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Everyone knows that BMP files are little-endian. The Wikipedia page says that the first 2 bytes must be 0x424D to make sure that this file is BMP, but when I am getting the first 2 bytes from a BMP file, it gives me the two bytes in reverse 0x4D42.

My code:

FILE *file;
unsigned short bmpidentifier;

if((file = fopen("c://loser.bmp", "rb")) == NULL){
   perror("The problem is");
   return -1;

fread(&bmpidentifier, sizeof(unsigned short), 1, file);
if(bmpidentifier == 0x424D){
   printf("The file actually is a bmp file.\n");
} else{
   printf("%X\n", bmpidentifier);
   printf("The file is not a bmp file.\n");

Now, how are the BMP file bytes sorted as little-endian, and giving me the first 2 bytes reversed?

share|improve this question
What architecture are you on? Could it be that you are on something that uses big-endian (and hence switches the order)? – Dennis Meng Aug 21 '13 at 1:41
Check your computer's properties (like which chip it uses). – Dennis Meng Aug 21 '13 at 1:46
I don't know, and installing any software would probably be more work than just finding out whether or not your computer stores stuff in big-endian or little-endian order. It could very well be that the ordering your computer uses accounts for what you see. – Dennis Meng Aug 21 '13 at 1:51
This might help you understand roughly what I'm talking about. – Dennis Meng Aug 21 '13 at 1:53
I still think it's because your computer uses an endianness that you're not expecting. If you read one character at a time, does it do what you expect? – Dennis Meng Aug 21 '13 at 2:03
up vote 2 down vote accepted

The first byte is 'B' (0x42), the second byte is 'M' (0x4D)

A little endian uint16_t would see this as 0x4D42 which is what you are reading. Try the following instead for a endian independent solution.

char BM[3];
BM[2] = '\0';
if (fread(BM, 1, 2, file) && (strcmp("BM",BM)==0)) {
  printf("The file actually is a bmp file.\n");

By the way Wiki says "ID field (42h, 4Dh)", not "first 2 bytes must be 0x424D".

share|improve this answer
Do you mean, check if the first bytes is BM instead check by using hexadecimal, also how this 0x424D as -> 0x4642. – Lion King Aug 21 '13 at 2:46
@Lion King Yes - for there is some endian confusion here and "BM" is clear. A next higher level approach would be to instead read the entire 14-byte "Bitmap File Header" into a structure and test it for validity. But that is another question that may involve packing. – chux Aug 21 '13 at 2:51
Again, the first byte is 0x42, the next byte is 0x4D. When you read that as a unsigned short your should expect to receive 0x4D42. That is what you read. The idea that you should read 0x424D is incorrect. You mis-understood the wiki article. – chux Aug 21 '13 at 3:04
@LionKing Little endian means the bytes of a multi-byte data type (ex: int on most systems is now 32 bits, hence 4 bytes) are stored sequentially from least significant byte (the lower 8 bits) to most significant byte (the highest eight bits). An example would be 2059145780, which in hex is 0x7ABC1234. A little endian system the bytes are stored 0x34 0x12 0xBC 0x7A. A big-endian storage would be 0x7A 0xBC 0x12 0x34. (and +1 for this answer, though i'd just check the bytes one by one after reading them into an unsigned char array block. strcmp() is not needed whatsoever). – WhozCraig Aug 21 '13 at 4:40
@chux Understandable. I prefer manually assembly of my multi-byte values. I've written too many file-processors (compression extractors and assemblers) for, in some cases, up to 8 different platforms, including big and little endian ASCII, EBCDIC, etc. to do it any other way. Everyone has their ways, so long as they work. The case you pointed out, for example, even 'B' and 'M' literal testing of the first to bytes won't work on an EBCDIC platform. You literally use the byte values of the ASCII chars. Its the only truly portable way. – WhozCraig Aug 21 '13 at 13:46

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