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Can someone explain why do some programmers use (*char) in front of the malloc? I know that it returns void but why do I want it to return just char memory? I'm sorry, I'm just a newbie in programming. Thank you

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marked as duplicate by Jens Gustedt, Maerlyn, Paul Fioravanti, Stephane Rolland, Lee Taylor Nov 20 '13 at 13:57

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I think you mean (char*), not (*char). –  Thomas Padron-McCarthy Nov 20 '13 at 11:16
"What's dangerous about casting result of malloc()?": –  Kamiccolo Nov 20 '13 at 11:17
Here is an amazing post about the same subject :… –  Joze Nov 20 '13 at 11:19

4 Answers 4

up vote 10 down vote accepted

No need to cast return value of malloc as its return type is void*.

Can someone explain why do some programmers use (*char) in front of the malloc?

They are doing wrong (most probably) by casting it (in good programmers opinion).

As wiki says:

malloc returns a void pointer (void *), which indicates that it is a pointer to a region of unknown data type. The use of casting is required in C++ due to the strong type system, whereas this is not the case in C1. The lack of a specific pointer type returned from malloc is type-unsafe behavior according to some programmers: malloc allocates based on byte count but not on type. This is different from the C++ new operator that returns a pointer whose type relies on the operand. One may "cast" this pointer to a specific type:

int *ptr;
ptr = malloc(10 * sizeof (*ptr));               /* without a cast */
ptr = (int *)malloc(10 * sizeof (*ptr));        /* with a cast */
ptr = reinterpret_cast<int *>(malloc(10 * sizeof (*ptr))); /* with a cast, for C++ */

There are advantages and disadvantages to performing such a cast.

Advantages to casting:

  • Including the cast allows a program or function to compile as C++.
  • The cast allows for pre-1989 versions of malloc that originally returned a char *.
  • Casting can help the developer identify inconsistencies in type sizing should the destination pointer type change, particularly if the pointer is declared far from the malloc() call.

Disadvantages to casting:

  • Under the ANSI C standard, the cast is redundant.
  • Adding the cast may mask failure to include the header stdlib.h, in which the prototype for malloc is found. In the absence of a prototype for malloc, the standard requires that the C compiler assume malloc returns an int. If there is no cast, a warning is issued when this integer is assigned to the pointer; however, with the cast, this warning is not produced, hiding a bug. On certain architectures and data models (such as LP64 on 64-bit systems, where long and pointers are 64-bit and int is 32-bit), this error can actually result in undefined behavior, as the implicitly declared malloc returns a 32-bit value whereas the actually defined function returns a 64-bit value. Depending on calling conventions and memory layout, this may result in stack smashing. This issue is less likely to go unnoticed in modern compilers, as they uniformly produce warnings that an undeclared function has been used, so a warning will still appear. For example, GCC's default behavior is to show a warning that reads "incompatible implicit declaration of built-in function" regardless of whether the cast is present or not.
  • If the type of the pointer is changed, one must fix all code lines where malloc was called and cast (unless it was cast to a typedef).

1. Emphases are mine.

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"as its return type is void." I suppose you want to say "void*" –  starrify Nov 20 '13 at 11:22
Thank you all, I get it now –  user3012799 Nov 20 '13 at 11:45
Your last point may or may not actually be a disadvantage. If the type of the pointer might be changed in a fashion that would require inspecting all the places that allocate it (e.g. because the size might need to be adjusted), the fact that the lines with malloc would need to be changed could be a good thing. –  supercat Jul 31 at 23:16
@supercat; Yes it could be a good thing but at the same time it could be pathetic. –  haccks Jul 31 at 23:33

As the return type of malloc is void*, when you assign the result to a pointer, it is converted implicitly to the new type. So, there is no need for explicit casting. Actually, using an explicit cast is discouraged, as described here.

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malloc returns void*, which is a generic pointer that can point to any type of data. The (char*) is an explicit type conversion, converting the pointer returned by malloc from a pointer to anything, to a pointer to char. This is unnecessary in C, since it is done implicitly, and it is actually recommended not to do this, since it can hide some errors.

If you need the code to compile as C++ too, and not just as C, you will however need the explicit conversion, since C++ doesn't perform the implicit conversion.

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malloc() return a void*, as malloc() does not know how its caller will be using the memory it allocated on the heap. So it's up to you, the caller to cast the (void*), into the appropriate type of pointer, that you want to use inside the memory. (int*) to store integers. (char*) to store characters etc..

Having said so, you don't have to explicitly cast the return of a malloc() call. And in some cases, doing so may result in bugs.

Kindly read up the issue here

What's wrong with casting malloc's return value?

Specifically, what's dangerous about casting the result of malloc?

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