1) The dot operator in C is just a language construct that allows you to access members of a structure. You are using it to access the member of a structure,SO it's perfectly legal.There is no reason why it shouldn't work.
In C# you can also use "." to call a function inside an object.
That is to say,if you have the following class in C#
public class foo()
public void print_hello()
You would use it in the following way:
foo object1 = new foo();
declares s1 as a pointer to the structure stat.But this isn't the end of it.You can use this to point to several regions of memory,each one containing a stack structure.
When you declare an array (for example an array of int) you can do it the traditional way.
int integersArray ;
(this way the program allocates memory automatically,without you having to worry about it).
You can also use pointers.In wich case you would declare your array as follows.
int * integersArray;
This can be a pointer to one or various segments of memory,depending on how you allocate it.
Please note that the above code unlike the previous one,does not allocate memory,it simply declares a pointer to a structure.You need to explicitly allocate memory by doing
integersArray = malloc(10*sizeOf(int));
Wich will allocate enough memory to hold 10 times the size of an int.That is,10 integers.
In both cases you can use integersArray as a normal array and the code
In the second case you can move trough the array by incrementing or decrementing the pointer.
You are moving the pointer to the next memory section.If you do integersArray+=11; ,given that your array has 10 positions,you are now in an invalid segment of memory and anything can happen (if you end up in a protected memory segment,your program,as pointed out in a comment above WILL be terminated).
@Alex: Segmentation. So long as his random pointer dereferences (by chance) fall within his memory segment, C won't complain, and he'll receive whatever garbage happens to sit at that memory location. As soon as he reaches outside of his segment, the kernel will likely kill his process. – jforberg 1 hour ago
Your program is basically doing the same thing,but using s1 instead.
3) This part of your code
is allocating memory,enough as to hold one structure of type stack.
In generall,to allocate memory for n elements you would do
yourPointer = malloc(n*sizeof(structure));
So why is your program working when you try to access your structure like this?
My best guess is that you are lucky enough to be accessing valid memory.But this may not allways be the case. I suggest you to be very carefull when dealing with dynamic memory.
NOTE: even if the above was clear enough I strongly recomend you to check K&R's book,wich explains it more clearly.