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I encountered the following line in a OpenGL tutorial and I wanna know what does the *(int*) mean and what is its value

if ( *(int*)&(header[0x1E])!=0  )
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It's casting the address of header[0xe1] to a pointer-to-int then dereferences that pointer. Google "C type casting". –  user529758 Oct 3 '13 at 20:08

3 Answers 3

up vote 17 down vote accepted

Let's take this a step at a time:


header must be an array of some kind, and here we are getting a reference to the 0x1Eth element in the array.


We take the address of that element.


We cast that address to a pointer-to-int.


We dereference that pointer-to-int, yielding an int by interpreting the first sizeof(int) bytes of header, starting at offset 0x1E, as an int and gets the value it finds there.

if ( *(int*)&(header[0x1E])!=0  )

It compares that resulting value to 0 and if it isn't 0, executes whatever is in the body of the if statement.

Note that this is potentially very dangerous. Consider what would happen if header were declared as:

double header [0xFF];

...or as:

int header [5];
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... which interprets the first sizeof(int) bytes of header, starting at offset 0x1E, as an int and gets the value. –  templatetypedef Oct 3 '13 at 20:11
@templatetypedef: "first" probably isn't a good description of "starting at offset 0x1E", but yes I believe that's the more meaningful explanation. –  Ben Voigt Oct 3 '13 at 20:13
@templatetypedef: Agreed and updated. Hope you don't mind I used your words. –  John Dibling Oct 3 '13 at 20:16
Additionally, since it is type aliasing, either the C++ implementation being used must support type aliasing or it might not get the current bytes in header[0x1E] at all. –  Eric Postpischil Oct 3 '13 at 20:22
Big ups for such a crystal clear explanation. –  user336063 Oct 3 '13 at 20:52

Assuming header is an array of bytes, and the original code has been tested only on intel, it's equivalent with:

header[0x1E] + header[0x1F] << 8 + header[0x20] << 16 + header[0x21] << 24;

However, besides the potential alignment issues the other posters mentioned, it has at least two more portability problems:

  • on a platform with 64 bit ints, it will make an int out of bytes 0x1E to 0x25 instead of the above; it will be also wrong on a platform with 16 bit ints, but I suppose those are too old to matter
  • on a big endian platform the number will be wrong, because the bytes will get reversed and it will end up as:

header[0x1E] << 24 + header[0x1F] << 16 + header[0x20] << 8 + header[0x21];

Also, if it's a bmp file header as rici assumed, the field is probably unsigned and the cast is done to a signed int. In this case it doesn't matter as it's being compared to zero, but in some other case it may.

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It's truly a terrible piece of code, but what it's doing is:


takes the address of the (0x1E + 1)th element of array header, let's call it addr:

(int *)addr

C-style cast this address into a pointer to an int, let's call this pointer p:


dereferences this memory location as an int.

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"It's truly a terrible piece of code". I think this should be mentioned in a good answer to this question. +1 (not only for that of course). –  JBL Oct 3 '13 at 20:26
How would you write this code? header is (I presume) the header of a BMP file stored in a char buffer; the 4-byte little-endian integer field starting at byte offset 0x1E is the compression method (0 meaning uncompressed). –  rici Oct 3 '13 at 20:54
@rici, one could declare header struct then cast pointer to the beginning of data to the pointer to that struct. –  n0rd Oct 3 '13 at 21:04
@n0rd: You could do that, but you'd have to arrange for your struct to have a non-aligned four-byte integer at offset 0x1E, which would also be ugly and non-portable. –  rici Oct 3 '13 at 21:11
So, really good thing to do would be deserialize properly, but it seems a bit overkill for reading one field. Another option would be memcpy to int variable: that'll deal with unaligned read. –  n0rd Oct 3 '13 at 21:21

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