# How can I convert an integer into its verbal representation?

Is there a library or a class/function that I can use to convert an integer to it's verbal representation?

Example input: `4,567,788`

Example output: `Four million, Five hundred sixty-seven thousand, seven hundred eighty-eight`

For reference, I am using C# and .NET 3.5.

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if you use the code found in: converting numbers in to words C# and you need it for decimal numbers, here is how to do it:

``````    public string DecimalToWords(decimal number)
{
if (number == 0)
return "zero";

if (number < 0)
return "minus " + DecimalToWords(Math.Abs(number));

string words = "";

int intPortion = (int)number;
decimal fraction = (number - intPortion)*100;
int decPortion = (int)fraction;

words = NumericToWords(intPortion);
if (decPortion > 0)
{
words += " and ";
words += NumericToWords(decPortion);
}
return words;
}
``````
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I wrote a C++ console program that converts numbers to their verbal representations. Here's the link to my Github repo.

NumbersToWords.cpp

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http://www.exchangecore.com/blog/convert-number-words-c-sharp-console-application/ has some C# script that looks to handle from the millions (10^7) place down to the decimal of ten-millionths (10^-7).

Edit: Updated link to go to the new blog address this was posted to. The program actually handles much larger than millions. It handles up to Vigintillion's as well as decimal points and negative numbers.

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Fully recursive version:

``````private static string[] ones = {
"zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine",
"ten", "eleven", "twelve", "thirteen", "fourteen", "fifteen", "sixteen", "seventeen", "eighteen", "nineteen",
};

private static string[] tens = { "zero", "ten", "twenty", "thirty", "forty", "fifty", "sixty", "seventy", "eighty", "ninety" };

private static string[] thous = { "hundred", "thousand", "million", "billion", "trillion", "quadrillion" };

public static string ToWords(decimal number)
{
if (number < 0)
return "negative " + ToWords(Math.Abs(number));

int intPortion = (int)number;
int decPortion = (int)((number - intPortion) * (decimal) 100);

return string.Format("{0} dollars and {1} cents", ToWords(intPortion), ToWords(decPortion));
}

private static string ToWords(int number, string appendScale = "")
{
string numString = "";
if (number < 100)
{
if (number < 20)
numString = ones[number];
else
{
numString = tens[number / 10];
if ((number % 10) > 0)
numString += "-" + ones[number % 10];
}
}
else
{
int pow = 0;
string powStr = "";

if (number < 1000) // number is between 100 and 1000
{
pow = 100;
powStr = thous[0];
}
else // find the scale of the number
{
int log = (int)Math.Log(number, 1000);
pow = (int)Math.Pow(1000, log);
powStr = thous[log];
}

numString = string.Format("{0} {1}", ToWords(number / pow, powStr), ToWords(number % pow)).Trim();
}

return string.Format("{0} {1}", numString, appendScale).Trim();
}
``````

Current works up to the (short scale) quadrillions. Additional support (for larger numbers, or for the long scale) can be added simply by changing the `thous` variable.

Perhaps, needlessly complex (the special case for hundreds bugs me a little), given that modifying the non-recursive version is also fairly simple.

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``````namespace ConsoleApplication3
{

class Program
{

static void Main(string[] args)
{

ConvertMyword(int.Parse(s));

}

static void ConvertMyword(int number)
{
int flag = 0;
int lflag = 0;
string words = String.Empty;
string[] places = { "ones", "ten", "hundred", "thousand", "ten thousand", "lacs","tenlacs","crore","tencrore" };
string rawnumber = number.ToString();
char[] a = rawnumber.ToCharArray();
Array.Reverse(a);
for (int i = a.Length - 1; i >= 0; i--)
{
if (i % 2 == 0 && i > 2)
{
if (int.Parse(a[i].ToString()) > 1)
{
if (int.Parse(a[i - 1].ToString()) == 0)
{
words = words + getNumberStringty(int.Parse(a[i].ToString())) + " " + places[i - 1] + " ";
}
else
{
words = words + getNumberStringty(int.Parse(a[i].ToString())) + " ";
}
}
else if (int.Parse(a[i].ToString()) == 1)
{
if (int.Parse(a[i - 1].ToString())== 0)
{
words = words +"Ten" + " ";
}
else
{
words = words + getNumberStringteen(int.Parse(a[i - 1].ToString())) + " ";
}
flag = 1;
}
}
else
{
if (i == 1 || i == 0)
{
if (int.Parse(a[i].ToString()) > 1)
{
words = words + getNumberStringty(int.Parse(a[i].ToString())) + " " + getNumberString(int.Parse(a[0].ToString())) + " ";
break;
}
else if (int.Parse(a[i].ToString()) == 1)
{
if (int.Parse(a[i - 1].ToString()) == 0)
{
words = words + "Ten" + " ";
}
else
{
words = words + getNumberStringteen(int.Parse(a[i - 1].ToString())) + " ";
}

break;
}
else if (int.Parse(a[i - 1].ToString()) != 0)
{
words = words + getNumberString(int.Parse(a[i - 1].ToString())) + " ";
break;
}
else
{
break;
}
}
else
{
if (flag == 0)
{
for(int l=i;l>=0;l--)
{
if (int.Parse(a[l].ToString())!=0)
{
lflag = 1;
}
}
if (lflag == 1 && int.Parse(a[i].ToString())!=0)
{

words = words + getNumberString(int.Parse(a[i].ToString())) + " " + places[i] + " ";
lflag = 0;

}
else if(lflag == 0)
{
// words = words + getNumberString(int.Parse(a[i].ToString())) + " " + places[i] + " ";
lflag = 0;
break;
}

}
else
{
words = words + " " + places[i] + " ";
flag = 0;
}

}
}
}
Console.WriteLine(words);
}
static string getNumberString(int num)
{
string Word = String.Empty;
switch (num)
{
case 1:
Word = "one";
break;
case 2:
Word = "two";
break;

case 3:
Word = "three";
break;

case 4:
Word = "four";
break;

case 5:
Word = "five";
break;

case 6:
Word = "six";
break;
case 7:
Word = "seven";
break;

case 8:
Word = "eight";
break;

case 9:
Word = "nine";
break;

}
return Word;
}
static string getNumberStringty(int num)
{
string Word = String.Empty;
switch (num)
{

case 2:
Word = "twenty";
break;

case 3:
Word = "thirty";
break;

case 4:
Word = "fourty";
break;

case 5:
Word = "fifty";
break;

case 6:
Word = "sixty";
break;
case 7:
Word = "seventy";
break;

case 8:
Word = "eighty";
break;

case 9:
Word = "ninty";
break;

}
return Word;
}
static string getNumberStringteen(int num)
{
string Word = String.Empty;
switch (num)
{
case 1:
Word = "eleven";
break;
case 2:
Word = "tewlve";
break;

case 3:
Word = "thirteen";
break;

case 4:
Word = "fourteen";
break;

case 5:
Word = "fifteen";
break;

case 6:
Word = "sixteen";
break;
case 7:
Word = "seventeen";
break;

case 8:
Word = "eighteen";
break;

case 9:
Word = "ninteen";
break;

}
return Word;
}
}

}
``````
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``````Imports System.Text

Public Class NumberWriter

Public Shared Function Parse(ByVal Number As String) As String
If Not AreNumbers(Number) Then Return ""
Dim TempQueue As New Queue(Of String)
For Each ItemA As Char In Number.Replace(",", "").Reverse
TempQueue.Enqueue(ItemA)
Next
Dim Blocks As New List(Of String)
Dim BlockEmpty As New List(Of Boolean)
Do
Dim TempBlock As New StringBuilder(3)
TempBlock.Append(TempQueue.Dequeue)
If TempQueue.Count > 0 Then
TempBlock.Append(TempQueue.Dequeue)
If TempQueue.Count > 0 Then
TempBlock.Append(TempQueue.Dequeue)
End If
End If
If TempQueue.Count < 1 Then Exit Do
Loop
Dim ResultStack As New Stack(Of String)
For int1 As Integer = 0 To Blocks.Count - 1
ResultStack.Push(ReadBlock(Blocks(int1)) & If(Not int1 = 0, If(Not BlockEmpty(int1), " " & CapitalizeWord(GetPlaceValueSet(int1)) & If(BlockEmpty(int1 - 1), "", ", "), ""), ""))
Next
Dim Result1 As String = ""
Do Until ResultStack.Count < 1
Result1 &= ResultStack.Pop
Loop
Return RemoveGrammarErrors(Result1)
End Function

Private Shared Function RemoveGrammarErrors(ByVal Str As String) As String
Dim tstr As String = Str
tstr.Replace("  ", " ")
tstr.Replace(" , ", ", ")
Return tstr
End Function

Private Shared Function AreNumbers(ByVal Str1 As String) As Boolean
Dim Numbers() As String = {"0", "1", "2", "3", "4", "5", "6", "7", "8", "9", ","}
For Each ItemA As Char In Str1
Dim IsN As Boolean = False
For Each ItemB As String In Numbers
If ItemA = ItemB Then IsN = True
Next
If Not IsN Then
Return False
End If
Next
Return True
End Function

Private Shared Function ReadBlock(ByVal Block As String)
Select Case Block.Length
Case 1
Case 2
Case 3
Case Else
Throw New Exception
End Select
End Function

Private Shared Function ReadThreeDigits(ByVal Digits As String)
If Digits.Length > 3 Then Throw New ArgumentException("There are too many digits.")
Dim Result As String = ""
If Not Digits(0) = "0" Then
Result &= ReadSingleDigit(Digits(0)) & " Hundred "
End If
Return Result
End Function

Private Shared Function ReadTwoDigits(ByVal Digits As String)
If Digits.Length > 2 Then Throw New ArgumentException("There are too many digits.")
Select Case Digits(0)
Case "0"
Case "1"
Case Else
End Select
End Function

Private Shared Function ReadSingleDigit(ByVal Digit As String) As String
If Not Digit.Length = 1 Then Throw New ArgumentException("There must be only one digit and it must be more than zero.")
Select Case Digit
Case "0"
Return ""
Case "1"
Return "One"
Case "2"
Return "Two"
Case "3"
Return "Three"
Case "4"
Return "Four"
Case "5"
Return "Five"
Case "6"
Return "Six"
Case "7"
Return "Seven"
Case "8"
Return "Eight"
Case "9"
Return "Nine"
Case Else
Throw New Exception()
End Select
End Function

Private Shared Function ReadTeenNumber(ByVal Num As String) As String
Select Case Num
Case "11"
Return "Eleven"
Case "12"
Return "Twelve"
Case "13"
Return "Thirteen"
Case "14"
Return "Fourteen"
Case "15"
Return "Fifteen"
Case "16"
Return "Sixteen"
Case "17"
Return "Seventeen"
Case "18"
Return "Eighteen"
Case "19"
Return "Nineteen"
Case Else
Throw New Exception()
End Select
End Function

Private Shared Function ReadFirstInNumberPair(ByVal Num As String) As String
If Not (Num > 1 OrElse Num < 10) Then Throw New ArgumentException("Number must be more than 1 and less than 10")
Select Case Num
Case "2"
Return "Twenty"
Case "3"
Return "Thirty"
Case "4"
Return "Fourty"
Case "5"
Return "Fifty"
Case "6"
Return "Sixty"
Case "7"
Return "Seventy"
Case "8"
Return "Eighty"
Case "9"
Return "Ninety"
Case Else
Throw New Exception()
End Select
End Function

Private Shared Function CapitalizeWord(ByVal Word As String) As String
Return Word.Substring(0, 1).ToUpper & Word.Substring(1)
End Function

Private Shared Function GetPlaceValueSet(ByVal Num As Byte) As String
Select Case Num
Case 0
Return "" 'Hundreds
Case 1
Return "Thousand"
Case 2
Return "Million"
Case 3
Return "Billion"
Case 4
Return "Trillion"
Case 5
Case 6
Return "Quintillion"
Case 7
Return "Sextillion"
Case 8
Return "Septillion"
Case 9
Return "Octillion"
Case 10
Return "Nonillion"
Case 11
Return "octillion"
Case 12
Return "nonillion"
Case 13
Return "decillion"
Case 14
Return "undecillion"
Case 15
Return "dodecillion,"
Case 16
Return "tredecillion"
Case 17
Return "quattuordecillion"
Case 18
Return "quindecillion"
Case 19
Return "sexdecillion"
Case 20
Return "septendecillion"
Case 21
Return "octodecillion"
Case 22
Return "novemdecillion"
Case 23
Return "vigintillion"
Case 24
Return "unvigintillion"
Case 25
Return "dovigintillion"
Case 26
Return "trevigintillion"
Case 27
Return "quattuorvigintillion"
Case 28
Return "quinvigintillion"
Case 29
Return "sexvigintillion"
Case 30
Return "septenvigintillion"
Case 31
Return "octovigintillion"
Case 32
Return "novemvigintillion"
Case 33
Return "trigintillion"
Case 34
Return "untrigintillion"
Case 35
Return "dotrigintillion"
Case 36
Return "tretrigintillion"
Case 37
Return "quattuortrigintillion"
Case 38
Return "quintrigintillion"
Case 39
Return "sextrigintillion"
Case 40
Return "septentrigintillion"
Case 41
Return "octotrigintillion"
Case Else
Throw New Exception
End Select
End Function
End Class
``````

Sorry it's in VB.NET, but it works completely. It is one way. Number to Verbal. Handles numbers up to 123 characters long I believe.

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