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I'm having difficulty learning C language's malloc and pointer:

What I learned so far:

  • Pointer is memory address pointer.

  • malloc() allocate memory locations and returns the memory address.

I'm trying to create a program to test malloc and pointer, here's what I have:


char *x;
x = malloc(sizeof(char) * 5);

strcpy(*x, "123456");
printf("%s",*x); //Prints 123456


I'm expecting an error since the size I provided to malloc is 5, where I put 6 characters (123456) to the memory location my pointer points to. What is happening here? Please help me.


Where to learn malloc and pointer? I'm confused by the asterisk thing, like when to use asterisk etc. I will not rest till I learn this thing! Thanks!

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5 Answers 5

up vote 5 down vote accepted

You are invoking undefined behaviour because you are writing (or trying to write) beyond the bounds of allocated memory.

Other nitpicks:

  • Because you are using strcpy(), you are copying 7 bytes, not 6 as you claim in the question.
  • Your call to strcpy() is flawed - you are passing a char instead of a pointer to char as the first argument.
  • If your compiler is not complaining, you are not using enough warning options. If you're using GCC, you need at least -Wall in your compiler command line.
  • You need to include both <stdlib.h> for malloc() and <string.h> for strcpy().
  • You should also explicitly specify int main() (or, better, int main(void)).
  • Personally, I'm old school enough that I prefer to see an explicit return(0); at the end of main(), even though C99 follows C++98 and allows you to omit it.

You may be unlucky and get away with invoking undefined behaviour for a while, but a tool like valgrind should point out the error of your ways. In practice, many implementations of malloc() allocate a multiple of 8 bytes (and some a multiple of 16 bytes), and given that you delicately do not step over the 8 byte allocation, you may actually get away with it. But a good debugging malloc() or valgrind will point out that you are doing it wrong.

Note that since you don't free() your allocated space before you return from main(), you (relatively harmlessly in this context) leak it. Note too that if your copied string was longer (say as long as the alphabet), and especially if you tried to free() your allocated memory, or tried to allocate other memory chunks after scribbling beyond the end of the first one, then you are more likely to see your code crash.

Undefined behaviour is unconditionally bad. Anything could happen. No system is required to diagnose it. Avoid it!

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Sir, I tried also malloc(1), and assign "123456", still no error. –  dpp Oct 10 '11 at 8:18
Yes - because malloc(1) probably allocated 8 bytes...and you didn't call free(). Change the string to "abcdefghijklmnopqrstuvwxyz" and add free() and you are quite likely to see it crash and burn. However, the awful thing about undefined behaviour is precisely that programs may seem to work with it for quite some time - and then suddenly you find something that makes them break (a new platform, a new compiler, an extra function call somewhere, ...). –  Jonathan Leffler Oct 10 '11 at 8:22
+1 for the -Wall hint –  Francesco Laurita Oct 10 '11 at 9:33

If you call malloc you get and adress of a memory region on heap. If it returns e.g. 1000 you memory would look like:

Adr  Value
1000 1
1001 2
1002 3
1003 4
1004 5
1005 6
1006 0

after the call to strcpy(). you wrote 7 chars (2 more than allocated).

x == 1000 (pointer address)

*x == 1 (dereferenced the value x points to)

There are no warnings or error messages from the compiler, since C doesn't have any range-checking.

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+1 for range-checking. –  Mr.32 Oct 10 '11 at 8:25

My three cents:

  1. Use x, as (*x) is the value that is stored at x (which is unknown in your case) - you are writing to unknown memory location. It should be:

    strcpy(x, "123456");

  2. Secondly - "123456" is not 6 bytes, it's 7. You forgot about trailing zero-terminator.

  3. Your program with it's current code might work, but not guaranteed.

What I would do:


    char str[] = "123456";
    char *x;
    x = malloc(sizeof(str));

    strcpy(x, str);
    printf("%s",x); //Prints 123456

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I tried also malloc(1), and assign "123456", still no error. –  dpp Oct 10 '11 at 8:22
You got no crash because writing at unknown memory location is 'undefined behavior'. –  Andrejs Cainikovs Oct 10 '11 at 8:26

Firstly, there is one problem with your code:

x is a pointer to a memory area where you allocated space for 5 characters. *x it's the value of the first character. You should use strcpy(x, "123456");

Secondly, the memory after your 5 bytes allocated, can be valid so you will not receive an error.

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char *x;
x = malloc(sizeof(char) * 5);

strcpy(x, "123456");
printf("%s",x); //Prints 123456


Use this...it will work

See difference in your & mine program

Now here you are allocating 5 bytes & writing 6 byte so 6th byte will be stored in next consecutive address. This extra byte can be allocated to some one else by memory management so any time that extra byte can be changed by other program because 6th byte is not yours because you haven't malloc'd that.. that's why this is called undefined behaviour.

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It might work. –  Andrejs Cainikovs Oct 10 '11 at 8:13
I thought x is used to access the content of the address container and *x is used to access the content of the memory location my pointer points to. –  dpp Oct 10 '11 at 8:15
ya you are right but see the syntex of strcpy where 1st argumnent is pointer to character. –  Mr.32 Oct 10 '11 at 8:17
"it will give you segmention fault when you will free this memory" are you sure? Are you taliking about free(x)? –  Iustin Oct 10 '11 at 8:19
First, there are 7 bytes copied because strcpy() includes the null byte at the end of the string. The extra space could be allocated to some other part of the current program; it could not, on any mainstream operating system, belong to another program (process). The byte could change at any time because the other part of this program writes to 'its memory'. –  Jonathan Leffler Oct 10 '11 at 15:41

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