// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) Theodore Janeczko 2012 * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include #include "live_effects/lpe-attach-path.h" #include "display/curve.h" #include "2geom/path-sink.h" // TODO due to internal breakage in glibmm headers, this must be last: #include namespace Inkscape { namespace LivePathEffect { LPEAttachPath::LPEAttachPath(LivePathEffectObject *lpeobject) : Effect(lpeobject), start_path(_("Start path:"), _("Path to attach to the start of this path"), "startpath", &wr, this), start_path_position(_("Start path position:"), _("Position to attach path start to"), "startposition", &wr, this, 0.0), start_path_curve_start(_("Start path curve start:"), _("Starting curve"), "startcurvestart", &wr, this, Geom::Point(20,0)/*, true*/), start_path_curve_end(_("Start path curve end:"), _("Ending curve"), "startcurveend", &wr, this, Geom::Point(20,0)/*, true*/), end_path(_("End path:"), _("Path to attach to the end of this path"), "endpath", &wr, this), end_path_position(_("End path position:"), _("Position to attach path end to"), "endposition", &wr, this, 0.0), end_path_curve_start(_("End path curve start:"), _("Starting curve"), "endcurvestart", &wr, this, Geom::Point(20,0)/*, true*/), end_path_curve_end(_("End path curve end:"), _("Ending curve"), "endcurveend", &wr, this, Geom::Point(20,0)/*, true*/) { registerParameter(&start_path); registerParameter(&start_path_position); registerParameter(&start_path_curve_start); registerParameter(&start_path_curve_end); registerParameter(&end_path); registerParameter(&end_path_position); registerParameter(&end_path_curve_start); registerParameter(&end_path_curve_end); //perceived_path = true; show_orig_path = true; curve_start_previous_origin = start_path_curve_end.getOrigin(); curve_end_previous_origin = end_path_curve_end.getOrigin(); start_path.setUpdating(true); end_path.setUpdating(true); } LPEAttachPath::~LPEAttachPath() = default; void LPEAttachPath::resetDefaults(SPItem const * /*item*/) { Effect::resetDefaults(nullptr); curve_start_previous_origin = start_path_curve_end.getOrigin(); curve_end_previous_origin = end_path_curve_end.getOrigin(); } void LPEAttachPath::doBeforeEffect (SPLPEItem const* lpeitem) { if (is_load) { start_path.setUpdating(false); start_path.start_listening(start_path.getObject()); start_path.connect_selection_changed(); end_path.setUpdating(false); end_path.start_listening(end_path.getObject()); end_path.connect_selection_changed(); if (auto item = end_path.getObject()) { item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); } if (auto item = start_path.getObject()) { item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); } } } bool LPEAttachPath::doOnOpen(SPLPEItem const *lpeitem) { if (!is_load || is_applied) { return false; } start_path.setUpdating(false); start_path.start_listening(start_path.getObject()); start_path.connect_selection_changed(); end_path.setUpdating(false); end_path.start_listening(end_path.getObject()); end_path.connect_selection_changed(); return false; } void LPEAttachPath::doEffect (SPCurve * curve) { Geom::PathVector this_pathv = curve->get_pathvector(); if (sp_lpe_item && !this_pathv.empty()) { Geom::Path p = Geom::Path(this_pathv.front().initialPoint()); bool set_start_end = start_path_curve_end.getOrigin() != curve_start_previous_origin; bool set_end_end = end_path_curve_end.getOrigin() != curve_end_previous_origin; if (start_path.linksToPath() && start_path.getObject()) { Geom::PathVector linked_pathv = start_path.get_pathvector(); Geom::Affine linkedtransform = start_path.getObject()->getRelativeTransform(sp_lpe_item); if ( !linked_pathv.empty() ) { Geom::Path transformedpath = linked_pathv.front() * linkedtransform; start_path_curve_start.setOrigin(this_pathv.front().initialPoint()); std::vector derivs = this_pathv.front().front().pointAndDerivatives(0, 3); for (unsigned deriv_n = 1; deriv_n < derivs.size(); deriv_n++) { Geom::Coord length = derivs[deriv_n].length(); if ( ! Geom::are_near(length, 0) && !start_path.getObject()->_tmpsuccessor) { if (set_start_end) { start_path_position.param_set_value(transformedpath.nearestTime(start_path_curve_end.getOrigin()).asFlatTime()); } if (start_path_position > transformedpath.size()) { start_path_position.param_set_value(transformedpath.size()); } else if (start_path_position < 0) { start_path_position.param_set_value(0); } Geom::Curve const *c = start_path_position >= transformedpath.size() ? &transformedpath.back() : &transformedpath.at((int)start_path_position); std::vector derivs_2 = c->pointAndDerivatives(start_path_position >= transformedpath.size() ? 1 : (start_path_position - (int)start_path_position), 3); for (unsigned deriv_n_2 = 1; deriv_n_2 < derivs_2.size(); deriv_n_2++) { Geom::Coord length_2 = derivs[deriv_n_2].length(); if ( ! Geom::are_near(length_2, 0) ) { start_path_curve_end.setOrigin(derivs_2[0]); curve_start_previous_origin = start_path_curve_end.getOrigin(); double startangle = atan2(start_path_curve_start.getVector().y(), start_path_curve_start.getVector().x()); double endangle = atan2(start_path_curve_end.getVector().y(), start_path_curve_end.getVector().x()); double startderiv = atan2(derivs[deriv_n].y(), derivs[deriv_n].x()); double endderiv = atan2(derivs_2[deriv_n_2].y(), derivs_2[deriv_n_2].x()); Geom::Point pt1 = Geom::Point(start_path_curve_start.getVector().length() * cos(startangle + startderiv), start_path_curve_start.getVector().length() * sin(startangle + startderiv)); Geom::Point pt2 = Geom::Point(start_path_curve_end.getVector().length() * cos(endangle + endderiv), start_path_curve_end.getVector().length() * sin(endangle + endderiv)); p = Geom::Path(derivs_2[0]); p.appendNew(-pt2 + derivs_2[0], -pt1 + this_pathv.front().initialPoint(), this_pathv.front().initialPoint()); break; } } break; } } } } p.append(this_pathv.front()); if (end_path.linksToPath() && end_path.getObject()) { Geom::PathVector linked_pathv = end_path.get_pathvector(); Geom::Affine linkedtransform = end_path.getObject()->getRelativeTransform(sp_lpe_item); if ( !linked_pathv.empty() ) { Geom::Path transformedpath = linked_pathv.front() * linkedtransform; Geom::Curve * last_seg_reverse = this_pathv.front().back().reverse(); end_path_curve_start.setOrigin(last_seg_reverse->initialPoint()); std::vector derivs = last_seg_reverse->pointAndDerivatives(0, 3); for (unsigned deriv_n = 1; deriv_n < derivs.size(); deriv_n++) { Geom::Coord length = derivs[deriv_n].length(); if ( ! Geom::are_near(length, 0) && !end_path.getObject()->_tmpsuccessor) { if (set_end_end) { end_path_position.param_set_value(transformedpath.nearestTime(end_path_curve_end.getOrigin()).asFlatTime()); } if (end_path_position > transformedpath.size()) { end_path_position.param_set_value(transformedpath.size()); } else if (end_path_position < 0) { end_path_position.param_set_value(0); } const Geom::Curve *c = end_path_position >= transformedpath.size() ? &transformedpath.back() : &transformedpath.at((int)end_path_position); std::vector derivs_2 = c->pointAndDerivatives(end_path_position >= transformedpath.size() ? 1 : (end_path_position - (int)end_path_position), 3); for (unsigned deriv_n_2 = 1; deriv_n_2 < derivs_2.size(); deriv_n_2++) { Geom::Coord length_2 = derivs[deriv_n_2].length(); if ( ! Geom::are_near(length_2, 0) ) { end_path_curve_end.setOrigin(derivs_2[0]); curve_end_previous_origin = end_path_curve_end.getOrigin(); double startangle = atan2(end_path_curve_start.getVector().y(), end_path_curve_start.getVector().x()); double endangle = atan2(end_path_curve_end.getVector().y(), end_path_curve_end.getVector().x()); double startderiv = atan2(derivs[deriv_n].y(), derivs[deriv_n].x()); double endderiv = atan2(derivs_2[deriv_n_2].y(), derivs_2[deriv_n_2].x()); Geom::Point pt1 = Geom::Point(end_path_curve_start.getVector().length() * cos(startangle + startderiv), end_path_curve_start.getVector().length() * sin(startangle + startderiv)); Geom::Point pt2 = Geom::Point(end_path_curve_end.getVector().length() * cos(endangle + endderiv), end_path_curve_end.getVector().length() * sin(endangle + endderiv)); p.appendNew(-pt1 + this_pathv.front().finalPoint(), -pt2 + derivs_2[0], derivs_2[0]); break; } } break; } } delete last_seg_reverse; } } Geom::PathVector outvector; outvector.push_back(p); curve->set_pathvector(outvector); } } } // 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 :