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Context

So I've been playing around with arrays in C/ C++ trying to create arrays that could dynamically add and remove their elements.

Of course, I figured that the flexible array member feature in C would be the appropriate way to go. So I begun experimenting as the code below shows:

#include <cstdio> // printing stuff
#include <stdlib.h> // memory allocation stuff

// The array type
template <typename structType>
struct Array {
    private:
        // The structure containing the F.A.M.
        struct ArrayStructure { size_t length = 0; structType array[]; }
            *arrayStructurePointer, arrayStructure;
        constexpr inline static void add() {}

    public:
        // Constructor
        template <typename... types, typename = structType>
        explicit Array(types... elements) {
            this -> arrayStructurePointer =
                (ArrayStructure*) malloc(sizeof(structType));
            this -> arrayStructurePointer = &(this -> arrayStructure);
            this -> add(elements...);
        }

        // Destructor
        ~Array() {
            free(this -> arrayStructurePointer);
            free(this -> arrayStructure.array);
        }

        // Add stuff to the array
        inline void add(structType element) {
            this -> arrayStructurePointer =
                (ArrayStructure*) realloc(this -> arrayStructurePointer, sizeof(this -> arrayStructure));
            this -> arrayStructurePointer = &(this -> arrayStructure);
            this -> arrayStructure.array[this -> arrayStructure.length] = element;
            this -> arrayStructure.length += 1;
        }
        template <typename... types, typename = structType>
        inline void add(structType element, types... elements) {
            this -> add(element);
            this -> add(elements...);
        }

        // Query an element in the array
        constexpr inline structType operator [](size_t index) { return *(this -> arrayStructure.array + index); }
};

int main(int argc, char* argv[]) {
    Array<int> array(1, 0, 1);

    printf("Array [0]: %i\n", array[0]);
    printf("Array [1]: %i\n", array[1]);
    printf("Array [2]: %i\n", array[2]);

    return 0;
}

The point of this is for me to understand (possibly) how vector's work and the challenges associated with it.


Problem

I've only gotten as far as adding elements to the array but even with that, as I compile and run the code there is this huge delay when the program ends before it exits (and I assume it's because of memory leaks).


Question

So, the question: I want to assert that I'm following the right path in creating dynamic arrays that push & pop on request by asking how to even build dynamic arrays.

How do I build dynamic arrays properly? OR

How do I build my own vector structure? OR

Are there any good resources/ PDFs out there that teach how dynamic arrays (or vector's) are made?

10
  • 4
    Just use std::vector already. Don't re-invent the wheel. Feb 25, 2019 at 21:23
  • 1
    Okay, there is no such thing as C/C++. The solution to your problem is different in C than it is in C++. Also, there is no "flexible array member" in C++. I suggest you take a different approach to tackling those two languages.
    – DeiDei
    Feb 25, 2019 at 21:23
  • 3
    "C/C++" is not a thing. If you're using templates, that's definitely C++
    – ForceBru
    Feb 25, 2019 at 21:23
  • 2
    It is a good exercise. Vectors are very efficient. They allocate chunks of memory and then manually construct the objects as and when needed. I mean you can examine the source code of the compiler's libraries because std::vector is a header only class so all the code is visible.
    – Galik
    Feb 25, 2019 at 21:32
  • 2
    I would look up "rule of 3`, "rule of 5" and "rule of zero". Also "placement new" for a start.
    – Galik
    Feb 25, 2019 at 21:37

1 Answer 1

5

Just use std::vector for a variable-length array. It solves this problem better and more reliably than your hand-rolled solution will in 999/1000 cases.

13
  • 5
    999/1000? Are you sure it's that low?
    – john
    Feb 25, 2019 at 21:25
  • 1
    Also the very important point that code using std::vector will be easily understood by other C++ programmers.
    – john
    Feb 25, 2019 at 21:28
  • 1
    Alright then, let me re-phrase the question: How do I build my own std::vector ?
    – Lapys
    Feb 25, 2019 at 21:30
  • 2
    @Lapys You can see a good bit of it here. There is also some more here. I also believe one of Bjarne Stroustrup's books also details how to make a vector. Feb 25, 2019 at 21:45
  • 3
    @SergeyA I never said it was challenging, I just said it is a bit of code. It's probably one of the best containers to start with though, as it introduces a lot of concepts all of the library uses. Feb 25, 2019 at 22:03

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