/** \file * LPE implementation */ /* * Authors: * Maximilian Albert * Johan Engelen * Jabiertxo Arraiza Cenoz * Copyright (C) Authors 2007-2012 * * Released under GNU GPL, read the file 'COPYING' for more information */ #include #include <2geom/path-intersection.h> #include <2geom/sbasis-to-bezier.h> #include "live_effects/lpe-copy_rotate.h" #include "knotholder.h" // TODO due to internal breakage in glibmm headers, this must be last: #include namespace Inkscape { namespace LivePathEffect { namespace CR { class KnotHolderEntityStartingAngle : public LPEKnotHolderEntity { public: KnotHolderEntityStartingAngle(LPECopyRotate *effect) : LPEKnotHolderEntity(effect) {}; virtual void knot_set(Geom::Point const &p, Geom::Point const &origin, guint state); virtual Geom::Point knot_get() const; }; class KnotHolderEntityRotationAngle : public LPEKnotHolderEntity { public: KnotHolderEntityRotationAngle(LPECopyRotate *effect) : LPEKnotHolderEntity(effect) {}; virtual void knot_set(Geom::Point const &p, Geom::Point const &origin, guint state); virtual Geom::Point knot_get() const; }; } // namespace CR bool pointInTriangle(Geom::Point const &p, Geom::Point const &p1, Geom::Point const &p2, Geom::Point const &p3) { //http://totologic.blogspot.com.es/2014/01/accurate-point-in-triangle-test.html using Geom::X; using Geom::Y; double denominator = (p1[X]*(p2[Y] - p3[Y]) + p1[Y]*(p3[X] - p2[X]) + p2[X]*p3[Y] - p2[Y]*p3[X]); double t1 = (p[X]*(p3[Y] - p1[Y]) + p[Y]*(p1[X] - p3[X]) - p1[X]*p3[Y] + p1[Y]*p3[X]) / denominator; double t2 = (p[X]*(p2[Y] - p1[Y]) + p[Y]*(p1[X] - p2[X]) - p1[X]*p2[Y] + p1[Y]*p2[X]) / -denominator; double s = t1 + t2; return 0 <= t1 && t1 <= 1 && 0 <= t2 && t2 <= 1 && s <= 1; } LPECopyRotate::LPECopyRotate(LivePathEffectObject *lpeobject) : Effect(lpeobject), origin(_("Origin"), _("Origin of the rotation"), "origin", &wr, this, "Adjust the origin of the rotation"), starting_angle(_("Starting:"), _("Angle of the first copy"), "starting_angle", &wr, this, 0.0), rotation_angle(_("Rotation angle:"), _("Angle between two successive copies"), "rotation_angle", &wr, this, 60.0), num_copies(_("Number of copies:"), _("Number of copies of the original path"), "num_copies", &wr, this, 6), copies_to_360(_("360º Copies"), _("No rotation angle, fixed to 360º"), "copies_to_360", &wr, this, true), fuse_paths(_("Fuse paths"), _("Fuse paths by helper line, use fill-rule: evenodd for best result"), "fuse_paths", &wr, this, false), dist_angle_handle(100.0) { show_orig_path = true; _provides_knotholder_entities = true; apply_to_clippath_and_mask = true; // register all your parameters here, so Inkscape knows which parameters this effect has: registerParameter(&copies_to_360); registerParameter(&fuse_paths); registerParameter(&starting_angle); registerParameter(&rotation_angle); registerParameter(&num_copies); registerParameter(&origin); num_copies.param_make_integer(true); num_copies.param_set_range(0, 1000); } LPECopyRotate::~LPECopyRotate() { } void LPECopyRotate::doOnApply(SPLPEItem const* lpeitem) { using namespace Geom; original_bbox(lpeitem); A = Point(boundingbox_X.min(), boundingbox_Y.middle()); B = Point(boundingbox_X.middle(), boundingbox_Y.middle()); origin.param_setValue(A); origin.param_update_default(A); dist_angle_handle = L2(B - A); dir = unit_vector(B - A); } void LPECopyRotate::transform_multiply(Geom::Affine const& postmul, bool set) { if(fuse_paths) { Geom::Coord angle = Geom::deg_from_rad(atan(-postmul[1]/postmul[0])); angle += starting_angle; starting_angle.param_set_value(angle); } // cycle through all parameters. Most parameters will not need transformation, but path and point params do. for (std::vector::iterator it = param_vector.begin(); it != param_vector.end(); ++it) { Parameter * param = *it; param->param_transform_multiply(postmul, set); } } void LPECopyRotate::doBeforeEffect (SPLPEItem const* lpeitem) { using namespace Geom; original_bbox(lpeitem); if (copies_to_360) { rotation_angle.param_set_value(360.0/(double)num_copies); } if (fuse_paths && rotation_angle * num_copies > 360 && rotation_angle > 0) { num_copies.param_set_value(floor(360/rotation_angle)); } if (fuse_paths && copies_to_360) { num_copies.param_set_increments(2,2); if ((int)num_copies%2 !=0) { num_copies.param_set_value(num_copies+1); rotation_angle.param_set_value(360.0/(double)num_copies); } } else { num_copies.param_set_increments(1,1); } if (dist_angle_handle < 1.0) { dist_angle_handle = 1.0; } A = Point(boundingbox_X.min(), boundingbox_Y.middle()); B = Point(boundingbox_X.middle(), boundingbox_Y.middle()); dir = unit_vector(B - A); // I first suspected the minus sign to be a bug in 2geom but it is // likely due to SVG's choice of coordinate system orientation (max) start_pos = origin + dir * Rotate(-rad_from_deg(starting_angle)) * dist_angle_handle; rot_pos = origin + dir * Rotate(-rad_from_deg(rotation_angle+starting_angle)) * dist_angle_handle; if ( fuse_paths || copies_to_360 ) { rot_pos = origin; } SPLPEItem * item = const_cast(lpeitem); item->apply_to_clippath(item); item->apply_to_mask(item); } void LPECopyRotate::split(Geom::PathVector &path_on, Geom::Path const ÷r) { Geom::PathVector tmp_path; double time_start = 0.0; Geom::Path original = path_on[0]; int position = 0; Geom::Crossings cs = crossings(original,divider); std::vector crossed; for(unsigned int i = 0; i < cs.size(); i++) { crossed.push_back(cs[i].ta); } std::sort(crossed.begin(), crossed.end()); for (unsigned int i = 0; i < crossed.size(); i++) { double time_end = crossed[i]; if (time_start == time_end || time_end - time_start < Geom::EPSILON) { continue; } Geom::Path portion_original = original.portion(time_start,time_end); if (!portion_original.empty()) { Geom::Point side_checker = portion_original.pointAt(0.0001); position = Geom::sgn(Geom::cross(divider[1].finalPoint() - divider[0].finalPoint(), side_checker - divider[0].finalPoint())); if (rotation_angle != 180) { position = pointInTriangle(side_checker, divider.initialPoint(), divider[0].finalPoint(), divider[1].finalPoint()); } if (position == 1) { tmp_path.push_back(portion_original); } portion_original.clear(); time_start = time_end; } } position = Geom::sgn(Geom::cross(divider[1].finalPoint() - divider[0].finalPoint(), original.finalPoint() - divider[0].finalPoint())); if (rotation_angle != 180) { position = pointInTriangle(original.finalPoint(), divider.initialPoint(), divider[0].finalPoint(), divider[1].finalPoint()); } if (cs.size() > 0 && position == 1) { Geom::Path portion_original = original.portion(time_start, original.size()); if(!portion_original.empty()){ if (!original.closed()) { tmp_path.push_back(portion_original); } else { if (tmp_path.size() > 0 && tmp_path[0].size() > 0 ) { portion_original.setFinal(tmp_path[0].initialPoint()); portion_original.append(tmp_path[0]); tmp_path[0] = portion_original; } else { tmp_path.push_back(portion_original); } } portion_original.clear(); } } if (cs.size()==0 && position == 1) { tmp_path.push_back(original); } path_on = tmp_path; } void LPECopyRotate::setFusion(Geom::PathVector &path_on, Geom::Path divider, double size_divider) { split(path_on,divider); Geom::PathVector tmp_path; Geom::Affine pre = Geom::Translate(-origin); for (Geom::PathVector::const_iterator path_it = path_on.begin(); path_it != path_on.end(); ++path_it) { Geom::Path original = *path_it; if (path_it->empty()) { continue; } Geom::PathVector tmp_path_helper; Geom::Path append_path = original; for (int i = 0; i < num_copies; ++i) { Geom::Rotate rot(-Geom::rad_from_deg(rotation_angle * (i))); Geom::Affine m = pre * rot * Geom::Translate(origin); if (i%2 != 0) { Geom::Point A = (Geom::Point)origin; Geom::Point B = origin + dir * Geom::Rotate(-Geom::rad_from_deg((rotation_angle*i)+starting_angle)) * size_divider; Geom::Translate m1(A[0], A[1]); double hyp = Geom::distance(A, B); double c = (B[0] - A[0]) / hyp; // cos(alpha) double s = (B[1] - A[1]) / hyp; // sin(alpha) Geom::Affine m2(c, -s, s, c, 0.0, 0.0); Geom::Scale sca(1.0, -1.0); Geom::Affine tmp_m = m1.inverse() * m2; m = tmp_m; m = m * sca; m = m * m2.inverse(); m = m * m1; } else { append_path = original; } append_path *= m; if (tmp_path_helper.size() > 0) { if (Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].finalPoint(), append_path.finalPoint())) { Geom::Path tmp_append = append_path.reversed(); tmp_append.setInitial(tmp_path_helper[tmp_path_helper.size()-1].finalPoint()); tmp_path_helper[tmp_path_helper.size()-1].append(tmp_append); } else if (Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].initialPoint(), append_path.initialPoint())) { Geom::Path tmp_append = append_path; tmp_path_helper[tmp_path_helper.size()-1] = tmp_path_helper[tmp_path_helper.size()-1].reversed(); tmp_append.setInitial(tmp_path_helper[tmp_path_helper.size()-1].finalPoint()); tmp_path_helper[tmp_path_helper.size()-1].append(tmp_append); } else if (Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].finalPoint(), append_path.initialPoint())) { Geom::Path tmp_append = append_path; tmp_append.setInitial(tmp_path_helper[tmp_path_helper.size()-1].finalPoint()); tmp_path_helper[tmp_path_helper.size()-1].append(tmp_append); } else if (Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].initialPoint(), append_path.finalPoint())) { Geom::Path tmp_append = append_path.reversed(); tmp_path_helper[tmp_path_helper.size()-1] = tmp_path_helper[tmp_path_helper.size()-1].reversed(); tmp_append.setInitial(tmp_path_helper[tmp_path_helper.size()-1].finalPoint()); tmp_path_helper[tmp_path_helper.size()-1].append(tmp_append); } else if (Geom::are_near(tmp_path_helper[0].finalPoint(), append_path.finalPoint())) { Geom::Path tmp_append = append_path.reversed(); tmp_append.setInitial(tmp_path_helper[0].finalPoint()); tmp_path_helper[0].append(tmp_append); } else if (Geom::are_near(tmp_path_helper[0].initialPoint(), append_path.initialPoint())) { Geom::Path tmp_append = append_path; tmp_path_helper[0] = tmp_path_helper[0].reversed(); tmp_append.setInitial(tmp_path_helper[0].finalPoint()); tmp_path_helper[0].append(tmp_append); } else { tmp_path_helper.push_back(append_path); } if ( Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].finalPoint(),tmp_path_helper[tmp_path_helper.size()-1].initialPoint())) { tmp_path_helper[tmp_path_helper.size()-1].close(); } } else { tmp_path_helper.push_back(append_path); } } if (tmp_path_helper.size() > 0) { tmp_path_helper[tmp_path_helper.size()-1] = tmp_path_helper[tmp_path_helper.size()-1]; tmp_path_helper[0] = tmp_path_helper[0]; if (rotation_angle * num_copies != 360) { Geom::Ray base_a(divider.pointAt(1),divider.pointAt(0)); double diagonal = Geom::distance(Geom::Point(boundingbox_X.min(),boundingbox_Y.min()),Geom::Point(boundingbox_X.max(),boundingbox_Y.max())); Geom::Rect bbox(Geom::Point(boundingbox_X.min(),boundingbox_Y.min()),Geom::Point(boundingbox_X.max(),boundingbox_Y.max())); double size_divider = Geom::distance(origin,bbox) + (diagonal * 2); Geom::Point base_point = origin + dir * Geom::Rotate(-Geom::rad_from_deg((rotation_angle * num_copies) + starting_angle)) * size_divider; Geom::Ray base_b(divider.pointAt(1), base_point); if (Geom::are_near(tmp_path_helper[0].initialPoint(),base_a) && Geom::are_near(tmp_path_helper[0].finalPoint(),base_a)) { tmp_path_helper[0].close(); if (tmp_path_helper.size() > 1) { tmp_path_helper[tmp_path_helper.size()-1].close(); } } else if (Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].initialPoint(),base_b) && Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].finalPoint(),base_b)) { tmp_path_helper[0].close(); if (tmp_path_helper.size() > 1) { tmp_path_helper[tmp_path_helper.size()-1].close(); } } else if ((Geom::are_near(tmp_path_helper[0].initialPoint(),base_a) && Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].finalPoint(),base_b)) || (Geom::are_near(tmp_path_helper[0].initialPoint(),base_b) && Geom::are_near(tmp_path_helper[tmp_path_helper.size()-1].finalPoint(),base_a))) { Geom::Path close_path = Geom::Path(tmp_path_helper[tmp_path_helper.size()-1].finalPoint()); close_path.appendNew((Geom::Point)origin); close_path.appendNew(tmp_path_helper[0].initialPoint()); tmp_path_helper[0].append(close_path); } } if (Geom::are_near(tmp_path_helper[0].finalPoint(),tmp_path_helper[0].initialPoint())) { tmp_path_helper[0].close(); } } tmp_path.insert(tmp_path.end(), tmp_path_helper.begin(), tmp_path_helper.end()); tmp_path_helper.clear(); } path_on = tmp_path; tmp_path.clear(); } Geom::Piecewise > LPECopyRotate::doEffect_pwd2 (Geom::Piecewise > const & pwd2_in) { using namespace Geom; if (num_copies == 1 && !fuse_paths) { return pwd2_in; } double diagonal = Geom::distance(Geom::Point(boundingbox_X.min(),boundingbox_Y.min()),Geom::Point(boundingbox_X.max(),boundingbox_Y.max())); Geom::Rect bbox(Geom::Point(boundingbox_X.min(),boundingbox_Y.min()),Geom::Point(boundingbox_X.max(),boundingbox_Y.max())); double size_divider = Geom::distance(origin,bbox) + (diagonal * 2); Geom::Point line_start = origin + dir * Rotate(-rad_from_deg(starting_angle)) * size_divider; Geom::Point line_end = origin + dir * Rotate(-rad_from_deg(rotation_angle + starting_angle)) * size_divider; //Note:: beter way to do this //Whith AppendNew have problems whith the crossing order Geom::Path divider = Geom::Path(line_start); divider.appendNew((Geom::Point)origin); divider.appendNew(line_end); Piecewise > output; Affine pre = Translate(-origin) * Rotate(-rad_from_deg(starting_angle)); if (fuse_paths) { Geom::PathVector path_out; Geom::PathVector tmp_path; PathVector const original_pathv = path_from_piecewise(remove_short_cuts(pwd2_in, 0.1), 0.001); for (Geom::PathVector::const_iterator path_it = original_pathv.begin(); path_it != original_pathv.end(); ++path_it) { if (path_it->empty()) { continue; } bool end_open = false; if (path_it->closed()) { const Geom::Curve &closingline = path_it->back_closed(); if (!are_near(closingline.initialPoint(), closingline.finalPoint())) { end_open = true; } } Geom::Path original = (Geom::Path)(*path_it); if (end_open && path_it->closed()) { original.close(false); original.appendNew( original.initialPoint() ); original.close(true); } tmp_path.push_back(original); setFusion(tmp_path, divider, size_divider); path_out.insert(path_out.end(), tmp_path.begin(), tmp_path.end()); tmp_path.clear(); } if (path_out.size()>0) { output = paths_to_pw(path_out); } } else { for (int i = 0; i < num_copies; ++i) { Rotate rot(-rad_from_deg(rotation_angle * i)); Affine t = pre * rot * Translate(origin); output.concat(pwd2_in * t); } } return output; } void LPECopyRotate::addCanvasIndicators(SPLPEItem const */*lpeitem*/, std::vector &hp_vec) { using namespace Geom; hp_vec.clear(); Geom::Path hp; hp.start(start_pos); hp.appendNew((Geom::Point)origin); hp.appendNew(origin + dir * Rotate(-rad_from_deg(rotation_angle+starting_angle)) * dist_angle_handle); Geom::PathVector pathv; pathv.push_back(hp); hp_vec.push_back(pathv); } void LPECopyRotate::resetDefaults(SPItem const* item) { Effect::resetDefaults(item); original_bbox(SP_LPE_ITEM(item)); } void LPECopyRotate::addKnotHolderEntities(KnotHolder *knotholder, SPDesktop *desktop, SPItem *item) { { KnotHolderEntity *e = new CR::KnotHolderEntityStartingAngle(this); e->create( desktop, item, knotholder, Inkscape::CTRL_TYPE_UNKNOWN, _("Adjust the starting angle")); knotholder->add(e); } { KnotHolderEntity *e = new CR::KnotHolderEntityRotationAngle(this); e->create( desktop, item, knotholder, Inkscape::CTRL_TYPE_UNKNOWN, _("Adjust the rotation angle")); knotholder->add(e); } }; namespace CR { using namespace Geom; void KnotHolderEntityStartingAngle::knot_set(Geom::Point const &p, Geom::Point const &/*origin*/, guint state) { LPECopyRotate* lpe = dynamic_cast(_effect); Geom::Point const s = snap_knot_position(p, state); // I first suspected the minus sign to be a bug in 2geom but it is // likely due to SVG's choice of coordinate system orientation (max) lpe->starting_angle.param_set_value(deg_from_rad(-angle_between(lpe->dir, s - lpe->origin))); if (state & GDK_SHIFT_MASK) { lpe->dist_angle_handle = L2(lpe->B - lpe->A); } else { lpe->dist_angle_handle = L2(p - lpe->origin); } // FIXME: this should not directly ask for updating the item. It should write to SVG, which triggers updating. sp_lpe_item_update_patheffect (SP_LPE_ITEM(item), false, true); } void KnotHolderEntityRotationAngle::knot_set(Geom::Point const &p, Geom::Point const &/*origin*/, guint state) { LPECopyRotate* lpe = dynamic_cast(_effect); Geom::Point const s = snap_knot_position(p, state); // I first suspected the minus sign to be a bug in 2geom but it is // likely due to SVG's choice of coordinate system orientation (max) lpe->rotation_angle.param_set_value(deg_from_rad(-angle_between(lpe->dir, s - lpe->origin)) - lpe->starting_angle); if (state & GDK_SHIFT_MASK) { lpe->dist_angle_handle = L2(lpe->B - lpe->A); } else { lpe->dist_angle_handle = L2(p - lpe->origin); } // FIXME: this should not directly ask for updating the item. It should write to SVG, which triggers updating. sp_lpe_item_update_patheffect (SP_LPE_ITEM(item), false, true); } Geom::Point KnotHolderEntityStartingAngle::knot_get() const { LPECopyRotate const *lpe = dynamic_cast(_effect); return lpe->start_pos; } Geom::Point KnotHolderEntityRotationAngle::knot_get() const { LPECopyRotate const *lpe = dynamic_cast(_effect); return lpe->rot_pos; } } // namespace CR /* ######################## */ } //namespace LivePathEffect } /* namespace Inkscape */ /* Local Variables: mode:c++ c-file-style:"stroustrup" c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) indent-tabs-mode:nil fill-column:99 End: */ // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :