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IntPtr Struct

Definition

Represents a signed integer where the bit-width is the same as a pointer.

public value class IntPtr
public value class IntPtr : IComparable, IComparable<IntPtr>, IEquatable<IntPtr>, IFormattable, System::Runtime::Serialization::ISerializable
public value class IntPtr : IComparable, IComparable<IntPtr>, IEquatable<IntPtr>, ISpanFormattable, System::Runtime::Serialization::ISerializable
public value class IntPtr : IComparable<IntPtr>, IEquatable<IntPtr>, IParsable<IntPtr>, ISpanParsable<IntPtr>, System::Numerics::IAdditionOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IAdditiveIdentity<IntPtr, IntPtr>, System::Numerics::IBinaryInteger<IntPtr>, System::Numerics::IBinaryNumber<IntPtr>, System::Numerics::IBitwiseOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IComparisonOperators<IntPtr, IntPtr, bool>, System::Numerics::IDecrementOperators<IntPtr>, System::Numerics::IDivisionOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IEqualityOperators<IntPtr, IntPtr, bool>, System::Numerics::IIncrementOperators<IntPtr>, System::Numerics::IMinMaxValue<IntPtr>, System::Numerics::IModulusOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IMultiplicativeIdentity<IntPtr, IntPtr>, System::Numerics::IMultiplyOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::INumber<IntPtr>, System::Numerics::INumberBase<IntPtr>, System::Numerics::IShiftOperators<IntPtr, int, IntPtr>, System::Numerics::ISignedNumber<IntPtr>, System::Numerics::ISubtractionOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IUnaryNegationOperators<IntPtr, IntPtr>, System::Numerics::IUnaryPlusOperators<IntPtr, IntPtr>, System::Runtime::Serialization::ISerializable
public value class IntPtr : IComparable<IntPtr>, IEquatable<IntPtr>, IParsable<IntPtr>, ISpanParsable<IntPtr>, IUtf8SpanParsable<IntPtr>, System::Numerics::IAdditionOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IAdditiveIdentity<IntPtr, IntPtr>, System::Numerics::IBinaryInteger<IntPtr>, System::Numerics::IBinaryNumber<IntPtr>, System::Numerics::IBitwiseOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IComparisonOperators<IntPtr, IntPtr, bool>, System::Numerics::IDecrementOperators<IntPtr>, System::Numerics::IDivisionOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IEqualityOperators<IntPtr, IntPtr, bool>, System::Numerics::IIncrementOperators<IntPtr>, System::Numerics::IMinMaxValue<IntPtr>, System::Numerics::IModulusOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IMultiplicativeIdentity<IntPtr, IntPtr>, System::Numerics::IMultiplyOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::INumber<IntPtr>, System::Numerics::INumberBase<IntPtr>, System::Numerics::IShiftOperators<IntPtr, int, IntPtr>, System::Numerics::ISignedNumber<IntPtr>, System::Numerics::ISubtractionOperators<IntPtr, IntPtr, IntPtr>, System::Numerics::IUnaryNegationOperators<IntPtr, IntPtr>, System::Numerics::IUnaryPlusOperators<IntPtr, IntPtr>, System::Runtime::Serialization::ISerializable
public value class IntPtr : IEquatable<IntPtr>, System::Runtime::Serialization::ISerializable
public value class IntPtr : System::Runtime::Serialization::ISerializable
public struct IntPtr
public readonly struct IntPtr : IComparable, IComparable<IntPtr>, IEquatable<IntPtr>, IFormattable, System.Runtime.Serialization.ISerializable
public readonly struct IntPtr : IComparable, IComparable<IntPtr>, IEquatable<IntPtr>, ISpanFormattable, System.Runtime.Serialization.ISerializable
public readonly struct IntPtr : IComparable<IntPtr>, IEquatable<IntPtr>, IParsable<IntPtr>, ISpanParsable<IntPtr>, System.Numerics.IAdditionOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IAdditiveIdentity<IntPtr,IntPtr>, System.Numerics.IBinaryInteger<IntPtr>, System.Numerics.IBinaryNumber<IntPtr>, System.Numerics.IBitwiseOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IComparisonOperators<IntPtr,IntPtr,bool>, System.Numerics.IDecrementOperators<IntPtr>, System.Numerics.IDivisionOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IEqualityOperators<IntPtr,IntPtr,bool>, System.Numerics.IIncrementOperators<IntPtr>, System.Numerics.IMinMaxValue<IntPtr>, System.Numerics.IModulusOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IMultiplicativeIdentity<IntPtr,IntPtr>, System.Numerics.IMultiplyOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.INumber<IntPtr>, System.Numerics.INumberBase<IntPtr>, System.Numerics.IShiftOperators<IntPtr,int,IntPtr>, System.Numerics.ISignedNumber<IntPtr>, System.Numerics.ISubtractionOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IUnaryNegationOperators<IntPtr,IntPtr>, System.Numerics.IUnaryPlusOperators<IntPtr,IntPtr>, System.Runtime.Serialization.ISerializable
public readonly struct IntPtr : IComparable<IntPtr>, IEquatable<IntPtr>, IParsable<IntPtr>, ISpanParsable<IntPtr>, IUtf8SpanParsable<IntPtr>, System.Numerics.IAdditionOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IAdditiveIdentity<IntPtr,IntPtr>, System.Numerics.IBinaryInteger<IntPtr>, System.Numerics.IBinaryNumber<IntPtr>, System.Numerics.IBitwiseOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IComparisonOperators<IntPtr,IntPtr,bool>, System.Numerics.IDecrementOperators<IntPtr>, System.Numerics.IDivisionOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IEqualityOperators<IntPtr,IntPtr,bool>, System.Numerics.IIncrementOperators<IntPtr>, System.Numerics.IMinMaxValue<IntPtr>, System.Numerics.IModulusOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IMultiplicativeIdentity<IntPtr,IntPtr>, System.Numerics.IMultiplyOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.INumber<IntPtr>, System.Numerics.INumberBase<IntPtr>, System.Numerics.IShiftOperators<IntPtr,int,IntPtr>, System.Numerics.ISignedNumber<IntPtr>, System.Numerics.ISubtractionOperators<IntPtr,IntPtr,IntPtr>, System.Numerics.IUnaryNegationOperators<IntPtr,IntPtr>, System.Numerics.IUnaryPlusOperators<IntPtr,IntPtr>, System.Runtime.Serialization.ISerializable
public struct IntPtr : IEquatable<IntPtr>, System.Runtime.Serialization.ISerializable
public readonly struct IntPtr : IEquatable<IntPtr>, System.Runtime.Serialization.ISerializable
[System.Serializable]
public struct IntPtr : System.Runtime.Serialization.ISerializable
[System.Serializable]
[System.Runtime.InteropServices.ComVisible(true)]
public struct IntPtr : System.Runtime.Serialization.ISerializable
public struct IntPtr : System.Runtime.Serialization.ISerializable
type nativeint = struct
type nativeint = struct
    interface IFormattable
    interface ISerializable
type nativeint = struct
    interface ISpanFormattable
    interface IFormattable
    interface ISerializable
type nativeint = struct
    interface IFormattable
    interface IParsable<nativeint>
    interface ISpanFormattable
    interface ISpanParsable<nativeint>
    interface IAdditionOperators<nativeint, nativeint, nativeint>
    interface IAdditiveIdentity<nativeint, nativeint>
    interface IBinaryInteger<nativeint>
    interface IBinaryNumber<nativeint>
    interface IBitwiseOperators<nativeint, nativeint, nativeint>
    interface IComparisonOperators<nativeint, nativeint, bool>
    interface IEqualityOperators<nativeint, nativeint, bool>
    interface IDecrementOperators<nativeint>
    interface IDivisionOperators<nativeint, nativeint, nativeint>
    interface IIncrementOperators<nativeint>
    interface IModulusOperators<nativeint, nativeint, nativeint>
    interface IMultiplicativeIdentity<nativeint, nativeint>
    interface IMultiplyOperators<nativeint, nativeint, nativeint>
    interface INumber<nativeint>
    interface INumberBase<nativeint>
    interface ISubtractionOperators<nativeint, nativeint, nativeint>
    interface IUnaryNegationOperators<nativeint, nativeint>
    interface IUnaryPlusOperators<nativeint, nativeint>
    interface IShiftOperators<nativeint, int, nativeint>
    interface IMinMaxValue<nativeint>
    interface ISignedNumber<nativeint>
    interface ISerializable
type nativeint = struct
    interface IFormattable
    interface IParsable<nativeint>
    interface ISpanFormattable
    interface ISpanParsable<nativeint>
    interface IAdditionOperators<nativeint, nativeint, nativeint>
    interface IAdditiveIdentity<nativeint, nativeint>
    interface IBinaryInteger<nativeint>
    interface IBinaryNumber<nativeint>
    interface IBitwiseOperators<nativeint, nativeint, nativeint>
    interface IComparisonOperators<nativeint, nativeint, bool>
    interface IEqualityOperators<nativeint, nativeint, bool>
    interface IDecrementOperators<nativeint>
    interface IDivisionOperators<nativeint, nativeint, nativeint>
    interface IIncrementOperators<nativeint>
    interface IModulusOperators<nativeint, nativeint, nativeint>
    interface IMultiplicativeIdentity<nativeint, nativeint>
    interface IMultiplyOperators<nativeint, nativeint, nativeint>
    interface INumber<nativeint>
    interface INumberBase<nativeint>
    interface ISubtractionOperators<nativeint, nativeint, nativeint>
    interface IUnaryNegationOperators<nativeint, nativeint>
    interface IUnaryPlusOperators<nativeint, nativeint>
    interface IUtf8SpanFormattable
    interface IUtf8SpanParsable<nativeint>
    interface IShiftOperators<nativeint, int, nativeint>
    interface IMinMaxValue<nativeint>
    interface ISignedNumber<nativeint>
    interface ISerializable
type nativeint = struct
    interface IFormattable
    interface IParsable<nativeint>
    interface ISpanFormattable
    interface ISpanParsable<nativeint>
    interface IUtf8SpanFormattable
    interface IUtf8SpanParsable<nativeint>
    interface IAdditionOperators<nativeint, nativeint, nativeint>
    interface IAdditiveIdentity<nativeint, nativeint>
    interface IBinaryInteger<nativeint>
    interface IBinaryNumber<nativeint>
    interface IBitwiseOperators<nativeint, nativeint, nativeint>
    interface IComparisonOperators<nativeint, nativeint, bool>
    interface IEqualityOperators<nativeint, nativeint, bool>
    interface IDecrementOperators<nativeint>
    interface IDivisionOperators<nativeint, nativeint, nativeint>
    interface IIncrementOperators<nativeint>
    interface IModulusOperators<nativeint, nativeint, nativeint>
    interface IMultiplicativeIdentity<nativeint, nativeint>
    interface IMultiplyOperators<nativeint, nativeint, nativeint>
    interface INumber<nativeint>
    interface INumberBase<nativeint>
    interface ISubtractionOperators<nativeint, nativeint, nativeint>
    interface IUnaryNegationOperators<nativeint, nativeint>
    interface IUnaryPlusOperators<nativeint, nativeint>
    interface IShiftOperators<nativeint, int, nativeint>
    interface IMinMaxValue<nativeint>
    interface ISignedNumber<nativeint>
    interface ISerializable
type nativeint = struct
    interface ISerializable
[<System.Serializable>]
type nativeint = struct
    interface ISerializable
[<System.Serializable>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type nativeint = struct
    interface ISerializable
Public Structure IntPtr
Public Structure IntPtr
Implements IComparable, IComparable(Of IntPtr), IEquatable(Of IntPtr), IFormattable, ISerializable
Public Structure IntPtr
Implements IComparable, IComparable(Of IntPtr), IEquatable(Of IntPtr), ISerializable, ISpanFormattable
Public Structure IntPtr
Implements IAdditionOperators(Of IntPtr, IntPtr, IntPtr), IAdditiveIdentity(Of IntPtr, IntPtr), IBinaryInteger(Of IntPtr), IBinaryNumber(Of IntPtr), IBitwiseOperators(Of IntPtr, IntPtr, IntPtr), IComparable(Of IntPtr), IComparisonOperators(Of IntPtr, IntPtr, Boolean), IDecrementOperators(Of IntPtr), IDivisionOperators(Of IntPtr, IntPtr, IntPtr), IEqualityOperators(Of IntPtr, IntPtr, Boolean), IEquatable(Of IntPtr), IIncrementOperators(Of IntPtr), IMinMaxValue(Of IntPtr), IModulusOperators(Of IntPtr, IntPtr, IntPtr), IMultiplicativeIdentity(Of IntPtr, IntPtr), IMultiplyOperators(Of IntPtr, IntPtr, IntPtr), INumber(Of IntPtr), INumberBase(Of IntPtr), IParsable(Of IntPtr), ISerializable, IShiftOperators(Of IntPtr, Integer, IntPtr), ISignedNumber(Of IntPtr), ISpanParsable(Of IntPtr), ISubtractionOperators(Of IntPtr, IntPtr, IntPtr), IUnaryNegationOperators(Of IntPtr, IntPtr), IUnaryPlusOperators(Of IntPtr, IntPtr)
Public Structure IntPtr
Implements IAdditionOperators(Of IntPtr, IntPtr, IntPtr), IAdditiveIdentity(Of IntPtr, IntPtr), IBinaryInteger(Of IntPtr), IBinaryNumber(Of IntPtr), IBitwiseOperators(Of IntPtr, IntPtr, IntPtr), IComparable(Of IntPtr), IComparisonOperators(Of IntPtr, IntPtr, Boolean), IDecrementOperators(Of IntPtr), IDivisionOperators(Of IntPtr, IntPtr, IntPtr), IEqualityOperators(Of IntPtr, IntPtr, Boolean), IEquatable(Of IntPtr), IIncrementOperators(Of IntPtr), IMinMaxValue(Of IntPtr), IModulusOperators(Of IntPtr, IntPtr, IntPtr), IMultiplicativeIdentity(Of IntPtr, IntPtr), IMultiplyOperators(Of IntPtr, IntPtr, IntPtr), INumber(Of IntPtr), INumberBase(Of IntPtr), IParsable(Of IntPtr), ISerializable, IShiftOperators(Of IntPtr, Integer, IntPtr), ISignedNumber(Of IntPtr), ISpanParsable(Of IntPtr), ISubtractionOperators(Of IntPtr, IntPtr, IntPtr), IUnaryNegationOperators(Of IntPtr, IntPtr), IUnaryPlusOperators(Of IntPtr, IntPtr), IUtf8SpanParsable(Of IntPtr)
Public Structure IntPtr
Implements IEquatable(Of IntPtr), ISerializable
Public Structure IntPtr
Implements ISerializable
Inheritance
IntPtr
Attributes
Implements
IComparable IComparable<IntPtr> IEquatable<IntPtr> IFormattable ISerializable ISpanFormattable IComparable<TSelf> IEquatable<TSelf> IParsable<IntPtr> IParsable<TSelf> ISpanParsable<IntPtr> ISpanParsable<TSelf> IAdditionOperators<IntPtr,IntPtr,IntPtr> IAdditionOperators<TSelf,TSelf,TSelf> IAdditiveIdentity<IntPtr,IntPtr> IAdditiveIdentity<TSelf,TSelf> IBinaryInteger<IntPtr> IBinaryNumber<IntPtr> IBinaryNumber<TSelf> IBitwiseOperators<IntPtr,IntPtr,IntPtr> IBitwiseOperators<TSelf,TSelf,TSelf> IComparisonOperators<IntPtr,IntPtr,Boolean> IComparisonOperators<TSelf,TSelf,Boolean> IDecrementOperators<IntPtr> IDecrementOperators<TSelf> IDivisionOperators<IntPtr,IntPtr,IntPtr> IDivisionOperators<TSelf,TSelf,TSelf> IEqualityOperators<IntPtr,IntPtr,Boolean> IEqualityOperators<TSelf,TOther,TResult> IEqualityOperators<TSelf,TSelf,Boolean> IIncrementOperators<IntPtr> IIncrementOperators<TSelf> IMinMaxValue<IntPtr> IModulusOperators<IntPtr,IntPtr,IntPtr> IModulusOperators<TSelf,TSelf,TSelf> IMultiplicativeIdentity<IntPtr,IntPtr> IMultiplicativeIdentity<TSelf,TSelf> IMultiplyOperators<IntPtr,IntPtr,IntPtr> IMultiplyOperators<TSelf,TSelf,TSelf> INumber<IntPtr> INumber<TSelf> INumberBase<IntPtr> INumberBase<TSelf> IShiftOperators<IntPtr,Int32,IntPtr> IShiftOperators<TSelf,Int32,TSelf> ISignedNumber<IntPtr> ISubtractionOperators<IntPtr,IntPtr,IntPtr> ISubtractionOperators<TSelf,TSelf,TSelf> IUnaryNegationOperators<IntPtr,IntPtr> IUnaryNegationOperators<TSelf,TSelf> IUnaryPlusOperators<IntPtr,IntPtr> IUnaryPlusOperators<TSelf,TSelf> IUtf8SpanFormattable IUtf8SpanParsable<IntPtr> IUtf8SpanParsable<TSelf>

Examples

The following example uses managed pointers to reverse the characters in an array. After it initializes a String object and gets its length, it does the following:

  1. Calls the Marshal.StringToHGlobalAnsi method to copy the Unicode string to unmanaged memory as an ANSI (one-byte) character. The method returns an IntPtr object that points to the beginning of the unmanaged string. The Visual Basic example uses this pointer directly; in the C++, F# and C# examples, it is cast to a pointer to a byte.

  2. Calls the Marshal.AllocHGlobal method to allocate the same number of bytes as the unmanaged string occupies. The method returns an IntPtr object that points to the beginning of the unmanaged block of memory. The Visual Basic example uses this pointer directly; in the C++, F# and C# examples, it is cast to a pointer to a byte.

  3. The Visual Basic example defines a variable named offset that is equal to the length of the ANSI string. It is used to determine the offset into unmanaged memory to which the next character in the ANSI string is copied. Because its starting value is the length of the string, the copy operation will copy a character from the start of the string to the end of the memory block.

    The C#, F# and C++ examples call the ToPointer method to get an unmanaged pointer to the starting address of the string and the unmanaged block of memory, and they add one less than the length of the string to the starting address of the ANSI string. Because the unmanaged string pointer now points to the end of the string, the copy operation will copy a character from the end of the string to the start of the memory block.

  4. Uses a loop to copy each character from the string to the unmanaged block of memory.

    The Visual Basic example calls the Marshal.ReadByte(IntPtr, Int32) method to read the byte (or one-byte character) at a specified offset from the managed pointer to the ANSI string. The offset is incremented with each iteration of the loop. It then calls the Marshal.WriteByte(IntPtr, Int32, Byte) method to write the byte to the memory address defined by the starting address of the unmanaged block of memory plus offset. It then decrements offset.

    The C#, F# and C++ examples perform the copy operation, then decrement the pointer to the address of the next location in the unmanaged ANSI string and increment the pointer to the next address in the unmanaged block.

  5. All examples call the Marshal.PtrToStringAnsi to convert the unmanaged memory block containing the copied ANSI string to a managed Unicode String object.

  6. After displaying the original and reversed strings, all examples call the FreeHGlobal method to free the memory allocated for the unmanaged ANSI string and the unmanaged block of memory.

using namespace System;
using namespace System::Runtime::InteropServices;

class NotTooSafeStringReverse
{
public:
    static void Main()
    {
        String^ stringA = "I seem to be turned around!";
        int copylen = stringA->Length;

        // Allocate HGlobal memory for source and destination strings
        IntPtr sptr = Marshal::StringToHGlobalAnsi(stringA);
        IntPtr dptr = Marshal::AllocHGlobal(copylen + 1);

        char *src = (char *)sptr.ToPointer();
        char *dst = (char *)dptr.ToPointer();

        if (copylen > 0)
        {
            // set the source pointer to the end of the string
            // to do a reverse copy.
            src += copylen - 1;

            while (copylen-- > 0)
            {
                *dst++ = *src--;
            }
            *dst = 0;
        }
        String^ stringB = Marshal::PtrToStringAnsi(dptr);

        Console::WriteLine("Original:\n{0}\n", stringA);
        Console::WriteLine("Reversed:\n{0}", stringB);

        // Free HGlobal memory
        Marshal::FreeHGlobal(dptr);
        Marshal::FreeHGlobal(sptr);
    }
};

int main()
{
    NotTooSafeStringReverse::Main();
}

// The progam has the following output:
//
// Original:
// I seem to be turned around!
//
// Reversed:
// !dnuora denrut eb ot mees I
using System;
using System.Runtime.InteropServices;

class NotTooSafeStringReverse
{
    static public void Main()
    {
        string stringA = "I seem to be turned around!";
        int copylen = stringA.Length;

        // Allocate HGlobal memory for source and destination strings
        IntPtr sptr = Marshal.StringToHGlobalAnsi(stringA);
        IntPtr dptr = Marshal.AllocHGlobal(copylen + 1);

        // The unsafe section where byte pointers are used.
        unsafe
        {
            byte *src = (byte *)sptr.ToPointer();
            byte *dst = (byte *)dptr.ToPointer();

            if (copylen > 0)
            {
                // set the source pointer to the end of the string
                // to do a reverse copy.
                src += copylen - 1;

                while (copylen-- > 0)
                {
                    *dst++ = *src--;
                }
                *dst = 0;
            }
        }
        string stringB = Marshal.PtrToStringAnsi(dptr);

        Console.WriteLine("Original:\n{0}\n", stringA);
        Console.WriteLine("Reversed:\n{0}", stringB);

        // Free HGlobal memory
        Marshal.FreeHGlobal(dptr);
        Marshal.FreeHGlobal(sptr);
    }
}

// The progam has the following output:
//
// Original:
// I seem to be turned around!
//
// Reversed:
// !dnuora denrut eb ot mees I
#nowarn "9"
open System.Runtime.InteropServices
open FSharp.NativeInterop

[<EntryPoint>]
let main _ = 
    let stringA = "I seem to be turned around!"
    let mutable copylen = stringA.Length

    // Allocate HGlobal memory for source and destination strings
    let sptr = Marshal.StringToHGlobalAnsi stringA
    let dptr = Marshal.AllocHGlobal(copylen + 1)

    let mutable src: byte nativeptr = sptr.ToPointer() |> NativePtr.ofVoidPtr
    let mutable dst: byte nativeptr = dptr.ToPointer() |> NativePtr.ofVoidPtr

    if copylen > 0 then
        // set the source pointer to the end of the string
        // to do a reverse copy.
        src <- 
            NativePtr.toNativeInt src + nativeint (copylen - 1) 
            |> NativePtr.ofNativeInt

        while copylen > 0 do
            copylen <- copylen - 1
            NativePtr.read src |> NativePtr.write dst
            dst <- NativePtr.toNativeInt dst + 1n |> NativePtr.ofNativeInt
            src <- NativePtr.toNativeInt src - 1n |> NativePtr.ofNativeInt
        NativePtr.write dst 0uy

    let stringB = Marshal.PtrToStringAnsi dptr

    printfn $"Original:\n{stringA}\n"
    printfn $"Reversed:\n{stringB}"

    // Free HGlobal memory
    Marshal.FreeHGlobal dptr
    Marshal.FreeHGlobal sptr
    0

// The progam has the following output:
//
// Original:
// I seem to be turned around!
//
// Reversed:
// !dnuora denrut eb ot mees I
Imports System.Runtime.InteropServices

Public Module Example
    Public Sub Main()
        Dim stringA As String = "I seem to be turned around!"
        Dim copylen As Integer = stringA.Length

        ' Allocate HGlobal memory for source and destination strings
        Dim sptr As IntPtr = Marshal.StringToHGlobalAnsi(stringA)
        Dim dptr As IntPtr = Marshal.AllocHGlobal(copylen)
        Dim offset As Integer = copylen - 1

         For ctr As Integer = 0 To copylen - 1
            Dim b As Byte = Marshal.ReadByte(sptr, ctr)
            Marshal.WriteByte(dptr, offset, b)
            offset -= 1
         Next

        Dim stringB As String = Marshal.PtrToStringAnsi(dptr)

        Console.WriteLine("Original:{1}{0}{1}", stringA, vbCrLf)
        Console.WriteLine("Reversed:{1}{0}{1}", stringB, vbCrLf)

        ' Free HGlobal memory
        Marshal.FreeHGlobal(dptr)
        Marshal.FreeHGlobal(sptr)
    End Sub
End Module
' The example displays the following output:
'       Original:
'       I seem to be turned around!
'
'       Reversed:
'       !dnuora denrut eb ot mees I

Remarks

The IntPtr type is designed to be an integer whose size is the same as a pointer. That is, an instance of this type is expected to be 32 bits in a 32-bit process and 64 bits in a 64-bit process.

The IntPtr type can be used by languages that support pointers and as a common means of referring to data between languages that do and do not support pointers.

IntPtr objects can also be used to hold handles. For example, instances of IntPtr are used extensively in the System.IO.FileStream class to hold file handles.

Note

Using IntPtr as a pointer or a handle is error prone and unsafe. It is simply an integer type that can be used as an interchange format for pointers and handles due to being the same size. Outside of specific interchange requirements, such as for passing data to a language that doesn't support pointers, a correctly typed pointer should be used to represent pointers and SafeHandle should be used to represent handles.

This type implements the ISerializable. In .NET 5 and later versions, this type also implements the IFormattable interfaces. In .NET 7 and later versions, this type also implements the IBinaryInteger<TSelf>, IMinMaxValue<TSelf>, and ISignedNumber<TSelf> interfaces.

In C# starting from version 9.0, you can use the built-in nint type to define native-sized integers. This type is represented by the IntPtr type internally and provides operations and conversions that are appropriate for integer types. For more information, see nint and nuint types.

In C# starting from version 11 and when targeting the .NET 7 or later runtime, nint is an alias for IntPtr in the same way that int is an alias for Int32.

Constructors

IntPtr(Int32)

Initializes a new instance of IntPtr using the specified 32-bit signed integer.

IntPtr(Int64)

Initializes a new instance of IntPtr using the specified 64-bit signed integer.

IntPtr(Void*)

Initializes a new instance of IntPtr using the specified pointer to an unspecified type.

Fields

Zero

A read-only field that represents a signed integer that has been initialized to zero.

Properties

MaxValue

Gets the largest possible value of IntPtr.

MinValue

Gets the smallest possible value of IntPtr.

Size

Gets the size of this instance.

Methods

Abs(IntPtr)

Computes the absolute of a value.

Add(IntPtr, Int32)

Adds an offset to a signed integer.

Clamp(IntPtr, IntPtr, IntPtr)

Clamps a value to an inclusive minimum and maximum value.

CompareTo(IntPtr)

Compares the current instance with another object of the same type and returns an integer that indicates whether the current instance precedes, follows, or occurs in the same position in the sort order as the other object.

CompareTo(Object)

Compares the current instance with another object of the same type and returns an integer that indicates whether the current instance precedes, follows, or occurs in the same position in the sort order as the other object.

CopySign(IntPtr, IntPtr)

Copies the sign of a value to the sign of another value.

CreateChecked<TOther>(TOther)

Creates an instance of the current type from a value, throwing an overflow exception for any values that fall outside the representable range of the current type.

CreateSaturating<TOther>(TOther)

Creates an instance of the current type from a value, saturating any values that fall outside the representable range of the current type.

CreateTruncating<TOther>(TOther)

Creates an instance of the current type from a value, truncating any values that fall outside the representable range of the current type.

DivRem(IntPtr, IntPtr)

Computes the quotient and remainder of two values.

Equals(IntPtr)

Indicates whether the current object is equal to another object of the same type.

Equals(Object)

Returns a value indicating whether this instance is equal to a specified object.

GetHashCode()

Returns the hash code for this instance.

IsEvenInteger(IntPtr)

Determines if a value represents an even integral number.

IsNegative(IntPtr)

Determines if a value is negative.

IsOddInteger(IntPtr)

Determines if a value represents an odd integral number.

IsPositive(IntPtr)

Determines if a value is positive.

IsPow2(IntPtr)

Determines if a value is a power of two.

LeadingZeroCount(IntPtr)

Computes the number of leading zeros in a value.

Log2(IntPtr)

Computes the log2 of a value.

Max(IntPtr, IntPtr)

Compares two values to compute which is greater.

MaxMagnitude(IntPtr, IntPtr)

Compares two values to compute which is greater.

Min(IntPtr, IntPtr)

Compares two values to compute which is lesser.

MinMagnitude(IntPtr, IntPtr)

Compares two values to compute which is lesser.

Parse(ReadOnlySpan<Byte>, IFormatProvider)

Parses a span of UTF-8 characters into a value.

Parse(ReadOnlySpan<Byte>, NumberStyles, IFormatProvider)

Parses a span of UTF-8 characters into a value.

Parse(ReadOnlySpan<Char>, IFormatProvider)

Parses a span of characters into a value.

Parse(ReadOnlySpan<Char>, NumberStyles, IFormatProvider)

Converts the read-only span of characters representation of a number in a specified style and culture-specific format to its signed native integer equivalent.

Parse(String)

Converts the string representation of a number to its signed native integer equivalent.

Parse(String, IFormatProvider)

Converts the string representation of a number in a specified culture-specific format to its signed native integer equivalent.

Parse(String, NumberStyles)

Converts the string representation of a number in a specified style to its signed native integer equivalent.

Parse(String, NumberStyles, IFormatProvider)

Converts the string representation of a number in a specified style and culture-specific format to its signed native integer equivalent.

PopCount(IntPtr)

Computes the number of bits that are set in a value.

RotateLeft(IntPtr, Int32)

Rotates a value left by a given amount.

RotateRight(IntPtr, Int32)

Rotates a value right by a given amount.

Sign(IntPtr)

Computes the sign of a value.

Subtract(IntPtr, Int32)

Subtracts an offset from a signed integer.

ToInt32()

Converts the value of this instance to a 32-bit signed integer.

ToInt64()

Converts the value of this instance to a 64-bit signed integer.

ToPointer()

Converts the value of this instance to a pointer to an unspecified type.

ToString()

Converts the numeric value of the current IntPtr object to its equivalent string representation.

ToString(IFormatProvider)

Converts the numeric value of this instance to its equivalent string representation using the specified format and culture-specific format information.

ToString(String)

Converts the numeric value of the current IntPtr object to its equivalent string representation.

ToString(String, IFormatProvider)

Formats the value of the current instance using the specified format.

TrailingZeroCount(IntPtr)

Computes the number of trailing zeros in a value.

TryFormat(Span<Byte>, Int32, ReadOnlySpan<Char>, IFormatProvider)

Tries to format the value of the current instance as UTF-8 into the provided span of bytes.

TryFormat(Span<Char>, Int32, ReadOnlySpan<Char>, IFormatProvider)

Tries to format the value of the current instance into the provided span of characters.

TryParse(ReadOnlySpan<Byte>, IFormatProvider, IntPtr)

Tries to parse a span of UTF-8 characters into a value.

TryParse(ReadOnlySpan<Byte>, IntPtr)

Tries to convert a UTF-8 character span containing the string representation of a number to its signed integer equivalent.

TryParse(ReadOnlySpan<Byte>, NumberStyles, IFormatProvider, IntPtr)

Tries to parse a span of UTF-8 characters into a value.

TryParse(ReadOnlySpan<Char>, IFormatProvider, IntPtr)

Tries to parse a string into a value.

TryParse(ReadOnlySpan<Char>, IntPtr)

Converts the read-only span of characters representation of a number to its signed native integer equivalent. A return value indicates whether the conversion succeeded.

TryParse(ReadOnlySpan<Char>, NumberStyles, IFormatProvider, IntPtr)

Converts the read-only span of characters representation of a number in a specified style and culture-specific format to its signed native integer equivalent. A return value indicates whether the conversion succeeded.

TryParse(String, IFormatProvider, IntPtr)

Tries to parse a string into a value.

TryParse(String, IntPtr)

Converts the string representation of a number to its signed native integer equivalent. A return value indicates whether the conversion succeeded.

TryParse(String, NumberStyles, IFormatProvider, IntPtr)

Converts the string representation of a number in a specified style and culture-specific format to its signed native integer equivalent. A return value indicates whether the conversion succeeded.

Operators

Addition(IntPtr, Int32)

Adds an offset to a signed integer.

Equality(IntPtr, IntPtr)

Determines whether two specified instances of IntPtr are equal.

Explicit(Int32 to IntPtr)

Converts the value of a 32-bit signed integer to an IntPtr.

Explicit(Int64 to IntPtr)

Converts the value of a 64-bit signed integer to an IntPtr.

Explicit(IntPtr to Int32)

Converts the value of the specified IntPtr to a 32-bit signed integer.

Explicit(IntPtr to Int64)

Converts the value of the specified IntPtr to a 64-bit signed integer.

Explicit(IntPtr to Void*)

Converts the value of the specified IntPtr to a pointer to an unspecified type.

This API is not CLS-compliant.

Explicit(Void* to IntPtr)

Converts the specified pointer to an unspecified type to an IntPtr.

This API is not CLS-compliant.

Inequality(IntPtr, IntPtr)

Determines whether two specified instances of IntPtr are not equal.

Subtraction(IntPtr, Int32)

Subtracts an offset from a signed integer.

Explicit Interface Implementations

IAdditionOperators<IntPtr,IntPtr,IntPtr>.Addition(IntPtr, IntPtr)

Adds two values together to compute their sum.

IAdditionOperators<IntPtr,IntPtr,IntPtr>.CheckedAddition(IntPtr, IntPtr)

Adds two values together to compute their sum.

IAdditiveIdentity<IntPtr,IntPtr>.AdditiveIdentity

Gets the additive identity of the current type.

IBinaryInteger<IntPtr>.GetByteCount()

Gets the number of bytes that will be written as part of TryWriteLittleEndian(Span<Byte>, Int32).

IBinaryInteger<IntPtr>.GetShortestBitLength()

Gets the length, in bits, of the shortest two's complement representation of the current value.

IBinaryInteger<IntPtr>.TryReadBigEndian(ReadOnlySpan<Byte>, Boolean, IntPtr)
IBinaryInteger<IntPtr>.TryReadLittleEndian(ReadOnlySpan<Byte>, Boolean, IntPtr)
IBinaryInteger<IntPtr>.TryWriteBigEndian(Span<Byte>, Int32)

Tries to write the current value, in big-endian format, to a given span.

IBinaryInteger<IntPtr>.TryWriteLittleEndian(Span<Byte>, Int32)

Tries to write the current value, in little-endian format, to a given span.

IBinaryNumber<IntPtr>.AllBitsSet

Gets an instance of the binary type in which all bits are set.

IBitwiseOperators<IntPtr,IntPtr,IntPtr>.BitwiseAnd(IntPtr, IntPtr)

Computes the bitwise-and of two values.

IBitwiseOperators<IntPtr,IntPtr,IntPtr>.BitwiseOr(IntPtr, IntPtr)

Computes the bitwise-or of two values.

IBitwiseOperators<IntPtr,IntPtr,IntPtr>.ExclusiveOr(IntPtr, IntPtr)

Computes the exclusive-or of two values.

IBitwiseOperators<IntPtr,IntPtr,IntPtr>.OnesComplement(IntPtr)

Computes the ones-complement representation of a given value.

IComparisonOperators<IntPtr,IntPtr,Boolean>.GreaterThan(IntPtr, IntPtr)

Compares two values to determine which is greater.

IComparisonOperators<IntPtr,IntPtr,Boolean>.GreaterThanOrEqual(IntPtr, IntPtr)

Compares two values to determine which is greater or equal.

IComparisonOperators<IntPtr,IntPtr,Boolean>.LessThan(IntPtr, IntPtr)

Compares two values to determine which is less.

IComparisonOperators<IntPtr,IntPtr,Boolean>.LessThanOrEqual(IntPtr, IntPtr)

Compares two values to determine which is less or equal.

IDecrementOperators<IntPtr>.CheckedDecrement(IntPtr)

Decrements a value.

IDecrementOperators<IntPtr>.Decrement(IntPtr)

Decrements a value.

IDivisionOperators<IntPtr,IntPtr,IntPtr>.Division(IntPtr, IntPtr)

Divides one value by another to compute their quotient.

IEquatable<IntPtr>.Equals(IntPtr)

Returns a value that indicates whether this instance is equal to another signed integer.

IIncrementOperators<IntPtr>.CheckedIncrement(IntPtr)

Increments a value.

IIncrementOperators<IntPtr>.Increment(IntPtr)

Increments a value.

IMinMaxValue<IntPtr>.MaxValue

Gets the maximum value of the current type.

IMinMaxValue<IntPtr>.MinValue

Gets the minimum value of the current type.

IModulusOperators<IntPtr,IntPtr,IntPtr>.Modulus(IntPtr, IntPtr)

Divides two values together to compute their modulus or remainder.

IMultiplicativeIdentity<IntPtr,IntPtr>.MultiplicativeIdentity

Gets the multiplicative identity of the current type.

IMultiplyOperators<IntPtr,IntPtr,IntPtr>.CheckedMultiply(IntPtr, IntPtr)

Multiplies two values together to compute their product.

IMultiplyOperators<IntPtr,IntPtr,IntPtr>.Multiply(IntPtr, IntPtr)

Multiplies two values together to compute their product.

INumber<IntPtr>.MaxNumber(IntPtr, IntPtr)

Compares two values to compute which is greater and returning the other value if an input is NaN.

INumber<IntPtr>.MinNumber(IntPtr, IntPtr)

Compares two values to compute which is lesser and returning the other value if an input is NaN.

INumberBase<IntPtr>.IsCanonical(IntPtr)

Determines if a value is in its canonical representation.

INumberBase<IntPtr>.IsComplexNumber(IntPtr)

Determines if a value represents a complex number.

INumberBase<IntPtr>.IsFinite(IntPtr)

Determines if a value is finite.

INumberBase<IntPtr>.IsImaginaryNumber(IntPtr)

Determines if a value represents a pure imaginary number.

INumberBase<IntPtr>.IsInfinity(IntPtr)

Determines if a value is infinite.

INumberBase<IntPtr>.IsInteger(IntPtr)

Determines if a value represents an integral number.

INumberBase<IntPtr>.IsNaN(IntPtr)

Determines if a value is NaN.

INumberBase<IntPtr>.IsNegativeInfinity(IntPtr)

Determines if a value is negative infinity.

INumberBase<IntPtr>.IsNormal(IntPtr)

Determines if a value is normal.

INumberBase<IntPtr>.IsPositiveInfinity(IntPtr)

Determines if a value is positive infinity.

INumberBase<IntPtr>.IsRealNumber(IntPtr)

Determines if a value represents a real number.

INumberBase<IntPtr>.IsSubnormal(IntPtr)

Determines if a value is subnormal.

INumberBase<IntPtr>.IsZero(IntPtr)

Determines if a value is zero.

INumberBase<IntPtr>.MaxMagnitudeNumber(IntPtr, IntPtr)

Compares two values to compute which has the greater magnitude and returning the other value if an input is NaN.

INumberBase<IntPtr>.MinMagnitudeNumber(IntPtr, IntPtr)

Compares two values to compute which has the lesser magnitude and returning the other value if an input is NaN.

INumberBase<IntPtr>.MultiplyAddEstimate(IntPtr, IntPtr, IntPtr)

Computes an estimate of (left * right) + addend.

INumberBase<IntPtr>.One

Gets the value 1 for the type.

INumberBase<IntPtr>.Radix

Gets the radix, or base, for the type.

INumberBase<IntPtr>.TryConvertFromChecked<TOther>(TOther, IntPtr)
INumberBase<IntPtr>.TryConvertFromSaturating<TOther>(TOther, IntPtr)
INumberBase<IntPtr>.TryConvertFromTruncating<TOther>(TOther, IntPtr)
INumberBase<IntPtr>.TryConvertToChecked<TOther>(IntPtr, TOther)

Tries to convert an instance of the the current type to another type, throwing an overflow exception for any values that fall outside the representable range of the current type.

INumberBase<IntPtr>.TryConvertToSaturating<TOther>(IntPtr, TOther)

Tries to convert an instance of the the current type to another type, saturating any values that fall outside the representable range of the current type.

INumberBase<IntPtr>.TryConvertToTruncating<TOther>(IntPtr, TOther)

Tries to convert an instance of the the current type to another type, truncating any values that fall outside the representable range of the current type.

INumberBase<IntPtr>.Zero

Gets the value 0 for the type.

ISerializable.GetObjectData(SerializationInfo, StreamingContext)

Populates a SerializationInfo object with the data needed to serialize the current IntPtr object.

IShiftOperators<IntPtr,Int32,IntPtr>.LeftShift(IntPtr, Int32)

Shifts a value left by a given amount.

IShiftOperators<IntPtr,Int32,IntPtr>.RightShift(IntPtr, Int32)

Shifts a value right by a given amount.

IShiftOperators<IntPtr,Int32,IntPtr>.UnsignedRightShift(IntPtr, Int32)

Shifts a value right by a given amount.

ISignedNumber<IntPtr>.NegativeOne

Gets the value -1 for the type.

ISubtractionOperators<IntPtr,IntPtr,IntPtr>.CheckedSubtraction(IntPtr, IntPtr)

Subtracts two values to compute their difference.

ISubtractionOperators<IntPtr,IntPtr,IntPtr>.Subtraction(IntPtr, IntPtr)

Subtracts two values to compute their difference.

IUnaryNegationOperators<IntPtr,IntPtr>.CheckedUnaryNegation(IntPtr)

Computes the checked unary negation of a value.

IUnaryNegationOperators<IntPtr,IntPtr>.UnaryNegation(IntPtr)

Computes the unary negation of a value.

IUnaryPlusOperators<IntPtr,IntPtr>.UnaryPlus(IntPtr)

Computes the unary plus of a value.

Applies to

Thread Safety

This type is thread safe.

See also