/*
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 .
*/
#include "conductorproperties.h"
#include
#include
/**
Constructeur par defaut
*/
SingleLineProperties::SingleLineProperties() :
hasGround(true),
hasNeutral(true),
is_pen(false),
phases(1)
{
}
/// Destructeur
SingleLineProperties::~SingleLineProperties() {
}
/**
Definit le nombre de phases (0, 1, 2, ou 3)
@param n Nombre de phases
*/
void SingleLineProperties::setPhasesCount(int n) {
phases = qBound(0, n, 3);
}
/// @return le nombre de phases (0, 1, 2, ou 3)
unsigned short int SingleLineProperties::phasesCount() {
return(phases);
}
/**
@return true if the singleline conductor should be drawn using the PEN
(Protective Earth Neutral) representation and if it features the ground and
the neutral.
*/
bool SingleLineProperties::isPen() const {
return(hasNeutral && hasGround && is_pen);
}
/**
Dessine les symboles propres a un conducteur unifilaire
@param painter QPainter a utiliser pour dessiner les symboles
@param direction direction du segment sur lequel les symboles apparaitront
@param rect rectangle englobant le dessin ; utilise pour specifier a la fois la position et la taille du dessin
*/
void SingleLineProperties::draw(QPainter *painter, QET::ConductorSegmentType direction, const QRectF &rect) {
// s'il n'y a rien a dessiner, on retourne immediatement
if (!hasNeutral && !hasGround && !phases) return;
// prepare le QPainter
painter -> save();
QPen pen(painter -> pen());
pen.setCapStyle(Qt::FlatCap);
pen.setJoinStyle(Qt::MiterJoin);
pen.setStyle(Qt::SolidLine);
pen.setWidthF(1);
painter -> setPen(pen);
painter -> setRenderHint(QPainter::Antialiasing, true);
uint symbols_count = (hasNeutral ? 1 : 0) + (hasGround ? 1 : 0) - (isPen() ? 1 : 0) + phases;
qreal interleave_base = (direction == QET::Horizontal ? rect.width() : rect.height());
qreal interleave = interleave_base / (symbols_count + 1);;
qreal symbol_width = interleave_base / 12;
for (uint i = 1 ; i <= symbols_count ; ++ i) {
// dessine le tronc du symbole
QPointF symbol_p1, symbol_p2;
if (direction == QET::Horizontal) {
symbol_p1 = QPointF(rect.x() + (i * interleave) + symbol_width, rect.y() + rect.height() * 0.75);
symbol_p2 = QPointF(rect.x() + (i * interleave) - symbol_width, rect.y() + rect.height() * 0.25);
} else {
symbol_p2 = QPointF(rect.x() + rect.width() * 0.75, rect.y() + (i * interleave) - symbol_width);
symbol_p1 = QPointF(rect.x() + rect.width() * 0.25, rect.y() + (i * interleave) + symbol_width);
}
painter -> drawLine(QLineF(symbol_p1, symbol_p2));
// dessine le reste des symboles terre et neutre
if (isPen()) {
if (i == 1) {
drawPen(painter, direction, symbol_p2, symbol_width);
}
} else {
if (hasGround && i == 1) {
drawGround(painter, direction, symbol_p2, symbol_width * 2.0);
} else if (hasNeutral && ((i == 1 && !hasGround) || (i == 2 && hasGround))) {
drawNeutral(painter, direction, symbol_p2, symbol_width * 1.5);
}
}
}
painter -> restore();
}
/**
Dessine le segment correspondant au symbole de la terre sur un conducteur unifilaire
@param painter QPainter a utiliser pour dessiner le segment
@param direction direction du segment sur lequel le symbole apparaitra
@param center centre du segment
@param size taille du segment
*/
void SingleLineProperties::drawGround(QPainter *painter, QET::ConductorSegmentType direction, QPointF center, qreal size) {
painter -> save();
// prepare le QPainter
painter -> setRenderHint(QPainter::Antialiasing, false);
QPen pen2(painter -> pen());
pen2.setCapStyle(Qt::SquareCap);
painter -> setPen(pen2);
// dessine le segment representant la terre
qreal half_size = size / 2.0;
QPointF offset_point(
(direction == QET::Horizontal) ? half_size : 0.0,
(direction == QET::Horizontal) ? 0.0 : half_size
);
painter -> drawLine(
QLineF(
center + offset_point,
center - offset_point
)
);
painter -> restore();
}
/**
Dessine le cercle correspondant au symbole du neutre sur un conducteur unifilaire
@param painter QPainter a utiliser pour dessiner le segment
@param direction direction du segment sur lequel le symbole apparaitra
@param center centre du cercle
@param size diametre du cercle
*/
void SingleLineProperties::drawNeutral(QPainter *painter, QET::ConductorSegmentType direction, QPointF center, qreal size) {
Q_UNUSED(direction);
painter -> save();
// prepare le QPainter
if (painter -> brush() == Qt::NoBrush) painter -> setBrush(Qt::black);
painter -> setPen(Qt::NoPen);
// desine le cercle representant le neutre
painter -> drawEllipse(
QRectF(
center - QPointF(size / 2.0, size / 2.0),
QSizeF(size, size)
)
);
painter -> restore();
}
/**
Draw the PEN (Protective Earth Neutral) symbol using \a painter at position \a
center, using a size hint of \a size.
@param direction Indicate the direction of the underlying conductor segment
*/
void SingleLineProperties::drawPen(QPainter *painter, QET::ConductorSegmentType direction, QPointF center, qreal size) {
painter -> save();
//painter -> setBrush(Qt::white);
// desine le cercle representant le neutre
//painter -> drawEllipse(
// QRectF(
// center - QPointF(size * 1.5 / 2.0, size * 1.5 / 2.0),
// QSizeF(size * 1.5, size * 1.5)
// )
//);
drawNeutral(painter, direction, center, size * 1.5);
int offset = (size * 1.5 / 2.0);
QPointF pos = center + (direction == QET::Horizontal ? QPointF(0.0, -offset - 0.5) : QPointF(offset + 0.5, 0.0));
drawGround(painter, direction, pos, 2.0 * size);
painter -> restore();
}
/**
Exporte les parametres du conducteur unifilaire sous formes d'attributs XML
ajoutes a l'element e.
@param e Element XML auquel seront ajoutes des attributs
*/
void SingleLineProperties::toXml(QDomElement &e) const {
e.setAttribute("ground", hasGround ? "true" : "false");
e.setAttribute("neutral", hasNeutral ? "true" : "false");
e.setAttribute("phase", phases);
if (isPen()) e.setAttribute("pen", "true");
}
/**
Importe les parametres du conducteur unifilaire a partir des attributs XML
de l'element e
@param e Element XML dont les attributs seront lus
*/
void SingleLineProperties::fromXml(QDomElement &e) {
hasGround = e.attribute("ground") == "true";
hasNeutral = e.attribute("neutral") == "true";
setPhasesCount(e.attribute("phase").toInt());
is_pen = (hasGround && hasNeutral && e.attribute("pen", "false") == "true");
}
/**
Constructeur : par defaut, les proprietes font un conducteur
multifilaire noir dont le texte est "_"
*/
ConductorProperties::ConductorProperties() :
type(Multi),
color(Qt::black),
text("_"),
text_size(9),
cond_size(1),
verti_rotate_text(270),
horiz_rotate_text(0),
m_show_text(true),
m_one_text_per_folio(false),
style(Qt::SolidLine)
{}
/**
Destructeur
*/
ConductorProperties::~ConductorProperties() {
}
/**
* @brief ConductorProperties::toXml
* Export conductor propertie, in the XML element 'e'
* @param e the xml element
*/
void ConductorProperties::toXml(QDomElement &e) const
{
e.setAttribute("type", typeToString(type));
if (color != QColor(Qt::black))
e.setAttribute("color", color.name());
e.setAttribute("bicolor", m_bicolor? "true" : "false");
e.setAttribute("color2", m_color_2.name());
e.setAttribute("dash-size", QString::number(m_dash_size));
if (type == Single)
singleLineProperties.toXml(e);
e.setAttribute("num", text);
e.setAttribute("formula", m_formula);
e.setAttribute("function", m_function);
e.setAttribute("tension-protocol", m_tension_protocol);
e.setAttribute("numsize", QString::number(text_size));
e.setAttribute("condsize", QString::number(cond_size));
e.setAttribute("displaytext", m_show_text);
e.setAttribute("onetextperfolio", m_one_text_per_folio);
e.setAttribute("vertirotatetext", QString::number(verti_rotate_text));
e.setAttribute("horizrotatetext", QString::number(horiz_rotate_text));
QMetaEnum me = QMetaEnum::fromType();
e.setAttribute("horizontal-alignment", me.valueToKey(m_horizontal_alignment));
e.setAttribute("vertical-alignment", me.valueToKey(m_vertical_alignment));
QString conductor_style = writeStyle();
if (!conductor_style.isEmpty())
e.setAttribute("style", conductor_style);
}
/**
* @brief ConductorProperties::fromXml
* Import conductor propertie, from the attribute of the xml element 'e'
* @param e the xml document
*/
void ConductorProperties::fromXml(QDomElement &e)
{
// get conductor color
QColor xml_color= QColor(e.attribute("color"));
color = (xml_color.isValid()? xml_color : QColor(Qt::black));
QString bicolor_str = e.attribute("bicolor", "false");
m_bicolor = bicolor_str == "true"? true : false;
QColor xml_color_2 = QColor(e.attribute("color2"));
m_color_2 = xml_color_2.isValid()? xml_color_2 : QColor(Qt::black);
m_dash_size = e.attribute("dash-size", QString::number(1)).toInt();
// read style of conductor
readStyle(e.attribute("style"));
if (e.attribute("type") == typeToString(Single))
{
// get specific properties for single conductor
singleLineProperties.fromXml(e);
type = Single;
}
else
type = Multi;
text = e.attribute("num");
m_formula = e.attribute("formula");
m_function = e.attribute("function");
m_tension_protocol = e.attribute("tension-protocol");
text_size = e.attribute("numsize", QString::number(9)).toInt();
cond_size = e.attribute("condsize", QString::number(1)).toDouble();
m_show_text = e.attribute("displaytext", QString::number(1)).toInt();
m_one_text_per_folio = e.attribute("onetextperfolio", QString::number(0)).toInt();
verti_rotate_text = e.attribute("vertirotatetext").toDouble();
horiz_rotate_text = e.attribute("horizrotatetext").toDouble();
QMetaEnum me = QMetaEnum::fromType();
m_horizontal_alignment = Qt::Alignment(me.keyToValue(e.attribute("horizontal-alignment", "AlignBottom").toStdString().data()));
m_vertical_alignment = Qt::Alignment(me.keyToValue(e.attribute("vertical-alignment", "AlignRight").toStdString().data()));
//Keep retrocompatible with version older than 0,4
//If the propertie @type is simple (removed since QET 0,4), we set text no visible.
//@TODO remove this code for qet 0.6 or later
if (e.attribute("type") == "simple") m_show_text = false;
}
/**
@param settings Parametres a ecrire
@param prefix prefixe a ajouter devant les noms des parametres
*/
void ConductorProperties::toSettings(QSettings &settings, const QString &prefix) const
{
settings.setValue(prefix + "color", color.name());
settings.setValue(prefix + "bicolor", m_bicolor);
settings.setValue(prefix + "color2", m_color_2.name());
settings.setValue(prefix + "dash-size", m_dash_size);
settings.setValue(prefix + "style", writeStyle());
settings.setValue(prefix + "type", typeToString(type));
settings.setValue(prefix + "text", text);
settings.setValue(prefix + "formula", m_formula);
settings.setValue(prefix + "function", m_function);
settings.setValue(prefix + "tension-protocol", m_tension_protocol);
settings.setValue(prefix + "textsize", QString::number(text_size));
settings.setValue(prefix + "size", QString::number(cond_size));
settings.setValue(prefix + "displaytext", m_show_text);
settings.setValue(prefix + "onetextperfolio", m_one_text_per_folio);
settings.setValue(prefix + "vertirotatetext", QString::number(verti_rotate_text));
settings.setValue(prefix + "horizrotatetext", QString::number(horiz_rotate_text));
QMetaEnum me = QMetaEnum::fromType();
settings.setValue(prefix + "horizontal-alignment", me.valueToKey(m_horizontal_alignment));
settings.setValue(prefix + "vertical-alignment", me.valueToKey(m_vertical_alignment));
singleLineProperties.toSettings(settings, prefix);
}
/**
@param settings Parametres a lire
@param prefix prefixe a ajouter devant les noms des parametres
*/
void ConductorProperties::fromSettings(QSettings &settings, const QString &prefix)
{
QColor settings_color = QColor(settings.value(prefix + "color").toString());
color = (settings_color.isValid()? settings_color : QColor(Qt::black));
QColor settings_color_2 = QColor(settings.value(prefix + "color2").toString());
m_color_2 = (settings_color_2.isValid()? settings_color_2 : QColor(Qt::black));
m_bicolor = settings.value(prefix + "bicolor", false).toBool();
m_dash_size = settings.value(prefix + "dash-size", 1).toInt();
QString setting_type = settings.value(prefix + "type", typeToString(Multi)).toString();
type = (setting_type == typeToString(Single)? Single : Multi);
singleLineProperties.fromSettings(settings, prefix);
text = settings.value(prefix + "text", "_").toString();
m_formula = settings.value(prefix + "formula", "").toString();
m_function = settings.value(prefix + "function", "").toString();
m_tension_protocol = settings.value(prefix + "tension-protocol", "").toString();
text_size = settings.value(prefix + "textsize", "7").toInt();
cond_size = settings.value(prefix + "size", "1").toInt();
m_show_text = settings.value(prefix + "displaytext", true).toBool();
m_one_text_per_folio = settings.value(prefix + "onetextperfolio", false).toBool();
verti_rotate_text = settings.value((prefix + "vertirotatetext"), "270").toDouble();
horiz_rotate_text = settings.value((prefix + "horizrotatetext"), "0").toDouble();
QMetaEnum me = QMetaEnum::fromType();
m_horizontal_alignment = Qt::Alignment(me.keyToValue(settings.value(prefix + "horizontal-alignment", "AlignBottom").toString().toStdString().data()));
m_vertical_alignment = Qt::Alignment(me.keyToValue(settings.value(prefix + "vertical-alignment", "AlignRight").toString().toStdString().data()));
readStyle(settings.value(prefix + "style").toString());
}
/**
@param t type du conducteur
*/
QString ConductorProperties::typeToString(ConductorType t) {
switch(t) {
case Single: return("single");
case Multi: return("multi");
default: return(QString());
}
}
/**
* @brief ConductorProperties::setText
* This method sets the current conductor text
* @param text to be setted
*/
void ConductorProperties::setText(QString text) {
text = text;
}
/**
* @brief ConductorProperties::applyForEqualAttributes
* Test each attribute of properties in the list separatly.
* For each attributes, if is equal, the attribute is apply to this.
* @param list
*/
void ConductorProperties::applyForEqualAttributes(QList list)
{
const QList clist = std::move(list);
if (clist.isEmpty())
return;
if (clist.size() == 1)
{
ConductorProperties cp = clist.first();
color = cp.color;
m_bicolor = cp.m_bicolor;
m_color_2 = cp.m_color_2;
m_dash_size = cp.m_dash_size;
text = cp.text;
m_formula = cp.m_formula;
m_function = cp.m_function;
m_tension_protocol = cp.m_tension_protocol;
text_size = cp.text_size;
cond_size = cp.cond_size;
m_show_text = cp.m_show_text;
m_one_text_per_folio = cp.m_one_text_per_folio;
verti_rotate_text = cp.verti_rotate_text;
horiz_rotate_text = cp.horiz_rotate_text;
m_vertical_alignment = cp.m_vertical_alignment;
m_horizontal_alignment = cp.m_horizontal_alignment;
return;
}
bool equal = true;
QColor c_value;
bool b_value;
QString s_value;
int i_value;
double d_value;
Qt::Alignment align_value;
//Color
c_value = clist.first().color;
for(ConductorProperties cp : clist)
{
if (cp.color != c_value)
equal = false;
}
if (equal)
color = c_value;
equal = true;
//bicolor
b_value = clist.first().m_bicolor;
for(ConductorProperties cp : clist)
{
if (cp.m_bicolor != b_value)
equal = false;
}
if (equal)
m_bicolor = b_value;
equal = true;
//second color
c_value = clist.first().m_color_2;
for(ConductorProperties cp : clist)
{
if (cp.m_color_2 != c_value)
equal = false;
}
if (equal)
m_color_2 = c_value;
equal = true;
//Dash size
i_value = clist.first().m_dash_size;
for(ConductorProperties cp : clist)
{
if (cp.m_dash_size != i_value)
equal = false;
}
if (equal)
m_dash_size = i_value;
equal = true;
//text
s_value = clist.first().text;
for(ConductorProperties cp : clist)
{
if (cp.text != s_value)
equal = false;
}
if (equal)
text = s_value;
equal = true;
//formula
s_value = clist.first().m_formula;
for(ConductorProperties cp : clist)
{
if (cp.m_formula != s_value)
equal = false;
}
if (equal)
m_formula = s_value;
equal = true;
//function
s_value = clist.first().m_function;
for(ConductorProperties cp : clist)
{
if (cp.m_function != s_value)
equal = false;
}
if (equal)
m_function = s_value;
equal = true;
//Tension protocol
s_value = clist.first().m_tension_protocol;
for(ConductorProperties cp : clist)
{
if (cp.m_tension_protocol != s_value)
equal = false;
}
if (equal)
m_tension_protocol = s_value;
equal = true;
//text size
i_value = clist.first().text_size;
for(ConductorProperties cp : clist)
{
if (cp.text_size != i_value)
equal = false;
}
if (equal)
text_size = i_value;
equal = true;
//conductor size
d_value = clist.first().cond_size;
for(ConductorProperties cp : clist)
{
if (cp.cond_size != d_value)
equal = false;
}
if (equal)
cond_size = d_value;
equal = true;
//show text
b_value = clist.first().m_show_text;
for(ConductorProperties cp : clist)
{
if (cp.m_show_text != b_value)
equal = false;
}
if (equal)
m_show_text = b_value;
equal = true;
//One text per folio
b_value = clist.first().m_one_text_per_folio;
for(ConductorProperties cp : clist)
{
if (cp.m_one_text_per_folio != b_value)
equal = false;
}
if (equal)
m_one_text_per_folio = b_value;
equal = true;
//Text rotation for vertical conducor
d_value = clist.first().verti_rotate_text;
for(ConductorProperties cp : clist)
{
if (cp.verti_rotate_text != d_value)
equal = false;
}
if (equal)
verti_rotate_text = d_value;
equal = true;
//Text rotation for horizontal conducor
d_value = clist.first().horiz_rotate_text;
for(ConductorProperties cp : clist)
{
if (cp.horiz_rotate_text != d_value)
equal = false;
}
if (equal)
horiz_rotate_text = d_value;
equal = true;
//Text alignment for horizontal conducor
align_value = clist.first().m_horizontal_alignment;
for(ConductorProperties cp : clist)
{
if (cp.m_horizontal_alignment != align_value)
equal = false;
}
if (equal)
m_horizontal_alignment = align_value;
equal = true;
//Text alignment for vertical conducor
align_value = clist.first().m_vertical_alignment;
for(ConductorProperties cp : clist)
{
if (cp.m_vertical_alignment != align_value)
equal = false;
}
if (equal)
m_vertical_alignment = align_value;
equal = true;
}
/**
* @brief ConductorProperties::defaultProperties
* @return the default properties stored in the setting file
*/
ConductorProperties ConductorProperties::defaultProperties()
{
QSettings settings;
ConductorProperties def;
def.fromSettings(settings, "diagrameditor/defaultconductor");
return(def);
}
/**
* @brief ConductorProperties::operator ==
* @param other
* @return true if other == this
*/
bool ConductorProperties::operator==(const ConductorProperties &other) const
{
return(
other.type == type &&\
other.color == color &&\
other.m_bicolor == m_bicolor &&\
other.m_color_2 == m_color_2 &&\
other.m_dash_size == m_dash_size &&\
other.style == style &&\
other.text == text &&\
other.m_formula == m_formula &&\
other.m_function == m_function &&\
other.m_tension_protocol == m_tension_protocol &&\
other.m_show_text == m_show_text &&\
other.text_size == text_size &&\
other.cond_size == cond_size &&\
other.verti_rotate_text == verti_rotate_text &&\
other.horiz_rotate_text == horiz_rotate_text &&\
other.singleLineProperties == singleLineProperties &&\
other.m_one_text_per_folio == m_one_text_per_folio &&\
other.m_horizontal_alignment == m_horizontal_alignment &&\
other.m_vertical_alignment == m_vertical_alignment
);
}
/**
@param other l'autre ensemble de proprietes avec lequel il faut effectuer la comparaison
@return true si les deux ensembles de proprietes sont differents, false sinon
*/
bool ConductorProperties::operator!=(const ConductorProperties &other) const{
return(!(*this == other));
}
/**
Applique les styles passes en parametre dans cet objet
@param style_string Chaine decrivant le style du conducteur
*/
void ConductorProperties::readStyle(const QString &style_string) {
style = Qt::SolidLine; // style par defaut
if (style_string.isEmpty()) return;
// recupere la liste des couples style / valeur
QStringList styles = style_string.split(";", QString::SkipEmptyParts);
QRegExp rx("^\\s*([a-z-]+)\\s*:\\s*([a-z-]+)\\s*$");
foreach (QString style_str, styles) {
if (rx.exactMatch(style_str)) {
QString style_name = rx.cap(1);
QString style_value = rx.cap(2);
if (style_name == "line-style") {
if (style_value == "dashed") style = Qt::DashLine;
else if (style_value == "dashdotted") style = Qt::DashDotLine;
else if (style_value == "normal") style = Qt::SolidLine;
}
}
}
}
/**
Exporte le style du conducteur sous forme d'une chaine de caracteres
@return une chaine de caracteres decrivant le style du conducteur
*/
QString ConductorProperties::writeStyle() const {
if (style == Qt::DashLine) {
return("line-style: dashed;");
} else if (style == Qt::DashDotLine) {
return("line-style: dashdotted");
} else {
return(QString());
}
}
/**
@param other l'autre ensemble de proprietes avec lequel il faut effectuer la comparaison
@return true si les deux ensembles de proprietes sont identiques, false sinon
*/
int SingleLineProperties::operator==(const SingleLineProperties &other) const {
return(
other.hasGround == hasGround &&\
other.hasNeutral == hasNeutral &&\
other.is_pen == is_pen &&\
other.phases == phases
);
}
/**
@param other l'autre ensemble de proprietes avec lequel il faut effectuer la comparaison
@return true si les deux ensembles de proprietes sont differents, false sinon
*/
int SingleLineProperties::operator!=(const SingleLineProperties &other) const {
return(!(other == (*this)));
}
/**
@param settings Parametres a ecrire
@param prefix prefix a ajouter devant les noms des parametres
*/
void SingleLineProperties::toSettings(QSettings &settings, const QString &prefix) const {
settings.setValue(prefix + "hasGround", hasGround);
settings.setValue(prefix + "hasNeutral", hasNeutral);
settings.setValue(prefix + "phases", phases);
settings.setValue(prefix + "pen", is_pen);
}
/**
@param settings Parametres a lire
@param prefix prefix a ajouter devant les noms des parametres
*/
void SingleLineProperties::fromSettings(QSettings &settings, const QString &prefix) {
hasGround = settings.value(prefix + "hasGround", true).toBool();
hasNeutral = settings.value(prefix + "hasNeutral", true).toBool();
phases = settings.value(prefix + "phases", 1).toInt();
is_pen = settings.value(prefix + "pen", false).toBool();
}