# How to make all possible combinations of several strings

I have a previously unknown number of words, stored for convenience within a TStringList object.

``````var
input_list: TStringList;
begin
input_list := TStringList.Create;
...
end;
``````

I want to make new list containing all possible combinations of these words, from 1 word to N words. The separator is irrelevant:

``````N = 3
'Mark'
'Anna
'Mark Anna'
'Anna Mark'
'Mark John'
'John Mark'
'Mark Anna John'
'John Anna Mark'
'Anna John Mark'
...
``````

Please note that the above example contains combinations of 1 to N words from the above-mentioned list of words. Moreover, I consider the same words but in a different order to be different, so both 'mark anna' and 'anna mark' should be on the list.

Edit: Please also note that these combinations are without repetitions, i.e. 'mark anna' should be included in the list, but 'mark mark' should not be.

Is there a simple way, like procedure_permutate(list_of_strings)?

• There are many algorithms that allows getting desired results. I suggest you learn more about permutations and combinatorics algorithms. Oh and assign each word its onw unique Index since permutations and combinatorics algorithms operate with numbers. Commented Jul 23 at 12:14

You can use a recursive function, per example;

``````procedure TForm1.generarCombinaciones(const elementos: TStringList;
const combinacion: string; inicio: Integer);
var
i: Integer;
begin
if combinacion <> '' then
ShowMessage(combinacion);

for i := inicio to elementos.Count-1 do
GenerarCombinaciones(elementos, combinacion + elementos.Strings[i] + ' ', i + 1);
end;

procedure TForm1.Button2Click(Sender: TObject);
var
sl : TStringList;
begin
sl := TStringList.Create;

generarCombinaciones(sl,'',0);

sl.free;
end;
``````

If you want a maximum depth of 3 elements, you can add a new parameter to the function to check the maximum depth

does this code meet your requirements? Also some recursive approach.

``````program Project_delphi_stackoverflow;

{\$APPTYPE CONSOLE}
{\$R *.res}

uses
System.SysUtils, Types, Classes;

procedure GeneratePermutations(input_list: TStringList; output_list: TStringList; current_combination: TStringList; used: TBits);
var
i: Integer;
combination: string;
begin
if current_combination.Count > 0 then
begin
combination := Trim(current_combination.DelimitedText);
end;

for i := 0 to input_list.Count - 1 do
begin
if not used[i] then
begin
used[i] := True;
GeneratePermutations(input_list, output_list, current_combination, used);
current_combination.Delete(current_combination.Count - 1);
used[i] := False;
end;
end;
end;

procedure OutputCombinations(output_list: TStringList);
var
combination: string;
begin
WriteLn('----------------------------------------------------------');
WriteLn(Format('Number of combinations: %d', [output_list.Count]));
WriteLn('----------------------------------------------------------');
for combination in output_list do
WriteLn(combination);
WriteLn;
end;

var
input_list, output_list, current_combination: TStringList;
used: TBits;

begin
input_list := TStringList.Create;
output_list := TStringList.Create;
current_combination := TStringList.Create;
used := TBits.Create;
try
used.Size := input_list.Count;

GeneratePermutations(input_list, output_list, current_combination, used);
OutputCombinations(output_list);

output_list.Clear;
used.Size := input_list.Count;

GeneratePermutations(input_list, output_list, current_combination, used);
OutputCombinations(output_list);

output_list.Clear;
used.Size := input_list.Count;

GeneratePermutations(input_list, output_list, current_combination, used);
OutputCombinations(output_list);

input_list.Clear;
used.Size := input_list.Count;

GeneratePermutations(input_list, output_list, current_combination, used);
OutputCombinations(output_list);

finally
input_list.Free;
output_list.Free;
current_combination.Free;
used.Free;
end;