mirror of
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262 lines
9.7 KiB
C++
262 lines
9.7 KiB
C++
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#include "edge-selectors.h"
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#include "arithmetics.hpp"
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namespace msdfgen {
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#define DISTANCE_DELTA_FACTOR 1.001
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TrueDistanceSelector::EdgeCache::EdgeCache() : absDistance(0) { }
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void TrueDistanceSelector::reset(const Point2 &p) {
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double delta = DISTANCE_DELTA_FACTOR*(p-this->p).length();
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minDistance.distance += nonZeroSign(minDistance.distance)*delta;
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this->p = p;
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}
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void TrueDistanceSelector::addEdge(EdgeCache &cache, const EdgeSegment *prevEdge, const EdgeSegment *edge, const EdgeSegment *nextEdge) {
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double delta = DISTANCE_DELTA_FACTOR*(p-cache.point).length();
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if (cache.absDistance-delta <= fabs(minDistance.distance)) {
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double dummy;
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SignedDistance distance = edge->signedDistance(p, dummy);
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if (distance < minDistance)
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minDistance = distance;
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cache.point = p;
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cache.absDistance = fabs(distance.distance);
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}
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}
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void TrueDistanceSelector::merge(const TrueDistanceSelector &other) {
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if (other.minDistance < minDistance)
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minDistance = other.minDistance;
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}
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TrueDistanceSelector::DistanceType TrueDistanceSelector::distance() const {
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return minDistance.distance;
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}
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PseudoDistanceSelectorBase::EdgeCache::EdgeCache() : absDistance(0), aDomainDistance(0), bDomainDistance(0), aPseudoDistance(0), bPseudoDistance(0) { }
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bool PseudoDistanceSelectorBase::getPseudoDistance(double &distance, const Vector2 &ep, const Vector2 &edgeDir) {
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double ts = dotProduct(ep, edgeDir);
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if (ts > 0) {
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double pseudoDistance = crossProduct(ep, edgeDir);
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if (fabs(pseudoDistance) < fabs(distance)) {
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distance = pseudoDistance;
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return true;
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}
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}
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return false;
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}
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PseudoDistanceSelectorBase::PseudoDistanceSelectorBase() : minNegativePseudoDistance(-fabs(minTrueDistance.distance)), minPositivePseudoDistance(fabs(minTrueDistance.distance)), nearEdge(NULL), nearEdgeParam(0) { }
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void PseudoDistanceSelectorBase::reset(double delta) {
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minTrueDistance.distance += nonZeroSign(minTrueDistance.distance)*delta;
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minNegativePseudoDistance = -fabs(minTrueDistance.distance);
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minPositivePseudoDistance = fabs(minTrueDistance.distance);
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nearEdge = NULL;
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nearEdgeParam = 0;
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}
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bool PseudoDistanceSelectorBase::isEdgeRelevant(const EdgeCache &cache, const EdgeSegment *edge, const Point2 &p) const {
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double delta = DISTANCE_DELTA_FACTOR*(p-cache.point).length();
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return (
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cache.absDistance-delta <= fabs(minTrueDistance.distance) ||
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fabs(cache.aDomainDistance) < delta ||
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fabs(cache.bDomainDistance) < delta ||
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(cache.aDomainDistance > 0 && (cache.aPseudoDistance < 0 ?
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cache.aPseudoDistance+delta >= minNegativePseudoDistance :
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cache.aPseudoDistance-delta <= minPositivePseudoDistance
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)) ||
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(cache.bDomainDistance > 0 && (cache.bPseudoDistance < 0 ?
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cache.bPseudoDistance+delta >= minNegativePseudoDistance :
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cache.bPseudoDistance-delta <= minPositivePseudoDistance
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))
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);
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}
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void PseudoDistanceSelectorBase::addEdgeTrueDistance(const EdgeSegment *edge, const SignedDistance &distance, double param) {
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if (distance < minTrueDistance) {
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minTrueDistance = distance;
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nearEdge = edge;
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nearEdgeParam = param;
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}
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}
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void PseudoDistanceSelectorBase::addEdgePseudoDistance(double distance) {
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if (distance <= 0 && distance > minNegativePseudoDistance)
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minNegativePseudoDistance = distance;
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if (distance >= 0 && distance < minPositivePseudoDistance)
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minPositivePseudoDistance = distance;
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}
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void PseudoDistanceSelectorBase::merge(const PseudoDistanceSelectorBase &other) {
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if (other.minTrueDistance < minTrueDistance) {
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minTrueDistance = other.minTrueDistance;
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nearEdge = other.nearEdge;
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nearEdgeParam = other.nearEdgeParam;
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}
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if (other.minNegativePseudoDistance > minNegativePseudoDistance)
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minNegativePseudoDistance = other.minNegativePseudoDistance;
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if (other.minPositivePseudoDistance < minPositivePseudoDistance)
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minPositivePseudoDistance = other.minPositivePseudoDistance;
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}
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double PseudoDistanceSelectorBase::computeDistance(const Point2 &p) const {
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double minDistance = minTrueDistance.distance < 0 ? minNegativePseudoDistance : minPositivePseudoDistance;
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if (nearEdge) {
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SignedDistance distance = minTrueDistance;
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nearEdge->distanceToPseudoDistance(distance, p, nearEdgeParam);
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if (fabs(distance.distance) < fabs(minDistance))
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minDistance = distance.distance;
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}
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return minDistance;
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}
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SignedDistance PseudoDistanceSelectorBase::trueDistance() const {
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return minTrueDistance;
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}
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void PseudoDistanceSelector::reset(const Point2 &p) {
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double delta = DISTANCE_DELTA_FACTOR*(p-this->p).length();
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PseudoDistanceSelectorBase::reset(delta);
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this->p = p;
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}
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void PseudoDistanceSelector::addEdge(EdgeCache &cache, const EdgeSegment *prevEdge, const EdgeSegment *edge, const EdgeSegment *nextEdge) {
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if (isEdgeRelevant(cache, edge, p)) {
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double param;
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SignedDistance distance = edge->signedDistance(p, param);
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addEdgeTrueDistance(edge, distance, param);
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cache.point = p;
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cache.absDistance = fabs(distance.distance);
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Vector2 ap = p-edge->point(0);
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Vector2 bp = p-edge->point(1);
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Vector2 aDir = edge->direction(0).normalize(true);
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Vector2 bDir = edge->direction(1).normalize(true);
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Vector2 prevDir = prevEdge->direction(1).normalize(true);
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Vector2 nextDir = nextEdge->direction(0).normalize(true);
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double add = dotProduct(ap, (prevDir+aDir).normalize(true));
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double bdd = -dotProduct(bp, (bDir+nextDir).normalize(true));
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if (add > 0) {
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double pd = distance.distance;
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if (getPseudoDistance(pd, ap, -aDir))
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addEdgePseudoDistance(pd = -pd);
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cache.aPseudoDistance = pd;
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}
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if (bdd > 0) {
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double pd = distance.distance;
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if (getPseudoDistance(pd, bp, bDir))
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addEdgePseudoDistance(pd);
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cache.bPseudoDistance = pd;
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}
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cache.aDomainDistance = add;
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cache.bDomainDistance = bdd;
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}
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}
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PseudoDistanceSelector::DistanceType PseudoDistanceSelector::distance() const {
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return computeDistance(p);
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}
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void MultiDistanceSelector::reset(const Point2 &p) {
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double delta = DISTANCE_DELTA_FACTOR*(p-this->p).length();
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r.reset(delta);
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g.reset(delta);
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b.reset(delta);
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this->p = p;
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}
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void MultiDistanceSelector::addEdge(EdgeCache &cache, const EdgeSegment *prevEdge, const EdgeSegment *edge, const EdgeSegment *nextEdge) {
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if (
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(edge->color&RED && r.isEdgeRelevant(cache, edge, p)) ||
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(edge->color&GREEN && g.isEdgeRelevant(cache, edge, p)) ||
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(edge->color&BLUE && b.isEdgeRelevant(cache, edge, p))
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) {
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double param;
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SignedDistance distance = edge->signedDistance(p, param);
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if (edge->color&RED)
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r.addEdgeTrueDistance(edge, distance, param);
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if (edge->color&GREEN)
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g.addEdgeTrueDistance(edge, distance, param);
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if (edge->color&BLUE)
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b.addEdgeTrueDistance(edge, distance, param);
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cache.point = p;
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cache.absDistance = fabs(distance.distance);
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Vector2 ap = p-edge->point(0);
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Vector2 bp = p-edge->point(1);
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Vector2 aDir = edge->direction(0).normalize(true);
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Vector2 bDir = edge->direction(1).normalize(true);
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Vector2 prevDir = prevEdge->direction(1).normalize(true);
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Vector2 nextDir = nextEdge->direction(0).normalize(true);
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double add = dotProduct(ap, (prevDir+aDir).normalize(true));
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double bdd = -dotProduct(bp, (bDir+nextDir).normalize(true));
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if (add > 0) {
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double pd = distance.distance;
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if (PseudoDistanceSelectorBase::getPseudoDistance(pd, ap, -aDir)) {
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pd = -pd;
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if (edge->color&RED)
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r.addEdgePseudoDistance(pd);
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if (edge->color&GREEN)
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g.addEdgePseudoDistance(pd);
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if (edge->color&BLUE)
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b.addEdgePseudoDistance(pd);
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}
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cache.aPseudoDistance = pd;
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}
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if (bdd > 0) {
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double pd = distance.distance;
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if (PseudoDistanceSelectorBase::getPseudoDistance(pd, bp, bDir)) {
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if (edge->color&RED)
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r.addEdgePseudoDistance(pd);
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if (edge->color&GREEN)
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g.addEdgePseudoDistance(pd);
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if (edge->color&BLUE)
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b.addEdgePseudoDistance(pd);
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}
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cache.bPseudoDistance = pd;
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}
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cache.aDomainDistance = add;
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cache.bDomainDistance = bdd;
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}
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}
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void MultiDistanceSelector::merge(const MultiDistanceSelector &other) {
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r.merge(other.r);
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g.merge(other.g);
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b.merge(other.b);
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}
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MultiDistanceSelector::DistanceType MultiDistanceSelector::distance() const {
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MultiDistance multiDistance;
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multiDistance.r = r.computeDistance(p);
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multiDistance.g = g.computeDistance(p);
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multiDistance.b = b.computeDistance(p);
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return multiDistance;
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}
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SignedDistance MultiDistanceSelector::trueDistance() const {
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SignedDistance distance = r.trueDistance();
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if (g.trueDistance() < distance)
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distance = g.trueDistance();
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if (b.trueDistance() < distance)
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distance = b.trueDistance();
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return distance;
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}
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MultiAndTrueDistanceSelector::DistanceType MultiAndTrueDistanceSelector::distance() const {
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MultiDistance multiDistance = MultiDistanceSelector::distance();
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MultiAndTrueDistance mtd;
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mtd.r = multiDistance.r;
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mtd.g = multiDistance.g;
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mtd.b = multiDistance.b;
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mtd.a = trueDistance().distance;
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return mtd;
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}
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}
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