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#include "fracture.h"
double net_conductivity(const net_t *net, const double *voltages) {
if (net->voltage_bound) {
// the voltage drop across the network is fixed to one with voltage
// boundary conditions, so the conductivity is the total current flowing
double tot_cur = 0;
for (uint_t i = 0; i < net->graph->num_spanning_edges; i++) {
uint_t e = net->graph->spanning_edges[i];
if (!net->fuses[e]) {
uint_t v1, v2, s1, s2;
double v1y, v2y;
v1 = net->graph->ev[2 * e];
v2 = net->graph->ev[2 * e + 1];
v1y = net->graph->vx[2 * v1 + 1];
v2y = net->graph->vx[2 * v2 + 1];
s1 = v1y < v2y ? v1 : v2;
s2 = v1y < v2y ? v2 : v1;
tot_cur += voltages[s1] - voltages[s2];
}
}
return fabs(tot_cur);
} else {
// the current across the network is fixed to one with current boundary
// conditions, so the conductivity is the inverse of the total voltage drop
return 1 / fabs(voltages[net->graph->nv] - voltages[net->graph->nv + 1]);
}
}
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