#include #include #include #include //#define DBMS_HASH_MAP_COUNT_COLLISIONS #define DBMS_HASH_MAP_DEBUG_RESIZES #include #include #include #include #include #include #include #ifdef __SSE4_1__ #include #endif /** Do this: for file in MobilePhoneModel PageCharset Params URLDomain UTMSource Referer URL Title; do for size in 30000 100000 300000 1000000 5000000; do echo BEST_METHOD=0 BEST_RESULT=0 for method in {1..12}; do echo -ne $file $size $method ''; TOTAL_ELEMS=0 for i in {0..1000}; do TOTAL_ELEMS=$(( $TOTAL_ELEMS + $size )) if [[ $TOTAL_ELEMS -gt 25000000 ]]; then break; fi ./hash_map_string_2 $size $method < ${file}.bin 2>&1 | grep HashMap | grep -oE '[0-9\.]+ elem'; done | awk -W interactive '{ if ($1 > x) { x = $1 }; printf(".") } END { print x }' | tee /tmp/hash_map_string_2_res; CUR_RESULT=$(cat /tmp/hash_map_string_2_res | tr -d '.') if [[ $CUR_RESULT -gt $BEST_RESULT ]]; then BEST_METHOD=$method BEST_RESULT=$CUR_RESULT fi; done; echo Best: $BEST_METHOD - $BEST_RESULT done; done */ #define DefineStringRef(STRUCT) \ \ struct STRUCT : public StringRef {}; \ \ namespace ZeroTraits \ { \ template <> \ inline bool check(STRUCT x) { return 0 == x.size; } \ \ template <> \ inline void set(STRUCT & x) { x.size = 0; } \ } \ \ template <> \ struct DefaultHash \ { \ size_t operator() (STRUCT x) const \ { \ return CityHash_v1_0_2::CityHash64(x.data, x.size); \ } \ }; DefineStringRef(StringRef_Compare1_Ptrs) DefineStringRef(StringRef_Compare1_Index) DefineStringRef(StringRef_CompareMemcmp) DefineStringRef(StringRef_Compare8_1_byUInt64) DefineStringRef(StringRef_Compare16_1_byMemcmp) DefineStringRef(StringRef_Compare16_1_byUInt64_logicAnd) DefineStringRef(StringRef_Compare16_1_byUInt64_bitAnd) #ifdef __SSE4_1__ DefineStringRef(StringRef_Compare16_1_byIntSSE) DefineStringRef(StringRef_Compare16_1_byFloatSSE) DefineStringRef(StringRef_Compare16_1_bySSE4) DefineStringRef(StringRef_Compare16_1_bySSE4_wide) DefineStringRef(StringRef_Compare16_1_bySSE_wide) #endif DefineStringRef(StringRef_CompareAlwaysTrue) DefineStringRef(StringRef_CompareAlmostAlwaysTrue) inline bool operator==(StringRef_Compare1_Ptrs lhs, StringRef_Compare1_Ptrs rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; const char * pos1 = lhs.data; const char * pos2 = rhs.data; const char * end1 = pos1 + lhs.size; while (pos1 < end1) { if (*pos1 != *pos2) return false; ++pos1; ++pos2; } return true; } inline bool operator==(StringRef_Compare1_Index lhs, StringRef_Compare1_Index rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; for (size_t i = 0; i < lhs.size; ++i) if (lhs.data[i] != rhs.data[i]) return false; return true; } inline bool operator==(StringRef_CompareMemcmp lhs, StringRef_CompareMemcmp rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; return 0 == memcmp(lhs.data, rhs.data, lhs.size); } inline bool operator==(StringRef_Compare8_1_byUInt64 lhs, StringRef_Compare8_1_byUInt64 rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; const char * p1 = lhs.data; const char * p2 = rhs.data; size_t size = lhs.size; const char * p1_end = p1 + size; const char * p1_end_8 = p1 + size / 8 * 8; while (p1 < p1_end_8) { if (reinterpret_cast(p1)[0] != reinterpret_cast(p2)[0]) return false; p1 += 8; p2 += 8; } while (p1 < p1_end) { if (*p1 != *p2) return false; ++p1; ++p2; } return true; } inline bool compare_byMemcmp(const char * p1, const char * p2) { return 0 == memcmp(p1, p2, 16); } inline bool compare_byUInt64_logicAnd(const char * p1, const char * p2) { return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0] && reinterpret_cast(p1)[1] == reinterpret_cast(p2)[1]; } inline bool compare_byUInt64_bitAnd(const char * p1, const char * p2) { return (reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]) & (reinterpret_cast(p1)[1] == reinterpret_cast(p2)[1]); } #ifdef __SSE4_1__ inline bool compare_byIntSSE(const char * p1, const char * p2) { return 0xFFFF == _mm_movemask_epi8(_mm_cmpeq_epi8( _mm_loadu_si128(reinterpret_cast(p1)), _mm_loadu_si128(reinterpret_cast(p2)))); } inline bool compare_byFloatSSE(const char * p1, const char * p2) { return !_mm_movemask_ps(_mm_cmpneq_ps( /// Looks like incorrect while comparing subnormal floats. _mm_loadu_ps(reinterpret_cast(p1)), _mm_loadu_ps(reinterpret_cast(p2)))); } #endif template inline bool memequal(const char * p1, const char * p2, size_t size) { // const char * p1_end = p1 + size; const char * p1_end_16 = p1 + size / 16 * 16; while (p1 < p1_end_16) { if (!compare(p1, p2)) return false; p1 += 16; p2 += 16; } /* while (p1 < p1_end) { if (*p1 != *p2) return false; ++p1; ++p2; }*/ switch (size % 16) { case 15: if (p1[14] != p2[14]) return false; [[fallthrough]]; case 14: if (p1[13] != p2[13]) return false; [[fallthrough]]; case 13: if (p1[12] != p2[12]) return false; [[fallthrough]]; case 12: if (reinterpret_cast(p1)[2] == reinterpret_cast(p2)[2]) goto l8; else return false; case 11: if (p1[10] != p2[10]) return false; [[fallthrough]]; case 10: if (p1[9] != p2[9]) return false; [[fallthrough]]; case 9: if (p1[8] != p2[8]) return false; l8: [[fallthrough]]; case 8: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 7: if (p1[6] != p2[6]) return false; [[fallthrough]]; case 6: if (p1[5] != p2[5]) return false; [[fallthrough]]; case 5: if (p1[4] != p2[4]) return false; [[fallthrough]]; case 4: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 3: if (p1[2] != p2[2]) return false; [[fallthrough]]; case 2: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 1: if (p1[0] != p2[0]) return false; [[fallthrough]]; case 0: break; } return true; } #ifdef __SSE4_1__ inline bool memequal_sse41(const char * p1, const char * p2, size_t size) { // const char * p1_end = p1 + size; const char * p1_end_16 = p1 + size / 16 * 16; __m128i zero16 = _mm_setzero_si128(); while (p1 < p1_end_16) { if (!_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(reinterpret_cast(p1)), _mm_loadu_si128(reinterpret_cast(p2))))) return false; p1 += 16; p2 += 16; } /* while (p1 < p1_end) { if (*p1 != *p2) return false; ++p1; ++p2; }*/ switch (size % 16) { case 15: if (p1[14] != p2[14]) return false; [[fallthrough]]; case 14: if (p1[13] != p2[13]) return false; [[fallthrough]]; case 13: if (p1[12] != p2[12]) return false; [[fallthrough]]; case 12: if (reinterpret_cast(p1)[2] == reinterpret_cast(p2)[2]) goto l8; else return false; case 11: if (p1[10] != p2[10]) return false; [[fallthrough]]; case 10: if (p1[9] != p2[9]) return false; [[fallthrough]]; case 9: if (p1[8] != p2[8]) return false; l8: [[fallthrough]]; case 8: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 7: if (p1[6] != p2[6]) return false; [[fallthrough]]; case 6: if (p1[5] != p2[5]) return false; [[fallthrough]]; case 5: if (p1[4] != p2[4]) return false; [[fallthrough]]; case 4: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 3: if (p1[2] != p2[2]) return false; [[fallthrough]]; case 2: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 1: if (p1[0] != p2[0]) return false; [[fallthrough]]; case 0: break; } return true; } inline bool memequal_sse41_wide(const char * p1, const char * p2, size_t size) { __m128i zero16 = _mm_setzero_si128(); // const char * p1_end = p1 + size; while (size >= 64) { if (_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[0]), _mm_loadu_si128(&reinterpret_cast(p2)[0]))) && _mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[1]), _mm_loadu_si128(&reinterpret_cast(p2)[1]))) && _mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[2]), _mm_loadu_si128(&reinterpret_cast(p2)[2]))) && _mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[3]), _mm_loadu_si128(&reinterpret_cast(p2)[3])))) { p1 += 64; p2 += 64; size -= 64; } else return false; } switch ((size % 64) / 16) { case 3: if (!_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[2]), _mm_loadu_si128(&reinterpret_cast(p2)[2])))) return false; [[fallthrough]]; case 2: if (!_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[1]), _mm_loadu_si128(&reinterpret_cast(p2)[1])))) return false; [[fallthrough]]; case 1: if (!_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[0]), _mm_loadu_si128(&reinterpret_cast(p2)[0])))) return false; } p1 += (size % 64) / 16 * 16; p2 += (size % 64) / 16 * 16; /* if (size >= 32) { if (_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[0]), _mm_loadu_si128(&reinterpret_cast(p2)[0]))) & _mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[1]), _mm_loadu_si128(&reinterpret_cast(p2)[1])))) { p1 += 32; p2 += 32; size -= 32; } else return false; } if (size >= 16) { if (_mm_testc_si128( zero16, _mm_xor_si128( _mm_loadu_si128(&reinterpret_cast(p1)[0]), _mm_loadu_si128(&reinterpret_cast(p2)[0])))) { p1 += 16; p2 += 16; size -= 16; } else return false; }*/ switch (size % 16) { case 15: if (p1[14] != p2[14]) return false; [[fallthrough]]; case 14: if (p1[13] != p2[13]) return false; [[fallthrough]]; case 13: if (p1[12] != p2[12]) return false; [[fallthrough]]; case 12: if (reinterpret_cast(p1)[2] == reinterpret_cast(p2)[2]) goto l8; else return false; case 11: if (p1[10] != p2[10]) return false; [[fallthrough]]; case 10: if (p1[9] != p2[9]) return false; [[fallthrough]]; case 9: if (p1[8] != p2[8]) return false; l8: [[fallthrough]]; case 8: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 7: if (p1[6] != p2[6]) return false; [[fallthrough]]; case 6: if (p1[5] != p2[5]) return false; [[fallthrough]]; case 5: if (p1[4] != p2[4]) return false; [[fallthrough]]; case 4: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 3: if (p1[2] != p2[2]) return false; [[fallthrough]]; case 2: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 1: if (p1[0] != p2[0]) return false; [[fallthrough]]; case 0: break; } return true; } inline bool memequal_sse_wide(const char * p1, const char * p2, size_t size) { while (size >= 64) { if ( compare_byIntSSE(p1, p2) && compare_byIntSSE(p1 + 16, p2 + 16) && compare_byIntSSE(p1 + 32, p2 + 32) && compare_byIntSSE(p1 + 48, p2 + 48)) { p1 += 64; p2 += 64; size -= 64; } else return false; } switch ((size % 64) / 16) { case 3: if (!compare_byIntSSE(p1 + 32, p2 + 32)) return false; [[fallthrough]]; case 2: if (!compare_byIntSSE(p1 + 16, p2 + 16)) return false; [[fallthrough]]; case 1: if (!compare_byIntSSE(p1 , p2 )) return false; } p1 += (size % 64) / 16 * 16; p2 += (size % 64) / 16 * 16; switch (size % 16) { case 15: if (p1[14] != p2[14]) return false; [[fallthrough]]; case 14: if (p1[13] != p2[13]) return false; [[fallthrough]]; case 13: if (p1[12] != p2[12]) return false; [[fallthrough]]; case 12: if (reinterpret_cast(p1)[2] == reinterpret_cast(p2)[2]) goto l8; else return false; case 11: if (p1[10] != p2[10]) return false; [[fallthrough]]; case 10: if (p1[9] != p2[9]) return false; [[fallthrough]]; case 9: if (p1[8] != p2[8]) return false; l8: [[fallthrough]]; case 8: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 7: if (p1[6] != p2[6]) return false; [[fallthrough]]; case 6: if (p1[5] != p2[5]) return false; [[fallthrough]]; case 5: if (p1[4] != p2[4]) return false; [[fallthrough]]; case 4: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 3: if (p1[2] != p2[2]) return false; [[fallthrough]]; case 2: return reinterpret_cast(p1)[0] == reinterpret_cast(p2)[0]; case 1: if (p1[0] != p2[0]) return false; [[fallthrough]]; case 0: break; } return true; } #endif #define Op(METHOD) \ inline bool operator==(StringRef_Compare16_1_ ## METHOD lhs, StringRef_Compare16_1_ ## METHOD rhs) \ { \ if (lhs.size != rhs.size) \ return false; \ \ if (lhs.size == 0) \ return true; \ \ return memequal(lhs.data, rhs.data, lhs.size); \ } Op(byMemcmp) Op(byUInt64_logicAnd) Op(byUInt64_bitAnd) #ifdef __SSE4_1__ Op(byIntSSE) Op(byFloatSSE) inline bool operator==(StringRef_Compare16_1_bySSE4 lhs, StringRef_Compare16_1_bySSE4 rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; return memequal_sse41(lhs.data, rhs.data, lhs.size); } inline bool operator==(StringRef_Compare16_1_bySSE4_wide lhs, StringRef_Compare16_1_bySSE4_wide rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; return memequal_sse41_wide(lhs.data, rhs.data, lhs.size); } inline bool operator==(StringRef_Compare16_1_bySSE_wide lhs, StringRef_Compare16_1_bySSE_wide rhs) { if (lhs.size != rhs.size) return false; if (lhs.size == 0) return true; return memequal_sse_wide(lhs.data, rhs.data, lhs.size); } #endif inline bool operator==(StringRef_CompareAlwaysTrue, StringRef_CompareAlwaysTrue) { return true; } inline bool operator==(StringRef_CompareAlmostAlwaysTrue lhs, StringRef_CompareAlmostAlwaysTrue rhs) { if (lhs.size != rhs.size) return false; return true; } using Value = UInt64; template void NO_INLINE bench(const std::vector & data, const char * name) { Stopwatch watch; using Map = HashMapWithSavedHash>; Map map; typename Map::iterator it; bool inserted; for (size_t i = 0, size = data.size(); i < size; ++i) { map.emplace(static_cast(data[i]), it, inserted); if (inserted) it->second = 0; ++it->second; } watch.stop(); std::cerr << std::fixed << std::setprecision(2) << "HashMap (" << name << "). Size: " << map.size() << ", elapsed: " << watch.elapsedSeconds() << " (" << data.size() / watch.elapsedSeconds() << " elem/sec.)" #ifdef DBMS_HASH_MAP_COUNT_COLLISIONS << ", collisions: " << map.getCollisions() #endif << std::endl; } int main(int argc, char ** argv) { if (argc < 3) { std::cerr << "Usage: program n m\n"; return 1; } size_t n = atoi(argv[1]); size_t m = atoi(argv[2]); DB::Arena pool; std::vector data(n); std::cerr << "sizeof(Key) = " << sizeof(StringRef) << ", sizeof(Value) = " << sizeof(Value) << std::endl; { Stopwatch watch; DB::ReadBufferFromFileDescriptor in1(STDIN_FILENO); DB::CompressedReadBuffer in2(in1); std::string tmp; for (size_t i = 0; i < n && !in2.eof(); ++i) { DB::readStringBinary(tmp, in2); data[i] = StringRef(pool.insert(tmp.data(), tmp.size()), tmp.size()); } watch.stop(); std::cerr << std::fixed << std::setprecision(2) << "Vector. Size: " << n << ", elapsed: " << watch.elapsedSeconds() << " (" << n / watch.elapsedSeconds() << " elem/sec.)" << std::endl; } if (!m || m == 1) bench (data, "StringRef_Compare1_Ptrs"); if (!m || m == 2) bench (data, "StringRef_Compare1_Index"); if (!m || m == 3) bench (data, "StringRef_CompareMemcmp"); if (!m || m == 4) bench (data, "StringRef_Compare8_1_byUInt64"); if (!m || m == 5) bench (data, "StringRef_Compare16_1_byMemcmp"); if (!m || m == 6) bench(data, "StringRef_Compare16_1_byUInt64_logicAnd"); if (!m || m == 7) bench (data, "StringRef_Compare16_1_byUInt64_bitAnd"); #ifdef __SSE4_1__ if (!m || m == 8) bench (data, "StringRef_Compare16_1_byIntSSE"); if (!m || m == 9) bench (data, "StringRef_Compare16_1_byFloatSSE"); if (!m || m == 10) bench (data, "StringRef_Compare16_1_bySSE4"); if (!m || m == 11) bench (data, "StringRef_Compare16_1_bySSE4_wide"); if (!m || m == 12) bench (data, "StringRef_Compare16_1_bySSE_wide"); #endif if (!m || m == 100) bench (data, "StringRef_CompareAlwaysTrue"); if (!m || m == 101) bench (data, "StringRef_CompareAlmostAlwaysTrue"); /// 10 > 8, 9 /// 1, 2, 5 - bad return 0; }