From cca66b9ec4e494c1d919bff0f71a820d8afab1fa Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 20:24:48 +0200 Subject: Adding upstream version 1.2.2. Signed-off-by: Daniel Baumann --- src/path/path-boolop.cpp | 956 +++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 956 insertions(+) create mode 100644 src/path/path-boolop.cpp (limited to 'src/path/path-boolop.cpp') diff --git a/src/path/path-boolop.cpp b/src/path/path-boolop.cpp new file mode 100644 index 0000000..78f7281 --- /dev/null +++ b/src/path/path-boolop.cpp @@ -0,0 +1,956 @@ +// SPDX-License-Identifier: GPL-2.0-or-later +/** @file + * Boolean operations. + *//* + * Authors: + * see git history + * Created by fred on Fri Dec 05 2003. + * tweaked endlessly by bulia byak + * + * Copyright (C) 2018 Authors + * Released under GNU GPL v2+, read the file 'COPYING' for more information. + */ + +#include + +#include +#include <2geom/intersection-graph.h> +#include <2geom/svg-path-parser.h> // to get from SVG on boolean to Geom::Path +#include <2geom/utils.h> + +#include "path-boolop.h" +#include "path-util.h" + +#include "message-stack.h" +#include "path-chemistry.h" // copy_object_properties() + +#include "helper/geom.h" // pathv_to_linear_and_cubic_beziers() + +#include "livarot/Path.h" +#include "livarot/Shape.h" + +#include "object/sp-flowtext.h" +#include "object/sp-shape.h" +#include "object/sp-text.h" + +#include "display/curve.h" + +#include "ui/icon-names.h" +#include "ui/widget/canvas.h" // Disable drawing during op + +#include "svg/svg.h" + +#include "xml/repr-sorting.h" + +using Inkscape::DocumentUndo; + +// fonctions utilitaires +bool +Ancetre(Inkscape::XML::Node *a, Inkscape::XML::Node *who) +{ + if (who == nullptr || a == nullptr) + return false; + if (who == a) + return true; + return Ancetre(a->parent(), who); +} + + +bool Inkscape::ObjectSet::pathUnion(const bool skip_undo, bool silent) { + BoolOpErrors result = pathBoolOp(bool_op_union, skip_undo, false, INKSCAPE_ICON("path-union"), + _("Union"), silent); + return DONE == result; +} + +bool +Inkscape::ObjectSet::pathIntersect(const bool skip_undo, bool silent) +{ + BoolOpErrors result = pathBoolOp(bool_op_inters, skip_undo, false, INKSCAPE_ICON("path-intersection"), + _("Intersection"), silent); + return DONE == result; +} + +bool +Inkscape::ObjectSet::pathDiff(const bool skip_undo, bool silent) +{ + BoolOpErrors result = pathBoolOp(bool_op_diff, skip_undo, false, INKSCAPE_ICON("path-difference"), + _("Difference"), silent); + return DONE == result; +} + +bool +Inkscape::ObjectSet::pathSymDiff(const bool skip_undo, bool silent) +{ + BoolOpErrors result = pathBoolOp(bool_op_symdiff, skip_undo, false, INKSCAPE_ICON("path-exclusion"), + _("Exclusion"), silent); + return DONE == result; +} + +bool +Inkscape::ObjectSet::pathCut(const bool skip_undo, bool silent) +{ + BoolOpErrors result = pathBoolOp(bool_op_cut, skip_undo, false, INKSCAPE_ICON("path-division"), + _("Division"), silent); + return DONE == result; +} + +bool +Inkscape::ObjectSet::pathSlice(const bool skip_undo, bool silent) +{ + BoolOpErrors result = pathBoolOp(bool_op_slice, skip_undo, false, INKSCAPE_ICON("path-cut"), + _("Cut path"), silent); + return DONE == result; +} + +// helper for printing error messages, regardless of whether we have a GUI or not +// If desktop == NULL, errors will be shown on stderr +static void +boolop_display_error_message(SPDesktop *desktop, Glib::ustring const &msg) +{ + if (desktop) { + desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, msg); + } else { + g_printerr("%s\n", msg.c_str()); + } +} + +/** + * Calculate the threshold for the given PathVector based + * on it's bounding box. + * + * @param path - The PathVector to calculate the threshold for. + * @param threshold - The starting threshold, usually 0.1 + */ +double get_threshold(Geom::PathVector const &path, double threshold) +{ + auto maybe_box = path.boundsFast(); + if (!maybe_box) + return threshold; + Geom::Rect box = *maybe_box; + double diagonal = Geom::distance( + Geom::Point(box[Geom::X].min(), box[Geom::Y].min()), + Geom::Point(box[Geom::X].max(), box[Geom::Y].max()) + ); + return threshold * (diagonal / 100); +} + +/** + * Calculate the threshold for the given SPItem/SPShape based + * on it's bounding box (see PathVector get_threshold above) + * + * @param item - The SPItem to calculate the threshold for. + * @param threshold - The starting threshold, usually 0.1 + */ +double get_threshold(SPItem const *item, double threshold) +{ + auto shape = dynamic_cast(item); + if (shape && shape->curve()) { + return get_threshold(shape->curve()->get_pathvector(), threshold); + } + return threshold; +} + +void +sp_flatten(Geom::PathVector &pathvector, FillRule fillkind) +{ + Path *orig = new Path; + orig->LoadPathVector(pathvector); + Shape *theShape = new Shape; + Shape *theRes = new Shape; + orig->ConvertWithBackData(1.0); + orig->Fill(theShape, 0); + theRes->ConvertToShape(theShape, fillkind); + Path *originaux[1]; + originaux[0] = orig; + Path *res = new Path; + theRes->ConvertToForme(res, 1, originaux, true); + + delete theShape; + delete theRes; + char *res_d = res->svg_dump_path(); + delete res; + delete orig; + pathvector = sp_svg_read_pathv(res_d); +} + +// boolean operations PathVectors A,B -> PathVector result. +// This is derived from sp_selected_path_boolop +// take the source paths from the file, do the operation, delete the originals and add the results +// fra,fra are fill_rules for PathVectors a,b +Geom::PathVector +sp_pathvector_boolop(Geom::PathVector const &pathva, Geom::PathVector const &pathvb, bool_op bop, + fill_typ fra, fill_typ frb, bool livarotonly, bool flattenbefore) +{ + int error = 0; + return sp_pathvector_boolop(pathva, pathvb, bop, fra, frb, livarotonly, flattenbefore, error); +} + +Geom::PathVector +sp_pathvector_boolop(Geom::PathVector const &pathva, Geom::PathVector const &pathvb, bool_op bop, + fill_typ fra, fill_typ frb, bool livarotonly, bool flattenbefore, int &error) +{ + if (!livarotonly) { + try { + Geom::PathVector a = pathv_to_linear_and_cubic_beziers(pathva); + Geom::PathVector b = pathv_to_linear_and_cubic_beziers(pathvb); + if (flattenbefore) { + sp_flatten(a, fra); + sp_flatten(b, frb); + } + Geom::PathVector out; + // dont change tolerande give errors on boolops + auto pig = Geom::PathIntersectionGraph(a, b, Geom::EPSILON); + if (bop == bool_op_inters) { + out = pig.getIntersection(); + } else if (bop == bool_op_union) { + out = pig.getUnion(); + + } else if (bop == bool_op_symdiff) { + out = pig.getXOR(); + } else if (bop == bool_op_diff) { + out = pig.getBminusA(); //livarot order... + } else if (bop == bool_op_cut) { + out = pig.getBminusA(); + auto tmp = pig.getIntersection(); + out.insert(out.end(), tmp.begin(), tmp.end()); + } else if (bop == bool_op_slice) { + // go to livarot + livarotonly = true; + } + if (!livarotonly) { + return out; + } + } catch (...) { + g_debug("Path Intersection Graph failed boolops, fallback to livarot"); + } + } + error = 1; + // extract the livarot Paths from the source objects + // also get the winding rule specified in the style + int nbOriginaux = 2; + std::vector originaux(nbOriginaux); + std::vector origWind(nbOriginaux); + origWind[0]=fra; + origWind[1]=frb; + Geom::PathVector patht; + // Livarot's outline of arcs is broken. So convert the path to linear and cubics only, for which the outline is created correctly. + originaux[0] = Path_for_pathvector(pathv_to_linear_and_cubic_beziers( pathva)); + originaux[1] = Path_for_pathvector(pathv_to_linear_and_cubic_beziers( pathvb)); + + // some temporary instances, first + Shape *theShapeA = new Shape; + Shape *theShapeB = new Shape; + Shape *theShape = new Shape; + Path *res = new Path; + res->SetBackData(false); + + Path::cut_position *toCut=nullptr; + int nbToCut = 0; + + if ( bop == bool_op_inters || bop == bool_op_union || bop == bool_op_diff || bop == bool_op_symdiff ) { + // true boolean op + // get the polygons of each path, with the winding rule specified, and apply the operation iteratively + originaux[0]->ConvertWithBackData(get_threshold(pathva, 0.1)); + + originaux[0]->Fill(theShape, 0); + + theShapeA->ConvertToShape(theShape, origWind[0]); + + originaux[1]->ConvertWithBackData(get_threshold(pathvb, 0.1)); + + originaux[1]->Fill(theShape, 1); + + theShapeB->ConvertToShape(theShape, origWind[1]); + + theShape->Booleen(theShapeB, theShapeA, bop); + + } else if ( bop == bool_op_cut ) { + // cuts= sort of a bastard boolean operation, thus not the axact same modus operandi + // technically, the cut path is not necessarily a polygon (thus has no winding rule) + // it is just uncrossed, and cleaned from duplicate edges and points + // then it's fed to Booleen() which will uncross it against the other path + // then comes the trick: each edge of the cut path is duplicated (one in each direction), + // thus making a polygon. the weight of the edges of the cut are all 0, but + // the Booleen need to invert the ones inside the source polygon (for the subsequent + // ConvertToForme) + + // the cut path needs to have the highest pathID in the back data + // that's how the Booleen() function knows it's an edge of the cut + { + Path* swap=originaux[0];originaux[0]=originaux[1];originaux[1]=swap; + int swai=origWind[0];origWind[0]=origWind[1];origWind[1]=(fill_typ)swai; + } + originaux[0]->ConvertWithBackData(get_threshold(pathva, 0.1)); + + originaux[0]->Fill(theShape, 0); + + theShapeA->ConvertToShape(theShape, origWind[0]); + + originaux[1]->ConvertWithBackData(get_threshold(pathvb, 0.1)); + + originaux[1]->Fill(theShape, 1,false,false,false); //do not closeIfNeeded + + theShapeB->ConvertToShape(theShape, fill_justDont); // fill_justDont doesn't computes winding numbers + + // les elements arrivent en ordre inverse dans la liste + theShape->Booleen(theShapeB, theShapeA, bool_op_cut, 1); + + } else if ( bop == bool_op_slice ) { + // slice is not really a boolean operation + // you just put the 2 shapes in a single polygon, uncross it + // the points where the degree is > 2 are intersections + // just check it's an intersection on the path you want to cut, and keep it + // the intersections you have found are then fed to ConvertPositionsToMoveTo() which will + // make new subpath at each one of these positions + // inversion pour l'opération + { + Path* swap=originaux[0];originaux[0]=originaux[1];originaux[1]=swap; + int swai=origWind[0];origWind[0]=origWind[1];origWind[1]=(fill_typ)swai; + } + originaux[0]->ConvertWithBackData(get_threshold(pathva, 0.1)); + + originaux[0]->Fill(theShapeA, 0,false,false,false); // don't closeIfNeeded + + originaux[1]->ConvertWithBackData(get_threshold(pathvb, 0.1)); + + originaux[1]->Fill(theShapeA, 1,true,false,false);// don't closeIfNeeded and just dump in the shape, don't reset it + + theShape->ConvertToShape(theShapeA, fill_justDont); + + if ( theShape->hasBackData() ) { + // should always be the case, but ya never know + { + for (int i = 0; i < theShape->numberOfPoints(); i++) { + if ( theShape->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 = theShape->getPoint(i).incidentEdge[FIRST]; + int nbOrig=0; + int nbOther=0; + int piece=-1; + float t=0.0; + while ( cb >= 0 && cb < theShape->numberOfEdges() ) { + if ( theShape->ebData[cb].pathID == 0 ) { + // the source has an edge incident to the point, get its position on the path + piece=theShape->ebData[cb].pieceID; + if ( theShape->getEdge(cb).st == i ) { + t=theShape->ebData[cb].tSt; + } else { + t=theShape->ebData[cb].tEn; + } + nbOrig++; + } + if ( theShape->ebData[cb].pathID == 1 ) nbOther++; // the cut is incident to this point + cb=theShape->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 + toCut=(Path::cut_position*)realloc(toCut, (nbToCut+1)*sizeof(Path::cut_position)); + toCut[nbToCut].piece=piece; + toCut[nbToCut].t=t; + nbToCut++; + } + } + } + } + { + // i think it's useless now + int i = theShape->numberOfEdges() - 1; + for (;i>=0;i--) { + if ( theShape->ebData[i].pathID == 1 ) { + theShape->SubEdge(i); + } + } + } + + } + } + + int* nesting=nullptr; + int* conts=nullptr; + int nbNest=0; + // pour compenser le swap juste avant + if ( bop == bool_op_slice ) { +// theShape->ConvertToForme(res, nbOriginaux, originaux, true); +// res->ConvertForcedToMoveTo(); + res->Copy(originaux[0]); + res->ConvertPositionsToMoveTo(nbToCut, toCut); // cut where you found intersections + free(toCut); + } else if ( bop == bool_op_cut ) { + // il faut appeler pour desallouer PointData (pas vital, mais bon) + // the Booleen() function did not deallocate the point_data array in theShape, because this + // function needs it. + // this function uses the point_data to get the winding number of each path (ie: is a hole or not) + // for later reconstruction in objects, you also need to extract which path is parent of holes (nesting info) + theShape->ConvertToFormeNested(res, nbOriginaux, &originaux[0], 1, nbNest, nesting, conts); + } else { + theShape->ConvertToForme(res, nbOriginaux, &originaux[0]); + } + + delete theShape; + delete theShapeA; + delete theShapeB; + delete originaux[0]; + delete originaux[1]; + + gchar *result_str = res->svg_dump_path(); + Geom::PathVector outres = Geom::parse_svg_path(result_str); + g_free(result_str); + + delete res; + return outres; +} + +/** + * Workaround for buggy Path::Transform() which incorrectly transforms arc commands. + * + * TODO: Fix PathDescrArcTo::transform() and then remove this workaround. + */ +static void transformLivarotPath(Path *res, Geom::Affine const &affine) +{ + res->LoadPathVector(res->MakePathVector() * affine); +} + +// boolean operations on the desktop +// take the source paths from the file, do the operation, delete the originals and add the results +BoolOpErrors Inkscape::ObjectSet::pathBoolOp(bool_op bop, const bool skip_undo, const bool checked, + const Glib::ustring icon_name, const Glib::ustring description, + bool const silent) +{ + if (nullptr != desktop() && !checked) { + SPDocument *doc = desktop()->getDocument(); + // don't redraw the canvas during the operation as that can remarkably slow down the progress + desktop()->getCanvas()->set_drawing_disabled(true); + BoolOpErrors returnCode = ObjectSet::pathBoolOp(bop, true, true,icon_name); + desktop()->getCanvas()->set_drawing_disabled(false); + + switch(returnCode) { + case ERR_TOO_LESS_PATHS_1: + if (!silent) { + boolop_display_error_message(desktop(), + _("Select at least 1 path to perform a boolean union.")); + } + break; + case ERR_TOO_LESS_PATHS_2: + if (!silent) { + boolop_display_error_message(desktop(), + _("Select at least 2 paths to perform a boolean operation.")); + } + break; + case ERR_NO_PATHS: + if (!silent) { + boolop_display_error_message(desktop(), + _("One of the objects is not a path, cannot perform boolean operation.")); + } + break; + case ERR_Z_ORDER: + if (!silent) { + boolop_display_error_message(desktop(), + _("Unable to determine the z-order of the objects selected for difference, XOR, division, or path cut.")); + } + break; + case DONE_NO_PATH: + if (!skip_undo) { + DocumentUndo::done(doc, description, ""); + } + break; + case DONE: + if (!skip_undo) { + DocumentUndo::done(doc, description, icon_name); + } + break; + case DONE_NO_ACTION: + // Do nothing (?) + break; + } + return returnCode; + } + + SPDocument *doc = document(); + std::vector il(items().begin(), items().end()); + + // allow union on a single object for the purpose of removing self overlapse (svn log, revision 13334) + if (il.size() < 2 && bop != bool_op_union) { + return ERR_TOO_LESS_PATHS_2; + } + else if (il.size() < 1) { + return ERR_TOO_LESS_PATHS_1; + } + + g_assert(!il.empty()); + + // reverseOrderForOp marks whether the order of the list is the top->down order + // it's only used when there are 2 objects, and for operations who need to know the + // topmost object (differences, cuts) + bool reverseOrderForOp = false; + + if (bop == bool_op_diff || bop == bool_op_cut || bop == bool_op_slice) { + // check in the tree to find which element of the selection list is topmost (for 2-operand commands only) + Inkscape::XML::Node *a = il.front()->getRepr(); + Inkscape::XML::Node *b = il.back()->getRepr(); + + if (a == nullptr || b == nullptr) { + return ERR_Z_ORDER; + } + + if (Ancetre(a, b)) { + // a is the parent of b, already in the proper order + } else if (Ancetre(b, a)) { + // reverse order + reverseOrderForOp = true; + } else { + + // objects are not in parent/child relationship; + // find their lowest common ancestor + Inkscape::XML::Node *parent = LCA(a, b); + if (parent == nullptr) { + return ERR_Z_ORDER; + } + + // find the children of the LCA that lead from it to the a and b + Inkscape::XML::Node *as = AncetreFils(a, parent); + Inkscape::XML::Node *bs = AncetreFils(b, parent); + + // find out which comes first + for (Inkscape::XML::Node *child = parent->firstChild(); child; child = child->next()) { + if (child == as) { + /* a first, so reverse. */ + reverseOrderForOp = true; + break; + } + if (child == bs) + break; + } + } + } + + g_assert(!il.empty()); + + // first check if all the input objects have shapes + // otherwise bail out + for (auto item : il) + { + if (!SP_IS_SHAPE(item) && !SP_IS_TEXT(item) && !SP_IS_FLOWTEXT(item)) + { + return ERR_NO_PATHS; + } + } + + // extract the livarot Paths from the source objects + // also get the winding rule specified in the style + int nbOriginaux = il.size(); + std::vector originaux(nbOriginaux); + std::vector origWind(nbOriginaux); + int curOrig; + { + curOrig = 0; + for (auto item : il) + { + // apply live path effects prior to performing boolean operation + char const *id = item->getAttribute("id"); + SPLPEItem *lpeitem = dynamic_cast(item); + if (lpeitem) { + SPDocument * document = item->document; + lpeitem->removeAllPathEffects(true); + SPObject *elemref = document->getObjectById(id); + if (elemref && elemref != item) { + // If the LPE item is a shape, it is converted to a path + // so we need to reupdate the item + item = dynamic_cast(elemref); + } + } + SPCSSAttr *css = sp_repr_css_attr(reinterpret_cast(il[0])->getRepr(), "style"); + gchar const *val = sp_repr_css_property(css, "fill-rule", nullptr); + if (val && strcmp(val, "nonzero") == 0) { + origWind[curOrig]= fill_nonZero; + } else if (val && strcmp(val, "evenodd") == 0) { + origWind[curOrig]= fill_oddEven; + } else { + origWind[curOrig]= fill_nonZero; + } + + originaux[curOrig] = Path_for_item(item, true, true); + if (originaux[curOrig] == nullptr || originaux[curOrig]->descr_cmd.size() <= 1) + { + for (int i = curOrig; i >= 0; i--) delete originaux[i]; + return DONE_NO_ACTION; + } + curOrig++; + } + } + // reverse if needed + // note that the selection list keeps its order + if ( reverseOrderForOp ) { + std::swap(originaux[0], originaux[1]); + std::swap(origWind[0], origWind[1]); + } + + // and work + // some temporary instances, first + Shape *theShapeA = new Shape; + Shape *theShapeB = new Shape; + Shape *theShape = new Shape; + Path *res = new Path; + res->SetBackData(false); + Path::cut_position *toCut=nullptr; + int nbToCut=0; + + if ( bop == bool_op_inters || bop == bool_op_union || bop == bool_op_diff || bop == bool_op_symdiff ) { + // true boolean op + // get the polygons of each path, with the winding rule specified, and apply the operation iteratively + originaux[0]->ConvertWithBackData(get_threshold(il[0], 0.1)); + + originaux[0]->Fill(theShape, 0); + + theShapeA->ConvertToShape(theShape, origWind[0]); + + curOrig = 1; + for (auto item : il){ + if(item==il[0])continue; + originaux[curOrig]->ConvertWithBackData(get_threshold(item, 0.1)); + + originaux[curOrig]->Fill(theShape, curOrig); + + theShapeB->ConvertToShape(theShape, origWind[curOrig]); + + /* Due to quantization of the input shape coordinates, we may end up with A or B being empty. + * If this is a union or symdiff operation, we just use the non-empty shape as the result: + * A=0 => (0 or B) == B + * B=0 => (A or 0) == A + * A=0 => (0 xor B) == B + * B=0 => (A xor 0) == A + * If this is an intersection operation, we just use the empty shape as the result: + * A=0 => (0 and B) == 0 == A + * B=0 => (A and 0) == 0 == B + * If this a difference operation, and the upper shape (A) is empty, we keep B. + * If the lower shape (B) is empty, we still keep B, as it's empty: + * A=0 => (B - 0) == B + * B=0 => (0 - A) == 0 == B + * + * In any case, the output from this operation is stored in shape A, so we may apply + * the above rules simply by judicious use of swapping A and B where necessary. + */ + bool zeroA = theShapeA->numberOfEdges() == 0; + bool zeroB = theShapeB->numberOfEdges() == 0; + if (zeroA || zeroB) { + // We might need to do a swap. Apply the above rules depending on operation type. + bool resultIsB = ((bop == bool_op_union || bop == bool_op_symdiff) && zeroA) + || ((bop == bool_op_inters) && zeroB) + || (bop == bool_op_diff); + if (resultIsB) { + // Swap A and B to use B as the result + Shape *swap = theShapeB; + theShapeB = theShapeA; + theShapeA = swap; + } + } else { + // Just do the Boolean operation as usual + // les elements arrivent en ordre inverse dans la liste + theShape->Booleen(theShapeB, theShapeA, bop); + Shape *swap = theShape; + theShape = theShapeA; + theShapeA = swap; + } + curOrig++; + } + + { + Shape *swap = theShape; + theShape = theShapeA; + theShapeA = swap; + } + + } else if ( bop == bool_op_cut ) { + // cuts= sort of a bastard boolean operation, thus not the axact same modus operandi + // technically, the cut path is not necessarily a polygon (thus has no winding rule) + // it is just uncrossed, and cleaned from duplicate edges and points + // then it's fed to Booleen() which will uncross it against the other path + // then comes the trick: each edge of the cut path is duplicated (one in each direction), + // thus making a polygon. the weight of the edges of the cut are all 0, but + // the Booleen need to invert the ones inside the source polygon (for the subsequent + // ConvertToForme) + + // the cut path needs to have the highest pathID in the back data + // that's how the Booleen() function knows it's an edge of the cut + { + Path* swap=originaux[0];originaux[0]=originaux[1];originaux[1]=swap; + int swai=origWind[0];origWind[0]=origWind[1];origWind[1]=(fill_typ)swai; + } + originaux[0]->ConvertWithBackData(get_threshold(il[0], 0.1)); + + originaux[0]->Fill(theShape, 0); + + theShapeA->ConvertToShape(theShape, origWind[0]); + + originaux[1]->ConvertWithBackData(get_threshold(il[1], 0.1)); + + if ((originaux[1]->pts.size() == 2) && originaux[1]->pts[0].isMoveTo && !originaux[1]->pts[1].isMoveTo) + originaux[1]->Fill(theShape, 1,false,true,false); // see LP Bug 177956 + else + originaux[1]->Fill(theShape, 1,false,false,false); //do not closeIfNeeded + + theShapeB->ConvertToShape(theShape, fill_justDont); // fill_justDont doesn't computes winding numbers + + // les elements arrivent en ordre inverse dans la liste + theShape->Booleen(theShapeB, theShapeA, bool_op_cut, 1); + + } else if ( bop == bool_op_slice ) { + // slice is not really a boolean operation + // you just put the 2 shapes in a single polygon, uncross it + // the points where the degree is > 2 are intersections + // just check it's an intersection on the path you want to cut, and keep it + // the intersections you have found are then fed to ConvertPositionsToMoveTo() which will + // make new subpath at each one of these positions + // inversion pour l'opération + { + Path* swap=originaux[0];originaux[0]=originaux[1];originaux[1]=swap; + int swai=origWind[0];origWind[0]=origWind[1];origWind[1]=(fill_typ)swai; + } + originaux[0]->ConvertWithBackData(get_threshold(il[0], 0.1)); + + originaux[0]->Fill(theShapeA, 0,false,false,false); // don't closeIfNeeded + + originaux[1]->ConvertWithBackData(get_threshold(il[1], 0.1)); + + originaux[1]->Fill(theShapeA, 1,true,false,false);// don't closeIfNeeded and just dump in the shape, don't reset it + + theShape->ConvertToShape(theShapeA, fill_justDont); + + if ( theShape->hasBackData() ) { + // should always be the case, but ya never know + { + for (int i = 0; i < theShape->numberOfPoints(); i++) { + if ( theShape->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 = theShape->getPoint(i).incidentEdge[FIRST]; + int nbOrig=0; + int nbOther=0; + int piece=-1; + float t=0.0; + while ( cb >= 0 && cb < theShape->numberOfEdges() ) { + if ( theShape->ebData[cb].pathID == 0 ) { + // the source has an edge incident to the point, get its position on the path + piece=theShape->ebData[cb].pieceID; + if ( theShape->getEdge(cb).st == i ) { + t=theShape->ebData[cb].tSt; + } else { + t=theShape->ebData[cb].tEn; + } + nbOrig++; + } + if ( theShape->ebData[cb].pathID == 1 ) nbOther++; // the cut is incident to this point + cb=theShape->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 + toCut=(Path::cut_position*)realloc(toCut, (nbToCut+1)*sizeof(Path::cut_position)); + toCut[nbToCut].piece=piece; + toCut[nbToCut].t=t; + nbToCut++; + } + } + } + } + { + // i think it's useless now + int i = theShape->numberOfEdges() - 1; + for (;i>=0;i--) { + if ( theShape->ebData[i].pathID == 1 ) { + theShape->SubEdge(i); + } + } + } + + } + } + + int* nesting=nullptr; + int* conts=nullptr; + int nbNest=0; + // pour compenser le swap juste avant + if ( bop == bool_op_slice ) { +// theShape->ConvertToForme(res, nbOriginaux, originaux, true); +// res->ConvertForcedToMoveTo(); + res->Copy(originaux[0]); + res->ConvertPositionsToMoveTo(nbToCut, toCut); // cut where you found intersections + free(toCut); + } else if ( bop == bool_op_cut ) { + // il faut appeler pour desallouer PointData (pas vital, mais bon) + // the Booleen() function did not deallocate the point_data array in theShape, because this + // function needs it. + // this function uses the point_data to get the winding number of each path (ie: is a hole or not) + // for later reconstruction in objects, you also need to extract which path is parent of holes (nesting info) + theShape->ConvertToFormeNested(res, nbOriginaux, &originaux[0], 1, nbNest, nesting, conts); + } else { + theShape->ConvertToForme(res, nbOriginaux, &originaux[0]); + } + + delete theShape; + delete theShapeA; + delete theShapeB; + for (int i = 0; i < nbOriginaux; i++) delete originaux[i]; + + if (res->descr_cmd.size() <= 1) + { + // only one command, presumably a moveto: it isn't a path + for (auto l : il){ + l->deleteObject(); + } + clear(); + + delete res; + return DONE_NO_PATH; + } + + // get the source path object + SPObject *source; + if ( bop == bool_op_diff || bop == bool_op_cut || bop == bool_op_slice ) { + if (reverseOrderForOp) { + source = il[0]; + } else { + source = il.back(); + } + } else { + // find out the bottom object + std::vector sorted(xmlNodes().begin(), xmlNodes().end()); + + sort(sorted.begin(),sorted.end(),sp_repr_compare_position_bool); + + source = doc->getObjectByRepr(sorted.front()); + } + + // adjust style properties that depend on a possible transform in the source object in order + // to get a correct style attribute for the new path + SPItem* item_source = SP_ITEM(source); + Geom::Affine i2doc(item_source->i2doc_affine()); + + Inkscape::XML::Node *repr_source = source->getRepr(); + + // remember important aspects of the source path, to be restored + gint pos = repr_source->position(); + Inkscape::XML::Node *parent = repr_source->parent(); + // remove source paths + clear(); + for (auto l : il){ + if (l != item_source) { + // delete the object for real, so that its clones can take appropriate action + l->deleteObject(); + } + } + + auto const source2doc_inverse = i2doc.inverse(); + char const *const old_transform_attibute = repr_source->attribute("transform"); + + // now that we have the result, add it on the canvas + if ( bop == bool_op_cut || bop == bool_op_slice ) { + int nbRP=0; + Path** resPath; + if ( bop == bool_op_slice ) { + // there are moveto's at each intersection, but it's still one unique path + // so break it down and add each subpath independently + // we could call break_apart to do this, but while we have the description... + resPath=res->SubPaths(nbRP, false); + } else { + // cut operation is a bit wicked: you need to keep holes + // that's why you needed the nesting + // ConvertToFormeNested() dumped all the subpath in a single Path "res", so we need + // to get the path for each part of the polygon. that's why you need the nesting info: + // to know in which subpath to add a subpath + resPath=res->SubPathsWithNesting(nbRP, true, nbNest, nesting, conts); + + // cleaning + if ( conts ) free(conts); + if ( nesting ) free(nesting); + } + + // add all the pieces resulting from cut or slice + std::vector selection; + for (int i=0;isvg_dump_path(); + + Inkscape::XML::Document *xml_doc = doc->getReprDoc(); + Inkscape::XML::Node *repr = xml_doc->createElement("svg:path"); + + Inkscape::copy_object_properties(repr, repr_source); + + // Delete source on last iteration (after we don't need repr_source anymore). As a consequence, the last + // item will inherit the original's id. + if (i + 1 == nbRP) { + item_source->deleteObject(false); + } + + repr->setAttribute("d", d); + g_free(d); + + // for slice, remove fill + if (bop == bool_op_slice) { + SPCSSAttr *css; + + css = sp_repr_css_attr_new(); + sp_repr_css_set_property(css, "fill", "none"); + + sp_repr_css_change(repr, css, "style"); + + sp_repr_css_attr_unref(css); + } + + repr->setAttributeOrRemoveIfEmpty("transform", old_transform_attibute); + + // add the new repr to the parent + // move to the saved position + parent->addChildAtPos(repr, pos); + + selection.push_back(repr); + Inkscape::GC::release(repr); + + delete resPath[i]; + } + setReprList(selection); + if ( resPath ) free(resPath); + + } else { + transformLivarotPath(res, source2doc_inverse); + gchar *d = res->svg_dump_path(); + + Inkscape::XML::Document *xml_doc = doc->getReprDoc(); + Inkscape::XML::Node *repr = xml_doc->createElement("svg:path"); + + Inkscape::copy_object_properties(repr, repr_source); + + // delete it so that its clones don't get alerted; this object will be restored shortly, with the same id + item_source->deleteObject(false); + + repr->setAttribute("d", d); + g_free(d); + + repr->setAttributeOrRemoveIfEmpty("transform", old_transform_attibute); + + parent->addChildAtPos(repr, pos); + + set(repr); + Inkscape::GC::release(repr); + } + + delete res; + + return DONE; +} + +/* + 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:fileencoding=utf-8:textwidth=99 : -- cgit v1.2.3