/* * The ManaPlus Client * Copyright (C) 2008-2009 The Mana World Development Team * Copyright (C) 2009-2010 The Mana Developers * Copyright (C) 2011-2018 The ManaPlus Developers * * This file is part of The ManaPlus Client. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * any later version. * * 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, see . */ /* _______ __ __ __ ______ __ __ _______ __ __ * / _____/\ / /\ / /\ / /\ / ____/\ / /\ / /\ / ___ /\ / |\/ /\ * / /\____\// / // / // / // /\___\// /_// / // /\_/ / // , |/ / / * / / /__ / / // / // / // / / / ___ / // ___ / // /| ' / / * / /_// /\ / /_// / // / // /_/_ / / // / // /\_/ / // / | / / * /______/ //______/ //_/ //_____/\ /_/ //_/ //_/ //_/ //_/ /|_/ / * \______\/ \______\/ \_\/ \_____\/ \_\/ \_\/ \_\/ \_\/ \_\/ \_\/ * * Copyright (c) 2004 - 2008 Olof Naessén and Per Larsson * * * Per Larsson a.k.a finalman * Olof Naessén a.k.a jansem/yakslem * * Visit: http://guichan.sourceforge.net * * License: (BSD) * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name of Guichan nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "gui/widgets/tabbedarea.h" #include "gui/gui.h" #include "gui/widgets/button.h" #include "gui/widgets/scrollarea.h" #include "gui/widgets/tabs/tab.h" #include "utils/delete2.h" #include "utils/foreach.h" #include "debug.h" TabbedArea::TabbedArea(const Widget2 *const widget) : ActionListener(), BasicContainer(widget), KeyListener(), MouseListener(), WidgetListener(), mArrowButton(), mSelectedTab(nullptr), mTabContainer(new BasicContainer2(widget)), mWidgetContainer(new BasicContainer2(widget)), mTabsToDelete(), mTabs(), mTabsWidth(0), mVisibleTabsWidth(0), mTabScrollIndex(0), mRightMargin(0), mOpaque(Opaque_false), mEnableScrollButtons(false), mFollowDownScroll(false), mBlockSwitching(true), mResizeHeight(true) { setFocusable(true); addKeyListener(this); addMouseListener(this); } void TabbedArea::postInit() { mTabContainer->setOpaque(Opaque_false); add(mTabContainer); add(mWidgetContainer); mWidgetContainer->setOpaque(Opaque_false); addWidgetListener(this); mArrowButton[0] = new Button(this, "<", "shift_left", BUTTON_SKIN, this); mArrowButton[1] = new Button(this, ">", "shift_right", BUTTON_SKIN, this); widgetResized(Event(nullptr)); } TabbedArea::~TabbedArea() { if (gui != nullptr) gui->removeDragged(this); // +++ virtual method calls remove(mTabContainer); remove(mWidgetContainer); delete2(mTabContainer); delete2(mWidgetContainer); for (size_t i = 0, sz = mTabsToDelete.size(); i < sz; i++) delete2(mTabsToDelete[i]) delete2(mArrowButton[0]); delete2(mArrowButton[1]); } void TabbedArea::enableScrollButtons(const bool enable) { if (mEnableScrollButtons && !enable) { if (mArrowButton[0] != nullptr) remove(mArrowButton[0]); if (mArrowButton[1] != nullptr) remove(mArrowButton[1]); } else if (!mEnableScrollButtons && enable) { if (mArrowButton[0] != nullptr) add(mArrowButton[0]); if (mArrowButton[1] != nullptr) add(mArrowButton[1]); } mEnableScrollButtons = enable; } int TabbedArea::getNumberOfTabs() const { return CAST_S32(mTabs.size()); } Tab *TabbedArea::getTab(const std::string &name) const { TabContainer::const_iterator itr = mTabs.begin(); const TabContainer::const_iterator itr_end = mTabs.end(); while (itr != itr_end) { if ((*itr).first->getCaption() == name) return static_cast((*itr).first); ++itr; } return nullptr; } void TabbedArea::draw(Graphics *const graphics) { BLOCK_START("TabbedArea::draw") if (mTabs.empty()) { BLOCK_END("TabbedArea::draw") return; } drawChildren(graphics); BLOCK_END("TabbedArea::draw") } void TabbedArea::safeDraw(Graphics *const graphics) { BLOCK_START("TabbedArea::draw") if (mTabs.empty()) { BLOCK_END("TabbedArea::draw") return; } safeDrawChildren(graphics); BLOCK_END("TabbedArea::draw") } Widget *TabbedArea::getWidget(const std::string &name) const { TabContainer::const_iterator itr = mTabs.begin(); const TabContainer::const_iterator itr_end = mTabs.end(); while (itr != itr_end) { if ((*itr).first->getCaption() == name) return (*itr).second; ++itr; } return nullptr; } Widget *TabbedArea::getCurrentWidget() const { const Tab *const tab = getSelectedTab(); if (tab != nullptr) return getWidget(tab->getCaption()); return nullptr; } void TabbedArea::addTab(Tab *const tab, Widget *const widget) { if ((tab == nullptr) || (widget == nullptr)) return; tab->setTabbedArea(this); tab->addActionListener(this); mTabContainer->add(tab); mTabs.push_back(std::pair(tab, widget)); if ((mSelectedTab == nullptr) && tab->mVisible == Visible_true) setSelectedTab(tab); adjustTabPositions(); adjustSize(); const int frameSize = 2 * mFrameSize; widget->setSize(getWidth() - frameSize, getHeight() - frameSize - mTabContainer->getHeight()); widgetResized(Event(nullptr)); updateTabsWidth(); updateArrowEnableState(); } void TabbedArea::adjustWidget(Widget *const widget) const { if (widget == nullptr) return; const int frameSize = 2 * mFrameSize; widget->setSize(getWidth() - frameSize, getHeight() - frameSize - mTabContainer->getHeight()); } void TabbedArea::addTab(const std::string &caption, Widget *const widget) { Tab *const tab = new Tab(this); tab->setCaption(caption); mTabsToDelete.push_back(tab); addTab(tab, widget); } void TabbedArea::addTab(Image *const image, Widget *const widget) { Tab *const tab = new Tab(this); tab->setImage(image); mTabsToDelete.push_back(tab); addTab(tab, widget); } bool TabbedArea::isTabSelected(const size_t index) const { if (index >= mTabs.size()) return false; return mSelectedTab == mTabs[index].first; } bool TabbedArea::isTabPresent(const Tab *const tab) const { FOR_EACH (TabContainer::const_iterator, it, mTabs) { if ((*it).first == tab || (*it).second == tab) return true; } return false; } bool TabbedArea::isTabSelected(const Tab *const tab) const { return mSelectedTab == tab; } void TabbedArea::setSelectedTabByIndex(const size_t index) { if (index >= mTabs.size()) return; setSelectedTab(mTabs[index].first); } void TabbedArea::removeTab(Tab *const tab) { int tabIndexToBeSelected = -1; if (tab == mSelectedTab) { const int index = getSelectedTabIndex(); const size_t sz = mTabs.size(); if (index == CAST_S32(sz) - 1 && sz == 1) tabIndexToBeSelected = -1; else tabIndexToBeSelected = index - 1; } for (TabContainer::iterator iter = mTabs.begin(); iter != mTabs.end(); ++iter) { if (iter->first == tab) { mTabContainer->remove(tab); mTabs.erase(iter); break; } } for (STD_VECTOR::iterator iter2 = mTabsToDelete.begin(); iter2 != mTabsToDelete.end(); ++iter2) { if (*iter2 == tab) { mTabsToDelete.erase(iter2); delete tab; break; } } const int tabsSize = CAST_S32(mTabs.size()); if (tabIndexToBeSelected >= tabsSize) tabIndexToBeSelected = tabsSize - 1; if (tabIndexToBeSelected < -1) tabIndexToBeSelected = -1; if (tabIndexToBeSelected == -1) { mSelectedTab = nullptr; mWidgetContainer->clear(); } else { setSelectedTabByIndex(tabIndexToBeSelected); } adjustSize(); updateTabsWidth(); widgetResized(Event(nullptr)); } void TabbedArea::logic() { BLOCK_START("TabbedArea::logic") logicChildren(); BLOCK_END("TabbedArea::logic") } void TabbedArea::mousePressed(MouseEvent &event) { if (event.isConsumed()) return; if (event.getButton() == MouseButton::LEFT) { Widget *const widget = mTabContainer->getWidgetAt( event.getX(), event.getY()); Tab *const tab = dynamic_cast(widget); if (tab != nullptr) { event.consume(); setSelectedTab(tab); requestFocus(); } } } void TabbedArea::setSelectedTab(Tab *const tab) { for (size_t i = 0; i < mTabs.size(); i++) { if (mTabs[i].first == mSelectedTab) mWidgetContainer->remove(mTabs[i].second); } for (size_t i = 0; i < mTabs.size(); i++) { if (mTabs[i].first == tab) { mSelectedTab = tab; mWidgetContainer->add(mTabs[i].second); } } Tab *const newTab = tab; if (newTab != nullptr) newTab->setCurrent(); widgetResized(Event(nullptr)); } void TabbedArea::setSelectedTabDefault() { if (mSelectedTab == nullptr || mSelectedTab->mVisible == Visible_false) { for (size_t i = 0; i < mTabs.size(); i++) { Tab *const tab = mTabs[i].first; if ((tab != nullptr) && tab->mVisible == Visible_true) { setSelectedTab(tab); return; } } } } int TabbedArea::getSelectedTabIndex() const { for (unsigned int i = 0, fsz = CAST_U32(mTabs.size()); i < fsz; i++) { if (mTabs[i].first == mSelectedTab) return i; } return -1; } void TabbedArea::setSelectedTabByName(const std::string &name) { FOR_EACH (TabContainer::const_iterator, itr, mTabs) { if (((*itr).first != nullptr) && (*itr).first->getCaption() == name) { setSelectedTab((*itr).first); return; } } } void TabbedArea::widgetResized(const Event &event A_UNUSED) { adjustSize(); const int frameSize = 2 * mFrameSize; const int widgetFrameSize = 2 * mWidgetContainer->getFrameSize(); const int w1 = mDimension.width; const int h1 = mDimension.height; const int width = w1 - frameSize - widgetFrameSize; const int height = h1 - frameSize - mWidgetContainer->getY() - widgetFrameSize; Widget *const w = getCurrentWidget(); ScrollArea *const scr = dynamic_cast(w); if (scr != nullptr) { if (mFollowDownScroll && height != 0) { const Rect &rect = w->getDimension(); if (rect.height != 0 && rect.height > height + 2) { if (scr->getVerticalScrollAmount() >= scr->getVerticalMaxScroll() - 2 && scr->getVerticalScrollAmount() <= scr->getVerticalMaxScroll() + 2) { const int newScroll = scr->getVerticalScrollAmount() + rect.height - height; w->setSize(mWidgetContainer->getWidth() - frameSize, mWidgetContainer->getHeight() - frameSize); if (newScroll != 0) scr->setVerticalScrollAmount(newScroll); } } } } if (mArrowButton[1] != nullptr) { // Check whether there is room to show more tabs now. int innerWidth = w1 - 4 - mArrowButton[0]->getWidth() - mArrowButton[1]->getWidth() - mRightMargin; if (innerWidth < 0) innerWidth = 0; int newWidth = mVisibleTabsWidth; while ((mTabScrollIndex != 0u) && newWidth < innerWidth) { Tab *const tab = mTabs[mTabScrollIndex - 1].first; if ((tab != nullptr) && tab->mVisible == Visible_true) { newWidth += tab->getWidth(); if (newWidth < innerWidth) --mTabScrollIndex; } } if (mArrowButton[1] != nullptr) { // Move the right arrow to fit the windows content. newWidth = width - mArrowButton[1]->getWidth() - mRightMargin; if (newWidth < 0) newWidth = 0; mArrowButton[1]->setPosition(newWidth, 0); } } updateArrowEnableState(); adjustTabPositions(); } void TabbedArea::updateTabsWidth() { mTabsWidth = 0; FOR_EACH (TabContainer::const_iterator, itr, mTabs) { Tab *const tab = (*itr).first; if ((tab != nullptr) && tab->mVisible == Visible_true) mTabsWidth += tab->getWidth(); } updateVisibleTabsWidth(); } void TabbedArea::updateVisibleTabsWidth() { unsigned int visibleTabsWidth = 0; for (size_t i = mTabScrollIndex, sz = mTabs.size(); i < sz; ++i) { Tab *const tab = mTabs[i].first; if (tab != nullptr && tab->mVisible == Visible_true) visibleTabsWidth += CAST_S32(tab->getWidth()); } mVisibleTabsWidth = visibleTabsWidth; } void TabbedArea::adjustSize() { int maxTabHeight = 0; const int width = mDimension.width; const int height = mDimension.height; for (size_t i = 0, sz = mTabs.size(); i < sz; i++) { if (mTabs[i].first->getHeight() > maxTabHeight) maxTabHeight = mTabs[i].first->getHeight(); } mTabContainer->setSize(width - mRightMargin, maxTabHeight); mWidgetContainer->setPosition(0, maxTabHeight); mWidgetContainer->setSize(width, height - maxTabHeight); Widget *const w = getCurrentWidget(); if (w != nullptr) { const int wFrameSize = w->getFrameSize(); const int frame2 = 2 * wFrameSize; w->setPosition(wFrameSize, wFrameSize); if (mResizeHeight) { w->setSize(mWidgetContainer->getWidth() - frame2, mWidgetContainer->getHeight() - frame2); } else { w->setSize(mWidgetContainer->getWidth() - frame2, w->getHeight()); } } } void TabbedArea::adjustTabPositions() { int maxTabHeight = 0; const size_t sz = mTabs.size(); for (size_t i = 0; i < sz; ++i) { const Tab *const tab = mTabs[i].first; if ((tab != nullptr) && tab->mVisible == Visible_true && tab->getHeight() > maxTabHeight) { maxTabHeight = tab->getHeight(); } } unsigned int x = (mEnableScrollButtons && mArrowButton[0]->mVisible == Visible_true) ? mArrowButton[0]->getWidth() : 0U; for (size_t i = mTabScrollIndex; i < sz; ++i) { Tab *const tab = mTabs[i].first; if ((tab == nullptr) || tab->mVisible == Visible_false) continue; tab->setPosition(x, maxTabHeight - tab->getHeight()); x += tab->getWidth(); } // If the tabs are scrolled, we hide them away. if (mTabScrollIndex > 0) { x = 0; for (unsigned i = 0; i < mTabScrollIndex; ++i) { Tab *const tab = mTabs[i].first; if ((tab != nullptr) && tab->mVisible == Visible_true) { x -= tab->getWidth(); tab->setPosition(x, maxTabHeight - tab->getHeight()); } } } } void TabbedArea::action(const ActionEvent& actionEvent) { Widget *const source = actionEvent.getSource(); Tab *const tab = dynamic_cast(source); if (tab != nullptr) { setSelectedTab(tab); } else { const std::string &eventId = actionEvent.getId(); if (eventId == "shift_left") { if (mTabScrollIndex != 0u) --mTabScrollIndex; } else if (eventId == "shift_right") { if (CAST_SIZE(mTabScrollIndex) < mTabs.size() - 1) ++mTabScrollIndex; } adjustTabPositions(); updateArrowEnableState(); } } void TabbedArea::updateArrowEnableState() { updateTabsWidth(); if ((mArrowButton[0] == nullptr) || (mArrowButton[1] == nullptr)) return; const int width = mDimension.width; if (mTabsWidth > width - 4 - mArrowButton[0]->getWidth() - mArrowButton[1]->getWidth() - mRightMargin) { mArrowButton[0]->setVisible(Visible_true); mArrowButton[1]->setVisible(Visible_true); } else { mArrowButton[0]->setVisible(Visible_false); mArrowButton[1]->setVisible(Visible_false); mTabScrollIndex = 0; } // Left arrow consistency check if (mTabScrollIndex == 0u) mArrowButton[0]->setEnabled(false); else mArrowButton[0]->setEnabled(true); // Right arrow consistency check if (mVisibleTabsWidth < width - 4 - mArrowButton[0]->getWidth() - mArrowButton[1]->getWidth() - mRightMargin) { mArrowButton[1]->setEnabled(false); } else { mArrowButton[1]->setEnabled(true); } } Tab *TabbedArea::getTabByIndex(const int index) const { if (index < 0 || index >= CAST_S32(mTabs.size())) return nullptr; return static_cast(mTabs[index].first); } Widget *TabbedArea::getWidgetByIndex(const int index) const { if (index < 0 || index >= CAST_S32(mTabs.size())) return nullptr; return mTabs[index].second; } void TabbedArea::removeAll(const bool del) { if (getSelectedTabIndex() != -1) { setSelectedTabByIndex(CAST_U32(0)); } while (getNumberOfTabs() > 0) { const int idx = getNumberOfTabs() - 1; Tab *tab = mTabs[idx].first; Widget *widget = mTabs[idx].second; removeTab(tab); if (del) { delete tab; delete widget; } } } void TabbedArea::setWidth(int width) { // +++ need use virtual Widget::setWidth(width); adjustSize(); } void TabbedArea::setHeight(int height) { // +++ need use virtual Widget::setHeight(height); adjustSize(); } void TabbedArea::setSize(int width, int height) { // +++ need use virtual Widget::setSize(width, height); adjustSize(); } void TabbedArea::setDimension(const Rect &dimension) { // +++ need use virtual Widget::setDimension(dimension); adjustSize(); } void TabbedArea::keyPressed(KeyEvent& event) { if (mBlockSwitching || event.isConsumed() || !isFocused()) return; const InputActionT actionId = event.getActionId(); if (actionId == InputAction::GUI_LEFT) { int index = getSelectedTabIndex(); index--; if (index < 0) return; setSelectedTab(mTabs[index].first); event.consume(); } else if (actionId == InputAction::GUI_RIGHT) { int index = getSelectedTabIndex(); index++; if (index >= CAST_S32(mTabs.size())) return; setSelectedTab(mTabs[index].first); event.consume(); } } void TabbedArea::death(const Event &event) { Tab *const tab = dynamic_cast(event.getSource()); if (tab != nullptr) removeTab(tab); else BasicContainer::death(event); } void TabbedArea::selectNextTab() { int tab = getSelectedTabIndex(); tab++; if (tab == CAST_S32(mTabs.size())) tab = 0; setSelectedTab(mTabs[tab].first); } void TabbedArea::selectPrevTab() { int tab = getSelectedTabIndex(); if (tab == 0) tab = CAST_S32(mTabs.size()); if (tab < 0) return; tab--; setSelectedTab(mTabs[tab].first); }