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/****************************************************************************
**
** Copyright (C) 2013 Digia Plc
** All rights reserved.
** For any questions to Digia, please use contact form at http://qt.digia.com
**
** This file is part of the QtDataVisualization module.
**
** Licensees holding valid Qt Enterprise licenses may use this file in
** accordance with the Qt Enterprise License Agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia.
**
** If you have questions regarding the use of this file, please use
** contact form at http://qt.digia.com
**
****************************************************************************/
#include "surface3dcontroller_p.h"
#include "surface3drenderer_p.h"
#include "camerahelper_p.h"
#include "q3dabstractaxis_p.h"
#include "q3dvalueaxis_p.h"
#include "q3dcategoryaxis.h"
#include "qsurfacedataproxy_p.h"
#include <QMatrix4x4>
#include <QDebug>
QT_DATAVISUALIZATION_BEGIN_NAMESPACE
Surface3DController::Surface3DController(QRect rect)
: Abstract3DController(rect),
m_renderer(0),
m_isSmoothSurfaceEnabled(false),
m_isSurfaceGridEnabled(true)
{
setActiveDataProxy(0);
// Setting a null axis creates a new default axis according to orientation and graph type.
// Note: These cannot be set in Abstract3DController constructor, as they will call virtual
// functions implemented by subclasses.
setAxisX(0);
setAxisY(0);
setAxisZ(0);
// Set the default from the theme
m_userDefinedGradient = theme().m_surfaceGradient;
}
Surface3DController::~Surface3DController()
{
}
void Surface3DController::initializeOpenGL()
{
// Initialization is called multiple times when Qt Quick components are used
if (isInitialized())
return;
m_renderer = new Surface3DRenderer(this);
setRenderer(m_renderer);
synchDataToRenderer();
emitNeedRender();
}
void Surface3DController::synchDataToRenderer()
{
Abstract3DController::synchDataToRenderer();
if (!isInitialized())
return;
// Notify changes to renderer
if (m_changeTracker.gradientColorChanged) {
m_renderer->updateSurfaceGradient(m_userDefinedGradient);
m_changeTracker.gradientColorChanged = false;
}
if (m_changeTracker.smoothStatusChanged) {
m_isSmoothSurfaceEnabled = m_renderer->updateSmoothStatus(m_isSmoothSurfaceEnabled);
m_changeTracker.smoothStatusChanged = false;
}
if (m_changeTracker.surfaceGridChanged) {
m_renderer->updateSurfaceGridStatus(m_isSurfaceGridEnabled);
m_changeTracker.surfaceGridChanged = false;
}
if (m_isDataDirty) {
m_renderer->updateDataModel(static_cast<QSurfaceDataProxy *>(m_data));
m_isDataDirty = false;
}
}
void Surface3DController::handleAxisAutoAdjustRangeChangedInOrientation(Q3DAbstractAxis::AxisOrientation orientation, bool autoAdjust)
{
Q_UNUSED(orientation)
Q_UNUSED(autoAdjust)
adjustValueAxisRange();
}
void Surface3DController::handleAxisRangeChangedBySender(QObject *sender)
{
scene()->setSlicingActive(false);
Abstract3DController::handleAxisRangeChangedBySender(sender);
}
void Surface3DController::setSmoothSurface(bool enable)
{
m_isSmoothSurfaceEnabled = enable;
m_changeTracker.smoothStatusChanged = true;
emitNeedRender();
}
bool Surface3DController::smoothSurface()
{
return m_isSmoothSurfaceEnabled;
}
void Surface3DController::setSurfaceGrid(bool enable)
{
m_isSurfaceGridEnabled = enable;
m_changeTracker.surfaceGridChanged = true;
emitNeedRender();
}
bool Surface3DController::surfaceGrid()
{
return m_isSurfaceGridEnabled;
}
void Surface3DController::setGradient(const QLinearGradient &gradient)
{
m_userDefinedGradient = gradient;
m_userDefinedGradient.setStart(1, 1000);
m_userDefinedGradient.setFinalStop(0, 0);
m_changeTracker.gradientColorChanged = true;
emitNeedRender();
}
QLinearGradient Surface3DController::gradient() const
{
return m_userDefinedGradient;
}
void Surface3DController::setGradientColorAt(qreal pos, const QColor &color)
{
m_userDefinedGradient.setColorAt(pos, color);
m_changeTracker.gradientColorChanged = true;
emitNeedRender();
}
void Surface3DController::setSelectionMode(QDataVis::SelectionMode mode)
{
if (!(mode == QDataVis::SelectionModeNone || mode == QDataVis::SelectionModeItem
|| mode == QDataVis::SelectionModeSliceRow
|| mode == QDataVis::SelectionModeSliceColumn)) {
qWarning("Unsupported selection mode.");
return;
}
// Disable zoom if selection mode changes
setSlicingActive(false);
Abstract3DController::setSelectionMode(mode);
}
void Surface3DController::setActiveDataProxy(QAbstractDataProxy *proxy)
{
// Setting null proxy indicates default proxy
if (!proxy) {
proxy = new QSurfaceDataProxy;
proxy->d_ptr->setDefaultProxy(true);
}
Q_ASSERT(proxy->type() == QAbstractDataProxy::DataTypeSurface);
Abstract3DController::setActiveDataProxy(proxy);
QSurfaceDataProxy *surfaceDataProxy = static_cast<QSurfaceDataProxy *>(m_data);
QObject::connect(surfaceDataProxy, &QSurfaceDataProxy::arrayReset,
this, &Surface3DController::handleArrayReset);
scene()->setSlicingActive(false);
adjustValueAxisRange();
m_isDataDirty = true;
emitNeedRender();
}
void Surface3DController::handleArrayReset()
{
scene()->setSlicingActive(false);
adjustValueAxisRange();
m_isDataDirty = true;
emitNeedRender();
}
void Surface3DController::adjustValueAxisRange()
{
if (m_data) {
QVector3D minLimits;
QVector3D maxLimits;
static_cast<QSurfaceDataProxy *>(m_data)->dptr()->limitValues(minLimits, maxLimits);
Q3DValueAxis *valueAxis = static_cast<Q3DValueAxis *>(m_axisX);
if (valueAxis && valueAxis->isAutoAdjustRange()) {
if (minLimits.x() != maxLimits.x())
valueAxis->dptr()->setRange(minLimits.x(), maxLimits.x());
else
valueAxis->dptr()->setRange(minLimits.x() - 1.0f, minLimits.x() + 1.0f); // Default to some valid range
}
valueAxis = static_cast<Q3DValueAxis *>(m_axisY);
if (valueAxis && valueAxis->isAutoAdjustRange()) {
if (minLimits.y() != maxLimits.y())
valueAxis->dptr()->setRange(minLimits.y(), maxLimits.y());
else
valueAxis->dptr()->setRange(minLimits.y() - 1.0f, minLimits.y() + 1.0f); // Default to some valid range
}
valueAxis = static_cast<Q3DValueAxis *>(m_axisZ);
if (valueAxis && valueAxis->isAutoAdjustRange()) {
if (minLimits.z() != maxLimits.z())
valueAxis->dptr()->setRange(minLimits.z(), maxLimits.z());
else
valueAxis->dptr()->setRange(minLimits.z() - 1.0f, minLimits.z() + 1.0f); // Default to some valid range
}
}
}
QT_DATAVISUALIZATION_END_NAMESPACE
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