# How do I implement the reverse sorting portion of a cache-conscious radix sort?

I've been given the task to implement a cache conscious radix sort as described by a paper publish by the "Universitat Polite`cnica de Catalunya". I need help figuring out / implementing part of the algorithm in c as I'm not very skilled at reading academic papers and my c skills aren't as sharp as they used to be.

The part I'm having issues with is the "Reverse sorting" part of the algorithm. Which goes as follows.

After each call of Reverse sorting ,the number of digits that remain to be sorted for a specific sub-bucket is decremented by one. For instance, for the original set of keys, the partitioning is done using the most significant digit, that is digit m-1 that is formed by the b_(m-1) most significant bits of the key. In that case, the original data set is partitioned into 2^(b_(m-1)) sub-buckets. Each sub-bucket corresponds to one of the 2^(b_(m-1)) values that digit m-1 can take. Keys in one sub-bucket still remain to be sorted for the b - b_(m-1) least significant bits but keys in different sub-buckets are already sorted for the b_(m-1) most significant bits.

The given psuedo-code of the algorithm looks like...

``````cc-radix(bucket, b)
begin
if fits_in_cache(bucket) then
else
sub-buckets = reverse_sorting(bucket, b)
for each sub-bucket in sub-buckets do