| use regex_automata::{DenseDFA, Regex, RegexBuilder, SparseDFA}; |
| |
| use collection::{RegexTester, SUITE}; |
| |
| #[test] |
| fn unminimized_standard() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(false).premultiply(false).byte_classes(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn unminimized_premultiply() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(false).premultiply(true).byte_classes(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn unminimized_byte_class() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(false).premultiply(false).byte_classes(true); |
| |
| let mut tester = RegexTester::new(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn unminimized_premultiply_byte_class() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(false).premultiply(true).byte_classes(true); |
| |
| let mut tester = RegexTester::new(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn unminimized_standard_no_nfa_shrink() { |
| let mut builder = RegexBuilder::new(); |
| builder |
| .minimize(false) |
| .premultiply(false) |
| .byte_classes(false) |
| .shrink(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn minimized_standard() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(true).premultiply(false).byte_classes(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn minimized_premultiply() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(true).premultiply(true).byte_classes(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn minimized_byte_class() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(true).premultiply(false).byte_classes(true); |
| |
| let mut tester = RegexTester::new(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn minimized_premultiply_byte_class() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(true).premultiply(true).byte_classes(true); |
| |
| let mut tester = RegexTester::new(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| #[test] |
| fn minimized_standard_no_nfa_shrink() { |
| let mut builder = RegexBuilder::new(); |
| builder |
| .minimize(true) |
| .premultiply(false) |
| .byte_classes(false) |
| .shrink(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| tester.test_all(builder, SUITE.tests()); |
| tester.assert(); |
| } |
| |
| // A basic sanity test that checks we can convert a regex to a smaller |
| // representation and that the resulting regex still passes our tests. |
| // |
| // If tests grow minimal regexes that cannot be represented in 16 bits, then |
| // we'll either want to skip those or increase the size to test to u32. |
| #[test] |
| fn u16() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(true).premultiply(false).byte_classes(true); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| for test in SUITE.tests() { |
| let builder = builder.clone(); |
| let re: Regex = match tester.build_regex(builder, test) { |
| None => continue, |
| Some(re) => re, |
| }; |
| let small_re = Regex::from_dfas( |
| re.forward().to_u16().unwrap(), |
| re.reverse().to_u16().unwrap(), |
| ); |
| |
| tester.test(test, &small_re); |
| } |
| tester.assert(); |
| } |
| |
| // Test that sparse DFAs work using the standard configuration. |
| #[test] |
| fn sparse_unminimized_standard() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(false).premultiply(false).byte_classes(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| for test in SUITE.tests() { |
| let builder = builder.clone(); |
| let re: Regex = match tester.build_regex(builder, test) { |
| None => continue, |
| Some(re) => re, |
| }; |
| let fwd = re.forward().to_sparse().unwrap(); |
| let rev = re.reverse().to_sparse().unwrap(); |
| let sparse_re = Regex::from_dfas(fwd, rev); |
| |
| tester.test(test, &sparse_re); |
| } |
| tester.assert(); |
| } |
| |
| // Test that sparse DFAs work after converting them to a different state ID |
| // representation. |
| #[test] |
| fn sparse_u16() { |
| let mut builder = RegexBuilder::new(); |
| builder.minimize(true).premultiply(false).byte_classes(false); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| for test in SUITE.tests() { |
| let builder = builder.clone(); |
| let re: Regex = match tester.build_regex(builder, test) { |
| None => continue, |
| Some(re) => re, |
| }; |
| let fwd = re.forward().to_sparse().unwrap().to_u16().unwrap(); |
| let rev = re.reverse().to_sparse().unwrap().to_u16().unwrap(); |
| let sparse_re = Regex::from_dfas(fwd, rev); |
| |
| tester.test(test, &sparse_re); |
| } |
| tester.assert(); |
| } |
| |
| // Another basic sanity test that checks we can serialize and then deserialize |
| // a regex, and that the resulting regex can be used for searching correctly. |
| #[test] |
| fn serialization_roundtrip() { |
| let mut builder = RegexBuilder::new(); |
| builder.premultiply(false).byte_classes(true); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| for test in SUITE.tests() { |
| let builder = builder.clone(); |
| let re: Regex = match tester.build_regex(builder, test) { |
| None => continue, |
| Some(re) => re, |
| }; |
| |
| let fwd_bytes = re.forward().to_bytes_native_endian().unwrap(); |
| let rev_bytes = re.reverse().to_bytes_native_endian().unwrap(); |
| let fwd: DenseDFA<&[usize], usize> = |
| unsafe { DenseDFA::from_bytes(&fwd_bytes) }; |
| let rev: DenseDFA<&[usize], usize> = |
| unsafe { DenseDFA::from_bytes(&rev_bytes) }; |
| let re = Regex::from_dfas(fwd, rev); |
| |
| tester.test(test, &re); |
| } |
| tester.assert(); |
| } |
| |
| // A basic sanity test that checks we can serialize and then deserialize a |
| // regex using sparse DFAs, and that the resulting regex can be used for |
| // searching correctly. |
| #[test] |
| fn sparse_serialization_roundtrip() { |
| let mut builder = RegexBuilder::new(); |
| builder.byte_classes(true); |
| |
| let mut tester = RegexTester::new().skip_expensive(); |
| for test in SUITE.tests() { |
| let builder = builder.clone(); |
| let re: Regex = match tester.build_regex(builder, test) { |
| None => continue, |
| Some(re) => re, |
| }; |
| |
| let fwd_bytes = re |
| .forward() |
| .to_sparse() |
| .unwrap() |
| .to_bytes_native_endian() |
| .unwrap(); |
| let rev_bytes = re |
| .reverse() |
| .to_sparse() |
| .unwrap() |
| .to_bytes_native_endian() |
| .unwrap(); |
| let fwd: SparseDFA<&[u8], usize> = |
| unsafe { SparseDFA::from_bytes(&fwd_bytes) }; |
| let rev: SparseDFA<&[u8], usize> = |
| unsafe { SparseDFA::from_bytes(&rev_bytes) }; |
| let re = Regex::from_dfas(fwd, rev); |
| |
| tester.test(test, &re); |
| } |
| tester.assert(); |
| } |
