/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <gtest/gtest.h> #include "FontLanguageListCache.h" #include "FontLanguage.h" #include "FontTestUtils.h" #include "ICUTestBase.h" #include "MinikinFontForTest.h" #include "MinikinInternal.h" #include "UnicodeUtils.h" #include "minikin/FontFamily.h" using android::AutoMutex; using android::FontCollection; using android::FontFamily; using android::FontLanguage; using android::FontLanguages; using android::FontLanguageListCache; using android::FontStyle; using android::MinikinAutoUnref; using android::MinikinFont; using android::gMinikinLock; const char kItemizeFontXml[] = kTestFontDir "itemize.xml"; const char kEmojiFont[] = kTestFontDir "Emoji.ttf"; const char kJAFont[] = kTestFontDir "Ja.ttf"; const char kKOFont[] = kTestFontDir "Ko.ttf"; const char kLatinBoldFont[] = kTestFontDir "Bold.ttf"; const char kLatinBoldItalicFont[] = kTestFontDir "BoldItalic.ttf"; const char kLatinFont[] = kTestFontDir "Regular.ttf"; const char kLatinItalicFont[] = kTestFontDir "Italic.ttf"; const char kZH_HansFont[] = kTestFontDir "ZhHans.ttf"; const char kZH_HantFont[] = kTestFontDir "ZhHant.ttf"; const char kEmojiXmlFile[] = kTestFontDir "emoji.xml"; const char kNoGlyphFont[] = kTestFontDir "NoGlyphFont.ttf"; const char kColorEmojiFont[] = kTestFontDir "ColorEmojiFont.ttf"; const char kTextEmojiFont[] = kTestFontDir "TextEmojiFont.ttf"; const char kMixedEmojiFont[] = kTestFontDir "ColorTextMixedEmojiFont.ttf"; typedef ICUTestBase FontCollectionItemizeTest; // Utility function for calling itemize function. void itemize(FontCollection* collection, const char* str, FontStyle style, std::vector<FontCollection::Run>* result) { const size_t BUF_SIZE = 256; uint16_t buf[BUF_SIZE]; size_t len; result->clear(); ParseUnicode(buf, BUF_SIZE, str, &len, NULL); AutoMutex _l(gMinikinLock); collection->itemize(buf, len, style, result); } // Utility function to obtain font path associated with run. const std::string& getFontPath(const FontCollection::Run& run) { EXPECT_NE(nullptr, run.fakedFont.font); return ((MinikinFontForTest*)run.fakedFont.font)->fontPath(); } // Utility function to obtain FontLanguages from string. const FontLanguages& registerAndGetFontLanguages(const std::string& lang_string) { AutoMutex _l(gMinikinLock); return FontLanguageListCache::getById(FontLanguageListCache::getId(lang_string)); } TEST_F(FontCollectionItemizeTest, itemize_latin) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; const FontStyle kRegularStyle = FontStyle(); const FontStyle kItalicStyle = FontStyle(4, true); const FontStyle kBoldStyle = FontStyle(7, false); const FontStyle kBoldItalicStyle = FontStyle(7, true); itemize(collection.get(), "'a' 'b' 'c' 'd' 'e'", kRegularStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); itemize(collection.get(), "'a' 'b' 'c' 'd' 'e'", kItalicStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kLatinItalicFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); itemize(collection.get(), "'a' 'b' 'c' 'd' 'e'", kBoldStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kLatinBoldFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); itemize(collection.get(), "'a' 'b' 'c' 'd' 'e'", kBoldItalicStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kLatinBoldItalicFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // Continue if the specific characters (e.g. hyphen, comma, etc.) is // followed. itemize(collection.get(), "'a' ',' '-' 'd' '!'", kRegularStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); itemize(collection.get(), "'a' ',' '-' 'd' '!'", kRegularStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // U+0301(COMBINING ACUTE ACCENT) must be in the same run with preceding // chars if the font supports it. itemize(collection.get(), "'a' U+0301", kRegularStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); } TEST_F(FontCollectionItemizeTest, itemize_emoji) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; itemize(collection.get(), "U+1F469 U+1F467", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kEmojiFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // U+20E3(COMBINING ENCLOSING KEYCAP) must be in the same run with preceding // character if the font supports. itemize(collection.get(), "'0' U+20E3", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kEmojiFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); itemize(collection.get(), "U+1F470 U+20E3", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kEmojiFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); itemize(collection.get(), "U+242EE U+1F470 U+20E3", FontStyle(), &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(2, runs[1].start); EXPECT_EQ(5, runs[1].end); EXPECT_EQ(kEmojiFont, getFontPath(runs[1])); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeItalic()); // Currently there is no fonts which has a glyph for 'a' + U+20E3, so they // are splitted into two. itemize(collection.get(), "'a' U+20E3", FontStyle(), &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(2, runs[1].end); EXPECT_EQ(kEmojiFont, getFontPath(runs[1])); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeItalic()); } TEST_F(FontCollectionItemizeTest, itemize_non_latin) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; FontStyle kJAStyle = FontStyle(FontStyle::registerLanguageList("ja_JP")); FontStyle kUSStyle = FontStyle(FontStyle::registerLanguageList("en_US")); FontStyle kZH_HansStyle = FontStyle(FontStyle::registerLanguageList("zh_Hans")); // All Japanese Hiragana characters. itemize(collection.get(), "U+3042 U+3044 U+3046 U+3048 U+304A", kUSStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // All Korean Hangul characters. itemize(collection.get(), "U+B300 U+D55C U+BBFC U+AD6D", kUSStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kKOFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // All Han characters ja, zh-Hans font having. // Japanese font should be selected if the specified language is Japanese. itemize(collection.get(), "U+81ED U+82B1 U+5FCD", kJAStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // Simplified Chinese font should be selected if the specified language is Simplified // Chinese. itemize(collection.get(), "U+81ED U+82B1 U+5FCD", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // Fallbacks to other fonts if there is no glyph in the specified language's // font. There is no character U+4F60 in Japanese. itemize(collection.get(), "U+81ED U+4F60 U+5FCD", kJAStyle, &runs); ASSERT_EQ(3U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(2, runs[1].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[1])); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(2, runs[2].start); EXPECT_EQ(3, runs[2].end); EXPECT_EQ(kJAFont, getFontPath(runs[2])); EXPECT_FALSE(runs[2].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[2].fakedFont.fakery.isFakeItalic()); // Tone mark. itemize(collection.get(), "U+4444 U+302D", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // Both zh-Hant and ja fonts support U+242EE, but zh-Hans doesn't. // Here, ja and zh-Hant font should have the same score but ja should be selected since it is // listed before zh-Hant. itemize(collection.get(), "U+242EE", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); } TEST_F(FontCollectionItemizeTest, itemize_mixed) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; FontStyle kUSStyle = FontStyle(FontStyle::registerLanguageList("en_US")); itemize(collection.get(), "'a' U+4F60 'b' U+4F60 'c'", kUSStyle, &runs); ASSERT_EQ(5U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(2, runs[1].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[1])); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[1].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(2, runs[2].start); EXPECT_EQ(3, runs[2].end); EXPECT_EQ(kLatinFont, getFontPath(runs[2])); EXPECT_FALSE(runs[2].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[2].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(3, runs[3].start); EXPECT_EQ(4, runs[3].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[3])); EXPECT_FALSE(runs[3].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[3].fakedFont.fakery.isFakeItalic()); EXPECT_EQ(4, runs[4].start); EXPECT_EQ(5, runs[4].end); EXPECT_EQ(kLatinFont, getFontPath(runs[4])); EXPECT_FALSE(runs[4].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[4].fakedFont.fakery.isFakeItalic()); } TEST_F(FontCollectionItemizeTest, itemize_variationSelector) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; // A glyph for U+4FAE is provided by both Japanese font and Simplified // Chinese font. Also a glyph for U+242EE is provided by both Japanese and // Traditional Chinese font. To avoid effects of device default locale, // explicitly specify the locale. FontStyle kZH_HansStyle = FontStyle(FontStyle::registerLanguageList("zh_Hans")); FontStyle kZH_HantStyle = FontStyle(FontStyle::registerLanguageList("zh_Hant")); // U+4FAE is available in both zh_Hans and ja font, but U+4FAE,U+FE00 is // only available in ja font. itemize(collection.get(), "U+4FAE", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); itemize(collection.get(), "U+4FAE U+FE00", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); itemize(collection.get(), "U+4FAE U+4FAE U+FE00", kZH_HansStyle, &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(3, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); itemize(collection.get(), "U+4FAE U+4FAE U+FE00 U+4FAE", kZH_HansStyle, &runs); ASSERT_EQ(3U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(3, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); EXPECT_EQ(3, runs[2].start); EXPECT_EQ(4, runs[2].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[2])); // Validation selector after validation selector. itemize(collection.get(), "U+4FAE U+FE00 U+FE00", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); // No font supports U+242EE U+FE0E. itemize(collection.get(), "U+4FAE U+FE0E", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); // Surrogate pairs handling. // U+242EE is available in ja font and zh_Hant font. // U+242EE U+FE00 is available only in ja font. itemize(collection.get(), "U+242EE", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); itemize(collection.get(), "U+242EE U+FE00", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); itemize(collection.get(), "U+242EE U+242EE U+FE00", kZH_HantStyle, &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); EXPECT_EQ(2, runs[1].start); EXPECT_EQ(5, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); itemize(collection.get(), "U+242EE U+242EE U+FE00 U+242EE", kZH_HantStyle, &runs); ASSERT_EQ(3U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); EXPECT_EQ(2, runs[1].start); EXPECT_EQ(5, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); EXPECT_EQ(5, runs[2].start); EXPECT_EQ(7, runs[2].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[2])); // Validation selector after validation selector. itemize(collection.get(), "U+242EE U+FE00 U+FE00", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); // No font supports U+242EE U+FE0E itemize(collection.get(), "U+242EE U+FE0E", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); // Isolated variation selector supplement. itemize(collection.get(), "U+FE00", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_TRUE(runs[0].fakedFont.font == nullptr || kLatinFont == getFontPath(runs[0])); itemize(collection.get(), "U+FE00", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_TRUE(runs[0].fakedFont.font == nullptr || kLatinFont == getFontPath(runs[0])); // First font family (Regular.ttf) supports U+203C but doesn't support U+203C U+FE0F. // Emoji.ttf font supports U+203C U+FE0F. Emoji.ttf should be selected. itemize(collection.get(), "U+203C U+FE0F", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kEmojiFont, getFontPath(runs[0])); // First font family (Regular.ttf) supports U+203C U+FE0E. itemize(collection.get(), "U+203C U+FE0E", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kLatinFont, getFontPath(runs[0])); } TEST_F(FontCollectionItemizeTest, itemize_variationSelectorSupplement) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; // A glyph for U+845B is provided by both Japanese font and Simplified // Chinese font. Also a glyph for U+242EE is provided by both Japanese and // Traditional Chinese font. To avoid effects of device default locale, // explicitly specify the locale. FontStyle kZH_HansStyle = FontStyle(FontStyle::registerLanguageList("zh_Hans")); FontStyle kZH_HantStyle = FontStyle(FontStyle::registerLanguageList("zh_Hant")); // U+845B is available in both zh_Hans and ja font, but U+845B,U+E0100 is // only available in ja font. itemize(collection.get(), "U+845B", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); itemize(collection.get(), "U+845B U+E0100", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); itemize(collection.get(), "U+845B U+845B U+E0100", kZH_HansStyle, &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(4, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); itemize(collection.get(), "U+845B U+845B U+E0100 U+845B", kZH_HansStyle, &runs); ASSERT_EQ(3U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); EXPECT_EQ(1, runs[1].start); EXPECT_EQ(4, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); EXPECT_EQ(4, runs[2].start); EXPECT_EQ(5, runs[2].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[2])); // Validation selector after validation selector. itemize(collection.get(), "U+845B U+E0100 U+E0100", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); // No font supports U+845B U+E01E0. itemize(collection.get(), "U+845B U+E01E0", kZH_HansStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kZH_HansFont, getFontPath(runs[0])); // Isolated variation selector supplement // Surrogate pairs handling. // U+242EE is available in ja font and zh_Hant font. // U+242EE U+E0100 is available only in ja font. itemize(collection.get(), "U+242EE", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); itemize(collection.get(), "U+242EE U+E0101", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); itemize(collection.get(), "U+242EE U+242EE U+E0101", kZH_HantStyle, &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); EXPECT_EQ(2, runs[1].start); EXPECT_EQ(6, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); itemize(collection.get(), "U+242EE U+242EE U+E0101 U+242EE", kZH_HantStyle, &runs); ASSERT_EQ(3U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); EXPECT_EQ(2, runs[1].start); EXPECT_EQ(6, runs[1].end); EXPECT_EQ(kJAFont, getFontPath(runs[1])); EXPECT_EQ(6, runs[2].start); EXPECT_EQ(8, runs[2].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[2])); // Validation selector after validation selector. itemize(collection.get(), "U+242EE U+E0100 U+E0100", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(6, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); // No font supports U+242EE U+E01E0. itemize(collection.get(), "U+242EE U+E01E0", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kZH_HantFont, getFontPath(runs[0])); // Isolated variation selector supplement. itemize(collection.get(), "U+E0100", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_TRUE(runs[0].fakedFont.font == nullptr || kLatinFont == getFontPath(runs[0])); itemize(collection.get(), "U+E0100", kZH_HantStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_TRUE(runs[0].fakedFont.font == nullptr || kLatinFont == getFontPath(runs[0])); } TEST_F(FontCollectionItemizeTest, itemize_no_crash) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; // Broken Surrogate pairs. Check only not crashing. itemize(collection.get(), "'a' U+D83D 'a'", FontStyle(), &runs); itemize(collection.get(), "'a' U+DC69 'a'", FontStyle(), &runs); itemize(collection.get(), "'a' U+D83D U+D83D 'a'", FontStyle(), &runs); itemize(collection.get(), "'a' U+DC69 U+DC69 'a'", FontStyle(), &runs); // Isolated variation selector. Check only not crashing. itemize(collection.get(), "U+FE00 U+FE00", FontStyle(), &runs); itemize(collection.get(), "U+E0100 U+E0100", FontStyle(), &runs); itemize(collection.get(), "U+FE00 U+E0100", FontStyle(), &runs); itemize(collection.get(), "U+E0100 U+FE00", FontStyle(), &runs); // Tone mark only. Check only not crashing. itemize(collection.get(), "U+302D", FontStyle(), &runs); itemize(collection.get(), "U+302D U+302D", FontStyle(), &runs); // Tone mark and variation selector mixed. Check only not crashing. itemize(collection.get(), "U+FE00 U+302D U+E0100", FontStyle(), &runs); } TEST_F(FontCollectionItemizeTest, itemize_fakery) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); std::vector<FontCollection::Run> runs; FontStyle kJABoldStyle = FontStyle(FontStyle::registerLanguageList("ja_JP"), 0, 7, false); FontStyle kJAItalicStyle = FontStyle(FontStyle::registerLanguageList("ja_JP"), 0, 5, true); FontStyle kJABoldItalicStyle = FontStyle(FontStyle::registerLanguageList("ja_JP"), 0, 7, true); // Currently there is no italic or bold font for Japanese. FontFakery has // the differences between desired and actual font style. // All Japanese Hiragana characters. itemize(collection.get(), "U+3042 U+3044 U+3046 U+3048 U+304A", kJABoldStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_TRUE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeItalic()); // All Japanese Hiragana characters. itemize(collection.get(), "U+3042 U+3044 U+3046 U+3048 U+304A", kJAItalicStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_FALSE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_TRUE(runs[0].fakedFont.fakery.isFakeItalic()); // All Japanese Hiragana characters. itemize(collection.get(), "U+3042 U+3044 U+3046 U+3048 U+304A", kJABoldItalicStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(5, runs[0].end); EXPECT_EQ(kJAFont, getFontPath(runs[0])); EXPECT_TRUE(runs[0].fakedFont.fakery.isFakeBold()); EXPECT_TRUE(runs[0].fakedFont.fakery.isFakeItalic()); } TEST_F(FontCollectionItemizeTest, itemize_vs_sequence_but_no_base_char) { // kVSTestFont supports U+717D U+FE02 but doesn't support U+717D. // kVSTestFont should be selected for U+717D U+FE02 even if it does not support the base code // point. const std::string kVSTestFont = kTestFontDir "VarioationSelectorTest-Regular.ttf"; std::vector<android::FontFamily*> families; FontFamily* family1 = new FontFamily(android::VARIANT_DEFAULT); family1->addFont(new MinikinFontForTest(kLatinFont)); families.push_back(family1); FontFamily* family2 = new FontFamily(android::VARIANT_DEFAULT); family2->addFont(new MinikinFontForTest(kVSTestFont)); families.push_back(family2); FontCollection collection(families); std::vector<FontCollection::Run> runs; itemize(&collection, "U+717D U+FE02", FontStyle(), &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kVSTestFont, getFontPath(runs[0])); family1->Unref(); family2->Unref(); } TEST_F(FontCollectionItemizeTest, itemize_LanguageScore) { struct TestCase { std::string userPreferredLanguages; std::vector<std::string> fontLanguages; int selectedFontIndex; } testCases[] = { // Font can specify empty language. { "und", { "", "" }, 0 }, { "und", { "", "en-Latn" }, 0 }, { "en-Latn", { "", "" }, 0 }, { "en-Latn", { "", "en-Latn" }, 1 }, // Single user preferred language. // Exact match case { "en-Latn", { "en-Latn", "ja-Jpan" }, 0 }, { "ja-Jpan", { "en-Latn", "ja-Jpan" }, 1 }, { "en-Latn", { "en-Latn", "nl-Latn", "es-Latn" }, 0 }, { "nl-Latn", { "en-Latn", "nl-Latn", "es-Latn" }, 1 }, { "es-Latn", { "en-Latn", "nl-Latn", "es-Latn" }, 2 }, { "es-Latn", { "en-Latn", "en-Latn", "nl-Latn" }, 0 }, // Exact script match case { "en-Latn", { "nl-Latn", "e-Latn" }, 0 }, { "en-Arab", { "nl-Latn", "ar-Arab" }, 1 }, { "en-Latn", { "be-Latn", "ar-Arab", "d-Beng" }, 0 }, { "en-Arab", { "be-Latn", "ar-Arab", "d-Beng" }, 1 }, { "en-Beng", { "be-Latn", "ar-Arab", "d-Beng" }, 2 }, { "en-Beng", { "be-Latn", "ar-Beng", "d-Beng" }, 1 }, { "zh-Hant", { "zh-Hant", "zh-Hans" }, 0 }, { "zh-Hans", { "zh-Hant", "zh-Hans" }, 1 }, // Subscript match case, e.g. Jpan supports Hira. { "en-Hira", { "ja-Jpan" }, 0 }, { "zh-Hani", { "zh-Hans", "zh-Hant" }, 0 }, { "zh-Hani", { "zh-Hant", "zh-Hans" }, 0 }, { "en-Hira", { "zh-Hant", "ja-Jpan", "ja-Jpan" }, 1 }, // Language match case { "ja-Latn", { "zh-Latn", "ja-Latn" }, 1 }, { "zh-Latn", { "zh-Latn", "ja-Latn" }, 0 }, { "ja-Latn", { "zh-Latn", "ja-Latn" }, 1 }, { "ja-Latn", { "zh-Latn", "ja-Latn", "ja-Latn" }, 1 }, // Mixed case // Script/subscript match is strongest. { "ja-Jpan", { "en-Latn", "ja-Latn", "en-Jpan" }, 2 }, { "ja-Hira", { "en-Latn", "ja-Latn", "en-Jpan" }, 2 }, { "ja-Hira", { "en-Latn", "ja-Latn", "en-Jpan", "en-Jpan" }, 2 }, // Language match only happens if the script matches. { "ja-Hira", { "en-Latn", "ja-Latn" }, 0 }, { "ja-Hira", { "en-Jpan", "ja-Jpan" }, 1 }, // Multiple languages. // Even if all fonts have the same score, use the 2nd language for better selection. { "en-Latn,ja-Jpan", { "zh-Hant", "zh-Hans", "ja-Jpan" }, 2 }, { "en-Latn,nl-Latn", { "es-Latn", "be-Latn", "nl-Latn" }, 2 }, { "en-Latn,br-Latn,nl-Latn", { "es-Latn", "be-Latn", "nl-Latn" }, 2 }, { "en-Latn,br-Latn,nl-Latn", { "es-Latn", "be-Latn", "nl-Latn", "nl-Latn" }, 2 }, // Script score. { "en-Latn,ja-Jpan", { "en-Arab", "en-Jpan" }, 1 }, { "en-Latn,ja-Jpan", { "en-Arab", "en-Jpan", "en-Jpan" }, 1 }, // Language match case { "en-Latn,ja-Latn", { "bd-Latn", "ja-Latn" }, 1 }, { "en-Latn,ja-Latn", { "bd-Latn", "ja-Latn", "ja-Latn" }, 1 }, // Language match only happens if the script matches. { "en-Latn,ar-Arab", { "en-Beng", "ar-Arab" }, 1 }, // Multiple languages in the font settings. { "ko-Jamo", { "ja-Jpan", "ko-Kore", "ko-Kore,ko-Jamo"}, 2 }, { "en-Latn", { "ja-Jpan", "en-Latn,ja-Jpan"}, 1 }, { "en-Latn", { "ja-Jpan", "ja-Jpan,en-Latn"}, 1 }, { "en-Latn", { "ja-Jpan,zh-Hant", "en-Latn,ja-Jpan", "en-Latn"}, 1 }, { "en-Latn", { "zh-Hant,ja-Jpan", "ja-Jpan,en-Latn", "en-Latn"}, 1 }, // Kore = Hang + Hani, etc. { "ko-Kore", { "ko-Hang", "ko-Jamo,ko-Hani", "ko-Hang,ko-Hani"}, 2 }, { "ja-Hrkt", { "ja-Hira", "ja-Kana", "ja-Hira,ja-Kana"}, 2 }, { "ja-Jpan", { "ja-Hira", "ja-Kana", "ja-Hani", "ja-Hira,ja-Kana,ja-Hani"}, 3 }, { "zh-Hanb", { "zh-Hant", "zh-Bopo", "zh-Hant,zh-Bopo"}, 2 }, { "zh-Hanb", { "ja-Hanb", "zh-Hant,zh-Bopo"}, 1 }, // Language match with unified subscript bits. { "zh-Hanb", { "zh-Hant", "zh-Bopo", "ja-Hant,ja-Bopo", "zh-Hant,zh-Bopo"}, 3 }, { "zh-Hanb", { "zh-Hant", "zh-Bopo", "ja-Hant,zh-Bopo", "zh-Hant,zh-Bopo"}, 3 }, }; for (auto testCase : testCases) { std::string fontLanguagesStr = "{"; for (size_t i = 0; i < testCase.fontLanguages.size(); ++i) { if (i != 0) { fontLanguagesStr += ", "; } fontLanguagesStr += "\"" + testCase.fontLanguages[i] + "\""; } fontLanguagesStr += "}"; SCOPED_TRACE("Test of user preferred languages: \"" + testCase.userPreferredLanguages + "\" with font languages: " + fontLanguagesStr); std::vector<FontFamily*> families; // Prepare first font which doesn't supports U+9AA8 FontFamily* firstFamily = new FontFamily( FontStyle::registerLanguageList("und"), 0 /* variant */); MinikinFont* firstFamilyMinikinFont = new MinikinFontForTest(kNoGlyphFont); firstFamily->addFont(firstFamilyMinikinFont); families.push_back(firstFamily); // Prepare font families // Each font family is associated with a specified language. All font families except for // the first font support U+9AA8. std::unordered_map<MinikinFont*, int> fontLangIdxMap; for (size_t i = 0; i < testCase.fontLanguages.size(); ++i) { FontFamily* family = new FontFamily( FontStyle::registerLanguageList(testCase.fontLanguages[i]), 0 /* variant */); MinikinFont* minikin_font = new MinikinFontForTest(kJAFont); family->addFont(minikin_font); families.push_back(family); fontLangIdxMap.insert(std::make_pair(minikin_font, i)); } FontCollection collection(families); for (auto family : families) { family->Unref(); } // Do itemize const FontStyle style = FontStyle( FontStyle::registerLanguageList(testCase.userPreferredLanguages)); std::vector<FontCollection::Run> runs; itemize(&collection, "U+9AA8", style, &runs); ASSERT_EQ(1U, runs.size()); ASSERT_NE(nullptr, runs[0].fakedFont.font); // First family doesn't support U+9AA8 and others support it, so the first font should not // be selected. EXPECT_NE(firstFamilyMinikinFont, runs[0].fakedFont.font); // Lookup used font family by MinikinFont*. const int usedLangIndex = fontLangIdxMap[runs[0].fakedFont.font]; EXPECT_EQ(testCase.selectedFontIndex, usedLangIndex); } } TEST_F(FontCollectionItemizeTest, itemize_LanguageAndCoverage) { struct TestCase { std::string testString; std::string requestedLanguages; std::string expectedFont; } testCases[] = { // Following test cases verify that following rules in font fallback chain. // - If the first font in the collection supports the given character or variation sequence, // it should be selected. // - If the font doesn't support the given character, variation sequence or its base // character, it should not be selected. // - If two or more fonts match the requested languages, the font matches with the highest // priority language should be selected. // - If two or more fonts get the same score, the font listed earlier in the XML file // (here, kItemizeFontXml) should be selected. // Regardless of language, the first font is always selected if it covers the code point. { "'a'", "", kLatinFont}, { "'a'", "en-Latn", kLatinFont}, { "'a'", "ja-Jpan", kLatinFont}, { "'a'", "ja-Jpan,en-Latn", kLatinFont}, { "'a'", "zh-Hans,zh-Hant,en-Latn,ja-Jpan,fr-Latn", kLatinFont}, // U+81ED is supported by both the ja font and zh-Hans font. { "U+81ED", "", kZH_HansFont }, // zh-Hans font is listed before ja font. { "U+81ED", "en-Latn", kZH_HansFont }, // zh-Hans font is listed before ja font. { "U+81ED", "ja-Jpan", kJAFont }, { "U+81ED", "zh-Hans", kZH_HansFont }, { "U+81ED", "ja-Jpan,en-Latn", kJAFont }, { "U+81ED", "en-Latn,ja-Jpan", kJAFont }, { "U+81ED", "en-Latn,zh-Hans", kZH_HansFont }, { "U+81ED", "zh-Hans,en-Latn", kZH_HansFont }, { "U+81ED", "ja-Jpan,zh-Hans", kJAFont }, { "U+81ED", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+81ED", "en-Latn,zh-Hans,ja-Jpan", kZH_HansFont }, { "U+81ED", "en-Latn,ja-Jpan,zh-Hans", kJAFont }, { "U+81ED", "en-Latn,zh-Hans,ja-Jpan", kZH_HansFont }, { "U+81ED", "ja-Jpan,en-Latn,zh-Hans", kJAFont }, { "U+81ED", "ja-Jpan,zh-Hans,en-Latn", kJAFont }, { "U+81ED", "zh-Hans,en-Latn,ja-Jpan", kZH_HansFont }, { "U+81ED", "zh-Hans,ja-Jpan,en-Latn", kZH_HansFont }, // U+304A is only supported by ja font. { "U+304A", "", kJAFont }, { "U+304A", "ja-Jpan", kJAFont }, { "U+304A", "zh-Hant", kJAFont }, { "U+304A", "zh-Hans", kJAFont }, { "U+304A", "ja-Jpan,zh-Hant", kJAFont }, { "U+304A", "zh-Hant,ja-Jpan", kJAFont }, { "U+304A", "zh-Hans,zh-Hant", kJAFont }, { "U+304A", "zh-Hant,zh-Hans", kJAFont }, { "U+304A", "zh-Hans,ja-Jpan", kJAFont }, { "U+304A", "ja-Jpan,zh-Hans", kJAFont }, { "U+304A", "zh-Hans,ja-Jpan,zh-Hant", kJAFont }, { "U+304A", "zh-Hans,zh-Hant,ja-Jpan", kJAFont }, { "U+304A", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+304A", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+304A", "zh-Hant,zh-Hans,ja-Jpan", kJAFont }, { "U+304A", "zh-Hant,ja-Jpan,zh-Hans", kJAFont }, // U+242EE is supported by both ja font and zh-Hant fonts but not by zh-Hans font. { "U+242EE", "", kJAFont }, // ja font is listed before zh-Hant font. { "U+242EE", "ja-Jpan", kJAFont }, { "U+242EE", "zh-Hans", kJAFont }, { "U+242EE", "zh-Hant", kZH_HantFont }, { "U+242EE", "ja-Jpan,zh-Hant", kJAFont }, { "U+242EE", "zh-Hant,ja-Jpan", kZH_HantFont }, { "U+242EE", "zh-Hans,zh-Hant", kZH_HantFont }, { "U+242EE", "zh-Hant,zh-Hans", kZH_HantFont }, { "U+242EE", "zh-Hans,ja-Jpan", kJAFont }, { "U+242EE", "ja-Jpan,zh-Hans", kJAFont }, { "U+242EE", "zh-Hans,ja-Jpan,zh-Hant", kJAFont }, { "U+242EE", "zh-Hans,zh-Hant,ja-Jpan", kZH_HantFont }, { "U+242EE", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+242EE", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+242EE", "zh-Hant,zh-Hans,ja-Jpan", kZH_HantFont }, { "U+242EE", "zh-Hant,ja-Jpan,zh-Hans", kZH_HantFont }, // U+9AA8 is supported by all ja-Jpan, zh-Hans, zh-Hant fonts. { "U+9AA8", "", kZH_HansFont }, // zh-Hans font is listed before ja and zh-Hant fonts. { "U+9AA8", "ja-Jpan", kJAFont }, { "U+9AA8", "zh-Hans", kZH_HansFont }, { "U+9AA8", "zh-Hant", kZH_HantFont }, { "U+9AA8", "ja-Jpan,zh-Hant", kJAFont }, { "U+9AA8", "zh-Hant,ja-Jpan", kZH_HantFont }, { "U+9AA8", "zh-Hans,zh-Hant", kZH_HansFont }, { "U+9AA8", "zh-Hant,zh-Hans", kZH_HantFont }, { "U+9AA8", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+9AA8", "ja-Jpan,zh-Hans", kJAFont }, { "U+9AA8", "zh-Hans,ja-Jpan,zh-Hant", kZH_HansFont }, { "U+9AA8", "zh-Hans,zh-Hant,ja-Jpan", kZH_HansFont }, { "U+9AA8", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+9AA8", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+9AA8", "zh-Hant,zh-Hans,ja-Jpan", kZH_HantFont }, { "U+9AA8", "zh-Hant,ja-Jpan,zh-Hans", kZH_HantFont }, // U+242EE U+FE00 is supported by ja font but not by zh-Hans or zh-Hant fonts. { "U+242EE U+FE00", "", kJAFont }, { "U+242EE U+FE00", "ja-Jpan", kJAFont }, { "U+242EE U+FE00", "zh-Hant", kJAFont }, { "U+242EE U+FE00", "zh-Hans", kJAFont }, { "U+242EE U+FE00", "ja-Jpan,zh-Hant", kJAFont }, { "U+242EE U+FE00", "zh-Hant,ja-Jpan", kJAFont }, { "U+242EE U+FE00", "zh-Hans,zh-Hant", kJAFont }, { "U+242EE U+FE00", "zh-Hant,zh-Hans", kJAFont }, { "U+242EE U+FE00", "zh-Hans,ja-Jpan", kJAFont }, { "U+242EE U+FE00", "ja-Jpan,zh-Hans", kJAFont }, { "U+242EE U+FE00", "zh-Hans,ja-Jpan,zh-Hant", kJAFont }, { "U+242EE U+FE00", "zh-Hans,zh-Hant,ja-Jpan", kJAFont }, { "U+242EE U+FE00", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+242EE U+FE00", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+242EE U+FE00", "zh-Hant,zh-Hans,ja-Jpan", kJAFont }, { "U+242EE U+FE00", "zh-Hant,ja-Jpan,zh-Hans", kJAFont }, // U+3402 U+E0100 is supported by both zh-Hans and zh-Hant but not by ja font. { "U+3402 U+E0100", "", kZH_HansFont }, // zh-Hans font is listed before zh-Hant font. { "U+3402 U+E0100", "ja-Jpan", kZH_HansFont }, // zh-Hans font is listed before zh-Hant font. { "U+3402 U+E0100", "zh-Hant", kZH_HantFont }, { "U+3402 U+E0100", "zh-Hans", kZH_HansFont }, { "U+3402 U+E0100", "ja-Jpan,zh-Hant", kZH_HantFont }, { "U+3402 U+E0100", "zh-Hant,ja-Jpan", kZH_HantFont }, { "U+3402 U+E0100", "zh-Hans,zh-Hant", kZH_HansFont }, { "U+3402 U+E0100", "zh-Hant,zh-Hans", kZH_HantFont }, { "U+3402 U+E0100", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+3402 U+E0100", "ja-Jpan,zh-Hans", kZH_HansFont }, { "U+3402 U+E0100", "zh-Hans,ja-Jpan,zh-Hant", kZH_HansFont }, { "U+3402 U+E0100", "zh-Hans,zh-Hant,ja-Jpan", kZH_HansFont }, { "U+3402 U+E0100", "ja-Jpan,zh-Hans,zh-Hant", kZH_HansFont }, { "U+3402 U+E0100", "ja-Jpan,zh-Hant,zh-Hans", kZH_HantFont }, { "U+3402 U+E0100", "zh-Hant,zh-Hans,ja-Jpan", kZH_HantFont }, { "U+3402 U+E0100", "zh-Hant,ja-Jpan,zh-Hans", kZH_HantFont }, // No font supports U+4444 U+FE00 but only zh-Hans supports its base character U+4444. { "U+4444 U+FE00", "", kZH_HansFont }, { "U+4444 U+FE00", "ja-Jpan", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hant", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hans", kZH_HansFont }, { "U+4444 U+FE00", "ja-Jpan,zh-Hant", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hant,ja-Jpan", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hans,zh-Hant", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hant,zh-Hans", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+4444 U+FE00", "ja-Jpan,zh-Hans", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hans,ja-Jpan,zh-Hant", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hans,zh-Hant,ja-Jpan", kZH_HansFont }, { "U+4444 U+FE00", "ja-Jpan,zh-Hans,zh-Hant", kZH_HansFont }, { "U+4444 U+FE00", "ja-Jpan,zh-Hant,zh-Hans", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hant,zh-Hans,ja-Jpan", kZH_HansFont }, { "U+4444 U+FE00", "zh-Hant,ja-Jpan,zh-Hans", kZH_HansFont }, // No font supports U+81ED U+E0100 but ja and zh-Hans support its base character U+81ED. // zh-Hans font is listed before ja font. { "U+81ED U+E0100", "", kZH_HansFont }, { "U+81ED U+E0100", "ja-Jpan", kJAFont }, { "U+81ED U+E0100", "zh-Hant", kZH_HansFont }, { "U+81ED U+E0100", "zh-Hans", kZH_HansFont }, { "U+81ED U+E0100", "ja-Jpan,zh-Hant", kJAFont }, { "U+81ED U+E0100", "zh-Hant,ja-Jpan", kJAFont }, { "U+81ED U+E0100", "zh-Hans,zh-Hant", kZH_HansFont }, { "U+81ED U+E0100", "zh-Hant,zh-Hans", kZH_HansFont }, { "U+81ED U+E0100", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+81ED U+E0100", "ja-Jpan,zh-Hans", kJAFont }, { "U+81ED U+E0100", "zh-Hans,ja-Jpan,zh-Hant", kZH_HansFont }, { "U+81ED U+E0100", "zh-Hans,zh-Hant,ja-Jpan", kZH_HansFont }, { "U+81ED U+E0100", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+81ED U+E0100", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+81ED U+E0100", "zh-Hant,zh-Hans,ja-Jpan", kZH_HansFont }, { "U+81ED U+E0100", "zh-Hant,ja-Jpan,zh-Hans", kJAFont }, // No font supports U+9AA8 U+E0100 but all zh-Hans zh-hant ja fonts support its base // character U+9AA8. // zh-Hans font is listed before ja and zh-Hant fonts. { "U+9AA8 U+E0100", "", kZH_HansFont }, { "U+9AA8 U+E0100", "ja-Jpan", kJAFont }, { "U+9AA8 U+E0100", "zh-Hans", kZH_HansFont }, { "U+9AA8 U+E0100", "zh-Hant", kZH_HantFont }, { "U+9AA8 U+E0100", "ja-Jpan,zh-Hant", kJAFont }, { "U+9AA8 U+E0100", "zh-Hant,ja-Jpan", kZH_HantFont }, { "U+9AA8 U+E0100", "zh-Hans,zh-Hant", kZH_HansFont }, { "U+9AA8 U+E0100", "zh-Hant,zh-Hans", kZH_HantFont }, { "U+9AA8 U+E0100", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+9AA8 U+E0100", "ja-Jpan,zh-Hans", kJAFont }, { "U+9AA8 U+E0100", "zh-Hans,ja-Jpan,zh-Hant", kZH_HansFont }, { "U+9AA8 U+E0100", "zh-Hans,zh-Hant,ja-Jpan", kZH_HansFont }, { "U+9AA8 U+E0100", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+9AA8 U+E0100", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+9AA8 U+E0100", "zh-Hant,zh-Hans,ja-Jpan", kZH_HantFont }, { "U+9AA8 U+E0100", "zh-Hant,ja-Jpan,zh-Hans", kZH_HantFont }, // All zh-Hans,zh-Hant,ja fonts support U+35A8 U+E0100 and its base character U+35A8. // zh-Hans font is listed before ja and zh-Hant fonts. { "U+35A8", "", kZH_HansFont }, { "U+35A8", "ja-Jpan", kJAFont }, { "U+35A8", "zh-Hans", kZH_HansFont }, { "U+35A8", "zh-Hant", kZH_HantFont }, { "U+35A8", "ja-Jpan,zh-Hant", kJAFont }, { "U+35A8", "zh-Hant,ja-Jpan", kZH_HantFont }, { "U+35A8", "zh-Hans,zh-Hant", kZH_HansFont }, { "U+35A8", "zh-Hant,zh-Hans", kZH_HantFont }, { "U+35A8", "zh-Hans,ja-Jpan", kZH_HansFont }, { "U+35A8", "ja-Jpan,zh-Hans", kJAFont }, { "U+35A8", "zh-Hans,ja-Jpan,zh-Hant", kZH_HansFont }, { "U+35A8", "zh-Hans,zh-Hant,ja-Jpan", kZH_HansFont }, { "U+35A8", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+35A8", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+35A8", "zh-Hant,zh-Hans,ja-Jpan", kZH_HantFont }, { "U+35A8", "zh-Hant,ja-Jpan,zh-Hans", kZH_HantFont }, // All zh-Hans,zh-Hant,ja fonts support U+35B6 U+E0100, but zh-Hant and ja fonts support its // base character U+35B6. // ja font is listed before zh-Hant font. { "U+35B6", "", kJAFont }, { "U+35B6", "ja-Jpan", kJAFont }, { "U+35B6", "zh-Hant", kZH_HantFont }, { "U+35B6", "zh-Hans", kJAFont }, { "U+35B6", "ja-Jpan,zh-Hant", kJAFont }, { "U+35B6", "zh-Hant,ja-Jpan", kZH_HantFont }, { "U+35B6", "zh-Hans,zh-Hant", kZH_HantFont }, { "U+35B6", "zh-Hant,zh-Hans", kZH_HantFont }, { "U+35B6", "zh-Hans,ja-Jpan", kJAFont }, { "U+35B6", "ja-Jpan,zh-Hans", kJAFont }, { "U+35B6", "zh-Hans,ja-Jpan,zh-Hant", kJAFont }, { "U+35B6", "zh-Hans,zh-Hant,ja-Jpan", kZH_HantFont }, { "U+35B6", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+35B6", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+35B6", "zh-Hant,zh-Hans,ja-Jpan", kZH_HantFont }, { "U+35B6", "zh-Hant,ja-Jpan,zh-Hans", kZH_HantFont }, // All zh-Hans,zh-Hant,ja fonts support U+35C5 U+E0100, but only ja font supports its base // character U+35C5. { "U+35C5", "", kJAFont }, { "U+35C5", "ja-Jpan", kJAFont }, { "U+35C5", "zh-Hant", kJAFont }, { "U+35C5", "zh-Hans", kJAFont }, { "U+35C5", "ja-Jpan,zh-Hant", kJAFont }, { "U+35C5", "zh-Hant,ja-Jpan", kJAFont }, { "U+35C5", "zh-Hans,zh-Hant", kJAFont }, { "U+35C5", "zh-Hant,zh-Hans", kJAFont }, { "U+35C5", "zh-Hans,ja-Jpan", kJAFont }, { "U+35C5", "ja-Jpan,zh-Hans", kJAFont }, { "U+35C5", "zh-Hans,ja-Jpan,zh-Hant", kJAFont }, { "U+35C5", "zh-Hans,zh-Hant,ja-Jpan", kJAFont }, { "U+35C5", "ja-Jpan,zh-Hans,zh-Hant", kJAFont }, { "U+35C5", "ja-Jpan,zh-Hant,zh-Hans", kJAFont }, { "U+35C5", "zh-Hant,zh-Hans,ja-Jpan", kJAFont }, { "U+35C5", "zh-Hant,ja-Jpan,zh-Hans", kJAFont }, // None of ja-Jpan, zh-Hant, zh-Hans font supports U+1F469. Emoji font supports it. { "U+1F469", "", kEmojiFont }, { "U+1F469", "ja-Jpan", kEmojiFont }, { "U+1F469", "zh-Hant", kEmojiFont }, { "U+1F469", "zh-Hans", kEmojiFont }, { "U+1F469", "ja-Jpan,zh-Hant", kEmojiFont }, { "U+1F469", "zh-Hant,ja-Jpan", kEmojiFont }, { "U+1F469", "zh-Hans,zh-Hant", kEmojiFont }, { "U+1F469", "zh-Hant,zh-Hans", kEmojiFont }, { "U+1F469", "zh-Hans,ja-Jpan", kEmojiFont }, { "U+1F469", "ja-Jpan,zh-Hans", kEmojiFont }, { "U+1F469", "zh-Hans,ja-Jpan,zh-Hant", kEmojiFont }, { "U+1F469", "zh-Hans,zh-Hant,ja-Jpan", kEmojiFont }, { "U+1F469", "ja-Jpan,zh-Hans,zh-Hant", kEmojiFont }, { "U+1F469", "ja-Jpan,zh-Hant,zh-Hans", kEmojiFont }, { "U+1F469", "zh-Hant,zh-Hans,ja-Jpan", kEmojiFont }, { "U+1F469", "zh-Hant,ja-Jpan,zh-Hans", kEmojiFont }, }; MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kItemizeFontXml)); for (auto testCase : testCases) { SCOPED_TRACE("Test for \"" + testCase.testString + "\" with languages " + testCase.requestedLanguages); std::vector<FontCollection::Run> runs; const FontStyle style = FontStyle(FontStyle::registerLanguageList(testCase.requestedLanguages)); itemize(collection.get(), testCase.testString.c_str(), style, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(testCase.expectedFont, getFontPath(runs[0])); } } TEST_F(FontCollectionItemizeTest, itemize_emojiSelection_withFE0E) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kEmojiXmlFile)); std::vector<FontCollection::Run> runs; const FontStyle kDefaultFontStyle; // U+00A9 is a text default emoji which is only available in TextEmojiFont.ttf. // TextEmojiFont.ttf should be selected. itemize(collection.get(), "U+00A9 U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // U+00A9 is a text default emoji which is only available in ColorEmojiFont.ttf. // ColorEmojiFont.ttf should be selected. itemize(collection.get(), "U+00AE U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); // Text emoji is specified but it is not available. Use color emoji instead. EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // U+203C is a text default emoji which is available in both TextEmojiFont.ttf and // ColorEmojiFont.ttf. TextEmojiFont.ttf should be selected. itemize(collection.get(), "U+203C U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // U+2049 is a text default emoji which is not available either TextEmojiFont.ttf or // ColorEmojiFont.ttf. No font should be selected. itemize(collection.get(), "U+2049 U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kNoGlyphFont, getFontPath(runs[0])); // U+231A is a emoji default emoji which is available only in TextEmojifFont. // TextEmojiFont.ttf sohuld be selected. itemize(collection.get(), "U+231A U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // U+231B is a emoji default emoji which is available only in ColorEmojiFont.ttf. // ColorEmojiFont.ttf should be selected. itemize(collection.get(), "U+231B U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); // Text emoji is specified but it is not available. Use color emoji instead. EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // U+23E9 is a emoji default emoji which is available in both TextEmojiFont.ttf and // ColorEmojiFont.ttf. TextEmojiFont.ttf should be selected even if U+23E9 is emoji default // emoji since U+FE0E is appended. itemize(collection.get(), "U+23E9 U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // U+23EA is a emoji default emoji but which is not available in either TextEmojiFont.ttf or // ColorEmojiFont.ttf. No font should be selected. itemize(collection.get(), "U+23EA U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kNoGlyphFont, getFontPath(runs[0])); // U+26FA U+FE0E is specified but ColorTextMixedEmojiFont has a variation sequence U+26F9 U+FE0F // in its cmap, so ColorTextMixedEmojiFont should be selected instaed of ColorEmojiFont. itemize(collection.get(), "U+26FA U+FE0E", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kMixedEmojiFont, getFontPath(runs[0])); } TEST_F(FontCollectionItemizeTest, itemize_emojiSelection_withFE0F) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kEmojiXmlFile)); std::vector<FontCollection::Run> runs; const FontStyle kDefaultFontStyle; // U+00A9 is a text default emoji which is available only in TextEmojiFont.ttf. // TextEmojiFont.ttf shoudl be selected. itemize(collection.get(), "U+00A9 U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); // Color emoji is specified but it is not available. Use text representaion instead. EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // U+00AE is a text default emoji which is available only in ColorEmojiFont.ttf. // ColorEmojiFont.ttf should be selected. itemize(collection.get(), "U+00AE U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // U+203C is a text default emoji which is available in both TextEmojiFont.ttf and // ColorEmojiFont.ttf. ColorEmojiFont.ttf should be selected even if U+203C is a text default // emoji since U+FF0F is appended. itemize(collection.get(), "U+203C U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // U+2049 is a text default emoji which is not available in either TextEmojiFont.ttf or // ColorEmojiFont.ttf. No font should be selected. itemize(collection.get(), "U+2049 U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kNoGlyphFont, getFontPath(runs[0])); // U+231A is a emoji default emoji which is available only in TextEmojiFont.ttf. // TextEmojiFont.ttf should be selected. itemize(collection.get(), "U+231A U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); // Color emoji is specified but it is not available. Use text representation instead. EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // U+231B is a emoji default emoji which is available only in ColorEmojiFont.ttf. // ColorEmojiFont.ttf should be selected. itemize(collection.get(), "U+231B U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // U+23E9 is a emoji default emoji which is available in both TextEmojiFont.ttf and // ColorEmojiFont.ttf. ColorEmojiFont.ttf should be selected. itemize(collection.get(), "U+23E9 U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // U+23EA is a emoji default emoji which is not available in either TextEmojiFont.ttf or // ColorEmojiFont.ttf. No font should be selected. itemize(collection.get(), "U+23EA U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kNoGlyphFont, getFontPath(runs[0])); // U+26F9 U+FE0F is specified but ColorTextMixedEmojiFont has a variation sequence U+26F9 U+FE0F // in its cmap, so ColorTextMixedEmojiFont should be selected instaed of ColorEmojiFont. itemize(collection.get(), "U+26F9 U+FE0F", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kMixedEmojiFont, getFontPath(runs[0])); } TEST_F(FontCollectionItemizeTest, itemize_emojiSelection_with_skinTone) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kEmojiXmlFile)); std::vector<FontCollection::Run> runs; const FontStyle kDefaultFontStyle; // TextEmoji font is selected since it is listed before ColorEmoji font. itemize(collection.get(), "U+261D", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(1, runs[0].end); EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); // If skin tone is specified, it should be colored. itemize(collection.get(), "U+261D U+1F3FD", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(3, runs[0].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // Still color font is selected if an emoji variation selector is specified. itemize(collection.get(), "U+261D U+FE0F U+1F3FD", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[0])); // Text font should be selected if a text variation selector is specified and skin tone is // rendered by itself. itemize(collection.get(), "U+261D U+FE0E U+1F3FD", kDefaultFontStyle, &runs); ASSERT_EQ(2U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kTextEmojiFont, getFontPath(runs[0])); EXPECT_EQ(2, runs[1].start); EXPECT_EQ(4, runs[1].end); EXPECT_EQ(kColorEmojiFont, getFontPath(runs[1])); } TEST_F(FontCollectionItemizeTest, itemize_PrivateUseArea) { MinikinAutoUnref<FontCollection> collection(getFontCollection(kTestFontDir, kEmojiXmlFile)); std::vector<FontCollection::Run> runs; const FontStyle kDefaultFontStyle; // Should not set nullptr to the result run. (Issue 26808815) itemize(collection.get(), "U+FEE10", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(2, runs[0].end); EXPECT_EQ(kNoGlyphFont, getFontPath(runs[0])); itemize(collection.get(), "U+FEE40 U+FE4C5", kDefaultFontStyle, &runs); ASSERT_EQ(1U, runs.size()); EXPECT_EQ(0, runs[0].start); EXPECT_EQ(4, runs[0].end); EXPECT_EQ(kNoGlyphFont, getFontPath(runs[0])); }