| // Copyright 2016 The Chromium Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_inline_node.h" |
| |
| #include <algorithm> |
| #include <memory> |
| |
| #include "build/build_config.h" |
| #include "third_party/blink/renderer/core/layout/layout_block_flow.h" |
| #include "third_party/blink/renderer/core/layout/layout_inline.h" |
| #include "third_party/blink/renderer/core/layout/layout_list_marker.h" |
| #include "third_party/blink/renderer/core/layout/layout_object.h" |
| #include "third_party/blink/renderer/core/layout/layout_text.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/layout_ng_text.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_bidi_paragraph.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_dirty_lines.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_inline_break_token.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_inline_item.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_inline_items_builder.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_inline_layout_algorithm.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_line_breaker.h" |
| #include "third_party/blink/renderer/core/layout/ng/inline/ng_offset_mapping.h" |
| #include "third_party/blink/renderer/core/layout/ng/legacy_layout_tree_walking.h" |
| #include "third_party/blink/renderer/core/layout/ng/list/layout_ng_list_item.h" |
| #include "third_party/blink/renderer/core/layout/ng/list/layout_ng_list_marker.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_block_break_token.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_constraint_space_builder.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_layout_result.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_length_utils.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_positioned_float.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_space_utils.h" |
| #include "third_party/blink/renderer/core/layout/ng/ng_unpositioned_float.h" |
| #include "third_party/blink/renderer/core/paint/ng/ng_paint_fragment.h" |
| #include "third_party/blink/renderer/core/style/computed_style.h" |
| #include "third_party/blink/renderer/platform/fonts/shaping/harfbuzz_shaper.h" |
| #include "third_party/blink/renderer/platform/fonts/shaping/run_segmenter.h" |
| #include "third_party/blink/renderer/platform/fonts/shaping/shape_result_spacing.h" |
| #include "third_party/blink/renderer/platform/fonts/shaping/shape_result_view.h" |
| #include "third_party/blink/renderer/platform/wtf/text/character_names.h" |
| #include "third_party/blink/renderer/platform/wtf/text/string_buffer.h" |
| |
| namespace blink { |
| |
| namespace { |
| |
| // Estimate the number of NGInlineItem to minimize the vector expansions. |
| unsigned EstimateInlineItemsCount(const LayoutBlockFlow& block) { |
| unsigned count = 0; |
| for (LayoutObject* child = block.FirstChild(); child; |
| child = child->NextSibling()) { |
| ++count; |
| } |
| return count * 4; |
| } |
| |
| // Estimate the number of units and ranges in NGOffsetMapping to minimize vector |
| // and hash map expansions. |
| unsigned EstimateOffsetMappingItemsCount(const LayoutBlockFlow& block) { |
| // Cancels out the factor 4 in EstimateInlineItemsCount() to get the number of |
| // LayoutObjects. |
| // TODO(layout-dev): Unify the two functions and make them less hacky. |
| return EstimateInlineItemsCount(block) / 4; |
| } |
| |
| // This class has the same interface as NGInlineItemsBuilder but does nothing |
| // except tracking if floating or out-of-flow objects are added. |
| // |
| // |MarkLineBoxesDirty| uses this class to traverse tree without buildling |
| // |NGInlineItem|. |
| class ItemsBuilderForMarkLineBoxesDirty { |
| STACK_ALLOCATED(); |
| |
| public: |
| ItemsBuilderForMarkLineBoxesDirty(NGDirtyLines* dirty_lines) |
| : dirty_lines_(dirty_lines) {} |
| void AppendText(LayoutText* layout_text, const NGInlineItemsData*) { |
| if (dirty_lines_ && dirty_lines_->HandleText(layout_text)) |
| dirty_lines_ = nullptr; |
| } |
| void AppendOpaque(NGInlineItem::NGInlineItemType, |
| LayoutObject*) {} |
| void AppendAtomicInline(LayoutObject* layout_object) { |
| if (dirty_lines_ && |
| dirty_lines_->HandleAtomicInline(ToLayoutBox(layout_object))) |
| dirty_lines_ = nullptr; |
| } |
| void AppendFloating(LayoutObject*) { |
| has_floating_or_out_of_flow_positioned_ = true; |
| } |
| void AppendOutOfFlowPositioned(LayoutObject*) { |
| has_floating_or_out_of_flow_positioned_ = true; |
| } |
| void SetIsSymbolMarker(bool) {} |
| void EnterBlock(const ComputedStyle*) {} |
| void ExitBlock() {} |
| void EnterInline(LayoutInline* layout_inline) { |
| if (dirty_lines_ && dirty_lines_->HandleInlineBox(layout_inline)) |
| dirty_lines_ = nullptr; |
| } |
| void ExitInline(LayoutObject*) {} |
| |
| bool ShouldAbort() const { |
| // Aborting in the middle of the traversal is safe because this function |
| // ClearNeedsLayout() on text and LayoutInline, but since an inline |
| // formatting context is laid out as a whole, these flags don't matter. |
| // For that reason, the traversal should not ClearNeedsLayout() atomic |
| // inlines, floats, or OOF -- objects that need to be laid out separately |
| // from the inline formatting context. |
| // TODO(kojii): This looks a bit tricky, better to come up with clearner |
| // solution if any. |
| return has_floating_or_out_of_flow_positioned_; |
| } |
| |
| void ClearInlineFragment(LayoutObject* object) { |
| DCHECK(object->IsInLayoutNGInlineFormattingContext()); |
| } |
| |
| void ClearNeedsLayout(LayoutObject* object) { |
| object->ClearNeedsLayout(); |
| DCHECK(!object->NeedsCollectInlines()); |
| ClearInlineFragment(object); |
| } |
| |
| void UpdateShouldCreateBoxFragment(LayoutInline* object) { |
| object->UpdateShouldCreateBoxFragment(); |
| } |
| |
| private: |
| NGDirtyLines* dirty_lines_; |
| bool has_floating_or_out_of_flow_positioned_ = false; |
| }; |
| |
| // Wrapper over ShapeText that re-uses existing shape results for items that |
| // haven't changed. |
| class ReusingTextShaper final { |
| public: |
| ReusingTextShaper(NGInlineItemsData* data, |
| const Vector<NGInlineItem>* reusable_items) |
| : data_(*data), |
| reusable_items_(reusable_items), |
| shaper_(data->text_content) {} |
| |
| scoped_refptr<ShapeResult> Shape(const NGInlineItem& start_item, |
| unsigned end_offset) { |
| const unsigned start_offset = start_item.StartOffset(); |
| DCHECK_LT(start_offset, end_offset); |
| |
| if (!reusable_items_) |
| return Reshape(start_item, start_offset, end_offset); |
| |
| // TODO(yosin): We should support segment text |
| if (data_.segments) |
| return Reshape(start_item, start_offset, end_offset); |
| |
| const Vector<const ShapeResult*> reusable_shape_results = |
| CollectReusableShapeResults(start_offset, end_offset, |
| start_item.Direction()); |
| if (reusable_shape_results.IsEmpty()) |
| return Reshape(start_item, start_offset, end_offset); |
| |
| const scoped_refptr<ShapeResult> shape_result = |
| ShapeResult::CreateEmpty(*reusable_shape_results.front()); |
| unsigned offset = start_offset; |
| for (const ShapeResult* reusable_shape_result : reusable_shape_results) { |
| DCHECK_LE(offset, reusable_shape_result->StartIndex()); |
| if (offset < reusable_shape_result->StartIndex()) { |
| AppendShapeResult( |
| *Reshape(start_item, offset, reusable_shape_result->StartIndex()), |
| shape_result.get()); |
| offset = shape_result->EndIndex(); |
| } |
| DCHECK_EQ(offset, reusable_shape_result->StartIndex()); |
| DCHECK(shape_result->NumCharacters() == 0 || |
| shape_result->EndIndex() == offset); |
| reusable_shape_result->CopyRange( |
| offset, std::min(reusable_shape_result->EndIndex(), end_offset), |
| shape_result.get()); |
| offset = shape_result->EndIndex(); |
| if (offset == end_offset) |
| return shape_result; |
| } |
| DCHECK_LT(offset, end_offset); |
| AppendShapeResult(*Reshape(start_item, offset, end_offset), |
| shape_result.get()); |
| return shape_result; |
| } |
| |
| private: |
| void AppendShapeResult(const ShapeResult& shape_result, ShapeResult* target) { |
| DCHECK(target->NumCharacters() == 0 || |
| target->EndIndex() == shape_result.StartIndex()); |
| shape_result.CopyRange(shape_result.StartIndex(), shape_result.EndIndex(), |
| target); |
| } |
| |
| Vector<const ShapeResult*> CollectReusableShapeResults( |
| unsigned start_offset, |
| unsigned end_offset, |
| TextDirection direction) { |
| DCHECK_LT(start_offset, end_offset); |
| Vector<const ShapeResult*> shape_results; |
| if (!reusable_items_) |
| return shape_results; |
| for (const NGInlineItem *item = std::lower_bound( |
| reusable_items_->begin(), reusable_items_->end(), start_offset, |
| [](const NGInlineItem&item, unsigned offset) { |
| return item.EndOffset() <= offset; |
| }); |
| item != reusable_items_->end(); ++item) { |
| if (end_offset <= item->StartOffset()) |
| break; |
| if (item->EndOffset() < start_offset) |
| continue; |
| if (!item->TextShapeResult() || item->Direction() != direction) |
| continue; |
| shape_results.push_back(item->TextShapeResult()); |
| } |
| return shape_results; |
| } |
| |
| scoped_refptr<ShapeResult> Reshape(const NGInlineItem& start_item, |
| unsigned start_offset, |
| unsigned end_offset) { |
| DCHECK_LT(start_offset, end_offset); |
| const TextDirection direction = start_item.Direction(); |
| const Font& font = start_item.Style()->GetFont(); |
| if (data_.segments) { |
| return data_.segments->ShapeText(&shaper_, &font, direction, start_offset, |
| end_offset, |
| &start_item - data_.items.begin()); |
| } |
| RunSegmenter::RunSegmenterRange range = |
| start_item.CreateRunSegmenterRange(); |
| range.end = end_offset; |
| return shaper_.Shape(&font, direction, start_offset, end_offset, range); |
| } |
| |
| NGInlineItemsData& data_; |
| const Vector<NGInlineItem>* const reusable_items_; |
| HarfBuzzShaper shaper_; |
| }; |
| |
| // The function is templated to indicate the purpose of collected inlines: |
| // - With EmptyOffsetMappingBuilder: updating layout; |
| // - With NGOffsetMappingBuilder: building offset mapping on clean layout. |
| // |
| // This allows code sharing between the two purposes with slightly different |
| // behaviors. For example, we clear a LayoutObject's need layout flags when |
| // updating layout, but don't do that when building offset mapping. |
| // |
| // There are also performance considerations, since template saves the overhead |
| // for condition checking and branching. |
| template <typename ItemsBuilder> |
| void CollectInlinesInternal(LayoutBlockFlow* block, |
| ItemsBuilder* builder, |
| const NGInlineNodeData* previous_data) { |
| builder->EnterBlock(block->Style()); |
| LayoutObject* node = GetLayoutObjectForFirstChildNode(block); |
| |
| const LayoutObject* symbol = |
| LayoutNGListItem::FindSymbolMarkerLayoutText(block); |
| while (node) { |
| if (LayoutText* layout_text = ToLayoutTextOrNull(node)) { |
| builder->AppendText(layout_text, previous_data); |
| |
| if (symbol == layout_text) |
| builder->SetIsSymbolMarker(true); |
| |
| builder->ClearNeedsLayout(layout_text); |
| |
| } else if (node->IsFloating()) { |
| builder->AppendFloating(node); |
| if (builder->ShouldAbort()) |
| return; |
| |
| builder->ClearInlineFragment(node); |
| |
| } else if (node->IsOutOfFlowPositioned()) { |
| builder->AppendOutOfFlowPositioned(node); |
| if (builder->ShouldAbort()) |
| return; |
| |
| builder->ClearInlineFragment(node); |
| |
| } else if (node->IsAtomicInlineLevel()) { |
| if (node->IsListMarkerIncludingNG()) { |
| // LayoutNGListItem produces the 'outside' list marker as an inline |
| // block. This is an out-of-flow item whose position is computed |
| // automatically. |
| builder->AppendOpaque(NGInlineItem::kListMarker, node); |
| } else { |
| // For atomic inlines add a unicode "object replacement character" to |
| // signal the presence of a non-text object to the unicode bidi |
| // algorithm. |
| builder->AppendAtomicInline(node); |
| } |
| builder->ClearInlineFragment(node); |
| |
| } else { |
| // Because we're collecting from LayoutObject tree, block-level children |
| // should not appear. LayoutObject tree should have created an anonymous |
| // box to prevent having inline/block-mixed children. |
| DCHECK(node->IsInline()); |
| LayoutInline* layout_inline = ToLayoutInline(node); |
| builder->UpdateShouldCreateBoxFragment(layout_inline); |
| |
| builder->EnterInline(layout_inline); |
| |
| // Traverse to children if they exist. |
| if (LayoutObject* child = layout_inline->FirstChild()) { |
| node = child; |
| continue; |
| } |
| |
| // An empty inline node. |
| builder->ExitInline(layout_inline); |
| builder->ClearNeedsLayout(layout_inline); |
| } |
| |
| // Find the next sibling, or parent, until we reach |block|. |
| while (true) { |
| if (LayoutObject* next = node->NextSibling()) { |
| node = next; |
| break; |
| } |
| node = GetLayoutObjectForParentNode(node); |
| if (node == block || !node) { |
| // Set |node| to |nullptr| to break out of the outer loop. |
| node = nullptr; |
| break; |
| } |
| DCHECK(node->IsInline()); |
| builder->ExitInline(node); |
| builder->ClearNeedsLayout(node); |
| } |
| } |
| builder->ExitBlock(); |
| } |
| |
| // Returns whether this text should break shaping. Even within a box, text runs |
| // that have different shaping properties need to break shaping. |
| inline bool ShouldBreakShapingBeforeText(const NGInlineItem& item, |
| const NGInlineItem& start_item, |
| const ComputedStyle& start_style, |
| const Font& start_font, |
| TextDirection start_direction) { |
| DCHECK_EQ(item.Type(), NGInlineItem::kText); |
| DCHECK(item.Style()); |
| const ComputedStyle& style = *item.Style(); |
| if (&style != &start_style) { |
| const Font& font = style.GetFont(); |
| if (&font != &start_font && font != start_font) |
| return true; |
| } |
| |
| // The resolved direction and run segment properties must match to shape |
| // across for HarfBuzzShaper. |
| return item.Direction() != start_direction || |
| !item.EqualsRunSegment(start_item); |
| } |
| |
| // Returns whether the start of this box should break shaping. |
| inline bool ShouldBreakShapingBeforeBox(const NGInlineItem& item, |
| const Font& start_font) { |
| DCHECK_EQ(item.Type(), NGInlineItem::kOpenTag); |
| DCHECK(item.Style()); |
| const ComputedStyle& style = *item.Style(); |
| |
| // These properties values must break shaping. |
| // https://drafts.csswg.org/css-text-3/#boundary-shaping |
| if ((style.MayHavePadding() && !style.PaddingStart().IsZero()) || |
| (style.MayHaveMargin() && !style.MarginStart().IsZero()) || |
| style.BorderStartWidth() || |
| style.VerticalAlign() != EVerticalAlign::kBaseline) |
| return true; |
| |
| return false; |
| } |
| |
| // Returns whether the end of this box should break shaping. |
| inline bool ShouldBreakShapingAfterBox(const NGInlineItem& item, |
| const Font& start_font) { |
| DCHECK_EQ(item.Type(), NGInlineItem::kCloseTag); |
| DCHECK(item.Style()); |
| const ComputedStyle& style = *item.Style(); |
| |
| // These properties values must break shaping. |
| // https://drafts.csswg.org/css-text-3/#boundary-shaping |
| if ((style.MayHavePadding() && !style.PaddingEnd().IsZero()) || |
| (style.MayHaveMargin() && !style.MarginEnd().IsZero()) || |
| style.BorderEndWidth() || |
| style.VerticalAlign() != EVerticalAlign::kBaseline) |
| return true; |
| |
| return false; |
| } |
| |
| inline bool NeedsShaping(const NGInlineItem& item) { |
| return item.Type() == NGInlineItem::kText && !item.TextShapeResult() && |
| // Text item with length==0 exists to maintain LayoutObject states such |
| // as ClearNeedsLayout, but not needed to shape. |
| item.Length(); |
| } |
| |
| // Determine if reshape is needed for ::first-line style. |
| bool FirstLineNeedsReshape(const ComputedStyle& first_line_style, |
| const ComputedStyle& base_style) { |
| const Font& base_font = base_style.GetFont(); |
| const Font& first_line_font = first_line_style.GetFont(); |
| return &base_font != &first_line_font && base_font != first_line_font; |
| } |
| |
| // Make a string to the specified length, either by truncating if longer, or |
| // appending space characters if shorter. |
| void TruncateOrPadText(String* text, unsigned length) { |
| if (text->length() > length) { |
| *text = text->Substring(0, length); |
| } else if (text->length() < length) { |
| StringBuilder builder; |
| builder.ReserveCapacity(length); |
| builder.Append(*text); |
| while (builder.length() < length) |
| builder.Append(kSpaceCharacter); |
| *text = builder.ToString(); |
| } |
| } |
| |
| template <typename OffsetMappingBuilder> |
| bool MayBeBidiEnabled( |
| const String& text_content, |
| const NGInlineItemsBuilderTemplate<OffsetMappingBuilder>& builder) { |
| return !text_content.Is8Bit() || builder.HasBidiControls(); |
| } |
| |
| } // namespace |
| |
| NGInlineNode::NGInlineNode(LayoutBlockFlow* block) |
| : NGLayoutInputNode(block, kInline) { |
| DCHECK(block); |
| DCHECK(block->IsLayoutNGMixin()); |
| if (!block->HasNGInlineNodeData()) |
| block->ResetNGInlineNodeData(); |
| } |
| |
| bool NGInlineNode::IsPrepareLayoutFinished() const { |
| const NGInlineNodeData* data = |
| To<LayoutBlockFlow>(box_)->GetNGInlineNodeData(); |
| return data && !data->text_content.IsNull(); |
| } |
| |
| void NGInlineNode::PrepareLayoutIfNeeded() { |
| std::unique_ptr<NGInlineNodeData> previous_data; |
| LayoutBlockFlow* block_flow = GetLayoutBlockFlow(); |
| if (IsPrepareLayoutFinished()) { |
| if (!block_flow->NeedsCollectInlines()) |
| return; |
| |
| previous_data.reset(block_flow->TakeNGInlineNodeData()); |
| block_flow->ResetNGInlineNodeData(); |
| } |
| |
| if (RuntimeEnabledFeatures::LayoutNGLineCacheEnabled()) { |
| if (const NGPaintFragment* fragment = block_flow->PaintFragment()) { |
| NGDirtyLines dirty_lines(fragment); |
| PrepareLayout(std::move(previous_data), &dirty_lines); |
| return; |
| } |
| } |
| PrepareLayout(std::move(previous_data), /* dirty_lines */ nullptr); |
| } |
| |
| void NGInlineNode::PrepareLayout( |
| std::unique_ptr<NGInlineNodeData> previous_data, |
| NGDirtyLines* dirty_lines) { |
| // Scan list of siblings collecting all in-flow non-atomic inlines. A single |
| // NGInlineNode represent a collection of adjacent non-atomic inlines. |
| NGInlineNodeData* data = MutableData(); |
| DCHECK(data); |
| CollectInlines(data, previous_data.get(), dirty_lines); |
| SegmentText(data); |
| ShapeText(data, previous_data ? &previous_data->text_content : nullptr); |
| ShapeTextForFirstLineIfNeeded(data); |
| AssociateItemsWithInlines(data); |
| DCHECK_EQ(data, MutableData()); |
| |
| LayoutBlockFlow* block_flow = GetLayoutBlockFlow(); |
| block_flow->ClearNeedsCollectInlines(); |
| |
| #if DCHECK_IS_ON() |
| // ComputeOffsetMappingIfNeeded() runs some integrity checks as part of |
| // creating offset mapping. Run the check, and discard the result. |
| DCHECK(!data->offset_mapping); |
| ComputeOffsetMappingIfNeeded(); |
| DCHECK(data->offset_mapping); |
| data->offset_mapping.reset(); |
| #endif |
| } |
| |
| // Building |NGInlineNodeData| for |LayoutText::SetTextWithOffset()| with |
| // reusing data. |
| class NGInlineNodeDataEditor final { |
| STACK_ALLOCATED(); |
| |
| public: |
| explicit NGInlineNodeDataEditor(const LayoutText& layout_text) |
| : block_flow_(layout_text.ContainingNGBlockFlow()), |
| layout_text_(layout_text) { |
| DCHECK(layout_text_.HasValidInlineItems()); |
| } |
| |
| LayoutBlockFlow* GetLayoutBlockFlow() const { return block_flow_; } |
| |
| // Note: We can't use |Position| for |layout_text_.GetNode()| because |Text| |
| // node is already changed. |
| NGInlineNodeData* Prepare(unsigned offset, unsigned length) { |
| if (!block_flow_ || block_flow_->NeedsCollectInlines() || |
| block_flow_->NeedsLayout() || |
| block_flow_->GetDocument().NeedsLayoutTreeUpdate() || |
| !block_flow_->GetNGInlineNodeData() || |
| block_flow_->GetNGInlineNodeData()->text_content.IsNull()) |
| return nullptr; |
| |
| // Because of current text content has secured text, e.g. whole text is |
| // "***", all characters including collapsed white spaces are marker, and |
| // new text is original text, we can't reuse shape result. |
| if (layout_text_.StyleRef().TextSecurity() != ETextSecurity::kNone) |
| return nullptr; |
| |
| // Note: We should compute offset mapping before calling |
| // |LayoutBlockFlow::TakeNGInlineNodeData()| |
| const NGOffsetMapping* const offset_mapping = |
| NGInlineNode::GetOffsetMapping(block_flow_); |
| DCHECK(offset_mapping); |
| const auto units = |
| offset_mapping->GetMappingUnitsForLayoutObject(layout_text_); |
| start_offset_ = ConvertDOMOffsetToTextContent(units, offset); |
| end_offset_ = ConvertDOMOffsetToTextContent(units, offset + length); |
| DCHECK_LE(start_offset_, end_offset_); |
| data_.reset(block_flow_->TakeNGInlineNodeData()); |
| return data_.get(); |
| } |
| |
| void Run() { |
| const NGInlineNodeData& new_data = *block_flow_->GetNGInlineNodeData(); |
| const int diff = |
| new_data.text_content.length() - data_->text_content.length(); |
| // |inserted_text_length| can be negative when white space is collapsed |
| // after text change. |
| // * "ab cd ef" => delete "cd" => "ab ef" |
| // We should not reuse " " before "ef" |
| // * "a bc" => delete "bc" => "a" |
| // There are no spaces after "a". |
| const int inserted_text_length = end_offset_ - start_offset_ + diff; |
| DCHECK_GE(inserted_text_length, -1); |
| const unsigned start_offset = |
| inserted_text_length < 0 && end_offset_ == data_->text_content.length() |
| ? start_offset_ - 1 |
| : start_offset_; |
| const unsigned end_offset = |
| inserted_text_length < 0 && start_offset_ == start_offset |
| ? end_offset_ + 1 |
| : end_offset_; |
| DCHECK_LE(end_offset, data_->text_content.length()); |
| DCHECK_LE(start_offset, end_offset); |
| #if DCHECK_IS_ON() |
| if (start_offset_ != start_offset) { |
| DCHECK_EQ(data_->text_content[start_offset], ' '); |
| DCHECK_EQ(end_offset, end_offset_); |
| } |
| if (end_offset_ != end_offset) { |
| DCHECK_EQ(data_->text_content[end_offset_], ' '); |
| DCHECK_EQ(start_offset, start_offset_); |
| } |
| #endif |
| Vector<NGInlineItem> items; |
| // +3 for before and after replaced text. |
| items.ReserveInitialCapacity(data_->items.size() + 3); |
| |
| // Copy items before replaced range |
| auto* it = data_->items.begin(); |
| while (it->end_offset_ < start_offset || |
| it->layout_object_ != layout_text_) { |
| DCHECK(it != data_->items.end()); |
| items.push_back(*it); |
| ++it; |
| } |
| |
| DCHECK_EQ(it->layout_object_, layout_text_); |
| |
| // Copy part of item before replaced range. |
| if (it->start_offset_ < start_offset) |
| items.push_back(CopyItemBefore(*it, start_offset)); |
| |
| // Skip items in replaced range. |
| while (it->end_offset_ < end_offset) |
| ++it; |
| DCHECK_EQ(it->layout_object_, layout_text_); |
| |
| // Inserted text |
| if (inserted_text_length > 0) { |
| const unsigned inserted_start_offset = |
| items.IsEmpty() ? 0 : items.back().end_offset_; |
| const unsigned inserted_end_offset = |
| inserted_start_offset + inserted_text_length; |
| items.push_back(NGInlineItem(*it, inserted_start_offset, |
| inserted_end_offset, nullptr)); |
| } |
| |
| // Copy part of item after replaced range. |
| if (end_offset < it->end_offset_) { |
| items.push_back(CopyItemAfter(*it, end_offset)); |
| ShiftItem(&items.back(), diff); |
| } |
| |
| // Copy items after replaced range |
| ++it; |
| while (it != data_->items.end()) { |
| DCHECK_LE(end_offset, it->start_offset_); |
| items.push_back(*it); |
| ShiftItem(&items.back(), diff); |
| ++it; |
| } |
| |
| VerifyItems(items); |
| data_->items = std::move(items); |
| data_->text_content = new_data.text_content; |
| } |
| |
| private: |
| static unsigned AdjustOffset(unsigned offset, int delta) { |
| if (delta > 0) |
| return offset + delta; |
| return offset - (-delta); |
| } |
| |
| static unsigned ConvertDOMOffsetToTextContent( |
| base::span<const NGOffsetMappingUnit> units, |
| unsigned offset) { |
| auto it = std::find_if( |
| units.begin(), units.end(), [offset](const NGOffsetMappingUnit& unit) { |
| return unit.DOMStart() <= offset && offset <= unit.DOMEnd(); |
| }); |
| DCHECK(it != units.end()); |
| return it->ConvertDOMOffsetToTextContent(offset); |
| } |
| |
| // Returns copy of |item| after |start_offset| (inclusive). |
| NGInlineItem CopyItemAfter(const NGInlineItem& item, |
| unsigned start_offset) const { |
| DCHECK_LE(item.start_offset_, start_offset); |
| DCHECK_LT(start_offset, item.end_offset_); |
| DCHECK_EQ(item.layout_object_, layout_text_); |
| if (item.start_offset_ == start_offset) |
| return item; |
| const unsigned end_offset = item.end_offset_; |
| if (!item.shape_result_) |
| return NGInlineItem(item, start_offset, end_offset, nullptr); |
| // TODO(yosin): We should handle |shape_result| doesn't have safe-to-break |
| // at start and end, because of |ShapeText()| splits |ShapeResult| ignoring |
| // safe-to-break offset. |
| item.shape_result_->EnsurePositionData(); |
| const unsigned safe_start_offset = |
| item.shape_result_->CachedNextSafeToBreakOffset(start_offset); |
| if (end_offset == safe_start_offset) |
| return NGInlineItem(item, start_offset, end_offset, nullptr); |
| return NGInlineItem( |
| item, start_offset, end_offset, |
| item.shape_result_->SubRange(safe_start_offset, end_offset)); |
| } |
| |
| // Returns copy of |item| before |end_offset| (exclusive). |
| NGInlineItem CopyItemBefore(const NGInlineItem& item, |
| unsigned end_offset) const { |
| DCHECK_LT(item.start_offset_, end_offset); |
| DCHECK_LE(end_offset, item.end_offset_); |
| DCHECK_EQ(item.layout_object_, layout_text_); |
| if (item.end_offset_ == end_offset) |
| return item; |
| const unsigned start_offset = item.start_offset_; |
| if (!item.shape_result_) |
| return NGInlineItem(item, start_offset, end_offset, nullptr); |
| // TODO(yosin): We should handle |shape_result| doesn't have safe-to-break |
| // at start and end, because of |ShapeText()| splits |ShapeResult| ignoring |
| // safe-to-break offset. |
| item.shape_result_->EnsurePositionData(); |
| const unsigned safe_end_offset = |
| item.shape_result_->CachedPreviousSafeToBreakOffset(end_offset); |
| if (start_offset == safe_end_offset) |
| return NGInlineItem(item, start_offset, end_offset, nullptr); |
| return NGInlineItem( |
| item, start_offset, end_offset, |
| item.shape_result_->SubRange(start_offset, safe_end_offset)); |
| } |
| |
| static void ShiftItem(NGInlineItem* item, int delta) { |
| if (delta == 0) |
| return; |
| item->start_offset_ = AdjustOffset(item->start_offset_, delta); |
| item->end_offset_ = AdjustOffset(item->end_offset_, delta); |
| if (!item->shape_result_) |
| return; |
| item->shape_result_ = |
| item->shape_result_->CopyAdjustedOffset(item->start_offset_); |
| } |
| |
| void VerifyItems(const Vector<NGInlineItem>& items) const { |
| #if DCHECK_IS_ON() |
| unsigned last_offset = items.front().start_offset_; |
| for (const NGInlineItem& item : items) { |
| DCHECK_LE(item.start_offset_, item.end_offset_); |
| DCHECK_EQ(last_offset, item.start_offset_); |
| last_offset = item.end_offset_; |
| if (!item.shape_result_ || item.layout_object_ != layout_text_) |
| continue; |
| DCHECK_LT(item.start_offset_, item.end_offset_); |
| if (item.shape_result_->StartIndex() == item.start_offset_) { |
| DCHECK_LE(item.shape_result_->EndIndex(), item.end_offset_); |
| } else { |
| DCHECK_LE(item.start_offset_, item.shape_result_->StartIndex()); |
| DCHECK_EQ(item.end_offset_, item.shape_result_->EndIndex()); |
| } |
| } |
| DCHECK_EQ(last_offset, |
| block_flow_->GetNGInlineNodeData()->text_content.length()); |
| #endif |
| } |
| |
| std::unique_ptr<NGInlineNodeData> data_; |
| LayoutBlockFlow* const block_flow_; |
| const LayoutText& layout_text_; |
| unsigned start_offset_ = 0; |
| unsigned end_offset_ = 0; |
| |
| DISALLOW_COPY_AND_ASSIGN(NGInlineNodeDataEditor); |
| }; |
| |
| // static |
| bool NGInlineNode::SetTextWithOffset(LayoutText* layout_text, |
| scoped_refptr<StringImpl> new_text_in, |
| unsigned offset, |
| unsigned length) { |
| if (!layout_text->HasValidInlineItems() || |
| !layout_text->IsInLayoutNGInlineFormattingContext()) |
| return false; |
| const String old_text = layout_text->GetText(); |
| if (offset == 0 && length == old_text.length()) { |
| // We'll run collect inline items since whole text of |layout_text| is |
| // changed. |
| return false; |
| } |
| |
| NGInlineNodeDataEditor editor(*layout_text); |
| NGInlineNodeData* const previous_data = editor.Prepare(offset, length); |
| if (!previous_data) |
| return false; |
| |
| String new_text(std::move(new_text_in)); |
| layout_text->StyleRef().ApplyTextTransform(&new_text, |
| layout_text->PreviousCharacter()); |
| layout_text->SetTextInternal(new_text.Impl()); |
| |
| NGInlineNode node(editor.GetLayoutBlockFlow()); |
| NGInlineNodeData* data = node.MutableData(); |
| data->items.ReserveCapacity(previous_data->items.size()); |
| NGInlineItemsBuilder builder(&data->items, nullptr); |
| // TODO(yosin): We should reuse before/after |layout_text| during collecting |
| // inline items. |
| layout_text->ClearInlineItems(); |
| CollectInlinesInternal(node.GetLayoutBlockFlow(), &builder, previous_data); |
| data->text_content = builder.ToString(); |
| // Relocates |ShapeResult| in |previous_data| after |offset|+|length| |
| editor.Run(); |
| node.SegmentText(data); |
| node.ShapeText(data, &previous_data->text_content, &previous_data->items); |
| node.ShapeTextForFirstLineIfNeeded(data); |
| node.AssociateItemsWithInlines(data); |
| return true; |
| } |
| |
| const NGInlineNodeData& NGInlineNode::EnsureData() { |
| PrepareLayoutIfNeeded(); |
| return Data(); |
| } |
| |
| const NGOffsetMapping* NGInlineNode::ComputeOffsetMappingIfNeeded() { |
| DCHECK(!GetLayoutBlockFlow()->GetDocument().NeedsLayoutTreeUpdate()); |
| |
| NGInlineNodeData* data = MutableData(); |
| if (!data->offset_mapping) { |
| DCHECK(!data->text_content.IsNull()); |
| ComputeOffsetMapping(GetLayoutBlockFlow(), data); |
| DCHECK(data->offset_mapping); |
| } |
| |
| return data->offset_mapping.get(); |
| } |
| |
| void NGInlineNode::ComputeOffsetMapping(LayoutBlockFlow* layout_block_flow, |
| NGInlineNodeData* data) { |
| DCHECK(!data->offset_mapping); |
| DCHECK(!layout_block_flow->GetDocument().NeedsLayoutTreeUpdate()); |
| |
| // TODO(xiaochengh): ComputeOffsetMappingIfNeeded() discards the |
| // NGInlineItems and text content built by |builder|, because they are |
| // already there in NGInlineNodeData. For efficiency, we should make |
| // |builder| not construct items and text content. |
| Vector<NGInlineItem> items; |
| items.ReserveCapacity(EstimateInlineItemsCount(*layout_block_flow)); |
| NGInlineItemsBuilderForOffsetMapping builder(&items); |
| builder.GetOffsetMappingBuilder().ReserveCapacity( |
| EstimateOffsetMappingItemsCount(*layout_block_flow)); |
| CollectInlinesInternal(layout_block_flow, &builder, nullptr); |
| |
| // For non-NG object, we need the text, and also the inline items to resolve |
| // bidi levels. Otherwise |data| already has the text from the pre-layout |
| // phase, check they match. |
| if (data->text_content.IsNull()) { |
| DCHECK(!layout_block_flow->IsLayoutNGMixin()); |
| data->text_content = builder.ToString(); |
| } else { |
| DCHECK(layout_block_flow->IsLayoutNGMixin()); |
| DCHECK_EQ(data->text_content, builder.ToString()); |
| } |
| |
| // TODO(xiaochengh): This doesn't compute offset mapping correctly when |
| // text-transform CSS property changes text length. |
| NGOffsetMappingBuilder& mapping_builder = builder.GetOffsetMappingBuilder(); |
| mapping_builder.SetDestinationString(data->text_content); |
| data->offset_mapping = mapping_builder.Build(); |
| DCHECK(data->offset_mapping); |
| } |
| |
| const NGOffsetMapping* NGInlineNode::GetOffsetMapping( |
| LayoutBlockFlow* layout_block_flow) { |
| DCHECK(!layout_block_flow->GetDocument().NeedsLayoutTreeUpdate()); |
| |
| if (UNLIKELY(layout_block_flow->NeedsLayout())) { |
| // TODO(kojii): This shouldn't happen, but is not easy to fix all cases. |
| // Return nullptr so that callers can chose to fail gracefully, or |
| // null-deref. crbug.com/946004 |
| NOTREACHED(); |
| return nullptr; |
| } |
| |
| // If |layout_block_flow| is LayoutNG, compute from |NGInlineNode|. |
| if (layout_block_flow->IsLayoutNGMixin()) { |
| NGInlineNode node(layout_block_flow); |
| CHECK(node.IsPrepareLayoutFinished()); |
| return node.ComputeOffsetMappingIfNeeded(); |
| } |
| |
| // If this is not LayoutNG, compute the offset mapping and store into |
| // |LayoutBlockFlowRateData|. |
| if (const NGOffsetMapping* mapping = layout_block_flow->GetOffsetMapping()) |
| return mapping; |
| NGInlineNodeData data; |
| ComputeOffsetMapping(layout_block_flow, &data); |
| NGOffsetMapping* const mapping = data.offset_mapping.get(); |
| layout_block_flow->SetOffsetMapping(std::move(data.offset_mapping)); |
| return mapping; |
| } |
| |
| // Depth-first-scan of all LayoutInline and LayoutText nodes that make up this |
| // NGInlineNode object. Collects LayoutText items, merging them up into the |
| // parent LayoutInline where possible, and joining all text content in a single |
| // string to allow bidi resolution and shaping of the entire block. |
| void NGInlineNode::CollectInlines(NGInlineNodeData* data, |
| NGInlineNodeData* previous_data, |
| NGDirtyLines* dirty_lines) { |
| DCHECK(data->text_content.IsNull()); |
| DCHECK(data->items.IsEmpty()); |
| LayoutBlockFlow* block = GetLayoutBlockFlow(); |
| block->WillCollectInlines(); |
| |
| data->items.ReserveCapacity(EstimateInlineItemsCount(*block)); |
| NGInlineItemsBuilder builder(&data->items, dirty_lines); |
| CollectInlinesInternal(block, &builder, previous_data); |
| data->text_content = builder.ToString(); |
| |
| // Set |is_bidi_enabled_| for all UTF-16 strings for now, because at this |
| // point the string may or may not contain RTL characters. |
| // |SegmentText()| will analyze the text and reset |is_bidi_enabled_| if it |
| // doesn't contain any RTL characters. |
| data->is_bidi_enabled_ = MayBeBidiEnabled(data->text_content, builder); |
| data->is_empty_inline_ = builder.IsEmptyInline(); |
| data->is_block_level_ = builder.IsBlockLevel(); |
| data->changes_may_affect_earlier_lines_ = |
| builder.ChangesMayAffectEarlierLines(); |
| } |
| |
| void NGInlineNode::SegmentText(NGInlineNodeData* data) { |
| SegmentBidiRuns(data); |
| SegmentScriptRuns(data); |
| SegmentFontOrientation(data); |
| if (data->segments) |
| data->segments->ComputeItemIndex(data->items); |
| } |
| |
| // Segment NGInlineItem by script, Emoji, and orientation using RunSegmenter. |
| void NGInlineNode::SegmentScriptRuns(NGInlineNodeData* data) { |
| String& text_content = data->text_content; |
| if (text_content.IsEmpty()) { |
| data->segments = nullptr; |
| return; |
| } |
| |
| if (text_content.Is8Bit() && !data->is_bidi_enabled_) { |
| if (data->items.size()) { |
| RunSegmenter::RunSegmenterRange range = { |
| 0u, data->text_content.length(), USCRIPT_LATIN, |
| OrientationIterator::kOrientationKeep, FontFallbackPriority::kText}; |
| NGInlineItem::SetSegmentData(range, &data->items); |
| } |
| data->segments = nullptr; |
| return; |
| } |
| |
| // Segment by script and Emoji. |
| // Orientation is segmented separately, because it may vary by items. |
| text_content.Ensure16Bit(); |
| RunSegmenter segmenter(text_content.Characters16(), text_content.length(), |
| FontOrientation::kHorizontal); |
| RunSegmenter::RunSegmenterRange range = RunSegmenter::NullRange(); |
| bool consumed = segmenter.Consume(&range); |
| DCHECK(consumed); |
| if (range.end == text_content.length()) { |
| NGInlineItem::SetSegmentData(range, &data->items); |
| data->segments = nullptr; |
| return; |
| } |
| |
| // This node has multiple segments. |
| if (!data->segments) |
| data->segments = std::make_unique<NGInlineItemSegments>(); |
| data->segments->ComputeSegments(&segmenter, &range); |
| DCHECK_EQ(range.end, text_content.length()); |
| } |
| |
| void NGInlineNode::SegmentFontOrientation(NGInlineNodeData* data) { |
| // Segment by orientation, only if vertical writing mode and items with |
| // 'text-orientation: mixed'. |
| if (GetLayoutBlockFlow()->IsHorizontalWritingMode()) |
| return; |
| |
| Vector<NGInlineItem>& items = data->items; |
| if (items.IsEmpty()) |
| return; |
| String& text_content = data->text_content; |
| text_content.Ensure16Bit(); |
| |
| // If we don't have |NGInlineItemSegments| yet, create a segment for the |
| // entire content. |
| const unsigned capacity = items.size() + text_content.length() / 10; |
| NGInlineItemSegments* segments = data->segments.get(); |
| if (segments) { |
| DCHECK(!data->segments->IsEmpty()); |
| data->segments->ReserveCapacity(capacity); |
| DCHECK_EQ(text_content.length(), data->segments->EndOffset()); |
| } |
| unsigned segment_index = 0; |
| |
| for (const NGInlineItem& item : items) { |
| if (item.Type() == NGInlineItem::kText && item.Length() && |
| item.Style()->GetFont().GetFontDescription().Orientation() == |
| FontOrientation::kVerticalMixed) { |
| if (!segments) { |
| data->segments = std::make_unique<NGInlineItemSegments>(); |
| segments = data->segments.get(); |
| segments->ReserveCapacity(capacity); |
| segments->Append(text_content.length(), item); |
| DCHECK_EQ(text_content.length(), data->segments->EndOffset()); |
| } |
| segment_index = segments->AppendMixedFontOrientation( |
| text_content, item.StartOffset(), item.EndOffset(), segment_index); |
| } |
| } |
| } |
| |
| // Segment bidi runs by resolving bidi embedding levels. |
| // http://unicode.org/reports/tr9/#Resolving_Embedding_Levels |
| void NGInlineNode::SegmentBidiRuns(NGInlineNodeData* data) { |
| if (!data->is_bidi_enabled_) { |
| data->SetBaseDirection(TextDirection::kLtr); |
| return; |
| } |
| |
| NGBidiParagraph bidi; |
| data->text_content.Ensure16Bit(); |
| if (!bidi.SetParagraph(data->text_content, Style())) { |
| // On failure, give up bidi resolving and reordering. |
| data->is_bidi_enabled_ = false; |
| data->SetBaseDirection(TextDirection::kLtr); |
| return; |
| } |
| |
| data->SetBaseDirection(bidi.BaseDirection()); |
| |
| if (bidi.IsUnidirectional() && IsLtr(bidi.BaseDirection())) { |
| // All runs are LTR, no need to reorder. |
| data->is_bidi_enabled_ = false; |
| return; |
| } |
| |
| Vector<NGInlineItem>& items = data->items; |
| unsigned item_index = 0; |
| for (unsigned start = 0; start < data->text_content.length();) { |
| UBiDiLevel level; |
| unsigned end = bidi.GetLogicalRun(start, &level); |
| DCHECK_EQ(items[item_index].start_offset_, start); |
| item_index = NGInlineItem::SetBidiLevel(items, item_index, end, level); |
| start = end; |
| } |
| #if DCHECK_IS_ON() |
| // Check all items have bidi levels, except trailing non-length items. |
| // Items that do not create break opportunities such as kOutOfFlowPositioned |
| // do not have corresponding characters, and that they do not have bidi level |
| // assigned. |
| while (item_index < items.size() && !items[item_index].Length()) |
| item_index++; |
| DCHECK_EQ(item_index, items.size()); |
| #endif |
| } |
| |
| void NGInlineNode::ShapeText(NGInlineItemsData* data, |
| const String* previous_text, |
| const Vector<NGInlineItem>* previous_items) { |
| const String& text_content = data->text_content; |
| Vector<NGInlineItem>* items = &data->items; |
| |
| // Provide full context of the entire node to the shaper. |
| ReusingTextShaper shaper(data, previous_items); |
| ShapeResultSpacing<String> spacing(text_content); |
| |
| DCHECK(!data->segments || |
| data->segments->EndOffset() == text_content.length()); |
| |
| for (unsigned index = 0; index < items->size();) { |
| NGInlineItem& start_item = (*items)[index]; |
| if (start_item.Type() != NGInlineItem::kText || !start_item.Length()) { |
| index++; |
| continue; |
| } |
| |
| const ComputedStyle& start_style = *start_item.Style(); |
| const Font& font = start_style.GetFont(); |
| TextDirection direction = start_item.Direction(); |
| unsigned end_index = index + 1; |
| unsigned end_offset = start_item.EndOffset(); |
| |
| // Symbol marker is painted as graphics. Create a ShapeResult of space |
| // glyphs with the desired size to make it less special for line breaker. |
| if (UNLIKELY(start_item.IsSymbolMarker())) { |
| LayoutUnit symbol_width = LayoutListMarker::WidthOfSymbol(start_style); |
| DCHECK_GT(symbol_width, 0); |
| start_item.shape_result_ = ShapeResult::CreateForSpaces( |
| &font, direction, start_item.StartOffset(), start_item.Length(), |
| symbol_width); |
| index++; |
| continue; |
| } |
| |
| // Scan forward until an item is encountered that should trigger a shaping |
| // break. This ensures that adjacent text items are shaped together whenever |
| // possible as this is required for accurate cross-element shaping. |
| unsigned num_text_items = 1; |
| for (; end_index < items->size(); end_index++) { |
| const NGInlineItem& item = (*items)[end_index]; |
| |
| if (item.Type() == NGInlineItem::kControl) { |
| // Do not shape across control characters (line breaks, zero width |
| // spaces, etc). |
| break; |
| } |
| if (item.Type() == NGInlineItem::kText) { |
| if (!item.Length()) |
| continue; |
| if (ShouldBreakShapingBeforeText(item, start_item, start_style, font, |
| direction)) { |
| break; |
| } |
| // Break shaping at ZWNJ so that it prevents kerning. ZWNJ is always at |
| // the beginning of an item for this purpose; see NGInlineItemsBuilder. |
| if (text_content[item.StartOffset()] == kZeroWidthNonJoinerCharacter) |
| break; |
| end_offset = item.EndOffset(); |
| num_text_items++; |
| } else if (item.Type() == NGInlineItem::kOpenTag) { |
| if (ShouldBreakShapingBeforeBox(item, font)) { |
| break; |
| } |
| // Should not have any characters to be opaque to shaping. |
| DCHECK_EQ(0u, item.Length()); |
| } else if (item.Type() == NGInlineItem::kCloseTag) { |
| if (ShouldBreakShapingAfterBox(item, font)) { |
| break; |
| } |
| // Should not have any characters to be opaque to shaping. |
| DCHECK_EQ(0u, item.Length()); |
| } else { |
| break; |
| } |
| } |
| |
| // Shaping a single item. Skip if the existing results remain valid. |
| if (previous_text && end_offset == start_item.EndOffset() && |
| !NeedsShaping(start_item)) { |
| DCHECK_EQ(start_item.StartOffset(), |
| start_item.TextShapeResult()->StartIndex()); |
| DCHECK_EQ(start_item.EndOffset(), |
| start_item.TextShapeResult()->EndIndex()); |
| index++; |
| continue; |
| } |
| |
| // Results may only be reused if all items in the range remain valid. |
| if (previous_text) { |
| bool has_valid_shape_results = true; |
| for (unsigned item_index = index; item_index < end_index; item_index++) { |
| if (NeedsShaping((*items)[item_index])) { |
| has_valid_shape_results = false; |
| break; |
| } |
| } |
| |
| // When shaping across multiple items checking whether the individual |
| // items has valid shape results isn't sufficient as items may have been |
| // re-ordered or removed. |
| // TODO(layout-dev): It would probably be faster to check for removed or |
| // moved items but for now comparing the string itself will do. |
| unsigned text_start = start_item.StartOffset(); |
| DCHECK_GE(end_offset, text_start); |
| unsigned text_length = end_offset - text_start; |
| if (has_valid_shape_results && previous_text && |
| end_offset <= previous_text->length() && |
| StringView(text_content, text_start, text_length) == |
| StringView(*previous_text, text_start, text_length)) { |
| index = end_index; |
| continue; |
| } |
| } |
| |
| // Shape each item with the full context of the entire node. |
| scoped_refptr<ShapeResult> shape_result = |
| shaper.Shape(start_item, end_offset); |
| |
| if (UNLIKELY(spacing.SetSpacing(font.GetFontDescription()))) |
| shape_result->ApplySpacing(spacing); |
| |
| // If the text is from one item, use the ShapeResult as is. |
| if (end_offset == start_item.EndOffset()) { |
| start_item.shape_result_ = std::move(shape_result); |
| DCHECK_EQ(start_item.TextShapeResult()->StartIndex(), |
| start_item.StartOffset()); |
| DCHECK_EQ(start_item.TextShapeResult()->EndIndex(), |
| start_item.EndOffset()); |
| index++; |
| continue; |
| } |
| |
| // If the text is from multiple items, split the ShapeResult to |
| // corresponding items. |
| DCHECK_GT(num_text_items, 0u); |
| // "32" is heuristic, most major sites are up to 8 or so, wikipedia is 21. |
| Vector<ShapeResult::ShapeRange, 32> text_item_ranges; |
| text_item_ranges.ReserveInitialCapacity(num_text_items); |
| for (; index < end_index; index++) { |
| NGInlineItem& item = (*items)[index]; |
| if (item.Type() != NGInlineItem::kText || !item.Length()) |
| continue; |
| |
| // We don't use SafeToBreak API here because this is not a line break. |
| // The ShapeResult is broken into multiple results, but they must look |
| // like they were not broken. |
| // |
| // When multiple code units shape to one glyph, such as ligatures, the |
| // item that has its first code unit keeps the glyph. |
| scoped_refptr<ShapeResult> item_result = |
| ShapeResult::CreateEmpty(*shape_result.get()); |
| text_item_ranges.emplace_back(item.StartOffset(), item.EndOffset(), |
| item_result.get()); |
| item.shape_result_ = std::move(item_result); |
| } |
| DCHECK_EQ(text_item_ranges.size(), num_text_items); |
| shape_result->CopyRanges(text_item_ranges.data(), text_item_ranges.size()); |
| } |
| |
| #if DCHECK_IS_ON() |
| for (const NGInlineItem& item : *items) { |
| if (item.Type() == NGInlineItem::kText && item.Length()) { |
| DCHECK(item.TextShapeResult()); |
| DCHECK_EQ(item.TextShapeResult()->StartIndex(), item.StartOffset()); |
| DCHECK_EQ(item.TextShapeResult()->EndIndex(), item.EndOffset()); |
| } |
| } |
| #endif |
| } |
| |
| // Create Vector<NGInlineItem> with :first-line rules applied if needed. |
| void NGInlineNode::ShapeTextForFirstLineIfNeeded(NGInlineNodeData* data) { |
| // First check if the document has any :first-line rules. |
| DCHECK(!data->first_line_items_); |
| LayoutObject* layout_object = GetLayoutBox(); |
| if (!layout_object->GetDocument().GetStyleEngine().UsesFirstLineRules()) |
| return; |
| |
| // Check if :first-line rules make any differences in the style. |
| const ComputedStyle* block_style = layout_object->Style(); |
| const ComputedStyle* first_line_style = layout_object->FirstLineStyle(); |
| if (block_style == first_line_style) |
| return; |
| |
| auto first_line_items = std::make_unique<NGInlineItemsData>(); |
| first_line_items->text_content = data->text_content; |
| bool needs_reshape = false; |
| if (first_line_style->TextTransform() != block_style->TextTransform()) { |
| // TODO(kojii): This logic assumes that text-transform is applied only to |
| // ::first-line, and does not work when the base style has text-transform |
| // and ::first-line has different text-transform. |
| first_line_style->ApplyTextTransform(&first_line_items->text_content); |
| if (first_line_items->text_content != data->text_content) { |
| // TODO(kojii): When text-transform changes the length, we need to adjust |
| // offset in NGInlineItem, or re-collect inlines. Other classes such as |
| // line breaker need to support the scenario too. For now, we force the |
| // string to be the same length to prevent them from crashing. This may |
| // result in a missing or a duplicate character if the length changes. |
| TruncateOrPadText(&first_line_items->text_content, |
| data->text_content.length()); |
| needs_reshape = true; |
| } |
| } |
| |
| first_line_items->items.AppendVector(data->items); |
| for (auto& item : first_line_items->items) { |
| item.SetStyleVariant(NGStyleVariant::kFirstLine); |
| } |
| |
| // Re-shape if the font is different. |
| if (needs_reshape || FirstLineNeedsReshape(*first_line_style, *block_style)) |
| ShapeText(first_line_items.get()); |
| |
| data->first_line_items_ = std::move(first_line_items); |
| } |
| |
| void NGInlineNode::AssociateItemsWithInlines(NGInlineNodeData* data) { |
| #if DCHECK_IS_ON() |
| HashSet<LayoutObject*> associated_objects; |
| #endif |
| Vector<NGInlineItem>& items = data->items; |
| for (NGInlineItem* item = items.begin(); item != items.end();) { |
| LayoutObject* object = item->GetLayoutObject(); |
| if (LayoutNGText* layout_text = ToLayoutNGTextOrNull(object)) { |
| #if DCHECK_IS_ON() |
| // Items split from a LayoutObject should be consecutive. |
| DCHECK(associated_objects.insert(object).is_new_entry); |
| #endif |
| layout_text->ClearHasBidiControlInlineItems(); |
| bool has_bidi_control = false; |
| NGInlineItem* begin = item; |
| for (++item; item != items.end(); ++item) { |
| if (item->GetLayoutObject() != object) |
| break; |
| if (item->Type() == NGInlineItem::kBidiControl) |
| has_bidi_control = true; |
| } |
| layout_text->SetInlineItems(begin, item); |
| if (has_bidi_control) |
| layout_text->SetHasBidiControlInlineItems(); |
| continue; |
| } |
| ++item; |
| } |
| } |
| |
| void NGInlineNode::ClearAssociatedFragments( |
| const NGPhysicalFragment& fragment, |
| const NGBlockBreakToken* block_break_token) { |
| auto* block_flow = To<LayoutBlockFlow>(fragment.GetMutableLayoutObject()); |
| if (!block_flow->ChildrenInline()) |
| return; |
| DCHECK(AreNGBlockFlowChildrenInline(block_flow)); |
| NGInlineNode node = NGInlineNode(block_flow); |
| |
| DCHECK(node.IsPrepareLayoutFinished()); |
| const Vector<NGInlineItem>& items = node.MaybeDirtyData().items; |
| |
| unsigned start_index; |
| if (!block_break_token) { |
| start_index = 0; |
| } else { |
| // TODO(kojii): Not fully supported, need more logic when the block is |
| // fragmented, because one inline LayoutObject may span across |
| // fragmentainers. |
| // TODO(kojii): Not sure if using |block_break_token->InputNode()| is |
| // correct for multicol. Should verify and somehow get NGInlineNode from it. |
| // Also change |InlineBreakTokenFor| to receive NGInlineNode instead of |
| // NGLayoutInputNode once this is done. |
| const NGInlineBreakToken* inline_break_token = |
| block_break_token->InlineBreakTokenFor(block_break_token->InputNode()); |
| // TODO(kojii): This needs to investigate in what case this happens. It's |
| // probably wrong to create NGPaintFragment when there's no inline break |
| // token. |
| if (!inline_break_token) |
| return; |
| start_index = inline_break_token->ItemIndex(); |
| } |
| |
| LayoutObject* last_object = nullptr; |
| for (unsigned i = start_index; i < items.size(); i++) { |
| const NGInlineItem& item = items[i]; |
| if (item.Type() == NGInlineItem::kFloating || |
| item.Type() == NGInlineItem::kOutOfFlowPositioned) { |
| // These items are not associated and that no need to clear. |
| DCHECK(!item.GetLayoutObject()->FirstInlineFragment()); |
| continue; |
| } |
| LayoutObject* object = item.GetLayoutObject(); |
| if (!object || object == last_object) |
| continue; |
| object->SetFirstInlineFragment(nullptr); |
| last_object = object; |
| } |
| } |
| |
| scoped_refptr<const NGLayoutResult> NGInlineNode::Layout( |
| const NGConstraintSpace& constraint_space, |
| const NGBreakToken* break_token, |
| NGInlineChildLayoutContext* context) { |
| PrepareLayoutIfNeeded(); |
| |
| const auto* inline_break_token = To<NGInlineBreakToken>(break_token); |
| NGInlineLayoutAlgorithm algorithm(*this, constraint_space, inline_break_token, |
| context); |
| auto layout_result = algorithm.Layout(); |
| |
| #if defined(OS_ANDROID) |
| // Cached position data is crucial for line breaking performance and is |
| // preserved across layouts to speed up subsequent layout passes due to |
| // reflow, page zoom, window resize, etc. On Android though reflows are less |
| // common, page zoom isn't used (instead uses pinch-zoom), and the window |
| // typically can't be resized (apart from rotation). To reduce memory usage |
| // discard the cached position data after layout. |
| NGInlineNodeData* data = MutableData(); |
| for (auto& item : data->items) { |
| if (item.shape_result_) |
| item.shape_result_->DiscardPositionData(); |
| } |
| #endif // defined(OS_ANDROID) |
| |
| return layout_result; |
| } |
| |
| const NGPaintFragment* NGInlineNode::ReusableLineBoxContainer( |
| const NGConstraintSpace& constraint_space) { |
| DCHECK(RuntimeEnabledFeatures::LayoutNGLineCacheEnabled()); |
| // |SelfNeedsLayout()| is the most common reason that we check it earlier. |
| LayoutBlockFlow* block_flow = GetLayoutBlockFlow(); |
| DCHECK(!block_flow->SelfNeedsLayout()); |
| DCHECK(block_flow->EverHadLayout()); |
| |
| if (!IsPrepareLayoutFinished()) |
| return nullptr; |
| |
| if (MaybeDirtyData().changes_may_affect_earlier_lines_) |
| return nullptr; |
| |
| const NGLayoutResult* cached_layout_result = |
| block_flow->GetCachedLayoutResult(); |
| if (!cached_layout_result) |
| return nullptr; |
| |
| const NGConstraintSpace& old_space = |
| cached_layout_result->GetConstraintSpaceForCaching(); |
| if (constraint_space.AvailableSize().inline_size != |
| old_space.AvailableSize().inline_size) |
| return nullptr; |
| |
| // Floats in either cached or new constraint space prevents reusing cached |
| // lines. |
| if (constraint_space.HasFloats() || old_space.HasFloats()) |
| return nullptr; |
| |
| // Any floats might need to move, causing lines to wrap differently, needing |
| // re-layout. |
| if (!cached_layout_result->ExclusionSpace().IsEmpty()) |
| return nullptr; |
| |
| // Propagating OOF needs re-layout. |
| if (cached_layout_result->PhysicalFragment() |
| .HasOutOfFlowPositionedDescendants()) |
| return nullptr; |
| |
| // Cached fragments are not for intermediate layout. |
| if (constraint_space.IsIntermediateLayout()) |
| return nullptr; |
| |
| // Block fragmentation is not supported yet. |
| if (constraint_space.HasBlockFragmentation()) |
| return nullptr; |
| |
| const NGPaintFragment* paint_fragment = block_flow->PaintFragment(); |
| if (!paint_fragment) |
| return nullptr; |
| |
| if (!MarkLineBoxesDirty(block_flow, paint_fragment)) |
| return nullptr; |
| |
| if (Data().changes_may_affect_earlier_lines_) |
| return nullptr; |
| |
| return paint_fragment; |
| } |
| |
| // Mark the first line box that have |NeedsLayout()| dirty. |
| // |
| // Removals of LayoutObject already marks relevant line boxes dirty by calling |
| // |DirtyLinesFromChangedChild()|, but insertions and style changes are not |
| // marked yet. |
| bool NGInlineNode::MarkLineBoxesDirty(LayoutBlockFlow* block_flow, |
| const NGPaintFragment* paint_fragment) { |
| DCHECK(RuntimeEnabledFeatures::LayoutNGLineCacheEnabled()); |
| NGDirtyLines dirty_lines(paint_fragment); |
| if (block_flow->NeedsCollectInlines()) { |
| std::unique_ptr<NGInlineNodeData> previous_data; |
| previous_data.reset(block_flow->TakeNGInlineNodeData()); |
| block_flow->ResetNGInlineNodeData(); |
| PrepareLayout(std::move(previous_data), &dirty_lines); |
| return true; |
| } |
| ItemsBuilderForMarkLineBoxesDirty builder(&dirty_lines); |
| CollectInlinesInternal(block_flow, &builder, nullptr); |
| return !builder.ShouldAbort(); |
| } |
| |
| namespace { |
| |
| template <typename CharType> |
| scoped_refptr<StringImpl> CreateTextContentForStickyImagesQuirk( |
| const CharType* text, |
| unsigned length, |
| base::span<const NGInlineItem> items) { |
| StringBuffer<CharType> buffer(length); |
| CharType* characters = buffer.Characters(); |
| memcpy(characters, text, length * sizeof(CharType)); |
| for (const NGInlineItem& item : items) { |
| if (item.Type() == NGInlineItem::kAtomicInline && item.IsImage()) { |
| DCHECK_EQ(characters[item.StartOffset()], kObjectReplacementCharacter); |
| characters[item.StartOffset()] = kNoBreakSpaceCharacter; |
| } |
| } |
| return buffer.Release(); |
| } |
| |
| } // namespace |
| |
| // The stick images quirk changes the line breaking behavior around images. This |
| // function returns a text content that has non-breaking spaces for images, so |
| // that no changes are needed in the line breaking logic. |
| // https://quirks.spec.whatwg.org/#the-table-cell-width-calculation-quirk |
| // static |
| String NGInlineNode::TextContentForStickyImagesQuirk( |
| const NGInlineItemsData& items_data) { |
| const String& text_content = items_data.text_content; |
| for (const NGInlineItem& item : items_data.items) { |
| if (item.Type() == NGInlineItem::kAtomicInline && item.IsImage()) { |
| if (text_content.Is8Bit()) { |
| return CreateTextContentForStickyImagesQuirk( |
| text_content.Characters8(), text_content.length(), |
| base::span<const NGInlineItem>(&item, items_data.items.end())); |
| } |
| return CreateTextContentForStickyImagesQuirk( |
| text_content.Characters16(), text_content.length(), |
| base::span<const NGInlineItem>(&item, items_data.items.end())); |
| } |
| } |
| return text_content; |
| } |
| |
| static LayoutUnit ComputeContentSize( |
| NGInlineNode node, |
| WritingMode container_writing_mode, |
| const MinMaxSizeInput& input, |
| NGLineBreakerMode mode, |
| NGLineBreaker::MaxSizeCache* max_size_cache, |
| base::Optional<LayoutUnit>* max_size_out) { |
| const ComputedStyle& style = node.Style(); |
| WritingMode writing_mode = style.GetWritingMode(); |
| LayoutUnit available_inline_size = |
| mode == NGLineBreakerMode::kMaxContent ? LayoutUnit::Max() : LayoutUnit(); |
| |
| NGConstraintSpaceBuilder builder(/* parent_writing_mode */ writing_mode, |
| /* out_writing_mode */ writing_mode, |
| /* is_new_fc */ false); |
| builder.SetTextDirection(style.Direction()); |
| builder.SetAvailableSize({available_inline_size, kIndefiniteSize}); |
| builder.SetPercentageResolutionSize({LayoutUnit(), LayoutUnit()}); |
| builder.SetReplacedPercentageResolutionSize({LayoutUnit(), LayoutUnit()}); |
| builder.SetIsIntermediateLayout(true); |
| NGConstraintSpace space = builder.ToConstraintSpace(); |
| |
| NGExclusionSpace empty_exclusion_space; |
| NGPositionedFloatVector empty_leading_floats; |
| NGLineLayoutOpportunity line_opportunity(available_inline_size); |
| LayoutUnit result; |
| NGLineBreaker line_breaker(node, mode, space, line_opportunity, |
| empty_leading_floats, |
| /* handled_leading_floats_index */ 0u, |
| /* break_token */ nullptr, &empty_exclusion_space); |
| line_breaker.SetMaxSizeCache(max_size_cache); |
| const NGInlineItemsData& items_data = line_breaker.ItemsData(); |
| |
| // Computes max-size for floats in inline formatting context. |
| class FloatsMaxSize { |
| STACK_ALLOCATED(); |
| |
| public: |
| explicit FloatsMaxSize(const MinMaxSizeInput& input) |
| : floats_inline_size_(input.float_left_inline_size + |
| input.float_right_inline_size) { |
| DCHECK_GE(floats_inline_size_, 0); |
| } |
| |
| void AddFloat(const ComputedStyle& float_style, |
| const ComputedStyle& style, |
| LayoutUnit float_inline_max_size_with_margin) { |
| floating_objects_.push_back(FloatingObject{ |
| float_style, style, float_inline_max_size_with_margin}); |
| } |
| |
| LayoutUnit ComputeMaxSizeForLine(LayoutUnit line_inline_size, |
| LayoutUnit max_inline_size) { |
| if (floating_objects_.IsEmpty()) |
| return std::max(max_inline_size, line_inline_size); |
| |
| EFloat previous_float_type = EFloat::kNone; |
| for (const auto& floating_object : floating_objects_) { |
| const EClear float_clear = |
| floating_object.float_style.Clear(floating_object.style); |
| |
| // If this float clears the previous float we start a new "line". |
| // This is subtly different to block layout which will only reset either |
| // the left or the right float size trackers. |
| if ((previous_float_type == EFloat::kLeft && |
| (float_clear == EClear::kBoth || float_clear == EClear::kLeft)) || |
| (previous_float_type == EFloat::kRight && |
| (float_clear == EClear::kBoth || float_clear == EClear::kRight))) { |
| max_inline_size = |
| std::max(max_inline_size, line_inline_size + floats_inline_size_); |
| floats_inline_size_ = LayoutUnit(); |
| } |
| |
| // When negative margins move the float outside the content area, |
| // such float should not affect the content size. |
| floats_inline_size_ += floating_object.float_inline_max_size_with_margin |
| .ClampNegativeToZero(); |
| previous_float_type = |
| floating_object.float_style.Floating(floating_object.style); |
| } |
| max_inline_size = |
| std::max(max_inline_size, line_inline_size + floats_inline_size_); |
| floats_inline_size_ = LayoutUnit(); |
| floating_objects_.Shrink(0); |
| return max_inline_size; |
| } |
| |
| private: |
| LayoutUnit floats_inline_size_; |
| struct FloatingObject { |
| const ComputedStyle& float_style; |
| const ComputedStyle& style; |
| LayoutUnit float_inline_max_size_with_margin; |
| }; |
| Vector<FloatingObject, 4> floating_objects_; |
| }; |
| |
| // This struct computes the max size from the line break results for the min |
| // size. |
| struct MaxSizeFromMinSize { |
| STACK_ALLOCATED(); |
| |
| public: |
| LayoutUnit position; |
| LayoutUnit max_size; |
| const NGInlineItemsData& items_data; |
| const NGInlineItem* next_item; |
| const NGLineBreaker::MaxSizeCache& max_size_cache; |
| FloatsMaxSize* floats; |
| bool is_after_break = true; |
| |
| explicit MaxSizeFromMinSize( |
| const NGInlineItemsData& items_data, |
| const NGLineBreaker::MaxSizeCache& max_size_cache, |
| FloatsMaxSize* floats) |
| : items_data(items_data), |
| next_item(items_data.items.begin()), |
| max_size_cache(max_size_cache), |
| floats(floats) {} |
| |
| // Add all text items up to |end|. The line break results for min size |
| // may break text into multiple lines, and may remove trailing spaces. For |
| // max size, use the original text widths from NGInlineItem instead. |
| void AddTextUntil(const NGInlineItem* end) { |
| DCHECK(end); |
| for (; next_item != end; ++next_item) { |
| if (next_item->Type() == NGInlineItem::kText && next_item->Length()) { |
| DCHECK(next_item->TextShapeResult()); |
| const ShapeResult& shape_result = *next_item->TextShapeResult(); |
| position += shape_result.SnappedWidth().ClampNegativeToZero(); |
| } |
| } |
| } |
| |
| void ForceLineBreak(const NGLineInfo& line_info) { |
| // Add all text up to the end of the line. There may be spaces that were |
| // removed during the line breaking. |
| CHECK_LE(line_info.EndItemIndex(), items_data.items.size()); |
| AddTextUntil(items_data.items.begin() + line_info.EndItemIndex()); |
| max_size = floats->ComputeMaxSizeForLine(position.ClampNegativeToZero(), |
| max_size); |
| position = LayoutUnit(); |
| is_after_break = true; |
| } |
| |
| void AddTabulationCharacters(const NGInlineItem& item, unsigned length) { |
| DCHECK_GE(length, 1u); |
| AddTextUntil(&item); |
| DCHECK(item.Style()); |
| const ComputedStyle& style = *item.Style(); |
| const Font& font = style.GetFont(); |
| const SimpleFontData* font_data = font.PrimaryFont(); |
| const TabSize& tab_size = style.GetTabSize(); |
| float advance = font.TabWidth(font_data, tab_size, position); |
| DCHECK_GE(length, 1u); |
| if (length > 1u) |
| advance += font.TabWidth(font_data, tab_size) * (length - 1); |
| position += LayoutUnit::FromFloatCeil(advance).ClampNegativeToZero(); |
| } |
| |
| LayoutUnit Finish(const NGInlineItem* end) { |
| AddTextUntil(end); |
| return floats->ComputeMaxSizeForLine(position.ClampNegativeToZero(), |
| max_size); |
| } |
| |
| void ComputeFromMinSize(const NGLineInfo& line_info) { |
| if (is_after_break) { |
| position += line_info.TextIndent(); |
| is_after_break = false; |
| } |
| |
| bool has_forced_break = false; |
| for (const NGInlineItemResult& result : line_info.Results()) { |
| const NGInlineItem& item = *result.item; |
| if (item.Type() == NGInlineItem::kText) { |
| // Text in NGInlineItemResult may be wrapped and trailing spaces |
| // may be removed. Ignore them, but add text later from |
| // NGInlineItem. |
| continue; |
| } |
| if (item.Type() == NGInlineItem::kAtomicInline) { |
| // The max-size for atomic inlines are cached in |max_size_cache|. |
| unsigned item_index = &item - items_data.items.begin(); |
| position += max_size_cache[item_index]; |
| continue; |
| } |
| if (item.Type() == NGInlineItem::kControl) { |
| UChar c = items_data.text_content[item.StartOffset()]; |
| if (c == kNewlineCharacter) { |
| // Compute the forced break after all results were handled, because |
| // when close tags appear after a forced break, they are included in |
| // the line, and they may have inline sizes. crbug.com/991320. |
| DCHECK(!has_forced_break); |
| has_forced_break = true; |
| continue; |
| } |
| // Tabulation characters change the widths by their positions, so |
| // their widths for the max size may be different from the widths for |
| // the min size. Fall back to 2 pass for now. |
| if (c == kTabulationCharacter) { |
| AddTabulationCharacters(item, result.Length()); |
| continue; |
| } |
| } |
| position += result.inline_size; |
| } |
| if (has_forced_break) |
| ForceLineBreak(line_info); |
| } |
| }; |
| FloatsMaxSize floats_max_size(input); |
| MaxSizeFromMinSize max_size_from_min_size(items_data, *max_size_cache, |
| &floats_max_size); |
| |
| Vector<LayoutObject*> floats_for_min_max; |
| do { |
| floats_for_min_max.Shrink(0); |
| |
| NGLineInfo line_info; |
| line_breaker.NextLine(input.percentage_resolution_block_size, |
| &floats_for_min_max, &line_info); |
| if (line_info.Results().IsEmpty()) |
| break; |
| |
| LayoutUnit inline_size = line_info.Width(); |
| // Text measurement is done using floats which may introduce small rounding |
| // errors for near-saturated values. |
| DCHECK_EQ(inline_size.Round(), |
| line_info.ComputeWidth().ClampNegativeToZero().Round()); |
| |
| for (auto* floating_object : floats_for_min_max) { |
| DCHECK(floating_object->IsFloating()); |
| |
| NGBlockNode float_node(ToLayoutBox(floating_object)); |
| const ComputedStyle& float_style = float_node.Style(); |
| |
| // Floats don't intrude into floats. |
| MinMaxSizeInput float_input(input.percentage_resolution_block_size); |
| MinMaxSize child_sizes = |
| ComputeMinAndMaxContentContribution(style, float_node, float_input); |
| LayoutUnit child_inline_margins = |
| ComputeMinMaxMargins(style, float_node).InlineSum(); |
| |
| if (mode == NGLineBreakerMode::kMinContent) { |
| result = std::max(result, child_sizes.min_size + child_inline_margins); |
| } |
| floats_max_size.AddFloat(float_style, style, |
| child_sizes.max_size + child_inline_margins); |
| } |
| |
| if (mode == NGLineBreakerMode::kMinContent) { |
| result = std::max(result, inline_size); |
| max_size_from_min_size.ComputeFromMinSize(line_info); |
| } else { |
| result = floats_max_size.ComputeMaxSizeForLine(inline_size, result); |
| } |
| } while (!line_breaker.IsFinished()); |
| |
| if (mode == NGLineBreakerMode::kMinContent) { |
| *max_size_out = max_size_from_min_size.Finish(items_data.items.end()); |
| // Check the max size matches to the value computed from 2 pass. |
| #if DCHECK_IS_ON() |
| LayoutUnit content_size = ComputeContentSize( |
| node, container_writing_mode, input, NGLineBreakerMode::kMaxContent, |
| max_size_cache, nullptr); |
| bool values_might_be_saturated = |
| (*max_size_out)->MightBeSaturated() || content_size.MightBeSaturated(); |
| if (!values_might_be_saturated) { |
| DCHECK_EQ((*max_size_out)->Round(), content_size.Round()) |
| << node.GetLayoutBox(); |
| } |
| #endif |
| } |
| |
| return result; |
| } |
| |
| MinMaxSize NGInlineNode::ComputeMinMaxSize( |
| WritingMode container_writing_mode, |
| const MinMaxSizeInput& input, |
| const NGConstraintSpace* constraint_space) { |
| PrepareLayoutIfNeeded(); |
| |
| // Compute the max of inline sizes of all line boxes with 0 available inline |
| // size. This gives the min-content, the width where lines wrap at every |
| // break opportunity. |
| NGLineBreaker::MaxSizeCache max_size_cache; |
| MinMaxSize sizes; |
| base::Optional<LayoutUnit> max_size; |
| sizes.min_size = ComputeContentSize(*this, container_writing_mode, input, |
| NGLineBreakerMode::kMinContent, |
| &max_size_cache, &max_size); |
| DCHECK(max_size.has_value()); |
| sizes.max_size = *max_size; |
| |
| // Negative text-indent can make min > max. Ensure min is the minimum size. |
| sizes.min_size = std::min(sizes.min_size, sizes.max_size); |
| |
| return sizes; |
| } |
| |
| bool NGInlineNode::UseFirstLineStyle() const { |
| return GetLayoutBox() && |
| GetLayoutBox()->GetDocument().GetStyleEngine().UsesFirstLineRules(); |
| } |
| |
| void NGInlineNode::CheckConsistency() const { |
| #if DCHECK_IS_ON() |
| const Vector<NGInlineItem>& items = Data().items; |
| for (const NGInlineItem& item : items) { |
| DCHECK(!item.GetLayoutObject() || !item.Style() || |
| item.Style() == item.GetLayoutObject()->Style()); |
| } |
| #endif |
| } |
| |
| String NGInlineNode::ToString() const { |
| return String::Format("NGInlineNode"); |
| } |
| |
| } // namespace blink |