THIS QUESTION HAS BEEN CLOSED BECAUSE IT DIDN'T SEEM A REAL QUESTION TO SOME PEOPLE I have updated the question body since then and may be it is a bit better now. However, I expect you all to suggest how I can improve this question as it is my job and research into this area.
RAII (Resource Allocation is Initialisation) theory dictates that if I borrow memory from MMU, I need to return it back (new and delete). However, I was wondering the consequesnces would be if I was doing bad initialisation practices in C++.
What if I do the following:
double* pp1 = 0; double* pp2 = 0;
And then use pp1 and pp2 somewhere I need to? Is that the wrong way of initialising a pointer according to standard programming practice? Or is it initialisation at all. Is initialisation entirely depended on
And how much use of pointers should there be in a design that is:
1) Real-Time 2) Safety Critical 3) Mission Critical
Also, I am finding strange outcomes when running same C/C++ application in 32-bit and 64-bit machines. How badly will my machine become slow/underperform if I was messing around with pointers. Because, my machine is getting slow due to using too many pointers in my design. For some "obvious" Non-Disclosure Agreement, I cannot put my code here. I am so sorry about that. And for clarification, I am deleting all the pointers used in every method just before I return my results i.e. my memory management is well-balanced and efficient enough not to cause stack overflow issues.
I know these questions may be too open-ended but I am also investigating (Google, MISRA C++, British Computer Society, and IEEE) to find out a detailed answer. My idea is to actually research and develop a way to program in C++ without involving pointers a lot.
I know that an obvious answer is,"You program in C++ so that you can use pointers and stop abusing MMU of your PC". But if anyone has any different thoughts I would like to hear about it.