How can I implement this project for design Oval shape
I am trying to implement an oval shape like this project .so I inherited Oval Graphics Item from QGraphicsEllipseItem and QObject, and implement logic,same as logic for Rectangle.here is my oval.cpp code,But my project is not working properly.can you explain how can I solve this and,what I need to do.what I did wrong.here with I attached I tested code.please help me sir..
#include "oval.h" #include <QPainter> #include <QDebug> #include <QCursor> #include <QGraphicsScene> #include <QGraphicsSceneMouseEvent> #include <QGraphicsEllipseItem> #include <math.h> #include <dotsignal.h> static const double Pi = 3.14159265358979323846264338327950288419717; static double TwoPi = 2.0 * Pi; static qreal normalizeAngle(qreal angle) { while (angle < 0) angle += TwoPi; while (angle > TwoPi) angle -= TwoPi; return angle; } oval::oval(QObject *parent) : QObject(parent), m_cornerFlags(0), m_actionFlags(ResizeState) { setAcceptHoverEvents(true); setFlags(ItemIsSelectable|ItemSendsGeometryChanges); for(int i = 0; i < 8; i++){ cornerGrabber[i] = new DotSignal(this); } setPositionGrabbers(); } oval::~oval() { for(int i = 0; i < 8; i++){ delete cornerGrabber[i]; } } QPointF oval::previousPosition() const { return m_previousPosition; } void oval::setPreviousPosition(const QPointF previousPosition) { if (m_previousPosition == previousPosition) return; m_previousPosition = previousPosition; emit previousPositionChanged(); } void oval::setRect(qreal x, qreal y, qreal w, qreal h) { setRect(QRectF(x,y,w,h)); } void oval::setRect(const QRectF &rect) { QGraphicsEllipseItem::setRect(rect); if(brush().gradient() != 0){ const QGradient * grad = brush().gradient(); if(grad->type() == QGradient::LinearGradient){ auto tmpRect = this->rect(); const QLinearGradient *lGradient = static_cast<const QLinearGradient *>(grad); QLinearGradient g = *const_cast<QLinearGradient*>(lGradient); g.setStart(tmpRect.left() + tmpRect.width()/2,tmpRect.top()); g.setFinalStop(tmpRect.left() + tmpRect.width()/2,tmpRect.bottom()); setBrush(g); } } } void oval::mouseMoveEvent(QGraphicsSceneMouseEvent *event) { QPointF pt = event->pos(); if(m_actionFlags == ResizeState){ switch (m_cornerFlags) { case Top: resizeTop(pt); break; case Bottom: resizeBottom(pt); break; case Left: resizeLeft(pt); break; case Right: resizeRight(pt); break; case TopLeft: resizeTop(pt); resizeLeft(pt); break; case TopRight: resizeTop(pt); resizeRight(pt); break; case BottomLeft: resizeBottom(pt); resizeLeft(pt); break; case BottomRight: resizeBottom(pt); resizeRight(pt); break; default: if (m_leftMouseButtonPressed) { setCursor(Qt::ClosedHandCursor); auto dx = event->scenePos().x() - m_previousPosition.x(); auto dy = event->scenePos().y() - m_previousPosition.y(); moveBy(dx,dy); setPreviousPosition(event->scenePos()); emit signalMove(this, dx, dy); } break; } } else { switch (m_cornerFlags) { case TopLeft: case TopRight: case BottomLeft: case BottomRight: { rotateItem(pt); break; } default: if (m_leftMouseButtonPressed) { setCursor(Qt::ClosedHandCursor); auto dx = event->scenePos().x() - m_previousPosition.x(); auto dy = event->scenePos().y() - m_previousPosition.y(); moveBy(dx,dy); setPreviousPosition(event->scenePos()); emit signalMove(this, dx, dy); } break; } } QGraphicsItem::mouseMoveEvent(event); } void oval::mousePressEvent(QGraphicsSceneMouseEvent *event) { if (event->button() & Qt::LeftButton) { m_leftMouseButtonPressed = true; setPreviousPosition(event->scenePos()); emit clicked(this); } QGraphicsItem::mousePressEvent(event); } void oval::mouseReleaseEvent(QGraphicsSceneMouseEvent *event) { if (event->button() & Qt::LeftButton) { m_leftMouseButtonPressed = false; } QGraphicsItem::mouseReleaseEvent(event); } void oval::mouseDoubleClickEvent(QGraphicsSceneMouseEvent *event) { m_actionFlags = (m_actionFlags == ResizeState)?RotationState:ResizeState; setVisibilityGrabbers(); QGraphicsItem::mouseDoubleClickEvent(event); } void oval::hoverEnterEvent(QGraphicsSceneHoverEvent *event) { setPositionGrabbers(); setVisibilityGrabbers(); QGraphicsItem::hoverEnterEvent(event); } void oval::hoverLeaveEvent(QGraphicsSceneHoverEvent *event) { m_cornerFlags = 0; hideGrabbers(); setCursor(Qt::CrossCursor); QGraphicsItem::hoverLeaveEvent( event ); } void oval::hoverMoveEvent(QGraphicsSceneHoverEvent *event) { QPointF pt = event->pos(); // The current position of the mouse qreal drx = pt.x() - rect().right(); // Distance between the mouse and the right qreal dlx = pt.x() - rect().left(); // Distance between the mouse and the left qreal dby = pt.y() - rect().top(); // Distance between the mouse and the top qreal dty = pt.y() - rect().bottom(); // Distance between the mouse and the bottom // If the mouse position is within a radius of 7 // to a certain side( top, left, bottom or right) // we set the Flag in the Corner Flags Register m_cornerFlags = 0; if( dby < 7 && dby > -7 ) m_cornerFlags |= Top; // Top side if( dty < 7 && dty > -7 ) m_cornerFlags |= Bottom; // Bottom side if( drx < 7 && drx > -7 ) m_cornerFlags |= Right; // Right side if( dlx < 7 && dlx > -7 ) m_cornerFlags |= Left; // Left side if(m_actionFlags == ResizeState){ QPixmap p(":/icons/arrow-up-down.png"); QPixmap pResult; QTransform trans = transform(); switch (m_cornerFlags) { case Top: case Bottom: pResult = p.transformed(trans); setCursor(pResult.scaled(24,24,Qt::KeepAspectRatio)); break; case Left: case Right: trans.rotate(90); pResult = p.transformed(trans); setCursor(pResult.scaled(24,24,Qt::KeepAspectRatio)); break; case TopRight: case BottomLeft: trans.rotate(45); pResult = p.transformed(trans); setCursor(pResult.scaled(24,24,Qt::KeepAspectRatio)); break; case TopLeft: case BottomRight: trans.rotate(135); pResult = p.transformed(trans); setCursor(pResult.scaled(24,24,Qt::KeepAspectRatio)); break; default: setCursor(Qt::CrossCursor); break; } } else { switch (m_cornerFlags) { case TopLeft: case TopRight: case BottomLeft: case BottomRight: { QPixmap p(":/icons/rotate-right.png"); setCursor(QCursor(p.scaled(24,24,Qt::KeepAspectRatio))); break; } default: setCursor(Qt::CrossCursor); break; } } QGraphicsItem::hoverMoveEvent( event ); } QVariant oval::itemChange(QGraphicsItem::GraphicsItemChange change, const QVariant &value) { switch (change) { case QGraphicsItem::ItemSelectedChange: m_actionFlags = ResizeState; break; default: break; } return QGraphicsItem::itemChange(change, value); } void oval::resizeLeft(const QPointF &pt) { QRectF tmpRect = rect(); // if the mouse is on the right side we return if( pt.x() > tmpRect.right() ) return; qreal widthOffset = ( pt.x() - tmpRect.right() ); // limit the minimum width if( widthOffset > -10 ) return; // if it's negative we set it to a positive width value if( widthOffset < 0 ) tmpRect.setWidth( -widthOffset ); else tmpRect.setWidth( widthOffset ); // Since it's a left side , the rectange will increase in size // but keeps the topLeft as it was tmpRect.translate( rect().width() - tmpRect.width() , 0 ); prepareGeometryChange(); // Set the ne geometry setRect( tmpRect ); // Update to see the result update(); setPositionGrabbers(); } void oval::resizeRight(const QPointF &pt) { QRectF tmpRect = rect(); if( pt.x() < tmpRect.left() ) return; qreal widthOffset = ( pt.x() - tmpRect.left() ); if( widthOffset < 10 ) /// limit return; if( widthOffset < 10) tmpRect.setWidth( -widthOffset ); else tmpRect.setWidth( widthOffset ); prepareGeometryChange(); setRect( tmpRect ); update(); setPositionGrabbers(); } void oval::resizeBottom(const QPointF &pt) { QRectF tmpRect = rect(); if( pt.y() < tmpRect.top() ) return; qreal heightOffset = ( pt.y() - tmpRect.top() ); if( heightOffset < 11 ) /// limit return; if( heightOffset < 0) tmpRect.setHeight( -heightOffset ); else tmpRect.setHeight( heightOffset ); prepareGeometryChange(); setRect( tmpRect ); update(); setPositionGrabbers(); } void oval::resizeTop(const QPointF &pt) { QRectF tmpRect = rect(); if( pt.y() > tmpRect.bottom() ) return; qreal heightOffset = ( pt.y() - tmpRect.bottom() ); if( heightOffset > -11 ) /// limit return; if( heightOffset < 0) tmpRect.setHeight( -heightOffset ); else tmpRect.setHeight( heightOffset ); tmpRect.translate( 0 , rect().height() - tmpRect.height() ); prepareGeometryChange(); setRect( tmpRect ); update(); setPositionGrabbers(); } void oval::rotateItem(const QPointF &pt) { QRectF tmpRect = rect(); QPointF center = boundingRect().center(); QPointF corner; switch (m_cornerFlags) { case TopLeft: corner = tmpRect.topLeft(); break; case TopRight: corner = tmpRect.topRight(); break; case BottomLeft: corner = tmpRect.bottomLeft(); break; case BottomRight: corner = tmpRect.bottomRight(); break; default: break; } QLineF lineToTarget(center,corner); QLineF lineToCursor(center, pt); // Angle to Cursor and Corner Target points qreal angleToTarget = ::acos(lineToTarget.dx() / lineToTarget.length()); qreal angleToCursor = ::acos(lineToCursor.dx() / lineToCursor.length()); if (lineToTarget.dy() < 0) angleToTarget = TwoPi - angleToTarget; angleToTarget = normalizeAngle((Pi - angleToTarget) + Pi / 2); if (lineToCursor.dy() < 0) angleToCursor = TwoPi - angleToCursor; angleToCursor = normalizeAngle((Pi - angleToCursor) + Pi / 2); // Result difference angle between Corner Target point and Cursor Point auto resultAngle = angleToTarget - angleToCursor; QTransform trans = transform(); trans.translate( center.x(), center.y()); trans.rotateRadians(rotation() + resultAngle, Qt::ZAxis); trans.translate( -center.x(), -center.y()); setTransform(trans); } void oval::setPositionGrabbers() { QRectF tmpRect = rect(); cornerGrabber[GrabberTop]->setPos(tmpRect.left() + tmpRect.width()/2, tmpRect.top()); cornerGrabber[GrabberBottom]->setPos(tmpRect.left() + tmpRect.width()/2, tmpRect.bottom()); cornerGrabber[GrabberLeft]->setPos(tmpRect.left(), tmpRect.top() + tmpRect.height()/2); cornerGrabber[GrabberRight]->setPos(tmpRect.right(), tmpRect.top() + tmpRect.height()/2); cornerGrabber[GrabberTopLeft]->setPos(tmpRect.topLeft().x(), tmpRect.topLeft().y()); cornerGrabber[GrabberTopRight]->setPos(tmpRect.topRight().x(), tmpRect.topRight().y()); cornerGrabber[GrabberBottomLeft]->setPos(tmpRect.bottomLeft().x(), tmpRect.bottomLeft().y()); cornerGrabber[GrabberBottomRight]->setPos(tmpRect.bottomRight().x(), tmpRect.bottomRight().y()); } void oval::setVisibilityGrabbers() { cornerGrabber[GrabberTopLeft]->setVisible(true); cornerGrabber[GrabberTopRight]->setVisible(true); cornerGrabber[GrabberBottomLeft]->setVisible(true); cornerGrabber[GrabberBottomRight]->setVisible(true); if(m_actionFlags == ResizeState){ cornerGrabber[GrabberTop]->setVisible(true); cornerGrabber[GrabberBottom]->setVisible(true); cornerGrabber[GrabberLeft]->setVisible(true); cornerGrabber[GrabberRight]->setVisible(true); } else { cornerGrabber[GrabberTop]->setVisible(false); cornerGrabber[GrabberBottom]->setVisible(false); cornerGrabber[GrabberLeft]->setVisible(false); cornerGrabber[GrabberRight]->setVisible(false); } } void oval::hideGrabbers() { for(int i = 0; i < 8; i++){ cornerGrabber[i]->setVisible(false); } }
Рекомендуем хостинг TIMEWEB
Стабильный хостинг, на котором располагается социальная сеть EVILEG. Для проектов на Django рекомендуем VDS хостинг.Вам это нравится? Поделитесь в социальных сетях!
Комментарии
Только авторизованные пользователи могут публиковать комментарии.
Пожалуйста, авторизуйтесь или зарегистрируйтесь
Пожалуйста, авторизуйтесь или зарегистрируйтесь
AD
- Akiv Doros
- 11 ноября 2024 г. 22:58
C++ - Тест 004. Указатели, Массивы и Циклы
- Результат:50баллов,
- Очки рейтинга-4
m
- molni99
- 26 октября 2024 г. 8:37
C++ - Тест 004. Указатели, Массивы и Циклы
- Результат:80баллов,
- Очки рейтинга4
m
- molni99
- 26 октября 2024 г. 8:29
C++ - Тест 004. Указатели, Массивы и Циклы
- Результат:20баллов,
- Очки рейтинга-10
Последние комментарии
Коммутация каналов и пакетов в сетях передачи данных Angioedema 1 priligy dapoxetine
Как Копировать Файлы в Linux If only females relatives with DZ offspring were considered these percentages were 23 order priligy online uk
Qt/C++ - Урок 068. Hello World с использованием системы сборки CMAKE в CLion ditropan pristiq dosing With the Yankees leading, 4 3, Rivera jogged in from the bullpen to a standing ovation as he prepared for his final appearance in Chicago buy priligy pakistan
EVILEG-CORE. Использование Google reCAPTCHA 2001; 98 29 34 priligy buy
PyQt5 - Урок 007. Работаем с QML QtQuick (Сигналы и слоты) priligy 30mg Am J Obstet Gynecol 171 1488 505
Сейчас обсуждают на форуме
добавить qlineseries в функции priligy amazon canada 93 GREB1 protein GREB1 AB011147 6
Всё ещё разбираюсь с кешем. priligy walgreens levitra dulcolax carbs The third ring was found to be made up of ultra relativistic electrons, which are also present in both the outer and inner rings
IscanderChe31 октября 2024 г. 22:43
Машина тьюринга // Начальное состояние 0 0, ,<,1 // Переход в состояние 1 при пустом символе 0,0,>,0 // Остаемся в состоянии 0, двигаясь вправо при встрече 0 0,1,>…
ИМ
Реализация навигации по разделам Спасибо Евгений!
Игорь Максимов3 октября 2024 г. 11:05
You forgot Q_OBJECT macros in oval.h. Therefore you could not build project.
Thank you very much sir,Now program is running without any errors.but problem is which can't draw a oval shape using mouse as your project.this image shows how my program is running.but problem is which cannot draw oval shape,can you tell me what is the reason.please check my sample project,thank you!!!