/* * Copyright (c) 2022, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include namespace Web::Layout { InlineLevelIterator::InlineLevelIterator(Layout::InlineFormattingContext& inline_formatting_context, Layout::LayoutState& layout_state, Layout::BlockContainer const& containing_block, LayoutState::UsedValues const& containing_block_used_values, LayoutMode layout_mode) : m_inline_formatting_context(inline_formatting_context) , m_layout_state(layout_state) , m_containing_block(containing_block) , m_containing_block_used_values(containing_block_used_values) , m_next_node(containing_block.first_child()) , m_layout_mode(layout_mode) { skip_to_next(); } void InlineLevelIterator::enter_node_with_box_model_metrics(Layout::NodeWithStyleAndBoxModelMetrics const& node) { if (!m_extra_leading_metrics.has_value()) m_extra_leading_metrics = ExtraBoxMetrics {}; // FIXME: It's really weird that *this* is where we assign box model metrics for these layout nodes.. auto& used_values = m_layout_state.get_mutable(node); auto const& computed_values = node.computed_values(); used_values.margin_left = computed_values.margin().left().to_px(node, m_containing_block_used_values.content_width()); used_values.border_left = computed_values.border_left().width; used_values.padding_left = computed_values.padding().left().to_px(node, m_containing_block_used_values.content_width()); used_values.padding_bottom = computed_values.padding().bottom().to_px(node, m_containing_block_used_values.content_width()); used_values.padding_top = computed_values.padding().top().to_px(node, m_containing_block_used_values.content_width()); m_extra_leading_metrics->margin += used_values.margin_left; m_extra_leading_metrics->border += used_values.border_left; m_extra_leading_metrics->padding += used_values.padding_left; // Now's our chance to resolve the inset properties for this node. m_inline_formatting_context.compute_inset(node); m_box_model_node_stack.append(node); } void InlineLevelIterator::exit_node_with_box_model_metrics() { if (!m_extra_trailing_metrics.has_value()) m_extra_trailing_metrics = ExtraBoxMetrics {}; auto& node = m_box_model_node_stack.last(); auto& used_values = m_layout_state.get_mutable(node); auto const& computed_values = node->computed_values(); used_values.margin_right = computed_values.margin().right().to_px(node, m_containing_block_used_values.content_width()); used_values.border_right = computed_values.border_right().width; used_values.padding_right = computed_values.padding().right().to_px(node, m_containing_block_used_values.content_width()); m_extra_trailing_metrics->margin += used_values.margin_right; m_extra_trailing_metrics->border += used_values.border_right; m_extra_trailing_metrics->padding += used_values.padding_right; m_box_model_node_stack.take_last(); } // This is similar to Layout::Node::next_in_pre_order() but will not descend into inline-block nodes. Layout::Node const* InlineLevelIterator::next_inline_node_in_pre_order(Layout::Node const& current, Layout::Node const* stay_within) { if (current.first_child() && current.first_child()->display().is_inline_outside() && current.display().is_flow_inside() && !current.is_replaced_box()) { if (!current.is_box() || !static_cast(current).is_out_of_flow(m_inline_formatting_context)) return current.first_child(); } Layout::Node const* node = ¤t; Layout::Node const* next = nullptr; while (!(next = node->next_sibling())) { node = node->parent(); // If node is the last node on the "box model node stack", pop it off. if (!m_box_model_node_stack.is_empty() && m_box_model_node_stack.last() == node) { exit_node_with_box_model_metrics(); } if (!node || node == stay_within) return nullptr; } // If node is the last node on the "box model node stack", pop it off. if (!m_box_model_node_stack.is_empty() && m_box_model_node_stack.last() == node) { exit_node_with_box_model_metrics(); } return next; } void InlineLevelIterator::compute_next() { if (m_next_node == nullptr) return; do { m_next_node = next_inline_node_in_pre_order(*m_next_node, m_containing_block); if (m_next_node && m_next_node->is_svg_mask_box()) { // NOTE: It is possible to encounter SVGMaskBox nodes while doing layout of formatting context established by with a mask. // We should skip and let SVGFormattingContext take care of them. m_next_node = m_next_node->next_sibling(); } } while (m_next_node && (!m_next_node->is_inline() && !m_next_node->is_out_of_flow(m_inline_formatting_context))); } void InlineLevelIterator::skip_to_next() { if (m_next_node && is(*m_next_node) && m_next_node->display().is_flow_inside() && !m_next_node->is_out_of_flow(m_inline_formatting_context) && !m_next_node->is_replaced_box()) enter_node_with_box_model_metrics(static_cast(*m_next_node)); m_current_node = m_next_node; compute_next(); } Optional InlineLevelIterator::next() { if (m_lookahead_items.is_empty()) return next_without_lookahead(); return m_lookahead_items.dequeue(); } CSSPixels InlineLevelIterator::next_non_whitespace_sequence_width() { CSSPixels next_width = 0; for (;;) { auto next_item_opt = next_without_lookahead(); if (!next_item_opt.has_value()) break; m_lookahead_items.enqueue(next_item_opt.release_value()); auto& next_item = m_lookahead_items.tail(); if (next_item.type == InlineLevelIterator::Item::Type::ForcedBreak) break; if (next_item.node->computed_values().white_space() != CSS::WhiteSpace::Nowrap) { if (next_item.type != InlineLevelIterator::Item::Type::Text) break; if (next_item.is_collapsible_whitespace) break; auto& next_text_node = verify_cast(*(next_item.node)); auto next_view = next_text_node.text_for_rendering().bytes_as_string_view().substring_view(next_item.offset_in_node, next_item.length_in_node); if (next_view.is_whitespace()) break; } next_width += next_item.border_box_width(); } return next_width; } Gfx::GlyphRun::TextType InlineLevelIterator::resolve_text_direction_from_context() { VERIFY(m_text_node_context.has_value()); Optional next_known_direction; for (size_t i = 0;; ++i) { auto peek = m_text_node_context->chunk_iterator.peek(i); if (!peek.has_value()) break; if (peek->text_type == Gfx::GlyphRun::TextType::Ltr || peek->text_type == Gfx::GlyphRun::TextType::Rtl) { next_known_direction = peek->text_type; break; } } auto last_known_direction = m_text_node_context->last_known_direction; if (last_known_direction.has_value() && next_known_direction.has_value() && *last_known_direction != *next_known_direction) { switch (m_containing_block->computed_values().direction()) { case CSS::Direction::Ltr: return Gfx::GlyphRun::TextType::Ltr; case CSS::Direction::Rtl: return Gfx::GlyphRun::TextType::Rtl; } } if (last_known_direction.has_value()) return *last_known_direction; if (next_known_direction.has_value()) return *next_known_direction; return Gfx::GlyphRun::TextType::ContextDependent; } Optional InlineLevelIterator::next_without_lookahead() { if (!m_current_node) return {}; if (is(*m_current_node)) { auto& text_node = static_cast(*m_current_node); if (!m_text_node_context.has_value()) enter_text_node(text_node); auto chunk_opt = m_text_node_context->chunk_iterator.next(); if (!chunk_opt.has_value()) { m_text_node_context = {}; skip_to_next(); return next_without_lookahead(); } if (!m_text_node_context->chunk_iterator.peek(0).has_value()) m_text_node_context->is_last_chunk = true; auto& chunk = chunk_opt.value(); auto text_type = chunk.text_type; if (text_type == Gfx::GlyphRun::TextType::Ltr || text_type == Gfx::GlyphRun::TextType::Rtl) m_text_node_context->last_known_direction = text_type; if (m_text_node_context->do_respect_linebreaks && chunk.has_breaking_newline) { m_text_node_context->is_last_chunk = true; if (chunk.is_all_whitespace) text_type = Gfx::GlyphRun::TextType::EndPadding; } if (text_type == Gfx::GlyphRun::TextType::ContextDependent) text_type = resolve_text_direction_from_context(); if (m_text_node_context->do_respect_linebreaks && chunk.has_breaking_newline) { return Item { .type = Item::Type::ForcedBreak, }; } auto glyph_run = Gfx::shape_text({ 0, 0 }, chunk.view, chunk.font, text_type); CSSPixels chunk_width = CSSPixels::nearest_value_for(glyph_run->width()); // NOTE: We never consider `content: ""` to be collapsible whitespace. bool is_generated_empty_string = text_node.is_generated() && chunk.length == 0; Item item { .type = Item::Type::Text, .node = &text_node, .glyph_run = move(glyph_run), .offset_in_node = chunk.start, .length_in_node = chunk.length, .width = chunk_width, .is_collapsible_whitespace = m_text_node_context->do_collapse && chunk.is_all_whitespace && !is_generated_empty_string, }; add_extra_box_model_metrics_to_item(item, m_text_node_context->is_first_chunk, m_text_node_context->is_last_chunk); return item; } if (m_current_node->is_absolutely_positioned()) { auto& node = *m_current_node; skip_to_next(); return Item { .type = Item::Type::AbsolutelyPositionedElement, .node = &node, }; } if (m_current_node->is_floating()) { auto& node = *m_current_node; skip_to_next(); return Item { .type = Item::Type::FloatingElement, .node = &node, }; } if (is(*m_current_node)) { auto& node = *m_current_node; skip_to_next(); return Item { .type = Item::Type::ForcedBreak, .node = &node, }; } if (is(*m_current_node)) { skip_to_next(); return next_without_lookahead(); } if (!is(*m_current_node)) { skip_to_next(); return next_without_lookahead(); } if (is(*m_current_node)) { auto& replaced_box = static_cast(*m_current_node); // FIXME: This const_cast is gross. const_cast(replaced_box).prepare_for_replaced_layout(); } auto& box = verify_cast(*m_current_node); auto& box_state = m_layout_state.get(box); m_inline_formatting_context.dimension_box_on_line(box, m_layout_mode); skip_to_next(); auto item = Item { .type = Item::Type::Element, .node = &box, .offset_in_node = 0, .length_in_node = 0, .width = box_state.content_width(), .padding_start = box_state.padding_left, .padding_end = box_state.padding_right, .border_start = box_state.border_left, .border_end = box_state.border_right, .margin_start = box_state.margin_left, .margin_end = box_state.margin_right, }; add_extra_box_model_metrics_to_item(item, true, true); return item; } void InlineLevelIterator::enter_text_node(Layout::TextNode const& text_node) { bool do_collapse = true; bool do_wrap_lines = true; bool do_respect_linebreaks = false; if (text_node.computed_values().white_space() == CSS::WhiteSpace::Nowrap) { do_collapse = true; do_wrap_lines = false; do_respect_linebreaks = false; } else if (text_node.computed_values().white_space() == CSS::WhiteSpace::Pre) { do_collapse = false; do_wrap_lines = false; do_respect_linebreaks = true; } else if (text_node.computed_values().white_space() == CSS::WhiteSpace::PreLine) { do_collapse = true; do_wrap_lines = true; do_respect_linebreaks = true; } else if (text_node.computed_values().white_space() == CSS::WhiteSpace::PreWrap) { do_collapse = false; do_wrap_lines = true; do_respect_linebreaks = true; } if (text_node.dom_node().is_editable() && !text_node.dom_node().is_uninteresting_whitespace_node()) do_collapse = false; m_text_node_context = TextNodeContext { .do_collapse = do_collapse, .do_wrap_lines = do_wrap_lines, .do_respect_linebreaks = do_respect_linebreaks, .is_first_chunk = true, .is_last_chunk = false, .chunk_iterator = TextNode::ChunkIterator { text_node.text_for_rendering(), do_wrap_lines, do_respect_linebreaks, text_node.computed_values().font_list() }, }; } void InlineLevelIterator::add_extra_box_model_metrics_to_item(Item& item, bool add_leading_metrics, bool add_trailing_metrics) { if (add_leading_metrics && m_extra_leading_metrics.has_value()) { item.margin_start += m_extra_leading_metrics->margin; item.border_start += m_extra_leading_metrics->border; item.padding_start += m_extra_leading_metrics->padding; m_extra_leading_metrics = {}; } if (add_trailing_metrics && m_extra_trailing_metrics.has_value()) { item.margin_end += m_extra_trailing_metrics->margin; item.border_end += m_extra_trailing_metrics->border; item.padding_end += m_extra_trailing_metrics->padding; m_extra_trailing_metrics = {}; } } }