/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt Designer of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "connectionedit_p.h" #include #include #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE static const int BG_ALPHA = 32; static const int LINE_PROXIMITY_RADIUS = 3; static const int LOOP_MARGIN = 20; static const int VLABEL_MARGIN = 1; static const int HLABEL_MARGIN = 3; static const int GROUND_W = 20; static const int GROUND_H = 25; /******************************************************************************* ** Tools */ static QRect fixRect(const QRect &r) { return QRect(r.x(), r.y(), r.width() - 1, r.height() - 1); } static QRect expand(const QRect &r, int i) { return QRect(r.x() - i, r.y() - i, r.width() + 2*i, r.height() + 2*i); } static QRect endPointRectHelper(const QPoint &pos) { const QRect r(pos + QPoint(-LINE_PROXIMITY_RADIUS, -LINE_PROXIMITY_RADIUS), QSize(2*LINE_PROXIMITY_RADIUS, 2*LINE_PROXIMITY_RADIUS)); return r; } static void paintGround(QPainter *p, QRect r) { const QPoint mid = r.center(); p->drawLine(mid.x(), r.top(), mid.x(), mid.y()); p->drawLine(r.left(), mid.y(), r.right(), mid.y()); int y = r.top() + 4*r.height()/6; int x = GROUND_W/6; p->drawLine(r.left() + x, y, r.right() - x, y); y = r.top() + 5*r.height()/6; x = 2*GROUND_W/6; p->drawLine(r.left() + x, y, r.right() - x, y); p->drawLine(mid.x(), r.bottom(), mid.x() + 1, r.bottom()); } static void paintEndPoint(QPainter *p, const QPoint &pos) { const QRect r(pos + QPoint(-LINE_PROXIMITY_RADIUS, -LINE_PROXIMITY_RADIUS), QSize(2*LINE_PROXIMITY_RADIUS, 2*LINE_PROXIMITY_RADIUS)); p->fillRect(fixRect(r), p->pen().color()); } static qdesigner_internal::CETypes::LineDir classifyLine(const QPoint &p1, const QPoint &p2) { if (p1.x() == p2.x()) return p1.y() < p2.y() ? qdesigner_internal::CETypes::DownDir : qdesigner_internal::CETypes::UpDir; Q_ASSERT(p1.y() == p2.y()); return p1.x() < p2.x() ? qdesigner_internal::CETypes::RightDir : qdesigner_internal::CETypes::LeftDir; } static QPoint pointInsideRect(const QRect &r, QPoint p) { if (p.x() < r.left()) p.setX(r.left()); else if (p.x() > r.right()) p.setX(r.right()); if (p.y() < r.top()) p.setY(r.top()); else if (p.y() > r.bottom()) p.setY(r.bottom()); return p; } namespace qdesigner_internal { /******************************************************************************* ** Commands */ AddConnectionCommand::AddConnectionCommand(ConnectionEdit *edit, Connection *con) : CECommand(edit), m_con(con) { setText(QApplication::translate("Command", "Add connection")); } void AddConnectionCommand::redo() { edit()->selectNone(); emit edit()->aboutToAddConnection(edit()->m_con_list.size()); edit()->m_con_list.append(m_con); m_con->inserted(); edit()->setSelected(m_con, true); emit edit()->connectionAdded(m_con); } void AddConnectionCommand::undo() { const int idx = edit()->indexOfConnection(m_con); emit edit()->aboutToRemoveConnection(m_con); edit()->setSelected(m_con, false); m_con->update(); m_con->removed(); edit()->m_con_list.removeAll(m_con); emit edit()->connectionRemoved(idx); } class AdjustConnectionCommand : public CECommand { public: AdjustConnectionCommand(ConnectionEdit *edit, Connection *con, const QPoint &old_source_pos, const QPoint &old_target_pos, const QPoint &new_source_pos, const QPoint &new_target_pos); virtual void redo(); virtual void undo(); private: Connection *m_con; const QPoint m_old_source_pos; const QPoint m_old_target_pos; const QPoint m_new_source_pos; const QPoint m_new_target_pos; }; AdjustConnectionCommand::AdjustConnectionCommand(ConnectionEdit *edit, Connection *con, const QPoint &old_source_pos, const QPoint &old_target_pos, const QPoint &new_source_pos, const QPoint &new_target_pos) : CECommand(edit), m_con(con), m_old_source_pos(old_source_pos), m_old_target_pos(old_target_pos), m_new_source_pos(new_source_pos), m_new_target_pos(new_target_pos) { setText(QApplication::translate("Command", "Adjust connection")); } void AdjustConnectionCommand::undo() { m_con->setEndPoint(EndPoint::Source, m_con->widget(EndPoint::Source), m_old_source_pos); m_con->setEndPoint(EndPoint::Target, m_con->widget(EndPoint::Target), m_old_target_pos); } void AdjustConnectionCommand::redo() { m_con->setEndPoint(EndPoint::Source, m_con->widget(EndPoint::Source), m_new_source_pos); m_con->setEndPoint(EndPoint::Target, m_con->widget(EndPoint::Target), m_new_target_pos); } DeleteConnectionsCommand::DeleteConnectionsCommand(ConnectionEdit *edit, const ConnectionList &con_list) : CECommand(edit), m_con_list(con_list) { setText(QApplication::translate("Command", "Delete connections")); } void DeleteConnectionsCommand::redo() { foreach (Connection *con, m_con_list) { const int idx = edit()->indexOfConnection(con); emit edit()->aboutToRemoveConnection(con); Q_ASSERT(edit()->m_con_list.contains(con)); edit()->setSelected(con, false); con->update(); con->removed(); edit()->m_con_list.removeAll(con); emit edit()->connectionRemoved(idx); } } void DeleteConnectionsCommand::undo() { foreach (Connection *con, m_con_list) { Q_ASSERT(!edit()->m_con_list.contains(con)); emit edit()->aboutToAddConnection(edit()->m_con_list.size()); edit()->m_con_list.append(con); edit()->setSelected(con, true); con->update(); con->inserted(); emit edit()->connectionAdded(con); } } class SetEndPointCommand : public CECommand { public: SetEndPointCommand(ConnectionEdit *edit, Connection *con, EndPoint::Type type, QObject *object); virtual void redo(); virtual void undo(); private: Connection *m_con; const EndPoint::Type m_type; QObject *m_old_widget, *m_new_widget; const QPoint m_old_pos; QPoint m_new_pos; }; SetEndPointCommand::SetEndPointCommand(ConnectionEdit *edit, Connection *con, EndPoint::Type type, QObject *object) : CECommand(edit), m_con(con), m_type(type), m_old_widget(con->object(type)), m_new_widget(object), m_old_pos(con->endPointPos(type)) { if (QWidget *widget = qobject_cast(object)) { m_new_pos = edit->widgetRect(widget).center(); } if (m_type == EndPoint::Source) setText(QApplication::translate("Command", "Change source")); else setText(QApplication::translate("Command", "Change target")); } void SetEndPointCommand::redo() { m_con->setEndPoint(m_type, m_new_widget, m_new_pos); emit edit()->connectionChanged(m_con); } void SetEndPointCommand::undo() { m_con->setEndPoint(m_type, m_old_widget, m_old_pos); emit edit()->connectionChanged(m_con); } /******************************************************************************* ** Connection */ Connection::Connection(ConnectionEdit *edit) : m_source_pos(QPoint(-1, -1)), m_target_pos(QPoint(-1, -1)), m_source(0), m_target(0), m_edit(edit), m_visible(true) { } Connection::Connection(ConnectionEdit *edit, QObject *source, QObject *target) : m_source_pos(QPoint(-1, -1)), m_target_pos(QPoint(-1, -1)), m_source(source), m_target(target), m_edit(edit), m_visible(true) { } void Connection::setVisible(bool b) { m_visible = b; } void Connection::updateVisibility() { QWidget *source = widget(EndPoint::Source); QWidget *target = widget(EndPoint::Target); if (source == 0 || target == 0) { setVisible(false); return; } QWidget *w = source; while (w && w->parentWidget()) { if (!w->isVisibleTo(w->parentWidget())) { setVisible(false); return; } w = w->parentWidget(); } w = target; while (w && w->parentWidget()) { if (!w->isVisibleTo(w->parentWidget())) { setVisible(false); return; } w = w->parentWidget(); } setVisible(true); } bool Connection::isVisible() const { return m_visible; } bool Connection::ground() const { return m_target != 0 && m_target == m_edit->m_bg_widget; } QPoint Connection::endPointPos(EndPoint::Type type) const { if (type == EndPoint::Source) return m_source_pos; else return m_target_pos; } static QPoint lineEntryPos(const QPoint &p1, const QPoint &p2, const QRect &rect) { QPoint result; switch (classifyLine(p1, p2)) { case CETypes::UpDir: result = QPoint(p1.x(), rect.bottom()); break; case CETypes::DownDir: result = QPoint(p1.x(), rect.top()); break; case CETypes::LeftDir: result = QPoint(rect.right(), p1.y()); break; case CETypes::RightDir: result = QPoint(rect.left(), p1.y()); break; } return result; } static QPolygonF arrowHead(const QPoint &p1, const QPoint &p2) { QPolygonF result; switch (classifyLine(p1, p2)) { case CETypes::UpDir: result.append(p2 + QPoint(0, 1)); result.append(p2 + QPoint(LINE_PROXIMITY_RADIUS, LINE_PROXIMITY_RADIUS*2 + 1)); result.append(p2 + QPoint(-LINE_PROXIMITY_RADIUS, LINE_PROXIMITY_RADIUS*2 + 1)); break; case CETypes::DownDir: result.append(p2); result.append(p2 + QPoint(LINE_PROXIMITY_RADIUS, -LINE_PROXIMITY_RADIUS*2)); result.append(p2 + QPoint(-LINE_PROXIMITY_RADIUS, -LINE_PROXIMITY_RADIUS*2)); break; case CETypes::LeftDir: result.append(p2 + QPoint(1, 0)); result.append(p2 + QPoint(2*LINE_PROXIMITY_RADIUS + 1, -LINE_PROXIMITY_RADIUS)); result.append(p2 + QPoint(2*LINE_PROXIMITY_RADIUS + 1, LINE_PROXIMITY_RADIUS)); break; case CETypes::RightDir: result.append(p2); result.append(p2 + QPoint(-2*LINE_PROXIMITY_RADIUS, -LINE_PROXIMITY_RADIUS)); result.append(p2 + QPoint(-2*LINE_PROXIMITY_RADIUS, LINE_PROXIMITY_RADIUS)); break; } return result; } static CETypes::LineDir closestEdge(const QPoint &p, const QRect &r) { CETypes::LineDir result = CETypes::UpDir; int min = p.y() - r.top(); int d = p.x() - r.left(); if (d < min) { min = d; result = CETypes::LeftDir; } d = r.bottom() - p.y(); if (d < min) { min = d; result = CETypes::DownDir; } d = r.right() - p.x(); if (d < min) { min = d; result = CETypes::RightDir; } return result; } static bool pointAboveLine(const QPoint &l1, const QPoint &l2, const QPoint &p) { if (l1.x() == l2.x()) return p.x() >= l1.x(); return p.y() <= l1.y() + (p.x() - l1.x())*(l2.y() - l1.y())/(l2.x() - l1.x()); } void Connection::updateKneeList() { const LineDir old_source_label_dir = labelDir(EndPoint::Source); const LineDir old_target_label_dir = labelDir(EndPoint::Target); QPoint s = endPointPos(EndPoint::Source); QPoint t = endPointPos(EndPoint::Target); const QRect sr = m_source_rect; const QRect tr = m_target_rect; m_knee_list.clear(); m_arrow_head.clear(); if (m_source == 0 || s == QPoint(-1, -1) || t == QPoint(-1, -1)) return; const QRect r = sr | tr; m_knee_list.append(s); if (m_target == 0) { m_knee_list.append(QPoint(t.x(), s.y())); } else if (m_target == m_edit->m_bg_widget) { m_knee_list.append(QPoint(s.x(), t.y())); } else if (tr.contains(sr) || sr.contains(tr)) { /* +------------------+ | +----------+ | | | | | | | o | | | +---|------+ | | | x | +-----|-----|------+ +-----+ We find out which edge of the outer rectangle is closest to the target point, and make a loop which exits and re-enters through that edge. */ const LineDir dir = closestEdge(t, tr); switch (dir) { case UpDir: m_knee_list.append(QPoint(s.x(), r.top() - LOOP_MARGIN)); m_knee_list.append(QPoint(t.x(), r.top() - LOOP_MARGIN)); break; case DownDir: m_knee_list.append(QPoint(s.x(), r.bottom() + LOOP_MARGIN)); m_knee_list.append(QPoint(t.x(), r.bottom() + LOOP_MARGIN)); break; case LeftDir: m_knee_list.append(QPoint(r.left() - LOOP_MARGIN, s.y())); m_knee_list.append(QPoint(r.left() - LOOP_MARGIN, t.y())); break; case RightDir: m_knee_list.append(QPoint(r.right() + LOOP_MARGIN, s.y())); m_knee_list.append(QPoint(r.right() + LOOP_MARGIN, t.y())); break; } } else { if (r.height() < sr.height() + tr.height()) { if ((s.y() >= tr.top() && s.y() <= tr.bottom()) || (t.y() >= sr.bottom() || t.y() <= sr.top())) { /* +--------+ | | +--------+ | o--+---+--x | | o | | | +-----|--+ | | +------+--x | +--------+ When dragging one end point, move the other end point to the same y position, if that does not cause it to exit it's rectangle. */ if (m_edit->state() == ConnectionEdit::Dragging) { if (m_edit->m_drag_end_point.type == EndPoint::Source) { const QPoint p(t.x(), s.y()); m_knee_list.append(p); if (tr.contains(p)) t = m_target_pos = p; } else { const QPoint p(s.x(), t.y()); m_knee_list.append(p); if (sr.contains(p)) s = m_source_pos = p; } } else { m_knee_list.append(QPoint(s.x(), t.y())); } } else { /* +--------+ | o----+-------+ | | +---|----+ +--------+ | | | | x | +--------+ */ m_knee_list.append(QPoint(t.x(), s.y())); } } else if (r.width() < sr.width() + tr.width()) { if ((s.x() >= tr.left() && s.x() <= tr.right()) || t.x() >= sr.right() || t.x() <= sr.left()) { /* +--------+ | | | o o+--+ +----|---+ | +-|------|-+ | x x | | | +----------+ When dragging one end point, move the other end point to the same x position, if that does not cause it to exit it's rectangle. */ if (m_edit->state() == ConnectionEdit::Dragging) { if (m_edit->m_drag_end_point.type == EndPoint::Source) { const QPoint p(s.x(), t.y()); m_knee_list.append(p); if (tr.contains(p)) t = m_target_pos = p; } else { const QPoint p(t.x(), s.y()); m_knee_list.append(p); if (sr.contains(p)) s = m_source_pos = p; } } else { m_knee_list.append(QPoint(t.x(), s.y())); } } else { /* +--------+ | | | o | +--|-----+ | +--------+ +---+-x | | | +--------+ */ m_knee_list.append(QPoint(s.x(), t.y())); } } else { /* +--------+ | | | o o-+--------+ +--|-----+ | | +-----|--+ | | x | +--------+-x | +--------+ The line enters the target rectangle through the closest edge. */ if (sr.topLeft() == r.topLeft()) { if (pointAboveLine(tr.topLeft(), tr.bottomRight(), t)) m_knee_list.append(QPoint(t.x(), s.y())); else m_knee_list.append(QPoint(s.x(), t.y())); } else if (sr.topRight() == r.topRight()) { if (pointAboveLine(tr.bottomLeft(), tr.topRight(), t)) m_knee_list.append(QPoint(t.x(), s.y())); else m_knee_list.append(QPoint(s.x(), t.y())); } else if (sr.bottomRight() == r.bottomRight()) { if (pointAboveLine(tr.topLeft(), tr.bottomRight(), t)) m_knee_list.append(QPoint(s.x(), t.y())); else m_knee_list.append(QPoint(t.x(), s.y())); } else { if (pointAboveLine(tr.bottomLeft(), tr.topRight(), t)) m_knee_list.append(QPoint(s.x(), t.y())); else m_knee_list.append(QPoint(t.x(), s.y())); } } } m_knee_list.append(t); if (m_knee_list.size() == 2) m_knee_list.clear(); trimLine(); const LineDir new_source_label_dir = labelDir(EndPoint::Source); const LineDir new_target_label_dir = labelDir(EndPoint::Target); if (new_source_label_dir != old_source_label_dir) updatePixmap(EndPoint::Source); if (new_target_label_dir != old_target_label_dir) updatePixmap(EndPoint::Target); } void Connection::trimLine() { if (m_source == 0 || m_source_pos == QPoint(-1, -1) || m_target_pos == QPoint(-1, -1)) return; int cnt = m_knee_list.size(); if (cnt < 2) return; const QRect sr = m_source_rect; const QRect tr = m_target_rect; if (sr.contains(m_knee_list.at(1))) m_knee_list.removeFirst(); cnt = m_knee_list.size(); if (cnt < 2) return; if (!tr.contains(sr) && tr.contains(m_knee_list.at(cnt - 2))) m_knee_list.removeLast(); cnt = m_knee_list.size(); if (cnt < 2) return; if (sr.contains(m_knee_list.at(0)) && !sr.contains(m_knee_list.at(1))) m_knee_list[0] = lineEntryPos(m_knee_list.at(1), m_knee_list.at(0), sr); if (tr.contains(m_knee_list.at(cnt - 1)) && !tr.contains(m_knee_list.at(cnt - 2))) { m_knee_list[cnt - 1] = lineEntryPos(m_knee_list.at(cnt - 2), m_knee_list.at(cnt - 1), tr); m_arrow_head = arrowHead(m_knee_list.at(cnt - 2), m_knee_list.at(cnt - 1)); } } void Connection::setSource(QObject *source, const QPoint &pos) { if (source == m_source && m_source_pos == pos) return; update(false); m_source = source; if (QWidget *widget = qobject_cast(source)) { m_source_pos = pos; m_source_rect = m_edit->widgetRect(widget); updateKneeList(); } update(false); } void Connection::setTarget(QObject *target, const QPoint &pos) { if (target == m_target && m_target_pos == pos) return; update(false); m_target = target; if (QWidget *widget = qobject_cast(target)) { m_target_pos = pos; m_target_rect = m_edit->widgetRect(widget); updateKneeList(); } update(false); } static QRect lineRect(const QPoint &a, const QPoint &b) { const QPoint c(qMin(a.x(), b.x()), qMin(a.y(), b.y())); const QPoint d(qMax(a.x(), b.x()), qMax(a.y(), b.y())); QRect result(c, d); return expand(result, LINE_PROXIMITY_RADIUS); } QRect Connection::groundRect() const { if (!ground()) return QRect(); if (m_knee_list.isEmpty()) return QRect(); const QPoint p = m_knee_list.last(); return QRect(p.x() - GROUND_W/2, p.y(), GROUND_W, GROUND_H); } QRegion Connection::region() const { QRegion result; for (int i = 0; i < m_knee_list.size() - 1; ++i) result = result.unite(lineRect(m_knee_list.at(i), m_knee_list.at(i + 1))); if (!m_arrow_head.isEmpty()) { QRect r = m_arrow_head.boundingRect().toRect(); r = expand(r, 1); result = result.unite(r); } else if (ground()) { result = result.unite(groundRect()); } result = result.unite(labelRect(EndPoint::Source)); result = result.unite(labelRect(EndPoint::Target)); return result; } void Connection::update(bool update_widgets) const { m_edit->update(region()); if (update_widgets) { if (m_source != 0) m_edit->update(m_source_rect); if (m_target != 0) m_edit->update(m_target_rect); } m_edit->update(endPointRect(EndPoint::Source)); m_edit->update(endPointRect(EndPoint::Target)); } void Connection::paint(QPainter *p) const { for (int i = 0; i < m_knee_list.size() - 1; ++i) p->drawLine(m_knee_list.at(i), m_knee_list.at(i + 1)); if (!m_arrow_head.isEmpty()) { p->save(); p->setBrush(p->pen().color()); p->drawPolygon(m_arrow_head); p->restore(); } else if (ground()) { paintGround(p, groundRect()); } } bool Connection::contains(const QPoint &pos) const { return region().contains(pos); } QRect Connection::endPointRect(EndPoint::Type type) const { if (type == EndPoint::Source) { if (m_source_pos != QPoint(-1, -1)) return endPointRectHelper(m_source_pos); } else { if (m_target_pos != QPoint(-1, -1)) return endPointRectHelper(m_target_pos); } return QRect(); } CETypes::LineDir Connection::labelDir(EndPoint::Type type) const { const int cnt = m_knee_list.size(); if (cnt < 2) return RightDir; LineDir dir; if (type == EndPoint::Source) dir = classifyLine(m_knee_list.at(0), m_knee_list.at(1)); else dir = classifyLine(m_knee_list.at(cnt - 2), m_knee_list.at(cnt - 1)); if (dir == LeftDir) dir = RightDir; if (dir == UpDir) dir = DownDir; return dir; } QRect Connection::labelRect(EndPoint::Type type) const { const int cnt = m_knee_list.size(); if (cnt < 2) return QRect(); const QString text = label(type); if (text.isEmpty()) return QRect(); const QSize size = labelPixmap(type).size(); QPoint p1, p2; if (type == EndPoint::Source) { p1 = m_knee_list.at(0); p2 = m_knee_list.at(1); } else { p1 = m_knee_list.at(cnt - 1); p2 = m_knee_list.at(cnt - 2); } const LineDir dir = classifyLine(p1, p2); QRect result; switch (dir) { case UpDir: result = QRect(p1 + QPoint(-size.width()/2, 0), size); break; case DownDir: result = QRect(p1 + QPoint(-size.width()/2, -size.height()), size); break; case LeftDir: result = QRect(p1 + QPoint(0, -size.height()/2), size); break; case RightDir: result = QRect(p1 + QPoint(-size.width(), -size.height()/2), size); break; } return result; } void Connection::setLabel(EndPoint::Type type, const QString &text) { if (text == label(type)) return; if (type == EndPoint::Source) m_source_label = text; else m_target_label = text; updatePixmap(type); } void Connection::updatePixmap(EndPoint::Type type) { QPixmap *pm = type == EndPoint::Source ? &m_source_label_pm : &m_target_label_pm; const QString text = label(type); if (text.isEmpty()) { *pm = QPixmap(); return; } const QFontMetrics fm = m_edit->fontMetrics(); const QSize size = fm.size(Qt::TextSingleLine, text) + QSize(HLABEL_MARGIN*2, VLABEL_MARGIN*2); *pm = QPixmap(size); QColor color = m_edit->palette().color(QPalette::Normal, QPalette::Base); color.setAlpha(190); pm->fill(color); QPainter p(pm); p.setPen(m_edit->palette().color(QPalette::Normal, QPalette::Text)); p.drawText(-fm.leftBearing(text.at(0)) + HLABEL_MARGIN, fm.ascent() + VLABEL_MARGIN, text); p.end(); const LineDir dir = labelDir(type); if (dir == DownDir) *pm = pm->transformed(QMatrix(0.0, -1.0, 1.0, 0.0, 0.0, 0.0)); } void Connection::checkWidgets() { bool changed = false; if (QWidget *sourceWidget = qobject_cast(m_source)) { const QRect r = m_edit->widgetRect(sourceWidget); if (r != m_source_rect) { if (m_source_pos != QPoint(-1, -1) && !r.contains(m_source_pos)) { QPoint offset = m_source_pos - m_source_rect.topLeft(); QPoint old_pos = m_source_pos; m_source_pos = pointInsideRect(r, r.topLeft() + offset); } m_edit->update(m_source_rect); m_source_rect = r; changed = true; } } if (QWidget *targetWidget = qobject_cast(m_target)) { const QRect r = m_edit->widgetRect(targetWidget); if (r != m_target_rect) { if (m_target_pos != QPoint(-1, -1) && !r.contains(m_target_pos)) { const QPoint offset = m_target_pos - m_target_rect.topLeft(); const QPoint old_pos = m_target_pos; m_target_pos = pointInsideRect(r, r.topLeft() + offset); } m_edit->update(m_target_rect); m_target_rect = r; changed = true; } } if (changed) { update(); updateKneeList(); update(); } } /******************************************************************************* ** ConnectionEdit */ ConnectionEdit::ConnectionEdit(QWidget *parent, QDesignerFormWindowInterface *form) : QWidget(parent), m_bg_widget(0), m_undo_stack(form->commandHistory()), m_enable_update_background(false), m_tmp_con(0), m_start_connection_on_drag(true), m_widget_under_mouse(0), m_inactive_color(Qt::blue), m_active_color(Qt::red) { setAttribute(Qt::WA_MouseTracking, true); setFocusPolicy(Qt::ClickFocus); connect(form, SIGNAL(widgetRemoved(QWidget*)), this, SLOT(widgetRemoved(QWidget*))); connect(form, SIGNAL(objectRemoved(QObject*)), this, SLOT(objectRemoved(QObject*))); } ConnectionEdit::~ConnectionEdit() { qDeleteAll(m_con_list); } void ConnectionEdit::clear() { m_con_list.clear(); m_sel_con_set.clear(); m_bg_widget = 0; m_widget_under_mouse = 0; m_tmp_con = 0; } void ConnectionEdit::setBackground(QWidget *background) { if (background == m_bg_widget) { // nothing to do return; } m_bg_widget = background; updateBackground(); } void ConnectionEdit::enableUpdateBackground(bool enable) { m_enable_update_background = enable; if (enable) updateBackground(); } void ConnectionEdit::updateBackground() { // Might happen while reloading a form. if (m_bg_widget == 0) return; if (!m_enable_update_background) return; foreach(Connection *c, m_con_list) c->updateVisibility(); updateLines(); update(); } QWidget *ConnectionEdit::widgetAt(const QPoint &pos) const { if (m_bg_widget == 0) return 0; QWidget *widget = m_bg_widget->childAt(pos); if (widget == 0) widget = m_bg_widget; return widget; } QRect ConnectionEdit::widgetRect(QWidget *w) const { if (w == 0) return QRect(); QRect r = w->geometry(); QPoint pos = w->mapToGlobal(QPoint(0, 0)); pos = mapFromGlobal(pos); r.moveTopLeft(pos); return r; } ConnectionEdit::State ConnectionEdit::state() const { if (m_tmp_con != 0) return Connecting; if (!m_drag_end_point.isNull()) return Dragging; return Editing; } void ConnectionEdit::paintLabel(QPainter *p, EndPoint::Type type, Connection *con) { if (con->label(type).isEmpty()) return; const bool heavy = selected(con) || con == m_tmp_con; p->setPen(heavy ? m_active_color : m_inactive_color); p->setBrush(Qt::NoBrush); const QRect r = con->labelRect(type); p->drawPixmap(r.topLeft(), con->labelPixmap(type)); p->drawRect(fixRect(r)); } void ConnectionEdit::paintConnection(QPainter *p, Connection *con, WidgetSet *heavy_highlight_set, WidgetSet *light_highlight_set) const { QWidget *source = con->widget(EndPoint::Source); QWidget *target = con->widget(EndPoint::Target); const bool heavy = selected(con) || con == m_tmp_con; WidgetSet *set = heavy ? heavy_highlight_set : light_highlight_set; p->setPen(heavy ? m_active_color : m_inactive_color); con->paint(p); if (source != 0 && source != m_bg_widget) set->insert(source, source); if (target != 0 && target != m_bg_widget) set->insert(target, target); } void ConnectionEdit::paintEvent(QPaintEvent *e) { QPainter p(this); p.setClipRegion(e->region()); WidgetSet heavy_highlight_set, light_highlight_set; foreach (Connection *con, m_con_list) { if (!con->isVisible()) continue; paintConnection(&p, con, &heavy_highlight_set, &light_highlight_set); } if (m_tmp_con != 0) paintConnection(&p, m_tmp_con, &heavy_highlight_set, &light_highlight_set); if (!m_widget_under_mouse.isNull() && m_widget_under_mouse != m_bg_widget) heavy_highlight_set.insert(m_widget_under_mouse, m_widget_under_mouse); QColor c = m_active_color; p.setPen(c); c.setAlpha(BG_ALPHA); p.setBrush(c); foreach (QWidget *w, heavy_highlight_set) { p.drawRect(fixRect(widgetRect(w))); light_highlight_set.remove(w); } c = m_inactive_color; p.setPen(c); c.setAlpha(BG_ALPHA); p.setBrush(c); foreach (QWidget *w, light_highlight_set) p.drawRect(fixRect(widgetRect(w))); p.setBrush(palette().color(QPalette::Base)); p.setPen(palette().color(QPalette::Text)); foreach (Connection *con, m_con_list) { if (!con->isVisible()) continue; paintLabel(&p, EndPoint::Source, con); paintLabel(&p, EndPoint::Target, con); } p.setPen(m_active_color); p.setBrush(m_active_color); foreach (Connection *con, m_con_list) { if (!selected(con) || !con->isVisible()) continue; paintEndPoint(&p, con->endPointPos(EndPoint::Source)); if (con->widget(EndPoint::Target) != 0) paintEndPoint(&p, con->endPointPos(EndPoint::Target)); } } void ConnectionEdit::abortConnection() { m_tmp_con->update(); delete m_tmp_con; m_tmp_con = 0; #ifndef QT_NO_CURSOR setCursor(QCursor()); #endif if (m_widget_under_mouse == m_bg_widget) m_widget_under_mouse = 0; } void ConnectionEdit::mousePressEvent(QMouseEvent *e) { // Right click only to cancel const Qt::MouseButton button = e->button(); const State cstate = state(); if (button != Qt::LeftButton && !(button == Qt::RightButton && cstate == Connecting)) { QWidget::mousePressEvent(e); return; } e->accept(); // Prefer a non-background widget over the connection, // otherwise, widgets covered by the connection labels cannot be accessed Connection *con_under_mouse = 0; if (!m_widget_under_mouse || m_widget_under_mouse == m_bg_widget) con_under_mouse = connectionAt(e->pos()); m_start_connection_on_drag = false; switch (cstate) { case Connecting: if (button == Qt::RightButton) abortConnection(); break; case Dragging: break; case Editing: if (!m_end_point_under_mouse.isNull()) { if (!(e->modifiers() & Qt::ShiftModifier)) { startDrag(m_end_point_under_mouse, e->pos()); } } else if (con_under_mouse != 0) { if (!(e->modifiers() & Qt::ShiftModifier)) { selectNone(); setSelected(con_under_mouse, true); } else { setSelected(con_under_mouse, !selected(con_under_mouse)); } } else { if (!(e->modifiers() & Qt::ShiftModifier)) { selectNone(); if (!m_widget_under_mouse.isNull()) m_start_connection_on_drag = true; } } break; } } void ConnectionEdit::mouseDoubleClickEvent(QMouseEvent *e) { if (e->button() != Qt::LeftButton) { QWidget::mouseDoubleClickEvent(e); return; } e->accept(); switch (state()) { case Connecting: abortConnection(); break; case Dragging: break; case Editing: if (!m_widget_under_mouse.isNull()) { emit widgetActivated(m_widget_under_mouse); } else if (m_sel_con_set.size() == 1) { Connection *con = m_sel_con_set.keys().first(); modifyConnection(con); } break; } } void ConnectionEdit::mouseReleaseEvent(QMouseEvent *e) { if (e->button() != Qt::LeftButton) { QWidget::mouseReleaseEvent(e); return; } e->accept(); switch (state()) { case Connecting: if (m_widget_under_mouse.isNull()) abortConnection(); else endConnection(m_widget_under_mouse, e->pos()); #ifndef QT_NO_CURSOR setCursor(QCursor()); #endif break; case Editing: break; case Dragging: endDrag(e->pos()); break; } } void ConnectionEdit::findObjectsUnderMouse(const QPoint &pos) { Connection *con_under_mouse = connectionAt(pos); QWidget *w = widgetAt(pos); // Prefer a non-background widget over the connection, // otherwise, widgets covered by the connection labels cannot be accessed if (w == m_bg_widget && con_under_mouse) w = 0; else con_under_mouse = 0; if (w != m_widget_under_mouse) { if (!m_widget_under_mouse.isNull()) update(widgetRect(m_widget_under_mouse)); m_widget_under_mouse = w; if (!m_widget_under_mouse.isNull()) update(widgetRect(m_widget_under_mouse)); } const EndPoint hs = endPointAt(pos); if (hs != m_end_point_under_mouse) { #ifndef QT_NO_CURSOR if (m_end_point_under_mouse.isNull()) setCursor(Qt::PointingHandCursor); else setCursor(QCursor()); #endif m_end_point_under_mouse = hs; } } void ConnectionEdit::mouseMoveEvent(QMouseEvent *e) { findObjectsUnderMouse(e->pos()); switch (state()) { case Connecting: continueConnection(m_widget_under_mouse, e->pos()); break; case Editing: if ((e->buttons() & Qt::LeftButton) && m_start_connection_on_drag && !m_widget_under_mouse.isNull()) { m_start_connection_on_drag = false; startConnection(m_widget_under_mouse, e->pos()); #ifndef QT_NO_CURSOR setCursor(Qt::CrossCursor); #endif } break; case Dragging: continueDrag(e->pos()); break; } e->accept(); } void ConnectionEdit::keyPressEvent(QKeyEvent *e) { switch (e->key()) { case Qt::Key_Delete: if (state() == Editing) deleteSelected(); break; case Qt::Key_Escape: if (state() == Connecting) abortConnection(); break; } e->accept(); } void ConnectionEdit::startConnection(QWidget *source, const QPoint &pos) { Q_ASSERT(m_tmp_con == 0); m_tmp_con = new Connection(this); m_tmp_con->setEndPoint(EndPoint::Source, source, pos); } void ConnectionEdit::endConnection(QWidget *target, const QPoint &pos) { Q_ASSERT(m_tmp_con != 0); m_tmp_con->setEndPoint(EndPoint::Target, target, pos); QWidget *source = m_tmp_con->widget(EndPoint::Source); Q_ASSERT(source != 0); Q_ASSERT(target != 0); setEnabled(false); Connection *new_con = createConnection(source, target); setEnabled(true); if (new_con != 0) { new_con->setEndPoint(EndPoint::Source, source, m_tmp_con->endPointPos(EndPoint::Source)); new_con->setEndPoint(EndPoint::Target, target, m_tmp_con->endPointPos(EndPoint::Target)); m_undo_stack->push(new AddConnectionCommand(this, new_con)); emit connectionChanged(new_con); } delete m_tmp_con; m_tmp_con = 0; findObjectsUnderMouse(mapFromGlobal(QCursor::pos())); } void ConnectionEdit::continueConnection(QWidget *target, const QPoint &pos) { Q_ASSERT(m_tmp_con != 0); m_tmp_con->setEndPoint(EndPoint::Target, target, pos); } void ConnectionEdit::modifyConnection(Connection *) { } Connection *ConnectionEdit::createConnection(QWidget *source, QWidget *target) { Connection *con = new Connection(this, source, target); return con; } // Find all connections which in which a sequence of objects is involved template static ConnectionEdit::ConnectionSet findConnectionsOf(const ConnectionEdit::ConnectionList &cl, ObjectIterator oi1, const ObjectIterator &oi2) { ConnectionEdit::ConnectionSet rc; const ConnectionEdit::ConnectionList::const_iterator ccend = cl.constEnd(); for ( ; oi1 != oi2; ++oi1) { for (ConnectionEdit::ConnectionList::const_iterator cit = cl.constBegin(); cit != ccend; ++cit) { Connection *con = *cit; if (con->object(ConnectionEdit::EndPoint::Source) == *oi1 || con->object(ConnectionEdit::EndPoint::Target) == *oi1) rc.insert(con, con); } } return rc; } void ConnectionEdit::widgetRemoved(QWidget *widget) { // Remove all connections of that widget and its children. if (m_con_list.empty()) return; QWidgetList child_list = qFindChildren(widget); child_list.prepend(widget); const ConnectionSet remove_set = findConnectionsOf(m_con_list, child_list.constBegin(), child_list.constEnd()); if (!remove_set.isEmpty()) m_undo_stack->push(new DeleteConnectionsCommand(this, remove_set.keys())); updateBackground(); } void ConnectionEdit::objectRemoved(QObject *o) { // Remove all connections of that object and its children (in case of action groups). if (m_con_list.empty()) return; QObjectList child_list = o->children(); child_list.prepend(o); const ConnectionSet remove_set = findConnectionsOf(m_con_list, child_list.constBegin(), child_list.constEnd()); if (!remove_set.isEmpty()) m_undo_stack->push(new DeleteConnectionsCommand(this, remove_set.keys())); updateBackground(); } void ConnectionEdit::setSelected(Connection *con, bool sel) { if (!con || sel == m_sel_con_set.contains(con)) return; if (sel) { m_sel_con_set.insert(con, con); emit connectionSelected(con); } else { m_sel_con_set.remove(con); } con->update(); } bool ConnectionEdit::selected(const Connection *con) const { return m_sel_con_set.contains(const_cast(con)); } void ConnectionEdit::selectNone() { foreach (Connection *con, m_sel_con_set) con->update(); m_sel_con_set.clear(); } void ConnectionEdit::selectAll() { if (m_sel_con_set.size() == m_con_list.size()) return; foreach (Connection *con, m_con_list) setSelected(con, true); } Connection *ConnectionEdit::connectionAt(const QPoint &pos) const { foreach (Connection *con, m_con_list) { if (con->contains(pos)) return con; } return 0; } CETypes::EndPoint ConnectionEdit::endPointAt(const QPoint &pos) const { foreach (Connection *con, m_con_list) { if (!selected(con)) continue; const QRect sr = con->endPointRect(EndPoint::Source); const QRect tr = con->endPointRect(EndPoint::Target); if (sr.contains(pos)) return EndPoint(con, EndPoint::Source); if (tr.contains(pos)) return EndPoint(con, EndPoint::Target); } return EndPoint(); } void ConnectionEdit::startDrag(const EndPoint &end_point, const QPoint &pos) { Q_ASSERT(m_drag_end_point.isNull()); m_drag_end_point = end_point; m_old_source_pos = m_drag_end_point.con->endPointPos(EndPoint::Source); m_old_target_pos = m_drag_end_point.con->endPointPos(EndPoint::Target); adjustHotSopt(m_drag_end_point, pos); } void ConnectionEdit::continueDrag(const QPoint &pos) { Q_ASSERT(!m_drag_end_point.isNull()); adjustHotSopt(m_drag_end_point, pos); } void ConnectionEdit::endDrag(const QPoint &pos) { Q_ASSERT(!m_drag_end_point.isNull()); adjustHotSopt(m_drag_end_point, pos); Connection *con = m_drag_end_point.con; const QPoint new_source_pos = con->endPointPos(EndPoint::Source); const QPoint new_target_pos = con->endPointPos(EndPoint::Target); m_undo_stack->push(new AdjustConnectionCommand(this, con, m_old_source_pos, m_old_target_pos, new_source_pos, new_target_pos)); m_drag_end_point = EndPoint(); } void ConnectionEdit::adjustHotSopt(const EndPoint &end_point, const QPoint &pos) { QWidget *w = end_point.con->widget(end_point.type); end_point.con->setEndPoint(end_point.type, w, pointInsideRect(widgetRect(w), pos)); } void ConnectionEdit::deleteSelected() { if (m_sel_con_set.isEmpty()) return; m_undo_stack->push(new DeleteConnectionsCommand(this, m_sel_con_set.keys())); } void ConnectionEdit::addConnection(Connection *con) { m_con_list.append(con); } void ConnectionEdit::updateLines() { foreach (Connection *con, m_con_list) con->checkWidgets(); } void ConnectionEdit::resizeEvent(QResizeEvent *e) { updateBackground(); QWidget::resizeEvent(e); } void ConnectionEdit::setSource(Connection *con, const QString &obj_name) { QObject *object = 0; if (!obj_name.isEmpty()) { object = qFindChild(m_bg_widget, obj_name); if (object == 0 && m_bg_widget->objectName() == obj_name) object = m_bg_widget; if (object == con->object(EndPoint::Source)) return; } m_undo_stack->push(new SetEndPointCommand(this, con, EndPoint::Source, object)); } void ConnectionEdit::setTarget(Connection *con, const QString &obj_name) { QObject *object = 0; if (!obj_name.isEmpty()) { object = qFindChild(m_bg_widget, obj_name); if (object == 0 && m_bg_widget->objectName() == obj_name) object = m_bg_widget; if (object == con->object(EndPoint::Target)) return; } m_undo_stack->push(new SetEndPointCommand(this, con, EndPoint::Target, object)); } Connection *ConnectionEdit::takeConnection(Connection *con) { if (!m_con_list.contains(con)) return 0; m_con_list.removeAll(con); return con; } void ConnectionEdit::clearNewlyAddedConnection() { delete m_tmp_con; m_tmp_con = 0; } void ConnectionEdit::createContextMenu(QMenu &menu) { // Select QAction *selectAllAction = menu.addAction(tr("Select All")); selectAllAction->setEnabled(connectionList().size()); connect(selectAllAction, SIGNAL(triggered()), this, SLOT(selectAll())); QAction *deselectAllAction = menu.addAction(tr("Deselect All")); deselectAllAction->setEnabled(selection().size()); connect(deselectAllAction, SIGNAL(triggered()), this, SLOT(selectNone())); menu.addSeparator(); // Delete QAction *deleteAction = menu.addAction(tr("Delete")); deleteAction->setShortcut(QKeySequence::Delete); deleteAction->setEnabled(!selection().isEmpty()); connect(deleteAction, SIGNAL(triggered()), this, SLOT(deleteSelected())); } void ConnectionEdit::contextMenuEvent(QContextMenuEvent * event) { QMenu menu; createContextMenu(menu); menu.exec(event->globalPos()); } } // namespace qdesigner_internal QT_END_NAMESPACE