// This file is part of ICU4X. For terms of use, please see the file // called LICENSE at the top level of the ICU4X source tree // (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ). mod fixtures; mod helpers; use std::convert::TryInto; use writeable::*; use icu_locid::{subtags, LanguageIdentifier, ParserError}; type Result = std::result::Result; fn test_langid_fixtures(tests: Vec) { for test in tests { match test.output { fixtures::LocaleInfo::String(s) => { if let fixtures::LocaleInfo::Object(ref o) = &test.input { if o.field_type == "Locale" { continue; } } let input: LanguageIdentifier = test.input.try_into().expect("Parsing failed."); assert_writeable_eq!(input, s); } fixtures::LocaleInfo::Error(err) => { let err: ParserError = err.into(); let input: Result = test.input.try_into(); assert_eq!(input, Err(err)); } fixtures::LocaleInfo::Identifier(ident) => { let input: LanguageIdentifier = test.input.try_into().expect("Parsing failed."); let output: LanguageIdentifier = ident.try_into().expect("Parsing failed."); assert_eq!(input, output); } fixtures::LocaleInfo::Object(o) => { let input: LanguageIdentifier = test.input.try_into().expect("Parsing failed."); let output: LanguageIdentifier = o.try_into().expect("Parsing failed."); assert_eq!(input, output); } } } } #[test] fn test_langid_parsing() { let path = "./tests/fixtures/langid.json"; let data = helpers::read_fixture(path).expect("Failed to read a fixture"); test_langid_fixtures(data); } #[test] fn test_langid_invalid() { let path = "./tests/fixtures/invalid.json"; let data = helpers::read_fixture(path).expect("Failed to read a fixture"); test_langid_fixtures(data); } #[test] fn test_langid_canonicalize() { let path = "./tests/fixtures/canonicalize.json"; let data = helpers::read_fixture(path).expect("Failed to read a fixture"); test_langid_fixtures(data); } #[test] fn test_langid_from_locale() { let path = "./tests/fixtures/locale.json"; let data = helpers::read_fixture(path).expect("Failed to read a fixture"); test_langid_fixtures(data); } #[test] fn test_langid_subtag_language() { let mut lang: subtags::Language = "en".parse().expect("Failed to parse a language."); assert_eq!(lang.as_str(), "en"); lang.clear(); assert_eq!(lang, subtags::Language::UND); assert!(lang.is_empty()); assert_writeable_eq!(lang, "und"); } #[test] fn test_langid_subtag_region() { let region: subtags::Region = "en".parse().expect("Failed to parse a region."); assert_eq!(region.as_str(), "EN"); assert_writeable_eq!(region, "EN"); } #[test] fn test_langid_subtag_script() { let script: subtags::Script = "Latn".parse().expect("Failed to parse a script."); assert_eq!(script.as_str(), "Latn"); assert_writeable_eq!(script, "Latn"); } #[test] fn test_langid_subtag_variant() { let variant: subtags::Variant = "macos".parse().expect("Failed to parse a variant."); assert_eq!(variant.as_str(), "macos"); assert_writeable_eq!(variant, "macos"); } #[test] fn test_langid_subtag_variants() { let variant: subtags::Variant = "macos".parse().expect("Failed to parse a variant."); let mut variants = subtags::Variants::from_vec_unchecked(vec![variant]); assert_eq!(variants.get(0), Some(&variant)); variants.clear(); assert_eq!(variants.len(), 0); } #[test] fn test_langid_normalizing_eq_str() { let path = "./tests/fixtures/langid.json"; let tests: Vec = helpers::read_fixture(path).expect("Failed to read a fixture"); for test in tests { let parsed: LanguageIdentifier = test.input.try_into().expect("Parsing failed."); assert!(parsed.normalizing_eq(&parsed.write_to_string())); } // Check that trailing characters are not ignored let lang: LanguageIdentifier = "en".parse().expect("Parsing failed."); assert!(!lang.normalizing_eq("en-US")); } #[test] fn test_langid_strict_cmp() { let path = "./tests/fixtures/langid.json"; let tests: Vec = helpers::read_fixture(path).expect("Failed to read a fixture"); let bcp47_strings = tests .iter() .map(|t| match t.input { fixtures::LocaleInfo::String(ref s) => s.as_str(), _ => panic!("Invalid fixture"), }) .collect::>(); for a in bcp47_strings.iter() { for b in bcp47_strings.iter() { let a_langid = a .parse::() .expect("Invalid BCP-47 in fixture"); let a_normalized = a_langid.write_to_string(); let string_cmp = a_normalized.as_bytes().cmp(b.as_bytes()); let test_cmp = a_langid.strict_cmp(b.as_bytes()); assert_eq!(string_cmp, test_cmp, "{a:?}/{b:?}"); } } }