? Why does the STL not abide by the suggest on the book?

marked as duplicate by Bo Persson, René Höhle, Peter Ritchie, DarkAjax, teppic Apr 1 '13 at 17:10

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  • size_t used in standart library for representing sizes. It would be strange if the size of container could be negative. Interface states it's behavior. I think book assumes day-to-day usage, not interface – kassak Apr 1 '13 at 7:49
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    @kassak - No, in this case an unsigned type actually is used to get one extra bit for the value. Some members of the committee saw it important to be able to have a std::vector<char> larger than half the available memory. And the quote says "almost never"... – Bo Persson Apr 1 '13 at 8:03
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    Nominate for re-opening as the duplicate cited does not address this post close enough. – chux Nov 24 '15 at 18:48
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    Using intc for unsigned size_t (as you say, '[signed] int' in comment, even though it's probably longer), and uintc for signed ssize_t ('unsigned int' in comment), is confusing to me, because normally the 'u' stands for unsigned, e.g. uint32_t is the unsigned version of int32_t, a 4-byte integer. – RastaJedi Aug 20 '16 at 20:39
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    To those who marked as duplicate. This is definitely not a duplicate. The question is not about signed vs unsigned, but size_t vs ssize_t, that is "when should I use either"? – EnzoR Oct 12 '17 at 13:06

ssize_t is used for functions whose return value could either be a valid size, or a negative value to indicate an error. It is guaranteed to be able to store values at least in the range [-1, SSIZE_MAX] (SSIZE_MAX is system-dependent).

So you should use size_t whenever you mean to return a size in bytes, and ssize_t whenever you would return either a size in bytes or a (negative) error value.

See: http://pubs.opengroup.org/onlinepubs/007908775/xsh/systypes.h.html

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    Well, this answer fails to fully explain the consequences of basing such decisions on pure interface considerations. It is unlikely that any implementation will use wider type for ssize_t than it uses for size_t. This immediately means that the price you will pay for the ability to return negative values is halving of the positive range of the type. I.e. SSIZE_MAX is usually SIZE_MAX / 2. This should be kept in mind. In many cases this price is not worth paying just for the ability to return -1 as a negative value. – AnT Dec 25 '14 at 19:56
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    @AnT having unsigned values at all is one of the greatest failures in C++. There is no case where the price is not worth paying. If you need such large numbers, use int64_t instead... – thesaint May 2 '15 at 11:01
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    @thesaint What the heck are you talking about? It's not about capacity. How would you add four to the stack pointer if its current value may or may not be negative? – josaphatv Sep 17 '15 at 23:33
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    Didn't unsigned integers come about first (prior to signed ones) because of the hardware - obviously this is closer to bare-metal C than most C++ usage but the use of the MSB to allow signed arithmetic was not done just to halve the absolute magnitude that a "integer" could represent but because there was a need for subtractive maths. signed ints and unsigned ints are pears and apples - different but able to cross under certain, limited circumstances...! (Half of the range of each is shared.) – SlySven Jan 14 '16 at 17:57
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    Where the confusion seems to arise, to me, is when a function that seems it should produce only an unsigned value i.e. the number of bytes that read(2) has been able to actually read. However in the case of an error the value of -1 (probably encoded as ALL bits set) is returned - not to make things difficult but because it is a sentinel value that cannot arise normally. – SlySven Jan 14 '16 at 17:59

ssize_t is not included in the standard and isn't portable. size_t should be used when handling the size of objects (there's ptrdiff_t too, for pointer differences).

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