In a well structured program with appropriate error checking, there is no reason not to assign it null.
0 stands alone as a universally recognized invalid value in this context. Fail hard and Fail soon.
Many of the arguments against assigning
0 suggest that it could hide a bug or complicate control flow. Fundamentally, that is either an upstream error (not your fault (sorry for the bad pun)) or another error on the programmer's behalf -- perhaps even an indication that program flow has grown too complex.
If the programmer wants to introduce the use of a pointer which may be null as a special value and write all the necessary dodging around that, that's a complication they have deliberately introduced. The better the quarantine, the sooner you find cases of misuse, and the less they are able to spread into other programs.
Well structured programs may be designed using C++ features to avoid these cases. You can use references, or you can just say "passing/using null or invalid arguments is an error" -- an approach which is equally applicable to containers, such as smart pointers. Increasing consistent and correct behavior forbids these bugs from getting far.
From there, you have only a very limited scope and context where a null pointer may exist (or is permitted).
The same may be applied to pointers which are not
const. Following the value of a pointer is trivial because its scope is so small, and improper use is checked and well defined. If your toolset and engineers cannot follow the program following a quick read or there is inappropriate error checking or inconsistent/lenient program flow, you have other, bigger problems.
Finally, your compiler and environment likely has some guards for the times when you would like to introduce errors (scribbling), detect accesses to freed memory, and catch other related UB. You can also introduce similar diagnostics into your programs, often without affecting existing programs.