What is the best way to find the digit at n position in a decimal number?

Background

I'm working on a symmetric rounding class and I find that I'm stuck with regards to how to best find the number at position x that I will be rounding. I'm sure there is an efficient mathematical way to find the single digit and return it without having to resort to string parsing.

Problem

Suppose, I have the following (C#) psuedo-code:

``````var position = 3;
var value = 102.43587m;
// I want this no ↑ (that is 5)

protected static int FindNDigit(decimal value, int position)
{
// This snippet is what I am searching for
}
``````

Also, it is worth noting that if my value is a whole number, I will need to return a zero for the result of FindNDigit.

Does anyone have any hints on how I should approach this problem? Is this something that is blaringly obvious that I'm missing?

-
You shouldn't be using "var"'s like that. If you know that it is a decimal you should specify it right when you are declaring. –  VoodooChild May 27 '10 at 17:55
@VoodooChild I think thats subjective, i mean they are int and decimals in the final code.. I take it more as style.. and style-wise, well everybody has its own preference. by the way, awesome use of the ↑ up arrow! –  Francisco Noriega May 27 '10 at 17:59
I don't use vars for primitive types because it is a subjective choice, I use vars for all other types though. –  Chris Marisic May 27 '10 at 18:07

``````using System;

public static class DecimalExtensions
{
public static int DigitAtPosition(this decimal number, int position)
{
if (position <= 0)
{
throw new ArgumentException("Position must be positive.");
}

if (number < 0)
{
number = Math.Abs(number);
}

number -= Math.Floor(number);

if (number == 0)
{
return 0;
}

if (position == 1)
{
return (int)(number * 10);
}

return (number * 10).DigitAtPosition(position - 1);
}
}
``````

Edit: If you wish, you may separate the recursive call from the initial call, to remove the initial conditional checks during recursion:

``````using System;

public static class DecimalExtensions
{
public static int DigitAtPosition(this decimal number, int position)
{
if (position <= 0)
{
throw new ArgumentException("Position must be positive.");
}

if (number < 0)
{
number = Math.Abs(number);
}

return number.digitAtPosition(position);
}

static int digitAtPosition(this decimal sanitizedNumber, int validPosition)
{
sanitizedNumber -= Math.Floor(sanitizedNumber);

if (sanitizedNumber == 0)
{
return 0;
}

if (validPosition == 1)
{
return (int)(sanitizedNumber * 10);
}

return (sanitizedNumber * 10).digitAtPosition(validPosition - 1);
}
``````

Here's a few tests:

``````using System;
using Xunit;

public class DecimalExtensionsTests
{
// digit positions
// 1234567890123456789012345678
const decimal number = .3216879846541681986310378765m;

[Fact]
public void Throws_ArgumentException_if_position_is_zero()
{
Assert.Throws<ArgumentException>(() => number.DigitAtPosition(0));
}

[Fact]
public void Throws_ArgumentException_if_position_is_negative()
{
Assert.Throws<ArgumentException>(() => number.DigitAtPosition(-5));
}

[Fact]
public void Works_for_1st_digit()
{
Assert.Equal(3, number.DigitAtPosition(1));
}

[Fact]
public void Works_for_28th_digit()
{
Assert.Equal(5, number.DigitAtPosition(28));
}

[Fact]
public void Works_for_negative_decimals()
{
const decimal negativeNumber = -number;
Assert.Equal(5, negativeNumber.DigitAtPosition(28));
}

[Fact]
public void Returns_zero_for_whole_numbers()
{
const decimal wholeNumber = decimal.MaxValue;
Assert.Equal(0, wholeNumber.DigitAtPosition(1));
}

[Fact]
public void Returns_zero_if_position_is_greater_than_the_number_of_decimal_digits()
{
Assert.Equal(0, number.DigitAtPosition(29));
}

[Fact]
public void Does_not_throw_if_number_is_max_decimal_value()
{
Assert.DoesNotThrow(() => decimal.MaxValue.DigitAtPosition(1));
}

[Fact]
public void Does_not_throw_if_number_is_min_decimal_value()
{
Assert.DoesNotThrow(() => decimal.MinValue.DigitAtPosition(1));
}

[Fact]
public void Does_not_throw_if_position_is_max_integer_value()
{
Assert.DoesNotThrow(() => number.DigitAtPosition(int.MaxValue));
}
}
``````
-
What does this solution cover that the others do not? Does it deal with edge cases? –  Elijah May 27 '10 at 20:26
Yes, it should deal with all edge cases. The most upvoted answer deals with too few values before overflowing, IMO. –  Sam Pearson May 27 '10 at 20:49
(not to mention it doesn't compile) –  Sam Pearson May 27 '10 at 22:15
Accepted because this solution deals with real-world edge cases. –  Elijah May 28 '10 at 16:57
``````(int)(value * Math.Pow(10, position)) % 10
``````
-
+1, beat me by seconds :) –  Justin Ethier May 27 '10 at 17:56
You should strip off the digits to the left of "position" first to avoid unnecessary overflows. –  mbeckish May 27 '10 at 17:57
@mbeckish it is enough for simple cases. for complex you have to do it in loop, multiply and strip –  Andrey May 27 '10 at 17:59
Math.Pow() returns the type double and that upsets the compiler a bit. Besides, casting decimal to an int is really bad idea. Aren't You missing a pair of parenthesis? –  Maciej Hehl May 27 '10 at 18:49
@mbeckish, Andrey: Would it not also be possible to just ignore overflow in this case? As long as you aren't modifying `value` itself, there's no reason you'd need to worry about the lost data there. @Maciej Hehl: How does this look? `decimal.Floor(value * Math.Pow(10, position)) % 10` –  JAB May 27 '10 at 19:28

``````(int)(double(value) * Math.Pow(10, position)) % 10
``````

Basically you multiply by `10 ^ pos` in order to move that digit to the one's place, and then you use the modulus operator `%` to divide out the rest of the number.

-
+1 for including an explanation :). I'm sure the code would include this as a comment. –  Daniel May 27 '10 at 18:37
I like how both simple answers are EXACTLY the same. Creepy. –  Rubys May 27 '10 at 19:32
With value = 10 and position = 1, this returns 0 :( –  JoanComasFdz Dec 17 '12 at 13:22
To get the last digit: `value % 10` –  zzg Mar 19 at 0:24

Edited: Totally had the wrong and opposite answer here. I was calculating the position to the left of the decimal instead of the right. See the upvoted answers for the correct code.

-
yeah, did you try to run it? remainder (%) doesn't work with double. –  Andrey May 27 '10 at 18:15
My mistake. I quickly ran it in VS2010 interactive and used integer instead of decimal. I'll see if Math.DivRem() will work. –  JasDev May 27 '10 at 18:19

``````protected static int FindNDigit(decimal value, int position)
{
var index = value.ToString().IndexOf(".");
position = position + index;
return (int)Char.GetNumericValue(value.ToString(), position);
}
``````
-
Good effort, but he said that he did not want to resort to string parsing... –  Justin Ethier May 27 '10 at 18:14
Yep. Missed that constraint. :( –  Paul Kearney - pk May 27 '10 at 18:19

I found this one here working:

``````public int ValueAtPosition(int value, int position)
{
var result = value / (int)Math.Pow(10, position);
result = result % 10;
return result;
}
``````

And also this one to know the full value (i.e.: 111, position 3 = 100 , sorry I don't know the proper name):

``````public int FullValueAtPosition(int value, int position)
{
return this.ValueAtPosition(value, position) * (int)Math.Pow(10, position);
}
``````
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