ClickHouse/src/Common/OptimizedRegularExpression.cpp
2020-06-14 03:43:42 +03:00

517 lines
17 KiB
C++

#include <Common/Exception.h>
#include <Common/PODArray.h>
#include <Common/OptimizedRegularExpression.h>
#define MIN_LENGTH_FOR_STRSTR 3
#define MAX_SUBPATTERNS 1024
namespace DB
{
namespace ErrorCodes
{
extern const int CANNOT_COMPILE_REGEXP;
}
}
template <bool thread_safe>
void OptimizedRegularExpressionImpl<thread_safe>::analyze(
const std::string & regexp,
std::string & required_substring,
bool & is_trivial,
bool & required_substring_is_prefix)
{
/** The expression is trivial if all the metacharacters in it are escaped.
* The non-alternative string is
* a string outside parentheses,
* in which all metacharacters are escaped,
* and also if there are no '|' outside the brackets,
* and also avoid substrings of the form `http://` or `www` and some other
* (this is the hack for typical use case in Yandex.Metrica).
*/
const char * begin = regexp.data();
const char * pos = begin;
const char * end = regexp.data() + regexp.size();
int depth = 0;
is_trivial = true;
required_substring_is_prefix = false;
required_substring.clear();
bool has_alternative_on_depth_0 = false;
bool has_case_insensitive_flag = false;
/// Substring with a position.
using Substring = std::pair<std::string, size_t>;
using Substrings = std::vector<Substring>;
Substrings trivial_substrings(1);
Substring * last_substring = &trivial_substrings.back();
bool in_curly_braces = false;
bool in_square_braces = false;
while (pos != end)
{
switch (*pos)
{
case '\0':
pos = end;
break;
case '\\':
{
++pos;
if (pos == end)
break;
switch (*pos)
{
case '|':
case '(':
case ')':
case '^':
case '$':
case '.':
case '[':
case '?':
case '*':
case '+':
case '{':
if (depth == 0 && !in_curly_braces && !in_square_braces)
{
if (last_substring->first.empty())
last_substring->second = pos - begin;
last_substring->first.push_back(*pos);
}
break;
default:
/// all other escape sequences are not supported
is_trivial = false;
if (!last_substring->first.empty())
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
break;
}
++pos;
break;
}
case '|':
if (depth == 0)
has_alternative_on_depth_0 = true;
is_trivial = false;
if (!in_square_braces && !last_substring->first.empty())
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
++pos;
break;
case '(':
if (!in_square_braces)
{
++depth;
is_trivial = false;
if (!last_substring->first.empty())
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
/// Check for case-insensitive flag.
if (pos + 1 < end && pos[1] == '?')
{
for (size_t offset = 2; pos + offset < end; ++offset)
{
if (pos[offset] == '-' /// it means flag negation
/// various possible flags, actually only imsU are supported by re2
|| (pos[offset] >= 'a' && pos[offset] <= 'z')
|| (pos[offset] >= 'A' && pos[offset] <= 'Z'))
{
if (pos[offset] == 'i')
{
/// Actually it can be negated case-insensitive flag. But we don't care.
has_case_insensitive_flag = true;
break;
}
}
else
break;
}
}
}
++pos;
break;
case '[':
in_square_braces = true;
++depth;
is_trivial = false;
if (!last_substring->first.empty())
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
++pos;
break;
case ']':
if (!in_square_braces)
goto ordinary;
in_square_braces = false;
--depth;
is_trivial = false;
if (!last_substring->first.empty())
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
++pos;
break;
case ')':
if (!in_square_braces)
{
--depth;
is_trivial = false;
if (!last_substring->first.empty())
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
}
++pos;
break;
case '^': case '$': case '.': case '+':
is_trivial = false;
if (!last_substring->first.empty() && !in_square_braces)
{
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
++pos;
break;
/// Quantifiers that allow a zero number of occurrences.
case '{':
in_curly_braces = true;
[[fallthrough]];
case '?':
[[fallthrough]];
case '*':
is_trivial = false;
if (!last_substring->first.empty() && !in_square_braces)
{
last_substring->first.resize(last_substring->first.size() - 1);
trivial_substrings.resize(trivial_substrings.size() + 1);
last_substring = &trivial_substrings.back();
}
++pos;
break;
case '}':
if (!in_curly_braces)
goto ordinary;
in_curly_braces = false;
++pos;
break;
ordinary: /// Normal, not escaped symbol.
[[fallthrough]];
default:
if (depth == 0 && !in_curly_braces && !in_square_braces)
{
if (last_substring->first.empty())
last_substring->second = pos - begin;
last_substring->first.push_back(*pos);
}
++pos;
break;
}
}
if (last_substring && last_substring->first.empty())
trivial_substrings.pop_back();
if (!is_trivial)
{
if (!has_alternative_on_depth_0 && !has_case_insensitive_flag)
{
/// We choose the non-alternative substring of the maximum length for first search.
/// Tuning for typical usage domain
auto tuning_strings_condition = [](const std::string & str)
{
return str != "://" && str != "http://" && str != "www" && str != "Windows ";
};
size_t max_length = 0;
Substrings::const_iterator candidate_it = trivial_substrings.begin();
for (Substrings::const_iterator it = trivial_substrings.begin(); it != trivial_substrings.end(); ++it)
{
if (it->first.size() > max_length && tuning_strings_condition(it->first))
{
max_length = it->first.size();
candidate_it = it;
}
}
if (max_length >= MIN_LENGTH_FOR_STRSTR)
{
required_substring = candidate_it->first;
required_substring_is_prefix = candidate_it->second == 0;
}
}
}
else if (!trivial_substrings.empty())
{
required_substring = trivial_substrings.front().first;
required_substring_is_prefix = trivial_substrings.front().second == 0;
}
/* std::cerr
<< "regexp: " << regexp
<< ", is_trivial: " << is_trivial
<< ", required_substring: " << required_substring
<< ", required_substring_is_prefix: " << required_substring_is_prefix
<< std::endl;*/
}
template <bool thread_safe>
OptimizedRegularExpressionImpl<thread_safe>::OptimizedRegularExpressionImpl(const std::string & regexp_, int options)
{
analyze(regexp_, required_substring, is_trivial, required_substring_is_prefix);
/// Just three following options are supported
if (options & (~(RE_CASELESS | RE_NO_CAPTURE | RE_DOT_NL)))
throw DB::Exception("OptimizedRegularExpression: Unsupported option.", DB::ErrorCodes::CANNOT_COMPILE_REGEXP);
is_case_insensitive = options & RE_CASELESS;
bool is_no_capture = options & RE_NO_CAPTURE;
bool is_dot_nl = options & RE_DOT_NL;
number_of_subpatterns = 0;
if (!is_trivial)
{
/// Compile the re2 regular expression.
typename RegexType::Options regexp_options;
/// Never write error messages to stderr. It's ignorant to do it from library code.
regexp_options.set_log_errors(false);
if (is_case_insensitive)
regexp_options.set_case_sensitive(false);
if (is_dot_nl)
regexp_options.set_dot_nl(true);
re2 = std::make_unique<RegexType>(regexp_, regexp_options);
if (!re2->ok())
{
throw DB::Exception("OptimizedRegularExpression: cannot compile re2: "
+ regexp_ + ", error: " + re2->error()
+ ". Look at https://github.com/google/re2/wiki/Syntax "
"for reference. Please note that if you specify regex as an SQL "
"string literal, the slashes have to be additionally escaped. "
"For example, to match an opening brace, write '\\(' -- "
"the first slash is for SQL and the second one is for regex",
DB::ErrorCodes::CANNOT_COMPILE_REGEXP);
}
if (!is_no_capture)
{
number_of_subpatterns = re2->NumberOfCapturingGroups();
if (number_of_subpatterns > MAX_SUBPATTERNS)
throw DB::Exception("OptimizedRegularExpression: too many subpatterns in regexp: " + regexp_, DB::ErrorCodes::CANNOT_COMPILE_REGEXP);
}
}
if (!required_substring.empty())
{
if (is_case_insensitive)
case_insensitive_substring_searcher.emplace(required_substring.data(), required_substring.size());
else
case_sensitive_substring_searcher.emplace(required_substring.data(), required_substring.size());
}
}
template <bool thread_safe>
bool OptimizedRegularExpressionImpl<thread_safe>::match(const char * subject, size_t subject_size) const
{
const UInt8 * haystack = reinterpret_cast<const UInt8 *>(subject);
const UInt8 * haystack_end = haystack + subject_size;
if (is_trivial)
{
if (required_substring.empty())
return true;
if (is_case_insensitive)
return haystack_end != case_insensitive_substring_searcher->search(haystack, subject_size);
else
return haystack_end != case_sensitive_substring_searcher->search(haystack, subject_size);
}
else
{
if (!required_substring.empty())
{
if (is_case_insensitive)
{
if (haystack_end == case_insensitive_substring_searcher->search(haystack, subject_size))
return false;
}
else
{
if (haystack_end == case_sensitive_substring_searcher->search(haystack, subject_size))
return false;
}
}
return re2->Match(StringPieceType(subject, subject_size), 0, subject_size, RegexType::UNANCHORED, nullptr, 0);
}
}
template <bool thread_safe>
bool OptimizedRegularExpressionImpl<thread_safe>::match(const char * subject, size_t subject_size, Match & match) const
{
const UInt8 * haystack = reinterpret_cast<const UInt8 *>(subject);
const UInt8 * haystack_end = haystack + subject_size;
if (is_trivial)
{
if (required_substring.empty())
return true;
const UInt8 * pos;
if (is_case_insensitive)
pos = case_insensitive_substring_searcher->search(haystack, subject_size);
else
pos = case_sensitive_substring_searcher->search(haystack, subject_size);
if (haystack_end == pos)
return false;
else
{
match.offset = pos - haystack;
match.length = required_substring.size();
return true;
}
}
else
{
if (!required_substring.empty())
{
const UInt8 * pos;
if (is_case_insensitive)
pos = case_insensitive_substring_searcher->search(haystack, subject_size);
else
pos = case_sensitive_substring_searcher->search(haystack, subject_size);
if (haystack_end == pos)
return false;
}
StringPieceType piece;
if (!RegexType::PartialMatch(StringPieceType(subject, subject_size), *re2, &piece))
return false;
else
{
match.offset = piece.data() - subject;
match.length = piece.length();
return true;
}
}
}
template <bool thread_safe>
unsigned OptimizedRegularExpressionImpl<thread_safe>::match(const char * subject, size_t subject_size, MatchVec & matches, unsigned limit) const
{
const UInt8 * haystack = reinterpret_cast<const UInt8 *>(subject);
const UInt8 * haystack_end = haystack + subject_size;
matches.clear();
if (limit == 0)
return 0;
if (limit > number_of_subpatterns + 1)
limit = number_of_subpatterns + 1;
if (is_trivial)
{
if (required_substring.empty())
{
matches.emplace_back(Match{0, 0});
return 1;
}
const UInt8 * pos;
if (is_case_insensitive)
pos = case_insensitive_substring_searcher->search(haystack, subject_size);
else
pos = case_sensitive_substring_searcher->search(haystack, subject_size);
if (haystack_end == pos)
return 0;
else
{
Match match;
match.offset = pos - haystack;
match.length = required_substring.size();
matches.push_back(match);
return 1;
}
}
else
{
if (!required_substring.empty())
{
const UInt8 * pos;
if (is_case_insensitive)
pos = case_insensitive_substring_searcher->search(haystack, subject_size);
else
pos = case_sensitive_substring_searcher->search(haystack, subject_size);
if (haystack_end == pos)
return 0;
}
DB::PODArrayWithStackMemory<StringPieceType, 128> pieces(limit);
if (!re2->Match(StringPieceType(subject, subject_size), 0, subject_size, RegexType::UNANCHORED, pieces.data(), pieces.size()))
return 0;
else
{
matches.resize(limit);
for (size_t i = 0; i < limit; ++i)
{
if (pieces[i] != nullptr)
{
matches[i].offset = pieces[i].data() - subject;
matches[i].length = pieces[i].length();
}
else
{
matches[i].offset = std::string::npos;
matches[i].length = 0;
}
}
return limit;
}
}
}
template class OptimizedRegularExpressionImpl<true>;
template class OptimizedRegularExpressionImpl<false>;