ClickHouse/base/base/find_symbols.h
2023-07-07 00:20:54 +03:00

470 lines
16 KiB
C++

#pragma once
#include <cstdint>
#include <string>
#include <array>
#if defined(__SSE2__)
#include <emmintrin.h>
#endif
#if defined(__SSE4_2__)
#include <nmmintrin.h>
#endif
/** find_first_symbols<c1, c2, ...>(begin, end):
*
* Allow to search for next character from the set of 'symbols...' in a string.
* It is similar to 'strpbrk', 'strcspn' (and 'strchr', 'memchr' in the case of one symbol and '\0'),
* but with the following differences:
* - works with any memory ranges, including containing zero bytes;
* - doesn't require terminating zero byte: end of memory range is passed explicitly;
* - if not found, returns pointer to end instead of nullptr;
* - maximum number of symbols to search is 16.
*
* Uses SSE 2 in case of small number of symbols for search and SSE 4.2 in the case of large number of symbols,
* that have more than 2x performance advantage over trivial loop
* in the case of parsing tab-separated dump with (probably escaped) string fields.
* In the case of parsing tab separated dump with short strings, there is no performance degradation over trivial loop.
*
* Note: the optimal threshold to choose between SSE 2 and SSE 4.2 may depend on CPU model.
*
* find_last_symbols_or_null<c1, c2, ...>(begin, end):
*
* Allow to search for the last matching character in a string.
* If no such characters, returns nullptr.
*/
struct SearchSymbols
{
static constexpr auto BUFFER_SIZE = 16;
SearchSymbols() = default;
explicit SearchSymbols(std::string in)
: str(std::move(in))
{
#if defined(__SSE4_2__)
if (str.size() > BUFFER_SIZE)
{
throw std::runtime_error("SearchSymbols can contain at most " + std::to_string(BUFFER_SIZE) + " symbols and " + std::to_string(str.size()) + " was provided\n");
}
char tmp_safety_buffer[BUFFER_SIZE] = {0};
memcpy(tmp_safety_buffer, str.data(), str.size());
simd_vector = _mm_loadu_si128(reinterpret_cast<const __m128i *>(tmp_safety_buffer));
#endif
}
#if defined(__SSE4_2__)
__m128i simd_vector;
#endif
std::string str;
};
namespace detail
{
template <char ...chars> constexpr bool is_in(char x) { return ((x == chars) || ...); } // NOLINT(misc-redundant-expression)
static bool is_in(char c, const char * symbols, size_t num_chars)
{
for (size_t i = 0u; i < num_chars; ++i)
{
if (c == symbols[i])
{
return true;
}
}
return false;
}
#if defined(__SSE2__)
template <char s0>
inline __m128i mm_is_in(__m128i bytes)
{
__m128i eq0 = _mm_cmpeq_epi8(bytes, _mm_set1_epi8(s0));
return eq0;
}
template <char s0, char s1, char... tail>
inline __m128i mm_is_in(__m128i bytes)
{
__m128i eq0 = _mm_cmpeq_epi8(bytes, _mm_set1_epi8(s0));
__m128i eq = mm_is_in<s1, tail...>(bytes);
return _mm_or_si128(eq0, eq);
}
inline __m128i mm_is_in(__m128i bytes, const char * symbols, size_t num_chars)
{
__m128i accumulator = _mm_setzero_si128();
for (size_t i = 0; i < num_chars; ++i)
{
__m128i eq = _mm_cmpeq_epi8(bytes, _mm_set1_epi8(symbols[i]));
accumulator = _mm_or_si128(accumulator, eq);
}
return accumulator;
}
inline std::array<__m128i, 16u> mm_is_in_prepare(const char * symbols, size_t num_chars)
{
std::array<__m128i, 16u> result {};
for (size_t i = 0; i < num_chars; ++i)
{
result[i] = _mm_set1_epi8(symbols[i]);
}
return result;
}
inline __m128i mm_is_in_execute(__m128i bytes, const std::array<__m128i, 16u> & needles)
{
__m128i accumulator = _mm_setzero_si128();
for (const auto & needle : needles)
{
__m128i eq = _mm_cmpeq_epi8(bytes, needle);
accumulator = _mm_or_si128(accumulator, eq);
}
return accumulator;
}
#endif
template <bool positive>
constexpr bool maybe_negate(bool x) { return x == positive; }
template <bool positive>
constexpr uint16_t maybe_negate(uint16_t x)
{
if constexpr (positive)
return x;
else
return ~x;
}
enum class ReturnMode
{
End,
Nullptr,
};
template <bool positive, ReturnMode return_mode, char... symbols>
inline const char * find_first_symbols_sse2(const char * const begin, const char * const end)
{
const char * pos = begin;
#if defined(__SSE2__)
for (; pos + 15 < end; pos += 16)
{
__m128i bytes = _mm_loadu_si128(reinterpret_cast<const __m128i *>(pos));
__m128i eq = mm_is_in<symbols...>(bytes);
uint16_t bit_mask = maybe_negate<positive>(uint16_t(_mm_movemask_epi8(eq)));
if (bit_mask)
return pos + __builtin_ctz(bit_mask);
}
#endif
for (; pos < end; ++pos)
if (maybe_negate<positive>(is_in<symbols...>(*pos)))
return pos;
return return_mode == ReturnMode::End ? end : nullptr;
}
template <bool positive, ReturnMode return_mode>
inline const char * find_first_symbols_sse2(const char * const begin, const char * const end, const char * symbols, size_t num_chars)
{
const char * pos = begin;
#if defined(__SSE2__)
const auto needles = mm_is_in_prepare(symbols, num_chars);
for (; pos + 15 < end; pos += 16)
{
__m128i bytes = _mm_loadu_si128(reinterpret_cast<const __m128i *>(pos));
__m128i eq = mm_is_in_execute(bytes, needles);
uint16_t bit_mask = maybe_negate<positive>(uint16_t(_mm_movemask_epi8(eq)));
if (bit_mask)
return pos + __builtin_ctz(bit_mask);
}
#endif
for (; pos < end; ++pos)
if (maybe_negate<positive>(is_in(*pos, symbols, num_chars)))
return pos;
return return_mode == ReturnMode::End ? end : nullptr;
}
template <bool positive, ReturnMode return_mode, char... symbols>
inline const char * find_last_symbols_sse2(const char * const begin, const char * const end)
{
const char * pos = end;
#if defined(__SSE2__)
for (; pos - 16 >= begin; pos -= 16) /// Assuming the pointer cannot overflow. Assuming we can compare these pointers.
{
__m128i bytes = _mm_loadu_si128(reinterpret_cast<const __m128i *>(pos - 16));
__m128i eq = mm_is_in<symbols...>(bytes);
uint16_t bit_mask = maybe_negate<positive>(uint16_t(_mm_movemask_epi8(eq)));
if (bit_mask)
return pos - 1 - (__builtin_clz(bit_mask) - 16); /// because __builtin_clz works with mask as uint32.
}
#endif
--pos;
for (; pos >= begin; --pos)
if (maybe_negate<positive>(is_in<symbols...>(*pos)))
return pos;
return return_mode == ReturnMode::End ? end : nullptr;
}
template <bool positive, ReturnMode return_mode, size_t num_chars,
char c01, char c02 = 0, char c03 = 0, char c04 = 0,
char c05 = 0, char c06 = 0, char c07 = 0, char c08 = 0,
char c09 = 0, char c10 = 0, char c11 = 0, char c12 = 0,
char c13 = 0, char c14 = 0, char c15 = 0, char c16 = 0>
inline const char * find_first_symbols_sse42(const char * const begin, const char * const end)
{
const char * pos = begin;
#if defined(__SSE4_2__)
constexpr int mode = _SIDD_UBYTE_OPS | _SIDD_CMP_EQUAL_ANY | _SIDD_LEAST_SIGNIFICANT;
__m128i set = _mm_setr_epi8(c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11, c12, c13, c14, c15, c16);
for (; pos + 15 < end; pos += 16)
{
__m128i bytes = _mm_loadu_si128(reinterpret_cast<const __m128i *>(pos));
if constexpr (positive)
{
if (_mm_cmpestrc(set, num_chars, bytes, 16, mode))
return pos + _mm_cmpestri(set, num_chars, bytes, 16, mode);
}
else
{
if (_mm_cmpestrc(set, num_chars, bytes, 16, mode | _SIDD_NEGATIVE_POLARITY))
return pos + _mm_cmpestri(set, num_chars, bytes, 16, mode | _SIDD_NEGATIVE_POLARITY);
}
}
#endif
for (; pos < end; ++pos)
if ( (num_chars == 1 && maybe_negate<positive>(is_in<c01>(*pos)))
|| (num_chars == 2 && maybe_negate<positive>(is_in<c01, c02>(*pos)))
|| (num_chars == 3 && maybe_negate<positive>(is_in<c01, c02, c03>(*pos)))
|| (num_chars == 4 && maybe_negate<positive>(is_in<c01, c02, c03, c04>(*pos)))
|| (num_chars == 5 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05>(*pos)))
|| (num_chars == 6 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06>(*pos)))
|| (num_chars == 7 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07>(*pos)))
|| (num_chars == 8 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08>(*pos)))
|| (num_chars == 9 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09>(*pos)))
|| (num_chars == 10 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10>(*pos)))
|| (num_chars == 11 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11>(*pos)))
|| (num_chars == 12 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11, c12>(*pos)))
|| (num_chars == 13 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11, c12, c13>(*pos)))
|| (num_chars == 14 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11, c12, c13, c14>(*pos)))
|| (num_chars == 15 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11, c12, c13, c14, c15>(*pos)))
|| (num_chars == 16 && maybe_negate<positive>(is_in<c01, c02, c03, c04, c05, c06, c07, c08, c09, c10, c11, c12, c13, c14, c15, c16>(*pos))))
return pos;
return return_mode == ReturnMode::End ? end : nullptr;
}
template <bool positive, ReturnMode return_mode>
inline const char * find_first_symbols_sse42(const char * const begin, const char * const end, const SearchSymbols & symbols)
{
const char * pos = begin;
const auto num_chars = symbols.str.size();
#if defined(__SSE4_2__)
constexpr int mode = _SIDD_UBYTE_OPS | _SIDD_CMP_EQUAL_ANY | _SIDD_LEAST_SIGNIFICANT;
const __m128i set = symbols.simd_vector;
for (; pos + 15 < end; pos += 16)
{
__m128i bytes = _mm_loadu_si128(reinterpret_cast<const __m128i *>(pos));
if constexpr (positive)
{
if (_mm_cmpestrc(set, num_chars, bytes, 16, mode))
return pos + _mm_cmpestri(set, num_chars, bytes, 16, mode);
}
else
{
if (_mm_cmpestrc(set, num_chars, bytes, 16, mode | _SIDD_NEGATIVE_POLARITY))
return pos + _mm_cmpestri(set, num_chars, bytes, 16, mode | _SIDD_NEGATIVE_POLARITY);
}
}
#endif
for (; pos < end; ++pos)
if (maybe_negate<positive>(is_in(*pos, symbols.str.data(), num_chars)))
return pos;
return return_mode == ReturnMode::End ? end : nullptr;
}
/// NOTE No SSE 4.2 implementation for find_last_symbols_or_null. Not worth to do.
template <bool positive, ReturnMode return_mode, char... symbols>
inline const char * find_first_symbols_dispatch(const char * begin, const char * end)
requires(0 <= sizeof...(symbols) && sizeof...(symbols) <= 16)
{
#if defined(__SSE4_2__)
if (sizeof...(symbols) >= 5)
return find_first_symbols_sse42<positive, return_mode, sizeof...(symbols), symbols...>(begin, end);
else
#endif
return find_first_symbols_sse2<positive, return_mode, symbols...>(begin, end);
}
template <bool positive, ReturnMode return_mode>
inline const char * find_first_symbols_dispatch(const std::string_view haystack, const SearchSymbols & symbols)
{
#if defined(__SSE4_2__)
if (symbols.str.size() >= 5)
return find_first_symbols_sse42<positive, return_mode>(haystack.begin(), haystack.end(), symbols);
else
#endif
return find_first_symbols_sse2<positive, return_mode>(haystack.begin(), haystack.end(), symbols.str.data(), symbols.str.size());
}
}
template <char... symbols>
inline const char * find_first_symbols(const char * begin, const char * end)
{
return detail::find_first_symbols_dispatch<true, detail::ReturnMode::End, symbols...>(begin, end);
}
/// Returning non const result for non const arguments.
/// It is convenient when you are using this function to iterate through non-const buffer.
template <char... symbols>
inline char * find_first_symbols(char * begin, char * end)
{
return const_cast<char *>(detail::find_first_symbols_dispatch<true, detail::ReturnMode::End, symbols...>(begin, end));
}
inline const char * find_first_symbols(std::string_view haystack, const SearchSymbols & symbols)
{
return detail::find_first_symbols_dispatch<true, detail::ReturnMode::End>(haystack, symbols);
}
template <char... symbols>
inline const char * find_first_not_symbols(const char * begin, const char * end)
{
return detail::find_first_symbols_dispatch<false, detail::ReturnMode::End, symbols...>(begin, end);
}
template <char... symbols>
inline char * find_first_not_symbols(char * begin, char * end)
{
return const_cast<char *>(detail::find_first_symbols_dispatch<false, detail::ReturnMode::End, symbols...>(begin, end));
}
inline const char * find_first_not_symbols(std::string_view haystack, const SearchSymbols & symbols)
{
return detail::find_first_symbols_dispatch<false, detail::ReturnMode::End>(haystack, symbols);
}
template <char... symbols>
inline const char * find_first_symbols_or_null(const char * begin, const char * end)
{
return detail::find_first_symbols_dispatch<true, detail::ReturnMode::Nullptr, symbols...>(begin, end);
}
template <char... symbols>
inline char * find_first_symbols_or_null(char * begin, char * end)
{
return const_cast<char *>(detail::find_first_symbols_dispatch<true, detail::ReturnMode::Nullptr, symbols...>(begin, end));
}
inline const char * find_first_symbols_or_null(std::string_view haystack, const SearchSymbols & symbols)
{
return detail::find_first_symbols_dispatch<true, detail::ReturnMode::Nullptr>(haystack, symbols);
}
template <char... symbols>
inline const char * find_first_not_symbols_or_null(const char * begin, const char * end)
{
return detail::find_first_symbols_dispatch<false, detail::ReturnMode::Nullptr, symbols...>(begin, end);
}
template <char... symbols>
inline char * find_first_not_symbols_or_null(char * begin, char * end)
{
return const_cast<char *>(detail::find_first_symbols_dispatch<false, detail::ReturnMode::Nullptr, symbols...>(begin, end));
}
inline const char * find_first_not_symbols_or_null(std::string_view haystack, const SearchSymbols & symbols)
{
return detail::find_first_symbols_dispatch<false, detail::ReturnMode::Nullptr>(haystack, symbols);
}
template <char... symbols>
inline const char * find_last_symbols_or_null(const char * begin, const char * end)
{
return detail::find_last_symbols_sse2<true, detail::ReturnMode::Nullptr, symbols...>(begin, end);
}
template <char... symbols>
inline char * find_last_symbols_or_null(char * begin, char * end)
{
return const_cast<char *>(detail::find_last_symbols_sse2<true, detail::ReturnMode::Nullptr, symbols...>(begin, end));
}
template <char... symbols>
inline const char * find_last_not_symbols_or_null(const char * begin, const char * end)
{
return detail::find_last_symbols_sse2<false, detail::ReturnMode::Nullptr, symbols...>(begin, end);
}
template <char... symbols>
inline char * find_last_not_symbols_or_null(char * begin, char * end)
{
return const_cast<char *>(detail::find_last_symbols_sse2<false, detail::ReturnMode::Nullptr, symbols...>(begin, end));
}
/// Slightly resembles boost::split. The drawback of boost::split is that it fires a false positive in clang static analyzer.
/// See https://github.com/boostorg/algorithm/issues/63
/// And https://bugs.llvm.org/show_bug.cgi?id=41141
template <char... symbols, typename To>
inline To & splitInto(To & to, std::string_view what, bool token_compress = false)
{
const char * pos = what.data();
const char * end = pos + what.size();
while (pos < end)
{
const char * delimiter_or_end = find_first_symbols<symbols...>(pos, end);
if (!token_compress || pos < delimiter_or_end)
to.emplace_back(pos, delimiter_or_end - pos);
if (delimiter_or_end < end)
pos = delimiter_or_end + 1;
else
pos = delimiter_or_end;
}
return to;
}