# Having trouble initializing array in Ada

I'm in the early stages of learning Ada and using it to generate all distinct binary trees with n nodes. In doing so I've gotten stuck trying to initialize an array to store the tree instances that are returned back.

``````with Ada.Text_IO;

procedure Program is

function Factorial(N : in Positive) return Positive is
begin
if N > 1 then
Answer := N * Factorial(N - 1);
end if;
end Factorial;

--TreeNode Declaration
type Tree_Node;
type Tree_Ptr is access Tree_Node;

--TreeNode Definition
type Tree_Node is
record
Left : Tree_Ptr;
Right: Tree_Ptr;
end record;

type TreeList is array (Integer range <>) of Tree_Ptr;

function RecDistinctTree(Start : in Positive; Finish : in Positive; ArraySize : in Positive) return TreeList is
RetList : TreeList(0..ArraySize);
begin
if Start > Finish then
return RetList;
else
for I in Start..Finish loop
declare
LeftChild : TreeList;
RightChild : TreeList;
begin
LeftChild := RecDistinctTree(Start, I - 1);
RightChild := RecDistinctTree(I + 1, Finish);

for J in LeftChild'Range loop
declare
LeftNode : Tree_Ptr;
begin
LeftNode := LeftChild(J);
for K in RightChild'Range loop
declare
RightNode : Tree_Ptr;
NewNode : Tree_Node;
begin
NewNode.Left := LeftNode;
NewNode.Right := RightNode;

-- Make functions for adding to list
end;
end loop;
end;
end loop;
end;
end loop;
end if;
end;
ArraySize : Integer;
N : Integer;
begin
ArraySize :=  (Factorial(2*N) / (Factorial(N+1) * Factorial(N)));
declare
TreeArray : TreeList;
begin
for I in 0..(ArraySize-1) Loop
end Loop;
end;
end Program;
``````

The program is not complete, I'm just trying to understand how to initialize the 'RetList' in the RecDistinctTree function. Currently when it compiles, I get the errors:

program.adb:35:31: unconstrained subtype not allowed (need initialization)

program.adb:35:31: provide initial value or explicit array bounds

I've dug around looking for answers, but not much exists for Ada compared to more popular languages. Why does it not simply instantiate the array of ArraySize # of Tree_Ptr's? Perhaps I don't fully grasp subtypes.

• Why do you think the compiler should create an array of size ArraySize? rather than e.g. ArraySize - 1? or 42? – Simon Wright Sep 14 at 6:25
• In this case, the size of the array returned is the amount of possible binary search trees, given n nodes. I can anticipate this value with 2n! / ((n+1)! * n!) so that I never overallocate. – Clay Emmel Sep 14 at 12:35
• What is the point of type Tree_Node? It contains left and right pointers but does not contain any integer data? TreeList is an unconstrained array of Tree_Node. The Left and Right pointers of Tree_Node will contain the default value of Null, and cannot reference array elements in TreeList. Your implementation appears to be an unworkable mixture of an array implementation of a tree and a binary tree using pointers. – Jim Rogers Sep 14 at 14:18
• In my case, I'm not storing data. My task is to enumerate all possible binary trees with n-nodes. For this, I need no data. – Clay Emmel Sep 15 at 13:22

The type `TreeList` is indefinite as the index range has been left unconstrained in the type declaration:

``````type TreeList is array (Integer range <>) of Tree_Ptr;
``````

Therefore, when declaring a variable of type `TreeList`, you must either provide array bounds to constrain index range of the array (as you did for the first `RetList` declaration):

``````RetList : TreeList (0 .. ArraySize);   -- This is OK (note that the length of this array will be ArraySize + 1)
``````

Or initialize it (e.g. using a function) such that the compiler can infer the index range from the value being assigned. Maybe you could try something like:

``````declare
--  ??? Third argument is missing in example.
LeftChild  : TreeList := RecDistinctTree (Start, I - 1, ???);
RightChild : TreeList := RecDistinctTree (I + 1, Finish, ???);
begin
[...]
``````