1

I am trying to numerically calculate a sum:

The sum formula

I fully understand that it is an easy sum, however, my mind keeps tingling me for a few days consequently, if I am doing it correctly.

Here is an outline of a C++ code that I have written to calculate it:

struct vecs{
    float x;
    float y;
    float z;
    float a;
};

struct vector_file{
    int id;
    vector<vecs> VAL;
};

vector<vector_file> VEC;

I[10][10]={}

double absolute_val(double xi, double yi, double zi, double xj, double yj, double zj){
    return(sqrt(pow(xi-xj,2)+pow(yi-yj,2)+pow(zi-zj,2)));
}

for (int i=0;i<VEC.size();i++){
        for (int j=0;j<i;j++){
            double integ=0;
                for (int k=0;k<VEC[i].VAL.size();k++){
                    for (int l=0;l<VEC[j].VAL.size();l++){
                        integ+=VEC[i].VAL[k].a*VEC[j].VAL[l].a/absolute_val(VEC[i].VAL[k].x,VEC[i].VAL[k].y,VEC[i].VAL[k].z,VEC[j].VAL[l].x,VEC[j].VAL[l].y, VEC[j].VAL[l].z);
                    }
                }
            I[i][j]=integ;
        }
    }

I only need the off-diagonal elements and do not need the upper triangular part of the matrix as it is analogous to lower triangular part. I have checked it multiple times, however, still going back and wondering, if I have done it correctly.

Thank you so much in advance for taking time to look at it.

10
  • 1
    Nitpick: your absolute_val actually computes a vector magnitude.
    – Botje
    Nov 25, 2021 at 12:41
  • @Botje, that is absolutely correct and it is supposed calculate the vector magnitude according to the formula (just the name of a function is quite a too direct translation from my native language math terminology to English, I believe)
    – aerospace
    Nov 25, 2021 at 12:47
  • Your code could do with a couple of comments mapping the mathematical terms to C++ data structures, but looks correct, yes.
    – Botje
    Nov 25, 2021 at 12:48
  • If you care about performance and accuracy, double xx = xi - xj; xx *= xx; will be better than pow(xi-xj,2) in both categories.
    – Eljay
    Nov 25, 2021 at 12:56
  • @Botje, Thank you very much! Glad to hear that it seems correct. However, what do you have in mind exactly about mapping the mathematical terms to C++ data structures (I'm probably just not very familiar with the terminology as my background is in Natural Sciences mostly)?
    – aerospace
    Nov 25, 2021 at 12:57

1 Answer 1

-1

Yes, your code is correct. If you want to make it "more obviously" correct, I would move it closer to the mathematical definitions by defining some helper functions.

Concretely:

const vecs& R(int upper, int lower) { return VEC[upper].VAL[lower]; }
const float a(int upper, int lower) { return VEC[upper].VAL[lower].a; }
int num_vecs(int upper) { return VEC[upper].VAL.size(); }

Next, I would write magnitude_diff to accept two vecs. It is not strictly the magnitude because you're only looking at three of the four components, but I don't feel comfortable defining operator - for 3/4 components either.

double magnitude_diff(const vecs& i, const vecs& j){
    return sqrt(pow(i.x-j.x,2) + pow(i.y-j.y,2) + pow(i.z-j.z,2));
}

and then your inner loop stays very close to the formula:

double integ=0;
for (int k=0; k < num_vecs(i); k++){
  for (int l=0; l < num_vecs(j); l++){
    integ += a(i, k) * a(j, l) / magnitude_diff(R(i, k), R(j, l));                                        
  }
}
I[i][j] = integ;
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  • Thank you very much! Now I really do understand what you have meant by mapping mathematical terms to C++ data structures. Thank you!
    – aerospace
    Nov 25, 2021 at 13:15

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