storage.h
00001 //
00002 // storage.h
00003 //
00004 // Copyright (C) 1996 Limit Point Systems, Inc.
00005 //
00006 // Author: Curtis Janssen <cljanss@limitpt.com>
00007 // Maintainer: LPS
00008 //
00009 // This file is part of the SC Toolkit.
00010 //
00011 // The SC Toolkit is free software; you can redistribute it and/or modify
00012 // it under the terms of the GNU Library General Public License as published by
00013 // the Free Software Foundation; either version 2, or (at your option)
00014 // any later version.
00015 //
00016 // The SC Toolkit is distributed in the hope that it will be useful,
00017 // but WITHOUT ANY WARRANTY; without even the implied warranty of
00018 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
00019 // GNU Library General Public License for more details.
00020 //
00021 // You should have received a copy of the GNU Library General Public License
00022 // along with the SC Toolkit; see the file COPYING.LIB. If not, write to
00023 // the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
00024 //
00025 // The U.S. Government is granted a limited license as per AL 91-7.
00026 //
00027
00028 #ifndef _chemistry_qc_intv3_storage_h
00029 #define _chemistry_qc_intv3_storage_h
00030
00031 #ifdef __GNUC__
00032 #pragma interface
00033 #endif
00034
00035 #ifdef __cplusplus
00036
00037 #include <stddef.h>
00038 #include <util/class/class.h>
00039 #include <util/keyval/keyval.h>
00040 #include <util/container/eavlmmap.h>
00041
00042 namespace sc {
00043
00044 // the max shell number is 2^15 (sizeof(int) must be >= 4)
00045 #define SH_BITS 15 // the number of bits holding a shell index
00046 #define PE_BITS 1 // the number of bits holding a permutation
00047
00048 #define SH_MASK ((1<<SH_BITS)-1)
00049 #define PE_MASK ((1<<PE_BITS)-1)
00050
00051 #define SH0_SHIFT 0
00052 #define SH1_SHIFT (SH_BITS + SH0_SHIFT)
00053 #define P12_SHIFT (SH_BITS + SH1_SHIFT)
00054 #define P34_SHIFT (PE_BITS + P12_SHIFT)
00055 #define SH2_SHIFT 0
00056 #define SH3_SHIFT (SH_BITS + SH2_SHIFT)
00057 #define P13P24_SHIFT (SH_BITS + SH3_SHIFT)
00058 class IntegralKey {
00059 public:
00060 unsigned int sh0_sh1_p12_p34;
00061 unsigned int sh2_sh3_p13p24;
00062 public:
00063 IntegralKey(int,int,int,int,int,int,int);
00064 IntegralKey(const IntegralKey&);
00065 int sh0() const { return (sh0_sh1_p12_p34>>SH0_SHIFT) & SH_MASK; }
00066 int sh1() const { return (sh0_sh1_p12_p34>>SH1_SHIFT) & SH_MASK; }
00067 int p12() const { return (sh0_sh1_p12_p34>>P12_SHIFT) & PE_MASK; }
00068 int p34() const { return (sh0_sh1_p12_p34>>P34_SHIFT) & PE_MASK; }
00069 int sh2() const { return (sh2_sh3_p13p24>>SH2_SHIFT) & SH_MASK; }
00070 int sh3() const { return (sh2_sh3_p13p24>>SH3_SHIFT) & SH_MASK; }
00071 int p13p24() const { return (sh2_sh3_p13p24>>P13P24_SHIFT) & PE_MASK; }
00072 };
00073
00074 inline
00075 IntegralKey::IntegralKey(int sh1_, int sh2_, int sh3_, int sh4_,
00076 int p12_, int p34_, int p13p24_)
00077 {
00078 sh0_sh1_p12_p34 = (sh1_<<SH0_SHIFT)
00079 |(sh2_<<SH1_SHIFT)
00080 |(p12_<<P12_SHIFT)
00081 |(p34_<<P34_SHIFT);
00082 sh2_sh3_p13p24 = (sh3_<<SH2_SHIFT)
00083 |(sh4_<<SH3_SHIFT)
00084 |(p13p24_<<P13P24_SHIFT);
00085 }
00086
00087 inline
00088 IntegralKey::IntegralKey(const IntegralKey& ik)
00089 {
00090 sh0_sh1_p12_p34 = ik.sh0_sh1_p12_p34;
00091 sh2_sh3_p13p24 = ik.sh2_sh3_p13p24;
00092 }
00093
00094 inline int
00095 compare(const IntegralKey&k1, const IntegralKey&k2)
00096 {
00097 if (k1.sh0_sh1_p12_p34 < k2.sh0_sh1_p12_p34) return -1;
00098 else if (k1.sh0_sh1_p12_p34 > k2.sh0_sh1_p12_p34) return 1;
00099
00100 if (k1.sh2_sh3_p13p24 < k2.sh2_sh3_p13p24) return -1;
00101 else if (k1.sh2_sh3_p13p24 > k2.sh2_sh3_p13p24) return 1;
00102 else return 0;
00103 }
00104
00105 class IntegralLink {
00106 public:
00107 EAVLMMapNode<IntegralKey, IntegralLink> intlist;
00108 EAVLMMapNode<int, IntegralLink> costlist;
00109 int size;
00110 public:
00111 IntegralLink(IntegralKey& key, int cost, int size);
00112 static int size_to_actualsize(int size);
00113 ~IntegralLink();
00114 int actualsize() const;
00115 int hash() const;
00116 static int shells_to_hash(int,int,int,int);
00117 int cost() const { return costlist.key; }
00118 void print();
00119
00120 // the integrals are squirreled away after this
00121 double* buffer() { return (double*)&this[1]; }
00122 void* operator new(size_t, int);
00123 void operator delete(void*, int);
00124 void operator delete(void*);
00125 };
00126
00127 inline int
00128 IntegralLink::shells_to_hash(int sh1,int sh2,int sh3,int sh4)
00129 {
00130 return sh1 ^ (sh4<<4) ^ (sh2<<8) ^ (sh3<<12);
00131 }
00132
00133 inline int
00134 IntegralLink::hash() const
00135 {
00136 return shells_to_hash(intlist.key.sh0(),
00137 intlist.key.sh1(),
00138 intlist.key.sh2(),
00139 intlist.key.sh3());
00140 }
00141
00142 inline int
00143 IntegralLink::size_to_actualsize(int size)
00144 {
00145 return size*sizeof(double) + sizeof(IntegralLink) + sizeof(void*)*2;
00146 }
00147
00148 inline int
00149 IntegralLink::actualsize() const
00150 {
00151 return size_to_actualsize(size);
00152 }
00153
00154 class IntegralStorer: public DescribedClass {
00155 private:
00156 int table_size_;
00157 EAVLMMap<int,IntegralLink> costlist;
00158 EAVLMMap<IntegralKey,IntegralLink>* table_;
00159 int maxsize_;
00160 int currentsize_;
00161 int n_integrals_;
00162 int n_shellquart_;
00163 public:
00164 IntegralStorer();
00165 IntegralStorer(const Ref<KeyVal>&);
00166 ~IntegralStorer();
00167 void init(int nbytes);
00168 void done();
00169 IntegralLink *find(IntegralKey&);
00170 int should_store(int cost, int actualsize);
00171 void store(IntegralKey& key, const double *buf,
00172 int size, int cost, int actualsize);
00173 void print_stats();
00174 int table_size() const { return table_size_; }
00175 };
00176
00177 }
00178
00179 #endif
00180
00181 #endif
00182
00183 // Local Variables:
00184 // mode: c++
00185 // c-file-style: "CLJ"
00186 // End:
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