#define INKSCAPE_LPE_BSPLINE_C

#include <gtkmm/box.h>

#include <gtkmm/entry.h>

#include <gtkmm/box.h>

#include <gtkmm/button.h>

#include <gtkmm/checkbutton.h>

#include <glib.h>

#include <glibmm/i18n.h>

#include "display/curve.h"

#include <2geom/bezier-curve.h>

#include <2geom/point.h>

#include "helper/geom-curves.h"

#include "live_effects/lpe-bspline.h"

#include "live_effects/lpeobject.h"

#include "live_effects/parameter/parameter.h"

#include "ui/widget/scalar.h"

#include "ui/tool/node.h"

#include "ui/tools/node-tool.h"

#include "ui/tool/control-point-selection.h"

#include "ui/tool/selectable-control-point.h"

#include "selection.h"

#include "xml/repr.h"

#include "svg/svg.h"

#include "sp-path.h"

#include "style.h"

#include "document-private.h"

#include "document.h"

#include "document-undo.h"

#include "desktop-handles.h"

#include "verbs.h"

#include "sp-lpe-item.h"

#include "display/sp-canvas.h"

#include <typeinfo>

#include <vector>

#include "message-stack.h"

#include "inkscape.h"

#include "desktop.h"

using Inkscape::DocumentUndo;

namespace Inkscape {

namespace LivePathEffect {

LPEBSpline::LPEBSpline(LivePathEffectObject *lpeobject)

: Effect(lpeobject),

// initialise your parameters here:

//testpointA(_("Test Point A"), _("Test A"), "ptA", &wr, this,

//Geom::Point(100,100)),

steps(_("Steps whith CTRL:"),

_("Change number of steps whith CTRL pressed"), "steps", &wr, this,

2),

ignoreCusp(_("Ignore cusp nodes:"), _("Change ignoring cusp nodes"),

"ignoreCusp", &wr, this, true),

onlySelected(_("Change only selected nodes:"),

_("Change only selected nodes"), "onlySelected", &wr, this,

false),

weight(_("Change weight:"), _("Change weight of the effect"), "weight",

&wr, this, 0.3334) {

registerParameter(dynamic_cast<Parameter *>(&weight));

registerParameter(dynamic_cast<Parameter *>(&steps));

registerParameter(dynamic_cast<Parameter *>(&ignoreCusp));

registerParameter(dynamic_cast<Parameter *>(&onlySelected));

weight.param_set_range(0.0000, 1);

weight.param_set_increments(0.1, 0.1);

weight.param_set_digits(4);

steps.param_set_range(1, 10);

steps.param_set_increments(1, 1);

steps.param_set_digits(0);

}

LPEBSpline::~LPEBSpline() {}

void LPEBSpline::createAndApply(const char *name, SPDocument *doc,

SPItem *item) {

if (!SP_IS_SHAPE(item)) {

g_warning("LPE BSpline can only be applied to shapes (not groups).");

} else {

// Path effect definition

Inkscape::XML::Document *xml_doc = doc->getReprDoc();

Inkscape::XML::Node *repr = xml_doc->createElement("inkscape:path-effect");

repr->setAttribute("effect", name);

doc->getDefs()->getRepr()

->addChild(repr, NULL); // adds to <defs> and assigns the 'id' attribute

const gchar *repr_id = repr->attribute("id");

Inkscape::GC::release(repr);

gchar *href = g_strdup_printf("#%s", repr_id);

SP_LPE_ITEM(item)->addPathEffect(href, true);

g_free(href);

}

}

void LPEBSpline::doEffect(SPCurve *curve) {

if (curve->get_segment_count() < 1)

return;

// Make copy of old path as it is changed during processing

Geom::PathVector const original_pathv = curve->get_pathvector();

curve->reset();

//Recorremos todos los paths a los que queremos aplicar el efecto, hasta el

//penúltimo

for (Geom::PathVector::const_iterator path_it = original_pathv.begin();

path_it != original_pathv.end(); ++path_it) {

//Si está vacío...

if (path_it->empty())

continue;

//Itreadores

Geom::Path::const_iterator curve_it1 = path_it->begin(); // incoming curve

Geom::Path::const_iterator curve_it2 =

++(path_it->begin()); // outgoing curve

Geom::Path::const_iterator curve_endit =

path_it->end_default(); // this determines when the loop has to stop

//Creamos las lineas rectas que unen todos los puntos del trazado y donde se

//calcularán

//los puntos clave para los manejadores.

//Esto hace que la curva BSpline no pierda su condición aunque se trasladen

//dichos manejadores

SPCurve *nCurve = new SPCurve();

Geom::Point previousNode(0, 0);

Geom::Point node(0, 0);

Geom::Point pointAt1(0, 0);

Geom::Point pointAt2(0, 0);

Geom::Point nextPointAt1(0, 0);

Geom::Point nextPointAt2(0, 0);

Geom::Point nextPointAt3(0, 0);

Geom::D2<Geom::SBasis> SBasisIn;

Geom::D2<Geom::SBasis> SBasisOut;

Geom::D2<Geom::SBasis> SBasisHelper;

Geom::CubicBezier const *cubic = NULL;

if (path_it->closed()) {

// if the path is closed, maybe we have to stop a bit earlier because the

// closing line segment has zerolength.

const Geom::Curve &closingline =

path_it->back_closed(); // the closing line segment is always of type

// Geom::LineSegment.

if (are_near(closingline.initialPoint(), closingline.finalPoint())) {

// closingline.isDegenerate() did not work, because it only checks for

// *exact* zero length, which goes wrong for relative coordinates and

// rounding errors...

// the closing line segment has zero-length. So stop before that one!

curve_endit = path_it->end_open();

}

}

//Si la curva está cerrada calculamos el punto donde

//deveria estar el nodo BSpline de cierre/inicio de la curva

//en posible caso de que se cierre con una linea recta creando un nodo

//BSPline

nCurve->moveto(curve_it1->initialPoint());

//Recorremos todos los segmentos menos el último

while (curve_it2 != curve_endit) {

//previousPointAt3 = pointAt3;

//Calculamos los puntos que dividirían en tres segmentos iguales el path

//recto de entrada y de salida

SPCurve *in = new SPCurve();

in->moveto(curve_it1->initialPoint());

in->lineto(curve_it1->finalPoint());

cubic = dynamic_cast<Geom::CubicBezier const *>(&*curve_it1);

if (cubic) {

SBasisIn = in->first_segment()->toSBasis();

pointAt1 = SBasisIn.valueAt(

Geom::nearest_point((*cubic)[1], *in->first_segment()));

pointAt2 = SBasisIn.valueAt(

Geom::nearest_point((*cubic)[2], *in->first_segment()));

} else {

pointAt1 = in->first_segment()->initialPoint();

pointAt2 = in->first_segment()->finalPoint();

}

in->reset();

delete in;

//Y hacemos lo propio con el path de salida

//nextPointAt0 = curveOut.valueAt(0);

SPCurve *out = new SPCurve();

out->moveto(curve_it2->initialPoint());

out->lineto(curve_it2->finalPoint());

cubic = dynamic_cast<Geom::CubicBezier const *>(&*curve_it2);

if (cubic) {

SBasisOut = out->first_segment()->toSBasis();

nextPointAt1 = SBasisOut.valueAt(

Geom::nearest_point((*cubic)[1], *out->first_segment()));

nextPointAt2 = SBasisOut.valueAt(

Geom::nearest_point((*cubic)[2], *out->first_segment()));

;

nextPointAt3 = out->first_segment()->finalPoint();

} else {

nextPointAt1 = out->first_segment()->initialPoint();

nextPointAt2 = out->first_segment()->finalPoint();

nextPointAt3 = out->first_segment()->finalPoint();

}

out->reset();

delete out;

//La curva BSpline se forma calculando el centro del segmanto de unión

//de el punto situado en las 2/3 partes de el segmento de entrada

//con el punto situado en la posición 1/3 del segmento de salida

//Estos dos puntos ademas estan posicionados en el lugas correspondiente

//de

//los manejadores de la curva

SPCurve *lineHelper = new SPCurve();

lineHelper->moveto(pointAt2);

lineHelper->lineto(nextPointAt1);

SBasisHelper = lineHelper->first_segment()->toSBasis();

lineHelper->reset();

delete lineHelper;

//almacenamos el punto del anterior bucle -o el de cierre- que nos hara de

//principio de curva

previousNode = node;

//Y este hará de final de curva

node = SBasisHelper.valueAt(0.5);

nCurve->curveto(pointAt1, pointAt2, node);

//aumentamos los valores para el siguiente paso en el bucle

++curve_it1;

++curve_it2;

}

SPCurve *out = new SPCurve();

out->moveto(curve_it1->initialPoint());

out->lineto(curve_it1->finalPoint());

cubic = dynamic_cast<Geom::CubicBezier const *>(&*curve_it1);

if (cubic) {

SBasisOut = out->first_segment()->toSBasis();

nextPointAt1 = SBasisOut.valueAt(Geom::nearest_point((*cubic)[1], *out->first_segment()));

nextPointAt2 = SBasisOut.valueAt(Geom::nearest_point((*cubic)[2], *out->first_segment()));

nextPointAt3 = out->first_segment()->finalPoint();

} else {

nextPointAt1 = out->first_segment()->initialPoint();

nextPointAt2 = out->first_segment()->finalPoint();

nextPointAt3 = out->first_segment()->finalPoint();

}

out->reset();

delete out;

//Si está cerrada la curva, la cerramos sobre el valor guardado

//previamente

//Si no finalizamos en el punto final

Geom::Point startNode = path_it->begin()->initialPoint();

if (path_it->closed()) {

SPCurve *start = new SPCurve();

start->moveto(path_it->begin()->initialPoint());

start->lineto(path_it->begin()->finalPoint());

Geom::D2<Geom::SBasis> SBasisStart = start->first_segment()->toSBasis();

SPCurve *lineHelper = new SPCurve();

cubic = dynamic_cast<Geom::CubicBezier const *>(&*path_it->begin());

if (cubic) {

lineHelper->moveto(SBasisStart.valueAt(

Geom::nearest_point((*cubic)[1], *start->first_segment())));

} else {

lineHelper->moveto(start->first_segment()->initialPoint());

}

start->reset();

delete start;

SPCurve *end = new SPCurve();

end->moveto(curve_it1->initialPoint());

end->lineto(curve_it1->finalPoint());

Geom::D2<Geom::SBasis> SBasisEnd = end->first_segment()->toSBasis();

//Geom::BezierCurve const *bezier = dynamic_cast<Geom::BezierCurve

//const*>(&*curve_endit);

cubic = dynamic_cast<Geom::CubicBezier const *>(&*curve_it1);

if (cubic) {

lineHelper->lineto(SBasisEnd.valueAt(

Geom::nearest_point((*cubic)[2], *end->first_segment())));

} else {

lineHelper->lineto(end->first_segment()->finalPoint());

}

end->reset();

delete end;

SBasisHelper = lineHelper->first_segment()->toSBasis();

lineHelper->reset();

delete lineHelper;

startNode = SBasisHelper.valueAt(0.5);

nCurve->curveto(nextPointAt1, nextPointAt2, startNode);

nCurve->move_endpoints(startNode, startNode);

} else {

SPCurve *start = new SPCurve();

start->moveto(path_it->begin()->initialPoint());

start->lineto(path_it->begin()->finalPoint());

startNode = start->first_segment()->initialPoint();

start->reset();

delete start;

nCurve->curveto(nextPointAt1, nextPointAt2, nextPointAt3);

nCurve->move_endpoints(startNode, nextPointAt3);

}

//y cerramos la curva

if (path_it->closed()) {

nCurve->closepath_current();

}

curve->append(nCurve, false);

nCurve->reset();

delete nCurve;

}

}

Gtk::Widget *LPEBSpline::newWidget() {

// use manage here, because after deletion of Effect object, others might

// still be pointing to this widget.

Gtk::VBox *vbox = Gtk::manage(new Gtk::VBox(Effect::newWidget()));

vbox->set_border_width(5);

std::vector<Parameter *>::iterator it = param_vector.begin();

while (it != param_vector.end()) {

if ((*it)->widget_is_visible) {

Parameter *param = *it;

Gtk::Widget *widg = dynamic_cast<Gtk::Widget *>(param->param_newWidget());

if (param->param_key == "weight"){

Gtk::HBox * buttons = Gtk::manage(new Gtk::HBox(true,0));

Gtk::Button *defaultWeight =

Gtk::manage(new Gtk::Button(Glib::ustring(_("Default weight"))));

defaultWeight->signal_clicked()

.connect(sigc::bind<Gtk::Widget *>(sigc::mem_fun(*this, &LPEBSpline::toDefaultWeight), widg));

buttons->pack_start(*defaultWeight, true, true, 2);

Gtk::Button *makeCusp =

Gtk::manage(new Gtk::Button(Glib::ustring(_("Make cusp"))));

makeCusp->signal_clicked()

.connect(sigc::bind<Gtk::Widget *>(sigc::mem_fun(*this, &LPEBSpline::toMakeCusp), widg));

buttons->pack_start(*makeCusp, true, true, 2);

vbox->pack_start(*buttons, true, true, 2);

}

if (param->param_key == "weight" || param->param_key == "steps") {

Inkscape::UI::Widget::Scalar *widgRegistered =

Gtk::manage(dynamic_cast<Inkscape::UI::Widget::Scalar *>(widg));

widgRegistered->signal_value_changed()

.connect(sigc::mem_fun(*this, &LPEBSpline::toWeight));

widg = dynamic_cast<Gtk::Widget *>(widgRegistered);

if (widg){

Gtk::HBox * scalarParameter = dynamic_cast<Gtk::HBox *>(widg);

std::vector< Gtk::Widget* > childList = scalarParameter->get_children();

Gtk::Entry* entryWidg = dynamic_cast<Gtk::Entry *>(childList[1]);

entryWidg->set_width_chars(6);

}

}

if (param->param_key == "onlySelected") {

Gtk::CheckButton *widgRegistered =

Gtk::manage(dynamic_cast<Gtk::CheckButton *>(widg));

widg = dynamic_cast<Gtk::Widget *>(widgRegistered);

}

if (param->param_key == "ignoreCusp") {

Gtk::CheckButton *widgRegistered =

Gtk::manage(dynamic_cast<Gtk::CheckButton *>(widg));

widg = dynamic_cast<Gtk::Widget *>(widgRegistered);

}

Glib::ustring *tip = param->param_getTooltip();

if (widg) {

vbox->pack_start(*widg, true, true, 2);

if (tip) {

widg->set_tooltip_text(*tip);

} else {

widg->set_tooltip_text("");

widg->set_has_tooltip(false);

}

}

}

++it;

}

return dynamic_cast<Gtk::Widget *>(vbox);

}

void LPEBSpline::toDefaultWeight(Gtk::Widget *widgWeight) {

weight.param_set_value(0.3334);

changeWeight(0.3334);

Gtk::HBox * scalarParameter = dynamic_cast<Gtk::HBox *>(widgWeight);

std::vector< Gtk::Widget* > childList = scalarParameter->get_children();

Gtk::Entry* entryWidg = dynamic_cast<Gtk::Entry *>(childList[1]);

entryWidg->set_text("0.3334");

}

void LPEBSpline::toMakeCusp(Gtk::Widget *widgWeight) {

weight.param_set_value(0.0000);

changeWeight(0.0000);

Gtk::HBox * scalarParameter = dynamic_cast<Gtk::HBox *>(widgWeight);

std::vector< Gtk::Widget* > childList = scalarParameter->get_children();

Gtk::Entry* entryWidg = dynamic_cast<Gtk::Entry *>(childList[1]);

entryWidg->set_text("0.0000");

}

void LPEBSpline::toWeight() { changeWeight(weight); }

void LPEBSpline::changeWeight(double weightValue) {

SPDesktop *desktop = inkscape_active_desktop();

Inkscape::Selection *selection = sp_desktop_selection(desktop);

GSList *items = (GSList *)selection->itemList();

SPItem *item = (SPItem *)g_slist_nth(items, 0)->data;

SPPath *path = SP_PATH(item);

SPCurve *curve = path->get_curve_for_edit();

LPEBSpline::doBSplineFromWidget(curve, weightValue);

gchar *str = sp_svg_write_path(curve->get_pathvector());

path->getRepr()->setAttribute("inkscape:original-d", str);

if (INK_IS_NODE_TOOL(desktop->event_context)) {

Inkscape::UI::Tools::NodeTool *nt = INK_NODE_TOOL(desktop->event_context);

nt->desktop->updateNow();

}

g_free(str);

curve->unref();

desktop->clearWaitingCursor();

DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_CONTEXT_LPE,

_("Modified the weight of the BSpline"));

}

bool LPEBSpline::nodeIsSelected(Geom::Point nodePoint) {

using Geom::X;

using Geom::Y;

if (points.size() > 0) {

for (std::vector<Geom::Point>::iterator i = points.begin();

i != points.end(); ++i) {

Geom::Point p = *i;

if (Geom::are_near(p, nodePoint, 0.0001)) {

return true;

} else {

}

}

}

return false;

}

void LPEBSpline::doBSplineFromWidget(SPCurve *curve, double weightValue) {

using Geom::X;

using Geom::Y;

SPDesktop *desktop = inkscape_active_desktop();

if (INK_IS_NODE_TOOL(desktop->event_context)) {

Inkscape::UI::Tools::NodeTool *nt = INK_NODE_TOOL(desktop->event_context);

Inkscape::UI::ControlPointSelection::Set &selection =

nt->_selected_nodes->allPoints();

points.clear();

std::vector<Geom::Point>::iterator pbegin;

for (Inkscape::UI::ControlPointSelection::Set::iterator i =

selection.begin();

i != selection.end(); ++i) {

if ((*i)->selected()) {

Inkscape::UI::Node *n = dynamic_cast<Inkscape::UI::Node *>(*i);

pbegin = points.begin();

points.insert(pbegin, desktop->doc2dt(n->position()));

}

}

}

//bool hasNodesSelected = LPEBspline::hasNodesSelected();

if (curve->get_segment_count() < 1)

return;

// Make copy of old path as it is changed during processing

Geom::PathVector const original_pathv = curve->get_pathvector();

curve->reset();

//Recorremos todos los paths a los que queremos aplicar el efecto, hasta el

//penúltimo

for (Geom::PathVector::const_iterator path_it = original_pathv.begin();

path_it != original_pathv.end(); ++path_it) {

//Si está vacío...

if (path_it->empty())

continue;

//Itreadores

Geom::Path::const_iterator curve_it1 = path_it->begin(); // incoming curve

Geom::Path::const_iterator curve_it2 =

++(path_it->begin()); // outgoing curve

Geom::Path::const_iterator curve_endit =

path_it->end_default(); // this determines when the loop has to stop

//Creamos las lineas rectas que unen todos los puntos del trazado y donde se

//calcularán

//los puntos clave para los manejadores.

//Esto hace que la curva BSpline no pierda su condición aunque se trasladen

//dichos manejadores

SPCurve *nCurve = new SPCurve();

Geom::Point pointAt0(0, 0);

Geom::Point pointAt1(0, 0);

Geom::Point pointAt2(0, 0);

Geom::Point pointAt3(0, 0);

Geom::Point nextPointAt0(0, 0);

Geom::Point nextPointAt1(0, 0);

Geom::Point nextPointAt2(0, 0);

Geom::Point nextPointAt3(0, 0);

Geom::D2<Geom::SBasis> SBasisIn;

Geom::D2<Geom::SBasis> SBasisOut;

Geom::CubicBezier const *cubic = NULL;

if (path_it->closed()) {

// if the path is closed, maybe we have to stop a bit earlier because the

// closing line segment has zerolength.

const Geom::Curve &closingline =

path_it->back_closed(); // the closing line segment is always of type

// Geom::LineSegment.

if (are_near(closingline.initialPoint(), closingline.finalPoint())) {

// closingline.isDegenerate() did not work, because it only checks for

// *exact* zero length, which goes wrong for relative coordinates and

// rounding errors...

// the closing line segment has zero-length. So stop before that one!

curve_endit = path_it->end_open();

}

}

//Si la curva está cerrada calculamos el punto donde

//deveria estar el nodo BSpline de cierre/inicio de la curva

//en posible caso de que se cierre con una linea recta creando un nodo

//BSPline

nCurve->moveto(curve_it1->initialPoint());

//Recorremos todos los segmentos menos el último

while (curve_it2 != curve_endit) {

//previousPointAt3 = pointAt3;

//Calculamos los puntos que dividirían en tres segmentos iguales el path

//recto de entrada y de salida

SPCurve *in = new SPCurve();

in->moveto(curve_it1->initialPoint());

in->lineto(curve_it1->finalPoint());

cubic = dynamic_cast<Geom::CubicBezier const *>(&*curve_it1);

pointAt0 = in->first_segment()->initialPoint();

pointAt3 = in->first_segment()->finalPoint();

SBasisIn = in->first_segment()->toSBasis();

if (!onlySelected) {

if (cubic) {

if (!ignoreCusp || !Geom::are_near((*cubic)[1], pointAt0)) {

pointAt1 = SBasisIn.valueAt(weightValue);

if (weightValue != 0.0000) {

pointAt1 =

Geom::Point(pointAt1[X] + 0.0001, pointAt1[Y] + 0.0001);

}

} else {

pointAt1 = in->first_segment()->initialPoint();

}

if (!ignoreCusp || !Geom::are_near((*cubic)[2], pointAt3)) {

pointAt2 = SBasisIn.valueAt(1 - weightValue);

if (weightValue != 0.0000) {

pointAt2 =

Geom::Point(pointAt2[X] + 0.0001, pointAt2[Y] + 0.0001);

}

} else {

pointAt2 = in->first_segment()->finalPoint();

}

} else {

if (!ignoreCusp && weightValue != 0.0000) {

pointAt1 = SBasisIn.valueAt(weightValue);

if (weightValue != 0.0000) {

pointAt1 =

Geom::Point(pointAt1[X] + 0.0001, pointAt1[Y] + 0.0001);

}

pointAt2 = SBasisIn.valueAt(1 - weightValue);

if (weightValue != 0.0000) {

pointAt2 =

Geom::Point(pointAt2[X] + 0.0001, pointAt2[Y] + 0.0001);

}

} else {

pointAt1 = in->first_segment()->initialPoint();

pointAt2 = in->first_segment()->finalPoint();

}

}

} else {

if (cubic) {

if (!ignoreCusp || !Geom::are_near((*cubic)[1], pointAt0)) {

if (nodeIsSelected(pointAt0)) {

pointAt1 = SBasisIn.valueAt(weightValue);

if (weightValue != 0.0000) {

pointAt1 =

Geom::Point(pointAt1[X] + 0.0001, pointAt1[Y] + 0.0001);

}

} else {

pointAt1 = (*cubic)[1];

}

} else {

pointAt1 = in->first_segment()->initialPoint();

}

if (!ignoreCusp || !Geom::are_near((*cubic)[2], pointAt3)) {

if (nodeIsSelected(pointAt3)) {

pointAt2 = SBasisIn.valueAt(1 - weightValue);

if (weightValue != 0.0000) {

pointAt2 =

Geom::Point(pointAt2[X] + 0.0001, pointAt2[Y] + 0.0001);

}

} else {

pointAt2 = (*cubic)[2];

}

} else {

pointAt2 = in->first_segment()->finalPoint();

}

} else {

if (!ignoreCusp && weightValue != 0.000) {

if (nodeIsSelected(pointAt0)) {

pointAt1 = SBasisIn.valueAt(weightValue);

pointAt1 =

Geom::Point(pointAt1[X] + 0.0001, pointAt1[Y] + 0.0001);

} else {

pointAt1 = in->first_segment()->initialPoint();

}

if (nodeIsSelected(pointAt3)) {

pointAt2 = SBasisIn.valueAt(weightValue);

pointAt2 =

Geom::Point(pointAt2[X] + 0.0001, pointAt2[Y] + 0.0001);

} else {

pointAt2 = in->first_segment()->finalPoint();

}

} else {

pointAt1 = in->first_segment()->initialPoint();

pointAt2 = in->first_segment()->finalPoint();

}

}

}

in->reset();

delete in;

//La curva BSpline se forma calculando el centro del segmanto de unión

//de el punto situado en las 2/3 partes de el segmento de entrada

//con el punto situado en la posición 1/3 del segmento de salida

//Estos dos puntos ademas estan posicionados en el lugas correspondiente

//de

//los manejadores de la curva

nCurve->curveto(pointAt1, pointAt2, pointAt3);

//aumentamos los valores para el siguiente paso en el bucle

++curve_it1;

++curve_it2;

}

SPCurve *out = new SPCurve();

out->moveto(curve_it1->initialPoint());

out->lineto(curve_it1->finalPoint());

SBasisOut = out->first_segment()->toSBasis();

nextPointAt0 = out->first_segment()->initialPoint();

nextPointAt3 = out->first_segment()->finalPoint();

cubic = dynamic_cast<Geom::CubicBezier const *>(&*curve_it1);

if (!onlySelected) {

if (cubic) {

if (!ignoreCusp || !Geom::are_near((*cubic)[1], nextPointAt0)) {

nextPointAt1 = SBasisOut.valueAt(weightValue);

if (weightValue != 0.0000) {

nextPointAt1 =

Geom::Point(nextPointAt1[X] + 0.0001, nextPointAt1[Y] + 0.0001);

}

} else {

nextPointAt1 = out->first_segment()->initialPoint();

}

if (!ignoreCusp || !Geom::are_near((*cubic)[2], nextPointAt3)) {

nextPointAt2 = SBasisOut.valueAt(1 - weightValue);

if (weightValue != 0.0000) {

nextPointAt2 =

Geom::Point(nextPointAt2[X] + 0.0001, nextPointAt2[Y] + 0.0001);

}

} else {

nextPointAt2 = out->first_segment()->finalPoint();

}

} else {

if (!ignoreCusp && weightValue != 0.0000) {

nextPointAt1 = SBasisOut.valueAt(weightValue);

nextPointAt1 =

Geom::Point(nextPointAt1[X] + 0.0001, nextPointAt1[Y] + 0.0001);

nextPointAt2 = SBasisOut.valueAt(1 - weightValue);

nextPointAt2 =

Geom::Point(nextPointAt2[X] + 0.0001, nextPointAt2[Y] + 0.0001);

} else {

nextPointAt1 = out->first_segment()->initialPoint();

nextPointAt2 = out->first_segment()->finalPoint();

}

}

} else {

if (cubic) {

if (!ignoreCusp || !Geom::are_near((*cubic)[1], nextPointAt0)) {

if (nodeIsSelected(nextPointAt0)) {

nextPointAt1 = SBasisOut.valueAt(weightValue);

if (weightValue != 0.0000) {

nextPointAt1 = Geom::Point(nextPointAt1[X] + 0.0001,

nextPointAt1[Y] + 0.0001);

}

} else {

nextPointAt1 = (*cubic)[1];

}

} else {

nextPointAt1 = out->first_segment()->initialPoint();

}

if (!ignoreCusp || !Geom::are_near((*cubic)[2], nextPointAt3)) {

if (nodeIsSelected(nextPointAt3)) {

nextPointAt2 = SBasisOut.valueAt(1 - weightValue);

if (weightValue != 0.0000) {

nextPointAt2 = Geom::Point(nextPointAt2[X] + 0.0001,

nextPointAt2[Y] + 0.0001);

}

} else {

nextPointAt2 = (*cubic)[2];

}

} else {

nextPointAt2 = out->first_segment()->finalPoint();

}

} else {

if (!ignoreCusp && weightValue != 0.0000) {

if (nodeIsSelected(nextPointAt0)) {

nextPointAt1 = SBasisOut.valueAt(weightValue);

nextPointAt1 =

Geom::Point(nextPointAt1[X] + 0.0001, nextPointAt1[Y] + 0.0001);

} else {

nextPointAt1 = out->first_segment()->initialPoint();

}

if (nodeIsSelected(nextPointAt3)) {

nextPointAt2 = SBasisOut.valueAt(weightValue);

nextPointAt2 =

Geom::Point(nextPointAt2[X] + 0.0001, nextPointAt2[Y] + 0.0001);

} else {

nextPointAt2 = out->first_segment()->finalPoint();

}

} else {

nextPointAt1 = out->first_segment()->initialPoint();

nextPointAt2 = out->first_segment()->finalPoint();

}

}

}

out->reset();

delete out;

//Aberiguamos la ultima parte de la curva correspondiente al último

//segmento

//Y hacemos lo propio con el path de salida

//nextPointAt0 = curveOut.valueAt(0);

if (path_it->closed()) {

nCurve->curveto(nextPointAt1, nextPointAt2,

path_it->begin()->initialPoint());

nCurve->move_endpoints(path_it->begin()->initialPoint(),

path_it->begin()->initialPoint());

} else {

nCurve->curveto(nextPointAt1, nextPointAt2, nextPointAt3);

nCurve->move_endpoints(path_it->begin()->initialPoint(), nextPointAt3);

}

//y cerramos la curva

if (path_it->closed()) {

nCurve->closepath_current();

}

curve->append(nCurve, false);

nCurve->reset();

delete nCurve;

}

}

}; //namespace LivePathEffect

}; /* namespace Inkscape */