ulong (C# Reference)
The ulong keyword denotes an integral type that stores values according to the size and range shown in the following table.
Type | Range | Size | .NET Framework type |
---|---|---|---|
ulong |
0 to 18,446,744,073,709,551,615 |
Unsigned 64-bit integer |
Literals
You can declare and initialize a ulong variable like this example:
ulong uLong = 9223372036854775808;
When an integer literal has no suffix, its type is the first of these types in which its value can be represented: int, uint, long, ulong. In the example above, it is of the type ulong.
You can also use suffixes to specify the type of the literal according to the following rules:
If you use L or l, the type of the literal integer will be either long or ulong according to its size.
Note
You can use the lowercase letter "l" as a suffix. However, this generates a compiler warning because the letter "l" is easily confused with the digit "1." Use "L" for clarity.
If you use
U
oru
, the type of the literal integer will be either uint or ulong according to its size.If you use UL, ul, Ul, uL, LU, lu, Lu, or lU, the type of the literal integer will be ulong.
For example, the output of the following three statements will be the system type UInt64, which corresponds to the alias ulong:
Console.WriteLine(9223372036854775808L.GetType()); Console.WriteLine(123UL.GetType()); Console.WriteLine((123UL + 456).GetType());
A common use of the suffix is with calling overloaded methods. Consider, for example, the following overloaded methods that use ulong and int parameters:
public static void SampleMethod(int i) {}
public static void SampleMethod(ulong l) {}
Using a suffix with the ulong parameter guarantees that the correct type is called, for example:
SampleMethod(5); // Calling the method with the int parameter
SampleMethod(5UL); // Calling the method with the ulong parameter
Conversions
There is a predefined implicit conversion from ulong to float, double, or decimal.
There is no implicit conversion from ulong to any integral type. For example, the following statement will produce a compilation error without an explicit cast:
long long1 = 8UL; // Error: no implicit conversion from ulong
There is a predefined implicit conversion from byte, ushort, uint, or char to ulong.
Also, there is no implicit conversion from floating-point types to ulong. For example, the following statement generates a compiler error unless an explicit cast is used:
// Error -- no implicit conversion from double:
ulong x = 3.0;
// OK -- explicit conversion:
ulong y = (ulong)3.0;
For information on arithmetic expressions with mixed floating-point types and integral types, see float and double.
For more information on implicit numeric conversion rules, see the Implicit Numeric Conversions Table (C# Reference).
C# Language Specification
For more information, see the following sections in the C# Language Specification:
1.3 Types and Variables
4.1.5 Integral Types
See Also
Reference
C# Keywords
Integral Types Table (C# Reference)
Built-In Types Table (C# Reference)
Implicit Numeric Conversions Table (C# Reference)
Explicit Numeric Conversions Table (C# Reference)
UInt64 Structure