#include "snapped-curve.h"

#include <2geom/crossing.h>

#include <2geom/path-intersection.h>

Inkscape::SnappedCurve::SnappedCurve(Geom::Point const &snapped_point, int num_path, int num_segm, Geom::Coord const &snapped_distance, Geom::Coord const &snapped_tolerance, bool const &always_snap, bool const &fully_constrained, Geom::Curve const *curve, SnapSourceType source, long source_num, SnapTargetType target, Geom::OptRect target_bbox)

{

_num_path = num_path;

_num_segm = num_segm;

_distance = snapped_distance;

_tolerance = std::max(snapped_tolerance, 1.0);

_always_snap = always_snap;

_curve = curve;

_second_distance = Geom::infinity();

_second_tolerance = 1;

_second_always_snap = false;

_point = snapped_point;

_at_intersection = false;

_fully_constrained = fully_constrained;

_source = source;

_source_num = source_num;

_target = target;

_target_bbox = target_bbox;

}

Inkscape::SnappedCurve::SnappedCurve()

{

_num_path = 0;

_num_segm = 0;

_distance = Geom::infinity();

_tolerance = 1;

_always_snap = false;

_curve = NULL;

_second_distance = Geom::infinity();

_second_tolerance = 1;

_second_always_snap = false;

_point = Geom::Point(0,0);

_at_intersection = false;

_fully_constrained = false;

_source = SNAPSOURCE_UNDEFINED;

_source_num = 0;

_target = SNAPTARGET_UNDEFINED;

_target_bbox = Geom::OptRect();

}

Inkscape::SnappedCurve::~SnappedCurve()

{

}

Inkscape::SnappedPoint Inkscape::SnappedCurve::intersect(SnappedCurve const &curve, Geom::Point const &p, Geom::Matrix dt2doc) const

{

// Calculate the intersections of two curves, which are both within snapping range, and

// return only the closest intersection

// The point of intersection should be considered for snapping, but might be outside the snapping range

// PS: We need p (the location of the mouse pointer) for find out which intersection is the

// closest, as there might be multiple intersections of two curves

Geom::Crossings cs = crossings(*(this->_curve), *(curve._curve));

if (cs.size() > 0) {

// There might be multiple intersections: find the closest

Geom::Coord best_dist = Geom::infinity();

Geom::Point best_p = Geom::Point(Geom::infinity(), Geom::infinity());

for (Geom::Crossings::const_iterator i = cs.begin(); i != cs.end(); i++) {

Geom::Point p_ix = this->_curve->pointAt((*i).ta);

Geom::Coord dist = Geom::distance(p_ix, p);

// Test if we have two segments (curves) from the same path..

if (this->_num_path == curve._num_path) {

// Never try to intersect a segment with itself

if (this->_num_segm == curve._num_segm) continue;

// Two subsequent segments (curves) in a path will have a common node; this node is not considered to be an intersection

if (this->_num_segm == curve._num_segm + 1 && (*i).ta == 0 && (*i).tb == 1) continue;

if (this->_num_segm + 1 == curve._num_segm && (*i).ta == 1 && (*i).tb == 0) continue;

}

if (dist < best_dist) {

best_dist = dist;

best_p = p_ix;

}

}

// Now we've found the closest intersection, return it as a SnappedPoint

bool const use_this_as_primary = _distance < curve.getSnapDistance();

Inkscape::SnappedCurve const *primaryC = use_this_as_primary ? this : &curve;

Inkscape::SnappedCurve const *secondaryC = use_this_as_primary ? &curve : this;

// The intersection should in fact be returned in desktop coordinates

best_p = best_p * dt2doc;

Geom::Coord primaryDist = use_this_as_primary ? Geom::L2(best_p - this->getPoint()) : Geom::L2(best_p - curve.getPoint());

Geom::Coord secondaryDist = use_this_as_primary ? Geom::L2(best_p - curve.getPoint()) : Geom::L2(best_p - this->getPoint());

// TODO: Investigate whether it is possible to use document coordinates everywhere

// in the snapper code. Only the mouse position should be in desktop coordinates, I guess.

// All paths are already in document coords and we are certainly not going to change THAT.

return SnappedPoint(best_p, Inkscape::SNAPSOURCE_UNDEFINED, primaryC->getSourceNum(), Inkscape::SNAPTARGET_PATH_INTERSECTION, primaryDist, primaryC->getTolerance(), primaryC->getAlwaysSnap(), true, false, true,

secondaryDist, secondaryC->getTolerance(), secondaryC->getAlwaysSnap());

}

// No intersection

return SnappedPoint(Geom::Point(Geom::infinity(), Geom::infinity()), SNAPSOURCE_UNDEFINED, 0, SNAPTARGET_UNDEFINED, Geom::infinity(), 0, false, false, false, false, Geom::infinity(), 0, false);

}

bool getClosestCurve(std::list<Inkscape::SnappedCurve> const &list, Inkscape::SnappedCurve &result)

{

bool success = false;

for (std::list<Inkscape::SnappedCurve>::const_iterator i = list.begin(); i != list.end(); i++) {

if ((i == list.begin()) || (*i).getSnapDistance() < result.getSnapDistance()) {

result = *i;

success = true;

}

}

return success;

}

bool getClosestIntersectionCS(std::list<Inkscape::SnappedCurve> const &list, Geom::Point const &p, Inkscape::SnappedPoint &result, Geom::Matrix dt2doc)

{

bool success = false;

for (std::list<Inkscape::SnappedCurve>::const_iterator i = list.begin(); i != list.end(); i++) {

if ((*i).getTarget() != Inkscape::SNAPTARGET_BBOX_EDGE) { // We don't support snapping to intersections of bboxes,

// as this would require two bboxes two be flashed in the snap indicator

std::list<Inkscape::SnappedCurve>::const_iterator j = i;

j++;

for (; j != list.end(); j++) {

if ((*j).getTarget() != Inkscape::SNAPTARGET_BBOX_EDGE) { // We don't support snapping to intersections of bboxes

Inkscape::SnappedPoint sp = (*i).intersect(*j, p, dt2doc);

if (sp.getAtIntersection()) {

// if it's the first point

bool const c1 = !success;

// or, if it's closer

bool const c2 = sp.getSnapDistance() < result.getSnapDistance();

// or, if it's just as close then look at the other distance

// (only relevant for snapped points which are at an intersection)

bool const c3 = (sp.getSnapDistance() == result.getSnapDistance()) && (sp.getSecondSnapDistance() < result.getSecondSnapDistance());

// then prefer this point over the previous one

if (c1 || c2 || c3) {

result = sp;

success = true;

}

}

}

}

}

}

return success;

}