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My question is concerning the code, which is producing the hash values for strings, summing 4 bytes at a time. It's completely working, but I can't understand some of lines of this code, namely the idea which is performed in some lines. Therefore I need the help of some of yours who is rather familiar with hashing.

Well this is the full code:

long sfold(String s, int M) {
 int intLength = s.length() / 4;
 long sum = 0;
 for (int j = 0; j < intLength; j++) {
   char c[] = s.substring(j * 4, (j * 4) + 4).toCharArray();
   long mult = 1;
   for (int k = 0; k < c.length; k++) {
 sum += c[k] * mult;
 mult *= 256;

 char c[] = s.substring(intLength * 4).toCharArray();
 long mult = 1;
 for (int k = 0; k < c.length; k++) {
   sum += c[k] * mult;
   mult *= 256;

 return(Math.abs(sum) % M);


Here each char value is converted to long integer type, summing the result on each iteration of the for-loop. These 2 doubtful lines of code which I mentioned above are as follows:

sum += c[k] * mult;
mult *= 256;

Well, I can understand the whole code, except these 2 lines...

1) Why we need variable 'mult'? Is it probably a usage of multiplication method for hashing?

2) Why we multiply 'mult' exactly by 256 on each iteration? What is 256 in this case?

If some of you have faced with this code or you know the idea, which is performed in these lines, please help me to understand it too :)

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3 Answers 3

up vote 1 down vote accepted

Because of the fact that c[k] is char it has size of 8 bits and 8 bits is exactly 256 possible numbers. So for example we have char[] c = new char[]{'a, 'b', 'c', 'd'}, here 'a' in a bit wise form would look something like 10000001 and b something like 10000010 and so on. Now the question is how we form sum, firstly we just take our a representation in bit wise, so sum become 10000001, next we take b in bit wise form and multiply it to 256 which is in fact just bit wise shift on 8 bits to left, that means that 'b' * 256 is the same as 10000001 * 100000000 = 1000000100000000 (256 in bit form is 100000000) and now when we add this 'b' * 256 with previous sum, that means just substituting last 8 bits with a bit form. The same thing happens next.

So in the end we just receive a number which is bit wise concatenation of our previous chars (for example 10000001 10000010 10000011 10000100).

I hope that would help.

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Thank you so much for such an excellent explanation! I've finally got it. But I have just on additional question. If we use the unsigned int instead of char, so we need to multiply by 65536, right? –  Ildar Allayarov Jun 23 '13 at 11:50
if it is in java, then you need 4294967294 (java int is 32 bits), but java don't have unsingned ints. It is always better to use 1 << 8 or 1 << k for this king of operation (1 << 8 = 256); –  Desert Jun 23 '13 at 11:56
yes, you are right, I was mistaken, wrote about 16 bits (type short for example). But the idea is correct, is it? So we multiply by 65536 and we shift to the next position. –  Ildar Allayarov Jun 23 '13 at 12:00
it all depends on the size of your type (8, 16, 32 or 64 bits) –  Desert Jun 23 '13 at 12:01
in C++ for unsigned ints - yes –  Desert Jun 23 '13 at 12:02

The code basically goes one byte at a time. Each byte is 8 bits, or the number 256. In other words, multiplying by 256 is like shifting the value to the left by one byte.

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Thank you Ayman! –  Ildar Allayarov Jun 23 '13 at 11:54
You can always upvote several answers that you do find useful, and please do accept one answer. –  Ayman Jun 23 '13 at 13:11

Multiplying by 256 is actually shifting bits to the left by 8 positions (1 byte).

So, what it does is:

  • it keeps the bits of the first character in lowest 8 bits (first byte),
  • next character's 8 bits are in the next 8 positions (next byte), and so on, up to four.

I'll give an example for 4-bit system (we would multiply by 16 in that case):

c[0] = 1101
c[1] = 1001 
c[2] = 0010 
c[3] = 0110

it builds long sum whose bits look like:

0110 0010 1001 1101
c[3] c[2] c[1] c[0] 
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Yes, now its clear. Thank you! –  Ildar Allayarov Jun 23 '13 at 11:53
No problem! Accept if you like it and don't hesitate to ask more! –  darijan Jun 23 '13 at 11:54
Alright! Thought that I could accept several answers, but I have to select just one. So it was the first one, which appeared here, sorry. But nevertheless thank you again. –  Ildar Allayarov Jun 23 '13 at 12:05

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