// Copyright 2006 The RE2 Authors. All Rights Reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Test simplify.cc. #include #include #include "util/test.h" #include "util/logging.h" #include "re2/regexp.h" namespace re2 { struct Test { const char* regexp; const char* simplified; }; static Test tests[] = { // Already-simple constructs { "a", "a" }, { "ab", "ab" }, { "a|b", "[a-b]" }, { "ab|cd", "ab|cd" }, { "(ab)*", "(ab)*" }, { "(ab)+", "(ab)+" }, { "(ab)?", "(ab)?" }, { ".", "." }, { "^", "^" }, { "$", "$" }, { "[ac]", "[ac]" }, { "[^ac]", "[^ac]" }, // Posix character classes { "[[:alnum:]]", "[0-9A-Za-z]" }, { "[[:alpha:]]", "[A-Za-z]" }, { "[[:blank:]]", "[\\t ]" }, { "[[:cntrl:]]", "[\\x00-\\x1f\\x7f]" }, { "[[:digit:]]", "[0-9]" }, { "[[:graph:]]", "[!-~]" }, { "[[:lower:]]", "[a-z]" }, { "[[:print:]]", "[ -~]" }, { "[[:punct:]]", "[!-/:-@\\[-`{-~]" }, { "[[:space:]]" , "[\\t-\\r ]" }, { "[[:upper:]]", "[A-Z]" }, { "[[:xdigit:]]", "[0-9A-Fa-f]" }, // Perl character classes { "\\d", "[0-9]" }, { "\\s", "[\\t-\\n\\f-\\r ]" }, { "\\w", "[0-9A-Z_a-z]" }, { "\\D", "[^0-9]" }, { "\\S", "[^\\t-\\n\\f-\\r ]" }, { "\\W", "[^0-9A-Z_a-z]" }, { "[\\d]", "[0-9]" }, { "[\\s]", "[\\t-\\n\\f-\\r ]" }, { "[\\w]", "[0-9A-Z_a-z]" }, { "[\\D]", "[^0-9]" }, { "[\\S]", "[^\\t-\\n\\f-\\r ]" }, { "[\\W]", "[^0-9A-Z_a-z]" }, // Posix repetitions { "a{1}", "a" }, { "a{2}", "aa" }, { "a{5}", "aaaaa" }, { "a{0,1}", "a?" }, // The next three are illegible because Simplify inserts (?:) // parens instead of () parens to avoid creating extra // captured subexpressions. The comments show a version fewer parens. { "(a){0,2}", "(?:(a)(a)?)?" }, // (aa?)? { "(a){0,4}", "(?:(a)(?:(a)(?:(a)(a)?)?)?)?" }, // (a(a(aa?)?)?)? { "(a){2,6}", "(a)(a)(?:(a)(?:(a)(?:(a)(a)?)?)?)?" }, // aa(a(a(aa?)?)?)? { "a{0,2}", "(?:aa?)?" }, // (aa?)? { "a{0,4}", "(?:a(?:a(?:aa?)?)?)?" }, // (a(a(aa?)?)?)? { "a{2,6}", "aa(?:a(?:a(?:aa?)?)?)?" }, // aa(a(a(aa?)?)?)? { "a{0,}", "a*" }, { "a{1,}", "a+" }, { "a{2,}", "aa+" }, { "a{5,}", "aaaaa+" }, // Test that operators simplify their arguments. // (Simplify used to not simplify arguments to a {} repeat.) { "(?:a{1,}){1,}", "a+" }, { "(a{1,}b{1,})", "(a+b+)" }, { "a{1,}|b{1,}", "a+|b+" }, { "(?:a{1,})*", "(?:a+)*" }, { "(?:a{1,})+", "a+" }, { "(?:a{1,})?", "(?:a+)?" }, { "a{0}", "" }, // Character class simplification { "[ab]", "[a-b]" }, { "[a-za-za-z]", "[a-z]" }, { "[A-Za-zA-Za-z]", "[A-Za-z]" }, { "[ABCDEFGH]", "[A-H]" }, { "[AB-CD-EF-GH]", "[A-H]" }, { "[W-ZP-XE-R]", "[E-Z]" }, { "[a-ee-gg-m]", "[a-m]" }, { "[a-ea-ha-m]", "[a-m]" }, { "[a-ma-ha-e]", "[a-m]" }, { "[a-zA-Z0-9 -~]", "[ -~]" }, // Empty character classes { "[^[:cntrl:][:^cntrl:]]", "[^\\x00-\\x{10ffff}]" }, // Full character classes { "[[:cntrl:][:^cntrl:]]", "." }, // Unicode case folding. { "(?i)A", "[Aa]" }, { "(?i)a", "[Aa]" }, { "(?i)K", "[Kk\\x{212a}]" }, { "(?i)k", "[Kk\\x{212a}]" }, { "(?i)\\x{212a}", "[Kk\\x{212a}]" }, { "(?i)[a-z]", "[A-Za-z\\x{17f}\\x{212a}]" }, { "(?i)[\\x00-\\x{FFFD}]", "[\\x00-\\x{fffd}]" }, { "(?i)[\\x00-\\x{10ffff}]", "." }, // Empty string as a regular expression. // Empty string must be preserved inside parens in order // to make submatches work right, so these are less // interesting than they used to be. ToString inserts // explicit (?:) in place of non-parenthesized empty strings, // to make them easier to spot for other parsers. { "(a|b|)", "([a-b]|(?:))" }, { "(|)", "((?:)|(?:))" }, { "a()", "a()" }, { "(()|())", "(()|())" }, { "(a|)", "(a|(?:))" }, { "ab()cd()", "ab()cd()" }, { "()", "()" }, { "()*", "()*" }, { "()+", "()+" }, { "()?" , "()?" }, { "(){0}", "" }, { "(){1}", "()" }, { "(){1,}", "()+" }, { "(){0,2}", "(?:()()?)?" }, // Test that coalescing occurs and that the resulting repeats are simplified. // Two-op combinations of *, +, ?, {n}, {n,} and {n,m} with a literal: { "a*a*", "a*" }, { "a*a+", "a+" }, { "a*a?", "a*" }, { "a*a{2}", "aa+" }, { "a*a{2,}", "aa+" }, { "a*a{2,3}", "aa+" }, { "a+a*", "a+" }, { "a+a+", "aa+" }, { "a+a?", "a+" }, { "a+a{2}", "aaa+" }, { "a+a{2,}", "aaa+" }, { "a+a{2,3}", "aaa+" }, { "a?a*", "a*" }, { "a?a+", "a+" }, { "a?a?", "(?:aa?)?" }, { "a?a{2}", "aaa?" }, { "a?a{2,}", "aa+" }, { "a?a{2,3}", "aa(?:aa?)?" }, { "a{2}a*", "aa+" }, { "a{2}a+", "aaa+" }, { "a{2}a?", "aaa?" }, { "a{2}a{2}", "aaaa" }, { "a{2}a{2,}", "aaaa+" }, { "a{2}a{2,3}", "aaaaa?" }, { "a{2,}a*", "aa+" }, { "a{2,}a+", "aaa+" }, { "a{2,}a?", "aa+" }, { "a{2,}a{2}", "aaaa+" }, { "a{2,}a{2,}", "aaaa+" }, { "a{2,}a{2,3}", "aaaa+" }, { "a{2,3}a*", "aa+" }, { "a{2,3}a+", "aaa+" }, { "a{2,3}a?", "aa(?:aa?)?" }, { "a{2,3}a{2}", "aaaaa?" }, { "a{2,3}a{2,}", "aaaa+" }, { "a{2,3}a{2,3}", "aaaa(?:aa?)?" }, // With a char class, any char and any byte: { "\\d*\\d*", "[0-9]*" }, { ".*.*", ".*" }, { "\\C*\\C*", "\\C*" }, // FoldCase works, but must be consistent: { "(?i)A*a*", "[Aa]*" }, { "(?i)a+A+", "[Aa][Aa]+" }, { "(?i)A*(?-i)a*", "[Aa]*a*" }, { "(?i)a+(?-i)A+", "[Aa]+A+" }, // NonGreedy works, but must be consistent: { "a*?a*?", "a*?" }, { "a+?a+?", "aa+?" }, { "a*?a*", "a*?a*" }, { "a+a+?", "a+a+?" }, // The second element is the literal, char class, any char or any byte: { "a*a", "a+" }, { "\\d*\\d", "[0-9]+" }, { ".*.", ".+" }, { "\\C*\\C", "\\C+" }, // FoldCase works, but must be consistent: { "(?i)A*a", "[Aa]+" }, { "(?i)a+A", "[Aa][Aa]+" }, { "(?i)A*(?-i)a", "[Aa]*a" }, { "(?i)a+(?-i)A", "[Aa]+A" }, // The second element is a literal string that begins with the literal: { "a*aa", "aa+" }, { "a*aab", "aa+b" }, // FoldCase works, but must be consistent: { "(?i)a*aa", "[Aa][Aa]+" }, { "(?i)a*aab", "[Aa][Aa]+[Bb]" }, { "(?i)a*(?-i)aa", "[Aa]*aa" }, { "(?i)a*(?-i)aab", "[Aa]*aab" }, // Negative tests with mismatching ops: { "a*b*", "a*b*" }, { "\\d*\\D*", "[0-9]*[^0-9]*" }, { "a+b", "a+b" }, { "\\d+\\D", "[0-9]+[^0-9]" }, { "a?bb", "a?bb" }, // Negative tests with capturing groups: { "(a*)a*", "(a*)a*" }, { "a+(a)", "a+(a)" }, { "(a?)(aa)", "(a?)(aa)" }, // Just for fun: { "aa*aa+aa?aa{2}aaa{2,}aaa{2,3}a", "aaaaaaaaaaaaaaaa+" }, // During coalescing, the child of the repeat changes, so we build a new // repeat. The new repeat must have the min and max of the old repeat. // Failure to copy them results in min=0 and max=0 -> empty match. { "(?:a*aab){2}", "aa+baa+b" }, // During coalescing, the child of the capture changes, so we build a new // capture. The new capture must have the cap of the old capture. // Failure to copy it results in cap=0 -> ToString() logs a fatal error. { "(a*aab)", "(aa+b)" }, // Test squashing of **, ++, ?? et cetera. { "(?:(?:a){0,}){0,}", "a*" }, { "(?:(?:a){1,}){1,}", "a+" }, { "(?:(?:a){0,1}){0,1}", "a?" }, { "(?:(?:a){0,}){1,}", "a*" }, { "(?:(?:a){0,}){0,1}", "a*" }, { "(?:(?:a){1,}){0,}", "a*" }, { "(?:(?:a){1,}){0,1}", "a*" }, { "(?:(?:a){0,1}){0,}", "a*" }, { "(?:(?:a){0,1}){1,}", "a*" }, }; TEST(TestSimplify, SimpleRegexps) { for (int i = 0; i < arraysize(tests); i++) { RegexpStatus status; VLOG(1) << "Testing " << tests[i].regexp; Regexp* re = Regexp::Parse(tests[i].regexp, Regexp::MatchNL | (Regexp::LikePerl & ~Regexp::OneLine), &status); ASSERT_TRUE(re != NULL) << " " << tests[i].regexp << " " << status.Text(); Regexp* sre = re->Simplify(); ASSERT_TRUE(sre != NULL); // Check that already-simple regexps don't allocate new ones. if (strcmp(tests[i].regexp, tests[i].simplified) == 0) { ASSERT_TRUE(re == sre) << " " << tests[i].regexp << " " << re->ToString() << " " << sre->ToString(); } EXPECT_EQ(tests[i].simplified, sre->ToString()) << " " << tests[i].regexp << " " << sre->Dump(); re->Decref(); sre->Decref(); } } } // namespace re2