Author: Jonas Bilinkevicius

I cannot use the Sort method in TStringList as I would like to sort by Integer. My 
TStringList is filled with numbers such as:

20, 12, 1, 23, 54, 32

Of course, they're converted to string before being added to TStringList. What is a 
fast algorithm to achieve this sort? I normally have less than 50 items in my 
TStringList, if that is a factor.

Answer:

You'd end up doing a lot of conversions using StrToInt, which is wasteful, so I 
would recommend that you create a

type
PInteger = ^Integer type

store all of the StrToInt values in the TStringList.Objects array, and then when 
you use the sort, do your comparisons based on

PInteger(SL.Objects[Idx])^

The quicksort that TStringList uses (see CLASSES.PAS) uses a very simple partition 
function, which is completely unaware of the data it's sorting. It's using the 
midpoint index to begin to decide where to start partitioning, which is just as 
reliable as picking a random number when deciding how to sort. If, for example, you 
had a big list of items that was already sorted in the reverse direction, and you 
used this quicksort on it, and would call itself recursively once for every element 
in the list! Now, when you take into account that you're pushing a few items on the 
stack (the return address as well as the parameters as well as the registers you 
are saving) it might not take too long for your 16K of stack space to get eaten up 
(16,384 bytes divided by about maybe 32 bytes (and that's being pretty optimistic!) 
is about 2048 items before you run the risk of killing the stack!). The MaxListSize 
in CLASSES is 16380 (65520 div sizeof (Pointer)), so it's certainly possible to 
cause this problem.

Remember that TStringList.Sort is declared as virtual, so if you wanted to override 
it, you certainly could in a class derived from TStringList.

Also mind that the odds of anyone having to sort this much data (2000 items) seems 
pretty remote (correct me, anyone, if you've ever sorted more than 2000 strings in 
an application). The most reliable sort with the same running time as QuickSort is 
a HeapSort. They both run in O(N lg N) time, whereas sorts like the InsertionSort 
(which someone mentioned) and BubbleSort (which someone else mentioned) run in 
O(N^2) time, on the average.

The biggest differences between HeapSort and QuickSort, in terms of their run time 
and storage are:

HeapSort only calls itself recursively at most lg N times, where as QuickSort could 
call itself recursively N times (big difference, like 10 vs 1024, or 32 vs 2^32);
The worst case upper bound time on HeapSort is only O(N lg N), whereas in the worst 
case for QuickSort, the running time is O(N^2).


1   program H;
2   
3   uses
4     WinCrt, SysUtils;
5   
6   const
7     min = 10;
8     max = 13;
9     maxHeap = 1 shl max;
10  
11  type
12    heap = array[1..maxHeap] of integer;
13    heapBase = ^heap;
14  
15  var
16    currentSize, heapSize: integer;
17    A: heapBase;
18  
19  procedure SwapInts(var a, b: integer);
20  var
21    t: integer;
22  begin
23    t := a;
24    a := b;
25    b := t
26  end;
27  
28  procedure InitHeap(size: integer);
29  var
30    i: integer;
31  begin
32    heapSize := size;
33    currentSize := size;
34    Randomize;
35    for i := 1 to size do
36      A^[i] := Random(size) + 1;
37  end;
38  
39  procedure Heapify(i: integer);
40  var
41    left, right, largest: integer;
42  begin
43    largest := i;
44    left := 2 * i;
45    right := left + 1;
46    if left <= heapSize then
47      if A^[left] > A^[i] then
48        largest := left;
49    if right <= heapSize then
50      if A^[right] > A^[largest] then
51        largest := right;
52    if largest <> i then
53    begin
54      SwapInts(A^[largest], A^[i]);
55      Heapify(largest)
56    end;
57  end;
58  
59  procedure BuildHeap;
60  var
61    i: integer;
62  begin
63    for i := heapSize div 2 downto 1 do
64      Heapify(i)
65  end;
66  
67  procedure HeapSort;
68  var
69    i: integer;
70  begin
71    BuildHeap;
72    for i := currentSize downto 2 do
73    begin
74      SwapInts(A^[i], A^[1]);
75      dec(heapSize);
76      Heapify(1)
77    end;
78  end;
79  
80  type
81    TAvgTimes = array[min..max] of TDateTime;
82  var
83    sTime, eTime, tTime: TDateTime;
84    i, idx, size: integer;
85    avgTimes: TAvgTimes;
86  begin
87    tTime := 0;
88    i := min;
89    size := 1 shl min;
90    new(A);
91    while i <= max do
92    begin
93      for idx := 1 to 10 do
94      begin
95        InitHeap(size);
96        sTime := Time;
97        HeapSort;
98        eTime := Time;
99        tTime := tTime + (eTime - sTime)
100     end;
101     avgTimes[i] := tTime / 10.0;
102     inc(i);
103     size := size shl 1;
104   end;
105 end.