// |reftest| skip-if(!this.hasOwnProperty('Intl')) const tests = { "en": { long: { "DE": "Germany", "GB": "United Kingdom", "US": "United States", "FR": "France", }, short: { "GB": "UK", "US": "US", }, narrow: {}, }, "de": { long: { "DE": "Deutschland", "GB": "Vereinigtes Königreich", "US": "Vereinigte Staaten", "FR": "Frankreich", }, short: { "GB": "UK", "US": "USA", }, narrow: {}, }, "fr": { long: { "DE": "Allemagne", "GB": "Royaume-Uni", "US": "États-Unis", "FR": "France", }, short: { "GB": "R.-U.", "US": "É.-U.", }, narrow: {}, }, "zh": { long: { "CN": "中国", "HK": "中国香港特别行政区", }, short: { "HK": "香港" }, narrow: {}, }, "ar": { long: { "SA": "المملكة العربية السعودية", "MO": "منطقة ماكاو الإدارية الخاصة", }, short: { "MO": "مكاو", }, narrow: {}, }, }; for (let [locale, localeTests] of Object.entries(tests)) { for (let [style, styleTests] of Object.entries(localeTests)) { let dn = new Intl.DisplayNames(locale, {type: "region", style}); let resolved = dn.resolvedOptions(); assertEq(resolved.locale, locale); assertEq(resolved.style, style); assertEq(resolved.type, "region"); assertEq(resolved.fallback, "code"); let inheritedTests = {...localeTests.long, ...localeTests.short, ...localeTests.narrow}; for (let [region, expected] of Object.entries({...inheritedTests, ...styleTests})) { assertEq(dn.of(region), expected); // Also works with objects. assertEq(dn.of(Object(region)), expected); } } } { let dn = new Intl.DisplayNames("en", {type: "region"}); // Performs ToString on the input and then validates the stringified result. assertThrowsInstanceOf(() => dn.of(), RangeError); assertThrowsInstanceOf(() => dn.of(null), RangeError); assertThrowsInstanceOf(() => dn.of(Symbol()), TypeError); assertThrowsInstanceOf(() => dn.of(0), RangeError); // Throws an error if |code| can't be parsed as a `unicode_region_subtag` production. assertThrowsInstanceOf(() => dn.of("CA-"), RangeError); assertThrowsInstanceOf(() => dn.of("en-CA"), RangeError); } // Test fallback behaviour. { let dn1 = new Intl.DisplayNames("en", {type: "region"}); let dn2 = new Intl.DisplayNames("en", {type: "region", fallback: "code"}); let dn3 = new Intl.DisplayNames("en", {type: "region", fallback: "none"}); assertEq(dn1.resolvedOptions().fallback, "code"); assertEq(dn2.resolvedOptions().fallback, "code"); assertEq(dn3.resolvedOptions().fallback, "none"); // "AA" is not a registered region code. assertEq(dn1.of("AA"), "AA"); assertEq(dn2.of("AA"), "AA"); assertEq(dn3.of("AA"), undefined); // The returned fallback is in canonical case. assertEq(dn1.of("aa"), "AA"); assertEq(dn2.of("aa"), "AA"); assertEq(dn3.of("aa"), undefined); // "998" is canonicalised to "XZ", but "XZ" has no localised names. assertEq(new Intl.Locale("und-998").region, "XZ"); // Ensure we return the input and not the canonicalised input. assertEq(dn1.of("998"), "998"); assertEq(dn2.of("998"), "998"); assertEq(dn3.of("998"), undefined); // "XZ" should be consistent with "998". assertEq(dn1.of("XZ"), "XZ"); assertEq(dn2.of("XZ"), "XZ"); assertEq(dn3.of("XZ"), undefined); } // Ensure language tag canonicalisation is performed. { let dn = new Intl.DisplayNames("en", {type: "region", fallback: "none"}); assertEq(dn.of("RU"), "Russia"); // ICU's canonicalisation supports "SU" -> "RU". assertEq(Intl.getCanonicalLocales("ru-SU")[0], "ru-RU"); assertEq(dn.of("SU"), "Russia"); // ICU's canonicalisation doesn't support "172" -> "RU". assertEq(Intl.getCanonicalLocales("ru-172")[0], "ru-RU"); assertEq(dn.of("172"), "Russia"); } // Test when case isn't canonical. { let dn = new Intl.DisplayNames("en", {type: "region", fallback: "none"}); assertEq(dn.of("IT"), "Italy"); assertEq(dn.of("it"), "Italy"); } if (typeof reportCompare === "function") reportCompare(true, true);