/*
Copyright 2006-2021 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 "terminalstrip.h"
#include "../qetproject.h"
#include "../qetgraphicsitem/element.h"
#include "../qetgraphicsitem/terminalelement.h"
#include "../elementprovider.h"
#include "../qetxml.h"
#include "../autoNum/assignvariables.h"
#include "../../utils/qetutils.h"
using shared_real_terminal = QSharedPointer;
using shared_physical_terminal = QSharedPointer;
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/**
* @brief RealTerminal
* @param parent_strip : parent terminal strip
* @param terminal : terminal element (if any) in a folio
*/
RealTerminal::RealTerminal(TerminalStrip *parent_strip,
Element *terminal) :
m_element(terminal),
m_parent_terminal_strip(parent_strip)
{}
/**
* @brief RealTerminal::sharedRef
* @return a QSharedPointer of this
*/
QSharedPointer RealTerminal::sharedRef()
{
QSharedPointer this_shared(this->weakRef());
if (this_shared.isNull())
{
this_shared = QSharedPointer(this);
m_this_weak = this_shared.toWeakRef();
}
return this_shared;
}
/**
* @brief RealTerminal::weakRef
* @return a QWeakPointer of this, weak pointer can be bull
*/
QWeakPointer RealTerminal::weakRef() {
return m_this_weak;
}
/**
* @brief fromXml
* @param xml_element
* @return
*/
bool RealTerminal::fromXml(QDomElement xml_element, const QVector &terminal_vector)
{
if (xml_element.tagName() != xmlTagName()) {
return true;
}
auto is_draw = xml_element.attribute(QStringLiteral("is_draw")) == QLatin1String("true")
? true : false;
QUuid uuid_(xml_element.attribute(QStringLiteral("uuid")));
if (is_draw) {
for (auto terminal : terminal_vector) {
if (terminal->uuid() == uuid_)
{
m_element = terminal;
break;
}
}
} else {
m_uuid = uuid_;
}
return true;
}
/**
* @brief toXml
* @param parent_document
* @return this real terminal to xml
*/
QDomElement RealTerminal::toXml(QDomDocument &parent_document) const
{
auto root_elmt = parent_document.createElement(this->xmlTagName());
root_elmt.setAttribute("is_draw", m_element ? "true" : "false");
root_elmt.setAttribute("uuid", m_element ? m_element->uuid().toString() :
m_uuid.toString());
return root_elmt;
}
/**
* @brief parentStrip
* @return parent terminal strip
*/
TerminalStrip *RealTerminal::parentStrip() const {
return m_parent_terminal_strip.data();
}
/**
* @brief RealTerminal::level
* @return
*/
int RealTerminal::level() const
{
if (m_parent_terminal_strip) {
const auto phy_t = m_parent_terminal_strip->physicalTerminal(m_this_weak);
if (phy_t) {
return phy_t.toStrongRef()->levelOf(m_this_weak);
}
}
return -1;
}
/**
* @brief label
* @return the label of this real terminal
*/
QString RealTerminal::label() const {
if (!m_element.isNull()) {
return m_element->actualLabel();
} else {
return QLatin1String();
}
}
/**
* @brief RealTerminal::Xref
* @return Conveniant method to get the XRef
* formated to string
*/
QString RealTerminal::Xref() const
{
if (!m_element.isNull()) {
return autonum::AssignVariables::genericXref(m_element.data());
} else {
return QString();
}
}
/**
* @brief RealTerminal::cable
* @return
*/
QString RealTerminal::cable() const {
return QString();
}
/**
* @brief RealTerminal::cableWire
* @return
*/
QString RealTerminal::cableWire() const {
return QString();
}
/**
* @brief RealTerminal::conductor
* @return
*/
QString RealTerminal::conductor() const {
return QString();
}
/**
* @brief RealTerminal::type
* @return
*/
ElementData::TerminalType RealTerminal::type() const {
if (m_element) {
return m_element->elementData().terminalType();
} else {
return ElementData::TTGeneric;
}
}
/**
* @brief RealTerminal::function
* @return
*/
ElementData::TerminalFunction RealTerminal::function() const {
if (m_element) {
return m_element->elementData().terminalFunction();
} else {
return ElementData::TFGeneric;
}
}
/**
* @brief RealTerminal::isLed
* @return
*/
bool RealTerminal::isLed() const {
if (m_element) {
return m_element->elementData().terminalLed();
} else {
return false;
}
}
/**
* @brief isElement
* @return true if this real terminal is linked to a terminal element
*/
bool RealTerminal::isElement() const {
return m_element.isNull() ? false : true;
}
/**
* @brief RealTerminal::isBridged
* @return
*/
bool RealTerminal::isBridged() const
{
if (m_parent_terminal_strip) {
return !m_parent_terminal_strip->bridgeFor(m_this_weak).isNull();
} else {
return false;
}
}
/**
* @brief RealTerminal::bridge
* @return
*/
QSharedPointer RealTerminal::bridge() const
{
if (m_parent_terminal_strip) {
return m_parent_terminal_strip->bridgeFor(m_this_weak);
} else {
return QSharedPointer();
}
}
/**
* @brief element
* @return the element linked to this real terminal
* or nullptr if not linked to an Element.
*/
Element *RealTerminal::element() const {
return m_element.data();
}
/**
* @brief elementUuid
* @return if this real terminal is an element
* in a folio, return the uuid of the element
* else return a null uuid.
*/
QUuid RealTerminal::elementUuid() const {
if (!m_element.isNull()) {
return m_element->uuid();
} else {
return QUuid();
}
}
/**
* @brief uuid
* @return the uuid of this real terminal
*/
QUuid RealTerminal::uuid() const {
return m_uuid;
}
/**
* @brief RealTerminal::RealTerminal::xmlTagName
* @return
*/
QString RealTerminal::RealTerminal::xmlTagName() {
return QStringLiteral("real_terminal");
}
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/**
* @brief The PhysicalTerminal class
* Represent a physical terminal.
* A physical terminal is composed a least by one RealTerminal.
* When a physical terminal have more than one real terminal
* that mean the physical terminal have levels (one by real terminal).
* The index of real terminals returned by the function terminals()
* is the same as the real level of the real terminal, the index are from back to front.
*
* Example for a 3 levels terminal.
* index 0 = back (mounting plate)
* index 1 = middle
* index 2 = front (electrical cabinet door)
*
* m
* o _
* u | |
* n | | _
* t | || |
* i | || | _
* n | || || | d
* g |0||1||2| o
* | || ||_| o
* p | || | r
* l | ||_|
* a | |
* t |_|
* e
*
* @sa PhysicalTerminalData
*
*/
/**
* @brief PhysicalTerminal
* @param parent_strip : Parent terminal strip
* @param terminals : A vector of real terminals
* who compose this physical terminal.
* \p terminals must have at least one terminal
*/
PhysicalTerminal::PhysicalTerminal(TerminalStrip *parent_strip,
QVector> terminals) :
m_parent_terminal_strip(parent_strip),
m_real_terminal(terminals)
{}
/**
* @brief PhysicalTerminal::sharedRef
* @return a QSharedPointer of this
*/
QSharedPointer PhysicalTerminal::sharedRef()
{
QSharedPointer this_shared(this->weakRef());
if (this_shared.isNull())
{
this_shared = QSharedPointer(this);
m_this_weak = this_shared.toWeakRef();
}
return this_shared;
}
/**
* @brief PhysicalTerminal::weakRef
* @return a QWeakPointer of this, weak pointer can be null
*/
QWeakPointer PhysicalTerminal::weakRef() {
return m_this_weak;
}
/**
* @brief toXml
* @param parent_document
* @return this physical terminal to xml
*/
QDomElement PhysicalTerminal::toXml(QDomDocument &parent_document) const
{
auto root_elmt = parent_document.createElement(this->xmlTagName());
for (auto &real_t : m_real_terminal) {
root_elmt.appendChild(real_t->toXml(parent_document));
}
return root_elmt;
}
/**
* @brief setTerminals
* Set the RealTerminal who compose this physical terminal.
* The position of the RealTerminal in @a terminals
* represent the level of these in this physical terminal.
* @param terminals
*/
void PhysicalTerminal::setTerminals(const QVector> &terminals) {
m_real_terminal = terminals;
}
/**
* @brief addTerminals
* Append the real terminal @a terminal
* to this physical terminal.
* @param terminal
*/
void PhysicalTerminal::addTerminal(const QSharedPointer &terminal) {
m_real_terminal.append(terminal);
}
/**
* @brief removeTerminal
* Remove @a terminal from the list of real terminal
* @param terminal
* @return true if sucessfully removed
*/
bool PhysicalTerminal::removeTerminal(const QSharedPointer &terminal) {
return m_real_terminal.removeOne(terminal);
}
/**
* @brief levelCount
* @return the number of level of this terminal
*/
int PhysicalTerminal::levelCount() const {
return m_real_terminal.size();
}
/**
* @brief levelOf
* @param terminal
* @return the level of real terminal \p terminal or
* -1 if \terminal is not a part of this physicalTerminal
*/
int PhysicalTerminal::levelOf(const QWeakPointer &terminal) const {
return m_real_terminal.indexOf(terminal.toStrongRef());
}
/**
* @brief setLevelOf
* Change the level of \p terminal
* @param terminal
* @param level
*/
bool PhysicalTerminal::setLevelOf(const QSharedPointer &terminal, int level)
{
const int i = m_real_terminal.indexOf(terminal);
if (i >= 0)
{
#if QT_VERSION >= QT_VERSION_CHECK(5,14,0)
m_real_terminal.swapItemsAt(i, std::min(level, m_real_terminal.size()-1));
#else
auto j = std::min(level, m_real_terminal.size()-1);
std::swap(m_real_terminal.begin()[i], m_real_terminal.begin()[j]);
#endif
return true;
}
return false;
}
/**
* @brief terminals
* @return A vector of RealTerminal who compose this PhysicalTerminal
*/
QVector> PhysicalTerminal::realTerminals() const
{
QVector> vector_;
for (const auto &real_t : m_real_terminal) {
vector_.append(real_t.toWeakRef());
}
return vector_;
}
/**
* @brief uuid
* @return the uuid of this physical terminal
*/
QUuid PhysicalTerminal::uuid() const {
return m_uuid;
}
int PhysicalTerminal::pos() const
{
if (m_parent_terminal_strip) {
return m_parent_terminal_strip->pos(m_this_weak);
} else {
return -1;
}
}
int PhysicalTerminal::realTerminalCount() const {
return m_real_terminal.size();
}
QString PhysicalTerminal::xmlTagName() {
return QStringLiteral("physical_terminal");
}
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/************************************************************************************/
/**
* @brief TerminalStrip::TerminalStrip
* @param project
*/
TerminalStrip::TerminalStrip(QETProject *project) :
QObject(project),
m_project(project)
{}
/**
* @brief TerminalStrip::TerminalStrip
* @param installation
* @param location
* @param name
* @param project
*/
TerminalStrip::TerminalStrip(const QString &installation, const QString &location, const QString &name, QETProject *project) :
QObject(project),
m_project(project)
{
m_data.m_installation = installation;
m_data.m_location = location;
m_data.m_name = name;
}
void TerminalStrip::setInstallation(const QString &installation) {
m_data.m_installation = installation;
}
void TerminalStrip::setLocation(const QString &location) {
m_data.m_location = location;
}
void TerminalStrip::setName(const QString &name) {
m_data.m_name = name;
}
void TerminalStrip::setComment(const QString &comment) {
m_data.m_comment = comment;
}
void TerminalStrip::setDescription(const QString &description) {
m_data.m_description = description;
}
/**
* @brief TerminalStrip::data
* @return The internal data of this strip
*/
TerminalStripData TerminalStrip::data() const {
return m_data;
}
/**
* @brief TerminalStrip::setData
* Set the internal data of this strip to @a data.
* the uuid of the new data is set to the uuid
* of the previous data to keep the uuid
* of the terminal strip unchanged
* @param data
*/
void TerminalStrip::setData(const TerminalStripData &data) {
m_data = data;
}
/**
* @brief TerminalStrip::addTerminal
* Add terminal to this terminal strip
* @param terminal
* @return true if the terminal was successfully added.
* Return false, if terminal already exist.
* Return false, if terminal is not a terminal element.
*/
bool TerminalStrip::addTerminal(Element *terminal)
{
if (m_terminal_elements_vector.contains(terminal)) {
return false;
}
if (terminal->elementData().m_type != ElementData::Terminale) {
return false;
}
m_terminal_elements_vector.append(terminal);
//Create the real terminal
auto raw_real_ptr = new RealTerminal(this, terminal);
auto real_terminal = raw_real_ptr->sharedRef();
m_real_terminals.append(real_terminal);
//Create a new single level physical terminal
auto raw_phy_ptr = new PhysicalTerminal(this, QVector>{real_terminal});
m_physical_terminals.append(raw_phy_ptr->sharedRef());
static_cast(terminal)->setParentTerminalStrip(this);
return true;
}
/**
* @brief TerminalStrip::removeTerminal
* Remove terminal from this terminal strip
* @param terminal
* @return true if terminal was successfully removed
*/
bool TerminalStrip::removeTerminal(Element *terminal)
{
if (m_terminal_elements_vector.contains(terminal))
{
m_terminal_elements_vector.removeOne(terminal);
//Get the real and physical terminal associated to @terminal
if (auto real_terminal = realTerminal(terminal))
{
if (auto physical_terminal = physicalTerminal(real_terminal))
{
if (physical_terminal->levelCount() == 1) {
m_physical_terminals.removeOne(physical_terminal);
} else {
auto v = physical_terminal->realTerminals();
v.removeOne(real_terminal);
physical_terminal->setTerminals(QETUtils::weakVectorToShared(v));
}
}
m_real_terminals.removeOne(real_terminal);
static_cast(terminal)->setParentTerminalStrip(nullptr);
return true;
}
//There is no reason to be here, but in case of....
return false;
}
return false;
}
/**
* @brief TerminalStrip::pos
* @param terminal
* @return the position of the physical terminal
* or -1 if not found
*/
int TerminalStrip::pos(const QWeakPointer &terminal) const {
return m_physical_terminals.indexOf(terminal.toStrongRef());
}
/**
* @brief TerminalStrip::physicalTerminalCount
* @return the number of physical terminal.
* A physical terminal is the representation of a real electrical terminal.
* Notice that a physical terminal can have level (like in real life)
*/
int TerminalStrip::physicalTerminalCount() const {
return m_physical_terminals.size();
}
/**
* @brief TerminalStrip::physicalTerminalData
* @param index
* @return The data of the physical terminal at index \p index
* returned QWeakPointer can be null
*/
QWeakPointer TerminalStrip::physicalTerminal(int index) const
{
if (index < m_physical_terminals.size()) {
return m_physical_terminals.at(index).toWeakRef();
} else {
return QWeakPointer();
}
}
/**
* @brief TerminalStrip::physicalTerminalData
* @param real_terminal
* @return the parent PhysicalTerminal of \p real_terminal.
* the PhysicalTerminal can be null if \p real_terminal don't belong to this strip
*/
QWeakPointer TerminalStrip::physicalTerminal (const QWeakPointer &real_terminal) const
{
const auto real_t = real_terminal.toStrongRef();
if (real_t.isNull()) {
return QWeakPointer();
}
const auto phy_t = physicalTerminal(real_t);
if (phy_t) {
return phy_t.toWeakRef();
} else {
return QWeakPointer();
}
}
/**
* @brief TerminalStrip::physicalTerminal
* @return A vector of all physical terminal owned by this terminal strip.
* The order of the vector is the same as the order of the terminal in the strip
*/
QVector> TerminalStrip::physicalTerminal() const {
return QETUtils::sharedVectorToWeak(m_physical_terminals);
}
/**
* @brief TerminalStrip::setSortedTo
* Sort the physical terminal owned by this strip in the same order
* as \p sorted_vector.
* \p sorted_vector must contain exaclty the same physical terminal as this strip
* else this function do nothing.
*
* To avoid any mistake, you should call TerminalStrip::physicalTerminal()
* sort the returned vector and call this function with sorted vector, then you are sure
* the vector contain the same values, no more no less.
*
* @param sorted_vector
* @return true is successfully sorted.
*/
bool TerminalStrip::setOrderTo(const QVector> &sorted_vector)
{
if (sorted_vector.size() != m_physical_terminals.size()) {
return false;
}
QVector> new_order;
for (const auto &t_ : sorted_vector)
{
const auto physical_t = t_.toStrongRef();
if (physical_t.isNull()) {
continue;
}
if (m_physical_terminals.contains(physical_t)) {
new_order.append(physical_t);
} else {
return false;
}
}
m_physical_terminals = new_order;
rebuildRealVector();
emit orderChanged();
return true;
}
/**
* @brief TerminalStrip::groupTerminal
* Add \p added_terminal to \p receiver_terminal.
* At the end of this method, if there is physical terminal
* without any real terminal, they will be removed
* and \p receiver_terminal become a multi-level terminal.
* Emit the signal orderChanged();
* @param added_terminal
* @param receiver_terminal
* @return true if success
*/
bool TerminalStrip::groupTerminals(const QWeakPointer &receiver_terminal, const QVector> &added_terminals)
{
const auto receiver_ = receiver_terminal.toStrongRef();
if (receiver_.isNull()) {
qDebug() << "TerminalStrip::groupTerminal : Arguments terminals don't belong to this strip. Operation aborted.";
return false;
}
bool have_grouped = false;
for (const auto &added : added_terminals)
{
const auto added_terminal = added.toStrongRef();
if (added_terminal.isNull()) {
continue;
}
auto physical_ = physicalTerminal(added_terminal);
physical_->removeTerminal(added_terminal);
receiver_->addTerminal(added_terminal);
have_grouped = true;
}
if (have_grouped)
{
const auto vector_ = m_physical_terminals;
for (const auto &phys : vector_) {
if (phys->realTerminals().isEmpty()) {
m_physical_terminals.removeOne(phys);
}
}
emit orderChanged();
}
return true;
}
/**
* @brief TerminalStrip::unGroupTerminals
* Ungroup all real terminals of \p terminals_to_ungroup
* @param terminals_to_ungroup
*/
void TerminalStrip::unGroupTerminals(const QVector> &terminals_to_ungroup)
{
bool ungrouped = false;
for (const auto &rt_ : terminals_to_ungroup)
{
if (auto real_terminal = rt_.toStrongRef()) //Get the shared real terminal
{
if (auto physical_terminal = physicalTerminal(real_terminal)) //Get the physical terminal
{
if (physical_terminal->realTerminals().size() > 1) //Check if physical have more than one real terminal
{
physical_terminal->removeTerminal(real_terminal);
auto raw_ptr = new PhysicalTerminal(this, QVector>{real_terminal});
m_physical_terminals.append(raw_ptr->sharedRef());
ungrouped = true;
}
}
}
}
if (ungrouped) {
emit orderChanged();
}
}
/**
* @brief TerminalStrip::setLevel
* @param real_terminal_data
* @param level
* @return
*/
bool TerminalStrip::setLevel(const QWeakPointer &real_terminal, int level)
{
const auto real_t = real_terminal.toStrongRef();
if (real_t)
{
auto physical_terminal = physicalTerminal(real_t);
if (physical_terminal)
{
if (physical_terminal->realTerminals().size() > 1 &&
physical_terminal->setLevelOf(real_t, level))
{
emit orderChanged();
return true;
}
}
}
return false;
}
/**
* @brief TerminalStrip::isBridgeable
* Check if all realTerminal in @a real_terminals are bridgeable together.
* To be bridgeable, each real terminal must belong to this terminal strip
* be at the same level, be consecutive and not belong to the same physicalTerminal
* and at least one terminal must be not bridged
* @param real_terminals : a vector of realterminal
* @return
*/
bool TerminalStrip::isBridgeable(const QVector> &real_terminals) const
{
if (real_terminals.size() < 2) {
return false;
}
// Check if first terminal belong to this strip
const auto first_real_terminal = real_terminals.first().toStrongRef();
if (!first_real_terminal) {
return false;
}
// Get the level of the first terminal
const int level_ = real_terminals.first().toStrongRef()->level();
// Get the physical terminal and pos
auto first_physical_terminal = physicalTerminal(first_real_terminal);
QVector physical_vector{first_physical_terminal};
QVector pos_vector{m_physical_terminals.indexOf(first_physical_terminal)};
auto bridge_ = isBridged(first_real_terminal);
//bool to know at the end of this function if at least one terminal is not bridged
bool no_bridged = bridge_ ? false : true;
// Check for each terminals
for (int i=1 ; ilevel()) {
return false;
}
// Not to the same physical terminal of a previous checked real terminal
const auto physical_terminal = physicalTerminal(real_terminal);
if (physical_vector.contains(physical_terminal)) {
return false;
} else {
physical_vector.append(physical_terminal);
}
// Not in another bridge of a previous checked real terminal
const auto checked_bridge = isBridged(real_terminal);
if (checked_bridge)
{
if (bridge_.isNull()) {
bridge_ = checked_bridge;
} else if (checked_bridge != bridge_) {
return false;
}
} else {
no_bridged = true;
}
pos_vector.append(m_physical_terminals.indexOf(physical_terminal));
}
// Check if concecutive
const auto count_ = pos_vector.size();
const auto min_max = std::minmax_element(pos_vector.constBegin(), pos_vector.constEnd());
if ((*min_max.second - *min_max.first) + 1 != count_) {
return false;
}
return no_bridged;
}
/**
* @brief TerminalStrip::setBridge
* Set a bridge betwen all real terminal of @a real_terminals
* @sa TerminalStrip::isBridgeable
* @return true if bridge was successfully created
*/
bool TerminalStrip::setBridge(const QVector> &real_terminals)
{
if (!isBridgeable(real_terminals)) {
return false;
}
QVector real_terminals_vector;
for (const auto &real_terminal : real_terminals)
{
const auto real_t = real_terminal.toStrongRef();
if (real_t) {
real_terminals_vector.append(real_t);
}
}
auto bridge = bridgeFor(real_terminals_vector);
if (bridge.isNull()) {
bridge = QSharedPointer::create();
m_bridge.append(bridge);
}
for (const auto &real_t : qAsConst(real_terminals_vector))
{
if (!bridge->real_terminals.contains(real_t))
bridge->real_terminals.append(real_t);
}
emit bridgeChanged();
return true;
}
/**
* @brief TerminalStrip::setBridge
* Bridge the RealTerminal of @a real_terminals_data to @a bridge
* @param bridge
* @param real_terminals_data
* @return true if all RealTerminal was successfully bridged
*/
bool TerminalStrip::setBridge(const QSharedPointer &bridge, const QVector> &real_terminals)
{
if (bridge)
{
if (!isBridgeable(real_terminals)) {
return false;
}
bool b_ = false;
for (const auto & rt_ : real_terminals)
{
const auto real_t = rt_.toStrongRef();
if (real_t &&
!bridge->real_terminals.contains(real_t))
{
bridge->real_terminals.append(real_t);
b_ = true;
}
}
if (b_) {
emit bridgeChanged();
return true;
}
}
return false;
}
/**
* @brief TerminalStrip::unBridge
* Unbridge all real terminals of @a real_terminals
* @sa TerminalStrip::canUnBridge
* @param real_terminals
*/
void TerminalStrip::unBridge(const QVector> &real_terminals)
{
if (canUnBridge(real_terminals))
{
auto bridge_ = isBridged(real_terminals.first().toStrongRef());
for (const auto &real_t : qAsConst(real_terminals)) {
bridge_->real_terminals.removeOne(real_t.toStrongRef());
}
emit bridgeChanged();
}
}
/**
* @brief TerminalStrip::canUnBridge
* @param m_real_terminals
* @return True if all terminals of @a real_terminals can be unbridged.
* For this method return True, all terminals must be bridged together,
* be consecutive and in an one or the both extremities of the bridge.
*/
bool TerminalStrip::canUnBridge(const QVector > &real_terminals) const
{
if (real_terminals.isEmpty()) {
return false;
}
//Get the bridge of first terminal
const auto compar_bridge = isBridged(real_terminals.first().toStrongRef());
if (compar_bridge)
{
QMap> sorted_terminal;
//Check if all terminals are bridged and if it's the same bridge.
//If true insert the terminal in sorted_terminal QMap
//with for key the position of the parent physical terminal
for (const auto &real_t : real_terminals) {
if (compar_bridge != isBridged(real_t.toStrongRef())) {
return false;
} else {
sorted_terminal.insert(m_physical_terminals.indexOf(physicalTerminal(real_t.toStrongRef())),
real_t);
}
}
//Check if consecutive
const auto count_ = sorted_terminal.size();
const auto min_max = std::minmax_element(sorted_terminal.keyBegin(), sorted_terminal.keyEnd());
if ((*min_max.second - *min_max.first) + 1 != count_) {
return false;
}
//Check if first terminal is the begin of bridge
const auto previous_real_t = previousTerminalInLevel(sorted_terminal.first());
if (previous_real_t.isNull())
return true;
else {
const auto previous_bridge = isBridged(previous_real_t);
if (compar_bridge != previous_bridge) {
return true;
}
}
//Check if last terminal is the end of bridge
const auto next_real_t = nextTerminalInLevel(sorted_terminal.last());
if (next_real_t.isNull()) {
return true;
} else {
const auto next_bridge = isBridged(next_real_t);
if (compar_bridge != next_bridge) {
return true;
}
}
}
return false;
}
QSharedPointer TerminalStrip::bridgeFor(const QWeakPointer &real_terminal) const
{
return this->isBridged(real_terminal.toStrongRef());
}
/**
* @brief TerminalStrip::previousTerminalInLevel
* @param real_terminal
* @return The previous real terminal at the samne level of @a real_t
* or a null RealTerminalData if there not a previous real terminal
*/
QWeakPointer TerminalStrip::previousTerminalInLevel(const QWeakPointer &real_terminal) const
{
const auto real_t = real_terminal.toStrongRef();
const auto phy_t = physicalTerminal(real_t);
if (real_t && phy_t)
{
const auto level_ = phy_t->levelOf(real_t);
const auto index = m_physical_terminals.indexOf(phy_t);
if (index >= 1)
{
const auto t_vector = m_physical_terminals.at(index-1)->realTerminals();
if (t_vector.size() > level_) {
return t_vector.at(level_);
}
}
}
return QWeakPointer();
}
/**
* @brief TerminalStrip::nextTerminalInLevel
* @param real_terminal
* @return The next real terminal at the same level of @a real_t
* or a null RealTerminalData if there not a next real terminal
*/
QWeakPointer TerminalStrip::nextTerminalInLevel(const QWeakPointer &real_terminal) const
{
const auto real_t = real_terminal.toStrongRef();
const auto phy_t = physicalTerminal(real_t);
if (real_t && phy_t)
{
const auto level_ = phy_t->levelOf(real_t);
const auto index = m_physical_terminals.indexOf(phy_t);
if (index < m_physical_terminals.size()-1)
{
const auto t_vector = m_physical_terminals.at(index+1)->realTerminals();
if (t_vector.size() > level_) {
return t_vector.at(level_);
}
}
}
return QWeakPointer();
}
QWeakPointer TerminalStrip::previousRealTerminal(const QWeakPointer &real_terminal) const
{
const auto real = real_terminal.toStrongRef();
const auto index = m_real_terminals.indexOf(real);
if (index) {
return m_real_terminals.at(index-1);
}
return QWeakPointer();
}
QWeakPointer TerminalStrip::nextRealTerminal(const QWeakPointer &real_terminal) const
{
const auto real = real_terminal.toStrongRef();
const auto index = m_real_terminals.indexOf(real);
if (index != m_real_terminals.size()-1) {
return m_real_terminals.at(index+1);
}
return QWeakPointer();
}
/**
* @brief TerminalStrip::terminalElement
* @return A vector of all terminal element owned by this strip
*/
QVector > TerminalStrip::terminalElement() const {
return m_terminal_elements_vector;
}
/**
* @brief TerminalStrip::toXml
* @param parent_document
* @return
*/
QDomElement TerminalStrip::toXml(QDomDocument &parent_document)
{
auto root_elmt = parent_document.createElement(this->xmlTagName());
root_elmt.appendChild(m_data.toXml(parent_document));
//Undrawed terminals
auto xml_layout = parent_document.createElement("layout");
for (auto &phy_t : m_physical_terminals) {
xml_layout.appendChild(phy_t->toXml(parent_document));
}
root_elmt.appendChild(xml_layout);
return root_elmt;
}
/**
* @brief TerminalStrip::fromXml
* @param xml_element
* @return Set up this terminal strip from the xml description \p xml_element
*/
bool TerminalStrip::fromXml(QDomElement &xml_element)
{
if (xml_element.tagName() != xmlTagName()) {
return false;
}
//Read terminal strip data
auto xml_data = xml_element.firstChildElement(m_data.xmlTagName());
if (!xml_data.isNull()) {
m_data.fromXml(xml_data);
}
//Read layout
auto xml_layout = xml_element.firstChildElement(QStringLiteral("layout"));
if (!xml_layout.isNull())
{
//Get all free elements terminal of the project
const ElementProvider ep(m_project);
const auto free_terminals = ep.freeTerminal();
//Read each physical terminal
for(auto &xml_physical : QETXML::findInDomElement(xml_layout, PhysicalTerminal::xmlTagName()))
{
QVector real_t_vector;
//Read each real terminal of the current physical terminal of the loop
for (auto &xml_real : QETXML::findInDomElement(xml_physical, RealTerminal::xmlTagName()))
{
auto raw_ptr = new RealTerminal(this);
auto real_t = raw_ptr->sharedRef();
real_t->fromXml(xml_real, free_terminals);
if(real_t->isElement())
{
m_terminal_elements_vector.append(real_t->element());
static_cast(real_t->element())->setParentTerminalStrip(this);
}
real_t_vector.append(real_t);
}
auto raw_ptr = new PhysicalTerminal(this, real_t_vector);
m_physical_terminals.append(raw_ptr->sharedRef());
m_real_terminals.append(real_t_vector);
}
}
return true;
}
/**
* @brief TerminalStrip::realTerminal
* @param terminal
* @return the real terminal linked to \p terminal
* the returned QSharedPointer can be null.
*/
QSharedPointer TerminalStrip::realTerminal(Element *terminal)
{
for (auto &real : qAsConst(m_real_terminals)) {
if (real->element() == terminal) {
return real;
}
}
return shared_real_terminal();
}
/**
* @brief TerminalStrip::physicalTerminal
* @param terminal
* @return the physical terminal linked to \p terminal.
* The returned QSharedPointer can be null.
*/
QSharedPointer TerminalStrip::physicalTerminal(QSharedPointer terminal) const
{
shared_physical_terminal pt;
if (terminal.isNull()) {
return pt;
}
for (auto &physical : qAsConst(m_physical_terminals)) {
if (physical->realTerminals().contains(terminal)) {
pt = physical;
break;
}
}
return pt;
}
/**
* @brief TerminalStrip::isBridged
* Check if @a real_terminal is bridged
* @param real_terminal
* @return a pointer of TerminalStripBridge if bridget or a null QSharedPointer.
*/
QSharedPointer TerminalStrip::isBridged(const QSharedPointer real_terminal) const
{
if (real_terminal)
{
for (const auto &bridge_ : qAsConst(m_bridge)) {
if (bridge_->real_terminals.contains(real_terminal))
return bridge_;
}
}
return QSharedPointer();
}
/**
* @brief TerminalStrip::bridgeFor
* Return the bridge where at least one terminal of @a terminal_vector belong.
* If several terminals are bridged but not to the same bridge return
* a TerminalStripBridge with 0 real_terminals_uuid_vector
* @sa TerminalStripBridge
* @param terminal_vector
* @return
*/
QSharedPointer TerminalStrip::bridgeFor(const QVector > &terminal_vector) const
{
QSharedPointer return_bridge;
for (const auto &terminal : terminal_vector)
{
const auto bridge_ = isBridged(terminal);
if (!bridge_.isNull())
{
if (return_bridge.isNull()) {
return_bridge = bridge_;
}
else if (return_bridge != bridge_) {
return QSharedPointer();
}
}
}
return return_bridge;
}
/**
* @brief TerminalStrip::rebuildRealVector
* Rebuild the real terminal vector
* to be ordered
*/
void TerminalStrip::rebuildRealVector()
{
m_real_terminals.clear();
for (const auto &phy : qAsConst(m_physical_terminals)) {
m_real_terminals.append(QETUtils::weakVectorToShared(phy->realTerminals()));
}
}