Below is some code which almost works. What I want to do is create memory pools which autodelete their contents on destruction (it's okay if it only works for plain old data), and have a compile time guarentee that the pool must always survive longer than the pointers to it's contents do. In my attempt to accomplish this, I made the pointers have the pool which they point to a part of their type. My strategy seems as if it should work but C++ only allows constant, or global data as template parameters which stops me programming how I want. For example, in the code below the memory pool must be a global value. How can I fake dependent types in C++ for non-constant, and local data?
Here's the code, and a simple example showing how to use it. I apologize for not dealing with alignment issues, but this is just a simple proof of concept anyways.
#include <iostream>
#include <cstdlib>
class pool;
template<typename T, pool& H>
class reference;
class pool {
private:
pool(const pool&);
pool& operator=(const pool&);
const pool* operator&() const;
pool* operator&();
size_t size;
void *storage;
size_t tag;
public:
pool() : size(0), storage(0) { }
~pool() { free(storage); }
template<typename, pool&> friend class reference;
template<typename T, pool& H> friend reference<T, H> allocate();
};
template<typename T, pool &H>
class reference {
private:
reference();
size_t index;
reference(size_t _index) : index(_index) { }
public:
friend class pool;
void set(const T& rvalue) const {
*((T*)&((char*)H.storage)[index]) = rvalue;
}
T operator*() const {
return *((T*)&((char*)H.storage)[index]);
}
reference<T, H>& operator++() {
index += sizeof(T);
return *this;
}
template<typename U, pool& I> friend reference<U, I> allocate();
};
// TODO: Add in alignment stuff
template<typename T, pool& H>
reference<T, H> allocate() {
const size_t old_size = H.size;
H.size += sizeof(T);
H.storage = realloc(H.storage, H.size);
return reference<T, H>(old_size);
}
template<pool& H>
reference<char, H> get_line() {
const reference<char, H> start = allocate<char, H>();
reference<char, H> end = start;
char input;
for (;;) {
input = std::cin.get();
if ('\n' == input) {
break;
}
end.set(input);
end = allocate<char, H>();
}
end.set('\0');
return start;
}
template<pool &H>
std::ostream& operator <<(std::ostream& out, reference<char, H> start) {
for (; *start != '\0'; ++start)
std::cout.put(*start);
return out;
}
pool input_pool;
int main(int argc, char **argv) {
std::cout << "What is your name?" << std::endl;
const reference<char, input_pool> input_string = get_line<input_pool>();
std::cout << "Hello " << input_string << "!" << std::endl;
return 0;
}