// Copyright 2018 The Abseil Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // // This library provides APIs to debug the probing behavior of hash tables. // // In general, the probing behavior is a black box for users and only the // side effects can be measured in the form of performance differences. // These APIs give a glimpse on the actual behavior of the probing algorithms in // these hashtables given a specified hash function and a set of elements. // // The probe count distribution can be used to assess the quality of the hash // function for that particular hash table. Note that a hash function that // performs well in one hash table implementation does not necessarily performs // well in a different one. // // This library supports std::unordered_{set,map}, dense_hash_{set,map} and // phmap::{flat,node,string}_hash_{set,map}. #ifndef PHMAP_PRIV_HASHTABLE_DEBUG_H_ #define PHMAP_PRIV_HASHTABLE_DEBUG_H_ #include #include #include #include namespace phmap { namespace priv { // Returns the number of probes required to lookup `key`. Returns 0 for a // search with no collisions. Higher values mean more hash collisions occurred; // however, the exact meaning of this number varies according to the container // type. template size_t GetHashtableDebugNumProbes( const C& c, const typename C::key_type& key) { return phmap::priv::hashtable_debug_internal:: HashtableDebugAccess::GetNumProbes(c, key); } // Gets a histogram of the number of probes for each elements in the container. // The sum of all the values in the vector is equal to container.size(). template std::vector GetHashtableDebugNumProbesHistogram(const C& container) { std::vector v; for (auto it = container.begin(); it != container.end(); ++it) { size_t num_probes = GetHashtableDebugNumProbes( container, phmap::priv::hashtable_debug_internal::GetKey(*it, 0)); v.resize((std::max)(v.size(), num_probes + 1)); v[num_probes]++; } return v; } struct HashtableDebugProbeSummary { size_t total_elements; size_t total_num_probes; double mean; }; // Gets a summary of the probe count distribution for the elements in the // container. template HashtableDebugProbeSummary GetHashtableDebugProbeSummary(const C& container) { auto probes = GetHashtableDebugNumProbesHistogram(container); HashtableDebugProbeSummary summary = {}; for (size_t i = 0; i < probes.size(); ++i) { summary.total_elements += probes[i]; summary.total_num_probes += probes[i] * i; } summary.mean = 1.0 * summary.total_num_probes / summary.total_elements; return summary; } // Returns the number of bytes requested from the allocator by the container // and not freed. template size_t AllocatedByteSize(const C& c) { return phmap::priv::hashtable_debug_internal:: HashtableDebugAccess::AllocatedByteSize(c); } // Returns a tight lower bound for AllocatedByteSize(c) where `c` is of type `C` // and `c.size()` is equal to `num_elements`. template size_t LowerBoundAllocatedByteSize(size_t num_elements) { return phmap::priv::hashtable_debug_internal:: HashtableDebugAccess::LowerBoundAllocatedByteSize(num_elements); } } // namespace priv } // namespace phmap #endif // PHMAP_PRIV_HASHTABLE_DEBUG_H_