# Shuffle function in C

A shuffle function is defined as

``````Shuffle( A[n-1],A[n-2].....A[1],A[0]) = A[n-2]A[n-3]......A[1],A[0],A[n-1]
``````

where i in A[i] represent the I th bit in the binary representation of the index in the array . The

For example , the shuffle of the third element in an array is fifth array element. i.e..

Shuffle(A[010]) = A[100]. (Assuming the array size as 8 elements)

We see that the n-1 th bit '0' is left circular shifted . So the value of A[4] is copied into A[2]. Can we perform this without using a temporary array for all the elements in the array ...

I want to implement this function in simple plain C , but i just could not understand how to change the bits ...

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is this homework? –  John Boker Nov 17 '10 at 13:30
@John : nopes... i could do it using a temporary array , but i wanted to know if we can do it without a temporary array ... –  Flash Nov 17 '10 at 13:32

You can change bits using the bitwise logical operators `&`, `|` etc. You can move bits using the shift `<<` and `>>` operators.

It's easiest to do this using a temporary array, since otherwise how do you avoid overwriting a value you will need later?

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I do not remember where I found this method (may be "Numerical recipes in C", but I cannot fint it there).

Method use bit reversed shuffle (i'll name it "bitrev" here), it reorders array elements that element index `abcdef` becomes `fedcba` (letters represent bits, 6 bit example). Three bit reverts do your functions:

1. Use two bitrevs to two halves of array, so index `abcdef` become `afedcb` (when you act on bitrev on half of array highest index bit remains the same);

2. Use bitrev on whole array, so index `afedcb` become `bcdefa`, and that's what you need.

As bitrev is easily implemented inplace this do your work.

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Have you considered the Knuth Shuffle?

Here is an example in C from RosettaCode:

``````#include <stdlib.h>
#include <string.h>

int rrand(int m)
{
return (int)((double)m * ( rand() / (RAND_MAX+1.0) ));
}

#define BYTE(X) ((unsigned char *)(X))
void shuffle(void *obj, size_t nmemb, size_t size)
{
void *temp = malloc(size);
size_t n = nmemb;
while ( n > 1 ) {
size_t k = rrand(n--);
memcpy(temp, BYTE(obj) + n*size, size);
memcpy(BYTE(obj) + n*size, BYTE(obj) + k*size, size);
memcpy(BYTE(obj) + k*size, temp, size);
}
free(temp);
}
``````
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// this function has complexity O(N)

``````void shuffle(char *p, unsigned int pSize)
{
unsigned int i = 0;
for(i=0 ; i < (pSize - 1); i++)
{
char lTmpChar=p[i];
p[i]=p[i+1];
p[i+1]=lTmpChar;
}
}
``````

or using templates (c++):

``````template <typename T> void shuffle(T *p, unsigned int pSize)
{
unsigned int i = 0;
for(i=0 ; i < (pSize - 1); i++)
{
T lTmpChar=p[i];
p[i]=p[i+1];
p[i+1]=lTmpChar;
}
}
``````

You may use the shuffle function with an index which is an array of char, for example:

``````int arraySize = 10;
char array[arraySize]='abcdefghil';
char index[4]='0010';
int shuffled_index = atoi(shuffle(index,4));
if(shuffled_index < arraySize) // note that shuffled_index is not always valid
{
printf("Char: %c", array[shuffled_index]);
}
``````
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shuffle means: `to mix in a mass confusedly : jumble` –  A T Feb 28 '12 at 7:28