#include "stdinc.h" #include "DCPlusPlus.h" #include "HashBloom.h" namespace dcpp { size_t HashBloom::get_k(size_t n, size_t h) { for(size_t k = TTHValue::BITS/h; k > 1; --k) { uint64_t m = get_m(n, k); if(m >> 24 == 0) { return k; } } return 1; } uint64_t HashBloom::get_m(size_t n, size_t k) { uint64_t m = (static_cast(ceil(static_cast(n) * k / log(2.)))); // 64-bit boundary as per spec return ((m + 63 )/ 64) * 64; } void HashBloom::add(const TTHValue& tth) { for(size_t i = 0; i < k; ++i) { bloom[pos(tth, i)] = true; } } bool HashBloom::match(const TTHValue& tth) const { if(bloom.empty()) { return false; } for(size_t i = 0; i < k; ++i) { if(!bloom[pos(tth, i)]) { return false; } } return true; } void HashBloom::push_back(bool v) { bloom.push_back(v); } void HashBloom::reset(size_t k_, size_t m, size_t h_) { bloom.resize(m); k = k_; h = h_; } size_t HashBloom::pos(const TTHValue& tth, size_t n) const { if((n+1)*h > TTHValue::BITS) { return 0; } uint64_t x = 0; size_t start = n * h; for(size_t i = 0; i < h; ++i) { size_t bit = start + i; size_t byte = bit / 8; size_t pos = bit % 8; if(tth.data[byte] & (1 << pos)) { x |= (1 << i); } } return x % bloom.size(); } void HashBloom::copy_to(ByteVector& v) const { v.resize(bloom.size() / 8); for(size_t i = 0; i < bloom.size(); ++i) { v[i/8] |= bloom[i] << (i % 8); } } }