# How to find pair edge while building half-edge data structure

I cannot find out an efficient way to generate the opposite edges of a given edge. My idea is just to do the iterates:

``````//construct the opposite half edges
for(int j=0;j<edge_num;j++)
for(int m=0;m<edge_num;m++)
if(edge[j].vert_end->v_index==edge[m].vert_start->v_index  &&
edge[j].vert_start->v_index==edge[m].vert_end->v_index )
{
edge[j].pair = &edge[m];
edge[m].pair = &edge[j];
}
``````

Other information about an half edge is generated from the procedure of loading .M file. My structure is:

``````class HE_vert{                                                  class HE_face{
public:                                                                    public:
GLfloat x;                                                      int v1,v2,v3;
GLfloat y;                                                      int f_index;
GLfloat z;                                                      HE_edge* edge;
int v_index;                                                    };
HE_edge *edge;
};

class HE_edge{
public:
HE_edge(){ pair = NULL; }
public:
HE_vert* vert_start;   // vertex at the start of the half-edge
HE_vert* vert_end;   // vertex at the end of the half-edge
HE_edge* pair;   // oppositely oriented adjacent half-edge
HE_face* face;   // face the half-edge borders
HE_edge* next;   // next half-edge around the face
int e_index;
};
``````

I checked all the output information and it’s correct, but it took a long computational time, especially when loading bunny.M. How can I do this in an more efficient way? Could you give me some hints?

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``````// grid[i + vert_num*j] = edge from i to j
int grid[vert_num*vert_num]; // malloc()?

// memset()?
for (int i = vert_num*vert_num - 1; i >= 0; i--)
{
grid[i] = -1;
}

for (int i = 0; i < edge_num; i++)
{
int i_from = edge[i]->vert_start->v_index;
int i_to = edge[i]->vert_end->v_index;
int pair_index = grid[i_to + vert_num*i_from];

if (pair_index >= 0)
{
edge[i]->pair = edge[pair_index];
edge[pair_index]->pair = edge[i];
grid[i_to + vert_num*i_from] = -1;
}
else
{
grid[i_from + vert_num*i_to] = i;
}
}
``````

Possible optimization: Use a linked list instead of a huge array. There will only be about 1-4 entries for each row/column.

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