I am sorting array of integers keys.
Information about the data:
 Arrays are 1176 elements long
 Keys are between 750 000 and 135 000 000; also 0 is possible
 There are a lot of duplicates, in every array there are only between 48 and 100 different keys but it's impossible to predict which values out of whole range those will be
 There are a lot of long sorted subsequences, most arrays consists of anywhere between 33 and 80 sorted subsequences
 The smallest element is 0; number of 0's is predictable and in very narrow range, about 150 per array
What I tried so far:
stdlib.h qsort;
this is slow, right now my function spends 0.6s on sorting per execution, with stdlib.h qsort it's 1.0s; this has the same performance as std::sort
Timsort;
I tried this: https://github.com/swenson/sort and this: http://code.google.com/p/timsort/source/browse/trunk/timSort.c?spec=svn17&r=17; both were significantly slower than stdlib qsort

their combination of quick sort and insert sort is the fastest for my data so far; I experimented with various settings and pivot as middle element (not median of 3) and insert sort starting with 28 element sub arrays (not 8 as default) gives the best performance
shell sort;
simple implementation with gaps from this article: http://en.wikipedia.org/wiki/Shellsort; it was decent, although slower than stdlib qsort
My thoughts are that qsort does a lot of swapping around and ruins (ie reverse) sorted subsequences so there should be some way to improve on it by exploiting structure of the data, unfortunately all my tries fail so far.
If you are curious what kind of data is that, those are sets of poker hand evaluated on various boards already sorted on previous board (this is where sorted subsequences come from).
The function is in C. I use Visual Studio 2010. Any ideas ?
Sample data: http://pastebin.com/kKUdnU3N
Sample full execution (1176 sorts): https://dl.dropbox.com/u/86311885/out.zip