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Is there any simple univesal way to add 2 arrays into one? In the case below it is not possible simply use C := A + B statement... I would like to avoid making algorhytm for it everytime .

TPerson = record
    Birthday: Tdate;
    Name, Surname:string;

Tpeople = array of TPerson;

var A, B, C:Tpeople;

C:=A+B; // it is not possible


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this has been addressed over here :… – Ram Kumar Aug 18 '11 at 5:41
@Rahul The quoted answer is not the same, since it was dedicated to an array of string, and in this case its an array of records. – Arnaud Bouchez Aug 18 '11 at 5:45
@Arnaud: it seems that answer uses the exact same technique I used in my deleted answer. <g> With that technique, it doesn't matter whether you are moving single strings or records with managed types, as the refcounts do not change or have to change. And it is probably just as thread-unsafe, unless you can make it "atomic". – Rudy Velthuis Aug 18 '11 at 12:02
@Rudy Why did you delete your answer? Yours was easier to read/understand that the one quoted in this SO question. There are always several ways of implementation, and if you know the weakness/strength of each one, it's always better to quote every of them, IMHO. – Arnaud Bouchez Aug 18 '11 at 12:07
@Arnaud: yes, indeed. On my way from home to my clinic (here), I already decided to undelete it. TList<T>.Insert also uses the same technique. – Rudy Velthuis Aug 18 '11 at 12:25
up vote 11 down vote accepted

Due to the two string fields in each TPerson record, you can't just use binary "move", since you'll mess the reference counting of string - especially in a multi-threaded environment.

You can do it manually - this is fast and nice:

TPerson = record
  Birthday: TDate;
  Name, Surname: string;

TPeople = array of TPerson;

var A, B, C: TPeople;

// do C:=A+B
procedure Sum(const A,B: TPeople; var C: TPeople);
var i, nA,nB: integer;
  nA := length(A);
  nB := length(B);
  for i := 0 to nA-1 do
    C[i] := A[i];
  for i := 0 to nB-1 do
    C[i+nA] := B[i];

Or you can use our TDynArray wrapper, which has a method for handling such cases:

procedure AddToArray(var A: TPeople; const B: TPeople);
var DA: TDynArray;
  DA.AddArray(B); // A := A+B

The AddArray method can add a sub-port of the original array:

/// add elements from a given dynamic array
// - the supplied source DynArray MUST be of the same exact type as the
// current used for this TDynArray
// - you can specify the start index and the number of items to take from
// the source dynamic array (leave as -1 to add till the end)
procedure AddArray(const DynArray; aStartIndex: integer=0; aCount: integer=-1);

Note that with such records, it will use the System._CopyRecord RTL function, which is not so optimized for speed. I've written a faster version - see this blog article or this forum thread.

If you use dynamic arrays in functions/procedures, don't forget to use explicitly const or var parameters (as I coded above), otherwise it will make a temporary copy at each call, therefore it may be slow.

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In case of dynarrays, no temporary copy will be made. Only the refcount will be incremented. Not that big a deal. – Rudy Velthuis Aug 18 '11 at 6:49
@Rudy You're right about the refcount, of course. It's just a general "good practice" pattern. – Arnaud Bouchez Aug 18 '11 at 11:29
@OK, I agree with "good practice". Note that I avoid using const for interfaces, but that is off-topic here. – Rudy Velthuis Aug 18 '11 at 11:56
FWIW, instead of using a loop to copy the first array, you could do: C := Copy(A); SetLength(C, nA + nB); do the second loop. Not sure if that is faster, but it looks faster. <g> – Rudy Velthuis Aug 18 '11 at 12:06
@Rudy It won't be faster IMHO. In fact, System._CopyRecord will be called for each record inside the System._CopyArray low-level RTL procedure. It's exactly what the "manual loop" does... And one single SetLength will avoid the memory reallocation (not a big deal - but worth mentioning). – Arnaud Bouchez Aug 18 '11 at 14:07

There is nothing built in that allows dynamic arrays to be concatenated.

You may consider using one of the generic container classes found in Generics.Collections, TList.

In your case you would have 3 instances of TList, say A, B and C. Then you could write


I think this is as close as you can get to what you want with what is delivered out of the box.

If you are prepared to do a bit of coding yourself then you could make use of operator overloading to use the exact syntax you requires. Declare a record containing an array of TPerson with private visibility. You then need to implement an Add operator, a Count property and a default Items[] property. This could be made generic too so you only need write it once.

TTurboArray = record<T>
  FItems: array of T;
  //property accessors here
   class operator Add(a, b: TTurboArray<T>): TTurboArray<T>;
   property Count: Integer read GetCount write SetCount;
   property Items[Index: Integer]: T read GetItem write SetItem; default;

This idea can be extended into a very powerful data structure as you see fit.

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One problem with TTurboArray<T> is that, while at first value, it looks like a value type, if you do myTurboArray := yourTurboArray;, no copy is made of the items in FItems, so if you modify the array in yourTurboArray, myTurboArray is modified too. In other words, no copy on demand. – Rudy Velthuis Aug 18 '11 at 7:50
@rudy in other words its semantics are identical to a dynamic array, hardly a problem. Having the ability to add methods makes it easy to add a function to create a copy. – David Heffernan Aug 18 '11 at 8:00
@rudy You have not demonstrated why the construct I suggest differs from dynamic arrays. Until you can do so your comments are unhelpful and misleading. We are now entering an infinite loop so I suggest we let the readers form their own opinions. – David Heffernan Aug 18 '11 at 9:27
@david Even if the generic-based solution is feature-like, and certainly the one to be preferred in modern Delphi coding, it's not using dynamic arrays... which was the point of the question, IMHO. So I guess Rudy, you and me are the only one able to chat in this SO page. ;) – Arnaud Bouchez Aug 18 '11 at 10:03
FWIW,I withdrew my solution and gave yours a +1. I still think that solution could be useful, but there should be a threadsafe blockswap to do it. That should beat a loop by lengths, if there are enough items to be moved. Could also be used to move items when items are removed from or inserted into a Tlist<T>-like construct. – Rudy Velthuis Aug 18 '11 at 11:38

There is a quick-and-dirty way to do this. It is a terrible hack, but it should work and even take care of reference counting:

function ConcatPeople(const A, B: TPeople): TPeople;
  Temp: TPeople;
  ALen, BLen: Integer;
  Result := Copy(A);
  BLen := Length(B);
  if BLen = 0 then
  ALen := Length(A);
  Temp := Copy(B);
  SetLength(Result, ALen + BLen);
  Move(Temp[0], Result[ALen], BLen * SizeOf(B[0]));
  FillChar(Temp[0], BLen * SizeOf(B[0]), 0);

In effect, the data in Temp are "swapped" with the empty records in Result, so the balance is maintained and refcounting will keep on working.


For what it is worth: This is aparently the same technique as used in this accepted SO answer and in, e.g. TList<T>.Insert. I had deleted this answer, but I still think it is valid, so I undeleted it again. It could do with a lock around the Move/FillChar block, so no one accesses the items when they are being "swapped". I'll add that.

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A simple for loop is better here – David Heffernan Aug 18 '11 at 8:48
I disagree. A simple for loop is much slower and not any safer. So why is it better? – Rudy Velthuis Aug 18 '11 at 9:15
IMHO this implementation won't be thread-safe, since reference-counting access of individual string won't be protected. You should avoid such tricks like hell. Either rely on a classic loop copy (slower, but safe), or, even better, change the algorithm to access the data in order to make it even faster. – Arnaud Bouchez Aug 18 '11 at 10:00
@Rudy _CopyRecord will copy each reference-counted field one by one, using _LStrAsg/ULStrAsg/_WStrAsg/_IntfCopy in a thread-safe way. Speed overhead won't be disastrous. About the lock protection, it would not be enough in case of individual string reference count AFAIK. – Arnaud Bouchez Aug 18 '11 at 11:33
@David I agree with you that the loop solution is the clearest and even if it's not fastest, it's fast enough. In fact, even our TDynArray wrapper using such a loop using RTTI. – Arnaud Bouchez Aug 18 '11 at 11:33

Here's how I handled it, though it required a slight (but hopefully immaterial to you) modification to your original code to use TArray:

(tested in XE2)


  TArrayExt = class(TArray)
    class function Concat<T>(const First, Second: array of T): TArray<T>; overload;

class function TArrayExt.Concat<T>(const First, Second: array of T): TArray<T>;
  i: Integer;
  l: Integer;
  l := Length(First);
  SetLength(Result, l + Length(Second));
  for i := Low(First) to High(First) do
    Result[i] := First[i];
  for i := Low(Second) to High(Second) do
    Result[l + i] := Second[i];

  TPerson = record
    Birthday: TDate;
    Name, Surname: String;

  TPeople = TArray<TPerson>;

  A, B, C: TPeople;
  C := TArrayExt.Concat<TPerson>(A, B);

The main difference here is that I use "TArray" rather than "array of TPerson". This can be used for arrays strings, records, etc. I find the main benefit of doing it this way is that it's truly making a copy rather than a move. And I am using the "normal" Delphi functions instead of things like bulk memory copies, which can give me the willies.

Of course, if you were doing this in a tight loop and needed the performance, this way might not be best for you. But I think this is the best for most other situations, especially in terms of maintenance and readability.

(Unless someone posts a comment about how there's some horrible hidden memory leak here. Hopefully not!)

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