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I haven't found a question answering this exact behaviour, and somehow I just don't understand what is going on:

I read the contents of a Windows Bitmap File (bmp) into a array and use this array later to extract required information:

char biHeader[40];
// ...,40);
// ...
int biHeight = biHeader[8] | (biHeader[9] << 8) | (biHeader[10] << 16) | (biHeader[11] << 24);

After this, biHeight shows as -112 which is totally wrong because it should be 400. So, I took a look at a hexdump of the file. The contents read are:

90 01 00 00

Changing the byte order to big endian gives 0x190 which is 400 in decimal, as expected.

If I change above code to:

unsigned char biHeader[40];
// ...*)biHeader,40);
// ...
int biHeight = ... (same as before)

... then I get the expected value. What is going on here?

And: How would you read this data?

share|improve this question
One more thing: I really NEED to convert to int and NOT unsigned int because the value could be negative! – Daniel Jour Dec 9 '12 at 11:21
usually BITMAPINFOHEADER is read as a struct, where biHeight is a LONG on windows platform at least – Chubsdad Dec 9 '12 at 11:39
I decided to not read it as a struct because there are multiple versions of this header (with different fields towards the end). As a LONG? According to the file format definition, this is wrong. Or, to be more specific: biHeight is composed of 4 bytes (and not more; as LONG could be 8 bytes) – Daniel Jour Dec 9 '12 at 11:45
up vote 4 down vote accepted

As a signed 8-bit two's complement integer, 0x90 is -112. When that is converted to int for the |, its value is preserved. Since all bits from the seventh on are set if the representation is two's complement, a bitwise or with values shifted left by at least eight bits doesn't change the value anymore.

As an unsigned 8-bit integer, the value of 0x90 is 144, a positive number with no bits beyond the 2^7 bit set. Then, a bitwise or with biHeader[9] << 8 changes the value to the desired 144 + 256 = 400.

When working with bitwise operators, (almost) always use unsigned types, signed types often lead to unpleasant surprises (and undefined behaviour if the shift result is out of range or a negative integer is shifted left).

share|improve this answer
Ah, ok, thank you. That totally makes sense. So I keep reading it into a unsigned char[]. – Daniel Jour Dec 9 '12 at 11:35
Note that the code contains biHeader[11] << 24, which implicitly converts biHeader[11] to an int and shifts it 24 bits. So the C standard does not define the behavior when biHeader[11] is 128 or more and int is 32 bits. Since this code wants an int result, it requires either a guarantee from the compiler about the behavior or special handling for this case or a guarantee that biHeader[11] will never be 128 or greater. – Eric Postpischil Dec 9 '12 at 12:00
I see, my "main problem" is, that the compiler tries to interpret the values. It's probably better to sort (little endian to big endian) the values inside the array and then use a int pointer to the correct location in memory, right? – Daniel Jour Dec 9 '12 at 14:43
@DanielOertwig I don't think so. Using an int* may have alignment problems, and some platforms are big-endian, others little-endian. It is IMO better to use unsigned ints for shifting (or uint32_t/uint_least32_t to be sure that shifting an 8-bit value by 24 places doesn't overflow). Like (uint32_t)biHeader[8] | ((uint32_t)biHeader[9] << 8) | .... Now the problem remains that if the value is outside int range [usually if and only if the 2^7 bit in biHeader[11] is set], the conversion to int is implementation-defined. It would be nice if the type of biHeight could be unsigned – Daniel Fischer Dec 9 '12 at 14:55
If it has to be int, the typical conversion from unsigned int to int is just a reinterpretation of the bits, so that would be fine (but not totally portable). – Daniel Fischer Dec 9 '12 at 15:04

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