/*
Copyright 2006-2017 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 .
*/
#include "element.h"
#include "diagram.h"
#include "conductor.h"
#include "elementtextitem.h"
#include "diagramcommands.h"
#include
#include "elementprovider.h"
#include "diagramposition.h"
#include "terminal.h"
#include "PropertiesEditor/propertieseditordialog.h"
#include "elementpropertieswidget.h"
#include "numerotationcontextcommands.h"
#include "diagramcontext.h"
#include "changeelementinformationcommand.h"
#include "dynamicelementtextitem.h"
#include "elementtextitemgroup.h"
class ElementXmlRetroCompatibility
{
friend class Element;
static void loadSequential(const QDomElement &dom_element, QString seq, QStringList* list)
{
int i = 0;
while (!dom_element.attribute(seq + QString::number(i+1)).isEmpty())
{
list->append(dom_element.attribute(seq + QString::number(i+1)));
i++;
}
}
static void loadSequential(const QDomElement &dom_element, Element *element)
{
autonum::sequentialNumbers sn;
loadSequential(dom_element,"sequ_",&sn.unit);
loadSequential(dom_element,"sequf_",&sn.unit_folio);
loadSequential(dom_element,"seqt_",&sn.ten);
loadSequential(dom_element,"seqtf_",&sn.ten_folio);
loadSequential(dom_element,"seqh_",&sn.hundred);
loadSequential(dom_element,"seqhf_",&sn.hundred_folio);
element->rSequenceStruct() = sn;
}
};
/**
Constructeur pour un element sans scene ni parent
*/
Element::Element(QGraphicsItem *parent) :
QetGraphicsItem(parent),
must_highlight_(false),
m_mouse_over(false)
{
link_type_ = Simple;
uuid_ = QUuid::createUuid();
setZValue(10);
setFlags(QGraphicsItem::ItemIsMovable | QGraphicsItem::ItemIsSelectable);
setAcceptHoverEvents(true);
}
/**
Destructeur
*/
Element::~Element()
{
qDeleteAll(m_dynamic_text_list);
}
void Element::editProperty()
{
if (diagram() && !diagram()->isReadOnly())
{
ElementPropertiesWidget *epw = new ElementPropertiesWidget(this);
PropertiesEditorDialog dialog(epw, QApplication::activeWindow());
connect(epw, &ElementPropertiesWidget::findEditClicked, &dialog, &QDialog::reject);
dialog.exec();
}
}
/**
@return true si l'element est mis en evidence
*/
bool Element::isHighlighted() const {
return(must_highlight_);
}
/**
@param hl true pour mettre l'element en evidence, false sinon
*/
void Element::setHighlighted(bool hl) {
must_highlight_ = hl;
update();
}
/**
* @brief Element::displayHelpLine
* Display the help line of each terminal if b is true
* @param b
*/
void Element::displayHelpLine(bool b)
{
foreach (Terminal *t, terminals())
t->drawHelpLine(b);
}
/**
* @brief Element::paint
* @param painter
* @param options
* @param widget
*/
void Element::paint(QPainter *painter, const QStyleOptionGraphicsItem *options, QWidget *)
{
if (must_highlight_) drawHighlight(painter, options);
//Draw the element himself
paint(painter, options);
//Draw the selection rectangle
if ( isSelected() || m_mouse_over ) drawSelection(painter, options);
}
/**
@return Le rectangle delimitant le contour de l'element
*/
QRectF Element::boundingRect() const {
return(QRectF(QPointF(-hotspot_coord.x(), -hotspot_coord.y()), dimensions));
}
/**
Definit la taille de l'element sur le schema. Les tailles doivent etre
des multiples de 10 ; si ce n'est pas le cas, les dimensions indiquees
seront arrrondies aux dizaines superieures.
@param wid Largeur de l'element
@param hei Hauteur de l'element
@return La taille finale de l'element
*/
QSize Element::setSize(int wid, int hei) {
prepareGeometryChange();
// chaque dimension indiquee est arrondie a la dizaine superieure
while (wid % 10) ++ wid;
while (hei % 10) ++ hei;
// les dimensions finales sont conservees et retournees
return(dimensions = QSize(wid, hei));
}
/**
@return la taille de l'element sur le schema
*/
QSize Element::size() const {
return(dimensions);
}
/**
Definit le hotspot de l'element par rapport au coin superieur gauche de son rectangle delimitant.
Necessite que la taille ait deja ete definie
@param hs Coordonnees du hotspot
*/
QPoint Element::setHotspot(QPoint hs) {
// la taille doit avoir ete definie
prepareGeometryChange();
if (dimensions.isNull()) hotspot_coord = QPoint(0, 0);
else {
// les coordonnees indiquees ne doivent pas depasser les dimensions de l'element
int hsx = qMin(hs.x(), dimensions.width());
int hsy = qMin(hs.y(), dimensions.height());
hotspot_coord = QPoint(hsx, hsy);
}
return(hotspot_coord);
}
/**
@return Le hotspot courant de l'element
*/
QPoint Element::hotspot() const {
return(hotspot_coord);
}
/**
Selectionne l'element
*/
void Element::select() {
setSelected(true);
}
/**
Deselectionne l'element
*/
void Element::deselect() {
setSelected(false);
}
/**
@return La pixmap de l'element
*/
QPixmap Element::pixmap() {
if (preview.isNull()) updatePixmap(); // on genere la pixmap si ce n'est deja fait
return(preview);
}
/**
* @brief Element::rotateBy
* this methode is redefined for handle child item
* @param angle
*/
void Element::rotateBy(const qreal &angle) {
qreal applied_angle = QET::correctAngle(angle);
applyRotation(applied_angle + rotation());
//update the path of conductor
foreach(QGraphicsItem *qgi, childItems()) {
if (Terminal *p = qgraphicsitem_cast(qgi)) {
p -> updateConductor();
}
}
// repositionne les textes de l'element qui ne comportent pas l'option "FollowParentRotations"
foreach(ElementTextItem *eti, texts()) {
if (!eti -> followParentRotations()) {
// on souhaite pivoter le champ de texte par rapport a son centre
QPointF eti_center = eti -> boundingRect().center();
// pour ce faire, on repere la position de son centre par rapport a son parent
QPointF parent_eti_center_before = eti -> mapToParent(eti_center);
// on applique ensuite une simple rotation contraire, qui sera donc appliquee sur le milieu du cote gauche du champ de texte
eti -> rotateBy(-applied_angle);
// on regarde ensuite la nouvelle position du centre du champ de texte par rapport a son parent
QPointF parent_eti_center_after = eti -> mapToParent(eti_center);
// on determine la translation a appliquer
QPointF eti_translation = parent_eti_center_before - parent_eti_center_after;
// on applique cette translation
eti -> setPos(eti -> pos() + eti_translation);
}
}
}
/*** Methodes protegees ***/
/**
Dessine un petit repere (axes x et y) relatif a l'element
@param painter Le QPainter a utiliser pour dessiner les axes
@param options Les options de style a prendre en compte
*/
void Element::drawAxes(QPainter *painter, const QStyleOptionGraphicsItem *options) {
Q_UNUSED(options);
painter -> setPen(Qt::blue);
painter -> drawLine(0, 0, 10, 0);
painter -> drawLine(7,-3, 10, 0);
painter -> drawLine(7, 3, 10, 0);
painter -> setPen(Qt::red);
painter -> drawLine(0, 0, 0, 10);
painter -> drawLine(0, 10,-3, 7);
painter -> drawLine(0, 10, 3, 7);
}
/*** Methodes privees ***/
/**
Dessine le cadre de selection de l'element de maniere systematiquement non antialiasee.
@param painter Le QPainter a utiliser pour dessiner les bornes.
@param options Les options de style a prendre en compte
*/
void Element::drawSelection(QPainter *painter, const QStyleOptionGraphicsItem *options) {
Q_UNUSED(options);
painter -> save();
// Annulation des renderhints
painter -> setRenderHint(QPainter::Antialiasing, false);
painter -> setRenderHint(QPainter::TextAntialiasing, false);
painter -> setRenderHint(QPainter::SmoothPixmapTransform, false);
// Dessin du cadre de selection en gris
QPen t;
t.setColor(Qt::gray);
t.setStyle(Qt::DashDotLine);
t.setCosmetic(true);
painter -> setPen(t);
// Le dessin se fait a partir du rectangle delimitant
painter -> drawRoundRect(boundingRect().adjusted(1, 1, -1, -1), 10, 10);
painter -> restore();
}
/**
Dessine le cadre de selection de l'element de maniere systematiquement non antialiasee.
@param painter Le QPainter a utiliser pour dessiner les bornes.
@param options Les options de style a prendre en compte
*/
void Element::drawHighlight(QPainter *painter, const QStyleOptionGraphicsItem *options) {
Q_UNUSED(options);
painter -> save();
qreal gradient_radius = qMin(boundingRect().width(), boundingRect().height()) / 2.0;
QRadialGradient gradient(
boundingRect().center(),
gradient_radius,
boundingRect().center()
);
gradient.setColorAt(0.0, QColor::fromRgb(69, 137, 255, 255));
gradient.setColorAt(1.0, QColor::fromRgb(69, 137, 255, 0));
QBrush brush(gradient);
painter -> setPen(Qt::NoPen);
painter -> setBrush(brush);
// Le dessin se fait a partir du rectangle delimitant
painter -> drawRoundRect(boundingRect().adjusted(1, 1, -1, -1), 10, 10);
painter -> restore();
}
/**
Fonction initialisant et dessinant la pixmap de l'element.
*/
void Element::updatePixmap() {
// Pixmap transparente faisant la taille de base de l'element
preview = QPixmap(dimensions);
preview.fill(QColor(255, 255, 255, 0));
// QPainter sur la pixmap, avec antialiasing
QPainter p(&preview);
p.setRenderHint(QPainter::Antialiasing, true);
p.setRenderHint(QPainter::SmoothPixmapTransform, true);
// Translation de l'origine du repere de la pixmap
p.translate(hotspot_coord);
// L'element se dessine sur la pixmap
paint(&p, nullptr);
}
/**
This class is used to retrieve label and function information from element
and add it to Diagram Context. Used to make older versions work correctly
@param Element Text item to check information
*/
void Element::etiToElementLabels(ElementTextItem *eti) {
if (eti->tagg() == "label" && eti->toPlainText()!= "_") {
DiagramContext &dc = this->rElementInformations();
dc.addValue("label", eti->toPlainText());
this->setElementInformations(dc);
this->setTaggedText("label", eti->toPlainText());
}
else if(eti->tagg() == "function" && eti->toPlainText() != "_") {
DiagramContext &dc = this->rElementInformations();
dc.addValue("function", eti->toPlainText());
this->setElementInformations(dc);
}
}
/**
Permet de savoir si un element XML (QDomElement) represente bien un element
@param e Le QDomElement a valide
@return true si l'element XML est un Element, false sinon
*/
bool Element::valideXml(QDomElement &e) {
// verifie le nom du tag
if (e.tagName() != "element") return(false);
// verifie la presence des attributs minimaux
if (!e.hasAttribute("type")) return(false);
if (!e.hasAttribute("x")) return(false);
if (!e.hasAttribute("y")) return(false);
bool conv_ok;
// parse l'abscisse
e.attribute("x").toDouble(&conv_ok);
if (!conv_ok) return(false);
// parse l'ordonnee
e.attribute("y").toDouble(&conv_ok);
if (!conv_ok) return(false);
return(true);
}
/**
Methode d'import XML. Cette methode est appelee lors de l'import de contenu
XML (coller, import, ouverture de fichier...) afin que l'element puisse
gerer lui-meme l'importation de ses bornes. Ici, comme cette classe est
caracterisee par un nombre fixe de bornes, l'implementation exige de
retrouver exactement ses bornes dans le fichier XML.
@param e L'element XML a analyser.
@param table_id_adr Reference vers la table de correspondance entre les IDs
du fichier XML et les adresses en memoire. Si l'import reussit, il faut y
ajouter les bons couples (id, adresse).
@return true si l'import a reussi, false sinon
*/
bool Element::fromXml(QDomElement &e, QHash &table_id_adr, bool handle_inputs_rotation)
{
QDomDocument doc = e.ownerDocument();
QDomElement root = doc.documentElement();
double saved_version = -1;
if(root.tagName() == "project")
saved_version = root.attribute("version", "-1").toDouble();
/*
les bornes vont maintenant etre recensees pour associer leurs id a leur adresse reelle
ce recensement servira lors de la mise en place des fils
*/
QList liste_terminals;
foreach(QDomElement qde, QET::findInDomElement(e, "terminals", "terminal")) {
if (Terminal::valideXml(qde)) liste_terminals << qde;
}
QHash priv_id_adr;
int terminals_non_trouvees = 0;
foreach(QGraphicsItem *qgi, childItems()) {
if (Terminal *p = qgraphicsitem_cast(qgi)) {
bool terminal_trouvee = false;
foreach(QDomElement qde, liste_terminals) {
if (p -> fromXml(qde)) {
priv_id_adr.insert(qde.attribute("id").toInt(), p);
terminal_trouvee = true;
// We used to break here, because we did not expect
// several terminals to share the same position.
// Of course, it finally happened.
}
}
if (!terminal_trouvee) ++ terminals_non_trouvees;
}
}
if (terminals_non_trouvees > 0) {
return(false);
} else {
// verifie que les associations id / adr n'entrent pas en conflit avec table_id_adr
foreach(int id_trouve, priv_id_adr.keys()) {
if (table_id_adr.contains(id_trouve)) {
// cet element possede un id qui est deja reference (= conflit)
return(false);
}
}
// copie des associations id / adr
foreach(int id_trouve, priv_id_adr.keys()) {
table_id_adr.insert(id_trouve, priv_id_adr.value(id_trouve));
}
}
//load uuid of connected elements
QList uuid_list = QET::findInDomElement(e, "links_uuids", "link_uuid");
foreach (QDomElement qdo, uuid_list) tmp_uuids_link << qdo.attribute("uuid");
//uuid of this element
uuid_= QUuid(e.attribute("uuid", QUuid::createUuid().toString()));
//load prefix
m_prefix = e.attribute("prefix");
QString fl = e.attribute("freezeLabel", "false");
m_freeze_label = fl == "false"? false : true;
//Load Sequential Values
if (e.hasAttribute("sequ_1") || e.hasAttribute("sequf_1") || e.hasAttribute("seqt_1") || e.hasAttribute("seqtf_1") || e.hasAttribute("seqh_1") || e.hasAttribute("sequf_1"))
ElementXmlRetroCompatibility::loadSequential(e, this);
else
m_autoNum_seq.fromXml(e.firstChildElement("sequentialNumbers"));
//Position and selection.
//We directly call setPos from QGraphicsObject, because QetGraphicsItem will snap to grid
QGraphicsObject::setPos(e.attribute("x").toDouble(), e.attribute("y").toDouble());
setFlags(QGraphicsItem::ItemIsMovable | QGraphicsItem::ItemIsSelectable);
// orientation
bool conv_ok;
int read_ori = e.attribute("orientation").toInt(&conv_ok);
if (!conv_ok || read_ori < 0 || read_ori > 3) read_ori = 0;
if (handle_inputs_rotation) {
rotateBy(90*read_ori);
} else {
applyRotation(90*read_ori);
}
//Befor load the dynamic text field,
//we remove the dynamic text field created from the description of this element, to avoid doublons.
for(DynamicElementTextItem *deti : m_dynamic_text_list)
delete deti;
m_dynamic_text_list.clear();
//************************//
//***Dynamic texts item***//
//************************//
for(QDomElement qde : QET::findInDomElement(e, "dynamic_texts", DynamicElementTextItem::xmlTaggName()))
{
DynamicElementTextItem *deti = new DynamicElementTextItem(this);
addDynamicTextItem(deti);
deti->fromXml(qde);
}
//************************//
//***Element texts item***//
//************************//
QList inputs = QET::findInDomElement(e, "inputs", "input");
//First case, we check for the text item converted to dynamic text item
const QList conv_deti_list = m_converted_text_from_xml_description.keys();
const QList dom_inputs = inputs;
for (DynamicElementTextItem *deti : conv_deti_list)
{
for(QDomElement dom_input : dom_inputs)
{
//we use the same method used in ElementTextItem::fromXml to compar and know if the input dom element is for one of the text stored.
//The comparaison is made from the text position : if the position of the text is the same as the position stored in 'input' dom element
//that mean this is the good text
if (qFuzzyCompare(qreal(dom_input.attribute("x").toDouble()), m_converted_text_from_xml_description.value(deti).x()) &&
qFuzzyCompare(qreal(dom_input.attribute("y").toDouble()), m_converted_text_from_xml_description.value(deti).y()))
{
deti->setText(dom_input.attribute("text"));
qreal rotation = deti->rotation();
QPointF xml_pos = m_converted_text_from_xml_description.value(deti);
if (dom_input.attribute("userrotation").toDouble())
rotation = dom_input.attribute("userrotation").toDouble();
if (dom_input.hasAttribute("userx"))
xml_pos.setX(dom_input.attribute("userx").toDouble());
if(dom_input.hasAttribute("usery"))
xml_pos.setY(dom_input.attribute("usery", "0").toDouble());
//the origin transformation point of PartDynamicTextField is the top left corner, no matter the font size
//The origin transformation point of PartTextField is the middle of left edge, and so by definition, change with the size of the font
//We need to use a QMatrix to find the pos of this text from the saved pos of text item
deti->setPos(xml_pos);
deti->setRotation(rotation);
QMatrix matrix;
//First make the rotation
matrix.rotate(rotation);
QPointF pos = matrix.map(QPointF(0, -deti->boundingRect().height()/2));
matrix.reset();
//Second translate to the pos
matrix.translate(xml_pos.x(), xml_pos.y());
deti->setPos(matrix.map(pos));
//dom_input and deti matched we remove the dom_input from @inputs list,
//to avoid unnecessary checking made below
//we also move deti from the m_converted_text_from_xml_description to m_dynamic_text_list
inputs.removeAll(dom_input);
m_dynamic_text_list.append(deti);
m_converted_text_from_xml_description.remove(deti);
}
}
}
//###Firts case : if this is the first time the user open the project since text item are converted to dynamic text,
//in the previous opening of the project, every texts field present in the element description was created.
//At save time, the values of each of them was save in the 'input' dom element.
//The loop upper is made for the first case, to import the values in 'input' to the new converted dynamic texts field.
//###Second case : this is not the first time the user open the project since text item are converted to dynamic text.
//That mean, in a previous opening of the project, the text item was already converted and save as a dynamic text field.
//So there isn't 'input' dom element in the project, and every dynamic text item present in m_converted_text_from_xml_description
//need to be deleted (because already exist in m_dynamic_text_list, from a previous save)
for (DynamicElementTextItem *deti : m_converted_text_from_xml_description.keys())
delete deti;
m_converted_text_from_xml_description.clear();
//For the moment the text item with a tagg are not converted to dynamic text item
//so we must to check it
foreach(QGraphicsItem *qgi, childItems())
{
if (ElementTextItem *eti = qgraphicsitem_cast(qgi))
{
foreach(QDomElement input, inputs)
{
eti -> fromXml(input);
etiToElementLabels(eti);
}
}
}
for (QDomElement qde : QET::findInDomElement(e, "texts_group", ElementTextItemGroup::xmlTaggName()))
{
ElementTextItemGroup *group = addTextGroup("loaded_from_xml_group");
group->fromXml(qde);
}
//load informations
m_element_informations.fromXml(e.firstChildElement("elementInformations"), "elementInformation");
/**
* Since the commit 4791, the value used as "label" and "formula" is stored in differents keys (instead of the same key, "label" in previous version),
* so, if "label" contain "%" (Use variable value), and "formula" does not exist,
* this mean the label was made before commit 4791 (0.51 dev). So we swap the value stored in "label" to "formula" as expected.
* @TODO remove this code at version 0.7 or more (probably useless).
*/
if (m_element_informations["label"].toString().contains("%") && m_element_informations["formula"].toString().isNull())
{
m_element_informations.addValue("formula", m_element_informations["label"]);
}
/**
* At the start of the 0.51 devel, if the text item with tagg "label" was edited directly in the diagram,
* the text was not write to the element information value "formula".
* During the devel, this behavior change, when user edit the text item direclty in the diagram,
* the text was also write in the element information.
* Then when open a .qet file, the text item with tagg "label", is write with the value stored in the element information.
* The mistake is :
* if user write directly in the diagram with a version befor the change (so the text is not in the element information),
* and open the project with a version after the change, then the text item with tagg "label" is empty.
* The code below fix this.
*/
if (saved_version > -1 && saved_version <= 0.51)
{
if (ElementTextItem *eti = taggedText("label"))
{
if (m_element_informations["label"].toString().isEmpty() &&
m_element_informations["formula"].toString().isEmpty() &&
!eti->toPlainText().isEmpty())
{
m_element_informations.addValue("formula", eti->toPlainText());
}
}
}
return(true);
}
/**
Permet d'exporter l'element en XML
@param document Document XML a utiliser
@param table_adr_id Table de correspondance entre les adresses des bornes
et leur id dans la representation XML ; cette table completee par cette
methode
@return L'element XML representant cet element electrique
*/
QDomElement Element::toXml(QDomDocument &document, QHash &table_adr_id) const
{
QDomElement element = document.createElement("element");
// type
element.setAttribute("type", typeId());
// uuid
element.setAttribute("uuid", uuid().toString());
// prefix
element.setAttribute("prefix", m_prefix);
//frozen label
element.setAttribute("freezeLabel", m_freeze_label? "true" : "false");
// sequential num
QDomElement seq = m_autoNum_seq.toXml(document);
if (seq.hasChildNodes())
element.appendChild(seq);
// position, selection et orientation
element.setAttribute("x", QString("%1").arg(pos().x()));
element.setAttribute("y", QString("%1").arg(pos().y()));
element.setAttribute("orientation", QString("%1").arg(orientation()));
/* recupere le premier id a utiliser pour les bornes de cet element */
int id_terminal = 0;
if (!table_adr_id.isEmpty()) {
// trouve le plus grand id
int max_id_t = -1;
foreach (int id_t, table_adr_id.values()) {
if (id_t > max_id_t) max_id_t = id_t;
}
id_terminal = max_id_t + 1;
}
// enregistrement des bornes de l'appareil
QDomElement xml_terminals = document.createElement("terminals");
// pour chaque enfant de l'element
foreach(Terminal *t, terminals()) {
// alors on enregistre la borne
QDomElement terminal = t -> toXml(document);
terminal.setAttribute("id", id_terminal);
table_adr_id.insert(t, id_terminal ++);
xml_terminals.appendChild(terminal);
}
element.appendChild(xml_terminals);
// enregistrement des champ de texte de l'appareil
QDomElement inputs = document.createElement("inputs");
foreach(ElementTextItem *eti, texts()) {
inputs.appendChild(eti -> toXml(document));
}
element.appendChild(inputs);
//if this element is linked to other elements,
//save the uuid of each other elements
if (! isFree()) {
QDomElement links_uuids = document.createElement("links_uuids");
foreach (Element *elmt, connected_elements) {
QDomElement link_uuid = document.createElement("link_uuid");
link_uuid.setAttribute("uuid", elmt->uuid().toString());
links_uuids.appendChild(link_uuid);
}
element.appendChild(links_uuids);
}
//save information of this element
if (! m_element_informations.keys().isEmpty()) {
QDomElement infos = document.createElement("elementInformations");
m_element_informations.toXml(infos, "elementInformation");
element.appendChild(infos);
}
//Dynamic texts
QDomElement dyn_text = document.createElement("dynamic_texts");
for(DynamicElementTextItem *deti : m_dynamic_text_list)
dyn_text.appendChild(deti->toXml(document));
QDomElement texts_group = document.createElement("texts_group");
//Dynamic texts owned by groups
for(ElementTextItemGroup *group : m_texts_group)
{
//temporarily remove the texts from group to get the pos relative to element and not group.
//Set the alignment to top, because top is not used by groupand so,
//each time a text is removed from the group, the alignement is not updated
Qt::Alignment al = group->alignment();
group->setAlignment(Qt::AlignTop);
//Remove the texts from group
QList deti_list = group->texts();
for(DynamicElementTextItem *deti : deti_list)
group->removeFromGroup(deti);
//Save the texts to xml
for(DynamicElementTextItem *deti : deti_list)
dyn_text.appendChild(deti->toXml(document));
//Re add texts to group
for(DynamicElementTextItem *deti : deti_list)
group->addToGroup(deti);
//Restor the alignement
group->setAlignment(al);
//Save the group to xml
texts_group.appendChild(group->toXml(document));
}
//Append the dynamic texts to element
element.appendChild(dyn_text);
//Append the texts group to element
element.appendChild(texts_group);
return(element);
}
/**
* @brief Element::addDynamiqueTextItem
* Add @deti as a dynamic text item of this element, @deti is reparented to this
* If @deti is null, a new DynamicElementTextItem is created and added to this element.
* @param deti
*/
void Element::addDynamicTextItem(DynamicElementTextItem *deti)
{
if (deti && !m_dynamic_text_list.contains(deti))
{
m_dynamic_text_list.append(deti);
deti->setParentItem(this);
emit textAdded(deti);
}
else
{
DynamicElementTextItem *text = new DynamicElementTextItem(this);
m_dynamic_text_list.append(text);
emit textAdded(text);
}
}
/**
* @brief Element::removeDynamicTextItem
* Remove @deti, no matter if is a child of this element or a child of a group of this element.
* Set he parent item of @deti to 0, @deti is not deleted.
* @param deti
*/
void Element::removeDynamicTextItem(DynamicElementTextItem *deti)
{
if (m_dynamic_text_list.contains(deti))
{
m_dynamic_text_list.removeOne(deti);
deti->setParentItem(nullptr);
emit textRemoved(deti);
return;
}
for(ElementTextItemGroup *group : m_texts_group)
{
if(group->texts().contains(deti))
{
removeTextFromGroup(deti, group);
m_dynamic_text_list.removeOne(deti);
deti->setParentItem(nullptr);
emit textRemoved(deti);
return;
}
}
}
/**
* @brief Element::dynamicTextItems
* @return all dynamic text items of this element
*/
QList Element::dynamicTextItems() const {
return m_dynamic_text_list;
}
/**
* @brief Element::addTextGroup
* Create and add an element text item group to this element.
* If this element already have a group with the same name,
* then @name will renamed to name1 or name2 etc....
* @param name : the name of the group
* @return the created group.
*/
ElementTextItemGroup *Element::addTextGroup(const QString &name)
{
if(m_texts_group.isEmpty())
{
ElementTextItemGroup *group = new ElementTextItemGroup(name, this);
m_texts_group << group;
emit textsGroupAdded(group);
return group;
}
//Set a new name if name already exist
QString rename = name;
int i=1;
while (textGroup(rename))
{
rename = name+QString::number(i);
i++;
}
//Create the group
ElementTextItemGroup *group = new ElementTextItemGroup(rename, this);
m_texts_group << group;
emit textsGroupAdded(group);
return group;
}
/**
* @brief Element::addTextGroup
* @param group add group @group to the group of this element.
* the group must not be owned by an element.
*/
void Element::addTextGroup(ElementTextItemGroup *group)
{
if(group->parentElement())
return;
m_texts_group << group;
group->setParentItem(this);
emit textsGroupAdded(group);
}
/**
* @brief Element::removeTextGroup
* Remove the text group @group from this element, and set the parent of group to 0.
* group is not deleted.
* All texts owned by the group will be reparented to this element
* @param name
*/
void Element::removeTextGroup(ElementTextItemGroup *group)
{
if(!m_texts_group.contains(group))
return;
const QList items_list = group->childItems();
for(QGraphicsItem *qgi : items_list)
{
if(qgi->type() == DynamicElementTextItem::Type)
{
DynamicElementTextItem *deti = static_cast(qgi);
removeTextFromGroup(deti, group);
}
}
emit textsGroupAboutToBeRemoved(group);
m_texts_group.removeOne(group);
group->setParentItem(nullptr);
}
/**
* @brief Element::textGroup
* @param name
* @return the text group named @name or nullptr if this element
* haven't got a group with this name
*/
ElementTextItemGroup *Element::textGroup(const QString &name) const
{
for (ElementTextItemGroup *group : m_texts_group)
if(group->name() == name)
return group;
return nullptr;
}
/**
* @brief Element::textGroups
* @return All texts groups of this element
*/
QList Element::textGroups() const
{
return m_texts_group;
}
/**
* @brief Element::addTextToGroup
* Add the text @text to the group @group;
* If @group isn't owned by this element return false.
* The text must be a text of this element.
* @return : true if the text was succesfully added to the group.
*/
bool Element::addTextToGroup(DynamicElementTextItem *text, ElementTextItemGroup *group)
{
if(!m_dynamic_text_list.contains(text))
return false;
if(!m_texts_group.contains(group))
return false;
m_dynamic_text_list.removeOne(text);
emit textRemoved(text);
group->addToGroup(text);
emit textAddedToGroup(text, group);
return true;
}
/**
* @brief Element::removeTextFromGroup
* Remove the text @text from the group @group, en reparent @text to this element
* @return true if text was succesfully removed
*/
bool Element::removeTextFromGroup(DynamicElementTextItem *text, ElementTextItemGroup *group)
{
if(!m_texts_group.contains(group))
return false;
if(group->texts().contains(text))
{
group->removeFromGroup(text);
emit textRemovedFromGroup(text, group);
addDynamicTextItem(text);
return true;
}
return false;
}
/**
* @brief Element::AlignedFreeTerminals
* @return a list of terminal (owned by this element) aligned to other terminal (from other element)
* The first Terminal of QPair is a Terminal owned by this element,
* this terminal haven't got any conductor docked.
* The second Terminal of QPair is a Terminal owned by an other element,
* which is aligned with the first Terminal. The second Terminal can have or not docked conductors.
*/
QList > Element::AlignedFreeTerminals() const
{
QList > list;
foreach (Terminal *terminal, terminals())
{
if (terminal->conductors().isEmpty())
{
Terminal *other_terminal = terminal -> alignedWithTerminal();
if (other_terminal)
list << qMakePair(terminal, other_terminal);
}
}
return list;
}
/**
* @brief Element::initLink
* Initialise the link between this element and other elements.
* This method can be call once because init the link according to
* uuid store in a private list, after link, the list is clear, so
* call another time do nothing.
*
* @param prj, ownership project of this element and other element to be linked
*/
void Element::initLink(QETProject *prj)
{
// if nothing to link return now
if (tmp_uuids_link.isEmpty()) return;
ElementProvider ep(prj);
foreach (Element *elmt, ep.fromUuids(tmp_uuids_link)) {
elmt->linkToElement(this);
}
tmp_uuids_link.clear();
}
/**
* @brief Element::setElementInformations
* Set new information for this element.
* If new information is different of current infotmation emit @elementInfoChange
* @param dc
*/
void Element::setElementInformations(DiagramContext dc)
{
if (m_element_informations == dc) return;
DiagramContext old_info = m_element_informations;
m_element_informations = dc;
emit elementInfoChange(old_info, m_element_informations);
}
/**
* @brief comparPos
* Compare position of the two elements. Compare 3 points:
* 1 folio - 2 row - 3 line
* returns a response when a comparison is found.
* @return true if elmt1 is at lower position than elmt 2, else false
*/
bool comparPos(const Element *elmt1, const Element *elmt2) {
//Compare folio first
if (elmt1->diagram()->folioIndex() != elmt2->diagram()->folioIndex())
return elmt1->diagram()->folioIndex() < elmt2->diagram()->folioIndex();
//Compare the row(in letter pos) in second
QString a = elmt1->diagram()->convertPosition(elmt1->scenePos()).letter();
QString b = elmt2->diagram()->convertPosition(elmt2->scenePos()).letter();
if (a != b)
return apos().x() == elmt2->pos().x())
return elmt1->y() <= elmt2->pos().y();
return elmt1->pos().x() <= elmt2->pos().x();
}
/**
* @brief Element::mouseMoveEvent
* @param event
*/
void Element::mouseMoveEvent(QGraphicsSceneMouseEvent *event)
{
QetGraphicsItem::mouseMoveEvent(event);
foreach (Terminal *t, terminals())
{
t -> drawHelpLine(true);
}
}
/**
* @brief Element::mouseReleaseEvent
* @param event
*/
void Element::mouseReleaseEvent(QGraphicsSceneMouseEvent *event)
{
QetGraphicsItem::mouseReleaseEvent(event);
foreach (Terminal *t, terminals())
{
t -> drawHelpLine(false);
}
}
/**
* When mouse over element
* change m_mouse_over to true (used in paint() function )
* Also highlight linked elements
* @param e QGraphicsSceneHoverEvent
*/
void Element::hoverEnterEvent(QGraphicsSceneHoverEvent *e) {
Q_UNUSED(e);
foreach (Element *elmt, linkedElements())
elmt -> setHighlighted(true);
m_mouse_over = true;
setToolTip( name() );
update();
}
/**
* When mouse over element leave the position
* change m_mouse_over to false(used in paint() function )
* Also un-highlight linked elements
* @param e QGraphicsSceneHoverEvent
*/
void Element::hoverLeaveEvent(QGraphicsSceneHoverEvent *e) {
Q_UNUSED(e);
foreach (Element *elmt, linkedElements())
elmt -> setHighlighted(false);
m_mouse_over = false;
update();
}
/**
* @brief Element::setUpFormula
* Set up the formula used to create the label of this element
* @param : if true set tagged text to code letter (ex K for coil) with condition :
* formula is empty, text tagged "label" is emptty or "_";
*/
void Element::setUpFormula(bool code_letter)
{
if (linkType() == Element::Slave || linkType() & Element::AllReport)
return;
if (diagram())
{
QString formula = diagram()->project()->elementAutoNumCurrentFormula();
if (formula.isEmpty())
{
if (code_letter && !m_prefix.isEmpty())
{
if (ElementTextItem *eti = taggedText("label"))
{
QString text = eti->toPlainText();
if (text.isEmpty() || text == "_")
{
m_element_informations.addValue("formula", "%prefix");
}
}
}
}
else
{
m_element_informations.addValue("formula", formula);
QString element_currentAutoNum = diagram()->project()->elementCurrentAutoNum();
NumerotationContext nc = diagram()->project()->elementAutoNum(element_currentAutoNum);
NumerotationContextCommands ncc (nc);
autonum::setSequential(formula, m_autoNum_seq, nc, diagram(), element_currentAutoNum);
diagram()->project()->addElementAutoNum(element_currentAutoNum, ncc.next());
}
}
}
/**
* @brief ElementTextItem::setTaggedText
* Set text @newstr to the text tagged with @tagg.
* If tagg is found return the text item, else return NULL.
* @param tagg required tagg
* @param newstr new label
* @param noeditable set editable or not (by default, set editable)
*/
ElementTextItem* Element::setTaggedText(const QString &tagg, const QString &newstr, const bool noeditable) {
ElementTextItem *eti = taggedText(tagg);
if (eti) {
eti -> setPlainText(newstr);
eti -> setNoEditable(noeditable);
}
return eti;
}
/**
* @brief Element::textItemChanged
* Use to keep up to date the element information when text item changed.
* @param dti
* @param old_str
* @param new_str
*/
void Element::textItemChanged(DiagramTextItem *dti, QString old_str, QString new_str)
{
Q_UNUSED(new_str)
if (!diagram())
return;
ElementTextItem *eti = qgraphicsitem_cast(dti);
if (!eti)
return;
QString tagg = eti->tagg();
if (m_element_informations.contains(tagg))
{
DiagramContext dc = m_element_informations;
dc.addValue(tagg, eti->toPlainText(), dc.keyMustShow(tagg));
if (tagg == "label")
dc.addValue("formula", eti->toPlainText(), dc.keyMustShow("formula"));
diagram()->undoStack().push(new ChangeElementInformationCommand(this, m_element_informations, dc));
}
else
{
diagram()->undoStack().push(new ChangeDiagramTextCommand(eti, old_str, eti->toPlainText()));
}
}
/**
* @brief Element::getPrefix
* get Element Prefix
*/
QString Element::getPrefix() const{
return m_prefix;
}
/**
* @brief Element::setPrefix
* set Element Prefix
*/
void Element::setPrefix(QString prefix) {
m_prefix = prefix;
}
/**
* @brief Element::freezeLabel
* Freeze this element label
*/
void Element::freezeLabel(bool freeze)
{
if (m_freeze_label != freeze)
{
m_freeze_label = freeze;
QString f = m_element_informations["formula"].toString();
setUpConnectionForFormula(f,f);
if (m_freeze_label == true)
updateLabel();
}
}
/**
* @brief Element::freezeNewAddedElement
* Freeze this label if needed
*/
void Element::freezeNewAddedElement() {
if (this->diagram()->freezeNewElements() || this->diagram()->project()->isFreezeNewElements()) {
freezeLabel(true);
}
else return;
}
/**
* @brief Element::setUpConnectionForFormula
* setup connection according to the variable of formula
* @param old_formula
* @param new_formula
*/
void Element::setUpConnectionForFormula(QString old_formula, QString new_formula)
{
//Because the variable %F is a reference to another text which can contain variables,
//we must to replace %F by the real text, to check if the real text contain the variable %id
if (diagram() && old_formula.contains("%F"))
{
disconnect(&diagram()->border_and_titleblock, &BorderTitleBlock::titleBlockFolioChanged, this, &Element::updateLabel);
old_formula.replace("%F", m_F_str);
}
if (diagram() && (old_formula.contains("%f") || old_formula.contains("%id")))
disconnect(diagram()->project(), &QETProject::projectDiagramsOrderChanged, this, &Element::updateLabel);
if (old_formula.contains("%l"))
disconnect(this, &Element::yChanged, this, &Element::updateLabel);
if (old_formula.contains("%c"))
disconnect(this, &Element::xChanged, this, &Element::updateLabel);
//Label is frozen, so we don't update it.
if (m_freeze_label == true)
return;
if (diagram() && new_formula.contains("%F"))
{
m_F_str = diagram()->border_and_titleblock.folio();
new_formula.replace("%F", m_F_str);
connect(&diagram()->border_and_titleblock, &BorderTitleBlock::titleBlockFolioChanged, this, &Element::updateLabel);
}
if (diagram() && (new_formula.contains("%f") || new_formula.contains("%id")))
connect(diagram()->project(), &QETProject::projectDiagramsOrderChanged, this, &Element::updateLabel);
if (new_formula.contains("%l"))
connect(this, &Element::yChanged, this, &Element::updateLabel);
if (new_formula.contains("%c"))
connect(this, &Element::xChanged, this, &Element::updateLabel);
}