Taking into account the comments I'll try to explain what is unclear.

Let's assume that there are three integers

```
int x = 1;
int y = 2;
int z = 3;
```

and we are going to declare an array of pointers to these integers. The declaration will look like

```
int * a[3] = { &x, &y, &z };
```

or

```
int * a[3];
*( a + 0 ) = &x; // the same as a[0] = &x;
*( a + 1 ) = &y; // the same as a[1] = &y;
*( a + 2 ) = &z; // the same as a[2] = &z;
```

Take into account that an array designator used in expressions with rare exceptions is converted to pointer to its first element.

So for example in the expression

```
*( a + 1 )
```

the array designator `a`

is converted to a pointer of the type `int **`

.

Now if we want to do the same but allocating the array dynamically then we can write

```
int **ptr = new int *[3] { &x, &y, &z };
```

or

```
int **ptr = new int *[3];
*( ptr + 0 ) = &x; // the same as ptr[0] = &x;
*( ptr + 1 ) = &y; // the same as ptr[1] = &y;
*( ptr + 2 ) = &z; // the same as ptr[2] = &z;
```

As the type of the pointer `ptr`

is `int **`

then for example the expression `ptr[0]`

has type `int *`

and we can store the address of the variable `x`

in this expression.

The expression `ptr[0]`

having the type `int *`

is equivalent to the expression `*( ptr + 0 )`

or just `*ptr`

.

`*(*(ptr+i)+j)=i+j`

is a pointer equivalent of`ptr[i][j] = i+j`

. – dasblinkenlight Sep 14 '17 at 0:00`*(ptr+i)`

is the same as`ptr[i]`

. – Barmar Sep 14 '17 at 0:00