# Pointer-to-Pointer-to-Const Conversion

I'm reading a book called C++ Gotchas which explains the conversions between const pointers and I'm having some trouble understanding the following rules:

Two pointer types T1 and T2 are similar if there exists a type T and integer n > 0 such that:

T1 is cv 1 , 0 pointer to cv 1,1 pointer to . . . cv 1,n−1 pointer to cv 1,n T

and,

T2 is cv 2,0 pointer to cv 2,1 pointer to . . . cv 2,n−1 pointer to cv 2,n T

where each cvi,j is const, volatile, const volatile, or nothing.

Can someone point me to right direction where I can get an explanation or is anyone familiar with what cv 1,0 and cv 1,1 means in each of above sequence ? The book isn't helping me enough to understand it. But I'm sure this has got something to do with C++ language.

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`cv i,j` represents a collection of 2*(n+1) placeholders:

For every combination of `i` with `1 <= i <= 2` and `j` with `0 <= j <= n` the placeholder `cv i,j` stands for one of the three specifiers `const,volatile, const volatlie` or nothing.

The book excerpt in other words means, that if these placeholders and a type `T` can be found such that the two statements ("T1 is ..") are satisfied, then `T1` and `T2` are called "similar".

For example `T1 = const int*` and `T2 = int*` are similar, because they fullfill the two statements from the excerpt, if one chooses:

• `T = int`,`n = 1`
• `cv1,0= {nothing}` and `cv1,1 = const`
• `cv2,0={nothing}` and `cv2,1 = {nothing}`

To see this, just insert the placeholders:

`const int*` is pointer to `const int`

`int*` is pointer to `int`

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