Stop combining text runs which are connected by 'COMMON' blocks.

ui/gfx/render_text_harfbuzz.cc

Index: ui/gfx/render_text_harfbuzz.cc
diff --git a/ui/gfx/render_text_harfbuzz.cc b/ui/gfx/render_text_harfbuzz.cc
index 32a9e554f60b47127cef9d426aef71a9f410adfa..61650d902c37e746d47c252955a91d31607c6b5e 100644
--- a/ui/gfx/render_text_harfbuzz.cc
+++ b/ui/gfx/render_text_harfbuzz.cc
@@ -49,9 +49,7 @@ const size_t kMaxScripts = 5;
 // therefore it needs to be trigerred as fallbacks. See crbug.com/448909
 bool IsUnusualBlockCode(UBlockCode block_code) {
   return block_code == UBLOCK_GEOMETRIC_SHAPES ||
-         block_code == UBLOCK_MISCELLANEOUS_SYMBOLS ||
-         block_code == UBLOCK_DINGBATS ||
-         block_code == UBLOCK_EMOTICONS;
+         block_code == UBLOCK_MISCELLANEOUS_SYMBOLS;
 }
 
 bool IsBracket(UChar32 character) {
@@ -90,15 +88,13 @@ size_t FindRunBreakingCharacter(const base::string16& text,
   return run_break;
 }
 
-// If the given scripts match, returns the one that isn't USCRIPT_COMMON or
-// USCRIPT_INHERITED, i.e. the more specific one. Otherwise returns
+// If the given scripts match, returns the one that isn't USCRIPT_INHERITED,
+// i.e. the more specific one. Otherwise returns
 // USCRIPT_INVALID_CODE.
 UScriptCode ScriptIntersect(UScriptCode first, UScriptCode second) {
-  if (first == second ||
-      (second > USCRIPT_INVALID_CODE && second <= USCRIPT_INHERITED)) {
+  if (first == second || second == USCRIPT_INHERITED)
     return first;
-  }
-  if (first > USCRIPT_INVALID_CODE && first <= USCRIPT_INHERITED)
+  if (first == USCRIPT_INHERITED)
     return second;
   return USCRIPT_INVALID_CODE;
 }
@@ -166,6 +162,9 @@ int ScriptInterval(const base::string16& text,
   *script = scripts[0];
 
   while (char_iterator.Advance()) {
+    // Special handling to merge white space into the previous run.
+    if (u_isUWhiteSpace(char_iterator.get()))
+      continue;
     ScriptSetIntersect(char_iterator.get(), scripts, &scripts_size);
     if (scripts_size == 0U)
       return char_iterator.array_pos();
@@ -223,7 +222,6 @@ class HarfBuzzLineBreaker {
   HarfBuzzLineBreaker(size_t max_width,
                       int min_baseline,
                       float min_height,
-                      bool multiline,
                       WordWrapBehavior word_wrap_behavior,
                       const base::string16& text,
                       const BreakList<size_t>* words,
@@ -231,35 +229,63 @@ class HarfBuzzLineBreaker {
       : max_width_((max_width == 0) ? SK_ScalarMax : SkIntToScalar(max_width)),
         min_baseline_(min_baseline),
         min_height_(min_height),
-        multiline_(multiline),
         word_wrap_behavior_(word_wrap_behavior),
         text_(text),
         words_(words),
         run_list_(run_list),
-        text_x_(0),
-        line_x_(0),
         max_descent_(0),
-        max_ascent_(0) {
-    DCHECK_EQ(multiline_, (words_ != nullptr));
+        max_ascent_(0),
+        text_x_(0),
+        available_width_(max_width_) {
     AdvanceLine();
   }
 
-  // Breaks the run at given |run_index| into Line structs.
-  void AddRun(int run_index) {
-    const internal::TextRunHarfBuzz* run = run_list_.runs()[run_index];
-    base::char16 first_char = text_[run->range.start()];
-    if (multiline_ && first_char == '\n') {
-      AdvanceLine();
-    } else if (multiline_ && (line_x_ + SkFloatToScalar(run->width)) >
-               max_width_) {
-      BreakRun(run_index);
-    } else {
-      AddSegment(run_index, run->range, run->width);
+  // Constructs a single line for |text_| using |run_list_|.
+  void ConstructSingleLine() {
+    for (size_t i = 0; i < run_list_.size(); i++) {
+      const internal::TextRunHarfBuzz& run = *(run_list_.runs()[i]);
+      internal::LineSegment segment;
+      segment.run = i;
+      segment.char_range = run.range;
+      segment.x_range = Range(SkScalarCeilToInt(text_x_),
+                              SkScalarCeilToInt(text_x_ + run.width));
+      segment.width = run.width;
+      AddLineSegment(segment);
+    }
+  }
+
+  // Constructs multiple lines for |text_| based on words iteration approach.
+  void ConstructMultiLines() {
+    DCHECK(words_);
+    for (const auto& word : words_->breaks()) {

[Jun Mukai, 2015/05/16 00:21:57]

Oops, I think previous code could be better if we want to pass the range, as I
commented below.

[xdai1, 2015/05/18 17:41:26]

Done.

+      std::vector<internal::LineSegment> word_segments;
+      SkScalar word_width = GetWordWidth(&word, &word_segments);

[Jun Mukai, 2015/05/16 00:21:57]

I think it's better to pass the range rather than the word.  The range can be
obtained through BreakList::GetRange (you need to pass the iterator rather than
the Break though)

[xdai1, 2015/05/18 17:41:26]

Done.

+
+      bool new_line = false;
+      if (!word_segments.empty()) {
+        // If the word is end with '\n', we should advance a new line after
+        // adding the word to current line.
+        const internal::LineSegment& last_segment = word_segments.back();
+        const base::char16 last_char = text_[last_segment.char_range.start()];
+        if (last_char == '\n') {
+          new_line = true;
+          word_width -= last_segment.width;
+          word_segments.pop_back();
+        }
+      }
+
+      // If the word is not the first word in the line and it can't fit into
+      // the current line, advance a new line.
+      if (word_width > available_width_ && available_width_ != max_width_)
+        AdvanceLine();
+      AddWordToLine(word_segments);
+      if (new_line)
+        AdvanceLine();
     }
   }
 
   // Finishes line breaking and outputs the results. Can be called at most once.
-  void Finalize(std::vector<internal::Line>* lines, SizeF* size) {
+  void FinalizeLines(std::vector<internal::Line>* lines, SizeF* size) {
     DCHECK(!lines_.empty());
     // Add an empty line to finish the line size calculation and remove it.
     AdvanceLine();
@@ -276,132 +302,6 @@ class HarfBuzzLineBreaker {
     return &lines_[handle.first].segments[handle.second];
   }
 
-  // Breaks a run into segments that fit in the last line in |lines_| and adds
-  // them. Adds a new Line to the back of |lines_| whenever a new segment can't
-  // be added without the Line's width exceeding |max_width_|.
-  void BreakRun(int run_index) {
-    const internal::TextRunHarfBuzz& run = *(run_list_.runs()[run_index]);
-    SkScalar width = 0;
-    size_t next_char = run.range.start();
-
-    // Break the run until it fits the current line.
-    while (next_char < run.range.end()) {
-      const size_t current_char = next_char;
-      size_t end_char = next_char;
-      const bool skip_line =
-          BreakRunAtWidth(run, current_char, &width, &end_char, &next_char);
-      AddSegment(run_index, Range(current_char, end_char),
-                 SkScalarToFloat(width));
-      if (skip_line)
-        AdvanceLine();
-    }
-  }
-
-  // Starting from |start_char|, finds a suitable line break position at or
-  // before available width using word break. If the current position is at the
-  // beginning of a line, this function will not roll back to |start_char| and
-  // |*next_char| will be greater than |start_char| (to avoid constructing empty
-  // lines). It stores the end of the segment range to |end_char|, which can be
-  // smaller than |*next_char| for certain word wrapping behavior.
-  // Returns whether to skip the line before |*next_char|.
-  // TODO(ckocagil): We might have to reshape after breaking at ligatures.
-  //                 See whether resolving the TODO above resolves this too.
-  // TODO(ckocagil): Do not reserve width for whitespace at the end of lines.
-  bool BreakRunAtWidth(const internal::TextRunHarfBuzz& run,
-                       size_t start_char,
-                       SkScalar* width,
-                       size_t* end_char,
-                       size_t* next_char) {
-    DCHECK(words_);
-    DCHECK(run.range.Contains(Range(start_char, start_char + 1)));
-    SkScalar available_width = max_width_ - line_x_;
-    BreakList<size_t>::const_iterator word = words_->GetBreak(start_char);
-    BreakList<size_t>::const_iterator next_word = word + 1;
-    // Width from |std::max(word->first, start_char)| to the current character.
-    SkScalar word_width = 0;
-    *width = 0;
-
-    Range char_range;
-    SkScalar truncated_width = 0;
-    for (size_t i = start_char; i < run.range.end(); i += char_range.length()) {
-      // |word| holds the word boundary at or before |i|, and |next_word| holds
-      // the word boundary right after |i|. Advance both |word| and |next_word|
-      // when |i| reaches |next_word|.
-      if (next_word != words_->breaks().end() && i >= next_word->first) {
-        if (*width > available_width) {
-          DCHECK_NE(WRAP_LONG_WORDS, word_wrap_behavior_);
-          *next_char = i;
-          if (word_wrap_behavior_ != TRUNCATE_LONG_WORDS)
-            *end_char = *next_char;
-          else
-            *width = truncated_width;
-          return true;
-        }
-        word = next_word++;
-        word_width = 0;
-      }
-
-      Range glyph_range;
-      run.GetClusterAt(i, &char_range, &glyph_range);
-      DCHECK_LT(0U, char_range.length());
-
-      SkScalar char_width = ((glyph_range.end() >= run.glyph_count)
-                                 ? SkFloatToScalar(run.width)
-                                 : run.positions[glyph_range.end()].x()) -
-                            run.positions[glyph_range.start()].x();
-
-      *width += char_width;
-      word_width += char_width;
-
-      // TODO(mukai): implement ELIDE_LONG_WORDS.
-      if (*width > available_width) {
-        if (line_x_ != 0 || word_width < *width) {
-          // Roll back one word.
-          *width -= word_width;
-          *next_char = std::max(word->first, start_char);
-          *end_char = *next_char;
-          return true;
-        } else if (word_wrap_behavior_ == WRAP_LONG_WORDS) {
-          if (char_width < *width) {
-            // Roll back one character.
-            *width -= char_width;
-            *next_char = i;
-          } else {
-            // Continue from the next character.
-            *next_char = i + char_range.length();
-          }
-          *end_char = *next_char;
-          return true;
-        }
-      } else {
-        *end_char = char_range.end();
-        truncated_width = *width;
-      }
-    }
-
-    if (word_wrap_behavior_ == TRUNCATE_LONG_WORDS)
-      *width = truncated_width;
-    *end_char = *next_char = run.range.end();
-    return false;
-  }
-
-  // RTL runs are broken in logical order but displayed in visual order. To find
-  // the text-space coordinate (where it would fall in a single-line text)
-  // |x_range| of RTL segments, segment widths are applied in reverse order.
-  // e.g. {[5, 10], [10, 40]} will become {[35, 40], [5, 35]}.
-  void UpdateRTLSegmentRanges() {
-    if (rtl_segments_.empty())
-      return;
-    float x = SegmentFromHandle(rtl_segments_[0])->x_range.start();
-    for (size_t i = rtl_segments_.size(); i > 0; --i) {
-      internal::LineSegment* segment = SegmentFromHandle(rtl_segments_[i - 1]);
-      const float segment_width = segment->width;
-      segment->x_range = Range(x, x + segment_width);
-      x += segment_width;
-    }
-    rtl_segments_.clear();
-  }
-
   // Finishes the size calculations of the last Line in |lines_|. Adds a new
   // Line to the back of |lines_|.
   void AdvanceLine() {
@@ -414,35 +314,96 @@ class HarfBuzzLineBreaker {
                          run_list_.logical_to_visual(s2.run);
                 });
       line->size.set_height(std::max(min_height_, max_descent_ + max_ascent_));
-      line->baseline =
-          std::max(min_baseline_, SkScalarRoundToInt(max_ascent_));
+      line->baseline = std::max(min_baseline_, SkScalarRoundToInt(max_ascent_));
       line->preceding_heights = std::ceil(total_size_.height());
       total_size_.set_height(total_size_.height() + line->size.height());
       total_size_.set_width(std::max(total_size_.width(), line->size.width()));
     }
     max_descent_ = 0;
     max_ascent_ = 0;
-    line_x_ = 0;
+    available_width_ = max_width_;
     lines_.push_back(internal::Line());
   }
 
-  // Adds a new segment with the given properties to |lines_.back()|.
-  void AddSegment(int run_index, Range char_range, float width) {
-    if (char_range.is_empty()) {
-      DCHECK_EQ(0, width);
+  // Adds word to the current line. A word may contain multiple segments. If the
+  // word is the first word in line and its width exceeds |available_width_|,
+  // ignore/truncate/wrap it according to |word_wrap_behavior_|.
+  void AddWordToLine(std::vector<internal::LineSegment>& word_segments) {
+    DCHECK(!lines_.empty());
+    if (word_segments.empty())
       return;
-    }
-    const internal::TextRunHarfBuzz& run = *(run_list_.runs()[run_index]);
 
-    internal::LineSegment segment;
-    segment.run = run_index;
-    segment.char_range = char_range;
-    segment.x_range = Range(
-        SkScalarCeilToInt(text_x_),
-        SkScalarCeilToInt(text_x_ + SkFloatToScalar(width)));
-    segment.width = width;
+    bool has_truncated = false;
+    for (internal::LineSegment& segment : word_segments) {
+      if (has_truncated)
+        break;
+      if (segment.width <= available_width_ ||
+          word_wrap_behavior_ == IGNORE_LONG_WORDS) {
+        AddLineSegment(segment);
+      } else {
+        DCHECK(word_wrap_behavior_ == TRUNCATE_LONG_WORDS ||
+               word_wrap_behavior_ == WRAP_LONG_WORDS);
+        has_truncated = (word_wrap_behavior_ == TRUNCATE_LONG_WORDS);
+
+        while (!segment.char_range.is_empty()) {
+          size_t cutoff_pos = 0;
+          SkScalar width = GetCutoffWidth(segment, &cutoff_pos);
+          if (width == 0 && available_width_ == max_width_) {
+            // |max_width_| might be smaller than a single character. In this
+            // case we need to put at least one character in the line.
+            // See RenderTextTest.Multiline_MinWidth for example.
+            cutoff_pos = segment.char_range.start() + 1;
+            const internal::TextRunHarfBuzz& run =
+                *(run_list_.runs()[segment.run]);
+            width = run.GetGlyphWidthForCharRange(
+                Range(segment.char_range.start(), cutoff_pos));
+          }
+          if (width > 0) {
+            internal::LineSegment cut_segment;
+            cut_segment.run = segment.run;
+            cut_segment.char_range =
+                Range(segment.char_range.start(), cutoff_pos);
+            cut_segment.width = width;
+            cut_segment.x_range = Range(segment.x_range.start(),
+                                        SkScalarCeilToInt(text_x_ + width));
+            AddLineSegment(cut_segment);
+            // Updates old segment.
+            segment.char_range.set_start(cutoff_pos);
+            segment.x_range.set_start(SkScalarCeilToInt(text_x_));
+            segment.width -= width;
+          }
+          if (has_truncated)
+            break;
+          if (!segment.char_range.is_empty())
+            AdvanceLine();
+        }
+      }
+    }
+  }
 
+  // Add line segment to current line. Note in order to keep the visual order
+  // correct for ltr and rtl language, we need to merge segments that belong to
+  // a same run.
+  void AddLineSegment(internal::LineSegment& segment) {
+    DCHECK(!lines_.empty());
     internal::Line* line = &lines_.back();
+    const internal::TextRunHarfBuzz& run = *(run_list_.runs()[segment.run]);
+    if (!line->segments.empty()) {
+      const internal::LineSegment& last_segment = line->segments.back();
+      // Merge segments that belong to the same run.
+      if (last_segment.run == segment.run) {
+        segment.char_range.set_start(last_segment.char_range.start());
+        segment.width += last_segment.width;
+        segment.x_range.set_start(
+            SkScalarCeilToInt(text_x_ - last_segment.width));
+        line->segments.pop_back();
+        if (run.is_rtl)
+          rtl_segments_.pop_back();
+        line->size.set_width(line->size.width() - last_segment.width);
+        text_x_ -= last_segment.width;
+        available_width_ += last_segment.width;
+      }
+    }
     line->segments.push_back(segment);
 
     SkPaint paint;
@@ -452,7 +413,7 @@ class HarfBuzzLineBreaker {
     SkPaint::FontMetrics metrics;
     paint.getFontMetrics(&metrics);
 
-    line->size.set_width(line->size.width() + width);
+    line->size.set_width(line->size.width() + segment.width);
     // TODO(dschuyler): Account for stylized baselines in string sizing.
     max_descent_ = std::max(max_descent_, metrics.fDescent);
     // fAscent is always negative.
@@ -463,17 +424,82 @@ class HarfBuzzLineBreaker {
           SegmentHandle(lines_.size() - 1, line->segments.size() - 1));
       // If this is the last segment of an RTL run, reprocess the text-space x
       // ranges of all segments from the run.
-      if (char_range.end() == run.range.end())
+      if (segment.char_range.end() == run.range.end())
         UpdateRTLSegmentRanges();
     }
-    text_x_ += SkFloatToScalar(width);
-    line_x_ += SkFloatToScalar(width);
+    text_x_ += segment.width;
+    available_width_ -= segment.width;
+  }
+
+  // Finds the end position |end_pos| in |segment| that the preceding width is
+  // no larger than |available_width_|, and returns the preceding width.
+  SkScalar GetCutoffWidth(const internal::LineSegment& segment,
+                          size_t* end_pos) const {
+    DCHECK(!segment.char_range.is_empty());
+    const internal::TextRunHarfBuzz& run = *(run_list_.runs()[segment.run]);
+    *end_pos = segment.char_range.start();
+    SkScalar width = 0;
+    while (*end_pos < segment.char_range.end()) {
+      const SkScalar char_width =
+          run.GetGlyphWidthForCharRange(Range(*end_pos, *end_pos + 1));
+      if (width + char_width > available_width_)
+        break;
+      width += char_width;
+      *end_pos += 1;
+    }
+    return width;
+  }
+
+  // Gets the glyph width for |word|, and splits the |word| into different
+  // segments based on its runs.
+  SkScalar GetWordWidth(const gfx::BreakList<size_t>::Break* word,
+                        std::vector<internal::LineSegment>* segments) const {
+    DCHECK(word && words_);
+    int word_st = word->first;
+    int word_en = (*word == words_->breaks().back()) ? text_.size() - 1
+                                                     : (word + 1)->first - 1;
+    if (word_en < 0 || word_en < word_st)
+      return 0;
+    size_t run_st_idx = run_list_.GetRunIndexAt(word_st);
+    size_t run_en_idx = run_list_.GetRunIndexAt(word_en);

[Jun Mukai, 2015/05/16 00:21:57]

Let's rename run_start_index and run_end_index.  Usually acronyms and shortened
terms are confusing.

[xdai1, 2015/05/18 17:41:26]

Done.

+    SkScalar width = 0;
+    for (size_t idx = run_st_idx; idx <= run_en_idx; idx++) {
+      const internal::TextRunHarfBuzz& run = *(run_list_.runs()[idx]);
+      const Range char_range = run.range.Intersect(Range(word_st, word_en + 1));

[Jun Mukai, 2015/05/16 00:21:57]

if (char_range.IsEmpty()) continue;
I am not sure this is really necessary, but it's a good thing to make sure
not-adding empty segments.

[xdai1, 2015/05/18 17:41:26]

Done.

+      const SkScalar char_width = run.GetGlyphWidthForCharRange(char_range);
+      width += char_width;
+
+      internal::LineSegment segment;
+      segment.run = idx;
+      segment.char_range = char_range;
+      segment.width = char_width;
+      segment.x_range = Range(SkScalarCeilToInt(text_x_ + width - char_width),
+                              SkScalarCeilToInt(text_x_ + width));
+      segments->push_back(segment);
+    }
+    return width;
+  }
+
+  // RTL runs are broken in logical order but displayed in visual order. To find
+  // the text-space coordinate (where it would fall in a single-line text)
+  // |x_range| of RTL segments, segment widths are applied in reverse order.
+  // e.g. {[5, 10], [10, 40]} will become {[35, 40], [5, 35]}.
+  void UpdateRTLSegmentRanges() {
+    if (rtl_segments_.empty())
+      return;
+    float x = SegmentFromHandle(rtl_segments_[0])->x_range.start();
+    for (size_t i = rtl_segments_.size(); i > 0; --i) {
+      internal::LineSegment* segment = SegmentFromHandle(rtl_segments_[i - 1]);
+      const float segment_width = segment->width;
+      segment->x_range = Range(x, x + segment_width);
+      x += segment_width;
+    }
+    rtl_segments_.clear();
   }
 
   const SkScalar max_width_;
   const int min_baseline_;
   const float min_height_;
-  const bool multiline_;
   const WordWrapBehavior word_wrap_behavior_;
   const base::string16& text_;
   const BreakList<size_t>* const words_;
@@ -482,13 +508,14 @@ class HarfBuzzLineBreaker {
   // Stores the resulting lines.
   std::vector<internal::Line> lines_;
 
-  // Text space and line space x coordinates of the next segment to be added.
-  SkScalar text_x_;
-  SkScalar line_x_;
-
   float max_descent_;
   float max_ascent_;
 
+  // Text space x coordinates of the next segment to be added.
+  SkScalar text_x_;
+  // Stores available width in the current line.
+  SkScalar available_width_;
+
   // Size of the multiline text, not including the currently processed line.
   SizeF total_size_;
 
@@ -532,29 +559,6 @@ TextRunHarfBuzz::TextRunHarfBuzz()
 
 TextRunHarfBuzz::~TextRunHarfBuzz() {}
 
-void TextRunHarfBuzz::GetClusterAt(size_t pos,
-                                   Range* chars,
-                                   Range* glyphs) const {
-  DCHECK(range.Contains(Range(pos, pos + 1)));
-  DCHECK(chars);
-  DCHECK(glyphs);
-
-  if (glyph_count == 0) {
-    *chars = range;
-    *glyphs = Range();
-    return;
-  }
-
-  if (is_rtl) {
-    GetClusterAtImpl(pos, range, glyph_to_char.rbegin(), glyph_to_char.rend(),
-        true, chars, glyphs);
-    return;
-  }
-
-  GetClusterAtImpl(pos, range, glyph_to_char.begin(), glyph_to_char.end(),
-      false, chars, glyphs);
-}
-
 Range TextRunHarfBuzz::CharRangeToGlyphRange(const Range& char_range) const {
   DCHECK(range.Contains(char_range));
   DCHECK(!char_range.is_reversed());
@@ -578,6 +582,29 @@ size_t TextRunHarfBuzz::CountMissingGlyphs() const {
   return missing;
 }
 
+void TextRunHarfBuzz::GetClusterAt(size_t pos,
+                                   Range* chars,
+                                   Range* glyphs) const {
+  DCHECK(range.Contains(Range(pos, pos + 1)));
+  DCHECK(chars);
+  DCHECK(glyphs);
+
+  if (glyph_count == 0) {
+    *chars = range;
+    *glyphs = Range();
+    return;
+  }
+
+  if (is_rtl) {
+    GetClusterAtImpl(pos, range, glyph_to_char.rbegin(), glyph_to_char.rend(),
+                     true, chars, glyphs);
+    return;
+  }
+
+  GetClusterAtImpl(pos, range, glyph_to_char.begin(), glyph_to_char.end(),
+                   false, chars, glyphs);
+}
+
 RangeF TextRunHarfBuzz::GetGraphemeBounds(
     base::i18n::BreakIterator* grapheme_iterator,
     size_t text_index) {
@@ -626,6 +653,16 @@ RangeF TextRunHarfBuzz::GetGraphemeBounds(
                 preceding_run_widths + cluster_end_x);
 }
 
+SkScalar TextRunHarfBuzz::GetGlyphWidthForCharRange(
+    const Range& char_range) const {
+  DCHECK(range.Contains(char_range));
+  Range glyph_range = CharRangeToGlyphRange(char_range);
+  return ((glyph_range.end() >= glyph_count)
+              ? SkFloatToScalar(width)
+              : positions[glyph_range.end()].x()) -
+         positions[glyph_range.start()].x();
+}
+
 TextRunList::TextRunList() : width_(0.0f) {}
 
 TextRunList::~TextRunList() {}
@@ -660,6 +697,14 @@ void TextRunList::ComputePrecedingRunWidths() {
   }
 }
 
+size_t TextRunList::GetRunIndexAt(size_t position) const {
+  for (size_t i = 0; i < runs_.size(); ++i) {
+    if (runs_[i]->range.start() <= position && runs_[i]->range.end() > position)
+      return i;
+  }
+  return runs_.size();
+}
+
 }  // namespace internal
 
 RenderTextHarfBuzz::RenderTextHarfBuzz()
@@ -1008,16 +1053,18 @@ void RenderTextHarfBuzz::EnsureLayout() {
     internal::TextRunList* run_list = GetRunList();
     HarfBuzzLineBreaker line_breaker(
         display_rect().width(), font_list().GetBaseline(),
-        std::max(font_list().GetHeight(), min_line_height()), multiline(),
+        std::max(font_list().GetHeight(), min_line_height()),
         word_wrap_behavior(), GetDisplayText(),
         multiline() ? &GetLineBreaks() : nullptr, *run_list);
 
     tracking_profile.reset();
 
-    for (size_t i = 0; i < run_list->size(); ++i)
-      line_breaker.AddRun(i);
+    if (multiline())
+      line_breaker.ConstructMultiLines();
+    else
+      line_breaker.ConstructSingleLine();
     std::vector<internal::Line> lines;
-    line_breaker.Finalize(&lines, &total_size_);
+    line_breaker.FinalizeLines(&lines, &total_size_);
     set_lines(&lines);
   }
 }