# Explain what this function does

Can anyone explain, at a level that a novice C programmer would understand, what this function does?

unsigned getunsigned(unsigned char *bufp, int len) {
unsigned value = 0;
int shift = 0;
while (len--) {
value |= *bufp++ << shift;
shift += 8;
}
return value;
}

I guess the line that's giving me the most trouble to wrap my head around is:

value |= *bufp++ << shift;

Also, can anyone provide a way to re-write this so that it is more clear for an inexperienced C programmer to understand?

I found this code online while doing research for an assignment and I prefer not to use it unless I understand fully what it's doing and how it's doing it.

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*bufp++ should be cast to unsigned before the left-shift. Otherwise, it is promoted to int by default, and, when the shift is for the highest byte, the result may exceed what is representable in an int. Then the behavior is undefined. –  Eric Postpischil Dec 5 '12 at 10:14

This is taking successive bytes from the buffer pointed to by bufp, and putting them into value.

The value |= *bufp++ << shift; is taking the value at bufp (i.e., the char at the address bufp is pointing at) and ORing it with 8 bits of value. Then it's incrementing bufp to point go the next byte in the buffer. After that, it adds 8 to shift -- that's what determined which 8 bits of value the new bytes gets ORed. I.e., shift starts as 0, so in the first iteration, the first byte of bufp replaces the bottom 8 bits of value (replaces, because they're starting out as 0). In the next iterator, the next byte of bufp gets shifted left 8 bytes, to replace the next 8 bits of value, and so on for len bytes.

Aside: if len is greater than sizeof(unsigned), this is going to write past the end of value, causing undefined behavior.

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I understand now. Thanks for your detailed explanation. –  Justin Kredible Dec 5 '12 at 15:44
value |= *bufp++ << shift;

is equivalent to

value = value | (*bufp << shift);
bufp++;
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@rekire. No, not at all. You should do a little reading on how bitwise OR works. The only time they would be equivalent, is if the bitwise intersection (AND) of the operands was zero. In other words, 0x10 | 0x04 == 0x10 + 0x04 == 0x14. But 0x10 | 0x10 != 0x10 + 0x10 –  Jonathon Reinhart Dec 5 '12 at 6:16
Actually, it is equivalent to value = (uint8_t)(value | ((int)*bufp << shift)); bufp++; because of integer promotions. In this particular case, I don't think the integer promotions will cause any bugs though. –  Lundin Dec 5 '12 at 7:58
@Lundin: When *bufp is promoted to an int and left-shifted, it may produce a value not representable in an int. Then the behavior is undefined. –  Eric Postpischil Dec 5 '12 at 10:10
@EricPostpischil Only if the original uint8_t contained a negative value, but it cannot do that, it can only hold values from 0-255. So that's why this particular case will work (out of luck). –  Lundin Dec 5 '12 at 10:27
@Lundin: First, it is an unsigned char, not a uint8_t. Second, if the vale is, for example, 0x80, and is shifted 24 bits in a 32-bit int, the result would be 0x80000000. This is not representable in a 32-bit int, so the result is undefined per C 2011 6.5.7 4. –  Eric Postpischil Dec 5 '12 at 11:38
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value |= *bufp++ << shift;

is equivalent to

value =  value | (*bufp << shift);
bufp++;

first value at bufp is shifted to the value in shift and the resultant is ORed | with value and then bufp is incremented.

At last value of shift is changed by shift +=8 means shift = shift + 8

So it takes all the bytes in the bufp because while loop won't terminate until len becomes 0.

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