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I believed that in the following code, C "automatically casts 17 to an int *" which, as someone recently pointed out (but did not give the reasons as to why), is wrong.

int *ptoi = 17; // I assumed that 17 is being automatically casted to int *

I know that if I do the same thing as above in C++, I get an error saying invalid conversion from int to int *. But if I do the following in C++, it works fine:

int *ptoi = (int *)17;

These are the reasons I thought that in C, the casting was implicit.

Can someone please explain why, in C++, I have to cast it but in C, it works fine?

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+1 for a question that legitimately uses both the C and C++ tags ;-) –  Cameron Nov 27 '11 at 19:52
I'm guessing C++ does stricter type checking. The cast in C shouldn't give you a pointer that points to the "17". It's a pointer with the value "17" (that points to the "memory address" 17). As a workaround I think you can always cast to a void* and then to some other pointer type. –  millimoose Nov 27 '11 at 19:53
C and C++ are different languages. C++ is stricter than C in many respects, one of which is implicit conversions from one type to another. –  John Bode Nov 27 '11 at 20:13

4 Answers 4

up vote 15 down vote accepted

Conversions from integers to pointers without casts are also illegal in C. Most compilers will let you get away with it though. Clang gives a warning:

example.c:5:8: warning: incompatible integer to pointer conversion initializing
      'int *' with an expression of type 'int'
  int *x = 17;
       ^   ~~

C99 says in Section 6.5.4 Cast operators, paragraph 4:

Conversions that involve pointers, other than where permitted by the constraints of, shall be specified by means of an explicit cast. is the exception for void * converting to other pointers without needing a cast.

The C++ spec says in Section 5.4 Explicit type conversion (cast notation), paragraph 3:

Any type conversion not mentioned below and not explicitly defined by the user is ill-formed.

So there you go - illegal in both languages, but for compatibility with lots of older software, a lot of C compilers will let you get away with it.

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"Conversions from integers to pointers without casts are also illegal in C." Not according to "An integer may be converted to any pointer type. Except as previously specified, the result is implementation-defined, might not be correctly aligned, might not point to an entity of the referenced type, and might be a trap representation.56)" In short, the result may not be meaningful, but it's certainly not illegal. –  John Bode Nov 27 '11 at 20:11
@JohnBode, to be legal it requires an explicit cast, as mentioned in my quotation above. It's certainly legal to do int *x = (int *)17. –  Carl Norum Nov 27 '11 at 20:12
@JohnBode is talking about the result of the conversion, but that's not the question here. talks about which implicit conversions are permissible in an assignment operation. The only case which permits the left operand to be pointer type and the right operand to be an integer is case 5, and the restriction is that the right operand be a null pointer constant, which 17 is not. 6.5.4(3) says "Conversions that involve pointers, other than where permitted by the constraints of, shall be specified by means of a cast." –  Raymond Chen Nov 27 '11 at 20:18
@Raymond - yeah, after reading, I realize you can't assign an integer to a pointer without a cast. –  John Bode Nov 27 '11 at 20:23
@mtahmed "now I will rub this answer in that guy's face!" -- totally the wrong inference. 'C "automatically casts 17 to an int *"' is indeed wrong. –  Jim Balter Nov 27 '11 at 21:06

Yes, the casting is implicit in C, although many (all?) compilers give a warning. In C++, no implicit conversion is performed from int to int*, so the explicit cast is required.

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It has been, C has implicit conversions - in my experience pretty much from any integral type to any other integral type. Pointers in C are considered integralscalar types.

In C++, Integral Types are defined as follows:

Types bool, char, char16_t, char32_t, wchar_t, and the signed and unsigned integer types are collectively called integral types.48 A synonym for integral type is integer type. The representations of integral types shall define values by use of a pure binary numeration system.49 [ Example: this International Standard permits 2’s complement, 1’s complement and signed magnitude representations for integral types. —end example ]

The only integral value that can be converted to pointer type in C++ is the null pointer constant, though technically the conversion is to a prvalue of type std::nullptr_t. (para 4.10)

Final Note

Instead of fixing it like this:

int *ptoi = (int *)17;

considering adding the C++-style cast:

int *ptoi = reinterpret_cast<int*>(17);

to make it clear what kind of conversion you are trying to invoke

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Personally I never saw the benefit of reinterpret_cast<int*> over (int*). Just more typing. –  TonyK Nov 27 '11 at 20:03
Pointers are not integer types in C99. Integers are arithmetic types, and both arithmetic & pointer types are scalar types, but that's not the same thing. –  Carl Norum Nov 27 '11 at 20:05
@CarlNorum: thanks Carl, I don't have a copy of the C99 standard hndy; will amend my post. –  sehe Nov 27 '11 at 20:06
There really isn't any ambiguity in this case. If searching for reinterpretation casts is so important, you could add a // reinterpretion cast comment. That's not to say C++-style casts aren't a good thing -- there are certainly important use cases. –  Jim Balter Nov 27 '11 at 21:23
"So now you are proposing to add a comment" -- no, what I'm saying is that searchability is a lousy basis for adding a language feature; reinterpret_cast should stand or fall on its semantics. I'm saying that there is no real need to search for instances of assigning integers to pointer variables ... it's an ad hoc justification. –  Jim Balter Nov 27 '11 at 23:54

The compiler will interpret int *ptoi = 17; as a pointer ptoi that's pointing at location 17 (0x00000011).

C is simply a completely different language. It may look like C++, but it's not. Different rules apply to both languages.

I should probably point out that both C and C++ will (as far as I know) make it a pointer to 0x00000011, but C simply complains less, since assigning memory locations is something that's not invalid in C.

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Not quite right: the compiler will interpret int *ptoi = 17; as a variable ptoi that points to an integer stored in memory location 17. –  TonyK Nov 27 '11 at 19:57
Ugh, I always get those confused when I write them down here on SO. Fixed! –  Tom van der Woerdt Nov 27 '11 at 19:59
'C is simply a completely different language' -- That's an overstatement. Please see Bjarne Stroustrup's www2.research.att.com/~bs/bs_faq.html#C-is-subset –  Jim Balter Nov 27 '11 at 21:10
'since assigning memory locations is something that's not invalid in C' -- it's no more or less invalid in C++; the latter simply requires an explicit cast. –  Jim Balter Nov 27 '11 at 21:11

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