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239 lines
8.3 KiB
239 lines
8.3 KiB
use regex::internal::ExecBuilder;
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/// Given a regex, check if all of the backends produce the same
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/// results on a number of different inputs.
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///
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/// For now this just throws quickcheck at the problem, which
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/// is not very good because it only really tests half of the
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/// problem space. It is pretty unlikely that a random string
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/// will match any given regex, so this will probably just
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/// be checking that the different backends fail in the same
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/// way. This is still worthwhile to test, but is definitely not
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/// the whole story.
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///
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/// TODO(ethan): In order to cover the other half of the problem
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/// space, we should generate a random matching string by inspecting
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/// the AST of the input regex. The right way to do this probably
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/// involves adding a custom Arbitrary instance around a couple
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/// of newtypes. That way we can respect the quickcheck size hinting
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/// and shrinking and whatnot.
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pub fn backends_are_consistent(re: &str) -> Result<u64, String> {
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let standard_backends = vec![
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(
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"bounded_backtracking_re",
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ExecBuilder::new(re)
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.bounded_backtracking()
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.build()
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.map(|exec| exec.into_regex())
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.map_err(|err| format!("{}", err))?,
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),
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(
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"pikevm_re",
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ExecBuilder::new(re)
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.nfa()
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.build()
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.map(|exec| exec.into_regex())
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.map_err(|err| format!("{}", err))?,
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),
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(
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"default_re",
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ExecBuilder::new(re)
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.build()
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.map(|exec| exec.into_regex())
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.map_err(|err| format!("{}", err))?,
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),
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];
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let utf8bytes_backends = vec![
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(
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"bounded_backtracking_utf8bytes_re",
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ExecBuilder::new(re)
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.bounded_backtracking()
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.bytes(true)
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.build()
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.map(|exec| exec.into_regex())
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.map_err(|err| format!("{}", err))?,
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),
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(
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"pikevm_utf8bytes_re",
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ExecBuilder::new(re)
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.nfa()
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.bytes(true)
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.build()
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.map(|exec| exec.into_regex())
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.map_err(|err| format!("{}", err))?,
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),
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(
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"default_utf8bytes_re",
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ExecBuilder::new(re)
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.bytes(true)
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.build()
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.map(|exec| exec.into_regex())
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.map_err(|err| format!("{}", err))?,
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),
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];
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let bytes_backends = vec![
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(
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"bounded_backtracking_bytes_re",
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ExecBuilder::new(re)
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.bounded_backtracking()
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.only_utf8(false)
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.build()
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.map(|exec| exec.into_byte_regex())
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.map_err(|err| format!("{}", err))?,
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),
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(
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"pikevm_bytes_re",
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ExecBuilder::new(re)
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.nfa()
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.only_utf8(false)
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.build()
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.map(|exec| exec.into_byte_regex())
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.map_err(|err| format!("{}", err))?,
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),
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(
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"default_bytes_re",
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ExecBuilder::new(re)
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.only_utf8(false)
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.build()
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.map(|exec| exec.into_byte_regex())
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.map_err(|err| format!("{}", err))?,
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),
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];
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Ok(string_checker::check_backends(&standard_backends)?
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+ string_checker::check_backends(&utf8bytes_backends)?
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+ bytes_checker::check_backends(&bytes_backends)?)
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}
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//
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// A consistency checker parameterized by the input type (&str or &[u8]).
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//
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macro_rules! checker {
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($module_name:ident, $regex_type:path, $mk_input:expr) => {
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mod $module_name {
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use quickcheck;
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use quickcheck::{Arbitrary, TestResult};
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pub fn check_backends(
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backends: &[(&str, $regex_type)],
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) -> Result<u64, String> {
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let mut total_passed = 0;
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for regex in backends[1..].iter() {
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total_passed += quickcheck_regex_eq(&backends[0], regex)?;
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}
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Ok(total_passed)
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}
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fn quickcheck_regex_eq(
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&(name1, ref re1): &(&str, $regex_type),
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&(name2, ref re2): &(&str, $regex_type),
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) -> Result<u64, String> {
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quickcheck::QuickCheck::new()
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.quicktest(RegexEqualityTest::new(
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re1.clone(),
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re2.clone(),
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))
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.map_err(|err| {
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format!(
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"{}(/{}/) and {}(/{}/) are inconsistent.\
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QuickCheck Err: {:?}",
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name1, re1, name2, re2, err
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)
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})
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}
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struct RegexEqualityTest {
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re1: $regex_type,
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re2: $regex_type,
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}
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impl RegexEqualityTest {
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fn new(re1: $regex_type, re2: $regex_type) -> Self {
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RegexEqualityTest { re1: re1, re2: re2 }
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}
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}
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impl quickcheck::Testable for RegexEqualityTest {
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fn result(&self, gen: &mut quickcheck::Gen) -> TestResult {
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let input = $mk_input(gen);
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let input = &input;
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if self.re1.find(&input) != self.re2.find(input) {
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return TestResult::error(format!(
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"find mismatch input={:?}",
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input
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));
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}
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let cap1 = self.re1.captures(input);
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let cap2 = self.re2.captures(input);
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match (cap1, cap2) {
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(None, None) => {}
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(Some(cap1), Some(cap2)) => {
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for (c1, c2) in cap1.iter().zip(cap2.iter()) {
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if c1 != c2 {
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return TestResult::error(format!(
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"captures mismatch input={:?}",
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input
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));
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}
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}
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}
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_ => {
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return TestResult::error(format!(
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"captures mismatch input={:?}",
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input
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))
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}
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}
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let fi1 = self.re1.find_iter(input);
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let fi2 = self.re2.find_iter(input);
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for (m1, m2) in fi1.zip(fi2) {
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if m1 != m2 {
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return TestResult::error(format!(
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"find_iter mismatch input={:?}",
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input
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));
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}
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}
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let ci1 = self.re1.captures_iter(input);
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let ci2 = self.re2.captures_iter(input);
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for (cap1, cap2) in ci1.zip(ci2) {
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for (c1, c2) in cap1.iter().zip(cap2.iter()) {
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if c1 != c2 {
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return TestResult::error(format!(
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"captures_iter mismatch input={:?}",
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input
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));
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}
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}
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}
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let s1 = self.re1.split(input);
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let s2 = self.re2.split(input);
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for (chunk1, chunk2) in s1.zip(s2) {
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if chunk1 != chunk2 {
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return TestResult::error(format!(
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"split mismatch input={:?}",
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input
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));
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}
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}
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TestResult::from_bool(true)
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}
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}
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} // mod
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}; // rule case
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} // macro_rules!
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checker!(string_checker, ::regex::Regex, |gen| String::arbitrary(gen));
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checker!(bytes_checker, ::regex::bytes::Regex, |gen| Vec::<u8>::arbitrary(
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gen
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));
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