Delete RenderTextWin and RenderTextPango.

ui/gfx/render_text_win.cc

Index: ui/gfx/render_text_win.cc
diff --git a/ui/gfx/render_text_win.cc b/ui/gfx/render_text_win.cc
deleted file mode 100644
index f1925993ef65aae09a78d79e07526d6c583af315..0000000000000000000000000000000000000000
--- a/ui/gfx/render_text_win.cc
+++ /dev/null
@@ -1,1261 +0,0 @@
-// Copyright (c) 2012 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 "ui/gfx/render_text_win.h"
-
-#include <algorithm>
-
-#include "base/i18n/break_iterator.h"
-#include "base/i18n/char_iterator.h"
-#include "base/i18n/rtl.h"
-#include "base/logging.h"
-#include "base/strings/string_util.h"
-#include "base/strings/utf_string_conversions.h"
-#include "base/win/windows_version.h"
-#include "third_party/icu/source/common/unicode/uchar.h"
-#include "ui/gfx/canvas.h"
-#include "ui/gfx/font_fallback_win.h"
-#include "ui/gfx/font_render_params.h"
-#include "ui/gfx/geometry/size_conversions.h"
-#include "ui/gfx/platform_font_win.h"
-#include "ui/gfx/utf16_indexing.h"
-
-namespace gfx {
-
-namespace {
-
-// The maximum length of text supported for Uniscribe layout and display.
-// This empirically chosen value should prevent major performance degradations.
-// TODO(msw): Support longer text, partial layout/painting, etc.
-const size_t kMaxUniscribeTextLength = 10000;
-
-// The initial guess and maximum supported number of runs; arbitrary values.
-// TODO(msw): Support more runs, determine a better initial guess, etc.
-const int kGuessRuns = 100;
-const size_t kMaxRuns = 10000;
-
-// The maximum number of glyphs per run; ScriptShape fails on larger values.
-const size_t kMaxGlyphs = 65535;
-
-// Changes |font| to have the specified |font_size| (or |font_height| on Windows
-// XP) and |font_style| if it is not the case already. Only considers bold and
-// italic styles, since the underlined style has no effect on glyph shaping.
-void DeriveFontIfNecessary(int font_size,
-                           int font_height,
-                           int font_style,
-                           Font* font) {
-  const int kStyleMask = (Font::BOLD | Font::ITALIC);
-  const int target_style = (font_style & kStyleMask);
-
-  // On Windows XP, the font must be resized using |font_height| instead of
-  // |font_size| to match GDI behavior.
-  if (base::win::GetVersion() < base::win::VERSION_VISTA) {
-    PlatformFontWin* platform_font =
-        static_cast<PlatformFontWin*>(font->platform_font());
-    *font = platform_font->DeriveFontWithHeight(font_height, target_style);
-    return;
-  }
-
-  const int current_style = (font->GetStyle() & kStyleMask);
-  const int current_size = font->GetFontSize();
-  if (current_style != target_style || current_size != font_size)
-    *font = font->Derive(font_size - current_size, target_style);
-}
-
-// Returns true if |c| is a Unicode BiDi control character.
-bool IsUnicodeBidiControlCharacter(base::char16 c) {
-  return c == base::i18n::kRightToLeftMark ||
-         c == base::i18n::kLeftToRightMark ||
-         c == base::i18n::kLeftToRightEmbeddingMark ||
-         c == base::i18n::kRightToLeftEmbeddingMark ||
-         c == base::i18n::kPopDirectionalFormatting ||
-         c == base::i18n::kLeftToRightOverride ||
-         c == base::i18n::kRightToLeftOverride;
-}
-
-// Returns the corresponding glyph range of the given character range.
-// |range| is in text-space (0 corresponds to |GetLayoutText()[0]|).
-// Returned value is in run-space (0 corresponds to the first glyph in the run).
-Range CharRangeToGlyphRange(const internal::TextRun& run,
-                            const Range& range) {
-  DCHECK(run.range.Contains(range));
-  DCHECK(!range.is_reversed());
-  DCHECK(!range.is_empty());
-  const Range run_range(range.start() - run.range.start(),
-                        range.end() - run.range.start());
-  Range result;
-  if (run.script_analysis.fRTL) {
-    result = Range(run.logical_clusters[run_range.end() - 1],
-        run_range.start() > 0 ? run.logical_clusters[run_range.start() - 1]
-                              : run.glyph_count);
-  } else {
-    result = Range(run.logical_clusters[run_range.start()],
-        run_range.end() < run.range.length() ?
-            run.logical_clusters[run_range.end()] : run.glyph_count);
-  }
-  DCHECK(!result.is_reversed());
-  DCHECK(Range(0, run.glyph_count).Contains(result));
-  return result;
-}
-
-// Starting from |start_char|, finds a suitable line break position at or before
-// |available_width| using word break info from |breaks|. If |empty_line| is
-// true, this function will not roll back to |start_char| and |*next_char| will
-// be greater than |start_char| (to avoid constructing empty lines). Returns
-// whether to skip the line before |*next_char|.
-// TODO(ckocagil): Do not break ligatures and diacritics.
-//                 TextRun::logical_clusters might help.
-// 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 wchar_t* text,
-                     const internal::TextRun& run,
-                     const BreakList<size_t>& breaks,
-                     size_t start_char,
-                     int available_width,
-                     bool empty_line,
-                     int* width,
-                     size_t* next_char) {
-  DCHECK(run.range.Contains(Range(start_char, start_char + 1)));
-  BreakList<size_t>::const_iterator word = breaks.GetBreak(start_char);
-  BreakList<size_t>::const_iterator next_word = word + 1;
-  // Width from |std::max(word->first, start_char)| to the current character.
-  int word_width = 0;
-  *width = 0;
-
-  for (size_t i = start_char; i < run.range.end(); ++i) {
-    if (U16_IS_SINGLE(text[i]) && text[i] == L'\n') {
-      *next_char = i + 1;
-      return true;
-    }
-
-    // |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 != breaks.breaks().end() && i >= next_word->first) {
-      word = next_word++;
-      word_width = 0;
-    }
-
-    Range glyph_range = CharRangeToGlyphRange(run, Range(i, i + 1));
-    int char_width = 0;
-    for (size_t j = glyph_range.start(); j < glyph_range.end(); ++j)
-      char_width += run.advance_widths[j];
-
-    *width += char_width;
-    word_width += char_width;
-
-    if (*width > available_width) {
-      if (!empty_line || word_width < *width) {
-        // Roll back one word.
-        *width -= word_width;
-        *next_char = std::max(word->first, start_char);
-      } else if (char_width < *width) {
-        // Roll back one character.
-        *width -= char_width;
-        *next_char = i;
-      } else {
-        // Continue from the next character.
-        *next_char = i + 1;
-      }
-
-      return true;
-    }
-  }
-
-  *next_char = run.range.end();
-  return false;
-}
-
-// For segments in the same run, checks the continuity and order of |x_range|
-// and |char_range| fields.
-void CheckLineIntegrity(const std::vector<internal::Line>& lines,
-                        const ScopedVector<internal::TextRun>& runs) {
-  size_t previous_segment_line = 0;
-  const internal::LineSegment* previous_segment = NULL;
-
-  for (size_t i = 0; i < lines.size(); ++i) {
-    for (size_t j = 0; j < lines[i].segments.size(); ++j) {
-      const internal::LineSegment* segment = &lines[i].segments[j];
-      internal::TextRun* run = runs[segment->run];
-
-      if (!previous_segment) {
-        previous_segment = segment;
-      } else if (runs[previous_segment->run] != run) {
-        previous_segment = NULL;
-      } else {
-        DCHECK_EQ(previous_segment->char_range.end(),
-                  segment->char_range.start());
-        if (!run->script_analysis.fRTL) {
-          DCHECK_EQ(previous_segment->x_range.end(), segment->x_range.start());
-        } else {
-          DCHECK_EQ(segment->x_range.end(), previous_segment->x_range.start());
-        }
-
-        previous_segment = segment;
-        previous_segment_line = i;
-      }
-    }
-  }
-}
-
-// Returns true if characters of |block_code| may trigger font fallback.
-bool IsUnusualBlockCode(const UBlockCode block_code) {
-  return block_code == UBLOCK_GEOMETRIC_SHAPES ||
-         block_code == UBLOCK_MISCELLANEOUS_SYMBOLS;
-}
-
-// Returns the index of the first unusual character after a usual character or
-// vice versa. Unusual characters are defined by |IsUnusualBlockCode|.
-size_t FindUnusualCharacter(const base::string16& text,
-                            size_t run_start,
-                            size_t run_break) {
-  const int32 run_length = static_cast<int32>(run_break - run_start);
-  base::i18n::UTF16CharIterator iter(text.c_str() + run_start,
-                                     run_length);
-  const UBlockCode first_block_code = ublock_getCode(iter.get());
-  const bool first_block_unusual = IsUnusualBlockCode(first_block_code);
-  while (iter.Advance() && iter.array_pos() < run_length) {
-    const UBlockCode current_block_code = ublock_getCode(iter.get());
-    if (current_block_code != first_block_code &&
-        (first_block_unusual || IsUnusualBlockCode(current_block_code))) {
-      return run_start + iter.array_pos();
-    }
-  }
-  return run_break;
-}
-
-}  // namespace
-
-namespace internal {
-
-TextRun::TextRun()
-  : font_style(0),
-    strike(false),
-    diagonal_strike(false),
-    underline(false),
-    width(0),
-    preceding_run_widths(0),
-    glyph_count(0),
-    script_cache(NULL) {
-  memset(&script_analysis, 0, sizeof(script_analysis));
-  memset(&abc_widths, 0, sizeof(abc_widths));
-}
-
-TextRun::~TextRun() {
-  ScriptFreeCache(&script_cache);
-}
-
-// Returns the X coordinate of the leading or |trailing| edge of the glyph
-// starting at |index|, relative to the left of the text (not the view).
-int GetGlyphXBoundary(const internal::TextRun* run,
-                      size_t index,
-                      bool trailing) {
-  DCHECK_GE(index, run->range.start());
-  DCHECK_LT(index, run->range.end() + (trailing ? 0 : 1));
-  int x = 0;
-  HRESULT hr = ScriptCPtoX(
-      index - run->range.start(),
-      trailing,
-      run->range.length(),
-      run->glyph_count,
-      run->logical_clusters.get(),
-      run->visible_attributes.get(),
-      run->advance_widths.get(),
-      &run->script_analysis,
-      &x);
-  DCHECK(SUCCEEDED(hr));
-  return run->preceding_run_widths + x;
-}
-
-// Internal class to generate Line structures. If |multiline| is true, the text
-// is broken into lines at |words| boundaries such that each line is no longer
-// than |max_width|. If |multiline| is false, only outputs a single Line from
-// the given runs. |min_baseline| and |min_height| are the minimum baseline and
-// height for each line.
-// TODO(ckocagil): Expose the interface of this class in the header and test
-//                 this class directly.
-class LineBreaker {
- public:
-  LineBreaker(int max_width,
-              int min_baseline,
-              int min_height,
-              bool multiline,
-              const wchar_t* text,
-              const BreakList<size_t>* words,
-              const ScopedVector<TextRun>& runs)
-      : max_width_(max_width),
-        min_baseline_(min_baseline),
-        min_height_(min_height),
-        multiline_(multiline),
-        text_(text),
-        words_(words),
-        runs_(runs),
-        text_x_(0),
-        line_x_(0),
-        line_ascent_(0),
-        line_descent_(0) {
-    AdvanceLine();
-  }
-
-  // Breaks the run at given |run_index| into Line structs.
-  void AddRun(int run_index) {
-    const TextRun* run = runs_[run_index];
-    bool run_fits = !multiline_;
-    if (multiline_ && line_x_ + run->width <= max_width_) {
-      DCHECK(!run->range.is_empty());
-      const wchar_t first_char = text_[run->range.start()];
-      // Uniscribe always puts newline characters in their own runs.
-      if (!U16_IS_SINGLE(first_char) || first_char != L'\n')
-        run_fits = true;
-    }
-
-    if (!run_fits)
-      BreakRun(run_index);
-    else
-      AddSegment(run_index, run->range, run->width);
-  }
-
-  // Finishes line breaking and outputs the results. Can be called at most once.
-  void Finalize(std::vector<Line>* lines, Size* size) {
-    DCHECK(!lines_.empty());
-    // Add an empty line to finish the line size calculation and remove it.
-    AdvanceLine();
-    lines_.pop_back();
-    *size = total_size_;
-    lines->swap(lines_);
-  }
-
- private:
-  // A (line index, segment index) pair that specifies a segment in |lines_|.
-  typedef std::pair<size_t, size_t> SegmentHandle;
-
-  LineSegment* SegmentFromHandle(const SegmentHandle& handle) {
-    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) {
-    DCHECK(words_);
-    const TextRun* const run = runs_[run_index];
-    int 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;
-      const bool skip_line = BreakRunAtWidth(text_, *run, *words_, current_char,
-          max_width_ - line_x_, line_x_ == 0, &width, &next_char);
-      AddSegment(run_index, Range(current_char, next_char), width);
-      if (skip_line)
-        AdvanceLine();
-    }
-  }
-
-  // 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;
-    int x = SegmentFromHandle(rtl_segments_[0])->x_range.start();
-    for (size_t i = rtl_segments_.size(); i > 0; --i) {
-      LineSegment* segment = SegmentFromHandle(rtl_segments_[i - 1]);
-      const size_t segment_width = segment->x_range.length();
-      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() {
-    if (!lines_.empty()) {
-      Line* line = &lines_.back();
-      // TODO(ckocagil): Determine optimal multiline height behavior.
-      if (line_ascent_ + line_descent_ == 0) {
-        line_ascent_ = min_baseline_;
-        line_descent_ = min_height_ - min_baseline_;
-      }
-      // Set the single-line mode Line's metrics to be at least
-      // |RenderText::font_list()| to not break the current single-line code.
-      line_ascent_ = std::max(line_ascent_, min_baseline_);
-      line_descent_ = std::max(line_descent_, min_height_ - min_baseline_);
-
-      line->baseline = line_ascent_;
-      line->size.set_height(line_ascent_ + line_descent_);
-      line->preceding_heights = total_size_.height();
-      const Size line_size(ToCeiledSize(line->size));
-      total_size_.set_height(total_size_.height() + line_size.height());
-      total_size_.set_width(std::max(total_size_.width(), line_size.width()));
-    }
-    line_x_ = 0;
-    line_ascent_ = 0;
-    line_descent_ = 0;
-    lines_.push_back(Line());
-  }
-
-  // Adds a new segment with the given properties to |lines_.back()|.
-  void AddSegment(int run_index, Range char_range, int width) {
-    if (char_range.is_empty()) {
-      DCHECK_EQ(width, 0);
-      return;
-    }
-    const TextRun* run = runs_[run_index];
-    line_ascent_ = std::max(line_ascent_, run->font.GetBaseline());
-    line_descent_ = std::max(line_descent_,
-                             run->font.GetHeight() - run->font.GetBaseline());
-
-    LineSegment segment;
-    segment.run = run_index;
-    segment.char_range = char_range;
-    segment.x_range = Range(text_x_, text_x_ + width);
-
-    Line* line = &lines_.back();
-    line->segments.push_back(segment);
-    line->size.set_width(line->size.width() + segment.x_range.length());
-    if (run->script_analysis.fRTL) {
-      rtl_segments_.push_back(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())
-        UpdateRTLSegmentRanges();
-    }
-    text_x_ += width;
-    line_x_ += width;
-  }
-
-  const int max_width_;
-  const int min_baseline_;
-  const int min_height_;
-  const bool multiline_;
-  const wchar_t* text_;
-  const BreakList<size_t>* const words_;
-  const ScopedVector<TextRun>& runs_;
-
-  // Stores the resulting lines.
-  std::vector<Line> lines_;
-
-  // Text space and line space x coordinates of the next segment to be added.
-  int text_x_;
-  int line_x_;
-
-  // Size of the multiline text, not including the currently processed line.
-  Size total_size_;
-
-  // Ascent and descent values of the current line, |lines_.back()|.
-  int line_ascent_;
-  int line_descent_;
-
-  // The current RTL run segments, to be applied by |UpdateRTLSegmentRanges()|.
-  std::vector<SegmentHandle> rtl_segments_;
-
-  DISALLOW_COPY_AND_ASSIGN(LineBreaker);
-};
-
-}  // namespace internal
-
-// static
-HDC RenderTextWin::cached_hdc_ = NULL;
-
-// static
-std::map<std::string, Font> RenderTextWin::successful_substitute_fonts_;
-
-RenderTextWin::RenderTextWin() : RenderText(), needs_layout_(false) {
-  set_truncate_length(kMaxUniscribeTextLength);
-  memset(&script_control_, 0, sizeof(script_control_));
-  memset(&script_state_, 0, sizeof(script_state_));
-  MoveCursorTo(EdgeSelectionModel(CURSOR_LEFT));
-}
-
-RenderTextWin::~RenderTextWin() {}
-
-scoped_ptr<RenderText> RenderTextWin::CreateInstanceOfSameType() const {
-  return scoped_ptr<RenderTextWin>(new RenderTextWin);
-}
-
-Size RenderTextWin::GetStringSize() {
-  EnsureLayout();
-  return multiline_string_size_;
-}
-
-SelectionModel RenderTextWin::FindCursorPosition(const Point& point) {
-  if (text().empty())
-    return SelectionModel();
-
-  EnsureLayout();
-  // Find the run that contains the point and adjust the argument location.
-  int x = ToTextPoint(point).x();
-  size_t run_index = GetRunContainingXCoord(x);
-  if (run_index >= runs_.size())
-    return EdgeSelectionModel((x < 0) ? CURSOR_LEFT : CURSOR_RIGHT);
-  internal::TextRun* run = runs_[run_index];
-
-  int position = 0, trailing = 0;
-  HRESULT hr = ScriptXtoCP(x - run->preceding_run_widths,
-                           run->range.length(),
-                           run->glyph_count,
-                           run->logical_clusters.get(),
-                           run->visible_attributes.get(),
-                           run->advance_widths.get(),
-                           &(run->script_analysis),
-                           &position,
-                           &trailing);
-  DCHECK(SUCCEEDED(hr));
-  DCHECK_GE(trailing, 0);
-  position += run->range.start();
-  const size_t cursor = LayoutIndexToTextIndex(position + trailing);
-  DCHECK_LE(cursor, text().length());
-  return SelectionModel(cursor, trailing ? CURSOR_BACKWARD : CURSOR_FORWARD);
-}
-
-std::vector<RenderText::FontSpan> RenderTextWin::GetFontSpansForTesting() {
-  EnsureLayout();
-
-  std::vector<RenderText::FontSpan> spans;
-  for (size_t i = 0; i < runs_.size(); ++i) {
-    spans.push_back(RenderText::FontSpan(runs_[i]->font,
-        Range(LayoutIndexToTextIndex(runs_[i]->range.start()),
-              LayoutIndexToTextIndex(runs_[i]->range.end()))));
-  }
-
-  return spans;
-}
-
-int RenderTextWin::GetLayoutTextBaseline() {
-  EnsureLayout();
-  return lines()[0].baseline;
-}
-
-SelectionModel RenderTextWin::AdjacentCharSelectionModel(
-    const SelectionModel& selection,
-    VisualCursorDirection direction) {
-  DCHECK(!needs_layout_);
-  internal::TextRun* run;
-  size_t run_index = GetRunContainingCaret(selection);
-  if (run_index >= runs_.size()) {
-    // The cursor is not in any run: we're at the visual and logical edge.
-    SelectionModel edge = EdgeSelectionModel(direction);
-    if (edge.caret_pos() == selection.caret_pos())
-      return edge;
-    int visual_index = (direction == CURSOR_RIGHT) ? 0 : runs_.size() - 1;
-    run = runs_[visual_to_logical_[visual_index]];
-  } else {
-    // If the cursor is moving within the current run, just move it by one
-    // grapheme in the appropriate direction.
-    run = runs_[run_index];
-    size_t caret = selection.caret_pos();
-    bool forward_motion =
-        run->script_analysis.fRTL == (direction == CURSOR_LEFT);
-    if (forward_motion) {
-      if (caret < LayoutIndexToTextIndex(run->range.end())) {
-        caret = IndexOfAdjacentGrapheme(caret, CURSOR_FORWARD);
-        return SelectionModel(caret, CURSOR_BACKWARD);
-      }
-    } else {
-      if (caret > LayoutIndexToTextIndex(run->range.start())) {
-        caret = IndexOfAdjacentGrapheme(caret, CURSOR_BACKWARD);
-        return SelectionModel(caret, CURSOR_FORWARD);
-      }
-    }
-    // The cursor is at the edge of a run; move to the visually adjacent run.
-    int visual_index = logical_to_visual_[run_index];
-    visual_index += (direction == CURSOR_LEFT) ? -1 : 1;
-    if (visual_index < 0 || visual_index >= static_cast<int>(runs_.size()))
-      return EdgeSelectionModel(direction);
-    run = runs_[visual_to_logical_[visual_index]];
-  }
-  bool forward_motion = run->script_analysis.fRTL == (direction == CURSOR_LEFT);
-  return forward_motion ? FirstSelectionModelInsideRun(run) :
-                          LastSelectionModelInsideRun(run);
-}
-
-// TODO(msw): Implement word breaking for Windows.
-SelectionModel RenderTextWin::AdjacentWordSelectionModel(
-    const SelectionModel& selection,
-    VisualCursorDirection direction) {
-  if (obscured())
-    return EdgeSelectionModel(direction);
-
-  base::i18n::BreakIterator iter(text(), base::i18n::BreakIterator::BREAK_WORD);
-  bool success = iter.Init();
-  DCHECK(success);
-  if (!success)
-    return selection;
-
-  size_t pos;
-  if (direction == CURSOR_RIGHT) {
-    pos = std::min(selection.caret_pos() + 1, text().length());
-    while (iter.Advance()) {
-      pos = iter.pos();
-      if (iter.IsWord() && pos > selection.caret_pos())
-        break;
-    }
-  } else {  // direction == CURSOR_LEFT
-    // Notes: We always iterate words from the beginning.
-    // This is probably fast enough for our usage, but we may
-    // want to modify WordIterator so that it can start from the
-    // middle of string and advance backwards.
-    pos = std::max<int>(selection.caret_pos() - 1, 0);
-    while (iter.Advance()) {
-      if (iter.IsWord()) {
-        size_t begin = iter.pos() - iter.GetString().length();
-        if (begin == selection.caret_pos()) {
-          // The cursor is at the beginning of a word.
-          // Move to previous word.
-          break;
-        } else if (iter.pos() >= selection.caret_pos()) {
-          // The cursor is in the middle or at the end of a word.
-          // Move to the top of current word.
-          pos = begin;
-          break;
-        } else {
-          pos = iter.pos() - iter.GetString().length();
-        }
-      }
-    }
-  }
-  return SelectionModel(pos, CURSOR_FORWARD);
-}
-
-Range RenderTextWin::GetGlyphBounds(size_t index) {
-  EnsureLayout();
-  const size_t run_index =
-      GetRunContainingCaret(SelectionModel(index, CURSOR_FORWARD));
-  // Return edge bounds if the index is invalid or beyond the layout text size.
-  if (run_index >= runs_.size())
-    return Range(string_width_);
-  internal::TextRun* run = runs_[run_index];
-  const size_t layout_index = TextIndexToLayoutIndex(index);
-  return Range(GetGlyphXBoundary(run, layout_index, false),
-               GetGlyphXBoundary(run, layout_index, true));
-}
-
-std::vector<Rect> RenderTextWin::GetSubstringBounds(const Range& range) {
-  DCHECK(!needs_layout_);
-  DCHECK(Range(0, text().length()).Contains(range));
-  Range layout_range(TextIndexToLayoutIndex(range.start()),
-                     TextIndexToLayoutIndex(range.end()));
-  DCHECK(Range(0, GetLayoutText().length()).Contains(layout_range));
-
-  std::vector<Rect> rects;
-  if (layout_range.is_empty())
-    return rects;
-  std::vector<Range> bounds;
-
-  // Add a Range for each run/selection intersection.
-  // TODO(msw): The bounds should probably not always be leading the range ends.
-  for (size_t i = 0; i < runs_.size(); ++i) {
-    const internal::TextRun* run = runs_[visual_to_logical_[i]];
-    Range intersection = run->range.Intersect(layout_range);
-    if (intersection.IsValid()) {
-      DCHECK(!intersection.is_reversed());
-      Range range_x(GetGlyphXBoundary(run, intersection.start(), false),
-                    GetGlyphXBoundary(run, intersection.end(), false));
-      if (range_x.is_empty())
-        continue;
-      range_x = Range(range_x.GetMin(), range_x.GetMax());
-      // Union this with the last range if they're adjacent.
-      DCHECK(bounds.empty() || bounds.back().GetMax() <= range_x.GetMin());
-      if (!bounds.empty() && bounds.back().GetMax() == range_x.GetMin()) {
-        range_x = Range(bounds.back().GetMin(), range_x.GetMax());
-        bounds.pop_back();
-      }
-      bounds.push_back(range_x);
-    }
-  }
-  for (size_t i = 0; i < bounds.size(); ++i) {
-    std::vector<Rect> current_rects = TextBoundsToViewBounds(bounds[i]);
-    rects.insert(rects.end(), current_rects.begin(), current_rects.end());
-  }
-  return rects;
-}
-
-size_t RenderTextWin::TextIndexToLayoutIndex(size_t index) const {
-  DCHECK_LE(index, text().length());
-  ptrdiff_t i = obscured() ? UTF16IndexToOffset(text(), 0, index) : index;
-  CHECK_GE(i, 0);
-  // Clamp layout indices to the length of the text actually used for layout.
-  return std::min<size_t>(GetLayoutText().length(), i);
-}
-
-size_t RenderTextWin::LayoutIndexToTextIndex(size_t index) const {
-  if (!obscured())
-    return index;
-
-  DCHECK_LE(index, GetLayoutText().length());
-  const size_t text_index = UTF16OffsetToIndex(text(), 0, index);
-  DCHECK_LE(text_index, text().length());
-  return text_index;
-}
-
-bool RenderTextWin::IsValidCursorIndex(size_t index) {
-  if (index == 0 || index == text().length())
-    return true;
-  if (!IsValidLogicalIndex(index))
-    return false;
-  EnsureLayout();
-  // Disallow indices amid multi-character graphemes by checking glyph bounds.
-  // These characters are not surrogate-pairs, but may yield a single glyph:
-  //   \x0915\x093f - (ki) - one of many Devanagari biconsonantal conjuncts.
-  //   \x0e08\x0e33 - (cho chan + sara am) - a Thai consonant and vowel pair.
-  return GetGlyphBounds(index) != GetGlyphBounds(index - 1);
-}
-
-void RenderTextWin::ResetLayout() {
-  // Layout is performed lazily as needed for drawing/metrics.
-  needs_layout_ = true;
-}
-
-void RenderTextWin::EnsureLayout() {
-  if (needs_layout_) {
-    // TODO(msw): Skip complex processing if ScriptIsComplex returns false.
-    ItemizeLogicalText();
-    if (!runs_.empty())
-      LayoutVisualText();
-    needs_layout_ = false;
-    std::vector<internal::Line> lines;
-    set_lines(&lines);
-  }
-
-  // Compute lines if they're not valid. This is separate from the layout steps
-  // above to avoid text layout and shaping when we resize |display_rect_|.
-  if (lines().empty()) {
-    DCHECK(!needs_layout_);
-    std::vector<internal::Line> lines;
-    internal::LineBreaker line_breaker(display_rect().width() - 1,
-                                       font_list().GetBaseline(),
-                                       font_list().GetHeight(), multiline(),
-                                       GetLayoutText().c_str(),
-                                       multiline() ? &GetLineBreaks() : NULL,
-                                       runs_);
-    for (size_t i = 0; i < runs_.size(); ++i)
-      line_breaker.AddRun(visual_to_logical_[i]);
-    line_breaker.Finalize(&lines, &multiline_string_size_);
-    DCHECK(!lines.empty());
-#ifndef NDEBUG
-    CheckLineIntegrity(lines, runs_);
-#endif
-    set_lines(&lines);
-  }
-}
-
-void RenderTextWin::DrawVisualText(Canvas* canvas) {
-  DCHECK(!needs_layout_);
-  DCHECK(!lines().empty());
-
-  std::vector<SkPoint> pos;
-
-  internal::SkiaTextRenderer renderer(canvas);
-  ApplyFadeEffects(&renderer);
-  ApplyTextShadows(&renderer);
-
-  renderer.SetFontRenderParams(
-      font_list().GetPrimaryFont().GetFontRenderParams(),
-      background_is_transparent());
-
-  ApplyCompositionAndSelectionStyles();
-
-  for (size_t i = 0; i < lines().size(); ++i) {
-    const internal::Line& line = lines()[i];
-    const Vector2d line_offset = GetLineOffset(i);
-
-    // Skip painting empty lines or lines outside the display rect area.
-    if (!display_rect().Intersects(Rect(PointAtOffsetFromOrigin(line_offset),
-                                        ToCeiledSize(line.size))))
-      continue;
-
-    const Vector2d text_offset = line_offset + Vector2d(0, line.baseline);
-    int preceding_segment_widths = 0;
-
-    for (size_t j = 0; j < line.segments.size(); ++j) {
-      const internal::LineSegment* segment = &line.segments[j];
-      const int segment_width = segment->x_range.length();
-      const internal::TextRun* run = runs_[segment->run];
-      DCHECK(!segment->char_range.is_empty());
-      DCHECK(run->range.Contains(segment->char_range));
-      Range glyph_range = CharRangeToGlyphRange(*run, segment->char_range);
-      DCHECK(!glyph_range.is_empty());
-      // Skip painting segments outside the display rect area.
-      if (!multiline()) {
-        const Rect segment_bounds(PointAtOffsetFromOrigin(line_offset) +
-                                      Vector2d(preceding_segment_widths, 0),
-                                  Size(segment_width, line.size.height()));
-        if (!display_rect().Intersects(segment_bounds)) {
-          preceding_segment_widths += segment_width;
-          continue;
-        }
-      }
-
-      // |pos| contains the positions of glyphs. An extra terminal |pos| entry
-      // is added to simplify width calculations.
-      int segment_x = preceding_segment_widths;
-      pos.resize(glyph_range.length() + 1);
-      for (size_t k = glyph_range.start(); k < glyph_range.end(); ++k) {
-        pos[k - glyph_range.start()].set(
-            SkIntToScalar(text_offset.x() + run->offsets[k].du + segment_x),
-            SkIntToScalar(text_offset.y() - run->offsets[k].dv));
-        segment_x += run->advance_widths[k];
-      }
-      pos.back().set(SkIntToScalar(text_offset.x() + segment_x),
-                     SkIntToScalar(text_offset.y()));
-
-      renderer.SetTextSize(SkIntToScalar(run->font.GetFontSize()));
-      renderer.SetFontFamilyWithStyle(run->font.GetFontName(), run->font_style);
-
-      for (BreakList<SkColor>::const_iterator it =
-               colors().GetBreak(segment->char_range.start());
-           it != colors().breaks().end() &&
-               it->first < segment->char_range.end();
-           ++it) {
-        const Range intersection =
-            colors().GetRange(it).Intersect(segment->char_range);
-        const Range colored_glyphs = CharRangeToGlyphRange(*run, intersection);
-        // The range may be empty if a portion of a multi-character grapheme is
-        // selected, yielding two colors for a single glyph. For now, this just
-        // paints the glyph with a single style, but it should paint it twice,
-        // clipped according to selection bounds. See http://crbug.com/366786
-        if (colored_glyphs.is_empty())
-          continue;
-        DCHECK(glyph_range.Contains(colored_glyphs));
-        const SkPoint& start_pos =
-            pos[colored_glyphs.start() - glyph_range.start()];
-        const SkPoint& end_pos =
-            pos[colored_glyphs.end() - glyph_range.start()];
-
-        renderer.SetForegroundColor(it->second);
-        renderer.DrawPosText(&start_pos, &run->glyphs[colored_glyphs.start()],
-                             colored_glyphs.length());
-        int start_x = SkScalarRoundToInt(start_pos.x());
-        renderer.DrawDecorations(
-            start_x, text_offset.y(), SkScalarRoundToInt(end_pos.x()) - start_x,
-            run->underline, run->strike, run->diagonal_strike);
-      }
-
-      preceding_segment_widths += segment_width;
-    }
-
-    renderer.EndDiagonalStrike();
-  }
-
-  UndoCompositionAndSelectionStyles();
-}
-
-void RenderTextWin::ItemizeLogicalText() {
-  runs_.clear();
-  string_width_ = 0;
-  multiline_string_size_ = Size();
-
-  // Set Uniscribe's base text direction.
-  script_state_.uBidiLevel =
-      (GetTextDirection() == base::i18n::RIGHT_TO_LEFT) ? 1 : 0;
-
-  const base::string16& layout_text = GetLayoutText();
-  if (layout_text.empty())
-    return;
-
-  HRESULT hr = E_OUTOFMEMORY;
-  int script_items_count = 0;
-  std::vector<SCRIPT_ITEM> script_items;
-  const size_t layout_text_length = layout_text.length();
-  // Ensure that |kMaxRuns| is attempted and the loop terminates afterward.
-  for (size_t runs = kGuessRuns; hr == E_OUTOFMEMORY && runs <= kMaxRuns;
-       runs = std::max(runs + 1, std::min(runs * 2, kMaxRuns))) {
-    // Derive the array of Uniscribe script items from the logical text.
-    // ScriptItemize always adds a terminal array item so that the length of
-    // the last item can be derived from the terminal SCRIPT_ITEM::iCharPos.
-    script_items.resize(runs);
-    hr = ScriptItemize(layout_text.c_str(), layout_text_length, runs - 1,
-                       &script_control_, &script_state_, &script_items[0],
-                       &script_items_count);
-  }
-  DCHECK(SUCCEEDED(hr));
-  if (!SUCCEEDED(hr) || script_items_count <= 0)
-    return;
-
-  // Temporarily apply composition underlines and selection colors.
-  ApplyCompositionAndSelectionStyles();
-
-  // Build the list of runs from the script items and ranged styles. Use an
-  // empty color BreakList to avoid breaking runs at color boundaries.
-  BreakList<SkColor> empty_colors;
-  empty_colors.SetMax(layout_text_length);
-  internal::StyleIterator style(empty_colors, styles());
-  SCRIPT_ITEM* script_item = &script_items[0];
-  const size_t max_run_length = kMaxGlyphs / 2;
-  for (size_t run_break = 0; run_break < layout_text_length;) {
-    internal::TextRun* run = new internal::TextRun();
-    run->range.set_start(run_break);
-    run->font = font_list().GetPrimaryFont();
-    run->font_style = (style.style(BOLD) ? Font::BOLD : 0) |
-                      (style.style(ITALIC) ? Font::ITALIC : 0);
-    DeriveFontIfNecessary(run->font.GetFontSize(), run->font.GetHeight(),
-                          run->font_style, &run->font);
-    run->strike = style.style(STRIKE);
-    run->diagonal_strike = style.style(DIAGONAL_STRIKE);
-    run->underline = style.style(UNDERLINE);
-    run->script_analysis = script_item->a;
-
-    // Find the next break and advance the iterators as needed.
-    const size_t script_item_break = (script_item + 1)->iCharPos;
-    run_break = std::min(script_item_break,
-                         TextIndexToLayoutIndex(style.GetRange().end()));
-
-    // Clamp run lengths to avoid exceeding the maximum supported glyph count.
-    if ((run_break - run->range.start()) > max_run_length) {
-      run_break = run->range.start() + max_run_length;
-      if (!IsValidCodePointIndex(layout_text, run_break))
-        --run_break;
-    }
-
-    // Break runs adjacent to character substrings in certain code blocks.
-    // This avoids using their fallback fonts for more characters than needed,
-    // in cases like "\x25B6 Media Title", etc. http://crbug.com/278913
-    if (run_break > run->range.start()) {
-      run_break =
-          FindUnusualCharacter(layout_text, run->range.start(), run_break);
-    }
-
-    DCHECK(IsValidCodePointIndex(layout_text, run_break));
-
-    style.UpdatePosition(LayoutIndexToTextIndex(run_break));
-    if (script_item_break == run_break)
-      script_item++;
-    run->range.set_end(run_break);
-    runs_.push_back(run);
-  }
-
-  // Undo the temporarily applied composition underlines and selection colors.
-  UndoCompositionAndSelectionStyles();
-}
-
-void RenderTextWin::LayoutVisualText() {
-  DCHECK(!runs_.empty());
-
-  if (!cached_hdc_)
-    cached_hdc_ = CreateCompatibleDC(NULL);
-
-  HRESULT hr = E_FAIL;
-  // Ensure ascent and descent are not smaller than ones of the font list.
-  // Keep them tall enough to draw often-used characters.
-  // For example, if a text field contains a Japanese character, which is
-  // smaller than Latin ones, and then later a Latin one is inserted, this
-  // ensures that the text baseline does not shift.
-  int ascent = font_list().GetBaseline();
-  int descent = font_list().GetHeight() - font_list().GetBaseline();
-  for (size_t i = 0; i < runs_.size(); ++i) {
-    internal::TextRun* run = runs_[i];
-    LayoutTextRun(run);
-
-    ascent = std::max(ascent, run->font.GetBaseline());
-    descent = std::max(descent,
-                       run->font.GetHeight() - run->font.GetBaseline());
-
-    if (run->glyph_count > 0) {
-      run->advance_widths.reset(new int[run->glyph_count]);
-      run->offsets.reset(new GOFFSET[run->glyph_count]);
-      hr = ScriptPlace(cached_hdc_,
-                       &run->script_cache,
-                       run->glyphs.get(),
-                       run->glyph_count,
-                       run->visible_attributes.get(),
-                       &(run->script_analysis),
-                       run->advance_widths.get(),
-                       run->offsets.get(),
-                       &(run->abc_widths));
-      DCHECK(SUCCEEDED(hr));
-    }
-  }
-
-  // Build the array of bidirectional embedding levels.
-  scoped_ptr<BYTE[]> levels(new BYTE[runs_.size()]);
-  for (size_t i = 0; i < runs_.size(); ++i)
-    levels[i] = runs_[i]->script_analysis.s.uBidiLevel;
-
-  // Get the maps between visual and logical run indices.
-  visual_to_logical_.reset(new int[runs_.size()]);
-  logical_to_visual_.reset(new int[runs_.size()]);
-  hr = ScriptLayout(runs_.size(),
-                    levels.get(),
-                    visual_to_logical_.get(),
-                    logical_to_visual_.get());
-  DCHECK(SUCCEEDED(hr));
-
-  // Precalculate run width information.
-  size_t preceding_run_widths = 0;
-  for (size_t i = 0; i < runs_.size(); ++i) {
-    internal::TextRun* run = runs_[visual_to_logical_[i]];
-    run->preceding_run_widths = preceding_run_widths;
-    const ABC& abc = run->abc_widths;
-    run->width = abc.abcA + abc.abcB + abc.abcC;
-    preceding_run_widths += run->width;
-  }
-  string_width_ = preceding_run_widths;
-}
-
-void RenderTextWin::LayoutTextRun(internal::TextRun* run) {
-  const size_t run_length = run->range.length();
-  const wchar_t* run_text = &(GetLayoutText()[run->range.start()]);
-  Font original_font = run->font;
-
-  run->logical_clusters.reset(new WORD[run_length]);
-
-  // Try shaping with |original_font|.
-  Font current_font = original_font;
-  int missing_count = CountCharsWithMissingGlyphs(run,
-      ShapeTextRunWithFont(run, current_font));
-  if (missing_count == 0)
-    return;
-
-  // Keep track of the font that is able to display the greatest number of
-  // characters for which ScriptShape() returned S_OK. This font will be used
-  // in the case where no font is able to display the entire run.
-  int best_partial_font_missing_char_count = missing_count;
-  Font best_partial_font = current_font;
-
-  // Try to shape with the cached font from previous runs, if any.
-  std::map<std::string, Font>::const_iterator it =
-      successful_substitute_fonts_.find(original_font.GetFontName());
-  if (it != successful_substitute_fonts_.end()) {
-    current_font = it->second;
-    missing_count = CountCharsWithMissingGlyphs(run,
-        ShapeTextRunWithFont(run, current_font));
-    if (missing_count == 0)
-      return;
-    if (missing_count < best_partial_font_missing_char_count) {
-      best_partial_font_missing_char_count = missing_count;
-      best_partial_font = current_font;
-    }
-  }
-
-  // Try finding a fallback font using a meta file.
-  // TODO(msw|asvitkine): Support RenderText's font_list()?
-  Font uniscribe_font;
-  bool got_uniscribe_font = false;
-  if (GetUniscribeFallbackFont(original_font, run_text, run_length,
-                               &uniscribe_font)) {
-    got_uniscribe_font = true;
-    current_font = uniscribe_font;
-    missing_count = CountCharsWithMissingGlyphs(run,
-        ShapeTextRunWithFont(run, current_font));
-    if (missing_count == 0) {
-      successful_substitute_fonts_[original_font.GetFontName()] = current_font;
-      return;
-    }
-    if (missing_count < best_partial_font_missing_char_count) {
-      best_partial_font_missing_char_count = missing_count;
-      best_partial_font = current_font;
-    }
-  }
-
-  // Try fonts in the fallback list except the first, which is |original_font|.
-  std::vector<std::string> fonts =
-      GetFallbackFontFamilies(original_font.GetFontName());
-  for (size_t i = 1; i < fonts.size(); ++i) {
-    current_font = Font(fonts[i], original_font.GetFontSize());
-    missing_count = CountCharsWithMissingGlyphs(run,
-        ShapeTextRunWithFont(run, current_font));
-    if (missing_count == 0) {
-      successful_substitute_fonts_[original_font.GetFontName()] = current_font;
-      return;
-    }
-    if (missing_count < best_partial_font_missing_char_count) {
-      best_partial_font_missing_char_count = missing_count;
-      best_partial_font = current_font;
-    }
-  }
-
-  // Try fonts in the fallback list of the Uniscribe font.
-  if (got_uniscribe_font) {
-    fonts = GetFallbackFontFamilies(uniscribe_font.GetFontName());
-    for (size_t i = 1; i < fonts.size(); ++i) {
-      current_font = Font(fonts[i], original_font.GetFontSize());
-      missing_count = CountCharsWithMissingGlyphs(run,
-          ShapeTextRunWithFont(run, current_font));
-      if (missing_count == 0) {
-        successful_substitute_fonts_[original_font.GetFontName()] =
-            current_font;
-        return;
-      }
-      if (missing_count < best_partial_font_missing_char_count) {
-        best_partial_font_missing_char_count = missing_count;
-        best_partial_font = current_font;
-      }
-    }
-  }
-
-  // If a font was able to partially display the run, use that now.
-  if (best_partial_font_missing_char_count < static_cast<int>(run_length)) {
-    // Re-shape the run only if |best_partial_font| differs from the last font.
-    if (best_partial_font.GetNativeFont() != run->font.GetNativeFont())
-      ShapeTextRunWithFont(run, best_partial_font);
-    return;
-  }
-
-  // If no font was able to partially display the run, replace all glyphs
-  // with |wgDefault| from the original font to ensure to they don't hold
-  // garbage values.
-  // First, clear the cache and select the original font on the HDC.
-  ScriptFreeCache(&run->script_cache);
-  run->font = original_font;
-  SelectObject(cached_hdc_, run->font.GetNativeFont());
-
-  // Now, get the font's properties.
-  SCRIPT_FONTPROPERTIES properties;
-  memset(&properties, 0, sizeof(properties));
-  properties.cBytes = sizeof(properties);
-  HRESULT hr = ScriptGetFontProperties(cached_hdc_, &run->script_cache,
-                                       &properties);
-
-  // The initial values for the "missing" glyph and the space glyph are taken
-  // from the recommendations section of the OpenType spec:
-  // https://www.microsoft.com/typography/otspec/recom.htm
-  WORD missing_glyph = 0;
-  WORD space_glyph = 3;
-  if (hr == S_OK) {
-    missing_glyph = properties.wgDefault;
-    space_glyph = properties.wgBlank;
-  }
-
-  // Finally, initialize |glyph_count|, |glyphs|, |visible_attributes| and
-  // |logical_clusters| on the run (since they may not have been set yet).
-  run->glyph_count = run_length;
-  memset(run->visible_attributes.get(), 0,
-         run->glyph_count * sizeof(SCRIPT_VISATTR));
-  for (int i = 0; i < run->glyph_count; ++i)
-    run->glyphs[i] = IsWhitespace(run_text[i]) ? space_glyph : missing_glyph;
-  for (size_t i = 0; i < run_length; ++i) {
-    run->logical_clusters[i] =
-        static_cast<WORD>(run->script_analysis.fRTL ? run_length - 1 - i : i);
-  }
-
-  // TODO(msw): Don't use SCRIPT_UNDEFINED. Apparently Uniscribe can
-  //            crash on certain surrogate pairs with SCRIPT_UNDEFINED.
-  //            See https://bugzilla.mozilla.org/show_bug.cgi?id=341500
-  //            And http://maxradi.us/documents/uniscribe/
-  run->script_analysis.eScript = SCRIPT_UNDEFINED;
-}
-
-HRESULT RenderTextWin::ShapeTextRunWithFont(internal::TextRun* run,
-                                            const Font& font) {
-  // Update the run's font only if necessary. If the two fonts wrap the same
-  // PlatformFontWin object, their native fonts will have the same value.
-  if (run->font.GetNativeFont() != font.GetNativeFont()) {
-    const int font_size = run->font.GetFontSize();
-    const int font_height = run->font.GetHeight();
-    run->font = font;
-    DeriveFontIfNecessary(font_size, font_height, run->font_style, &run->font);
-    ScriptFreeCache(&run->script_cache);
-  }
-
-  // Select the font desired for glyph generation.
-  SelectObject(cached_hdc_, run->font.GetNativeFont());
-
-  HRESULT hr = E_OUTOFMEMORY;
-  const size_t run_length = run->range.length();
-  const wchar_t* run_text = &(GetLayoutText()[run->range.start()]);
-  // Guess the expected number of glyphs from the length of the run.
-  // MSDN suggests this at http://msdn.microsoft.com/en-us/library/dd368564.aspx
-  size_t max_glyphs = static_cast<size_t>(1.5 * run_length + 16);
-  while (hr == E_OUTOFMEMORY && max_glyphs <= kMaxGlyphs) {
-    run->glyph_count = 0;
-    run->glyphs.reset(new WORD[max_glyphs]);
-    run->visible_attributes.reset(new SCRIPT_VISATTR[max_glyphs]);
-    hr = ScriptShape(cached_hdc_, &run->script_cache, run_text, run_length,
-                     max_glyphs, &run->script_analysis, run->glyphs.get(),
-                     run->logical_clusters.get(), run->visible_attributes.get(),
-                     &run->glyph_count);
-    // Ensure that |kMaxGlyphs| is attempted and the loop terminates afterward.
-    max_glyphs = std::max(max_glyphs + 1, std::min(max_glyphs * 2, kMaxGlyphs));
-  }
-  return hr;
-}
-
-int RenderTextWin::CountCharsWithMissingGlyphs(internal::TextRun* run,
-                                               HRESULT shaping_result) const {
-  if (shaping_result != S_OK) {
-    DCHECK_EQ(shaping_result, USP_E_SCRIPT_NOT_IN_FONT);
-    return INT_MAX;
-  }
-
-  // If |hr| is S_OK, there could still be missing glyphs in the output.
-  // http://msdn.microsoft.com/en-us/library/windows/desktop/dd368564.aspx
-  int chars_not_missing_glyphs = 0;
-  SCRIPT_FONTPROPERTIES properties;
-  memset(&properties, 0, sizeof(properties));
-  properties.cBytes = sizeof(properties);
-  ScriptGetFontProperties(cached_hdc_, &run->script_cache, &properties);
-
-  const wchar_t* run_text = &(GetLayoutText()[run->range.start()]);
-  for (size_t char_index = 0; char_index < run->range.length(); ++char_index) {
-    const int glyph_index = run->logical_clusters[char_index];
-    DCHECK_GE(glyph_index, 0);
-    DCHECK_LT(glyph_index, run->glyph_count);
-
-    if (run->glyphs[glyph_index] == properties.wgDefault)
-      continue;
-
-    // Windows Vista sometimes returns glyphs equal to wgBlank (instead of
-    // wgDefault), with fZeroWidth set. Treat such cases as having missing
-    // glyphs if the corresponding character is not whitespace.
-    // See: http://crbug.com/125629
-    if (run->glyphs[glyph_index] == properties.wgBlank &&
-        run->visible_attributes[glyph_index].fZeroWidth &&
-        !IsWhitespace(run_text[char_index]) &&
-        !IsUnicodeBidiControlCharacter(run_text[char_index])) {
-      continue;
-    }
-
-    ++chars_not_missing_glyphs;
-  }
-
-  DCHECK_LE(chars_not_missing_glyphs, static_cast<int>(run->range.length()));
-  return run->range.length() - chars_not_missing_glyphs;
-}
-
-size_t RenderTextWin::GetRunContainingCaret(const SelectionModel& caret) const {
-  DCHECK(!needs_layout_);
-  size_t layout_position = TextIndexToLayoutIndex(caret.caret_pos());
-  LogicalCursorDirection affinity = caret.caret_affinity();
-  for (size_t run = 0; run < runs_.size(); ++run)
-    if (RangeContainsCaret(runs_[run]->range, layout_position, affinity))
-      return run;
-  return runs_.size();
-}
-
-size_t RenderTextWin::GetRunContainingXCoord(int x) const {
-  DCHECK(!needs_layout_);
-  // Find the text run containing the argument point (assumed already offset).
-  for (size_t run = 0; run < runs_.size(); ++run) {
-    if ((runs_[run]->preceding_run_widths <= x) &&
-        ((runs_[run]->preceding_run_widths + runs_[run]->width) > x))
-      return run;
-  }
-  return runs_.size();
-}
-
-SelectionModel RenderTextWin::FirstSelectionModelInsideRun(
-    const internal::TextRun* run) {
-  size_t position = LayoutIndexToTextIndex(run->range.start());
-  position = IndexOfAdjacentGrapheme(position, CURSOR_FORWARD);
-  return SelectionModel(position, CURSOR_BACKWARD);
-}
-
-SelectionModel RenderTextWin::LastSelectionModelInsideRun(
-    const internal::TextRun* run) {
-  size_t position = LayoutIndexToTextIndex(run->range.end());
-  position = IndexOfAdjacentGrapheme(position, CURSOR_BACKWARD);
-  return SelectionModel(position, CURSOR_FORWARD);
-}
-
-RenderText* RenderText::CreateNativeInstance() {
-  return new RenderTextWin;
-}
-
-}  // namespace gfx