Its not about a linked list.
- The
.
is used to refer a structure component when the structure object is known
- The
->
is used to refer a structure component when the address of the structure object is known
Like
node k, *m, *n;
m = &k;
n = new node;
k.info = "Hello"; // k is a node type object so use directly . operator
m->info = "Hi"; // m is a pointer to an object to type node, so use -> operator
n->info = "Man"; // n is a pointer to an object to type node, so use -> operator
*(m).info = "This"; // *(m) refers to an object itself, we use . operator on it
*(n).info = "Is a test"; // *(n) refers to an object itself, we use . opeartor on it
All of there are valid syntax
- When you do
node k;
inside a function it is generally allocated on the stack
- When you do
static node k;
or declare node k;
as global, it is allocated on the .data
or similar section of the executable
- When you use
new
to allocate some memory it is generally allocated from the heap
In the books the second example is used because, you do not know in advance how many nodes would be used, so it is not practical to allocate node as local variables with tons of variable definitions. Instead a pointer is used to allocate the memory temporarily, initialize them and then link it to an appropriate position of the list. In future the address references of the pointer links in the linked lists would let us access the nodes of the linked list in the order of the linking. In this way we have used node *k; k = new node;
so we have an address to an object of type node
therefore it is natural to use k->info;
but you can use any syntax. You need to remember that on the left hand side of the ->
should be an address to the type of class/structure of which the member you want to access, and on the left hand side of the .
operator should be the object itself.
PS. You should free the memory by delete
(which you allocated with new
) after you have finished using.