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tmpString = (char*)malloc((strlen(name) + 1) * sizeof(char));
tmpString = (char )malloc((strlen(name) + 1) * sizeof(char));

What is the difference between these 2 lines?

My understanding is that the second line is wrong but from some reason the compiler says nothing.

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You don't need to cast the return value of malloc in a C program. And sizeof(char) is 1. If you clear that stuff out, your code looks a lot simpler and your won't run into these kinds of problems. –  Carl Norum Mar 27 '13 at 22:48
Enable warnings. All of them. The compiler will complain. There are many areas that (IMOHO), C isn't prohibitive enough .. but if it were, someone (somewhere) would get upset :D –  user166390 Mar 27 '13 at 22:48
@CarlNorum How is that conclusion related to the question?.. –  icepack Mar 27 '13 at 22:49
I'm not sure I get what you're asking. Adding extra (unnecessary) casts and then complaining about what the compiler does or doesn't do seems like complaining for the sake of complaining. @pst has the right idea. –  Carl Norum Mar 27 '13 at 22:53
@CarlNorum 1. removing the sizeof(char) isn't related to the casting and the question. 2. Need to cast the result of malloc isn't related either. The essence of the question wouldn't change if instead of malloc there was an expression such as tmpString = (char)p; //p is void* –  icepack Mar 27 '13 at 22:58

4 Answers 4

up vote 5 down vote accepted

The first line casts the (void) pointer that malloc returns into a pointer to char, thus preserving both its pointeredness. All it is telling the compiler is that "the memory at location X should be viewed as a character array".

The second cast turns the pointer returned by malloc into a single character. That's bad for multiple reasons:

  • You lose the pointer as you've just turned the pointer into something completely different
  • You're also losing the majority of the numerical value of the pointer because the size of the character is much less than the size of the pointer (in a lot of cases, the pointer is 32 or 64 bit in size but the character only 8 bit) and the "superfluous" bits get discarded.

I would think that a compiler with the warning level cranked up sufficiently high should warn about the second assignment.

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Yeah, there should be a warning along the lines of "assignment makes pointer from integer without cast" in the second case. –  Carl Norum Mar 27 '13 at 22:56
No, because there is a cast. I think this example is a great argument that casts are harmful and should be considered code smells. –  R.. Mar 27 '13 at 23:04
@R.., there is not a cast back from the char to the (presumably) pointer type of tmpString. In fact, for exactly this case, clang says: warning: incompatible integer to pointer conversion assigning to 'char *' from 'char'. GCC tells me both about the cast: warning: cast from pointer to integer of different size and about the assignment: warning: assignment makes pointer from integer without a cast. And that's with no special flags whatsoever. –  Carl Norum Mar 27 '13 at 23:06
Oh, I missed the second conversion. Indeed you're right. –  R.. Mar 28 '13 at 2:37

The second line is wrong (casting to a char will truncate the pointer to just one byte, making the data tmpString contains an invalid address), but all casts in C are unchecked so you'll never get an error over them.

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The assignment to tmpString should cause a warning in the second case, if the compiler's using C99 or the warnings are turned up enough. Something like "assignment makes pointer from integer without cast". That is, assuming tmpString is char * as one might expect. –  Carl Norum Mar 27 '13 at 22:58

Yes, the second line has undefined behavior. Since the case is explicit the compiler simply assumes that you know what you're doing. Essentially, the second cast interprets the first byte of the pointer value as a character code. The last sentence is just illustrative - you can't even rely on that exactly that will happen.

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Incorrect - yes. But why undefined behavior? –  icepack Mar 27 '13 at 22:48
@Carl Norum. I rolled back your edit because it depends on endianness –  Armen Tsirunyan Mar 27 '13 at 22:50
@ArmenTsirunyan, no it doesn't depend on endianness - that was my point in the edit. Your answer says "first byte", which is only true on a little-endian system. That cast to char yields the least significant byte, regardless of endianness. –  Carl Norum Mar 27 '13 at 22:53

Assuming tmpString has type char *, then the second line should be a constraint violation, at least under the latest standard: Simple assignment


1 One of the following shall hold:112) — the left operand has atomic, qualified, or unqualified arithmetic type, and the right has arithmetic type;

— the left operand has an atomic, qualified, or unqualified version of a structure or union type compatible with the type of the right;

the left operand has atomic, qualified, or unqualified pointer type, and (considering the type the left operand would have after lvalue conversion) both operands are pointers to qualified or unqualified versions of compatible types, and the type pointed to by the left has all the qualifiers of the type pointed to by the right;

the left operand has atomic, qualified, or unqualified pointer type, and (considering the type the left operand would have after lvalue conversion) one operand is a pointer to an object type, and the other is a pointer to a qualified or unqualified version of void, and the type pointed to by the left has all the qualifiers of the type pointed to by the right;

— the left operand is an atomic, qualified, or unqualified pointer, and the right is a null pointer constant; or

— the left operand has type atomic, qualified, or unqualified _Bool, and the right is a pointer.

Or am I missing something?

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The standard says that any pointer type may be converted to any integer type, and vice versa. So a char would be implicitly converted to a compatible pointer type. ( –  teppic Mar 27 '13 at 23:45
@teppic: The cast is legal, but the assignment is not. –  John Bode Mar 28 '13 at 1:20
The 'considering the type the left operand would have after lvalue conversion' part is what makes it ok -- lvalue conversion means that the right operand is converted to the type of the left, and the standard says they're compatible. –  teppic Mar 28 '13 at 1:39

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