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i'm an undergrad engineering student taking a senior/graduate-level CS course on simulation, and am in way over my head. I know that all of these can be found by searching resources online, but they are all such disjoint and shallow questions that it has proven difficult.

I'm just hoping for a few quick answer to a few questions.


I've seen "&" used a few different ways (address location, and to make permanent changes to variables passed as local variables into functions), but I have no idea what it does in this context. Event is a class.

bool operator>( const Event& e ) const {
            return simulation_time > e.simulation_time;
        }

After typing this out I realized that that operator is being applied to a pointer (address).. so it seems that "const Event& e" is equivalent to "const Event &e" (which I know is equivalent to "const Event & e")?

that is evil.


Next: what is the benefit of using const in such a straight forward situation?


an excerpt from a program:

my_heap->insert_event(event1); 

[my_heap is an instance of a class which contains a vector based heap (and a function insert_event, which adds the event to the heap).]

What does the "->" mean?


All of the examples on pointers that I have seen go something like

int i = 2
int *p;
p = &i;

which is fine and dandy, but I've got this going on:

MinHeap *my_heap = new MinHeap();

and I don't understand what it's saying. I really can't even formulate an intelligent question. It just doesnt seem to me that it's pointing to an address at all...

-------------------------------

thanks in advance to anyone who takes the time to respond

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closed as not a real question by AProgrammer, Bill the Lizard Sep 2 '12 at 14:19

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

3  
All of this would be explained in every beginners book on C++, so I suggest you start there. –  Joachim Pileborg Aug 31 '12 at 6:22
2  
"Today I'll cook French, though I don't know how to cook. Could you please tell me what a knife is for?" That's what you're requesting, but for C++. Learn to cook, then cook. Get a book or whatever, because this question is really about C++ (even C) basics. –  Geoffroy Aug 31 '12 at 6:31
    
Voted to close in the not a real question category, subcategory overly broad. You ask us to write a beginners' book. –  AProgrammer Aug 31 '12 at 6:58

3 Answers 3

The & operator

Has 2 primary uses: one is to take the address of a variable in memory, as you seem to be aware. So if I have int count = 0; the value of count is 0, but where is this variable in memory? &count will return this address, which can be useful in a variety of ways.

The other use is to declare/define a reference to a type. Note that in this context & is no longer an operator, and can not be given custom behavior in a user defined class. int & myRef represents a reference to an integer, which is very much like a pointer, but instead of having a variable to hold some address in memory, you are using one variable as a sort of pseudonym for another. int &myRef = count;, after this, count and myRef can be used 100% interchangeably. Note that this use only comes when defining or declaring a variable, never as the right hand side of an expression, or in other contexts. As you noted, whitespace is ignored for references, which is the same behavior as pointers.

const

It's always good behavior to use const when you can (in my opinion). It makes clear how variables will be used. Imagine if you have a function void foo(int & someIntRef) or void foo(int * someIntPtr). When I call foo, it is not guaranteed that the variable I pass in won't be changed. Maybe the integer I am passing in is something I am keeping track of very closely, and don't want anyone else to maybe or maybe not change it, so I would be forced to copy it to ensure the definition of foo, which I may not even have access to, doesn't alter the variable. In most situations, if I saw this function signature, I would assume the function would alter my variable. Also, there is a performance benefit if the compiler knows a function parameter is const, but as you are new to c++ it might be best to not worry about exactly how/why at this point.

-> operator

This is an operator (note, it may be overridden in custom classes, but it's very rare) that almost always access a data member or member function of a pointer to an object. If I have a struct:

struct Shape
{
    int mSideCount;
};

...

Shape SomeShape;
Shape * ptrShape = &SomeShape;

I can access the mSideCount data member of SomeShape with SomeShape.mSideCount. But what about ptrShape? It's not a Shape, it's a pointer (specifically, Shape *). I have to dereference it first, with the * operator, like (*ptrShape).mSideCount. It's kinda ugly. To make life easier, -> exists to combine the dereference and member access: ptrShape->mSideCount.

new operator

new allocates memory for an object, and ensures it is constructed correctly (calls an appropriate constructor for the object, which is a member function that looks like Shape(){} in the case of the Shape example above). The big difference is where the memory comes from. When you create a variable like SomeShape above, it is created in a section of memory called the stack (hence, stack overflow). The stack usually has a relatively small maximum size, and any variables declared on the stack go away once the block (inside function brackets, loop brackets, whatever the block is) ends, so can't be use in other functions easily. new on the other hand by default creates the object using memory on the heap, which is more closely "all the memory on your system". There are books written about memory management and architecture alone, so this is an extremely brief introduction.

As many others have noted - these are fairly basic c++ concepts. You will be back here soon when you see other even less common language features. Get a good book, read through it, understand everything it says, do some of the examples, and then come here to fill in gaps in your knowledge that you still can't wrap your head around. I personally like c++ Dietle and Dietle, but anything will help you.

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Note that in int & myRef, & is not an operator, it is a reference qualifier. –  Jesse Good Aug 31 '12 at 6:37
    
Good point, I'm sure I made a couple other small errors in the explanation. Not certain how better to generalize & though - I can't say 'symbol' due to other meanings of that word in c++ context. –  Rollie Aug 31 '12 at 6:46
    
As long as the OP understands the reason why spaces don't matter is because & is not an operator (in the question, the OP mentions the & operator). In the C++ standard, they refer to & in that context as a ref-qualifier. –  Jesse Good Aug 31 '12 at 6:48

There is no difference between const Event& e and const Event &e. Arrow operator -> is class member access operator used for pointers.

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what is the benefit of using const in such a straight forward situation?

This situation is called passing an argument by constant reference. Passing arguments just by value causes a copy to be made of that argument and that copy is used within the function. Passing by constant reference passes a reference to a function that is const - that means that the object is not copied. The const part ensures that you are not able to modify the reference argument (in the same way that you cannot change a regular constant variable)

MinHeap *my_heap = new MinHeap();

This is dynamic memory allocation. The new operator creates memory on the heap in which to place a new object of type MinHeap. After the space is allocated the new operator also calls the constructor that class and the returns a pointer to that object which you store as my_heap in your code. You then can modify the object that your pointer points to using the -> operator.

You should really consider buying an introductory text on C++ where these things are described in more detail

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