qelectrotech-source-mirror/sources/qetgraphicsitem/crossrefitem.cpp

/*
	Copyright 2006-2019 The QElectroTech Team
	This file is part of QElectroTech.

	QElectroTech is free software: you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation, either version 2 of the License, or
	(at your option) any later version.

	QElectroTech is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with QElectroTech.  If not, see <http://www.gnu.org/licenses/>.
*/
#include "crossrefitem.h"
#include "element.h"
#include "qetapp.h"
#include "diagramposition.h"
#include "diagram.h"
#include "qgraphicsitemutility.h"
#include "assignvariables.h"
#include "dynamicelementtextitem.h"
#include "elementtextitemgroup.h"

//define the height of the header.
static int header = 5;
//define the minimal height of the cross (without header)
static int cross_min_heigth = 33;

/**
 * @brief CrossRefItem::CrossRefItem
 * @param elmt : element to display the cross ref
 */
CrossRefItem::CrossRefItem(Element *elmt) :
	QGraphicsObject(elmt),
	m_element(elmt)
{init();}

/**
 * @brief CrossRefItem::CrossRefItem
 * @param elmt : element to display the cross ref
 * @param text : If the Xref must be displayed under a text, the text.
 */
CrossRefItem::CrossRefItem(Element *elmt, DynamicElementTextItem *text) :
	QGraphicsObject(text),
	m_element (elmt),
	m_text(text)
{init();}

/**
 * @brief CrossRefItem::CrossRefItem
 * @param elmt : element to display the cross ref
 * @param group : If the Xref must be displayed under a group, the group.
 */
CrossRefItem::CrossRefItem(Element *elmt, ElementTextItemGroup *group) :
	QGraphicsObject(group),
	m_element(elmt),
	m_group(group)
{init();}

/**
 * @brief CrossRefItem::~CrossRefItem
 * Default destructor
 */
CrossRefItem::~CrossRefItem() {}

/**
 * @brief CrossRefItem::init
 * init this Xref
 */
void CrossRefItem::init()
{
	if(!m_element->diagram())
	{
		qDebug() << "CrossRefItem constructor" << "element is not in a diagram";
		return;
	}
	
	QETProject *project = m_element->diagram()->project();
	connect(project, &QETProject::XRefPropertiesChanged, this, &CrossRefItem::updateProperties);
	
	m_properties = m_element->diagram()->project()->defaultXRefProperties(m_element->kindInformations()["type"].toString());
	setAcceptHoverEvents(true);
	
	setUpConnection();
	linkedChanged();
	updateLabel();
}

/**
 * @brief CrossRefItem::setUpConnection
 * Set up several connection to keep up to date the Xref
 */
void CrossRefItem::setUpConnection()
{
	for(const QMetaObject::Connection& c : m_update_connection)
		disconnect(c);
	
	m_update_connection.clear();
	QETProject *project = m_element->diagram()->project();
	bool set=false;
		
	if(m_properties.snapTo() == XRefProperties::Label && (m_text || m_group)) //Snap to label and parent is a text or a group
		set=true;
	else if(m_properties.snapTo() == XRefProperties::Bottom && !m_text && !m_group) //Snap to bottom of element and parent is the element itself
	{
		m_update_connection << connect(m_element, SIGNAL(yChanged()),        this, SLOT(autoPos()));
		m_update_connection << connect(m_element, SIGNAL(rotationChanged()), this, SLOT(autoPos()));
		set=true;
	}

	if(set)
	{
		m_update_connection << connect(project, &QETProject::projectDiagramsOrderChanged, this, &CrossRefItem::updateLabel);
		m_update_connection << connect(project, &QETProject::diagramRemoved,              this, &CrossRefItem::updateLabel);
		m_update_connection << connect(m_element, &Element::linkedElementChanged, this, &CrossRefItem::linkedChanged);
		linkedChanged();
		updateLabel();
	}
}

/**
 * @brief CrossRefItem::boundingRect
 * @return the bounding rect of this item
 */
QRectF CrossRefItem::boundingRect() const {
	return m_bounding_rect;
}

/**
 * @brief CrossRefItem::shape
 * @return the shape of this item
 */
QPainterPath CrossRefItem::shape() const{
	return m_shape_path;
}

/**
 * @brief CrossRefItem::elementPositionText
 * @param elmt
 * @return the string corresponding to the position of @elmt in the diagram.
 * if @add_prefix is true, prefix (for power and delay contact) is added to the poistion text.
 */
QString CrossRefItem::elementPositionText(const Element *elmt, const bool &add_prefix) const
{
	XRefProperties xrp = m_element->diagram()->project()->defaultXRefProperties(m_element->kindInformations()["type"].toString());
	QString formula = xrp.masterLabel();
	autonum::sequentialNumbers seq;
	QString txt = autonum::AssignVariables::formulaToLabel(formula, seq, elmt->diagram(), elmt);

	if (add_prefix)
	{
		if      (elmt->kindInformations()["type"].toString() == "power")        txt.prepend(m_properties.prefix("power"));
		else if (elmt->kindInformations()["type"].toString().contains("delay")) txt.prepend(m_properties.prefix("delay"));
		else if (elmt->kindInformations()["state"].toString() == "SW")          txt.prepend(m_properties.prefix("switch"));
	}
	return txt;
}

/**
 * @brief CrossRefItem::updateProperties
 * update the curent properties
 */
void CrossRefItem::updateProperties()
{
	XRefProperties xrp = m_element->diagram()->project()->defaultXRefProperties(m_element->kindInformations()["type"].toString());
	
	if (m_properties != xrp)
	{
		m_properties = xrp;
		hide();
		if(m_properties.snapTo() == XRefProperties::Label && (m_text || m_group)) //Snap to label and parent is text or group
			show();
		else if((m_properties.snapTo() == XRefProperties::Bottom && !m_text && !m_group)) //Snap to bottom of element is the parent
			show();
		
		setUpConnection();
		updateLabel();
	}
}

/**
 * @brief CrossRefItem::updateLabel
 * Update the content of the item
 */
void CrossRefItem::updateLabel()
{
		//init the shape and bounding rect
	m_shape_path    = QPainterPath();
	prepareGeometryChange();
	m_bounding_rect = QRectF();

		//init the painter
	QPainter qp;
	qp.begin(&m_drawing);
	QPen pen_;
	pen_.setWidthF(0.5);
	qp.setPen(pen_);
	qp.setFont(QETApp::diagramTextsFont(5));

		//Draw cross or contact, only if master element is linked.
	if (! m_element->linkedElements().isEmpty())
	{
		XRefProperties::DisplayHas dh = m_properties.displayHas();

		if (dh == XRefProperties::Cross)
			drawAsCross(qp);
		else if (dh == XRefProperties::Contacts)
			drawAsContacts(qp);
	}
	qp.end();

	autoPos();
	update();
}

/**
 * @brief CrossRefItem::autoPos
 * Calculate and set position automaticaly.
 */
void CrossRefItem::autoPos() {
		//We calcul the position according to the @snapTo of the xrefproperties
	if (m_properties.snapTo() == XRefProperties::Bottom)
		centerToBottomDiagram(this, m_element, m_properties.offset() <= 40 ? 5 : m_properties.offset());
	else
		centerToParentBottom(this);
}

bool CrossRefItem::sceneEvent(QEvent *event)
{
		//By default when a QGraphicsItem is a child of a QGraphicsItemGroup
		//all events are forwarded to group.
		//We override it, when this Xref is in a group
	if(m_group)
	{
		switch (event->type())
		{
			case QEvent::GraphicsSceneHoverEnter:
				hoverEnterEvent(static_cast<QGraphicsSceneHoverEvent *>(event));
				break;
			case QEvent::GraphicsSceneHoverMove:
				hoverMoveEvent(static_cast<QGraphicsSceneHoverEvent *>(event));
				break;
			case QEvent::GraphicsSceneHoverLeave:
				hoverLeaveEvent(static_cast<QGraphicsSceneHoverEvent *>(event));
				break;
			case QEvent::GraphicsSceneMouseDoubleClick:
				mouseDoubleClickEvent(static_cast<QGraphicsSceneMouseEvent *>(event));
				break;
			default:break;
		}
		return true;
	}
	
	return QGraphicsObject::sceneEvent(event);
}

/**
 * @brief CrossRefItem::paint
 * Paint this item
 * @param painter
 * @param option
 * @param widget
 */
void CrossRefItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) {
	Q_UNUSED(option)
	Q_UNUSED(widget)
	m_drawing.play(painter);
}

/**
 * @brief CrossRefItem::mouseDoubleClickEvent
 * @param event
 */
void CrossRefItem::mouseDoubleClickEvent(QGraphicsSceneMouseEvent *event)
{
	event->accept();
	if (m_hovered_contact && m_hovered_contact->scene())
	{
			//Show and select the linked slave element
		if (scene() != m_hovered_contact->scene())
		{
			m_hovered_contact->diagram()->showMe();
		}
		m_hovered_contact->setSelected(true);

			//Zoom to the linked slave element
		foreach(QGraphicsView *view, m_hovered_contact->diagram()->views())
		{
			QRectF fit = m_hovered_contact->sceneBoundingRect();
			fit.adjust(-200, -200, 200, 200);
			view->fitInView(fit, Qt::KeepAspectRatioByExpanding);
		}
	}
}

void CrossRefItem::hoverEnterEvent(QGraphicsSceneHoverEvent *event)
{
	m_hovered_contact = nullptr;
		QGraphicsObject::hoverEnterEvent(event);
}

void CrossRefItem::hoverMoveEvent(QGraphicsSceneHoverEvent *event)
{
	QPointF pos = event->pos();

	if (m_hovered_contact)
	{
		foreach(QRectF rect, m_hovered_contacts_map.values(m_hovered_contact))
		{
				//Mouse hover the same rect than previous hover event
			if (rect.contains(pos))
			{
				QGraphicsObject::hoverMoveEvent(event);
				return;
			}
		}

			//At this point, mouse don't hover previous rect
		m_hovered_contact = nullptr;

		foreach (Element *elmt, m_hovered_contacts_map.keys())
		{
			foreach(QRectF rect, m_hovered_contacts_map.values(elmt))
			{
					//Mouse hover a contact
				if (rect.contains(pos))
				{
					m_hovered_contact = elmt;
				}
			}
		}

		updateLabel();
		QGraphicsObject::hoverMoveEvent(event);
		return;
	}
	else
	{
		foreach (Element *elmt, m_hovered_contacts_map.keys())
		{
			foreach(QRectF rect, m_hovered_contacts_map.values(elmt))
			{
					//Mouse hover a contact
				if (rect.contains(pos))
				{
					m_hovered_contact = elmt;
					updateLabel();
					QGraphicsObject::hoverMoveEvent(event);
					return;
				}
			}
		}
	}
}

void CrossRefItem::hoverLeaveEvent(QGraphicsSceneHoverEvent *event)
{
	m_hovered_contact = nullptr;
	updateLabel();
	QGraphicsObject::hoverLeaveEvent(event);
}

void CrossRefItem::linkedChanged()
{
	for(const QMetaObject::Connection& c : m_slave_connection)
		disconnect(c);
	
	m_slave_connection.clear();
	
	if(!isVisible())
		return;
	
	for(Element *elmt : m_element->linkedElements())
	{
		m_slave_connection << connect(elmt, &Element::xChanged, this, &CrossRefItem::updateLabel);
		m_slave_connection << connect(elmt, &Element::yChanged, this, &CrossRefItem::updateLabel);
	}
	
	updateLabel();
}

/**
 * @brief CrossRefItem::buildHeaderContact
 * Draw the QPicture of m_hdr_no_ctc and m_hdr_nc_ctc
 */
void CrossRefItem::buildHeaderContact() {
	if (!m_hdr_no_ctc.isNull() && !m_hdr_nc_ctc.isNull()) return;

	//init the painter
	QPainter qp;
	QPen pen_;
	pen_.setWidthF(0.2);

	//draw the NO contact
	if (m_hdr_no_ctc.isNull()) {
		qp.begin(&m_hdr_no_ctc);
		qp.setPen(pen_);
		qp.drawLine(0, 3, 5, 3);
		QPointF p1[3] = {
			QPointF(5, 0),
			QPointF(10, 3),
			QPointF(15, 3),
		};
		qp.drawPolyline(p1,3);
		qp.end();
	}

	//draw the NC contact
	if (m_hdr_nc_ctc.isNull()) {
		qp.begin(&m_hdr_nc_ctc);
		qp.setPen(pen_);
		QPointF p2[3] = {
			QPointF(0, 3),
			QPointF(5, 3),
			QPointF(5, 0)
		};
		qp.drawPolyline(p2,3);
		QPointF p3[3] = {
			QPointF(4, 0),
			QPointF(10, 3),
			QPointF(15, 3),
		};
		qp.drawPolyline(p3,3);
		qp.end();
	}
}

/**
 * @brief CrossRefItem::setUpCrossBoundingRect
 * Get the numbers of slaves elements linked to this parent element,
 * for calculate the size of the cross bounding rect.
 * The cross ref item is drawing according to the size of the cross bounding rect.
 */
void CrossRefItem::setUpCrossBoundingRect(QPainter &painter)
{
		//No need to calcul if nothing is linked
	if (m_element->isFree()) return;

	QStringList no_str, nc_str;

	for (auto elmt : NOElements()) {
		no_str.append(elementPositionText(elmt, true));
	}
	for (auto elmt : NCElements()) {
		nc_str.append(elementPositionText(elmt, true));
	}


		//There is no string to display, we return now
	if (no_str.isEmpty() && nc_str.isEmpty()) return;

		//this is the default size of cross ref item
	QRectF default_bounding(0, 0, 40, header + cross_min_heigth);

		//Bounding rect of the NO text
	QRectF no_bounding;
	for (auto str : no_str)
	{
		QRectF bounding = painter.boundingRect(QRectF (), Qt::AlignCenter, str);
		no_bounding = no_bounding.united(bounding);
		no_bounding.setHeight(no_bounding.height() + bounding.height());
	}
		//Adjust according to the NO
	if (no_bounding.height() > default_bounding.height() - header)
		default_bounding.setHeight(no_bounding.height() + header); //adjust the height
	if (no_bounding.width() > default_bounding.width()/2)
		default_bounding.setWidth(no_bounding.width()*2);			//adjust the width

		//Bounding rect of the NC text
	QRectF nc_bounding;
	for (auto str : nc_str)
	{
		QRectF bounding = painter.boundingRect(QRectF (), Qt::AlignCenter, str);
		nc_bounding = nc_bounding.united(bounding);
		nc_bounding.setHeight(nc_bounding.height() + bounding.height());
	}
		//Adjust according to the NC
	if (nc_bounding.height() > default_bounding.height() - header)
		default_bounding.setHeight(nc_bounding.height() + header); //adjust the heigth
	if (nc_bounding.width() > default_bounding.width()/2)
		default_bounding.setWidth(nc_bounding.width()*2);			//adjust the width

		//Minor adjustement for better visual
	default_bounding.adjust(0, 0, 4, 0);
	m_shape_path.addRect(default_bounding);
	prepareGeometryChange();
	m_bounding_rect = default_bounding;
}

/**
 * @brief CrossRefItem::drawAsCross
 * Draw this crossref with a cross
 * @param painter, painter to use
 */
void CrossRefItem::drawAsCross(QPainter &painter)
{
		//calcul the size of the cross
	setUpCrossBoundingRect(painter);
	m_hovered_contacts_map.clear();

		//Bounding rect is empty that mean there's no contact to draw
	if (boundingRect().isEmpty()) return;

		//draw the cross
	QRectF br = boundingRect();
	painter.drawLine(br.width()/2, 0, br.width()/2, br.height());	//vertical line
	painter.drawLine(0, header, br.width(), header);	//horizontal line

		//Add the symbolic contacts
	buildHeaderContact();
	QPointF p((m_bounding_rect.width()/4) - (m_hdr_no_ctc.width()/2), 0);
	painter.drawPicture (p, m_hdr_no_ctc);
	p.setX((m_bounding_rect.width() * 3/4) - (m_hdr_nc_ctc.width()/2));
	painter.drawPicture (p, m_hdr_nc_ctc);

		//and fill it
	fillCrossRef(painter);
}

/**
 * @brief CrossRefItem::drawAsContacts
 * Draw this crossref with symbolic contacts
 * @param painter painter to use
 */
void CrossRefItem::drawAsContacts(QPainter &painter)
{
	if (m_element -> isFree())
		return;

	m_drawed_contacts = 0;
	m_hovered_contacts_map.clear();
	QRectF bounding_rect;

	//Draw each linked contact
	foreach (Element *elmt,  m_element->linkedElements())
	{
		DiagramContext info = elmt->kindInformations();

		for (int i=0; i<info["number"].toInt(); i++)
		{
			int option = 0;

			QString state = info["state"].toString();
				 if (state == "NO") option = NO;
			else if (state == "NC") option = NC;
			else if (state == "SW") option = SW;

			QString type = info["type"].toString();
				 if (type == "power")    option += Power;
			else if (type == "delayOn")  option += DelayOn;
			else if (type == "delayOff") option += DelayOff;
			else if (type == "delayOnOff") option += DelayOnOff;

			QRectF br = drawContact(painter, option, elmt);
			bounding_rect = bounding_rect.united(br);
		}
	}

	bounding_rect.adjust(-4, -4, 4, 4);
	prepareGeometryChange();
	m_bounding_rect = bounding_rect;
	m_shape_path.addRect(bounding_rect);
}

/**
 * @brief CrossRefItem::drawContact
 * Draw one contact, the type of contact to draw is define in @flags.
 * @param painter, painter to use
 * @param flags, define how to draw the contact (see enul CONTACTS)
 * @param elmt, the element to display text (the position of the contact)
 * @return The bounding rect of the draw (contact + text)
 */
QRectF CrossRefItem::drawContact(QPainter &painter, int flags, Element *elmt)
{
	QString str = elementPositionText(elmt);
	int offset = m_drawed_contacts*10;
	QRectF bounding_rect;

	QPen pen = painter.pen();
	m_hovered_contact == elmt ? pen.setColor(Qt::blue) :pen.setColor(Qt::black);
	painter.setPen(pen);

	//Draw NO or NC contact
	if (flags &NOC)
	{
		bounding_rect = QRectF(0, offset, 24, 10);

		//draw the basic line
		painter.drawLine(0, offset+6, 8, offset+6);
		painter.drawLine(16, offset+6, 24, offset+6);

		///take exemple of this code for display the terminal text
		/*QFont font = QETApp::diagramTextsFont(4);
		font.setBold(true);
		painter.setFont(font);
		QRectF bt(0, offset, 24, 10);
		int txt = 10 + m_drawed_contacts;
		painter.drawText(bt, Qt::AlignLeft|Qt::AlignTop, QString::number(txt));
		painter.drawText(bt, Qt::AlignRight|Qt::AlignTop, QString::number(txt));
		painter.setFont(QETApp::diagramTextsFont(5));*/

		//draw open contact
		if (flags &NO) {
			painter.drawLine(8, offset+9, 16, offset+6);
		}
		//draw close contact
		if (flags &NC) {
			QPointF p1[3] = {
				QPointF(8, offset+6),
				QPointF(9, offset+6),
				QPointF(9, offset+2.5)
			};
			painter.drawPolyline(p1,3);
			painter.drawLine(8, offset+3, 16, offset+6);
		}

		//draw half circle for power contact
		if (flags &Power) {
			QRectF arc(4, offset+4, 4, 4);
			if (flags &NO)
				painter.drawArc(arc, 180*16, 180*16);
			else
				painter.drawArc(arc, 0, 180*16);
		}

			// draw half circle for delay contact
		if(flags &Delay) {
				// for delay on contact
			if (flags &DelayOn) {
				if (flags &NO) {
                    painter.drawLine(12, offset+8, 12, offset+11);
                    QRectF r(9.5, offset+9, 5, 3);
                    painter.drawArc(r, 180*16, 180*16);
				}
                if (flags &NC) {
                    painter.drawLine(QPointF(12.5, offset+5), QPointF(12.5, offset+8));
                    QRectF r(10, offset+6, 5, 3);
                    painter.drawArc(r, 180*16, 180*16);
				}
			}
				// for delay off contact
			else if ( flags &DelayOff){
				if (flags &NO) {
                    painter.drawLine(12, offset+8, 12, offset+9.5);
                    QRectF r(9.5, offset+9.5, 5, 3);
                    painter.drawArc(r, 0, 180*16);
                }
				if (flags &NC) {
                    painter.drawLine(QPointF(12.5, offset+5), QPointF(12.5, offset+7));
                    QRectF r(10, offset+7.5, 5, 3);
                    painter.drawArc(r, 0, 180*16);
				}

			}
			else {
					// for delay on contact
				if (flags &NO) {
					painter.drawLine(12, offset+8, 12, offset+11);
					QRectF r(9.5, offset+11.7, 5, 3);
					painter.drawArc(r, 0, 180*16);
					QRectF rl(9.5, offset+9, 5, 3);
					painter.drawArc(rl, 180*16, 180*16);
				}
				if (flags &NC) {
					painter.drawLine(QPointF(12.5, offset+5), QPointF(12.5, offset+8));
					QRectF r(9.5, offset+10.7, 5, 3);
					painter.drawArc(r, 0, 180*16);
					QRectF rl(9.5, offset+8, 5, 3);
					painter.drawArc(rl, 180*16, 180*16);
				}
			}
		}

		QRectF text_rect = painter.boundingRect(QRectF(30, offset, 5, 10), Qt::AlignLeft | Qt::AlignVCenter, str);
		painter.drawText(text_rect, Qt::AlignLeft | Qt::AlignVCenter, str);
		bounding_rect = bounding_rect.united(text_rect);

		if (m_hovered_contacts_map.contains(elmt))
		{
			m_hovered_contacts_map.insertMulti(elmt, bounding_rect);
		}
		else
		{
			m_hovered_contacts_map.insert(elmt, bounding_rect);
		}

		++m_drawed_contacts;
	}

		//Draw a switch contact
	else if (flags &SW)
	{
		bounding_rect = QRectF(0, offset, 24, 20);

			//draw the NO side
		painter.drawLine(0, offset+6, 8, offset+6);
			//Draw the NC side
		QPointF p1[3] = {
			QPointF(0, offset+16),
			QPointF(8, offset+16),
			QPointF(8, offset+12)
		};
		painter.drawPolyline(p1, 3);

			//Draw the common side
		QPointF p2[3] = {
			QPointF(7, offset+14),
			QPointF(16, offset+11),
			QPointF(24, offset+11),
		};
		painter.drawPolyline(p2, 3);

			//Draw the half ellipse off delay
		if (flags &Delay)
		{
			painter.drawLine(12, offset+13, 12, offset+16);
			if (flags &DelayOn) {
				QRectF r(9.5, offset+14, 5, 3);
				painter.drawArc(r, 180*16, 180*16);
			}
			else if (flags &DelayOff) {
				QRectF r(9.5, offset+16.5, 5, 3);
				painter.drawArc(r, 0, 180*16);
			}
			else if (flags &DelayOnOff) {
				QRectF r(9.5, offset+14, 5, 3);
				painter.drawArc(r, 180*16, 180*16);
				QRectF rr(9.5, offset+17, 5, 3);
				painter.drawArc(rr, 0, 180*16);
			}
		}

			//Draw position text
		QRectF text_rect = painter.boundingRect(QRectF(30, offset+5, 5, 10), Qt::AlignLeft | Qt::AlignVCenter, str);
		painter.drawText(text_rect, Qt::AlignLeft | Qt::AlignVCenter, str);
		bounding_rect = bounding_rect.united(text_rect);

		if (m_hovered_contacts_map.contains(elmt)) {
			m_hovered_contacts_map.insertMulti(elmt, bounding_rect);
		}
		else {
			m_hovered_contacts_map.insert(elmt, bounding_rect);
		}

			//a switch contact take place of two normal contact
		m_drawed_contacts += 2;
	}

	return bounding_rect;
}

/**
 * @brief CrossRefItem::fillCrossRef
 * Fill the content of the cross ref
 * @param painter painter to use.
 */
void CrossRefItem::fillCrossRef(QPainter &painter)
{
	if (m_element->isFree()) return;

	qreal middle_cross = m_bounding_rect.width()/2;

		//Fill NO
	QPointF no_top_left(0, header);
	foreach(Element *elmt, NOElements())
	{
		QPen pen = painter.pen();
		m_hovered_contact == elmt ? pen.setColor(Qt::blue) :pen.setColor(Qt::black);
		painter.setPen(pen);

		QString str = elementPositionText(elmt, true);
		QRectF bounding = painter.boundingRect(QRectF(no_top_left, QSize(middle_cross, 1)), Qt::AlignLeft, str);
		painter.drawText(bounding, Qt::AlignLeft, str);

		if (m_hovered_contacts_map.contains(elmt))
		{
			m_hovered_contacts_map.insertMulti(elmt, bounding);
		}
		else
		{
			m_hovered_contacts_map.insert(elmt, bounding);
		}

		no_top_left.ry() += bounding.height();
	}

		//Fill NC
	QPointF nc_top_left(middle_cross, header);
	foreach(Element *elmt, NCElements())
	{
		QPen pen = painter.pen();
		m_hovered_contact == elmt ? pen.setColor(Qt::blue) :pen.setColor(Qt::black);
		painter.setPen(pen);

		QString str = elementPositionText(elmt, true);
		QRectF bounding = painter.boundingRect(QRectF(nc_top_left, QSize(middle_cross, 1)), Qt::AlignRight, str);
		painter.drawText(bounding, Qt::AlignRight, str);

		if (m_hovered_contacts_map.contains(elmt))
		{
			m_hovered_contacts_map.insertMulti(elmt, bounding);
		}
		else
		{
			m_hovered_contacts_map.insert(elmt, bounding);
		}

		nc_top_left.ry() += bounding.height();
	}
}

/**
 * @brief CrossRefItem::AddExtraInfo
 * Add the comment info of the parent item if needed.
 * @param painter painter to use for draw the text
 * @param type type of Info do be draw e.g. comment, location.
 */
void CrossRefItem::AddExtraInfo(QPainter &painter, const QString& type)
{
	QString text = autonum::AssignVariables::formulaToLabel(m_element -> elementInformations()[type].toString(), m_element->rSequenceStruct(), m_element->diagram(), m_element);
	bool must_show  = m_element -> elementInformations().keyMustShow(type);

	if (!text.isEmpty() && must_show)
	{
		painter.save();
		painter.setFont(QETApp::diagramTextsFont(6));

		QRectF r, text_bounding;
		qreal center = boundingRect().center().x();
		qreal width = boundingRect().width() > 70 ? boundingRect().width()/2 : 35;

		r = QRectF(QPointF(center - width, boundingRect().bottom()),
				   QPointF(center + width, boundingRect().bottom() + 1));

		text_bounding = painter.boundingRect(r, Qt::TextWordWrap | Qt::AlignHCenter, text);
		painter.drawText(text_bounding, Qt::TextWordWrap | Qt::AlignHCenter, text);

		text_bounding.adjust(-1,0,1,0); //adjust only for better visual

		m_shape_path.addRect(text_bounding);
		prepareGeometryChange();
		m_bounding_rect = m_bounding_rect.united(text_bounding);
		if (type == "comment") painter.drawRoundedRect(text_bounding, 2, 2);
		painter.restore();
	}
}

/**
 * @brief CrossRefItem::NOElements
 * @return The linked elements of @m_element wich are open or switch contact.
 * If linked element is a power contact, xref propertie is set to don't show power contact
 * and this cross item must be drawed as cross, the element is not append in the list.
 */
QList<Element *> CrossRefItem::NOElements() const
{
	QList<Element *> no_list;

	foreach (Element *elmt, m_element->linkedElements())
	{
			//We continue if element is a power contact and xref propertie
			//is set to don't show power contact
		if (m_properties.displayHas() == XRefProperties::Cross &&
			!m_properties.showPowerContact() &&
			elmt -> kindInformations()["type"].toString() == "power")
			continue;

		QString state = elmt->kindInformations()["state"].toString();

		if (state == "NO" || state == "SW")
		{
			no_list.append(elmt);
		}
	}

	return no_list;
}

/**
 * @brief CrossRefItem::NCElements
 * @return The linked elements of @m_element wich are close or switch contact
 * If linked element is a power contact, xref propertie is set to don't show power contact
 * and this cross item must be drawed as cross, the element is not append in the list.
 */
QList<Element *> CrossRefItem::NCElements() const
{
	QList<Element *> nc_list;

	foreach (Element *elmt, m_element->linkedElements())
	{
			//We continue if element is a power contact and xref propertie
			//is set to don't show power contact
		if (m_properties.displayHas() == XRefProperties::Cross &&
			!m_properties.showPowerContact() &&
			elmt -> kindInformations()["type"].toString() == "power")
			continue;

		QString state = elmt->kindInformations()["state"].toString();

		if (state == "NC" || state == "SW")
		{
			nc_list.append(elmt);
		}
	}

	return nc_list;
}