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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
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4 Answers 4

up vote 10 down vote accepted

"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
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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
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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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1  
Why call Math.Round when the 0.00 format specifier will round the value? –  phoog Feb 22 '12 at 21:49
1  
@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
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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.

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