[ This article is for Windows Phone 8 developers. If you’re developing for Windows 10, see the latest documentation. ]
Loads an object reference as a type O (object reference) onto the evaluation stack indirectly.
Assembly: mscorlib (in mscorlib.dll)
Public Shared ReadOnly Ldind_Ref As OpCode
public static readonly OpCode Ldind_Ref
The following table lists the instruction's hexadecimal and Microsoft intermediate language (MSIL) assembly format, along with a brief reference summary:
Loads the object reference at address addr onto the stack as a type O
The stack transitional behavior, in sequential order, is:
An address is pushed onto the stack.
The address is popped from the stack; the object reference located at the address is fetched.
The fetched reference is pushed onto the stack.
The ldind.ref instruction indirectly loads the object reference the specified address (of type native int, &, or *) onto the stack as type O.
All of the ldind instructions are shortcuts for a Ldobj instruction that specifies the corresponding built-in value class.
Note that integer values of less than 4 bytes are extended to int32 (not native int) when they are loaded onto the evaluation stack. Floating-point values are converted to F type when loaded onto the evaluation stack.
Correctly formed MSIL ensures that the ldind instructions are used in a manner consistent with the type of the pointer.
The address initially pushed onto the stack must be aligned to the natural size of objects on the machine or a NullReferenceException can occur (see the Unaligned prefix instruction for preventative measures). The results of all MSIL instructions that return addresses (for example, Ldloca and Ldarga) are safely aligned. For datatypes larger than 1 byte, the byte ordering is dependent on the target CPU. Code that depends on byte ordering might not run on all platforms.
NullReferenceException can be thrown if an invalid address is detected.
The following Emit method overload can use the ldind.ref opcode:
Windows Phone OS
Supported in: 8.1, 8.0, 7.1