Exemplo n.º 1
0
def get_soap_locals(obj, Hpos, rCutHard=8.0, NradBas=5, Lmax=5, atoms_list=None):
    assert Lmax <= 9, "l cannot exceed 9. Lmax={}".format(Lmax) 
    assert Lmax >= 0, "l cannot be negative.Lmax={}".format(Lmax) 
    assert rCutHard < 10.0001 , "hard redius cuttof cannot be larger than 10 Angs. rCut={}".format(rCutHard) 
    assert rCutHard > 4.999 , "hard redius cuttof cannot be lower than 5 Ang. rCut={}".format(rCutHard)
    assert NradBas >= 2 , "number of basis functions cannot be lower than 2. NradBas={}".format(NradBas)
    assert NradBas <= 10 , "number of basis functions cannot exceed 10. NradBas={}".format(NradBas)

    # get clusgeo internal format for c-code
    Apos, typeNs, py_Ntypes, atomtype_lst, totalAN = format_ase2clusgeo(obj)
    # flatten Hpos array
    Hpos = np.array(Hpos)
    py_Hsize = Hpos.shape[0]
    Hpos = Hpos.flatten()
    alp, bet = genBasis.getBasisFunc(rCutHard, NradBas)
    
    #Declaring main soap array, for atoms in atoms_list
    if atoms_list == None:
        atoms_list = atomtype_lst
    soap_nfeature = NradBas**2*(Lmax+1)
    soap = np.zeros((py_Hsize, soap_nfeature*len(atoms_list)))

    # convert int to c_int
    alphas = (c_double*len(alp))(*alp)
    betas = (c_double*len(bet))(*bet)
    l = c_int(Lmax)
    Hsize = c_int(py_Hsize)
    Ntypes = c_int(py_Ntypes)
    totalAN = c_int(totalAN)
    rCutHard = c_double(rCutHard)
    Nsize = c_int(NradBas)
    #convert int array to c_int array
    typeNs = (c_int * len(typeNs))(*typeNs)

    print(l, Hsize, Ntypes, totalAN, typeNs, Nsize)
    # convert to c_double arrays
    #Apos
    axyz = (c_double * len(Apos))(*Apos.tolist())
    #Hpos
    hxyz = (c_double * len(Hpos))(*Hpos.tolist())

    ### START SOAP###
    path_to_so = os.path.dirname(os.path.abspath(__file__))
    libsoap = CDLL(path_to_so + '/src/libsoapPy.so')
    libsoap.soap.argtypes = [POINTER (c_double),POINTER (c_double), POINTER (c_double),POINTER (c_double),POINTER (c_double), POINTER (c_int),c_double,c_int,c_int,c_int,c_int,c_int]
    libsoap.soap.restype = POINTER (c_double)
    # double* c, double* Apos,double* Hpos,int* typeNs,
    # int totalAN,int Ntypes,int Nsize, int l, int Hsize);
    c = (c_double*(soap_nfeature*py_Ntypes*py_Hsize))()
    c = libsoap.soap( c, axyz, hxyz, alphas, betas, typeNs, rCutHard, totalAN, Ntypes, Nsize, l, Hsize)
    #   return c;
    soap_part = np.ctypeslib.as_array( c, shape=(py_Hsize,soap_nfeature*py_Ntypes))
    
    for i in range(py_Hsize):
        for j_ind, j in enumerate(atoms_list):
            if j in atomtype_lst:
                j_ind_part = atomtype_lst.tolist().index(j)
                soap[i, soap_nfeature*j_ind:soap_nfeature*(j_ind+1)] = soap_part[i, soap_nfeature*j_ind_part:soap_nfeature*(j_ind_part+1)]
                
    return soap
Exemplo n.º 2
0
def create(atoms_list,N, L, cutoff = 0, all_atomtypes=[]):
    """Takes a trajectory xyz file and writes soap features
    """
    myAlphas, myBetas = genBasis.getBasisFunc(cutoff, N)
    # get information about feature length
    n_datapoints = len(atoms_list)
    atoms = atoms_list[0]
    x = get_lastatom_soap(atoms, cutoff, myAlphas, myBetas,N,L, all_atomtypes=all_atomtypes)
    n_features = x.shape[1]
    print("soap first", x.shape)
    print(n_datapoints, n_features)
    soapmatrix = np.zeros((n_datapoints, n_features))

    i = -1
    for atoms in atoms_list:
        i +=1
        #atoms
        print("Processing " + str(atoms.info)," Run time: " + str(time.time()-t0_total), end="\r")
        soapmatrix[i,:] = get_lastatom_soap(atoms, cutoff, myAlphas, myBetas, N, L, all_atomtypes=all_atomtypes)
    print("")

    # infos
    print("shape", soapmatrix.shape)
    return soapmatrix
Exemplo n.º 3
0
if len(args.arguments) > 1:
    print('Too many arguments')
    exit(1)

trajfile = args.arguments[0]
rootname = trajfile.replace(".xyz", "")

traj = ase.io.read(trajfile, index=":")

print("number of snapshots:", len(traj))

feature_mat = np.zeros((len(traj), 21))
NMAX = 10
LMAX = 9
RCUT = 8.0
myAlphas, myBetas = genBasis.getBasisFunc(RCUT, NMAX)
n_datapoints = len(traj)

for i, atoms in zip(np.arange(len(traj)), traj):
    print(i)
    cluster = atoms[:-1]
    last_atom = atoms[-1]
    distmat = get_distance_matrix(atoms)

    # get number of nearest neighbours, classify as top, bridge, hollow, 4-fold hollow
    first_shell, nn_dist_lst, nn_type, n_atoms_per_type_lst = get_first_shell(
        atoms, NN_CUTOFF, distmat)

    nnn = len(nn_dist_lst)
    print("number of nearest neighbours", nnn)
    soap_array = get_sitecenteredsoap(cluster,