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Suppose I define this structure:

struct Point {
   double x, y;

Now, suppose I create a dynamic array of this type:

Point *P = new Point[10];

Why do I use P[k].x and P[k].y instead of P[k]->x and P[k]->y to access the k-th point's elements?

I thought you had to use the latter for pointers.

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You don't use P.x and P.y. Try it. –  Steve Jessop Nov 20 '12 at 15:27
P.x and P.y would be errors. I guess you mean P[0].x and P[1].y, and that makes all the difference. Short answer P might be a pointer, but P[0] isn't, it's an object.. –  john Nov 20 '12 at 15:27
Now for fun, try this Point **P = new Point*[10]; p[k]->x = 1.0;. That compiles because now you have an array of pointers, not an array of objects. –  john Nov 20 '12 at 15:32

4 Answers 4

up vote 11 down vote accepted

Actually, you use p[index].x and p[index].y to access elements of the struct inside an array, because in this case you are using a pointer to refer to a dynamically allocated array.

The ptr->member operator is simply a shorthand for (*ptr).member. In order to use it, you need a pointer on the left-hand side:

Point *p = new Point;
p->x = 12.34;
p->y = 56.78;

Note that even for a dynamically allocated array the -> operator would have worked:

Point *p = new Point[10];
p->x = 12.34;
p->y = 56.78;

This is equivalent to

p[0].x = 12.34;
p[0].y = 56.78;

because a pointer to an array is equal to the pointer to its first element.

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Why do I use P[k].x and P[k].y instead of P[k]->x and P[k]->y to access the k-th point's elements?

Because P[k] is not a pointer, it is the object at the kth position and its type is Point, not Point*. For example:

Point p = P[0]; // Copy 0th object
p.x; // Access member x
Point* pp = &(P[0]); // Get address of 0th element, equivalent to just P
pp->x; // Access member x
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In general the arrow -> operator is used to dereference a pointer. But in this case, P is an array of Points. if P was an array of Point pointers then you would have uses the latter

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Because you have created a dynamically allocated array that holds Point objects, not Point*. You access each member via operator[]:

p[0].x = 42;
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