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Is there an efficient method of converting an integer into the written numbers, for example:

string Written = IntegerToWritten(21);

would return "Twenty One".

Is there any way of doing this that doesn't involve a massive look-up table?

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I'd expect 21 to return twenty-one, not twenty one. Hyphenation matters: three thousand four hundred and seventy-six. –  TRiG Feb 19 '10 at 18:13
    
Here's the approach I took: blackbeltcoder.com/Articles/strings/converting-numbers-to-words –  Jonathan Wood Dec 29 '10 at 6:28
    
Anyone doing something like this should realize that it will localize poorly. –  zneak May 26 at 20:20

8 Answers 8

up vote 44 down vote accepted

This should work reasonably well:

public static class HumanFriendlyInteger
{
static string[] ones = new string[] { "", "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine" };
static string[] teens = new string[] { "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen", "Sixteen", "Seventeen", "Eighteen", "Nineteen" };
static string[] tens = new string[] { "Twenty", "Thirty", "Forty", "Fifty", "Sixty", "Seventy", "Eighty", "Ninety" };
static string[] thousandsGroups = { "", " Thousand", " Million", " Billion" };

private static string FriendlyInteger(int n, string leftDigits, int thousands)
{
if (n == 0)
{
return leftDigits;
}
string friendlyInt = leftDigits;
if (friendlyInt.Length > 0)
{
friendlyInt += " ";
}

if (n < 10)
{
friendlyInt += ones[n];
}
else if (n < 20)
{
friendlyInt += teens[n - 10];
}
else if (n < 100)
{
friendlyInt += FriendlyInteger(n % 10, tens[n / 10 - 2], 0);
}
else if (n < 1000)
{
friendlyInt += FriendlyInteger(n % 100, (ones[n / 100] + " Hundred"), 0);
}
else
{
friendlyInt += FriendlyInteger(n % 1000, FriendlyInteger(n / 1000, "", thousands+1), 0);
}

return friendlyInt + thousandsGroups[thousands];
}

public static string IntegerToWritten(int n)
{
if (n == 0)
{
return "Zero";
}
else if (n < 0)
{
return "Negative " + IntegerToWritten(-n);
}

return FriendlyInteger(n, "", 0);
}

}

(Edited to make it considerably more concise.)

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10  
I want to see the internationalised version. –  John Nolan Jan 5 '09 at 13:08
2  
It's interesting to note how many tiny differences there are between the above (US English) and a UK English equivalent, let alone other languages... :-) –  Christian Hayter Aug 28 '09 at 12:17
    
I had to insert a return after each recursive call in order to get 1000000 One Million to work. This code produces One Million Thousand. –  AlexanderBrevig May 13 '14 at 8:22

Justin Rogers has a "NumbersToEnglish" class which should do the job for you nicely!

Initial posting.
http://weblogs.asp.net/justin_rogers/archive/2004/06/09/151675.aspx

Finalized Source Code
http://weblogs.asp.net/justin_rogers/articles/151757.aspx

It does have a bit of an internal lookup table but I don't really know how you are going to be able to get away from that.

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I use this code.It is VB code but you can easily translate it to C#. It works

Function NumberToText(ByVal n As Integer) As String

   Select Case n
Case 0
  Return ""

Case 1 To 19
  Dim arr() As String = {"One","Two","Three","Four","Five","Six","Seven", _
    "Eight","Nine","Ten","Eleven","Twelve","Thirteen","Fourteen", _
      "Fifteen","Sixteen","Seventeen","Eighteen","Nineteen"}
  Return arr(n-1) & " "

Case 20 to 99
  Dim arr() as String = {"Twenty","Thirty","Forty","Fifty","Sixty","Seventy","Eighty","Ninety"}
  Return arr(n\10 -2) & " " & NumberToText(n Mod 10)

Case 100 to 199
  Return "One Hundred " & NumberToText(n Mod 100)

Case 200 to 999
  Return NumberToText(n\100) & "Hundreds " & NumberToText(n mod 100)

Case 1000 to 1999
  Return "One Thousand " & NumberToText(n Mod 1000)

Case 2000 to 999999
  Return NumberToText(n\1000) & "Thousands " & NumberToText(n Mod 1000)

Case 1000000 to 1999999
  Return "One Million " & NumberToText(n Mod 1000000)

Case 1000000 to 999999999
  Return NumberToText(n\1000000) & "Millions " & NumberToText(n Mod 1000000)

Case 1000000000 to 1999999999
  Return "One Billion " & NumberTotext(n Mod 1000000000)

Case Else
  Return NumberToText(n\1000000000) & "Billion " _
    & NumberToText(n mod 1000000000)
End Select
End Function

Here is the code in c#

public static string AmountInWords(double amount)
{
        var n = (int)amount;

        if (n == 0)
            return "";
        else if (n > 0 && n <= 19)
        {
            var arr = new string[] { "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine", "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen", "Sixteen", "Seventeen", "Eighteen", "Nineteen" };
            return arr[n - 1] + " ";
        }
        else if (n >= 20 && n <= 99)
        {
            var arr = new string[] { "Twenty", "Thirty", "Forty", "Fifty", "Sixty", "Seventy", "Eighty", "Ninety" };
            return arr[n / 10 - 2] + " " + AmountInWords(n % 10);
        }
        else if (n >= 100 && n <= 199)
        {
            return "One Hundred " + AmountInWords(n % 100);
        }
        else if (n >= 200 && n <= 999)
        {
            return AmountInWords(n / 100) + "Hundred " + AmountInWords(n % 100);
        }
        else if (n >= 1000 && n <= 1999)
        {
            return "One Thousand " + AmountInWords(n % 1000);
        }
        else if (n >= 2000 && n <= 999999)
        {
            return AmountInWords(n / 1000) + "Thousand " + AmountInWords(n % 1000);
        }
        else if (n >= 1000000 && n <= 1999999)
        {
            return "One Million " + AmountInWords(n % 1000000);
        }
        else if (n >= 1000000 && n <= 999999999)
        {
            return AmountInWords(n / 1000000) + "Million " + AmountInWords(n % 1000000);
        }
        else if (n >= 1000000000 && n <= 1999999999)
        {
            return "One Billion " + AmountInWords(n % 1000000000);
        }
        else
        {
            return AmountInWords(n / 1000000000) + "Billion " + AmountInWords(n % 1000000000);
        }
    }
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why massive lookup table?

string GetWrittenInteger(int n)
{
  string[] a = new string[] {"One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine" }
  string[] b = new string[] { "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen", "Sixteen", "Seventeen", "Eighteen", "Nineteen" }
  string[] c = new string[] {"Twenty", "Thirty", "Forty", "Sixty", "Seventy", "Eighty", "Ninety"};
  string[] d = new string[] {"Hundred", "Thousand", "Million"}

  string s = n.ToString();
  for (int i = 0; i < s.Length; i++)
  {
    // logic (too lazy but you get the idea)
  }
}
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using System;
using System.Collections.Generic; 
using System.Linq; 
using System.Text; 
namespace tryingstartfror4digits 
{ 
class Program 
{ 
    static void Main(string[] args)
    {
        Program pg=new Program();
        Console.WriteLine("Enter ur number");
        int num = Convert.ToInt32(Console.ReadLine());
        if (num <= 19)
        {
            string g = pg.first(num);
            Console.WriteLine("The number is " + g);
        }
        else if ((num >= 20) && (num <= 99))
        {
                if (num % 10 == 0)
                {
                    string g = pg.second(num / 10);
                    Console.WriteLine("The number is " + g);
                }
                else
                {
                    string g = pg.second(num / 10) + pg.first(num % 10);
                    Console.WriteLine("The number is " + g);
                }
          }
        else if((num>=100) && (num<=999))
        {
            int k = num % 100;
            string g = pg.first(num / 100) +pg.third(0) + pg.second(k / 10)+pg.first(k%10);
            Console.WriteLine("The number is " + g);
          }
        else if ((num >= 1000) && (num <= 19999))
        {
            int h=num%1000;
           int k=h%100;
            string g = pg.first(num / 1000) + "Thousand " + pg.first(h/ 100) + pg.third(k) + pg.second(k / 10) + pg.first(k % 10);
            Console.WriteLine("The number is " + g);
        }
        Console.ReadLine();
    }
     public string first(int num)
    {
        string name;
        if (num == 0)
        {
            name = " ";
        }
        else
        {
            string[] arr1 = new string[] { "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine" , "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen", "Sixteen", "Seventeen", "Eighteen", "Nineteen"};
            name = arr1[num - 1];
        }
        return name;
    }
    public string second(int num)
    {
        string name;
        if ((num == 0)||(num==1))
        {
         name = " ";
        }
        else
        {
            string[] arr1 = new string[] { "Twenty", "Thirty", "Forty", "Fifty", "Sixty", "Seventy", "Eighty", "Ninety" };
            name = arr1[num - 2];
        }
        return name;
    }
    public string third(int num)
    {
        string name ;
        if (num == 0)
        {
            name = "";
        }
        else
        {
            string[] arr1 = new string[] { "Hundred" };
            name = arr1[0];
        }
        return name;
    }

}
}

this works fine from 1 to 19999 will update soon after i complete it

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hope it works for evry one ...... –  Karthik Dec 4 '11 at 18:19

Here is a C# Console Application that will return whole numbers as well as decimals.

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Just for Turkish representation of the class HumanFriendlyInteger (↑) (Türkçe, sayı yazı karşılığı):

public static class HumanFriendlyInteger
{
    static string[] ones = new string[] { "", "Bir", "İki", "Üç", "Dört", "Beş", "Altı", "Yedi", "Sekiz", "Dokuz" };
    static string[] teens = new string[] { "On", "On Bir", "On İki", "On Üç", "On Dört", "On Beş", "On Altı", "On Yedi", "On Sekiz", "On Dokuz" };
    static string[] tens = new string[] { "Yirmi", "Otuz", "Kırk", "Elli", "Altmış", "Yetmiş", "Seksen", "Doksan" };
    static string[] thousandsGroups = { "", " Bin", " Milyon", " Milyar" };

    private static string FriendlyInteger(int n, string leftDigits, int thousands)
    {
        if (n == 0)
        {
            return leftDigits;
        }

        string friendlyInt = leftDigits;

        if (friendlyInt.Length > 0)
        {
            friendlyInt += " ";
        }

        if (n < 10)
            friendlyInt += ones[n];
        else if (n < 20)
            friendlyInt += teens[n - 10];
        else if (n < 100)
            friendlyInt += FriendlyInteger(n % 10, tens[n / 10 - 2], 0);
        else if (n < 1000)
            friendlyInt += FriendlyInteger(n % 100, ((n / 100 == 1 ? "" : ones[n / 100] + " ") + "Yüz"), 0); // Yüz 1 ile başlangıçta "Bir" kelimesini Türkçe'de almaz.
        else
            friendlyInt += FriendlyInteger(n % 1000, FriendlyInteger(n / 1000, "", thousands + 1), 0);

        return friendlyInt + thousandsGroups[thousands];
    }

    public static string IntegerToWritten(int n)
    {
        if (n == 0)
            return "Sıfır";
        else if (n < 0)
            return "Eksi " + IntegerToWritten(-n);

        return FriendlyInteger(n, "", 0);
    }
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The accepted answer doesn't seem to work perfectly. It doesn't handle dashes in numbers like twenty-one, it doesn't put the word "and" in for numbers like "one hundred and one", and, well, it is recursive.

Here is my shot at the answer. It adds the "and" word intelligently, and hyphenates numbers appropriately. Let me know if any modifications are needed.

Here is how to call it (obviously you will want to put this in a class somewhere):

        for (int i = int.MinValue+1; i < int.MaxValue; i++)
        {
            Console.WriteLine(ToWords(i));
        }

Here is the code:

    private static readonly string[] Ones = {"", "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine"};

    private static readonly string[] Teens =
    {
        "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen", "Sixteen",
        "Seventeen", "Eighteen", "Nineteen"
    };

    private static readonly string[] Tens =
    {
        "", "", "Twenty", "Thirty", "Forty", "Fifty", "Sixty", "Seventy", "Eighty",
        "Ninety"
    };

    public static string ToWords(int number)
    {

        if (number == 0) return "Zero";
        var wordsList = new List<string>();
        if (number < 0)
        {
            wordsList.Add("Negative");
            number = Math.Abs(number);
        }

        if (number >= 1000000000 && number <= int.MaxValue) //billions
        {
            int billionsValue = number / 1000000000;
            GetValuesUnder1000(billionsValue, wordsList);
            wordsList.Add("Billion");
            number -= billionsValue * 1000000000;
            if (number > 0 && number < 10) wordsList.Add("and");
        }

        if (number >= 1000000 && number < 1000000000) //millions
        {
            int millionsValue = number / 1000000;
            GetValuesUnder1000(millionsValue, wordsList);
            wordsList.Add("Million");
            number -= millionsValue * 1000000;
            if (number > 0 && number < 10) wordsList.Add("and");
        }

        if (number >= 1000 && number < 1000000) //thousands
        {
            int thousandsValue = number/1000;
            GetValuesUnder1000(thousandsValue, wordsList);
            wordsList.Add("Thousand");
            number -= thousandsValue * 1000;
            if (number > 0 && number < 10) wordsList.Add("and");

        }

        GetValuesUnder1000(number, wordsList);

        return string.Join(" ", wordsList);
    }

    private static void GetValuesUnder1000(int number, List<string> wordsList)
    {
        while (number != 0)
        {
            if (number < 10)
            {
                wordsList.Add(Ones[number]);
                number -= number;
            }
            else if (number < 20)
            {
                wordsList.Add(Teens[number - 10]);
                number -= number;
            }
            else if (number < 100)
            {
                int tensValue = ((int) (number/10))*10;
                int onesValue = number - tensValue;
                if (onesValue == 0)
                {
                    wordsList.Add(Tens[tensValue/10]);
                }
                else
                {
                    wordsList.Add(Tens[tensValue/10] + "-" + Ones[onesValue]);
                }
                number -= tensValue;
                number -= onesValue;
            }
            else if (number < 1000)
            {
                int hundredsValue = ((int) (number/100))*100;
                wordsList.Add(Ones[hundredsValue/100]);
                wordsList.Add("Hundred");
                number -= hundredsValue;
                if (number > 0) wordsList.Add("and");
            }
        }
    }
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