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First question:

  • Is "unsigned" always the same as "unsigned int"?
  • Is "signed" always the same as "int"?
  • Is "short" always the same as "signed short"?
  • Is ...

Second question:

If a C/C++ standard specifies answers to above questions, what paragraphs are related to them?

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1 Answer

up vote 12 down vote accepted

Yes, these are guaranteed. In C++11, see §7.1.6.2[dcl.type.simple]/table 10, which lists all of the simple type specifiers (and combinations thereof) and what they mean. For example, the table includes the following:

unsigned      => unsigned int
unsigned int  => unsigned int

signed        => int
signed int    => int
int           => int

C11 has a similar mapping in §6.7.2/2 (it's formatted differently, but otherwise it specifies the same groups of equivalent combinations, at least for all of the types common to C and C++).

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It is worth noting that char, signed char and unsigned char are 3 distinct types in C++. In C it is implementation defined wether char is signed or unsigned. –  rodrigo Oct 15 '12 at 17:55
    
@rodrigo, are you implying that in C, they're not three distinct types? (Also, in C++ it is also implementation-defined whether char is signed or unsigned.) –  avakar Oct 15 '12 at 18:05
11  
In both C and C++, char, signed char, and unsigned char are three distinct types. In both C and C++, it is implementation-defined whether char is signed or unsigned. –  James McNellis Oct 15 '12 at 18:06
    
@avakar - Actually, in C they are distinct, but the type identity is not so relevant. If char happens to be signed then char and signed char are practically the same. In C++ type identity is relevant because it relates to many language constructs, such as function overloading or template instantiation: f(char), f(signed char) and f(unsigned char) are 3 valid different overloads). –  rodrigo Oct 16 '12 at 7:32
    
@rodrigo, right, but you can't assign char * to signed char * in C (at least in C99) can you? –  avakar Oct 16 '12 at 9:42
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