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What does (char* )str do in the below code?

 * Main file 
#include <assert.h>
#include <mylib.h>

int main()
  const char str[] = "this is my first lab\n";
  int ret=1; 

  ret = my_print((char *)str, sizeof(str));


  return 0;

This code is written by my instructor. my_print is a function which receives a pointer to a string and the size of that string. I am confused on why do we have to use (char *)str to pass the string to the my_print function. What does it actually do?

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possible duplicate of what is array decaying? –  m0skit0 Mar 8 '13 at 11:45
@m0skit0 Not necessarily, since the purpose of the cast could also be to bypass the const (which is very bad practice). –  Lundin Mar 8 '13 at 12:17

3 Answers 3

up vote 10 down vote accepted

It casts away the const.

This means it makes your program likely to crash in case my_print modifies that string since its memory may be marked as read-only. So it's generally a bad idea to remove the const modifier through a cast.

In your case it looks a bit like whoever implemented my_print didn't think that string to be printed would never have to be modified and thus didn't make it accept a const char * argument.

So what you should do instead of the cast is changing the definition of my_print to accept a const char * instead of a char * as its first parameter.

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The my_print() function could also be old code. –  Dietrich Epp Mar 8 '13 at 11:45
The task was to implement the my_print function in x86 assembly –  Assasins Mar 8 '13 at 11:50
Can you elaborate me more on this? I'm kinda confused. :( –  Assasins Mar 8 '13 at 12:32
No. The function header will be C anyway, just the body will be in assembly. So you can easily use const char *str there. –  ThiefMaster Mar 8 '13 at 13:47
The 'promise' of const and an argument qualifier cannot be enforced by the assembler, so arguably declaring it const would have no semantic purpose. The compiler on the other hand will not allow you to pass a const to an non-const arg without an explicit 'shut-up I know what I am doing type cast' (because the compiler can enforce that promise in C code). The simplest solution would be not to declare the string as const in the first instance - no point in making promises you can't guarantee to keep. –  Clifford Mar 8 '13 at 14:01

That is "type casting" (or "type conversion"). In other words, it tells the compiler to treat one type as another type.

What this specific conversion does is tell the compiler to treat the constant string as not constant. If the called function tries to modify the string, it may not work, or may even crash the program, as modifying constant data is undefined behavior.

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can you elaborate more on this? Since now the constant char is not a constant, how could the program crash when it tries to modify the string? –  Assasins Mar 8 '13 at 12:42
@Fazlan Constant data is often stored in a memory section marked as read-only. When attempting to write to this section the CPU will catch that and cause CPU trap propagating up to your program as a crash. –  Joachim Pileborg Mar 8 '13 at 12:44
why would the program try to write to the read only section? –  Assasins Mar 8 '13 at 12:52
@Fazlan Now you're going around in circles I think. Lets take the program in your question, for example. What if you called another function that takes a non-constant char *, and that function does modify the string. Then calling that function with a constant string like you have will cause problems. –  Joachim Pileborg Mar 8 '13 at 12:58

It is a typecast, i.e. it changes the datatype. (char*) means type cast to type "pointer to char"

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