// 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.h" #include #include #include #include #include #include #include "base/cxx17_backports.h" #include "base/format_macros.h" #include "base/i18n/break_iterator.h" #include "base/i18n/char_iterator.h" #include "base/logging.h" #include "base/run_loop.h" #include "base/strings/string_split.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/strings/utf_string_conversions.h" #include "base/test/task_environment.h" #include "build/build_config.h" #include "cc/paint/paint_record.h" #include "cc/paint/paint_recorder.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/skia/include/core/SkCanvas.h" #include "third_party/skia/include/core/SkColor.h" #include "third_party/skia/include/core/SkFontStyle.h" #include "third_party/skia/include/core/SkSurface.h" #include "third_party/skia/include/core/SkTextBlob.h" #include "third_party/skia/include/core/SkTypeface.h" #include "ui/gfx/break_list.h" #include "ui/gfx/canvas.h" #include "ui/gfx/color_palette.h" #include "ui/gfx/color_utils.h" #include "ui/gfx/decorated_text.h" #include "ui/gfx/font.h" #include "ui/gfx/font_names_testing.h" #include "ui/gfx/geometry/point.h" #include "ui/gfx/geometry/point_conversions.h" #include "ui/gfx/geometry/point_f.h" #include "ui/gfx/range/range.h" #include "ui/gfx/range/range_f.h" #include "ui/gfx/render_text_harfbuzz.h" #include "ui/gfx/render_text_test_api.h" #include "ui/gfx/switches.h" #include "ui/gfx/text_elider.h" #include "ui/gfx/text_utils.h" #if defined(OS_WIN) #include #include "base/win/windows_version.h" #endif #if defined(OS_APPLE) #include "base/mac/mac_util.h" #endif namespace gfx { namespace { // Various weak, LTR, RTL, and Bidi string cases with three characters each. const char16_t kWeak[] = u" . "; const char16_t kLtr[] = u"abc"; const char16_t kRtl[] = u"אבג"; const char16_t kLtrRtl[] = u"aאב"; const char16_t kLtrRtlLtr[] = u"aבb"; const char16_t kRtlLtr[] = u"אבa"; const char16_t kRtlLtrRtl[] = u"אaב"; constexpr bool kUseWordWrap = true; constexpr bool kUseObscuredText = true; // Bitmasks based on gfx::TextStyle. enum { ITALIC_MASK = 1 << TEXT_STYLE_ITALIC, STRIKE_MASK = 1 << TEXT_STYLE_STRIKE, UNDERLINE_MASK = 1 << TEXT_STYLE_UNDERLINE, }; using FontSpan = std::pair; bool IsFontsSmoothingEnabled() { #if defined(OS_WIN) BOOL antialiasing = TRUE; BOOL result = SystemParametersInfo(SPI_GETFONTSMOOTHING, 0, &antialiasing, 0); if (result == FALSE) { ADD_FAILURE() << "Failed to retrieve font aliasing configuration."; } return antialiasing; #else return true; #endif } // Checks whether |range| contains |index|. This is not the same as calling // range.Contains(Range(index)), which returns true if |index| == |range.end()|. bool IndexInRange(const Range& range, size_t index) { return index >= range.start() && index < range.end(); } std::u16string GetSelectedText(RenderText* render_text) { return render_text->text().substr(render_text->selection().GetMin(), render_text->selection().length()); } // A test utility function to set the application default text direction. void SetRTL(bool rtl) { // Override the current locale/direction. base::i18n::SetICUDefaultLocale(rtl ? "he" : "en"); EXPECT_EQ(rtl, base::i18n::IsRTL()); } // Execute MoveCursor on the given |render_text| instance for the given // arguments and verify the selected range matches |expected|. Also, clears the // expectations. void RunMoveCursorTestAndClearExpectations(RenderText* render_text, BreakType break_type, VisualCursorDirection direction, SelectionBehavior selection_behavior, std::vector* expected) { for (size_t i = 0; i < expected->size(); ++i) { SCOPED_TRACE(base::StringPrintf( "BreakType-%d VisualCursorDirection-%d SelectionBehavior-%d Case-%d.", break_type, direction, selection_behavior, static_cast(i))); render_text->MoveCursor(break_type, direction, selection_behavior); EXPECT_EQ(expected->at(i), render_text->selection()); } expected->clear(); } // Execute MoveCursor on the given |render_text| instance for the given // arguments and verify the line matches |expected|. Also, clears the // expectations. void RunMoveCursorTestAndClearExpectations(RenderText* render_text, BreakType break_type, VisualCursorDirection direction, SelectionBehavior selection_behavior, std::vector* expected) { int case_index = 0; for (auto expected_line : *expected) { SCOPED_TRACE(testing::Message() << "Text: " << render_text->text() << " BreakType: " << break_type << " VisualCursorDirection: " << direction << " SelectionBehavior: " << selection_behavior << " Case: " << case_index++); render_text->MoveCursor(break_type, direction, selection_behavior); EXPECT_EQ(expected_line, render_text->GetLineContainingCaret( render_text->selection_model())); } expected->clear(); } // Ensure cursor movement in the specified |direction| yields |expected| values. void RunMoveCursorLeftRightTest(RenderText* render_text, const std::vector& expected, VisualCursorDirection direction) { for (size_t i = 0; i < expected.size(); ++i) { SCOPED_TRACE(base::StringPrintf("Going %s; expected value index %d.", direction == CURSOR_LEFT ? "left" : "right", static_cast(i))); EXPECT_EQ(expected[i], render_text->selection_model()); render_text->MoveCursor(CHARACTER_BREAK, direction, SELECTION_NONE); } // Check that cursoring is clamped at the line edge. EXPECT_EQ(expected.back(), render_text->selection_model()); // Check that it is the line edge. render_text->MoveCursor(LINE_BREAK, direction, SELECTION_NONE); EXPECT_EQ(expected.back(), render_text->selection_model()); } // Creates a RangedAttribute instance for a single character range at the // given |index| with the given |weight| and |style_mask|. |index| is the // index of the character in the DecoratedText instance and |font_index| is // used to retrieve the font used from |font_spans|. DecoratedText::RangedAttribute CreateRangedAttribute( const std::vector& font_spans, int index, int font_index, Font::Weight weight, int style_mask) { const auto iter = std::find_if(font_spans.cbegin(), font_spans.cend(), [font_index](const FontSpan& span) { return IndexInRange(span.second, font_index); }); DCHECK(font_spans.end() != iter); const Font& font = iter->first; int font_style = Font::NORMAL; if (style_mask & ITALIC_MASK) font_style |= Font::ITALIC; if (style_mask & UNDERLINE_MASK) font_style |= Font::UNDERLINE; const Font font_with_style = font.Derive(0, font_style, weight); DecoratedText::RangedAttribute attributes(Range(index, index + 1), font_with_style); attributes.strike = style_mask & STRIKE_MASK; return attributes; } // Verifies the given DecoratedText instances are equal by comparing the // respective strings and attributes for each index. Note, corresponding // ranged attributes from |expected| and |actual| can't be compared since the // partition of |actual| into RangedAttributes will depend on the text runs // generated. void VerifyDecoratedWordsAreEqual(const DecoratedText& expected, const DecoratedText& actual) { ASSERT_EQ(expected.text, actual.text); // Compare attributes for each index. for (size_t i = 0; i < expected.text.length(); i++) { SCOPED_TRACE(base::StringPrintf("Comparing index[%" PRIuS "]", i)); auto find_attribute_func = [i](const DecoratedText::RangedAttribute& attr) { return IndexInRange(attr.range, i); }; const auto expected_attr = std::find_if(expected.attributes.begin(), expected.attributes.end(), find_attribute_func); const auto actual_attr = std::find_if(actual.attributes.begin(), actual.attributes.end(), find_attribute_func); ASSERT_NE(expected.attributes.end(), expected_attr); ASSERT_NE(actual.attributes.end(), actual_attr); EXPECT_EQ(expected_attr->strike, actual_attr->strike); EXPECT_EQ(expected_attr->font.GetFontName(), actual_attr->font.GetFontName()); EXPECT_EQ(expected_attr->font.GetFontSize(), actual_attr->font.GetFontSize()); EXPECT_EQ(expected_attr->font.GetWeight(), actual_attr->font.GetWeight()); EXPECT_EQ(expected_attr->font.GetStyle(), actual_attr->font.GetStyle()); } } // Helper method to return an obscured string of the given |length|, with the // |reveal_index| filled with |reveal_char|. std::u16string GetObscuredString(size_t length, size_t reveal_index, char16_t reveal_char) { std::vector arr(length, RenderText::kPasswordReplacementChar); arr[reveal_index] = reveal_char; return std::u16string(arr.begin(), arr.end()); } // Helper method to return an obscured string of the given |length|. std::u16string GetObscuredString(size_t length) { return std::u16string(length, RenderText::kPasswordReplacementChar); } // Returns the combined character range from all text runs on |line|. Range LineCharRange(const internal::Line& line) { if (line.segments.empty()) return Range(); Range ltr(line.segments.front().char_range.start(), line.segments.back().char_range.end()); if (ltr.end() > ltr.start()) return ltr; // For RTL, the order of segments is reversed, but the ranges are not. return Range(line.segments.back().char_range.start(), line.segments.front().char_range.end()); } struct GlyphCountAndColor { size_t glyph_count = 0; SkColor color = kPlaceholderColor; }; class TextLog { public: TextLog(PointF origin, std::vector glyphs, SkColor color) : origin_(origin), glyphs_(glyphs), color_(color) {} TextLog(const TextLog&) = default; PointF origin() const { return origin_; } SkColor color() const { return color_; } const std::vector& glyphs() const { return glyphs_; } private: const PointF origin_; const std::vector glyphs_; const SkColor color_ = SK_ColorTRANSPARENT; }; // The class which records the drawing operations so that the test case can // verify where exactly the glyphs are drawn. class TestSkiaTextRenderer : public internal::SkiaTextRenderer { public: explicit TestSkiaTextRenderer(Canvas* canvas) : internal::SkiaTextRenderer(canvas) {} ~TestSkiaTextRenderer() override {} void GetTextLogAndReset(std::vector* text_log) { text_log_.swap(*text_log); text_log_.clear(); } private: // internal::SkiaTextRenderer overrides: void DrawPosText(const SkPoint* pos, const uint16_t* glyphs, size_t glyph_count) override { if (glyph_count) { PointF origin = PointF(SkScalarToFloat(pos[0].x()), SkScalarToFloat(pos[0].y())); for (size_t i = 1U; i < glyph_count; ++i) { origin.SetToMin( PointF(SkScalarToFloat(pos[i].x()), SkScalarToFloat(pos[i].y()))); } std::vector run_glyphs(glyphs, glyphs + glyph_count); SkColor color = test::RenderTextTestApi::GetRendererPaint(this).getColor(); text_log_.push_back(TextLog(origin, std::move(run_glyphs), color)); } internal::SkiaTextRenderer::DrawPosText(pos, glyphs, glyph_count); } std::vector text_log_; DISALLOW_COPY_AND_ASSIGN(TestSkiaTextRenderer); }; class TestRenderTextCanvas : public SkCanvas { public: TestRenderTextCanvas(int width, int height) : SkCanvas(width, height) {} // SkCanvas overrides: void onDrawTextBlob(const SkTextBlob* blob, SkScalar x, SkScalar y, const SkPaint& paint) override { PointF origin = PointF(SkScalarToFloat(x), SkScalarToFloat(y)); std::vector glyphs; if (blob) { SkTextBlob::Iter::Run run; for (SkTextBlob::Iter it(*blob); it.next(&run);) { auto run_glyphs = base::span(run.fGlyphIndices, run.fGlyphCount); glyphs.insert(glyphs.end(), run_glyphs.begin(), run_glyphs.end()); } } text_log_.push_back(TextLog(origin, std::move(glyphs), paint.getColor())); SkCanvas::onDrawTextBlob(blob, x, y, paint); } void GetTextLogAndReset(std::vector* text_log) { text_log_.swap(*text_log); text_log_.clear(); } const std::vector& text_log() const { return text_log_; } private: std::vector text_log_; }; // Given a buffer to test against, this can be used to test various areas of the // rectangular buffer against a specific color value. class TestRectangleBuffer { public: TestRectangleBuffer(const char* string, const SkColor* buffer, uint32_t stride, uint32_t row_count) : string_(string), buffer_(buffer), stride_(stride), row_count_(row_count) {} // Test if any values in the rectangular area are anything other than |color|. void EnsureSolidRect(SkColor color, int left, int top, int width, int height) const { ASSERT_LT(top, row_count_) << string_; ASSERT_LE(top + height, row_count_) << string_; ASSERT_LT(left, stride_) << string_; ASSERT_LE(left + width, stride_) << string_ << ", left " << left << ", width " << width << ", stride_ " << stride_; for (int y = top; y < top + height; ++y) { for (int x = left; x < left + width; ++x) { SkColor buffer_color = buffer_[x + y * stride_]; EXPECT_EQ(color, buffer_color) << string_ << " at " << x << ", " << y; } } } // Test that the rect defined by |left|, |top|, |width| and |height| is filled // with the same color. void EnsureRectIsAllSameColor(int left, int top, int width, int height) const { SkColor buffer_color = buffer_[left + top * stride_]; EnsureSolidRect(buffer_color, left, top, width, height); } private: const char* string_; const SkColor* buffer_; int stride_; int row_count_; DISALLOW_COPY_AND_ASSIGN(TestRectangleBuffer); }; } // namespace // Test fixture class used to run parameterized tests for all RenderText // implementations. class RenderTextTest : public testing::Test { public: RenderTextTest() : task_environment_( base::test::SingleThreadTaskEnvironment::MainThreadType::UI), render_text_(std::make_unique()), test_api_(new test::RenderTextTestApi(render_text_.get())), renderer_(canvas()) {} protected: const cc::PaintFlags& GetRendererPaint() { return test::RenderTextTestApi::GetRendererPaint(renderer()); } const SkFont& GetRendererFont() { return test::RenderTextTestApi::GetRendererFont(renderer()); } void DrawVisualText(const std::vector selections = {}) { test_api()->EnsureLayout(); test_api()->DrawVisualText(renderer(), selections); renderer()->GetTextLogAndReset(&text_log_); } void Draw(bool select_all = false) { constexpr int kCanvasWidth = 1200; constexpr int kCanvasHeight = 400; cc::PaintRecorder recorder; Canvas canvas(recorder.beginRecording(kCanvasWidth, kCanvasHeight), 1.0f); test_api_->Draw(&canvas, select_all); sk_sp record = recorder.finishRecordingAsPicture(); TestRenderTextCanvas test_canvas(kCanvasWidth, kCanvasHeight); record->Playback(&test_canvas); test_canvas.GetTextLogAndReset(&text_log_); } internal::TextRunList* GetHarfBuzzRunList() { test_api()->EnsureLayout(); return test_api()->GetHarfBuzzRunList(); } // For testing purposes, returns which fonts were chosen for which parts of // the text by returning a vector of Font and Range pairs, where each range // specifies the character range for which the corresponding font has been // chosen. std::vector GetFontSpans() { test_api()->EnsureLayout(); const internal::TextRunList* run_list = GetHarfBuzzRunList(); std::vector spans; std::transform( run_list->runs().begin(), run_list->runs().end(), std::back_inserter(spans), [this](const auto& run) { return FontSpan( run->font_params.font, Range(test_api()->DisplayIndexToTextIndex(run->range.start()), test_api()->DisplayIndexToTextIndex(run->range.end()))); }); return spans; } // Converts the current run list into a human-readable string. Can be used in // test assertions for a readable expectation and failure message. // // The string shows the runs in visual order. Each run is enclosed in square // brackets, and shows the begin and end inclusive logical character position, // with an arrow indicating the direction of the run. Single-character runs // just show the character position. // // For example, the the logical bidirectional string "abc+\u05d0\u05d1\u05d2" // (visual string: "abc+אבג") yields "[0->2][3][6<-4]". std::string GetRunListStructureString() { test_api()->EnsureLayout(); const internal::TextRunList* run_list = GetHarfBuzzRunList(); std::string result; for (size_t i = 0; i < run_list->size(); ++i) { size_t logical_index = run_list->visual_to_logical(i); const internal::TextRunHarfBuzz& run = *run_list->runs()[logical_index]; if (run.range.length() == 1) { result.append(base::StringPrintf("[%d]", run.range.start())); } else if (run.font_params.is_rtl) { result.append(base::StringPrintf("[%d<-%d]", run.range.end() - 1, run.range.start())); } else { result.append(base::StringPrintf("[%d->%d]", run.range.start(), run.range.end() - 1)); } } return result; } // Returns a vector of text fragments corresponding to the current list of // text runs. std::vector GetRunListStrings() { std::vector runs_as_text; for (const auto& span : GetFontSpans()) { runs_as_text.push_back(render_text_->text().substr(span.second.GetMin(), span.second.length())); } return runs_as_text; } // Sets the text to |text|, then returns GetRunListStrings(). std::vector RunsFor(const std::u16string& text) { render_text_->SetText(text); test_api()->EnsureLayout(); return GetRunListStrings(); } void ResetRenderTextInstance() { render_text_ = std::make_unique(); test_api_ = std::make_unique(GetRenderText()); } void ResetCursorX() { test_api()->reset_cached_cursor_x(); } int GetLineContainingYCoord(float text_y) { return test_api()->GetLineContainingYCoord(text_y); } RenderTextHarfBuzz* GetRenderText() { return render_text_.get(); } Rect GetSubstringBoundsUnion(const Range& range) { const std::vector bounds = render_text_->GetSubstringBounds(range); return std::accumulate( bounds.begin(), bounds.end(), Rect(), [](const Rect& a, const Rect& b) { return UnionRects(a, b); }); } Rect GetSelectionBoundsUnion() { return GetSubstringBoundsUnion(render_text_->selection()); } // Checks left-to-right text, ensuring that the caret moves to the right as // the cursor position increments through the logical text. Also ensures that // each glyph is to the right of the prior glyph. RenderText automatically // updates invalid cursor positions (eg. between a surrogate pair) to a valid // neighbor, so the positions may be unchanged for some iterations. Invoking // this in a test gives coverage of the sanity checks in functions such as // TextRunHarfBuzz::GetGraphemeBounds() which rely on sensible glyph positions // being provided by installed typefaces. void CheckBoundsForCursorPositions() { ASSERT_FALSE(render_text_->text().empty()); // Use a wide display rect to avoid scrolling. render_text_->SetDisplayRect(gfx::Rect(0, 0, 1000, 50)); EXPECT_LT(render_text_->GetContentWidthF(), render_text_->display_rect().width()); // Assume LTR for now. int max_cursor_x = 0; int max_glyph_x = 0, max_glyph_right = 0; for (size_t i = 0; i <= render_text_->text().size(); ++i) { render_text_->SetCursorPosition(i); SCOPED_TRACE(testing::Message() << "Cursor position: " << i << " selection: " << render_text_->selection().ToString()); const gfx::Rect cursor_bounds = render_text_->GetUpdatedCursorBounds(); // The cursor should always be one pixel wide. EXPECT_EQ(1, cursor_bounds.width()); EXPECT_LE(max_cursor_x, cursor_bounds.x()); max_cursor_x = cursor_bounds.x(); const gfx::Rect glyph_bounds = render_text_->GetCursorBounds(render_text_->selection_model(), false); EXPECT_LE(max_glyph_x, glyph_bounds.x()); EXPECT_LE(max_glyph_right, glyph_bounds.right()); max_glyph_x = glyph_bounds.x(); max_glyph_right = glyph_bounds.right(); } } void SetGlyphWidth(float test_width) { test_api()->SetGlyphWidth(test_width); } void SetGlyphHeight(float test_height) { test_api()->SetGlyphHeight(test_height); } bool ShapeRunWithFont(const std::u16string& text, const Font& font, const FontRenderParams& render_params, internal::TextRunHarfBuzz* run) { internal::TextRunHarfBuzz::FontParams font_params = run->font_params; font_params.ComputeRenderParamsFontSizeAndBaselineOffset(); font_params.SetRenderParamsRematchFont(font, render_params); run->shape.missing_glyph_count = static_cast(-1); std::vector runs = {run}; GetRenderText()->ShapeRunsWithFont(text, font_params, &runs); return runs.empty(); } int GetCursorYForTesting(int line_num = 0) { return GetRenderText()->GetLineOffset(line_num).y() + 1; } size_t GetLineContainingCaret() { return GetRenderText()->GetLineContainingCaret( GetRenderText()->selection_model()); } Canvas* canvas() { return &canvas_; } TestSkiaTextRenderer* renderer() { return &renderer_; } test::RenderTextTestApi* test_api() { return test_api_.get(); } const test::RenderTextTestApi* test_api() const { return test_api_.get(); } const std::vector& text_log() const { return text_log_; } void ExpectTextLog(std::vector runs) { EXPECT_EQ(runs.size(), text_log_.size()); const size_t min_size = std::min(runs.size(), text_log_.size()); for (size_t i = 0; i < min_size; ++i) { SCOPED_TRACE(testing::Message() << "ExpectTextLog, run " << i << " of " << runs.size()); EXPECT_EQ(runs[i].color, text_log_[i].color()); EXPECT_EQ(runs[i].glyph_count, text_log_[i].glyphs().size()); } } private: // Needed to bypass DCHECK in GetFallbackFont. base::test::SingleThreadTaskEnvironment task_environment_; std::unique_ptr render_text_; std::unique_ptr test_api_; std::vector text_log_; Canvas canvas_; TestSkiaTextRenderer renderer_; DISALLOW_COPY_AND_ASSIGN(RenderTextTest); }; TEST_F(RenderTextTest, DefaultStyles) { // Check the default styles applied to new instances and adjusted text. RenderText* render_text = GetRenderText(); EXPECT_TRUE(render_text->text().empty()); const char16_t* const cases[] = {kWeak, kLtr, u"Hello", kRtl, u"", u""}; for (size_t i = 0; i < base::size(cases); ++i) { EXPECT_TRUE(test_api()->colors().EqualsValueForTesting(kPlaceholderColor)); EXPECT_TRUE(test_api()->baselines().EqualsValueForTesting(NORMAL_BASELINE)); EXPECT_TRUE(test_api()->font_size_overrides().EqualsValueForTesting(0)); for (size_t style = 0; style < static_cast(TEXT_STYLE_COUNT); ++style) EXPECT_TRUE(test_api()->styles()[style].EqualsValueForTesting(false)); render_text->SetText(cases[i]); } } TEST_F(RenderTextTest, SetStyles) { // Ensure custom default styles persist across setting and clearing text. RenderText* render_text = GetRenderText(); const SkColor color = SK_ColorGREEN; render_text->SetColor(color); render_text->SetBaselineStyle(SUPERSCRIPT); render_text->SetWeight(Font::Weight::BOLD); render_text->SetStyle(TEXT_STYLE_UNDERLINE, false); const char16_t* const cases[] = {kWeak, kLtr, u"Hello", kRtl, u"", u""}; for (size_t i = 0; i < base::size(cases); ++i) { EXPECT_TRUE(test_api()->colors().EqualsValueForTesting(color)); EXPECT_TRUE(test_api()->baselines().EqualsValueForTesting(SUPERSCRIPT)); EXPECT_TRUE( test_api()->weights().EqualsValueForTesting(Font::Weight::BOLD)); EXPECT_TRUE( test_api()->styles()[TEXT_STYLE_UNDERLINE].EqualsValueForTesting( false)); render_text->SetText(cases[i]); // Ensure custom default styles can be applied after text has been set. if (i == 1) render_text->SetStyle(TEXT_STYLE_STRIKE, true); if (i >= 1) EXPECT_TRUE( test_api()->styles()[TEXT_STYLE_STRIKE].EqualsValueForTesting(true)); } } TEST_F(RenderTextTest, ApplyStyles) { RenderText* render_text = GetRenderText(); render_text->SetText(u"012345678"); constexpr int kTestFontSizeOverride = 20; // Apply a ranged color and style and check the resulting breaks. render_text->ApplyColor(SK_ColorGREEN, Range(1, 4)); render_text->ApplyBaselineStyle(SUPERIOR, Range(2, 4)); render_text->ApplyWeight(Font::Weight::BOLD, Range(2, 5)); render_text->ApplyFontSizeOverride(kTestFontSizeOverride, Range(5, 7)); EXPECT_TRUE(test_api()->colors().EqualsForTesting( {{0, kPlaceholderColor}, {1, SK_ColorGREEN}, {4, kPlaceholderColor}})); EXPECT_TRUE(test_api()->baselines().EqualsForTesting( {{0, NORMAL_BASELINE}, {2, SUPERIOR}, {4, NORMAL_BASELINE}})); EXPECT_TRUE(test_api()->font_size_overrides().EqualsForTesting( {{0, 0}, {5, kTestFontSizeOverride}, {7, 0}})); EXPECT_TRUE( test_api()->weights().EqualsForTesting({{0, Font::Weight::NORMAL}, {2, Font::Weight::BOLD}, {5, Font::Weight::NORMAL}})); // Ensure that setting a value overrides the ranged values. render_text->SetColor(SK_ColorBLUE); EXPECT_TRUE(test_api()->colors().EqualsValueForTesting(SK_ColorBLUE)); render_text->SetBaselineStyle(SUBSCRIPT); EXPECT_TRUE(test_api()->baselines().EqualsValueForTesting(SUBSCRIPT)); render_text->SetWeight(Font::Weight::NORMAL); EXPECT_TRUE( test_api()->weights().EqualsValueForTesting(Font::Weight::NORMAL)); // Apply a value over the text end and check the resulting breaks (INT_MAX // should be used instead of the text length for the range end) const size_t text_length = render_text->text().length(); render_text->ApplyColor(SK_ColorGREEN, Range(0, text_length)); render_text->ApplyBaselineStyle(SUPERIOR, Range(0, text_length)); render_text->ApplyWeight(Font::Weight::BOLD, Range(2, text_length)); EXPECT_TRUE(test_api()->colors().EqualsForTesting({{0, SK_ColorGREEN}})); EXPECT_TRUE(test_api()->baselines().EqualsForTesting({{0, SUPERIOR}})); EXPECT_TRUE(test_api()->weights().EqualsForTesting( {{0, Font::Weight::NORMAL}, {2, Font::Weight::BOLD}})); // Ensure ranged values adjust to accommodate text length changes. render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(0, 2)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(3, 6)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(7, text_length)); std::vector> expected_italic = { {0, true}, {2, false}, {3, true}, {6, false}, {7, true}}; EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( expected_italic)); // Changing the text should clear any breaks except for the first one. render_text->SetText(u"0123456"); expected_italic.resize(1); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( expected_italic)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, false, Range(2, 4)); render_text->SetText(u"012345678"); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( expected_italic)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, false, Range(0, 1)); render_text->SetText(u"0123456"); expected_italic.begin()->second = false; EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( expected_italic)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(2, 4)); render_text->SetText(u"012345678"); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( expected_italic)); // Styles mid-grapheme should work. Style of first character of the grapheme // is used. render_text->SetText(u"0\u0915\u093f1\u0915\u093f2"); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, Range(2, 5)); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_UNDERLINE].EqualsForTesting( {{0, false}, {2, true}, {5, false}})); } TEST_F(RenderTextTest, ApplyStyleSurrogatePair) { RenderText* render_text = GetRenderText(); render_text->SetText(u"x\U0001F601x"); // Apply the style in the middle of a surrogate pair. The style should be // applied to the whole range of the codepoint. gfx::Range range(2, 3); render_text->ApplyWeight(gfx::Font::Weight::BOLD, range); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, range); render_text->ApplyColor(SK_ColorGREEN, range); render_text->Draw(canvas()); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( {{0, false}, {2, true}, {3, false}})); EXPECT_TRUE(test_api()->colors().EqualsForTesting( {{0, kPlaceholderColor}, {2, SK_ColorGREEN}, {3, kPlaceholderColor}})); EXPECT_TRUE( test_api()->weights().EqualsForTesting({{0, Font::Weight::NORMAL}, {2, Font::Weight::BOLD}, {3, Font::Weight::NORMAL}})); } TEST_F(RenderTextTest, ApplyStyleGrapheme) { RenderText* render_text = GetRenderText(); render_text->SetText(u"e\u0301"); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, gfx::Range(1, 2)); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, gfx::Range(0, 1)); Draw(); // Ensures that the whole grapheme is drawn with the same style. ExpectTextLog({{1}}); } TEST_F(RenderTextTest, ApplyStyleMultipleGraphemes) { RenderText* render_text = GetRenderText(); render_text->SetText(u"xxe\u0301x"); // Apply the style in the middle of a grapheme. gfx::Range range(1, 3); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, range); Draw(); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_ITALIC].EqualsForTesting( {{0, false}, {1, true}, {3, false}})); // Ensures that the style of the grapheme is the style at its first character. ExpectTextLog({{1}, {2}, {1}}); } TEST_F(RenderTextTest, ApplyColorSurrogatePair) { RenderText* render_text = GetRenderText(); render_text->SetText(u"x\U0001F601x"); render_text->ApplyColor(SK_ColorGREEN, Range(2, 3)); Draw(); // Ensures that the color is not applied since it is in the middle of a // surrogate pair. // There is three runs since the codepoints are not in the same script. ExpectTextLog({{1}, {1}, {1}}); // Obscure the text should renders characters with the same colors. render_text->SetObscured(true); Draw(); ExpectTextLog({{3}}); } TEST_F(RenderTextTest, ApplyColorLongEmoji) { // A long emoji sequence. static const char16_t kLongEmoji[] = u"\U0001F468\u200D\u2708\uFE0F"; RenderText* render_text = GetRenderText(); render_text->SetText(kLongEmoji); render_text->AppendText(kLongEmoji); render_text->AppendText(kLongEmoji); render_text->ApplyColor(SK_ColorGREEN, Range(0, 2)); render_text->ApplyColor(SK_ColorBLUE, Range(8, 13)); Draw(); // Ensures that the color of the emoji is the color at its first character. ASSERT_EQ(3u, text_log().size()); EXPECT_EQ(SK_ColorGREEN, text_log()[0].color()); EXPECT_EQ(kPlaceholderColor, text_log()[1].color()); EXPECT_EQ(SK_ColorBLUE, text_log()[2].color()); // Reset the color. render_text->SetColor(SK_ColorBLACK); Draw(); // The amount of glyphs depend on the font. If the font supports the emoji, // the amount of glyph is 1, otherwise it vary. ASSERT_EQ(1u, text_log().size()); EXPECT_EQ(SK_ColorBLACK, text_log()[0].color()); } TEST_F(RenderTextTest, ApplyColorObscuredEmoji) { RenderText* render_text = GetRenderText(); render_text->SetText(u"\U0001F628\U0001F628\U0001F628"); render_text->ApplyColor(SK_ColorGREEN, Range(0, 2)); render_text->ApplyColor(SK_ColorBLUE, Range(4, 5)); const std::vector kExpectedTextLog = { {1, SK_ColorGREEN}, {1, kPlaceholderColor}, {1, SK_ColorBLUE}}; // Ensures that colors are applied. Draw(); ExpectTextLog(kExpectedTextLog); // Obscure the text. render_text->SetObscured(true); // The obscured text (layout text) no longer contains surrogate pairs. EXPECT_EQ(render_text->text().size(), 2 * test_api()->GetLayoutText().size()); // Obscured text should give the same colors. Draw(); ExpectTextLog(kExpectedTextLog); for (size_t i = 0; i < render_text->text().size(); ++i) { render_text->RenderText::SetObscuredRevealIndex(i); // Revealed codepoints should give the same colors. Draw(); ExpectTextLog(kExpectedTextLog); } } TEST_F(RenderTextTest, ApplyColorArabicDiacritics) { // Render an Arabic character with two diacritics. The color should be taken // from the base character. RenderText* render_text = GetRenderText(); render_text->SetText(u"\u0628\u0651\u0650"); render_text->ApplyColor(SK_ColorGREEN, Range(0, 1)); render_text->ApplyColor(SK_ColorBLACK, Range(1, 2)); render_text->ApplyColor(SK_ColorBLUE, Range(2, 3)); Draw(); ASSERT_EQ(1u, text_log().size()); EXPECT_EQ(SK_ColorGREEN, text_log()[0].color()); } TEST_F(RenderTextTest, ApplyColorArabicLigature) { // In Arabic, letters of each word join together whenever possible. During // the shaping pass of the font, characters will take their joining form: // Isolated, Initial, Medial or Final. // Render the isolated form of the first glyph. RenderText* render_text = GetRenderText(); render_text->SetText(u"ب"); Draw(); ASSERT_EQ(1u, text_log().size()); ASSERT_EQ(1u, text_log()[0].glyphs().size()); uint16_t isolated_first_glyph = text_log()[0].glyphs()[0]; // Render a pair of glyphs (initial form and final form). render_text->SetText(u"بم"); Draw(); ASSERT_EQ(1u, text_log().size()); ASSERT_LE(2u, text_log()[0].glyphs().size()); uint16_t initial_first_glyph = text_log()[0].glyphs()[0]; uint16_t final_second_glyph = text_log()[0].glyphs()[1]; // A ligature is applied between glyphs and the two glyphs (isolated and // initial form) are displayed differently. EXPECT_NE(isolated_first_glyph, initial_first_glyph); // Ensures that both characters didn't merge in a single glyph. EXPECT_NE(initial_first_glyph, final_second_glyph); // Applying color should not break the ligature. // see: https://w3c.github.io/alreq/#h_styling_individual_letters render_text->ApplyColor(SK_ColorGREEN, Range(0, 1)); render_text->ApplyColor(SK_ColorBLACK, Range(1, 2)); Draw(); ASSERT_EQ(2u, text_log().size()); ASSERT_LE(1u, text_log()[0].glyphs().size()); ASSERT_EQ(1u, text_log()[1].glyphs().size()); uint16_t colored_first_glyph = text_log()[1].glyphs()[0]; uint16_t colored_second_glyph = text_log()[0].glyphs()[0]; // Glyphs should be the same with and without color. EXPECT_EQ(initial_first_glyph, colored_first_glyph); EXPECT_EQ(final_second_glyph, colored_second_glyph); // Colors should be applied. EXPECT_EQ(SK_ColorGREEN, text_log()[0].color()); EXPECT_EQ(SK_ColorBLACK, text_log()[1].color()); } TEST_F(RenderTextTest, AppendTextKeepsStyles) { RenderText* render_text = GetRenderText(); // Setup basic functionality. render_text->SetText(u"abcd"); render_text->ApplyColor(SK_ColorGREEN, Range(0, 1)); render_text->ApplyBaselineStyle(SUPERSCRIPT, Range(1, 2)); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, Range(2, 3)); render_text->ApplyFontSizeOverride(20, Range(3, 4)); // Verify basic functionality. const std::vector> expected_color = { {0, SK_ColorGREEN}, {1, kPlaceholderColor}}; EXPECT_TRUE(test_api()->colors().EqualsForTesting(expected_color)); const std::vector> expected_baseline = { {0, NORMAL_BASELINE}, {1, SUPERSCRIPT}, {2, NORMAL_BASELINE}}; EXPECT_TRUE(test_api()->baselines().EqualsForTesting(expected_baseline)); const std::vector> expected_style = { {0, false}, {2, true}, {3, false}}; EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_UNDERLINE].EqualsForTesting( expected_style)); const std::vector> expected_font_size = {{0, 0}, {3, 20}}; EXPECT_TRUE( test_api()->font_size_overrides().EqualsForTesting(expected_font_size)); // Ensure AppendText maintains current text styles. render_text->AppendText(u"efg"); EXPECT_EQ(render_text->GetDisplayText(), u"abcdefg"); EXPECT_TRUE(test_api()->colors().EqualsForTesting(expected_color)); EXPECT_TRUE(test_api()->baselines().EqualsForTesting(expected_baseline)); EXPECT_TRUE(test_api()->styles()[TEXT_STYLE_UNDERLINE].EqualsForTesting( expected_style)); EXPECT_TRUE( test_api()->font_size_overrides().EqualsForTesting(expected_font_size)); } TEST_F(RenderTextTest, SetSelection) { RenderText* render_text = GetRenderText(); render_text->set_selection_color(SK_ColorGREEN); render_text->SetText(u"abcdef"); render_text->set_focused(true); // Single selection render_text->SetSelection( {{{4, 100}}, LogicalCursorDirection::CURSOR_FORWARD}); Draw(); ExpectTextLog({{4}, {2, SK_ColorGREEN}}); // Multiple selections render_text->SetSelection( {{{0, 1}, {4, 100}}, LogicalCursorDirection::CURSOR_FORWARD}); Draw(); ExpectTextLog({{1, SK_ColorGREEN}, {3}, {2, SK_ColorGREEN}}); render_text->ClearSelection(); Draw(); ExpectTextLog({{6}}); } TEST_F(RenderTextTest, SelectRangeColored) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdef"); render_text->SetColor(SK_ColorBLACK); render_text->set_selection_color(SK_ColorGREEN); render_text->set_focused(true); render_text->SelectRange(Range(0, 1)); Draw(); ExpectTextLog({{1, SK_ColorGREEN}, {5, SK_ColorBLACK}}); render_text->SelectRange(Range(1, 3)); Draw(); ExpectTextLog({{1, SK_ColorBLACK}, {2, SK_ColorGREEN}, {3, SK_ColorBLACK}}); render_text->ClearSelection(); Draw(); ExpectTextLog({{6, SK_ColorBLACK}}); } // Tests that when a selection is made and the selection background is // translucent, the selection renders properly. See crbug.com/1134440. TEST_F(RenderTextTest, SelectWithTranslucentBackground) { constexpr float kGlyphWidth = 5.5f; constexpr Size kCanvasSize(300, 50); constexpr SkColor kTranslucentBlue = SkColorSetARGB(0x7F, 0x00, 0x00, 0xFF); const char* const kTestString{"A B C D"}; const char16_t* const kTestString16{u"A B C D"}; SkBitmap bitmap; bitmap.allocPixels( SkImageInfo::MakeN32Premul(kCanvasSize.width(), kCanvasSize.height())); cc::SkiaPaintCanvas paint_canvas(bitmap); Canvas canvas(&paint_canvas, 1.0f); paint_canvas.clear(SK_ColorWHITE); SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->set_selection_background_focused_color(kTranslucentBlue); render_text->set_focused(true); render_text->SetText(kTestString16); render_text->SelectRange(Range(0, 7)); const Rect text_rect = Rect(render_text->GetStringSize()); render_text->SetDisplayRect(text_rect); render_text->Draw(&canvas); const uint32_t* buffer = static_cast(bitmap.getPixels()); ASSERT_NE(nullptr, buffer); TestRectangleBuffer rect_buffer(kTestString, buffer, kCanvasSize.width(), kCanvasSize.height()); // This whole slice should be the same color and opacity. rect_buffer.EnsureRectIsAllSameColor(0, 0, text_rect.width() - 1, 1); } TEST_F(RenderTextTest, SelectRangeColoredGrapheme) { RenderText* render_text = GetRenderText(); render_text->SetText(u"xe\u0301y"); render_text->SetColor(SK_ColorBLACK); render_text->set_selection_color(SK_ColorGREEN); render_text->set_focused(true); render_text->SelectRange(Range(0, 1)); Draw(); ExpectTextLog({{1, SK_ColorGREEN}, {2, SK_ColorBLACK}}); render_text->SelectRange(Range(1, 2)); Draw(); ExpectTextLog({{1, SK_ColorBLACK}, {1, SK_ColorGREEN}, {1, SK_ColorBLACK}}); render_text->SelectRange(Range(2, 3)); Draw(); ExpectTextLog({{1, SK_ColorBLACK}, {1, SK_ColorGREEN}, {1, SK_ColorBLACK}}); render_text->SelectRange(Range(2, 4)); Draw(); ExpectTextLog({{1, SK_ColorBLACK}, {2, SK_ColorGREEN}}); } TEST_F(RenderTextTest, SelectRangeMultiple) { RenderText* render_text = GetRenderText(); render_text->set_selection_color(SK_ColorGREEN); render_text->SetText(u"abcdef"); render_text->set_focused(true); // Multiple selections render_text->SelectRange(Range(0, 1)); render_text->SelectRange(Range(4, 2), false); Draw(); ExpectTextLog({{1, SK_ColorGREEN}, {1}, {2, SK_ColorGREEN}, {2}}); // Setting a primary selection should override secondary selections render_text->SelectRange(Range(5, 6)); Draw(); ExpectTextLog({{5}, {1, SK_ColorGREEN}}); render_text->ClearSelection(); Draw(); ExpectTextLog({{6}}); } TEST_F(RenderTextTest, SetCompositionRangeColored) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdef"); render_text->SetCompositionRange(Range(0, 1)); Draw(); ExpectTextLog({{1}, {5}}); render_text->SetCompositionRange(Range(1, 3)); Draw(); ExpectTextLog({{1}, {2}, {3}}); render_text->SetCompositionRange(Range::InvalidRange()); Draw(); ExpectTextLog({{6}}); } TEST_F(RenderTextTest, SetCompositionRangeColoredGrapheme) { RenderText* render_text = GetRenderText(); render_text->SetText(u"xe\u0301y"); render_text->SetCompositionRange(Range(0, 1)); Draw(); ExpectTextLog({{1}, {2}}); render_text->SetCompositionRange(Range(2, 3)); Draw(); ExpectTextLog({{3}}); render_text->SetCompositionRange(Range(2, 4)); Draw(); ExpectTextLog({{2}, {1}}); } void TestVisualCursorMotionInObscuredField( RenderText* render_text, const std::u16string& text, SelectionBehavior selection_behavior) { const bool select = selection_behavior != SELECTION_NONE; ASSERT_TRUE(render_text->obscured()); render_text->SetText(text); int len = text.length(); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, selection_behavior); EXPECT_EQ(SelectionModel(Range(select ? 0 : len, len), CURSOR_FORWARD), render_text->selection_model()); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, selection_behavior); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); for (int j = 1; j <= len; ++j) { render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, selection_behavior); EXPECT_EQ(SelectionModel(Range(select ? 0 : j, j), CURSOR_BACKWARD), render_text->selection_model()); } for (int j = len - 1; j >= 0; --j) { render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, selection_behavior); EXPECT_EQ(SelectionModel(Range(select ? 0 : j, j), CURSOR_FORWARD), render_text->selection_model()); } render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, selection_behavior); EXPECT_EQ(SelectionModel(Range(select ? 0 : len, len), CURSOR_FORWARD), render_text->selection_model()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, selection_behavior); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); } TEST_F(RenderTextTest, ObscuredText) { const std::u16string seuss = u"hop on pop"; const std::u16string no_seuss = GetObscuredString(seuss.length()); RenderText* render_text = GetRenderText(); // GetDisplayText() returns a string filled with // RenderText::kPasswordReplacementChar when the obscured bit is set. render_text->SetText(seuss); render_text->SetObscured(true); EXPECT_EQ(seuss, render_text->text()); EXPECT_EQ(no_seuss, render_text->GetDisplayText()); render_text->SetObscured(false); EXPECT_EQ(seuss, render_text->text()); EXPECT_EQ(seuss, render_text->GetDisplayText()); render_text->SetObscured(true); // Surrogate pairs are counted as one code point. const char16_t invalid_surrogates[] = {0xDC00, 0xD800, 0}; render_text->SetText(invalid_surrogates); EXPECT_EQ(GetObscuredString(2), render_text->GetDisplayText()); const char16_t valid_surrogates[] = {0xD800, 0xDC00, 0}; render_text->SetText(valid_surrogates); EXPECT_EQ(GetObscuredString(1), render_text->GetDisplayText()); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(2U, render_text->cursor_position()); // Test index conversion and cursor validity with a valid surrogate pair. // Text contains "u+D800 u+DC00" and display text contains "u+2022". EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(0U)); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(1U)); EXPECT_EQ(1U, test_api()->TextIndexToDisplayIndex(2U)); EXPECT_EQ(0U, test_api()->DisplayIndexToTextIndex(0U)); EXPECT_EQ(2U, test_api()->DisplayIndexToTextIndex(1U)); EXPECT_TRUE(render_text->IsValidCursorIndex(0U)); EXPECT_FALSE(render_text->IsValidCursorIndex(1U)); EXPECT_TRUE(render_text->IsValidCursorIndex(2U)); // FindCursorPosition() should not return positions between a surrogate pair. render_text->SetDisplayRect(Rect(0, 0, 20, 20)); const int cursor_y = GetCursorYForTesting(); EXPECT_EQ(render_text->FindCursorPosition(Point(0, cursor_y)).caret_pos(), 0U); EXPECT_EQ(render_text->FindCursorPosition(Point(20, cursor_y)).caret_pos(), 2U); for (int x = -1; x <= 20; ++x) { SelectionModel selection = render_text->FindCursorPosition(Point(x, cursor_y)); EXPECT_TRUE(selection.caret_pos() == 0U || selection.caret_pos() == 2U); } // GetCursorSpan() should yield the entire string bounds for text index 0. EXPECT_EQ(render_text->GetStringSize().width(), std::ceil(render_text->GetCursorSpan({0, 2}).length())); // Cursoring is independent of underlying characters when text is obscured. const char16_t* const texts[] = { kWeak, kLtr, kLtrRtl, kLtrRtlLtr, kRtl, kRtlLtr, kRtlLtrRtl, u"hop on pop", // Check LTR word boundaries. u"אב אג בג", // Check RTL word boundaries. }; for (size_t i = 0; i < base::size(texts); ++i) { TestVisualCursorMotionInObscuredField(render_text, texts[i], SELECTION_NONE); TestVisualCursorMotionInObscuredField(render_text, texts[i], SELECTION_RETAIN); } } TEST_F(RenderTextTest, ObscuredTextMultiline) { const std::u16string test = u"a\nbc\ndef"; RenderText* render_text = GetRenderText(); render_text->SetText(test); render_text->SetObscured(true); render_text->SetMultiline(true); // Newlines should be kept in multiline mode. std::u16string display_text = render_text->GetDisplayText(); EXPECT_EQ(display_text[1], '\n'); EXPECT_EQ(display_text[4], '\n'); } TEST_F(RenderTextTest, ObscuredTextMultilineNewline) { const std::u16string test = u"\r\r\n"; RenderText* render_text = GetRenderText(); render_text->SetText(test); render_text->SetObscured(true); render_text->SetMultiline(true); // Newlines should be kept in multiline mode. std::u16string display_text = render_text->GetDisplayText(); EXPECT_EQ(display_text[0], '\r'); EXPECT_EQ(display_text[1], '\r'); EXPECT_EQ(display_text[2], '\n'); } TEST_F(RenderTextTest, RevealObscuredText) { const std::u16string seuss = u"hop on pop"; const std::u16string no_seuss = GetObscuredString(seuss.length()); RenderText* render_text = GetRenderText(); render_text->SetText(seuss); render_text->SetObscured(true); EXPECT_EQ(seuss, render_text->text()); EXPECT_EQ(no_seuss, render_text->GetDisplayText()); // Valid reveal index and new revealed index clears previous one. render_text->RenderText::SetObscuredRevealIndex(0); EXPECT_EQ(GetObscuredString(seuss.length(), 0, 'h'), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(1); EXPECT_EQ(GetObscuredString(seuss.length(), 1, 'o'), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(2); EXPECT_EQ(GetObscuredString(seuss.length(), 2, 'p'), render_text->GetDisplayText()); // Invalid reveal index. render_text->RenderText::SetObscuredRevealIndex(-1); EXPECT_EQ(no_seuss, render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(seuss.length() + 1); EXPECT_EQ(no_seuss, render_text->GetDisplayText()); // SetObscured clears the revealed index. render_text->RenderText::SetObscuredRevealIndex(0); EXPECT_EQ(GetObscuredString(seuss.length(), 0, 'h'), render_text->GetDisplayText()); render_text->SetObscured(false); EXPECT_EQ(seuss, render_text->GetDisplayText()); render_text->SetObscured(true); EXPECT_EQ(no_seuss, render_text->GetDisplayText()); // SetText clears the revealed index. render_text->SetText(u"new"); EXPECT_EQ(GetObscuredString(3), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(2); EXPECT_EQ(GetObscuredString(3, 2, 'w'), render_text->GetDisplayText()); render_text->SetText(u"new longer"); EXPECT_EQ(GetObscuredString(10), render_text->GetDisplayText()); // Text with invalid surrogates (surrogates low 0xDC00 and high 0xD800). // Invalid surrogates are replaced by replacement character (e.g. 0xFFFD). render_text->SetText(u"\xDC00\xD800hop"); EXPECT_EQ(GetObscuredString(5), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(0); EXPECT_EQ(GetObscuredString(5, 0, 0xFFFD), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(1); EXPECT_EQ(GetObscuredString(5, 1, 0xFFFD), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(2); EXPECT_EQ(GetObscuredString(5, 2, 'h'), render_text->GetDisplayText()); // Text with valid surrogates before and after the reveal index. render_text->SetText(u"\xD800\xDC00hop\xD800\xDC00"); EXPECT_EQ(GetObscuredString(5), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(0); const char16_t valid_expect_0_and_1[] = {0xD800, 0xDC00, RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, 0}; EXPECT_EQ(valid_expect_0_and_1, render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(1); EXPECT_EQ(valid_expect_0_and_1, render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(2); EXPECT_EQ(GetObscuredString(5, 1, 'h'), render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(5); const char16_t valid_expect_5_and_6[] = {RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, 0xD800, 0xDC00, 0}; EXPECT_EQ(valid_expect_5_and_6, render_text->GetDisplayText()); render_text->RenderText::SetObscuredRevealIndex(6); EXPECT_EQ(valid_expect_5_and_6, render_text->GetDisplayText()); } TEST_F(RenderTextTest, ObscuredEmoji) { // Ensures text itemization doesn't crash on obscured multi-char glyphs. RenderText* render_text = GetRenderText(); render_text->SetObscured(true); // Test U+1F601 😁 "Grinning face with smiling eyes", followed by 'y'. render_text->SetText(u"😁y"); render_text->Draw(canvas()); // Emoji codepoints are replaced by bullets. EXPECT_EQ(u"••", render_text->GetDisplayText()); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(0U)); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(1U)); EXPECT_EQ(1U, test_api()->TextIndexToDisplayIndex(2U)); EXPECT_EQ(0U, test_api()->DisplayIndexToTextIndex(0U)); EXPECT_EQ(2U, test_api()->DisplayIndexToTextIndex(1U)); // Out of bound accesses. EXPECT_EQ(2U, test_api()->TextIndexToDisplayIndex(3U)); EXPECT_EQ(3U, test_api()->DisplayIndexToTextIndex(2U)); // Test two U+1F4F7 📷 "Camera" characters in a row. render_text->SetText(u"📷📷"); render_text->Draw(canvas()); // Emoji codepoints are replaced by bullets. EXPECT_EQ(u"••", render_text->GetDisplayText()); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(0U)); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(1U)); EXPECT_EQ(1U, test_api()->TextIndexToDisplayIndex(2U)); EXPECT_EQ(1U, test_api()->TextIndexToDisplayIndex(3U)); EXPECT_EQ(0U, test_api()->DisplayIndexToTextIndex(0U)); EXPECT_EQ(2U, test_api()->DisplayIndexToTextIndex(1U)); // Reveal the first emoji. render_text->SetObscuredRevealIndex(0); render_text->Draw(canvas()); EXPECT_EQ(u"📷•", render_text->GetDisplayText()); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(0U)); EXPECT_EQ(0U, test_api()->TextIndexToDisplayIndex(1U)); EXPECT_EQ(2U, test_api()->TextIndexToDisplayIndex(2U)); EXPECT_EQ(2U, test_api()->TextIndexToDisplayIndex(3U)); EXPECT_EQ(0U, test_api()->DisplayIndexToTextIndex(0U)); EXPECT_EQ(0U, test_api()->DisplayIndexToTextIndex(1U)); EXPECT_EQ(2U, test_api()->DisplayIndexToTextIndex(2U)); } TEST_F(RenderTextTest, ObscuredEmojiRevealed) { RenderText* render_text = GetRenderText(); std::u16string text = u"123📷📷x😁-"; for (size_t i = 0; i < text.length(); ++i) { render_text->SetText(text); render_text->SetObscured(true); render_text->SetObscuredRevealIndex(i); render_text->Draw(canvas()); } } struct TextIndexConversionCase { const char* test_name; const char16_t* text; }; using TextIndexConversionParam = std::tuple; class RenderTextTestWithTextIndexConversionCase : public RenderTextTest, public ::testing::WithParamInterface { public: static std::string ParamInfoToString( ::testing::TestParamInfo param_info) { TextIndexConversionCase param = std::get<0>(param_info.param); bool obscured = std::get<1>(param_info.param); size_t reveal_index = std::get<2>(param_info.param); return base::StringPrintf("%s%s%zu", param.test_name, (obscured ? "Obscured" : ""), reveal_index); } }; TEST_P(RenderTextTestWithTextIndexConversionCase, TextIndexConversion) { TextIndexConversionCase param = std::get<0>(GetParam()); bool obscured = std::get<1>(GetParam()); size_t reveal_index = std::get<2>(GetParam()); RenderText* render_text = GetRenderText(); render_text->SetText(param.text); render_text->SetObscured(obscured); render_text->SetObscuredRevealIndex(reveal_index); render_text->Draw(canvas()); std::u16string text = render_text->text(); std::u16string display_text = render_text->GetDisplayText(); // Adjust reveal_index to point to the beginning of the surrogate pair, if // needed. U16_SET_CP_START(text.c_str(), 0, reveal_index); // Validate that codepoints still match. for (base::i18n::UTF16CharIterator iter(render_text->text()); !iter.end(); iter.Advance()) { size_t text_index = iter.array_pos(); size_t display_index = test_api()->TextIndexToDisplayIndex(text_index); EXPECT_EQ(text_index, test_api()->DisplayIndexToTextIndex(display_index)); if (obscured && reveal_index != text_index) { EXPECT_EQ(display_text[display_index], RenderText::kPasswordReplacementChar); } else { EXPECT_EQ(display_text[display_index], text[text_index]); } } } const TextIndexConversionCase kTextIndexConversionCases[] = { {"simple", u"abc"}, {"simple_obscured1", u"abc"}, {"simple_obscured2", u"abc"}, {"emoji_asc", u"😨1234"}, {"emoji_asc_obscured0", u"😨1234"}, {"emoji_asc_obscured2", u"😨1234"}, {"picto_title", u"xx☛"}, {"simple_mixed", u"aaڭڭcc"}, {"simple_rtl", u"أسكي"}, }; // Validate that conversion text and between display text indexes are consistent // even when text obscured and reveal character features are used. INSTANTIATE_TEST_SUITE_P( ItemizeTextToRunsConversion, RenderTextTestWithTextIndexConversionCase, ::testing::Combine(::testing::ValuesIn(kTextIndexConversionCases), testing::Values(false, true), testing::Values(0, 1, 3)), RenderTextTestWithTextIndexConversionCase::ParamInfoToString); struct RunListCase { const char* test_name; const char16_t* text; const char* expected; const bool multiline = false; }; class RenderTextTestWithRunListCase : public RenderTextTest, public ::testing::WithParamInterface { public: static std::string ParamInfoToString( ::testing::TestParamInfo param_info) { return param_info.param.test_name; } }; TEST_P(RenderTextTestWithRunListCase, ItemizeTextToRuns) { RunListCase param = GetParam(); RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetMultiline(param.multiline); render_text->SetText(param.text); EXPECT_EQ(param.expected, GetRunListStructureString()); } const RunListCase kBasicsRunListCases[] = { {"simpleLTR", u"abc", "[0->2]"}, {"simpleRTL", u"ښڛڜ", "[2<-0]"}, {"asc_arb", u"abcښڛڜdef", "[0->2][5<-3][6->8]"}, {"asc_dev_asc", u"abcऔकखdefڜ", "[0->2][3->5][6->8][9]"}, {"phone", u"1-(800)-xxx-xxxx", "[0][1][2][3->5][6][7][8->10][11][12->15]"}, {"dev_ZWS", u"क\u200Bख", "[0][1][2]"}, {"numeric", u"1 2 3 4", "[0][1][2][3][4][5][6]"}, {"joiners1", u"1\u200C2\u200C3\u200C4", "[0->6]"}, {"joiners2", u"؏\u200C؏", "[0->2]"}, {"combining_accents1", u"àé", "[0->3]"}, {"combining_accents2", u"ëё", "[0->1][2->3]"}, {"picto_title", u"☞☛test☚☜", "[0->1][2->5][6->7]"}, {"picto_LTR", u"☺☺☺!", "[0->2][3]"}, {"picto_RTL", u"☺☺☺ښ", "[3][2<-0]"}, {"paren_picto", u"(☾☹☽)", "[0][1][2][3][4]"}, {"emoji_asc", u"😨1234", "[0->1][2->5]"}, // http://crbug.com/530021 {"emoji_title", u"▶Feel goods", "[0][1->4][5][6->10]"}, // http://crbug.com/278913 {"jap_paren1", u"ぬ「シ」ほ", "[0][1][2][3][4]"}, // http://crbug.com/396776 {"jap_paren2", u"國哲(c)1", "[0->1][2][3][4][5]"}, // http://crbug.com/125792 {"newline1", u"\n\n", "[0->1]"}, {"newline2", u"\r\n\r\n", "[0->3]"}, {"newline3", u"\r\r\n", "[0->2]"}, {"multiline_newline1", u"\n\n", "[0][1]", true}, {"multiline_newline2", u"\r\n\r\n", "[0->1][2->3]", true}, {"multiline_newline3", u"\r\r\n", "[0][1->2]", true}, {"multiline_newline4", u"x\r\r", "[0][1][2]", true}, {"multiline_newline5", u"x\n\r\r", "[0][1][2][3]", true}, {"multiline_newline6", u"x\ny\rz\r\n", "[0][1][2][3][4][5->6]", true}, }; INSTANTIATE_TEST_SUITE_P(ItemizeTextToRunsBasics, RenderTextTestWithRunListCase, ::testing::ValuesIn(kBasicsRunListCases), RenderTextTestWithRunListCase::ParamInfoToString); // see 'Unicode Bidirectional Algorithm': http://unicode.org/reports/tr9/ const RunListCase kBidiRunListCases[] = { {"simple_ltr", u"ascii", "[0->4]"}, {"simple_rtl", u"أسكي", "[3<-0]"}, {"simple_mixed", u"aaڭڭcc", "[0->1][3<-2][4->5]"}, {"simple_mixed_LRE", u"\u202Aaaڭڭcc\u202C", "[0][1->2][4<-3][5->6][7]"}, {"simple_mixed_RLE", u"\u202Baaڭڭcc\u202C", "[7][5->6][4<-3][0][1->2]"}, {"sequence_RLE", u"\u202Baa\u202C\u202Bbb\u202C", "[7][0][1->2][3->4][5->6]"}, {"simple_mixed_LRI", u"\u2066aaڭڭcc\u2069", "[0][1->2][4<-3][5->6][7]"}, {"simple_mixed_RLI", u"\u2067aaڭڭcc\u2069", "[0][5->6][4<-3][1->2][7]"}, {"sequence_RLI", u"\u2067aa\u2069\u2067bb\u2069", "[0][1->2][3->4][5->6][7]"}, {"override_ltr_RLO", u"\u202Eaaa\u202C", "[4][3<-1][0]"}, {"override_rtl_LRO", u"\u202Dڭڭڭ\u202C", "[0][1->3][4]"}, {"neutral_strong_ltr", u"a!!a", "[0][1->2][3]"}, {"neutral_strong_rtl", u"ڭ!!ڭ", "[3][2<-1][0]"}, {"neutral_strong_both", u"a a ڭ ڭ", "[0][1][2][3][6][5][4]"}, {"neutral_strong_both_RLE", u"\u202Ba a ڭ ڭ\u202C", "[8][7][6][5][4][0][1][2][3]"}, {"weak_numbers", u"one ڭ222ڭ", "[0->2][3][8][5->7][4]"}, {"not_weak_letters", u"one ڭabcڭ", "[0->2][3][4][5->7][8]"}, {"weak_arabic_numbers", u"one ڭ١٢٣ڭ", "[0->2][3][8][5->7][4]"}, {"neutral_LRM_pre", u"\u200E……", "[0->2]"}, {"neutral_LRM_post", u"……\u200E", "[0->2]"}, {"neutral_RLM_pre", u"\u200F……", "[2<-0]"}, {"neutral_RLM_post", u"……\u200F", "[2<-0]"}, {"brackets_ltr", u"aa(ڭڭ)……", "[0->1][2][4<-3][5][6->7]"}, {"brackets_rtl", u"ڭڭ(aa)……", "[7<-6][5][3->4][2][1<-0]"}, {"mixed_with_punct", u"aa \"ڭڭ!\", aa", "[0->1][2][3][5<-4][6->8][9][10->11]"}, {"mixed_with_punct_RLI", u"aa \"\u2067ڭڭ!\u2069\", aa", "[0->1][2][3][4][7][6<-5][8][9->10][11][12->13]"}, {"mixed_with_punct_RLM", u"aa \"ڭڭ!\u200F\", aa", "[0->1][2][3][7][6][5<-4][8->9][10][11->12]"}, }; INSTANTIATE_TEST_SUITE_P(ItemizeTextToRunsBidi, RenderTextTestWithRunListCase, ::testing::ValuesIn(kBidiRunListCases), RenderTextTestWithRunListCase::ParamInfoToString); const RunListCase kBracketsRunListCases[] = { {"matched_parens", u"(a)", "[0][1][2]"}, {"double_matched_parens", u"((a))", "[0->1][2][3->4]"}, {"double_matched_parens2", u"((aaa))", "[0->1][2->4][5->6]"}, {"square_brackets", u"[...]x", "[0][1->3][4][5]"}, {"curly_brackets", u"{}x{}", "[0->1][2][3->4]"}, {"style_brackets", u"「...」x", "[0][1->3][4][5]"}, {"tibetan_brackets", u"༺༻༠༠༼༽", "[0->1][2->3][4->5]"}, {"angle_brackets", u"〈〇〇〉", "[0][1->2][3]"}, {"double_angle_brackets", u"《〇〇》", "[0][1->2][3]"}, {"corner_angle_brackets", u"「〇〇」", "[0][1->2][3]"}, {"fullwidth_parens", u"(!)", "[0][1][2]"}, }; INSTANTIATE_TEST_SUITE_P(ItemizeTextToRunsBrackets, RenderTextTestWithRunListCase, ::testing::ValuesIn(kBracketsRunListCases), RenderTextTestWithRunListCase::ParamInfoToString); // Test cases to ensure the extraction of script extensions are taken into // account while performing the text itemization. // See table 7 from http://www.unicode.org/reports/tr24/tr24-29.html const RunListCase kScriptExtensionRunListCases[] = { {"implicit_com_inherited", u"a\u0301", "[0->1]"}, {"explicit_lat", u"\u0061d", "[0->1]"}, {"explicit_inherited_lat", u"x\u0363d", "[0->2]"}, {"explicit_inherited_dev", u"क\u1CD1क", "[0->2]"}, {"multi_explicit_hira", u"は\u30FCz", "[0->1][2]"}, {"multi_explicit_kana", u"ハ\u30FCz", "[0->1][2]"}, {"multi_explicit_lat", u"a\u30FCz", "[0][1][2]"}, {"multi_explicit_impl_dev", u"क\u1CD0z", "[0->1][2]"}, {"multi_explicit_expl_dev", u"क\u096Fz", "[0->1][2]"}, }; INSTANTIATE_TEST_SUITE_P(ItemizeTextToRunsScriptExtension, RenderTextTestWithRunListCase, ::testing::ValuesIn(kScriptExtensionRunListCases), RenderTextTestWithRunListCase::ParamInfoToString); // Test cases to ensure ItemizeTextToRuns is splitting text based on unicode // script (intersection of script extensions). // See ScriptExtensions.txt and Scripts.txt from // http://www.unicode.org/reports/tr24/tr24-29.html const RunListCase kScriptsRunListCases[] = { {"lat", u"abc", "[0->2]"}, {"lat_diac", u"e\u0308f", "[0->2]"}, // Indic Fraction codepoints have large set of script extensions. {"indic_fraction", u"\uA830\uA832\uA834\uA835", "[0->3]"}, // Devanagari Danda codepoints have large set of script extensions. {"dev_danda", u"\u0964\u0965", "[0->1]"}, // Combining Diacritical Marks (inherited) should only merge with preceding. {"diac_lat", u"\u0308fg", "[0][1->2]"}, {"diac_dev", u"क\u0308f", "[0->1][2]"}, // ZWJW has the inherited script. {"lat_ZWNJ", u"ab\u200Ccd", "[0->4]"}, {"dev_ZWNJ", u"क\u200Cक", "[0->2]"}, {"lat_dev_ZWNJ", u"a\u200Cक", "[0->1][2]"}, // Invalid codepoints. {"invalid_cp", u"\uFFFE", "[0]"}, {"invalid_cps", u"\uFFFE\uFFFF", "[0->1]"}, {"unknown", u"a\u243Fb", "[0][1][2]"}, // Codepoints from different code block should be in same run when part of // the same script. {"blocks_lat", u"aɒɠƉĚÑ", "[0->5]"}, {"blocks_lat_paren", u"([_!_])", "[0->1][2->4][5->6]"}, {"blocks_lat_sub", u"ₐₑaeꬱ", "[0->4]"}, {"blocks_lat_smallcap", u"ꟺM", "[0->1]"}, {"blocks_lat_small_letter", u"ᶓᶍᶓᴔᴟ", "[0->4]"}, {"blocks_lat_acc", u"eéěĕȩɇḕẻếⱻꞫ", "[0->10]"}, {"blocks_com", u"⟦ℳ¥¾⟾⁸⟧Ⓔ", "[0][1][2->3][4][5][6][7]"}, // Latin script. {"latin_numbers", u"a1b2c3", "[0][1][2][3][4][5]"}, {"latin_puncts1", u"a,b,c.", "[0][1][2][3][4][5]"}, {"latin_puncts2", u"aa,bb,cc!!", "[0->1][2][3->4][5][6->7][8->9]"}, {"latin_diac_multi", u"a\u0300e\u0352i", "[0->4]"}, // Common script. {"common_tm", u"•bug™", "[0][1->3][4]"}, {"common_copyright", u"chromium©", "[0->7][8]"}, {"common_math1", u"ℳ: ¬ƒ(x)=½×¾", "[0][1][2][3][4][5][6][7][8][9->11]"}, {"common_math2", u"𝟏×𝟑", "[0->1][2][3->4]"}, {"common_numbers", u"🄀𝟭𝟐⒓¹²", "[0->1][2->5][6][7->8]"}, {"common_puncts", u",.\u0083!", "[0->1][2][3]"}, // Arabic script. {"arabic", u"\u0633\u069b\u0763\u077f\u08A2\uFB53", "[5<-0]"}, {"arabic_lat", u"\u0633\u069b\u0763\u077f\u08A2\uFB53abc", "[6->8][5<-0]"}, {"arabic_word_ligatures", u"\uFDFD\uFDF3", "[1<-0]"}, {"arabic_diac", u"\u069D\u0300", "[1<-0]"}, {"arabic_diac_lat", u"\u069D\u0300abc", "[2->4][1<-0]"}, {"arabic_diac_lat2", u"abc\u069D\u0300abc", "[0->2][4<-3][5->7]"}, {"arabic_lyd", u"\U00010935\U00010930\u06B0\u06B1", "[5<-4][3<-0]"}, {"arabic_numbers", u"12\u06D034", "[3->4][2][0->1]"}, {"arabic_letters", u"ab\u06D0cd", "[0->1][2][3->4]"}, {"arabic_mixed", u"a1\u06D02d", "[0][1][3][2][4]"}, {"arabic_coptic1", u"\u06D0\U000102E2\u2CB2", "[1->3][0]"}, {"arabic_coptic2", u"\u2CB2\U000102E2\u06D0", "[0->2][3]"}, // Devanagari script. {"devanagari1", u"ञटठडढणतथ", "[0->7]"}, {"devanagari2", u"ढ꣸ꣴ", "[0->2]"}, {"devanagari_vowels", u"\u0915\u093F\u0915\u094C", "[0->3]"}, {"devanagari_consonants", u"\u0915\u094D\u0937", "[0->2]"}, // Ethiopic script. {"ethiopic", u"መጩጪᎅⶹⶼꬣꬦ", "[0->7]"}, {"ethiopic_numbers", u"1ቨቤ2", "[0][1->2][3]"}, {"ethiopic_mixed1", u"abቨቤ12", "[0->1][2->3][4->5]"}, {"ethiopic_mixed2", u"a1ቨቤb2", "[0][1][2->3][4][5]"}, // Georgian script. {"georgian1", u"ႼႽႾႿჀჁჂჳჴჵ", "[0->9]"}, {"georgian2", u"ლⴊⴅ", "[0->2]"}, {"georgian_numbers", u"1ლⴊⴅ2", "[0][1->3][4]"}, {"georgian_mixed", u"a1ლⴊⴅb2", "[0][1][2->4][5][6]"}, // Telugu script. {"telugu_lat", u"aaఉయ!", "[0->1][2->3][4]"}, {"telugu_numbers", u"123౦౧౨456౩౪౫", "[0->2][3->5][6->8][9->11]"}, {"telugu_puncts", u"కురుచ, చిఱుత, చేరువ, చెఱువు!", "[0->4][5][6][7->11][12][13][14->18][19][20][21->26][27]"}, // Control Pictures. {"control_pictures", u"␑␒␓␔␕␖␗␘␙␚␛", "[0->10]"}, {"control_pictures_rewrite", u"␑\t␛", "[0->2]"}, // Unicode art. {"unicode_emoticon1", u"(▀̿ĺ̯▀̿ ̿)", "[0][1->2][3->4][5->6][7->8][9]"}, {"unicode_emoticon2", u"▀̿̿Ĺ̯̿▀̿ ", "[0->2][3->5][6->7][8]"}, {"unicode_emoticon3", u"( ͡° ͜ʖ ͡°)", "[0][1->2][3][4->5][6][7->8][9][10]"}, {"unicode_emoticon4", u"✩·͙*̩̩͙˚̩̥̩̥( ͡ᵔ ͜ʖ ͡ᵔ )*̩̩͙✩·͙˚̩̥̩̥.", "[0][1->2][3->6][7->11][12][13->14][15][16->17][18][19->20][21][22][23][" "24->27][28][29->30][31->35][36]"}, {"unicode_emoticon5", u"ヽ(͡◕ ͜ʖ ͡◕)ノ", "[0][1->2][3][4->5][6][7->8][9][10][11]"}, {"unicode_art1", u"꧁༒✧ Great ✧༒꧂", "[0][1][2][3][4->8][9][10][11][12]"}, {"unicode_art2", u"t͎e͎s͎t͎", "[0->7]"}, // Combining diacritical sequences. {"unicode_diac1", u"\u2123\u0336", "[0->1]"}, {"unicode_diac2", u"\u273c\u0325", "[0->1]"}, {"unicode_diac3", u"\u2580\u033f", "[0->1]"}, {"unicode_diac4", u"\u2022\u0325\u0329", "[0->2]"}, {"unicode_diac5", u"\u2022\u0325", "[0->1]"}, {"unicode_diac6", u"\u00b7\u0359\u0325", "[0->2]"}, {"unicode_diac7", u"\u2027\u0329\u0325", "[0->2]"}, {"unicode_diac8", u"\u0332\u0305\u03c1", "[0->1][2]"}, }; INSTANTIATE_TEST_SUITE_P(ItemizeTextToRunsScripts, RenderTextTestWithRunListCase, ::testing::ValuesIn(kScriptsRunListCases), RenderTextTestWithRunListCase::ParamInfoToString); // Test cases to ensure ItemizeTextToRuns is splitting emoji correctly. // see: http://www.unicode.org/reports/tr51 // see: http://www.unicode.org/emoji/charts/full-emoji-list.html const RunListCase kEmojiRunListCases[] = { // Samples from // https://www.unicode.org/Public/emoji/12.0/emoji-data.txt {"number_sign", u"\u0023", "[0]"}, {"keyboard", u"\u2328", "[0]"}, {"aries", u"\u2648", "[0]"}, {"candle", u"\U0001F56F", "[0->1]"}, {"anchor", u"\u2693", "[0]"}, {"grinning_face", u"\U0001F600", "[0->1]"}, {"face_with_monocle", u"\U0001F9D0", "[0->1]"}, {"light_skin_tone", u"\U0001F3FB", "[0->1]"}, {"index_pointing_up", u"\u261D", "[0]"}, {"horse_racing", u"\U0001F3C7", "[0->1]"}, {"kiss", u"\U0001F48F", "[0->1]"}, {"couple_with_heart", u"\U0001F491", "[0->1]"}, {"people_wrestling", u"\U0001F93C", "[0->1]"}, {"eject_button", u"\u23CF", "[0]"}, // Samples from // https://unicode.org/Public/emoji/12.0/emoji-sequences.txt {"watch", u"\u231A", "[0]"}, {"cross_mark", u"\u274C", "[0]"}, {"copyright", u"\u00A9\uFE0F", "[0->1]"}, {"stop_button", u"\u23F9\uFE0F", "[0->1]"}, {"passenger_ship", u"\U0001F6F3\uFE0F", "[0->2]"}, {"keycap_star", u"\u002A\uFE0F\u20E3", "[0->2]"}, {"keycap_6", u"\u0036\uFE0F\u20E3", "[0->2]"}, {"flag_andorra", u"\U0001F1E6\U0001F1E9", "[0->3]"}, {"flag_egypt", u"\U0001F1EA\U0001F1EC", "[0->3]"}, {"flag_england", u"\U0001F3F4\U000E0067\U000E0062\U000E0065\U000E006E\U000E0067\U000E007F", "[0->13]"}, {"index_up_light", u"\u261D\U0001F3FB", "[0->2]"}, {"person_bouncing_ball_light", u"\u26F9\U0001F3FC", "[0->2]"}, {"victory_hand_med_light", u"\u270C\U0001F3FC", "[0->2]"}, {"horse_racing_med_dark", u"\U0001F3C7\U0001F3FE", "[0->3]"}, {"woman_man_hands_light", u"\U0001F46B\U0001F3FB", "[0->3]"}, {"person_haircut_med_light", u"\U0001F487\U0001F3FC", "[0->3]"}, {"pinching_hand_light", u"\U0001F90F\U0001F3FB", "[0->3]"}, {"love_you_light", u"\U0001F91F\U0001F3FB", "[0->3]"}, {"leg_dark", u"\U0001F9B5\U0001F3FF", "[0->3]"}, // Samples from // https://unicode.org/Public/emoji/12.0/emoji-variation-sequences.txt {"number_sign_text", u"\u0023\uFE0E", "[0->1]"}, {"number_sign_emoji", u"\u0023\uFE0F", "[0->1]"}, {"digit_eight_text", u"\u0038\uFE0E", "[0->1]"}, {"digit_eight_emoji", u"\u0038\uFE0F", "[0->1]"}, {"up_down_arrow_text", u"\u2195\uFE0E", "[0->1]"}, {"up_down_arrow_emoji", u"\u2195\uFE0F", "[0->1]"}, {"stopwatch_text", u"\u23F1\uFE0E", "[0->1]"}, {"stopwatch_emoji", u"\u23F1\uFE0F", "[0->1]"}, {"thermometer_text", u"\U0001F321\uFE0E", "[0->2]"}, {"thermometer_emoji", u"\U0001F321\uFE0F", "[0->2]"}, {"thumbs_up_text", u"\U0001F44D\uFE0E", "[0->2]"}, {"thumbs_up_emoji", u"\U0001F44D\uFE0F", "[0->2]"}, {"hole_text", u"\U0001F573\uFE0E", "[0->2]"}, {"hole_emoji", u"\U0001F573\uFE0F", "[0->2]"}, // Samples from // https://unicode.org/Public/emoji/12.0/emoji-zwj-sequences.txt {"couple_man_man", u"\U0001F468\u200D\u2764\uFE0F\u200D\U0001F468", "[0->7]"}, {"kiss_man_man", u"\U0001F468\u200D\u2764\uFE0F\u200D\U0001F48B\u200D\U0001F468", "[0->10]"}, {"family_man_woman_girl_boy", u"\U0001F468\u200D\U0001F469\u200D\U0001F467\u200D\U0001F466", "[0->10]"}, {"men_hands_dark_medium", u"\U0001F468\U0001F3FF\u200D\U0001F91D\u200D\U0001F468\U0001F3FD", "[0->11]"}, {"people_hands_dark", u"\U0001F9D1\U0001F3FF\u200D\U0001F91D\u200D\U0001F9D1\U0001F3FF", "[0->11]"}, {"man_pilot", u"\U0001F468\u200D\u2708\uFE0F", "[0->4]"}, {"man_scientist", u"\U0001F468\u200D\U0001F52C", "[0->4]"}, {"man_mechanic_light", u"\U0001F468\U0001F3FB\u200D\U0001F527", "[0->6]"}, {"man_judge_medium", u"\U0001F468\U0001F3FD\u200D\u2696\uFE0F", "[0->6]"}, {"woman_cane_dark", u"\U0001F469\U0001F3FF\u200D\U0001F9AF", "[0->6]"}, {"woman_ball_light", u"\u26F9\U0001F3FB\u200D\u2640\uFE0F", "[0->5]"}, {"woman_running", u"\U0001F3C3\u200D\u2640\uFE0F", "[0->4]"}, {"woman_running_dark", u"\U0001F3C3\U0001F3FF\u200D\u2640\uFE0F", "[0->6]"}, {"woman_turban", u"\U0001F473\u200D\u2640\uFE0F", "[0->4]"}, {"woman_detective", u"\U0001F575\uFE0F\u200D\u2640\uFE0F", "[0->5]"}, {"man_facepalming", u"\U0001F926\u200D\u2642\uFE0F", "[0->4]"}, {"man_red_hair", u"\U0001F468\u200D\U0001F9B0", "[0->4]"}, {"man_medium_curly", u"\U0001F468\U0001F3FD\u200D\U0001F9B1", "[0->6]"}, {"woman_dark_white_hair", u"\U0001F469\U0001F3FF\u200D\U0001F9B3", "[0->6]"}, {"rainbow_flag", u"\U0001F3F3\uFE0F\u200D\U0001F308", "[0->5]"}, {"pirate_flag", u"\U0001F3F4\u200D\u2620\uFE0F", "[0->4]"}, {"service_dog", u"\U0001F415\u200D\U0001F9BA", "[0->4]"}, {"eye_bubble", u"\U0001F441\uFE0F\u200D\U0001F5E8\uFE0F", "[0->6]"}, }; INSTANTIATE_TEST_SUITE_P(ItemizeTextToRunsEmoji, RenderTextTestWithRunListCase, ::testing::ValuesIn(kEmojiRunListCases), RenderTextTestWithRunListCase::ParamInfoToString); struct ElideTextTestOptions { const ElideBehavior elide_behavior; }; const bool kForceNoWhitespaceElision = false; const bool kForceWhitespaceElision = true; struct ElideTextCase { const char* test_name; const char16_t* text; const char16_t* display_text; // The available width, specified as a number of fixed-width glyphs. If no // value is specified, the width of the resulting |display_text| is used. This // helps test available widths larger than the resulting test; e.g. "a b" // should yield "a…" even if 3 glyph widths are available, when // whitespace elision is enabled. const absl::optional available_width_as_glyph_count = absl::nullopt; const absl::optional whitespace_elision = absl::nullopt; }; using ElideTextCaseParam = std::tuple; class RenderTextTestWithElideTextCase : public RenderTextTest, public ::testing::WithParamInterface { public: static std::string ParamInfoToString( ::testing::TestParamInfo param_info) { return std::get<1>(param_info.param).test_name; } }; TEST_P(RenderTextTestWithElideTextCase, ElideText) { // This test requires glyphs to be the same width. constexpr int kGlyphWidth = 10; SetGlyphWidth(kGlyphWidth); const ElideTextTestOptions options = std::get<0>(GetParam()); const ElideTextCase param = std::get<1>(GetParam()); const std::u16string text = param.text; const std::u16string display_text = param.display_text; // Retrieve the display_text width without eliding. RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(display_text); const int expected_width = render_text->GetContentWidth(); // Set the text and the eliding behavior. render_text->SetText(text); render_text->SetElideBehavior(options.elide_behavior); // If specified, set the whitespace elision. Otherwise, keep the eliding // behavior default value. if (param.whitespace_elision.has_value()) render_text->SetWhitespaceElision(param.whitespace_elision.value()); // Set the display width to trigger the eliding. if (param.available_width_as_glyph_count.has_value()) { render_text->SetDisplayRect( Rect(0, 0, param.available_width_as_glyph_count.value() * kGlyphWidth + kGlyphWidth / 2, 100)); } else { render_text->SetDisplayRect( Rect(0, 0, expected_width + kGlyphWidth / 2, 100)); } const int elided_width = render_text->GetContentWidth(); EXPECT_EQ(text, render_text->text()); EXPECT_EQ(display_text, render_text->GetDisplayText()); EXPECT_EQ(elided_width, expected_width); } const ElideTextCase kElideHeadTextCases[] = { {"empty", u"", u""}, {"letter_m_tail0", u"M", u""}, {"letter_m_tail1", u"M", u"M"}, {"no_eliding", u"012ab", u"012ab"}, {"ltr_3", u"abc", u"abc"}, {"ltr_2", u"abc", u"…c"}, {"ltr_1", u"abc", u"…"}, {"ltr_0", u"abc", u""}, {"rtl_3", u"אבג", u"אבג"}, {"rtl_2", u"אבג", u"…ג"}, {"rtl_1", u"אבג", u"…"}, {"rtl_0", u"אבג", u""}, {"ltr_rtl_5", u"abcאבג", u"…cאבג"}, {"ltr_rtl_4", u"abcאבג", u"…אבג"}, {"ltr_rtl_3", u"abcאבג", u"…בג"}, {"rtl_ltr_5", u"אבגabc", u"…גabc"}, {"rtl_ltr_4", u"אבגabc", u"…abc"}, {"rtl_ltr_3", u"אבגabc", u"…bc"}, {"bidi_1", u"aבbבc012", u"…bבc012"}, {"bidi_2", u"aבbבc012", u"…בc012"}, {"bidi_3", u"aבbבc012", u"…c012"}, // Test surrogate pairs. No surrogate pair should be partially elided. {"surrogate1", u"abc\U0001D11E\U0001D122x", u"…\U0001D11E\U0001D122x"}, {"surrogate2", u"abc\U0001D11E\U0001D122x", u"…\U0001D122x"}, {"surrogate3", u"abc\U0001D11E\U0001D122x", u"…x"}, // Test combining character sequences. U+0915 U+093F forms a compound // glyph, as does U+0915 U+0942. No combining sequence should be partially // elided. {"combining1", u"0123\u0915\u093f\u0915\u0942456", u"…\u0915\u0942456"}, {"combining2", u"0123\u0915\u093f\u0915\u0942456", u"…456"}, // 𝄞 (U+1D11E, MUSICAL SYMBOL G CLEF) should be fully elided. {"emoji1", u"012\U0001D11Ex", u"…\U0001D11Ex"}, {"emoji2", u"012\U0001D11Ex", u"…x"}, // Whitespace elision tests. {"empty_no_elision", u"", u"", 0, kForceNoWhitespaceElision}, {"empty_elision", u"", u"", 0, kForceWhitespaceElision}, {"xyz_no_elision", u" x xyz", u"… xyz", 5, kForceNoWhitespaceElision}, {"xyz_elision", u" x xyz", u"…xyz", 5, kForceWhitespaceElision}, {"ltr_rtl_elision3", u"x ב y ג", u"…ג", 3, kForceWhitespaceElision}, {"ltr_rtl_elision6", u"x ב y ג", u"…ג", 6, kForceWhitespaceElision}, {"ltr_rtl_elision7", u"x ב y ג", u"…y ג", 7, kForceWhitespaceElision}, {"ltr_rtl_elision10", u"x ב y ג", u"…ב y ג", 10, kForceWhitespaceElision}, {"ltr_rtl_elision11", u"x ב y ג", u"…ב y ג", 11, kForceWhitespaceElision}, // Emoji U+1F601 and emoji U+1F321 U+FE0E are graphemes that result in // one glyph each. Eliding a glyph must remove the whole grapheme. It is // invalid to break a grapheme in pieces. {"graphemes_elision3", u" \U0001F601 \U0001F321\uFE0E ", u"…", 3, kForceWhitespaceElision}, {"graphemes_elision4", u" \U0001F601 \U0001F321\uFE0E ", u"…\U0001F321\uFE0E ", 4, kForceWhitespaceElision}, {"graphemes_elision6", u" \U0001F601 \U0001F321\uFE0E ", u"…\U0001F321\uFE0E ", 6, kForceWhitespaceElision}, {"graphemes_elision7", u" \U0001F601 \U0001F321\uFE0E ", u"…\U0001F601 \U0001F321\uFE0E ", 7, kForceWhitespaceElision}, }; INSTANTIATE_TEST_SUITE_P( ElideHead, RenderTextTestWithElideTextCase, testing::Combine(testing::Values(ElideTextTestOptions{ELIDE_HEAD}), testing::ValuesIn(kElideHeadTextCases)), RenderTextTestWithElideTextCase::ParamInfoToString); const ElideTextCase kElideTailTextCases[] = { {"empty", u"", u""}, {"letter_m_tail0", u"M", u""}, {"letter_m_tail1", u"M", u"M"}, {"letter_weak_3", u" . ", u" . "}, {"letter_weak_2", u" . ", u"…"}, {"no_eliding", u"012ab", u"012ab"}, {"ltr_3", u"abc", u"abc"}, {"ltr_2", u"abc", u"a…"}, {"ltr_1", u"abc", u"…"}, {"ltr_0", u"abc", u""}, {"rtl_3", u"אבג", u"אבג"}, {"rtl_2", u"אבג", u"א…"}, {"rtl_1", u"אבג", u"…"}, {"rtl_0", u"אבג", u""}, {"ltr_rtl_5", u"abcאבג", u"abcא…\u200F"}, {"ltr_rtl_4", u"abcאבג", u"abc…"}, {"ltr_rtl_3", u"abcאבג", u"ab…"}, {"rtl_ltr_5", u"אבגabc", u"אבגa…\u200E"}, {"rtl_ltr_4", u"אבגabc", u"אבג…"}, {"rtl_ltr_3", u"אבגabc", u"אב…"}, {"bidi_1", u"012aבbבc", u"012a…"}, {"bidi_2", u"012aבbבc", u"012aב…\u200F"}, {"bidi_3", u"012aבbבc", u"012aבb…"}, // No RLM marker added as digits (012) have weak directionality. {"no_rlm", u"01אבג", u"01א…"}, // RLM marker added as "ab" have strong LTR directionality. {"with_rlm", u"abאבגcd", u"abאב…\u200f"}, // Test surrogate pairs. The first pair 𝄞 'MUSICAL SYMBOL G CLEF' U+1D11E // should be kept, and the second pair 𝄢 'MUSICAL SYMBOL F CLEF' U+1D122 // should be removed. No surrogate pair should be partially elided. {"surrogate", u"0123\U0001D11E\U0001D122x", u"0123\U0001D11E…"}, // Test combining character sequences. U+0915 U+093F forms a compound // glyph, as does U+0915 U+0942. The first should be kept; the second // removed. No combining sequence should be partially elided. {"combining", u"0123\u0915\u093f\u0915\u0942456", u"0123\u0915\u093f…"}, // U+05E9 U+05BC U+05C1 U+05B8 forms a four-character compound glyph. // It should be either fully elided, or not elided at all. If completely // elided, an LTR Mark (U+200E) should be added. {"grapheme1", u"0\u05e9\u05bc\u05c1\u05b8", u"0\u05e9\u05bc\u05c1\u05b8"}, {"grapheme2", u"0\u05e9\u05bc\u05c1\u05b8abc", u"0…\u200E"}, {"grapheme3", u"01\u05e9\u05bc\u05c1\u05b8abc", u"01…\u200E"}, {"grapheme4", u"012\u05e9\u05bc\u05c1\u05b8abc", u"012…\u200E"}, // 𝄞 (U+1D11E, MUSICAL SYMBOL G CLEF) should be fully elided. {"emoji", u"012\U0001D11Ex", u"012…"}, // Whitespace elision tests. {"empty_no_elision", u"", u"", 0, kForceNoWhitespaceElision}, {"empty_elision", u"", u"", 0, kForceWhitespaceElision}, {"letter_weak_2_no_elision", u" . ", u" …", 2, kForceNoWhitespaceElision}, {"xyz_no_elision", u" x xyz", u" x …", 5, kForceNoWhitespaceElision}, {"xyz_elision", u" x xyz", u" x…", 5, kForceWhitespaceElision}, {"ltr_rtl_elision4", u"x ב y ג", u"x…", 4, kForceWhitespaceElision}, {"ltr_rtl_elision5", u"x ב y ג", u"x ב…\u200F", 5, kForceWhitespaceElision}, {"ltr_rtl_elision9", u"x ב y ג", u"x ב y…", 9, kForceWhitespaceElision}, // Emoji U+1F601 and emoji U+1F321 U+FE0E are graphemes that result in // one glyph each. Eliding a glyph must remove the whole grapheme. It is // invalid to break a grapheme in pieces. {"graphemes_elision3", u" \U0001F601 \U0001F321\uFE0E ", u"…", 3, kForceWhitespaceElision}, {"graphemes_elision6", u" \U0001F601 \U0001F321\uFE0E ", u" \U0001F601…", 6, kForceWhitespaceElision}, {"graphemes_elision7", u" \U0001F601 \U0001F321\uFE0E ", u" \U0001F601 \U0001F321\uFE0E…", 7, kForceWhitespaceElision}, }; INSTANTIATE_TEST_SUITE_P( ElideTail, RenderTextTestWithElideTextCase, testing::Combine(testing::Values(ElideTextTestOptions{ELIDE_TAIL}), testing::ValuesIn(kElideTailTextCases)), RenderTextTestWithElideTextCase::ParamInfoToString); const ElideTextCase kElideTruncateTextCases[] = { {"empty", u"", u""}, {"letter_m_tail0", u"M", u""}, {"letter_m_tail1", u"M", u"M"}, {"no_eliding", u"012ab", u"012ab"}, {"ltr_3", u"abc", u"abc"}, {"ltr_2", u"abc", u"ab"}, {"ltr_1", u"abc", u"a"}, {"ltr_0", u"abc", u""}, {"rtl_3", u"אבג", u"אבג"}, {"rtl_2", u"אבג", u"אב"}, {"rtl_1", u"אבג", u"א"}, {"rtl_0", u"אבג", u""}, {"ltr_rtl_5", u"abcאבג", u"abcאב"}, {"ltr_rtl_4", u"abcאבג", u"abcא"}, {"ltr_rtl_3", u"abcאבג", u"abc"}, {"ltr_rtl_2", u"abcאבג", u"ab"}, {"rtl_ltr_5", u"אבגabc", u"אבגab"}, {"rtl_ltr_4", u"אבגabc", u"אבגa"}, {"rtl_ltr_3", u"אבגabc", u"אבג"}, {"rtl_ltr_2", u"אבגabc", u"אב"}, {"bidi_1", u"012aבbבc", u"012aבbב"}, {"bidi_2", u"012aבbבc", u"012aבb"}, {"bidi_3", u"012aבbבc", u"012aב"}, {"bidi_4", u"012aבbבc", u"012aב"}, // Test surrogate pairs. The first pair 𝄞 'MUSICAL SYMBOL G CLEF' U+1D11E // should be kept, and the second pair 𝄢 'MUSICAL SYMBOL F CLEF' U+1D122 // should be removed. No surrogate pair should be partially elided. {"surrogate1", u"0123\U0001D11E\U0001D122x", u"0123\U0001D11E\U0001D122"}, {"surrogate2", u"0123\U0001D11E\U0001D122x", u"0123\U0001D11E"}, {"surrogate3", u"0123\U0001D11E\U0001D122x", u"0123"}, // Test combining character sequences. U+0915 U+093F forms a compound // glyph, as does U+0915 U+0942. The first should be kept; the second // removed. No combining sequence should be partially elided. {"combining", u"0123\u0915\u093f\u0915\u0942456", u"0123\u0915\u093f"}, // 𝄞 (U+1D11E, MUSICAL SYMBOL G CLEF) should be fully elided. {"emoji1", u"012\U0001D11Ex", u"012\U0001D11E"}, {"emoji2", u"012\U0001D11Ex", u"012"}, // Whitespace elision tests. {"empty_no_elision", u"", u"", 0, kForceNoWhitespaceElision}, {"empty_elision", u"", u"", 0, kForceWhitespaceElision}, {"xyz_no_elision", u" x xyz", u" x ", 5, kForceNoWhitespaceElision}, {"xyz_elision", u" x xyz", u" x", 5, kForceWhitespaceElision}, {"ltr_rtl_elision3", u"x ב y ג", u"x", 3, kForceWhitespaceElision}, {"ltr_rtl_elision4", u"x ב y ג", u"x ב", 4, kForceWhitespaceElision}, {"ltr_rtl_elision5", u"x ב y ג", u"x ב", 5, kForceWhitespaceElision}, {"ltr_rtl_elision9", u"x ב y ג", u"x ב y", 9, kForceWhitespaceElision}, // Emoji U+1F601 and emoji U+1F321 U+FE0E are graphemes that result in // one glyph each. Eliding a glyph must remove the whole grapheme. It is // invalid to break a grapheme in pieces. {"graphemes_elision2", u" \U0001F601 \U0001F321\uFE0E ", u"", 2, kForceWhitespaceElision}, {"graphemes_elision3", u" \U0001F601 \U0001F321\uFE0E ", u" \U0001F601", 3, kForceWhitespaceElision}, {"graphemes_elision5", u" \U0001F601 \U0001F321\uFE0E ", u" \U0001F601", 5, kForceWhitespaceElision}, {"graphemes_elision6", u" \U0001F601 \U0001F321\uFE0E ", u" \U0001F601 \U0001F321\uFE0E", 6, kForceWhitespaceElision}, {"graphemes_elision7", u" \U0001F601 \U0001F321\uFE0E ", u" \U0001F601 \U0001F321\uFE0E", 7, kForceWhitespaceElision}, }; INSTANTIATE_TEST_SUITE_P( ElideTruncate, RenderTextTestWithElideTextCase, testing::Combine(testing::Values(ElideTextTestOptions{TRUNCATE}), testing::ValuesIn(kElideTruncateTextCases)), RenderTextTestWithElideTextCase::ParamInfoToString); const ElideTextCase kElideEmailTextCases[] = { // Invalid email text. {"empty", u"", u""}, {"invalid_char1", u"x", u""}, {"invalid_char3", u"xyz", u"x…"}, {"invalid_amp", u"@", u""}, {"invalid_no_prefix0", u"@y", u""}, {"invalid_no_prefix1", u"@y", u"…"}, {"invalid_no_prefix2", u"@xyz", u"@x…"}, {"invalid_no_suffix0", u"x@", u""}, {"invalid_no_suffix1", u"x@", u"…"}, {"invalid_no_suffix2", u"xyz@", u"x…@"}, {"at1", u"@", u"@"}, {"at2", u"@@", u"…", 1}, {"at3", u"@@@", u"…", 2}, {"at4", u"@@@@", u"@…@", 3}, {"small1", u"a@b", u"…", 1}, {"small2", u"a@b", u"…", 2}, {"small3", u"a@b", u"a@b", 3}, {"small_username3", u"xyz@b", u"…", 3}, {"small_username4", u"xyz@b", u"x…@b", 4}, {"small_username5", u"xyz@b", u"xyz@b", 5}, {"small_domain3", u"a@xyz", u"…", 3}, {"small_domain4", u"a@xyz", u"a@x…", 4}, {"small_domain5", u"a@xyz", u"a@xyz", 5}, // Valid email. {"email_small", u"a@b.com", u"…"}, {"email_nobody3", u"nobody@gmail.com", u"…", 3}, {"email_nobody4", u"nobody@gmail.com", u"…", 4}, {"email_nobody5", u"nobody@gmail.com", u"n…@g…", 5}, {"email_nobody6", u"nobody@gmail.com", u"no…@g…", 6}, {"email_nobody7", u"nobody@gmail.com", u"no…@g…m", 7}, {"email_nobody8", u"nobody@gmail.com", u"nob…@g…m", 8}, {"email_nobody9", u"nobody@gmail.com", u"nob…@gm…m", 9}, {"email_nobody10", u"nobody@gmail.com", u"nobo…@gm…m", 10}, {"email_root", u"root@localhost", u"r…@l…", 5}, {"email_myself", u"myself@127.0.0.1", u"my…@1…", 6}, }; INSTANTIATE_TEST_SUITE_P( ElideEmail, RenderTextTestWithElideTextCase, testing::Combine(testing::Values(ElideTextTestOptions{ELIDE_EMAIL}), testing::ValuesIn(kElideEmailTextCases)), RenderTextTestWithElideTextCase::ParamInfoToString); TEST_F(RenderTextTest, ElidedText_NoTrimWhitespace) { // This test requires glyphs to be the same width. constexpr int kGlyphWidth = 10; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); gfx::test::RenderTextTestApi render_text_test_api(render_text); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetWhitespaceElision(false); // Pick a sufficiently long string that's mostly whitespace. // Tail-eliding this with whitespace elision turned off should look like: // [ ...] // and not like: // [... ] constexpr char16_t kInputString[] = u" foo"; render_text->SetText(kInputString); // Choose a width based on being able to display 12 characters (one of which // will be the trailing ellipsis). constexpr int kDesiredChars = 12; constexpr int kRequiredWidth = (kDesiredChars + 0.5f) * kGlyphWidth; render_text->SetDisplayRect(Rect(0, 0, kRequiredWidth, 100)); // Verify this doesn't change the full text. EXPECT_EQ(kInputString, render_text->text()); // Verify that the string is truncated to |kDesiredChars| with the ellipsis. const std::u16string result = render_text->GetDisplayText(); const std::u16string expected = std::u16string(kInputString).substr(0, kDesiredChars - 1) + kEllipsisUTF16[0]; EXPECT_EQ(expected, result); } TEST_F(RenderTextTest, SetElideBehavior) { // This test requires glyphs to be the same width. constexpr int kGlyphWidth = 10; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdef"); render_text->SetCursorEnabled(false); render_text->SetDisplayRect(Rect(0, 0, 3 * kGlyphWidth, 100)); render_text->SetElideBehavior(ELIDE_TAIL); EXPECT_EQ(u"ab…", render_text->GetDisplayText()); // Setting a different eliding behavior must trigger a relayout. render_text->SetElideBehavior(ELIDE_HEAD); EXPECT_EQ(u"…ef", render_text->GetDisplayText()); } TEST_F(RenderTextTest, SetWhitespaceElision) { // This test requires glyphs to be the same width. constexpr int kGlyphWidth = 10; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->SetText(u"a b c d"); render_text->SetCursorEnabled(false); render_text->SetDisplayRect(Rect(0, 0, 3 * kGlyphWidth, 100)); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetWhitespaceElision(false); EXPECT_EQ(u"a …", render_text->GetDisplayText()); // Setting a different whitespace elision must trigger a relayout. render_text->SetWhitespaceElision(true); EXPECT_EQ(u"a…", render_text->GetDisplayText()); } TEST_F(RenderTextTest, ElidedObscuredText) { auto expected_render_text = std::make_unique(); expected_render_text->SetDisplayRect(Rect(0, 0, 9999, 100)); const char16_t elided_obscured_text[] = {RenderText::kPasswordReplacementChar, RenderText::kPasswordReplacementChar, kEllipsisUTF16[0], 0}; expected_render_text->SetText(elided_obscured_text); RenderText* render_text = GetRenderText(); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect( Rect(0, 0, expected_render_text->GetContentWidth(), 100)); render_text->SetObscured(true); render_text->SetText(u"abcdef"); EXPECT_EQ(u"abcdef", render_text->text()); EXPECT_EQ(elided_obscured_text, render_text->GetDisplayText()); } TEST_F(RenderTextTest, MultilineElide) { RenderText* render_text = GetRenderText(); std::u16string input_text; // Aim for 3 lines of text. for (int i = 0; i < 20; ++i) input_text.append(u"hello world "); render_text->SetText(input_text); // Apply a style that tweaks the layout to make sure elision is calculated // with these styles. This can expose a behavior in layout where text is // slightly different width. This must be done after |SetText()|. render_text->ApplyWeight(Font::Weight::BOLD, Range(1, 20)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(1, 20)); render_text->SetMultiline(true); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetMaxLines(3); const Size size = render_text->GetStringSize(); // Fit in 3 lines. (If we knew the width of a word, we could // anticipate word wrap better.) render_text->SetDisplayRect(Rect((size.width() + 96) / 3, 0)); // Trigger rendering. render_text->GetStringSize(); EXPECT_EQ(input_text, render_text->GetDisplayText()); std::u16string actual_text; // Try widening the space gradually, one pixel at a time, trying // to trigger a failure in layout. There was an issue where, right at // the edge of a word getting truncated, the estimate would be wrong // and it would wrap instead. for (int i = (size.width() - 12) / 3; i < (size.width() + 30) / 3; ++i) { render_text->SetDisplayRect(Rect(i, 0)); // Trigger rendering. render_text->GetStringSize(); actual_text = render_text->GetDisplayText(); EXPECT_LT(actual_text.size(), input_text.size()); EXPECT_EQ(actual_text, input_text.substr(0, actual_text.size() - 1) + std::u16string(kEllipsisUTF16)); EXPECT_EQ(3U, render_text->GetNumLines()); } // Now remove line restriction. render_text->SetMaxLines(0); render_text->GetStringSize(); EXPECT_EQ(input_text, render_text->GetDisplayText()); // And put it back. render_text->SetMaxLines(3); render_text->GetStringSize(); EXPECT_LT(actual_text.size(), input_text.size()); EXPECT_EQ(actual_text, input_text.substr(0, actual_text.size() - 1) + std::u16string(kEllipsisUTF16)); } TEST_F(RenderTextTest, MultilineElideWrap) { RenderText* render_text = GetRenderText(); std::u16string input_text; for (int i = 0; i < 20; ++i) input_text.append(u"hello world "); render_text->SetText(input_text); render_text->SetMultiline(true); render_text->SetMaxLines(3); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(30, 0)); // ELIDE_LONG_WORDS doesn't make sense in multiline, and triggers assertion // failure. const WordWrapBehavior wrap_behaviors[] = { IGNORE_LONG_WORDS, TRUNCATE_LONG_WORDS, WRAP_LONG_WORDS}; for (auto wrap_behavior : wrap_behaviors) { render_text->SetWordWrapBehavior(wrap_behavior); render_text->GetStringSize(); std::u16string actual_text = render_text->GetDisplayText(); EXPECT_LE(actual_text.size(), input_text.size()); EXPECT_EQ(actual_text, input_text.substr(0, actual_text.size() - 1) + std::u16string(kEllipsisUTF16)); EXPECT_LE(render_text->GetNumLines(), 3U); } } // TODO(crbug.com/866720): The current implementation of eliding is not aware // of text styles. The elide text algorithm doesn't take into account the style // properties when eliding the text. This lead to incorrect text size when the // styles are applied. TEST_F(RenderTextTest, DISABLED_MultilineElideWrapWithStyle) { RenderText* render_text = GetRenderText(); std::u16string input_text; for (int i = 0; i < 20; ++i) input_text.append(u"hello world "); render_text->SetText(input_text); render_text->ApplyWeight(Font::Weight::BOLD, Range(1, 20)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(1, 20)); render_text->SetMultiline(true); render_text->SetMaxLines(3); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(30, 0)); // ELIDE_LONG_WORDS doesn't make sense in multiline, and triggers assertion // failure. const WordWrapBehavior wrap_behaviors[] = { IGNORE_LONG_WORDS, TRUNCATE_LONG_WORDS, WRAP_LONG_WORDS}; for (auto wrap_behavior : wrap_behaviors) { render_text->SetWordWrapBehavior(wrap_behavior); render_text->GetStringSize(); std::u16string actual_text = render_text->GetDisplayText(); EXPECT_LE(actual_text.size(), input_text.size()); EXPECT_EQ(actual_text, input_text.substr(0, actual_text.size() - 1) + std::u16string(kEllipsisUTF16)); EXPECT_LE(render_text->GetNumLines(), 3U); } } TEST_F(RenderTextTest, MultilineElideWrapStress) { RenderText* render_text = GetRenderText(); std::u16string input_text; for (int i = 0; i < 20; ++i) input_text.append(u"hello world "); render_text->SetText(input_text); render_text->SetMultiline(true); render_text->SetMaxLines(3); render_text->SetElideBehavior(ELIDE_TAIL); // ELIDE_LONG_WORDS doesn't make sense in multiline, and triggers assertion // failure. const WordWrapBehavior wrap_behaviors[] = { IGNORE_LONG_WORDS, TRUNCATE_LONG_WORDS, WRAP_LONG_WORDS}; for (auto wrap_behavior : wrap_behaviors) { for (int i = 1; i < 60; ++i) { SCOPED_TRACE(base::StringPrintf( "MultilineElideWrapStress wrap_behavior = %d, width = %d", wrap_behavior, i)); render_text->SetDisplayRect(Rect(i, 0)); render_text->SetWordWrapBehavior(wrap_behavior); render_text->GetStringSize(); std::u16string actual_text = render_text->GetDisplayText(); EXPECT_LE(actual_text.size(), input_text.size()); EXPECT_LE(render_text->GetNumLines(), 3U); } } } // TODO(crbug.com/866720): The current implementation of eliding is not aware // of text styles. The elide text algorithm doesn't take into account the style // properties when eliding the text. This lead to incorrect text size when the // styles are applied. TEST_F(RenderTextTest, DISABLED_MultilineElideWrapStressWithStyle) { RenderText* render_text = GetRenderText(); std::u16string input_text; for (int i = 0; i < 20; ++i) input_text.append(u"hello world "); render_text->SetText(input_text); render_text->ApplyWeight(Font::Weight::BOLD, Range(1, 20)); render_text->SetMultiline(true); render_text->SetMaxLines(3); render_text->SetElideBehavior(ELIDE_TAIL); // ELIDE_LONG_WORDS doesn't make sense in multiline, and triggers assertion // failure. const WordWrapBehavior wrap_behaviors[] = { IGNORE_LONG_WORDS, TRUNCATE_LONG_WORDS, WRAP_LONG_WORDS}; for (auto wrap_behavior : wrap_behaviors) { for (int i = 1; i < 60; ++i) { SCOPED_TRACE(base::StringPrintf( "MultilineElideWrapStress wrap_behavior = %d, width = %d", wrap_behavior, i)); render_text->SetDisplayRect(Rect(i, 0)); render_text->SetWordWrapBehavior(wrap_behavior); render_text->GetStringSize(); std::u16string actual_text = render_text->GetDisplayText(); EXPECT_LE(actual_text.size(), input_text.size()); EXPECT_LE(render_text->GetNumLines(), 3U); } } } TEST_F(RenderTextTest, MultilineElideRTL) { RenderText* render_text = GetRenderText(); SetGlyphWidth(5); std::u16string input_text(u"זהו המסר של ההודעה"); render_text->SetText(input_text); render_text->SetCursorEnabled(false); render_text->SetMultiline(true); render_text->SetMaxLines(1); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(45, 0)); render_text->GetStringSize(); EXPECT_EQ(render_text->GetDisplayText(), input_text.substr(0, 8) + std::u16string(kEllipsisUTF16)); EXPECT_EQ(render_text->GetNumLines(), 1U); } TEST_F(RenderTextTest, MultilineElideBiDi) { RenderText* render_text = GetRenderText(); SetGlyphWidth(5); std::u16string input_text(u"אa\nbcdבגדהefg\nhו"); render_text->SetText(input_text); render_text->SetCursorEnabled(false); render_text->SetMultiline(true); render_text->SetMaxLines(2); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(30, 0)); test_api()->EnsureLayout(); EXPECT_EQ(render_text->GetDisplayText(), u"אa\nbcdבג" + std::u16string(kEllipsisUTF16)); EXPECT_EQ(render_text->GetNumLines(), 2U); } TEST_F(RenderTextTest, MultilineElideLinebreak) { RenderText* render_text = GetRenderText(); SetGlyphWidth(5); std::u16string input_text(u"hello\nworld"); render_text->SetText(input_text); render_text->SetCursorEnabled(false); render_text->SetMultiline(true); render_text->SetMaxLines(1); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(100, 0)); render_text->GetStringSize(); EXPECT_EQ(render_text->GetDisplayText(), input_text.substr(0, 5) + std::u16string(kEllipsisUTF16)); EXPECT_EQ(render_text->GetNumLines(), 1U); } TEST_F(RenderTextTest, ElidedStyledTextRtl) { static const char16_t* kInputTexts[] = { u"http://ar.wikipedia.com/فحص", u"testحص,", u"حص,test", u"…", u"…test", u"test…", u"حص,test…", u"ٱ", u"\uFEFF", // BOM: Byte Order Marker u"…\u200F", // Right to left marker. }; for (const auto* raw_text : kInputTexts) { std::u16string input_text(raw_text); SCOPED_TRACE(u"ElidedStyledTextRtl text = " + input_text); RenderText* render_text = GetRenderText(); render_text->SetText(input_text); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetStyle(TEXT_STYLE_STRIKE, true); render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_LTR); constexpr int kMaxContentWidth = 2000; for (int i = 0; i < kMaxContentWidth; ++i) { SCOPED_TRACE(base::StringPrintf("ElidedStyledTextRtl width = %d", i)); render_text->SetDisplayRect(Rect(i, 20)); render_text->GetStringSize(); std::u16string display_text = render_text->GetDisplayText(); EXPECT_LE(display_text.size(), input_text.size()); // Every size of content width was tried. if (display_text == input_text) break; } } } TEST_F(RenderTextTest, ElidedEmail) { RenderText* render_text = GetRenderText(); render_text->SetText(u"test@example.com"); const Size size = render_text->GetStringSize(); const std::u16string long_email = u"longemailaddresstest@example.com"; render_text->SetText(long_email); render_text->SetElideBehavior(ELIDE_EMAIL); render_text->SetDisplayRect(Rect(size)); EXPECT_GE(size.width(), render_text->GetStringSize().width()); EXPECT_GT(long_email.size(), render_text->GetDisplayText().size()); } TEST_F(RenderTextTest, TruncatedText) { struct { const char16_t* text; const char16_t* display_text; } cases[] = { // Strings shorter than the truncation length should be laid out in full. {u"", u""}, {u" . ", u" . "}, // a wide kWeak {u"abc", u"abc"}, // a wide kLtr {u"אבג", u"אבג"}, // a wide kRtl {u"aאב", u"aאב"}, // a wide kLtrRtl {u"aבb", u"aבb"}, // a wide kLtrRtlLtr {u"אבa", u"אבa"}, // a wide kRtlLtr {u"אaב", u"אaב"}, // a wide kRtlLtrRtl {u"01234", u"01234"}, // Long strings should be truncated with an ellipsis appended at the end. {u"012345", u"0123…"}, {u"012 . ", u"012 …"}, {u"012abc", u"012a…"}, {u"012aאב", u"012a…"}, {u"012aבb", u"012a…"}, {u"012אבג", u"012א…"}, {u"012אבa", u"012א…"}, {u"012אaב", u"012א…"}, // Surrogate pairs should be truncated reasonably enough. {u"0123\u0915\u093f", u"0123…"}, {u"\u05e9\u05bc\u05c1\u05b8", u"\u05e9\u05bc\u05c1\u05b8"}, {u"0\u05e9\u05bc\u05c1\u05b8", u"0\u05e9\u05bc\u05c1\u05b8"}, {u"01\u05e9\u05bc\u05c1\u05b8", u"01…"}, {u"012\u05e9\u05bc\u05c1\u05b8", u"012…"}, // Codepoint U+0001D11E is using 2x 16-bit characters. {u"0\U0001D11Eaaa", u"0\U0001D11Ea…"}, {u"01\U0001D11Eaaa", u"01\U0001D11E…"}, {u"012\U0001D11Eaaa", u"012…"}, {u"0123\U0001D11Eaaa", u"0123…"}, {u"01234\U0001D11Eaaa", u"0123…"}, // Combining codepoint should stay together. // (Letter 'e' U+0065 and acute accent U+0301). {u"0e\u0301aaa", u"0e\u0301a…"}, {u"01e\u0301aaa", u"01e\u0301…"}, {u"012e\u0301aaa", u"012…"}, // Emoji 'keycap letter 6'. {u"\u0036\uFE0F\u20E3aaa", u"\u0036\uFE0F\u20E3a…"}, {u"0\u0036\uFE0F\u20E3aaa", u"0\u0036\uFE0F\u20E3…"}, {u"01\u0036\uFE0F\u20E3aaa", u"01…"}, // Emoji 'pilot'. {u"\U0001F468\u200D\u2708\uFE0F", u"\U0001F468\u200D\u2708\uFE0F"}, {u"\U0001F468\u200D\u2708\uFE0F0", u"…"}, {u"0\U0001F468\u200D\u2708\uFE0F", u"0…"}, }; RenderText* render_text = GetRenderText(); render_text->set_truncate_length(5); for (size_t i = 0; i < base::size(cases); i++) { render_text->SetText(cases[i].text); EXPECT_EQ(cases[i].text, render_text->text()); EXPECT_EQ(cases[i].display_text, render_text->GetDisplayText()) << "For case " << i << ": " << cases[i].text; } } TEST_F(RenderTextTest, TruncatedObscuredText) { RenderText* render_text = GetRenderText(); render_text->set_truncate_length(3); render_text->SetObscured(true); render_text->SetText(u"abcdef"); EXPECT_EQ(u"abcdef", render_text->text()); EXPECT_EQ(GetObscuredString(3, 2, kEllipsisUTF16[0]), render_text->GetDisplayText()); } TEST_F(RenderTextTest, TruncatedObscuredTextWithGraphemes) { RenderText* render_text = GetRenderText(); render_text->set_truncate_length(3); render_text->SetText(u"e\u0301\U0001F468\u200D\u2708\uFE0F\U0001D11E"); render_text->SetObscured(true); EXPECT_EQ(GetObscuredString(3), render_text->GetDisplayText()); render_text->SetObscuredRevealIndex(0); EXPECT_EQ(u"e\u0301…", render_text->GetDisplayText()); render_text->SetObscuredRevealIndex(2); EXPECT_EQ(u"\u2022…", render_text->GetDisplayText()); render_text->SetObscuredRevealIndex(7); EXPECT_EQ(u"\u2022\u2022…", render_text->GetDisplayText()); } TEST_F(RenderTextTest, TruncatedCursorMovementLTR) { RenderText* render_text = GetRenderText(); render_text->set_truncate_length(2); render_text->SetText(u"abcd"); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(SelectionModel(4, CURSOR_FORWARD), render_text->selection_model()); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); // The cursor hops over the ellipsis and elided text to the line end. expected.push_back(SelectionModel(4, CURSOR_BACKWARD)); expected.push_back(SelectionModel(4, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); expected.clear(); expected.push_back(SelectionModel(4, CURSOR_FORWARD)); // The cursor hops over the elided text to preceeding text. expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); } TEST_F(RenderTextTest, TruncatedCursorMovementRTL) { RenderText* render_text = GetRenderText(); render_text->set_truncate_length(2); render_text->SetText(u"אבגד"); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(SelectionModel(4, CURSOR_FORWARD), render_text->selection_model()); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); // The cursor hops over the ellipsis and elided text to the line end. expected.push_back(SelectionModel(4, CURSOR_BACKWARD)); expected.push_back(SelectionModel(4, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); expected.clear(); expected.push_back(SelectionModel(4, CURSOR_FORWARD)); // The cursor hops over the elided text to preceeding text. expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); } TEST_F(RenderTextTest, MoveCursor_Character) { RenderText* render_text = GetRenderText(); render_text->SetText(u"123 456 789"); std::vector expected; // SELECTION_NONE. render_text->SelectRange(Range(6)); // Move right twice. expected.push_back(Range(7)); expected.push_back(Range(8)); RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE, &expected); // Move left twice. expected.push_back(Range(7)); expected.push_back(Range(6)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE, &expected); // SELECTION_CARET. render_text->SelectRange(Range(6)); expected.push_back(Range(6, 7)); // Move right. RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_CARET, &expected); // Move left twice. expected.push_back(Range(6)); expected.push_back(Range(6, 5)); RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_LEFT, SELECTION_CARET, &expected); // SELECTION_RETAIN. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 7)); RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_RETAIN, &expected); // Move left twice. expected.push_back(Range(6)); expected.push_back(Range(6, 5)); RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_LEFT, SELECTION_RETAIN, &expected); // SELECTION_EXTEND. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 7)); RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_EXTEND, &expected); // Move left twice. expected.push_back(Range(7, 6)); expected.push_back(Range(7, 5)); RunMoveCursorTestAndClearExpectations( render_text, CHARACTER_BREAK, CURSOR_LEFT, SELECTION_EXTEND, &expected); } TEST_F(RenderTextTest, MoveCursor_Word) { RenderText* render_text = GetRenderText(); render_text->SetText(u"123 456 789"); std::vector expected; // SELECTION_NONE. render_text->SelectRange(Range(6)); // Move left twice. expected.push_back(Range(4)); expected.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_NONE, &expected); // Move right twice. #if defined(OS_WIN) // Move word right includes space/punctuation. expected.push_back(Range(4)); expected.push_back(Range(8)); #else // Non-Windows: move word right does NOT include space/punctuation. expected.push_back(Range(3)); expected.push_back(Range(7)); #endif RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE, &expected); // SELECTION_CARET. render_text->SelectRange(Range(6)); // Move left. expected.push_back(Range(6, 4)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_CARET, &expected); // Move right twice. expected.push_back(Range(6)); #if defined(OS_WIN) // Select word right includes space/punctuation. expected.push_back(Range(6, 8)); #else // Non-Windows: select word right does NOT include space/punctuation. expected.push_back(Range(6, 7)); #endif RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_CARET, &expected); // Move left. expected.push_back(Range(6)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_CARET, &expected); // SELECTION_RETAIN. render_text->SelectRange(Range(6)); // Move left. expected.push_back(Range(6, 4)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_RETAIN, &expected); // Move right twice. #if defined(OS_WIN) // Select word right includes space/punctuation. expected.push_back(Range(6, 8)); #else // Non-Windows: select word right does NOT include space/punctuation. expected.push_back(Range(6, 7)); #endif expected.push_back(Range(6, 11)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_RETAIN, &expected); // Move left. expected.push_back(Range(6, 8)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_RETAIN, &expected); // SELECTION_EXTEND. render_text->SelectRange(Range(6)); // Move left. expected.push_back(Range(6, 4)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_EXTEND, &expected); // Move right twice. #if defined(OS_WIN) // Select word right includes space/punctuation. expected.push_back(Range(4, 8)); #else // Non-Windows: select word right does NOT include space/punctuation. expected.push_back(Range(4, 7)); #endif expected.push_back(Range(4, 11)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_EXTEND, &expected); // Move left. expected.push_back(Range(4, 8)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_EXTEND, &expected); } TEST_F(RenderTextTest, MoveCursor_Word_RTL) { RenderText* render_text = GetRenderText(); render_text->SetText(u"אבג דהו זחט"); std::vector expected; // SELECTION_NONE. render_text->SelectRange(Range(6)); // Move right twice. expected.push_back(Range(4)); expected.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE, &expected); // Move left twice. #if defined(OS_WIN) // Move word left includes space/punctuation. expected.push_back(Range(4)); expected.push_back(Range(8)); #else // Non-Windows: move word left does NOT include space/punctuation. expected.push_back(Range(3)); expected.push_back(Range(7)); #endif RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_NONE, &expected); // SELECTION_CARET. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 4)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_CARET, &expected); // Move left twice. expected.push_back(Range(6)); #if defined(OS_WIN) // Select word left includes space/punctuation. expected.push_back(Range(6, 8)); #else // Non-Windows: select word left does NOT include space/punctuation. expected.push_back(Range(6, 7)); #endif RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_CARET, &expected); // Move right. expected.push_back(Range(6)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_CARET, &expected); // SELECTION_RETAIN. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 4)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_RETAIN, &expected); // Move left twice. #if defined(OS_WIN) // Select word left includes space/punctuation. expected.push_back(Range(6, 8)); #else // Non-Windows: select word left does NOT include space/punctuation. expected.push_back(Range(6, 7)); #endif expected.push_back(Range(6, 11)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_RETAIN, &expected); // Move right. expected.push_back(Range(6, 8)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_RETAIN, &expected); // SELECTION_EXTEND. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 4)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_EXTEND, &expected); // Move left twice. #if defined(OS_WIN) // Select word left includes space/punctuation. expected.push_back(Range(4, 8)); #else // Non-Windows: select word left does NOT include space/punctuation. expected.push_back(Range(4, 7)); #endif expected.push_back(Range(4, 11)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_LEFT, SELECTION_EXTEND, &expected); // Move right. expected.push_back(Range(4, 8)); RunMoveCursorTestAndClearExpectations(render_text, WORD_BREAK, CURSOR_RIGHT, SELECTION_EXTEND, &expected); } TEST_F(RenderTextTest, MoveCursor_Line) { RenderText* render_text = GetRenderText(); render_text->SetText(u"123 456 789"); std::vector expected; for (auto break_type : {LINE_BREAK, FIELD_BREAK}) { // SELECTION_NONE. render_text->SelectRange(Range(6)); // Move right twice. expected.push_back(Range(11)); expected.push_back(Range(11)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_NONE, &expected); // Move left twice. expected.push_back(Range(0)); expected.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_LEFT, SELECTION_NONE, &expected); // SELECTION_CARET. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 11)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_CARET, &expected); // Move left twice. expected.push_back(Range(6)); expected.push_back(Range(6, 0)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_LEFT, SELECTION_CARET, &expected); // Move right. expected.push_back(Range(6)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_CARET, &expected); // SELECTION_RETAIN. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 11)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_RETAIN, &expected); // Move left twice. expected.push_back(Range(6, 0)); expected.push_back(Range(6, 0)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_LEFT, SELECTION_RETAIN, &expected); // Move right. expected.push_back(Range(6, 11)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_RETAIN, &expected); // SELECTION_EXTEND. render_text->SelectRange(Range(6)); // Move right. expected.push_back(Range(6, 11)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_EXTEND, &expected); // Move left twice. expected.push_back(Range(11, 0)); expected.push_back(Range(11, 0)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_LEFT, SELECTION_EXTEND, &expected); // Move right. expected.push_back(Range(0, 11)); RunMoveCursorTestAndClearExpectations(render_text, break_type, CURSOR_RIGHT, SELECTION_EXTEND, &expected); } } TEST_F(RenderTextTest, MoveCursor_UpDown) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(45, 1000)); render_text->SetMultiline(true); std::vector expected_lines; std::vector expected_range; for (auto* text : {u"123 456 123 456 ", u"אבג דהו זחט זחט "}) { render_text->SetText(text); EXPECT_EQ(2U, render_text->GetNumLines()); // SELECTION_NONE. render_text->SelectRange(Range(0)); ResetCursorX(); // Move down twice. expected_lines.push_back(1); expected_lines.push_back(1); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_lines); // Move up twice. expected_lines.push_back(0); expected_lines.push_back(0); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE, &expected_lines); // SELECTION_CARET. render_text->SelectRange(Range(0)); ResetCursorX(); // Move down twice. expected_range.push_back(Range(0, 8)); expected_range.push_back(Range(0, 16)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_CARET, &expected_range); // Move up twice. expected_range.push_back(Range(0, 8)); expected_range.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_CARET, &expected_range); } } TEST_F(RenderTextTest, MoveCursor_UpDown_Newline) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetText(u"123 456\n123 456 "); render_text->SetDisplayRect(Rect(100, 1000)); render_text->SetMultiline(true); EXPECT_EQ(2U, render_text->GetNumLines()); std::vector expected_lines; std::vector expected_range; // SELECTION_NONE. render_text->SelectRange(Range(0)); ResetCursorX(); // Move down twice. expected_lines.push_back(1); expected_lines.push_back(1); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_lines); // Move up twice. expected_lines.push_back(0); expected_lines.push_back(0); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE, &expected_lines); // SELECTION_CARET. render_text->SelectRange(Range(0)); ResetCursorX(); // Move down twice. expected_range.push_back(Range(0, 8)); expected_range.push_back(Range(0, 16)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_CARET, &expected_range); // Move up twice. expected_range.push_back(Range(0, 7)); expected_range.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_CARET, &expected_range); } TEST_F(RenderTextTest, MoveCursor_UpDown_EmptyLines) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetText(u"one\n\ntwo three"); render_text->SetDisplayRect(Rect(45, 1000)); render_text->SetMultiline(true); EXPECT_EQ(3U, render_text->GetNumLines()); std::vector expected_range; // Test up/down cursor movement at the start of the line. render_text->SelectRange(Range(0)); expected_range.push_back(Range(4)); expected_range.push_back(Range(5)); expected_range.push_back(Range(14)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_range); render_text->SelectRange(Range(5)); expected_range.push_back(Range(4)); expected_range.push_back(Range(0)); expected_range.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE, &expected_range); // Test up/down movement at the end of the line. render_text->SelectRange(Range(3)); expected_range.push_back(Range(4)); // TODO(crbug.com/1163587): This should actually be |8|, since |9| is the // beginning of the next line. This assert is left in for now to allow testing // the next expected position, which correctly ends up at |14|. expected_range.push_back(Range(9)); expected_range.push_back(Range(14)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_range); render_text->SelectRange(Range(14)); expected_range.push_back(Range(4)); expected_range.push_back(Range(3)); expected_range.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE, &expected_range); // Test up/down movement somewhere in the middle of the line. render_text->SelectRange(Range(2)); expected_range.push_back(Range(4)); expected_range.push_back(Range(7)); expected_range.push_back(Range(14)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_range); render_text->SelectRange(Range(7)); expected_range.push_back(Range(4)); expected_range.push_back(Range(2)); expected_range.push_back(Range(0)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE, &expected_range); } TEST_F(RenderTextTest, MoveCursor_UpDown_Cache) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetText(u"123 456\n\n123 456"); render_text->SetDisplayRect(Rect(45, 1000)); render_text->SetMultiline(true); EXPECT_EQ(3U, render_text->GetNumLines()); std::vector expected_lines; std::vector expected_range; // SELECTION_NONE. render_text->SelectRange(Range(2)); ResetCursorX(); // Move down twice. expected_range.push_back(Range(8)); expected_range.push_back(Range(11)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_range); // Move up twice. expected_range.push_back(Range(8)); expected_range.push_back(Range(2)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE, &expected_range); // Move left. expected_range.push_back(Range(1)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE, &expected_range); // Move down twice again. expected_range.push_back(Range(8)); expected_range.push_back(Range(10)); RunMoveCursorTestAndClearExpectations(render_text, CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE, &expected_range); } TEST_F(RenderTextTest, MoveCursorWithNewline) { RenderText* render_text = GetRenderText(); render_text->SetText(u"a\r\nb"); render_text->SetMultiline(false); EXPECT_EQ(1U, render_text->GetNumLines()); EXPECT_EQ(SelectionModel(0, CURSOR_BACKWARD), render_text->selection_model()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(SelectionModel(1, CURSOR_BACKWARD), render_text->selection_model()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(SelectionModel(3, CURSOR_BACKWARD), render_text->selection_model()); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(SelectionModel(4, CURSOR_FORWARD), render_text->selection_model()); } TEST_F(RenderTextTest, GetTextDirectionInvalidation) { RenderText* render_text = GetRenderText(); ASSERT_EQ(render_text->directionality_mode(), DIRECTIONALITY_FROM_TEXT); const base::i18n::TextDirection original_text_direction = render_text->GetTextDirection(); render_text->SetText(u"a"); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetTextDirection()); render_text->SetText(u"א"); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetTextDirection()); // The codepoints u+2026 (ellipsis) has no strong direction. render_text->SetText(u"…"); EXPECT_EQ(original_text_direction, render_text->GetTextDirection()); render_text->AppendText(u"a"); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetTextDirection()); render_text->SetText(u"…"); EXPECT_EQ(original_text_direction, render_text->GetTextDirection()); render_text->AppendText(u"א"); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetTextDirection()); } TEST_F(RenderTextTest, GetDisplayTextDirectionInvalidation) { RenderText* render_text = GetRenderText(); ASSERT_EQ(render_text->directionality_mode(), DIRECTIONALITY_FROM_TEXT); const base::i18n::TextDirection original_text_direction = render_text->GetDisplayTextDirection(); render_text->SetText(u"a"); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetDisplayTextDirection()); render_text->SetText(u"א"); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetDisplayTextDirection()); // The codepoints u+2026 (ellipsis) has no strong direction. render_text->SetText(u"…"); EXPECT_EQ(original_text_direction, render_text->GetDisplayTextDirection()); render_text->AppendText(u"a"); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetDisplayTextDirection()); render_text->SetText(u"…"); EXPECT_EQ(original_text_direction, render_text->GetDisplayTextDirection()); render_text->AppendText(u"א"); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetDisplayTextDirection()); } TEST_F(RenderTextTest, GetTextDirectionWithDifferentDirection) { SetGlyphWidth(10); RenderText* render_text = GetRenderText(); ASSERT_EQ(render_text->directionality_mode(), DIRECTIONALITY_FROM_TEXT); render_text->SetWhitespaceElision(false); render_text->SetText(u"123\u0638xyz"); render_text->SetElideBehavior(ELIDE_HEAD); render_text->SetDisplayRect(Rect(25, 100)); // The elided text is an ellipsis with neutral directionality, and a 'z' with // a strong LTR directionality. EXPECT_EQ(u"…z", render_text->GetDisplayText()); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetTextDirection()); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetDisplayTextDirection()); } TEST_F(RenderTextTest, DirectionalityInvalidation) { RenderText* render_text = GetRenderText(); ASSERT_EQ(render_text->directionality_mode(), DIRECTIONALITY_FROM_TEXT); // The codepoints u+2026 (ellipsis) has weak directionality. render_text->SetText(u"…"); const base::i18n::TextDirection original_text_direction = render_text->GetTextDirection(); render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_LTR); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetTextDirection()); EXPECT_EQ(base::i18n::LEFT_TO_RIGHT, render_text->GetDisplayTextDirection()); render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_RTL); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetTextDirection()); EXPECT_EQ(base::i18n::RIGHT_TO_LEFT, render_text->GetDisplayTextDirection()); render_text->SetDirectionalityMode(DIRECTIONALITY_FROM_TEXT); EXPECT_EQ(original_text_direction, render_text->GetTextDirection()); EXPECT_EQ(original_text_direction, render_text->GetDisplayTextDirection()); } TEST_F(RenderTextTest, MoveCursor_UpDown_Scroll) { RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(100, 30)); render_text->SetMultiline(true); render_text->SetVerticalAlignment(ALIGN_TOP); const size_t kLineSize = 50; std::u16string text; for (size_t i = 0; i < kLineSize - 1; ++i) text += u"a\n"; render_text->SetText(text); EXPECT_EQ(kLineSize, render_text->GetNumLines()); // Move cursor down with scroll. render_text->SelectRange(Range(0)); // |line_height| is the distance from the top. float line_height = render_text->GetLineSizeF(render_text->selection_model()).height(); for (size_t i = 1; i < kLineSize; ++i) { SCOPED_TRACE(base::StringPrintf("Testing line [%" PRIuS "]", i)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_DOWN, SELECTION_NONE); ASSERT_EQ(Range(i * 2), render_text->selection()); ASSERT_TRUE(render_text->display_rect().Contains( render_text->GetUpdatedCursorBounds())); line_height += render_text->GetLineSizeF(render_text->selection_model()).height(); ASSERT_FLOAT_EQ(test_api()->display_offset().y(), std::min(0.0f, 30.0f - line_height)); } // Move cursor up with scroll. // |line_height| is the distance from the bottom. line_height = render_text->GetLineSizeF(render_text->selection_model()).height(); int offset_y = test_api()->display_offset().y(); for (size_t i = kLineSize - 2; i != static_cast(-1); --i) { SCOPED_TRACE(base::StringPrintf("Testing line [%" PRIuS "]", i)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_UP, SELECTION_NONE); ASSERT_EQ(Range(i * 2), render_text->selection()); ASSERT_TRUE(render_text->display_rect().Contains( render_text->GetUpdatedCursorBounds())); line_height += render_text->GetLineSizeF(render_text->selection_model()).height(); ASSERT_FLOAT_EQ(test_api()->display_offset().y(), offset_y + std::max(0.0f, line_height - 30.0f)); } EXPECT_EQ(0, test_api()->display_offset().y()); } TEST_F(RenderTextTest, GetDisplayTextDirection) { struct { const char16_t* text; const base::i18n::TextDirection text_direction; } cases[] = { // Blank strings and those with no/weak directionality default to LTR. {u"", base::i18n::LEFT_TO_RIGHT}, {kWeak, base::i18n::LEFT_TO_RIGHT}, // Strings that begin with strong LTR characters. {kLtr, base::i18n::LEFT_TO_RIGHT}, {kLtrRtl, base::i18n::LEFT_TO_RIGHT}, {kLtrRtlLtr, base::i18n::LEFT_TO_RIGHT}, // Strings that begin with strong RTL characters. {kRtl, base::i18n::RIGHT_TO_LEFT}, {kRtlLtr, base::i18n::RIGHT_TO_LEFT}, {kRtlLtrRtl, base::i18n::RIGHT_TO_LEFT}, }; RenderText* render_text = GetRenderText(); const bool was_rtl = base::i18n::IsRTL(); for (size_t i = 0; i < 2; ++i) { // Toggle the application default text direction (to try each direction). SetRTL(!base::i18n::IsRTL()); const base::i18n::TextDirection ui_direction = base::i18n::IsRTL() ? base::i18n::RIGHT_TO_LEFT : base::i18n::LEFT_TO_RIGHT; // Ensure that directionality modes yield the correct text directions. for (size_t j = 0; j < base::size(cases); j++) { render_text->SetText(cases[j].text); render_text->SetDirectionalityMode(DIRECTIONALITY_FROM_TEXT); EXPECT_EQ(render_text->GetDisplayTextDirection(),cases[j].text_direction); render_text->SetDirectionalityMode(DIRECTIONALITY_FROM_UI); EXPECT_EQ(render_text->GetDisplayTextDirection(), ui_direction); render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_LTR); EXPECT_EQ(render_text->GetDisplayTextDirection(), base::i18n::LEFT_TO_RIGHT); render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_RTL); EXPECT_EQ(render_text->GetDisplayTextDirection(), base::i18n::RIGHT_TO_LEFT); render_text->SetDirectionalityMode(DIRECTIONALITY_AS_URL); EXPECT_EQ(render_text->GetDisplayTextDirection(), base::i18n::LEFT_TO_RIGHT); } } EXPECT_EQ(was_rtl, base::i18n::IsRTL()); // Ensure that text changes update the direction for DIRECTIONALITY_FROM_TEXT. render_text->SetDirectionalityMode(DIRECTIONALITY_FROM_TEXT); render_text->SetText(kLtr); EXPECT_EQ(render_text->GetDisplayTextDirection(), base::i18n::LEFT_TO_RIGHT); render_text->SetText(kRtl); EXPECT_EQ(render_text->GetDisplayTextDirection(), base::i18n::RIGHT_TO_LEFT); } struct GetTextIndexOfLineCase { const char* test_name; const char16_t* const text; const std::vector line_breaks; const bool set_word_wrap = false; const bool set_obscured = false; }; class RenderTextTestWithGetTextIndexOfLineCase : public RenderTextTest, public ::testing::WithParamInterface { public: static std::string ParamInfoToString( ::testing::TestParamInfo param_info) { return param_info.param.test_name; } }; TEST_P(RenderTextTestWithGetTextIndexOfLineCase, GetTextIndexOfLine) { GetTextIndexOfLineCase param = GetParam(); RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); SetGlyphWidth(10); if (param.set_word_wrap) { render_text->SetDisplayRect(Rect(1, 1000)); render_text->SetWordWrapBehavior(WRAP_LONG_WORDS); } render_text->SetObscured(param.set_obscured); render_text->SetText(param.text); for (size_t i = 0; i < param.line_breaks.size(); ++i) { EXPECT_EQ(param.line_breaks[i], render_text->GetTextIndexOfLine(i)); } } const GetTextIndexOfLineCase kGetTextIndexOfLineCases[] = { {"emptyString", u"", {0}}, // The following test strings are three character strings. // The word wrap makes each character fall on a new line. {"kWeak_minWidth", u" . ", {0, 1, 2}, kUseWordWrap}, {"kLtr_minWidth", u"abc", {0, 1, 2}, kUseWordWrap}, {"kLtrRtl_minWidth", u"aאב", {0, 1, 2}, kUseWordWrap}, {"kLtrRtlLtr_minWidth", u"aבb", {0, 1, 2}, kUseWordWrap}, {"kRtl_minWidth", u"אבג", {0, 1, 2}, kUseWordWrap}, {"kRtlLtr_minWidth", u"אבa", {0, 1, 2}, kUseWordWrap}, {"kRtlLtrRtl_minWidth", u"אaב", {0, 1, 2}, kUseWordWrap}, // The following test strings have 2 graphemes separated by a newline. // The obscured text replace each grapheme by a single codepoint. {"grapheme_unobscured", u"\U0001F601\n\U0001F468\u200D\u2708\uFE0F\nx", {0, 3, 9}}, {"grapheme_obscured", u"\U0001F601\n\U0001F468\u200D\u2708\uFE0F\nx", {0, 3, 9}, !kUseWordWrap, kUseObscuredText}, // The following test strings have a new line character. {"basic_newLine", u"abc\ndef", {0, 4}}, {"basic_newLineWindows", u"abc\r\ndef", {0, 5}}, {"spaces_newLine", u"a \n b ", {0, 3}}, {"spaces_newLineWindows", u"a \r\n b ", {0, 4}}, {"double_newLine", u"a\n\nb", {0, 2, 3}}, {"double_newLineWindows", u"a\r\n\r\nb", {0, 3, 5}}, {"start_newLine", u"\nab", {0, 1}}, {"start_newLineWindows", u"\r\nab", {0, 2}}, {"end_newLine", u"ab\n", {0}}, {"end_newLineWindows", u"ab\r\n", {0}}, {"isolated_newLine", u"\n", {0}}, {"isolated_newLineWindows", u"\r\n", {0}}, {"isolatedDouble_newLine", u"\n\n", {0, 1}}, {"isolatedDouble_newLineWindows", u"\r\n\r\n", {0, 2}}, // The following test strings have unicode characters. {"playSymbol_unicode", u"x\n\u25B6\ny", {0, 2, 4}}, {"emoji_unicode", u"x\n\U0001F601\ny\n\u2728\nz", {0, 2, 5, 7, 9}}, {"flag_unicode", u"🇬🇧\n🇯🇵", {0, 5}, false, false}, // The following cases test that GetTextIndexOfLine returns the length of // the text when passed a line index larger than the number of lines. {"basic_outsideRange", u"abc", {0, 1, 2, 3, 3}, kUseWordWrap}, {"emptyString_outsideRange", u"", {0, 0, 0}}, {"newLine_outsideRange", u"\n", {0, 1, 1}}, {"newLineWindows_outsideRange", u"\r\n", {0, 2, 2, 2}}, {"doubleNewLine_outsideRange", u"\n\n", {0, 1, 2, 2}}, {"doubleNewLineWindows_outsideRange", u"\r\n\r\n", {0, 2, 4, 4}}, }; INSTANTIATE_TEST_SUITE_P( GetTextIndexOfLine, RenderTextTestWithGetTextIndexOfLineCase, ::testing::ValuesIn(kGetTextIndexOfLineCases), RenderTextTestWithGetTextIndexOfLineCase::ParamInfoToString); TEST_F(RenderTextTest, MoveCursorLeftRightInLtr) { RenderText* render_text = GetRenderText(); // Pure LTR. render_text->SetText(u"abc"); // |expected| saves the expected SelectionModel when moving cursor from left // to right. std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); expected.push_back(SelectionModel(2, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); expected.clear(); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); expected.push_back(SelectionModel(2, CURSOR_FORWARD)); expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); } TEST_F(RenderTextTest, MoveCursorLeftRightInLtrRtl) { RenderText* render_text = GetRenderText(); // LTR-RTL render_text->SetText(u"abcאבג"); // The last one is the expected END position. std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); expected.push_back(SelectionModel(2, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_BACKWARD)); expected.push_back(SelectionModel(5, CURSOR_FORWARD)); expected.push_back(SelectionModel(4, CURSOR_FORWARD)); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); expected.push_back(SelectionModel(6, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); expected.clear(); expected.push_back(SelectionModel(6, CURSOR_FORWARD)); expected.push_back(SelectionModel(4, CURSOR_BACKWARD)); expected.push_back(SelectionModel(5, CURSOR_BACKWARD)); expected.push_back(SelectionModel(6, CURSOR_BACKWARD)); expected.push_back(SelectionModel(2, CURSOR_FORWARD)); expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); } TEST_F(RenderTextTest, MoveCursorLeftRightInLtrRtlLtr) { RenderText* render_text = GetRenderText(); // LTR-RTL-LTR. render_text->SetText(u"aבb"); std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(3, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); expected.clear(); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); expected.push_back(SelectionModel(2, CURSOR_FORWARD)); expected.push_back(SelectionModel(2, CURSOR_BACKWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); } TEST_F(RenderTextTest, MoveCursorLeftRightInRtl) { RenderText* render_text = GetRenderText(); // Pure RTL. render_text->SetText(u"אבג"); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); expected.push_back(SelectionModel(2, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); expected.clear(); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); expected.push_back(SelectionModel(2, CURSOR_FORWARD)); expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); } TEST_F(RenderTextTest, MoveCursorLeftRightInRtlLtr) { RenderText* render_text = GetRenderText(); // RTL-LTR render_text->SetText(u"אבגabc"); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); expected.push_back(SelectionModel(2, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_BACKWARD)); expected.push_back(SelectionModel(5, CURSOR_FORWARD)); expected.push_back(SelectionModel(4, CURSOR_FORWARD)); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); expected.push_back(SelectionModel(6, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); expected.clear(); expected.push_back(SelectionModel(6, CURSOR_FORWARD)); expected.push_back(SelectionModel(4, CURSOR_BACKWARD)); expected.push_back(SelectionModel(5, CURSOR_BACKWARD)); expected.push_back(SelectionModel(6, CURSOR_BACKWARD)); expected.push_back(SelectionModel(2, CURSOR_FORWARD)); expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); } TEST_F(RenderTextTest, MoveCursorLeftRightInRtlLtrRtl) { RenderText* render_text = GetRenderText(); // RTL-LTR-RTL. render_text->SetText(u"אaב"); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); std::vector expected; expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_BACKWARD)); expected.push_back(SelectionModel(1, CURSOR_FORWARD)); expected.push_back(SelectionModel(3, CURSOR_BACKWARD)); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_LEFT); expected.clear(); expected.push_back(SelectionModel(3, CURSOR_FORWARD)); expected.push_back(SelectionModel(2, CURSOR_FORWARD)); expected.push_back(SelectionModel(2, CURSOR_BACKWARD)); expected.push_back(SelectionModel(0, CURSOR_FORWARD)); expected.push_back(SelectionModel(0, CURSOR_BACKWARD)); RunMoveCursorLeftRightTest(render_text, expected, CURSOR_RIGHT); } TEST_F(RenderTextTest, MoveCursorLeftRight_ComplexScript) { RenderText* render_text = GetRenderText(); render_text->SetText(u"\u0915\u093f\u0915\u094d\u0915"); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(2U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(5U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(5U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(2U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); } TEST_F(RenderTextTest, MoveCursorLeftRight_MeiryoUILigatures) { RenderText* render_text = GetRenderText(); // Meiryo UI uses single-glyph ligatures for 'ff' and 'ffi', but each letter // (code point) has unique bounds, so mid-glyph cursoring should be possible. render_text->SetFontList(FontList("Meiryo UI, 12px")); render_text->SetText(u"ff ffi"); render_text->SetDisplayRect(gfx::Rect(100, 100)); EXPECT_EQ(0U, render_text->cursor_position()); gfx::Rect last_selection_bounds = GetSelectionBoundsUnion(); for (size_t i = 0; i < render_text->text().length(); ++i) { render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_RETAIN); EXPECT_EQ(i + 1, render_text->cursor_position()); // Verify the selection bounds also increase and that the correct bounds are // returned even when the grapheme boundary lies within a glyph. const gfx::Rect selection_bounds = GetSelectionBoundsUnion(); EXPECT_GT(selection_bounds.right(), last_selection_bounds.right()); EXPECT_EQ(selection_bounds.x(), last_selection_bounds.x()); last_selection_bounds = selection_bounds; } EXPECT_EQ(6U, render_text->cursor_position()); } TEST_F(RenderTextTest, GraphemeIterator) { RenderText* render_text = GetRenderText(); render_text->SetText(u"a\u0065\u0301b"); internal::GraphemeIterator iterator = render_text->GetGraphemeIteratorAtTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); ++iterator; EXPECT_EQ(1U, render_text->GetTextIndex(iterator)); EXPECT_EQ(1U, render_text->GetDisplayTextIndex(iterator)); ++iterator; EXPECT_EQ(3U, render_text->GetTextIndex(iterator)); EXPECT_EQ(3U, render_text->GetDisplayTextIndex(iterator)); ++iterator; EXPECT_EQ(4U, render_text->GetTextIndex(iterator)); EXPECT_EQ(4U, render_text->GetDisplayTextIndex(iterator)); --iterator; EXPECT_EQ(3U, render_text->GetTextIndex(iterator)); EXPECT_EQ(3U, render_text->GetDisplayTextIndex(iterator)); --iterator; EXPECT_EQ(1U, render_text->GetTextIndex(iterator)); EXPECT_EQ(1U, render_text->GetDisplayTextIndex(iterator)); --iterator; EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtTextIndex(1); EXPECT_EQ(1U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtTextIndex(2); EXPECT_EQ(1U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtTextIndex(3); EXPECT_EQ(3U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(0); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(1); EXPECT_EQ(1U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(2); EXPECT_EQ(1U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(3); EXPECT_EQ(3U, render_text->GetDisplayTextIndex(iterator)); render_text->SetText(u"e\u0301b"); render_text->SetObscured(true); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(1); EXPECT_EQ(2U, render_text->GetTextIndex(iterator)); render_text->SetObscured(false); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(1); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(2); EXPECT_EQ(2U, render_text->GetTextIndex(iterator)); render_text->SetText(u"a\U0001F601b"); render_text->SetObscured(true); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(1); EXPECT_EQ(1U, render_text->GetTextIndex(iterator)); EXPECT_EQ(1U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(2); EXPECT_EQ(3U, render_text->GetTextIndex(iterator)); EXPECT_EQ(2U, render_text->GetDisplayTextIndex(iterator)); render_text->SetText(u"\U0001F468\u200D\u2708\uFE0Fx"); render_text->SetObscured(true); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(1); EXPECT_EQ(5U, render_text->GetTextIndex(iterator)); EXPECT_EQ(1U, render_text->GetDisplayTextIndex(iterator)); render_text->SetObscured(false); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(0); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(1); EXPECT_EQ(0U, render_text->GetTextIndex(iterator)); EXPECT_EQ(0U, render_text->GetDisplayTextIndex(iterator)); iterator = render_text->GetGraphemeIteratorAtDisplayTextIndex(5); EXPECT_EQ(5U, render_text->GetTextIndex(iterator)); EXPECT_EQ(5U, render_text->GetDisplayTextIndex(iterator)); } TEST_F(RenderTextTest, GraphemeBoundaries) { static const char16_t text[] = u"\u0065\u0301" // Letter 'e' U+0065 and acute accent U+0301 u"\u0036\uFE0F\u20E3" // Emoji 'keycap letter 6' u"\U0001F468\u200D\u2708\uFE0F"; // Emoji 'pilot'. RenderText* render_text = GetRenderText(); render_text->SetText(text); EXPECT_TRUE(render_text->IsGraphemeBoundary(0)); EXPECT_FALSE(render_text->IsGraphemeBoundary(1)); EXPECT_TRUE(render_text->IsGraphemeBoundary(2)); EXPECT_FALSE(render_text->IsGraphemeBoundary(3)); EXPECT_FALSE(render_text->IsGraphemeBoundary(4)); EXPECT_TRUE(render_text->IsGraphemeBoundary(5)); EXPECT_FALSE(render_text->IsGraphemeBoundary(6)); EXPECT_FALSE(render_text->IsGraphemeBoundary(7)); EXPECT_FALSE(render_text->IsGraphemeBoundary(8)); EXPECT_FALSE(render_text->IsGraphemeBoundary(9)); EXPECT_TRUE(render_text->IsGraphemeBoundary(10)); EXPECT_EQ(2U, render_text->IndexOfAdjacentGrapheme(0, CURSOR_FORWARD)); EXPECT_EQ(2U, render_text->IndexOfAdjacentGrapheme(1, CURSOR_FORWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(2, CURSOR_FORWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(3, CURSOR_FORWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(4, CURSOR_FORWARD)); EXPECT_EQ(10U, render_text->IndexOfAdjacentGrapheme(5, CURSOR_FORWARD)); EXPECT_EQ(10U, render_text->IndexOfAdjacentGrapheme(6, CURSOR_FORWARD)); EXPECT_EQ(10U, render_text->IndexOfAdjacentGrapheme(7, CURSOR_FORWARD)); EXPECT_EQ(10U, render_text->IndexOfAdjacentGrapheme(8, CURSOR_FORWARD)); EXPECT_EQ(10U, render_text->IndexOfAdjacentGrapheme(9, CURSOR_FORWARD)); EXPECT_EQ(10U, render_text->IndexOfAdjacentGrapheme(10, CURSOR_FORWARD)); EXPECT_EQ(0U, render_text->IndexOfAdjacentGrapheme(0, CURSOR_BACKWARD)); EXPECT_EQ(0U, render_text->IndexOfAdjacentGrapheme(1, CURSOR_BACKWARD)); EXPECT_EQ(0U, render_text->IndexOfAdjacentGrapheme(2, CURSOR_BACKWARD)); EXPECT_EQ(2U, render_text->IndexOfAdjacentGrapheme(3, CURSOR_BACKWARD)); EXPECT_EQ(2U, render_text->IndexOfAdjacentGrapheme(4, CURSOR_BACKWARD)); EXPECT_EQ(2U, render_text->IndexOfAdjacentGrapheme(5, CURSOR_BACKWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(6, CURSOR_BACKWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(7, CURSOR_BACKWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(8, CURSOR_BACKWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(9, CURSOR_BACKWARD)); EXPECT_EQ(5U, render_text->IndexOfAdjacentGrapheme(10, CURSOR_BACKWARD)); } TEST_F(RenderTextTest, GraphemePositions) { // LTR कि (DEVANAGARI KA with VOWEL I) (2-char grapheme), LTR abc, and LTR कि. const std::u16string kText1 = u"\u0915\u093fabc\u0915\u093f"; // LTR ab, LTR कि (DEVANAGARI KA with VOWEL I) (2-char grapheme), LTR cd. const std::u16string kText2 = u"ab\u0915\u093fcd"; // LTR ab, 𝄞 'MUSICAL SYMBOL G CLEF' U+1D11E (surrogate pair), LTR cd. // Windows requires wide strings for \Unnnnnnnn universal character names. const std::u16string kText3 = u"ab\U0001D11Ecd"; struct { std::u16string text; size_t index; size_t expected_previous; size_t expected_next; } cases[] = { {std::u16string(), 0, 0, 0}, {std::u16string(), 1, 0, 0}, {std::u16string(), 50, 0, 0}, {kText1, 0, 0, 2}, {kText1, 1, 0, 2}, {kText1, 2, 0, 3}, {kText1, 3, 2, 4}, {kText1, 4, 3, 5}, {kText1, 5, 4, 7}, {kText1, 6, 5, 7}, {kText1, 7, 5, 7}, {kText1, 8, 7, 7}, {kText1, 50, 7, 7}, {kText2, 0, 0, 1}, {kText2, 1, 0, 2}, {kText2, 2, 1, 4}, {kText2, 3, 2, 4}, {kText2, 4, 2, 5}, {kText2, 5, 4, 6}, {kText2, 6, 5, 6}, {kText2, 7, 6, 6}, {kText2, 50, 6, 6}, {kText3, 0, 0, 1}, {kText3, 1, 0, 2}, {kText3, 2, 1, 4}, {kText3, 3, 2, 4}, {kText3, 4, 2, 5}, {kText3, 5, 4, 6}, {kText3, 6, 5, 6}, {kText3, 7, 6, 6}, {kText3, 50, 6, 6}, }; RenderText* render_text = GetRenderText(); for (size_t i = 0; i < base::size(cases); i++) { SCOPED_TRACE(base::StringPrintf("Testing cases[%" PRIuS "]", i)); render_text->SetText(cases[i].text); size_t next = render_text->IndexOfAdjacentGrapheme(cases[i].index, CURSOR_FORWARD); EXPECT_EQ(cases[i].expected_next, next); EXPECT_TRUE(render_text->IsValidCursorIndex(next)); size_t previous = render_text->IndexOfAdjacentGrapheme(cases[i].index, CURSOR_BACKWARD); EXPECT_EQ(cases[i].expected_previous, previous); EXPECT_TRUE(render_text->IsValidCursorIndex(previous)); } } TEST_F(RenderTextTest, MidGraphemeSelectionBounds) { // Test that selection bounds may be set amid multi-character graphemes. const std::u16string kHindi = u"\u0915\u093f"; const std::u16string kThai = u"\u0e08\u0e33"; const std::u16string cases[] = {kHindi, kThai}; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(100, 1000)); for (size_t i = 0; i < base::size(cases); i++) { SCOPED_TRACE(base::StringPrintf("Testing cases[%" PRIuS "]", i)); render_text->SetText(cases[i]); EXPECT_TRUE(render_text->IsValidLogicalIndex(1)); EXPECT_FALSE(render_text->IsValidCursorIndex(1)); EXPECT_TRUE(render_text->SelectRange(Range(2, 1))); EXPECT_EQ(Range(2, 1), render_text->selection()); EXPECT_EQ(1U, render_text->cursor_position()); // Verify that the selection bounds extend over the entire grapheme, even if // the selection is set amid the grapheme. const gfx::Rect mid_grapheme_bounds = GetSelectionBoundsUnion(); render_text->SelectAll(false); EXPECT_EQ(GetSelectionBoundsUnion(), mid_grapheme_bounds); // Although selection bounds may be set within a multi-character grapheme, // cursor movement (e.g. via arrow key) should avoid those indices. EXPECT_TRUE(render_text->SelectRange(Range(2, 1))); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(2U, render_text->cursor_position()); } } TEST_F(RenderTextTest, FindCursorPosition) { const char16_t* kTestStrings[] = {kLtrRtl, kLtrRtlLtr, kRtlLtr, kRtlLtrRtl}; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(0, 0, 100, 20)); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("Testing case[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i]); for (size_t j = 0; j < render_text->text().length(); ++j) { gfx::RangeF cursor_span = render_text->GetCursorSpan(Range(j, j + 1)); // Test a point just inside the leading edge of the glyph bounds. float x = cursor_span.start() + (cursor_span.is_reversed() ? -1 : 1); Point point = gfx::ToCeiledPoint(PointF(x, GetCursorYForTesting())); EXPECT_EQ(j, render_text->FindCursorPosition(point).caret_pos()); } } } // Tests that FindCursorPosition behaves correctly for multi-line text. TEST_F(RenderTextTest, FindCursorPositionMultiline) { const char16_t* kTestStrings[] = {u"abc def", u"אבג דהו"}; SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(25, 1000)); render_text->SetMultiline(true); for (size_t i = 0; i < base::size(kTestStrings); i++) { render_text->SetText(kTestStrings[i]); EXPECT_EQ(2u, render_text->GetNumLines()); const bool is_ltr = render_text->GetDisplayTextDirection() == base::i18n::LEFT_TO_RIGHT; for (size_t j = 0; j < render_text->text().length(); ++j) { SCOPED_TRACE(base::StringPrintf( "Testing index %" PRIuS " for case %" PRIuS "", j, i)); render_text->SelectRange(Range(j, j + 1)); // Test a point inside the leading edge of the glyph bounds. const Rect bounds = GetSelectionBoundsUnion(); const Point cursor_position(is_ltr ? bounds.x() + 1 : bounds.right() - 1, bounds.y() + 1); const SelectionModel model = render_text->FindCursorPosition(cursor_position); EXPECT_EQ(j, model.caret_pos()); EXPECT_EQ(CURSOR_FORWARD, model.caret_affinity()); } } } // Ensure FindCursorPosition returns positions only at valid grapheme // boundaries. TEST_F(RenderTextTest, FindCursorPosition_GraphemeBoundaries) { struct { std::u16string text; std::set expected_cursor_positions; } cases[] = { // LTR कि (DEVANAGARI KA with VOWEL I) (2-char grapheme), LTR abc, LTR कि. {u"\u0915\u093fabc\u0915\u093f", {0, 2, 3, 4, 5, 7}}, // LTR ab, LTR कि (DEVANAGARI KA with VOWEL I) (2-char grapheme), LTR cd. {u"ab\u0915\u093fcd", {0, 1, 2, 4, 5, 6}}, // LTR ab, surrogate pair composed of two 16 bit characters, LTR cd. // Windows requires wide strings for \Unnnnnnnn universal character names. {u"ab\U0001D11Ecd", {0, 1, 2, 4, 5, 6}}}; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(gfx::Rect(100, 30)); for (size_t i = 0; i < base::size(cases); i++) { SCOPED_TRACE(base::StringPrintf("Testing case %" PRIuS "", i)); render_text->SetText(cases[i].text); std::set obtained_cursor_positions; size_t cursor_y = GetCursorYForTesting(); for (int x = -5; x < 105; x++) obtained_cursor_positions.insert( render_text->FindCursorPosition(gfx::Point(x, cursor_y)).caret_pos()); EXPECT_EQ(cases[i].expected_cursor_positions, obtained_cursor_positions); } } TEST_F(RenderTextTest, EdgeSelectionModels) { // Simple Latin text. const std::u16string kLatin = u"abc"; // LTR कि (DEVANAGARI KA with VOWEL I). const std::u16string kLTRGrapheme = u"\u0915\u093f"; // LTR कि (DEVANAGARI KA with VOWEL I), LTR a, LTR कि. const std::u16string kHindiLatin = u"\u0915\u093fa\u0915\u093f"; // RTL נָ (Hebrew letter NUN and point QAMATS). const std::u16string kRTLGrapheme = u"\u05e0\u05b8"; // RTL נָ (Hebrew letter NUN and point QAMATS), LTR a, RTL נָ. const std::u16string kHebrewLatin = u"\u05e0\u05b8a\u05e0\u05b8"; struct { std::u16string text; base::i18n::TextDirection expected_text_direction; } cases[] = { {std::u16string(), base::i18n::LEFT_TO_RIGHT}, {kLatin, base::i18n::LEFT_TO_RIGHT}, {kLTRGrapheme, base::i18n::LEFT_TO_RIGHT}, {kHindiLatin, base::i18n::LEFT_TO_RIGHT}, {kRTLGrapheme, base::i18n::RIGHT_TO_LEFT}, {kHebrewLatin, base::i18n::RIGHT_TO_LEFT}, }; RenderText* render_text = GetRenderText(); for (size_t i = 0; i < base::size(cases); i++) { render_text->SetText(cases[i].text); bool ltr = (cases[i].expected_text_direction == base::i18n::LEFT_TO_RIGHT); SelectionModel start_edge = test_api()->EdgeSelectionModel(ltr ? CURSOR_LEFT : CURSOR_RIGHT); EXPECT_EQ(start_edge, SelectionModel(0, CURSOR_BACKWARD)); SelectionModel end_edge = test_api()->EdgeSelectionModel(ltr ? CURSOR_RIGHT : CURSOR_LEFT); EXPECT_EQ(end_edge, SelectionModel(cases[i].text.length(), CURSOR_FORWARD)); } } TEST_F(RenderTextTest, SelectAll) { const char16_t* const cases[] = {kWeak, kLtr, kLtrRtl, kLtrRtlLtr, kRtl, kRtlLtr, kRtlLtrRtl}; // Ensure that SelectAll respects the |reversed| argument regardless of // application locale and text content directionality. RenderText* render_text = GetRenderText(); const SelectionModel expected_reversed(Range(3, 0), CURSOR_FORWARD); const SelectionModel expected_forwards(Range(0, 3), CURSOR_BACKWARD); const bool was_rtl = base::i18n::IsRTL(); for (size_t i = 0; i < 2; ++i) { SetRTL(!base::i18n::IsRTL()); // Test that an empty string produces an empty selection model. render_text->SetText(std::u16string()); EXPECT_EQ(render_text->selection_model(), SelectionModel()); // Test the weak, LTR, RTL, and Bidi string cases. for (size_t j = 0; j < base::size(cases); j++) { render_text->SetText(cases[j]); render_text->SelectAll(false); EXPECT_EQ(render_text->selection_model(), expected_forwards); render_text->SelectAll(true); EXPECT_EQ(render_text->selection_model(), expected_reversed); } } EXPECT_EQ(was_rtl, base::i18n::IsRTL()); } TEST_F(RenderTextTest, MoveCursorLeftRightWithSelection) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcאבג"); // Left arrow on select ranging (6, 4). render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(6), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(4), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(5), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(6), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_RETAIN); EXPECT_EQ(Range(6, 5), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_RETAIN); EXPECT_EQ(Range(6, 4), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(6), render_text->selection()); // Right arrow on select ranging (4, 6). render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(0), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(1), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(2), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(3), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(5), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(4), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_RETAIN); EXPECT_EQ(Range(4, 5), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_RETAIN); EXPECT_EQ(Range(4, 6), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(4), render_text->selection()); } TEST_F(RenderTextTest, MoveCursorLeftRightWithSelection_Multiline) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(20, 1000)); render_text->SetText(u"012 456\n\n90"); EXPECT_EQ(4U, render_text->GetNumLines()); // Move cursor right to the end of the text. render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(4), render_text->selection()); EXPECT_EQ(0U, GetLineContainingCaret()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(5), render_text->selection()); EXPECT_EQ(1U, GetLineContainingCaret()); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(7), render_text->selection()); EXPECT_EQ(1U, GetLineContainingCaret()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(8), render_text->selection()); EXPECT_EQ(2U, GetLineContainingCaret()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(9), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(11), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); // Move cursor left to the beginning of the text. render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(9), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(8), render_text->selection()); EXPECT_EQ(2U, GetLineContainingCaret()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(7), render_text->selection()); EXPECT_EQ(1U, GetLineContainingCaret()); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(4), render_text->selection()); EXPECT_EQ(1U, GetLineContainingCaret()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(3), render_text->selection()); EXPECT_EQ(0U, GetLineContainingCaret()); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(0), render_text->selection()); EXPECT_EQ(0U, GetLineContainingCaret()); // Move cursor right with WORD_BREAK. render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); #if defined(OS_WIN) EXPECT_EQ(Range(4), render_text->selection()); #else EXPECT_EQ(Range(3), render_text->selection()); #endif EXPECT_EQ(0U, GetLineContainingCaret()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); #if defined(OS_WIN) EXPECT_EQ(Range(9), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); #else EXPECT_EQ(Range(7), render_text->selection()); EXPECT_EQ(1U, GetLineContainingCaret()); #endif render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(11), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); // Move cursor left with WORD_BREAK. render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(9), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(4), render_text->selection()); EXPECT_EQ(1U, GetLineContainingCaret()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(0), render_text->selection()); EXPECT_EQ(0U, GetLineContainingCaret()); // Move cursor right with FIELD_BREAK. render_text->MoveCursor(FIELD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(11), render_text->selection()); EXPECT_EQ(3U, GetLineContainingCaret()); // Move cursor left with FIELD_BREAK. render_text->MoveCursor(FIELD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(0), render_text->selection()); EXPECT_EQ(0U, GetLineContainingCaret()); } TEST_F(RenderTextTest, CenteredDisplayOffset) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefghij"); render_text->SetHorizontalAlignment(ALIGN_CENTER); const int kEnlargement = 10; const int content_width = render_text->GetContentWidth(); Rect display_rect(0, 0, content_width / 2, render_text->font_list().GetHeight()); render_text->SetDisplayRect(display_rect); // Move the cursor to the beginning of the text and, by checking the cursor // bounds, make sure no empty space is to the left of the text. render_text->SetCursorPosition(0); EXPECT_EQ(display_rect.x(), render_text->GetUpdatedCursorBounds().x()); // Widen the display rect and, by checking the cursor bounds, make sure no // empty space is introduced to the left of the text. display_rect.Inset(0, 0, -kEnlargement, 0); render_text->SetDisplayRect(display_rect); EXPECT_EQ(display_rect.x(), render_text->GetUpdatedCursorBounds().x()); // Move the cursor to the end of the text and, by checking the cursor // bounds, make sure no empty space is to the right of the text. render_text->SetCursorPosition(render_text->text().length()); EXPECT_EQ(display_rect.right(), render_text->GetUpdatedCursorBounds().right()); // Widen the display rect and, by checking the cursor bounds, make sure no // empty space is introduced to the right of the text. display_rect.Inset(0, 0, -kEnlargement, 0); render_text->SetDisplayRect(display_rect); EXPECT_EQ(display_rect.right(), render_text->GetUpdatedCursorBounds().right()); } void MoveLeftRightByWordVerifier(RenderText* render_text, const char16_t* str) { SCOPED_TRACE(str); const std::u16string str16(str); render_text->SetText(str16); // Test moving by word from left to right. render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); const size_t num_words = (str16.length() + 1) / 4; for (size_t i = 0; i < num_words; ++i) { // First, test moving by word from a word break position, such as from // "|abc def" to "abc| def". const SelectionModel start = render_text->selection_model(); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); const SelectionModel end = render_text->selection_model(); // For testing simplicity, each word is a 3-character word. #if defined(OS_WIN) // Windows moves from "|abc def" to "abc |def" instead of "abc| def", so // traverse 4 characters on all but the last word instead of all but the // first. const int num_character_moves = (i == num_words - 1) ? 3 : 4; #else const int num_character_moves = (i == 0) ? 3 : 4; #endif render_text->SetSelection(start); for (int j = 0; j < num_character_moves; ++j) render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(end, render_text->selection_model()); // Then, test moving by word from positions inside the word, such as from // "a|bc def" to "abc| def", and from "ab|c def" to "abc| def". for (int j = 1; j < num_character_moves; ++j) { render_text->SetSelection(start); for (int k = 0; k < j; ++k) render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(end, render_text->selection_model()); } } // Test moving by word from right to left. render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); for (size_t i = 0; i < num_words; ++i) { const SelectionModel start = render_text->selection_model(); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); const SelectionModel end = render_text->selection_model(); const int num_character_moves = (i == 0) ? 3 : 4; render_text->SetSelection(start); for (int j = 0; j < num_character_moves; ++j) render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(end, render_text->selection_model()); for (int j = 1; j < num_character_moves; ++j) { render_text->SetSelection(start); for (int k = 0; k < j; ++k) render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(end, render_text->selection_model()); } } } #if defined(OS_WIN) // TODO(aleventhal): https://crbug.com/906308 Fix bugs, update verifier code // above, and enable for Windows. #define MAYBE_MoveLeftRightByWordInBidiText \ DISABLED_MoveLeftRightByWordInBidiText #else #define MAYBE_MoveLeftRightByWordInBidiText MoveLeftRightByWordInBidiText #endif TEST_F(RenderTextTest, MAYBE_MoveLeftRightByWordInBidiText) { RenderText* render_text = GetRenderText(); // For testing simplicity, each word is a 3-character word. std::vector test; test.push_back(u"abc"); test.push_back(u"abc def"); test.push_back(u"\u05E1\u05E2\u05E3"); test.push_back(u"\u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6"); test.push_back(u"abc \u05E1\u05E2\u05E3"); test.push_back(u"abc def \u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6"); test.push_back( u"abc def hij \u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6" u" \u05E7\u05E8\u05E9"); test.push_back(u"abc \u05E1\u05E2\u05E3 hij"); test.push_back(u"abc def \u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6 hij opq"); test.push_back( u"abc def hij \u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6" u" \u05E7\u05E8\u05E9 opq rst uvw"); test.push_back(u"\u05E1\u05E2\u05E3 abc"); test.push_back(u"\u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6 abc def"); test.push_back( u"\u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6 \u05E7\u05E8\u05E9" u" abc def hij"); test.push_back(u"בגד abc \u05E1\u05E2\u05E3"); test.push_back( u"בגד הוז abc def" u" \u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6"); test.push_back( u"בגד הוז חטי" u" abc def hij \u05E1\u05E2\u05E3 \u05E4\u05E5\u05E6" u" \u05E7\u05E8\u05E9"); for (size_t i = 0; i < test.size(); ++i) MoveLeftRightByWordVerifier(render_text, test[i]); } TEST_F(RenderTextTest, MoveLeftRightByWordInBidiText_TestEndOfText) { RenderText* render_text = GetRenderText(); render_text->SetText(u"ab\u05E1"); // Moving the cursor by word from "abC|" to the left should return "|abC". // But since end of text is always treated as a word break, it returns // position "ab|C". // TODO(xji): Need to make it work as expected. render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); // EXPECT_EQ(SelectionModel(), render_text->selection_model()); // Moving the cursor by word from "|abC" to the right returns "abC|". render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(SelectionModel(3, CURSOR_FORWARD), render_text->selection_model()); render_text->SetText(u"\u05E1\u05E2a"); // For logical text "BCa", moving the cursor by word from "aCB|" to the left // returns "|aCB". render_text->MoveCursor(LINE_BREAK, CURSOR_RIGHT, SELECTION_NONE); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(SelectionModel(3, CURSOR_FORWARD), render_text->selection_model()); // Moving the cursor by word from "|aCB" to the right should return "aCB|". // But since end of text is always treated as a word break, it returns // position "a|CB". // TODO(xji): Need to make it work as expected. render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); // EXPECT_EQ(SelectionModel(), render_text->selection_model()); } TEST_F(RenderTextTest, MoveLeftRightByWordInTextWithMultiSpaces) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abc def"); render_text->SetCursorPosition(5); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); #if defined(OS_WIN) EXPECT_EQ(8U, render_text->cursor_position()); #else EXPECT_EQ(11U, render_text->cursor_position()); #endif render_text->SetCursorPosition(5); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); } TEST_F(RenderTextTest, MoveLeftRightByWordInThaiText) { RenderText* render_text = GetRenderText(); // เรียกดูรวดเร็ว is broken to เรียก|ดู|รวดเร็ว. render_text->SetText(u"เรียกดูรวดเร็ว"); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(5U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(7U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(14U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(14U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(7U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(5U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); } // TODO(crbug.com/865527): Chinese and Japanese tokenization doesn't work on // mobile. #if !defined(OS_ANDROID) TEST_F(RenderTextTest, MoveLeftRightByWordInChineseText) { RenderText* render_text = GetRenderText(); // zh-Hans-CN: 我们去公园玩, broken to 我们|去|公园|玩. render_text->SetText(u"\u6211\u4EEC\u53BB\u516C\u56ED\u73A9"); render_text->MoveCursor(LINE_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(2U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(3U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(5U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(6U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(6U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(5U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(3U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(2U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); render_text->MoveCursor(WORD_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(0U, render_text->cursor_position()); } #endif // Test the correct behavior of undirected selections: selections where the // "end" of the selection that holds the cursor is only determined after the // first cursor movement. TEST_F(RenderTextTest, DirectedSelections) { RenderText* render_text = GetRenderText(); auto ResultAfter = [&](VisualCursorDirection direction) -> std::u16string { render_text->MoveCursor(CHARACTER_BREAK, direction, SELECTION_RETAIN); return GetSelectedText(render_text); }; render_text->SetText(u"01234"); // Test Right, then Left. LTR. // Undirected, or forward when kSelectionIsAlwaysDirected. render_text->SelectRange({2, 4}); EXPECT_EQ(u"23", GetSelectedText(render_text)); EXPECT_EQ(u"234", ResultAfter(CURSOR_RIGHT)); EXPECT_EQ(u"23", ResultAfter(CURSOR_LEFT)); // Test collapsing the selection. This always ignores any existing direction. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(2, 2), render_text->selection()); // Collapse left. // Undirected, or backward when kSelectionIsAlwaysDirected. render_text->SelectRange({4, 2}); EXPECT_EQ(u"23", GetSelectedText(render_text)); if (RenderText::kSelectionIsAlwaysDirected) EXPECT_EQ(u"3", ResultAfter(CURSOR_RIGHT)); // Keep left. else EXPECT_EQ(u"234", ResultAfter(CURSOR_RIGHT)); // Pick right. EXPECT_EQ(u"23", ResultAfter(CURSOR_LEFT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(2, 2), render_text->selection()); // Collapse left. // Test Left, then Right. LTR. // Undirected, or forward when kSelectionIsAlwaysDirected. render_text->SelectRange({2, 4}); EXPECT_EQ(u"23", GetSelectedText(render_text)); // Sanity check, if (RenderText::kSelectionIsAlwaysDirected) EXPECT_EQ(u"2", ResultAfter(CURSOR_LEFT)); // Keep right. else EXPECT_EQ(u"123", ResultAfter(CURSOR_LEFT)); // Pick left. EXPECT_EQ(u"23", ResultAfter(CURSOR_RIGHT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(4, 4), render_text->selection()); // Collapse right. // Undirected, or backward when kSelectionIsAlwaysDirected. render_text->SelectRange({4, 2}); EXPECT_EQ(u"23", GetSelectedText(render_text)); EXPECT_EQ(u"123", ResultAfter(CURSOR_LEFT)); EXPECT_EQ(u"23", ResultAfter(CURSOR_RIGHT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(4, 4), render_text->selection()); // Collapse right. auto ToHebrew = [](const char* digits) -> std::u16string { const std::u16string hebrew = u"אבגדח"; // Roughly "abcde". DCHECK_EQ(5u, hebrew.size()); std::u16string result; for (const char* d = digits; *d; d++) result += hebrew[*d - '0']; return result; }; render_text->SetText(ToHebrew("01234")); // Test Left, then Right. RTL. // Undirected, or forward (to the left) when kSelectionIsAlwaysDirected. render_text->SelectRange({2, 4}); EXPECT_EQ(ToHebrew("23"), GetSelectedText(render_text)); EXPECT_EQ(ToHebrew("234"), ResultAfter(CURSOR_LEFT)); EXPECT_EQ(ToHebrew("23"), ResultAfter(CURSOR_RIGHT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(4, 4), render_text->selection()); // Collapse left. // Undirected, or backward (to the right) when kSelectionIsAlwaysDirected. render_text->SelectRange({4, 2}); EXPECT_EQ(ToHebrew("23"), GetSelectedText(render_text)); if (RenderText::kSelectionIsAlwaysDirected) EXPECT_EQ(ToHebrew("3"), ResultAfter(CURSOR_LEFT)); // Keep right. else EXPECT_EQ(ToHebrew("234"), ResultAfter(CURSOR_LEFT)); // Pick left. EXPECT_EQ(ToHebrew("23"), ResultAfter(CURSOR_RIGHT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(4, 4), render_text->selection()); // Collapse left. // Test Right, then Left. RTL. // Undirected, or forward (to the left) when kSelectionIsAlwaysDirected. render_text->SelectRange({2, 4}); EXPECT_EQ(ToHebrew("23"), GetSelectedText(render_text)); if (RenderText::kSelectionIsAlwaysDirected) EXPECT_EQ(ToHebrew("2"), ResultAfter(CURSOR_RIGHT)); // Keep left. else EXPECT_EQ(ToHebrew("123"), ResultAfter(CURSOR_RIGHT)); // Pick right. EXPECT_EQ(ToHebrew("23"), ResultAfter(CURSOR_LEFT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(2, 2), render_text->selection()); // Collapse right. // Undirected, or backward (to the right) when kSelectionIsAlwaysDirected. render_text->SelectRange({4, 2}); EXPECT_EQ(ToHebrew("23"), GetSelectedText(render_text)); EXPECT_EQ(ToHebrew("123"), ResultAfter(CURSOR_RIGHT)); EXPECT_EQ(ToHebrew("23"), ResultAfter(CURSOR_LEFT)); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(2, 2), render_text->selection()); // Collapse right. } TEST_F(RenderTextTest, DirectedSelections_Multiline) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); auto ResultAfter = [&](VisualCursorDirection direction) { render_text->MoveCursor(CHARACTER_BREAK, direction, SELECTION_RETAIN); return GetSelectedText(render_text); }; render_text->SetText(u"01234\n56789\nabcde"); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(500, 500)); ResetCursorX(); // Test Down, then Up. LTR. // Undirected, or forward when kSelectionIsAlwaysDirected. render_text->SelectRange({2, 4}); EXPECT_EQ(u"23", GetSelectedText(render_text)); EXPECT_EQ(u"234\n5678", ResultAfter(CURSOR_DOWN)); EXPECT_EQ(u"23", ResultAfter(CURSOR_UP)); // Test collapsing the selection. This always ignores any existing direction. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(2, 2), render_text->selection()); // Collapse left. // Undirected, or backward when kSelectionIsAlwaysDirected. ResetCursorX(); // Reset cached cursor x position. render_text->SelectRange({4, 2}); EXPECT_EQ(u"23", GetSelectedText(render_text)); if (RenderText::kSelectionIsAlwaysDirected) { EXPECT_EQ(u"4\n56", ResultAfter(CURSOR_DOWN)); // Keep left. } else { EXPECT_EQ(u"234\n5678", ResultAfter(CURSOR_DOWN)); // Pick right. } EXPECT_EQ(u"23", ResultAfter(CURSOR_UP)); // Test with multi-line selection. // Undirected, or forward when kSelectionIsAlwaysDirected. ResetCursorX(); render_text->SelectRange({2, 7}); // Select multi-line. EXPECT_EQ(u"234\n5", GetSelectedText(render_text)); EXPECT_EQ(u"234\n56789\na", ResultAfter(CURSOR_DOWN)); EXPECT_EQ(u"234\n5", ResultAfter(CURSOR_UP)); // Undirected, or backward when kSelectionIsAlwaysDirected. ResetCursorX(); render_text->SelectRange({7, 2}); // Select multi-line. EXPECT_EQ(u"234\n5", GetSelectedText(render_text)); if (RenderText::kSelectionIsAlwaysDirected) { EXPECT_EQ(u"6", ResultAfter(CURSOR_DOWN)); // Keep left. } else { EXPECT_EQ(u"234\n56789\na", ResultAfter(CURSOR_DOWN)); // Pick right. } EXPECT_EQ(u"234\n5", ResultAfter(CURSOR_UP)); } TEST_F(RenderTextTest, StringSizeSanity) { RenderText* render_text = GetRenderText(); render_text->SetText(u"Hello World"); const Size string_size = render_text->GetStringSize(); EXPECT_GT(string_size.width(), 0); EXPECT_GT(string_size.height(), 0); } TEST_F(RenderTextTest, StringSizeLongStrings) { RenderText* render_text = GetRenderText(); // Remove the default 100000 characters limit. render_text->set_truncate_length(0); Size previous_string_size; for (size_t length = 10; length < 1000000; length *= 10) { render_text->SetText(std::u16string(length, 'a')); const Size string_size = render_text->GetStringSize(); EXPECT_GT(string_size.width(), previous_string_size.width()); EXPECT_GT(string_size.height(), 0); previous_string_size = string_size; } } TEST_F(RenderTextTest, StringSizeEmptyString) { // Ascent and descent of Arial and Symbol are different on most platforms. const FontList font_list( base::StringPrintf("Arial,%s, 16px", kSymbolFontName)); RenderText* render_text = GetRenderText(); render_text->SetFontList(font_list); render_text->SetDisplayRect(Rect(0, 0, 0, font_list.GetHeight())); // The empty string respects FontList metrics for non-zero height // and baseline. render_text->SetText(std::u16string()); EXPECT_EQ(font_list.GetHeight(), render_text->GetStringSize().height()); EXPECT_EQ(0, render_text->GetStringSize().width()); EXPECT_EQ(font_list.GetBaseline(), render_text->GetBaseline()); render_text->SetText(u" "); EXPECT_EQ(font_list.GetHeight(), render_text->GetStringSize().height()); EXPECT_EQ(font_list.GetBaseline(), render_text->GetBaseline()); } TEST_F(RenderTextTest, StringSizeRespectsFontListMetrics) { // NOTE: On most platforms, kCJKFontName has different metrics than // kTestFontName, but on Android it does not. Font test_font(kTestFontName, 16); ASSERT_EQ(base::ToLowerASCII(kTestFontName), base::ToLowerASCII(test_font.GetActualFontName())); Font cjk_font(kCJKFontName, 16); ASSERT_EQ(base::ToLowerASCII(kCJKFontName), base::ToLowerASCII(cjk_font.GetActualFontName())); Font smaller_font = test_font; Font larger_font = cjk_font; // "a" should be rendered with the test font, not with the CJK font. const char16_t* smaller_font_text = u"a"; // "円" (U+5168 Han character YEN) should render with the CJK font, not // the test font. const char16_t* larger_font_text = u"\u5168"; if (cjk_font.GetHeight() < test_font.GetHeight() && cjk_font.GetBaseline() < test_font.GetBaseline()) { std::swap(smaller_font, larger_font); std::swap(smaller_font_text, larger_font_text); } ASSERT_LE(smaller_font.GetHeight(), larger_font.GetHeight()); ASSERT_LE(smaller_font.GetBaseline(), larger_font.GetBaseline()); // Check |smaller_font_text| is rendered with the smaller font. RenderText* render_text = GetRenderText(); render_text->SetText(smaller_font_text); render_text->SetFontList(FontList(smaller_font)); render_text->SetDisplayRect(Rect(0, 0, 0, render_text->font_list().GetHeight())); EXPECT_EQ(smaller_font.GetHeight(), render_text->GetStringSize().height()); EXPECT_EQ(smaller_font.GetBaseline(), render_text->GetBaseline()); EXPECT_EQ(GetFontSpans()[0].first.GetFontName(), smaller_font.GetFontName()); // Layout the same text with mixed fonts. The text should be rendered with // the smaller font, but the height and baseline are determined with the // metrics of the font list, which is equal to the larger font. std::vector fonts; fonts.push_back(smaller_font); // The primary font is the smaller font. fonts.push_back(larger_font); const FontList font_list(fonts); render_text->SetFontList(font_list); render_text->SetDisplayRect(Rect(0, 0, 0, render_text->font_list().GetHeight())); EXPECT_EQ(GetFontSpans()[0].first.GetFontName(), smaller_font.GetFontName()); EXPECT_LE(smaller_font.GetHeight(), render_text->GetStringSize().height()); EXPECT_LE(smaller_font.GetBaseline(), render_text->GetBaseline()); EXPECT_EQ(font_list.GetHeight(), render_text->GetStringSize().height()); EXPECT_EQ(font_list.GetBaseline(), render_text->GetBaseline()); } TEST_F(RenderTextTest, StringSizeMultiline) { SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetText(u"Hello\nWorld"); const Size string_size = render_text->GetStringSize(); EXPECT_EQ(55, string_size.width()); render_text->SetDisplayRect(Rect(30, 1000)); render_text->SetMultiline(true); EXPECT_EQ(55, render_text->TotalLineWidth()); EXPECT_FLOAT_EQ( 30, render_text->GetLineSizeF(SelectionModel(0, CURSOR_FORWARD)).width()); EXPECT_FLOAT_EQ( 25, render_text->GetLineSizeF(SelectionModel(6, CURSOR_FORWARD)).width()); // |GetStringSize()| of multi-line text does not include newline character. EXPECT_EQ(25, render_text->GetStringSize().width()); // Expect height to be 2 times the font height. This assumes simple strings // that do not have special metrics. int font_height = render_text->font_list().GetHeight(); EXPECT_EQ(font_height * 2, render_text->GetStringSize().height()); } TEST_F(RenderTextTest, MinLineHeight) { RenderText* render_text = GetRenderText(); render_text->SetText(u"Hello!"); SizeF default_size = render_text->GetStringSizeF(); ASSERT_NE(0, default_size.height()); ASSERT_NE(0, default_size.width()); render_text->SetMinLineHeight(default_size.height() / 2); EXPECT_EQ(default_size.ToString(), render_text->GetStringSizeF().ToString()); render_text->SetMinLineHeight(default_size.height() * 2); SizeF taller_size = render_text->GetStringSizeF(); EXPECT_EQ(default_size.height() * 2, taller_size.height()); EXPECT_EQ(default_size.width(), taller_size.width()); } // Check that, for Latin characters, typesetting text in the default fonts and // sizes does not discover any glyphs that would exceed the line spacing // recommended by gfx::Font. TEST_F(RenderTextTest, DefaultLineHeights) { RenderText* render_text = GetRenderText(); render_text->SetText(u"A quick brown fox jumped over the lazy dog!"); #if defined(OS_APPLE) const FontList body2_font = FontList().DeriveWithSizeDelta(-1); #else const FontList body2_font; #endif const FontList headline_font = body2_font.DeriveWithSizeDelta(8); const FontList title_font = body2_font.DeriveWithSizeDelta(3); const FontList body1_font = body2_font.DeriveWithSizeDelta(1); #if defined(OS_WIN) const FontList button_font = body2_font.DeriveWithWeight(gfx::Font::Weight::BOLD); #else const FontList button_font = body2_font.DeriveWithWeight(gfx::Font::Weight::MEDIUM); #endif EXPECT_EQ(12, body2_font.GetFontSize()); EXPECT_EQ(20, headline_font.GetFontSize()); EXPECT_EQ(15, title_font.GetFontSize()); EXPECT_EQ(13, body1_font.GetFontSize()); EXPECT_EQ(12, button_font.GetFontSize()); for (const auto& font : {headline_font, title_font, body1_font, body2_font, button_font}) { render_text->SetFontList(font); EXPECT_EQ(font.GetHeight(), render_text->GetStringSizeF().height()); } } TEST_F(RenderTextTest, TextSize) { // Set a fractional glyph size to trigger floating rounding logic. const float kGlyphWidth = 1.2; const float kGlyphHeight = 9.2; SetGlyphWidth(kGlyphWidth); SetGlyphHeight(kGlyphHeight); RenderText* render_text = GetRenderText(); for (size_t text_length = 0; text_length < 10; ++text_length) { render_text->SetText(std::u16string(text_length, u'x')); // Ensures that conversion from float to integer ceils the values. const float expected_width = text_length * kGlyphWidth; const float expected_height = kGlyphHeight; const int expected_ceiled_width = std::ceil(expected_width); const int expected_ceiled_height = std::ceil(expected_height); EXPECT_FLOAT_EQ(expected_width, render_text->GetStringSizeF().width()); EXPECT_FLOAT_EQ(expected_height, render_text->GetStringSizeF().height()); EXPECT_EQ(expected_ceiled_width, render_text->GetStringSize().width()); EXPECT_EQ(expected_ceiled_height, render_text->GetStringSize().height()); EXPECT_FLOAT_EQ(expected_width, render_text->TotalLineWidth()); // With cursor disabled, the content width is the same as string width. render_text->SetCursorEnabled(false); EXPECT_FLOAT_EQ(expected_width, render_text->GetContentWidthF()); EXPECT_EQ(expected_ceiled_width, render_text->GetContentWidth()); render_text->SetCursorEnabled(true); // The cursor is drawn one pixel beyond the int-enclosing text bounds. EXPECT_FLOAT_EQ(expected_ceiled_width + 1, render_text->GetContentWidthF()); EXPECT_EQ(expected_ceiled_width + 1, render_text->GetContentWidth()); } } TEST_F(RenderTextTest, TextSizeMultiline) { // Set a fractional glyph size to trigger floating rounding logic. const float kGlyphWidth = 1.2; const float kGlyphHeight = 9.2; SetGlyphWidth(kGlyphWidth); SetGlyphHeight(kGlyphHeight); RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); for (size_t line = 0; line < 10; ++line) { if (line != 0) render_text->AppendText(u"\n"); const int text_length = line; render_text->AppendText(std::u16string(text_length, u'x')); // Ensures that conversion from float to integer ceils the values. const float expected_width = text_length * kGlyphWidth; const float expected_height = (line + 1) * kGlyphHeight; const int expected_ceiled_width = std::ceil(expected_width); const int expected_ceiled_height = std::ceil(expected_height); EXPECT_FLOAT_EQ(expected_width, render_text->GetStringSizeF().width()); EXPECT_FLOAT_EQ(expected_height, render_text->GetStringSizeF().height()); EXPECT_EQ(expected_ceiled_width, render_text->GetStringSize().width()); EXPECT_EQ(expected_ceiled_height, render_text->GetStringSize().height()); const int total_glyphs = render_text->text().length(); EXPECT_FLOAT_EQ(total_glyphs * kGlyphWidth, render_text->TotalLineWidth()); // With cursor disabled, the content width is the same as string width. render_text->SetCursorEnabled(false); EXPECT_FLOAT_EQ(expected_width, render_text->GetContentWidthF()); EXPECT_EQ(expected_ceiled_width, render_text->GetContentWidth()); render_text->SetCursorEnabled(true); // The cursor is drawn one pixel beyond the int-enclosing text bounds. EXPECT_FLOAT_EQ(expected_ceiled_width + 1, render_text->GetContentWidthF()); EXPECT_EQ(expected_ceiled_width + 1, render_text->GetContentWidth()); } } TEST_F(RenderTextTest, LineSizeMultiline) { // Set a fractional glyph size to trigger floating rounding logic. const float kGlyphWidth = 1.2; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetText(u"xx\nxxx\nxxxxx"); const float expected_line1_size = 3 * kGlyphWidth; const float expected_line2_size = 4 * kGlyphWidth; const float expected_line3_size = 5 * kGlyphWidth; EXPECT_FLOAT_EQ( expected_line1_size, render_text->GetLineSizeF(SelectionModel(1, CURSOR_FORWARD)).width()); EXPECT_FLOAT_EQ( expected_line2_size, render_text->GetLineSizeF(SelectionModel(4, CURSOR_FORWARD)).width()); EXPECT_FLOAT_EQ( expected_line3_size, render_text->GetLineSizeF(SelectionModel(10, CURSOR_FORWARD)).width()); } TEST_F(RenderTextTest, TextPosition) { // Set a fractional glyph size to trigger floating rounding logic. // This test sets a fixed fractional width and height for glyphs to ensure // that computations are fixed (i.e. not font or system dependent). const float kGlyphWidth = 5.4; const float kGlyphHeight = 9.2; SetGlyphWidth(kGlyphWidth); SetGlyphHeight(kGlyphHeight); const int kGlyphCount = 3; RenderText* render_text = GetRenderText(); render_text->SetText(std::u16string(kGlyphCount, u'x')); render_text->SetDisplayRect(Rect(1, 1, 25, 12)); render_text->SetCursorEnabled(false); render_text->SetVerticalAlignment(ALIGN_TOP); // Content width is 16.2px. Extra space inside display rect is 8.8px // (i.e. 25px - 16.2px) which is used for alignment. const float expected_content_width = kGlyphCount * kGlyphWidth; EXPECT_FLOAT_EQ(expected_content_width, render_text->GetContentWidthF()); EXPECT_FLOAT_EQ(expected_content_width, render_text->TotalLineWidth()); render_text->SetHorizontalAlignment(ALIGN_LEFT); EXPECT_EQ(1, render_text->GetLineOffset(0).x()); EXPECT_EQ(Rect(1, 1, 6, 10), GetSubstringBoundsUnion(Range(0, 1))); EXPECT_EQ(Rect(6, 1, 6, 10), GetSubstringBoundsUnion(Range(1, 2))); EXPECT_EQ(Rect(11, 1, 7, 10), GetSubstringBoundsUnion(Range(2, 3))); render_text->SetHorizontalAlignment(ALIGN_CENTER); EXPECT_EQ(5, render_text->GetLineOffset(0).x()); EXPECT_EQ(Rect(5, 1, 6, 10), GetSubstringBoundsUnion(Range(0, 1))); EXPECT_EQ(Rect(10, 1, 6, 10), GetSubstringBoundsUnion(Range(1, 2))); EXPECT_EQ(Rect(15, 1, 7, 10), GetSubstringBoundsUnion(Range(2, 3))); render_text->SetHorizontalAlignment(ALIGN_RIGHT); EXPECT_EQ(9, render_text->GetLineOffset(0).x()); EXPECT_EQ(Rect(9, 1, 6, 10), GetSubstringBoundsUnion(Range(0, 1))); EXPECT_EQ(Rect(14, 1, 6, 10), GetSubstringBoundsUnion(Range(1, 2))); EXPECT_EQ(Rect(19, 1, 7, 10), GetSubstringBoundsUnion(Range(2, 3))); } TEST_F(RenderTextTest, SetFontList) { RenderText* render_text = GetRenderText(); render_text->SetFontList( FontList(base::StringPrintf("Arial,%s, 13px", kSymbolFontName))); const std::vector& fonts = render_text->font_list().GetFonts(); ASSERT_EQ(2U, fonts.size()); EXPECT_EQ("Arial", fonts[0].GetFontName()); EXPECT_EQ(kSymbolFontName, fonts[1].GetFontName()); EXPECT_EQ(13, render_text->font_list().GetFontSize()); } TEST_F(RenderTextTest, StringSizeBoldWidth) { // TODO(mboc): Add some unittests for other weights (currently not // implemented because of test system font configuration). RenderText* render_text = GetRenderText(); #if defined(OS_FUCHSIA) // Increase font size to ensure that bold and regular styles differ in width. render_text->SetFontList(FontList("Arial, 20px")); #endif // defined(OS_FUCHSIA) render_text->SetText(u"Hello World"); const int plain_width = render_text->GetStringSize().width(); EXPECT_GT(plain_width, 0); // Apply a bold style and check that the new width is greater. render_text->SetWeight(Font::Weight::BOLD); const int bold_width = render_text->GetStringSize().width(); EXPECT_GT(bold_width, plain_width); #if defined(OS_WIN) render_text->SetWeight(Font::Weight::SEMIBOLD); const int semibold_width = render_text->GetStringSize().width(); EXPECT_GT(bold_width, semibold_width); #endif // Now, apply a plain style over the first word only. render_text->ApplyWeight(Font::Weight::NORMAL, Range(0, 5)); const int plain_bold_width = render_text->GetStringSize().width(); EXPECT_GT(plain_bold_width, plain_width); EXPECT_LT(plain_bold_width, bold_width); } TEST_F(RenderTextTest, StringSizeHeight) { std::u16string cases[] = { u"Hello World!", // English u"\u6328\u62f6", // Japanese 挨拶 (characters press & near) u"\u0915\u093f", // Hindi कि (letter KA with vowel I) u"\u05e0\u05b8", // Hebrew נָ (letter NUN and point QAMATS) }; const FontList default_font_list; const FontList& larger_font_list = default_font_list.DeriveWithSizeDelta(24); EXPECT_GT(larger_font_list.GetHeight(), default_font_list.GetHeight()); for (size_t i = 0; i < base::size(cases); i++) { ResetRenderTextInstance(); RenderText* render_text = GetRenderText(); render_text->SetFontList(default_font_list); render_text->SetText(cases[i]); const int height1 = render_text->GetStringSize().height(); EXPECT_GT(height1, 0); // Check that setting the larger font increases the height. render_text->SetFontList(larger_font_list); const int height2 = render_text->GetStringSize().height(); EXPECT_GT(height2, height1); } } TEST_F(RenderTextTest, GetBaselineSanity) { RenderText* render_text = GetRenderText(); render_text->SetText(u"Hello World"); const int baseline = render_text->GetBaseline(); EXPECT_GT(baseline, 0); } TEST_F(RenderTextTest, GetCursorBoundsInReplacementMode) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefg"); render_text->SetDisplayRect(Rect(100, 17)); SelectionModel sel_b(1, CURSOR_FORWARD); SelectionModel sel_c(2, CURSOR_FORWARD); Rect cursor_around_b = render_text->GetCursorBounds(sel_b, false); Rect cursor_before_b = render_text->GetCursorBounds(sel_b, true); Rect cursor_before_c = render_text->GetCursorBounds(sel_c, true); EXPECT_EQ(cursor_around_b.x(), cursor_before_b.x()); EXPECT_EQ(cursor_around_b.right(), cursor_before_c.x()); } TEST_F(RenderTextTest, GetCursorBoundsWithGraphemes) { constexpr int kGlyphWidth = 10; SetGlyphWidth(kGlyphWidth); constexpr int kGlyphHeight = 12; SetGlyphHeight(kGlyphHeight); RenderText* render_text = GetRenderText(); render_text->SetText(u"a\u0300e\u0301\U0001F601x\U0001F573\uFE0F"); render_text->SetDisplayRect(Rect(100, 20)); render_text->SetVerticalAlignment(ALIGN_TOP); static const size_t kGraphemeBoundaries[] = {0, 2, 4, 6, 7}; for (size_t i = 0; i < base::size(kGraphemeBoundaries); ++i) { const size_t text_offset = kGraphemeBoundaries[i]; EXPECT_EQ(render_text->GetCursorBounds( SelectionModel(text_offset, CURSOR_FORWARD), true), Rect(i * kGlyphWidth, 0, 1, kGlyphHeight)); EXPECT_EQ(render_text->GetCursorBounds( SelectionModel(text_offset, CURSOR_FORWARD), false), Rect(i * kGlyphWidth, 0, kGlyphWidth, kGlyphHeight)); } // Check cursor bounds at end of text. EXPECT_EQ( render_text->GetCursorBounds(SelectionModel(10, CURSOR_FORWARD), true), Rect(50, 0, 1, kGlyphHeight)); EXPECT_EQ( render_text->GetCursorBounds(SelectionModel(10, CURSOR_FORWARD), false), Rect(50, 0, 1, kGlyphHeight)); } TEST_F(RenderTextTest, GetTextOffset) { // The default horizontal text offset differs for LTR and RTL, and is only set // when the RenderText object is created. This test will check the default in // LTR mode, and the next test will check the RTL default. const bool was_rtl = base::i18n::IsRTL(); SetRTL(false); // Reset the render text instance since the locale was changed. ResetRenderTextInstance(); RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefg"); render_text->SetFontList(FontList("Arial, 13px")); // Set display area's size equal to the font size. const Size font_size(render_text->GetContentWidth(), render_text->font_list().GetHeight()); Rect display_rect(font_size); render_text->SetDisplayRect(display_rect); Vector2d offset = render_text->GetLineOffset(0); EXPECT_TRUE(offset.IsZero()); const int kEnlargementX = 2; display_rect.Inset(0, 0, -kEnlargementX, 0); render_text->SetDisplayRect(display_rect); // Check the default horizontal alignment. offset = render_text->GetLineOffset(0); EXPECT_EQ(0, offset.x()); // Check explicitly setting the horizontal alignment. render_text->SetHorizontalAlignment(ALIGN_LEFT); offset = render_text->GetLineOffset(0); EXPECT_EQ(0, offset.x()); render_text->SetHorizontalAlignment(ALIGN_CENTER); offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargementX / 2, offset.x()); render_text->SetHorizontalAlignment(ALIGN_RIGHT); offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargementX, offset.x()); // Check that text is vertically centered within taller display rects. const int kEnlargementY = display_rect.height(); display_rect.Inset(0, 0, 0, -kEnlargementY); render_text->SetDisplayRect(display_rect); const Vector2d prev_offset = render_text->GetLineOffset(0); display_rect.Inset(0, 0, 0, -2 * kEnlargementY); render_text->SetDisplayRect(display_rect); offset = render_text->GetLineOffset(0); EXPECT_EQ(prev_offset.y() + kEnlargementY, offset.y()); SetRTL(was_rtl); } TEST_F(RenderTextTest, GetTextOffsetHorizontalDefaultInRTL) { // This only checks the default horizontal alignment in RTL mode; all other // GetLineOffset(0) attributes are checked by the test above. const bool was_rtl = base::i18n::IsRTL(); SetRTL(true); // Reset the render text instance since the locale was changed. ResetRenderTextInstance(); RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefg"); render_text->SetFontList(FontList("Arial, 13px")); const int kEnlargement = 2; const Size font_size(render_text->GetContentWidth() + kEnlargement, render_text->GetStringSize().height()); Rect display_rect(font_size); render_text->SetDisplayRect(display_rect); Vector2d offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargement, offset.x()); SetRTL(was_rtl); } TEST_F(RenderTextTest, GetTextOffsetVerticalAlignment) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefg"); render_text->SetFontList(FontList("Arial, 13px")); // Set display area's size equal to the font size. const Size font_size(render_text->GetContentWidth(), render_text->font_list().GetHeight()); Rect display_rect(font_size); render_text->SetDisplayRect(display_rect); Vector2d offset = render_text->GetLineOffset(0); EXPECT_TRUE(offset.IsZero()); const int kEnlargementY = 10; display_rect.Inset(0, 0, 0, -kEnlargementY); render_text->SetDisplayRect(display_rect); // Check the default vertical alignment (ALIGN_MIDDLE). offset = render_text->GetLineOffset(0); // Because the line height may be odd, and because of the way this calculation // is done, we will accept a result within 1 DIP of half: EXPECT_NEAR(kEnlargementY / 2, offset.y(), 1); // Check explicitly setting the vertical alignment. render_text->SetVerticalAlignment(ALIGN_TOP); offset = render_text->GetLineOffset(0); EXPECT_EQ(0, offset.y()); render_text->SetVerticalAlignment(ALIGN_MIDDLE); offset = render_text->GetLineOffset(0); EXPECT_NEAR(kEnlargementY / 2, offset.y(), 1); render_text->SetVerticalAlignment(ALIGN_BOTTOM); offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargementY, offset.y()); } TEST_F(RenderTextTest, GetTextOffsetVerticalAlignment_Multiline) { RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetMaxLines(2); render_text->SetText(u"abcdefg hijklmn"); render_text->SetFontList(FontList("Arial, 13px")); // Set display area's size equal to the font size. const Size font_size(render_text->GetContentWidth(), render_text->font_list().GetHeight()); // Force text onto two lines. Rect display_rect(Size(font_size.width() * 2 / 3, font_size.height() * 2)); render_text->SetDisplayRect(display_rect); Vector2d offset = render_text->GetLineOffset(0); EXPECT_TRUE(offset.IsZero()); const int kEnlargementY = 10; display_rect.Inset(0, 0, 0, -kEnlargementY); render_text->SetDisplayRect(display_rect); // Check the default vertical alignment (ALIGN_MIDDLE). offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargementY / 2, offset.y()); // Check explicitly setting the vertical alignment. render_text->SetVerticalAlignment(ALIGN_TOP); offset = render_text->GetLineOffset(0); EXPECT_EQ(0, offset.y()); render_text->SetVerticalAlignment(ALIGN_MIDDLE); offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargementY / 2, offset.y()); render_text->SetVerticalAlignment(ALIGN_BOTTOM); offset = render_text->GetLineOffset(0); EXPECT_EQ(kEnlargementY, offset.y()); } TEST_F(RenderTextTest, SetDisplayOffset) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefg"); render_text->SetFontList(FontList("Arial, 13px")); const Size font_size(render_text->GetContentWidth(), render_text->font_list().GetHeight()); const int kEnlargement = 10; // Set display width |kEnlargement| pixels greater than content width and test // different possible situations. In this case the only possible display // offset is zero. Rect display_rect(font_size); display_rect.Inset(0, 0, -kEnlargement, 0); render_text->SetDisplayRect(display_rect); struct { HorizontalAlignment alignment; int offset; } small_content_cases[] = { { ALIGN_LEFT, -kEnlargement }, { ALIGN_LEFT, 0 }, { ALIGN_LEFT, kEnlargement }, { ALIGN_RIGHT, -kEnlargement }, { ALIGN_RIGHT, 0 }, { ALIGN_RIGHT, kEnlargement }, { ALIGN_CENTER, -kEnlargement }, { ALIGN_CENTER, 0 }, { ALIGN_CENTER, kEnlargement }, }; for (size_t i = 0; i < base::size(small_content_cases); i++) { render_text->SetHorizontalAlignment(small_content_cases[i].alignment); render_text->SetDisplayOffset(small_content_cases[i].offset); EXPECT_EQ(0, render_text->GetUpdatedDisplayOffset().x()); } // Set display width |kEnlargement| pixels less than content width and test // different possible situations. display_rect = Rect(font_size); display_rect.Inset(0, 0, kEnlargement, 0); render_text->SetDisplayRect(display_rect); struct { HorizontalAlignment alignment; int offset; int expected_offset; } large_content_cases[] = { // When text is left-aligned, display offset can be in range // [-kEnlargement, 0]. { ALIGN_LEFT, -2 * kEnlargement, -kEnlargement }, { ALIGN_LEFT, -kEnlargement / 2, -kEnlargement / 2 }, { ALIGN_LEFT, kEnlargement, 0 }, // When text is right-aligned, display offset can be in range // [0, kEnlargement]. { ALIGN_RIGHT, -kEnlargement, 0 }, { ALIGN_RIGHT, kEnlargement / 2, kEnlargement / 2 }, { ALIGN_RIGHT, 2 * kEnlargement, kEnlargement }, // When text is center-aligned, display offset can be in range // [-kEnlargement / 2 - 1, (kEnlargement - 1) / 2]. { ALIGN_CENTER, -kEnlargement, -kEnlargement / 2 - 1 }, { ALIGN_CENTER, -kEnlargement / 4, -kEnlargement / 4 }, { ALIGN_CENTER, kEnlargement / 4, kEnlargement / 4 }, { ALIGN_CENTER, kEnlargement, (kEnlargement - 1) / 2 }, }; for (size_t i = 0; i < base::size(large_content_cases); i++) { render_text->SetHorizontalAlignment(large_content_cases[i].alignment); render_text->SetDisplayOffset(large_content_cases[i].offset); EXPECT_EQ(large_content_cases[i].expected_offset, render_text->GetUpdatedDisplayOffset().x()); } } TEST_F(RenderTextTest, SameFontForParentheses) { struct { const char16_t left_char; const char16_t right_char; } punctuation_pairs[] = { { '(', ')' }, { '{', '}' }, { '<', '>' }, }; struct { std::u16string text; } cases[] = { // English(English) {u"Hello World(a)"}, // English(English)English {u"Hello World(a)Hello World"}, // Japanese(English) {u"\u6328\u62f6(a)"}, // Japanese(English)Japanese {u"\u6328\u62f6(a)\u6328\u62f6"}, // English(Japanese)English {u"Hello World(\u6328\u62f6)Hello World"}, // Hindi(English) {u"\u0915\u093f(a)"}, // Hindi(English)Hindi {u"\u0915\u093f(a)\u0915\u093f"}, // English(Hindi)English {u"Hello World(\u0915\u093f)Hello World"}, // Hebrew(English) {u"\u05e0\u05b8(a)"}, // Hebrew(English)Hebrew {u"\u05e0\u05b8(a)\u05e0\u05b8"}, // English(Hebrew)English {u"Hello World(\u05e0\u05b8)Hello World"}, }; RenderText* render_text = GetRenderText(); for (size_t i = 0; i < base::size(cases); ++i) { std::u16string text = cases[i].text; const size_t start_paren_char_index = text.find('('); ASSERT_NE(std::u16string::npos, start_paren_char_index); const size_t end_paren_char_index = text.find(')'); ASSERT_NE(std::u16string::npos, end_paren_char_index); for (size_t j = 0; j < base::size(punctuation_pairs); ++j) { text[start_paren_char_index] = punctuation_pairs[j].left_char; text[end_paren_char_index] = punctuation_pairs[j].right_char; render_text->SetText(text); const std::vector spans = GetFontSpans(); int start_paren_span_index = -1; int end_paren_span_index = -1; for (size_t k = 0; k < spans.size(); ++k) { if (IndexInRange(spans[k].second, start_paren_char_index)) start_paren_span_index = k; if (IndexInRange(spans[k].second, end_paren_char_index)) end_paren_span_index = k; } ASSERT_NE(-1, start_paren_span_index); ASSERT_NE(-1, end_paren_span_index); const Font& start_font = spans[start_paren_span_index].first; const Font& end_font = spans[end_paren_span_index].first; EXPECT_EQ(start_font.GetFontName(), end_font.GetFontName()); EXPECT_EQ(start_font.GetFontSize(), end_font.GetFontSize()); EXPECT_EQ(start_font.GetStyle(), end_font.GetStyle()); } } } // Make sure the caret width is always >=1 so that the correct // caret is drawn at high DPI. crbug.com/164100. TEST_F(RenderTextTest, CaretWidth) { RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefg"); EXPECT_GE(render_text->GetUpdatedCursorBounds().width(), 1); } TEST_F(RenderTextTest, SelectWord) { RenderText* render_text = GetRenderText(); render_text->SetText(u" foo a.bc.d bar"); struct { size_t cursor; size_t selection_start; size_t selection_end; } cases[] = { { 0, 0, 1 }, { 1, 1, 4 }, { 2, 1, 4 }, { 3, 1, 4 }, { 4, 4, 6 }, { 5, 4, 6 }, { 6, 6, 7 }, { 7, 7, 8 }, { 8, 8, 10 }, { 9, 8, 10 }, { 10, 10, 11 }, { 11, 11, 12 }, { 12, 12, 13 }, { 13, 13, 16 }, { 14, 13, 16 }, { 15, 13, 16 }, { 16, 13, 16 }, }; for (size_t i = 0; i < base::size(cases); ++i) { render_text->SetCursorPosition(cases[i].cursor); render_text->SelectWord(); EXPECT_EQ(Range(cases[i].selection_start, cases[i].selection_end), render_text->selection()); } } // Make sure the last word is selected when the cursor is at text.length(). TEST_F(RenderTextTest, LastWordSelected) { const std::u16string kTestURL1 = u"http://www.google.com"; const std::u16string kTestURL2 = u"http://www.google.com/something/"; RenderText* render_text = GetRenderText(); render_text->SetText(kTestURL1); render_text->SetCursorPosition(kTestURL1.length()); render_text->SelectWord(); EXPECT_EQ(u"com", GetSelectedText(render_text)); EXPECT_FALSE(render_text->selection().is_reversed()); render_text->SetText(kTestURL2); render_text->SetCursorPosition(kTestURL2.length()); render_text->SelectWord(); EXPECT_EQ(u"/", GetSelectedText(render_text)); EXPECT_FALSE(render_text->selection().is_reversed()); } // When given a non-empty selection, SelectWord should expand the selection to // nearest word boundaries. TEST_F(RenderTextTest, SelectMultipleWords) { const std::u16string kTestURL = u"http://www.google.com"; RenderText* render_text = GetRenderText(); render_text->SetText(kTestURL); render_text->SelectRange(Range(16, 20)); render_text->SelectWord(); EXPECT_EQ(u"google.com", GetSelectedText(render_text)); EXPECT_FALSE(render_text->selection().is_reversed()); // SelectWord should preserve the selection direction. render_text->SelectRange(Range(20, 16)); render_text->SelectWord(); EXPECT_EQ(u"google.com", GetSelectedText(render_text)); EXPECT_TRUE(render_text->selection().is_reversed()); } TEST_F(RenderTextTest, DisplayRectShowsCursorLTR) { ASSERT_FALSE(base::i18n::IsRTL()); ASSERT_FALSE(base::i18n::ICUIsRTL()); RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefghijklmnopqrstuvwxzyabcdefg"); render_text->SetCursorPosition(render_text->text().length()); int width = render_text->GetStringSize().width(); ASSERT_GT(width, 10); // Ensure that the cursor is placed at the width of its preceding text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(width, render_text->GetUpdatedCursorBounds().x()); // Ensure that shrinking the display rectangle keeps the cursor in view. render_text->SetDisplayRect(Rect(width - 10, 1)); EXPECT_EQ(render_text->display_rect().width(), render_text->GetUpdatedCursorBounds().right()); // Ensure that the text will pan to fill its expanding display rectangle. render_text->SetDisplayRect(Rect(width - 5, 1)); EXPECT_EQ(render_text->display_rect().width(), render_text->GetUpdatedCursorBounds().right()); // Ensure that a sufficiently large display rectangle shows all the text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(width, render_text->GetUpdatedCursorBounds().x()); // Repeat the test with RTL text. render_text->SetText(u"אבגדהוזחטיךכלםמן"); render_text->SetCursorPosition(0); width = render_text->GetStringSize().width(); ASSERT_GT(width, 10); // Ensure that the cursor is placed at the width of its preceding text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(width, render_text->GetUpdatedCursorBounds().x()); // Ensure that shrinking the display rectangle keeps the cursor in view. render_text->SetDisplayRect(Rect(width - 10, 1)); EXPECT_EQ(render_text->display_rect().width(), render_text->GetUpdatedCursorBounds().right()); // Ensure that the text will pan to fill its expanding display rectangle. render_text->SetDisplayRect(Rect(width - 5, 1)); EXPECT_EQ(render_text->display_rect().width(), render_text->GetUpdatedCursorBounds().right()); // Ensure that a sufficiently large display rectangle shows all the text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(width, render_text->GetUpdatedCursorBounds().x()); } TEST_F(RenderTextTest, DisplayRectShowsCursorRTL) { // Set the application default text direction to RTL. const bool was_rtl = base::i18n::IsRTL(); SetRTL(true); // Reset the render text instance since the locale was changed. ResetRenderTextInstance(); RenderText* render_text = GetRenderText(); render_text->SetText(u"abcdefghijklmnopqrstuvwxzyabcdefg"); render_text->SetCursorPosition(0); int width = render_text->GetStringSize().width(); ASSERT_GT(width, 10); // Ensure that the cursor is placed at the width of its preceding text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(render_text->display_rect().width() - width - 1, render_text->GetUpdatedCursorBounds().x()); // Ensure that shrinking the display rectangle keeps the cursor in view. render_text->SetDisplayRect(Rect(width - 10, 1)); EXPECT_EQ(0, render_text->GetUpdatedCursorBounds().x()); // Ensure that the text will pan to fill its expanding display rectangle. render_text->SetDisplayRect(Rect(width - 5, 1)); EXPECT_EQ(0, render_text->GetUpdatedCursorBounds().x()); // Ensure that a sufficiently large display rectangle shows all the text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(render_text->display_rect().width() - width - 1, render_text->GetUpdatedCursorBounds().x()); // Repeat the test with RTL text. render_text->SetText(u"אבגדהוזחטיךכלםמן"); render_text->SetCursorPosition(render_text->text().length()); width = render_text->GetStringSize().width(); ASSERT_GT(width, 10); // Ensure that the cursor is placed at the width of its preceding text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(render_text->display_rect().width() - width - 1, render_text->GetUpdatedCursorBounds().x()); // Ensure that shrinking the display rectangle keeps the cursor in view. render_text->SetDisplayRect(Rect(width - 10, 1)); EXPECT_EQ(0, render_text->GetUpdatedCursorBounds().x()); // Ensure that the text will pan to fill its expanding display rectangle. render_text->SetDisplayRect(Rect(width - 5, 1)); EXPECT_EQ(0, render_text->GetUpdatedCursorBounds().x()); // Ensure that a sufficiently large display rectangle shows all the text. render_text->SetDisplayRect(Rect(width + 10, 1)); EXPECT_EQ(render_text->display_rect().width() - width - 1, render_text->GetUpdatedCursorBounds().x()); // Reset the application default text direction to LTR. SetRTL(was_rtl); EXPECT_EQ(was_rtl, base::i18n::IsRTL()); } // Changing colors between or inside ligated glyphs should not break shaping. TEST_F(RenderTextTest, SelectionKeepsLigatures) { const char16_t* const kTestStrings[] = {u"\u0644\u0623", u"\u0633\u0627"}; RenderText* render_text = GetRenderText(); render_text->set_selection_color(SK_ColorGREEN); for (size_t i = 0; i < base::size(kTestStrings); ++i) { render_text->SetText(kTestStrings[i]); const int expected_width = render_text->GetStringSize().width(); render_text->SelectRange({0, 1}); EXPECT_EQ(expected_width, render_text->GetStringSize().width()); // Drawing the text should not DCHECK or crash; see http://crbug.com/262119 render_text->Draw(canvas()); render_text->SetCursorPosition(0); } } // Test that characters commonly used in the context of several scripts do not // cause text runs to break. For example the Japanese "long sound symbol" -- // normally only used in a Katakana script, is also used on occasion when in // Hiragana scripts. It shouldn't cause a Hiragana text run break since that // could upset kerning. TEST_F(RenderTextTest, ScriptExtensionsDoNotBreak) { // Apparently ramen restaurants prefer "らーめん" over "らあめん". The "dash" // is the long sound symbol and usually just appears in Katakana writing. const std::u16string ramen_hiragana = u"らーめん"; const std::u16string ramen_katakana = u"ラーメン"; const std::u16string ramen_mixed = u"らあメン"; EXPECT_EQ(std::vector({ramen_hiragana}), RunsFor(ramen_hiragana)); EXPECT_EQ(std::vector({ramen_katakana}), RunsFor(ramen_katakana)); EXPECT_EQ(std::vector({u"らあ", u"メン"}), RunsFor(ramen_mixed)); } // Test that whitespace breaks runs of text. E.g. this can permit better fonts // to be chosen by the fallback mechanism when a font does not provide // whitespace glyphs for all scripts. See http://crbug.com/731563. TEST_F(RenderTextTest, WhitespaceDoesBreak) { // Title of the Wikipedia page for "bit". ASCII spaces. In Hebrew and English. // Note that the hyphens that Wikipedia uses are different. English uses // ASCII (U+002D) "hyphen minus", Hebrew uses the U+2013 "EN Dash". const std::u16string ascii_space_he = u"סיבית – ויקיפדיה"; const std::u16string ascii_space_en = u"Bit - Wikipedia"; // This says "thank you very much" with a full-width non-ascii space (U+3000). const std::u16string full_width_space = u"ども ありがと"; EXPECT_EQ( std::vector({u"סיבית", u" ", u"–", u" ", u"ויקיפדיה"}), RunsFor(ascii_space_he)); EXPECT_EQ( std::vector({u"Bit", u" ", u"-", u" ", u"Wikipedia"}), RunsFor(ascii_space_en)); EXPECT_EQ(std::vector({u"ども", u" ", u"ありがと"}), RunsFor(full_width_space)); } // Ensure strings wrap onto multiple lines for a small available width. TEST_F(RenderTextTest, Multiline_MinWidth) { const char16_t* kTestStrings[] = {kWeak, kLtr, kLtrRtl, kLtrRtlLtr, kRtl, kRtlLtr, kRtlLtrRtl}; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(1, 1000)); render_text->SetMultiline(true); render_text->SetWordWrapBehavior(WRAP_LONG_WORDS); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i]); render_text->Draw(canvas()); EXPECT_GT(test_api()->lines().size(), 1U); } } // Ensure strings wrap onto multiple lines for a normal available width. TEST_F(RenderTextTest, Multiline_NormalWidth) { // Should RenderText suppress drawing whitespace at the end of a line? // Currently it does not. const struct { const char16_t* const text; const Range first_line_char_range; const Range second_line_char_range; // Lengths of each text run. Runs break at whitespace. std::vector run_lengths; // The index of the text run that should start the second line. int second_line_run_index; bool is_ltr; } kTestStrings[] = { {u"abc defg hijkl", Range(0, 9), Range(9, 14), {3, 1, 4, 1, 5}, 4, true}, {u"qwertyzxcvbn", Range(0, 10), Range(10, 12), {10, 2}, 1, true}, // RTL: should render left-to-right as "43210 \n cba9876". // Note this used to say "Arabic language", in Arabic, but the last // character in the string (\u0629) got fancy in an updated Mac font, so // now the penultimate character repeats. (See "NOTE" below). {u"اللغة العربيي", Range(0, 6), Range(6, 13), {1 /* space first */, 5, 7}, 2, false}, // RTL: should render left-to-right as "3210 \n cba98765". {u"تفاح תפוזיךכם", Range(0, 5), Range(5, 13), {1 /* space first */, 5, 8}, 2, false}}; RenderTextHarfBuzz* render_text = GetRenderText(); // Specify the fixed width for characters to suppress the possible variations // of linebreak results. SetGlyphWidth(5); render_text->SetDisplayRect(Rect(50, 1000)); render_text->SetMultiline(true); render_text->SetWordWrapBehavior(WRAP_LONG_WORDS); render_text->SetHorizontalAlignment(ALIGN_TO_HEAD); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i].text); DrawVisualText(); ASSERT_EQ(2U, test_api()->lines().size()); EXPECT_EQ(kTestStrings[i].first_line_char_range, LineCharRange(test_api()->lines()[0])); EXPECT_EQ(kTestStrings[i].second_line_char_range, LineCharRange(test_api()->lines()[1])); ASSERT_EQ(kTestStrings[i].run_lengths.size(), text_log().size()); // NOTE: this expectation compares the character length and glyph counts, // which isn't always equal. This is okay only because all the test // strings are simple (like, no compound characters nor UTF16-surrogate // pairs). Be careful in case more complicated test strings are added. EXPECT_EQ(kTestStrings[i].run_lengths[0], text_log()[0].glyphs().size()); const int second_line_start = kTestStrings[i].second_line_run_index; EXPECT_EQ(kTestStrings[i].run_lengths[second_line_start], text_log()[second_line_start].glyphs().size()); EXPECT_LT(text_log()[0].origin().y(), text_log()[second_line_start].origin().y()); if (kTestStrings[i].is_ltr) { EXPECT_EQ(0, text_log()[0].origin().x()); EXPECT_EQ(0, text_log()[second_line_start].origin().x()); } else { EXPECT_LT(0, text_log()[0].origin().x()); EXPECT_LT(0, text_log()[second_line_start].origin().x()); } } } // Ensure strings don't wrap onto multiple lines for a sufficient available // width. TEST_F(RenderTextTest, Multiline_SufficientWidth) { const char16_t* kTestStrings[] = {u"", u" ", u".", u" . ", u"abc", u"a b c", u"\u062E\u0628\u0632", u"\u062E \u0628 \u0632"}; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(1000, 1000)); render_text->SetMultiline(true); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i]); render_text->Draw(canvas()); EXPECT_EQ(1U, test_api()->lines().size()); } } TEST_F(RenderTextTest, Multiline_Newline) { const struct { const char16_t* const text; const size_t lines_count; // Ranges of the characters on each line. const Range line_char_ranges[3]; } kTestStrings[] = { {u"abc\ndef", 2ul, {Range(0, 4), Range(4, 7), Range::InvalidRange()}}, {u"a \n b ", 2ul, {Range(0, 3), Range(3, 6), Range::InvalidRange()}}, {u"ab\n", 2ul, {Range(0, 3), Range(), Range::InvalidRange()}}, {u"a\n\nb", 3ul, {Range(0, 2), Range(2, 3), Range(3, 4)}}, {u"\nab", 2ul, {Range(0, 1), Range(1, 3), Range::InvalidRange()}}, {u"\n", 2ul, {Range(0, 1), Range(), Range::InvalidRange()}}, }; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(200, 1000)); render_text->SetMultiline(true); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i].text); render_text->Draw(canvas()); EXPECT_EQ(kTestStrings[i].lines_count, test_api()->lines().size()); if (kTestStrings[i].lines_count != test_api()->lines().size()) continue; for (size_t j = 0; j < kTestStrings[i].lines_count; ++j) { SCOPED_TRACE(base::StringPrintf("Line %" PRIuS "", j)); // There might be multiple segments in one line. Merge all the segments // ranges in the same line. const size_t segment_size = test_api()->lines()[j].segments.size(); Range line_range; if (segment_size > 0) line_range = Range( test_api()->lines()[j].segments[0].char_range.start(), test_api()->lines()[j].segments[segment_size - 1].char_range.end()); EXPECT_EQ(kTestStrings[i].line_char_ranges[j], line_range); } } } // Make sure that multiline mode ignores elide behavior. TEST_F(RenderTextTest, Multiline_IgnoreElide) { const char16_t kTestString[] = u"very very very long string xxxxxxxxxxxxxxxxxxxxxxxxxx"; RenderText* render_text = GetRenderText(); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(20, 1000)); render_text->SetText(kTestString); EXPECT_NE(std::u16string::npos, render_text->GetDisplayText().find(u"…")); render_text->SetMultiline(true); EXPECT_EQ(std::u16string::npos, render_text->GetDisplayText().find(u"…")); } TEST_F(RenderTextTest, Multiline_NewlineCharacterReplacement) { const char16_t* kTestStrings[] = { u"abc\ndef", u"a \n b ", u"ab\n", u"a\n\nb", u"\nab", u"\n", }; for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); ResetRenderTextInstance(); RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(200, 1000)); render_text->SetText(kTestStrings[i]); std::u16string display_text = render_text->GetDisplayText(); // If RenderText is not multiline, the newline characters are replaced // by symbols, therefore the character should be changed. EXPECT_NE(kTestStrings[i], render_text->GetDisplayText()); // Setting multiline will fix this, the newline characters will be back // to the original text. render_text->SetMultiline(true); EXPECT_EQ(kTestStrings[i], render_text->GetDisplayText()); } } // Ensure horizontal alignment works in multiline mode. TEST_F(RenderTextTest, Multiline_HorizontalAlignment) { constexpr struct { const char16_t* const text; const HorizontalAlignment alignment; const base::i18n::TextDirection display_text_direction; } kTestStrings[] = { {u"abcdefghi\nhijk", ALIGN_LEFT, base::i18n::LEFT_TO_RIGHT}, {u"nhij\nabcdefghi", ALIGN_LEFT, base::i18n::LEFT_TO_RIGHT}, // Hebrew, 2nd line shorter {u"אבגדהוזח\n" u"אבגד", ALIGN_RIGHT, base::i18n::RIGHT_TO_LEFT}, // Hebrew, 2nd line longer {u"אבגד\n" u"אבגדהוזח", ALIGN_RIGHT, base::i18n::RIGHT_TO_LEFT}, // Arabic, 2nd line shorter. {u"\u0627\u0627\u0627\u0627\u0627\u0627\u0627\u0627\n" u"\u0627\u0644\u0644\u063A", ALIGN_RIGHT, base::i18n::RIGHT_TO_LEFT}, // Arabic, 2nd line longer. {u"\u0627\u0644\u0644\u063A\n" u"\u0627\u0627\u0627\u0627\u0627\u0627\u0627\u0627", ALIGN_RIGHT, base::i18n::RIGHT_TO_LEFT}, }; const int kGlyphSize = 5; RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetHorizontalAlignment(ALIGN_TO_HEAD); SetGlyphWidth(kGlyphSize); render_text->SetDisplayRect(Rect(100, 1000)); render_text->SetMultiline(true); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(testing::Message("kTestStrings[") << i << "] = " << kTestStrings[i].text); render_text->SetText(kTestStrings[i].text); EXPECT_EQ(kTestStrings[i].display_text_direction, render_text->GetDisplayTextDirection()); render_text->Draw(canvas()); ASSERT_LE(2u, test_api()->lines().size()); if (kTestStrings[i].alignment == ALIGN_LEFT) { EXPECT_EQ(0, test_api()->GetAlignmentOffset(0).x()); EXPECT_EQ(0, test_api()->GetAlignmentOffset(1).x()); } else { std::vector lines = base::SplitString(kTestStrings[i].text, std::u16string(1, '\n'), base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL); ASSERT_EQ(2u, lines.size()); // Sanity check the input string lengths match the glyph lengths. EXPECT_EQ(4u, std::min(lines[0].length(), lines[1].length())); EXPECT_EQ(8u, std::max(lines[0].length(), lines[1].length())); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(3U, run_list->runs().size()); EXPECT_EQ(lines[0].length(), run_list->runs()[0]->shape.glyph_count); EXPECT_EQ(1u, run_list->runs()[1]->shape.glyph_count); // \n. EXPECT_EQ(lines[1].length(), run_list->runs()[2]->shape.glyph_count); int difference = (lines[0].length() - lines[1].length() + 1) * kGlyphSize; EXPECT_EQ(test_api()->GetAlignmentOffset(0).x() + difference, test_api()->GetAlignmentOffset(1).x()); } } } TEST_F(RenderTextTest, Multiline_WordWrapBehavior) { const int kGlyphSize = 5; const struct { const WordWrapBehavior behavior; const size_t num_lines; const Range char_ranges[4]; } kTestScenarios[] = { { IGNORE_LONG_WORDS, 3u, { Range(0, 4), Range(4, 11), Range(11, 14), Range::InvalidRange() } }, { TRUNCATE_LONG_WORDS, 3u, { Range(0, 4), Range(4, 8), Range(11, 14), Range::InvalidRange() } }, { WRAP_LONG_WORDS, 4u, { Range(0, 4), Range(4, 8), Range(8, 11), Range(11, 14) } }, // TODO(mukai): implement ELIDE_LONG_WORDS. It's not used right now. }; RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetText(u"foo fooooo foo"); SetGlyphWidth(kGlyphSize); render_text->SetDisplayRect(Rect(0, 0, kGlyphSize * 4, 0)); for (size_t i = 0; i < base::size(kTestScenarios); ++i) { SCOPED_TRACE(base::StringPrintf( "kTestScenarios[%" PRIuS "] %d", i, kTestScenarios[i].behavior)); render_text->SetWordWrapBehavior(kTestScenarios[i].behavior); render_text->Draw(canvas()); ASSERT_EQ(kTestScenarios[i].num_lines, test_api()->lines().size()); for (size_t j = 0; j < test_api()->lines().size(); ++j) { SCOPED_TRACE(base::StringPrintf("%" PRIuS "-th line", j)); EXPECT_EQ(kTestScenarios[i].char_ranges[j], LineCharRange(test_api()->lines()[j])); EXPECT_EQ(kTestScenarios[i].char_ranges[j].length() * kGlyphSize, test_api()->lines()[j].size.width()); } } } TEST_F(RenderTextTest, Multiline_LineBreakerBehavior) { const int kGlyphSize = 5; const struct { const char16_t* const text; const WordWrapBehavior behavior; const Range char_ranges[3]; } kTestScenarios[] = { {u"a single run", IGNORE_LONG_WORDS, {Range(0, 2), Range(2, 9), Range(9, 12)}}, // 3 words: "That's ", ""good". ", "aaa" and 7 runs: "That", "'", "s ", // """, "good", "". ", "aaa". They all mixed together. {u"That's \"good\". aaa", IGNORE_LONG_WORDS, {Range(0, 7), Range(7, 15), Range(15, 18)}}, // Test "\"" should be put into a new line correctly. {u"a \"good\" one.", IGNORE_LONG_WORDS, {Range(0, 2), Range(2, 9), Range(9, 13)}}, // Test for full-width space. {u"That's\u3000good.\u3000yyy", IGNORE_LONG_WORDS, {Range(0, 7), Range(7, 13), Range(13, 16)}}, {u"a single run", TRUNCATE_LONG_WORDS, {Range(0, 2), Range(2, 6), Range(9, 12)}}, {u"That's \"good\". aaa", TRUNCATE_LONG_WORDS, {Range(0, 4), Range(7, 11), Range(15, 18)}}, {u"That's good. aaa", TRUNCATE_LONG_WORDS, {Range(0, 4), Range(7, 11), Range(13, 16)}}, {u"a \"good\" one.", TRUNCATE_LONG_WORDS, {Range(0, 2), Range(2, 6), Range(9, 13)}}, {u"asingleword", WRAP_LONG_WORDS, {Range(0, 4), Range(4, 8), Range(8, 11)}}, {u"That's good", WRAP_LONG_WORDS, {Range(0, 4), Range(4, 7), Range(7, 11)}}, {u"That's \"g\".", WRAP_LONG_WORDS, {Range(0, 4), Range(4, 7), Range(7, 11)}}, }; RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetMultiline(true); SetGlyphWidth(kGlyphSize); render_text->SetDisplayRect(Rect(0, 0, kGlyphSize * 4, 0)); for (size_t i = 0; i < base::size(kTestScenarios); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestScenarios[i].text); render_text->SetWordWrapBehavior(kTestScenarios[i].behavior); render_text->Draw(canvas()); ASSERT_EQ(3u, test_api()->lines().size()); for (size_t j = 0; j < test_api()->lines().size(); ++j) { SCOPED_TRACE(base::StringPrintf("%" PRIuS "-th line", j)); // Merge all the segments ranges in the same line. size_t segment_size = test_api()->lines()[j].segments.size(); Range line_range; if (segment_size > 0) line_range = Range( test_api()->lines()[j].segments[0].char_range.start(), test_api()->lines()[j].segments[segment_size - 1].char_range.end()); EXPECT_EQ(kTestScenarios[i].char_ranges[j], line_range); // Depending on kerning pairs in the font, a run's length is not strictly // equal to number of glyphs * kGlyphsize. Size should match within a // small margin. const float kSizeMargin = 0.127; EXPECT_LT( std::abs(kTestScenarios[i].char_ranges[j].length() * kGlyphSize - test_api()->lines()[j].size.width()), kSizeMargin); } } } // Test that Surrogate pairs or combining character sequences do not get // separated by line breaking. TEST_F(RenderTextTest, Multiline_SurrogatePairsOrCombiningChars) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetWordWrapBehavior(WRAP_LONG_WORDS); // Below is 'MUSICAL SYMBOL G CLEF' (U+1D11E), which is represented in UTF-16 // as two code units forming a surrogate pair: 0xD834 0xDD1E. const char16_t kSurrogate[] = {0xD834, 0xDD1E, 0}; const std::u16string text_surrogate(kSurrogate); const int kSurrogateWidth = GetStringWidth(kSurrogate, render_text->font_list()); // Below is a Devanagari two-character combining sequence U+0921 U+093F. The // sequence forms a single display character and should not be separated. const char16_t kCombiningChars[] = {0x921, 0x93F, 0}; const std::u16string text_combining(kCombiningChars); const int kCombiningCharsWidth = GetStringWidth(kCombiningChars, render_text->font_list()); const struct { const std::u16string text; const int display_width; const Range char_ranges[3]; } kTestScenarios[] = { {text_surrogate + text_surrogate + text_surrogate, kSurrogateWidth / 2 * 3, {Range(0, 2), Range(2, 4), Range(4, 6)}}, {text_surrogate + u" " + kCombiningChars, std::min(kSurrogateWidth, kCombiningCharsWidth) / 2, {Range(0, 2), Range(2, 3), Range(3, 5)}}, }; for (size_t i = 0; i < base::size(kTestScenarios); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestScenarios[i].text); render_text->SetDisplayRect(Rect(0, 0, kTestScenarios[i].display_width, 0)); render_text->Draw(canvas()); ASSERT_EQ(3u, test_api()->lines().size()); for (size_t j = 0; j < test_api()->lines().size(); ++j) { SCOPED_TRACE(base::StringPrintf("%" PRIuS "-th line", j)); // There is only one segment in each line. EXPECT_EQ(kTestScenarios[i].char_ranges[j], test_api()->lines()[j].segments[0].char_range); } } } // Test that Zero width characters have the correct line breaking behavior. TEST_F(RenderTextTest, Multiline_ZeroWidthChars) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetWordWrapBehavior(WRAP_LONG_WORDS); // U+200B is Zero Width Space. const std::u16string text = u"test\u200B\n\u200Btest."; const int kTestWidth = GetStringWidth(u"test", render_text->font_list()); const Range char_ranges[3] = {Range(0, 6), Range(6, 11), Range(11, 12)}; render_text->SetText(text); render_text->SetDisplayRect(Rect(0, 0, kTestWidth, 0)); render_text->Draw(canvas()); EXPECT_EQ(3u, test_api()->lines().size()); for (size_t j = 0; j < std::min(base::size(char_ranges), test_api()->lines().size()); ++j) { SCOPED_TRACE(base::StringPrintf("%" PRIuS "-th line", j)); int segment_size = test_api()->lines()[j].segments.size(); ASSERT_GT(segment_size, 0); Range line_range( test_api()->lines()[j].segments[0].char_range.start(), test_api()->lines()[j].segments[segment_size - 1].char_range.end()); EXPECT_EQ(char_ranges[j], line_range); } } TEST_F(RenderTextTest, Multiline_ZeroWidthNewline) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetMultiline(true); const std::u16string text(u"\n\n"); render_text->SetText(text); EXPECT_EQ(3u, render_text->GetNumLines()); for (const auto& line : test_api()->lines()) { EXPECT_EQ(0, line.size.width()); EXPECT_LT(0, line.size.height()); } const internal::TextRunList* run_list = GetHarfBuzzRunList(); EXPECT_EQ(2U, run_list->size()); EXPECT_EQ(0, run_list->width()); } TEST_F(RenderTextTest, Multiline_GetLineContainingCaret) { struct { const SelectionModel caret; const size_t line_num; } cases[] = { {SelectionModel(8, CURSOR_FORWARD), 1}, {SelectionModel(9, CURSOR_BACKWARD), 1}, {SelectionModel(9, CURSOR_FORWARD), 2}, {SelectionModel(12, CURSOR_BACKWARD), 2}, {SelectionModel(12, CURSOR_FORWARD), 2}, {SelectionModel(13, CURSOR_BACKWARD), 3}, {SelectionModel(13, CURSOR_FORWARD), 3}, {SelectionModel(14, CURSOR_BACKWARD), 4}, {SelectionModel(14, CURSOR_FORWARD), 4}, }; // Set a non-integral width to cause rounding errors in calculating cursor // bounds. GetCursorBounds calculates cursor position based on the horizontal // span of the cursor, which is compared with the line widths to find out on // which line the span stops. Rounding errors should be taken into // consideration in comparing these two non-integral values. SetGlyphWidth(5.3); RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(45, 1000)); render_text->SetMultiline(true); render_text->SetVerticalAlignment(ALIGN_TOP); for (const char16_t* text : {u"\n123 456 789\n\n123", u"\nשנב גקכ עין\n\nחלך"}) { for (const auto& sample : cases) { SCOPED_TRACE(testing::Message() << "Testing " << (text[1] == '1' ? "LTR" : "RTL") << " Caret " << sample.caret << " line " << sample.line_num); render_text->SetText(text); EXPECT_EQ(5U, render_text->GetNumLines()); EXPECT_EQ(sample.line_num, render_text->GetLineContainingCaret(sample.caret)); // GetCursorBounds should be in the same line as GetLineContainingCaret. Rect bounds = render_text->GetCursorBounds(sample.caret, true); EXPECT_EQ(static_cast(sample.line_num), GetLineContainingYCoord(bounds.origin().y() + 1)); } } } TEST_F(RenderTextTest, NewlineWithoutMultilineFlag) { const char16_t* kTestStrings[] = { u"abc\ndef", u"a \n b ", u"ab\n", u"a\n\nb", u"\nab", u"\n", }; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(200, 1000)); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i]); render_text->Draw(canvas()); EXPECT_EQ(1U, test_api()->lines().size()); } } TEST_F(RenderTextTest, ControlCharacterReplacement) { static const char16_t kTextWithControlCharacters[] = u"\b\r\a\t\n\v\f"; RenderText* render_text = GetRenderText(); render_text->SetText(kTextWithControlCharacters); // The control characters should have been replaced by their symbols. EXPECT_EQ(u"␈␍␇␉␊␋␌", render_text->GetDisplayText()); // Setting multiline, the newline character will be back to the original text. render_text->SetMultiline(true); EXPECT_EQ(u"␈\r␇␉\n␋␌", render_text->GetDisplayText()); // The generic control characters should have been replaced by the replacement // codepoints. render_text->SetText(u"\u008f\u0080"); EXPECT_EQ(u"\ufffd\ufffd", render_text->GetDisplayText()); } TEST_F(RenderTextTest, PrivateUseCharacterReplacement) { RenderText* render_text = GetRenderText(); render_text->SetText(u"xx\ue78d\ue78fa\U00100042z"); // The private use characters should have been replaced. If the code point is // a surrogate pair, it needs to be replaced by two characters. EXPECT_EQ(u"xx\ufffd\ufffda\ufffdz", render_text->GetDisplayText()); // The private use characters from Area-B must be replaced. The rewrite step // replaced 2 characters by 1 character. render_text->SetText(u"x\U00100000\U00100001\U00100002"); EXPECT_EQ(u"x\ufffd\ufffd\ufffd", render_text->GetDisplayText()); } TEST_F(RenderTextTest, AppleSpecificPrivateUseCharacterReplacement) { // see: http://www.unicode.org/Public/MAPPINGS/VENDORS/APPLE/CORPCHAR.TXT RenderText* render_text = GetRenderText(); render_text->SetText(u"\uf8ff"); #if defined(OS_APPLE) EXPECT_EQ(u"\uf8ff", render_text->GetDisplayText()); #else EXPECT_EQ(u"\ufffd", render_text->GetDisplayText()); #endif } TEST_F(RenderTextTest, MicrosoftSpecificPrivateUseCharacterReplacement) { const char16_t* allowed_codepoints[] = { u"\uF093", u"\uF094", u"\uF095", u"\uF096", u"\uF108", u"\uF109", u"\uF10A", u"\uF10B", u"\uF10C", u"\uF10D", u"\uF10E", u"\uEECA", u"\uEDE3"}; for (auto* codepoint : allowed_codepoints) { RenderText* render_text = GetRenderText(); render_text->SetText(codepoint); #if defined(OS_WIN) if (base::win::GetVersion() >= base::win::Version::WIN10) { EXPECT_EQ(codepoint, render_text->GetDisplayText()); } else { EXPECT_EQ(u"\uFFFD", render_text->GetDisplayText()); } #else EXPECT_EQ(u"\uFFFD", render_text->GetDisplayText()); #endif } } TEST_F(RenderTextTest, InvalidSurrogateCharacterReplacement) { // Text with invalid surrogates (surrogates low 0xDC00 and high 0xD800). RenderText* render_text = GetRenderText(); render_text->SetText(u"\xDC00\xD800"); EXPECT_EQ(u"\ufffd\ufffd", render_text->GetDisplayText()); } // Make sure the horizontal positions of runs in a line (left-to-right for // LTR languages and right-to-left for RTL languages). TEST_F(RenderTextTest, HarfBuzz_HorizontalPositions) { const struct { const char16_t* const text; const char* expected_runs; } kTestStrings[] = { {u"abc\u3042\u3044\u3046\u3048\u304A", "[0->2][3->7]"}, {u"\u062A\u0641\u0627\u062D\u05EA\u05E4וז", "[7<-4][3<-0]"}, }; RenderTextHarfBuzz* render_text = GetRenderText(); for (size_t i = 0; i < base::size(kTestStrings); ++i) { SCOPED_TRACE(base::StringPrintf("kTestStrings[%" PRIuS "]", i)); render_text->SetText(kTestStrings[i].text); EXPECT_EQ(kTestStrings[i].expected_runs, GetRunListStructureString()); DrawVisualText(); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(2U, run_list->size()); ASSERT_EQ(2U, text_log().size()); // Verifies the DrawText happens in the visual order and left-to-right. // If the text is RTL, the logically first run should be drawn at last. EXPECT_EQ( run_list->runs()[run_list->logical_to_visual(0)]->shape.glyph_count, text_log()[0].glyphs().size()); EXPECT_EQ( run_list->runs()[run_list->logical_to_visual(1)]->shape.glyph_count, text_log()[1].glyphs().size()); EXPECT_LT(text_log()[0].origin().x(), text_log()[1].origin().x()); } } // Test TextRunHarfBuzz's cluster finding logic. TEST_F(RenderTextTest, HarfBuzz_Clusters) { struct { uint32_t glyph_to_char[4]; Range chars[4]; Range glyphs[4]; bool is_rtl; } cases[] = { { // From string "A B C D" to glyphs "a b c d". { 0, 1, 2, 3 }, { Range(0, 1), Range(1, 2), Range(2, 3), Range(3, 4) }, { Range(0, 1), Range(1, 2), Range(2, 3), Range(3, 4) }, false }, { // From string "A B C D" to glyphs "d c b a". { 3, 2, 1, 0 }, { Range(0, 1), Range(1, 2), Range(2, 3), Range(3, 4) }, { Range(3, 4), Range(2, 3), Range(1, 2), Range(0, 1) }, true }, { // From string "A B C D" to glyphs "ab c c d". { 0, 2, 2, 3 }, { Range(0, 2), Range(0, 2), Range(2, 3), Range(3, 4) }, { Range(0, 1), Range(0, 1), Range(1, 3), Range(3, 4) }, false }, { // From string "A B C D" to glyphs "d c c ba". { 3, 2, 2, 0 }, { Range(0, 2), Range(0, 2), Range(2, 3), Range(3, 4) }, { Range(3, 4), Range(3, 4), Range(1, 3), Range(0, 1) }, true }, }; internal::TextRunHarfBuzz run((Font())); run.range = Range(0, 4); run.shape.glyph_count = 4; run.shape.glyph_to_char.resize(4); for (size_t i = 0; i < base::size(cases); ++i) { std::copy(cases[i].glyph_to_char, cases[i].glyph_to_char + 4, run.shape.glyph_to_char.begin()); run.font_params.is_rtl = cases[i].is_rtl; for (size_t j = 0; j < 4; ++j) { SCOPED_TRACE(base::StringPrintf("Case %" PRIuS ", char %" PRIuS, i, j)); Range chars; Range glyphs; run.GetClusterAt(j, &chars, &glyphs); EXPECT_EQ(cases[i].chars[j], chars); EXPECT_EQ(cases[i].glyphs[j], glyphs); EXPECT_EQ(cases[i].glyphs[j], run.CharRangeToGlyphRange(chars)); } } } // Ensures GetClusterAt does not crash on invalid conditions. crbug.com/724880 TEST_F(RenderTextTest, HarfBuzz_NoCrashOnTextRunGetClusterAt) { internal::TextRunHarfBuzz run((Font())); run.range = Range(0, 4); run.shape.glyph_count = 4; // Construct a |glyph_to_char| map where no glyph maps to the first character. run.shape.glyph_to_char = {1u, 1u, 2u, 3u}; Range chars, glyphs; // GetClusterAt should not crash asking for the cluster at position 0. ASSERT_NO_FATAL_FAILURE(run.GetClusterAt(0, &chars, &glyphs)); } // Ensure that graphemes with multiple code points do not get split. TEST_F(RenderTextTest, HarfBuzz_SubglyphGraphemeCases) { const char16_t* cases[] = { // Ä (A with combining umlaut), followed by a "B". u"A\u0308B", // कि (Devangari letter KA with vowel I), followed by an "a". u"\u0915\u093f\u0905", // จำ (Thai characters CHO CHAN and SARA AM, followed by Thai digit 0. u"\u0e08\u0e33\u0E50", }; RenderTextHarfBuzz* render_text = GetRenderText(); for (size_t i = 0; i < base::size(cases); ++i) { SCOPED_TRACE(base::StringPrintf("Case %" PRIuS, i)); std::u16string text = cases[i]; render_text->SetText(text); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(1U, run_list->size()); internal::TextRunHarfBuzz* run = run_list->runs()[0].get(); auto first_grapheme_bounds = run->GetGraphemeBounds(render_text, 0); EXPECT_EQ(first_grapheme_bounds, run->GetGraphemeBounds(render_text, 1)); auto second_grapheme_bounds = run->GetGraphemeBounds(render_text, 2); EXPECT_EQ(first_grapheme_bounds.end(), second_grapheme_bounds.start()); } } // Test the partition of a multi-grapheme cluster into grapheme ranges. TEST_F(RenderTextTest, HarfBuzz_SubglyphGraphemePartition) { struct { uint32_t glyph_to_char[2]; Range bounds[4]; bool is_rtl; } cases[] = { { // From string "A B C D" to glyphs "a bcd". { 0, 1 }, { Range(0, 10), Range(10, 13), Range(13, 17), Range(17, 20) }, false }, { // From string "A B C D" to glyphs "ab cd". { 0, 2 }, { Range(0, 5), Range(5, 10), Range(10, 15), Range(15, 20) }, false }, { // From string "A B C D" to glyphs "dcb a". { 1, 0 }, { Range(10, 20), Range(7, 10), Range(3, 7), Range(0, 3) }, true }, { // From string "A B C D" to glyphs "dc ba". { 2, 0 }, { Range(15, 20), Range(10, 15), Range(5, 10), Range(0, 5) }, true }, }; internal::TextRunHarfBuzz run((Font())); run.range = Range(0, 4); run.shape.glyph_count = 2; run.shape.glyph_to_char.resize(2); run.shape.positions.resize(4); run.shape.width = 20; RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(u"abcd"); for (size_t i = 0; i < base::size(cases); ++i) { std::copy(cases[i].glyph_to_char, cases[i].glyph_to_char + 2, run.shape.glyph_to_char.begin()); run.font_params.is_rtl = cases[i].is_rtl; for (int j = 0; j < 2; ++j) run.shape.positions[j].set(j * 10, 0); for (size_t j = 0; j < 4; ++j) { SCOPED_TRACE(base::StringPrintf("Case %" PRIuS ", char %" PRIuS, i, j)); RangeF bounds_f = run.GetGraphemeBounds(render_text, j); Range bounds(std::round(bounds_f.start()), std::round(bounds_f.end())); EXPECT_EQ(cases[i].bounds[j], bounds); } } } TEST_F(RenderTextTest, HarfBuzz_RunDirection) { RenderTextHarfBuzz* render_text = GetRenderText(); const std::u16string mixed = u"אב1234גדabc"; render_text->SetText(mixed); // Get the run list for both display directions. render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_LTR); EXPECT_EQ("[7<-6][2->5][1<-0][8->10]", GetRunListStructureString()); render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_RTL); EXPECT_EQ("[8->10][7<-6][2->5][1<-0]", GetRunListStructureString()); } TEST_F(RenderTextTest, HarfBuzz_RunDirection_URLs) { RenderTextHarfBuzz* render_text = GetRenderText(); // This string, unescaped (logical order): // ‭www.אב.גד/הוabc/def?זח=טי‬ const std::u16string mixed = u"www.אב.גד/הו" u"abc/def?זח=טי"; render_text->SetText(mixed); // Normal LTR text should treat URL syntax as weak (as per the normal Bidi // algorithm). render_text->SetDirectionalityMode(DIRECTIONALITY_FORCE_LTR); // This is complex because a new run is created for each punctuation mark, but // it simplifies down to: [0->3][11<-4][12->19][24<-20] // Should render as: ‭www.וה/דג.באabc/def?יט=חז‬ const char kExpectedRunListNormalBidi[] = "[0->2][3][11<-10][9][8<-7][6][5<-4][12->14][15][16->18][19][24<-23][22]" "[21<-20]"; EXPECT_EQ(kExpectedRunListNormalBidi, GetRunListStructureString()); // DIRECTIONALITY_AS_URL should be exactly the same as // DIRECTIONALITY_FORCE_LTR by default. render_text->SetDirectionalityMode(DIRECTIONALITY_AS_URL); EXPECT_EQ(kExpectedRunListNormalBidi, GetRunListStructureString()); } TEST_F(RenderTextTest, HarfBuzz_BreakRunsByUnicodeBlocks) { RenderTextHarfBuzz* render_text = GetRenderText(); // The ▶ (U+25B6) "play character" should break runs. http://crbug.com/278913 render_text->SetText(u"x\u25B6y"); EXPECT_EQ(std::vector({u"x", u"▶", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1][2]", GetRunListStructureString()); render_text->SetText(u"x \u25B6 y"); EXPECT_EQ(std::vector({u"x", u" ", u"▶", u" ", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1][2][3][4]", GetRunListStructureString()); } TEST_F(RenderTextTest, HarfBuzz_BreakRunsByEmoji) { RenderTextHarfBuzz* render_text = GetRenderText(); // 😁 (U+1F601, a smile emoji) and ✨ (U+2728, a sparkle icon) can both be // drawn with color emoji fonts, so runs should be separated. crbug.com/448909 // Windows requires wide strings for \Unnnnnnnn universal character names. render_text->SetText(u"x\U0001F601y\u2728"); EXPECT_EQ(std::vector({u"x", u"😁", u"y", u"✨"}), GetRunListStrings()); // U+1F601 is represented as a surrogate pair in UTF-16. EXPECT_EQ("[0][1->2][3][4]", GetRunListStructureString()); // Ensure non-latin 「foo」 brackets around Emoji correctly break runs. render_text->SetText(u"「🦋」「"); EXPECT_EQ(std::vector({u"「", u"🦋", u"」「"}), GetRunListStrings()); // Note 🦋 is a surrogate pair [1->2]. EXPECT_EQ("[0][1->2][3->4]", GetRunListStructureString()); } TEST_F(RenderTextTest, HarfBuzz_BreakRunsByNewline) { RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetText(u"x\ny"); EXPECT_EQ(std::vector({u"x", u"\n", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1][2]", GetRunListStructureString()); // Validate that the character newline is an unknown glyph // (see http://crbug/972090 and http://crbug/680430). const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(3U, run_list->size()); EXPECT_EQ(0U, run_list->runs()[0]->CountMissingGlyphs()); EXPECT_EQ(1U, run_list->runs()[1]->CountMissingGlyphs()); EXPECT_EQ(0U, run_list->runs()[2]->CountMissingGlyphs()); SkScalar x_width = run_list->runs()[0]->GetGlyphWidthForCharRange(Range(0, 1)); EXPECT_GT(x_width, 0); // Newline character must have a width of zero. SkScalar newline_width = run_list->runs()[1]->GetGlyphWidthForCharRange(Range(1, 2)); EXPECT_EQ(newline_width, 0); SkScalar y_width = run_list->runs()[2]->GetGlyphWidthForCharRange(Range(2, 3)); EXPECT_GT(y_width, 0); } TEST_F(RenderTextTest, HarfBuzz_BreakRunsByEmojiVariationSelectors) { constexpr int kGlyphWidth = 30; SetGlyphWidth(30); RenderTextHarfBuzz* render_text = GetRenderText(); // ☎ (U+260E BLACK TELEPHONE) and U+FE0F (a variation selector) combine to // form (on some platforms), ☎️, a red (or blue) telephone. The run can // not break between the codepoints, or the incorrect glyph will be chosen. render_text->SetText(u"z\u260E\uFE0Fy"); render_text->SetDisplayRect(Rect(1000, 50)); EXPECT_EQ(std::vector({u"z", u"☎\uFE0F", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1->2][3]", GetRunListStructureString()); // Also test moving the cursor across the telephone. EXPECT_EQ(gfx::Range(0, 0), render_text->selection()); EXPECT_EQ(0, render_text->GetUpdatedCursorBounds().x()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(gfx::Range(1, 1), render_text->selection()); EXPECT_EQ(1 * kGlyphWidth, render_text->GetUpdatedCursorBounds().x()); #if defined(OS_APPLE) // Early versions of macOS provide a tofu glyph for the variation selector. // Bail out early except on 10.12 and above. if (base::mac::IsAtMostOS10_11()) return; #endif // TODO(865709): make this work on Android. #if !defined(OS_ANDROID) // Jump over the telephone: two codepoints, but a single glyph. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(gfx::Range(3, 3), render_text->selection()); EXPECT_EQ(2 * kGlyphWidth, render_text->GetUpdatedCursorBounds().x()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(gfx::Range(4, 4), render_text->selection()); EXPECT_EQ(3 * kGlyphWidth, render_text->GetUpdatedCursorBounds().x()); // Nothing else. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(gfx::Range(4, 4), render_text->selection()); EXPECT_EQ(3 * kGlyphWidth, render_text->GetUpdatedCursorBounds().x()); #endif } TEST_F(RenderTextTest, HarfBuzz_OrphanedVariationSelector) { RenderTextHarfBuzz* render_text = GetRenderText(); // It should never happen in normal usage, but a variation selector can appear // by itself. In this case, it can form its own text run, with no glyphs. render_text->SetText(u"\uFE0F"); EXPECT_EQ(std::vector({u"\uFE0F"}), GetRunListStrings()); EXPECT_EQ("[0]", GetRunListStructureString()); CheckBoundsForCursorPositions(); } TEST_F(RenderTextTest, HarfBuzz_AsciiVariationSelector) { RenderTextHarfBuzz* render_text = GetRenderText(); #if defined(OS_APPLE) // Don't use a system font on macOS - asking for a variation selector on // ASCII glyphs can tickle OS bugs. See http://crbug.com/785522. render_text->SetFontList(FontList("Arial, 12px")); #endif // A variation selector doesn't have to appear with Emoji. It will probably // cause the typesetter to render tofu in this case, but it should not break // a text run. render_text->SetText(u"z\uFE0Fy"); EXPECT_EQ(std::vector({u"z\uFE0Fy"}), GetRunListStrings()); EXPECT_EQ("[0->2]", GetRunListStructureString()); CheckBoundsForCursorPositions(); } TEST_F(RenderTextTest, HarfBuzz_LeadingVariationSelector) { RenderTextHarfBuzz* render_text = GetRenderText(); // When a variation selector appears either side of an emoji, ensure the one // after is in the same run. render_text->SetText(u"\uFE0F\u260E\uFE0Fy"); EXPECT_EQ(std::vector({u"\uFE0F", u"☎\uFE0F", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1->2][3]", GetRunListStructureString()); CheckBoundsForCursorPositions(); } TEST_F(RenderTextTest, HarfBuzz_TrailingVariationSelector) { RenderTextHarfBuzz* render_text = GetRenderText(); // If a redundant variation selector appears in an emoji run, it also gets // merged into the emoji run. Usually there should be no effect. That's // ultimately up to the typeface but, however it choses, cursor and glyph // positions should behave. render_text->SetText(u"z\u260E\uFE0F\uFE0Fy"); EXPECT_EQ(std::vector({u"z", u"☎\uFE0F\uFE0F", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1->3][4]", GetRunListStructureString()); CheckBoundsForCursorPositions(); } TEST_F(RenderTextTest, HarfBuzz_MultipleVariationSelectorEmoji) { RenderTextHarfBuzz* render_text = GetRenderText(); // Two emoji with variation selectors appearing in a correct sequence should // be in the same run. render_text->SetText(u"z\u260E\uFE0F\u260E\uFE0Fy"); EXPECT_EQ(std::vector({u"z", u"☎\uFE0F☎\uFE0F", u"y"}), GetRunListStrings()); EXPECT_EQ("[0][1->4][5]", GetRunListStructureString()); CheckBoundsForCursorPositions(); } TEST_F(RenderTextTest, HarfBuzz_BreakRunsByAscii) { RenderTextHarfBuzz* render_text = GetRenderText(); // ▶ (U+25B6, Geometric Shapes) and an ascii character should have // different runs. render_text->SetText(u"▶z"); EXPECT_EQ(std::vector({u"▶", u"z"}), GetRunListStrings()); EXPECT_EQ("[0][1]", GetRunListStructureString()); // ★ (U+2605, Miscellaneous Symbols) and an ascii character should have // different runs. render_text->SetText(u"★1"); EXPECT_EQ(std::vector({u"★", u"1"}), GetRunListStrings()); EXPECT_EQ("[0][1]", GetRunListStructureString()); // 🐱 (U+1F431, a cat face, Miscellaneous Symbols and Pictographs) and an // ASCII period should have separate runs. render_text->SetText(u"🐱."); EXPECT_EQ(std::vector({u"🐱", u"."}), GetRunListStrings()); // U+1F431 is represented as a surrogate pair in UTF-16. EXPECT_EQ("[0->1][2]", GetRunListStructureString()); // 🥴 (U+1f974, Supplemental Symbols and Pictographs) and an ascii character // should have different runs. render_text->SetText(u"🥴$"); EXPECT_EQ(std::vector({u"🥴", u"$"}), GetRunListStrings()); EXPECT_EQ("[0->1][2]", GetRunListStructureString()); } // Test that, on Mac, font fallback mechanisms and Harfbuzz configuration cause // the correct glyphs to be chosen for unicode regional indicators. TEST_F(RenderTextTest, EmojiFlagGlyphCount) { RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(1000, 1000)); // Two flags: UK and Japan. Note macOS 10.9 only has flags for 10 countries. std::u16string text(u"🇬🇧🇯🇵"); // Each flag is 4 UTF16 characters (2 surrogate pair code points). EXPECT_EQ(8u, text.length()); render_text->SetText(text); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(1U, run_list->runs().size()); #if defined(OS_LINUX) || defined(OS_CHROMEOS) || defined(OS_APPLE) // On Linux and macOS, the flags should be found, so two glyphs result. EXPECT_EQ(2u, run_list->runs()[0]->shape.glyph_count); #elif defined(OS_ANDROID) // It seems that some versions of android support the flags. Older versions // don't support it. EXPECT_TRUE(2u == run_list->runs()[0]->shape.glyph_count || 4u == run_list->runs()[0]->shape.glyph_count); #else // Elsewhere, the flags are not found, so each surrogate pair gets a // placeholder glyph. Eventually, all platforms should have 2 glyphs. EXPECT_EQ(4u, run_list->runs()[0]->shape.glyph_count); #endif } TEST_F(RenderTextTest, HarfBuzz_ShapeRunsWithMultipleFonts) { RenderTextHarfBuzz* render_text = GetRenderText(); // The following text will be split in 3 runs: // 1) u+1F3F3 u+FE0F u+FE0F (Segoe UI Emoji) // 2) u+0020 (Segoe UI) // 3) u+1F308 u+20E0 u+20E0 (Segoe UI Symbol) // The three runs are shape in the same group but are mapped with three // different fonts. render_text->SetText(u"\U0001F3F3\U0000FE0F\U00000020\U0001F308\U000020E0"); std::vector expected; expected.push_back(u"\U0001F3F3\U0000FE0F"); expected.push_back(u" "); expected.push_back(u"\U0001F308\U000020E0"); EXPECT_EQ(expected, GetRunListStrings()); EXPECT_EQ("[0->2][3][4->6]", GetRunListStructureString()); #if defined(OS_WIN) std::vector expected_fonts; if (base::win::GetVersion() < base::win::Version::WIN10) expected_fonts = {"Segoe UI", "Segoe UI", "Segoe UI Symbol"}; else expected_fonts = {"Segoe UI Emoji", "Segoe UI", "Segoe UI Symbol"}; std::vector mapped_fonts; for (const auto& font_span : GetFontSpans()) mapped_fonts.push_back(font_span.first.GetFontName()); EXPECT_EQ(expected_fonts, mapped_fonts); #endif } TEST_F(RenderTextTest, GlyphBounds) { const char16_t* kTestStrings[] = {u"asdf 1234 qwer", u"\u0647\u0654", u"\u0645\u0631\u062D\u0628\u0627"}; RenderText* render_text = GetRenderText(); for (size_t i = 0; i < base::size(kTestStrings); ++i) { render_text->SetText(kTestStrings[i]); for (size_t j = 0; j < render_text->text().length(); ++j) EXPECT_FALSE(render_text->GetCursorSpan(Range(j, j + 1)).is_empty()); } } // Ensure that shaping with a non-existent font does not cause a crash. TEST_F(RenderTextTest, HarfBuzz_NonExistentFont) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(u"test"); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(1U, run_list->size()); internal::TextRunHarfBuzz* run = run_list->runs()[0].get(); ShapeRunWithFont(render_text->text(), Font("TheFontThatDoesntExist", 13), FontRenderParams(), run); } // Ensure an empty run returns sane values to queries. TEST_F(RenderTextTest, HarfBuzz_EmptyRun) { internal::TextRunHarfBuzz run((Font())); RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(u"abcdefgh"); run.range = Range(3, 8); run.shape.glyph_count = 0; EXPECT_EQ(Range(), run.CharRangeToGlyphRange(Range(4, 5))); EXPECT_EQ(RangeF(), run.GetGraphemeBounds(render_text, 4)); Range chars; Range glyphs; run.GetClusterAt(4, &chars, &glyphs); EXPECT_EQ(Range(3, 8), chars); EXPECT_EQ(Range(), glyphs); } // Ensure the line breaker doesn't compute the word's width bigger than the // actual size. See http://crbug.com/470073 TEST_F(RenderTextTest, HarfBuzz_WordWidthWithDiacritics) { RenderTextHarfBuzz* render_text = GetRenderText(); const std::u16string kWord = u"\u0906\u092A\u0915\u0947 "; render_text->SetText(kWord); const SizeF text_size = render_text->GetStringSizeF(); render_text->SetText(kWord + kWord); render_text->SetMultiline(true); EXPECT_EQ(text_size.width() * 2, render_text->GetStringSizeF().width()); EXPECT_EQ(text_size.height(), render_text->GetStringSizeF().height()); render_text->SetDisplayRect(Rect(0, 0, std::ceil(text_size.width()), 0)); EXPECT_NEAR(text_size.width(), render_text->GetStringSizeF().width(), 1.0f); EXPECT_EQ(text_size.height() * 2, render_text->GetStringSizeF().height()); } // Ensure a string fits in a display rect with a width equal to the string's. TEST_F(RenderTextTest, StringFitsOwnWidth) { RenderText* render_text = GetRenderText(); const std::u16string kString = u"www.example.com"; render_text->SetText(kString); render_text->ApplyWeight(Font::Weight::BOLD, Range(0, 3)); render_text->SetElideBehavior(ELIDE_TAIL); render_text->SetDisplayRect(Rect(0, 0, 500, 100)); EXPECT_EQ(kString, render_text->GetDisplayText()); render_text->SetDisplayRect(Rect(0, 0, render_text->GetContentWidth(), 100)); EXPECT_EQ(kString, render_text->GetDisplayText()); } // TODO(865715): Figure out why this fails on Android. #if !defined(OS_ANDROID) // Ensure that RenderText examines all of the fonts in its FontList before // falling back to other fonts. TEST_F(RenderTextTest, HarfBuzz_FontListFallback) { // Double-check that the requested fonts are present. std::string format = std::string(kTestFontName) + ", %s, 12px"; FontList font_list(base::StringPrintf(format.c_str(), kSymbolFontName)); const std::vector& fonts = font_list.GetFonts(); ASSERT_EQ(2u, fonts.size()); ASSERT_EQ(base::ToLowerASCII(kTestFontName), base::ToLowerASCII(fonts[0].GetActualFontName())); ASSERT_EQ(base::ToLowerASCII(kSymbolFontName), base::ToLowerASCII(fonts[1].GetActualFontName())); // "⊕" (U+2295, CIRCLED PLUS) should be rendered with Symbol rather than // falling back to some other font that's present on the system. RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetFontList(font_list); render_text->SetText(u"\u2295"); const std::vector spans = GetFontSpans(); ASSERT_EQ(static_cast(1), spans.size()); EXPECT_EQ(kSymbolFontName, spans[0].first.GetFontName()); } #endif // !defined(OS_ANDROID) // Ensure that the fallback fonts offered by GetFallbackFonts() are tried. Note // this test assumes the font "Arial" doesn't provide a unicode glyph for a // particular character, and that there is a system fallback font which does. // TODO(msw): Fallback doesn't find a glyph on Linux and Android. #if !defined(OS_LINUX) && !defined(OS_CHROMEOS) && !defined(OS_ANDROID) TEST_F(RenderTextTest, HarfBuzz_UnicodeFallback) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetFontList(FontList("Arial, 12px")); // An invalid Unicode character that somehow yields Korean character "han". render_text->SetText(u"\ud55c"); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(1U, run_list->size()); EXPECT_EQ(0U, run_list->runs()[0]->CountMissingGlyphs()); } #endif // !defined(OS_LINUX) && !defined(OS_CHROMEOS) && !defined(OS_ANDROID) // Ensure that the fallback fonts offered by GetFallbackFont() support glyphs // for different languages. TEST_F(RenderTextTest, HarfBuzz_FallbackFontsSupportGlyphs) { // The word 'test' in different languages. static const char16_t* kLanguageTests[] = { u"test", u"اختبار", u"Δοκιμή", u"परीक्षा", u"تست", u"Փորձարկում", }; for (const auto* text : kLanguageTests) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(text); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(1U, run_list->size()); int missing_glyphs = run_list->runs()[0]->CountMissingGlyphs(); if (missing_glyphs != 0) { ADD_FAILURE() << "Text '" << text << "' is missing " << missing_glyphs << " glyphs."; } } } // Ensure that the fallback fonts offered by GetFallbackFont() support glyphs // for different languages. TEST_F(RenderTextTest, HarfBuzz_MultiRunsSupportGlyphs) { static const char16_t* kLanguageTests[] = { u"www.اختبار.com", u"(اختبار)", u"/ זה (מבחן) /", }; for (const auto* text : kLanguageTests) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(text); int missing_glyphs = 0; const internal::TextRunList* run_list = GetHarfBuzzRunList(); for (const auto& run : run_list->runs()) missing_glyphs += run->CountMissingGlyphs(); if (missing_glyphs != 0) { ADD_FAILURE() << "Text '" << text << "' is missing " << missing_glyphs << " glyphs."; } } } struct FallbackFontCase { const char* test_name; const char16_t* text; }; class RenderTextTestWithFallbackFontCase : public RenderTextTest, public ::testing::WithParamInterface { public: static std::string ParamInfoToString( ::testing::TestParamInfo param_info) { return param_info.param.test_name; } }; TEST_P(RenderTextTestWithFallbackFontCase, FallbackFont) { FallbackFontCase param = GetParam(); RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(param.text); int missing_glyphs = 0; const internal::TextRunList* run_list = GetHarfBuzzRunList(); for (const auto& run : run_list->runs()) missing_glyphs += run->CountMissingGlyphs(); EXPECT_EQ(missing_glyphs, 0); } const FallbackFontCase kUnicodeDecomposeCases[] = { // Decompose to "\u0041\u0300". {"letter_A_with_grave", u"\u00c0"}, // Decompose to "\u004f\u0328\u0304". {"letter_O_with_ogonek_macron", u"\u01ec"}, // Decompose to "\u0041\u030a". {"angstrom_sign", u"\u212b"}, // Decompose to "\u1100\u1164\u11b6". {"hangul_syllable_gyaelh", u"\uac63"}, // Decompose to "\u1107\u1170\u11af". {"hangul_syllable_bwel", u"\ubdc0"}, // Decompose to "\U00044039". {"cjk_ideograph_fad4", u"\ufad4"}, }; INSTANTIATE_TEST_SUITE_P(FallbackFontUnicodeDecompose, RenderTextTestWithFallbackFontCase, ::testing::ValuesIn(kUnicodeDecomposeCases), RenderTextTestWithFallbackFontCase::ParamInfoToString); // Ensures that RenderText is finding an appropriate font and that every // codepoint can be rendered by the font. An error here can be by an incorrect // ItemizeText(...) leading to an invalid fallback font. const FallbackFontCase kComplexTextCases[] = { {"simple1", u"test"}, {"simple2", u"اختبار"}, {"simple3", u"Δοκιμή"}, {"simple4", u"परीक्षा"}, {"simple5", u"تست"}, {"simple6", u"Փորձարկում"}, {"mixed1", u"www.اختبار.com"}, {"mixed2", u"(اختبار)"}, {"mixed3", u"/ זה (מבחן) /"}, #if defined(OS_WIN) {"asc_arb", u"abcښڛڜdef"}, {"devanagari", u"ञटठडढणतथ"}, {"ethiopic", u"መጩጪᎅⶹⶼ"}, {"greek", u"ξοπρς"}, {"kannada", u"ಠಡಢಣತಥ"}, {"lao", u"ປຝພຟມ"}, {"oriya", u"ଔକଖଗଘଙ"}, {"telugu_lat", u"aaఉయ!"}, {"common_math", u"ℳ: ¬ƒ(x)=½×¾"}, {"picto_title", u"☞☛test☚☜"}, {"common_numbers", u"𝟭𝟐⒓¹²"}, {"common_puncts", u",.!"}, {"common_space_math1", u" 𝓐"}, {"common_space_math2", u" 𝓉"}, {"common_split_spaces", u"♬ 𝓐"}, {"common_mixed", u"\U0001d4c9\u24d4\U0001d42c"}, {"arrows", u"↰↱↲↳↴↵⇚⇛⇜⇝⇞⇟"}, {"arrows_space", u"↰ ↱ ↲ ↳ ↴ ↵ ⇚ ⇛ ⇜ ⇝ ⇞ ⇟"}, {"emoji_title", u"▶Feel goods"}, {"enclosed_alpha", u"ⒶⒷⒸⒹⒺⒻⒼ"}, {"shapes", u" ▶▷▸▹►▻◀◁◂◃◄◅"}, {"symbols", u"☂☎☏☝☫☬☭☮☯"}, {"symbols_space", u"☂ ☎ ☏ ☝ ☫ ☬ ☭ ☮ ☯"}, {"dingbats", u"✂✃✄✆✇✈"}, {"cjk_compatibility_ideographs", u"賈滑串句龜"}, {"lat_dev_ZWNJ", u"a\u200Cक"}, {"paren_picto", u"(☾☹☽)"}, {"emoji1", u"This is 💩!"}, {"emoji2", u"Look [🔝]"}, {"strange1", u"💔♬ 𝓐 𝓉ⓔ𝐬т FỖ𝕣 c卄尺𝕆ᵐ€ ♘👹"}, {"strange2", u"˜”*°•.˜”*°• A test for chrome •°*”˜.•°*”˜"}, {"strange3", u"𝐭єⓢт fσ𝐑 𝔠ʰ𝕣ό𝐌𝔢"}, {"strange4", u"тẸⓈ𝔱 𝔽𝕠ᖇ 𝕔𝐡ŕ𝔬ⓜẸ"}, {"url1", u"http://www.google.com"}, {"url2", u"http://www.nowhere.com/Lörick.html"}, {"url3", u"http://www.nowhere.com/تسجيل الدخول"}, {"url4", u"https://xyz.com:8080/تس(1)جيل الدخول"}, {"url5", u"http://www.script.com/test.php?abc=42&cde=12&f=%20%20"}, {"punct1", u"This‐is‑a‒test–for—punctuations"}, {"punct2", u"⁅All ‷magic‴ comes with a ‶price″⁆"}, {"punct3", u"⍟ Complete my sentence… †"}, {"parens", u"❝This❞ 「test」 has ((a)) 【lot】 [{of}] 〚parentheses〛"}, {"games", u"Let play: ♗♘⚀⚁♠♣"}, {"braille", u"⠞⠑⠎⠞ ⠋⠕⠗ ⠉⠓⠗⠕⠍⠑"}, {"emoticon1", u"¯\\_(ツ)_/¯"}, {"emoticon2", u"٩(⁎❛ᴗ❛⁎)۶"}, {"emoticon3", u"(͡° ͜ʖ ͡°)"}, {"emoticon4", u"[̲̅$̲̅(̲̅5̲̅)̲̅$̲̅]"}, #endif }; INSTANTIATE_TEST_SUITE_P(FallbackFontComplexTextCases, RenderTextTestWithFallbackFontCase, ::testing::ValuesIn(kComplexTextCases), RenderTextTestWithFallbackFontCase::ParamInfoToString); // Test cases to ensures the COMMON unicode script is split by unicode code // block. These tests work on Windows and Mac default fonts installation. // On other platforms, the fonts are mock (see test_fonts). const FallbackFontCase kCommonScriptCases[] = { #if defined(OS_WIN) // The following tests are made to work on win7 and win10. {"common00", u"\u237b\u2ac1\u24f5\u259f\u2a87\u23ea\u25d4\u2220"}, {"common01", u"\u2303\u2074\u2988\u32b6\u26a2\u24e5\u2a53\u2219"}, {"common02", u"\u29b2\u25fc\u2366\u24ae\u2647\u258e\u2654\u25fe"}, {"common03", u"\u21ea\u22b4\u29b0\u2a84\u0008\u2657\u2731\u2697"}, {"common04", u"\u2b3c\u2932\u21c8\u23cf\u20a1\u2aa2\u2344\u0011"}, {"common05", u"\u22c3\u2a56\u2340\u21b7\u26ba\u2798\u220f\u2404"}, {"common06", u"\u21f9\u25fd\u008e\u21e6\u2686\u21e4\u259f\u29ee"}, {"common07", u"\u231e\ufe39\u0008\u2349\u2262\u2270\uff09\u2b3b"}, {"common08", u"\u24a3\u236e\u29b2\u2259\u26ea\u2705\u00ae\u2a23"}, {"common09", u"\u33bd\u235e\u2018\u32ba\u2973\u02c1\u20b9\u25b4"}, {"common10", u"\u2245\u2a4d\uff19\u2042\u2aa9\u2658\u276e\uff40"}, {"common11", u"\u0007\u21b4\u23c9\u2593\u21ba\u00a0\u258f\u23b3"}, {"common12", u"\u2938\u250c\u2240\u2676\u2297\u2b07\u237e\u2a04"}, {"common13", u"\u2520\u233a\u20a5\u2744\u2445\u268a\u2716\ufe62"}, {"common14", u"\ufe4d\u25d5\u2ae1\u2a35\u2323\u273c\u26be\u2a3b"}, {"common15", u"\u2aa2\u0000\ufe65\u2962\u2573\u21f8\u2651\u02d2"}, {"common16", u"\u225c\u2283\u2960\u4de7\uff12\uffe1\u0016\u2905"}, {"common17", u"\uff07\u25aa\u2076\u259e\u226c\u2568\u0026\u2691"}, {"common18", u"\u2388\u21c2\u208d\u2a7f\u22d0\u2583\u2ad5\u240f"}, {"common19", u"\u230a\u27ac\u001e\u261e\u259d\u25c3\u33a5\u0011"}, {"common20", u"\ufe54\u29c7\u2477\u21ed\u2069\u4dfc\u2ae2\u21e8"}, {"common21", u"\u2131\u2ab7\u23b9\u2660\u2083\u24c7\u228d\u2a01"}, {"common22", u"\u2587\u2572\u21df\uff3c\u02cd\ufffd\u2404\u22b3"}, {"common23", u"\u4dc3\u02fe\uff09\u25a3\ufe14\u255c\u2128\u2698"}, {"common24", u"\u2b36\u3382\u02f6\u2752\uff16\u22cf\u00b0\u21d6"}, {"common25", u"\u2561\u23db\u2958\u2782\u22af\u2621\u24a3\u29ae"}, {"common26", u"\u2693\u22e2\u2988\u2987\u33ba\u2a94\u298e\u2328"}, {"common27", u"\u266c\u2aa5\u2405\uffeb\uff5c\u2902\u291e\u02e6"}, {"common28", u"\u2634\u32b2\u3385\u2032\u33be\u2366\u2ac7\u23cf"}, {"common29", u"\u2981\ua721\u25a9\u2320\u21cf\u295a\u2273\u2ac2"}, {"common30", u"\u22d9\u2465\u2347\u2a94\u4dca\u2389\u23b0\u208d"}, {"common31", u"\u21cc\u2af8\u2912\u23a4\u2271\u2303\u241e\u33a1"}, #elif defined(OS_ANDROID) {"common00", u"\u2497\uff04\u277c\u21b6\u2076\u21e4\u2068\u21b3"}, {"common01", u"\u2663\u2466\u338e\u226b\u2734\u21be\u3389\u00ab"}, {"common02", u"\u2062\u2197\u3392\u2681\u33be\u206d\ufe10\ufe34"}, {"common03", u"\u02db\u00b0\u02d3\u2745\u33d1\u21e4\u24e4\u33d6"}, {"common04", u"\u21da\u261f\u26a1\u2586\u27af\u2560\u21cd\u25c6"}, {"common05", u"\ufe51\uff17\u0027\u21fd\u24de\uff5e\u2606\u251f"}, {"common06", u"\u2493\u2466\u21fc\u226f\u202d\u21a9\u0040\u265d"}, {"common07", u"\u2103\u255a\u2153\u26be\u27ac\u222e\u2490\u21a4"}, {"common08", u"\u270b\u2486\u246b\u263c\u27b6\u21d9\u219d\u25a9"}, {"common09", u"\u002d\u2494\u25fd\u2321\u2111\u2511\u00d7\u2535"}, {"common10", u"\u2523\u203e\u25b2\ufe18\u2499\u2229\ufd3e\ufe16"}, {"common11", u"\u2133\u2716\u273f\u2064\u2248\u005c\u265f\u21e6"}, {"common12", u"\u2060\u246a\u231b\u2726\u25bd\ufe40\u002e\u25ca"}, {"common13", u"\ufe39\u24a2\ufe18\u254b\u249c\u3396\ua71f\u2466"}, {"common14", u"\u21b8\u2236\u251a\uff11\u2077\u0035\u27bd\u2013"}, {"common15", u"\u2668\u2551\u221a\u02bc\u2741\u2649\u2192\u00a1"}, {"common16", u"\u2211\u21ca\u24dc\u2536\u201b\u21c8\u2530\u25fb"}, {"common17", u"\u231a\u33d8\u2934\u27bb\u2109\u23ec\u20a9\u3000"}, {"common18", u"\u2069\u205f\u33d3\u2466\u24a1\u24dd\u21ac\u21e3"}, {"common19", u"\u2737\u219a\u21f1\u2285\u226a\u00b0\u27b2\u2746"}, {"common20", u"\u264f\u2539\u2202\u264e\u2548\u2530\u2111\u2007"}, {"common21", u"\u2799\u0035\u25e4\u265b\u24e2\u2044\u222b\u0021"}, {"common22", u"\u2728\u00a2\u2533\ufe43\u33c9\u27a2\u02f9\u005d"}, {"common23", u"\ufe68\u256c\u25b6\u276c\u2771\u33c4\u2712\u24b3"}, {"common24", u"\ufe5d\ufe31\ufe3d\u205e\u2512\u33b8\u272b\ufe4f"}, {"common25", u"\u24e7\u25fc\u2582\u2743\u2010\u2474\u2262\u251a"}, {"common26", u"\u2020\u211c\u24b4\u33c7\u2007\uff0f\u267f\u00b4"}, {"common27", u"\u266c\u3399\u2570\u33a4\u276e\u00a8\u2506\u24dc"}, {"common28", u"\u2202\ufe43\u2511\u2191\u339a\u33b0\u02d7\u2473"}, {"common29", u"\u2517\u2297\u2762\u2460\u25bd\u24a9\u21a7\ufe64"}, {"common30", u"\u2105\u2722\u275d\u249c\u21a2\u2590\u2260\uff5d"}, {"common31", u"\u33ba\u21c6\u2706\u02cb\ufe64\u02e6\u0374\u2493"}, #elif defined(OS_APPLE) {"common00", u"\u2153\u24e0\u2109\u02f0\u2a8f\u25ed\u02c5\u2716"}, {"common01", u"\u02f0\u208c\u2203\u2518\u2067\u2270\u21f1\ufe66"}, {"common02", u"\u2686\u2585\u2b15\u246f\u23e3\u21b4\u2394\ufe31"}, {"common03", u"\u23c1\u2a97\u201e\u2200\u3389\u25d3\u02c2\u259d"}, #else // The following tests are made for the mock fonts (see test_fonts). {"common00", u"\u2153\u24e0\u2109\u02f0\u2a8f\u25ed\u02c5\u2716"}, {"common01", u"\u02f0\u208c\u2203\u2518\u2067\u2270\u21f1\ufe66"}, {"common02", u"\u2686\u2585\u2b15\u246f\u23e3\u21b4\u2394\ufe31"}, {"common03", u"\u23c1\u2a97\u201e\u2200\u3389\u25d3\u02c2\u259d"}, {"common04", u"\u2075\u4dec\u252a\uff15\u4df6\u2668\u27fa\ufe17"}, {"common05", u"\u260b\u2049\u3036\u2a85\u2b15\u23c7\u230a\u2374"}, {"common06", u"\u2771\u27fa\u255d\uff0b\u2213\u3396\u2a85\u2276"}, {"common07", u"\u211e\u2b06\u2255\u2727\u26c3\u33cf\u267d\u2ab2"}, {"common08", u"\u2373\u20b3\u22b8\u2a0f\u02fd\u2585\u3036\ufe48"}, {"common09", u"\u256d\u2940\u21d8\u4dde\u23a1\u226b\u3374\u2a99"}, {"common10", u"\u270f\u24e5\u26c1\u2131\u21f5\u25af\u230f\u27fe"}, {"common11", u"\u27aa\u23a2\u02ef\u2373\u2257\u2749\u2496\ufe31"}, {"common12", u"\u230a\u25fb\u2117\u3386\u32cc\u21c5\u24c4\u207e"}, {"common13", u"\u2467\u2791\u3393\u33bb\u02ca\u25de\ua788\u278f"}, {"common14", u"\ua719\u25ed\u20a8\u20a1\u4dd8\u2295\u24eb\u02c8"}, {"common15", u"\u22b6\u2520\u2036\uffee\u21df\u002d\u277a\u2b24"}, {"common16", u"\u21f8\u211b\u22a0\u25b6\u263e\u2704\u221a\u2758"}, {"common17", u"\ufe10\u2060\u24ac\u3385\u27a1\u2059\u2689\u2278"}, {"common18", u"\u269b\u211b\u33a4\ufe36\u239e\u267f\u2423\u24a2"}, {"common19", u"\u4ded\u262d\u225e\u248b\u21df\u279d\u2518\u21ba"}, {"common20", u"\u225a\uff16\u21d4\u21c6\u02ba\u2545\u23aa\u005e"}, {"common21", u"\u20a5\u265e\u3395\u2a6a\u2555\u22a4\u2086\u23aa"}, {"common22", u"\u203f\u3250\u2240\u24e9\u21cb\u258f\u24b1\u3259"}, {"common23", u"\u27bd\u263b\uff1f\u2199\u2547\u258d\u201f\u2507"}, {"common24", u"\u2482\u2548\u02dc\u231f\u24cd\u2198\u220e\u20ad"}, {"common25", u"\u2ff7\u2540\ufe48\u2197\u276b\u2574\u2062\u3398"}, {"common26", u"\u2663\u21cd\u263f\u23e5\u22d7\u2518\u21b9\u2628"}, {"common27", u"\u21fa\ufe66\u2739\u2051\u21f4\u3399\u2599\u25f7"}, {"common28", u"\u29d3\u25ec\u27a6\u24e0\u2735\u25b4\u2737\u25db"}, {"common29", u"\u2622\u22e8\u33d2\u21d3\u2502\u2153\u2669\u25f2"}, {"common30", u"\u2121\u21af\u2729\u203c\u337a\u2464\u2b08\u2e24"}, {"common31", u"\u33cd\u007b\u02d2\u22cc\u32be\u2ffa\u2787\u02e9"}, #endif }; INSTANTIATE_TEST_SUITE_P(FallbackFontCommonScript, RenderTextTestWithFallbackFontCase, ::testing::ValuesIn(kCommonScriptCases), RenderTextTestWithFallbackFontCase::ParamInfoToString); #if defined(OS_WIN) // Ensures that locale is used for fonts selection. TEST_F(RenderTextTest, CJKFontWithLocale) { const char16_t kCJKTest[] = u"\u8AA4\u904E\u9AA8"; static const char* kLocaleTests[] = {"zh-CN", "ja-JP", "ko-KR"}; std::set tested_font_names; for (const auto* locale : kLocaleTests) { base::i18n::SetICUDefaultLocale(locale); ResetRenderTextInstance(); RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(kCJKTest); const std::vector font_spans = GetFontSpans(); ASSERT_EQ(font_spans.size(), 1U); // Expect the font name to be different for each locale. bool unique_font_name = tested_font_names.insert(font_spans[0].first.GetFontName()).second; EXPECT_TRUE(unique_font_name); } } #endif // defined(OS_WIN) TEST_F(RenderTextTest, SameFontAccrossIgnorableCodepoints) { RenderText* render_text = GetRenderText(); render_text->SetText(u"\u060F"); const std::vector spans1 = GetFontSpans(); ASSERT_EQ(1u, spans1.size()); Font font1 = spans1[0].first; render_text->SetText(u"\u060F\u200C\u060F"); const std::vector spans2 = GetFontSpans(); ASSERT_EQ(1u, spans2.size()); Font font2 = spans2[0].first; // Ensures the same font is used with or without the joiners // (see http://crbug.com/1036652). EXPECT_EQ(font1.GetFontName(), font2.GetFontName()); } TEST_F(RenderTextTest, ZeroWidthCharacters) { static const char16_t* kEmptyText[] = { u"\u200C", // ZERO WIDTH NON-JOINER u"\u200D", // ZERO WIDTH JOINER u"\u200B", // ZERO WIDTH SPACE u"\uFEFF", // ZERO WIDTH NO-BREAK SPACE }; for (const auto* text : kEmptyText) { RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(text); const internal::TextRunList* run_list = GetHarfBuzzRunList(); EXPECT_EQ(0, run_list->width()); ASSERT_EQ(run_list->runs().size(), 1U); EXPECT_EQ(run_list->runs()[0]->CountMissingGlyphs(), 0U); } } // Ensure that the width reported by RenderText is sufficient for drawing. Draws // to a canvas and checks if any pixel beyond the bounding rectangle is colored. TEST_F(RenderTextTest, DISABLED_TextDoesntClip) { const char* kTestStrings[] = { " ", // TODO(dschuyler): Underscores draw outside GetStringSize; // crbug.com/459812. This appears to be a preexisting issue that wasn't // revealed by the prior unit tests. // "TEST_______", "TEST some stuff", "WWWWWWWWWW", "gAXAXAXAXAXAXA", "gÅXÅXÅXÅXÅXÅXÅ", "هٔهٔهٔهٔمرحبا"}; const Size kCanvasSize(300, 50); const int kTestSize = 10; SkBitmap bitmap; bitmap.allocPixels( SkImageInfo::MakeN32Premul(kCanvasSize.width(), kCanvasSize.height())); cc::SkiaPaintCanvas paint_canvas(bitmap); Canvas canvas(&paint_canvas, 1.0f); RenderText* render_text = GetRenderText(); render_text->SetHorizontalAlignment(ALIGN_LEFT); render_text->SetColor(SK_ColorBLACK); for (auto* string : kTestStrings) { paint_canvas.clear(SK_ColorWHITE); render_text->SetText(base::UTF8ToUTF16(string)); render_text->ApplyBaselineStyle(SUPERSCRIPT, Range(1, 2)); render_text->ApplyBaselineStyle(SUPERIOR, Range(3, 4)); render_text->ApplyBaselineStyle(INFERIOR, Range(5, 6)); render_text->ApplyBaselineStyle(SUBSCRIPT, Range(7, 8)); const Size string_size = render_text->GetStringSize(); render_text->SetWeight(Font::Weight::BOLD); render_text->SetDisplayRect( Rect(kTestSize, kTestSize, string_size.width(), string_size.height())); // Allow the RenderText to paint outside of its display rect. render_text->set_clip_to_display_rect(false); ASSERT_LE(string_size.width() + kTestSize * 2, kCanvasSize.width()); render_text->Draw(&canvas); ASSERT_LT(string_size.width() + kTestSize, kCanvasSize.width()); const uint32_t* buffer = static_cast(bitmap.getPixels()); ASSERT_NE(nullptr, buffer); TestRectangleBuffer rect_buffer(string, buffer, kCanvasSize.width(), kCanvasSize.height()); { SCOPED_TRACE("TextDoesntClip Top Side"); rect_buffer.EnsureSolidRect(SK_ColorWHITE, 0, 0, kCanvasSize.width(), kTestSize); } { SCOPED_TRACE("TextDoesntClip Bottom Side"); rect_buffer.EnsureSolidRect(SK_ColorWHITE, 0, kTestSize + string_size.height(), kCanvasSize.width(), kTestSize); } { SCOPED_TRACE("TextDoesntClip Left Side"); // TODO(dschuyler): Smoothing draws to the left of text. This appears to // be a preexisting issue that wasn't revealed by the prior unit tests. // RenderText currently only uses origins and advances and ignores // bounding boxes so cannot account for under- and over-hang. rect_buffer.EnsureSolidRect(SK_ColorWHITE, 0, kTestSize, kTestSize - 1, string_size.height()); } { SCOPED_TRACE("TextDoesntClip Right Side"); // TODO(dschuyler): Smoothing draws to the right of text. This appears to // be a preexisting issue that wasn't revealed by the prior unit tests. // RenderText currently only uses origins and advances and ignores // bounding boxes so cannot account for under- and over-hang. rect_buffer.EnsureSolidRect(SK_ColorWHITE, kTestSize + string_size.width() + 1, kTestSize, kTestSize - 1, string_size.height()); } } } // Ensure that the text will clip to the display rect. Draws to a canvas and // checks whether any pixel beyond the bounding rectangle is colored. TEST_F(RenderTextTest, DISABLED_TextDoesClip) { const char* kTestStrings[] = {"TEST", "W", "WWWW", "gAXAXWWWW"}; const Size kCanvasSize(300, 50); const int kTestSize = 10; SkBitmap bitmap; bitmap.allocPixels( SkImageInfo::MakeN32Premul(kCanvasSize.width(), kCanvasSize.height())); cc::SkiaPaintCanvas paint_canvas(bitmap); Canvas canvas(&paint_canvas, 1.0f); RenderText* render_text = GetRenderText(); render_text->SetHorizontalAlignment(ALIGN_LEFT); render_text->SetColor(SK_ColorBLACK); for (auto* string : kTestStrings) { paint_canvas.clear(SK_ColorWHITE); render_text->SetText(base::UTF8ToUTF16(string)); const Size string_size = render_text->GetStringSize(); int fake_width = string_size.width() / 2; int fake_height = string_size.height() / 2; render_text->SetDisplayRect( Rect(kTestSize, kTestSize, fake_width, fake_height)); render_text->set_clip_to_display_rect(true); render_text->Draw(&canvas); ASSERT_LT(string_size.width() + kTestSize, kCanvasSize.width()); const uint32_t* buffer = static_cast(bitmap.getPixels()); ASSERT_NE(nullptr, buffer); TestRectangleBuffer rect_buffer(string, buffer, kCanvasSize.width(), kCanvasSize.height()); { SCOPED_TRACE("TextDoesClip Top Side"); rect_buffer.EnsureSolidRect(SK_ColorWHITE, 0, 0, kCanvasSize.width(), kTestSize); } { SCOPED_TRACE("TextDoesClip Bottom Side"); rect_buffer.EnsureSolidRect(SK_ColorWHITE, 0, kTestSize + fake_height, kCanvasSize.width(), kTestSize); } { SCOPED_TRACE("TextDoesClip Left Side"); rect_buffer.EnsureSolidRect(SK_ColorWHITE, 0, kTestSize, kTestSize, fake_height); } { SCOPED_TRACE("TextDoesClip Right Side"); rect_buffer.EnsureSolidRect(SK_ColorWHITE, kTestSize + fake_width, kTestSize, kTestSize, fake_height); } } } // Ensure color changes are picked up by the RenderText implementation. TEST_F(RenderTextTest, ColorChange) { RenderText* render_text = GetRenderText(); render_text->SetText(u"x"); Draw(); ExpectTextLog({{1, kPlaceholderColor}}); render_text->SetColor(SK_ColorGREEN); Draw(); ExpectTextLog({{1, SK_ColorGREEN}}); } // Ensure style information propagates to the typeface on the text renderer. TEST_F(RenderTextTest, StylePropagated) { RenderText* render_text = GetRenderText(); // Default-constructed fonts on Mac are system fonts. These can have all kinds // of weird weights and style, which are preserved by PlatformFontMac, but do // not map simply to a SkTypeface::Style (the full details in SkFontStyle is // needed). They also vary depending on the OS version, so set a known font. FontList font_list(Font("Arial", 10)); render_text->SetText(u"x"); render_text->SetFontList(font_list); DrawVisualText(); EXPECT_EQ(SkFontStyle::Normal(), GetRendererFont().getTypeface()->fontStyle()); render_text->SetWeight(Font::Weight::BOLD); DrawVisualText(); EXPECT_EQ(SkFontStyle::Bold(), GetRendererFont().getTypeface()->fontStyle()); render_text->SetStyle(TEXT_STYLE_ITALIC, true); DrawVisualText(); EXPECT_EQ(SkFontStyle::BoldItalic(), GetRendererFont().getTypeface()->fontStyle()); render_text->SetWeight(Font::Weight::NORMAL); DrawVisualText(); EXPECT_EQ(SkFontStyle::Italic(), GetRendererFont().getTypeface()->fontStyle()); } // Ensure the painter adheres to RenderText::subpixel_rendering_suppressed(). TEST_F(RenderTextTest, SubpixelRenderingSuppressed) { ASSERT_TRUE(IsFontsSmoothingEnabled()) << "The test requires that fonts smoothing (anti-aliasing) is activated. " "If this assert is failing you need to manually activate the flag in " "your system fonts settings."; RenderText* render_text = GetRenderText(); render_text->SetText(u"x"); DrawVisualText(); #if defined(OS_LINUX) || defined(OS_CHROMEOS) || defined(OS_ANDROID) || \ defined(OS_FUCHSIA) // On Linux, whether subpixel AA is supported is determined by the platform // FontConfig. Force it into a particular style after computing runs. Other // platforms use a known default FontRenderParams from a static local. GetHarfBuzzRunList() ->runs()[0] ->font_params.render_params.subpixel_rendering = FontRenderParams::SUBPIXEL_RENDERING_RGB; DrawVisualText(); #endif EXPECT_EQ(GetRendererFont().getEdging(), SkFont::Edging::kSubpixelAntiAlias); render_text->set_subpixel_rendering_suppressed(true); DrawVisualText(); #if defined(OS_LINUX) || defined(OS_CHROMEOS) || defined(OS_ANDROID) || \ defined(OS_FUCHSIA) // For Linux, runs shouldn't be re-calculated, and the suppression of the // SUBPIXEL_RENDERING_RGB set above should now take effect. But, after // checking, apply the override anyway to be explicit that it is suppressed. EXPECT_NE(GetRendererFont().getEdging(), SkFont::Edging::kSubpixelAntiAlias); GetHarfBuzzRunList() ->runs()[0] ->font_params.render_params.subpixel_rendering = FontRenderParams::SUBPIXEL_RENDERING_RGB; DrawVisualText(); #endif EXPECT_NE(GetRendererFont().getEdging(), SkFont::Edging::kSubpixelAntiAlias); } // Ensure the SkFont Edging is computed accurately. TEST_F(RenderTextTest, SkFontEdging) { const auto edging = [this]() { return GetRendererFont().getEdging(); }; FontRenderParams params; EXPECT_TRUE(params.antialiasing); EXPECT_EQ(params.subpixel_rendering, FontRenderParams::SUBPIXEL_RENDERING_NONE); // aa: true, subpixel: false, subpixel_suppressed: false -> kAntiAlias renderer()->SetFontRenderParams(params, false /*subpixel_rendering_suppressed*/); EXPECT_EQ(edging(), SkFont::Edging::kAntiAlias); // aa: false, subpixel: false, subpixel_suppressed: false -> kAlias params.antialiasing = false; renderer()->SetFontRenderParams(params, false /*subpixel_rendering_suppressed*/); EXPECT_EQ(edging(), SkFont::Edging::kAlias); // aa: true, subpixel: true, subpixel_suppressed: false -> kSubpixelAntiAlias params.antialiasing = true; params.subpixel_rendering = FontRenderParams::SUBPIXEL_RENDERING_RGB; renderer()->SetFontRenderParams(params, false /*subpixel_rendering_suppressed*/); EXPECT_EQ(edging(), SkFont::Edging::kSubpixelAntiAlias); // aa: true, subpixel: true, subpixel_suppressed: true -> kAntiAlias renderer()->SetFontRenderParams(params, true /*subpixel_rendering_suppressed*/); EXPECT_EQ(edging(), SkFont::Edging::kAntiAlias); // aa: false, subpixel: true, subpixel_suppressed: false -> kAlias params.antialiasing = false; renderer()->SetFontRenderParams(params, false /*subpixel_rendering_suppressed*/); EXPECT_EQ(edging(), SkFont::Edging::kAlias); } // Verify GetWordLookupDataAtPoint returns the correct baseline point and // decorated word for an LTR string. TEST_F(RenderTextTest, GetWordLookupDataAtPoint_LTR) { // Set an integer glyph width; GetCursorBounds() and // GetWordLookupDataAtPoint() use different rounding internally. // // TODO(crbug.com/1111044): this shouldn't be necessary once RenderText keeps // float precision through GetCursorBounds(). SetGlyphWidth(5); const std::u16string ltr = u" ab c "; const int kWordOneStartIndex = 2; const int kWordTwoStartIndex = 6; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(100, 30)); render_text->SetText(ltr); render_text->ApplyWeight(Font::Weight::SEMIBOLD, Range(0, 3)); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, Range(1, 5)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(3, 8)); render_text->ApplyStyle(TEXT_STYLE_STRIKE, true, Range(1, 7)); const int cursor_y = GetCursorYForTesting(); const std::vector font_spans = GetFontSpans(); // Create expected decorated text instances. DecoratedText expected_word_1; expected_word_1.text = u"ab"; // Attributes for the characters 'a' and 'b' at logical indices 2 and 3 // respectively. expected_word_1.attributes.push_back(CreateRangedAttribute( font_spans, 0, kWordOneStartIndex, Font::Weight::SEMIBOLD, UNDERLINE_MASK | STRIKE_MASK)); expected_word_1.attributes.push_back(CreateRangedAttribute( font_spans, 1, kWordOneStartIndex + 1, Font::Weight::NORMAL, UNDERLINE_MASK | ITALIC_MASK | STRIKE_MASK)); const Rect left_glyph_word_1 = render_text->GetCursorBounds( SelectionModel(kWordOneStartIndex, CURSOR_FORWARD), false); DecoratedText expected_word_2; expected_word_2.text = u"c"; // Attributes for character 'c' at logical index |kWordTwoStartIndex|. expected_word_2.attributes.push_back( CreateRangedAttribute(font_spans, 0, kWordTwoStartIndex, Font::Weight::NORMAL, ITALIC_MASK | STRIKE_MASK)); const Rect left_glyph_word_2 = render_text->GetCursorBounds( SelectionModel(kWordTwoStartIndex, CURSOR_FORWARD), false); DecoratedText decorated_word; Point baseline_point; { SCOPED_TRACE(base::StringPrintf("Query to the left of text bounds")); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(-5, cursor_y), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_1, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } { SCOPED_TRACE(base::StringPrintf("Query to the right of text bounds")); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(105, cursor_y), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_2, decorated_word); EXPECT_TRUE(left_glyph_word_2.Contains(baseline_point)); } for (size_t i = 0; i < render_text->text().length(); i++) { SCOPED_TRACE(base::StringPrintf("Case[%" PRIuS "]", i)); // Query the decorated word using the origin of the i'th glyph's bounds. const Point query = render_text->GetCursorBounds(SelectionModel(i, CURSOR_FORWARD), false) .origin(); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint(query, &decorated_word, &baseline_point)); if (i < kWordTwoStartIndex) { VerifyDecoratedWordsAreEqual(expected_word_1, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } else { VerifyDecoratedWordsAreEqual(expected_word_2, decorated_word); EXPECT_TRUE(left_glyph_word_2.Contains(baseline_point)); } } } // Verify GetWordLookupDataAtPoint returns the correct baseline point and // decorated word for an RTL string. TEST_F(RenderTextTest, GetWordLookupDataAtPoint_RTL) { // Set an integer glyph width; GetCursorBounds() and // GetWordLookupDataAtPoint() use different rounding internally. // // TODO(crbug.com/1111044): this shouldn't be necessary once RenderText keeps // float precision through GetCursorBounds(). SetGlyphWidth(5); const std::u16string rtl = u" \u0634\u0632 \u0634"; const int kWordOneStartIndex = 1; const int kWordTwoStartIndex = 5; RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(100, 30)); render_text->SetText(rtl); render_text->ApplyWeight(Font::Weight::SEMIBOLD, Range(2, 3)); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, Range(3, 6)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(0, 3)); render_text->ApplyStyle(TEXT_STYLE_STRIKE, true, Range(2, 5)); const int cursor_y = GetCursorYForTesting(); const std::vector font_spans = GetFontSpans(); // Create expected decorated text instance. DecoratedText expected_word_1; expected_word_1.text = u"\u0634\u0632"; // Attributes for characters at logical indices 1 and 2. expected_word_1.attributes.push_back(CreateRangedAttribute( font_spans, 0, kWordOneStartIndex, Font::Weight::NORMAL, ITALIC_MASK)); expected_word_1.attributes.push_back( CreateRangedAttribute(font_spans, 1, kWordOneStartIndex + 1, Font::Weight::SEMIBOLD, ITALIC_MASK | STRIKE_MASK)); // The leftmost glyph is the one at logical index 2. const Rect left_glyph_word_1 = render_text->GetCursorBounds( SelectionModel(kWordOneStartIndex + 1, CURSOR_FORWARD), false); DecoratedText expected_word_2; expected_word_2.text = u"\u0634"; // Attributes for character at logical index |kWordTwoStartIndex|. expected_word_2.attributes.push_back(CreateRangedAttribute( font_spans, 0, kWordTwoStartIndex, Font::Weight::NORMAL, UNDERLINE_MASK)); const Rect left_glyph_word_2 = render_text->GetCursorBounds( SelectionModel(kWordTwoStartIndex, CURSOR_FORWARD), false); DecoratedText decorated_word; Point baseline_point; { SCOPED_TRACE(base::StringPrintf("Query to the left of text bounds")); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(-5, cursor_y), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_2, decorated_word); EXPECT_TRUE(left_glyph_word_2.Contains(baseline_point)); } { SCOPED_TRACE(base::StringPrintf("Query to the right of text bounds")); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(105, cursor_y), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_1, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } for (size_t i = 0; i < render_text->text().length(); i++) { SCOPED_TRACE(base::StringPrintf("Case[%" PRIuS "]", i)); // Query the decorated word using the top right point of the i'th glyph's // bounds. const Point query = render_text->GetCursorBounds(SelectionModel(i, CURSOR_FORWARD), false) .top_right(); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint(query, &decorated_word, &baseline_point)); if (i < kWordTwoStartIndex) { VerifyDecoratedWordsAreEqual(expected_word_1, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } else { VerifyDecoratedWordsAreEqual(expected_word_2, decorated_word); EXPECT_TRUE(left_glyph_word_2.Contains(baseline_point)); } } } // Test that GetWordLookupDataAtPoint behaves correctly for multiline text. TEST_F(RenderTextTest, GetWordLookupDataAtPoint_Multiline) { const std::u16string text = u"a b\n..\ncd."; const size_t kWordOneIndex = 0; // Index of character 'a'. const size_t kWordTwoIndex = 2; // Index of character 'b'. const size_t kWordThreeIndex = 7; // Index of character 'c'. // Set up render text. RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(500, 500)); render_text->SetText(text); render_text->ApplyWeight(Font::Weight::SEMIBOLD, Range(0, 3)); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, Range(1, 7)); render_text->ApplyStyle(TEXT_STYLE_STRIKE, true, Range(1, 8)); render_text->ApplyStyle(TEXT_STYLE_ITALIC, true, Range(5, 9)); // Set up test expectations. const std::vector font_spans = GetFontSpans(); DecoratedText expected_word_1; expected_word_1.text = u"a"; expected_word_1.attributes.push_back(CreateRangedAttribute( font_spans, 0, kWordOneIndex, Font::Weight::SEMIBOLD, 0)); const Rect left_glyph_word_1 = GetSubstringBoundsUnion(Range(kWordOneIndex, kWordOneIndex + 1)); DecoratedText expected_word_2; expected_word_2.text = u"b"; expected_word_2.attributes.push_back(CreateRangedAttribute( font_spans, 0, kWordTwoIndex, Font::Weight::SEMIBOLD, UNDERLINE_MASK | STRIKE_MASK)); const Rect left_glyph_word_2 = GetSubstringBoundsUnion(Range(kWordTwoIndex, kWordTwoIndex + 1)); DecoratedText expected_word_3; expected_word_3.text = u"cd"; expected_word_3.attributes.push_back( CreateRangedAttribute(font_spans, 0, kWordThreeIndex, Font::Weight::NORMAL, STRIKE_MASK | ITALIC_MASK)); expected_word_3.attributes.push_back(CreateRangedAttribute( font_spans, 1, kWordThreeIndex + 1, Font::Weight::NORMAL, ITALIC_MASK)); const Rect left_glyph_word_3 = GetSubstringBoundsUnion(Range(kWordThreeIndex, kWordThreeIndex + 1)); DecoratedText decorated_word; Point baseline_point; { // Query to the left of the first line. EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(-5, GetCursorYForTesting(0)), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_1, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } { // Query on the second line. EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(5, GetCursorYForTesting(1)), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_2, decorated_word); EXPECT_TRUE(left_glyph_word_2.Contains(baseline_point)); } { // Query at the center point of the character 'c'. EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( left_glyph_word_3.CenterPoint(), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_3, decorated_word); EXPECT_TRUE(left_glyph_word_3.Contains(baseline_point)); } { // Query to the right of the third line. EXPECT_TRUE(render_text->GetWordLookupDataAtPoint( Point(505, GetCursorYForTesting(2)), &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_3, decorated_word); EXPECT_TRUE(left_glyph_word_3.Contains(baseline_point)); } } // Verify the boolean return value of GetWordLookupDataAtPoint. TEST_F(RenderTextTest, GetWordLookupDataAtPoint_Return) { RenderText* render_text = GetRenderText(); render_text->SetText(u"..."); DecoratedText decorated_word; Point baseline_point; // False should be returned, when the text does not contain any word. Point query = render_text->GetCursorBounds(SelectionModel(0, CURSOR_FORWARD), false) .origin(); EXPECT_FALSE(render_text->GetWordLookupDataAtPoint(query, &decorated_word, &baseline_point)); render_text->SetText(u"abc"); query = render_text->GetCursorBounds(SelectionModel(0, CURSOR_FORWARD), false) .origin(); EXPECT_TRUE(render_text->GetWordLookupDataAtPoint(query, &decorated_word, &baseline_point)); // False should be returned for obscured text. render_text->SetObscured(true); query = render_text->GetCursorBounds(SelectionModel(0, CURSOR_FORWARD), false) .origin(); EXPECT_FALSE(render_text->GetWordLookupDataAtPoint(query, &decorated_word, &baseline_point)); } // Test that GetLookupDataAtPoint behaves correctly when the range spans lines. TEST_F(RenderTextTest, GetLookupDataAtRange_Multiline) { const std::u16string text = u"a\nb"; constexpr Range kWordOneRange = Range(0, 1); // Range of character 'a'. constexpr Range kWordTwoRange = Range(2, 3); // Range of character 'b'. constexpr Range kTextRange = Range(0, 3); // Range of the entire text. // Set up render text. Apply style ranges so that each character index gets // a corresponding font. RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(500, 500)); render_text->SetText(text); render_text->ApplyWeight(Font::Weight::SEMIBOLD, kWordOneRange); render_text->ApplyStyle(TEXT_STYLE_UNDERLINE, true, kWordTwoRange); // Set up test expectations. const std::vector font_spans = GetFontSpans(); DecoratedText expected_word_1; expected_word_1.text = u"a"; expected_word_1.attributes.push_back(CreateRangedAttribute( font_spans, 0, kWordOneRange.start(), Font::Weight::SEMIBOLD, 0)); const Rect left_glyph_word_1 = GetSubstringBoundsUnion(kWordOneRange); DecoratedText expected_word_2; expected_word_2.text = u"b"; expected_word_2.attributes.push_back( CreateRangedAttribute(font_spans, 0, kWordTwoRange.start(), Font::Weight::NORMAL, UNDERLINE_MASK)); const Rect left_glyph_word_2 = GetSubstringBoundsUnion(kWordTwoRange); DecoratedText expected_entire_text; expected_entire_text.text = u"a\nb"; expected_entire_text.attributes.push_back( CreateRangedAttribute(font_spans, kWordOneRange.start(), kWordOneRange.start(), Font::Weight::SEMIBOLD, 0)); expected_entire_text.attributes.push_back( CreateRangedAttribute(font_spans, 1, 1, Font::Weight::NORMAL, 0)); expected_entire_text.attributes.push_back(CreateRangedAttribute( font_spans, kWordTwoRange.start(), kWordTwoRange.start(), Font::Weight::NORMAL, UNDERLINE_MASK)); DecoratedText decorated_word; Point baseline_point; { // Query for the range of the first word. EXPECT_TRUE(render_text->GetLookupDataForRange( kWordOneRange, &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_1, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } { // Query for the range of the second word. EXPECT_TRUE(render_text->GetLookupDataForRange( kWordTwoRange, &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_word_2, decorated_word); EXPECT_TRUE(left_glyph_word_2.Contains(baseline_point)); } { // Query the entire text range. EXPECT_TRUE(render_text->GetLookupDataForRange(kTextRange, &decorated_word, &baseline_point)); VerifyDecoratedWordsAreEqual(expected_entire_text, decorated_word); EXPECT_TRUE(left_glyph_word_1.Contains(baseline_point)); } } // Tests text selection made at end points of individual lines of multiline // text. TEST_F(RenderTextTest, LineEndSelections) { const char16_t* const ltr = u"abc\n\ndef"; const char16_t* const rtl = u"שנב\n\nגקכ"; const char16_t* const ltr_single = u"abc def ghi"; const char16_t* const rtl_single = u"שנב גקכ עין"; const int left_x = -100; const int right_x = 200; struct { const char16_t* const text; const int line_num; const int x; const char16_t* const selected_text; } cases[] = { {ltr, 1, left_x, u"abc\n"}, {ltr, 1, right_x, u"abc\n"}, {ltr, 2, left_x, u"abc\n\n"}, {ltr, 2, right_x, ltr}, {rtl, 1, left_x, u"שנב\n"}, {rtl, 1, right_x, u"שנב\n"}, {rtl, 2, left_x, rtl}, {rtl, 2, right_x, u"שנב\n\n"}, {ltr_single, 1, left_x, u"abc "}, {ltr_single, 1, right_x, u"abc def "}, {ltr_single, 2, left_x, u"abc def "}, {ltr_single, 2, right_x, ltr_single}, {rtl_single, 1, left_x, u"שנב גקכ "}, {rtl_single, 1, right_x, u"שנב "}, {rtl_single, 2, left_x, rtl_single}, {rtl_single, 2, right_x, u"שנב גקכ "}, }; SetGlyphWidth(5); RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(20, 1000)); for (size_t i = 0; i < base::size(cases); i++) { SCOPED_TRACE(base::StringPrintf("Testing case %" PRIuS "", i)); render_text->SetText(cases[i].text); EXPECT_EQ(3u, render_text->GetNumLines()); // Position the cursor at the logical beginning of text. render_text->SelectRange(Range(0)); render_text->MoveCursorToPoint( Point(cases[i].x, GetCursorYForTesting(cases[i].line_num)), true); EXPECT_EQ(cases[i].selected_text, GetSelectedText(render_text)); } } TEST_F(RenderTextTest, GetSubstringBounds) { const float kGlyphWidth = 5; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->SetText(u"abc"); render_text->SetCursorEnabled(false); render_text->SetElideBehavior(NO_ELIDE); EXPECT_EQ(GetSubstringBoundsUnion(Range(0, 1)).width(), kGlyphWidth); EXPECT_EQ(GetSubstringBoundsUnion(Range(1, 2)).width(), kGlyphWidth); EXPECT_EQ(GetSubstringBoundsUnion(Range(1, 3)).width(), 2 * kGlyphWidth); EXPECT_EQ(GetSubstringBoundsUnion(Range(0, 0)).width(), 0); EXPECT_EQ(GetSubstringBoundsUnion(Range(3, 3)).width(), 0); // Apply eliding so display text has 2 visible character. render_text->SetDisplayRect(Rect(0, 0, 2 * kGlyphWidth, 100)); render_text->SetElideBehavior(TRUNCATE); EXPECT_EQ(GetSubstringBoundsUnion(Range(0, 1)).width(), kGlyphWidth); EXPECT_EQ(GetSubstringBoundsUnion(Range(1, 2)).width(), kGlyphWidth); EXPECT_EQ(GetSubstringBoundsUnion(Range(1, 3)).width(), kGlyphWidth); // Check a fully elided range. EXPECT_EQ(GetSubstringBoundsUnion(Range(2, 3)).width(), 0); // Empty ranges result in empty rect. EXPECT_EQ(GetSubstringBoundsUnion(Range(0, 0)).width(), 0); EXPECT_EQ(GetSubstringBoundsUnion(Range(3, 3)).width(), 0); } // Tests that GetSubstringBounds rounds outward when glyphs have floating-point // widths. TEST_F(RenderTextTest, GetSubstringBoundsFloatingPoint) { const float kGlyphWidth = 5.8; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(200, 1000)); render_text->SetText(u"abcdef"); gfx::Rect bounds = GetSubstringBoundsUnion(Range(1, 2)); // The bounds should be rounded outwards so that the full substring is always // contained in them. EXPECT_EQ(base::ClampFloor(kGlyphWidth), bounds.x()); EXPECT_EQ(base::ClampCeil(2 * kGlyphWidth), bounds.right()); } // Tests that GetSubstringBounds handles integer glypth widths correctly. TEST_F(RenderTextTest, GetSubstringBoundsInt) { const float kGlyphWidth = 5; SetGlyphWidth(kGlyphWidth); RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(200, 1000)); render_text->SetText(u"abcdef"); gfx::Rect bounds = GetSubstringBoundsUnion(Range(1, 2)); EXPECT_EQ(kGlyphWidth, bounds.x()); EXPECT_EQ(2 * kGlyphWidth, bounds.right()); } // Tests that GetSubstringBounds returns the correct bounds for multiline text. TEST_F(RenderTextTest, GetSubstringBoundsMultiline) { RenderText* render_text = GetRenderText(); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(200, 1000)); render_text->SetText(u"abc\n\ndef"); const std::vector line_char_range = {Range(0, 4), Range(4, 5), Range(5, 8)}; // Test bounds for individual lines. EXPECT_EQ(3u, render_text->GetNumLines()); Rect expected_total_bounds; for (size_t i = 0; i < test_api()->lines().size(); i++) { SCOPED_TRACE(base::StringPrintf("Testing bounds for line %" PRIuS "", i)); const internal::Line& line = test_api()->lines()[i]; const Size line_size(std::ceil(line.size.width()), std::ceil(line.size.height())); const Rect expected_line_bounds = render_text->GetLineOffset(i) + Rect(line_size); expected_total_bounds.Union(expected_line_bounds); render_text->SelectRange(line_char_range[i]); EXPECT_EQ(expected_line_bounds, GetSelectionBoundsUnion()); } // Test complete bounds. render_text->SelectAll(false); EXPECT_EQ(expected_total_bounds, GetSelectionBoundsUnion()); } // Tests that RenderText doesn't crash even if it's passed an invalid font. Test // for crbug.com/668058. TEST_F(RenderTextTest, InvalidFont) { const std::string font_name = "invalid_font"; const int kFontSize = 13; RenderText* render_text = GetRenderText(); render_text->SetFontList(FontList(Font(font_name, kFontSize))); render_text->SetText(u"abc"); DrawVisualText(); } TEST_F(RenderTextTest, ExpandToBeVerticallySymmetric) { Rect test_display_rect(0, 0, 400, 100); // Basic case. EXPECT_EQ(Rect(20, 20, 400, 60), test::RenderTextTestApi::ExpandToBeVerticallySymmetric( Rect(20, 20, 400, 40), test_display_rect)); // Expand upwards. EXPECT_EQ(Rect(20, 20, 400, 60), test::RenderTextTestApi::ExpandToBeVerticallySymmetric( Rect(20, 40, 400, 40), test_display_rect)); // Original rect is entirely above the center point. EXPECT_EQ(Rect(10, 30, 200, 40), test::RenderTextTestApi::ExpandToBeVerticallySymmetric( Rect(10, 30, 200, 10), test_display_rect)); // Original rect is below the display rect entirely. EXPECT_EQ(Rect(10, -10, 200, 120), test::RenderTextTestApi::ExpandToBeVerticallySymmetric( Rect(10, 100, 200, 10), test_display_rect)); // Sanity check that we can handle a display rect with a non-zero origin. test_display_rect.Offset(10, 10); EXPECT_EQ(Rect(20, 20, 400, 80), test::RenderTextTestApi::ExpandToBeVerticallySymmetric( Rect(20, 20, 400, 40), test_display_rect)); } TEST_F(RenderTextTest, MergeIntersectingRects) { // Basic case. std::vector test_rects{Rect(0, 0, 10, 10), Rect(5, 0, 10, 10), Rect(10, 0, 5, 10), Rect(12, 0, 5, 10)}; test::RenderTextTestApi::MergeIntersectingRects(test_rects); ASSERT_EQ(1u, test_rects.size()); EXPECT_EQ(Rect(0, 0, 17, 10), test_rects[0]); // Case where some rects intersect and some don't. test_rects = std::vector{Rect(0, 0, 10, 10), Rect(5, 0, 10, 10), Rect(16, 0, 10, 10), Rect(25, 0, 10, 10), Rect(40, 0, 10, 10)}; test::RenderTextTestApi::MergeIntersectingRects(test_rects); ASSERT_EQ(3u, test_rects.size()); EXPECT_EQ(Rect(0, 0, 15, 10), test_rects[0]); EXPECT_EQ(Rect(16, 0, 19, 10), test_rects[1]); EXPECT_EQ(Rect(40, 0, 10, 10), test_rects[2]); // Case where no rects intersect. test_rects = std::vector{Rect(0, 0, 10, 10), Rect(11, 0, 10, 10), Rect(22, 0, 10, 10), Rect(33, 0, 10, 10)}; test::RenderTextTestApi::MergeIntersectingRects(test_rects); ASSERT_EQ(4u, test_rects.size()); EXPECT_EQ(Rect(0, 0, 10, 10), test_rects[0]); EXPECT_EQ(Rect(11, 0, 10, 10), test_rects[1]); EXPECT_EQ(Rect(22, 0, 10, 10), test_rects[2]); EXPECT_EQ(Rect(33, 0, 10, 10), test_rects[3]); // Rects are out-of-order. test_rects = std::vector{Rect(10, 0, 5, 10), Rect(0, 0, 10, 10), Rect(12, 0, 5, 10), Rect(5, 0, 10, 10)}; test::RenderTextTestApi::MergeIntersectingRects(test_rects); ASSERT_EQ(1u, test_rects.size()); EXPECT_EQ(Rect(0, 0, 17, 10), test_rects[0]); // The first 3 rects are adjacent horizontally. The 4th rect is adjacent to // the 3rd rect vertically, but is not merged. The last rect is adjacent to // the 4th rect. test_rects = std::vector{Rect(0, 0, 10, 10), Rect(10, 0, 10, 10), Rect(20, 0, 10, 10), Rect(20, 10, 10, 10), Rect(30, 10, 10, 10)}; test::RenderTextTestApi::MergeIntersectingRects(test_rects); ASSERT_EQ(2u, test_rects.size()); EXPECT_EQ(Rect(0, 0, 30, 10), test_rects[0]); EXPECT_EQ(Rect(20, 10, 20, 10), test_rects[1]); } // Ensures that text is centered vertically and consistently when either the // display rectangle height changes, or when the minimum line height changes. // The difference between the two is the selection rectangle, which should match // the line height. TEST_F(RenderTextTest, BaselineWithLineHeight) { RenderText* render_text = GetRenderText(); const int font_height = render_text->font_list().GetHeight(); render_text->SetDisplayRect(Rect(500, font_height)); render_text->SetText(u"abc"); // Select everything so the test can use GetSelectionBoundsUnion(). render_text->SelectAll(false); const int normal_baseline = test_api()->GetDisplayTextBaseline(); ASSERT_EQ(1u, test_api()->lines().size()); EXPECT_EQ(font_height, test_api()->lines()[0].size.height()); // With a matching display height, the baseline calculated using font metrics // and the baseline from the layout engine should agree. This works because // the text string is simple (exotic glyphs may use fonts with different // metrics). EXPECT_EQ(normal_baseline, render_text->GetBaseline()); EXPECT_EQ(0, render_text->GetLineOffset(0).y()); const gfx::Rect normal_selection_bounds = GetSelectionBoundsUnion(); // Sanity check: selection should start from (0,0). EXPECT_EQ(gfx::Vector2d(), normal_selection_bounds.OffsetFromOrigin()); constexpr int kDelta = 16; // Grow just the display rectangle. render_text->SetDisplayRect(Rect(500, font_height + kDelta)); // The display text baseline does not move: GetLineOffset() moves it instead. EXPECT_EQ(normal_baseline, test_api()->GetDisplayTextBaseline()); ASSERT_EQ(1u, test_api()->lines().size()); EXPECT_EQ(font_height, test_api()->lines()[0].size.height()); // Save the baseline calculated using the display rectangle before enabling // multi-line or SetMinLineHeight(). const int reported_baseline = render_text->GetBaseline(); const int baseline_shift = reported_baseline - normal_baseline; // When line height matches font height, this should match the line offset. EXPECT_EQ(baseline_shift, render_text->GetLineOffset(0).y()); // The actual shift depends on font metrics, and the calculations done in // RenderText::DetermineBaselineCenteringText(). Do a sanity check that the // "centering" part is happening within some tolerance by ensuring the shift // is within a pixel of (kDelta / 2). That is, 7, 8 or 9 pixels (for a delta // of 16). An unusual font in future may need more leeway. constexpr int kFuzz = 1; // If the next EXPECT fails, try increasing this. EXPECT_LE(abs(baseline_shift - kDelta / 2), kFuzz); // Increasing display height (but not line height) should shift the selection // bounds down by |baseline_shift|, but leave a matching size. gfx::Rect current_selection_bounds = GetSelectionBoundsUnion(); EXPECT_EQ(baseline_shift, current_selection_bounds.y()); EXPECT_EQ(0, current_selection_bounds.x()); EXPECT_EQ(normal_selection_bounds.size(), current_selection_bounds.size()); // Now increase the line height, but remain single-line. Note the line height // now matches the display rect. render_text->SetMinLineHeight(font_height + kDelta); int display_text_baseline = test_api()->GetDisplayTextBaseline(); ASSERT_EQ(1u, test_api()->lines().size()); EXPECT_EQ(font_height + kDelta, test_api()->lines()[0].size.height()); // The line offset should go back to zero, but now the display text baseline // should shift down to compensate, and the shift amount should match. EXPECT_EQ(0, render_text->GetLineOffset(0).y()); EXPECT_EQ(normal_baseline + baseline_shift, display_text_baseline); // Now selection bounds should grow in height, but not shift its origin. current_selection_bounds = GetSelectionBoundsUnion(); EXPECT_EQ(font_height + kDelta, current_selection_bounds.height()); EXPECT_EQ(normal_selection_bounds.width(), current_selection_bounds.width()); EXPECT_EQ(gfx::Vector2d(), current_selection_bounds.OffsetFromOrigin()); // Flipping the multiline flag should change nothing. render_text->SetMultiline(true); display_text_baseline = test_api()->GetDisplayTextBaseline(); ASSERT_EQ(1u, test_api()->lines().size()); EXPECT_EQ(font_height + kDelta, test_api()->lines()[0].size.height()); EXPECT_EQ(0, render_text->GetLineOffset(0).y()); EXPECT_EQ(normal_baseline + baseline_shift, display_text_baseline); current_selection_bounds = GetSelectionBoundsUnion(); EXPECT_EQ(font_height + kDelta, current_selection_bounds.height()); EXPECT_EQ(normal_selection_bounds.width(), current_selection_bounds.width()); EXPECT_EQ(gfx::Vector2d(), current_selection_bounds.OffsetFromOrigin()); } TEST_F(RenderTextTest, TeluguGraphemeBoundaries) { RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(50, 1000)); // This is first syllable of the Telugu word for "New" in Chrome. It's a // string of 4 UTF-8 characters: [క,్,ర,ొ]. When typeset with a supporting // font, the second and fourth characters become diacritical marks for the // first and third characters to form two graphemes. Then, these graphemes // combine into a ligature "cluster". But, unlike ligatures in English (e.g. // the "ffl" in "waffle"), this Telugu ligature is laid out vertically, with // both graphemes occupying the same horizontal space. render_text->SetText(u"క్రొ"); const int whole_width = render_text->GetStringSize().width(); // Sanity check. A typical width is 8 pixels. Anything less than 6 could screw // up the checks below with rounding. EXPECT_LE(6, whole_width); // Go to the end and perform Shift+Left. The selection should jump to a // grapheme boundary. // Before ICU 65, this was in the center of the glyph, but now it encompasses // the entire glyph. render_text->SetCursorPosition(4); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_RETAIN); EXPECT_EQ(Range(4, 0), render_text->selection()); // The cursor is already at the boundary, so there should be no change. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_RETAIN); EXPECT_EQ(Range(4, 0), render_text->selection()); // The selection should cover the entire width. Rect selection_bounds = GetSelectionBoundsUnion(); EXPECT_EQ(0, selection_bounds.x()); EXPECT_EQ(whole_width, selection_bounds.width()); } // Test cursor bounds for Emoji flags (unicode regional indicators) when the // flag does not merge into a single glyph. TEST_F(RenderTextTest, MissingFlagEmoji) { RenderText* render_text = GetRenderText(); render_text->SetDisplayRect(Rect(1000, 1000)); // Usually these pair into country codes, but for this test we do not want // them to combine into a flag. Instead, the placeholder glyphs should be used // but cursor navigation should still behave as though they are joined. To get // placeholder glyphs, make up a non-existent country. The codes used are // based on ISO 3166-1 alpha-2. Codes starting with X are user-assigned. std::u16string text(u"🇽🇽🇽🇽"); // Each flag is 4 UTF16 characters (2 surrogate pair code points). EXPECT_EQ(8u, text.length()); render_text->SetText(text); const int whole_width = render_text->GetStringSize().width(); const int half_width = whole_width / 2; EXPECT_LE(6, whole_width); // Sanity check. EXPECT_EQ("[0->7]", GetRunListStructureString()); // Move from the left to the right. const Rect start_cursor = render_text->GetUpdatedCursorBounds(); EXPECT_EQ(0, start_cursor.x()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(4, 4), render_text->selection()); const Rect middle_cursor = render_text->GetUpdatedCursorBounds(); // Should move about half way. Cursor bounds round to the nearest integer, so // account for that. EXPECT_LE(half_width - 1, middle_cursor.x()); EXPECT_GE(half_width + 1, middle_cursor.x()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_NONE); EXPECT_EQ(Range(8, 8), render_text->selection()); const Rect end_cursor = render_text->GetUpdatedCursorBounds(); EXPECT_LE(whole_width - 1, end_cursor.x()); // Should move most of the way. EXPECT_GE(whole_width + 1, end_cursor.x()); // Move right to left. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(4, 4), render_text->selection()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_LEFT, SELECTION_NONE); EXPECT_EQ(Range(0, 0), render_text->selection()); // Select from the left to the right. The first "flag" should be selected. // Note cursor bounds and selection bounds differ on integer rounding - see // http://crbug.com/735346. render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_RETAIN); EXPECT_EQ(Range(0, 4), render_text->selection()); Rect selection_bounds = GetSelectionBoundsUnion(); EXPECT_EQ(0, selection_bounds.x()); EXPECT_LE(half_width - 1, selection_bounds.width()); // Allow for rounding. EXPECT_GE(half_width + 1, selection_bounds.width()); render_text->MoveCursor(CHARACTER_BREAK, CURSOR_RIGHT, SELECTION_RETAIN); EXPECT_EQ(Range(0, 8), render_text->selection()); selection_bounds = GetSelectionBoundsUnion(); EXPECT_EQ(0, selection_bounds.x()); EXPECT_EQ(whole_width, selection_bounds.width()); } // Ensures that glyph spacing is correctly applied to obscured text. TEST_F(RenderTextTest, ObscuredGlyphSpacing) { const std::u16string seuss = u"hop on pop"; RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(seuss); render_text->SetObscured(true); // The default glyph spacing is zero. const int width_without_glyph_spacing = render_text->GetStringSize().width(); EXPECT_EQ(0, render_text->obscured_glyph_spacing()); constexpr int kObscuredGlyphSpacing = 5; render_text->SetObscuredGlyphSpacing(kObscuredGlyphSpacing); const int width_with_glyph_spacing = render_text->GetStringSize().width(); EXPECT_EQ(kObscuredGlyphSpacing, render_text->obscured_glyph_spacing()); EXPECT_EQ(width_without_glyph_spacing + static_cast(seuss.length()) * kObscuredGlyphSpacing, width_with_glyph_spacing); } // Ensures that glyph spacing is ignored for non-obscured text. TEST_F(RenderTextTest, ObscuredGlyphSpacingOnNonObscuredText) { const std::u16string seuss = u"hop on pop"; RenderTextHarfBuzz* render_text = GetRenderText(); render_text->SetText(seuss); render_text->SetObscured(false); const int width_without_glyph_spacing = render_text->GetStringSize().width(); constexpr int kObscuredGlyphSpacing = 5; render_text->SetObscuredGlyphSpacing(kObscuredGlyphSpacing); const int width_with_glyph_spacing = render_text->GetStringSize().width(); EXPECT_EQ(width_without_glyph_spacing, width_with_glyph_spacing); } // Ensure font size overrides propagate through to text runs. TEST_F(RenderTextTest, FontSizeOverride) { RenderTextHarfBuzz* render_text = GetRenderText(); const int default_font_size = render_text->font_list().GetFontSize(); const int test_font_size_override = default_font_size + 5; render_text->SetText(u"0123456789"); render_text->ApplyFontSizeOverride(test_font_size_override, gfx::Range(3, 7)); EXPECT_EQ(std::vector({u"012", u"3456", u"789"}), GetRunListStrings()); const internal::TextRunList* run_list = GetHarfBuzzRunList(); ASSERT_EQ(3U, run_list->size()); EXPECT_EQ(default_font_size, run_list->runs()[0].get()->font_params.font_size); EXPECT_EQ(test_font_size_override, run_list->runs()[1].get()->font_params.font_size); EXPECT_EQ(default_font_size, run_list->runs()[2].get()->font_params.font_size); } TEST_F(RenderTextTest, DrawVisualText_WithSelection) { RenderText* render_text = GetRenderText(); render_text->SetText(u"TheRedElephantIsEatingMyPumpkin"); // Ensure selected text is drawn differently than unselected text. render_text->set_selection_color(SK_ColorGREEN); DrawVisualText({{3, 14}}); ExpectTextLog( {{3, kPlaceholderColor}, {11, SK_ColorGREEN}, {17, kPlaceholderColor}}); } TEST_F(RenderTextTest, DrawVisualText_WithSelectionOnObcuredEmoji) { RenderText* render_text = GetRenderText(); render_text->SetText(u"\U0001F628\U0001F628\U0001F628"); render_text->SetObscured(true); render_text->set_selection_color(SK_ColorGREEN); DrawVisualText({{4, 6}}); ExpectTextLog({{2, kPlaceholderColor}, {1, SK_ColorGREEN}}); } TEST_F(RenderTextTest, DrawSelectAll) { const std::vector kUnselected = { {4, SK_ColorBLACK}}; const std::vector kSelected = {{4, SK_ColorGREEN}}; const std::vector kFocused = { {1, SK_ColorBLACK}, {2, SK_ColorGREEN}, {1, SK_ColorBLACK}}; RenderText* render_text = GetRenderText(); render_text->SetText(u"Test"); render_text->SetColor(SK_ColorBLACK); render_text->set_selection_color(SK_ColorGREEN); render_text->SelectRange(Range(1, 3)); Draw(false); ExpectTextLog(kUnselected); Draw(true); ExpectTextLog(kSelected); Draw(false); ExpectTextLog(kUnselected); render_text->set_focused(true); Draw(false); ExpectTextLog(kFocused); Draw(true); ExpectTextLog(kSelected); render_text->set_focused(false); Draw(true); ExpectTextLog(kSelected); Draw(false); ExpectTextLog(kUnselected); } #if defined(OS_LINUX) || defined(OS_CHROMEOS) TEST_F(RenderTextTest, StringSizeUpdatedWhenDeviceScaleFactorChanges) { RenderText* render_text = GetRenderText(); render_text->SetText(u"Test - 1"); const gfx::SizeF initial_size = render_text->GetStringSizeF(); // Non-integer device scale factor enables subpixel positioning on Linux and // Chrome OS, which should update text size. SetFontRenderParamsDeviceScaleFactor(1.5); const gfx::SizeF scaled_size = render_text->GetStringSizeF(); // Create render text with scale factor set from the beginning, and use is as // a baseline to which compare the original render text string size. ResetRenderTextInstance(); RenderText* scaled_render_text = GetRenderText(); scaled_render_text->SetText(u"Test - 1"); // Verify that original render text string size got updated after device scale // factor changed. EXPECT_NE(initial_size.width(), scaled_size.width()); EXPECT_EQ(scaled_render_text->GetStringSizeF(), scaled_size); } #endif TEST_F(RenderTextTest, Clusterfuzz_Issue_1287804) { RenderText* render_text = GetRenderText(); render_text->SetMaxLines(1); render_text->SetText(u">\r\r"); render_text->SetMultiline(true); render_text->SetDisplayRect(Rect(0, 0, 100, 24)); render_text->SetElideBehavior(ELIDE_TAIL); EXPECT_EQ(RangeF(0, 0), render_text->GetCursorSpan(Range(0, 0))); } } // namespace gfx