ผลต่างระหว่างรุ่นของ "Adt lab/pointers"
Jittat (คุย | มีส่วนร่วม) |
Jittat (คุย | มีส่วนร่วม) |
||
แถว 60: | แถว 60: | ||
We can change <tt>p</tt> to point to other places. | We can change <tt>p</tt> to point to other places. | ||
− | == Passing | + | == Passing parameters by reference == |
In C, function parameters are passed by value only. Therefore, if you want to write function <tt>swap</tt> that swaps two variables, you cannot do it like this: | In C, function parameters are passed by value only. Therefore, if you want to write function <tt>swap</tt> that swaps two variables, you cannot do it like this: | ||
<source lang="cpp"> | <source lang="cpp"> | ||
− | + | void swap(int a, int b) | |
{ | { | ||
int temp = a; | int temp = a; |
รุ่นแก้ไขเมื่อ 16:04, 27 สิงหาคม 2558
- This is part of adt lab.
Pointers
In C/C++, there is a special kind of types: pointers. Pointer variables keep locations in the memory. To declare a pointer variable, we use symbol *:
type* variable;
For example, the following code declares p as a pointer to an integer.
int* p;
To see how pointers work, let's follow this code.
int a = 10;
int b = 20;
p = &a;
cout << (*p) << endl;
*p = 100;
cout << a << endl;
a++;
cout << (*p) << endl;
p = &b;
a = *p;
cout << a << endl;
Let's look at each step.
p = &a; // step 1
To obtain a location of any variable, we use operator & (called a reference operator). After step 1, p keeps the location of a.
*p = 100; // step 2
To dereference a pointer variable, we use operator *. Therefore *p refers to the "data" at the location that p points to. After step 2, *p (which is essentially a) becomes 100.
a++; // step 3
As p points to a's location, if we change the value of a, *p also changes (because it is the "same" piece of data).
p = &b; // step 4
a = *p;
We can change p to point to other places.
Passing parameters by reference
In C, function parameters are passed by value only. Therefore, if you want to write function swap that swaps two variables, you cannot do it like this:
void swap(int a, int b)
{
int temp = a;
a = b;
b = temp;
}
The reason for that is that the code only modifies "local" copies of a and b.
Pointers come to rescue.