Sorting values, but only if they are X more than current order

I've been searching Google (and stack overflow of course!) for a way to sort a list of integers by value, but also by an extra factor. I'm looking for some sort of algorithm to implement I suppose. So far, I have an array in Delphi 2007 that sorts the values from largest to smallest, but now I would like it to sort values that are only X number more than the previous number in the list.

For example, the values 5, 7, 25, 15 are currently sorted to 25, 15, 7, 5. The order I am trying to get now, with the X value being 5, is 25, 15, 5, 7. As you can see, the 5 and 7 haven't switched positions because there isn't a difference of more than 5 between them.

Not sure if I'm explaining this particularly well, but that's the general idea.

One more example would be the values 10, 40, 18, 20, 16, 28. Sorted, they should be 40, 28, 18, 20, 16, 10. 18, 20 and 16 haven't moved, because again, there is not more than 5 between each of the numbers.

The idea behind it is so that the item linked to the number (for example the number of times something has been ordered) isn't changing all the time because of a difference of only 1 or 2. For example, if the list of most frequently ordered paper is displayed on a web page by frequency purchased, then the order of a particular type of paper will only change for the user if it has been ordered more than five times more than the next most frequent.

Hope this makes sense, and thanks for your time!

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Having thought about this some more I think a bubble sort is the only type of sort that will work. This is because in a bubble sort a number must be explicitly larger (or in this case 5 larger) than the numbers above it in order for them to change places. This is exactly what you have asked for.

From a high level point of view here is what I think you will need:

1. A bubble sorting implementation that takes in a custom compare function.

2. a compare function that returns equal if the difference is less than 5.

Merging these 2 things should leave you with what you are after.

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The only problem is, do the properties of such compare function support sorting? For example, transitivity does not hold: equals(5, 7) and equals(7,11) are both true, but equals(5, 11) is false. I am afraid such comparator cannot be used for sorting... – Arkadiy Jan 22 '09 at 13:43
I was worried about this but wasn't sure. Can you provde some sort of counter example? I believe a bubble sort using this compare function will work. though I am unsure now about all stable sorts – Jack Ryan Jan 22 '09 at 14:08

At the very least you need to use a stable sort, i.e., a sort that preserves ordering of equivalent values.

Once you have that, you should probably define your comparison as if `abs(a - b)<5`, equals, otherwise, do the normal comparison. That makes `compare(a, b)==compare(b, a)`, which is something that most good sorting implementations should assert.

If you are using C++, you can use `std::stable_sort` to do this.

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TList.Sort won't work because it uses quick sort algoritham as mghie commented.

Bubble sort algoritham is not that fast, here is implementation so you can try, this time in pascal.

``````var I,N,T,D:Integer ;
A:array of Integer;
Change:Boolean;
begin

SetLength(A, 4);
A[0] := 5;
A[1] := 7;
A[2] := 25;
A[3] := 15;

Change := True;
N := High(A);

while Change do
begin
Change := false;

for I := 1 to N do
begin
D := A[I]-A[I-1];

if  (D > 5)  then
begin
T := A[I-1];
A[I-1] := A[I];
A[I] := T;
Change := true;
end;
end;
end;
end;
``````
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I think this needs two passes. On the first pass, identify any values which are subject to being sorted, and on the second pass actually move only the ones which were such identified. In your second example, using an array of Y/N with Y being to sort, you would end up with [ Y, Y, N, N, N, Y ], then by only sorting the values Y, the N's would be "ignored not eligible for sorting" you would get your resulting list of [40, 28, 18, 20, 16, 10]. The group of N (will always be a group based on the definition) should be compared to as the value of the highest in its group.

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Or you could use a stable sort and a properly defined comparison function. It only takes a single sorting pass. – MSN Jan 23 '09 at 22:34

There are two things that are important for this to work:

• 1) You need a sorting algorithm that is stable(it does not need to be bubble sort though and it probably shouldn't), meaning it preserves the original order if the comparator returns 0(=equal). See wikipedia's comparison of sorting algorithms for a good overview.

• 2) You need a custom comparator that returns 0 in exactly those cases you mentioned.

• -

It might make sense to apply your sorting principle to an almost sorted list, but you should be aware of the fact that it violates a basic assumption on general sorting algorithms: That the elements to be sorted form a total order. This roughtly means that the < operator behaves the way it does for real numbers. If you violate this rule, then you can get strange effects, and library algorithms might not even terminate (or even crash, I've seen this happen for std::sort in C++).

One way to modify your idea to make it a total order is to sort with respect to each number rounded down to the closest multiple of 5.

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Try sorting with custom comparing function , you can quickly try this if you fill TList with numbers and call MyList.Sort(myCompareFunc);

``````function  myCompareFunc(item1,item2:Pointer):Integer;
var
v1,v2:Integer;
begin

v1 := (integer)item1;
v2 := (integer)item2;

if v1 > v2 then
result := 1
else if (v1 < v2 )
result := -1
else
result := 0

//most important
if abs(v1-v2) < 5 result := 0 ;

end;
``````
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Doesn't work. Apart from the fact that this is neither C nor Object Pascal - it "sorts" [10, 40, 18, 20, 16, 28] to [10, 20, 16, 18, 28, 40]. Note that the range [18, 20, 16] has not been preserved. TList.Sort() is not usable for this problem. – mghie Jan 23 '09 at 19:29
Ha ha, its object Pascal with c extension, yes you are right it won't work because TList.Sort uses QuickSort algorithm so there is no chance that order can be preserved. – Edin Jan 23 '09 at 23:27

I think your requirement leads to really strange results. You can, ultimately, have a sort order where items sorted exactly the wrong way round, and how they are sorted depends on how they change.

I think you need to establish "classes" of values (use percentiles?) and then sort the newspapers alphabetically within each class.

For example: barely ordered (90% of papers are ordered more than this one), lower than median (50% of newspapers are ordered more than these), higher than median, top 10 ordered (sorted by number of orders of course).

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