// 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. // // Unit tests for eliding and formatting utility functions. #include "ui/gfx/text_elider.h" #include "base/files/file_path.h" #include "base/i18n/rtl.h" #include "base/memory/scoped_ptr.h" #include "base/strings/string_util.h" #include "base/strings/utf_string_conversions.h" #include "testing/gtest/include/gtest/gtest.h" #include "ui/gfx/font.h" #include "ui/gfx/font_list.h" #include "ui/gfx/text_utils.h" #include "url/gurl.h" using base::ASCIIToUTF16; using base::UTF16ToUTF8; using base::UTF16ToWide; using base::UTF8ToUTF16; using base::WideToUTF16; namespace gfx { namespace { struct Testcase { const std::string input; const std::string output; }; struct FileTestcase { const base::FilePath::StringType input; const std::string output; }; struct UTF16Testcase { const base::string16 input; const base::string16 output; }; struct TestData { const std::string a; const std::string b; const int compare_result; }; void RunUrlTest(Testcase* testcases, size_t num_testcases) { static const FontList font_list; for (size_t i = 0; i < num_testcases; ++i) { const GURL url(testcases[i].input); // Should we test with non-empty language list? // That's kinda redundant with net_util_unittests. const float available_width = GetStringWidthF(UTF8ToUTF16(testcases[i].output), font_list); EXPECT_EQ(UTF8ToUTF16(testcases[i].output), ElideUrl(url, font_list, available_width, std::string())); } } } // namespace // TODO(ios): This test fails on iOS because iOS version of GetStringWidthF // that calls [NSString sizeWithFont] returns the rounded string width. #if defined(OS_IOS) #define MAYBE_ElideEmail DISABLED_ElideEmail #else #define MAYBE_ElideEmail ElideEmail #endif TEST(TextEliderTest, MAYBE_ElideEmail) { const std::string kEllipsisStr(kEllipsis); // Test emails and their expected elided forms (from which the available // widths will be derived). // For elided forms in which both the username and domain must be elided: // the result (how many characters are left on each side) can be font // dependent. To avoid this, the username is prefixed with the characters // expected to remain in the domain. Testcase testcases[] = { {"g@g.c", "g@g.c"}, {"g@g.c", kEllipsisStr}, {"ga@co.ca", "ga@c" + kEllipsisStr + "a"}, {"short@small.com", "s" + kEllipsisStr + "@s" + kEllipsisStr}, {"short@small.com", "s" + kEllipsisStr + "@small.com"}, {"short@longbutlotsofspace.com", "short@longbutlotsofspace.com"}, {"short@longbutnotverymuchspace.com", "short@long" + kEllipsisStr + ".com"}, {"la_short@longbutverytightspace.ca", "la" + kEllipsisStr + "@l" + kEllipsisStr + "a"}, {"longusername@gmail.com", "long" + kEllipsisStr + "@gmail.com"}, {"elidetothemax@justfits.com", "e" + kEllipsisStr + "@justfits.com"}, {"thatom_somelongemail@thatdoesntfit.com", "thatom" + kEllipsisStr + "@tha" + kEllipsisStr + "om"}, {"namefits@butthedomaindoesnt.com", "namefits@butthedo" + kEllipsisStr + "snt.com"}, {"widthtootight@nospace.com", kEllipsisStr}, {"nospaceforusername@l", kEllipsisStr}, {"little@littlespace.com", "l" + kEllipsisStr + "@l" + kEllipsisStr}, {"l@llllllllllllllllllllllll.com", "l@lllll" + kEllipsisStr + ".com"}, {"messed\"up@whyanat\"++@notgoogley.com", "messed\"up@whyanat\"++@notgoogley.com"}, {"messed\"up@whyanat\"++@notgoogley.com", "messed\"up@why" + kEllipsisStr + "@notgoogley.com"}, {"noca_messed\"up@whyanat\"++@notgoogley.ca", "noca" + kEllipsisStr + "@no" + kEllipsisStr + "ca"}, {"at\"@@@@@@@@@...@@.@.@.@@@\"@madness.com", "at\"@@@@@@@@@...@@.@." + kEllipsisStr + "@madness.com"}, // Special case: "m..." takes more than half of the available width; thus // the domain must elide to "l..." and not "l...l" as it must allow enough // space for the minimal username elision although its half of the // available width would normally allow it to elide to "l...l". {"mmmmm@llllllllll", "m" + kEllipsisStr + "@l" + kEllipsisStr}, }; const FontList font_list; for (size_t i = 0; i < arraysize(testcases); ++i) { const base::string16 expected_output = UTF8ToUTF16(testcases[i].output); EXPECT_EQ(expected_output, ElideEmail( UTF8ToUTF16(testcases[i].input), font_list, GetStringWidthF(expected_output, font_list))); } } TEST(TextEliderTest, ElideEmailMoreSpace) { const int test_width_factors[] = { 100, 10000, 1000000, }; const std::string test_emails[] = { "a@c", "test@email.com", "short@verysuperdupperlongdomain.com", "supermegalongusername@withasuperlonnnggggdomain.gouv.qc.ca", }; const FontList font_list; for (size_t i = 0; i < arraysize(test_width_factors); ++i) { const int test_width = font_list.GetExpectedTextWidth(test_width_factors[i]); for (size_t j = 0; j < arraysize(test_emails); ++j) { // Extra space is available: the email should not be elided. const base::string16 test_email = UTF8ToUTF16(test_emails[j]); EXPECT_EQ(test_email, ElideEmail(test_email, font_list, test_width)); } } } // Test eliding of commonplace URLs. TEST(TextEliderTest, TestGeneralEliding) { const std::string kEllipsisStr(kEllipsis); Testcase testcases[] = { {"http://www.google.com/intl/en/ads/", "www.google.com/intl/en/ads/"}, {"http://www.google.com/intl/en/ads/", "www.google.com/intl/en/ads/"}, {"http://www.google.com/intl/en/ads/", "google.com/intl/" + kEllipsisStr + "/ads/"}, {"http://www.google.com/intl/en/ads/", "google.com/" + kEllipsisStr + "/ads/"}, {"http://www.google.com/intl/en/ads/", "google.com/" + kEllipsisStr}, {"http://www.google.com/intl/en/ads/", "goog" + kEllipsisStr}, {"https://subdomain.foo.com/bar/filename.html", "subdomain.foo.com/bar/filename.html"}, {"https://subdomain.foo.com/bar/filename.html", "subdomain.foo.com/" + kEllipsisStr + "/filename.html"}, {"http://subdomain.foo.com/bar/filename.html", kEllipsisStr + "foo.com/" + kEllipsisStr + "/filename.html"}, {"http://www.google.com/intl/en/ads/?aLongQueryWhichIsNotRequired", "www.google.com/intl/en/ads/?aLongQ" + kEllipsisStr}, }; RunUrlTest(testcases, arraysize(testcases)); } // When there is very little space available, the elision code will shorten // both path AND file name to an ellipsis - ".../...". To avoid this result, // there is a hack in place that simply treats them as one string in this // case. TEST(TextEliderTest, TestTrailingEllipsisSlashEllipsisHack) { const std::string kEllipsisStr(kEllipsis); // Very little space, would cause double ellipsis. FontList font_list; GURL url("http://battersbox.com/directory/foo/peter_paul_and_mary.html"); float available_width = GetStringWidthF( UTF8ToUTF16("battersbox.com/" + kEllipsisStr + "/" + kEllipsisStr), font_list); // Create the expected string, after elision. Depending on font size, the // directory might become /dir... or /di... or/d... - it never should be // shorter than that. (If it is, the font considers d... to be longer // than .../... - that should never happen). ASSERT_GT(GetStringWidthF(UTF8ToUTF16(kEllipsisStr + "/" + kEllipsisStr), font_list), GetStringWidthF(UTF8ToUTF16("d" + kEllipsisStr), font_list)); GURL long_url("http://battersbox.com/directorynameisreallylongtoforcetrunc"); base::string16 expected = ElideUrl(long_url, font_list, available_width, std::string()); // Ensure that the expected result still contains part of the directory name. ASSERT_GT(expected.length(), std::string("battersbox.com/d").length()); EXPECT_EQ(expected, ElideUrl(url, font_list, available_width, std::string())); // More space available - elide directories, partially elide filename. Testcase testcases[] = { {"http://battersbox.com/directory/foo/peter_paul_and_mary.html", "battersbox.com/" + kEllipsisStr + "/peter" + kEllipsisStr}, }; RunUrlTest(testcases, arraysize(testcases)); } // Test eliding of empty strings, URLs with ports, passwords, queries, etc. TEST(TextEliderTest, TestMoreEliding) { const std::string kEllipsisStr(kEllipsis); Testcase testcases[] = { {"http://www.google.com/foo?bar", "www.google.com/foo?bar"}, {"http://xyz.google.com/foo?bar", "xyz.google.com/foo?" + kEllipsisStr}, {"http://xyz.google.com/foo?bar", "xyz.google.com/foo" + kEllipsisStr}, {"http://xyz.google.com/foo?bar", "xyz.google.com/fo" + kEllipsisStr}, {"http://a.b.com/pathname/c?d", "a.b.com/" + kEllipsisStr + "/c?d"}, {"", ""}, {"http://foo.bar..example.com...hello/test/filename.html", "foo.bar..example.com...hello/" + kEllipsisStr + "/filename.html"}, {"http://foo.bar../", "foo.bar.."}, {"http://xn--1lq90i.cn/foo", "\xe5\x8c\x97\xe4\xba\xac.cn/foo"}, {"http://me:mypass@secrethost.com:99/foo?bar#baz", "secrethost.com:99/foo?bar#baz"}, {"http://me:mypass@ss%xxfdsf.com/foo", "ss%25xxfdsf.com/foo"}, {"mailto:elgoato@elgoato.com", "mailto:elgoato@elgoato.com"}, {"javascript:click(0)", "javascript:click(0)"}, {"https://chess.eecs.berkeley.edu:4430/login/arbitfilename", "chess.eecs.berkeley.edu:4430/login/arbitfilename"}, {"https://chess.eecs.berkeley.edu:4430/login/arbitfilename", kEllipsisStr + "berkeley.edu:4430/" + kEllipsisStr + "/arbitfilename"}, // Unescaping. {"http://www/%E4%BD%A0%E5%A5%BD?q=%E4%BD%A0%E5%A5%BD#\xe4\xbd\xa0", "www/\xe4\xbd\xa0\xe5\xa5\xbd?q=\xe4\xbd\xa0\xe5\xa5\xbd#\xe4\xbd\xa0"}, // Invalid unescaping for path. The ref will always be valid UTF-8. We don't // bother to do too many edge cases, since these are handled by the escaper // unittest. {"http://www/%E4%A0%E5%A5%BD?q=%E4%BD%A0%E5%A5%BD#\xe4\xbd\xa0", "www/%E4%A0%E5%A5%BD?q=\xe4\xbd\xa0\xe5\xa5\xbd#\xe4\xbd\xa0"}, }; RunUrlTest(testcases, arraysize(testcases)); } // Test eliding of file: URLs. TEST(TextEliderTest, TestFileURLEliding) { const std::string kEllipsisStr(kEllipsis); Testcase testcases[] = { {"file:///C:/path1/path2/path3/filename", "file:///C:/path1/path2/path3/filename"}, {"file:///C:/path1/path2/path3/filename", "C:/path1/path2/path3/filename"}, // GURL parses "file:///C:path" differently on windows than it does on posix. #if defined(OS_WIN) {"file:///C:path1/path2/path3/filename", "C:/path1/path2/" + kEllipsisStr + "/filename"}, {"file:///C:path1/path2/path3/filename", "C:/path1/" + kEllipsisStr + "/filename"}, {"file:///C:path1/path2/path3/filename", "C:/" + kEllipsisStr + "/filename"}, #endif {"file://filer/foo/bar/file", "filer/foo/bar/file"}, {"file://filer/foo/bar/file", "filer/foo/" + kEllipsisStr + "/file"}, {"file://filer/foo/bar/file", "filer/" + kEllipsisStr + "/file"}, }; RunUrlTest(testcases, arraysize(testcases)); } // TODO(ios): This test fails on iOS because iOS version of GetStringWidthF // that calls [NSString sizeWithFont] returns the rounded string width. #if defined(OS_IOS) #define MAYBE_TestFilenameEliding DISABLED_TestFilenameEliding #else #define MAYBE_TestFilenameEliding TestFilenameEliding #endif TEST(TextEliderTest, MAYBE_TestFilenameEliding) { const std::string kEllipsisStr(kEllipsis); const base::FilePath::StringType kPathSeparator = base::FilePath::StringType().append(1, base::FilePath::kSeparators[0]); FileTestcase testcases[] = { {FILE_PATH_LITERAL(""), ""}, {FILE_PATH_LITERAL("."), "."}, {FILE_PATH_LITERAL("filename.exe"), "filename.exe"}, {FILE_PATH_LITERAL(".longext"), ".longext"}, {FILE_PATH_LITERAL("pie"), "pie"}, {FILE_PATH_LITERAL("c:") + kPathSeparator + FILE_PATH_LITERAL("path") + kPathSeparator + FILE_PATH_LITERAL("filename.pie"), "filename.pie"}, {FILE_PATH_LITERAL("c:") + kPathSeparator + FILE_PATH_LITERAL("path") + kPathSeparator + FILE_PATH_LITERAL("longfilename.pie"), "long" + kEllipsisStr + ".pie"}, {FILE_PATH_LITERAL("http://path.com/filename.pie"), "filename.pie"}, {FILE_PATH_LITERAL("http://path.com/longfilename.pie"), "long" + kEllipsisStr + ".pie"}, {FILE_PATH_LITERAL("piesmashingtacularpants"), "pie" + kEllipsisStr}, {FILE_PATH_LITERAL(".piesmashingtacularpants"), ".pie" + kEllipsisStr}, {FILE_PATH_LITERAL("cheese."), "cheese."}, {FILE_PATH_LITERAL("file name.longext"), "file" + kEllipsisStr + ".longext"}, {FILE_PATH_LITERAL("fil ename.longext"), "fil " + kEllipsisStr + ".longext"}, {FILE_PATH_LITERAL("filename.longext"), "file" + kEllipsisStr + ".longext"}, {FILE_PATH_LITERAL("filename.middleext.longext"), "filename.mid" + kEllipsisStr + ".longext"}, {FILE_PATH_LITERAL("filename.superduperextremelylongext"), "filename.sup" + kEllipsisStr + "emelylongext"}, {FILE_PATH_LITERAL("filenamereallylongtext.superduperextremelylongext"), "filenamereall" + kEllipsisStr + "emelylongext"}, {FILE_PATH_LITERAL("file.name.really.long.text.superduperextremelylongext"), "file.name.re" + kEllipsisStr + "emelylongext"} }; static const FontList font_list; for (size_t i = 0; i < arraysize(testcases); ++i) { base::FilePath filepath(testcases[i].input); base::string16 expected = UTF8ToUTF16(testcases[i].output); expected = base::i18n::GetDisplayStringInLTRDirectionality(expected); EXPECT_EQ(expected, ElideFilename(filepath, font_list, GetStringWidthF(UTF8ToUTF16(testcases[i].output), font_list))); } } TEST(TextEliderTest, ElideTextTruncate) { const FontList font_list; const float kTestWidth = GetStringWidthF(ASCIIToUTF16("Test"), font_list); struct TestData { const char* input; float width; const char* output; } cases[] = { { "", 0, "" }, { "Test", 0, "" }, { "", kTestWidth, "" }, { "Tes", kTestWidth, "Tes" }, { "Test", kTestWidth, "Test" }, { "Tests", kTestWidth, "Test" }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { base::string16 result = ElideText(UTF8ToUTF16(cases[i].input), font_list, cases[i].width, TRUNCATE_AT_END); EXPECT_EQ(cases[i].output, UTF16ToUTF8(result)); } } TEST(TextEliderTest, ElideTextEllipsis) { const FontList font_list; const float kTestWidth = GetStringWidthF(ASCIIToUTF16("Test"), font_list); const char* kEllipsis = "\xE2\x80\xA6"; const float kEllipsisWidth = GetStringWidthF(UTF8ToUTF16(kEllipsis), font_list); struct TestData { const char* input; float width; const char* output; } cases[] = { { "", 0, "" }, { "Test", 0, "" }, { "Test", kEllipsisWidth, kEllipsis }, { "", kTestWidth, "" }, { "Tes", kTestWidth, "Tes" }, { "Test", kTestWidth, "Test" }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { base::string16 result = ElideText(UTF8ToUTF16(cases[i].input), font_list, cases[i].width, ELIDE_AT_END); EXPECT_EQ(cases[i].output, UTF16ToUTF8(result)); } } // Checks that all occurrences of |first_char| are followed by |second_char| and // all occurrences of |second_char| are preceded by |first_char| in |text|. static void CheckSurrogatePairs(const base::string16& text, base::char16 first_char, base::char16 second_char) { size_t index = text.find_first_of(first_char); while (index != base::string16::npos) { EXPECT_LT(index, text.length() - 1); EXPECT_EQ(second_char, text[index + 1]); index = text.find_first_of(first_char, index + 1); } index = text.find_first_of(second_char); while (index != base::string16::npos) { EXPECT_GT(index, 0U); EXPECT_EQ(first_char, text[index - 1]); index = text.find_first_of(second_char, index + 1); } } TEST(TextEliderTest, ElideTextSurrogatePairs) { const FontList font_list; // The below is 'MUSICAL SYMBOL G CLEF', which is represented in UTF-16 as // two characters forming a surrogate pair 0x0001D11E. const std::string kSurrogate = "\xF0\x9D\x84\x9E"; const base::string16 kTestString = UTF8ToUTF16(kSurrogate + "ab" + kSurrogate + kSurrogate + "cd"); const float kTestStringWidth = GetStringWidthF(kTestString, font_list); const base::char16 kSurrogateFirstChar = kTestString[0]; const base::char16 kSurrogateSecondChar = kTestString[1]; base::string16 result; // Elide |kTextString| to all possible widths and check that no instance of // |kSurrogate| was split in two. for (float width = 0; width <= kTestStringWidth; width++) { result = ElideText(kTestString, font_list, width, TRUNCATE_AT_END); CheckSurrogatePairs(result, kSurrogateFirstChar, kSurrogateSecondChar); result = ElideText(kTestString, font_list, width, ELIDE_AT_END); CheckSurrogatePairs(result, kSurrogateFirstChar, kSurrogateSecondChar); result = ElideText(kTestString, font_list, width, ELIDE_IN_MIDDLE); CheckSurrogatePairs(result, kSurrogateFirstChar, kSurrogateSecondChar); } } TEST(TextEliderTest, ElideTextLongStrings) { const base::string16 kEllipsisStr = UTF8ToUTF16(kEllipsis); base::string16 data_scheme(UTF8ToUTF16("data:text/plain,")); size_t data_scheme_length = data_scheme.length(); base::string16 ten_a(10, 'a'); base::string16 hundred_a(100, 'a'); base::string16 thousand_a(1000, 'a'); base::string16 ten_thousand_a(10000, 'a'); base::string16 hundred_thousand_a(100000, 'a'); base::string16 million_a(1000000, 'a'); size_t number_of_as = 156; base::string16 long_string_end( data_scheme + base::string16(number_of_as, 'a') + kEllipsisStr); UTF16Testcase testcases_end[] = { {data_scheme + ten_a, data_scheme + ten_a}, {data_scheme + hundred_a, data_scheme + hundred_a}, {data_scheme + thousand_a, long_string_end}, {data_scheme + ten_thousand_a, long_string_end}, {data_scheme + hundred_thousand_a, long_string_end}, {data_scheme + million_a, long_string_end}, }; const FontList font_list; float ellipsis_width = GetStringWidthF(kEllipsisStr, font_list); for (size_t i = 0; i < arraysize(testcases_end); ++i) { // Compare sizes rather than actual contents because if the test fails, // output is rather long. EXPECT_EQ(testcases_end[i].output.size(), ElideText( testcases_end[i].input, font_list, GetStringWidthF(testcases_end[i].output, font_list), ELIDE_AT_END).size()); EXPECT_EQ(kEllipsisStr, ElideText(testcases_end[i].input, font_list, ellipsis_width, ELIDE_AT_END)); } size_t number_of_trailing_as = (data_scheme_length + number_of_as) / 2; base::string16 long_string_middle(data_scheme + base::string16(number_of_as - number_of_trailing_as, 'a') + kEllipsisStr + base::string16(number_of_trailing_as, 'a')); UTF16Testcase testcases_middle[] = { {data_scheme + ten_a, data_scheme + ten_a}, {data_scheme + hundred_a, data_scheme + hundred_a}, {data_scheme + thousand_a, long_string_middle}, {data_scheme + ten_thousand_a, long_string_middle}, {data_scheme + hundred_thousand_a, long_string_middle}, {data_scheme + million_a, long_string_middle}, }; for (size_t i = 0; i < arraysize(testcases_middle); ++i) { // Compare sizes rather than actual contents because if the test fails, // output is rather long. EXPECT_EQ(testcases_middle[i].output.size(), ElideText( testcases_middle[i].input, font_list, GetStringWidthF(testcases_middle[i].output, font_list), ELIDE_AT_END).size()); EXPECT_EQ(kEllipsisStr, ElideText(testcases_middle[i].input, font_list, ellipsis_width, ELIDE_AT_END)); } } // Verifies display_url is set correctly. TEST(TextEliderTest, SortedDisplayURL) { SortedDisplayURL d_url(GURL("http://www.google.com"), std::string()); EXPECT_EQ("www.google.com", UTF16ToASCII(d_url.display_url())); } // Verifies DisplayURL::Compare works correctly. TEST(TextEliderTest, SortedDisplayURLCompare) { UErrorCode create_status = U_ZERO_ERROR; scoped_ptr collator( icu::Collator::createInstance(create_status)); if (!U_SUCCESS(create_status)) return; TestData tests[] = { // IDN comparison. Hosts equal, so compares on path. { "http://xn--1lq90i.cn/a", "http://xn--1lq90i.cn/b", -1}, // Because the host and after host match, this compares the full url. { "http://www.x/b", "http://x/b", -1 }, // Because the host and after host match, this compares the full url. { "http://www.a:1/b", "http://a:1/b", 1 }, // The hosts match, so these end up comparing on the after host portion. { "http://www.x:0/b", "http://x:1/b", -1 }, { "http://www.x/a", "http://x/b", -1 }, { "http://x/b", "http://www.x/a", 1 }, // Trivial Equality. { "http://a/", "http://a/", 0 }, // Compares just hosts. { "http://www.a/", "http://b/", -1 }, }; for (size_t i = 0; i < arraysize(tests); ++i) { SortedDisplayURL url1(GURL(tests[i].a), std::string()); SortedDisplayURL url2(GURL(tests[i].b), std::string()); EXPECT_EQ(tests[i].compare_result, url1.Compare(url2, collator.get())); EXPECT_EQ(-tests[i].compare_result, url2.Compare(url1, collator.get())); } } TEST(TextEliderTest, ElideString) { struct TestData { const char* input; int max_len; bool result; const char* output; } cases[] = { { "Hello", 0, true, "" }, { "", 0, false, "" }, { "Hello, my name is Tom", 1, true, "H" }, { "Hello, my name is Tom", 2, true, "He" }, { "Hello, my name is Tom", 3, true, "H.m" }, { "Hello, my name is Tom", 4, true, "H..m" }, { "Hello, my name is Tom", 5, true, "H...m" }, { "Hello, my name is Tom", 6, true, "He...m" }, { "Hello, my name is Tom", 7, true, "He...om" }, { "Hello, my name is Tom", 10, true, "Hell...Tom" }, { "Hello, my name is Tom", 100, false, "Hello, my name is Tom" } }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { base::string16 output; EXPECT_EQ(cases[i].result, ElideString(UTF8ToUTF16(cases[i].input), cases[i].max_len, &output)); EXPECT_EQ(cases[i].output, UTF16ToUTF8(output)); } } TEST(TextEliderTest, ElideRectangleText) { const FontList font_list; const int line_height = font_list.GetHeight(); const float test_width = GetStringWidthF(ASCIIToUTF16("Test"), font_list); struct TestData { const char* input; float available_pixel_width; int available_pixel_height; bool truncated_y; const char* output; } cases[] = { { "", 0, 0, false, NULL }, { "", 1, 1, false, NULL }, { "Test", test_width, 0, true, NULL }, { "Test", test_width, 1, false, "Test" }, { "Test", test_width, line_height, false, "Test" }, { "Test Test", test_width, line_height, true, "Test" }, { "Test Test", test_width, line_height + 1, false, "Test|Test" }, { "Test Test", test_width, line_height * 2, false, "Test|Test" }, { "Test Test", test_width, line_height * 3, false, "Test|Test" }, { "Test Test", test_width * 2, line_height * 2, false, "Test|Test" }, { "Test Test", test_width * 3, line_height, false, "Test Test" }, { "Test\nTest", test_width * 3, line_height * 2, false, "Test|Test" }, { "Te\nst Te", test_width, line_height * 3, false, "Te|st|Te" }, { "\nTest", test_width, line_height * 2, false, "|Test" }, { "\nTest", test_width, line_height, true, "" }, { "\n\nTest", test_width, line_height * 3, false, "||Test" }, { "\n\nTest", test_width, line_height * 2, true, "|" }, { "Test\n", 2 * test_width, line_height * 5, false, "Test|" }, { "Test\n\n", 2 * test_width, line_height * 5, false, "Test||" }, { "Test\n\n\n", 2 * test_width, line_height * 5, false, "Test|||" }, { "Test\nTest\n\n", 2 * test_width, line_height * 5, false, "Test|Test||" }, { "Test\n\nTest\n", 2 * test_width, line_height * 5, false, "Test||Test|" }, { "Test\n\n\nTest", 2 * test_width, line_height * 5, false, "Test|||Test" }, { "Te ", test_width, line_height, false, "Te" }, { "Te Te Test", test_width, 3 * line_height, false, "Te|Te|Test" }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { std::vector lines; EXPECT_EQ(cases[i].truncated_y ? INSUFFICIENT_SPACE_VERTICAL : 0, ElideRectangleText(UTF8ToUTF16(cases[i].input), font_list, cases[i].available_pixel_width, cases[i].available_pixel_height, TRUNCATE_LONG_WORDS, &lines)); if (cases[i].output) { const std::string result = UTF16ToUTF8(JoinString(lines, '|')); EXPECT_EQ(cases[i].output, result) << "Case " << i << " failed!"; } else { EXPECT_TRUE(lines.empty()) << "Case " << i << " failed!"; } } } TEST(TextEliderTest, ElideRectangleTextPunctuation) { const FontList font_list; const int line_height = font_list.GetHeight(); const float test_width = GetStringWidthF(ASCIIToUTF16("Test"), font_list); const float test_t_width = GetStringWidthF(ASCIIToUTF16("Test T"), font_list); struct TestData { const char* input; float available_pixel_width; int available_pixel_height; bool wrap_words; bool truncated_x; const char* output; } cases[] = { { "Test T.", test_t_width, line_height * 2, false, false, "Test|T." }, { "Test T ?", test_t_width, line_height * 2, false, false, "Test|T ?" }, { "Test. Test", test_width, line_height * 3, false, true, "Test|Test" }, { "Test. Test", test_width, line_height * 3, true, false, "Test|.|Test" }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { std::vector lines; const WordWrapBehavior wrap_behavior = (cases[i].wrap_words ? WRAP_LONG_WORDS : TRUNCATE_LONG_WORDS); EXPECT_EQ(cases[i].truncated_x ? INSUFFICIENT_SPACE_HORIZONTAL : 0, ElideRectangleText(UTF8ToUTF16(cases[i].input), font_list, cases[i].available_pixel_width, cases[i].available_pixel_height, wrap_behavior, &lines)); if (cases[i].output) { const std::string result = UTF16ToUTF8(JoinString(lines, '|')); EXPECT_EQ(cases[i].output, result) << "Case " << i << " failed!"; } else { EXPECT_TRUE(lines.empty()) << "Case " << i << " failed!"; } } } TEST(TextEliderTest, ElideRectangleTextLongWords) { const FontList font_list; const int kAvailableHeight = 1000; const base::string16 kElidedTesting = UTF8ToUTF16(std::string("Tes") + kEllipsis); const float elided_width = GetStringWidthF(kElidedTesting, font_list); const float test_width = GetStringWidthF(ASCIIToUTF16("Test"), font_list); struct TestData { const char* input; float available_pixel_width; WordWrapBehavior wrap_behavior; bool truncated_x; const char* output; } cases[] = { { "Testing", test_width, IGNORE_LONG_WORDS, false, "Testing" }, { "X Testing", test_width, IGNORE_LONG_WORDS, false, "X|Testing" }, { "Test Testing", test_width, IGNORE_LONG_WORDS, false, "Test|Testing" }, { "Test\nTesting", test_width, IGNORE_LONG_WORDS, false, "Test|Testing" }, { "Test Tests ", test_width, IGNORE_LONG_WORDS, false, "Test|Tests" }, { "Test Tests T", test_width, IGNORE_LONG_WORDS, false, "Test|Tests|T" }, { "Testing", elided_width, ELIDE_LONG_WORDS, true, "Tes..." }, { "X Testing", elided_width, ELIDE_LONG_WORDS, true, "X|Tes..." }, { "Test Testing", elided_width, ELIDE_LONG_WORDS, true, "Test|Tes..." }, { "Test\nTesting", elided_width, ELIDE_LONG_WORDS, true, "Test|Tes..." }, { "Testing", test_width, TRUNCATE_LONG_WORDS, true, "Test" }, { "X Testing", test_width, TRUNCATE_LONG_WORDS, true, "X|Test" }, { "Test Testing", test_width, TRUNCATE_LONG_WORDS, true, "Test|Test" }, { "Test\nTesting", test_width, TRUNCATE_LONG_WORDS, true, "Test|Test" }, { "Test Tests ", test_width, TRUNCATE_LONG_WORDS, true, "Test|Test" }, { "Test Tests T", test_width, TRUNCATE_LONG_WORDS, true, "Test|Test|T" }, { "Testing", test_width, WRAP_LONG_WORDS, false, "Test|ing" }, { "X Testing", test_width, WRAP_LONG_WORDS, false, "X|Test|ing" }, { "Test Testing", test_width, WRAP_LONG_WORDS, false, "Test|Test|ing" }, { "Test\nTesting", test_width, WRAP_LONG_WORDS, false, "Test|Test|ing" }, { "Test Tests ", test_width, WRAP_LONG_WORDS, false, "Test|Test|s" }, { "Test Tests T", test_width, WRAP_LONG_WORDS, false, "Test|Test|s T" }, { "TestTestTest", test_width, WRAP_LONG_WORDS, false, "Test|Test|Test" }, { "TestTestTestT", test_width, WRAP_LONG_WORDS, false, "Test|Test|Test|T" }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { std::vector lines; EXPECT_EQ(cases[i].truncated_x ? INSUFFICIENT_SPACE_HORIZONTAL : 0, ElideRectangleText(UTF8ToUTF16(cases[i].input), font_list, cases[i].available_pixel_width, kAvailableHeight, cases[i].wrap_behavior, &lines)); std::string expected_output(cases[i].output); ReplaceSubstringsAfterOffset(&expected_output, 0, "...", kEllipsis); const std::string result = UTF16ToUTF8(JoinString(lines, '|')); EXPECT_EQ(expected_output, result) << "Case " << i << " failed!"; } } // This test is to make sure that the width of each wrapped line does not // exceed the available width. On some platform like Mac, this test used to // fail because the truncated integer width is returned for the string // and the accumulation of the truncated values causes the elide function // to wrap incorrectly. TEST(TextEliderTest, ElideRectangleTextCheckLineWidth) { FontList font_list; #if defined(OS_MACOSX) && !defined(OS_IOS) // Use a specific font to expose the line width exceeding problem. font_list = FontList(Font("LucidaGrande", 12)); #endif const float kAvailableWidth = 235; const int kAvailableHeight = 1000; const char text[] = "that Russian place we used to go to after fencing"; std::vector lines; EXPECT_EQ(0, ElideRectangleText(UTF8ToUTF16(text), font_list, kAvailableWidth, kAvailableHeight, WRAP_LONG_WORDS, &lines)); ASSERT_EQ(2u, lines.size()); EXPECT_LE(GetStringWidthF(lines[0], font_list), kAvailableWidth); EXPECT_LE(GetStringWidthF(lines[1], font_list), kAvailableWidth); } TEST(TextEliderTest, ElideRectangleString) { struct TestData { const char* input; int max_rows; int max_cols; bool result; const char* output; } cases[] = { { "", 0, 0, false, "" }, { "", 1, 1, false, "" }, { "Hi, my name is\nTom", 0, 0, true, "..." }, { "Hi, my name is\nTom", 1, 0, true, "\n..." }, { "Hi, my name is\nTom", 0, 1, true, "..." }, { "Hi, my name is\nTom", 1, 1, true, "H\n..." }, { "Hi, my name is\nTom", 2, 1, true, "H\ni\n..." }, { "Hi, my name is\nTom", 3, 1, true, "H\ni\n,\n..." }, { "Hi, my name is\nTom", 4, 1, true, "H\ni\n,\n \n..." }, { "Hi, my name is\nTom", 5, 1, true, "H\ni\n,\n \nm\n..." }, { "Hi, my name is\nTom", 0, 2, true, "..." }, { "Hi, my name is\nTom", 1, 2, true, "Hi\n..." }, { "Hi, my name is\nTom", 2, 2, true, "Hi\n, \n..." }, { "Hi, my name is\nTom", 3, 2, true, "Hi\n, \nmy\n..." }, { "Hi, my name is\nTom", 4, 2, true, "Hi\n, \nmy\n n\n..." }, { "Hi, my name is\nTom", 5, 2, true, "Hi\n, \nmy\n n\nam\n..." }, { "Hi, my name is\nTom", 0, 3, true, "..." }, { "Hi, my name is\nTom", 1, 3, true, "Hi,\n..." }, { "Hi, my name is\nTom", 2, 3, true, "Hi,\n my\n..." }, { "Hi, my name is\nTom", 3, 3, true, "Hi,\n my\n na\n..." }, { "Hi, my name is\nTom", 4, 3, true, "Hi,\n my\n na\nme \n..." }, { "Hi, my name is\nTom", 5, 3, true, "Hi,\n my\n na\nme \nis\n..." }, { "Hi, my name is\nTom", 1, 4, true, "Hi, \n..." }, { "Hi, my name is\nTom", 2, 4, true, "Hi, \nmy n\n..." }, { "Hi, my name is\nTom", 3, 4, true, "Hi, \nmy n\name \n..." }, { "Hi, my name is\nTom", 4, 4, true, "Hi, \nmy n\name \nis\n..." }, { "Hi, my name is\nTom", 5, 4, false, "Hi, \nmy n\name \nis\nTom" }, { "Hi, my name is\nTom", 1, 5, true, "Hi, \n..." }, { "Hi, my name is\nTom", 2, 5, true, "Hi, \nmy na\n..." }, { "Hi, my name is\nTom", 3, 5, true, "Hi, \nmy na\nme \n..." }, { "Hi, my name is\nTom", 4, 5, true, "Hi, \nmy na\nme \nis\n..." }, { "Hi, my name is\nTom", 5, 5, false, "Hi, \nmy na\nme \nis\nTom" }, { "Hi, my name is\nTom", 1, 6, true, "Hi, \n..." }, { "Hi, my name is\nTom", 2, 6, true, "Hi, \nmy \n..." }, { "Hi, my name is\nTom", 3, 6, true, "Hi, \nmy \nname \n..." }, { "Hi, my name is\nTom", 4, 6, true, "Hi, \nmy \nname \nis\n..." }, { "Hi, my name is\nTom", 5, 6, false, "Hi, \nmy \nname \nis\nTom" }, { "Hi, my name is\nTom", 1, 7, true, "Hi, \n..." }, { "Hi, my name is\nTom", 2, 7, true, "Hi, \nmy \n..." }, { "Hi, my name is\nTom", 3, 7, true, "Hi, \nmy \nname \n..." }, { "Hi, my name is\nTom", 4, 7, true, "Hi, \nmy \nname \nis\n..." }, { "Hi, my name is\nTom", 5, 7, false, "Hi, \nmy \nname \nis\nTom" }, { "Hi, my name is\nTom", 1, 8, true, "Hi, my \n..." }, { "Hi, my name is\nTom", 2, 8, true, "Hi, my \nname \n..." }, { "Hi, my name is\nTom", 3, 8, true, "Hi, my \nname \nis\n..." }, { "Hi, my name is\nTom", 4, 8, false, "Hi, my \nname \nis\nTom" }, { "Hi, my name is\nTom", 1, 9, true, "Hi, my \n..." }, { "Hi, my name is\nTom", 2, 9, true, "Hi, my \nname is\n..." }, { "Hi, my name is\nTom", 3, 9, false, "Hi, my \nname is\nTom" }, { "Hi, my name is\nTom", 1, 10, true, "Hi, my \n..." }, { "Hi, my name is\nTom", 2, 10, true, "Hi, my \nname is\n..." }, { "Hi, my name is\nTom", 3, 10, false, "Hi, my \nname is\nTom" }, { "Hi, my name is\nTom", 1, 11, true, "Hi, my \n..." }, { "Hi, my name is\nTom", 2, 11, true, "Hi, my \nname is\n..." }, { "Hi, my name is\nTom", 3, 11, false, "Hi, my \nname is\nTom" }, { "Hi, my name is\nTom", 1, 12, true, "Hi, my \n..." }, { "Hi, my name is\nTom", 2, 12, true, "Hi, my \nname is\n..." }, { "Hi, my name is\nTom", 3, 12, false, "Hi, my \nname is\nTom" }, { "Hi, my name is\nTom", 1, 13, true, "Hi, my name \n..." }, { "Hi, my name is\nTom", 2, 13, true, "Hi, my name \nis\n..." }, { "Hi, my name is\nTom", 3, 13, false, "Hi, my name \nis\nTom" }, { "Hi, my name is\nTom", 1, 20, true, "Hi, my name is\n..." }, { "Hi, my name is\nTom", 2, 20, false, "Hi, my name is\nTom" }, { "Hi, my name is Tom", 1, 40, false, "Hi, my name is Tom" }, }; base::string16 output; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { EXPECT_EQ(cases[i].result, ElideRectangleString(UTF8ToUTF16(cases[i].input), cases[i].max_rows, cases[i].max_cols, true, &output)); EXPECT_EQ(cases[i].output, UTF16ToUTF8(output)); } } TEST(TextEliderTest, ElideRectangleStringNotStrict) { struct TestData { const char* input; int max_rows; int max_cols; bool result; const char* output; } cases[] = { { "", 0, 0, false, "" }, { "", 1, 1, false, "" }, { "Hi, my name_is\nDick", 0, 0, true, "..." }, { "Hi, my name_is\nDick", 1, 0, true, "\n..." }, { "Hi, my name_is\nDick", 0, 1, true, "..." }, { "Hi, my name_is\nDick", 1, 1, true, "H\n..." }, { "Hi, my name_is\nDick", 2, 1, true, "H\ni\n..." }, { "Hi, my name_is\nDick", 3, 1, true, "H\ni\n,\n..." }, { "Hi, my name_is\nDick", 4, 1, true, "H\ni\n,\n \n..." }, { "Hi, my name_is\nDick", 5, 1, true, "H\ni\n,\n \nm\n..." }, { "Hi, my name_is\nDick", 0, 2, true, "..." }, { "Hi, my name_is\nDick", 1, 2, true, "Hi\n..." }, { "Hi, my name_is\nDick", 2, 2, true, "Hi\n, \n..." }, { "Hi, my name_is\nDick", 3, 2, true, "Hi\n, \nmy\n..." }, { "Hi, my name_is\nDick", 4, 2, true, "Hi\n, \nmy\n n\n..." }, { "Hi, my name_is\nDick", 5, 2, true, "Hi\n, \nmy\n n\nam\n..." }, { "Hi, my name_is\nDick", 0, 3, true, "..." }, { "Hi, my name_is\nDick", 1, 3, true, "Hi,\n..." }, { "Hi, my name_is\nDick", 2, 3, true, "Hi,\n my\n..." }, { "Hi, my name_is\nDick", 3, 3, true, "Hi,\n my\n na\n..." }, { "Hi, my name_is\nDick", 4, 3, true, "Hi,\n my\n na\nme_\n..." }, { "Hi, my name_is\nDick", 5, 3, true, "Hi,\n my\n na\nme_\nis\n..." }, { "Hi, my name_is\nDick", 1, 4, true, "Hi, ..." }, { "Hi, my name_is\nDick", 2, 4, true, "Hi, my n\n..." }, { "Hi, my name_is\nDick", 3, 4, true, "Hi, my n\name_\n..." }, { "Hi, my name_is\nDick", 4, 4, true, "Hi, my n\name_\nis\n..." }, { "Hi, my name_is\nDick", 5, 4, false, "Hi, my n\name_\nis\nDick" }, { "Hi, my name_is\nDick", 1, 5, true, "Hi, ..." }, { "Hi, my name_is\nDick", 2, 5, true, "Hi, my na\n..." }, { "Hi, my name_is\nDick", 3, 5, true, "Hi, my na\nme_is\n..." }, { "Hi, my name_is\nDick", 4, 5, true, "Hi, my na\nme_is\n\n..." }, { "Hi, my name_is\nDick", 5, 5, false, "Hi, my na\nme_is\n\nDick" }, { "Hi, my name_is\nDick", 1, 6, true, "Hi, ..." }, { "Hi, my name_is\nDick", 2, 6, true, "Hi, my nam\n..." }, { "Hi, my name_is\nDick", 3, 6, true, "Hi, my nam\ne_is\n..." }, { "Hi, my name_is\nDick", 4, 6, false, "Hi, my nam\ne_is\nDick" }, { "Hi, my name_is\nDick", 5, 6, false, "Hi, my nam\ne_is\nDick" }, { "Hi, my name_is\nDick", 1, 7, true, "Hi, ..." }, { "Hi, my name_is\nDick", 2, 7, true, "Hi, my name\n..." }, { "Hi, my name_is\nDick", 3, 7, true, "Hi, my name\n_is\n..." }, { "Hi, my name_is\nDick", 4, 7, false, "Hi, my name\n_is\nDick" }, { "Hi, my name_is\nDick", 5, 7, false, "Hi, my name\n_is\nDick" }, { "Hi, my name_is\nDick", 1, 8, true, "Hi, my n\n..." }, { "Hi, my name_is\nDick", 2, 8, true, "Hi, my n\name_is\n..." }, { "Hi, my name_is\nDick", 3, 8, false, "Hi, my n\name_is\nDick" }, { "Hi, my name_is\nDick", 1, 9, true, "Hi, my ..." }, { "Hi, my name_is\nDick", 2, 9, true, "Hi, my name_is\n..." }, { "Hi, my name_is\nDick", 3, 9, false, "Hi, my name_is\nDick" }, { "Hi, my name_is\nDick", 1, 10, true, "Hi, my ..." }, { "Hi, my name_is\nDick", 2, 10, true, "Hi, my name_is\n..." }, { "Hi, my name_is\nDick", 3, 10, false, "Hi, my name_is\nDick" }, { "Hi, my name_is\nDick", 1, 11, true, "Hi, my ..." }, { "Hi, my name_is\nDick", 2, 11, true, "Hi, my name_is\n..." }, { "Hi, my name_is\nDick", 3, 11, false, "Hi, my name_is\nDick" }, { "Hi, my name_is\nDick", 1, 12, true, "Hi, my ..." }, { "Hi, my name_is\nDick", 2, 12, true, "Hi, my name_is\n..." }, { "Hi, my name_is\nDick", 3, 12, false, "Hi, my name_is\nDick" }, { "Hi, my name_is\nDick", 1, 13, true, "Hi, my ..." }, { "Hi, my name_is\nDick", 2, 13, true, "Hi, my name_is\n..." }, { "Hi, my name_is\nDick", 3, 13, false, "Hi, my name_is\nDick" }, { "Hi, my name_is\nDick", 1, 20, true, "Hi, my name_is\n..." }, { "Hi, my name_is\nDick", 2, 20, false, "Hi, my name_is\nDick" }, { "Hi, my name_is Dick", 1, 40, false, "Hi, my name_is Dick" }, }; base::string16 output; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { EXPECT_EQ(cases[i].result, ElideRectangleString(UTF8ToUTF16(cases[i].input), cases[i].max_rows, cases[i].max_cols, false, &output)); EXPECT_EQ(cases[i].output, UTF16ToUTF8(output)); } } TEST(TextEliderTest, ElideRectangleWide16) { // Two greek words separated by space. const base::string16 str(WideToUTF16( L"\x03a0\x03b1\x03b3\x03ba\x03cc\x03c3\x03bc\x03b9" L"\x03bf\x03c2\x0020\x0399\x03c3\x03c4\x03cc\x03c2")); const base::string16 out1(WideToUTF16( L"\x03a0\x03b1\x03b3\x03ba\n" L"\x03cc\x03c3\x03bc\x03b9\n" L"...")); const base::string16 out2(WideToUTF16( L"\x03a0\x03b1\x03b3\x03ba\x03cc\x03c3\x03bc\x03b9\x03bf\x03c2\x0020\n" L"\x0399\x03c3\x03c4\x03cc\x03c2")); base::string16 output; EXPECT_TRUE(ElideRectangleString(str, 2, 4, true, &output)); EXPECT_EQ(out1, output); EXPECT_FALSE(ElideRectangleString(str, 2, 12, true, &output)); EXPECT_EQ(out2, output); } TEST(TextEliderTest, ElideRectangleWide32) { // Four U+1D49C MATHEMATICAL SCRIPT CAPITAL A followed by space "aaaaa". const base::string16 str(UTF8ToUTF16( "\xF0\x9D\x92\x9C\xF0\x9D\x92\x9C\xF0\x9D\x92\x9C\xF0\x9D\x92\x9C" " aaaaa")); const base::string16 out(UTF8ToUTF16( "\xF0\x9D\x92\x9C\xF0\x9D\x92\x9C\xF0\x9D\x92\x9C\n" "\xF0\x9D\x92\x9C \naaa\n...")); base::string16 output; EXPECT_TRUE(ElideRectangleString(str, 3, 3, true, &output)); EXPECT_EQ(out, output); } TEST(TextEliderTest, TruncateString) { base::string16 string = ASCIIToUTF16("foooooey bxxxar baz"); // Make sure it doesn't modify the string if length > string length. EXPECT_EQ(string, TruncateString(string, 100)); // Test no characters. EXPECT_EQ(L"", UTF16ToWide(TruncateString(string, 0))); // Test 1 character. EXPECT_EQ(L"\x2026", UTF16ToWide(TruncateString(string, 1))); // Test adds ... at right spot when there is enough room to break at a // word boundary. EXPECT_EQ(L"foooooey\x2026", UTF16ToWide(TruncateString(string, 14))); // Test adds ... at right spot when there is not enough space in first word. EXPECT_EQ(L"f\x2026", UTF16ToWide(TruncateString(string, 2))); // Test adds ... at right spot when there is not enough room to break at a // word boundary. EXPECT_EQ(L"foooooey\x2026", UTF16ToWide(TruncateString(string, 11))); // Test completely truncates string if break is on initial whitespace. EXPECT_EQ(L"\x2026", UTF16ToWide(TruncateString(ASCIIToUTF16(" "), 2))); } } // namespace gfx