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SSN_getFeatureMaps.cpp
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SSN_getFeatureMaps.cpp
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#include "mex.h"
#include <math.h>
#include <vector>
using std::vector;
int getNumConnections(int radius){
int max_conns[] = {1, 5, 8, 16, 20,32,32,36,48,56,64,60,64};
return (max_conns[radius] + 1) >> 1;
}
void getMaskCoors(int radius, int *coor_h, int *coor_w, double *coor_rad){
int radius2 = radius * radius, cont = 0;
double radius_previous = (radius-1) * (radius-1);
if(radius_previous==0) radius_previous=-1;
for (int hh = -radius ; hh <= radius ; ++hh){
for (int ww = -radius; ww <= radius; ++ ww){
double r = hh * hh + ww * ww;
if (r <= radius2 && r > radius_previous){
if ( ww > 0 || ( ww == 0 && hh >= 0 ) ){
coor_rad[cont] = r;
coor_h[cont] = hh;
coor_w[cont++] = ww;
}
}
}
}
return;
}
void mexFunction(
int nlhs,
mxArray *plhs[],
int nrhs,
const mxArray *prhs[]
)
{
if (nrhs != 3) {
mexErrMsgTxt("Input arguments: image (3d matrix wXhXz), radius and maximum pixel value (L).");
}
else if (nlhs != 3) {
mexErrMsgTxt("outputs 3 numeric matrices 4x(w*h*z): measures (k and str) for FULL, WITHIN and BETWEEN network connections");
}
int w, h, z, np;
double *im;
int radius, L;
const long unsigned int *dimensions = mxGetDimensions(prhs[0]); //Qtde de dimensoes da img, deve ser 3.
im = mxGetPr(prhs[0]);
radius = mxGetScalar(prhs[1]);
L = mxGetScalar(prhs[2]);
w = dimensions[0];
h = dimensions[1];
z = dimensions[2];
np = w*h*z;
mxArray *Data = mxCreateNumericArray(3, dimensions, mxDOUBLE_CLASS, mxREAL);
double *img = (double *) mxGetPr(Data);
for(int k=0; k<z; k++){
for(int i=0; i<w; i++){
for(int j=0; j<h; j++){
img[((w*h*k) + ((i*h) + j))] = *(im + w*h*k + j*w + i);
}
}
}
plhs[0] = mxCreateDoubleMatrix(4, np, mxREAL);//ALL
plhs[1] = mxCreateDoubleMatrix(4, np, mxREAL);//WITHIN
plhs[2] = mxCreateDoubleMatrix(4, np, mxREAL);//BETWEEN
double *saida1= mxGetPr(plhs[0]);
double *saida2= mxGetPr(plhs[1]);
double *saida3= mxGetPr(plhs[2]);
for (int row = 0; row < 4; row++) {
for (int col = 0; col < np; col++) {
saida1[4 * col + row] = 0;
saida2[4 * col + row] = 0;
saida3[4 * col + row] = 0;
}
}
double radius2 = radius * radius;
int num_conns = getNumConnections(radius);
int *coor_h = new int[num_conns];
int *coor_w = new int[num_conns];
double *coor_rad = new double[num_conns];
getMaskCoors( radius, coor_h, coor_w, coor_rad);
int x1=0, x2=0, x1pos=0, x2pos=0, diff=0;
double edge=0, d=0, difference=0;
for (int x = 0; x < w; ++x) {
for (int c_id = 0; c_id < num_conns; ++c_id){
int i = x + coor_w[c_id];
if ( i < 0 || i >= w ) continue;
for (int y = 0; y < h; ++y){
int j = y + coor_h[c_id];
if ( j < 0 || j >= h ) continue;
double d = coor_rad[c_id];
for (int c = 0; c < z; ++c){ //montando a rede... cada c, � um v�rtice(pixel com uma intensidade R, G ou B, ou seja cada pixel vai ser 3 vertices)
x1 = ((c*w*h) + ((x*h) + y));
x1pos = x1*4;
for (int cw = 0; cw < z; ++cw){
if(i != x || j != y || c != cw){
x2 = ((cw*w*h) + ((i*h) + j));
x2pos = x2*4;
diff = (img[x1] - img[x2]);
difference = diff;
if(difference < 0){
difference = difference*(-1);
}
edge = ((difference +1)*(d+1) -1)/((L+1) * (radius2+1) -1); //Nova equacao
if(diff > 0){//defining the direction of the connection (x2 points to x1)
saida1[x1pos] ++;
saida1[x1pos + 2] +=edge;
if(x!=i || y!=j){//when not connecting x1 to itself in another channel
saida1[x2pos + 1] ++;
saida1[x2pos + 3] +=edge;
}
if(c==cw){//checks the vertex channel, c==cw means whithin connections
saida2[x1pos] ++;
saida2[x1pos + 2] +=edge;
saida2[x2pos + 1] ++;
saida2[x2pos + 3] +=edge;
}else{//otherwise, between connections
saida3[x1pos] ++;
saida3[x1pos + 2] +=edge;
if(x!=i || y!=j){
saida3[x2pos + 1] ++;
saida3[x2pos + 3] +=edge;
}
}
}else if(diff < 0){ //defining the direction of the connection (x1 points to x2)
saida1[x1pos + 1] ++;
saida1[x1pos + 3] +=edge;
if(x!=i || y!=j){
saida1[x2pos] ++;
saida1[x2pos + 2] +=edge;
}
if(c==cw){//checks the vertex channel, c==cw means whithin connections
saida2[x1pos + 1] ++;
saida2[x1pos + 3] +=edge;
saida2[x2pos] ++;
saida2[x2pos + 2] +=edge;
}else{//otherwise, between connections
saida3[x1pos + 1] ++;
saida3[x1pos + 3] +=edge;
if(x!=i || y!=j){
saida3[x2pos] ++;
saida3[x2pos + 2] +=edge;
}
}
}else{//quando os pixels tem a msm intensidade, aresta bidirecional
saida1[x1pos] ++;
saida1[x1pos + 2] +=edge;
saida1[x1pos + 1] ++;
saida1[x1pos + 3] +=edge;
if(x!=i || y!=j){
saida1[x2pos] ++;
saida1[x2pos + 2] +=edge;
saida1[x2pos + 1] ++;
saida1[x2pos + 3] +=edge;
}
if(c==cw){//checks the vertex channel, c==cw means whithin connections
saida2[x1pos + 1] ++;
saida2[x1pos + 3] +=edge;
saida2[x1pos] ++;
saida2[x1pos + 2] +=edge;
saida2[x2pos] ++;
saida2[x2pos + 2] +=edge;
saida2[x2pos + 1] ++;
saida2[x2pos + 3] +=edge;
}else{//otherwise, between connections
saida3[x1pos + 1] ++;
saida3[x1pos + 3] +=edge;
saida3[x1pos] ++;
saida3[x1pos + 2] +=edge;
if(x!=i || y!=j){
saida3[x2pos] ++;
saida3[x2pos + 2] +=edge;
saida3[x2pos + 1] ++;
saida3[x2pos + 3] +=edge;
}
}
}
}
}
}
}
}
}
}