#include "FractoriumPch.h"
#include "CurvesGraphicsView.h"
///
/// Construct the scene which will have a fixed rect.
/// Construct all points, pens and axes.
///
/// Pass to the parent
CurvesGraphicsView::CurvesGraphicsView(QWidget* parent)
: QGraphicsView(parent)
{
m_Scene.setSceneRect(0, 0, 245, 245);
m_AllP1 = new EllipseItem(QRectF(-5, -5, 10, 10), 0, 1, this);
m_AllP1->setBrush(QBrush(Qt::GlobalColor::black));
m_AllP2 = new EllipseItem(QRectF(-5, -5, 10, 10), 0, 2, this);
m_AllP2->setBrush(QBrush(Qt::GlobalColor::black));
m_RedP1 = new EllipseItem(QRectF(-5, -5, 10, 10), 1, 1, this);
m_RedP1->setBrush(QBrush(Qt::GlobalColor::red));
m_RedP2 = new EllipseItem(QRectF(-5, -5, 10, 10), 1, 2, this);
m_RedP2->setBrush(QBrush(Qt::GlobalColor::red));
m_GrnP1 = new EllipseItem(QRectF(-5, -5, 10, 10), 2, 1, this);
m_GrnP1->setBrush(QBrush(Qt::GlobalColor::green));
m_GrnP2 = new EllipseItem(QRectF(-5, -5, 10, 10), 2, 2, this);
m_GrnP2->setBrush(QBrush(Qt::GlobalColor::green));
m_BluP1 = new EllipseItem(QRectF(-5, -5, 10, 10), 3, 1, this);
m_BluP1->setBrush(QBrush(Qt::GlobalColor::blue));
m_BluP2 = new EllipseItem(QRectF(-5, -5, 10, 10), 3, 2, this);
m_BluP2->setBrush(QBrush(Qt::GlobalColor::blue));
m_AxisPen = QPen(Qt::GlobalColor::white);
m_XLine = new QGraphicsLineItem();
m_XLine->setPen(m_AxisPen);
m_XLine->setZValue(0);
m_YLine = new QGraphicsLineItem();
m_YLine->setPen(m_AxisPen);
m_YLine->setZValue(0);
m_Scene.addItem(m_AllP1); m_Points[0].first = m_AllP1; m_AllP1->setZValue(2);
m_Scene.addItem(m_AllP2); m_Points[0].second = m_AllP2; m_AllP2->setZValue(2);
m_Scene.addItem(m_RedP1); m_Points[1].first = m_RedP1;
m_Scene.addItem(m_RedP2); m_Points[1].second = m_RedP2;
m_Scene.addItem(m_GrnP1); m_Points[2].first = m_GrnP1;
m_Scene.addItem(m_GrnP2); m_Points[2].second = m_GrnP2;
m_Scene.addItem(m_BluP1); m_Points[3].first = m_BluP1;
m_Scene.addItem(m_BluP2); m_Points[3].second = m_BluP2;
m_Scene.addItem(m_XLine);
m_Scene.addItem(m_YLine);
m_APen = QPen(Qt::GlobalColor::black); m_Pens[0] = &m_APen;
m_RPen = QPen(Qt::GlobalColor::red); m_Pens[1] = &m_RPen;
m_GPen = QPen(Qt::GlobalColor::green); m_Pens[2] = &m_GPen;
m_BPen = QPen(Qt::GlobalColor::blue); m_Pens[3] = &m_BPen;
m_APen.setWidth(2);
m_RPen.setWidth(2);
m_GPen.setWidth(2);
m_BPen.setWidth(2);
setScene(&m_Scene);
SetTop(CurveIndex::ALL);
//qDebug() << "Original scene rect before setting anything is: " << sceneRect();
m_OriginalRect = sceneRect();
show();
//qDebug() << "Original scene rect is: " << m_OriginalRect;
}
///
/// Get the position of a given point within a given curve.
///
/// The curve whose point value will be retrieved, 0-3.
/// The point within the curve value will be retrieved, 1-2.
/// The position of the point. X,Y will each be within 0-1.
void CurvesGraphicsView::PointChanged(int curveIndex, int pointIndex, const QPointF& point)
{
double x = point.x() / width();
double y = (height() - point.y()) / height();
emit PointChangedSignal(curveIndex, pointIndex, QPointF(x, y));
}
///
/// Get the position of a given point within a given curve.
///
/// The curve whose point value will be retrieved, 0-3.
/// The point within the curve whose value will be retrieved, 1-2.
/// The position of the point. X,Y will each be within 0-1.
QPointF CurvesGraphicsView::Get(int curveIndex, int pointIndex)
{
if (curveIndex < 4)
{
EllipseItem* item = (pointIndex == 1) ? m_Points[curveIndex].first : m_Points[curveIndex].second;
return QPointF(item->pos().x() / width(), (height() - item->pos().y()) / height());
}
return QPointF();
}
///
/// Set the position of a given point within a given curve.
///
/// The curve whose point will be set, 0-3.
/// The point within the curve which will be set, 1-2
/// The position to set the point to. X,Y will each be within 0-1.
void CurvesGraphicsView::Set(int curveIndex, int pointIndex, const QPointF& point)
{
if (curveIndex < 4)
{
if (pointIndex == 1)
m_Points[curveIndex].first->setPos(point.x() * width(), (1.0 - point.y()) * height());//Scale to scene dimensions, Y axis is flipped.
else
m_Points[curveIndex].second->setPos(point.x() * width(), (1.0 - point.y()) * height());
}
}
///
/// Set the topmost curve but setting its Z value.
/// All other curves will get a value one less.
///
/// The curve to set
void CurvesGraphicsView::SetTop(CurveIndex curveIndex)
{
size_t index;
switch (curveIndex)
{
case CurveIndex::ALL:
index = 0;
break;
case CurveIndex::RED:
index = 1;
break;
case CurveIndex::GREEN:
index = 2;
break;
case CurveIndex::BLUE:
default:
index = 3;
}
for (size_t i = 0; i < 4; i++)
{
if (i == index)
{
m_Points[i].first->setZValue(2);
m_Points[i].second->setZValue(2);
}
else
{
m_Points[i].first->setZValue(1);
m_Points[i].second->setZValue(1);
}
}
}
///
/// Overridden paint even which draws the points, axes and curves.
///
/// Ignored
void CurvesGraphicsView::paintEvent(QPaintEvent* e)
{
QGraphicsView::paintEvent(e);
int i;
QRectF rect = scene()->sceneRect();
double w2 = width() / 2;
double h2 = height() / 2;
//Draw axis lines.
m_XLine->setLine(QLineF(0, h2, width(), h2));
m_YLine->setLine(QLineF(w2, 0, w2, height()));
//This must be constructed every time and cannot be a member.
QPainter painter(viewport());
painter.setClipRect(rect);
painter.setRenderHint(QPainter::Antialiasing);
//Create 4 new paths. These must be constructed every time and cannot be members.
QPainterPath paths[4] =
{
QPainterPath(mapFromScene(rect.bottomLeft())),
QPainterPath(mapFromScene(rect.bottomLeft())),
QPainterPath(mapFromScene(rect.bottomLeft())),
QPainterPath(mapFromScene(rect.bottomLeft()))
};
//Draw paths for all but the topmost curve.
for (i = 0; i < 4; i++)
{
paths[i].cubicTo(m_Points[i].first->pos(), m_Points[i].second->pos(), mapFromScene(rect.topRight()));
if (m_Points[i].first->zValue() == 1)
{
painter.setPen(*m_Pens[i]);
painter.drawPath(paths[i]);
}
}
//Draw the topmost curve.
for (i = 0; i < 4; i++)
{
if (m_Points[i].first->zValue() == 2)
{
painter.setPen(*m_Pens[i]);
painter.drawPath(paths[i]);
break;
}
}
}