// Hash tables with 2 keys and a value #ifndef _CL_HASH2_H #define _CL_HASH2_H #include "base/hash/cl_hash.h" #include "base/cl_iterator.h" namespace cln { // Requirements: // - function bool equal (key1_type,key1_type); // - function bool equal (key2_type,key2_type); // - function unsigned long hashcode (key1_type,key2_type); template struct cl_htentry2 { ALLOCATE_ANYWHERE(cl_htentry2) key1_type key1; key2_type key2; value_type val; const value_type& htvalue () { return val; } cl_htentry2 (const key1_type& k1, const key2_type& k2, const value_type& v) : key1 (k1), key2 (k2), val (v) {} #if (defined(__rs6000__) && !defined(__GNUC__)) cl_htentry2 () {} #endif }; template struct cl_heap_hashtable_2 : public cl_heap_hashtable > { protected: // Abbreviations. typedef cl_heap_hashtable > inherited; typedef typename inherited::htxentry htxentry; public: // Allocation. void* operator new (size_t size) { return malloc_hook(size); } // Deallocation. void operator delete (void* ptr) { free_hook(ptr); } public: // Lookup (htref alias gethash). // Returns a pointer which you should immediately dereference // if it is not NULL. value_type* get (const key1_type& key1, const key2_type& key2) { var long index = this->_slots[hashcode(key1,key2) % this->_modulus] - 1; while (index >= 0) { if (!(index < this->_size)) throw runtime_exception(); if (equal(key1,this->_entries[index].entry.key1) && equal(key2,this->_entries[index].entry.key2)) return &this->_entries[index].entry.val; index = this->_entries[index].next - 1; } return NULL; } // Store (htset alias puthash). void put (const key1_type& key1, const key2_type& key2, const value_type& val) { var unsigned long hcode = hashcode(key1,key2); // Search whether it is already there. { var long index = this->_slots[hcode % this->_modulus] - 1; while (index >= 0) { if (!(index < this->_size)) throw runtime_exception(); if (equal(key1,this->_entries[index].entry.key1) && equal(key2,this->_entries[index].entry.key2)) { this->_entries[index].entry.val = val; return; } index = this->_entries[index].next - 1; } } // Put it into the table. prepare_store(); var long hindex = hcode % this->_modulus; // _modulus may have changed! var long index = this->get_free_index(); new (&this->_entries[index].entry) cl_htentry2 (key1,key2,val); this->_entries[index].next = this->_slots[hindex]; this->_slots[hindex] = 1+index; this->_count++; } // Remove (htrem alias remhash). void remove (const key1_type& key1, const key2_type& key2) { var long* _index = &this->_slots[hashcode(key1,key2) % this->_modulus]; while (*_index > 0) { var long index = *_index - 1; if (!(index < this->_size)) throw runtime_exception(); if (equal(key1,this->_entries[index].entry.key1) && equal(key2,this->_entries[index].entry.key2)) { // Remove _entries[index].entry *_index = this->_entries[index].next; this->_entries[index].~htxentry(); // The entry is now free. this->put_free_index(index); // That's it. this->_count--; return; } _index = &this->_entries[index].next; } } // Iterate through the table. // No stuff should be inserted into the table during the iteration, // or you may find yourself iterating over an entry vector which has // already been freed! // ?? private: // Prepare a store operation: make sure that the free list is non-empty. // This may change the table's size! void prepare_store () { #if !(defined(__sparc__) && !defined(__GNUC__)) if (this->_freelist < -1) return; // Can we make room? if (this->_garcol_fun(this)) if (this->_freelist < -1) return; // No! Have to grow the hash table. grow(); #else // workaround Sun C++ 4.1 inline function compiler bug if (this->_freelist >= -1) { if (!this->_garcol_fun(this) || (this->_freelist >= -1)) grow(); } #endif } void grow () { var long new_size = this->_size + (this->_size >> 1) + 1; // _size*1.5 var long new_modulus = inherited::compute_modulus(new_size); var void* new_total_vector = malloc_hook(new_modulus*sizeof(long) + new_size*sizeof(htxentry)); var long* new_slots = (long*) ((char*)new_total_vector + 0); var htxentry* new_entries = (htxentry *) ((char*)new_total_vector + new_modulus*sizeof(long)); for (var long hi = new_modulus-1; hi >= 0; hi--) new_slots[hi] = 0; var long free_list_head = -1; for (var long i = new_size-1; i >= 0; i--) { new_entries[i].next = free_list_head; free_list_head = -2-i; } var htxentry* old_entries = this->_entries; for (var long old_index = 0; old_index < this->_size; old_index++) if (old_entries[old_index].next >= 0) { var key1_type& key1 = old_entries[old_index].entry.key1; var key2_type& key2 = old_entries[old_index].entry.key2; var value_type& val = old_entries[old_index].entry.val; var long hindex = hashcode(key1,key2) % new_modulus; var long index = -2-free_list_head; free_list_head = new_entries[index].next; new (&new_entries[index].entry) cl_htentry2 (key1,key2,val); new_entries[index].next = new_slots[hindex]; new_slots[hindex] = 1+index; old_entries[old_index].~htxentry(); } free_hook(this->_total_vector); this->_modulus = new_modulus; this->_size = new_size; this->_freelist = free_list_head; this->_slots = new_slots; this->_entries = new_entries; this->_total_vector = new_total_vector; } }; } // namespace cln #endif /* _CL_HASH2_H */