// SPDX-License-Identifier: GPL-2.0-or-later /* * Boolean operation live path effect * * Copyright (C) 2016-2017 Michael Soegtrop * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include "live_effects/lpe-bool.h" #include #include #include #include #include "2geom/affine.h" #include "2geom/bezier-curve.h" #include "2geom/path-sink.h" #include "2geom/path.h" #include "2geom/svg-path-parser.h" #include "display/curve.h" #include "helper/geom.h" #include "inkscape.h" #include "selection-chemistry.h" #include "livarot/Path.h" #include "livarot/Shape.h" #include "livarot/path-description.h" #include "live_effects/lpeobject.h" #include "object/sp-clippath.h" #include "object/sp-defs.h" #include "object/sp-shape.h" #include "object/sp-text.h" #include "object/sp-root.h" #include "path/path-boolop.h" #include "path/path-util.h" #include "snap.h" #include "style.h" #include "svg/svg.h" #include "ui/tools/tool-base.h" namespace Inkscape { namespace LivePathEffect { // Define an extended boolean operation type static const Util::EnumData BoolOpData[LPEBool::bool_op_ex_count] = { {LPEBool::bool_op_ex_union, N_("union"), "union"}, {LPEBool::bool_op_ex_inters, N_("intersection"), "inters"}, {LPEBool::bool_op_ex_diff, N_("difference"), "diff"}, {LPEBool::bool_op_ex_symdiff, N_("symmetric difference"), "symdiff"}, {LPEBool::bool_op_ex_cut, N_("division"), "cut"}, {LPEBool::bool_op_ex_cut_both, N_("division both"), "cut-both"}, // Note on naming of operations: // bool_op_cut is called "Division" in the manu, see sp_selected_path_cut // bool_op_slice is called "Cut path" in the menu, see sp_selected_path_slice // TODO: this 3 options are commented because dont work properly // maybe in 1.2 can be fixed but need libarot base to do // {LPEBool::bool_op_ex_slice, N_("cut"), "slice"}, // {LPEBool::bool_op_ex_slice_inside, N_("cut inside"), "slice-inside"}, // {LPEBool::bool_op_ex_slice_outside, N_("cut outside"), "slice-outside"}, }; static const Util::EnumDataConverter BoolOpConverter(BoolOpData, sizeof(BoolOpData) / sizeof(*BoolOpData)); static const Util::EnumData FillTypeData[] = { { fill_oddEven, N_("even-odd"), "oddeven" }, { fill_nonZero, N_("non-zero"), "nonzero" }, { fill_positive, N_("positive"), "positive" }, { fill_justDont, N_("take from object"), "from-curve" } }; static const Util::EnumDataConverter FillTypeConverter(FillTypeData, sizeof(FillTypeData) / sizeof(*FillTypeData)); LPEBool::LPEBool(LivePathEffectObject *lpeobject) : Effect(lpeobject) , operand_item(_("Operand path:"), _("Operand for the boolean operation"), "operand-path", &wr, this) , bool_operation(_("Operation:"), _("Boolean Operation"), "operation", BoolOpConverter, &wr, this, bool_op_ex_union) , swap_operands(_("Swap operands"), _("Swap operands (useful e.g. for difference)"), "swap-operands", &wr, this) , rmv_inner( _("Remove inner"), _("For cut operations: remove inner (non-contour) lines of cutting path to avoid invisible extra points"), "rmv-inner", &wr, this) , fill_type_this(_("Fill type this:"), _("Fill type (winding mode) for this path"), "filltype-this", FillTypeConverter, &wr, this, fill_justDont) , fill_type_operand(_("Fill type operand:"), _("Fill type (winding mode) for operand path"), "filltype-operand", FillTypeConverter, &wr, this, fill_justDont) , filter("Filter", "Previous filter", "filter", &wr, this, "", true) { registerParameter(&operand_item); registerParameter(&bool_operation); registerParameter(&swap_operands); //registerParameter(&rmv_inner); registerParameter(&fill_type_this); registerParameter(&filter); registerParameter(&fill_type_operand); show_orig_path = true; satellitestoclipboard = true; prev_affine = Geom::identity(); operand = cast(operand_item.getObject()); if (operand) { operand_id = operand->getId(); } } LPEBool::~LPEBool() = default; bool LPEBool::doOnOpen(SPLPEItem const *lpeitem) { if (!is_load || is_applied) { return false; } legacytest_livarotonly = false; Glib::ustring version = lpeversion.param_getSVGValue(); if (version < "1.2") { if (!SP_ACTIVE_DESKTOP) { legacytest_livarotonly = true; } lpeversion.param_setValue("1.2", true); } operand_item.start_listening(operand_item.getObject()); operand_item.connect_selection_changed(); return false; } bool cmp_cut_position(const Path::cut_position &a, const Path::cut_position &b) { return a.piece == b.piece ? a.t < b.t : a.piece < b.piece; } Geom::PathVector sp_pathvector_boolop_slice_intersect(Geom::PathVector const &pathva, Geom::PathVector const &pathvb, bool inside, fill_typ fra, fill_typ frb) { // This is similar to sp_pathvector_boolop/bool_op_slice, but keeps only edges inside the cutter area. // The code is also based on sp_pathvector_boolop_slice. // // We have two paths on input // - a closed area which is used to cut out pieces from a contour (called area below) // - a contour which is cut into pieces by the border of thr area (called contour below) // // The code below works in the following steps // (a) Convert the area to a shape, so that we can ask the winding number for any point // (b) Add both, the contour and the area to a single shape and intersect them // (c) Find the intersection points between area border and contour (vector toCut) // (d) Split the original contour at the intersection points // (e) check for each contour edge in combined shape if its center is inside the area - if not discard it // (f) create a vector of all inside edges // (g) convert the piece numbers to the piece numbers after applying the cuts // (h) fill a bool vector with information which pieces are in // (i) filter the descr_cmd of the result path with this bool vector // // The main inefficiency here is step (e) because I use a winding function of the area-shape which goes // through the complete edge list for each point I ask for, so effort is n-edges-contour * n-edges-area. // It is tricky to improve this without building into the livarot code. // One way might be to decide at the intersection points which edges touching the intersection points are // in by making a loop through all edges on the intersection vertex. Since this is a directed non intersecting // graph, this should provide sufficient information. // But since I anyway will change this to the new mechanism some time speed is fairly ok, I didn't look into this. // extract the livarot Paths from the source objects // also get the winding rule specified in the style // Livarot's outline of arcs is broken. So convert the path to linear and cubics only, for which the outline is created correctly. Path *contour_path = Path_for_pathvector(pathv_to_linear_and_cubic_beziers(pathva)); Path *area_path = Path_for_pathvector(pathv_to_linear_and_cubic_beziers(pathvb)); // Shapes from above paths Shape *area_shape = new Shape; Shape *combined_shape = new Shape; Shape *combined_inters = new Shape; // Add the area (process to intersection free shape) area_path->ConvertWithBackData(1.0); area_path->Fill(combined_shape, 1); // Convert this to a shape with full winding information area_shape->ConvertToShape(combined_shape, frb); // Add the contour to the combined path (just add, no winding processing) contour_path->ConvertWithBackData(1.0); contour_path->Fill(combined_shape, 0, true, false, false); // Intersect the area and the contour - no fill processing combined_inters->ConvertToShape(combined_shape, fill_justDont); // Result path Path *result_path = new Path; result_path->SetBackData(false); // Cutting positions for contour std::vector toCut; if (combined_inters->hasBackData()) { // should always be the case, but ya never know { for (int i = 0; i < combined_inters->numberOfPoints(); i++) { if (combined_inters->getPoint(i).totalDegree() > 2) { // possibly an intersection // we need to check that at least one edge from the source path is incident to it // before we declare it's an intersection int cb = combined_inters->getPoint(i).incidentEdge[FIRST]; int nbOrig = 0; int nbOther = 0; int piece = -1; float t = 0.0; while (cb >= 0 && cb < combined_inters->numberOfEdges()) { if (combined_inters->ebData[cb].pathID == 0) { // the source has an edge incident to the point, get its position on the path piece = combined_inters->ebData[cb].pieceID; if (combined_inters->getEdge(cb).st == i) { t = combined_inters->ebData[cb].tSt; } else { t = combined_inters->ebData[cb].tEn; } nbOrig++; } if (combined_inters->ebData[cb].pathID == 1) { nbOther++; // the cut is incident to this point } cb = combined_inters->NextAt(i, cb); } if (nbOrig > 0 && nbOther > 0) { // point incident to both path and cut: an intersection // note that you only keep one position on the source; you could have degenerate // cases where the source crosses itself at this point, and you wouyld miss an intersection Path::cut_position cutpos; cutpos.piece = piece; cutpos.t = t; toCut.push_back(cutpos); } } } } { // remove the edges from the intersection polygon int i = combined_inters->numberOfEdges() - 1; for (; i >= 0; i--) { if (combined_inters->ebData[i].pathID == 1) { combined_inters->SubEdge(i); } else { const Shape::dg_arete &edge = combined_inters->getEdge(i); const Shape::dg_point &start = combined_inters->getPoint(edge.st); const Shape::dg_point &end = combined_inters->getPoint(edge.en); Geom::Point mid = 0.5 * (start.x + end.x); int wind = area_shape->PtWinding(mid); if (wind == 0) { combined_inters->SubEdge(i); } } } } } // create a vector of pieces, which are in the intersection std::vector inside_pieces(combined_inters->numberOfEdges()); for (int i = 0; i < combined_inters->numberOfEdges(); i++) { inside_pieces[i].piece = combined_inters->ebData[i].pieceID; // Use the t middle point, this is safe to compare with values from toCut in the presence of roundoff errors inside_pieces[i].t = 0.5 * (combined_inters->ebData[i].tSt + combined_inters->ebData[i].tEn); } std::sort(inside_pieces.begin(), inside_pieces.end(), cmp_cut_position); // sort cut positions std::sort(toCut.begin(), toCut.end(), cmp_cut_position); // Compute piece ids after ConvertPositionsToMoveTo { int idIncr = 0; std::vector::iterator itPiece = inside_pieces.begin(); std::vector::iterator itCut = toCut.begin(); while (itPiece != inside_pieces.end()) { while (itCut != toCut.end() && cmp_cut_position(*itCut, *itPiece)) { ++itCut; idIncr += 2; } itPiece->piece += idIncr; ++itPiece; } } // Copy the original path to result and cut at the intersection points result_path->Copy(contour_path); result_path->ConvertPositionsToMoveTo(toCut.size(), toCut.data()); // cut where you found intersections // Create an array of bools which states which pieces are in std::vector inside_flags(result_path->descr_cmd.size(), false); for (auto & inside_piece : inside_pieces) { inside_flags[ inside_piece.piece ] = true; // also enable the element -1 to get the MoveTo if (inside_piece.piece >= 1) { inside_flags[ inside_piece.piece - 1 ] = true; } } #if 0 // CONCEPT TESTING //Check if the inside/outside verdict is consistent - just for testing the concept // Retrieve the pieces int nParts = 0; Path **parts = result_path->SubPaths(nParts, false); // Each piece should be either fully in or fully out int iPiece = 0; for (int iPart = 0; iPart < nParts; iPart++) { bool andsum = true; bool orsum = false; for (int iCmd = 0; iCmd < parts[iPart]->descr_cmd.size(); iCmd++, iPiece++) { andsum = andsum && inside_flags[ iPiece ]; orsum = andsum || inside_flags[ iPiece ]; } if (andsum != orsum) { g_warning("Inconsistent inside/outside verdict for part=%d", iPart); } } g_free(parts); #endif // iterate over the commands of a path and keep those which are inside int iDest = 0; for (int iSrc = 0; iSrc < result_path->descr_cmd.size(); iSrc++) { if (inside_flags[iSrc] == inside) { result_path->descr_cmd[iDest++] = result_path->descr_cmd[iSrc]; } else { delete result_path->descr_cmd[iSrc]; } } result_path->descr_cmd.resize(iDest); delete combined_inters; delete combined_shape; delete area_shape; delete contour_path; delete area_path; auto outres = result_path->MakePathVector(); delete result_path; return outres; } // remove inner contours Geom::PathVector sp_pathvector_boolop_remove_inner(Geom::PathVector const &pathva, fill_typ fra) { Geom::PathVector patht; Path *patha = Path_for_pathvector(pathv_to_linear_and_cubic_beziers(pathva)); Shape *shape = new Shape; Shape *shapeshape = new Shape; Path *resultp = new Path; resultp->SetBackData(false); patha->ConvertWithBackData(0.1); patha->Fill(shape, 0); shapeshape->ConvertToShape(shape, fra); shapeshape->ConvertToForme(resultp, 1, &patha); delete shape; delete shapeshape; delete patha; auto resultpv = resultp->MakePathVector(); delete resultp; return resultpv; } static fill_typ GetFillTyp(SPItem *item) { SPCSSAttr *css = sp_repr_css_attr(item->getRepr(), "style"); gchar const *val = sp_repr_css_property(css, "fill-rule", nullptr); if (val && strcmp(val, "nonzero") == 0) { return fill_nonZero; } else if (val && strcmp(val, "evenodd") == 0) { return fill_oddEven; } else { return fill_nonZero; } } void LPEBool::add_filter() { auto operand = cast(operand_item.getObject()); if (operand) { Inkscape::XML::Node *repr = operand->getRepr(); if (!repr) { return; } SPFilter *filt = operand->style->getFilter(); if (filt && filt->getId() && strcmp(filt->getId(), "selectable_hidder_filter") != 0) { filter.param_setValue(filt->getId(), true); } if (!filt || (filt->getId() && strcmp(filt->getId(), "selectable_hidder_filter") != 0)) { SPCSSAttr *css = sp_repr_css_attr_new(); sp_repr_css_set_property(css, "filter", "url(#selectable_hidder_filter)"); sp_repr_css_change(repr, css, "style"); sp_repr_css_attr_unref(css); } } } void LPEBool::remove_filter(SPObject *operand) { if (operand) { Inkscape::XML::Node *repr = operand->getRepr(); if (!repr) { return; } SPFilter *filt = operand->style->getFilter(); if (filt && (filt->getId() && strcmp(filt->getId(), "selectable_hidder_filter") == 0)) { SPCSSAttr *css = sp_repr_css_attr_new(); Glib::ustring filtstr = filter.param_getSVGValue(); if (filtstr != "") { Glib::ustring url = "url(#"; url += filtstr; url += ")"; sp_repr_css_set_property(css, "filter", url.c_str()); // blur is removed when no item using it /*SPDocument *document = getSPDoc(); SPObject * filterobj = nullptr; if((filterobj = document->getObjectById(filtstr))) { for (auto obj:filterobj->childList(false)) { if (obj) { obj->deleteObject(false); break; } } } */ filter.param_setValue(""); } else { sp_repr_css_unset_property(css, "filter"); } sp_repr_css_change(repr, css, "style"); sp_repr_css_attr_unref(css); } } } void LPEBool::doAfterEffect (SPLPEItem const* lpeitem, SPCurve *curve) { if (onremove) { onremove = false; } } void LPEBool::doBeforeEffect(SPLPEItem const *lpeitem) { SPDocument *document = getSPDoc(); if (!document) { return; } _hp.clear(); Inkscape::XML::Document *xml_doc = document->getReprDoc(); SPObject *elemref = nullptr; Inkscape::XML::Node *boolfilter = nullptr; if (!(elemref = document->getObjectById("selectable_hidder_filter"))) { boolfilter = xml_doc->createElement("svg:filter"); boolfilter->setAttribute("id", "selectable_hidder_filter"); boolfilter->setAttribute("width", "1"); boolfilter->setAttribute("height", "1"); boolfilter->setAttribute("x", "0"); boolfilter->setAttribute("y", "0"); boolfilter->setAttribute("style", "color-interpolation-filters:sRGB;"); boolfilter->setAttribute("inkscape:label", "LPE boolean visibility"); /* Create */ Inkscape::XML::Node *primitive = xml_doc->createElement("svg:feComposite"); primitive->setAttribute("id", "boolops_hidder_primitive"); primitive->setAttribute("result", "composite1"); primitive->setAttribute("operator", "arithmetic"); primitive->setAttribute("in2", "SourceGraphic"); primitive->setAttribute("in", "BackgroundImage"); Inkscape::XML::Node *defs = document->getDefs()->getRepr(); defs->addChild(boolfilter, nullptr); Inkscape::GC::release(boolfilter); boolfilter->addChild(primitive, nullptr); Inkscape::GC::release(primitive); } else { for (auto obj : elemref->childList(false)) { if (obj && strcmp(obj->getId(), "boolops_hidder_primitive") != 0) { obj->deleteObject(true); } } } bool active = true; if (operand_item.lperef && operand_item.lperef->isAttached() && operand_item.lperef.get()->getObject() == nullptr) { active = false; } if (!active && !is_load) { operand_item.unlink(); return; } auto current_operand = cast(operand_item.getObject()); if (onremove && current_operand) { operand_id = current_operand->getId(); return; } operand = cast(getSPDoc()->getObjectById(operand_id)); if (!operand_item.linksToItem()) { operand_item.read_from_SVG(); current_operand = cast(operand_item.getObject()); } if (!current_operand && !operand) { return; } if (!current_operand) { operand_item.unlink(); } if (current_operand && !operand ) { operand_id = current_operand->getId(); sp_lpe_item_update_patheffect(sp_lpe_item, false, false, true); return; } if (current_operand && !operand_item.isConnected()) { operand_item.start_listening(current_operand); sp_lpe_item_update_patheffect(sp_lpe_item, false, false, true); return; } if (current_operand) { if (!(document->getObjectById(current_operand->getId()))) { operand_item.unlink(); operand = nullptr; operand_id = ""; current_operand = nullptr; } else { operand_id = current_operand->getId(); } } auto operandlpe = cast(operand_item.getObject()); SPDesktop *desktop = SP_ACTIVE_DESKTOP; if (desktop) { Inkscape::Selection *selection = desktop->getSelection(); if (selection && operand && sp_lpe_item && selection->includes(operand) && selection->includes(sp_lpe_item)) { if (operandlpe && operandlpe->hasPathEffectOfType(Inkscape::LivePathEffect::EffectType::BOOL_OP)) { sp_lpe_item_update_patheffect(operandlpe, false, false); } } } if (!current_operand) { if (operand) { remove_filter(operand); } operand = nullptr; operand_id = ""; } if (current_operand && operand != current_operand) { if (operand) { remove_filter(operand); } operand = current_operand; remove_filter(operand); if (is_load && sp_lpe_item) { sp_lpe_item_update_patheffect(sp_lpe_item, true, true); } } if (current_operand) { bool_op_ex op = bool_operation.get_value(); if (is_visible && op != bool_op_ex_cut_both) { add_filter(); } else { remove_filter(current_operand); } } } void LPEBool::transform_multiply(Geom::Affine const &postmul, bool /*set*/) { operand = cast(sp_lpe_item->document->getObjectById(operand_id)); if (is_visible && sp_lpe_item->pathEffectsEnabled() && operand && !isOnClipboard()) { SPDesktop *desktop = SP_ACTIVE_DESKTOP; if (desktop && !desktop->getSelection()->includes(operand)) { prev_affine = operand->transform * sp_item_transform_repr(sp_lpe_item).inverse() * postmul; operand->doWriteTransform(prev_affine); } } } Geom::PathVector LPEBool::get_union(SPObject *root, SPObject *object, bool _from_original_d) { Geom::PathVector res; Geom::PathVector clippv; if (auto objitem = cast(object)) { SPObject *clip_path = objitem->getClipObject(); if (clip_path) { std::vector clip_path_list = clip_path->childList(true); if (clip_path_list.size()) { for (auto clip : clip_path_list) { if (auto clipshape = cast(clip)) { auto curve = _from_original_d ? clipshape->curveForEdit() : clipshape->curve(); if (curve) { clippv = curve->get_pathvector(); } } } } } } if (auto group = cast(object)) { std::vector item_list = group->item_list(); for (auto iter : item_list) { Geom::PathVector tmp = get_union(root, iter, _from_original_d); if (res.empty()) { res = std::move(tmp); } else { res = sp_pathvector_boolop(res, tmp, to_bool_op(bool_op_ex_union), fill_oddEven, fill_oddEven, legacytest_livarotonly); } } } if (auto shape = cast(object)) { fill_typ originfill = fill_oddEven; auto curve = _from_original_d ? shape->curveForEdit() : shape->curve(); if (curve) { auto tmp = curve->get_pathvector() * i2anc_affine(shape, root->parent); if (res.empty()) { res = std::move(tmp); } else { res = sp_pathvector_boolop(res, tmp, to_bool_op(bool_op_ex_union), originfill, GetFillTyp(shape), legacytest_livarotonly); } } originfill = GetFillTyp(shape); } if (auto text = cast(object)) { auto curve = text->getNormalizedBpath(); curve.transform(i2anc_affine(text, root->parent)); Geom::PathVector tmp = curve.get_pathvector(); if (res.empty()) { res = std::move(tmp); } else { res = sp_pathvector_boolop(res, tmp, to_bool_op(bool_op_ex_union), fill_oddEven, fill_oddEven, legacytest_livarotonly); } } if (!clippv.empty()) { res = sp_pathvector_boolop(clippv, res, to_bool_op(bool_op_ex_diff), fill_oddEven, fill_oddEven, legacytest_livarotonly); } return res; } void LPEBool::doEffect(SPCurve *curve) { Geom::PathVector path_in = curve->get_pathvector(); auto current_operand = cast(operand_item.getObject()); if (current_operand == current_shape) { g_warning("operand and current shape are the same"); operand_item.param_set_default(); return; } if (onremove) { current_operand = cast(getSPDoc()->getObjectById(operand_id)); } if (current_operand) { bool_op_ex op = bool_operation.get_value(); bool swap = swap_operands.get_value(); if (op == bool_op_ex_cut_both) { swap = false; } Geom::Affine current_affine = sp_lpe_item->transform; Geom::PathVector operand_pv = get_union(current_operand, current_operand); if (operand_pv.empty()) { return; } path_in *= current_affine; Geom::PathVector path_a = swap ? path_in : operand_pv; Geom::PathVector path_b = swap ? operand_pv : path_in; _hp = path_a; _hp.insert(_hp.end(), path_b.begin(), path_b.end()); _hp *= current_affine.inverse(); auto item = cast(operand_item.getObject()); fill_typ fill_this = fill_type_this.get_value() != fill_justDont ? fill_type_this.get_value() : GetFillTyp(current_shape); fill_typ fill_operand = fill_type_operand.get_value() != fill_justDont ? fill_type_operand.get_value() : GetFillTyp(item); fill_typ fill_a = swap ? fill_this : fill_operand; fill_typ fill_b = swap ? fill_operand : fill_this; if (rmv_inner.get_value()) { path_b = sp_pathvector_boolop_remove_inner(path_b, fill_b); } Geom::PathVector path_out; helperLineSatellites = false; if (op == bool_op_ex_cut) { if (onremove) { path_out = sp_pathvector_boolop(path_a, path_b, to_bool_op(bool_op_ex_diff), fill_a, fill_b, legacytest_livarotonly); } else { int error = 0; Geom::PathVector path_tmp = sp_pathvector_boolop(path_a, path_b, to_bool_op(op), fill_a, fill_b, legacytest_livarotonly, true, error); for (auto pathit : path_tmp) { if (pathit.size() != 2 || !error) { path_out.push_back(pathit); } } } /* } else if (op == bool_op_ex_slice) { path_out = sp_pathvector_boolop_slice_intersect(path_a, path_b, true, fill_a, fill_b); Geom::PathVector path_tmp = sp_pathvector_boolop_slice_intersect(path_a, path_b, false, fill_a, fill_b); for (auto pathit : path_tmp) { path_out.push_back(pathit); } } else if (op == bool_op_ex_slice_inside) { path_out = sp_pathvector_boolop_slice_intersect(path_a, path_b, true, fill_a, fill_b); } else if (op == bool_op_ex_slice_outside) { path_out = sp_pathvector_boolop_slice_intersect(path_a, path_b, false, fill_a, fill_b); */ } else if (op == bool_op_ex_cut_both){ if (onremove) { path_out = sp_pathvector_boolop(path_a, path_b, to_bool_op(bool_op_ex_diff), fill_a, fill_b, legacytest_livarotonly); } else { helperLineSatellites = true; path_out = sp_pathvector_boolop(path_a, path_b, (bool_op) bool_op_diff, fill_a, fill_b, legacytest_livarotonly); auto tmp = sp_pathvector_boolop(path_a, path_b, (bool_op) bool_op_inters, fill_a, fill_b, legacytest_livarotonly); path_out.insert(path_out.end(),tmp.begin(),tmp.end()); /* auto tmp2 = sp_pathvector_boolop(path_a, path_b, (bool_op) bool_op_diff, fill_a, fill_b); path_out.insert(path_out.end(),tmp2.begin(),tmp2.end()); */ } } else { path_out = sp_pathvector_boolop(path_a, path_b, (bool_op) op, fill_a, fill_b, legacytest_livarotonly); } curve->set_pathvector(path_out * current_affine.inverse()); } } void LPEBool::addCanvasIndicators(SPLPEItem const * /*lpeitem*/, std::vector &hp_vec) { hp_vec.push_back(_hp); } Inkscape::XML::Node * LPEBool::dupleNode(SPObject * origin, Glib::ustring element_type) { Inkscape::XML::Document *xml_doc = getSPDoc()->getReprDoc(); Inkscape::XML::Node *dest = xml_doc->createElement(element_type.c_str()); dest->setAttribute("transform", origin->getAttribute("transform")); dest->setAttribute("d", origin->getAttribute("d")); dest->setAttribute("style", origin->getAttribute("style")); dest->setAttribute("mask", origin->getAttribute("mask")); dest->setAttribute("clip-path", origin->getAttribute("clip-path")); dest->setAttribute("class", origin->getAttribute("class")); dest->setAttribute("style", origin->getAttribute("style")); for (auto iter : origin->style->properties()) { if (iter->style_src != SPStyleSrc::UNSET) { auto key = iter->id(); if (key != SPAttr::FONT && key != SPAttr::D && key != SPAttr::MARKER) { const gchar *attr = origin->getAttribute(iter->name().c_str()); if (attr) { dest->setAttribute(iter->name(), attr); } } } } return dest; } void LPEBool::fractureit(SPObject * operandit, Geom::PathVector unionpv) { // 1.2 feature no need to legacy bool auto operandit_item = cast(operandit); auto operandit_g = cast(operandit); auto operandit_shape = cast(operandit); fill_typ fill_a = fill_type_this.get_value() != fill_justDont ? fill_type_this.get_value() : GetFillTyp(operandit_item); fill_typ fill_b = fill_type_operand.get_value() != fill_justDont ? fill_type_operand.get_value() : GetFillTyp(operandit_item); //unionpv *= sp_lpe_item->transform; auto divisionit = cast(getSPDoc()->getObjectById(division_id)); if (operandit_g) { Inkscape::XML::Node *dest = dupleNode(operandit, "svg:g"); dest->setAttribute("transform", nullptr); if (!division_other) { division_other = cast(sp_lpe_item->parent->appendChildRepr(dest)); Inkscape::GC::release(dest); division_other_id = division_other->getId(); division_other->parent->reorder(division_other, divisionit); } else { division_other = cast(division_other->appendChildRepr(dest)); } Inkscape::XML::Node *dest2 = dupleNode(operandit, "svg:g"); dest2->setAttribute("transform", nullptr); if (!division_both) { division_both = cast(sp_lpe_item->parent->appendChildRepr(dest2)); Inkscape::GC::release(dest2); division_both->parent->reorder(division_both, division_other); } else { division_both = cast(division_both->appendChildRepr(dest2)); } for (auto& child: operandit_g->children) { auto item = cast(&child); if (item) { fractureit(item, unionpv); } } } if (operandit_shape) { if (auto c = operandit_shape->curve()) { auto curve = *c; curve.transform(i2anc_affine(operandit_shape, sp_lpe_item->parent)); auto intesect = sp_pathvector_boolop(unionpv, curve.get_pathvector(), (bool_op) bool_op_inters, fill_a, fill_b); Inkscape::XML::Node *dest = dupleNode(operandit_shape, "svg:path"); dest->setAttribute("d", sp_svg_write_path(intesect)); dest->setAttribute("transform", nullptr); if (!division_other) { division_other = cast(sp_lpe_item->parent); } auto divisionitem = cast(division_other->appendChildRepr(dest)); Inkscape::GC::release(dest); if (division_other_id.empty()) { division_other->reorder(divisionitem, divisionit); division_other_id = Glib::ustring(dest->attribute("id")); } auto operandit_pathv = sp_pathvector_boolop(unionpv, curve.get_pathvector(), (bool_op) bool_op_diff, fill_a, fill_b); Inkscape::XML::Node *dest2 = dupleNode(operandit_shape, "svg:path"); dest2->setAttribute("transform", nullptr); dest2->setAttribute("d", sp_svg_write_path(operandit_pathv)); if (!division_both) { division_both = cast(sp_lpe_item->parent); auto divisionitem2 = cast(division_both->appendChildRepr(dest2)); division_both->reorder(divisionitem2, divisionitem); } else { division_both->appendChildRepr(dest2); } Inkscape::GC::release(dest2); } } } void LPEBool::divisionit(SPObject * operand_a, SPObject * operand_b, Geom::PathVector unionpv) { auto operand_a_item = cast(operand_a); auto operand_b_item = cast(operand_b); auto operand_b_g = cast(operand_b); auto operand_b_shape = cast(operand_b); fill_typ fill_a = fill_type_this.get_value() != fill_justDont ? fill_type_this.get_value() : GetFillTyp(operand_a_item); fill_typ fill_b = fill_type_operand.get_value() != fill_justDont ? fill_type_operand.get_value() : GetFillTyp(operand_b_item); if (operand_b_g) { Inkscape::XML::Node *dest = dupleNode(operand_b, "svg:g"); dest->setAttribute("transform", nullptr); if (!division) { division = cast(sp_lpe_item->parent->appendChildRepr(dest)); Inkscape::GC::release(dest); division_id = division->getId(); division->parent->reorder(division, sp_lpe_item); } else { division = cast(division->appendChildRepr(dest)); } for (auto& child: operand_b_g->children) { auto item = cast(&child); if (item) { divisionit(operand_a, item, unionpv); } } } if (operand_b_shape) { if (!division) { division = cast(sp_lpe_item->parent); } if (auto c = operand_b_shape->curveForEdit()) { auto curve = *c; curve.transform(i2anc_affine(operand_b_shape, sp_lpe_item->parent)); auto intesect = sp_pathvector_boolop(unionpv, curve.get_pathvector(), (bool_op) bool_op_inters, fill_a, fill_b); Inkscape::XML::Node *dest = dupleNode(operand_b_shape, "svg:path"); dest->setAttribute("d", sp_svg_write_path(intesect)); dest->setAttribute("transform", nullptr); auto item = cast(division->appendChildRepr(dest)); Inkscape::GC::release(dest); if (item && division_id.empty()) { division_id = item->getId(); } } } } void LPEBool::doOnRemove(SPLPEItem const * lpeitem) { // set "keep paths" hook on sp-lpe-item.cpp remove_filter(operand_item.getObject()); auto operand = cast(getSPDoc()->getObjectById(operand_id)); if (operand) { if (keep_paths) { bool_op_ex op = bool_operation.get_value(); if (op == bool_op_ex_cut || op == bool_op_ex_cut_both) { reverse = lpeitem->pos_in_parent() > operand->pos_in_parent(); division = nullptr; Geom::PathVector unionpv = get_union(operand, operand); divisionit(operand, sp_lpe_item, unionpv); onremove = true; sp_lpe_item_update_patheffect(sp_lpe_item, false, true); if (op == bool_op_ex_cut_both) { auto * a = cast(getSPDoc()->getObjectById(division_id)); if (a) { unionpv = get_union(sp_lpe_item, sp_lpe_item, true); fractureit(operand, unionpv); auto * b = cast(getSPDoc()->getObjectById(division_other_id)); if (a && b) { if (reverse) { b->lowerOne(); } } } } // we reset variables because LPE is not removed on undo so I need to get clean on redo division = nullptr; division_both = nullptr; division_other = nullptr; operand_id = ""; division_id = ""; division_other_id = ""; onremove = false; } if (is_visible) { processObjects(LPE_ERASE); } } } } // TODO: Migrate the tree next function to effect.cpp/h to avoid duplication void LPEBool::doOnVisibilityToggled(SPLPEItem const * /*lpeitem*/) { auto operand = cast(operand_item.getObject()); if (operand) { if (!is_visible) { remove_filter(operand); } } } } // namespace LivePathEffect } /* namespace Inkscape */