Remember array name can easily decays into pointer to first element in most expressions (read some exceptions where array name not decaying into a pointer to first element? ably answered by @H_{2}CO_{3}).

For better understanding, consider my diagrams:

First, suppose `a`

stored in memory as follows.

```
a
+----+----+----+----+---+
| 0 | 1 | 2 | 3 | 4 |
+----+----+----+----+---+
▲ ▲ ▲ ▲ ▲
| | | | |
a a+1 a+2 a+3 a+3
```

Declaration `static int *p[] = {a, a+1, a+2, a+3, a+4};`

creates a new array of pointers to integer, with following values:

```
p[0] == a
p[1] == a + 1
p[2] == a + 2
p[3] == a + 3
p[4] == a + 4
```

Now, `p`

can also be assume to be stored in memory something like below:

```
p
+----+----+----+----+-----+
| a |a +1| a+2| a+3| a+4 |
+----+----+----+----+-----+
▲ ▲ ▲ ▲ ▲
| | | | |
p p+1 p+2 p+3 p+4
```

After assignment `ptr = p;`

things will be something like this:

```
p a
+----+----+----+----+-----+ +----+----+----+----+---+
| a |a +1| a+2| a+3| a+4 | | 0 | 1 | 2 | 3 | 4 |
+----+----+----+----+-----+ +----+----+----+----+---+
▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲
| | | | | | | | | |
p p+1 p+2 p+3 p+4 a a+1 a+2 a+3 a+3
ptr
Notice: ptr points to first location in pointer array p[]
```

### Expression: **ptr++;

Now we consider expression `**ptr++;`

before first printf statement.

`ptr`

is equals to `p`

that is address of first element in array of pointers.
Hence, `ptr`

point to first element `p[0]`

in array (or we can say `ptr`

== `&p[0]`

).

`*ptr`

means `p[0]`

and because `p[0]`

is `a`

, so `*ptr`

is `a`

( so `*ptr`

== `a`

).

And because `*ptr`

is `a`

, then `**ptr`

is `*a`

== `*(a + 0)`

== `a[0]`

that is `0`

.

Note in expression `**ptr++;`

, we do not assign its value to any lhs variable.

So effect of `**ptr++;`

is simply same as `ptr++;`

== `ptr = ptr + 1`

= `p + 1`

In this way after this expression `ptr`

pointing to `p[1]`

(or we can say `ptr`

== `&p[1]`

).

**Print-1:**

Before first printf things become:

```
p a
+----+----+----+----+-----+ +----+----+----+----+---+
| a | a+1| a+2| a+3| a+4 | | 0 | 1 | 2 | 3 | 4 |
+----+----+----+----+-----+ +----+----+----+----+---+
▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲
| | | | | | | | | |
p p+1 p+2 p+3 p+4 a a+1 a+2 a+3 a+3
ptr
Notice: ptr is equals to p + 1 that means it points to p[1]
```

Now we can understand **First** printf:

`ptr - p`

output `1`

because:

`ptr = p + 1`

, so `ptr - p`

== `p + 1 - p`

== `1`

`*ptr - a`

output `1`

because:

`ptr = p + 1`

, so `*ptr`

== `*(p + 1)`

== `p[1]`

== `a + 1`

This means: `*ptr - a`

= `a + 1 - a`

== `1`

`**ptr`

output `1`

because:

`*ptr`

== `a + 1`

from point-2

So `**ptr`

== `*(a + 1)`

== `a[1]`

== `1`

### Expression: *++*ptr;

After first printf we have an expression `*++*ptr;`

.

As we know from above point-2 that `*ptr`

== `p[1]`

.
So, `++*ptr`

(that is `++p[1]`

) will increments `p[1]`

to `a + 2`

Again understand, in expression `*++*ptr;`

we don't assign its value to any lhs variable so effect of `*++*ptr;`

is just `++*ptr;`

.

Now, before second printf things become:

```
p a
+----+----+----+----+-----+ +----+----+----+----+---+
| a |a+2 | a+2| a+3| a+4 | | 0 | 1 | 2 | 3 | 4 |
+----+----+----+----+-----+ +----+----+----+----+---+
▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲
| | | | | | | | | |
p p+1 p+2 p+3 p+4 a a+1 a+2 a+3 a+3
ptr
Notice: p[1] became a + 2
```

**Print-2:**

Now we can understand **Second** printf:

`ptr - p`

output `1`

because:

`ptr = p + 1`

, so `ptr - p`

== `p + 1 - p`

== `1`

`*ptr - a`

output `2`

because:

`ptr = p + 1`

so `*ptr`

== `*(p + 1)`

== `p[1]`

== `a + 2`

This means: `*ptr - a`

== `a + 2 - a`

== `2`

`**ptr`

output `2`

because:

`*ptr`

== `a + 2`

from point-2

So `**ptr`

== `*(a + 2)`

== `a[2]`

== `2`

### Expression: ++**ptr;

Now expression `++**ptr;`

before third printf.

As we know from above point-3 that `**ptr`

== `a[2]`

.
So `++**ptr`

== `++a[2]`

will increments `a[2]`

to `3`

So before third printf things become:

```
p a
+----+----+----+----+-----+ +----+----+----+----+---+
| a | a+2| a+2| a+3| a+4 | | 0 | 1 | 3 | 3 | 4 |
+----+----+----+----+-----+ +----+----+----+----+---+
▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲
| | | | | | | | | |
p p+1 p+2 p+3 p+4 a a+1 a+2 a+3 a+3
ptr
Notice: a[2] = 3
```

**Print-3:**

Now we can understand **Third** printf:

`ptr - p`

output `1`

because:

`ptr = p + 1`

so `ptr - p`

== `p + 1 - p`

== `1`

`*ptr - a`

output `2`

because:

`ptr = p + 1`

so `*ptr`

== `*(p + 1)`

== `p[1]`

== `a + 2`

This means: `*ptr - a`

= `a + 2 - a`

== `2`

`**ptr`

outputs `3`

because:

`*ptr`

== `a + 2`

from point-2

So `**ptr`

== `*(a + 2)`

== `a[2]`

== `3`

**Edit** Note: The difference of two pointers has type `ptrdiff_t`

, and for that, the correct conversion specifier is `%td`

, not `%d`

.

**An additional point:**

_{I wish to add as I believe it will be helpful for new learners}

Suppose we have following two lines with one more 4^{th} printf in you code before `return 0;`

```
**++ptr; // additional
printf("%d %d %d\n", ptr-p, *ptr-a, **ptr); // fourth printf
```

One can check this working code @Codepade , this line outputs `2 2 3`

.

### Expression: **++ptr;

Because `ptr`

is equals to `p + 1`

, after increment `++`

operation `ptr`

becomes `p + 2`

(or we can say `ptr`

== `&p[2]`

).

After that double deference operation `**`

**==>** `**(p + 2)`

== `*p[2]`

== `*(a + 2)`

== `a[2]`

== `3`

.

Now, again because we don't have any assignment operation in this statement so effect of expression `**++ptr;`

is just `++ptr;`

.

So thing after expression `**++ptr;`

becomes as below in figure:

```
p a
+----+----+----+----+-----+ +----+----+----+----+---+
| a | a+2| a+2| a+3| a+4 | | 0 | 1 | 3 | 3 | 4 |
+----+----+----+----+-----+ +----+----+----+----+---+
▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲
| | | | | | | | | |
p p+1 p+2 p+3 p+4 a a+1 a+2 a+3 a+3
ptr
Notice: ptr is equals to p + 2 that means it points to p[2]
```

**Print-4:**

Considering **Forth** printf I added in question:

`ptr - p`

output `2`

because:

`ptr = p + 2`

so `ptr - p`

== `p + 2 - p`

== `2`

`*ptr - a`

output `2`

because:

`ptr = p + 2`

so `*ptr`

== `*(p + 2)`

== `p[2]`

== `a + 2`

This means: `*ptr - a`

= `a + 2 - a`

== `2`

`**ptr`

outputs `3`

because:

`*ptr`

== `a + 2`

from above point-2

So `**ptr`

== `*(a + 2)`

== `a[2]`

== `3`

`*`

and`++`

. – Barmar Jul 19 '13 at 17:57`*++*ptr`

, the value at`*ptr`

would be pre-incremented, then that resulting pointer would be dereferenced to produce the expression value. But it's atrocious code -- it should never actually be written. – Hot Licks Jul 19 '13 at 17:58`%d`

for that either, though.`%td`

is the correct format string for a`ptrdiff_t`

. – Carl Norum Jul 19 '13 at 17:58