/* * Copyright (c) 2018-2020, Andreas Kling * All rights reserved. * * 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. * * 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 HOLDER 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Web { Element::Element(Document& document, const FlyString& tag_name) : ParentNode(document, NodeType::ELEMENT_NODE) , m_tag_name(tag_name) { } Element::~Element() { } Attribute* Element::find_attribute(const FlyString& name) { for (auto& attribute : m_attributes) { if (attribute.name() == name) return &attribute; } return nullptr; } const Attribute* Element::find_attribute(const FlyString& name) const { for (auto& attribute : m_attributes) { if (attribute.name() == name) return &attribute; } return nullptr; } String Element::attribute(const FlyString& name) const { if (auto* attribute = find_attribute(name)) return attribute->value(); return {}; } void Element::set_attribute(const FlyString& name, const String& value) { if (auto* attribute = find_attribute(name)) attribute->set_value(value); else m_attributes.empend(name, value); parse_attribute(name, value); } void Element::set_attributes(Vector&& attributes) { m_attributes = move(attributes); for (auto& attribute : m_attributes) parse_attribute(attribute.name(), attribute.value()); } bool Element::has_class(const StringView& class_name) const { auto value = attribute("class"); if (value.is_empty()) return false; auto parts = value.split_view(' '); for (auto& part : parts) { if (part == class_name) return true; } return false; } RefPtr Element::create_layout_node(const StyleProperties* parent_style) const { auto style = document().style_resolver().resolve_style(*this, parent_style); const_cast(*this).m_resolved_style = style; auto display = style->string_or_fallback(CSS::PropertyID::Display, "inline"); if (display == "none") return nullptr; if (display == "block") return adopt(*new LayoutBlock(this, move(style))); if (display == "inline") return adopt(*new LayoutInline(*this, move(style))); if (display == "list-item") return adopt(*new LayoutListItem(*this, move(style))); if (display == "table") return adopt(*new LayoutTable(*this, move(style))); if (display == "table-row") return adopt(*new LayoutTableRow(*this, move(style))); if (display == "table-cell") return adopt(*new LayoutTableCell(*this, move(style))); if (display == "inline-block") return adopt(*new LayoutBlock(this, move(style))); ASSERT_NOT_REACHED(); } void Element::parse_attribute(const FlyString&, const String&) { } enum class StyleDifference { None, NeedsRepaint, NeedsRelayout, }; static StyleDifference compute_style_difference(const StyleProperties& old_style, const StyleProperties& new_style, const Document& document) { if (old_style == new_style) return StyleDifference::None; bool needs_repaint = false; bool needs_relayout = false; if (new_style.color_or_fallback(CSS::PropertyID::Color, document, Color::Black) != old_style.color_or_fallback(CSS::PropertyID::Color, document, Color::Black)) needs_repaint = true; else if (new_style.color_or_fallback(CSS::PropertyID::BackgroundColor, document, Color::Black) != old_style.color_or_fallback(CSS::PropertyID::BackgroundColor, document, Color::Black)) needs_repaint = true; if (needs_relayout) return StyleDifference::NeedsRelayout; if (needs_repaint) return StyleDifference::NeedsRepaint; return StyleDifference::None; } void Element::recompute_style() { set_needs_style_update(false); ASSERT(parent()); auto* parent_layout_node = parent()->layout_node(); if (!parent_layout_node) return; ASSERT(parent_layout_node); auto style = document().style_resolver().resolve_style(*this, &parent_layout_node->style()); m_resolved_style = style; if (!layout_node()) { if (style->string_or_fallback(CSS::PropertyID::Display, "inline") == "none") return; // We need a new layout tree here! LayoutTreeBuilder tree_builder; tree_builder.build(*this); return; } auto diff = compute_style_difference(layout_node()->style(), *style, document()); if (diff == StyleDifference::None) return; layout_node()->set_style(*style); if (diff == StyleDifference::NeedsRelayout) { ASSERT_NOT_REACHED(); } if (diff == StyleDifference::NeedsRepaint) { layout_node()->set_needs_display(); } } NonnullRefPtr Element::computed_style() { auto properties = m_resolved_style->clone(); if (layout_node() && layout_node()->has_style()) { CSS::PropertyID box_model_metrics[] = { CSS::PropertyID::MarginTop, CSS::PropertyID::MarginBottom, CSS::PropertyID::MarginLeft, CSS::PropertyID::MarginRight, CSS::PropertyID::PaddingTop, CSS::PropertyID::PaddingBottom, CSS::PropertyID::PaddingLeft, CSS::PropertyID::PaddingRight, CSS::PropertyID::BorderTopWidth, CSS::PropertyID::BorderBottomWidth, CSS::PropertyID::BorderLeftWidth, CSS::PropertyID::BorderRightWidth, }; for (CSS::PropertyID id : box_model_metrics) { auto prop = layout_node()->style().property(id); if (prop.has_value()) properties->set_property(id, prop.value()); } } return properties; } void Element::set_inner_html(StringView markup) { auto fragment = parse_html_fragment(document(), markup); remove_all_children(); if (!fragment) return; while (RefPtr child = fragment->first_child()) { fragment->remove_child(*child); append_child(*child); } set_needs_style_update(true); document().schedule_style_update(); document().invalidate_layout(); } String Element::inner_html() const { StringBuilder builder; Function recurse = [&](auto& node) { for (auto* child = node.first_child(); child; child = child->next_sibling()) { if (child->is_element()) { builder.append('<'); builder.append(to(*child).tag_name()); builder.append('>'); recurse(*child); builder.append("(*child).tag_name()); builder.append('>'); } if (child->is_text()) { builder.append(to(*child).data()); } } }; recurse(*this); return builder.to_string(); } }