#![allow( unused, clippy::needless_raw_strings, clippy::needless_raw_string_hashes, clippy::needless_borrow, clippy::needless_borrows_for_generic_args )] #![warn(clippy::invalid_regex, clippy::trivial_regex)] extern crate regex; use regex::bytes::{Regex as BRegex, RegexBuilder as BRegexBuilder, RegexSet as BRegexSet}; use regex::{Regex, RegexBuilder, RegexSet}; const OPENING_PAREN: &str = "("; const NOT_A_REAL_REGEX: &str = "foobar"; fn syntax_error() { let pipe_in_wrong_position = Regex::new("|"); //~^ ERROR: trivial regex let pipe_in_wrong_position_builder = RegexBuilder::new("|"); //~^ ERROR: trivial regex let wrong_char_ranice = Regex::new("[z-a]"); //~^ ERROR: regex syntax error: invalid character class range, the start must be <= th //~| NOTE: `-D clippy::invalid-regex` implied by `-D warnings` let some_unicode = Regex::new("[é-è]"); //~^ ERROR: regex syntax error: invalid character class range, the start must be <= th let some_regex = Regex::new(OPENING_PAREN); let binary_pipe_in_wrong_position = BRegex::new("|"); //~^ ERROR: trivial regex let some_binary_regex = BRegex::new(OPENING_PAREN); let some_binary_regex_builder = BRegexBuilder::new(OPENING_PAREN); let closing_paren = ")"; let not_linted = Regex::new(closing_paren); let set = RegexSet::new(&[r"[a-z]+@[a-z]+\.(com|org|net)", r"[a-z]+\.(com|org|net)"]); let bset = BRegexSet::new(&[ r"[a-z]+@[a-z]+\.(com|org|net)", r"[a-z]+\.(com|org|net)", r".", // regression test ]); let set_error = RegexSet::new(&[OPENING_PAREN, r"[a-z]+\.(com|org|net)"]); let bset_error = BRegexSet::new(&[OPENING_PAREN, r"[a-z]+\.(com|org|net)"]); // These following three cases are considering valid since regex-1.8.0 let raw_string_error = Regex::new(r"[...\/...]"); let raw_string_error = Regex::new(r#"[...\/...]"#); let _ = Regex::new(r"(?hi)").unwrap(); let escaped_string_span = Regex::new("\\b\\c"); let aux_span = Regex::new("(?ixi)"); //~^ ERROR: regex syntax error: duplicate flag let should_not_lint = Regex::new("(?u)."); let should_not_lint = BRegex::new("(?u)."); let invalid_utf8_should_not_lint = BRegex::new("(?-u)."); let invalid_utf8_should_lint = Regex::new("(?-u)."); //~^ ERROR: regex syntax error: pattern can match invalid UTF-8 } fn trivial_regex() { let trivial_eq = Regex::new("^foobar$"); //~^ ERROR: trivial regex let trivial_eq_builder = RegexBuilder::new("^foobar$"); //~^ ERROR: trivial regex let trivial_starts_with = Regex::new("^foobar"); //~^ ERROR: trivial regex let trivial_ends_with = Regex::new("foobar$"); //~^ ERROR: trivial regex let trivial_contains = Regex::new("foobar"); //~^ ERROR: trivial regex let trivial_contains = Regex::new(NOT_A_REAL_REGEX); //~^ ERROR: trivial regex let trivial_backslash = Regex::new("a\\.b"); //~^ ERROR: trivial regex // unlikely corner cases let trivial_empty = Regex::new(""); //~^ ERROR: trivial regex let trivial_empty = Regex::new("^"); //~^ ERROR: trivial regex let trivial_empty = Regex::new("^$"); //~^ ERROR: trivial regex let binary_trivial_empty = BRegex::new("^$"); //~^ ERROR: trivial regex // non-trivial regexes let non_trivial_dot = Regex::new("a.b"); let non_trivial_dot_builder = RegexBuilder::new("a.b"); let non_trivial_dot = Regex::new("."); let non_trivial_dot = BRegex::new("."); let non_trivial_eq = Regex::new("^foo|bar$"); let non_trivial_starts_with = Regex::new("^foo|bar"); let non_trivial_ends_with = Regex::new("^foo|bar"); let non_trivial_ends_with = Regex::new("foo|bar"); let non_trivial_binary = BRegex::new("foo|bar"); let non_trivial_binary_builder = BRegexBuilder::new("foo|bar"); // #6005: unicode classes in bytes::Regex let a_byte_of_unicode = BRegex::new(r"\p{C}"); // start and end word boundary, introduced in regex 0.10 let _ = BRegex::new(r"\"); let _ = BRegex::new(r"\b{start}word\b{end}"); } fn main() { syntax_error(); trivial_regex(); }