show/hide this revision's text 3 added 36 characters in body

Caching really does cut the runtime of 10,000,000 random calls to 1/3 its value though:

    static Dictionary<int, string> LetterDict = new Dictionary<int, string>(676);
    public static string LetterWithCaching(int intColindex)
    {
        int intCol = index - 1;
        if (LetterDict.ContainsKey(intCol)) return LetterDict[intCol];
        int intFirstLetter = ((intCol) / 676) + 64;
        int intSecondLetter = ((intCol % 676) / 26) + 64;
        int intThirdLetter = (intCol % 26) + 65;
        char FirstLetter = (intFirstLetter > 64) ? (char)intFirstLetter : ' ';
        char SecondLetter = (intSecondLetter > 64) ? (char)intSecondLetter : ' ';
        char ThirdLetter = (char)intThirdLetter;
        String s = string.Concat(FirstLetter, SecondLetter, ThirdLetter).Trim();
        LetterDict.Add(intCol, s);
        return s;
    }

I think caching in the worst-case (hit every value) couldn't take up more than 250kb (17576 possible values * (sizeof(int)=4 + sizeof(char)*3 + string overhead=2)

show/hide this revision's text 2 added 150 characters in body

I couldn't make a better algorithm, but caching did

Caching really does cut the runtime of 10,000,000 random calls to 1/3 its value though:

    static Dictionary<int, string> LetterDict = new Dictionary<int, string>(676);
    public static string LetterWithCaching(int intCol)
    {
        if (LetterDict.ContainsKey(intCol)) return LetterDict[intCol];
        int intFirstLetter = ((intCol) / 676) + 64;
        int intSecondLetter = ((intCol % 676) / 26) + 64;
        int intThirdLetter = (intCol % 26) + 65;
        char FirstLetter = (intFirstLetter > 64) ? (char)intFirstLetter : ' ';
        char SecondLetter = (intSecondLetter > 64) ? (char)intSecondLetter : ' ';
        char ThirdLetter = (char)intThirdLetter;
        String s = string.Concat(FirstLetter, SecondLetter, ThirdLetter).Trim();
        LetterDict.Add(intCol, s);
        return s;
    }

I think caching in the worst-case (hit every value) couldn't take up more than 250kb (17576 possible values * (sizeof(int)=4 + sizeof(char)*3 + string overhead=2)

show/hide this revision's text 1

I couldn't make a better algorithm, but caching did cut the runtime of 10,000,000 random calls to 1/3 its value

    static Dictionary<int, string> LetterDict = new Dictionary<int, string>(676);
    public static string LetterWithCaching(int intCol)
    {
        if (LetterDict.ContainsKey(intCol)) return LetterDict[intCol];
        int intFirstLetter = ((intCol) / 676) + 64;
        int intSecondLetter = ((intCol % 676) / 26) + 64;
        int intThirdLetter = (intCol % 26) + 65;
        char FirstLetter = (intFirstLetter > 64) ? (char)intFirstLetter : ' ';
        char SecondLetter = (intSecondLetter > 64) ? (char)intSecondLetter : ' ';
        char ThirdLetter = (char)intThirdLetter;
        String s = string.Concat(FirstLetter, SecondLetter, ThirdLetter).Trim();
        LetterDict.Add(intCol, s);
        return s;
    }