/* * Copyright (c) 2010-2011 OTClient * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "uiwidget.h" #include "uimanager.h" #include "uianchorlayout.h" #include "uiverticallayout.h" #include "uitranslator.h" #include #include #include #include #include #include #include UIWidget::UIWidget() { m_updateEventScheduled = false; m_firstOnStyle = true; m_states = Fw::DefaultState; // generate an unique id, this is need because anchored layouts find widgets by id static unsigned long id = 1; m_id = Fw::mkstr("widget", id++); } UIWidget::~UIWidget() { // clear all references releaseLuaFieldsTable(); m_focusedChild.reset(); m_layout.reset(); m_parent.reset(); m_lockedChildren.clear(); m_children.clear(); } void UIWidget::setup() { setVisible(true); setEnabled(true); setFocusable(true); setPhantom(false); setPressed(false); setSizeFixed(false); setFont(g_fonts.getDefaultFont()); setBackgroundColor(Fw::white); setForegroundColor(Fw::white); setOpacity(255); setMarginTop(0); setMarginRight(0); setMarginBottom(0); setMarginLeft(0); } void UIWidget::destroy() { // remove itself from parent if(UIWidgetPtr parent = getParent()) { if(parent->hasChild(asUIWidget())) parent->removeChild(asUIWidget()); } //setVisible(false); //setEnabled(false); } void UIWidget::render() { renderSelf(); renderChildren(); } void UIWidget::renderSelf() { // draw background if(m_image) { g_graphics.bindColor(m_backgroundColor); m_image->draw(m_rect); } } void UIWidget::renderChildren() { // draw children for(const UIWidgetPtr& child : m_children) { // render only visible children with a valid rect if(child->isExplicitlyVisible() && child->getRect().isValid() && child->getRect().intersects(m_rect)) { // store current graphics opacity int oldOpacity = g_graphics.getOpacity(); // decrease to self opacity if(child->getOpacity() < oldOpacity) g_graphics.setOpacity(child->getOpacity()); child->render(); // debug draw box //g_graphics.bindColor(Fw::green); //g_graphics.drawBoundingRect(child->getRect()); //g_fonts.getDefaultFont()->renderText(child->getId(), child->getPosition() + Point(2, 0), Fw::red); g_graphics.setOpacity(oldOpacity); } } } void UIWidget::setVisible(bool visible) { m_visible = visible; if(!visible && isFocused()) { if(UIWidgetPtr parent = getParent()) parent->focusNextChild(Fw::ActiveFocusReason); } } void UIWidget::setStyle(const std::string& styleName) { OTMLNodePtr styleNode = g_ui.getStyle(styleName); applyStyle(styleNode); m_style = styleNode; updateStyle(); } void UIWidget::setStyleFromNode(const OTMLNodePtr& styleNode) { applyStyle(styleNode); m_style = styleNode; updateStyle(); } void UIWidget::setParent(const UIWidgetPtr& parent) { UIWidgetPtr self = asUIWidget(); // remove from old parent UIWidgetPtr oldParent = getParent(); if(oldParent && oldParent->hasChild(self)) oldParent->removeChild(self); // reset parent m_parent.reset(); // set new parent if(parent) { m_parent = parent; // add to parent if needed if(!parent->hasChild(self)) parent->addChild(self); } } void UIWidget::setRect(const Rect& rect) { // only update if the rect really changed Rect oldRect = m_rect; if(rect == oldRect) return; m_rect = rect; // updates own layout updateLayout(); // avoid massive update events if(!m_updateEventScheduled) { UIWidgetPtr self = asUIWidget(); g_dispatcher.addEvent([self, oldRect]() { self->m_updateEventScheduled = false; self->onGeometryUpdate(oldRect, self->getRect()); }); } m_updateEventScheduled = true; } void UIWidget::lock() { if(UIWidgetPtr parent = getParent()) parent->lockChild(asUIWidget()); } void UIWidget::unlock() { if(UIWidgetPtr parent = getParent()) parent->unlockChild(asUIWidget()); } void UIWidget::focus() { if(UIWidgetPtr parent = getParent()) parent->focusChild(asUIWidget(), Fw::ActiveFocusReason); } bool UIWidget::isVisible() { if(!m_visible) return false; else if(UIWidgetPtr parent = getParent()) return parent->isVisible(); else return asUIWidget() == g_ui.getRootWidget(); } bool UIWidget::hasChild(const UIWidgetPtr& child) { auto it = std::find(m_children.begin(), m_children.end(), child); if(it != m_children.end()) return true; return false; } UIWidgetPtr UIWidget::getRootParent() { if(UIWidgetPtr parent = getParent()) return parent->getRootParent(); else return asUIWidget(); } UIWidgetPtr UIWidget::getChildAfter(const UIWidgetPtr& relativeChild) { auto it = std::find(m_children.begin(), m_children.end(), relativeChild); if(it != m_children.end() && ++it != m_children.end()) return *it; return nullptr; } UIWidgetPtr UIWidget::getChildBefore(const UIWidgetPtr& relativeChild) { auto it = std::find(m_children.rbegin(), m_children.rend(), relativeChild); if(it != m_children.rend() && ++it != m_children.rend()) return *it; return nullptr; } UIWidgetPtr UIWidget::getChildById(const std::string& childId) { for(const UIWidgetPtr& child : m_children) { if(child->getId() == childId) return child; } return nullptr; } UIWidgetPtr UIWidget::getChildByPos(const Point& childPos) { for(auto it = m_children.rbegin(); it != m_children.rend(); ++it) { const UIWidgetPtr& widget = (*it); if(widget->isExplicitlyVisible() && widget->getRect().contains(childPos)) return widget; } return nullptr; } UIWidgetPtr UIWidget::getChildByIndex(int index) { index = index <= 0 ? (m_children.size() + index) : index-1; if(index >= 0 && (uint)index < m_children.size()) return m_children.at(index); return nullptr; } UIWidgetPtr UIWidget::recursiveGetChildById(const std::string& id) { UIWidgetPtr widget = getChildById(id); if(!widget) { for(const UIWidgetPtr& child : m_children) { widget = child->recursiveGetChildById(id); if(widget) break; } } return widget; } UIWidgetPtr UIWidget::recursiveGetChildByPos(const Point& childPos) { for(const UIWidgetPtr& child : m_children) { if(child->getRect().contains(childPos)) { if(UIWidgetPtr subChild = child->recursiveGetChildByPos(childPos)) return subChild; return child; } } return nullptr; } UIWidgetPtr UIWidget::backwardsGetWidgetById(const std::string& id) { UIWidgetPtr widget = getChildById(id); if(!widget) { if(UIWidgetPtr parent = getParent()) widget = parent->backwardsGetWidgetById(id); } return widget; } void UIWidget::focusChild(const UIWidgetPtr& child, Fw::FocusReason reason) { if(child && !hasChild(child)) { logError("attempt to focus an unknown child in a UIWidget"); return; } if(child != m_focusedChild) { UIWidgetPtr oldFocused = m_focusedChild; m_focusedChild = child; if(child) { child->setLastFocusReason(reason); child->updateState(Fw::FocusState); child->updateState(Fw::ActiveState); } if(oldFocused) { oldFocused->setLastFocusReason(reason); oldFocused->updateState(Fw::FocusState); oldFocused->updateState(Fw::ActiveState); } } } void UIWidget::addChild(const UIWidgetPtr& child) { if(!child) { logWarning("attempt to add a null child into a UIWidget"); return; } if(hasChild(child)) { logWarning("attempt to add a child again into a UIWidget"); return; } m_children.push_back(child); child->setParent(asUIWidget()); // focus must be set after the style has been loaded auto self = asUIWidget(); g_dispatcher.addEvent([self,child]() { // always focus new child if(child->isFocusable() && child->isExplicitlyVisible() && child->isExplicitlyEnabled()) self->focusChild(child, Fw::ActiveFocusReason); }); // create default layout if(!m_layout) m_layout = UILayoutPtr(new UIAnchorLayout(asUIWidget())); // add to layout and updates it m_layout->addWidget(child); // update new child states child->updateStates(); } void UIWidget::insertChild(int index, const UIWidgetPtr& child) { if(!child) { logWarning("attempt to insert a null child into a UIWidget"); return; } if(hasChild(child)) { logWarning("attempt to insert a child again into a UIWidget"); return; } index = index <= 0 ? (m_children.size() + index) : index-1; assert(index >= 0 && (uint)index <= m_children.size()); // retrieve child by index auto it = m_children.begin() + index; m_children.insert(it, child); child->setParent(asUIWidget()); // create default layout if needed if(!m_layout) m_layout = UILayoutPtr(new UIAnchorLayout(asUIWidget())); // add to layout and updates it m_layout->addWidget(child); // update new child states child->updateStates(); } void UIWidget::removeChild(const UIWidgetPtr& child) { // remove from children list if(hasChild(child)) { // defocus if needed bool focusAnother = false; if(m_focusedChild == child) { focusChild(nullptr, Fw::ActiveFocusReason); focusAnother = true; } if(isChildLocked(child)) unlockChild(child); auto it = std::find(m_children.begin(), m_children.end(), child); m_children.erase(it); // reset child parent assert(child->getParent() == asUIWidget()); child->setParent(nullptr); m_layout->removeWidget(child); // update child states child->updateStates(); if(focusAnother && !m_focusedChild) focusPreviousChild(Fw::ActiveFocusReason); } else logError("attempt to remove an unknown child from a UIWidget"); } void UIWidget::focusNextChild(Fw::FocusReason reason) { UIWidgetPtr toFocus; UIWidgetList rotatedChildren(m_children); if(m_focusedChild) { auto focusedIt = std::find(rotatedChildren.begin(), rotatedChildren.end(), m_focusedChild); if(focusedIt != rotatedChildren.end()) { std::rotate(rotatedChildren.begin(), focusedIt, rotatedChildren.end()); rotatedChildren.pop_front(); } } // finds next child to focus for(const UIWidgetPtr& child : rotatedChildren) { if(child->isFocusable() && child->isExplicitlyEnabled() && child->isVisible()) { toFocus = child; break; } } if(toFocus) focusChild(toFocus, reason); } void UIWidget::focusPreviousChild(Fw::FocusReason reason) { UIWidgetPtr toFocus; UIWidgetList rotatedChildren(m_children); std::reverse(rotatedChildren.begin(), rotatedChildren.end()); if(m_focusedChild) { auto focusedIt = std::find(rotatedChildren.begin(), rotatedChildren.end(), m_focusedChild); if(focusedIt != rotatedChildren.end()) { std::rotate(rotatedChildren.begin(), focusedIt, rotatedChildren.end()); rotatedChildren.pop_front(); } } // finds next child to focus for(const UIWidgetPtr& child : rotatedChildren) { if(child->isFocusable() && child->isExplicitlyEnabled() && child->isVisible()) { toFocus = child; break; } } if(toFocus) focusChild(toFocus, reason); } void UIWidget::moveChildToTop(const UIWidgetPtr& child) { if(!child) return; // remove and push child again auto it = std::find(m_children.begin(), m_children.end(), child); assert(it != m_children.end()); m_children.erase(it); m_children.push_back(child); } void UIWidget::moveChildToIndex(const UIWidgetPtr& child, int index) { if(!child) return; // remove and push child again auto it = std::find(m_children.begin(), m_children.end(), child); assert(it != m_children.end()); m_children.erase(it); m_children.insert(m_children.begin() + index - 1, child); } void UIWidget::lockChild(const UIWidgetPtr& child) { if(!child) return; assert(hasChild(child)); // prevent double locks if(isChildLocked(child)) unlockChild(child); // disable all other children for(const UIWidgetPtr& otherChild : m_children) { if(otherChild == child) child->setEnabled(true); else otherChild->setEnabled(false); } m_lockedChildren.push_front(child); // lock child focus if(child->isFocusable()) focusChild(child, Fw::ActiveFocusReason); moveChildToTop(child); } void UIWidget::unlockChild(const UIWidgetPtr& child) { if(!child) return; assert(hasChild(child)); auto it = std::find(m_lockedChildren.begin(), m_lockedChildren.end(), child); if(it == m_lockedChildren.end()) return; m_lockedChildren.erase(it); // find new child to lock UIWidgetPtr lockedChild; if(m_lockedChildren.size() > 0) { lockedChild = m_lockedChildren.front(); assert(hasChild(lockedChild)); } for(const UIWidgetPtr& otherChild : m_children) { // lock new child if(lockedChild) { if(otherChild == lockedChild) lockedChild->setEnabled(true); else otherChild->setEnabled(false); } // else unlock all else otherChild->setEnabled(true); } if(lockedChild) { if(lockedChild->isFocusable()) focusChild(lockedChild, Fw::ActiveFocusReason); moveChildToTop(lockedChild); } } bool UIWidget::isChildLocked(const UIWidgetPtr& child) { auto it = std::find(m_lockedChildren.begin(), m_lockedChildren.end(), child); return it != m_lockedChildren.end(); } int UIWidget::getChildIndex(const UIWidgetPtr& child) { int index = 1; for(auto it = m_children.begin(); it != m_children.end(); ++it) { if(*it == child) return index; ++index; } return -1; } void UIWidget::updateParentLayout() { if(UIWidgetPtr parent = getParent()) parent->updateLayout(); else updateLayout(); } void UIWidget::updateLayout() { if(m_layout) m_layout->update(); } bool UIWidget::setState(Fw::WidgetState state, bool on) { if(state == Fw::InvalidState) return false; int oldStates = m_states; if(on) m_states |= state; else m_states &= ~state; if(oldStates != m_states) { updateStyle(); return true; } return false; } bool UIWidget::hasState(Fw::WidgetState state) { if(state == Fw::InvalidState) return false; return (m_states & state); } void UIWidget::updateState(Fw::WidgetState state) { bool newStatus = true; bool oldStatus = hasState(state); bool updateChildren = false; if(state == Fw::ActiveState) { UIWidgetPtr widget = asUIWidget(); UIWidgetPtr parent; do { parent = widget->getParent(); if(!widget->isExplicitlyEnabled() || ((parent && parent->getFocusedChild() != widget))) { newStatus = false; break; } } while(widget = parent); updateChildren = true; } else if(state == Fw::FocusState) { newStatus = (getParent() && getParent()->getFocusedChild() == asUIWidget()); } else if(state == Fw::HoverState) { updateChildren = true; Point mousePos = g_platform.getMouseCursorPos(); UIWidgetPtr widget = asUIWidget(); UIWidgetPtr parent; do { parent = widget->getParent(); if(!widget->isExplicitlyEnabled() || !widget->getRect().contains(mousePos) || (parent && widget != parent->getChildByPos(mousePos))) { newStatus = false; break; } } while(widget = parent); } else if(state == Fw::PressedState) { newStatus = m_pressed; } else if(state == Fw::DisabledState) { bool enabled = true; updateChildren = true; UIWidgetPtr widget = asUIWidget(); do { if(!widget->isExplicitlyEnabled()) { enabled = false; break; } } while(widget = widget->getParent()); newStatus = !enabled; } else { return; } if(updateChildren) { // do a backup of children list, because it may change while looping it UIWidgetList children = m_children; for(const UIWidgetPtr& child : children) child->updateState(state); } if(setState(state, newStatus)) { if(state == Fw::FocusState) { g_dispatcher.addEvent(std::bind(&UIWidget::onFocusChange, asUIWidget(), newStatus, m_lastFocusReason)); } else if(state == Fw::HoverState) g_dispatcher.addEvent(std::bind(&UIWidget::onHoverChange, asUIWidget(), newStatus)); } } void UIWidget::updateStates() { for(int state = 1; state != Fw::LastState; state <<= 1) updateState((Fw::WidgetState)state); } void UIWidget::updateStyle() { if(!m_style) return; OTMLNodePtr newStateStyle = OTMLNode::create(); // copy only the changed styles from default style if(m_stateStyle) { for(OTMLNodePtr node : m_stateStyle->children()) { if(OTMLNodePtr otherNode = m_style->get(node->tag())) newStateStyle->addChild(otherNode->clone()); } } // checks for states combination for(const OTMLNodePtr& style : m_style->children()) { if(boost::starts_with(style->tag(), "$")) { std::string statesStr = style->tag().substr(1); std::vector statesSplit; boost::split(statesSplit, statesStr, boost::is_any_of(std::string(" "))); bool match = true; for(std::string stateStr : statesSplit) { if(stateStr.length() == 0) continue; bool notstate = (stateStr[0] == '!'); if(notstate) stateStr = stateStr.substr(1); bool stateOn = hasState(Fw::translateState(stateStr)); if((!notstate && !stateOn) || (notstate && stateOn)) match = false; } // merge states styles if(match) { newStateStyle->merge(style); } } } applyStyle(newStateStyle); m_stateStyle = newStateStyle; } void UIWidget::applyStyle(const OTMLNodePtr& styleNode) { try { onStyleApply(styleNode); callLuaField("onStyleApply", styleNode); } catch(std::exception& e) { logError("failed to apply widget '", m_id, "' style: ", e.what()); } } void UIWidget::onStyleApply(const OTMLNodePtr& styleNode) { // first set id if(const OTMLNodePtr& node = styleNode->get("id")) setId(node->value()); // load styles used by all widgets for(const OTMLNodePtr& node : styleNode->children()) { // background image if(node->tag() == "image") { ImagePtr image = ImagePtr(new Image); image->loadFromOTML(node); setImage(image); } else if(node->tag() == "border-image") { setImage(BorderImage::loadFromOTML(node)); } // font else if(node->tag() == "font") { setFont(g_fonts.getFont(node->value())); } // foreground color else if(node->tag() == "color") { setForegroundColor(node->value()); } // background color else if(node->tag() == "background-color") { setBackgroundColor(node->value()); } // opacity else if(node->tag() == "opacity") { setOpacity(node->value()); } // enabled else if(node->tag() == "enabled") { setEnabled(node->value()); } // focusable else if(node->tag() == "focusable") { setFocusable(node->value()); } // focusable else if(node->tag() == "phantom") { setPhantom(node->value()); } // size else if(node->tag() == "size") { resize(node->value()); } else if(node->tag() == "width") { setWidth(node->value()); } else if(node->tag() == "height") { setHeight(node->value()); } else if(node->tag() == "size fixed") { setSizeFixed(node->value()); } // absolute position else if(node->tag() == "position") { moveTo(node->value()); } else if(node->tag() == "x") { setX(node->value()); } else if(node->tag() == "y") { setY(node->value()); } // margins else if(node->tag() == "margin.left") { setMarginLeft(node->value()); } else if(node->tag() == "margin.right") { setMarginRight(node->value()); } else if(node->tag() == "margin.top") { setMarginTop(node->value()); } else if(node->tag() == "margin.bottom") { setMarginBottom(node->value()); } // layouts else if(node->tag() == "layout") { // layout is set only once assert(!m_layout); std::string layoutType; if(node->hasValue()) layoutType = node->value(); else layoutType = node->valueAt("type"); UILayoutPtr layout; if(layoutType == "verticalBox") layout = UILayoutPtr(new UIVerticalLayout(asUIWidget())); else if(layoutType == "anchor") layout = UILayoutPtr(new UIAnchorLayout(asUIWidget())); else throw OTMLException(node, "cannot determine layout type"); if(node->hasChildren()) layout->applyStyle(node); setLayout(layout); } // anchors else if(boost::starts_with(node->tag(), "anchors.")) { UIWidgetPtr parent = getParent(); if(!parent) throw OTMLException(node, "cannot create anchor, there is no parent widget!"); UIAnchorLayoutPtr anchorLayout = parent->getLayout()->asUIAnchorLayout(); if(!anchorLayout) throw OTMLException(node, "cannot create anchor, the parent widget doesn't use anchor layout!"); std::string what = node->tag().substr(8); if(what == "fill") { anchorLayout->fill(asUIWidget(), node->value()); } else if(what == "centerIn") { anchorLayout->centerIn(asUIWidget(), node->value()); } else { Fw::AnchorEdge anchoredEdge = Fw::translateAnchorEdge(what); std::string anchorDescription = node->value(); std::vector split; boost::split(split, anchorDescription, boost::is_any_of(std::string("."))); if(split.size() != 2) throw OTMLException(node, "invalid anchor description"); std::string hookedWidgetId = split[0]; Fw::AnchorEdge hookedEdge = Fw::translateAnchorEdge(split[1]); if(anchoredEdge == Fw::AnchorNone) throw OTMLException(node, "invalid anchor edge"); if(hookedEdge == Fw::AnchorNone) throw OTMLException(node, "invalid anchor target edge"); anchorLayout->addAnchor(asUIWidget(), anchoredEdge, hookedWidgetId, hookedEdge); } // lua functions } else if(boost::starts_with(node->tag(), "@")) { // on load once if(m_firstOnStyle) { std::string funcName = node->tag().substr(1); std::string funcOrigin = "@" + node->source() + "[" + node->tag() + "]"; g_lua.loadFunction(node->value(), funcOrigin); luaSetField(funcName); } // lua fields value } else if(boost::starts_with(node->tag(), "&")) { std::string fieldName = node->tag().substr(1); std::string fieldOrigin = "@" + node->source() + "[" + node->tag() + "]"; g_lua.evaluateExpression(node->value(), fieldOrigin); luaSetField(fieldName); } } m_firstOnStyle = false; } void UIWidget::onGeometryUpdate(const Rect& oldRect, const Rect& newRect) { callLuaField("onGeometryUpdate", oldRect, newRect); } void UIWidget::onFocusChange(bool focused, Fw::FocusReason reason) { callLuaField("onFocusChange", focused, reason); } void UIWidget::onHoverChange(bool hovered) { callLuaField("onHoverChange", hovered); // check for new hovered elements when the current widget is removed if(!hovered && !getParent() && g_ui.getRootWidget()) g_ui.getRootWidget()->updateState(Fw::HoverState); } bool UIWidget::onKeyPress(uchar keyCode, char keyChar, int keyboardModifiers) { if(callLuaField("onKeyPress", keyCode, keyChar, keyboardModifiers)) return true; // do a backup of children list, because it may change while looping it UIWidgetList children; for(const UIWidgetPtr& child : m_children) { // events on hidden or disabled widgets are discarded if(!child->isExplicitlyEnabled() || !child->isExplicitlyVisible()) continue; // key events go only to containers or focused child if(child->isFocused()) children.push_back(child); } for(const UIWidgetPtr& child : children) { if(child->onKeyPress(keyCode, keyChar, keyboardModifiers)) return true; } return false; } bool UIWidget::onKeyRelease(uchar keyCode, char keyChar, int keyboardModifiers) { if(callLuaField("onKeyRelease", keyCode, keyChar, keyboardModifiers)) return true; // do a backup of children list, because it may change while looping it UIWidgetList children; for(const UIWidgetPtr& child : m_children) { // events on hidden or disabled widgets are discarded if(!child->isExplicitlyEnabled() || !child->isExplicitlyVisible()) continue; // key events go only to focused child if(child->isFocused()) children.push_back(child); } for(const UIWidgetPtr& child : children) { if(child->onKeyRelease(keyCode, keyChar, keyboardModifiers)) return true; } return false; } bool UIWidget::onMousePress(const Point& mousePos, Fw::MouseButton button) { if(callLuaField("onMousePress", mousePos, button)) return true; // do a backup of children list, because it may change while looping it UIWidgetList children; for(const UIWidgetPtr& child : m_children) { // events on hidden or disabled widgets are discarded if(!child->isExplicitlyEnabled() || !child->isExplicitlyVisible()) continue; // mouse press events only go to children that contains the mouse position if(child->getRect().contains(mousePos) && child == getChildByPos(mousePos)) children.push_back(child); } for(const UIWidgetPtr& child : children) { // when a focusable item is focused it must gain focus if(child->isFocusable()) focusChild(child, Fw::MouseFocusReason); bool mustEnd = child->onMousePress(mousePos, button); if(button == Fw::MouseLeftButton && !child->isPressed()) { UIWidgetPtr clickedChild = child->getChildByPos(mousePos); if(!clickedChild || clickedChild->isPhantom()) child->setPressed(true); } if(mustEnd) return true; } return false; } void UIWidget::onMouseRelease(const Point& mousePos, Fw::MouseButton button) { callLuaField("onMouseRelease", mousePos, button); // do a backup of children list, because it may change while looping it UIWidgetList children; for(const UIWidgetPtr& child : m_children) { // events on hidden or disabled widgets are discarded if(!child->isExplicitlyEnabled() || !child->isExplicitlyVisible()) continue; // mouse release events go to all children children.push_back(child); } for(const UIWidgetPtr& child : children) { child->onMouseRelease(mousePos, button); if(child->isPressed()) child->setPressed(false); } } bool UIWidget::onMouseMove(const Point& mousePos, const Point& mouseMoved) { if(callLuaField("onMouseMove", mousePos, mouseMoved)) return true; // do a backup of children list, because it may change while looping it UIWidgetList children; for(const UIWidgetPtr& child : m_children) { // events on hidden or disabled widgets are discarded if(!child->isExplicitlyEnabled() || !child->isExplicitlyVisible()) continue; // mouse move events go to all children children.push_back(child); } for(const UIWidgetPtr& child : children) { if(child->onMouseMove(mousePos, mouseMoved)) return true; } return false; } bool UIWidget::onMouseWheel(const Point& mousePos, Fw::MouseWheelDirection direction) { if(callLuaField("onMouseWheel", mousePos, direction)) return true; // do a backup of children list, because it may change while looping it UIWidgetList children; for(const UIWidgetPtr& child : m_children) { // events on hidden or disabled widgets are discarded if(!child->isExplicitlyEnabled() || !child->isExplicitlyVisible()) continue; // mouse wheel events only go to children that contains the mouse position if(child->getRect().contains(mousePos) && child == getChildByPos(mousePos)) children.push_back(child); } for(const UIWidgetPtr& child : children) { if(child->onMouseWheel(mousePos, direction)) return true; } return false; }