I am a C#/Java developer trying to learn C++. As I try to learn the concept of pointers, I am struck with the thought that I must have dealt with this concept before. How can pointers be explained using only concepts that are familiar to a .NET or Java developer? Have I really never dealt with this, is it just hidden to me, or do I use it all the time without calling it that?
Java objects in C++
A Java object is the equivalent of a C++ shared pointer.
A C++ pointer is like a Java object without the garbage collection built in.
C++ has three ways of allocating objects:
You are "using pointers" all the time in C#, it's just hidden from you.
The best way I reckon to approach the problem is to think about the way a computer works. Forget all of the fancy stuff of .NET: you have the memory, which just holds byte values, and the processor, which just does things to these byte values.
The value of a given variable is stored in memory, so is associated with a memory address. Rather than having to use the memory address all the time, the compiler lets you read from it and write to it using a name.
Furthermore, you can choose to interpret a value as a memory address at which you wish to find another value. This is a pointer.
For example, lets say our memory contains the following values:
Let's define a variable,
Let's now define a pointer,
An important concept to note is that there is no such thing as a type as far as memory is concerned: there are just byte values. You can choose to interpret these byte values however you like. For example, dereferencing a char pointer will just get 1 byte representing an ASCII code, but dereferencing an int pointer may get 4 bytes making up a 32 bit value.
Looking at another example, you can create a string in C with the following code:
What that does is says the following:
If you were to look at the value of
If you increment the pointer,
If you end up going past the end of the string, there's no telling what you'll be pointing at; but your program will still dutifully attempt to interpret it as a character, even if the value was actually supposed to represent an integer for example. You may well be trying to access memory which is not allocated to your program however, and your program will be killed by the operating system.
A final useful tip: arrays and pointer arithmetic are the same thing, it's just syntactic sugar. If you have a variable,
is completely equivalent to
A pointer is the address of an object.
Well, technically a pointer value is the address of an object. A pointer object is an object (variable, call it what you prefer) capable of storing a pointer value, just as an
["Object" in C++ includes instances of class types, and also of built-in types (and arrays, etc). An
Pointers also have static type, telling the programmer and the compiler what type of object it's the address of.
What's an address?
The consequences of using pointers are in some ways the same as the consequences of using references in Java and C# - you're referring to an object indirectly. So you can copy a pointer value around between function calls without having to copy the whole object. You can change an object via one pointer, and other bits of code with pointers to the same object will see the changes. Sharing immutable objects can save memory compared with lots of different objects all having their own copy of the same data that they all need.
C++ also has something it calls "references", which share these properties to do with indirection but are not the same as references in Java. Nor are they the same as pointers in C++ (that's another question).
"I am struck with the thought that I must have dealt with this concept before"
Not necessarily. Languages may be functionally equivalent, in the sense that they all compute the same functions as a Turing machine can compute, but that doesn't mean that every worthwhile concept in programming is explicitly present in every language.
If you wanted to simulate the C memory model in Java or C#, though, I suppose you'd create a very large array of bytes. Pointers would be indexes in the array. Loading an
Literally the closest the Java language comes to the "address of an object" is that the default
[*] well, not multiplying and adding 4 bytes to get an int, not even shifting and ORing, but "loading" an int from 4 bytes of memory.
References in C# act the same way as pointers in C++, without all the messy syntax.
Consider the following C# code:
Since classes are references types, we know that we are passing an existing instance of
In C++, we use pointers to make this explicit:
"How can pointers be explained using only concepts that are familiar to a .NET or Java developer? " I'd suggest that there are really two distinct things that need to be learnt.
The first is how to use pointers, and heap allocated memory, to solve specific problems. With an appropriate style, using shared_ptr<> for example, this can be done in a manner analogous to that of Java. A shared_ptr<> has a lot in common with a Java object handle.
Secondly, however, I would suggest that pointers in general are a fundamentally lower level concept that Java, and to a lesser extent C#, deliberately hides. To program in C++ without moving to that level will guarantee a host of problems. You need to think in terms of the underlying memory layout and think of pointers as literally pointers to specific pieces of storage.
To attempt to understand this lower level in terms of higher concepts would be an odd path to take.
Get two sheets of large format graph paper, some scissors and a friend to help you.
Each square on the sheets of paper represents one byte.
One sheet is the stack.
The other sheet is the heap. Give the heap to your friend - he is the memory manager.
You are going to pretend to be a C program and you'll need some memory. When running your program, cut out chunks from the stack and the heap to represent memory allocation.
Try with some more complex programs.
Explain the difference between the stack and the heap and where objects go.
Value types such as structs (both C++ and C#) go on the stack. Reference types (class instances) get put on the heap. A pointer (or reference) points to the memory location on the heap for that specific instance.
Reference type is the key word. Using a pointer in C++ is like using
Managed apps make working with this stuff easy so .NET devs are spared the hassle and confusion. Glad I don't do C anymore.
The key for me was to understand the way memory works. Variables are stored in memory. The places in which you can put variables in memory are numbered. A pointer is a variable that holds this number.
Any C# programmer that understands the semantic differences between classes and structs should be able to understand pointers. I.e., explaining in terms of value vs. reference semantics (in .NET terms) should get the point across; I wouldn't complicate things by trying to explain in terms of
In C#, all references to classes are roughly the equivalent to pointers in the C++ world. For value types (structs, ints, etc..) this is not the case.
Passing a parameter using the
If the parameter is a class, it would be like passing a pointer by reference.