This documentation is archived and is not being maintained.

# Double.Equals Method (Double)

Visual Studio 2008

Returns a value indicating whether this instance and a specified Double object represent the same value.

Namespace:  System
Assembly:  mscorlib (in mscorlib.dll)

## Syntax

```public final function Equals(
obj : double
) : boolean
```

#### Parameters

obj
Type: System.Double

A Double object to compare to this instance.

#### Return Value

Type: System.Boolean
true if obj is equal to this instance; otherwise, false.

#### Implements

IEquatable(T).Equals(T)

## Remarks

This method implements the System.IEquatable(T) interface, and performs slightly better than Equals because it does not have to convert the obj parameter to an object.

### Widening Conversions

Depending on your programming language, it might be possible to code a Equals method where the parameter type has fewer bits (is narrower) than the instance type. This is possible because some programming languages perform an implicit widening conversion that represents the parameter as a type with as many bits as the instance.

For example, suppose the instance type is Double and the parameter type is Int32. The Microsoft C# compiler generates instructions to represent the value of the parameter as a Double object, then generates a Double.Equals(Double) method that compares the values of the instance and the widened representation of the parameter.

Consult your programming language's documentation to determine if its compiler performs implicit widening conversions of numeric types. For more information, see the Type Conversion Tables topic.

### Precision in Comparisons

The Equals method should be used with caution, because two apparently equivalent values can be unequal due to the differing precision of the two values. The following example reports that the Double value .3333 and the Double returned by dividing 1 by 3 are unequal.

No code example is currently available or this language may not be supported.

Rather than comparing for equality, one recommended technique involves defining an acceptable margin of difference between two values (such as .01% of one of the values). If the absolute value of the difference between the two values is less than or equal to that margin, the difference is likely to be due to differences in precision and, therefore, the values are likely to be equal. The following example uses this technique to compare .33333 and 1/3, the two Double values that the previous code example found to be unequal.

No code example is currently available or this language may not be supported.

In this case, the values are equal.

Note:

Because Epsilon defines the minimum expression of a positive value whose range is near zero, the margin of difference between two similar values must be greater than Epsilon. Typically, it is many times greater than Epsilon.

The precision of floating-point numbers beyond the documented precision is specific to the implementation and version of the .NET Framework. Consequently, a comparison of two particular numbers might change between versions of the .NET Framework because the precision of the numbers' internal representation might change.

## Platforms

Windows 7, Windows Vista, Windows XP SP2, Windows XP Media Center Edition, Windows XP Professional x64 Edition, Windows XP Starter Edition, Windows Server 2008 R2, Windows Server 2008, Windows Server 2003, Windows Server 2000 SP4, Windows Millennium Edition, Windows 98, Windows CE, Windows Mobile for Smartphone, Windows Mobile for Pocket PC, Xbox 360, Zune

The .NET Framework and .NET Compact Framework do not support all versions of every platform. For a list of the supported versions, see .NET Framework System Requirements.

## Version Information

#### .NET Framework

Supported in: 3.5, 3.0, 2.0

#### .NET Compact Framework

Supported in: 3.5, 2.0

#### XNA Framework

Supported in: 3.0, 2.0, 1.0