This question is about the appropriateness of using void pointers in a particular implementation.
I have a relatively simple program that consists of an infinite loop. On each loop, the program iterates over a fixed range of constant values and calls a function on each value. The particular function which is called can be one of three available and is specified at run time by an argument. Before the infinite loop starts, there is a condition block which sets a functional pointer to a function based on the supplied argument. This way the condition logic only has to be run once and not on every iteration in every loop.
This I have implemented and it works well, but I want to keep state between each call to the function. My proposal is to store state in a struct and pass that struct when calling the function on each of the values. The problem is that each function requires a different struct to store a different set of values of its state and the prototype of all three functions must be compatible (for the function pointer). I intend to solve this by using a void pointer in the prototypes of the three functions, thus maintaining compatible prototypes but allowing me to pass a different struct to each function.
The question is; is my proposal an appropriate use of void pointers or is it introducing too much runtime dynamism and I should therefore rethink my approach?
Note: It is not possible to use static variables in each of the three functions as the structs also need to be available in the infinite loop as there is also some processing to be done before and after the range of values is iterated.