There's two parts to your question. I'll start with:
If true, it would mean that 0 can be safely used even for architectures that have a non-zero NULL pointer value.
You are mixing up "value" and "representation". The value of a null pointer is called the null pointer value. The representation is the bits in memory that are used to store this value. The representation of a null pointer could be anything, there is no requirement that it is all-bits-zero.
In the code:
char *p = 0;
p is guaranteed to be a null pointer. It might not have all-bits-zero.
This is no more "magic" than the code:
float f = 5;
f does not have the same representation (bit-pattern in memory) as the int
5 does, yet there is no problem.
The C++ standard defines this. The text changed somewhat in C++11 with the addition of
nullptr; however in all versions of C and C++, the integer literal
0 when converted to a pointer type generates a null pointer.
A null pointer constant is an integral constant expression prvalue of integer type that evaluates to zero or a prvalue of type std::nullptr_t. A null pointer constant can be converted to a pointer type; the result is the null pointer value of that type and is distinguishable from every other value of object pointer or function pointer type. Such a conversion is called a null pointer conversion.
0 is a null pointer constant, and
(char *)0 for example is a null pointer value of type
It's immaterial whether a null pointer has all-bits-zero or not. What matters is that a null pointer is guaranteed to be generated when you convert an integral constexpr of value
0 to a pointer type.
Moving onto the other part of your question. The text you quoted is complete garbage through and through. There's no "magic" in the idea that a conversion between types results in a different representation, as I discuss above.
my_char_ptr == NULL is guaranteed to test whether or not
my_char_ptr is a null pointer.
It would be evil if you write in your own source code,
#define NULL (void*)0. This is because it is undefined behaviour to define any macro that might be defined by a standard header.
However, the standard headers can write whatever they like so as the Standard requirements for null pointers are fulfilled. Compilers can "do magic" in the standard header code; for example there doesn't have to be a file called
iostream on the filesystem; the compiler can see
#include <iostream> and then have hardcoded all of the information that the Standard requires
iostream to publish. But for obvious practical reasons, compilers generally don't do this; they allow the possibility for independent teams to develop the standard library.
Anyway, if a C++ compiler includes
#define NULL (void *)0 in its own header, and as a result something non-conforming happens, then the compiler would be non-conforming obviously. And if nothing non-conforming happens then there is no problem.
I don't know who the text you quote would direct its "is evil" comment at. If it is directed at compiler vendors telling them not to be "evil" and put out non-conforming compilers, I guess we can't argue with that.