mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-12-15 19:02:04 +00:00
479 lines
12 KiB
C++
479 lines
12 KiB
C++
#include <iostream>
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#include <iomanip>
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#include <vector>
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#include <unordered_map>
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#include <sparsehash/dense_hash_map>
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#include <sparsehash/sparse_hash_map>
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#include <statdaemons/Stopwatch.h>
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//#define DBMS_HASH_MAP_COUNT_COLLISIONS
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#define DBMS_HASH_MAP_DEBUG_RESIZES
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#include <DB/Core/Types.h>
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#include <DB/IO/ReadBufferFromFile.h>
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#include <DB/IO/ReadHelpers.h>
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#include <DB/IO/CompressedReadBuffer.h>
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#include <DB/Core/StringRef.h>
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#include <DB/Common/HashTable/HashMap.h>
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#include <DB/Interpreters/AggregationCommon.h>
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struct CompactStringRef
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{
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union
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{
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const char * data_mixed = nullptr;
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struct
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{
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char dummy[6];
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UInt16 size;
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};
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};
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CompactStringRef(const char * data_, size_t size_)
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{
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data_mixed = data_;
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size = size_;
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}
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CompactStringRef(const unsigned char * data_, size_t size_) : CompactStringRef(reinterpret_cast<const char *>(data_), size_) {}
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CompactStringRef(const std::string & s) : CompactStringRef(s.data(), s.size()) {}
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CompactStringRef() {}
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const char * data() const { return reinterpret_cast<const char *>(reinterpret_cast<intptr_t>(data_mixed) & 0x0000FFFFFFFFFFFFULL); }
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std::string toString() const { return std::string(data(), size); }
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};
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inline bool operator==(CompactStringRef lhs, CompactStringRef rhs)
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{
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if (lhs.size != rhs.size)
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return false;
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const char * lhs_data = lhs.data();
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const char * rhs_data = rhs.data();
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for (size_t pos = lhs.size - 1; pos < lhs.size; --pos)
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if (lhs_data[pos] != rhs_data[pos])
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return false;
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return true;
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}
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namespace ZeroTraits
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{
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template <>
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inline bool check<CompactStringRef>(CompactStringRef x) { return nullptr == x.data_mixed; }
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template <>
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inline void set<CompactStringRef>(CompactStringRef & x) { x.data_mixed = nullptr; }
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};
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template <>
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struct DefaultHash<CompactStringRef>
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{
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size_t operator() (CompactStringRef x) const
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{
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return CityHash64(x.data(), x.size);
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}
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};
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#define mix(h) ({ \
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(h) ^= (h) >> 23; \
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(h) *= 0x2127599bf4325c37ULL; \
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(h) ^= (h) >> 47; })
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struct FastHash64
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{
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size_t operator() (CompactStringRef x) const
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{
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const char * buf = x.data();
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size_t len = x.size;
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const uint64_t m = 0x880355f21e6d1965ULL;
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const uint64_t *pos = (const uint64_t *)buf;
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const uint64_t *end = pos + (len / 8);
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const unsigned char *pos2;
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uint64_t h = len * m;
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uint64_t v;
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while (pos != end) {
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v = *pos++;
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h ^= mix(v);
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h *= m;
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}
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pos2 = (const unsigned char*)pos;
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v = 0;
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switch (len & 7) {
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case 7: v ^= (uint64_t)pos2[6] << 48;
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case 6: v ^= (uint64_t)pos2[5] << 40;
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case 5: v ^= (uint64_t)pos2[4] << 32;
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case 4: v ^= (uint64_t)pos2[3] << 24;
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case 3: v ^= (uint64_t)pos2[2] << 16;
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case 2: v ^= (uint64_t)pos2[1] << 8;
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case 1: v ^= (uint64_t)pos2[0];
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h ^= mix(v);
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h *= m;
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}
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return mix(h);
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}
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};
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struct CrapWow
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{
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size_t operator() (CompactStringRef x) const
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{
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const char * key = x.data();
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size_t len = x.size;
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size_t seed = 0;
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const UInt64 m = 0x95b47aa3355ba1a1, n = 0x8a970be7488fda55;
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UInt64 hash;
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// 3 = m, 4 = n
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// r12 = h, r13 = k, ecx = seed, r12 = key
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asm(
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"leaq (%%rcx,%4), %%r13\n"
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"movq %%rdx, %%r14\n"
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"movq %%rcx, %%r15\n"
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"movq %%rcx, %%r12\n"
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"addq %%rax, %%r13\n"
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"andq $0xfffffffffffffff0, %%rcx\n"
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"jz QW%=\n"
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"addq %%rcx, %%r14\n\n"
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"negq %%rcx\n"
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"XW%=:\n"
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"movq %4, %%rax\n"
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"mulq (%%r14,%%rcx)\n"
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"xorq %%rax, %%r12\n"
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"xorq %%rdx, %%r13\n"
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"movq %3, %%rax\n"
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"mulq 8(%%r14,%%rcx)\n"
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"xorq %%rdx, %%r12\n"
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"xorq %%rax, %%r13\n"
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"addq $16, %%rcx\n"
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"jnz XW%=\n"
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"QW%=:\n"
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"movq %%r15, %%rcx\n"
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"andq $8, %%r15\n"
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"jz B%=\n"
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"movq %4, %%rax\n"
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"mulq (%%r14)\n"
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"addq $8, %%r14\n"
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"xorq %%rax, %%r12\n"
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"xorq %%rdx, %%r13\n"
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"B%=:\n"
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"andq $7, %%rcx\n"
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"jz F%=\n"
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"movq $1, %%rdx\n"
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"shlq $3, %%rcx\n"
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"movq %3, %%rax\n"
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"shlq %%cl, %%rdx\n"
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"addq $-1, %%rdx\n"
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"andq (%%r14), %%rdx\n"
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"mulq %%rdx\n"
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"xorq %%rdx, %%r12\n"
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"xorq %%rax, %%r13\n"
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"F%=:\n"
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"leaq (%%r13,%4), %%rax\n"
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"xorq %%r12, %%rax\n"
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"mulq %4\n"
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"xorq %%rdx, %%rax\n"
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"xorq %%r12, %%rax\n"
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"xorq %%r13, %%rax\n"
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: "=a"(hash), "=c"(key), "=d"(key)
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: "r"(m), "r"(n), "a"(seed), "c"(len), "d"(key)
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: "%r12", "%r13", "%r14", "%r15", "cc"
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);
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return hash;
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}
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};
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struct SimpleHash
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{
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size_t operator() (CompactStringRef x) const
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{
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const char * pos = x.data();
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size_t size = x.size;
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const char * end = pos + size;
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size_t res = 0;
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if (size == 0)
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return 0;
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if (size < 8)
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{
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memcpy(reinterpret_cast<char *>(&res), pos, size);
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return intHash64(res);
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}
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while (pos + 8 < end)
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{
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UInt64 word = *reinterpret_cast<const UInt64 *>(pos);
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res = intHash64(word ^ res);
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pos += 8;
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}
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UInt64 word = *reinterpret_cast<const UInt64 *>(end - 8);
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res = intHash64(word ^ res);
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return res;
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}
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};
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typedef CompactStringRef Key;
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typedef UInt64 Value;
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struct Grower : public HashTableGrower<>
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{
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/// Состояние этой структуры достаточно, чтобы получить размер буфера хэш-таблицы.
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/// Определяет начальный размер хэш-таблицы.
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static const size_t initial_size_degree = 16;
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Grower() { size_degree = initial_size_degree; }
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size_t max_fill = (1 << initial_size_degree) * 0.9;
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/// Размер хэш-таблицы в ячейках.
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size_t bufSize() const { return 1 << size_degree; }
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size_t maxFill() const { return max_fill /*1 << (size_degree - 1)*/; }
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size_t mask() const { return bufSize() - 1; }
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/// Из значения хэш-функции получить номер ячейки в хэш-таблице.
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size_t place(size_t x) const { return x & mask(); }
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/// Следующая ячейка в цепочке разрешения коллизий.
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size_t next(size_t pos) const { ++pos; return pos & mask(); }
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/// Является ли хэш-таблица достаточно заполненной. Нужно увеличить размер хэш-таблицы, или удалить из неё что-нибудь ненужное.
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bool overflow(size_t elems) const { return elems > maxFill(); }
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/// Увеличить размер хэш-таблицы.
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void increaseSize()
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{
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size_degree += size_degree >= 23 ? 1 : 2;
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max_fill = (1 << size_degree) * 0.9;
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}
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/// Установить размер буфера по количеству элементов хэш-таблицы. Используется при десериализации хэш-таблицы.
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void set(size_t num_elems)
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{
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throw Poco::Exception(__PRETTY_FUNCTION__);
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}
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};
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int main(int argc, char ** argv)
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{
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size_t n = atoi(argv[1]);
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size_t m = atoi(argv[2]);
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DB::Arena pool;
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std::vector<Key> data(n);
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std::cerr << "sizeof(Key) = " << sizeof(Key) << ", sizeof(Value) = " << sizeof(Value) << std::endl;
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{
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Stopwatch watch;
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DB::ReadBufferFromFileDescriptor in1(STDIN_FILENO);
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DB::CompressedReadBuffer in2(in1);
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std::string tmp;
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for (size_t i = 0; i < n && !in2.eof(); ++i)
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{
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DB::readStringBinary(tmp, in2);
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data[i] = Key(pool.insert(tmp.data(), tmp.size()), tmp.size());
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}
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "Vector. Size: " << n
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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<< std::endl;
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}
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if (!m || m == 1)
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{
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Stopwatch watch;
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//typedef HashMap<Key, Value> Map;
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/// Сохранение хэша ускоряет ресайзы примерно в 2 раза, и общую производительность - на 6-8%.
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typedef HashMapWithSavedHash<Key, Value, DefaultHash<Key>, Grower> Map;
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Map map;
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Map::iterator it;
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bool inserted;
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for (size_t i = 0; i < n; ++i)
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{
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map.emplace(data[i], it, inserted);
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if (inserted)
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it->second = 0;
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++it->second;
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}
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "HashMap (CityHash64). Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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#ifdef DBMS_HASH_MAP_COUNT_COLLISIONS
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<< ", collisions: " << map.getCollisions()
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#endif
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<< std::endl;
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}
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if (!m || m == 2)
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{
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Stopwatch watch;
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typedef HashMapWithSavedHash<Key, Value, FastHash64, Grower> Map;
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Map map;
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Map::iterator it;
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bool inserted;
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for (size_t i = 0; i < n; ++i)
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{
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map.emplace(data[i], it, inserted);
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if (inserted)
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it->second = 0;
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++it->second;
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}
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "HashMap (FastHash64). Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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#ifdef DBMS_HASH_MAP_COUNT_COLLISIONS
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<< ", collisions: " << map.getCollisions()
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#endif
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<< std::endl;
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}
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if (!m || m == 3)
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{
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Stopwatch watch;
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typedef HashMapWithSavedHash<Key, Value, CrapWow, Grower> Map;
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Map map;
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Map::iterator it;
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bool inserted;
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for (size_t i = 0; i < n; ++i)
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{
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map.emplace(data[i], it, inserted);
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if (inserted)
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it->second = 0;
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++it->second;
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}
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "HashMap (CrapWow). Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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#ifdef DBMS_HASH_MAP_COUNT_COLLISIONS
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<< ", collisions: " << map.getCollisions()
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#endif
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<< std::endl;
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}
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if (!m || m == 4)
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{
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Stopwatch watch;
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typedef HashMapWithSavedHash<Key, Value, SimpleHash, Grower> Map;
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Map map;
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Map::iterator it;
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bool inserted;
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for (size_t i = 0; i < n; ++i)
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{
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map.emplace(data[i], it, inserted);
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if (inserted)
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it->second = 0;
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++it->second;
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}
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "HashMap (SimpleHash). Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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#ifdef DBMS_HASH_MAP_COUNT_COLLISIONS
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<< ", collisions: " << map.getCollisions()
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#endif
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<< std::endl;
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}
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if (!m || m == 5)
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{
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Stopwatch watch;
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std::unordered_map<Key, Value, DefaultHash<Key> > map;
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for (size_t i = 0; i < n; ++i)
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++map[data[i]];
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "std::unordered_map. Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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<< std::endl;
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}
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if (!m || m == 6)
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{
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Stopwatch watch;
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google::dense_hash_map<Key, Value, DefaultHash<Key> > map;
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map.set_empty_key(Key("\0", 1));
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for (size_t i = 0; i < n; ++i)
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++map[data[i]];
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "google::dense_hash_map. Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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<< std::endl;
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}
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if (!m || m == 7)
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{
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Stopwatch watch;
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google::sparse_hash_map<Key, Value, DefaultHash<Key> > map;
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for (size_t i = 0; i < n; ++i)
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++map[data[i]];
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watch.stop();
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std::cerr << std::fixed << std::setprecision(2)
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<< "google::sparse_hash_map. Size: " << map.size()
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<< ", elapsed: " << watch.elapsedSeconds()
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<< " (" << n / watch.elapsedSeconds() << " elem/sec.)"
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<< std::endl;
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}
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return 0;
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}
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