jrtechs
/
jrtechs-vis
mirror of https://github.com/jrtechs/vis.git


								/**

								 * Calculate the forces the nodes apply on each other based on a repulsion field.

								 * This field is linearly approximated.

								 *

								 * @private

								 */

								exports._calculateNodeForces = function () {

								  var dx, dy, angle, distance, fx, fy, combinedClusterSize,

								    repulsingForce, node1, node2, i, j;


								  var nodes = this.calculationNodes;

								  var nodeIndices = this.calculationNodeIndices;


								  // approximation constants

								  var a_base = -2 / 3;

								  var b = 4 / 3;


								  // repulsing forces between nodes

								  var nodeDistance = this.constants.physics.repulsion.nodeDistance;

								  var minimumDistance = nodeDistance;


								  // we loop from i over all but the last entree in the array

								  // j loops from i+1 to the last. This way we do not double count any of the indices, nor i == j

								  for (i = 0; i < nodeIndices.length - 1; i++) {

								    node1 = nodes[nodeIndices[i]];

								    for (j = i + 1; j < nodeIndices.length; j++) {

								      node2 = nodes[nodeIndices[j]];

								      combinedClusterSize = node1.clusterSize + node2.clusterSize - 2;


								      dx = node2.x - node1.x;

								      dy = node2.y - node1.y;

								      distance = Math.sqrt(dx * dx + dy * dy);


								      // same condition as BarnesHut, making sure nodes are never 100% overlapping.

								      if (distance == 0) {

								        distance = 0.1*Math.random();

								        dx = distance;

								      }


								      minimumDistance = (combinedClusterSize == 0) ? nodeDistance : (nodeDistance * (1 + combinedClusterSize * this.constants.clustering.distanceAmplification));

								      var a = a_base / minimumDistance;

								      if (distance < 2 * minimumDistance) {

								        if (distance < 0.5 * minimumDistance) {

								          repulsingForce = 1.0;

								        }

								        else {

								          repulsingForce = a * distance + b; // linear approx of  1 / (1 + Math.exp((distance / minimumDistance - 1) * steepness))

								        }


								        // amplify the repulsion for clusters.

								        repulsingForce *= (combinedClusterSize == 0) ? 1 : 1 + combinedClusterSize * this.constants.clustering.forceAmplification;

								        repulsingForce = repulsingForce / Math.max(distance,0.01*minimumDistance);


								        fx = dx * repulsingForce;

								        fy = dy * repulsingForce;

								        node1.fx -= fx;

								        node1.fy -= fy;

								        node2.fx += fx;

								        node2.fy += fy;


								      }

								    }

								  }

								};