コード例 #1
0
                          coordfile='snf_h2o/coord')
res.read()

# use the normal modes in the following (no localization)
modes = res.modes

# Define the grid

ngrid = 16
amp = 14
grid = vib.Grid(res.mol, modes)
grid.generate_grids(ngrid, amp)

# Read in anharmonic 1-mode potentials

v1 = vib.Potential(grid, order=1)
v1.read_np(os.path.join('potentials', 'V1_g16.npy'))

# Read in anharmonic 1-mode dipole moments

dm1 = vib.Dipole(grid)
dm1.read_np(os.path.join('potentials', 'Dm1_g16.npy'))

# Read in anharmonic 2-mode potentials

v2 = vib.Potential(grid, order=2)
v2.read_np(os.path.join('potentials', 'V2_g16.npy'))

# Read in anharmonic 2-mode dipole moments

dm2 = vib.Dipole(grid, order=2)
コード例 #2
0
    def __init__(self, dirname):

        f = open(dirname + '/grid_params')
        lines = f.readlines()
        f.close()

        whichmodes = None
        localized = None

        if os.path.isfile(dirname + '/whichmodes'):
            whichmodes = []
            f = open(dirname + '/whichmodes')
            lines2 = f.readlines()
            f.close
            for l in lines2:
                for el in l.split():
                    whichmodes.append(int(el))

        grid_params = lines[0].split()

        self.ngrid = int(grid_params[0])
        self.amp = int(grid_params[1])

        res = VibTools.SNFResults(outname=dirname + '/snf.out',
                                  restartname=dirname + '/restart',
                                  coordfile=dirname + '/coord')
        res.read()

        self.freqs = res.modes.freqs

        self.ints = res.get_ir_intensity()
        modes = res.modes

        if whichmodes is not None:
            self.freqs = res.modes.freqs[whichmodes]
            self.ints = res.get_ir_intensity(
                modes=res.modes.get_subset(whichmodes))
            modes = res.modes.get_subset(whichmodes)

        self.grid = vib.Grid(res.mol, modes)
        self.grid.generate_grids(self.ngrid, self.amp)

        self.v1 = vib.Potential(self.grid, 1)
        self.v1.read_np(dirname + '/v1.npy')

        self.v1_harm = vib.Potential(self.grid, 1)
        self.v1_harm.generate_harmonic()

        self.dm1_harm = vib.Dipole(self.grid, 1)
        self.dm1_harm.generate_harmonic(res)

        self.v2 = vib.Potential(self.grid, 2)
        self.v2.read_np(dirname + '/v2.npy')

        self.dm1 = vib.Dipole(self.grid, 1)
        self.dm1.read_np(dirname + '/dm1.npy')

        self.dm2 = vib.Dipole(self.grid, 2)
        self.dm2.read_np(dirname + '/dm2.npy')

        self.diagonal_eigv = np.load(dirname + '/diagonal_eigv.npy')
        self.vscf_singles_energies = np.load(dirname + '/vscf_singles.npy')

        self.vci1 = np.load(dirname + '/vci1.npy')
        self.vci2 = np.load(dirname + '/vci2.npy')
        self.vci3 = np.load(dirname + '/vci3.npy')
        self.vci4 = np.load(dirname + '/vci4.npy')

        self.vci1_int = np.load(dirname + '/vci1_int.npy')