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During a conversation on IRC, someone pointed out the following:

decimal.Parse("1.0000").ToString() // 1.0000
decimal.Parse("1.00").ToString() // 1.00

How/why does the decimal type retain precision (or, rather, significant figures) like this? I was under the impression that the two values are equal, not distinct.

This also raises further questions:

  • How is the number of significant figures decided during mathematical operations?
  • Does the number of significant figures get retained during serialization?
  • Does the current culture affect the way this is handled?
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10  
As to how it does: "The binary representation of a Decimal value consists of a 1-bit sign, a 96-bit integer number, and a scaling factor used to divide the 96-bit integer and specify what portion of it is a decimal fraction. The scaling factor is implicitly the number 10, raised to an exponent ranging from 0 to 28." -- the scaling factor is a discrete component. –  user166390 Jan 2 '12 at 22:20
    
@pst - So is the scaling factor solely responsible for significant figures? i.e. 1.0000 is 10000 / 10^4 and 1.00 is 100 / 10^2 –  Polynomial Jan 2 '12 at 22:26

3 Answers 3

up vote 7 down vote accepted

How is the number of significant figures decided during mathematical operations?

This is specified in the ECMA-334 C# 4 specification 11.1.7 p.112

A decimal is represented as an integer scaled by a power of ten. For decimals with an absolute value less than 1.0m, the value is exact to at least the 28th decimal place. For decimals with an absolute value greater than or equal to 1.0m, the value is exact to at least 28 digits.

Does the number of significant figures get retained during serialization?

Yes it does, with seriallization the value and its precision does not change

[Serializable]
public class Foo
{
    public decimal Value;
}

class Program
{
    static void Main(string[] args)
    {
        decimal d1 = decimal.Parse("1.0000");
        decimal d2 = decimal.Parse("1.00");

        Debug.Assert(d1 ==d2);

        var foo1 = new Foo() {Value = d1};
        var foo2 = new Foo() {Value = d2};

        IFormatter formatter = new BinaryFormatter();
        Stream stream = new FileStream("data.bin", FileMode.Create, FileAccess.Write, FileShare.None);
        formatter.Serialize(stream, d1);
        stream.Close();

        formatter = new BinaryFormatter();
        stream = new FileStream("data.bin", FileMode.Open, FileAccess.Read, FileShare.Read);
        decimal deserializedD1 = (decimal)formatter.Deserialize(stream);
        stream.Close();

        Debug.Assert(d1 == deserializedD1);

        Console.WriteLine(d1); //1.0000
        Console.WriteLine(d2); //1.00
        Console.WriteLine(deserializedD1); //1.0000

        Console.Read();
    }
}

Does the current culture affect the way this is handled?

The current culture affects only how a decimal can be parsed from a string, for example it can handle '.' or ',' as a culture-specific decimal point symbol or the currency symbol, should you provide it, e.g. "£123.4500". Culture does not change the way an object is stored internally and it does not affect its precision.

Internally, decimal has a mantissa, an exponent and a sign, so no space for anything else.

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Excellent answer! Thank you very much :) –  Polynomial Jan 3 '12 at 0:06

A decimal consists of a 96-bit integer and a scaling factor (number of digits after the decimal point), which ranges from 0 to 28. Thus:

  • 1.000 becomes 1000 with scaling factor 3.
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How does the scaling factor get affected by mathematical operations and serialization? –  Polynomial Jan 2 '12 at 22:49
    
The scaling factor is included in the Decimal value's serialized form, as obtained by calling the GetBits method. Also, as specified in the documentation, "[t]railing zeroes do not affect the value of a Decimal number in arithmetic or comparison operations." –  Peter O. Jan 2 '12 at 23:30

In addition to post I see here, I would personally add a side note:

always during persistence manipulations with floating point/decimal/double numbers consider the culture you're in, or you're going to save in. The code like here written is first, but definitive pass to complete mess and non culture independent architecture.

Use Decimal.Parse (String, IFormatProvider).

In my opinion, that methods (Parse From/To) that lack of Culture parameter have to be removed from the library to force a developer to think about that very important aspect.

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