// Copyright 2012 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef V8_HASHMAP_H_ #define V8_HASHMAP_H_ #include "allocation.h" #include "checks.h" #include "utils.h" namespace v8 { namespace internal { template class TemplateHashMapImpl { public: typedef bool (*MatchFun) (void* key1, void* key2); // initial_capacity is the size of the initial hash map; // it must be a power of 2 (and thus must not be 0). TemplateHashMapImpl(MatchFun match, uint32_t initial_capacity = 8); ~TemplateHashMapImpl(); // HashMap entries are (key, value, hash) triplets. // Some clients may not need to use the value slot // (e.g. implementers of sets, where the key is the value). struct Entry { void* key; void* value; uint32_t hash; // the full hash value for key }; // If an entry with matching key is found, Lookup() // returns that entry. If no matching entry is found, // but insert is set, a new entry is inserted with // corresponding key, key hash, and NULL value. // Otherwise, NULL is returned. Entry* Lookup(void* key, uint32_t hash, bool insert); // Removes the entry with matching key. void Remove(void* key, uint32_t hash); // Empties the hash map (occupancy() == 0). void Clear(); // The number of (non-empty) entries in the table. uint32_t occupancy() const { return occupancy_; } // The capacity of the table. The implementation // makes sure that occupancy is at most 80% of // the table capacity. uint32_t capacity() const { return capacity_; } // Iteration // // for (Entry* p = map.Start(); p != NULL; p = map.Next(p)) { // ... // } // // If entries are inserted during iteration, the effect of // calling Next() is undefined. Entry* Start() const; Entry* Next(Entry* p) const; private: MatchFun match_; Entry* map_; uint32_t capacity_; uint32_t occupancy_; Entry* map_end() const { return map_ + capacity_; } Entry* Probe(void* key, uint32_t hash); void Initialize(uint32_t capacity); void Resize(); }; typedef TemplateHashMapImpl HashMap; template TemplateHashMapImpl

::TemplateHashMapImpl(MatchFun match, uint32_t initial_capacity) { match_ = match; Initialize(initial_capacity); } template TemplateHashMapImpl

::~TemplateHashMapImpl() { P::Delete(map_); } template typename TemplateHashMapImpl

::Entry* TemplateHashMapImpl

::Lookup( void* key, uint32_t hash, bool insert) { // Find a matching entry. Entry* p = Probe(key, hash); if (p->key != NULL) { return p; } // No entry found; insert one if necessary. if (insert) { p->key = key; p->value = NULL; p->hash = hash; occupancy_++; // Grow the map if we reached >= 80% occupancy. if (occupancy_ + occupancy_/4 >= capacity_) { Resize(); p = Probe(key, hash); } return p; } // No entry found and none inserted. return NULL; } template void TemplateHashMapImpl

::Remove(void* key, uint32_t hash) { // Lookup the entry for the key to remove. Entry* p = Probe(key, hash); if (p->key == NULL) { // Key not found nothing to remove. return; } // To remove an entry we need to ensure that it does not create an empty // entry that will cause the search for another entry to stop too soon. If all // the entries between the entry to remove and the next empty slot have their // initial position inside this interval, clearing the entry to remove will // not break the search. If, while searching for the next empty entry, an // entry is encountered which does not have its initial position between the // entry to remove and the position looked at, then this entry can be moved to // the place of the entry to remove without breaking the search for it. The // entry made vacant by this move is now the entry to remove and the process // starts over. // Algorithm from http://en.wikipedia.org/wiki/Open_addressing. // This guarantees loop termination as there is at least one empty entry so // eventually the removed entry will have an empty entry after it. ASSERT(occupancy_ < capacity_); // p is the candidate entry to clear. q is used to scan forwards. Entry* q = p; // Start at the entry to remove. while (true) { // Move q to the next entry. q = q + 1; if (q == map_end()) { q = map_; } // All entries between p and q have their initial position between p and q // and the entry p can be cleared without breaking the search for these // entries. if (q->key == NULL) { break; } // Find the initial position for the entry at position q. Entry* r = map_ + (q->hash & (capacity_ - 1)); // If the entry at position q has its initial position outside the range // between p and q it can be moved forward to position p and will still be // found. There is now a new candidate entry for clearing. if ((q > p && (r <= p || r > q)) || (q < p && (r <= p && r > q))) { *p = *q; p = q; } } // Clear the entry which is allowed to en emptied. p->key = NULL; occupancy_--; } template void TemplateHashMapImpl

::Clear() { // Mark all entries as empty. const Entry* end = map_end(); for (Entry* p = map_; p < end; p++) { p->key = NULL; } occupancy_ = 0; } template typename TemplateHashMapImpl

::Entry* TemplateHashMapImpl

::Start() const { return Next(map_ - 1); } template typename TemplateHashMapImpl

::Entry* TemplateHashMapImpl

::Next(Entry* p) const { const Entry* end = map_end(); ASSERT(map_ - 1 <= p && p < end); for (p++; p < end; p++) { if (p->key != NULL) { return p; } } return NULL; } template typename TemplateHashMapImpl

::Entry* TemplateHashMapImpl

::Probe(void* key, uint32_t hash) { ASSERT(key != NULL); ASSERT(IsPowerOf2(capacity_)); Entry* p = map_ + (hash & (capacity_ - 1)); const Entry* end = map_end(); ASSERT(map_ <= p && p < end); ASSERT(occupancy_ < capacity_); // Guarantees loop termination. while (p->key != NULL && (hash != p->hash || !match_(key, p->key))) { p++; if (p >= end) { p = map_; } } return p; } template void TemplateHashMapImpl

::Initialize(uint32_t capacity) { ASSERT(IsPowerOf2(capacity)); map_ = reinterpret_cast(P::New(capacity * sizeof(Entry))); if (map_ == NULL) { v8::internal::FatalProcessOutOfMemory("HashMap::Initialize"); return; } capacity_ = capacity; Clear(); } template void TemplateHashMapImpl

::Resize() { Entry* map = map_; uint32_t n = occupancy_; // Allocate larger map. Initialize(capacity_ * 2); // Rehash all current entries. for (Entry* p = map; n > 0; p++) { if (p->key != NULL) { Lookup(p->key, p->hash, true)->value = p->value; n--; } } // Delete old map. P::Delete(map); } // A hash map for pointer keys and values with an STL-like interface. template class TemplateHashMap: private TemplateHashMapImpl { public: STATIC_ASSERT(sizeof(Key*) == sizeof(void*)); // NOLINT STATIC_ASSERT(sizeof(Value*) == sizeof(void*)); // NOLINT struct value_type { Key* first; Value* second; }; class Iterator { public: Iterator& operator++() { entry_ = map_->Next(entry_); return *this; } value_type* operator->() { return reinterpret_cast(entry_); } bool operator!=(const Iterator& other) { return entry_ != other.entry_; } private: Iterator(const TemplateHashMapImpl* map, typename TemplateHashMapImpl::Entry* entry) : map_(map), entry_(entry) { } const TemplateHashMapImpl* map_; typename TemplateHashMapImpl::Entry* entry_; friend class TemplateHashMap; }; TemplateHashMap( typename TemplateHashMapImpl::MatchFun match) : TemplateHashMapImpl(match) { } Iterator begin() const { return Iterator(this, this->Start()); } Iterator end() const { return Iterator(this, NULL); } Iterator find(Key* key, bool insert = false) { return Iterator(this, Lookup(key, key->Hash(), insert)); } }; } } // namespace v8::internal #endif // V8_HASHMAP_H_