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What are the barriers to understanding pointers and what can be done to overcome them?

Probably the silliest question I'll be asking on here, but a year's worth of random googling about when the thought came onto my mind has gotten me nowhere.

Would someone care to explain to me the use of pointers in C(++), why they are useful, and the practical application of pointers?

What I already know:

  1. The & pointer, when preceding a variable name, changes the reference to refer to the variable's address in memory.
  2. Pointers save space on the stack.
  3. It's possible to get by without pointers, though libraries such as the standard library require basic knowledge of them, which severely limits what you can do if you choose not to learn them.

For those attempting to explain--if it helps at all--I have 5 years of amateur experience in Java, which--in practice--does not handle pointers the way C does (however, Java does utilize pointers--see the NullPointerException for proof of that).

Thanks in advance!

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marked as duplicate by Xeo, Anycorn, Duck, Ben Voigt, Karl Bielefeldt May 12 '11 at 2:54

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
    
stackoverflow.com/questions/162941/why-use-pointers - in C++ code (not C code in C++ guise), explicit pointer usage can be reduced because the standard library provides abstractions like containers and strings. –  birryree May 12 '11 at 2:40
    
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3 Answers

Every object "reference" in Java is actually a pointer. When you pass an object as a parameter to a method in Java, you're effectively passing a pointer to the object; the actual object is not copied or anything. Both the caller and callee can refer to the same object. This probably seems natural to you.

In contrast, in C++, by default if you pass an object to a method, the object is copied. If you change the object in the method, the original object in the caller remains unchanged. This should seem weird to you.

But if you use pointers in C++, then C++ objects act like Java objects. Objects retain their identity, instead of being constantly copied and destroyed. Whew!

References in C++ are sort of pointers in disguise; if you pass an object to a method by reference, then both the caller and callee refer to the same object, but you can't make the variable in the callee refer to a different object without damaging the original object.

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I half-wonder if the name 'pointer' is misleading, because in every attempt of mine to study pointers, they are said to point to a variable or memory address, and it is never clarified what they mean by that. I suppose I understand what you're getting at here. –  wpreston May 12 '11 at 20:31
    
I sometimes like to use a pet leash as a metaphor, especially since everybody likes to use Animal/Dog/Cat to explain polymorphism. If you are holding a Dog, it's a Dog. If you're holding a leash, it's a leash -- but it's attached to a Dog. It's a leash-to-Dog. You can take the leash and attach it to a different Dog, if you like. Or you can attach it to no Dog (a null leash!) The leash is a sort of handle through which you can access the Dog's basic functionality (continued...) –  Ernest Friedman-Hill May 13 '11 at 2:23
    
You can hand the leash to somebody, and then they have access to the Dog. You can attach more than one leash to the same Dog. Only one person can hold a Dog at once, but any number can hold a leash attached to that Dog. Anyway, the leash is a pointer-to-Dog. –  Ernest Friedman-Hill May 13 '11 at 2:23
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There's no simple answer to your question. You'll just need to study it a while.

But let me say this: At the machine level, microprocessors work with memory and registers. Pointers are simply a feature that allows you to work directly with memory also. It's what the computer does anyway. And there are many ways this can make code more flexible, efficient, or easier to implement.

For someone who has used them for many years, they seem the most natural thing in the world. For languages like C#, they are still very much present even if the language assumes control over them.

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Pointers do not save space on the stack in so much as that is their primary function.

Pointers are variables that store the address in memory of some piece of data. This address is stored in a variable much like you can use a variable i to store the index of some piece of data in an array. The i is not the data but it tells you where it can be found in the array. A pointer is not the data but it tells you where it can be found in memory.

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