Пример #1
0
        public static double syntheticaccessability(OBMol mol)
        {
            mol.FindChiralCenters();
            VectorpRing ringdata = mol.GetSSSR();
            double      fring    = 0;

            //int rings = (double)ringdata.Count;
            foreach (OBRing r in ringdata)
            {
                var n = r.Size();
                fring = fring + n * 6;
            }
            double ftype    = 0;
            double fconnect = 0;
            int    nchiral  = 0;

            foreach (OBAtom a in mol.Atoms())
            {
                if (a.GetAtomicNum() == 6)
                {
                    ftype = ftype + 3;
                }
                else
                {
                    ftype = ftype + 6;
                }

                int bcount = 0;
                foreach (OBBond b in a.Bonds())
                {
                    bcount++; //get the atom degree by counting bonds
                }
                switch (bcount)
                {
                case 4: {
                    fconnect = fconnect + 24;
                    break;
                }

                case 3: {
                    fconnect = fconnect + 12;
                    break;
                }

                case 2: {
                    fconnect = fconnect + 6;
                    break;
                }

                case 1: {
                    fconnect = fconnect + 3;
                    break;
                }
                }
                if (a.IsChiral())
                {
                    nchiral++;
                }
            }
            //for indole() ftype= 72, fring = 66, fconnect = 129
            //fring
            double fchiral = nchiral * 20;
            double score   = fchiral + fconnect + ftype + fring;

            return(score);
        }
Пример #2
0
        public MolStat GetMolStat()
        {
            /* 统计原子 */
            uint _numAtoms    = mol.NumAtoms();       //所有原子总数
            uint _numHvyAtoms = mol.NumHvyAtoms();    //所有除去氢原子的原子总数
            int  _totalCharge = mol.GetTotalCharge(); //总电荷数

            int n_C     = 0;                          // number of carbon atoms 碳原子总数
            int n_C1    = 0;                          // number of carbon atoms with sp1 hybridization sp1杂化的碳原子数
            int n_C2    = 0;                          // number of carbon atoms with sp1 hybridization sp2杂化的碳原子数
            int n_CHB1p = 0;                          // number of carbon atoms with at least 1 bond to a hetero atom 至少连接一个杂原子的碳原子数
            int n_CHB2p = 0;                          // number of carbon atoms with at least 2 bonds to a hetero atom 至少连接两个个杂原子的碳原子数
            int n_CHB3p = 0;                          // number of carbon atoms with at least 3 bonds to a hetero atom 至少连接三个杂原子的碳原子数
            int n_CHB4  = 0;                          // number of carbon atoms with 4 bonds to a hetero atom 连接了4个杂原子的碳原子数
            int n_O     = 0;                          // number of oxygen atoms 氧原子数
            int n_O2    = 0;                          // number of sp2-hybridized oxygen atoms sp2杂化的氧原子数
            int n_O3    = 0;                          // number of sp3-hybridized oxygen atoms sp3杂化的氧原子数
            int n_N     = 0;                          // number of nitrogen atoms 氮原子数
            int n_N1    = 0;                          // number of sp-hybridized nitrogen atoms sp杂化的氮原子数
            int n_N2    = 0;                          // number of sp2-hybridized nitrogen atoms sp2杂化的氮原子数
            int n_N3    = 0;                          // number of sp3-hybridized nitrogen atoms sp3杂化的氮原子数
            int n_S     = 0;                          // number of sulfur atoms 硫原子数
            int n_SeTe  = 0;                          // total number of selenium and tellurium atoms 硒和碲原子的数目
            int n_F     = 0;                          // number of fluorine atoms 氟原子的数目
            int n_Cl    = 0;                          // number of chlorine atoms 氯原子的数目
            int n_Br    = 0;                          // number of bromine atoms 溴原子的数目
            int n_I     = 0;                          // number of iodine atoms 碘原子的数目
            int n_P     = 0;                          // number of phosphorus atoms 磷原子的数目
            int n_B     = 0;                          // number of boron atoms 硼原子的数目
            int n_Met   = 0;                          // total number of metal atoms 金属原子的数目
            int n_X     = 0;                          // total number of "other" atoms (not listed above) and halogens 其他原子的数目,除了以上列出的之外。

            for (int i = 1; i <= _numAtoms; i++)
            {
                OBAtom _atom          = mol.GetAtom(i);
                uint   _AtomicNum     = _atom.GetAtomicNum();     //原子种类,周期表序号
                uint   _hyb           = _atom.GetHyb();           //原子的杂化形态,1 for sp1,  2 for sp2, 3 for sp3
                uint   _HeteroValence = _atom.GetHeteroValence(); //连接在这个原子上杂(非氢,碳)原子的数目
                //uint _HeteroValence = _atom.GetHeteroDegree();  //For openbabel 3.0

                if (_AtomicNum == 6) //碳原子
                {
                    n_C++;

                    switch (_hyb)
                    {
                    case 1:
                        n_C1++;
                        break;

                    case 2:
                        n_C2++;
                        break;

                    default:
                        break;
                    }

                    if (_HeteroValence >= 4)
                    {
                        n_CHB4++;
                    }

                    if (_HeteroValence >= 3)
                    {
                        n_CHB3p++;
                    }

                    if (_HeteroValence >= 2)
                    {
                        n_CHB2p++;
                    }

                    if (_HeteroValence >= 1)
                    {
                        n_CHB1p++;
                    }
                }
                else if (_AtomicNum == 8)
                {
                    n_O++;
                    switch (_hyb)
                    {
                    case 2:
                        n_O2++;
                        break;

                    case 3:
                        n_O3++;
                        break;

                    default:
                        break;
                    }
                }
                else if (_AtomicNum == 7)
                {
                    n_N++;
                    switch (_hyb)
                    {
                    case 1:
                        n_N1++;
                        break;

                    case 2:
                        n_N2++;
                        break;

                    case 3:
                        n_N3++;
                        break;

                    default:
                        break;
                    }
                }
                else if (_AtomicNum == 16)
                {
                    n_S++;
                }
                else if (_AtomicNum == 34 || _AtomicNum == 52)
                {
                    n_SeTe++;
                }
                else if (_AtomicNum == 9)
                {
                    n_F++;
                }
                else if (_AtomicNum == 17)
                {
                    n_Cl++;
                }
                else if (_AtomicNum == 35)
                {
                    n_Br++;
                }
                else if (_AtomicNum == 53)
                {
                    n_I++;
                }
                else if (_AtomicNum == 15)
                {
                    n_P++;
                }
                else if (_AtomicNum == 5)
                {
                    n_B++;
                }
                else if ((_AtomicNum >= 3 && _AtomicNum <= 4) || (_AtomicNum >= 11 && _AtomicNum <= 13) || (_AtomicNum >= 19 && _AtomicNum <= 32) || (_AtomicNum >= 37 && _AtomicNum <= 51) || (_AtomicNum >= 55 && _AtomicNum <= 84) || (_AtomicNum >= 87))
                {
                    n_Met++;
                }
            }

            n_X = (int)_numHvyAtoms - n_B - n_C - n_Met - n_N - n_O - n_P - n_S - n_SeTe;

            /* 统计化学键 */

            uint _numBonds = mol.NumBonds(); //所有化学键的总数

            int n_b1     = 0;                // number of single bonds 单键的个数
            int n_b1_NoH = 0;                // number of none C-H single bonds 不含氢的单键个数
            int n_b2     = 0;                // number of double bonds 双键的个数
            int n_b3     = 0;                // number of triple bonds 三键的个数
            int n_bar    = 0;                // number of aromatic bonds 芳香键的个数
            int n_C1O    = 0;                // number of C-O single bonds 碳-氧单键的个数
            int n_C2O    = 0;                // number of C=O double bonds 碳=氧双键的个数
            int n_CN     = 0;                // number of C/N bonds (any type) 任何类型的碳氮键的个数
            int n_XY     = 0;                // number of heteroatom/heteroatom bonds (any type) 任何类型的杂原子之间化学健的个数

            for (int i = 0; i < _numBonds; i++)
            {
                OBBond _bond = mol.GetBond(i);

                OBAtom _beginAtom = _bond.GetBeginAtom();
                OBAtom _endAtom   = _bond.GetEndAtom();

                uint _beginAtomAtomicNum = _beginAtom.GetAtomicNum();
                uint _endAtomAtomicNum   = _endAtom.GetAtomicNum();

                if (_bond.IsSingle())  //Replace IsSingle() method in Openbabel 3.0
                {
                    n_b1++;
                    if (_beginAtomAtomicNum != 1 && _endAtomAtomicNum != 1)
                    {
                        n_b1_NoH++;
                    }
                }
                else if (_bond.IsDouble())  // Replace IsDouble() method in Openbabel 3.0
                {
                    n_b2++;
                }
                else if (_bond.IsTriple())  // Replace IsTriple() method in Openbabel 3.0
                {
                    n_b3++;
                }
                else if (_bond.IsAromatic())
                {
                    n_bar++;
                }

                if ((_beginAtomAtomicNum == 6 && _endAtomAtomicNum == 8) || (_beginAtomAtomicNum == 8 && _endAtomAtomicNum == 6))
                {
                    uint _bondOrder = _bond.GetBondOrder();

                    if (_bondOrder == 1)
                    {
                        n_C1O++;
                    }
                    else if (_bondOrder == 2)
                    {
                        n_C2O++;
                    }
                }
                else if ((_beginAtomAtomicNum == 6 && _endAtomAtomicNum == 7) || (_beginAtomAtomicNum == 7 && _endAtomAtomicNum == 6))
                {
                    n_CN++;
                }
                else if (_beginAtomAtomicNum != 6 && _endAtomAtomicNum != 6)
                {
                    n_XY++;
                }
            }

            /* 统计环 */
            #region 统计环

            VectorpRing _SSSR = mol.GetSSSR();

            int n_r3   = 0; // number of 3-membered rings 3元环个数
            int n_r4   = 0; // number of 4-membered rings 4元环个数
            int n_r5   = 0; // number of 5-membered rings 5元环个数
            int n_r6   = 0; // number of 6-membered rings 6元环个数
            int n_r7   = 0; // number of 7-membered rings 7元环个数
            int n_r8   = 0; // number of 8-membered rings 8元环个数
            int n_r9   = 0; // number of 9-membered rings 9元环个数
            int n_r10  = 0; // number of 10-membered rings 10元环个数
            int n_r11  = 0; // number of 11-membered rings 11元环个数
            int n_r12  = 0; // number of 12-membered rings 12元环个数
            int n_r13p = 0; // number of 13-membered or larger rings 13元环或者更大的环的个数
            int n_rN   = 0; // number of rings containing nitrogen (any number) 含氮环的个数
            int n_rN1  = 0; // number of rings containing 1 nitrogen atom 含一个氮原子的环的个数
            int n_rN2  = 0; // number of rings containing 2 nitrogen atoms 含两个个氮原子的环的个数
            int n_rN3p = 0; // number of rings containing 3 or more nitrogen atoms 含三个或以上个氮原子的环的个数
            int n_rO   = 0; // number of rings containing oxygen (any number) 含氧环的个数
            int n_rO1  = 0; // number of rings containing 1 oxygen atom 含一个氧原子的环的个数
            int n_rO2p = 0; // number of rings containing 2 or more oxygen atoms 含三个或以上个氧原子的环的个数
            int n_rS   = 0; // number of rings containing sulfur (any number) 含硫环的个数
            int n_rX   = 0; // number of heterocycles (any type) 杂环的个数
            int n_rar  = 0; // number of aromatic rings (any type) 芳香环的个数

            if (_SSSR.Count != 0 || _SSSR != null)
            {
                foreach (OBRing _ring in _SSSR)
                {
                    uint _ringSize = _ring.Size();

                    if (_ringSize == 3)
                    {
                        n_r3++;
                    }
                    else if (_ringSize == 4)
                    {
                        n_r4++;
                    }
                    else if (_ringSize == 5)
                    {
                        n_r5++;
                    }
                    else if (_ringSize == 6)
                    {
                        n_r6++;
                    }
                    else if (_ringSize == 7)
                    {
                        n_r7++;
                    }
                    else if (_ringSize == 8)
                    {
                        n_r8++;
                    }
                    else if (_ringSize == 9)
                    {
                        n_r9++;
                    }
                    else if (_ringSize == 10)
                    {
                        n_r10++;
                    }
                    else if (_ringSize == 11)
                    {
                        n_r11++;
                    }
                    else if (_ringSize == 12)
                    {
                        n_r12++;
                    }
                    else if (_ringSize >= 13)
                    {
                        n_r13p++;
                    }

                    if (_ring.IsAromatic())
                    {
                        n_rar++;
                    }

                    VectorInt _pathes = _ring._path;

                    int _ct_N = 0;
                    int _ct_O = 0;
                    int _ct_S = 0;

                    bool _isRingX = false;
                    foreach (int _p in _pathes)
                    {
                        OBAtom _atom = mol.GetAtom(_p);

                        uint _AtomicNum = _atom.GetAtomicNum();

                        if (_AtomicNum == 7) //N原子
                        {
                            _ct_N++;
                        }
                        else if (_AtomicNum == 8) //O原子
                        {
                            _ct_O++;
                        }
                        else if (_AtomicNum == 16) //S原子
                        {
                            _ct_S++;
                        }

                        if (_AtomicNum != 6)
                        {
                            _isRingX = true;
                        }
                    }

                    if (_ct_N == 1)
                    {
                        n_rN1++;
                    }
                    else if (_ct_N == 2)
                    {
                        n_rN2++;
                    }
                    else if (_ct_N >= 3)
                    {
                        n_rN3p++;
                    }

                    n_rN = n_rN1 + n_rN2 + n_rN3p;

                    if (_ct_O == 1)
                    {
                        n_rO1++;
                    }
                    else if (_ct_O >= 2)
                    {
                        n_rO2p++;
                    }

                    n_rO = n_rO1 + n_rO2p;

                    if (_ct_S >= 1)
                    {
                        n_rS++;
                    }

                    if (_isRingX)
                    {
                        n_rX++;
                    }
                }
            }

            #endregion

            // 统计数字映射成MolStat对象
            MolStat stat = new MolStat
            {
                // General info
                AtomsCount      = (int)_numAtoms,
                HeavyAtomsCount = (int)_numHvyAtoms,
                TotalCharge     = _totalCharge,
                // Atoms info
                N_B     = n_B,
                N_Br    = n_Br,
                N_C     = n_C,
                N_C1    = n_C1,
                N_C2    = n_C2,
                N_CHB1p = n_CHB1p,
                N_CHB2p = n_CHB2p,
                N_CHB3p = n_CHB3p,
                N_CHB4  = n_CHB4,
                N_Cl    = n_Cl,
                N_F     = n_F,
                N_I     = n_I,
                N_Met   = n_Met,
                N_N     = n_N,
                N_N1    = n_N1,
                N_N2    = n_N2,
                N_N3    = n_N3,
                N_O     = n_O,
                N_O2    = n_O2,
                N_O3    = n_O3,
                N_P     = n_P,
                N_S     = n_S,
                N_SeTe  = n_SeTe,
                N_X     = n_X,
                // Bonds info
                BondsCount = (int)_numBonds,
                N_b1       = n_b1,
                N_b1_NoH   = n_b1_NoH,
                N_b2       = n_b2,
                N_b3       = n_b3,
                N_bar      = n_bar,
                N_C1O      = n_C1O,
                N_C2O      = n_C2O,
                N_CN       = n_CN,
                N_XY       = n_XY,
                // Rings info
                RingsCount = _SSSR.Count,
                N_r10      = n_r10,
                N_r11      = n_r11,
                N_r12      = n_r12,
                N_r13p     = n_r13p,
                N_r3       = n_r3,
                N_r4       = n_r4,
                N_r5       = n_r5,
                N_r6       = n_r6,
                N_r7       = n_r7,
                N_r8       = n_r8,
                N_r9       = n_r9,
                N_rar      = n_rar,
                N_rN       = n_rN,
                N_rN1      = n_rN1,
                N_rN2      = n_rN2,
                N_rN3p     = n_rN3p,
                N_rO       = n_rO,
                N_rO1      = n_rO1,
                N_rO2p     = n_rO2p,
                N_rS       = n_rS,
                N_rX       = n_rX
            };

            return(stat);
        }