Please include an example with the explanation.
Reviewing the basic terminology
It's usually good enough - unless you're programming assembly - to envisage a pointer containing a numeric memory address, with 1 refering to the second byte in the process's memory, 2 the third, 3 the fourth and so on....
When you want to access the data/value in the memory that the pointer points to - the contents of the address with that numerical index - then you dereference the pointer.
Different computer languages have different notations to tell the compiler or interpreter that you're now interested in the pointed-to value - I focus below on C and C++.
A pointer scenario
Consider in C, given a pointer such as
...four bytes with the numerical values used to encode the letters 'a', 'b', 'c', and a 0 byte to denote the end of the textual data, are stored somewhere in memory and the numerical address of that data is stored in
For example, if the string literal happened to be at address 0x1000 and
Note that there is no variable name/identifier for address 0x1000, but we can indirectly refer to the string literal using a pointer storing its address:
Dereferencing the pointer
To refer to the characters
You can also move pointers through the pointed-to data, dereferencing them as you go:
If you have some data that can be written to, then you can do things like this:
Above, you must have known at compile time that you would need a variable called
Dereferencing and accessing a structure data member
In C, if you have a variable that is a structure with data members, you can access those members using the
Multi-byte data types
To use a pointer, a computer program also needs some insight into the type of data that is being pointed at - if that data type needs more than one byte to represent, then the pointer normally points to the lowest-numbered byte in the data.
So, looking at a slightly more complex example:
Pointers to dynamically allocated memory
Sometimes you don't know how much memory you'll need until your program is running and sees what data is thrown at it... then you can dynamically allocate memory using
In C++, memory allocation is normally done with the
See also C++ smart pointers below.
Losing and leaking addresses
Often a pointer may be the only indication of where some data or buffer exists in memory. If ongoing use of that data/buffer is needed, or the ability to call
...or carefully orchestrate reversal of any changes...
C++ smart pointers
In C++, it's best practice to use smart pointer objects to store and manage the pointers, automatically deallocating them when the smart pointers' destructors run. Since C++11 the Standard Library provides two,
In C and C++, just as inbuilt numeric types don't necessarily default to
Further, when you assign
More about memory addresses, and why you probably don't need to know
More strictly, initialised pointers store a bit-pattern identifying either
The simple case is where this is a numeric offset into the process's entire virtual address space; in more complex cases the pointer may be relative to some specific memory area, which the CPU may select based on CPU "segment" registers or some manner of segment id encoded in the bit-pattern, and/or looking in different places depending on the machine code instructions using the address.
For example, an
3GL programming languages like C and C++ tend to hide this complexity, such that:
Dereferencing a pointer means getting the value that is stored in the memory location pointed by the pointer. The operator * is used to do this, and is called the dereferencing operator.
A pointer is a "reference" to a value.. much like a library call number is a reference to a book. "Dereferencing" the call number is physically going through and retrieving that book.
If the book isn't there, the librarian starts shouting, shuts the library down, and a couple of people are set to investigate the cause of a person going to find a book that isn't there.
Code and explanation from Pointer Basics:
In Simple words, dereferencing means accessing the value from certain Memory location against which that pointer is pointing.
I think all the above answers are wrong, as they state that dereferencing means accessing the actual value. Wikipedia gives the correct definition instead: https://en.wikipedia.org/wiki/Dereference_operator
That said, we can dereference the pointer without ever accessing the value it points to. For example:
We dereferenced the NULL pointer without accessing its value. Or we could do:
again, dereferencing but never accessing the value. Such code will NOT crash: the crash happens when you actually access the data by an invalid pointer. However, unfortunately, according the the standard, dereferencing an invalid pointer is an undefined behaviour (with a few exceptions), even if you don't try to touch the actual data.
So in short: dereferencing the pointer means applying the dereference operator to it. That operator just returns an l-value for your future use.
protected by Marco A. May 13 '15 at 16:50
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