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// SPDX-License-Identifier: GPL-2.0-or-later
/** @file
*
* Two related object to path operations:
*
* 1. Find a path that includes fill, stroke, and markers. Useful for finding a visual bounding box.
* 2. Take a set of objects and find an identical visual representation using only paths.
*
* Copyright (C) 2020 Tavmjong Bah
* Copyright (C) 2018 Authors
*
* Released under GNU GPL v2+, read the file 'COPYING' for more information.
*
* Code moved from splivarot.cpp
*
*/
#include "path-outline.h"
#include <vector>
#include "path-chemistry.h" // Should be moved to path directory
#include "message-stack.h" // Should be removed.
#include "selection.h"
#include "style.h"
#include "display/curve.h" // Should be moved to path directory
#include "helper/geom.h" // pathv_to_linear_and_cubic()
#include "livarot/LivarotDefs.h"
#include "livarot/Path.h"
#include "livarot/Shape.h"
#include "object/object-set.h"
#include "object/box3d.h"
#include "object/sp-item.h"
#include "object/sp-marker.h"
#include "object/sp-shape.h"
#include "object/sp-text.h"
#include "object/sp-flowtext.h"
#include "svg/svg.h"
/**
* Given an item, find a path representing the fill and a path representing the stroke.
* Returns true if fill path found. Item may not have a stroke in which case stroke path is empty.
* bbox_only==true skips cleaning up the stroke path.
* Encapsulates use of livarot.
*/
bool
item_find_paths(const SPItem *item, Geom::PathVector& fill, Geom::PathVector& stroke, bool bbox_only = false)
{
auto shape = cast<SPShape>(item);
auto text = cast<SPText>(item);
if (!shape && !text) {
return false;
}
std::optional<SPCurve> curve;
if (shape) {
curve = SPCurve::ptr_to_opt(shape->curve());
} else if (text) {
curve = text->getNormalizedBpath();
} else {
std::cerr << "item_find_paths: item not shape or text!" << std::endl;
return false;
}
if (!curve) {
std::cerr << "item_find_paths: no curve!" << std::endl;
return false;
}
if (curve->get_pathvector().empty()) {
std::cerr << "item_find_paths: curve empty!" << std::endl;
return false;
}
fill = curve->get_pathvector();
if (!item->style) {
// Should never happen
std::cerr << "item_find_paths: item with no style!" << std::endl;
return false;
}
if (item->style->stroke.isNone()) {
// No stroke, no chocolate!
return true;
}
// Now that we have a valid curve with stroke, do offset. We use Livarot for this as
// lib2geom does not yet handle offsets correctly.
// Livarot's outline of arcs is broken. So convert the path to linear and cubics only, for
// which the outline is created correctly.
Geom::PathVector pathv = pathv_to_linear_and_cubic_beziers( fill );
SPStyle *style = item->style;
double stroke_width = style->stroke_width.computed;
if (stroke_width < Geom::EPSILON) {
// https://bugs.launchpad.net/inkscape/+bug/1244861
stroke_width = Geom::EPSILON;
}
double miter = style->stroke_miterlimit.value * stroke_width;
JoinType join;
switch (style->stroke_linejoin.computed) {
case SP_STROKE_LINEJOIN_MITER:
join = join_pointy;
break;
case SP_STROKE_LINEJOIN_ROUND:
join = join_round;
break;
default:
join = join_straight;
break;
}
ButtType butt;
switch (style->stroke_linecap.computed) {
case SP_STROKE_LINECAP_SQUARE:
butt = butt_square;
break;
case SP_STROKE_LINECAP_ROUND:
butt = butt_round;
break;
default:
butt = butt_straight;
break;
}
Path *origin = new Path; // Fill
Path *offset = new Path;
Geom::Affine const transform(item->transform);
double const scale = transform.descrim();
origin->LoadPathVector(pathv);
offset->SetBackData(false);
if (!style->stroke_dasharray.values.empty() && style->stroke_dasharray.is_valid()) {
// We have dashes!
origin->ConvertWithBackData(0.005); // Approximate by polyline
origin->DashPolylineFromStyle(style, scale, 0);
auto bounds = Geom::bounds_fast(pathv);
if (bounds) {
double size = Geom::L2(bounds->dimensions());
origin->Simplify(size * 0.000005); // Polylines to Beziers
}
}
// Finally do offset!
origin->Outline(offset, 0.5 * stroke_width, join, butt, 0.5 * miter);
if (bbox_only) {
stroke = offset->MakePathVector();
} else {
// Clean-up shape
offset->ConvertWithBackData(1.0); // Approximate by polyline
Shape *theShape = new Shape;
offset->Fill(theShape, 0); // Convert polyline to shape, step 1.
Shape *theOffset = new Shape;
theOffset->ConvertToShape(theShape, fill_positive); // Create an intersection free polygon (theOffset), step2.
theOffset->ConvertToForme(origin, 1, &offset); // Turn shape into contour (stored in origin).
stroke = origin->MakePathVector(); // Note origin was replaced above by stroke!
}
delete origin;
delete offset;
// std::cout << " fill: " << sp_svg_write_path(fill) << " count: " << fill.curveCount() << std::endl;
// std::cout << " stroke: " << sp_svg_write_path(stroke) << " count: " << stroke.curveCount() << std::endl;
return true;
}
// ======================== Item to Outline ===================== //
static
void item_to_outline_add_marker_child( SPItem const *item, Geom::Affine marker_transform, Geom::PathVector* pathv_in )
{
Geom::Affine tr(marker_transform);
tr = item->transform * tr;
// note: a marker child item can be an item group!
if (is<SPGroup>(item)) {
// recurse through all childs:
for (auto& o: item->children) {
if (auto childitem = cast<SPItem>(&o)) {
item_to_outline_add_marker_child(childitem, tr, pathv_in);
}
}
} else {
Geom::PathVector* marker_pathv = item_to_outline(item);
if (marker_pathv) {
for (const auto & j : *marker_pathv) {
pathv_in->push_back(j * tr);
}
delete marker_pathv;
}
}
}
static
void item_to_outline_add_marker( SPObject const *marker_object, Geom::Affine marker_transform,
Geom::Scale stroke_scale, Geom::PathVector* pathv_in )
{
SPMarker const * marker = cast<SPMarker>(marker_object);
Geom::Affine tr(marker_transform);
if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {
tr = stroke_scale * tr;
}
// total marker transform
tr = marker->c2p * tr;
SPItem const * marker_item = sp_item_first_item_child(marker_object); // why only consider the first item? can a marker only consist of a single item (that may be a group)?
if (marker_item) {
item_to_outline_add_marker_child(marker_item, tr, pathv_in);
}
}
/**
* Returns a pathvector that is the outline of the stroked item, with markers.
* item must be an SPShape or an SPText.
* The only current use of this function has exclude_markers true! (SPShape::either_bbox).
* TODO: See if SPShape::either_bbox's union with markers is the same as one would get
* with bbox_only false.
*/
Geom::PathVector* item_to_outline(SPItem const *item, bool exclude_markers)
{
Geom::PathVector fill; // Used for locating markers.
Geom::PathVector stroke; // Used for creating outline (and finding bbox).
item_find_paths(item, fill, stroke, true); // Skip cleaning up stroke shape.
Geom::PathVector *ret_pathv = nullptr;
if (fill.curveCount() == 0) {
std::cerr << "item_to_outline: fill path has no segments!" << std::endl;
return ret_pathv;
}
if (stroke.size() > 0) {
ret_pathv = new Geom::PathVector(stroke);
} else {
// No stroke, use fill path.
ret_pathv = new Geom::PathVector(fill);
}
if (exclude_markers) {
return ret_pathv;
}
auto shape = cast<SPShape>(item);
if (shape && shape->hasMarkers()) {
SPStyle *style = shape->style;
Geom::Scale scale(style->stroke_width.computed);
// START marker
for (int i = 0; i < 2; i++) { // SP_MARKER_LOC and SP_MARKER_LOC_START
if ( SPObject *marker_obj = shape->_marker[i] ) {
Geom::Affine const m (sp_shape_marker_get_transform_at_start(fill.front().front()));
item_to_outline_add_marker( marker_obj, m, scale, ret_pathv );
}
}
// MID marker
for (int i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID
SPObject *midmarker_obj = shape->_marker[i];
if (!midmarker_obj) continue;
for(Geom::PathVector::const_iterator path_it = fill.begin(); path_it != fill.end(); ++path_it) {
// START position
if ( path_it != fill.begin() &&
! ((path_it == (fill.end()-1)) && (path_it->size_default() == 0)) ) // if this is the last path and it is a moveto-only, there is no mid marker there
{
Geom::Affine const m (sp_shape_marker_get_transform_at_start(path_it->front()));
item_to_outline_add_marker( midmarker_obj, m, scale, ret_pathv);
}
// MID position
if (path_it->size_default() > 1) {
Geom::Path::const_iterator curve_it1 = path_it->begin(); // incoming curve
Geom::Path::const_iterator curve_it2 = ++(path_it->begin()); // outgoing curve
while (curve_it2 != path_it->end_default())
{
/* Put marker between curve_it1 and curve_it2.
* Loop to end_default (so including closing segment), because when a path is closed,
* there should be a midpoint marker between last segment and closing straight line segment
*/
Geom::Affine const m (sp_shape_marker_get_transform(*curve_it1, *curve_it2));
item_to_outline_add_marker( midmarker_obj, m, scale, ret_pathv);
++curve_it1;
++curve_it2;
}
}
// END position
if ( path_it != (fill.end()-1) && !path_it->empty()) {
Geom::Curve const &lastcurve = path_it->back_default();
Geom::Affine const m = sp_shape_marker_get_transform_at_end(lastcurve);
item_to_outline_add_marker( midmarker_obj, m, scale, ret_pathv );
}
}
}
// END marker
for (int i = 0; i < 4; i += 3) { // SP_MARKER_LOC and SP_MARKER_LOC_END
if ( SPObject *marker_obj = shape->_marker[i] ) {
/* Get reference to last curve in the path.
* For moveto-only path, this returns the "closing line segment". */
Geom::Path const &path_last = fill.back();
unsigned int index = path_last.size_default();
if (index > 0) {
index--;
}
Geom::Curve const &lastcurve = path_last[index];
Geom::Affine const m = sp_shape_marker_get_transform_at_end(lastcurve);
item_to_outline_add_marker( marker_obj, m, scale, ret_pathv );
}
}
}
return ret_pathv;
}
// ========================= Stroke to Path ====================== //
static
void item_to_paths_add_marker( SPItem *context,
SPObject *marker_object,
Geom::Affine marker_transform,
double linewidth,
bool start_marker,
Inkscape::XML::Node *g_repr,
bool legacy)
{
auto doc = context->document;
auto marker = cast<SPMarker>(marker_object);
SPItem* marker_item = sp_item_first_item_child(marker_object);
if (!marker_item) {
return;
}
// total marker transform
auto tr = marker->get_marker_transform(marker_transform, linewidth, start_marker);
tr = marker_item->transform * marker->c2p * tr;
if (marker_item->getRepr()) {
Inkscape::XML::Node *m_repr = marker_item->getRepr()->duplicate(doc->getReprDoc());
g_repr->addChildAtPos(m_repr, 0);
SPItem *marker_item = (SPItem *) doc->getObjectByRepr(m_repr);
marker_item->doWriteTransform(tr);
if (!legacy) {
item_to_paths(marker_item, legacy, context);
}
}
}
/*
* Find an outline that represents an item.
* If legacy, text will not be handled as it is not a shape.
* If a new item is created it is returned.
* If the input item is a group and that group contains a changed item, the group node is returned
* (marking a change).
*
* The return value is used externally to update a selection. It is nullptr if no change is made.
*/
Inkscape::XML::Node*
item_to_paths(SPItem *item, bool legacy, SPItem *context)
{
char const *id = item->getAttribute("id");
SPDocument *doc = item->document;
bool flatten = false;
// flatten all paths effects
auto lpeitem = cast<SPLPEItem>(item);
if (lpeitem && lpeitem->hasPathEffect()) {
lpeitem->removeAllPathEffects(true);
SPObject *elemref = doc->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 = cast<SPItem>(elemref);
}
auto flat_item = cast<SPLPEItem>(elemref);
if (!flat_item || !flat_item->hasPathEffect()) {
flatten = true;
}
}
// convert text/3dbox to path
if (is<SPText>(item) || is<SPFlowtext>(item) || is<SPBox3D>(item)) {
if (legacy) {
return nullptr;
}
Inkscape::ObjectSet original_objects {doc}; // doc or desktop shouldn't be necessary
original_objects.add(item);
original_objects.toCurves(true);
SPItem * new_item = original_objects.singleItem();
if (new_item && new_item != item) {
flatten = true;
item = new_item;
} else {
g_warning("item_to_paths: flattening text or 3D box failed.");
return nullptr;
}
}
// if group, recurse
auto group = cast<SPGroup>(item);
if (group) {
if (legacy) {
return nullptr;
}
std::vector<SPItem*> const item_list = group->item_list();
bool did = false;
for (auto subitem : item_list) {
if (item_to_paths(subitem, legacy)) {
did = true;
}
}
if (did || flatten) {
// This indicates that at least one thing was changed inside the group.
return group->getRepr();
} else {
return nullptr;
}
}
auto shape = cast<SPShape>(item);
if (!shape) {
return nullptr;
}
Geom::PathVector fill_path;
Geom::PathVector stroke_path;
bool status = item_find_paths(item, fill_path, stroke_path);
if (!status) {
// Was not a well structured shape (or text).
return nullptr;
}
// The styles ------------------------
// Copying stroke style to fill will fail for properties not defined by style attribute
// (i.e., properties defined in style sheet or by attributes).
SPStyle *style = item->style;
SPCSSAttr *ncss = sp_css_attr_from_style(style, SP_STYLE_FLAG_ALWAYS);
SPCSSAttr *ncsf = sp_css_attr_from_style(style, SP_STYLE_FLAG_ALWAYS);
if (context) {
SPCSSAttr *ctxt_style = sp_css_attr_from_style(context->style, SP_STYLE_FLAG_ALWAYS);
// TODO: browsers have different behaviours with context on markers
// we need to revisit in the future for best matching
// also dont know if opacity is or should be included in context
gchar const *s_val = sp_repr_css_property(ctxt_style, "stroke", nullptr);
gchar const *f_val = sp_repr_css_property(ctxt_style, "fill", nullptr);
if (style->fill.paintOrigin == SP_CSS_PAINT_ORIGIN_CONTEXT_STROKE ||
style->fill.paintOrigin == SP_CSS_PAINT_ORIGIN_CONTEXT_FILL)
{
gchar const *fill_value = (style->fill.paintOrigin == SP_CSS_PAINT_ORIGIN_CONTEXT_STROKE) ? s_val : f_val;
sp_repr_css_set_property(ncss, "fill", fill_value);
sp_repr_css_set_property(ncsf, "fill", fill_value);
}
if (style->stroke.paintOrigin == SP_CSS_PAINT_ORIGIN_CONTEXT_STROKE ||
style->stroke.paintOrigin == SP_CSS_PAINT_ORIGIN_CONTEXT_FILL)
{
gchar const *stroke_value = (style->stroke.paintOrigin == SP_CSS_PAINT_ORIGIN_CONTEXT_FILL) ? f_val : s_val;
sp_repr_css_set_property(ncss, "stroke", stroke_value);
sp_repr_css_set_property(ncsf, "stroke", stroke_value);
}
}
// Stroke
gchar const *s_val = sp_repr_css_property(ncss, "stroke", nullptr);
gchar const *s_opac = sp_repr_css_property(ncss, "stroke-opacity", nullptr);
gchar const *f_val = sp_repr_css_property(ncss, "fill", nullptr);
gchar const *opacity = sp_repr_css_property(ncss, "opacity", nullptr); // Also for markers
gchar const *filter = sp_repr_css_property(ncss, "filter", nullptr); // Also for markers
sp_repr_css_set_property(ncss, "stroke", "none");
sp_repr_css_set_property(ncss, "stroke-width", nullptr);
sp_repr_css_set_property(ncss, "stroke-opacity", "1.0");
sp_repr_css_set_property(ncss, "filter", nullptr);
sp_repr_css_set_property(ncss, "opacity", nullptr);
sp_repr_css_unset_property(ncss, "marker-start");
sp_repr_css_unset_property(ncss, "marker-mid");
sp_repr_css_unset_property(ncss, "marker-end");
// we change the stroke to fill on ncss to create the filled stroke
sp_repr_css_set_property(ncss, "fill", s_val);
if ( s_opac ) {
sp_repr_css_set_property(ncss, "fill-opacity", s_opac);
} else {
sp_repr_css_set_property(ncss, "fill-opacity", "1.0");
}
sp_repr_css_set_property(ncsf, "stroke", "none");
sp_repr_css_set_property(ncsf, "stroke-width", nullptr);
sp_repr_css_set_property(ncsf, "stroke-opacity", "1.0");
sp_repr_css_set_property(ncsf, "filter", nullptr);
sp_repr_css_set_property(ncsf, "opacity", nullptr);
sp_repr_css_unset_property(ncsf, "marker-start");
sp_repr_css_unset_property(ncsf, "marker-mid");
sp_repr_css_unset_property(ncsf, "marker-end");
// The object tree -------------------
// Remember the position of the item
gint pos = item->getRepr()->position();
// Remember parent
Inkscape::XML::Node *parent = item->getRepr()->parent();
Inkscape::XML::Document *xml_doc = doc->getReprDoc();
// Create a group to put everything in.
Inkscape::XML::Node *g_repr = xml_doc->createElement("svg:g");
Inkscape::copy_object_properties(g_repr, item->getRepr());
// drop copied style, children will be re-styled (stroke becomes fill)
g_repr->removeAttribute("style");
// Add the group to the parent, move to the saved position
parent->addChildAtPos(g_repr, pos);
// The stroke ------------------------
Inkscape::XML::Node *stroke = nullptr;
if (s_val && g_strcmp0(s_val,"none") != 0 && stroke_path.size() > 0) {
stroke = xml_doc->createElement("svg:path");
sp_repr_css_change(stroke, ncss, "style");
stroke->setAttribute("d", sp_svg_write_path(stroke_path));
}
sp_repr_css_attr_unref(ncss);
// The fill --------------------------
Inkscape::XML::Node *fill = nullptr;
if (f_val && g_strcmp0(f_val,"none") != 0 && !legacy) {
fill = xml_doc->createElement("svg:path");
sp_repr_css_change(fill, ncsf, "style");
fill->setAttribute("d", sp_svg_write_path(fill_path));
}
sp_repr_css_attr_unref(ncsf);
// The markers -----------------------
Inkscape::XML::Node *markers = nullptr;
if (shape->hasMarkers()) {
auto linewidth = style->stroke_width.computed;
if (!legacy) {
markers = xml_doc->createElement("svg:g");
g_repr->addChildAtPos(markers, pos);
} else {
markers = g_repr;
}
// START marker
for (int i = 0; i < 2; i++) { // SP_MARKER_LOC and SP_MARKER_LOC_START
if ( SPObject *marker_obj = shape->_marker[i] ) {
Geom::Affine const m (sp_shape_marker_get_transform_at_start(fill_path.front().front()));
item_to_paths_add_marker(item, marker_obj, m, linewidth, true, markers, legacy);
}
}
// MID marker
for (int i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID
SPObject *midmarker_obj = shape->_marker[i];
if (!midmarker_obj) continue; // TODO use auto below
for(Geom::PathVector::const_iterator path_it = fill_path.begin(); path_it != fill_path.end(); ++path_it) {
// START position
if ( path_it != fill_path.begin() &&
! ((path_it == (fill_path.end()-1)) && (path_it->size_default() == 0)) ) // if this is the last path and it is a moveto-only, there is no mid marker there
{
Geom::Affine const m (sp_shape_marker_get_transform_at_start(path_it->front()));
item_to_paths_add_marker(item, midmarker_obj, m, linewidth, false, markers, legacy);
}
// MID position
if (path_it->size_default() > 1) {
Geom::Path::const_iterator curve_it1 = path_it->begin(); // incoming curve
Geom::Path::const_iterator curve_it2 = ++(path_it->begin()); // outgoing curve
while (curve_it2 != path_it->end_default()) {
/* Put marker between curve_it1 and curve_it2.
* Loop to end_default (so including closing segment), because when a path is closed,
* there should be a midpoint marker between last segment and closing straight line segment
*/
Geom::Affine const m (sp_shape_marker_get_transform(*curve_it1, *curve_it2));
item_to_paths_add_marker(item, midmarker_obj, m, linewidth, false, markers, legacy);
++curve_it1;
++curve_it2;
}
}
// END position
if ( path_it != (fill_path.end()-1) && !path_it->empty()) {
Geom::Curve const &lastcurve = path_it->back_default();
Geom::Affine const m = sp_shape_marker_get_transform_at_end(lastcurve);
item_to_paths_add_marker(item, midmarker_obj, m, linewidth, false, markers, legacy);
}
}
}
// END marker
for (int i = 0; i < 4; i += 3) { // SP_MARKER_LOC and SP_MARKER_LOC_END
if ( SPObject *marker_obj = shape->_marker[i] ) {
/* Get reference to last curve in the path.
* For moveto-only path, this returns the "closing line segment". */
Geom::Path const &path_last = fill_path.back();
unsigned int index = path_last.size_default();
if (index > 0) {
index--;
}
Geom::Curve const &lastcurve = path_last[index];
Geom::Affine const m = sp_shape_marker_get_transform_at_end(lastcurve);
item_to_paths_add_marker(item, marker_obj, m, linewidth, false, markers, legacy);
}
}
}
gchar const *paint_order = sp_repr_css_property(ncss, "paint-order", nullptr);
SPIPaintOrder temp;
temp.read( paint_order );
bool unique = false;
if ((!fill && !markers) || (!fill && !stroke) || (!markers && !stroke)) {
unique = true;
}
if (temp.layer[0] != SP_CSS_PAINT_ORDER_NORMAL && !legacy && !unique) {
if (temp.layer[0] == SP_CSS_PAINT_ORDER_FILL) {
if (temp.layer[1] == SP_CSS_PAINT_ORDER_STROKE) {
if ( fill ) {
g_repr->appendChild(fill);
}
if ( stroke ) {
g_repr->appendChild(stroke);
}
if ( markers ) {
markers->setPosition(2);
}
} else {
if ( fill ) {
g_repr->appendChild(fill);
}
if ( markers ) {
markers->setPosition(1);
}
if ( stroke ) {
g_repr->appendChild(stroke);
}
}
} else if (temp.layer[0] == SP_CSS_PAINT_ORDER_STROKE) {
if (temp.layer[1] == SP_CSS_PAINT_ORDER_FILL) {
if ( stroke ) {
g_repr->appendChild(stroke);
}
if ( fill ) {
g_repr->appendChild(fill);
}
if ( markers ) {
markers->setPosition(2);
}
} else {
if ( stroke ) {
g_repr->appendChild(stroke);
}
if ( markers ) {
markers->setPosition(1);
}
if ( fill ) {
g_repr->appendChild(fill);
}
}
} else {
if (temp.layer[1] == SP_CSS_PAINT_ORDER_STROKE) {
if ( markers ) {
markers->setPosition(0);
}
if ( stroke ) {
g_repr->appendChild(stroke);
}
if ( fill ) {
g_repr->appendChild(fill);
}
} else {
if ( markers ) {
markers->setPosition(0);
}
if ( fill ) {
g_repr->appendChild(fill);
}
if ( stroke ) {
g_repr->appendChild(stroke);
}
}
}
} else if (!unique) {
if ( fill ) {
g_repr->appendChild(fill);
}
if ( stroke ) {
g_repr->appendChild(stroke);
}
if ( markers ) {
markers->setPosition(2);
}
}
bool did = false;
// only consider it a change if more than a fill is created.
if (stroke || markers) {
did = true;
}
Inkscape::XML::Node *out = nullptr;
if (!fill && !markers && did) {
out = stroke;
} else if (!fill && !stroke && did) {
out = markers;
} else if(did) {
out = g_repr;
} else {
parent->removeChild(g_repr);
Inkscape::GC::release(g_repr);
if (fill) {
// Copy the style, to preserve context-fill cascade
if (context) {
item->setAttribute("style", fill->attribute("style"));
}
Inkscape::GC::release(fill);
}
return (flatten ? item->getRepr() : nullptr);
}
SPCSSAttr *r_style = sp_repr_css_attr_new();
sp_repr_css_set_property(r_style, "opacity", opacity);
sp_repr_css_set_property(r_style, "filter", filter);
sp_repr_css_change(out, r_style, "style");
sp_repr_css_attr_unref(r_style);
if (unique && out != markers) { // markers are already a child of g_repr
g_assert(out != g_repr);
parent->addChild(out, g_repr);
parent->removeChild(g_repr);
Inkscape::GC::release(g_repr);
}
out->setAttribute("transform", item->getRepr()->attribute("transform"));
// We're replacing item, delete it.
item->deleteObject(false);
out->setAttribute("id",id);
Inkscape::GC::release(out);
return out;
}
/*
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 :
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