A line of code has baffled me, and I cannot resolve it. It could be casting of a function address and assigning it to a function pointer, but then 'address' should not be there. Or am I completely out of context?

int32_t (*const my_func)(uint32_t address) = (int32_t (*)(uint32_t address)) nvm_addr;
  • 4
    When writting a type defining a function pointer, it doesn't matter if you name the arguments, so your code is equivalent to: int32_t (*const my_func)(uint32_t) = (int32_t (*)(uint32_t)) nvm_addr;, but also to int32_t (*const my_func)(uint32_t name1) = (int32_t (*)(uint32_t name2)) nvm_addr;.
    – Holt
    Jul 17 '15 at 13:33
int32_t (*const my_func)(uint32_t address)

That a variable called my_func which stores a const pointer to a function taking a uint32_t and returning an int32_t. The parameter name is optional, it's just there to give an idea of the semantics of that parameter.

(int32_t (*)(uint32_t address)) nvm_addr

That casts nvm_addr to a pointer to a function of the same type as my_func.

Overall, this is just a rather verbose way of storing a function pointer to nvm_addr.


I often have a typedef for such function signatures:

 // signature of function
 typedef int32_t my_sigT(uint32_t arg);

In the typedef I often am naming the formal arguments (for readability only).

Then to declare a constant pointer to such functions, just

 const my_sigT* my_func = (my_sigT*) nvm_addr;

I find doing this much more readable in C and in C++...

In C++11, you might use std::function<int32_t(uint32_t)> for closures (not raw function pointers) with auto.


This is the declaration of a function pointer named my_func that is being initialized with a cast of nvm_addr to the type of my_func

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