# Storing a double with 2 digit precision

How do I convert a double to have precision of 2 places?

For ex:

``````    double x = 1.00d;
Console.WriteLine(Math.Round(x,2,MidpointRounding.AwayFromZero));
//Should output 1.00 for me, but it outputs just 1.
``````

What I'm looking for is to store 1.00 in a double variable which when printed to console prints 1.00.

Thanks, -Mike

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Have you seen this topic? stackoverflow.com/questions/4997085/… –  WarHog Feb 22 '12 at 21:42

"x" stores the number - it doesn't pay attention to the precision.

To output the number as a string with a specific amount of precision, use a format specifier, ie:

``````Console.WriteLine(x.ToString("F2"));
``````
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Thanks, that worked!!!! –  Mike Feb 22 '12 at 21:55

`double` is an IEEE-754 double-precision floating point number. It always has exactly 53 bits of precision. It does not have a precision that can be exactly represented in "decimal places" -- as the phrase implies, "decimal places" only measures precision relative to the base-10 number system.

If what you want is simply to change the precision the value is displayed with, then you can use one of the `ToString()` overloads to do that, as other answers here point out.

Remember too that `double` is an approximation of a continuous real value; that is, a value where there is no implied discrete quantization (although the values are in fact quantized to 53 bits). If what you are trying to represent is a discrete value, where there is an implicit quantization (for example, if you are working with currency values, where there is a significant difference between 0.1 and 0.099999999999999) then you should probably be using a data type that is based on integer semantics -- either a fixed-point representation using a scaled integer or something like the .NET `decimal` type.

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"It does not ever have a precision that can be exactly represented by any finite number of decimal places." Not so! Some examples: 0.5, 0.25, 0.75, etc.; in other words, fractions whose denominator is a power of two. (Also, any integer that's representable by the double type can be represented exactly.) –  phoog Feb 22 '12 at 21:50
@phoog: Yeah, I had actually edited that sentence before you posted your comment. Indeed a double can hold a value that has an exact precision in decimal. The point I was trying to make, however, was that "decimal places" is not always a valid measurement of precision. If you are measuring a binary precision in "decimal places" you are not going to have an exact result. (For example, `double` has a precision of approximately 15.9 decimal places.) If you have a better idea of how to express that, I'd be happy to adjust my answer. –  Daniel Pryden Feb 22 '12 at 21:53
Hmm, good point. Maybe something like "there's no exact conversion between the number of places of position in base 2 and base 10." But I'm not entirely satisfied with that either. –  phoog Feb 22 '12 at 22:00

This is not a question of storing, it is a question of formatting.

This code produces `1.00`:

``````double x = 1.00d;
Console.WriteLine("{0:0.00}", Math.Round(x, 2, MidpointRounding.AwayFromZero));
``````
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Why call Math.Round when the `0.00` format specifier will round the value? –  phoog Feb 22 '12 at 21:49
@phoog I kept `Math.Round` there only to keep the answer as close to the OP's code as possible; other than that, it is entirely unnecessary. –  dasblinkenlight Feb 22 '12 at 22:01
The `decimal` data type has a concept of variable precision. The double data type does not. Its precision is always 53 bits.
The default string representation of a double rounds it slightly to minimize odd-looking values like `0.999999999999`, and then drops any trailing zeros. As other answers note, you can change that behavior by using one of the type's `ToString` overloads.