/* * Copyright (C) 2007 Ivan Cukic * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2, * or (at your option) any later version, as published by the Free * Software Foundation * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details * * You should have received a copy of the GNU General Public * License along with this program; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "borderlayout.h" namespace Plasma { class BorderLayout::Private { public: BorderLayout * q; explicit Private(BorderLayout * parent = 0) : q(parent) { sizes[LeftPositioned] = -1; sizes[RightPositioned] = -1; sizes[TopPositioned] = -1; sizes[BottomPositioned] = -1; sizes[CenterPositioned] = -1; } virtual ~Private() { } QMap< Position, LayoutItem * > itemPositions; QRectF geometry; QMap< Position, qreal > sizes; }; BorderLayout::BorderLayout(LayoutItem * parent) : Layout(parent), d(new Private(this)) { if (parent) { parent->setLayout(this); } } BorderLayout::~BorderLayout() { delete d; } Qt::Orientations BorderLayout::expandingDirections() const { return Qt::Horizontal | Qt::Vertical; } QRectF BorderLayout::geometry() const { return d->geometry; } void BorderLayout::setGeometry(const QRectF& geometry) { if (!geometry.isValid() || geometry.isEmpty()) { return; } d->geometry = geometry; invalidate(); } void BorderLayout::invalidate() { QPointF origin = d->geometry.topLeft(); qreal top = 0, bottom = 0, left = 0, right = 0; if (d->itemPositions[TopPositioned] /*&& d->itemPositions[TopPositioned]->isVisible()*/) { top = (d->sizes[TopPositioned] >= 0) ? d->sizes[TopPositioned] : d->itemPositions[TopPositioned]->sizeHint().height(); d->itemPositions[TopPositioned]->setGeometry(QRectF(origin, QSizeF( d->geometry.width(), top))); top += spacing(); } if (d->itemPositions[BottomPositioned] /*&& d->itemPositions[BottomPositioned]->isVisible()*/) { bottom = (d->sizes[BottomPositioned] >= 0) ? d->sizes[BottomPositioned] : d->itemPositions[BottomPositioned]->sizeHint().height(); d->itemPositions[BottomPositioned]->setGeometry(QRectF(origin + QPointF(0, d->geometry.height() - bottom), QSizeF(d->geometry.width(), bottom))); bottom = d->geometry.height() - bottom - spacing(); } if (d->itemPositions[LeftPositioned] /*&& d->itemPositions[LeftPositioned]->isVisible()*/) { left = (d->sizes[LeftPositioned] >= 0) ? d->sizes[LeftPositioned] : d->itemPositions[LeftPositioned]->sizeHint().width(); d->itemPositions[LeftPositioned]->setGeometry(QRectF(origin + QPointF(0, top), QSizeF(left, bottom - top))); left += spacing(); } if (d->itemPositions[RightPositioned] /*&& d->itemPositions[RightPositioned]->isVisible()*/) { right = (d->sizes[RightPositioned] >= 0) ? d->sizes[RightPositioned] : d->itemPositions[RightPositioned]->sizeHint().width(); d->itemPositions[RightPositioned]->setGeometry(QRectF(origin + QPointF( d->geometry.width() - right, top), QSizeF(right, bottom - top))); right = d->geometry.width() - right - spacing(); } if (d->itemPositions[CenterPositioned] /*&& d->itemPositions[CenterPositioned]->isVisible()*/) { d->itemPositions[CenterPositioned]->setGeometry(QRectF( origin + QPointF(left, top), QSizeF(right - left, bottom - top))); } } QSizeF BorderLayout::sizeHint() const { qreal hintHeight = 0.0; qreal hintWidth = 0.0; if (d->itemPositions[TopPositioned] /*&& d->itemPositions[TopPositioned]->isVisible()*/) { hintHeight += d->itemPositions[TopPositioned]->sizeHint().height(); } if (d->itemPositions[BottomPositioned] /*&& d->itemPositions[BottomPositioned]->isVisible()*/) { hintHeight += d->itemPositions[BottomPositioned]->sizeHint().height(); } if (d->itemPositions[LeftPositioned] /*&& d->itemPositions[LeftPositioned]->isVisible()*/) { hintWidth += d->itemPositions[LeftPositioned]->sizeHint().width(); } if (d->itemPositions[RightPositioned] /*&& d->itemPositions[RightPositioned]->isVisible()*/) { hintWidth += d->itemPositions[RightPositioned]->sizeHint().width(); } if (d->itemPositions[CenterPositioned] /*&& d->itemPositions[CenterPositioned]->isVisible()*/) { hintHeight += d->itemPositions[CenterPositioned]->sizeHint().height(); hintWidth += d->itemPositions[CenterPositioned]->sizeHint().width(); } return QSizeF(hintWidth, hintHeight); } void BorderLayout::addItem(Plasma::LayoutItem * item) { BorderLayout::addItem (item, CenterPositioned); } void BorderLayout::addItem(Plasma::LayoutItem * item, Position position) { d->itemPositions[position] = item; update(); } void BorderLayout::removeItem(LayoutItem * item) { QMutableMapIterator< Position, Plasma::LayoutItem * > i(d->itemPositions); while (i.hasNext()) { i.next(); if (i.value() == item) { i.remove(); } } update(); } int BorderLayout::count() const { int count = 0; foreach (Plasma::LayoutItem * i, d->itemPositions) { if (i) { ++count; } } return count; } int BorderLayout::indexOf(LayoutItem * item) const { int count = 0; foreach (Plasma::LayoutItem * i, d->itemPositions) { if (i) { if (item == i) { return count; } ++count; } } return -1; } LayoutItem * BorderLayout::itemAt(int index) const { int count = 0; foreach (Plasma::LayoutItem * i, d->itemPositions) { if (i) { if (index == count) { return i; } count++; } } return 0; } Plasma::LayoutItem * BorderLayout::takeAt(int i) { Plasma::LayoutItem * item = itemAt(i); removeItem(item); return item; } void BorderLayout::setSize(qreal size, Position border) { d->sizes[border] = size; update(); } void BorderLayout::setAutoSize(Position border) { d->sizes[border] = -1; update(); } qreal BorderLayout::size(Position border) { if (border == CenterPositioned) { return -1; } return d->sizes[border]; } }