#ifndef FILE_HASHTABL #define FILE_HASHTABL /**************************************************************************/ /* File: hashtabl.hh */ /* Author: Joachim Schoeberl */ /* Date: 01. Jun. 95 */ /**************************************************************************/ #include "table.hpp" namespace netgen { /** Abstract data type HASHTABLE. Hash is done by one INDEX */ class BASE_INDEX_HASHTABLE { protected: /// keys are stored in this table TABLE hash; public: /// BASE_INDEX_HASHTABLE (int size) : hash (size) { }; protected: /// int HashValue (const INDEX & ind) const { return ind % hash.Size() + 1; } /// int Position (int bnr, const INDEX & ind) const; }; /// template class INDEX_HASHTABLE : private BASE_INDEX_HASHTABLE { /// TABLE cont; public: /// inline INDEX_HASHTABLE (int size); /// inline void Set (const INDEX & hash, const T & acont); /// inline const T & Get (const INDEX & ahash) const; /// inline bool Used (const INDEX & ahash) const; /// inline int GetNBags () const; /// inline int GetBagSize (int bnr) const; /// inline void GetData (int bnr, int colnr, INDEX & ahash, T & acont) const; /// inline void PrintMemInfo (ostream & ost) const; }; /// class BASE_INDEX_2_HASHTABLE { protected: /// TABLE hash; public: /// BASE_INDEX_2_HASHTABLE () { ; } BASE_INDEX_2_HASHTABLE (int size) : hash (size) { }; /// void PrintStat (ostream & ost) const; void BaseSetSize(int s) {hash.SetSize(s);} //protected: /// int HashValue (const INDEX_2 & ind) const { return (ind.I1() + ind.I2()) % hash.Size() + 1; } /// int Position (int bnr, const INDEX_2 & ind) const { for (int i = 1; i <= hash.EntrySize (bnr); i++) if (hash.Get(bnr, i) == ind) return i; return 0; } }; /// template class INDEX_2_HASHTABLE : public BASE_INDEX_2_HASHTABLE { /// TABLE cont; public: /// INDEX_2_HASHTABLE () { ; } INDEX_2_HASHTABLE (int size) : BASE_INDEX_2_HASHTABLE (size), cont(size) { ; } /// void SetSize(int s) { cont.SetSize(s); BaseSetSize(s); } /// void Set (const INDEX_2 & ahash, const T & acont) { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); if (pos) cont.Set (bnr, pos, acont); else { hash.Add1 (bnr, ahash); cont.Add1 (bnr, acont); } } /// const T & Get (const INDEX_2 & ahash) const { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); return cont.Get (bnr, pos); } T & Get (const INDEX_2 & ahash) { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); return cont.Get (bnr, pos); } /// bool Used (const INDEX_2 & ahash) const { return Position (HashValue (ahash), ahash) > 0; } /// int GetNBags () const { return cont.Size(); } /// int GetBagSize (int bnr) const { return cont.EntrySize (bnr); } /// void GetData (int bnr, int colnr, INDEX_2 & ahash, T & acont) const { ahash = hash.Get(bnr, colnr); acont = cont.Get(bnr, colnr); } /// void SetData (int bnr, int colnr, const INDEX_2 & ahash, const T & acont) { hash.Set(bnr, colnr, ahash); cont.Set(bnr, colnr, acont); } /// void PrintMemInfo (ostream & ost) const { ost << "Hash: " << endl; hash.PrintMemInfo (ost); ost << "Cont: " << endl; cont.PrintMemInfo (ost); } void DeleteData () { int n = hash.Size(); hash.SetSize (n); cont.SetSize (n); } class Iterator { const INDEX_2_HASHTABLE & ht; int bagnr, pos; public: Iterator (const INDEX_2_HASHTABLE & aht, int abagnr, int apos) : ht(aht), bagnr(abagnr), pos(apos) { ; } int BagNr() const { return bagnr; } int Pos() const { return pos; } Iterator operator++ (int) { Iterator it(ht, bagnr, pos); ++(*this); return it; } Iterator& operator++() { pos++; while (bagnr < ht.GetNBags() && pos == ht.GetBagSize(bagnr+1)) { pos = 0; bagnr++; } return *this; } std::pair operator*() { return std::make_pair(ht.hash[bagnr][pos], ht.cont[bagnr][pos]); } bool operator != (int i) const { return bagnr != i; } }; Iterator Begin () const { Iterator it(*this, 0, -1); it++; return it; } int End() const { return GetNBags(); } Iterator begin () const { Iterator it(*this, 0, -1); it++; return it; } int end() const { return GetNBags(); } void GetData (const Iterator & it, INDEX_2 & ahash, T & acont) const { ahash = hash[it.BagNr()][it.Pos()]; acont = cont[it.BagNr()][it.Pos()]; } const INDEX_2 & GetHash (const Iterator & it) const { return hash[it.BagNr()][it.Pos()]; } const T & GetData (const Iterator & it) const { return cont[it.BagNr()][it.Pos()]; } void DoArchive (Archive & ar) { ar & hash & cont; } }; template inline ostream & operator<< (ostream & ost, const INDEX_2_HASHTABLE & ht) { for (typename INDEX_2_HASHTABLE::Iterator it = ht.Begin(); it != ht.End(); it++) { ost << ht.GetHash(it) << ": " << ht.GetData(it) << endl; } return ost; } /// class BASE_INDEX_3_HASHTABLE { protected: /// TABLE hash; public: /// BASE_INDEX_3_HASHTABLE () { ; } BASE_INDEX_3_HASHTABLE (int size) : hash (size) { }; protected: /// int HashValue (const INDEX_3 & ind) const { return (ind.I1() + ind.I2() + ind.I3()) % hash.Size() + 1; } /// int Position (int bnr, const INDEX_3 & ind) const { const INDEX_3 * pi = &hash.Get(bnr, 1); int n = hash.EntrySize(bnr); for (int i = 1; i <= n; ++i, ++pi) { if (*pi == ind) return i; } return 0; } }; /// template class INDEX_3_HASHTABLE : private BASE_INDEX_3_HASHTABLE { /// TABLE cont; public: /// inline INDEX_3_HASHTABLE () { ; } inline INDEX_3_HASHTABLE (int size); /// inline void Set (const INDEX_3 & ahash, const T & acont); /// inline const T & Get (const INDEX_3 & ahash) const; /// inline bool Used (const INDEX_3 & ahash) const; /// inline int GetNBags () const; /// inline int GetBagSize (int bnr) const; /// inline void SetData (int bnr, int colnr, const INDEX_3 & ahash, const T & acont); /// inline void GetData (int bnr, int colnr, INDEX_3 & ahash, T & acont) const; /// returns position, if not existing, will create (create == return 1) inline int PositionCreate (const INDEX_3 & ahash, int & bnr, int & colnr); /// inline void SetSize (int size); /// inline void PrepareSet (const INDEX_3 & ahash); /// inline void AllocateElements (); /// inline void PrintMemInfo (ostream & ost) const; /// inline void DeleteData (); class Iterator { const INDEX_3_HASHTABLE & ht; int bagnr, pos; public: Iterator (const INDEX_3_HASHTABLE & aht, int abagnr, int apos) : ht(aht), bagnr(abagnr), pos(apos) { ; } int BagNr() const { return bagnr; } int Pos() const { return pos; } void operator++ (int) { // cout << "begin Operator ++: bagnr = " << bagnr << " - pos = " << pos << endl; pos++; while (bagnr < ht.GetNBags() && pos == ht.GetBagSize(bagnr+1)) { pos = 0; bagnr++; } // cout << "end Operator ++: bagnr = " << bagnr << " - pos = " << pos << endl; } bool operator != (int i) const { return bagnr != i; } }; Iterator Begin () const { Iterator it(*this, 0, -1); it++; return it; } int End() const { return GetNBags(); } void GetData (const Iterator & it, INDEX_3 & ahash, T & acont) const { ahash = hash[it.BagNr()][it.Pos()]; acont = cont[it.BagNr()][it.Pos()]; } const INDEX_3 & GetHash (const Iterator & it) const { return hash[it.BagNr()][it.Pos()]; } const T & GetData (const Iterator & it) const { return cont[it.BagNr()][it.Pos()]; } void DoArchive (Archive & ar) { ar & hash & cont; } }; template inline ostream & operator<< (ostream & ost, const INDEX_3_HASHTABLE & ht) { for (typename INDEX_3_HASHTABLE::Iterator it = ht.Begin(); it != ht.End(); it++) { ost << ht.GetHash(it) << ": " << ht.GetData(it) << endl; } return ost; } /// Closed Hashing HT class BASE_INDEX_CLOSED_HASHTABLE { protected: /// // MoveableArray hash; NgArray hash; /// int invalid; public: /// BASE_INDEX_CLOSED_HASHTABLE (int size); int Size() const { return hash.Size(); } int UsedPos (int pos) const { return ! (hash.Get(pos) == invalid); } int UsedElements () const; /// int HashValue (const INDEX & ind) const { return (3*ind) % hash.Size() + 1; } int Position (const INDEX & ind) const { int i = HashValue(ind); while (1) { if (hash.Get(i) == ind) return i; if (hash.Get(i) == invalid) return 0; i++; if (i > hash.Size()) i = 1; } } int CalcPositionCosts (const INDEX & ind) const { int i = HashValue(ind); int costs = 1; while (1) { if (hash.Get(i) == ind) return costs; if (hash.Get(i) == invalid) return costs; i++; if (i > hash.Size()) i = 1; costs++; } } // returns 1, if new position is created int PositionCreate (const INDEX & ind, int & apos) { int i = HashValue (ind); if (hash.Get(i) == ind) { apos = i; return 0; } if (hash.Get(i) == invalid) { hash.Elem(i) = ind; apos = i; return 1; } return PositionCreate2 (ind, apos); } protected: int Position2 (const INDEX & ind) const; int PositionCreate2 (const INDEX & ind, int & apos); void BaseSetSize (int asize); }; template class INDEX_CLOSED_HASHTABLE : public BASE_INDEX_CLOSED_HASHTABLE { /// // MoveableArray cont; NgArray cont; public: /// INDEX_CLOSED_HASHTABLE (int size) : BASE_INDEX_CLOSED_HASHTABLE(size), cont(size) { ; // cont.SetName ("ind-hashtable, contents"); } void Set (const INDEX & ahash, const T & acont) { int pos; PositionCreate (ahash, pos); hash.Elem(pos) = ahash; cont.Elem(pos) = acont; } const T & Get (const INDEX & ahash) const { int pos = Position (ahash); return cont.Get(pos); } /// bool Used (const INDEX & ahash) const { int pos = Position (ahash); return (pos != 0); } /// inline void SetData (int pos, const INDEX & ahash, const T & acont) { hash.Elem(pos) = ahash; cont.Elem(pos) = acont; } /// void GetData (int pos, INDEX & ahash, T & acont) const { ahash = hash.Get(pos); acont = cont.Get(pos); } /// inline void SetData (int pos, const T & acont) { cont.Elem(pos) = acont; } /// void GetData (int pos, T & acont) const { acont = cont.Get(pos); } /// const T & GetData (int pos) { return cont.Get(pos); } /// inline void SetSize (int size) { BaseSetSize(size); cont.SetSize(size); } /// inline void DeleteData () { SetSize (cont.Size()); } void SetName (const char * aname) { // cont.SetName(aname); // hash.SetName(aname); } }; inline size_t RoundUp2 (size_t i) { size_t res = 1; while (res < i) res *= 2; // hope it will never be too large return res; } /// Closed Hashing HT class BASE_INDEX_2_CLOSED_HASHTABLE { protected: /// // MoveableArray hash; NgArray hash; /// int invalid; size_t mask; public: /// DLL_HEADER BASE_INDEX_2_CLOSED_HASHTABLE (size_t size); int Size() const { return hash.Size(); } bool UsedPos0 (int pos) const { return ! (hash[pos].I1() == invalid); } int UsedElements () const; /// int HashValue (const INDEX_2 & ind) const { // return (ind.I1() + 71 * ind.I2()) % hash.Size() + 1; return (ind.I1() + 71 * ind.I2()) & mask; } int Position0 (const INDEX_2 & ind) const { int i = HashValue(ind); while (1) { if (hash[i] == ind) return i; if (hash[i].I1() == invalid) return -1; i = (i+1) & mask; /* i++; if (i > hash.Size()) i = 1; */ } } // returns 1, if new position is created bool PositionCreate0 (const INDEX_2 & ind, int & apos) { int i = HashValue (ind); if (hash[i] == ind) { apos = i; return false; } if (hash[i].I1() == invalid) { hash[i] = ind; apos = i; return true; } return PositionCreate2 (ind, apos); } protected: /// DLL_HEADER int Position2 (const INDEX_2 & ind) const; DLL_HEADER bool PositionCreate2 (const INDEX_2 & ind, int & apos); DLL_HEADER void BaseSetSize (int asize); }; template class INDEX_2_CLOSED_HASHTABLE : public BASE_INDEX_2_CLOSED_HASHTABLE { NgArray cont; public: INDEX_2_CLOSED_HASHTABLE (size_t size) : BASE_INDEX_2_CLOSED_HASHTABLE(size), cont(RoundUp2(size)) { ; } void Set (const INDEX_2 & ahash, const T & acont) { int pos; PositionCreate0 (ahash, pos); hash[pos] = ahash; cont[pos] = acont; } const T & Get (const INDEX_2 & ahash) const { int pos = Position0 (ahash); return cont[pos]; } inline bool Used (const INDEX_2 & ahash) const { int pos = Position0 (ahash); return (pos != -1); } inline optional GetIfUsed (const INDEX_2 & ahash) const { int pos = Position0 (ahash); if (pos != -1) return cont[pos]; else return nullopt; } inline void SetData0 (int pos, const INDEX_2 & ahash, const T & acont) { hash[pos] = ahash; cont[pos] = acont; } /// inline void GetData0 (int pos, INDEX_2 & ahash, T & acont) const { ahash = hash[pos]; acont = cont[pos]; } inline void SetData0 (int pos, const T & acont) { cont[pos] = acont; } inline void GetData0 (int pos, T & acont) const { acont = cont[pos]; } /// const T & GetData0 (int pos) { return cont[pos]; } /// inline void SetSize (size_t size) { BaseSetSize(size); cont.SetSize(RoundUp2(size)); } /// inline void PrintMemInfo (ostream & ost) const; /// inline void DeleteData () { SetSize (cont.Size()); } void SetName (const char * aname) { ; // cont.SetName(aname); // hash.SetName(aname); } }; template inline ostream & operator<< (ostream & ost, const INDEX_2_CLOSED_HASHTABLE & ht) { for (int i = 0; i < ht.Size(); i++) if (ht.UsedPos(i)) { INDEX_2 hash; T data; ht.GetData0 (i, hash, data); ost << "hash = " << hash << ", data = " << data << endl; } return ost; } class BASE_INDEX_3_CLOSED_HASHTABLE { protected: NgArray hash; int invalid; size_t mask; protected: BASE_INDEX_3_CLOSED_HASHTABLE (size_t size) : hash(RoundUp2(size)) { // cout << "orig size = " << size // << ", roundup size = " << hash.Size(); size = hash.Size(); mask = size-1; // cout << "mask = " << mask << endl; invalid = -1; for (size_t i = 0; i < size; i++) hash[i].I1() = invalid; } public: int Size() const { return hash.Size(); } bool UsedPos (int pos) const { return ! (hash[pos].I1() == invalid); } int UsedElements () const { int n = hash.Size(); int cnt = 0; for (int i = 0; i < n; i++) if (hash[i].I1() != invalid) cnt++; return cnt; } int HashValue (const INDEX_3 & ind) const { // return (ind.I1() + 15 * ind.I2() + 41 * ind.I3()) % hash.Size(); return (ind.I1() + 15 * ind.I2() + 41 * ind.I3()) & mask; } int Position (const INDEX_3 & ind) const { int i = HashValue(ind); while (1) { if (hash[i] == ind) return i; if (hash[i].I1() == invalid) return -1; // i = (i+1) % hash.Size(); i = (i+1) & mask; } } int Costs (const INDEX_3 & ind) const { int i = HashValue(ind); int c = 1; while (1) { if (hash[i] == ind) return c; if (hash[i].I1() == invalid) return c; // i = (i+1) % hash.Size(); i = (i+1) & mask; c++; } } // returns true, if new position is created bool PositionCreate (const INDEX_3 & ind, int & apos) { int i = HashValue (ind); if (hash[i] == ind) { apos = i; return false; } if (hash[i].I1() == invalid) { hash[i] = ind; apos = i; return true; } return PositionCreate2 (ind, apos); } void DeleteData() { size_t size = hash.Size(); for (size_t i = 0; i < size; i++) hash[i].I1() = invalid; } protected: bool PositionCreate2 (const INDEX_3 & ind, int & apos); void BaseSetSize (int asize); }; template class INDEX_3_CLOSED_HASHTABLE : public BASE_INDEX_3_CLOSED_HASHTABLE { // MoveableArray cont; NgArray cont; public: INDEX_3_CLOSED_HASHTABLE (int size) : BASE_INDEX_3_CLOSED_HASHTABLE(size), cont(RoundUp2(size)) { ; //cont.SetName ("i3-hashtable, contents"); } void Set (const INDEX_3 & ahash, const T & acont) { int pos; PositionCreate (ahash, pos); hash[pos] = ahash; cont[pos] = acont; } const T & Get (const INDEX_3 & ahash) const { return cont[Position (ahash)]; } bool Used (const INDEX_3 & ahash) const { return (Position (ahash) != -1); } void SetData (int pos, const INDEX_3 & ahash, const T & acont) { hash[pos] = ahash; cont[pos] = acont; } void GetData (int pos, INDEX_3 & ahash, T & acont) const { ahash = hash[pos]; acont = cont[pos]; } void SetData (int pos, const T & acont) { cont[pos] = acont; } void GetData (int pos, T & acont) const { acont = cont[pos]; } const T & GetData (int pos) const { return cont[pos]; } void SetSize (int size) { BaseSetSize(size); cont.SetSize(hash.Size()); } void PrintMemInfo (ostream & ost) const { cout << "Hashtable: " << Size() << " entries of size " << sizeof(INDEX_3) << " + " << sizeof(T) << " = " << Size() * (sizeof(INDEX_3) + sizeof(T)) << " bytes" << endl; } void DeleteData () { SetSize (cont.Size()); } void SetName (const char * aname) { ; // cont.SetName(aname); // hash.SetName(aname); } }; template inline ostream & operator<< (ostream & ost, const INDEX_3_CLOSED_HASHTABLE & ht) { for (int i = 0; i < ht.Size(); i++) if (ht.UsedPos(i)) { INDEX_3 hash; T data; ht.GetData (i, hash, data); ost << "hash = " << hash << ", data = " << data << endl; } return ost; } template inline INDEX_3_HASHTABLE :: INDEX_3_HASHTABLE (int size) : BASE_INDEX_3_HASHTABLE (size), cont(size) { ; } template inline int INDEX_3_HASHTABLE :: PositionCreate (const INDEX_3 & ahash, int & bnr, int & colnr) { bnr = HashValue (ahash); colnr = Position (bnr, ahash); if (!colnr) { hash.Add (bnr, ahash); cont.AddEmpty (bnr); colnr = cont.EntrySize (bnr); return 1; } return 0; } template inline void INDEX_3_HASHTABLE :: Set (const INDEX_3 & ahash, const T & acont) { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); if (pos) cont.Set (bnr, pos, acont); else { hash.Add1 (bnr, ahash); cont.Add1 (bnr, acont); } } template inline const T & INDEX_3_HASHTABLE :: Get (const INDEX_3 & ahash) const { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); return cont.Get (bnr, pos); } template inline bool INDEX_3_HASHTABLE :: Used (const INDEX_3 & ahash) const { return (Position (HashValue (ahash), ahash)) ? 1 : 0; } template inline int INDEX_3_HASHTABLE :: GetNBags () const { return cont.Size(); } template inline int INDEX_3_HASHTABLE :: GetBagSize (int bnr) const { return cont.EntrySize (bnr); } template inline void INDEX_3_HASHTABLE :: GetData (int bnr, int colnr, INDEX_3 & ahash, T & acont) const { ahash = hash.Get(bnr, colnr); acont = cont.Get(bnr, colnr); } template inline void INDEX_3_HASHTABLE :: SetData (int bnr, int colnr, const INDEX_3 & ahash, const T & acont) { hash.Set(bnr, colnr, ahash); cont.Set(bnr, colnr, acont); } template inline void INDEX_3_HASHTABLE :: SetSize (int size) { hash.SetSize (size); cont.SetSize (size); } template inline void INDEX_3_HASHTABLE :: DeleteData () { int n = hash.Size(); hash.SetSize (n); cont.SetSize (n); } template inline void INDEX_3_HASHTABLE :: PrepareSet (const INDEX_3 & ahash) { int bnr = HashValue (ahash); hash.IncSizePrepare (bnr-1); cont.IncSizePrepare (bnr-1); } template inline void INDEX_3_HASHTABLE :: AllocateElements () { hash.AllocateElementsOneBlock(); cont.AllocateElementsOneBlock(); } template inline void INDEX_3_HASHTABLE :: PrintMemInfo (ostream & ost) const { ost << "Hash: " << endl; hash.PrintMemInfo (ost); ost << "Cont: " << endl; cont.PrintMemInfo (ost); } template inline INDEX_HASHTABLE :: INDEX_HASHTABLE (int size) : BASE_INDEX_HASHTABLE (size), cont(size) { ; } template inline void INDEX_HASHTABLE :: Set (const INDEX & ahash, const T & acont) { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); if (pos) cont.Set (bnr, pos, acont); else { hash.Add (bnr, ahash); cont.Add (bnr, acont); } } template inline const T & INDEX_HASHTABLE :: Get (const INDEX & ahash) const { int bnr = HashValue (ahash); int pos = Position (bnr, ahash); return cont.Get (bnr, pos); } template inline bool INDEX_HASHTABLE :: Used (const INDEX & ahash) const { return (Position (HashValue (ahash), ahash)) ? 1 : 0; } template inline int INDEX_HASHTABLE :: GetNBags () const { return hash.Size(); } template inline int INDEX_HASHTABLE :: GetBagSize (int bnr) const { return hash.EntrySize(bnr); } template inline void INDEX_HASHTABLE :: GetData (int bnr, int colnr, INDEX & ahash, T & acont) const { ahash = hash.Get(bnr, colnr); acont = cont.Get(bnr, colnr); } template inline void INDEX_HASHTABLE :: PrintMemInfo (ostream & ost) const { ost << "Hash: " << endl; hash.PrintMemInfo (ost); ost << "Cont: " << endl; cont.PrintMemInfo (ost); } /* *********** Closed Hashing ************************* */ template inline void INDEX_2_CLOSED_HASHTABLE :: PrintMemInfo (ostream & ost) const { cout << "Hashtable: " << Size() << " entries of size " << sizeof(INDEX_2) << " + " << sizeof(T) << " = " << Size() * (sizeof(INDEX_2) + sizeof(T)) << " bytes." << " Used els: " << UsedElements() << endl; } /* template inline INDEX_3_CLOSED_HASHTABLE :: INDEX_3_CLOSED_HASHTABLE (int size) : BASE_INDEX_3_CLOSED_HASHTABLE(size), cont(size) { cont.SetName ("i3-hashtable, contents"); } template inline void INDEX_3_CLOSED_HASHTABLE :: Set (const INDEX_3 & ahash, const T & acont) { int pos; PositionCreate (ahash, pos); hash.Elem(pos) = ahash; cont.Elem(pos) = acont; } template inline const T & INDEX_3_CLOSED_HASHTABLE :: Get (const INDEX_3 & ahash) const { int pos = Position (ahash); return cont[pos]; } template inline bool INDEX_3_CLOSED_HASHTABLE :: Used (const INDEX_3 & ahash) const { int pos = Position (ahash); return (pos != 0); } template inline void INDEX_3_CLOSED_HASHTABLE :: SetData (int pos, const INDEX_3 & ahash, const T & acont) { hash.Elem(pos) = ahash; cont.Elem(pos) = acont; } template inline void INDEX_3_CLOSED_HASHTABLE :: GetData (int pos, INDEX_3 & ahash, T & acont) const { ahash = hash.Get(pos); acont = cont.Get(pos); } template inline void INDEX_3_CLOSED_HASHTABLE :: SetData (int pos, const T & acont) { cont.Elem(pos) = acont; } template inline void INDEX_3_CLOSED_HASHTABLE :: GetData (int pos, T & acont) const { acont = cont.Get(pos); } template inline const T & INDEX_3_CLOSED_HASHTABLE :: GetData (int pos) const { return cont.Get(pos); } template inline void INDEX_3_CLOSED_HASHTABLE :: SetSize (int size) { BaseSetSize(size); cont.SetSize(size); } template inline void INDEX_3_CLOSED_HASHTABLE :: PrintMemInfo (ostream & ost) const { cout << "Hashtable: " << Size() << " entries of size " << sizeof(INDEX_3) << " + " << sizeof(T) << " = " << Size() * (sizeof(INDEX_3) + sizeof(T)) << " bytes" << endl; } */ inline void SetInvalid (INDEX & i) { i = -1; } inline bool IsInvalid (INDEX i) { return i == -1; } inline size_t HashValue (INDEX i, size_t size) { return (113*size_t(i)) % size; } inline void SetInvalid (INDEX_2 & i2) { i2[0] = -1; } inline bool IsInvalid (INDEX_2 i2) { return i2[0] == -1; } inline size_t HashValue (INDEX_2 i2, size_t size) { return (113*size_t(i2[0])+size_t(i2[1])) % size; } inline void SetInvalid (INDEX_3 & i3) { i3[0] = -1; } inline bool IsInvalid (INDEX_3 i3) { return i3[0] == -1; } inline size_t HashValue (INDEX_3 i3, size_t size) { return (i3[0]+15*size_t(i3[1])+41*size_t(i3[2])) % size; } /** A closed hash-table. All information is stored in one fixed array. The array should be allocated with the double size of the expected number of entries. */ template class NgClosedHashTable { protected: /// size_t size; /// size_t used; /// NgArray hash; /// NgArray cont; public: /// NgClosedHashTable (size_t asize = 128) : size(asize), used(0), hash(asize), cont(asize) { for (auto & v : hash) SetInvalid(v); } NgClosedHashTable (NgClosedHashTable && ht2) = default; NgClosedHashTable (NgFlatArray _hash, NgFlatArray _cont) : size(_hash.Size()), used(0), hash(_hash.Size(), _hash.Addr(0)), cont(_cont.Size(), _cont.Addr(0)) { for (auto & v : hash) SetInvalid(v); } NgClosedHashTable & operator= (NgClosedHashTable && ht2) = default; /// size_t Size() const { return size; } /// is position used bool UsedPos (size_t pos) const { return ! (IsInvalid(hash[pos])); } /// number of used elements size_t UsedElements () const { return used; } size_t Position (const T_HASH ind) const { size_t i = HashValue(ind, size); while (1) { if (hash[i] == ind) return i; if (IsInvalid(hash[i])) return size_t(-1); i++; if (i >= size) i = 0; } } void DoubleSize() { NgClosedHashTable tmp(2*Size()); for (auto both : *this) tmp[both.first] = both.second; *this = std::move(tmp); } // returns true if new position is created bool PositionCreate (const T_HASH ind, size_t & apos) { if (UsedElements()*2 > Size()) DoubleSize(); size_t i = HashValue (ind, size); while (1) { if (IsInvalid(hash[i])) { hash[i] = ind; apos = i; used++; return true; } if (hash[i] == ind) { apos = i; return false; } i++; if (i >= size) i = 0; } } /// void Set (const T_HASH & ahash, const T & acont) { size_t pos; PositionCreate (ahash, pos); hash[pos] = ahash; cont[pos] = acont; } /// const T & Get (const T_HASH & ahash) const { size_t pos = Position (ahash); if (pos == size_t(-1)) throw Exception (string("illegal key: ") + ToString(ahash) ); return cont[pos]; } /// bool Used (const T_HASH & ahash) const { return (Position (ahash) != size_t(-1)); } void SetData (size_t pos, const T_HASH & ahash, const T & acont) { hash[pos] = ahash; cont[pos] = acont; } void GetData (size_t pos, T_HASH & ahash, T & acont) const { ahash = hash[pos]; acont = cont[pos]; } void SetData (size_t pos, const T & acont) { cont[pos] = acont; } void GetData (size_t pos, T & acont) const { acont = cont[pos]; } pair GetBoth (size_t pos) const { return pair (hash[pos], cont[pos]); } const T & operator[] (T_HASH key) const { return Get(key); } T & operator[] (T_HASH key) { size_t pos; PositionCreate(key, pos); return cont[pos]; } void SetSize (size_t asize) { size = asize; hash.Alloc(size); cont.Alloc(size); // for (size_t i = 0; i < size; i++) // hash[i] = invalid; // hash = T_HASH(invalid); for (auto & v : hash) SetInvalid(v); } void Delete (T_HASH key) { size_t pos = Position(key); if (pos == size_t(-1)) return; SetInvalid (hash[pos]); used--; while (1) { size_t nextpos = pos+1; if (nextpos == size) nextpos = 0; if (IsInvalid(hash[nextpos])) break; auto key = hash[nextpos]; auto val = cont[nextpos]; SetInvalid (hash[nextpos]); used--; Set (key, val); pos = nextpos; } } void DeleteData() { for (auto & v : hash) SetInvalid(v); used = 0; } class Iterator { const NgClosedHashTable & tab; size_t nr; public: Iterator (const NgClosedHashTable & _tab, size_t _nr) : tab(_tab), nr(_nr) { while (nr < tab.Size() && !tab.UsedPos(nr)) nr++; } Iterator & operator++() { nr++; while (nr < tab.Size() && !tab.UsedPos(nr)) nr++; return *this; } bool operator!= (const Iterator & it2) { return nr != it2.nr; } auto operator* () const { T_HASH hash; T val; tab.GetData(nr, hash,val); return std::make_pair(hash,val); } }; Iterator begin() const { return Iterator(*this, 0); } Iterator end() const { return Iterator(*this, Size()); } }; template ostream & operator<< (ostream & ost, const NgClosedHashTable & tab) { for (size_t i = 0; i < tab.Size(); i++) if (tab.UsedPos(i)) { T_HASH key; T val; tab.GetData (i, key, val); ost << key << ": " << val << ", "; } return ost; } } #endif