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13. Roman to Integer (javascript)

Roman numerals are represented by seven different symbols: IVXLCD and M.

Symbol       Value
I             1
V             5
X             10
L             50
C             100
D             500
M             1000

For example, 2 is written as II in Roman numeral, just two one’s added together. 12 is written as XII, which is simply X + II. The number 27 is written as XXVII, which is XX + V + II.

Roman numerals are usually written largest to smallest from left to right. However, the numeral for four is not IIII. Instead, the number four is written as IV. Because the one is before the five we subtract it making four. The same principle applies to the number nine, which is written as IX. There are six instances where subtraction is used:

  • I can be placed before V (5) and X (10) to make 4 and 9. 
  • X can be placed before L (50) and C (100) to make 40 and 90. 
  • C can be placed before D (500) and M (1000) to make 400 and 900.

Given a roman numeral, convert it to an integer.

Example 1:

Input: s = "III"
Output: 3

Example 2:

Input: s = "IV"
Output: 4

Example 3:

Input: s = "IX"
Output: 9

Example 4:

Input: s = "LVIII"
Output: 58
Explanation: L = 50, V= 5, III = 3.

Example 5:

Input: s = "MCMXCIV"
Output: 1994
Explanation: M = 1000, CM = 900, XC = 90 and IV = 4.

Constraints:

  • 1 <= s.length <= 15
  • s contains only the characters ('I', 'V', 'X', 'L', 'C', 'D', 'M').
  • It is guaranteed that s is a valid roman numeral in the range [1, 3999].

Idea:

  • Accumulate the value of each symbol.
  • If the current symbol is greater than the previous one, substract twice of the previous value. e.g. IX, 1 + 10 – 2 * 1 = 9

Solution:

  • Time complexity: O(n)
  • Space complexity: O(1)
/**
 * @param {string} s
 * @return {number}
 */
var romanToInt = function(s) {
    let conversion = {"I": 1, "V":5,"X":10,"L":50,"C":100,"D":500,"M":1000};
    let total = 0;
    
    for (var i = 0; i < s.length; i++) {
        // first symbol
        total += conversion[s[i]];
        // if current symbol is bigger than previous symbol
        // subtract 2 times of the previous value
        if (i > 0 && conversion[s[i]] > conversion[s[i - 1]]) 
            total -= 2 * conversion[s[i - 1]];
    }
    return total;
};