I'm looking for a way to perform pointer operations in C# or .NET in particular.
I want to do something very simple
Having a pointer IntPtr I want to get IntPtr object which points to开发者_如何学运维 2 bytes ahead.
I read some post that the foolowing snippet will work...
IntPtr ptr = new IntPtr(oldptr.ToInt32() + 2);
But I have doubts whether this statement is also valid for 64-bit machine (since addressing is in 64-bits there)..
I found this elegant method to add offset, but unfortunately is in .NET 4.0 only http://msdn.microsoft.com/en-us/library/system.intptr.add%28VS.100%29.aspx
In .net 4 static Add() and Subtract() methods have been added.
IntPtr ptr = IntPtr.Add(oldPtr, 2);
http://msdn.microsoft.com/en-us/library/system.intptr.add.aspx
I suggest you to use ToInt64() and long to perform your computation. This way you will avoid problem on 64 bits version of the .NET framework.
IntPtr ptr = new IntPtr(oldptr.ToInt64() + 2);
This add a bit of overhead on 32 bits system, but it is safer.
For pointer arithmetic in C# you should use proper pointers inside an unsafe
context:
class PointerArithmetic
{
unsafe static void Main()
{
int* memory = stackalloc int[30];
long* difference;
int* p1 = &memory[4];
int* p2 = &memory[10];
difference = (long*)(p2 - p1);
System.Console.WriteLine("The difference is: {0}", (long)difference);
}
}
The IntPtr
type is for passing around handles or pointers and also for marshalling to languages that support pointers. But it's not for pointer arithmetic.
I found that I can avoid pointer operations by using Marshal.ReadByte(), Marshal.ReadInt16() etc. methods. This group of methods allow to specify offset in releation to the IntPtr...
public static class IntPtrExtensions
{
#region Methods: Arithmetics
public static IntPtr Decrement(this IntPtr pointer, Int32 value)
{
return Increment(pointer, -value);
}
public static IntPtr Decrement(this IntPtr pointer, Int64 value)
{
return Increment(pointer, -value);
}
public static IntPtr Decrement(this IntPtr pointer, IntPtr value)
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr(pointer.ToInt32() - value.ToInt32()));
default:
return (new IntPtr(pointer.ToInt64() - value.ToInt64()));
}
}
public static IntPtr Increment(this IntPtr pointer, Int32 value)
{
unchecked
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr(pointer.ToInt32() + value));
default:
return (new IntPtr(pointer.ToInt64() + value));
}
}
}
public static IntPtr Increment(this IntPtr pointer, Int64 value)
{
unchecked
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr((Int32)(pointer.ToInt32() + value)));
default:
return (new IntPtr(pointer.ToInt64() + value));
}
}
}
public static IntPtr Increment(this IntPtr pointer, IntPtr value)
{
unchecked
{
switch (IntPtr.Size)
{
case sizeof(int):
return new IntPtr(pointer.ToInt32() + value.ToInt32());
default:
return new IntPtr(pointer.ToInt64() + value.ToInt64());
}
}
}
#endregion
#region Methods: Comparison
public static Int32 CompareTo(this IntPtr left, Int32 right)
{
return left.CompareTo((UInt32)right);
}
public static Int32 CompareTo(this IntPtr left, IntPtr right)
{
if (left.ToUInt64() > right.ToUInt64())
return 1;
if (left.ToUInt64() < right.ToUInt64())
return -1;
return 0;
}
public static Int32 CompareTo(this IntPtr left, UInt32 right)
{
if (left.ToUInt64() > right)
return 1;
if (left.ToUInt64() < right)
return -1;
return 0;
}
#endregion
#region Methods: Conversion
public unsafe static UInt32 ToUInt32(this IntPtr pointer)
{
return (UInt32)((void*)pointer);
}
public unsafe static UInt64 ToUInt64(this IntPtr pointer)
{
return (UInt64)((void*)pointer);
}
#endregion
#region Methods: Equality
public static Boolean Equals(this IntPtr pointer, Int32 value)
{
return (pointer.ToInt32() == value);
}
public static Boolean Equals(this IntPtr pointer, Int64 value)
{
return (pointer.ToInt64() == value);
}
public static Boolean Equals(this IntPtr left, IntPtr ptr2)
{
return (left == ptr2);
}
public static Boolean Equals(this IntPtr pointer, UInt32 value)
{
return (pointer.ToUInt32() == value);
}
public static Boolean Equals(this IntPtr pointer, UInt64 value)
{
return (pointer.ToUInt64() == value);
}
public static Boolean GreaterThanOrEqualTo(this IntPtr left, IntPtr right)
{
return (left.CompareTo(right) >= 0);
}
public static Boolean LessThanOrEqualTo(this IntPtr left, IntPtr right)
{
return (left.CompareTo(right) <= 0);
}
#endregion
#region Methods: Logic
public static IntPtr And(this IntPtr pointer, IntPtr value)
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr(pointer.ToInt32() & value.ToInt32()));
default:
return (new IntPtr(pointer.ToInt64() & value.ToInt64()));
}
}
public static IntPtr Not(this IntPtr pointer)
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr(~pointer.ToInt32()));
default:
return (new IntPtr(~pointer.ToInt64()));
}
}
public static IntPtr Or(this IntPtr pointer, IntPtr value)
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr(pointer.ToInt32() | value.ToInt32()));
default:
return (new IntPtr(pointer.ToInt64() | value.ToInt64()));
}
}
public static IntPtr Xor(this IntPtr pointer, IntPtr value)
{
switch (IntPtr.Size)
{
case sizeof(Int32):
return (new IntPtr(pointer.ToInt32() ^ value.ToInt32()));
default:
return (new IntPtr(pointer.ToInt64() ^ value.ToInt64()));
}
}
#endregion
}
You can use a extension method:
public static IntPtrExtensions {
public static IntPtr Add( this IntPtr ptr, int offSet ) {
IntPtr ret = new IntPtr( ptr.ToInt64() + offSet );
return ret;
}
}
// ... somewhere else ...
IntPtr pointer = GetHandle().Add( 15 );
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