# Ada How to Convert an Integer to Binary in Ada and put the result in an array

I would like to use an array to contain the binary result. if the input of i is 11, I expected the output could be binary of 11, which is 1011. and the binary array has an element []. In python, it works like

``````    int i;
temp = bin(i)
binary =[]
binary = binary + [temp[2:]]
``````

I used a vector for binary array in Ada in order to contain the result, which is converted to array. because I do not use Ada.Text_IO.Put so I don't know what else I should provide about my ada code.

``````package binary is new Ada.Containers.Vectors (Natural, Integer);
``````
• What code have you tried writing in Ada? Sep 10 at 15:04
• I re-edit my question is that what you are asking. I am sorry that I cannot express it correctly. Sep 10 at 15:14
• You will find help more forthcoming if you provide more information. Your Python example is incomplete. What is `i`? What is `templist`? Show us some input and then what the expected output is. Your Ada code shows very little effort, but SO can maybe help further if we know what you're trying to accomplish. Sep 10 at 15:20
• More context would also be welcome; for example, `Ada.Integer_Text_IO.Put` converts an `Integer` to a `String`—an `array of Character`—which might be a useful step. Sep 10 at 17:17

The Python `temp = bin(11)` produces the string result `’0b1011’` so what I guess you want (and it’s only a guess, because you say you want an array, but that’s not what the Python does) is the string `’1011’`.

This code, perhaps longer than it need be because I’ve not used `use`, does more-or-less the equivalent:

``````with Ada.Integer_Text_IO;
procedure Wang is
Temp : String (1 .. 35);
begin
Ada.Integer_Text_IO.Put (Temp, 11, Base => 2);
declare
Trimmed : constant String := Ada.Strings.Fixed.Trim
begin
Ada.Text_IO.Put_Line (Trimmed (Trimmed'First + 2  .. Trimmed'Last - 1));
end;
end Wang;
``````

I am not entirely sure what you mean by "I would like to use an array to contain the binary result except first two." -- I'm going to assume that you mean that you want the binary-representation of the integer, except the "first two bits", as an array of Boolean.

``````Type Bit_Vector is Array(Positive range <>) of Boolean
with Component_Size => 1;

-- For testing purposes.
Function Image( Input : Bit_Vector ) return String is
Function Internal(Object : Bit_Vector:= Input) return String is
(case Object'Length is
when 0 => "",
when 1 => (1 => (if Object(Object'First) then '1' else '0')),
when others =>
Internal((1=>Object(Object'First))) & -- ',' &
Internal(Object(Positive'Succ(Object'First)..Object'Last))
) with Inline;
Begin
Return '(' & Internal(Input) & ')';
End;

-- Convert an integer to a bit-vector.
Function To_Bits( Input : Integer ) return Bit_Vector is
-- We need a constrained subtype to instantiate
-- the Unchecked_Conversion generic; fortunately, we
-- can contain everything nested in the procedure.
Subtype Constrained_Bits is Bit_Vector(1..Integer'Size);
Source => Integer,
Target => Constrained_Bits
);
Begin
Return Convert(Input);
End To_Bits;

Type Direction is (Front, Back);

-- This filters out the indicated number of bits,
-- but from the indicated side.
Function Filter( Value  : Bit_Vector;
Amount : Positive;
Side   : Direction:= Front
) return Bit_Vector is
(if Side = Front  -- We can trim either side.
then Value(Value'First+Amount..Value'Last)
else Value(Value'First..Value'Last-Amount)
);

X : Constant Bit_Vector:= To_Bits( 16#0000_FFFF# );
Y : Bit_Vector renames Filter(X, 12);

Begin
• @wangkom -- Should be: `Put_Line( Image(Y) )`. Sep 10 at 18:27