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Add satic method to compute vector of in or not in ranges between...
Add satic method to compute vector of in or not in ranges between two ranges

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VisualizationZoneWidget.cpp
304 lines | 12.1 KiB | text/x-c | CppLexer
/ gui / src / Visualization / VisualizationZoneWidget.cpp
#include "Visualization/VisualizationZoneWidget.h"
#include "Visualization/IVisualizationWidgetVisitor.h"
#include "Visualization/QCustomPlotSynchronizer.h"
#include "Visualization/VisualizationGraphWidget.h"
#include "ui_VisualizationZoneWidget.h"
#include <Data/SqpRange.h>
#include <Variable/Variable.h>
#include <Variable/VariableController.h>
#include <QUuid>
#include <SqpApplication.h>
#include <cmath>
Q_LOGGING_CATEGORY(LOG_VisualizationZoneWidget, "VisualizationZoneWidget")
namespace {
/// Minimum height for graph added in zones (in pixels)
const auto GRAPH_MINIMUM_HEIGHT = 300;
/// Generates a default name for a new graph, according to the number of graphs already displayed in
/// the zone
QString defaultGraphName(const QLayout &layout)
{
auto count = 0;
for (auto i = 0; i < layout.count(); ++i) {
if (dynamic_cast<VisualizationGraphWidget *>(layout.itemAt(i)->widget())) {
count++;
}
}
return QObject::tr("Graph %1").arg(count + 1);
}
/**
* Applies a function to all graphs of the zone represented by its layout
* @param layout the layout that contains graphs
* @param fun the function to apply to each graph
*/
template <typename Fun>
void processGraphs(QLayout &layout, Fun fun)
{
for (auto i = 0; i < layout.count(); ++i) {
if (auto item = layout.itemAt(i)) {
if (auto visualizationGraphWidget
= dynamic_cast<VisualizationGraphWidget *>(item->widget())) {
fun(*visualizationGraphWidget);
}
}
}
}
} // namespace
struct VisualizationZoneWidget::VisualizationZoneWidgetPrivate {
explicit VisualizationZoneWidgetPrivate()
: m_SynchronisationGroupId{QUuid::createUuid()},
m_Synchronizer{std::make_unique<QCustomPlotSynchronizer>()}
{
}
QUuid m_SynchronisationGroupId;
std::unique_ptr<IGraphSynchronizer> m_Synchronizer;
};
VisualizationZoneWidget::VisualizationZoneWidget(const QString &name, QWidget *parent)
: QWidget{parent},
ui{new Ui::VisualizationZoneWidget},
impl{spimpl::make_unique_impl<VisualizationZoneWidgetPrivate>()}
{
ui->setupUi(this);
ui->zoneNameLabel->setText(name);
// 'Close' options : widget is deleted when closed
setAttribute(Qt::WA_DeleteOnClose);
connect(ui->closeButton, &QToolButton::clicked, this, &VisualizationZoneWidget::close);
ui->closeButton->setIcon(sqpApp->style()->standardIcon(QStyle::SP_TitleBarCloseButton));
// Synchronisation id
QMetaObject::invokeMethod(&sqpApp->variableController(), "onAddSynchronizationGroupId",
Qt::QueuedConnection, Q_ARG(QUuid, impl->m_SynchronisationGroupId));
}
VisualizationZoneWidget::~VisualizationZoneWidget()
{
delete ui;
}
void VisualizationZoneWidget::addGraph(VisualizationGraphWidget *graphWidget)
{
// Synchronize new graph with others in the zone
impl->m_Synchronizer->addGraph(*graphWidget);
ui->visualizationZoneFrame->layout()->addWidget(graphWidget);
}
VisualizationGraphWidget *VisualizationZoneWidget::createGraph(std::shared_ptr<Variable> variable)
{
auto graphWidget = new VisualizationGraphWidget{
defaultGraphName(*ui->visualizationZoneFrame->layout()), this};
// Set graph properties
graphWidget->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::MinimumExpanding);
graphWidget->setMinimumHeight(GRAPH_MINIMUM_HEIGHT);
// Lambda to synchronize zone widget
auto synchronizeZoneWidget = [this, graphWidget](const SqpRange &graphRange,
const SqpRange &oldGraphRange) {
auto zoomType = VariableController::getZoomType(graphRange, oldGraphRange);
auto frameLayout = ui->visualizationZoneFrame->layout();
for (auto i = 0; i < frameLayout->count(); ++i) {
auto graphChild
= dynamic_cast<VisualizationGraphWidget *>(frameLayout->itemAt(i)->widget());
if (graphChild && (graphChild != graphWidget)) {
auto graphChildRange = graphChild->graphRange();
switch (zoomType) {
case AcquisitionZoomType::ZoomIn: {
auto deltaLeft = graphRange.m_TStart - oldGraphRange.m_TStart;
auto deltaRight = oldGraphRange.m_TEnd - graphRange.m_TEnd;
graphChildRange.m_TStart += deltaLeft;
graphChildRange.m_TEnd -= deltaRight;
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: ZoomIn");
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: deltaLeft")
<< deltaLeft;
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: deltaRight")
<< deltaRight;
qCDebug(LOG_VisualizationZoneWidget())
<< tr("TORM: dt") << graphRange.m_TEnd - graphRange.m_TStart;
break;
}
case AcquisitionZoomType::ZoomOut: {
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: ZoomOut");
auto deltaLeft = oldGraphRange.m_TStart - graphRange.m_TStart;
auto deltaRight = graphRange.m_TEnd - oldGraphRange.m_TEnd;
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: deltaLeft")
<< deltaLeft;
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: deltaRight")
<< deltaRight;
qCDebug(LOG_VisualizationZoneWidget())
<< tr("TORM: dt") << graphRange.m_TEnd - graphRange.m_TStart;
graphChildRange.m_TStart -= deltaLeft;
graphChildRange.m_TEnd += deltaRight;
break;
}
case AcquisitionZoomType::PanRight: {
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: PanRight");
auto deltaLeft = graphRange.m_TStart - oldGraphRange.m_TStart;
auto deltaRight = graphRange.m_TEnd - oldGraphRange.m_TEnd;
graphChildRange.m_TStart += deltaLeft;
graphChildRange.m_TEnd += deltaRight;
qCDebug(LOG_VisualizationZoneWidget())
<< tr("TORM: dt") << graphRange.m_TEnd - graphRange.m_TStart;
break;
}
case AcquisitionZoomType::PanLeft: {
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: PanLeft");
auto deltaLeft = oldGraphRange.m_TStart - graphRange.m_TStart;
auto deltaRight = oldGraphRange.m_TEnd - graphRange.m_TEnd;
graphChildRange.m_TStart -= deltaLeft;
graphChildRange.m_TEnd -= deltaRight;
break;
}
case AcquisitionZoomType::Unknown: {
qCDebug(LOG_VisualizationZoneWidget())
<< tr("Impossible to synchronize: zoom type unknown");
break;
}
default:
qCCritical(LOG_VisualizationZoneWidget())
<< tr("Impossible to synchronize: zoom type not take into account");
// No action
break;
}
graphChild->enableAcquisition(false);
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: Range before: ")
<< graphChild->graphRange();
qCDebug(LOG_VisualizationZoneWidget()) << tr("TORM: Range after : ")
<< graphChildRange;
qCDebug(LOG_VisualizationZoneWidget())
<< tr("TORM: child dt") << graphChildRange.m_TEnd - graphChildRange.m_TStart;
graphChild->setGraphRange(graphChildRange);
graphChild->enableAcquisition(true);
}
}
};
// connection for synchronization
connect(graphWidget, &VisualizationGraphWidget::synchronize, synchronizeZoneWidget);
connect(graphWidget, &VisualizationGraphWidget::variableAdded, this,
&VisualizationZoneWidget::onVariableAdded);
connect(graphWidget, &VisualizationGraphWidget::variableAboutToBeRemoved, this,
&VisualizationZoneWidget::onVariableAboutToBeRemoved);
auto range = SqpRange{};
// Apply visitor to graph children
auto layout = ui->visualizationZoneFrame->layout();
if (layout->count() > 0) {
// Case of a new graph in a existant zone
if (auto visualizationGraphWidget
= dynamic_cast<VisualizationGraphWidget *>(layout->itemAt(0)->widget())) {
range = visualizationGraphWidget->graphRange();
}
}
else {
// Case of a new graph as the first of the zone
range = variable->range();
}
this->addGraph(graphWidget);
graphWidget->addVariable(variable, range);
// get y using variable range
if (auto dataSeries = variable->dataSeries()) {
dataSeries->lockRead();
auto valuesBounds
= dataSeries->valuesBounds(variable->range().m_TStart, variable->range().m_TEnd);
auto end = dataSeries->cend();
if (valuesBounds.first != end && valuesBounds.second != end) {
auto rangeValue = [](const auto &value) { return std::isnan(value) ? 0. : value; };
auto minValue = rangeValue(valuesBounds.first->minValue());
auto maxValue = rangeValue(valuesBounds.second->maxValue());
graphWidget->setYRange(SqpRange{minValue, maxValue});
}
dataSeries->unlock();
}
return graphWidget;
}
void VisualizationZoneWidget::accept(IVisualizationWidgetVisitor *visitor)
{
if (visitor) {
visitor->visitEnter(this);
// Apply visitor to graph children: widgets different from graphs are not visited (no
// action)
processGraphs(
*ui->visualizationZoneFrame->layout(),
[visitor](VisualizationGraphWidget &graphWidget) { graphWidget.accept(visitor); });
visitor->visitLeave(this);
}
else {
qCCritical(LOG_VisualizationZoneWidget()) << tr("Can't visit widget : the visitor is null");
}
}
bool VisualizationZoneWidget::canDrop(const Variable &variable) const
{
// A tab can always accomodate a variable
Q_UNUSED(variable);
return true;
}
bool VisualizationZoneWidget::contains(const Variable &variable) const
{
Q_UNUSED(variable);
return false;
}
QString VisualizationZoneWidget::name() const
{
return ui->zoneNameLabel->text();
}
void VisualizationZoneWidget::closeEvent(QCloseEvent *event)
{
// Closes graphs in the zone
processGraphs(*ui->visualizationZoneFrame->layout(),
[](VisualizationGraphWidget &graphWidget) { graphWidget.close(); });
// Delete synchronization group from variable controller
QMetaObject::invokeMethod(&sqpApp->variableController(), "onRemoveSynchronizationGroupId",
Qt::QueuedConnection, Q_ARG(QUuid, impl->m_SynchronisationGroupId));
QWidget::closeEvent(event);
}
void VisualizationZoneWidget::onVariableAdded(std::shared_ptr<Variable> variable)
{
QMetaObject::invokeMethod(&sqpApp->variableController(), "onAddSynchronized",
Qt::QueuedConnection, Q_ARG(std::shared_ptr<Variable>, variable),
Q_ARG(QUuid, impl->m_SynchronisationGroupId));
}
void VisualizationZoneWidget::onVariableAboutToBeRemoved(std::shared_ptr<Variable> variable)
{
QMetaObject::invokeMethod(&sqpApp->variableController(), "desynchronize", Qt::QueuedConnection,
Q_ARG(std::shared_ptr<Variable>, variable),
Q_ARG(QUuid, impl->m_SynchronisationGroupId));
}