Revert of Reland debugging for ipc related crash. (patchset #1 id:1 of https://codere...
[chromium-blink-merge.git] / ui / gfx / render_text.cc
blobc9c2a177a12cad001aeb9ad65b8fef4adb230f2e
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "ui/gfx/render_text.h"
7 #include <algorithm>
8 #include <climits>
10 #include "base/command_line.h"
11 #include "base/i18n/break_iterator.h"
12 #include "base/logging.h"
13 #include "base/stl_util.h"
14 #include "base/strings/string_util.h"
15 #include "base/strings/utf_string_conversions.h"
16 #include "base/trace_event/trace_event.h"
17 #include "third_party/icu/source/common/unicode/rbbi.h"
18 #include "third_party/icu/source/common/unicode/utf16.h"
19 #include "third_party/skia/include/core/SkDrawLooper.h"
20 #include "third_party/skia/include/core/SkTypeface.h"
21 #include "third_party/skia/include/effects/SkGradientShader.h"
22 #include "ui/gfx/canvas.h"
23 #include "ui/gfx/geometry/insets.h"
24 #include "ui/gfx/geometry/safe_integer_conversions.h"
25 #include "ui/gfx/render_text_harfbuzz.h"
26 #include "ui/gfx/scoped_canvas.h"
27 #include "ui/gfx/skia_util.h"
28 #include "ui/gfx/switches.h"
29 #include "ui/gfx/text_elider.h"
30 #include "ui/gfx/text_utils.h"
31 #include "ui/gfx/utf16_indexing.h"
33 #if defined(OS_MACOSX)
34 #include "ui/gfx/render_text_mac.h"
35 #endif // defined(OS_MACOSX)
37 namespace gfx {
39 namespace {
41 // All chars are replaced by this char when the password style is set.
42 // TODO(benrg): GTK uses the first of U+25CF, U+2022, U+2731, U+273A, '*'
43 // that's available in the font (find_invisible_char() in gtkentry.c).
44 const base::char16 kPasswordReplacementChar = '*';
46 // Default color used for the text and cursor.
47 const SkColor kDefaultColor = SK_ColorBLACK;
49 // Default color used for drawing selection background.
50 const SkColor kDefaultSelectionBackgroundColor = SK_ColorGRAY;
52 // Fraction of the text size to lower a strike through below the baseline.
53 const SkScalar kStrikeThroughOffset = (-SK_Scalar1 * 6 / 21);
54 // Fraction of the text size to lower an underline below the baseline.
55 const SkScalar kUnderlineOffset = (SK_Scalar1 / 9);
56 // Fraction of the text size to use for a strike through or under-line.
57 const SkScalar kLineThickness = (SK_Scalar1 / 18);
58 // Fraction of the text size to use for a top margin of a diagonal strike.
59 const SkScalar kDiagonalStrikeMarginOffset = (SK_Scalar1 / 4);
61 // Invalid value of baseline. Assigning this value to |baseline_| causes
62 // re-calculation of baseline.
63 const int kInvalidBaseline = INT_MAX;
65 // Returns the baseline, with which the text best appears vertically centered.
66 int DetermineBaselineCenteringText(const Rect& display_rect,
67 const FontList& font_list) {
68 const int display_height = display_rect.height();
69 const int font_height = font_list.GetHeight();
70 // Lower and upper bound of baseline shift as we try to show as much area of
71 // text as possible. In particular case of |display_height| == |font_height|,
72 // we do not want to shift the baseline.
73 const int min_shift = std::min(0, display_height - font_height);
74 const int max_shift = std::abs(display_height - font_height);
75 const int baseline = font_list.GetBaseline();
76 const int cap_height = font_list.GetCapHeight();
77 const int internal_leading = baseline - cap_height;
78 // Some platforms don't support getting the cap height, and simply return
79 // the entire font ascent from GetCapHeight(). Centering the ascent makes
80 // the font look too low, so if GetCapHeight() returns the ascent, center
81 // the entire font height instead.
82 const int space =
83 display_height - ((internal_leading != 0) ? cap_height : font_height);
84 const int baseline_shift = space / 2 - internal_leading;
85 return baseline + std::max(min_shift, std::min(max_shift, baseline_shift));
88 // Converts |Font::FontStyle| flags to |SkTypeface::Style| flags.
89 SkTypeface::Style ConvertFontStyleToSkiaTypefaceStyle(int font_style) {
90 int skia_style = SkTypeface::kNormal;
91 skia_style |= (font_style & Font::BOLD) ? SkTypeface::kBold : 0;
92 skia_style |= (font_style & Font::ITALIC) ? SkTypeface::kItalic : 0;
93 return static_cast<SkTypeface::Style>(skia_style);
96 // Given |font| and |display_width|, returns the width of the fade gradient.
97 int CalculateFadeGradientWidth(const FontList& font_list, int display_width) {
98 // Fade in/out about 2.5 characters of the beginning/end of the string.
99 // The .5 here is helpful if one of the characters is a space.
100 // Use a quarter of the display width if the display width is very short.
101 const int average_character_width = font_list.GetExpectedTextWidth(1);
102 const double gradient_width = std::min(average_character_width * 2.5,
103 display_width / 4.0);
104 DCHECK_GE(gradient_width, 0.0);
105 return static_cast<int>(floor(gradient_width + 0.5));
108 // Appends to |positions| and |colors| values corresponding to the fade over
109 // |fade_rect| from color |c0| to color |c1|.
110 void AddFadeEffect(const Rect& text_rect,
111 const Rect& fade_rect,
112 SkColor c0,
113 SkColor c1,
114 std::vector<SkScalar>* positions,
115 std::vector<SkColor>* colors) {
116 const SkScalar left = static_cast<SkScalar>(fade_rect.x() - text_rect.x());
117 const SkScalar width = static_cast<SkScalar>(fade_rect.width());
118 const SkScalar p0 = left / text_rect.width();
119 const SkScalar p1 = (left + width) / text_rect.width();
120 // Prepend 0.0 to |positions|, as required by Skia.
121 if (positions->empty() && p0 != 0.0) {
122 positions->push_back(0.0);
123 colors->push_back(c0);
125 positions->push_back(p0);
126 colors->push_back(c0);
127 positions->push_back(p1);
128 colors->push_back(c1);
131 // Creates a SkShader to fade the text, with |left_part| specifying the left
132 // fade effect, if any, and |right_part| specifying the right fade effect.
133 skia::RefPtr<SkShader> CreateFadeShader(const Rect& text_rect,
134 const Rect& left_part,
135 const Rect& right_part,
136 SkColor color) {
137 // Fade alpha of 51/255 corresponds to a fade of 0.2 of the original color.
138 const SkColor fade_color = SkColorSetA(color, 51);
139 std::vector<SkScalar> positions;
140 std::vector<SkColor> colors;
142 if (!left_part.IsEmpty())
143 AddFadeEffect(text_rect, left_part, fade_color, color,
144 &positions, &colors);
145 if (!right_part.IsEmpty())
146 AddFadeEffect(text_rect, right_part, color, fade_color,
147 &positions, &colors);
148 DCHECK(!positions.empty());
150 // Terminate |positions| with 1.0, as required by Skia.
151 if (positions.back() != 1.0) {
152 positions.push_back(1.0);
153 colors.push_back(colors.back());
156 SkPoint points[2];
157 points[0].iset(text_rect.x(), text_rect.y());
158 points[1].iset(text_rect.right(), text_rect.y());
160 return skia::AdoptRef(
161 SkGradientShader::CreateLinear(&points[0], &colors[0], &positions[0],
162 colors.size(), SkShader::kClamp_TileMode));
165 // Converts a FontRenderParams::Hinting value to the corresponding
166 // SkPaint::Hinting value.
167 SkPaint::Hinting FontRenderParamsHintingToSkPaintHinting(
168 FontRenderParams::Hinting params_hinting) {
169 switch (params_hinting) {
170 case FontRenderParams::HINTING_NONE: return SkPaint::kNo_Hinting;
171 case FontRenderParams::HINTING_SLIGHT: return SkPaint::kSlight_Hinting;
172 case FontRenderParams::HINTING_MEDIUM: return SkPaint::kNormal_Hinting;
173 case FontRenderParams::HINTING_FULL: return SkPaint::kFull_Hinting;
175 return SkPaint::kNo_Hinting;
178 // Make sure ranges don't break text graphemes. If a range in |break_list|
179 // does break a grapheme in |render_text|, the range will be slightly
180 // extended to encompass the grapheme.
181 template <typename T>
182 void RestoreBreakList(RenderText* render_text, BreakList<T>* break_list) {
183 break_list->SetMax(render_text->text().length());
184 Range range;
185 while (range.end() < break_list->max()) {
186 const auto& current_break = break_list->GetBreak(range.end());
187 range = break_list->GetRange(current_break);
188 if (range.end() < break_list->max() &&
189 !render_text->IsValidCursorIndex(range.end())) {
190 range.set_end(
191 render_text->IndexOfAdjacentGrapheme(range.end(), CURSOR_FORWARD));
192 break_list->ApplyValue(current_break->second, range);
197 } // namespace
199 namespace internal {
201 // Value of |underline_thickness_| that indicates that underline metrics have
202 // not been set explicitly.
203 const SkScalar kUnderlineMetricsNotSet = -1.0f;
205 SkiaTextRenderer::SkiaTextRenderer(Canvas* canvas)
206 : canvas_(canvas),
207 canvas_skia_(canvas->sk_canvas()),
208 underline_thickness_(kUnderlineMetricsNotSet),
209 underline_position_(0.0f) {
210 DCHECK(canvas_skia_);
211 paint_.setTextEncoding(SkPaint::kGlyphID_TextEncoding);
212 paint_.setStyle(SkPaint::kFill_Style);
213 paint_.setAntiAlias(true);
214 paint_.setSubpixelText(true);
215 paint_.setLCDRenderText(true);
216 paint_.setHinting(SkPaint::kNormal_Hinting);
219 SkiaTextRenderer::~SkiaTextRenderer() {
222 void SkiaTextRenderer::SetDrawLooper(SkDrawLooper* draw_looper) {
223 paint_.setLooper(draw_looper);
226 void SkiaTextRenderer::SetFontRenderParams(const FontRenderParams& params,
227 bool subpixel_rendering_suppressed) {
228 ApplyRenderParams(params, subpixel_rendering_suppressed, &paint_);
231 void SkiaTextRenderer::SetTypeface(SkTypeface* typeface) {
232 paint_.setTypeface(typeface);
235 void SkiaTextRenderer::SetTextSize(SkScalar size) {
236 paint_.setTextSize(size);
239 void SkiaTextRenderer::SetFontFamilyWithStyle(const std::string& family,
240 int style) {
241 DCHECK(!family.empty());
243 skia::RefPtr<SkTypeface> typeface = CreateSkiaTypeface(family.c_str(), style);
244 if (typeface) {
245 // |paint_| adds its own ref. So don't |release()| it from the ref ptr here.
246 SetTypeface(typeface.get());
248 // Enable fake bold text if bold style is needed but new typeface does not
249 // have it.
250 paint_.setFakeBoldText((style & Font::BOLD) && !typeface->isBold());
254 void SkiaTextRenderer::SetForegroundColor(SkColor foreground) {
255 paint_.setColor(foreground);
258 void SkiaTextRenderer::SetShader(SkShader* shader) {
259 paint_.setShader(shader);
262 void SkiaTextRenderer::SetUnderlineMetrics(SkScalar thickness,
263 SkScalar position) {
264 underline_thickness_ = thickness;
265 underline_position_ = position;
268 void SkiaTextRenderer::DrawPosText(const SkPoint* pos,
269 const uint16* glyphs,
270 size_t glyph_count) {
271 const size_t byte_length = glyph_count * sizeof(glyphs[0]);
272 canvas_skia_->drawPosText(&glyphs[0], byte_length, &pos[0], paint_);
275 void SkiaTextRenderer::DrawDecorations(int x, int y, int width, bool underline,
276 bool strike, bool diagonal_strike) {
277 if (underline)
278 DrawUnderline(x, y, width);
279 if (strike)
280 DrawStrike(x, y, width);
281 if (diagonal_strike) {
282 if (!diagonal_)
283 diagonal_.reset(new DiagonalStrike(canvas_, Point(x, y), paint_));
284 diagonal_->AddPiece(width, paint_.getColor());
285 } else if (diagonal_) {
286 EndDiagonalStrike();
290 void SkiaTextRenderer::EndDiagonalStrike() {
291 if (diagonal_) {
292 diagonal_->Draw();
293 diagonal_.reset();
297 void SkiaTextRenderer::DrawUnderline(int x, int y, int width) {
298 SkScalar x_scalar = SkIntToScalar(x);
299 SkRect r = SkRect::MakeLTRB(
300 x_scalar, y + underline_position_, x_scalar + width,
301 y + underline_position_ + underline_thickness_);
302 if (underline_thickness_ == kUnderlineMetricsNotSet) {
303 const SkScalar text_size = paint_.getTextSize();
304 r.fTop = SkScalarMulAdd(text_size, kUnderlineOffset, y);
305 r.fBottom = r.fTop + SkScalarMul(text_size, kLineThickness);
307 canvas_skia_->drawRect(r, paint_);
310 void SkiaTextRenderer::DrawStrike(int x, int y, int width) const {
311 const SkScalar text_size = paint_.getTextSize();
312 const SkScalar height = SkScalarMul(text_size, kLineThickness);
313 const SkScalar offset = SkScalarMulAdd(text_size, kStrikeThroughOffset, y);
314 SkScalar x_scalar = SkIntToScalar(x);
315 const SkRect r =
316 SkRect::MakeLTRB(x_scalar, offset, x_scalar + width, offset + height);
317 canvas_skia_->drawRect(r, paint_);
320 SkiaTextRenderer::DiagonalStrike::DiagonalStrike(Canvas* canvas,
321 Point start,
322 const SkPaint& paint)
323 : canvas_(canvas),
324 start_(start),
325 paint_(paint),
326 total_length_(0) {
329 SkiaTextRenderer::DiagonalStrike::~DiagonalStrike() {
332 void SkiaTextRenderer::DiagonalStrike::AddPiece(int length, SkColor color) {
333 pieces_.push_back(Piece(length, color));
334 total_length_ += length;
337 void SkiaTextRenderer::DiagonalStrike::Draw() {
338 const SkScalar text_size = paint_.getTextSize();
339 const SkScalar offset = SkScalarMul(text_size, kDiagonalStrikeMarginOffset);
340 const int thickness =
341 SkScalarCeilToInt(SkScalarMul(text_size, kLineThickness) * 2);
342 const int height = SkScalarCeilToInt(text_size - offset);
343 const Point end = start_ + Vector2d(total_length_, -height);
344 const int clip_height = height + 2 * thickness;
346 paint_.setAntiAlias(true);
347 paint_.setStrokeWidth(SkIntToScalar(thickness));
349 const bool clipped = pieces_.size() > 1;
350 SkCanvas* sk_canvas = canvas_->sk_canvas();
351 int x = start_.x();
353 for (size_t i = 0; i < pieces_.size(); ++i) {
354 paint_.setColor(pieces_[i].second);
356 if (clipped) {
357 canvas_->Save();
358 sk_canvas->clipRect(RectToSkRect(
359 Rect(x, end.y() - thickness, pieces_[i].first, clip_height)));
362 canvas_->DrawLine(start_, end, paint_);
364 if (clipped)
365 canvas_->Restore();
367 x += pieces_[i].first;
371 StyleIterator::StyleIterator(const BreakList<SkColor>& colors,
372 const BreakList<BaselineStyle>& baselines,
373 const std::vector<BreakList<bool>>& styles)
374 : colors_(colors), baselines_(baselines), styles_(styles) {
375 color_ = colors_.breaks().begin();
376 baseline_ = baselines_.breaks().begin();
377 for (size_t i = 0; i < styles_.size(); ++i)
378 style_.push_back(styles_[i].breaks().begin());
381 StyleIterator::~StyleIterator() {}
383 Range StyleIterator::GetRange() const {
384 Range range(colors_.GetRange(color_));
385 range = range.Intersect(baselines_.GetRange(baseline_));
386 for (size_t i = 0; i < NUM_TEXT_STYLES; ++i)
387 range = range.Intersect(styles_[i].GetRange(style_[i]));
388 return range;
391 void StyleIterator::UpdatePosition(size_t position) {
392 color_ = colors_.GetBreak(position);
393 baseline_ = baselines_.GetBreak(position);
394 for (size_t i = 0; i < NUM_TEXT_STYLES; ++i)
395 style_[i] = styles_[i].GetBreak(position);
398 LineSegment::LineSegment() : run(0) {}
400 LineSegment::~LineSegment() {}
402 Line::Line() : preceding_heights(0), baseline(0) {}
404 Line::~Line() {}
406 skia::RefPtr<SkTypeface> CreateSkiaTypeface(const std::string& family,
407 int style) {
408 SkTypeface::Style skia_style = ConvertFontStyleToSkiaTypefaceStyle(style);
409 return skia::AdoptRef(SkTypeface::CreateFromName(family.c_str(), skia_style));
412 void ApplyRenderParams(const FontRenderParams& params,
413 bool subpixel_rendering_suppressed,
414 SkPaint* paint) {
415 paint->setAntiAlias(params.antialiasing);
416 paint->setLCDRenderText(!subpixel_rendering_suppressed &&
417 params.subpixel_rendering != FontRenderParams::SUBPIXEL_RENDERING_NONE);
418 paint->setSubpixelText(params.subpixel_positioning);
419 paint->setAutohinted(params.autohinter);
420 paint->setHinting(FontRenderParamsHintingToSkPaintHinting(params.hinting));
423 } // namespace internal
425 RenderText::~RenderText() {
428 // static
429 RenderText* RenderText::CreateInstance() {
430 #if defined(OS_MACOSX)
431 static const bool use_native =
432 !base::CommandLine::ForCurrentProcess()->HasSwitch(
433 switches::kEnableHarfBuzzRenderText);
434 if (use_native)
435 return new RenderTextMac;
436 #endif // defined(OS_MACOSX)
437 return new RenderTextHarfBuzz;
440 // static
441 RenderText* RenderText::CreateInstanceForEditing() {
442 return new RenderTextHarfBuzz;
445 void RenderText::SetText(const base::string16& text) {
446 DCHECK(!composition_range_.IsValid());
447 if (text_ == text)
448 return;
449 text_ = text;
450 UpdateStyleLengths();
452 // Clear style ranges as they might break new text graphemes and apply
453 // the first style to the whole text instead.
454 colors_.SetValue(colors_.breaks().begin()->second);
455 baselines_.SetValue(baselines_.breaks().begin()->second);
456 for (size_t style = 0; style < NUM_TEXT_STYLES; ++style)
457 styles_[style].SetValue(styles_[style].breaks().begin()->second);
458 cached_bounds_and_offset_valid_ = false;
460 // Reset selection model. SetText should always followed by SetSelectionModel
461 // or SetCursorPosition in upper layer.
462 SetSelectionModel(SelectionModel());
464 // Invalidate the cached text direction if it depends on the text contents.
465 if (directionality_mode_ == DIRECTIONALITY_FROM_TEXT)
466 text_direction_ = base::i18n::UNKNOWN_DIRECTION;
468 obscured_reveal_index_ = -1;
469 OnTextAttributeChanged();
472 void RenderText::AppendText(const base::string16& text) {
473 text_ += text;
474 UpdateStyleLengths();
475 cached_bounds_and_offset_valid_ = false;
476 obscured_reveal_index_ = -1;
477 OnTextAttributeChanged();
480 void RenderText::SetHorizontalAlignment(HorizontalAlignment alignment) {
481 if (horizontal_alignment_ != alignment) {
482 horizontal_alignment_ = alignment;
483 display_offset_ = Vector2d();
484 cached_bounds_and_offset_valid_ = false;
488 void RenderText::SetFontList(const FontList& font_list) {
489 font_list_ = font_list;
490 const int font_style = font_list.GetFontStyle();
491 SetStyle(BOLD, (font_style & gfx::Font::BOLD) != 0);
492 SetStyle(ITALIC, (font_style & gfx::Font::ITALIC) != 0);
493 SetStyle(UNDERLINE, (font_style & gfx::Font::UNDERLINE) != 0);
494 baseline_ = kInvalidBaseline;
495 cached_bounds_and_offset_valid_ = false;
496 OnLayoutTextAttributeChanged(false);
499 void RenderText::SetCursorEnabled(bool cursor_enabled) {
500 cursor_enabled_ = cursor_enabled;
501 cached_bounds_and_offset_valid_ = false;
504 void RenderText::ToggleInsertMode() {
505 insert_mode_ = !insert_mode_;
506 cached_bounds_and_offset_valid_ = false;
509 void RenderText::SetObscured(bool obscured) {
510 if (obscured != obscured_) {
511 obscured_ = obscured;
512 obscured_reveal_index_ = -1;
513 cached_bounds_and_offset_valid_ = false;
514 OnTextAttributeChanged();
518 void RenderText::SetObscuredRevealIndex(int index) {
519 if (obscured_reveal_index_ == index)
520 return;
522 obscured_reveal_index_ = index;
523 cached_bounds_and_offset_valid_ = false;
524 OnTextAttributeChanged();
527 void RenderText::SetMultiline(bool multiline) {
528 if (multiline != multiline_) {
529 multiline_ = multiline;
530 cached_bounds_and_offset_valid_ = false;
531 lines_.clear();
532 OnTextAttributeChanged();
536 void RenderText::SetWordWrapBehavior(WordWrapBehavior behavior) {
537 if (word_wrap_behavior_ == behavior)
538 return;
539 word_wrap_behavior_ = behavior;
540 if (multiline_) {
541 cached_bounds_and_offset_valid_ = false;
542 lines_.clear();
543 OnTextAttributeChanged();
547 void RenderText::SetReplaceNewlineCharsWithSymbols(bool replace) {
548 if (replace_newline_chars_with_symbols_ == replace)
549 return;
550 replace_newline_chars_with_symbols_ = replace;
551 cached_bounds_and_offset_valid_ = false;
552 OnTextAttributeChanged();
555 void RenderText::SetMinLineHeight(int line_height) {
556 if (min_line_height_ == line_height)
557 return;
558 min_line_height_ = line_height;
559 cached_bounds_and_offset_valid_ = false;
560 lines_.clear();
561 OnDisplayTextAttributeChanged();
564 void RenderText::SetElideBehavior(ElideBehavior elide_behavior) {
565 // TODO(skanuj) : Add a test for triggering layout change.
566 if (elide_behavior_ != elide_behavior) {
567 elide_behavior_ = elide_behavior;
568 OnDisplayTextAttributeChanged();
572 void RenderText::SetDisplayRect(const Rect& r) {
573 if (r != display_rect_) {
574 display_rect_ = r;
575 baseline_ = kInvalidBaseline;
576 cached_bounds_and_offset_valid_ = false;
577 lines_.clear();
578 if (elide_behavior_ != NO_ELIDE &&
579 elide_behavior_ != FADE_TAIL) {
580 OnDisplayTextAttributeChanged();
585 void RenderText::SetCursorPosition(size_t position) {
586 MoveCursorTo(position, false);
589 void RenderText::MoveCursor(BreakType break_type,
590 VisualCursorDirection direction,
591 bool select) {
592 SelectionModel cursor(cursor_position(), selection_model_.caret_affinity());
593 // Cancelling a selection moves to the edge of the selection.
594 if (break_type != LINE_BREAK && !selection().is_empty() && !select) {
595 SelectionModel selection_start = GetSelectionModelForSelectionStart();
596 int start_x = GetCursorBounds(selection_start, true).x();
597 int cursor_x = GetCursorBounds(cursor, true).x();
598 // Use the selection start if it is left (when |direction| is CURSOR_LEFT)
599 // or right (when |direction| is CURSOR_RIGHT) of the selection end.
600 if (direction == CURSOR_RIGHT ? start_x > cursor_x : start_x < cursor_x)
601 cursor = selection_start;
602 // Use the nearest word boundary in the proper |direction| for word breaks.
603 if (break_type == WORD_BREAK)
604 cursor = GetAdjacentSelectionModel(cursor, break_type, direction);
605 // Use an adjacent selection model if the cursor is not at a valid position.
606 if (!IsValidCursorIndex(cursor.caret_pos()))
607 cursor = GetAdjacentSelectionModel(cursor, CHARACTER_BREAK, direction);
608 } else {
609 cursor = GetAdjacentSelectionModel(cursor, break_type, direction);
611 if (select)
612 cursor.set_selection_start(selection().start());
613 MoveCursorTo(cursor);
616 bool RenderText::MoveCursorTo(const SelectionModel& model) {
617 // Enforce valid selection model components.
618 size_t text_length = text().length();
619 Range range(std::min(model.selection().start(), text_length),
620 std::min(model.caret_pos(), text_length));
621 // The current model only supports caret positions at valid cursor indices.
622 if (!IsValidCursorIndex(range.start()) || !IsValidCursorIndex(range.end()))
623 return false;
624 SelectionModel sel(range, model.caret_affinity());
625 bool changed = sel != selection_model_;
626 SetSelectionModel(sel);
627 return changed;
630 bool RenderText::SelectRange(const Range& range) {
631 Range sel(std::min(range.start(), text().length()),
632 std::min(range.end(), text().length()));
633 // Allow selection bounds at valid indicies amid multi-character graphemes.
634 if (!IsValidLogicalIndex(sel.start()) || !IsValidLogicalIndex(sel.end()))
635 return false;
636 LogicalCursorDirection affinity =
637 (sel.is_reversed() || sel.is_empty()) ? CURSOR_FORWARD : CURSOR_BACKWARD;
638 SetSelectionModel(SelectionModel(sel, affinity));
639 return true;
642 bool RenderText::IsPointInSelection(const Point& point) {
643 if (selection().is_empty())
644 return false;
645 SelectionModel cursor = FindCursorPosition(point);
646 return RangeContainsCaret(
647 selection(), cursor.caret_pos(), cursor.caret_affinity());
650 void RenderText::ClearSelection() {
651 SetSelectionModel(SelectionModel(cursor_position(),
652 selection_model_.caret_affinity()));
655 void RenderText::SelectAll(bool reversed) {
656 const size_t length = text().length();
657 const Range all = reversed ? Range(length, 0) : Range(0, length);
658 const bool success = SelectRange(all);
659 DCHECK(success);
662 void RenderText::SelectWord() {
663 if (obscured_) {
664 SelectAll(false);
665 return;
668 size_t selection_max = selection().GetMax();
670 base::i18n::BreakIterator iter(text(), base::i18n::BreakIterator::BREAK_WORD);
671 bool success = iter.Init();
672 DCHECK(success);
673 if (!success)
674 return;
676 size_t selection_min = selection().GetMin();
677 if (selection_min == text().length() && selection_min != 0)
678 --selection_min;
680 for (; selection_min != 0; --selection_min) {
681 if (iter.IsStartOfWord(selection_min) ||
682 iter.IsEndOfWord(selection_min))
683 break;
686 if (selection_min == selection_max && selection_max != text().length())
687 ++selection_max;
689 for (; selection_max < text().length(); ++selection_max)
690 if (iter.IsEndOfWord(selection_max) || iter.IsStartOfWord(selection_max))
691 break;
693 const bool reversed = selection().is_reversed();
694 MoveCursorTo(reversed ? selection_max : selection_min, false);
695 MoveCursorTo(reversed ? selection_min : selection_max, true);
698 void RenderText::SetCompositionRange(const Range& composition_range) {
699 CHECK(!composition_range.IsValid() ||
700 Range(0, text_.length()).Contains(composition_range));
701 composition_range_.set_end(composition_range.end());
702 composition_range_.set_start(composition_range.start());
703 // TODO(oshima|msw): Altering composition underlines shouldn't
704 // require layout changes. It's currently necessary because
705 // RenderTextHarfBuzz paints text decorations by run, and
706 // RenderTextMac applies all styles during layout.
707 OnLayoutTextAttributeChanged(false);
710 void RenderText::SetColor(SkColor value) {
711 colors_.SetValue(value);
714 void RenderText::ApplyColor(SkColor value, const Range& range) {
715 colors_.ApplyValue(value, range);
718 void RenderText::SetBaselineStyle(BaselineStyle value) {
719 baselines_.SetValue(value);
722 void RenderText::ApplyBaselineStyle(BaselineStyle value, const Range& range) {
723 baselines_.ApplyValue(value, range);
726 void RenderText::SetStyle(TextStyle style, bool value) {
727 styles_[style].SetValue(value);
729 cached_bounds_and_offset_valid_ = false;
730 // TODO(oshima|msw): Not all style change requires layout changes.
731 // Consider optimizing based on the type of change.
732 OnLayoutTextAttributeChanged(false);
735 void RenderText::ApplyStyle(TextStyle style, bool value, const Range& range) {
736 // Do not change styles mid-grapheme to avoid breaking ligatures.
737 const size_t start = IsValidCursorIndex(range.start()) ? range.start() :
738 IndexOfAdjacentGrapheme(range.start(), CURSOR_BACKWARD);
739 const size_t end = IsValidCursorIndex(range.end()) ? range.end() :
740 IndexOfAdjacentGrapheme(range.end(), CURSOR_FORWARD);
741 styles_[style].ApplyValue(value, Range(start, end));
743 cached_bounds_and_offset_valid_ = false;
744 // TODO(oshima|msw): Not all style change requires layout changes.
745 // Consider optimizing based on the type of change.
746 OnLayoutTextAttributeChanged(false);
749 bool RenderText::GetStyle(TextStyle style) const {
750 return (styles_[style].breaks().size() == 1) &&
751 styles_[style].breaks().front().second;
754 void RenderText::SetDirectionalityMode(DirectionalityMode mode) {
755 if (mode == directionality_mode_)
756 return;
758 directionality_mode_ = mode;
759 text_direction_ = base::i18n::UNKNOWN_DIRECTION;
760 cached_bounds_and_offset_valid_ = false;
761 OnLayoutTextAttributeChanged(false);
764 base::i18n::TextDirection RenderText::GetDisplayTextDirection() {
765 return GetTextDirection(GetDisplayText());
768 VisualCursorDirection RenderText::GetVisualDirectionOfLogicalEnd() {
769 return GetDisplayTextDirection() == base::i18n::LEFT_TO_RIGHT ?
770 CURSOR_RIGHT : CURSOR_LEFT;
773 SizeF RenderText::GetStringSizeF() {
774 return GetStringSize();
777 float RenderText::GetContentWidthF() {
778 const float string_size = GetStringSizeF().width();
779 // The cursor is drawn one pixel beyond the int-enclosed text bounds.
780 return cursor_enabled_ ? std::ceil(string_size) + 1 : string_size;
783 int RenderText::GetContentWidth() {
784 return ToCeiledInt(GetContentWidthF());
787 int RenderText::GetBaseline() {
788 if (baseline_ == kInvalidBaseline)
789 baseline_ = DetermineBaselineCenteringText(display_rect(), font_list());
790 DCHECK_NE(kInvalidBaseline, baseline_);
791 return baseline_;
794 void RenderText::Draw(Canvas* canvas) {
795 EnsureLayout();
797 if (clip_to_display_rect()) {
798 Rect clip_rect(display_rect());
799 clip_rect.Inset(ShadowValue::GetMargin(shadows_));
801 canvas->Save();
802 canvas->ClipRect(clip_rect);
805 if (!text().empty() && focused())
806 DrawSelection(canvas);
808 if (cursor_enabled() && cursor_visible() && focused())
809 DrawCursor(canvas, selection_model_);
811 if (!text().empty())
812 DrawVisualText(canvas);
814 if (clip_to_display_rect())
815 canvas->Restore();
818 void RenderText::DrawCursor(Canvas* canvas, const SelectionModel& position) {
819 // Paint cursor. Replace cursor is drawn as rectangle for now.
820 // TODO(msw): Draw a better cursor with a better indication of association.
821 canvas->FillRect(GetCursorBounds(position, true), cursor_color_);
824 bool RenderText::IsValidLogicalIndex(size_t index) const {
825 // Check that the index is at a valid code point (not mid-surrgate-pair) and
826 // that it's not truncated from the display text (its glyph may be shown).
828 // Indices within truncated text are disallowed so users can easily interact
829 // with the underlying truncated text using the ellipsis as a proxy. This lets
830 // users select all text, select the truncated text, and transition from the
831 // last rendered glyph to the end of the text without getting invisible cursor
832 // positions nor needing unbounded arrow key presses to traverse the ellipsis.
833 return index == 0 || index == text().length() ||
834 (index < text().length() &&
835 (truncate_length_ == 0 || index < truncate_length_) &&
836 IsValidCodePointIndex(text(), index));
839 Rect RenderText::GetCursorBounds(const SelectionModel& caret,
840 bool insert_mode) {
841 // TODO(ckocagil): Support multiline. This function should return the height
842 // of the line the cursor is on. |GetStringSize()| now returns
843 // the multiline size, eliminate its use here.
845 EnsureLayout();
846 size_t caret_pos = caret.caret_pos();
847 DCHECK(IsValidLogicalIndex(caret_pos));
848 // In overtype mode, ignore the affinity and always indicate that we will
849 // overtype the next character.
850 LogicalCursorDirection caret_affinity =
851 insert_mode ? caret.caret_affinity() : CURSOR_FORWARD;
852 int x = 0, width = 1;
853 Size size = GetStringSize();
854 if (caret_pos == (caret_affinity == CURSOR_BACKWARD ? 0 : text().length())) {
855 // The caret is attached to the boundary. Always return a 1-dip width caret,
856 // since there is nothing to overtype.
857 if ((GetDisplayTextDirection() == base::i18n::RIGHT_TO_LEFT)
858 == (caret_pos == 0)) {
859 x = size.width();
861 } else {
862 size_t grapheme_start = (caret_affinity == CURSOR_FORWARD) ?
863 caret_pos : IndexOfAdjacentGrapheme(caret_pos, CURSOR_BACKWARD);
864 Range xspan(GetGlyphBounds(grapheme_start));
865 if (insert_mode) {
866 x = (caret_affinity == CURSOR_BACKWARD) ? xspan.end() : xspan.start();
867 } else { // overtype mode
868 x = xspan.GetMin();
869 width = xspan.length();
872 return Rect(ToViewPoint(Point(x, 0)), Size(width, size.height()));
875 const Rect& RenderText::GetUpdatedCursorBounds() {
876 UpdateCachedBoundsAndOffset();
877 return cursor_bounds_;
880 size_t RenderText::IndexOfAdjacentGrapheme(size_t index,
881 LogicalCursorDirection direction) {
882 if (index > text().length())
883 return text().length();
885 EnsureLayout();
887 if (direction == CURSOR_FORWARD) {
888 while (index < text().length()) {
889 index++;
890 if (IsValidCursorIndex(index))
891 return index;
893 return text().length();
896 while (index > 0) {
897 index--;
898 if (IsValidCursorIndex(index))
899 return index;
901 return 0;
904 SelectionModel RenderText::GetSelectionModelForSelectionStart() const {
905 const Range& sel = selection();
906 if (sel.is_empty())
907 return selection_model_;
908 return SelectionModel(sel.start(),
909 sel.is_reversed() ? CURSOR_BACKWARD : CURSOR_FORWARD);
912 const Vector2d& RenderText::GetUpdatedDisplayOffset() {
913 UpdateCachedBoundsAndOffset();
914 return display_offset_;
917 void RenderText::SetDisplayOffset(int horizontal_offset) {
918 const int extra_content = GetContentWidth() - display_rect_.width();
919 const int cursor_width = cursor_enabled_ ? 1 : 0;
921 int min_offset = 0;
922 int max_offset = 0;
923 if (extra_content > 0) {
924 switch (GetCurrentHorizontalAlignment()) {
925 case ALIGN_LEFT:
926 min_offset = -extra_content;
927 break;
928 case ALIGN_RIGHT:
929 max_offset = extra_content;
930 break;
931 case ALIGN_CENTER:
932 // The extra space reserved for cursor at the end of the text is ignored
933 // when centering text. So, to calculate the valid range for offset, we
934 // exclude that extra space, calculate the range, and add it back to the
935 // range (if cursor is enabled).
936 min_offset = -(extra_content - cursor_width + 1) / 2 - cursor_width;
937 max_offset = (extra_content - cursor_width) / 2;
938 break;
939 default:
940 break;
943 if (horizontal_offset < min_offset)
944 horizontal_offset = min_offset;
945 else if (horizontal_offset > max_offset)
946 horizontal_offset = max_offset;
948 cached_bounds_and_offset_valid_ = true;
949 display_offset_.set_x(horizontal_offset);
950 cursor_bounds_ = GetCursorBounds(selection_model_, insert_mode_);
953 Vector2d RenderText::GetLineOffset(size_t line_number) {
954 Vector2d offset = display_rect().OffsetFromOrigin();
955 // TODO(ckocagil): Apply the display offset for multiline scrolling.
956 if (!multiline())
957 offset.Add(GetUpdatedDisplayOffset());
958 else
959 offset.Add(Vector2d(0, lines_[line_number].preceding_heights));
960 offset.Add(GetAlignmentOffset(line_number));
961 return offset;
964 RenderText::RenderText()
965 : horizontal_alignment_(base::i18n::IsRTL() ? ALIGN_RIGHT : ALIGN_LEFT),
966 directionality_mode_(DIRECTIONALITY_FROM_TEXT),
967 text_direction_(base::i18n::UNKNOWN_DIRECTION),
968 cursor_enabled_(true),
969 cursor_visible_(false),
970 insert_mode_(true),
971 cursor_color_(kDefaultColor),
972 selection_color_(kDefaultColor),
973 selection_background_focused_color_(kDefaultSelectionBackgroundColor),
974 focused_(false),
975 composition_range_(Range::InvalidRange()),
976 colors_(kDefaultColor),
977 baselines_(NORMAL_BASELINE),
978 styles_(NUM_TEXT_STYLES),
979 composition_and_selection_styles_applied_(false),
980 obscured_(false),
981 obscured_reveal_index_(-1),
982 truncate_length_(0),
983 elide_behavior_(NO_ELIDE),
984 text_elided_(false),
985 min_line_height_(0),
986 multiline_(false),
987 word_wrap_behavior_(IGNORE_LONG_WORDS),
988 replace_newline_chars_with_symbols_(true),
989 subpixel_rendering_suppressed_(false),
990 clip_to_display_rect_(true),
991 baseline_(kInvalidBaseline),
992 cached_bounds_and_offset_valid_(false) {
995 SelectionModel RenderText::GetAdjacentSelectionModel(
996 const SelectionModel& current,
997 BreakType break_type,
998 VisualCursorDirection direction) {
999 EnsureLayout();
1001 if (break_type == LINE_BREAK || text().empty())
1002 return EdgeSelectionModel(direction);
1003 if (break_type == CHARACTER_BREAK)
1004 return AdjacentCharSelectionModel(current, direction);
1005 DCHECK(break_type == WORD_BREAK);
1006 return AdjacentWordSelectionModel(current, direction);
1009 SelectionModel RenderText::EdgeSelectionModel(
1010 VisualCursorDirection direction) {
1011 if (direction == GetVisualDirectionOfLogicalEnd())
1012 return SelectionModel(text().length(), CURSOR_FORWARD);
1013 return SelectionModel(0, CURSOR_BACKWARD);
1016 void RenderText::SetSelectionModel(const SelectionModel& model) {
1017 DCHECK_LE(model.selection().GetMax(), text().length());
1018 selection_model_ = model;
1019 cached_bounds_and_offset_valid_ = false;
1022 void RenderText::UpdateDisplayText(float text_width) {
1023 // TODO(oshima): Consider support eliding for multi-line text.
1024 // This requires max_line support first.
1025 if (multiline_ ||
1026 elide_behavior() == NO_ELIDE ||
1027 elide_behavior() == FADE_TAIL ||
1028 text_width < display_rect_.width() ||
1029 layout_text_.empty()) {
1030 text_elided_ = false;
1031 display_text_.clear();
1032 return;
1035 // This doesn't trim styles so ellipsis may get rendered as a different
1036 // style than the preceding text. See crbug.com/327850.
1037 display_text_.assign(Elide(layout_text_,
1038 text_width,
1039 static_cast<float>(display_rect_.width()),
1040 elide_behavior_));
1042 text_elided_ = display_text_ != layout_text_;
1043 if (!text_elided_)
1044 display_text_.clear();
1047 const BreakList<size_t>& RenderText::GetLineBreaks() {
1048 if (line_breaks_.max() != 0)
1049 return line_breaks_;
1051 const base::string16& layout_text = GetDisplayText();
1052 const size_t text_length = layout_text.length();
1053 line_breaks_.SetValue(0);
1054 line_breaks_.SetMax(text_length);
1055 base::i18n::BreakIterator iter(layout_text,
1056 base::i18n::BreakIterator::BREAK_LINE);
1057 const bool success = iter.Init();
1058 DCHECK(success);
1059 if (success) {
1060 do {
1061 line_breaks_.ApplyValue(iter.pos(), Range(iter.pos(), text_length));
1062 } while (iter.Advance());
1064 return line_breaks_;
1067 void RenderText::ApplyCompositionAndSelectionStyles() {
1068 // Save the underline and color breaks to undo the temporary styles later.
1069 DCHECK(!composition_and_selection_styles_applied_);
1070 saved_colors_ = colors_;
1071 saved_underlines_ = styles_[UNDERLINE];
1073 // Apply an underline to the composition range in |underlines|.
1074 if (composition_range_.IsValid() && !composition_range_.is_empty())
1075 styles_[UNDERLINE].ApplyValue(true, composition_range_);
1077 // Apply the selected text color to the [un-reversed] selection range.
1078 if (!selection().is_empty() && focused()) {
1079 const Range range(selection().GetMin(), selection().GetMax());
1080 colors_.ApplyValue(selection_color_, range);
1082 composition_and_selection_styles_applied_ = true;
1085 void RenderText::UndoCompositionAndSelectionStyles() {
1086 // Restore the underline and color breaks to undo the temporary styles.
1087 DCHECK(composition_and_selection_styles_applied_);
1088 colors_ = saved_colors_;
1089 styles_[UNDERLINE] = saved_underlines_;
1090 composition_and_selection_styles_applied_ = false;
1093 Point RenderText::ToTextPoint(const Point& point) {
1094 return point - GetLineOffset(0);
1095 // TODO(ckocagil): Convert multiline view space points to text space.
1098 Point RenderText::ToViewPoint(const Point& point) {
1099 if (!multiline())
1100 return point + GetLineOffset(0);
1102 // TODO(ckocagil): Traverse individual line segments for RTL support.
1103 DCHECK(!lines_.empty());
1104 int x = point.x();
1105 size_t line = 0;
1106 for (; line < lines_.size() && x > lines_[line].size.width(); ++line)
1107 x -= lines_[line].size.width();
1108 return Point(x, point.y()) + GetLineOffset(line);
1111 std::vector<Rect> RenderText::TextBoundsToViewBounds(const Range& x) {
1112 std::vector<Rect> rects;
1114 if (!multiline()) {
1115 rects.push_back(Rect(ToViewPoint(Point(x.GetMin(), 0)),
1116 Size(x.length(), GetStringSize().height())));
1117 return rects;
1120 EnsureLayout();
1122 // Each line segment keeps its position in text coordinates. Traverse all line
1123 // segments and if the segment intersects with the given range, add the view
1124 // rect corresponding to the intersection to |rects|.
1125 for (size_t line = 0; line < lines_.size(); ++line) {
1126 int line_x = 0;
1127 const Vector2d offset = GetLineOffset(line);
1128 for (size_t i = 0; i < lines_[line].segments.size(); ++i) {
1129 const internal::LineSegment* segment = &lines_[line].segments[i];
1130 const Range intersection = segment->x_range.Intersect(x).Ceil();
1131 if (!intersection.is_empty()) {
1132 Rect rect(line_x + intersection.start() - segment->x_range.start(),
1133 0, intersection.length(), lines_[line].size.height());
1134 rects.push_back(rect + offset);
1136 line_x += segment->x_range.length();
1140 return rects;
1143 HorizontalAlignment RenderText::GetCurrentHorizontalAlignment() {
1144 if (horizontal_alignment_ != ALIGN_TO_HEAD)
1145 return horizontal_alignment_;
1146 return GetDisplayTextDirection() == base::i18n::RIGHT_TO_LEFT ?
1147 ALIGN_RIGHT : ALIGN_LEFT;
1150 Vector2d RenderText::GetAlignmentOffset(size_t line_number) {
1151 // TODO(ckocagil): Enable |lines_| usage on RenderTextMac.
1152 if (MultilineSupported() && multiline_)
1153 DCHECK_LT(line_number, lines_.size());
1154 Vector2d offset;
1155 HorizontalAlignment horizontal_alignment = GetCurrentHorizontalAlignment();
1156 if (horizontal_alignment != ALIGN_LEFT) {
1157 const int width = multiline_ ?
1158 std::ceil(lines_[line_number].size.width()) +
1159 (cursor_enabled_ ? 1 : 0) :
1160 GetContentWidth();
1161 offset.set_x(display_rect().width() - width);
1162 // Put any extra margin pixel on the left to match legacy behavior.
1163 if (horizontal_alignment == ALIGN_CENTER)
1164 offset.set_x((offset.x() + 1) / 2);
1167 // Vertically center the text.
1168 if (multiline_) {
1169 const int text_height = lines_.back().preceding_heights +
1170 lines_.back().size.height();
1171 offset.set_y((display_rect_.height() - text_height) / 2);
1172 } else {
1173 offset.set_y(GetBaseline() - GetDisplayTextBaseline());
1176 return offset;
1179 void RenderText::ApplyFadeEffects(internal::SkiaTextRenderer* renderer) {
1180 const int width = display_rect().width();
1181 if (multiline() || elide_behavior_ != FADE_TAIL || GetContentWidth() <= width)
1182 return;
1184 const int gradient_width = CalculateFadeGradientWidth(font_list(), width);
1185 if (gradient_width == 0)
1186 return;
1188 HorizontalAlignment horizontal_alignment = GetCurrentHorizontalAlignment();
1189 Rect solid_part = display_rect();
1190 Rect left_part;
1191 Rect right_part;
1192 if (horizontal_alignment != ALIGN_LEFT) {
1193 left_part = solid_part;
1194 left_part.Inset(0, 0, solid_part.width() - gradient_width, 0);
1195 solid_part.Inset(gradient_width, 0, 0, 0);
1197 if (horizontal_alignment != ALIGN_RIGHT) {
1198 right_part = solid_part;
1199 right_part.Inset(solid_part.width() - gradient_width, 0, 0, 0);
1200 solid_part.Inset(0, 0, gradient_width, 0);
1203 Rect text_rect = display_rect();
1204 text_rect.Inset(GetAlignmentOffset(0).x(), 0, 0, 0);
1206 // TODO(msw): Use the actual text colors corresponding to each faded part.
1207 skia::RefPtr<SkShader> shader = CreateFadeShader(
1208 text_rect, left_part, right_part, colors_.breaks().front().second);
1209 if (shader)
1210 renderer->SetShader(shader.get());
1213 void RenderText::ApplyTextShadows(internal::SkiaTextRenderer* renderer) {
1214 skia::RefPtr<SkDrawLooper> looper = CreateShadowDrawLooper(shadows_);
1215 renderer->SetDrawLooper(looper.get());
1218 base::i18n::TextDirection RenderText::GetTextDirection(
1219 const base::string16& text) {
1220 if (text_direction_ == base::i18n::UNKNOWN_DIRECTION) {
1221 switch (directionality_mode_) {
1222 case DIRECTIONALITY_FROM_TEXT:
1223 // Derive the direction from the display text, which differs from text()
1224 // in the case of obscured (password) textfields.
1225 text_direction_ =
1226 base::i18n::GetFirstStrongCharacterDirection(text);
1227 break;
1228 case DIRECTIONALITY_FROM_UI:
1229 text_direction_ = base::i18n::IsRTL() ? base::i18n::RIGHT_TO_LEFT :
1230 base::i18n::LEFT_TO_RIGHT;
1231 break;
1232 case DIRECTIONALITY_FORCE_LTR:
1233 text_direction_ = base::i18n::LEFT_TO_RIGHT;
1234 break;
1235 case DIRECTIONALITY_FORCE_RTL:
1236 text_direction_ = base::i18n::RIGHT_TO_LEFT;
1237 break;
1238 default:
1239 NOTREACHED();
1243 return text_direction_;
1246 size_t RenderText::TextIndexToGivenTextIndex(const base::string16& given_text,
1247 size_t index) const {
1248 DCHECK(given_text == layout_text() || given_text == display_text());
1249 DCHECK_LE(index, text().length());
1250 ptrdiff_t i = obscured() ? UTF16IndexToOffset(text(), 0, index) : index;
1251 CHECK_GE(i, 0);
1252 // Clamp indices to the length of the given layout or display text.
1253 return std::min<size_t>(given_text.length(), i);
1256 void RenderText::UpdateStyleLengths() {
1257 const size_t text_length = text_.length();
1258 colors_.SetMax(text_length);
1259 baselines_.SetMax(text_length);
1260 for (size_t style = 0; style < NUM_TEXT_STYLES; ++style)
1261 styles_[style].SetMax(text_length);
1264 // static
1265 bool RenderText::RangeContainsCaret(const Range& range,
1266 size_t caret_pos,
1267 LogicalCursorDirection caret_affinity) {
1268 // NB: exploits unsigned wraparound (WG14/N1124 section 6.2.5 paragraph 9).
1269 size_t adjacent = (caret_affinity == CURSOR_BACKWARD) ?
1270 caret_pos - 1 : caret_pos + 1;
1271 return range.Contains(Range(caret_pos, adjacent));
1274 void RenderText::MoveCursorTo(size_t position, bool select) {
1275 size_t cursor = std::min(position, text().length());
1276 if (IsValidCursorIndex(cursor))
1277 SetSelectionModel(SelectionModel(
1278 Range(select ? selection().start() : cursor, cursor),
1279 (cursor == 0) ? CURSOR_FORWARD : CURSOR_BACKWARD));
1282 void RenderText::OnTextAttributeChanged() {
1283 layout_text_.clear();
1284 display_text_.clear();
1285 text_elided_ = false;
1286 line_breaks_.SetMax(0);
1288 if (obscured_) {
1289 size_t obscured_text_length =
1290 static_cast<size_t>(UTF16IndexToOffset(text_, 0, text_.length()));
1291 layout_text_.assign(obscured_text_length, kPasswordReplacementChar);
1293 if (obscured_reveal_index_ >= 0 &&
1294 obscured_reveal_index_ < static_cast<int>(text_.length())) {
1295 // Gets the index range in |text_| to be revealed.
1296 size_t start = obscured_reveal_index_;
1297 U16_SET_CP_START(text_.data(), 0, start);
1298 size_t end = start;
1299 UChar32 unused_char;
1300 U16_NEXT(text_.data(), end, text_.length(), unused_char);
1302 // Gets the index in |layout_text_| to be replaced.
1303 const size_t cp_start =
1304 static_cast<size_t>(UTF16IndexToOffset(text_, 0, start));
1305 if (layout_text_.length() > cp_start)
1306 layout_text_.replace(cp_start, 1, text_.substr(start, end - start));
1308 } else {
1309 layout_text_ = text_;
1312 const base::string16& text = layout_text_;
1313 if (truncate_length_ > 0 && truncate_length_ < text.length()) {
1314 // Truncate the text at a valid character break and append an ellipsis.
1315 icu::StringCharacterIterator iter(text.c_str());
1316 // Respect ELIDE_HEAD and ELIDE_MIDDLE preferences during truncation.
1317 if (elide_behavior_ == ELIDE_HEAD) {
1318 iter.setIndex32(text.length() - truncate_length_ + 1);
1319 layout_text_.assign(kEllipsisUTF16 + text.substr(iter.getIndex()));
1320 } else if (elide_behavior_ == ELIDE_MIDDLE) {
1321 iter.setIndex32(truncate_length_ / 2);
1322 const size_t ellipsis_start = iter.getIndex();
1323 iter.setIndex32(text.length() - (truncate_length_ / 2));
1324 const size_t ellipsis_end = iter.getIndex();
1325 DCHECK_LE(ellipsis_start, ellipsis_end);
1326 layout_text_.assign(text.substr(0, ellipsis_start) + kEllipsisUTF16 +
1327 text.substr(ellipsis_end));
1328 } else {
1329 iter.setIndex32(truncate_length_ - 1);
1330 layout_text_.assign(text.substr(0, iter.getIndex()) + kEllipsisUTF16);
1333 static const base::char16 kNewline[] = { '\n', 0 };
1334 static const base::char16 kNewlineSymbol[] = { 0x2424, 0 };
1335 if (!multiline_ && replace_newline_chars_with_symbols_)
1336 base::ReplaceChars(layout_text_, kNewline, kNewlineSymbol, &layout_text_);
1338 OnLayoutTextAttributeChanged(true);
1341 base::string16 RenderText::Elide(const base::string16& text,
1342 float text_width,
1343 float available_width,
1344 ElideBehavior behavior) {
1345 if (available_width <= 0 || text.empty())
1346 return base::string16();
1347 if (behavior == ELIDE_EMAIL)
1348 return ElideEmail(text, available_width);
1349 if (text_width > 0 && text_width < available_width)
1350 return text;
1352 TRACE_EVENT0("ui", "RenderText::Elide");
1354 // Create a RenderText copy with attributes that affect the rendering width.
1355 scoped_ptr<RenderText> render_text = CreateInstanceOfSameType();
1356 render_text->SetFontList(font_list_);
1357 render_text->SetDirectionalityMode(directionality_mode_);
1358 render_text->SetCursorEnabled(cursor_enabled_);
1359 render_text->set_truncate_length(truncate_length_);
1360 render_text->styles_ = styles_;
1361 render_text->baselines_ = baselines_;
1362 render_text->colors_ = colors_;
1363 if (text_width == 0) {
1364 render_text->SetText(text);
1365 text_width = render_text->GetContentWidthF();
1367 if (text_width <= available_width)
1368 return text;
1370 const base::string16 ellipsis = base::string16(kEllipsisUTF16);
1371 const bool insert_ellipsis = (behavior != TRUNCATE);
1372 const bool elide_in_middle = (behavior == ELIDE_MIDDLE);
1373 const bool elide_at_beginning = (behavior == ELIDE_HEAD);
1375 if (insert_ellipsis) {
1376 render_text->SetText(ellipsis);
1377 const float ellipsis_width = render_text->GetContentWidthF();
1378 if (ellipsis_width > available_width)
1379 return base::string16();
1382 StringSlicer slicer(text, ellipsis, elide_in_middle, elide_at_beginning);
1384 // Use binary search to compute the elided text.
1385 size_t lo = 0;
1386 size_t hi = text.length() - 1;
1387 const base::i18n::TextDirection text_direction = GetTextDirection(text);
1388 for (size_t guess = (lo + hi) / 2; lo <= hi; guess = (lo + hi) / 2) {
1389 // Restore colors. They will be truncated to size by SetText.
1390 render_text->colors_ = colors_;
1391 base::string16 new_text =
1392 slicer.CutString(guess, insert_ellipsis && behavior != ELIDE_TAIL);
1393 render_text->SetText(new_text);
1395 // This has to be an additional step so that the ellipsis is rendered with
1396 // same style as trailing part of the text.
1397 if (insert_ellipsis && behavior == ELIDE_TAIL) {
1398 // When ellipsis follows text whose directionality is not the same as that
1399 // of the whole text, it will be rendered with the directionality of the
1400 // whole text. Since we want ellipsis to indicate continuation of the
1401 // preceding text, we force the directionality of ellipsis to be same as
1402 // the preceding text using LTR or RTL markers.
1403 base::i18n::TextDirection trailing_text_direction =
1404 base::i18n::GetLastStrongCharacterDirection(new_text);
1405 new_text.append(ellipsis);
1406 if (trailing_text_direction != text_direction) {
1407 if (trailing_text_direction == base::i18n::LEFT_TO_RIGHT)
1408 new_text += base::i18n::kLeftToRightMark;
1409 else
1410 new_text += base::i18n::kRightToLeftMark;
1412 render_text->SetText(new_text);
1415 // Restore styles and baselines without breaking multi-character graphemes.
1416 render_text->styles_ = styles_;
1417 for (size_t style = 0; style < NUM_TEXT_STYLES; ++style)
1418 RestoreBreakList(render_text.get(), &render_text->styles_[style]);
1419 RestoreBreakList(render_text.get(), &render_text->baselines_);
1421 // We check the width of the whole desired string at once to ensure we
1422 // handle kerning/ligatures/etc. correctly.
1423 const float guess_width = render_text->GetContentWidthF();
1424 if (guess_width == available_width)
1425 break;
1426 if (guess_width > available_width) {
1427 hi = guess - 1;
1428 // Move back on the loop terminating condition when the guess is too wide.
1429 if (hi < lo)
1430 lo = hi;
1431 } else {
1432 lo = guess + 1;
1436 return render_text->text();
1439 base::string16 RenderText::ElideEmail(const base::string16& email,
1440 float available_width) {
1441 // The returned string will have at least one character besides the ellipsis
1442 // on either side of '@'; if that's impossible, a single ellipsis is returned.
1443 // If possible, only the username is elided. Otherwise, the domain is elided
1444 // in the middle, splitting available width equally with the elided username.
1445 // If the username is short enough that it doesn't need half the available
1446 // width, the elided domain will occupy that extra width.
1448 // Split the email into its local-part (username) and domain-part. The email
1449 // spec allows for @ symbols in the username under some special requirements,
1450 // but not in the domain part, so splitting at the last @ symbol is safe.
1451 const size_t split_index = email.find_last_of('@');
1452 DCHECK_NE(split_index, base::string16::npos);
1453 base::string16 username = email.substr(0, split_index);
1454 base::string16 domain = email.substr(split_index + 1);
1455 DCHECK(!username.empty());
1456 DCHECK(!domain.empty());
1458 // Subtract the @ symbol from the available width as it is mandatory.
1459 const base::string16 kAtSignUTF16 = base::ASCIIToUTF16("@");
1460 available_width -= GetStringWidthF(kAtSignUTF16, font_list());
1462 // Check whether eliding the domain is necessary: if eliding the username
1463 // is sufficient, the domain will not be elided.
1464 const float full_username_width = GetStringWidthF(username, font_list());
1465 const float available_domain_width = available_width -
1466 std::min(full_username_width,
1467 GetStringWidthF(username.substr(0, 1) + kEllipsisUTF16, font_list()));
1468 if (GetStringWidthF(domain, font_list()) > available_domain_width) {
1469 // Elide the domain so that it only takes half of the available width.
1470 // Should the username not need all the width available in its half, the
1471 // domain will occupy the leftover width.
1472 // If |desired_domain_width| is greater than |available_domain_width|: the
1473 // minimal username elision allowed by the specifications will not fit; thus
1474 // |desired_domain_width| must be <= |available_domain_width| at all cost.
1475 const float desired_domain_width =
1476 std::min<float>(available_domain_width,
1477 std::max<float>(available_width - full_username_width,
1478 available_width / 2));
1479 domain = Elide(domain, 0, desired_domain_width, ELIDE_MIDDLE);
1480 // Failing to elide the domain such that at least one character remains
1481 // (other than the ellipsis itself) remains: return a single ellipsis.
1482 if (domain.length() <= 1U)
1483 return base::string16(kEllipsisUTF16);
1486 // Fit the username in the remaining width (at this point the elided username
1487 // is guaranteed to fit with at least one character remaining given all the
1488 // precautions taken earlier).
1489 available_width -= GetStringWidthF(domain, font_list());
1490 username = Elide(username, 0, available_width, ELIDE_TAIL);
1491 return username + kAtSignUTF16 + domain;
1494 void RenderText::UpdateCachedBoundsAndOffset() {
1495 if (cached_bounds_and_offset_valid_)
1496 return;
1498 // TODO(ckocagil): Add support for scrolling multiline text.
1500 int delta_x = 0;
1502 if (cursor_enabled()) {
1503 // When cursor is enabled, ensure it is visible. For this, set the valid
1504 // flag true and calculate the current cursor bounds using the stale
1505 // |display_offset_|. Then calculate the change in offset needed to move the
1506 // cursor into the visible area.
1507 cached_bounds_and_offset_valid_ = true;
1508 cursor_bounds_ = GetCursorBounds(selection_model_, insert_mode_);
1510 // TODO(bidi): Show RTL glyphs at the cursor position for ALIGN_LEFT, etc.
1511 if (cursor_bounds_.right() > display_rect_.right())
1512 delta_x = display_rect_.right() - cursor_bounds_.right();
1513 else if (cursor_bounds_.x() < display_rect_.x())
1514 delta_x = display_rect_.x() - cursor_bounds_.x();
1517 SetDisplayOffset(display_offset_.x() + delta_x);
1520 void RenderText::DrawSelection(Canvas* canvas) {
1521 for (const Rect& s : GetSubstringBounds(selection()))
1522 canvas->FillRect(s, selection_background_focused_color_);
1525 } // namespace gfx