+ 1

Can anyone explain why this code return segmentation fault?

#include <stdio.h> struct call; typedef struct call * const * c; struct call{ int (*cc)(int); }; int a(int b){ return b; } int main(){ c ccc; (*ccc)->cc = &a; printf("%d\n",(*ccc)->cc(100)); }

29th Jun 2021, 2:35 AM
Phyo Htet Aung
Phyo Htet Aung - avatar
6 odpowiedzi
+ 2
XXX, Big Thanks 🙏 It's been long I've been looking for an easy way to undersand const effects.
29th Jun 2021, 7:53 AM
Ipang
+ 1
What are you trying to do the way you creating struct and accessing is not valid
29th Jun 2021, 3:27 AM
A S Raghuvanshi
A S Raghuvanshi - avatar
+ 1
First of all, you have made it unncessarily complicated. There is absolutely no reason for this to be done this way. Anyways, the problem is that type `c` is a pointer to a pointer to `struct c`. As `ccc` is of type `c` which is a pointer, it will have the value of null pointer by default. In the second line of the main() function, you are dereferencing `ccc`, i.e. a null pointer. Dereferencing a null pointer is not allowed and the segmentation fault occurs when you try to do that. You would first have to make an instance of `struct call`, make a pointer variable that points to it, and then assign the pointer to the variable `ccc` of type `c`. Here, all of your pointers would be valid and the code will work. This is the fixed code https://code.sololearn.com/cIzfdf11A68k/?ref=app That again, is unnecessary. It can easily be done like this https://code.sololearn.com/cf64u99mrKVb/?ref=app
29th Jun 2021, 4:34 AM
XXX
XXX - avatar
+ 1
XXX, Just looking for a confirmation about this line ... typedef struct call * const * c; This means `c` is a type alias for a pointer to a constant pointer of struct call. Did I get it right? and in this case which one is constant? I'm not too sure how that line is supposed to be read.
29th Jun 2021, 4:55 AM
Ipang
+ 1
Ipang Yeah that is very confusing. Even I was confused. But some quick experimenting led me to this conclusion - Any type on the left-hand-side of * is the type of the pointer. Example: int* const ptr1; const int* ptr2; Here, `ptr1` points to `int` but is const which means it cannot be reassigned. ptr1 = &var; // ERROR: ptr1 is const *ptr1 = 2; // OK: as ptr1 points to int which is not const But `ptr2` points to `const int` and is not const itself ptr2 = &var; // OK: as ptr2 is not const *ptr2 = 2; // ERROR: ptr2 points to const int =================== So in this case, it will be ((call)* const)* c; `c` is NOT const itself, but points to a const pointer to `call`. So c = &var; // OK *c = &var2; // ERROR: c points to a const pointer **c = var3; // OK: *c points to non-const `call` Hope that was clear.
29th Jun 2021, 7:44 AM
XXX
XXX - avatar
0
I saw this kind of syntax in a header file and want to give it a try.
29th Jun 2021, 3:28 AM
Phyo Htet Aung
Phyo Htet Aung - avatar