# frozen_string_literal: true require "date" require "abstract_unit" require "timeout" require "inflector_test_cases" require "constantize_test_cases" require "active_support/inflector" require "active_support/core_ext/string" require "active_support/time" require "active_support/core_ext/string/output_safety" require "active_support/core_ext/string/indent" require "active_support/core_ext/string/strip" require "time_zone_test_helpers" require "yaml" class StringInflectionsTest < ActiveSupport::TestCase include InflectorTestCases include ConstantizeTestCases include TimeZoneTestHelpers def test_strip_heredoc_on_an_empty_string assert_equal "", "".strip_heredoc end def test_strip_heredoc_on_a_frozen_string assert "".strip_heredoc.frozen? end def test_strip_heredoc_on_a_string_with_no_lines assert_equal "x", "x".strip_heredoc assert_equal "x", " x".strip_heredoc end def test_strip_heredoc_on_a_heredoc_with_no_margin assert_equal "foo\nbar", "foo\nbar".strip_heredoc assert_equal "foo\n bar", "foo\n bar".strip_heredoc end def test_strip_heredoc_on_a_regular_indented_heredoc assert_equal "foo\n bar\nbaz\n", <<-EOS.strip_heredoc foo bar baz EOS end def test_strip_heredoc_on_a_regular_indented_heredoc_with_blank_lines assert_equal "foo\n bar\n\nbaz\n", <<-EOS.strip_heredoc foo bar baz EOS end def test_pluralize SingularToPlural.each do |singular, plural| assert_equal(plural, singular.pluralize) end assert_equal("plurals", "plurals".pluralize) assert_equal("blargles", "blargle".pluralize(0)) assert_equal("blargle", "blargle".pluralize(1)) assert_equal("blargles", "blargle".pluralize(2)) end test "pluralize with count = 1 still returns new string" do name = "Kuldeep" assert_not_same name.pluralize(1), name end def test_singularize SingularToPlural.each do |singular, plural| assert_equal(singular, plural.singularize) end end def test_titleize MixtureToTitleCase.each do |before, titleized| assert_equal(titleized, before.titleize) end end def test_titleize_with_keep_id_suffix MixtureToTitleCaseWithKeepIdSuffix.each do |before, titleized| assert_equal(titleized, before.titleize(keep_id_suffix: true)) end end def test_upcase_first assert_equal "What a Lovely Day", "what a Lovely Day".upcase_first end def test_upcase_first_with_one_char assert_equal "W", "w".upcase_first end def test_upcase_first_with_empty_string assert_equal "", "".upcase_first end def test_camelize CamelToUnderscore.each do |camel, underscore| assert_equal(camel, underscore.camelize) end end def test_camelize_lower assert_equal("capital", "Capital".camelize(:lower)) end def test_camelize_invalid_option e = assert_raise ArgumentError do "Capital".camelize(nil) end assert_equal("Invalid option, use either :upper or :lower.", e.message) end def test_dasherize UnderscoresToDashes.each do |underscored, dasherized| assert_equal(dasherized, underscored.dasherize) end end def test_underscore CamelToUnderscore.each do |camel, underscore| assert_equal(underscore, camel.underscore) end assert_equal "html_tidy", "HTMLTidy".underscore assert_equal "html_tidy_generator", "HTMLTidyGenerator".underscore end def test_underscore_to_lower_camel UnderscoreToLowerCamel.each do |underscored, lower_camel| assert_equal(lower_camel, underscored.camelize(:lower)) end end def test_demodulize assert_equal "Account", "MyApplication::Billing::Account".demodulize end def test_deconstantize assert_equal "MyApplication::Billing", "MyApplication::Billing::Account".deconstantize end def test_foreign_key ClassNameToForeignKeyWithUnderscore.each do |klass, foreign_key| assert_equal(foreign_key, klass.foreign_key) end ClassNameToForeignKeyWithoutUnderscore.each do |klass, foreign_key| assert_equal(foreign_key, klass.foreign_key(false)) end end def test_tableize ClassNameToTableName.each do |class_name, table_name| assert_equal(table_name, class_name.tableize) end end def test_classify ClassNameToTableName.each do |class_name, table_name| assert_equal(class_name, table_name.classify) end end def test_string_parameterized_normal StringToParameterized.each do |normal, slugged| assert_equal(slugged, normal.parameterize) end end def test_string_parameterized_normal_preserve_case StringToParameterizedPreserveCase.each do |normal, slugged| assert_equal(slugged, normal.parameterize(preserve_case: true)) end end def test_string_parameterized_no_separator StringToParameterizeWithNoSeparator.each do |normal, slugged| assert_equal(slugged, normal.parameterize(separator: "")) end end def test_string_parameterized_no_separator_preserve_case StringToParameterizePreserveCaseWithNoSeparator.each do |normal, slugged| assert_equal(slugged, normal.parameterize(separator: "", preserve_case: true)) end end def test_string_parameterized_underscore StringToParameterizeWithUnderscore.each do |normal, slugged| assert_equal(slugged, normal.parameterize(separator: "_")) end end def test_string_parameterized_underscore_preserve_case StringToParameterizePreserveCaseWithUnderscore.each do |normal, slugged| assert_equal(slugged, normal.parameterize(separator: "_", preserve_case: true)) end end def test_parameterize_with_locale word = "FΓΌnf autos" I18n.backend.store_translations(:de, i18n: { transliterate: { rule: { "ΓΌ" => "ue" } } }) assert_equal("fuenf-autos", word.parameterize(locale: :de)) end def test_humanize UnderscoreToHuman.each do |underscore, human| assert_equal(human, underscore.humanize) end end def test_humanize_without_capitalize UnderscoreToHumanWithoutCapitalize.each do |underscore, human| assert_equal(human, underscore.humanize(capitalize: false)) end end def test_humanize_with_keep_id_suffix UnderscoreToHumanWithKeepIdSuffix.each do |underscore, human| assert_equal(human, underscore.humanize(keep_id_suffix: true)) end end def test_humanize_with_html_escape assert_equal "Hello", ERB::Util.html_escape("hello").humanize end def test_ord assert_equal 97, "a".ord assert_equal 97, "abc".ord end def test_starts_ends_with_alias s = "hello" assert s.starts_with?("h") assert s.starts_with?("hel") assert_not s.starts_with?("el") assert s.ends_with?("o") assert s.ends_with?("lo") assert_not s.ends_with?("el") end def test_string_squish original = +%{\u205f\u3000 A string surrounded by various unicode spaces, with tabs(\t\t), newlines(\n\n), unicode nextlines(\u0085\u0085) and many spaces( ). \u00a0\u2007} expected = "A string surrounded by various unicode spaces, " \ "with tabs( ), newlines( ), unicode nextlines( ) and many spaces( )." # Make sure squish returns what we expect: assert_equal expected, original.squish # But doesn't modify the original string: assert_not_equal expected, original # Make sure squish! returns what we expect: assert_equal expected, original.squish! # And changes the original string: assert_equal expected, original end def test_string_inquiry assert_predicate "production".inquiry, :production? assert_not_predicate "production".inquiry, :development? end def test_truncate assert_equal "Hello World!", "Hello World!".truncate(12) assert_equal "Hello Wor...", "Hello World!!".truncate(12) end def test_truncate_with_omission_and_separator assert_equal "Hello[...]", "Hello World!".truncate(10, omission: "[...]") assert_equal "Hello[...]", "Hello Big World!".truncate(13, omission: "[...]", separator: " ") assert_equal "Hello Big[...]", "Hello Big World!".truncate(14, omission: "[...]", separator: " ") assert_equal "Hello Big[...]", "Hello Big World!".truncate(15, omission: "[...]", separator: " ") end def test_truncate_with_omission_and_regexp_separator assert_equal "Hello[...]", "Hello Big World!".truncate(13, omission: "[...]", separator: /\s/) assert_equal "Hello Big[...]", "Hello Big World!".truncate(14, omission: "[...]", separator: /\s/) assert_equal "Hello Big[...]", "Hello Big World!".truncate(15, omission: "[...]", separator: /\s/) end def test_truncate_returns_frozen_string assert_not "Hello World!".truncate(12).frozen? assert_not "Hello World!!".truncate(12).frozen? end def test_truncate_bytes assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16) assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16, omission: nil) assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16, omission: " ") assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16, omission: "πŸ––") assert_equal "πŸ‘πŸ‘πŸ‘β€¦", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15) assert_equal "πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15, omission: nil) assert_equal "πŸ‘πŸ‘πŸ‘ ", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15, omission: " ") assert_equal "πŸ‘πŸ‘πŸ––", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15, omission: "πŸ––") assert_equal "…", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5) assert_equal "πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5, omission: nil) assert_equal "πŸ‘ ", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5, omission: " ") assert_equal "πŸ––", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5, omission: "πŸ––") assert_equal "…", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4) assert_equal "πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4, omission: nil) assert_equal " ", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4, omission: " ") assert_equal "πŸ––", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4, omission: "πŸ––") assert_raise ArgumentError do "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(3, omission: "πŸ––") end end def test_truncate_bytes_preserves_codepoints assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16) assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16, omission: nil) assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16, omission: " ") assert_equal "πŸ‘πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(16, omission: "πŸ––") assert_equal "πŸ‘πŸ‘πŸ‘β€¦", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15) assert_equal "πŸ‘πŸ‘πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15, omission: nil) assert_equal "πŸ‘πŸ‘πŸ‘ ", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15, omission: " ") assert_equal "πŸ‘πŸ‘πŸ––", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(15, omission: "πŸ––") assert_equal "…", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5) assert_equal "πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5, omission: nil) assert_equal "πŸ‘ ", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5, omission: " ") assert_equal "πŸ––", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(5, omission: "πŸ––") assert_equal "…", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4) assert_equal "πŸ‘", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4, omission: nil) assert_equal " ", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4, omission: " ") assert_equal "πŸ––", "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(4, omission: "πŸ––") assert_raise ArgumentError do "πŸ‘πŸ‘πŸ‘πŸ‘".truncate_bytes(3, omission: "πŸ––") end end def test_truncates_bytes_preserves_grapheme_clusters assert_equal "a ", "a ❀️ b".truncate_bytes(2, omission: nil) assert_equal "a ", "a ❀️ b".truncate_bytes(3, omission: nil) assert_equal "a ", "a ❀️ b".truncate_bytes(7, omission: nil) assert_equal "a ❀️", "a ❀️ b".truncate_bytes(8, omission: nil) assert_equal "a ", "a πŸ‘©β€β€οΈβ€πŸ‘©".truncate_bytes(13, omission: nil) assert_equal "", "πŸ‘©β€β€οΈβ€πŸ‘©".truncate_bytes(13, omission: nil) end def test_truncate_words assert_equal "Hello Big World!", "Hello Big World!".truncate_words(3) assert_equal "Hello Big...", "Hello Big World!".truncate_words(2) end def test_truncate_words_with_omission assert_equal "Hello Big World!", "Hello Big World!".truncate_words(3, omission: "[...]") assert_equal "Hello Big[...]", "Hello Big World!".truncate_words(2, omission: "[...]") end def test_truncate_words_with_separator assert_equal "Hello
Big
World!...", "Hello
Big
World!
".truncate_words(3, separator: "
") assert_equal "Hello
Big
World!", "Hello
Big
World!".truncate_words(3, separator: "
") assert_equal "Hello\n
Big...", "Hello\n
Big
Wide
World!".truncate_words(2, separator: "
") end def test_truncate_words_with_separator_and_omission assert_equal "Hello
Big
World![...]", "Hello
Big
World!
".truncate_words(3, omission: "[...]", separator: "
") assert_equal "Hello
Big
World!", "Hello
Big
World!".truncate_words(3, omission: "[...]", separator: "
") end def test_truncate_words_with_complex_string Timeout.timeout(10) do complex_string = "aa aa aaa aa aaa aaa aaa aa aaa aaa aaa aaa aaa aaa aaa aaa aaa aaa aaaa aaaaa aaaaa aaaaaa aa aa aa aaa aa aaa aa aa aa aa a aaa aaa \n a aaa <= string length still returns a new string" do string = "hello" different_string = string.first(5) assert_not_same different_string, string end test "#first with Integer returns a non-frozen string" do string = "he" (0..string.length + 1).each do |limit| assert_not string.first(limit).frozen? end end test "#first with negative Integer raises ArgumentError" do assert_raise ArgumentError do "hello".first(-1) end end test "#last returns the last character" do assert_equal "o", "hello".last assert_equal "x", "x".last end test "#last with Integer, returns a substring from the end to position" do assert_equal "llo", "hello".last(3) assert_equal "hello", "hello".last(10) assert_equal "", "hello".last(0) assert_equal "x", "x".last(4) end test "#last with Integer >= string length still returns a new string" do string = "hello" different_string = string.last(5) assert_not_same different_string, string end test "#last with Integer returns a non-frozen string" do string = "he" (0..string.length + 1).each do |limit| assert_not string.last(limit).frozen? end end test "#last with negative Integer raises ArgumentError" do assert_raise ArgumentError do "hello".last(-1) end end test "access returns a real string" do hash = {} hash["h"] = true hash["hello123".at(0)] = true assert_equal %w(h), hash.keys hash = {} hash["llo"] = true hash["hello".from(2)] = true assert_equal %w(llo), hash.keys hash = {} hash["hel"] = true hash["hello".to(2)] = true assert_equal %w(hel), hash.keys hash = {} hash["hello"] = true hash["123hello".last(5)] = true assert_equal %w(hello), hash.keys hash = {} hash["hello"] = true hash["hello123".first(5)] = true assert_equal %w(hello), hash.keys end end class StringConversionsTest < ActiveSupport::TestCase include TimeZoneTestHelpers def test_string_to_time with_env_tz "Europe/Moscow" do assert_equal Time.utc(2005, 2, 27, 23, 50), "2005-02-27 23:50".to_time(:utc) assert_equal Time.local(2005, 2, 27, 23, 50), "2005-02-27 23:50".to_time assert_equal Time.utc(2005, 2, 27, 23, 50, 19, 275038), "2005-02-27T23:50:19.275038".to_time(:utc) assert_equal Time.local(2005, 2, 27, 23, 50, 19, 275038), "2005-02-27T23:50:19.275038".to_time assert_equal Time.utc(2039, 2, 27, 23, 50), "2039-02-27 23:50".to_time(:utc) assert_equal Time.local(2039, 2, 27, 23, 50), "2039-02-27 23:50".to_time assert_equal Time.local(2011, 2, 27, 17, 50), "2011-02-27 13:50 -0100".to_time assert_equal Time.utc(2011, 2, 27, 23, 50), "2011-02-27 22:50 -0100".to_time(:utc) assert_equal Time.local(2005, 2, 27, 22, 50), "2005-02-27 14:50 -0500".to_time assert_nil "010".to_time assert_nil "".to_time end end def test_string_to_time_utc_offset with_env_tz "US/Eastern" do if ActiveSupport.to_time_preserves_timezone assert_equal 0, "2005-02-27 23:50".to_time(:utc).utc_offset assert_equal(-18000, "2005-02-27 23:50".to_time.utc_offset) assert_equal 0, "2005-02-27 22:50 -0100".to_time(:utc).utc_offset assert_equal(-3600, "2005-02-27 22:50 -0100".to_time.utc_offset) else assert_equal 0, "2005-02-27 23:50".to_time(:utc).utc_offset assert_equal(-18000, "2005-02-27 23:50".to_time.utc_offset) assert_equal 0, "2005-02-27 22:50 -0100".to_time(:utc).utc_offset assert_equal(-18000, "2005-02-27 22:50 -0100".to_time.utc_offset) end end end def test_partial_string_to_time with_env_tz "Europe/Moscow" do # use timezone which does not observe DST. now = Time.now assert_equal Time.local(now.year, now.month, now.day, 23, 50), "23:50".to_time assert_equal Time.utc(now.year, now.month, now.day, 23, 50), "23:50".to_time(:utc) assert_equal Time.local(now.year, now.month, now.day, 17, 50), "13:50 -0100".to_time assert_equal Time.utc(now.year, now.month, now.day, 23, 50), "22:50 -0100".to_time(:utc) end end def test_standard_time_string_to_time_when_current_time_is_standard_time with_env_tz "US/Eastern" do Time.stub(:now, Time.local(2012, 1, 1)) do assert_equal Time.local(2012, 1, 1, 10, 0), "2012-01-01 10:00".to_time assert_equal Time.utc(2012, 1, 1, 10, 0), "2012-01-01 10:00".to_time(:utc) assert_equal Time.local(2012, 1, 1, 13, 0), "2012-01-01 10:00 -0800".to_time assert_equal Time.utc(2012, 1, 1, 18, 0), "2012-01-01 10:00 -0800".to_time(:utc) assert_equal Time.local(2012, 1, 1, 10, 0), "2012-01-01 10:00 -0500".to_time assert_equal Time.utc(2012, 1, 1, 15, 0), "2012-01-01 10:00 -0500".to_time(:utc) assert_equal Time.local(2012, 1, 1, 5, 0), "2012-01-01 10:00 UTC".to_time assert_equal Time.utc(2012, 1, 1, 10, 0), "2012-01-01 10:00 UTC".to_time(:utc) assert_equal Time.local(2012, 1, 1, 13, 0), "2012-01-01 10:00 PST".to_time assert_equal Time.utc(2012, 1, 1, 18, 0), "2012-01-01 10:00 PST".to_time(:utc) assert_equal Time.local(2012, 1, 1, 10, 0), "2012-01-01 10:00 EST".to_time assert_equal Time.utc(2012, 1, 1, 15, 0), "2012-01-01 10:00 EST".to_time(:utc) end end end def test_standard_time_string_to_time_when_current_time_is_daylight_savings with_env_tz "US/Eastern" do Time.stub(:now, Time.local(2012, 7, 1)) do assert_equal Time.local(2012, 1, 1, 10, 0), "2012-01-01 10:00".to_time assert_equal Time.utc(2012, 1, 1, 10, 0), "2012-01-01 10:00".to_time(:utc) assert_equal Time.local(2012, 1, 1, 13, 0), "2012-01-01 10:00 -0800".to_time assert_equal Time.utc(2012, 1, 1, 18, 0), "2012-01-01 10:00 -0800".to_time(:utc) assert_equal Time.local(2012, 1, 1, 10, 0), "2012-01-01 10:00 -0500".to_time assert_equal Time.utc(2012, 1, 1, 15, 0), "2012-01-01 10:00 -0500".to_time(:utc) assert_equal Time.local(2012, 1, 1, 5, 0), "2012-01-01 10:00 UTC".to_time assert_equal Time.utc(2012, 1, 1, 10, 0), "2012-01-01 10:00 UTC".to_time(:utc) assert_equal Time.local(2012, 1, 1, 13, 0), "2012-01-01 10:00 PST".to_time assert_equal Time.utc(2012, 1, 1, 18, 0), "2012-01-01 10:00 PST".to_time(:utc) assert_equal Time.local(2012, 1, 1, 10, 0), "2012-01-01 10:00 EST".to_time assert_equal Time.utc(2012, 1, 1, 15, 0), "2012-01-01 10:00 EST".to_time(:utc) end end end def test_daylight_savings_string_to_time_when_current_time_is_standard_time with_env_tz "US/Eastern" do Time.stub(:now, Time.local(2012, 1, 1)) do assert_equal Time.local(2012, 7, 1, 10, 0), "2012-07-01 10:00".to_time assert_equal Time.utc(2012, 7, 1, 10, 0), "2012-07-01 10:00".to_time(:utc) assert_equal Time.local(2012, 7, 1, 13, 0), "2012-07-01 10:00 -0700".to_time assert_equal Time.utc(2012, 7, 1, 17, 0), "2012-07-01 10:00 -0700".to_time(:utc) assert_equal Time.local(2012, 7, 1, 10, 0), "2012-07-01 10:00 -0400".to_time assert_equal Time.utc(2012, 7, 1, 14, 0), "2012-07-01 10:00 -0400".to_time(:utc) assert_equal Time.local(2012, 7, 1, 6, 0), "2012-07-01 10:00 UTC".to_time assert_equal Time.utc(2012, 7, 1, 10, 0), "2012-07-01 10:00 UTC".to_time(:utc) assert_equal Time.local(2012, 7, 1, 13, 0), "2012-07-01 10:00 PDT".to_time assert_equal Time.utc(2012, 7, 1, 17, 0), "2012-07-01 10:00 PDT".to_time(:utc) assert_equal Time.local(2012, 7, 1, 10, 0), "2012-07-01 10:00 EDT".to_time assert_equal Time.utc(2012, 7, 1, 14, 0), "2012-07-01 10:00 EDT".to_time(:utc) end end end def test_daylight_savings_string_to_time_when_current_time_is_daylight_savings with_env_tz "US/Eastern" do Time.stub(:now, Time.local(2012, 7, 1)) do assert_equal Time.local(2012, 7, 1, 10, 0), "2012-07-01 10:00".to_time assert_equal Time.utc(2012, 7, 1, 10, 0), "2012-07-01 10:00".to_time(:utc) assert_equal Time.local(2012, 7, 1, 13, 0), "2012-07-01 10:00 -0700".to_time assert_equal Time.utc(2012, 7, 1, 17, 0), "2012-07-01 10:00 -0700".to_time(:utc) assert_equal Time.local(2012, 7, 1, 10, 0), "2012-07-01 10:00 -0400".to_time assert_equal Time.utc(2012, 7, 1, 14, 0), "2012-07-01 10:00 -0400".to_time(:utc) assert_equal Time.local(2012, 7, 1, 6, 0), "2012-07-01 10:00 UTC".to_time assert_equal Time.utc(2012, 7, 1, 10, 0), "2012-07-01 10:00 UTC".to_time(:utc) assert_equal Time.local(2012, 7, 1, 13, 0), "2012-07-01 10:00 PDT".to_time assert_equal Time.utc(2012, 7, 1, 17, 0), "2012-07-01 10:00 PDT".to_time(:utc) assert_equal Time.local(2012, 7, 1, 10, 0), "2012-07-01 10:00 EDT".to_time assert_equal Time.utc(2012, 7, 1, 14, 0), "2012-07-01 10:00 EDT".to_time(:utc) end end end def test_partial_string_to_time_when_current_time_is_standard_time with_env_tz "US/Eastern" do Time.stub(:now, Time.local(2012, 1, 1)) do assert_equal Time.local(2012, 1, 1, 10, 0), "10:00".to_time assert_equal Time.utc(2012, 1, 1, 10, 0), "10:00".to_time(:utc) assert_equal Time.local(2012, 1, 1, 6, 0), "10:00 -0100".to_time assert_equal Time.utc(2012, 1, 1, 11, 0), "10:00 -0100".to_time(:utc) assert_equal Time.local(2012, 1, 1, 10, 0), "10:00 -0500".to_time assert_equal Time.utc(2012, 1, 1, 15, 0), "10:00 -0500".to_time(:utc) assert_equal Time.local(2012, 1, 1, 5, 0), "10:00 UTC".to_time assert_equal Time.utc(2012, 1, 1, 10, 0), "10:00 UTC".to_time(:utc) assert_equal Time.local(2012, 1, 1, 13, 0), "10:00 PST".to_time assert_equal Time.utc(2012, 1, 1, 18, 0), "10:00 PST".to_time(:utc) assert_equal Time.local(2012, 1, 1, 12, 0), "10:00 PDT".to_time assert_equal Time.utc(2012, 1, 1, 17, 0), "10:00 PDT".to_time(:utc) assert_equal Time.local(2012, 1, 1, 10, 0), "10:00 EST".to_time assert_equal Time.utc(2012, 1, 1, 15, 0), "10:00 EST".to_time(:utc) assert_equal Time.local(2012, 1, 1, 9, 0), "10:00 EDT".to_time assert_equal Time.utc(2012, 1, 1, 14, 0), "10:00 EDT".to_time(:utc) end end end def test_partial_string_to_time_when_current_time_is_daylight_savings with_env_tz "US/Eastern" do Time.stub(:now, Time.local(2012, 7, 1)) do assert_equal Time.local(2012, 7, 1, 10, 0), "10:00".to_time assert_equal Time.utc(2012, 7, 1, 10, 0), "10:00".to_time(:utc) assert_equal Time.local(2012, 7, 1, 7, 0), "10:00 -0100".to_time assert_equal Time.utc(2012, 7, 1, 11, 0), "10:00 -0100".to_time(:utc) assert_equal Time.local(2012, 7, 1, 11, 0), "10:00 -0500".to_time assert_equal Time.utc(2012, 7, 1, 15, 0), "10:00 -0500".to_time(:utc) assert_equal Time.local(2012, 7, 1, 6, 0), "10:00 UTC".to_time assert_equal Time.utc(2012, 7, 1, 10, 0), "10:00 UTC".to_time(:utc) assert_equal Time.local(2012, 7, 1, 14, 0), "10:00 PST".to_time assert_equal Time.utc(2012, 7, 1, 18, 0), "10:00 PST".to_time(:utc) assert_equal Time.local(2012, 7, 1, 13, 0), "10:00 PDT".to_time assert_equal Time.utc(2012, 7, 1, 17, 0), "10:00 PDT".to_time(:utc) assert_equal Time.local(2012, 7, 1, 11, 0), "10:00 EST".to_time assert_equal Time.utc(2012, 7, 1, 15, 0), "10:00 EST".to_time(:utc) assert_equal Time.local(2012, 7, 1, 10, 0), "10:00 EDT".to_time assert_equal Time.utc(2012, 7, 1, 14, 0), "10:00 EDT".to_time(:utc) end end end def test_string_to_datetime assert_equal DateTime.civil(2039, 2, 27, 23, 50), "2039-02-27 23:50".to_datetime assert_equal 0, "2039-02-27 23:50".to_datetime.offset # use UTC offset assert_equal ::Date::ITALY, "2039-02-27 23:50".to_datetime.start # use Ruby's default start value assert_equal DateTime.civil(2039, 2, 27, 23, 50, 19 + Rational(275038, 1000000), "-04:00"), "2039-02-27T23:50:19.275038-04:00".to_datetime assert_nil "".to_datetime end def test_partial_string_to_datetime now = DateTime.now assert_equal DateTime.civil(now.year, now.month, now.day, 23, 50), "23:50".to_datetime assert_equal DateTime.civil(now.year, now.month, now.day, 23, 50, 0, "-04:00"), "23:50 -0400".to_datetime end def test_string_to_date assert_equal Date.new(2005, 2, 27), "2005-02-27".to_date assert_nil "".to_date assert_equal Date.new(Date.today.year, 2, 3), "Feb 3rd".to_date end end class StringBehaviourTest < ActiveSupport::TestCase def test_acts_like_string assert_predicate "Bambi", :acts_like_string? end end class CoreExtStringMultibyteTest < ActiveSupport::TestCase UTF8_STRING = "こにけわ" ASCII_STRING = "ohayo".encode("US-ASCII") EUC_JP_STRING = "γ•γ‚ˆγͺら".encode("EUC-JP") INVALID_UTF8_STRING = "\270\236\010\210\245" def test_core_ext_adds_mb_chars assert_respond_to UTF8_STRING, :mb_chars end def test_string_should_recognize_utf8_strings assert_predicate UTF8_STRING, :is_utf8? assert_predicate ASCII_STRING, :is_utf8? assert_not_predicate EUC_JP_STRING, :is_utf8? assert_not_predicate INVALID_UTF8_STRING, :is_utf8? end def test_mb_chars_returns_instance_of_proxy_class assert_kind_of ActiveSupport::Multibyte.proxy_class, UTF8_STRING.mb_chars end end class OutputSafetyTest < ActiveSupport::TestCase def setup @string = +"hello" @object = Class.new(Object) do def to_s "other" end end.new end test "A string is unsafe by default" do assert_not_predicate @string, :html_safe? end test "A string can be marked safe" do string = @string.html_safe assert_predicate string, :html_safe? end test "Marking a string safe returns the string" do assert_equal @string, @string.html_safe end test "An integer is safe by default" do assert_predicate 5, :html_safe? end test "a float is safe by default" do assert_predicate 5.7, :html_safe? end test "An object is unsafe by default" do assert_not_predicate @object, :html_safe? end test "Adding an object to a safe string returns a safe string" do string = @string.html_safe string << @object assert_equal "helloother", string assert_predicate string, :html_safe? end test "Adding a safe string to another safe string returns a safe string" do @other_string = "other".html_safe string = @string.html_safe @combination = @other_string + string assert_equal "otherhello", @combination assert_predicate @combination, :html_safe? end test "Adding an unsafe string to a safe string escapes it and returns a safe string" do @other_string = "other".html_safe @combination = @other_string + "" @other_combination = @string + "" assert_equal "other<foo>", @combination assert_equal "hello", @other_combination assert_predicate @combination, :html_safe? assert_not_predicate @other_combination, :html_safe? end test "Prepending safe onto unsafe yields unsafe" do @string.prepend "other".html_safe assert_not_predicate @string, :html_safe? assert_equal "otherhello", @string end test "Prepending unsafe onto safe yields escaped safe" do other = "other".html_safe other.prepend "" assert_predicate other, :html_safe? assert_equal "<foo>other", other end test "Concatting safe onto unsafe yields unsafe" do @other_string = +"other" string = @string.html_safe @other_string.concat(string) assert_not_predicate @other_string, :html_safe? end test "Concatting unsafe onto safe yields escaped safe" do @other_string = "other".html_safe string = @other_string.concat("") assert_equal "other<foo>", string assert_predicate string, :html_safe? end test "Concatting safe onto safe yields safe" do @other_string = "other".html_safe string = @string.html_safe @other_string.concat(string) assert_predicate @other_string, :html_safe? end test "Concatting safe onto unsafe with << yields unsafe" do @other_string = +"other" string = @string.html_safe @other_string << string assert_not_predicate @other_string, :html_safe? end test "Concatting unsafe onto safe with << yields escaped safe" do @other_string = "other".html_safe string = @other_string << "" assert_equal "other<foo>", string assert_predicate string, :html_safe? end test "Concatting safe onto safe with << yields safe" do @other_string = "other".html_safe string = @string.html_safe @other_string << string assert_predicate @other_string, :html_safe? end test "Concatting safe onto unsafe with % yields unsafe" do @other_string = "other%s" string = @string.html_safe @other_string = @other_string % string assert_not_predicate @other_string, :html_safe? end test "Concatting unsafe onto safe with % yields escaped safe" do @other_string = "other%s".html_safe string = @other_string % "" assert_equal "other<foo>", string assert_predicate string, :html_safe? end test "Concatting safe onto safe with % yields safe" do @other_string = "other%s".html_safe string = @string.html_safe @other_string = @other_string % string assert_predicate @other_string, :html_safe? end test "Concatting with % doesn't modify a string" do @other_string = ["

", "", "

"] _ = "%s %s %s".html_safe % @other_string assert_equal ["

", "", "

"], @other_string end test "Concatting an integer to safe always yields safe" do string = @string.html_safe string = string.concat(13) assert_equal (+"hello").concat(13), string assert_predicate string, :html_safe? end test "Inserting safe into safe yields safe" do string = "foo".html_safe string.insert(0, "".html_safe) assert_equal "foo", string assert_predicate string, :html_safe? end test "Inserting unsafe into safe yields escaped safe" do string = "foo".html_safe string.insert(0, "") assert_equal "<b>foo", string assert_predicate string, :html_safe? end test "Replacing safe with safe yields safe" do string = "foo".html_safe string.replace("".html_safe) assert_equal "", string assert_predicate string, :html_safe? end test "Replacing safe with unsafe yields escaped safe" do string = "foo".html_safe string.replace("") assert_equal "<b>", string assert_predicate string, :html_safe? end test "Replacing index of safe with safe yields safe" do string = "foo".html_safe string[0] = "".html_safe assert_equal "oo", string assert_predicate string, :html_safe? end test "Replacing index of safe with unsafe yields escaped safe" do string = "foo".html_safe string[0] = "" assert_equal "<b>oo", string assert_predicate string, :html_safe? end test "emits normal string yaml" do assert_equal "foo".to_yaml, "foo".html_safe.to_yaml(foo: 1) end test "call to_param returns a normal string" do string = @string.html_safe assert_predicate string, :html_safe? assert_not_predicate string.to_param, :html_safe? end test "ERB::Util.html_escape should escape unsafe characters" do string = '<>&"\'' expected = "<>&"'" assert_equal expected, ERB::Util.html_escape(string) end test "ERB::Util.html_escape should correctly handle invalid UTF-8 strings" do string = "\251 <" expected = "Β© <" assert_equal expected, ERB::Util.html_escape(string) end test "ERB::Util.html_escape should not escape safe strings" do string = "hello".html_safe assert_equal string, ERB::Util.html_escape(string) end test "ERB::Util.html_escape_once only escapes once" do string = "1 < 2 & 3" escaped_string = "1 < 2 & 3" assert_equal escaped_string, ERB::Util.html_escape_once(string) assert_equal escaped_string, ERB::Util.html_escape_once(escaped_string) end test "ERB::Util.html_escape_once should correctly handle invalid UTF-8 strings" do string = "\251 <" expected = "Β© <" assert_equal expected, ERB::Util.html_escape_once(string) end end class StringExcludeTest < ActiveSupport::TestCase test "inverse of #include" do assert_equal false, "foo".exclude?("o") assert_equal true, "foo".exclude?("p") end end class StringIndentTest < ActiveSupport::TestCase test "does not indent strings that only contain newlines (edge cases)" do ["", "\n", "\n" * 7].each do |string| str = string.dup assert_nil str.indent!(8) assert_equal str, str.indent(8) assert_equal str, str.indent(1, "\t") end end test "by default, indents with spaces if the existing indentation uses them" do assert_equal " foo\n bar", "foo\n bar".indent(4) end test "by default, indents with tabs if the existing indentation uses them" do assert_equal "\tfoo\n\t\t\bar", "foo\n\t\bar".indent(1) end test "by default, indents with spaces as a fallback if there is no indentation" do assert_equal " foo\n bar\n baz", "foo\nbar\nbaz".indent(3) end # Nothing is said about existing indentation that mixes spaces and tabs, so # there is nothing to test. test "uses the indent char if passed" do assert_equal <