When I do sizeof(int) in my C#.NET project I get a return value of 4. I set the project type to x64, so why does it say 4 instead of 8? Is this because I'm running managed code?

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    Unmanaged code makes the same decision as .NET. In plain C++, sizeof(int) is 4 as well. Think of x64 as extensions to a 32-bit architecture. The default is still 32, you just gain the ability to process 64-bit data as well. – jalf Mar 16 '09 at 20:12
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    @jalf to be more precise, we already had the ability to process 64-bit data, however the x64 CPUs do it faster due to native support. – Mr. TA May 28 '12 at 22:42
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    Why is this closed? While technically identical, the other question is about Java, this is about .NET / C#. – Christian.K Aug 8 '12 at 10:23

There are various 64-bit data models; Microsoft uses LP64 for .NET: both longs and pointers are 64-bits (although traditional C-style pointers don't exist .NET). Contrast this with ILP64 where ints are also 64-bits.

Thus, on all platforms, int is 32-bits and long is 64-bits; you can see this in the names of the underlying types System.Int32 and System.Int64.

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    You should edit your answer as it is the accepted one to make it completely correct. Remove where you say "although traditional C-style pointers don't exist .NET" and detail System.IntPtr depends on the architecture. – fnieto - Fernando Nieto Aug 11 '09 at 16:33
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    You can use "C-style" pointers in C#, they just have to be done under the unsafe context. Like "fnieto" said, you need to note that IntPtr does depend on the platform, where "sizeof(IntPtr)==4" in x86 & "sizeof(IntPtr)==8" in x64. – zezba9000 Dec 5 '10 at 21:01

The keyword int aliases System.Int32 which still requires 4 bytes, even on a 64-bit machine.


int means Int32 in .NET languages. This was done for compatibility between 32- and 64-bit architectures.

Here's the table of all the types in C# and what they map to .NET wise.


An Int32 is 4 bytes on x86 and x64. An Int64 is 8 bytes either case. The C# int type is just an alias for System.Int32. Same under both runtime environments. The only type that does change depending on the runtime environment is an IntPtr:

        var size = sizeof(IntPtr); // 4 on x86 bit machines. 8 on x64
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    Or you could just check IntPtr.Size, which does not require unsafe code. – Jim Mischel Mar 16 '09 at 20:18
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    ... and UIntPtr, of course. ...and unsafe pointer types. – P Daddy Mar 16 '09 at 20:23
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    Good thing to note: UIntPtr is not CLS-Compliant. – Andrew Hare Mar 16 '09 at 20:25

You may be thinking of an int pointer or System.IntPtr. This would be 8 bytes on an x64 and 4 bytes on an x86. The size of a pointer shows that you have 64-bit addresses for your memory. (System.IntPtr.Size == 8 on x64)

The meaning of int is still 4 bytes whether you are on an x86 or an x64. That is to say that an int will always correspond to System.Int32.


Remember int is just a compiler alias for the basic type Int32. Given that it should be obvious why int is only 32 bits on a 64 bit platform.

int i;
int size = BitConverter.GetBytes(i).GetLength(0);

Fiddle Sample

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    This question was asked 3 years ago and already has an accepted answer. See if you can provide answers to recent questions that do not yet have an accepted answer. – mcknz Feb 15 '13 at 17:12
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    I guess it is devoted because "Lenght", obviously – Laie Apr 25 '14 at 2:23

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