#if defined(Hiro_HorizontalLayout) auto mHorizontalLayout::append(sSizable sizable, Size size, signed spacing) -> type& { properties.append({size.width(), size.height(), spacing < 0 ? settings.spacing : spacing}); mLayout::append(sizable); return *this; } auto mHorizontalLayout::minimumSize() const -> Size { signed width = 0, height = 0; for(auto n : range(sizables())) { auto& child = properties[sizable(n)->offset()]; if(child.width == Size::Minimum || child.width == Size::Maximum) { width += sizable(n)->minimumSize().width(); } else { width += child.width; } if(&child != &properties.last()) width += child.spacing; } for(auto n : range(sizables())) { auto& child = properties[sizable(n)->offset()]; if(child.height == Size::Minimum || child.height == Size::Maximum) { height = max(height, sizable(n)->minimumSize().height()); continue; } height = max(height, child.height); } return {settings.margin * 2 + width, settings.margin * 2 + height}; } auto mHorizontalLayout::remove(sSizable sizable) -> type& { properties.remove(sizable->offset()); mLayout::remove(sizable); return *this; } auto mHorizontalLayout::reset() -> type& { mLayout::reset(); properties.reset(); return *this; } auto mHorizontalLayout::setAlignment(double alignment) -> type& { settings.alignment = max(0.0, min(1.0, alignment)); return *this; } auto mHorizontalLayout::setEnabled(bool enabled) -> type& { mLayout::setEnabled(enabled); for(auto n : range(sizables())) { sizable(n)->setEnabled(sizable(n)->enabled()); } return *this; } auto mHorizontalLayout::setFont(const string& font) -> type& { mLayout::setFont(font); for(auto n : range(sizables())) { sizable(n)->setFont(sizable(n)->font()); } return *this; } auto mHorizontalLayout::setGeometry(Geometry containerGeometry) -> type& { mLayout::setGeometry(containerGeometry); auto properties = this->properties; for(auto n : range(sizables())) { auto& child = properties[sizable(n)->offset()]; if(child.width == Size::Minimum) child.width = sizable(n)->minimumSize().width(); if(child.height == Size::Minimum) child.height = sizable(n)->minimumSize().height(); } Geometry geometry = containerGeometry; geometry.setX (geometry.x() + settings.margin ); geometry.setY (geometry.y() + settings.margin ); geometry.setWidth (geometry.width() - settings.margin * 2); geometry.setHeight(geometry.height() - settings.margin * 2); signed minimumWidth = 0, maximumWidthCounter = 0; for(auto& child : properties) { if(child.width == Size::Maximum) maximumWidthCounter++; if(child.width != Size::Maximum) minimumWidth += child.width; if(&child != &properties.last()) minimumWidth += child.spacing; } for(auto& child : properties) { if(child.width == Size::Maximum) child.width = (geometry.width() - minimumWidth) / maximumWidthCounter; if(child.height == Size::Maximum) child.height = geometry.height(); } signed maximumHeight = 0; for(auto& child : properties) maximumHeight = max(maximumHeight, child.height); for(auto n : range(sizables())) { auto& child = properties[sizable(n)->offset()]; signed pivot = (maximumHeight - child.height) * settings.alignment; Geometry childGeometry = {geometry.x(), geometry.y() + pivot, child.width, child.height}; if(childGeometry.width() < 1) childGeometry.setWidth (1); if(childGeometry.height() < 1) childGeometry.setHeight(1); sizable(n)->setGeometry(childGeometry); geometry.setX (geometry.x() + child.width + child.spacing); geometry.setWidth(geometry.width() - child.width + child.spacing); } } auto mHorizontalLayout::setMargin(signed margin) -> type& { settings.margin = margin; return *this; } auto mHorizontalLayout::setSpacing(signed spacing) -> type& { settings.spacing = spacing; return *this; } auto mHorizontalLayout::setVisible(bool visible) -> type& { mLayout::setVisible(visible); for(auto n : range(sizables())) { sizable(n)->setVisible(sizable(n)->visible()); } return *this; } #endif