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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.
(PS: In my code, nearly no negative value.)
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.

at the book "TC++PL".
So I am puzzled.
Am I wrong?
Why stl do not abide by the suggest on the book?

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marked as duplicate by Bo Persson, Stony, 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
@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
@Bo Persson, thanks, C++ lib use size_t for range. But it brought us the trouble. If we use int, we must be carefull to compare them. –  hgyxbll Apr 1 '13 at 12:24

2 Answers 2

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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I have used ssize_t instead of int. Because CPU handle fast with ssize_t when it is x64. –  hgyxbll Apr 1 '13 at 12:09
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

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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I do not use int and unsigned int. I have used size_t and ssize_t for portable. –  hgyxbll Apr 1 '13 at 12:15
@hgyxbll I'm curious as to why you think int and unsigned int aren't portable, ssize_t is not a portable type and is defined by the C POSIX library. –  user657267 Apr 2 '13 at 0:25
I want a type's size same as CPU register's size. And then CPU can handle it fast. Int is always 4 bytes at CPU x86 and x64. ssize_t's size can change with the CPU. If not define ssize_t, I will define it. –  hgyxbll Apr 2 '13 at 0:55
@hgyxbll There are no guarantees that ssize_t will match the size of a register. As for selecting a size that matches a register, this sounds like a pointless optimization as the compiler will generally handle things as efficiently as possible for you. –  user657267 Apr 2 '13 at 1:54
For the record, I came here because ssize_t was undefined in the compiler I was using, so I can confirm that it indeed is not portable. –  Sebastian Wahl Mar 23 '14 at 17:18

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