#ifdef HAVE_CONFIG_H

# include "config.h"

#endif

#include <2geom/rect.h>

#include <2geom/transforms.h>

#include <2geom/pathvector.h>

#include <2geom/path-intersection.h>

#include <2geom/exception.h>

#include "helper/geom.h"

#include "helper/geom-nodetype.h"

#include <sigc++/functors/ptr_fun.h>

#include <sigc++/adaptors/bind.h>

#include "macros.h"

#include "display/drawing-shape.h"

#include "display/curve.h"

#include "print.h"

#include "document.h"

#include "style.h"

#include "sp-marker.h"

#include "sp-path.h"

#include "preferences.h"

#include "attributes.h"

#include "live_effects/lpeobject.h"

#include "uri.h"

#include "extract-uri.h"

#include "uri-references.h"

#include "bad-uri-exception.h"

#include "xml/repr.h"

#include "util/mathfns.h" // for triangle_area()

#include "splivarot.h" // for bounding box calculation

#define noSHAPE_VERBOSE

static void sp_shape_update_marker_view (SPShape *shape, Inkscape::DrawingItem *ai);

SPShape::SPShape() : SPLPEItem() {

for ( int i = 0 ; i < SP_MARKER_LOC_QTY ; i++ ) {

this->_marker[i] = NULL;

}

this->_curve = NULL;

this->_curve_before_lpe = NULL;

}

SPShape::~SPShape() {

for ( int i = 0 ; i < SP_MARKER_LOC_QTY ; i++ ) {

this->_release_connect[i].disconnect();

this->_modified_connect[i].disconnect();

}

}

void SPShape::build(SPDocument *document, Inkscape::XML::Node *repr) {

SPLPEItem::build(document, repr);

for (int i = 0 ; i < SP_MARKER_LOC_QTY ; i++) {

sp_shape_set_marker (this, i, this->style->marker_ptrs[i]->value);

}

}

void SPShape::release() {

for (int i = 0; i < SP_MARKER_LOC_QTY; i++) {

if (this->_marker[i]) {

for (SPItemView *v = this->display; v != NULL; v = v->next) {

sp_marker_hide(_marker[i], v->arenaitem->key() + i);

}

this->_release_connect[i].disconnect();

this->_modified_connect[i].disconnect();

_marker[i] = static_cast<SPMarker *>(sp_object_hunref(_marker[i], this));

}

}

if (this->_curve) {

this->_curve = this->_curve->unref();

}

if (this->_curve_before_lpe) {

this->_curve_before_lpe = this->_curve_before_lpe->unref();

}

SPLPEItem::release();

}

void SPShape::set(unsigned int key, const gchar* value) {

SPLPEItem::set(key, value);

}

Inkscape::XML::Node* SPShape::write(Inkscape::XML::Document *xml_doc, Inkscape::XML::Node *repr, guint flags) {

SPLPEItem::write(xml_doc, repr, flags);

return repr;

}

void SPShape::update(SPCtx* ctx, guint flags) {

// std::cout << "SPShape::update(): " << (getId()?getId():"null") << std::endl;

SPLPEItem::update(ctx, flags);

/* This stanza checks that an object's marker style agrees with

for (int i = 0 ; i < SP_MARKER_LOC_QTY ; i++) {

sp_shape_set_marker (this, i, this->style->marker_ptrs[i]->value);

}

if (flags & (SP_OBJECT_STYLE_MODIFIED_FLAG | SP_OBJECT_VIEWPORT_MODIFIED_FLAG)) {

if (this->style->stroke_width.unit == SP_CSS_UNIT_PERCENT) {

SPItemCtx *ictx = (SPItemCtx *) ctx;

double const aw = 1.0 / ictx->i2vp.descrim();

this->style->stroke_width.computed = this->style->stroke_width.value * aw;

for (SPItemView *v = ((SPItem *) (this))->display; v != NULL; v = v->next) {

Inkscape::DrawingShape *sh = dynamic_cast<Inkscape::DrawingShape *>(v->arenaitem);

if (hasMarkers()) {

this->context_style = this->style;

sh->setStyle(this->style, this->context_style);

// Done at end:

// sh->setChildrenStyle(this->context_style); //Resolve 'context-xxx' in children.

} else if (this->parent) {

this->context_style = this->parent->context_style;

sh->setStyle(this->style, this->context_style);

}

}

}

}

if (flags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_PARENT_MODIFIED_FLAG)) {

/* This is suboptimal, because changing parent style schedules recalculation */

/* But on the other hand - how can we know that parent does not tie style and transform */

for (SPItemView *v = this->display; v != NULL; v = v->next) {

Inkscape::DrawingShape *sh = dynamic_cast<Inkscape::DrawingShape *>(v->arenaitem);

if (flags & SP_OBJECT_MODIFIED_FLAG) {

sh->setPath(this->_curve);

}

}

}

if (this->hasMarkers ()) {

/* Dimension marker views */

for (SPItemView *v = this->display; v != NULL; v = v->next) {

if (!v->arenaitem->key()) {

v->arenaitem->setKey(SPItem::display_key_new (SP_MARKER_LOC_QTY));

}

for (int i = 0 ; i < SP_MARKER_LOC_QTY ; i++) {

if (_marker[i]) {

sp_marker_show_dimension(_marker[i],

v->arenaitem->key() + i,

numberOfMarkers(i));

}

}

}

/* Update marker views */

for (SPItemView *v = this->display; v != NULL; v = v->next) {

sp_shape_update_marker_view (this, v->arenaitem);

}

// Marker selector needs this here or marker previews are not rendered.

for (SPItemView *v = this->display; v != NULL; v = v->next) {

Inkscape::DrawingShape *sh = dynamic_cast<Inkscape::DrawingShape *>(v->arenaitem);

sh->setChildrenStyle(this->context_style); // Resolve 'context-xxx' in children.

}

}

}

Geom::Affine sp_shape_marker_get_transform(Geom::Curve const & c1, Geom::Curve const & c2)

{

Geom::Point p = c1.pointAt(1);

Geom::Curve * c1_reverse = c1.reverse();

Geom::Point tang1 = - c1_reverse->unitTangentAt(0);

delete c1_reverse;

Geom::Point tang2 = c2.unitTangentAt(0);

double const angle1 = Geom::atan2(tang1);

double const angle2 = Geom::atan2(tang2);

double ret_angle = .5 * (angle1 + angle2);

if ( fabs( angle2 - angle1 ) > M_PI ) {

/* ret_angle is in the middle of the larger of the two sectors between angle1 and

ret_angle += M_PI;

}

return Geom::Rotate(ret_angle) * Geom::Translate(p);

}

Geom::Affine sp_shape_marker_get_transform_at_start(Geom::Curve const & c)

{

Geom::Point p = c.pointAt(0);

Geom::Affine ret = Geom::Translate(p);

if ( !c.isDegenerate() ) {

Geom::Point tang = c.unitTangentAt(0);

double const angle = Geom::atan2(tang);

ret = Geom::Rotate(angle) * Geom::Translate(p);

} else {

/* FIXME: the svg spec says to search for a better alternative than zero angle directionality:

}

return ret;

}

Geom::Affine sp_shape_marker_get_transform_at_end(Geom::Curve const & c)

{

Geom::Point p = c.pointAt(1);

Geom::Affine ret = Geom::Translate(p);

if ( !c.isDegenerate() ) {

Geom::Curve * c_reverse = c.reverse();

Geom::Point tang = - c_reverse->unitTangentAt(0);

delete c_reverse;

double const angle = Geom::atan2(tang);

ret = Geom::Rotate(angle) * Geom::Translate(p);

} else {

/* FIXME: the svg spec says to search for a better alternative than zero angle directionality:

}

return ret;

}

static void

sp_shape_update_marker_view(SPShape *shape, Inkscape::DrawingItem *ai)

{

// position arguments to sp_marker_show_instance, basically counts the amount of markers.

int counter[4] = {0};

if (!shape->_curve) return;

Geom::PathVector const & pathv = shape->_curve->get_pathvector();

if (pathv.empty()) return;

// the first vertex should get a start marker, the last an end marker, and all the others a mid marker

// see bug 456148

// START marker

{

Geom::Affine const m (sp_shape_marker_get_transform_at_start(pathv.begin()->front()));

for (int i = 0; i < 2; i++) { // SP_MARKER_LOC and SP_MARKER_LOC_START

if ( shape->_marker[i] ) {

Geom::Affine m_auto = m;

// Reverse start marker if necessary.

if (shape->_marker[i]->orient_mode == MARKER_ORIENT_AUTO_START_REVERSE) {

m_auto = Geom::Rotate::from_degrees( 180.0 ) * m;

}

sp_marker_show_instance(shape->_marker[i], ai,

ai->key() + i, counter[i], m_auto,

shape->style->stroke_width.computed);

counter[i]++;

}

}

}

// MID marker

if (shape->_marker[SP_MARKER_LOC_MID] || shape->_marker[SP_MARKER_LOC]) {

for(Geom::PathVector::const_iterator path_it = pathv.begin(); path_it != pathv.end(); ++path_it) {

// START position

if ( path_it != pathv.begin()

&& ! ((path_it == (pathv.end()-1)) && (path_it->size_default() == 0)) ) // if this is the last path and it is a moveto-only, don't draw mid marker there

{

Geom::Affine const m (sp_shape_marker_get_transform_at_start(path_it->front()));

for (int i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID

if ( shape->_marker[i] ) {

sp_marker_show_instance(shape->_marker[i], ai,

ai->key() + i, counter[i], m,

shape->style->stroke_width.computed);

counter[i]++;

}

}

}

// 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.

Geom::Affine const m (sp_shape_marker_get_transform(*curve_it1, *curve_it2));

for (int i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID

if (shape->_marker[i]) {

sp_marker_show_instance(shape->_marker[i], ai,

ai->key() + i, counter[i], m,

shape->style->stroke_width.computed);

counter[i]++;

}

}

++curve_it1;

++curve_it2;

}

}

// END position

if ( path_it != (pathv.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);

for (int i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID

if (shape->_marker[i]) {

sp_marker_show_instance(shape->_marker[i], ai,

ai->key() + i, counter[i], m,

shape->style->stroke_width.computed);

counter[i]++;

}

}

}

}

}

// END marker

if ( shape->_marker[SP_MARKER_LOC_END] || shape->_marker[SP_MARKER_LOC] ) {

/* Get reference to last curve in the path.

Geom::Path const &path_last = pathv.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);

for (int i = 0; i < 4; i += 3) { // SP_MARKER_LOC and SP_MARKER_LOC_END

if (shape->_marker[i]) {

sp_marker_show_instance(shape->_marker[i], ai,

ai->key() + i, counter[i], m,

shape->style->stroke_width.computed);

counter[i]++;

}

}

}

}

void SPShape::modified(unsigned int flags) {

// std::cout << "SPShape::modified(): " << (getId()?getId():"null") << std::endl;

SPLPEItem::modified(flags);

if (flags & SP_OBJECT_STYLE_MODIFIED_FLAG) {

for (SPItemView *v = this->display; v != NULL; v = v->next) {

Inkscape::DrawingShape *sh = dynamic_cast<Inkscape::DrawingShape *>(v->arenaitem);

if (hasMarkers()) {

this->context_style = this->style;

sh->setStyle(this->style, this->context_style);

// Note: marker selector preview does not trigger SP_OBJECT_STYLE_MODIFIED_FLAG so

// this is not called when marker previews are generated, however there is code in

// SPShape::update() that calls this routine so we don't worry about it here.

sh->setChildrenStyle(this->context_style); // Resolve 'context-xxx' in children.

} else if (this->parent) {

this->context_style = this->parent->context_style;

sh->setStyle(this->style, this->context_style);

}

}

}

}

Geom::OptRect SPShape::bbox(Geom::Affine const &transform, SPItem::BBoxType bboxtype) const {

Geom::OptRect bbox;

if (!this->_curve) {

return bbox;

}

bbox = bounds_exact_transformed(this->_curve->get_pathvector(), transform);

if (!bbox) {

return bbox;

}

if (bboxtype == SPItem::VISUAL_BBOX) {

// convert the stroke to a path and calculate that path's geometric bbox

if (!this->style->stroke.isNone()) {

Geom::PathVector *pathv = item_outline(this, true); // calculate bbox_only

if (pathv) {

bbox |= bounds_exact_transformed(*pathv, transform);

delete pathv;

}

}

// Union with bboxes of the markers, if any

if ( this->hasMarkers() && !this->_curve->get_pathvector().empty() ) {

/** \todo make code prettier! */

Geom::PathVector const & pathv = this->_curve->get_pathvector();

// START marker

for (unsigned i = 0; i < 2; i++) { // SP_MARKER_LOC and SP_MARKER_LOC_START

if ( this->_marker[i] ) {

SPItem* marker_item = sp_item_first_item_child( _marker[i] );

if (marker_item) {

Geom::Affine tr(sp_shape_marker_get_transform_at_start(pathv.begin()->front()));

if (_marker[i]->orient_mode == MARKER_ORIENT_AUTO_START_REVERSE) {

// Reverse start marker if necessary

tr = Geom::Rotate::from_degrees( 180.0 ) * tr;

} else if (_marker[i]->orient_mode == MARKER_ORIENT_ANGLE) {

Geom::Point transl = tr.translation();

tr = Geom::Rotate::from_degrees(_marker[i]->orient.computed) * Geom::Translate(transl);

}

if (_marker[i]->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {

tr = Geom::Scale(this->style->stroke_width.computed) * tr;

}

// total marker transform

tr = marker_item->transform * _marker[i]->c2p * tr * transform;

// get bbox of the marker with that transform

bbox |= marker_item->visualBounds(tr);

}

}

}

// MID marker

for (unsigned i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID

if ( !this->_marker[i] ) {

continue;

}

SPMarker* marker = _marker[i];

SPItem* marker_item = sp_item_first_item_child( marker );

if ( !marker_item ) {

continue;

}

for(Geom::PathVector::const_iterator path_it = pathv.begin(); path_it != pathv.end(); ++path_it) {

// START position

if ( path_it != pathv.begin()

&& ! ((path_it == (pathv.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 tr(sp_shape_marker_get_transform_at_start(path_it->front()));

if (marker->orient_mode == MARKER_ORIENT_ANGLE) {

Geom::Point transl = tr.translation();

tr = Geom::Rotate::from_degrees(marker->orient.computed) * Geom::Translate(transl);

}

if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {

tr = Geom::Scale(this->style->stroke_width.computed) * tr;

}

tr = marker_item->transform * marker->c2p * tr * transform;

bbox |= marker_item->visualBounds(tr);

}

// 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.

SPMarker* marker = _marker[i];

SPItem* marker_item = sp_item_first_item_child( marker );

if (marker_item) {

Geom::Affine tr(sp_shape_marker_get_transform(*curve_it1, *curve_it2));

if (marker->orient_mode == MARKER_ORIENT_ANGLE) {

Geom::Point transl = tr.translation();

tr = Geom::Rotate::from_degrees(marker->orient.computed) * Geom::Translate(transl);

}

if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {

tr = Geom::Scale(this->style->stroke_width.computed) * tr;

}

tr = marker_item->transform * marker->c2p * tr * transform;

bbox |= marker_item->visualBounds(tr);

}

++curve_it1;

++curve_it2;

}

}

// END position

if ( path_it != (pathv.end()-1) && !path_it->empty()) {

Geom::Curve const &lastcurve = path_it->back_default();

Geom::Affine tr = sp_shape_marker_get_transform_at_end(lastcurve);

if (marker->orient_mode == MARKER_ORIENT_ANGLE) {

Geom::Point transl = tr.translation();

tr = Geom::Rotate::from_degrees(marker->orient.computed) * Geom::Translate(transl);

}

if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {

tr = Geom::Scale(this->style->stroke_width.computed) * tr;

}

tr = marker_item->transform * marker->c2p * tr * transform;

bbox |= marker_item->visualBounds(tr);

}

}

}

// END marker

for (unsigned i = 0; i < 4; i += 3) { // SP_MARKER_LOC and SP_MARKER_LOC_END

if ( _marker[i] ) {

SPMarker* marker = _marker[i];

SPItem* marker_item = sp_item_first_item_child( marker );

if (marker_item) {

/* Get reference to last curve in the path.

Geom::Path const &path_last = pathv.back();

unsigned int index = path_last.size_default();

if (index > 0) {

index--;

}

Geom::Curve const &lastcurve = path_last[index];

Geom::Affine tr = sp_shape_marker_get_transform_at_end(lastcurve);

if (marker->orient_mode == MARKER_ORIENT_ANGLE) {

Geom::Point transl = tr.translation();

tr = Geom::Rotate::from_degrees(marker->orient.computed) * Geom::Translate(transl);

}

if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {

tr = Geom::Scale(this->style->stroke_width.computed) * tr;

}

// total marker transform

tr = marker_item->transform * marker->c2p * tr * transform;

// get bbox of the marker with that transform

bbox |= marker_item->visualBounds(tr);

}

}

}

}

}

return bbox;

}

static void

sp_shape_print_invoke_marker_printing(SPObject *obj, Geom::Affine tr, SPStyle const *style, SPPrintContext *ctx)

{

SPMarker *marker = SP_MARKER(obj);

if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) {

tr = Geom::Scale(style->stroke_width.computed) * tr;

}

SPItem* marker_item = sp_item_first_item_child( marker );

if (marker_item) {

tr = marker_item->transform * marker->c2p * tr;

Geom::Affine old_tr = marker_item->transform;

marker_item->transform = tr;

marker_item->invoke_print (ctx);

marker_item->transform = old_tr;

}

}

void SPShape::print(SPPrintContext* ctx) {

if (!this->_curve) {

return;

}

Geom::PathVector const & pathv = this->_curve->get_pathvector();

if (pathv.empty()) {

return;

}

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

gint add_comments = prefs->getBool("/printing/debug/add-label-comments");

if (add_comments) {

gchar * comment = g_strdup_printf("begin '%s'", this->defaultLabel());

sp_print_comment(ctx, comment);

g_free(comment);

}

/* fixme: Think (Lauris) */

Geom::OptRect pbox, dbox, bbox;

pbox = this->geometricBounds();

bbox = this->desktopVisualBounds();

dbox = Geom::Rect::from_xywh(Geom::Point(0,0), this->document->getDimensions());

Geom::Affine const i2dt(this->i2dt_affine());

SPStyle* style = this->style;

if (!style->fill.isNone()) {

sp_print_fill (ctx, pathv, i2dt, style, pbox, dbox, bbox);

}

if (!style->stroke.isNone()) {

sp_print_stroke (ctx, pathv, i2dt, style, pbox, dbox, bbox);

}

/** \todo make code prettier */

// START marker

for (int i = 0; i < 2; i++) { // SP_MARKER_LOC and SP_MARKER_LOC_START

if ( this->_marker[i] ) {

Geom::Affine tr(sp_shape_marker_get_transform_at_start(pathv.begin()->front()));

sp_shape_print_invoke_marker_printing(this->_marker[i], tr, style, ctx);

}

}

// MID marker

for (int i = 0; i < 3; i += 2) { // SP_MARKER_LOC and SP_MARKER_LOC_MID

if (this->_marker[i]) {

for(Geom::PathVector::const_iterator path_it = pathv.begin(); path_it != pathv.end(); ++path_it) {

// START position

if ( path_it != pathv.begin()

&& ! ((path_it == (pathv.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 tr(sp_shape_marker_get_transform_at_start(path_it->front()));

sp_shape_print_invoke_marker_printing(this->_marker[i], tr, style, ctx);

}

// 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.

Geom::Affine tr(sp_shape_marker_get_transform(*curve_it1, *curve_it2));

sp_shape_print_invoke_marker_printing(this->_marker[i], tr, style, ctx);

++curve_it1;

++curve_it2;

}

}

if ( path_it != (pathv.end()-1) && !path_it->empty()) {

Geom::Curve const &lastcurve = path_it->back_default();

Geom::Affine tr = sp_shape_marker_get_transform_at_end(lastcurve);

sp_shape_print_invoke_marker_printing(this->_marker[i], tr, style, ctx);

}

}

}

}

// END marker

if ( this->_marker[SP_MARKER_LOC_END] || this->_marker[SP_MARKER_LOC]) {

/* Get reference to last curve in the path.

Geom::Path const &path_last = pathv.back();

unsigned int index = path_last.size_default();

if (index > 0) {

index--;

}

Geom::Curve const &lastcurve = path_last[index];

Geom::Affine tr = sp_shape_marker_get_transform_at_end(lastcurve);

for (int i = 0; i < 4; i += 3) { // SP_MARKER_LOC and SP_MARKER_LOC_END

if (this->_marker[i]) {

sp_shape_print_invoke_marker_printing(this->_marker[i], tr, style, ctx);

}

}

}

if (add_comments) {

gchar * comment = g_strdup_printf("end '%s'",

this->defaultLabel());

sp_print_comment(ctx, comment);

g_free(comment);

}

}

Inkscape::DrawingItem* SPShape::show(Inkscape::Drawing &drawing, unsigned int /*key*/, unsigned int /*flags*/) {

// std::cout << "SPShape::show(): " << (getId()?getId():"null") << std::endl;

Inkscape::DrawingShape *s = new Inkscape::DrawingShape(drawing);

bool has_markers = this->hasMarkers();

s->setPath(this->_curve);

/* This stanza checks that an object's marker style agrees with

for (int i = 0 ; i < SP_MARKER_LOC_QTY ; i++) {

sp_shape_set_marker (this, i, this->style->marker_ptrs[i]->value);

}

if (has_markers) {

/* provide key and dimension the marker views */

if (!s->key()) {

s->setKey(SPItem::display_key_new (SP_MARKER_LOC_QTY));

}

for (int i = 0; i < SP_MARKER_LOC_QTY; i++) {

if (_marker[i]) {

sp_marker_show_dimension(_marker[i],

s->key() + i,

numberOfMarkers(i));

}

}

/* Update marker views */

sp_shape_update_marker_view (this, s);

this->context_style = this->style;

s->setStyle(this->style, this->context_style);

s->setChildrenStyle(this->context_style); // Resolve 'context-xxx' in children.

} else if (this->parent) {

this->context_style = this->parent->context_style;

s->setStyle(this->style, this->context_style);

}

return s;

}

void SPShape::hide(unsigned int key) {

for (int i = 0; i < SP_MARKER_LOC_QTY; ++i) {

if (_marker[i]) {

for (SPItemView* v = display; v != NULL; v = v->next) {

if (key == v->key) {

sp_marker_hide(_marker[i], v->arenaitem->key() + i);

}

}

}

}

//SPLPEItem::onHide(key);

}

int SPShape::hasMarkers() const

{

/* Note, we're ignoring 'marker' settings, which technically should apply for

// Ignore markers for objects which are inside markers themselves.

for (SPObject *parent = this->parent; parent != NULL; parent = parent->parent) {

if (dynamic_cast<SPMarker *>(parent)) {

return 0;

}

}

return (

this->_curve &&

(this->_marker[SP_MARKER_LOC] ||

this->_marker[SP_MARKER_LOC_START] ||

this->_marker[SP_MARKER_LOC_MID] ||

this->_marker[SP_MARKER_LOC_END])

);

}

int SPShape::numberOfMarkers(int type) const {

Geom::PathVector const & pathv = this->_curve->get_pathvector();

if (pathv.size() == 0) {

return 0;

}

switch(type) {

case SP_MARKER_LOC:

{

if ( this->_marker[SP_MARKER_LOC] ) {

guint n = 0;

for(Geom::PathVector::const_iterator path_it = pathv.begin(); path_it != pathv.end(); ++path_it) {

n += path_it->size_default() + 1;

}

return n;

} else {

return 0;

}

}

case SP_MARKER_LOC_START:

// there is only a start marker on the first path of a pathvector

return this->_marker[SP_MARKER_LOC_START] ? 1 : 0;

case SP_MARKER_LOC_MID:

{

if ( this->_marker[SP_MARKER_LOC_MID] ) {

guint n = 0;

for(Geom::PathVector::const_iterator path_it = pathv.begin(); path_it != pathv.end(); ++path_it) {

n += path_it->size_default() + 1;

}

n = (n > 1) ? (n - 2) : 0; // Minus the start and end marker, but never negative.

// A path or polyline may have only one point.

return n;

} else {

return 0;

}

}

case SP_MARKER_LOC_END:

{

// there is only an end marker on the last path of a pathvector

return this->_marker[SP_MARKER_LOC_END] ? 1 : 0;

}

default:

return 0;

}

}

static void

sp_shape_marker_release (SPObject *marker, SPShape *shape)

{

SPItem *item = dynamic_cast<SPItem *>(shape);

g_return_if_fail(item != NULL);

for (int i = 0; i < SP_MARKER_LOC_QTY; i++) {

if (marker == shape->_marker[i]) {

SPItemView *v;

/* Hide marker */

for (v = item->display; v != NULL; v = v->next) {

sp_marker_hide(shape->_marker[i], v->arenaitem->key() + i);

}

/* Detach marker */

shape->_release_connect[i].disconnect();

shape->_modified_connect[i].disconnect();

shape->_marker[i] = static_cast<SPMarker *>(sp_object_hunref(shape->_marker[i], item));

}

}

}

static void

sp_shape_marker_modified (SPObject */*marker*/, guint /*flags*/, SPItem */*item*/)

{

/* I think mask does update automagically */

/* g_warning ("Item %s mask %s modified", item->getId(), mask->getId()); */

}

sp_shape_set_marker (SPObject *object, unsigned int key, const gchar *value)

{

SPShape *shape = dynamic_cast<SPShape *>(object);

g_return_if_fail(shape != NULL);

if (key > SP_MARKER_LOC_END) {

return;

}

SPObject *mrk = sp_css_uri_reference_resolve(object->document, value);

SPMarker *marker = dynamic_cast<SPMarker *>(mrk);

if (marker != shape->_marker[key]) {

if (shape->_marker[key]) {

SPItemView *v;

/* Detach marker */

shape->_release_connect[key].disconnect();

shape->_modified_connect[key].disconnect();

/* Hide marker */

for (v = shape->display; v != NULL; v = v->next) {

sp_marker_hide(shape->_marker[key],

v->arenaitem->key() + key);

}

/* Unref marker */

shape->_marker[key] = static_cast<SPMarker *>(sp_object_hunref(shape->_marker[key], object));

}

if (marker) {

shape->_marker[key] = static_cast<SPMarker *>(sp_object_href(marker, object));

shape->_release_connect[key] = marker->connectRelease(sigc::bind<1>(sigc::ptr_fun(&sp_shape_marker_release), shape));

shape->_modified_connect[key] = marker->connectModified(sigc::bind<2>(sigc::ptr_fun(&sp_shape_marker_modified), shape));

}

}

}

void SPShape::set_shape() {

//throw;

}

void SPShape::setCurve(SPCurve *new_curve, unsigned int owner)

{

if (_curve) {

_curve = _curve->unref();

}

if (new_curve) {

if (owner) {

_curve = new_curve->ref();

} else {

_curve = new_curve->copy();

}

}

this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

}

SPShape::setCurveBeforeLPE (SPCurve *new_curve)

{

if (_curve_before_lpe) {

_curve_before_lpe = _curve_before_lpe->unref();

}

if (new_curve) {

_curve_before_lpe = new_curve->ref();

}

}

SPCurve * SPShape::getCurve() const

{

if (_curve) {

return _curve->copy();

}

return NULL;

}

SPCurve * SPShape::getCurveBeforeLPE() const

{

if (hasPathEffect()) {

if (_curve_before_lpe) {

return this->_curve_before_lpe->copy();

}

} else {

if (_curve) {

return _curve->copy();

}

}

return NULL;

}

void SPShape::setCurveInsync(SPCurve *new_curve, unsigned int owner)

{

if (_curve) {

_curve = _curve->unref();

}

if (new_curve) {

if (owner) {

_curve = new_curve->ref();

} else {

_curve = new_curve->copy();

}

}

}

void SPShape::snappoints(std::vector<Inkscape::SnapCandidatePoint> &p, Inkscape::SnapPreferences const *snapprefs) const {

if (this->_curve == NULL) {

return;

}

Geom::PathVector const &pathv = this->_curve->get_pathvector();

if (pathv.empty()) {

return;

}

Geom::Affine const i2dt (this->i2dt_affine ());

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_OBJECT_MIDPOINT)) {

Geom::OptRect bbox = this->desktopVisualBounds();

if (bbox) {

p.push_back(Inkscape::SnapCandidatePoint(bbox->midpoint(), Inkscape::SNAPSOURCE_OBJECT_MIDPOINT, Inkscape::SNAPTARGET_OBJECT_MIDPOINT));

}

}

for(Geom::PathVector::const_iterator path_it = pathv.begin(); path_it != pathv.end(); ++path_it) {

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_NODE_CUSP)) {

// Add the first point of the path

p.push_back(Inkscape::SnapCandidatePoint(path_it->initialPoint() * i2dt, Inkscape::SNAPSOURCE_NODE_CUSP, Inkscape::SNAPTARGET_NODE_CUSP));

}

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

Geom::Path::const_iterator curve_it2 = ++(path_it->begin()); // outgoing curve

while (curve_it1 != path_it->end_default())

{

// For each path: consider midpoints of line segments for snapping

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_LINE_MIDPOINT)) {

if (Geom::LineSegment const* line_segment = dynamic_cast<Geom::LineSegment const*>(&(*curve_it1))) {

p.push_back(Inkscape::SnapCandidatePoint(Geom::middle_point(*line_segment) * i2dt, Inkscape::SNAPSOURCE_LINE_MIDPOINT, Inkscape::SNAPTARGET_LINE_MIDPOINT));

}

}

if (curve_it2 == path_it->end_default()) { // Test will only pass for the last iteration of the while loop

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_NODE_CUSP) && !path_it->closed()) {

// Add the last point of the path, but only for open paths

// (for closed paths the first and last point will coincide)

p.push_back(Inkscape::SnapCandidatePoint((*curve_it1).finalPoint() * i2dt, Inkscape::SNAPSOURCE_NODE_CUSP, Inkscape::SNAPTARGET_NODE_CUSP));

}

} else {

/* Test whether to add the node between curve_it1 and curve_it2.

Geom::NodeType nodetype = Geom::get_nodetype(*curve_it1, *curve_it2);

bool c1 = snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_NODE_CUSP) && (nodetype == Geom::NODE_CUSP || nodetype == Geom::NODE_NONE);

bool c2 = snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_NODE_SMOOTH) && (nodetype == Geom::NODE_SMOOTH || nodetype == Geom::NODE_SYMM);

if (c1 || c2) {

Inkscape::SnapSourceType sst;

Inkscape::SnapTargetType stt;

switch (nodetype) {

case Geom::NODE_CUSP:

sst = Inkscape::SNAPSOURCE_NODE_CUSP;

stt = Inkscape::SNAPTARGET_NODE_CUSP;

break;

case Geom::NODE_SMOOTH:

case Geom::NODE_SYMM:

sst = Inkscape::SNAPSOURCE_NODE_SMOOTH;

stt = Inkscape::SNAPTARGET_NODE_SMOOTH;

break;

default:

sst = Inkscape::SNAPSOURCE_UNDEFINED;

stt = Inkscape::SNAPTARGET_UNDEFINED;

break;

}

p.push_back(Inkscape::SnapCandidatePoint(curve_it1->finalPoint() * i2dt, sst, stt));

}

}

++curve_it1;

++curve_it2;

}

// Find the internal intersections of each path and consider these for snapping

// (using "Method 1" as described in Inkscape::ObjectSnapper::_collectNodes())

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_PATH_INTERSECTION) || snapprefs->isSourceSnappable(Inkscape::SNAPSOURCE_PATH_INTERSECTION)) {

Geom::Crossings cs;

try {

cs = self_crossings(*path_it); // This can be slow!

if (!cs.empty()) { // There might be multiple intersections...

for (Geom::Crossings::const_iterator i = cs.begin(); i != cs.end(); ++i) {

Geom::Point p_ix = (*path_it).pointAt((*i).ta);

p.push_back(Inkscape::SnapCandidatePoint(p_ix * i2dt, Inkscape::SNAPSOURCE_PATH_INTERSECTION, Inkscape::SNAPTARGET_PATH_INTERSECTION));

}

}

} catch (Geom::RangeError &e) {

// do nothing

// The exception could be Geom::InfiniteSolutions: then no snappoints should be added

}

}

}

}