# Speeds of 3D Vector Versus 3D Array of Varying Size

I'm designing a dynamic hurtbox for characters in a text-based game, which catches the locations of hits (or misses) of a weapon swung at them. The location (indices) and damage (magnitude) of hits are then translated into decreases in corresponding limb health variables for a character. My thoughts are that this hurtbox would best be implemented using a class with some 3D vector/array member.

Naturally, I might want varying dimensions of the 3D container for different sizes of enemy, but I'm aware that size is usually determined upon initialization. So here's my question:

Would it be more efficient to use a C-style dynamic array, the size of which I can decide and allocate inside a parameterized constructor, like so?

``````class hurtBox {
private:
int ***hurtBoxMatrix;
public:
hurtBox(int l, int w, int h) {
hurtBoxMatrix = new int**[l];
for (int i = 0; i < l; i++) {
hurtBoxMatrix[i] = new int*[w];
for (int j = 0; j < w; j++) {
hurtBoxMatrix[i][j] = new int[h] ();
}
}
}
};
``````

Or, would a vector that I push elements into, up to my desired dimensions, suffice?

``````class hurtBox {
private:
vector<vector<vector<int>>> hurtBoxMatrix;
public:
hurtBox(int l, int w, int h) {
for (int i = 0; i < l; i++) {
hurtBoxMatrix.push_back(vector<vector<int>>);
for (int j = 0; j < w; j++) {
hurtBoxMatrix[i].push_back(vector<int>);
for (int k = 0; k < h; k++) {
hurtBoxMatrix[i][j].push_back(0);
}
}
}
}
};
``````

I imagine the former, since that first allocation is constant time, right? Is there a way to do this that's better than either of these?

• do you plan to resize the `hurtBox`? If yes, would it be frequent? Additionally, what would be a typical input size in practice? Dec 14, 2021 at 0:40
• @JérômeRichard Yes, good question. There might be some resizing, representing overall shapes of different fighting stances or positions. However, it might be better to just have a large static size for a character, and change which volume locations of the matrix they occupy. As for size, typical length, width, height for a human might be 20, 40, 60. Larger enemies, like dragons, might be more like 800, 200, 300 or something. Dec 14, 2021 at 0:51

You'd be better off simply allocating the 3D array in a single allocation, and use indexing to access the elements. Allocation for the std::vector storage can then be handled in the constructor for std::vector.

In general it's best to avoid:

1. multiple allocations
2. repeatedly calling push_back
``````class hurtBox {
private:
vector<int> hurtBoxMatrix;
int m_l;
int m_w;
int m_h;
public:
hurtBox(int l, int w, int h)
: hurtBoxMatrix(l * w * h), m_l(l), m_w(w), m_h(h) {}

int& operator (int i, int j, int k) {
return hurtBoxMatrix[ I*m_w*m_h + j*m_w + k ];
}
const int operator (int i, int j, int k) const {
return hurtBoxMatrix[ i*m_w*m_h + j*m_w + k ];
}
};
``````
• Do not forget to specify that jagged arrays are not efficient too ;) . Pre-computing the leading-dimension (like `m_w*m_h`) also often help to speed things up. Note that suing `std::vector` may use more memory than needed so it may be better to use a classic array (possibly a `std::unique_ptr<int*>`) although redefining the copy constructor, assignment and so on is a bit cumbersome. Dec 14, 2021 at 0:58