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I have managed to get my code to convert most Roman numerals to its appropriate decimal value, but it doesn't work for some exceptional cases. Example : XCIX = 99 but my code prints 109.

Here is my code.

public static int romanConvert(String roman)
{
    int decimal = 0;

    String romanNumeral = roman.toUpperCase();
    for(int x = 0;x<romanNumeral.length();x++)
    {
        char convertToDecimal = roman.charAt(x);

        switch (convertToDecimal)
        {
        case 'M':
            decimal += 1000;
            break;

        case 'D':
            decimal += 500;
            break;

        case 'C':
            decimal += 100;
            break;

        case 'L':
            decimal += 50;
            break;

        case 'X':
            decimal += 10;
            break;

        case 'V':
            decimal += 5;
            break;

        case 'I':
            decimal += 1;
            break;
        }
    }
    if (romanNumeral.contains("IV"))
    {
        decimal-=2;
    }
    if (romanNumeral.contains("IX"))
    {
        decimal-=2;
    }
    if (romanNumeral.contains("XL"))
    {
        decimal-=10;
    }
    if (romanNumeral.contains("XC"))
    {
        decimal-=10;
    }
    if (romanNumeral.contains("CD"))
    {
        decimal-=100;
    }
    if (romanNumeral.contains("CM"))
    {
        decimal-=100;
    }
    return decimal;
}
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3  
This is a classic homework question. If this is indeed homework, please tag your question as such. –  BalusC Jan 31 '12 at 1:10
    
Yup, that's your code. What's your question? –  nachito Jan 31 '12 at 1:10
1  
@nachito: I'd bet that he wonders why for example XCIX returns 109 instead of 99. –  BalusC Jan 31 '12 at 1:11
    
I know why because it has both 'IX' and 'XC' in it... but I'm not sure how to fix this.. –  extremez Jan 31 '12 at 1:13
1  
Homework tag has been deprecated –  RNJ Nov 10 '12 at 19:33
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13 Answers 13

up vote 22 down vote accepted

It will be good if you traverse in reverse.

public class RomanToDecimal {
public static void romanToDecimal(java.lang.String romanNumber) {
    int decimal = 0;
    int lastNumber = 0;
    String romanNumeral = romanNumber.toUpperCase();
         /* operation to be performed on upper cases even if user enters roman values in lower case chars */
    for (int x = romanNumeral.length() - 1; x >= 0 ; x--) {
        char convertToDecimal = romanNumeral.charAt(x);

        switch (convertToDecimal) {
            case 'M':
                decimal = processDecimal(1000, lastNumber, decimal);
                lastNumber = 1000;
                break;

            case 'D':
                decimal = processDecimal(500, lastNumber, decimal);
                lastNumber = 500;
                break;

            case 'C':
                decimal = processDecimal(100, lastNumber, decimal);
                lastNumber = 100;
                break;

            case 'L':
                decimal = processDecimal(50, lastNumber, decimal);
                lastNumber = 50;
                break;

            case 'X':
                decimal = processDecimal(10, lastNumber, decimal);
                lastNumber = 10;
                break;

            case 'V':
                decimal = processDecimal(5, lastNumber, decimal);
                lastNumber = 5;
                break;

            case 'I':
                decimal = processDecimal(1, lastNumber, decimal);
                lastNumber = 1;
                break;
        }
    }
    System.out.println(decimal);
}

public static int processDecimal(int decimal, int lastNumber, int lastDecimal) {
    if (lastNumber > decimal) {
        return lastDecimal - decimal;
    } else {
        return lastDecimal + decimal;
    }
}

public static void main(java.lang.String args[]) {
    romanToDecimal("XIV");
}
 }
share|improve this answer
    
thank you , that worked like magic :D –  extremez Jan 31 '12 at 1:41
10  
@DanielFarmer - note that it is not actually magic, and if homework, you should learn why it works –  prelic Jan 31 '12 at 1:43
3  
IIX would work on this code. And it's an invalid number. –  David Anderson May 9 '13 at 2:30
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Following your logic of reducing 2 on IX you should reduce 20 on XC 200 on CM and so on.

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That does not get the desired result. –  Ravindra Gullapalli Jan 31 '12 at 1:33
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Try this - It is simple and compact and works quite smoothly:

    public static int ToArabic(string number) {
        if (number == string.Empty) return 0;
        if (number.StartsWith("M")) return 1000 + ToArabic(number.Remove(0, 1));
        if (number.StartsWith("CM")) return 900 + ToArabic(number.Remove(0, 2));
        if (number.StartsWith("D")) return 500 + ToArabic(number.Remove(0, 1));
        if (number.StartsWith("CD")) return 400 + ToArabic(number.Remove(0, 2));
        if (number.StartsWith("C")) return 100 + ToArabic(number.Remove(0, 1));
        if (number.StartsWith("XC")) return 90 + ToArabic(number.Remove(0, 2));
        if (number.StartsWith("L")) return 50 + ToArabic(number.Remove(0, 1));
        if (number.StartsWith("XL")) return 40 + ToArabic(number.Remove(0, 2));
        if (number.StartsWith("X")) return 10 + ToArabic(number.Remove(0, 1));
        if (number.StartsWith("IX")) return 9 + ToArabic(number.Remove(0, 2));
        if (number.StartsWith("V")) return 5 + ToArabic(number.Remove(0, 1));
        if (number.StartsWith("IV")) return 4 + ToArabic(number.Remove(0, 2));
        if (number.StartsWith("I")) return 1 + ToArabic(number.Remove(0, 1));
        throw new ArgumentOutOfRangeException("something bad happened");
    }
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Nice solution - compact, easy to read and easy to maintain –  kellyfj Oct 2 '13 at 0:46
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Supposing Well-formed Roman numbers:

private static int totalValue(String val)
{
    String aux=val.toUpperCase();
    int sum=0, max=aux.length(), i=0;
    while(i<max)
    {
        if ((i+1)<max && valueOf(aux.charAt(i+1))>valueOf(aux.charAt(i)))
        {
            sum+=valueOf(aux.charAt(i+1)) - valueOf(aux.charAt(i));
            i+=2;
        }
        else
        {
            sum+=valueOf(aux.charAt(i));
            i+=1;
        }
    }
    return sum;
}

private static int valueOf(Character c)
{
    char aux = Character.toUpperCase(c);
    switch(aux)
    {
        case 'I':
            return 1;
        case 'V':
            return 5;
        case 'X':
            return 10;
        case 'L':
            return 50;
        case 'C':
            return 100;
        case 'D':
            return 500;
        case 'M':
            return 1000;
        default:
            return 0;
     }
}
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what about this conversion. no switch, no case at all...

P.S. : I use this script from a bash shell

import sys

def RomanToNum(r):

    return {
    'I': 1,
    'V': 5,
    'X': 10,
    'L': 50,
    'C': 100,
    'D': 500,
    'M': 1000,
    }[r]

#
#
#

EOF = "<"
Roman = sys.argv[1].upper().strip()+EOF

num = 0
i = 0

while True:

    this = Roman[i]

    if this == EOF:
        break

    n1 = RomanToNum(this)

    next = Roman[i+1]

    if next == EOF:
        n2 = 0
    else:
        n2 = RomanToNum(next)

    if n1 < n2:
        n1 = -1 * n1

    num = num + n1
    i = i + 1

print num
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        public class RomInt {
    String roman;
    int val;

    void assign(String k)
    {
      roman=k;
    }

    private class Literal
    {
        public char literal;
        public int value;

        public Literal(char literal, int value)
        {
            this.literal = literal;
            this.value = value;
        }
    }

    private final Literal[] ROMAN_LITERALS = new Literal[]
            {
                    new Literal('I', 1),
                    new Literal('V', 5),
                    new Literal('X', 10),
                    new Literal('L', 50),
                    new Literal('C', 100),
                    new Literal('D', 500),
                    new Literal('M', 1000)
            };

    public int getVal(String s) {

       int holdValue=0;

            for (int j = 0; j < ROMAN_LITERALS.length; j++)
            {
                if (s.charAt(0)==ROMAN_LITERALS[j].literal)
                {
                           holdValue=ROMAN_LITERALS[j].value;
                               break;
                }  //if()
            }//for()

      return holdValue;
    }  //getVal()
    public int count()
    {
       int count=0;
       int countA=0;
       int countB=0;
       int lastPosition = 0;
        for(int i = 0 ; i < roman.length(); i++)
        {
          String s1 = roman.substring(i,i+1);
            int a=getVal(s1);
            countA+=a;
        }
        for(int j=1;j<roman.length();j++)
        {
            String s2=  roman.substring(j,j+1);
            String s3=  roman.substring(j-1,j);
            int b=getVal(s2);
            int c=getVal(s3);
            if(b>c)
            {
                countB+=c;
            }
        }
        count=countA-(2*countB);
        return count;
        }


    void disp()
    {

         int result=count();
        System.out.println("Integer equivalent of "+roman+" = " +result);
    }

}  //RomInt---BLC
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The solution below checks if a string is in roman numerals format, and it throws an exception if not.

To check the format of the roman numerals, you may need two arrays which contain at the same index the number and the roman numeral String. Using an HashMap could be a good idea.

You need a regular expression to check if the format is correct.

String regex = "^(M{0,4})(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$";
  • Explanation of the regular expression in details here
  • Explanation of the regular expression symbols used here
  • Differences between matches() and find() here

//we need to store special cases of roman numerals with two letters
private static final int[] VALUES = {1000,900,500,400,100,90,50,40,10,9,5,4,1};
private static final String[] DIGRAMS = {"M","CM","D","CD","C","XC","L","XL","X","IX","V","IV","I"};    

public static int toIntegerRegex(String s) {
    if (s.isEmpty())
        throw new IllegalArgumentException("empty string");
    if (!s.matches("^(C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$"))
        throw new IllegalArgumentException("unexpected roman numerals");

    //creates a regex with each roman numeral pattern -> M|CM|D|......
    //You'll need it to check if you have several occurrences of a pattern
    //-> CC or III...
    StringBuilder builder = new StringBuilder();
    for (int i = 0; i < DIGRAMS.length; i++) {
        builder.append(DIGRAMS[i]);

        if (i < DIGRAMS.length - 1)
            builder.append("|");
    }     

    Matcher matcher = Pattern.compile(builder.toString()).matcher(s);    
    int result = 0;

    while (matcher.find()) {
        for (int j = 0; j < DIGRAMS.length; j++) {
            if (DIGRAMS[j].equals(matcher.group()))
                result += VALUES[j];
        }
    }
    return result;
}
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I find the following approach a very intuitive one:

public void makeArray(String romanNumeral){
    int[] numberArray = new int[romanNumeral.length()];

    for(int i=0; i<romanNumeral.length();i++){
        char symbol = romanNumeral.charAt(i);
        switch(symbol){
            case 'I':
                numberArray[i] = 1;
                break;
            case 'V':
                numberArray[i] = 5;
                break;
            case 'X':
                numberArray[i] = 10;
                break;
            case 'L':
                numberArray[i] = 50;
                break;
            case 'C':
                numberArray[i] = 100;
                break;  
            case 'D':
                numberArray[i] = 500;
                break;   
            case 'M':
                numberArray[i] = 1000;
                break;       
        }
    }
    calculate(numberArray);
}
public static void calculate(int[] numberArray){
    int theNumber = 0;
    for(int n=0;n<numberArray.length;n++){         
        if(n !=numberArray.length-1 && numberArray[n] < numberArray[n+1]){
            numberArray[n+1] = numberArray[n+1] - numberArray[n];
            numberArray[n] = 0;                        
        }                 
    }
    for(int num:numberArray){
        theNumber += num;
    }
    System.out.println("Converted number: " + theNumber);

}
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//Bet no one has a smaller and easier logic than this........Open CHALLENGE!!!!!!!
import java.io.*;
class Convertion_practical_q2
{
void Decimal()throws IOException //Smaller code for convertion from roman to decimal
{
    DataInputStream in=new DataInputStream(System.in);
    System.out.println("Enter the number");
    String num=in.readLine();
    char pos[]={'0','I','V','X','L','C','D','M'};   
    int l1=7;                           //l1 is size of pos array
    String v[]={"","1","5","10","50","100","500","1000"};
    int l=num.length();
    int p=0,p1=0,sum=0;

    for(int i=l-1;i>=0;i--)
    {
        char ch=num.charAt(i);
        for(int j=1;j<=l1;j++)
        {
            if(ch==pos[j])
            p=j;
        }
        if(p>=p1)
            sum+=Integer.parseInt(v[p]);
        else
            sum-=Integer.parseInt(v[p]);
            //System.out.println("sum ="+sum+"\np="+p+"\np1="+p1);
            p1=p;
    }
    System.out.println(sum);
}
}
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Just got it working in Java, nice job guys.

    public int getDecimal (String roman) {
        int decimal = 0;
        int romanNumber = 0;
        int prev = 0;
        for (int i = roman.length()-1; i >= 0; i--){
            romanNumber = hashRomans.get(roman.charAt(i));
            if(romanNumber < decimal && romanNumber != prev ){
                decimal -= romanNumber;
                prev = romanNumber;
            } else {
                decimal += romanNumber;
                prev = romanNumber;
            }
        } 
        return decimal;
    }
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This should work:

 import java.io.*;
 import java.util.Scanner;

 enum RomanToNumber {
 i(1), v(5), x(10), l(50), c(100); int value;
 RomanToNumber (int p){value = p;}
 int getValue(){return value;}
 }

 public class RomanToInteger {

  public static void main(String[] args){
     RomanToNumber n;

     System.out.println( "Type a valid roman number in lower case" );

     String Str = new String(new Scanner(System.in).nextLine());
     int n1 = 0, theNo = 0, len = Str.length();
     int[] str2No = new int [len];

     for(int i=0; i < len; i++){       
        n = RomanToNumber.valueOf(Str.substring(n1, ++n1));
        str2No[i] = n.getValue();
     }                  

     for(int j = 0; j < (len-1); j++){

        if( str2No[j] >= str2No[j+1] ){ theNo += str2No[j]; }
        else{ theNo -= str2No[j]; }

     }
     System.out.println( theNo += str2No[len-1] );            
     }
  }
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How about this?

int getdec(const string& input)
{
  int sum=0; char prev='%';
  for(int i=(input.length()-1); i>=0; i--)
  {
    if(value(input[i])<sum && (input[i]!=prev))
    {       sum -= value(input[i]);
            prev = input[i];
    }
    else
    {
            sum += value(input[i]);
            prev = input[i];
    }
  }
  return sum;
}
share|improve this answer
    
Care to explain the down vote? With an example which doesn't work .. –  user1071840 Feb 15 '13 at 20:10
    
I = 1 II = 2 III = 3 IV = 4 V = 5 VI = 6 VII = 7 VIII = 8 IX = 9 X = 10 XI = 11 XII = 12 XIII = 13 XIV = 14 XV = 15 XVI = 16 XVII = 17 XVIII = 18 XIX = 19 XX = 20 XXI = 21 XXII = 22 XXIII = 23 XXIV = 24 XXV = 25 XXVI = 26 XXVII = 27 XXVIII = 28 XXIX = 29 XXX = 30 XXXI = 31 XXXII = 32 XXXIII = 33 XXXIV = 34 XXXV = 35 XXXVI = 36 XXXVII = 37 XXXVIII = 38 XXXIX = 39 XL = 40 MMMMCMXCIX = 4999 CM = 900 XC = 90 –  user1071840 Feb 15 '13 at 20:14
    
I think it is because the OP asked for Java code. –  Eduardo Melo Feb 21 '13 at 19:40
    
@EduardoMelo. I hope that's the reason. Thanks :) –  user1071840 Feb 22 '13 at 1:40
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Since most of the answers here are in Java, I'm posting the answer in C++ (since I am bored right now and nothing more productive to do :) But please, no downvotes except if code is wrong. Known-issues = will not handle overflow

Code:

#include <unordered_map>
int convert_roman_2_int(string& str)
    {
    int ans = 0;
    if( str.length() == 0 )
        {
        return ans;
        }

    std::unordered_map<char, int> table;
    table['I'] = 1;
    table['V'] = 5;
    table['X'] = 10;
    table['L'] = 50;
    table['C'] = 100;
    table['D'] = 500;
    table['M'] = 1000;

    ans = table[ str[ str.length() - 1 ] ];

    for( int i = str.length() - 2; i >= 0; i--)
        {
        if(table[ str[i] ] < table[ str[i+1] ] )
            {
            ans -= table[ str[i] ];
            }
        else
            {
            ans += table[ str[i] ];
            }
        }

    return ans;
    }

// test code

void run_test_cases_convert_roman_to_int()
    {
    string roman = "VIII";
    int r = convert_roman_2_int(roman);
    cout << roman << " in int is " << r << endl << flush;

    roman = "XX";
    r = convert_roman_2_int(roman);
    cout << roman << " in int is " << r << endl << flush;

    roman = "CDX"; //410
    r = convert_roman_2_int(roman);
    cout << roman << " in int is " << r << endl << flush;

    roman = "MCMXC"; //1990
    r = convert_roman_2_int(roman);
    cout << roman << " in int is " << r << endl << flush;

    roman = "MMVIII"; //2008
    r = convert_roman_2_int(roman);
    cout << roman << " in int is " << r << endl << flush;

    roman = "MDCLXVI"; //1666
    r = convert_roman_2_int(roman);
    cout << roman << " in int is " << r << endl << flush;
    }
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Complexity : runtime : O(n), space : O(m) (since we are using unordered_map). we can of course break this O(m) complexity to O(1) by using switch-case in a separate function –  Viren Jul 15 at 23:49
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