A pointer for accessing and manipulating data of a specific type.

    @frozen struct UnsafeMutablePointer<Pointee>


    You use instances of the UnsafeMutablePointer type to access data of a specific type in memory. The type of data that a pointer can access is the pointer’s Pointee type. UnsafeMutablePointer provides no automated memory management or alignment guarantees. You are responsible for handling the life cycle of any memory you work with through unsafe pointers to avoid leaks or undefined behavior.

    Memory that you manually manage can be either untyped or bound to a specific type. You use the UnsafeMutablePointer type to access and manage memory that has been bound to a specific type.

    Understanding a Pointer’s Memory State

    The memory referenced by an UnsafeMutablePointer instance can be in one of several states. Many pointer operations must only be applied to pointers with memory in a specific state—you must keep track of the state of the memory you are working with and understand the changes to that state that different operations perform. Memory can be untyped and uninitialized, bound to a type and uninitialized, or bound to a type and initialized to a value. Finally, memory that was allocated previously may have been deallocated, leaving existing pointers referencing unallocated memory.

    Uninitialized Memory

    Memory that has just been allocated through a typed pointer or has been deinitialized is in an uninitialized state. Uninitialized memory must be initialized before it can be accessed for reading.

    You can use methods like initialize(repeating:count:), initialize(from:count:), and moveInitialize(from:count:) to initialize the memory referenced by a pointer with a value or series of values.

    Initialized Memory

    Initialized memory has a value that can be read using a pointer’s pointee property or through subscript notation. In the following example, ptr is a pointer to memory initialized with a value of 23:

    let ptr: UnsafeMutablePointer<Int> = ...
    // ptr.pointee == 23
    // ptr[0] == 23

    Accessing a Pointer’s Memory as a Different Type

    When you access memory through an UnsafeMutablePointer instance, the Pointee type must be consistent with the bound type of the memory. If you do need to access memory that is bound to one type as a different type, Swift’s pointer types provide type-safe ways to temporarily or permanently change the bound type of the memory, or to load typed instances directly from raw memory.

    An UnsafeMutablePointer<UInt8> instance allocated with eight bytes of memory, uint8Pointer, will be used for the examples below.

    var bytes: [UInt8] = [39, 77, 111, 111, 102, 33, 39, 0]
    let uint8Pointer = UnsafeMutablePointer<UInt8>.allocate(capacity: 8)
    uint8Pointer.initialize(from: &bytes, count: 8)

    When you only need to temporarily access a pointer’s memory as a different type, use the withMemoryRebound(to:capacity:) method. For example, you can use this method to call an API that expects a pointer to a different type that is layout compatible with your pointer’s Pointee. The following code temporarily rebinds the memory that uint8Pointer references from UInt8 to Int8 to call the imported C strlen function.

    // Imported from C
    func strlen(_ __s: UnsafePointer<Int8>!) -> UInt
    let length = uint8Pointer.withMemoryRebound(to: Int8.self, capacity: 8) {
        return strlen($0)
    // length == 7

    When you need to permanently rebind memory to a different type, first obtain a raw pointer to the memory and then call the bindMemory(to:capacity:) method on the raw pointer. The following example binds the memory referenced by uint8Pointer to one instance of the UInt64 type:

    let uint64Pointer = UnsafeMutableRawPointer(uint8Pointer)
                              .bindMemory(to: UInt64.self, capacity: 1)

    After rebinding the memory referenced by uint8Pointer to UInt64, accessing that pointer’s referenced memory as a UInt8 instance is undefined.

    var fullInteger = uint64Pointer.pointee          // OK
    var firstByte = uint8Pointer.pointee             // undefined

    Alternatively, you can access the same memory as a different type without rebinding through untyped memory access, so long as the bound type and the destination type are trivial types. Convert your pointer to an UnsafeMutableRawPointer instance and then use the raw pointer’s load(fromByteOffset:as:) and storeBytes(of:toByteOffset:as:) methods to read and write values.

    let rawPointer = UnsafeMutableRawPointer(uint64Pointer)
    let fullInteger = rawPointer.load(as: UInt64.self)   // OK
    let firstByte = rawPointer.load(as: UInt8.self)      // OK

    Performing Typed Pointer Arithmetic

    Pointer arithmetic with a typed pointer is counted in strides of the pointer’s Pointee type. When you add to or subtract from an UnsafeMutablePointer instance, the result is a new pointer of the same type, offset by that number of instances of the Pointee type.

    // 'intPointer' points to memory initialized with [10, 20, 30, 40]
    let intPointer: UnsafeMutablePointer<Int> = ...
    // Load the first value in memory
    let x = intPointer.pointee
    // x == 10
    // Load the third value in memory
    let offsetPointer = intPointer + 2
    let y = offsetPointer.pointee
    // y == 30

    You can also use subscript notation to access the value in memory at a specific offset.

    let z = intPointer[2]
    // z == 30

    Implicit Casting and Bridging

    When calling a function or method with an UnsafeMutablePointer parameter, you can pass an instance of that specific pointer type or use Swift’s implicit bridging to pass a compatible pointer.

    For example, the printInt(atAddress:) function in the following code sample expects an UnsafeMutablePointer<Int> instance as its first parameter:

    func printInt(atAddress p: UnsafeMutablePointer<Int>) {

    As is typical in Swift, you can call the printInt(atAddress:) function with an UnsafeMutablePointer instance. This example passes intPointer, a mutable pointer to an Int value, to print(address:).

    printInt(atAddress: intPointer)
    // Prints "42"

    Alternatively, you can use Swift’s implicit bridging to pass a pointer to an instance or to the elements of an array. The following example passes a pointer to the value variable by using inout syntax:

    var value: Int = 23
    printInt(atAddress: &value)
    // Prints "23"

    A mutable pointer to the elements of an array is implicitly created when you pass the array using inout syntax. This example uses implicit bridging to pass a pointer to the elements of numbers when calling printInt(atAddress:).

    var numbers = [5, 10, 15, 20]
    printInt(atAddress: &numbers)
    // Prints "5"

    No matter which way you call printInt(atAddress:), Swift’s type safety guarantees that you can only pass a pointer to the type required by the function—in this case, a pointer to an Int.





    Instance Subscripts

    Instance Properties


    Type Methods

    Instance Methods


    Type Operators




      Removed Members

      Instance Properties

      Instance Methods