Removing duplicates from List

I wrote this function to remove duplicates from a TList descendant, now i was wondering if this could give me problems in certain conditions, and how it does performance wise.

It seems to work with Object Pointers

``````function TListClass.RemoveDups: integer;
var
total,i,j:integer;
begin
total:=0;
i := 0;
while i < count do begin
j := i+1;
while j < count do begin
if items[i]=items[j] then begin
remove(items[j]);
inc(total);
end
else
inc(j);
end;
inc(i);
end;
result:=total;
end;
``````

Update: Does this work faster?

``````function TDrawObjectList.RemoveDups: integer;
var
total,i,j:integer;
templist:TLIST;
begin
templist:=TList.Create;
total:=0;
i := 0;
while i < count do
if templist.IndexOf(items[i])=-1 then begin
inc(i);
end else begin
remove(items[i]);
inc(total);
end;
result:=total;
templist.Free;
end;
``````

You do need another List.

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The runtime is quadratic, so unless your lists are small (<1000 elements) , it will be really slow. –  Niklas B. Oct 23 '12 at 9:01
Your update is no better. `IndexOf` is O(n) in time. –  David Heffernan Oct 23 '12 at 9:21
is it possible to check duplicates while adding new values to list? –  teran Oct 23 '12 at 10:07
just a thought: if you disable adding duplicates in the first place (same as `TStringList.Duplicates = dupIgnore`) you will not have such problem. –  kobik Oct 23 '12 at 10:07
why so ? it would still be quadratic, just moved to population stage –  Arioch 'The Oct 23 '12 at 10:09

As noted, the solution is O(N^2) which makes it really slow on a big set of items (1000s), but as long as the count stays low it's the best bet because of it's simplicity and easiness to implement. Where's pre-sorted and other solutions need more code and prone to implementation errors more.

This maybe the same code written in different, more compact form. It runs through all elements of the list, and for each removes duplicates on right of the current element. Removal is safe as long as it's done in a reverse loop.

``````function TListClass.RemoveDups: Integer;
var
I, K: Integer;
begin
Result := 0;
for I := 0 to Count - 1 do //Compare to everything on the right
for K := Count - 1 downto I+1 do //Reverse loop allows to Remove items safely
if Items[K] = Items[I] then
begin
Remove(Items[K]);
Inc(Result);
end;
end;
``````

I would suggest to leave optimizations to a later time, if you really end up with a 5000 items list. Also, as noted above, if you do check for duplicates on adding items to the list you can save on:

• Check for duplicates gets distributed in time, so it wont be as noticeable to user
• You can hope to quit early if dupe is found
-
N + (N-1) + (N-2) + ... + (N-N+1) = N^2 - (1+2+3+...N) = N^2 - N*(1+N)/2 = N^2/2 - N/2 = (1/2)*(N^2). Classic quadratic asymptote. –  Arioch 'The Oct 23 '12 at 10:58
Please stop providing quadratic functions to remove duplicates from a list. They're hidden predators. They compare each item to all other items in the list, so at 100 items, you're looking at 10.000 comparissons, at 1.000 items at a million and at 5.000 at 25 million comparissons, which is when your program will slow down to a crawl. –  Pieter B Oct 23 '12 at 11:33
@PieterB: We have a job to handle 100 items, and we need to solve it now, we can spend 5min and do O(N^2), or we can spend 2 hours and do O(N log N). Question is, do we really need to waste 2 hours on an each case with 10..100..500 items, to get a less maintainable and more buggy result? Probably not. What we do need though is rely on profiling results and optimize what matters and when it matters. –  Krom Stern Oct 23 '12 at 11:38
@Krom It's far easier and a lot safer to implement it in the right way the first time you do it, then in a years time when you have to hack around it, when your customer asks why his application is slowing down. Especially in such clear cut and well known cases. –  Pieter B Oct 23 '12 at 11:54
@PieterB: When you get a call from a customer, you profile the code and optimize that single isolated function `RemoveDups` in any fashion you like. Short lists are much more common than 1000s ones. Sadly OP does not mentions how many items he has in a list and if the performance is really a problem. –  Krom Stern Oct 23 '12 at 12:05

Just hypothetical:

Interfaces

If you have interfaced objects in an TInterfaceList that are only in that list, you could check the refcount of an object. Just loop through the list backwards and delete all objects with a refcount > 1.

Custom counter

If you can edit these objects, you could do the same without interfaces. Increment a counter on the object when they are added to the list and decrease it when they are removed.

Of course, this only works if you can actually add a counter to these objects, but the boundaries weren't exactly clear in your question, so I don't know if this is allowed.

Advantage is that you don't need to look for other items, not when inserting, not when removing duplicates. Finding a duplicate in a sorted list could be faster (as mentioned in the comments), but not having to search at all will beat even the fastest lookup.

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