# Converting 20-digit decimal value to Hexadecimal using delphi code

I am trying to convert 20 digit decimal value to hexadecimal using Delphi code. Although I find the code below in C#.

``````BigInteger bi = new BigInteger("12345678901234567890");
string s = bi.ToHexString();
``````

Can anyone help with equivalent delphi code to achieve this objective?

Please note that using kstools code, I was able to convert 17 digit hexadecimal value to 20 digit decimal but I cannot reverse it to get back the hexadecimal value.

The kstool code is as follows:

``````var
I: TksInteger;
....
I.FromString('\$ABDCF123456789FE');
Result = I.AsString;
``````
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How is the big integer stored? In a string? –  Ladislav Jun 23 '11 at 19:36
You could try the BigCardinal class in DeHL –  David Heffernan Jun 23 '11 at 19:56

Here's a Delphi translation of a C# answer to an identical question:

``````program DecToHex;

{\$APPTYPE CONSOLE}

uses
SysUtils, Generics.Collections;

function DecimalToHex(const Dec: string): string;
var
bytes: Generics.Collections.TList<Byte>;
i, digit, val: Integer;
b: Byte;
c: Char;
begin
bytes := Generics.Collections.TList<Byte>.Create;
try
for c in Dec do
begin
Assert(CharInSet(c, ['0'..'9']));
val := ord(c)-ord('0');
for i := 0 to bytes.Count-1 do
begin
digit := bytes[i]*10 + val;
bytes[i] := digit and \$0F;
val := digit shr 4;
end;
if (val<>0) then
end;

Result := '';
for b in bytes do
Result := '0123456789ABCDEF'[b+1] + Result;
finally
bytes.Free;
end;
end;

const
test = '56493153725735501823';

begin
WriteLn(test + ' = \$' + DecimalToHex(test));
end.
``````

Output:

``````56493153725735501823 = \$30FFFFFFFFFFFFFFF
``````
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+1 for `'0123456789ABCDEF'[b+1]` –  Cosmin Prund Jun 24 '11 at 6:37
@cosmin I hope you've given a plus one to the original author too! In delphi the b+1 is mildly irritating. I wish strings were 0 based like everything else. –  David Heffernan Jun 24 '11 at 6:47
I did, it's a beautiful solution, because intuition calls for a solution based on division, yet multiplication solves this in a simpler and faster way. –  Cosmin Prund Jun 24 '11 at 8:14

What's the problem exactly?

Using the example that you've given, it just works here.

Proof

This code converts 12345678901234567890 to a string, and then back to a number.

``````program Project122; {\$APPTYPE CONSOLE}

uses SysUtils;

const SomeBigNumber=12345678901234567890;
var S:String; SomeBigNumber2:UInt64;

begin
WriteLn(SomeBigNumber);
S := '\$'+IntToHex(SomeBigNumber, 40);
Writeln('As Hex: ',S);
Writeln;
Writeln('Now let''s convert it back...');
SomeBigNumber2 := StrToInt64(S);
Writeln(SomeBigNumber2);
end.
``````

output:

``````12345678901234567890 As Hex:

Now let's convert it back...
12345678901234567890
``````

If you want to convert any 20-digit number, this won't work, because the largest ones don't fit in a UINT64.

``````18446744073709551615 is the largest number that you can fit in a UIN64.
12345678901234567890
``````
-
Thanks. Am converting value higher than 18446744073709551615. For example, I want to convert (56493153725735501823) to Hexadecimal (\$30FFFFFFFFFFFFFFF). This value is above UInt64. –  Okeola Mudashiru Jun 23 '11 at 18:00

The same as David Heffernan translation but optimized and compatible with older Delphi versions...

``````function DecimalToHex(const Dec: AnsiString): AnsiString;
var
ResultArray: array of byte;
n, i: Integer;
val, digit: Byte;
c: AnsiChar;
begin
SetLength(ResultArray, Trunc(Length(Dec) * Ln(10) / Ln(16)) + 1);
n := 0;
for c in Dec do
begin
Assert(CharInSet(c, ['0'..'9']));
val := ord(c) - ord('0');
for i := 0 to n  do
begin
digit := ResultArray[i] * 10 + val;
ResultArray[i] := digit and \$0F;
val := digit shr 4;
end;
if val <> 0 then
begin
inc(n);
ResultArray[n] := val;
end;
end;
Result := '';
for digit in ResultArray  do
Result := AnsiString('0123456789ABCDEF')[digit + 1] + Result;
end;
``````
-

The following Delphi function converts a decimal number and returns a right-justified hexadecimal number. It is not elegant, but it works.

``````//Uses STRUTILS Delphi module
function IHEX(x:Double): string; //Returns hex number as right-justified string
var i,k,a,mx:Integer;
y,Z,a1:currency;
s:string;
hxs: array[0..15] of string;
const hx='0123456789ABCDEF';
begin

Y:=abs(X);    //Make sure target decimal is not a negative number
mx:=0;    //Count number of hex digits derived from conversion

repeat
z:= y / 16;   // Divide the decimal number by base 16
a:=Trunc(z);  // Get integer part of dividend
if z>=16 then  begin  //If integer dividend greater than 16
a1:=16 * Frac(z);//Get the dividend carry-over
k:=Trunc(a1);    // Base 16 left-to-right placement digit
If k<=9 then hxs[mx]:=IntToStr(k) //if hex digit greater than 9,
else
hxs[mx]:=hx[k+1];        //get hex alpha digit
mx:=mx+1;           //increment hex digit placement
y:=a;               //Replace decimal with current dividend result
end;
if z<16 then begin          //When dividend less than 16,
a1:=16 * Frac(z);        //get dividend carry-over
k:=Trunc(a1);           //Base 16 left-to-right placement digit
If k<=9 then hxs[mx]:=IntToStr(k) //If hex digit greater than 9,
else
hxs[mx]:=hx[k+1];        //get hex alpha digit
mx:=mx+1;            //increment hex digit placement
y:=a;                //Replace decimal with current dividend result
end;
until y<16;             //When loop ends, last hex digit derived from division

If a<=9 then hxs[mx]:=IntToStr(a)  //If last hex digit greater than 9,
else
hxs[mx]:=hx[a+1];       //get hex alpha digit
//Pull HEX digits from placement array in reverse order to create HEX number
s:='';
i:=mx;
repeat
s:=s + hxs[i];
i:=i-1;
until i<0;
s:=s+'H';
//Format HEX number as seven characters RIGHT-JUSTIFIED
repeat
k:=Length(s);
if k<7 then s:='0'+s;
until Length(s)>=7;
Result:=s;
end;
``````
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