示例#1
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文件: test.py 项目: cc-a/pymdash
    def test_tzd(self):
            with open('data/tzd.out') as f, \
                 open('data/tzd.in') as f2:
                dash = mdash.DashOutput(f, f2)

            # check that the mamixum frequency value of each dihedral
            # state falls within the appropriate range of angles
            for dih in dash.dihedrals:
                for state in dih.states:
                    self.assertTrue(any(r.min < state.maximum < r.max
                                        for r in state.ranges))
示例#2
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文件: test.py 项目: cc-a/pymdash
 def get_simple_dash(self):
     dash = mdash.DashOutput([])
     dih1 = mdash.Dihedral(
         '1', [' : 0, 0', ': 1 = [-180, 0), 2 = [0, 180)'])
     dih2 = mdash.Dihedral(
         '2', [' : 0, 0', ': 1 = [-180, 0), 2 = [0, 180)'])
     dash.dihedrals = [dih1, dih2]
     state1 = mdash.State('1 1 1', [dih1, dih2])
     state2 = mdash.State('2 2 1', [dih1, dih2])
     state3 = mdash.State('3 1 2', [dih1, dih2])
     state4 = mdash.State('4 2 2', [dih1, dih2])
     dash.states = [state1, state2, state3, state4]
     dash._create_null_state()
     return dash
示例#3
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parser = argparse.ArgumentParser(
    description='This script demonstrates integration of pymdash with mdtraj'
    ' to extract the representative frame for each dash state from a raw '
    'trajectory file.')
parser.add_argument('dash_out_file', help='Path to the output file from dash')
parser.add_argument('trajectory_file',
                    help='Path to the trajectory data file used to provide'
                    ' input for the dash run.')
parser.add_argument(
    '-t',
    '--topology',
    help='Path to a suitable structure file that can be '
    'used to derive a topology by mdtraj. See md_traj.load_toplogy for details'
)
args = parser.parse_args()

if args.topology is not None:
    topology = md.load_topology(args.topology)
else:
    topology = None

with open(args.dash_out_file) as f:
    dash = mdash.DashOutput(f)

print('Writing pdb files for {} dash states'.format(dash.n_states))
for state in dash.states:
    traj = md.load_frame(args.trajectory_file,
                         state.rep_frame - 1,
                         top=topology)
    traj.save_pdb('state_{}.pdb'.format(state.index))
示例#4
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文件: test.py 项目: cc-a/pymdash
    def test(self):
        with open('data/simple_dash.out') as f, \
             open('data/simple_dash.in') as f2:
            dash = mdash.DashOutput(f, f2)

        self.assertEqual(dash.options['data'], 'angles')
        self.assertEqual(dash.options['timestep'], '1 ps')
        self.assertEqual(dash.options['window'], 11)
        self.assertEqual(dash.options['binsize'], 4)
        self.assertEqual(dash.options['runlen'], 3)
        self.assertEqual(dash.options['fmax'], 2.4)
        self.assertEqual(dash.options['smin'], 48)
        self.assertEqual(dash.options['boutlen'], 20)
        self.assertEqual(dash.options['smooth'], 40)
        self.assertEqual(dash.options['rough'], 20)
        self.assertEqual(dash.options['repex_fraction'], 0.01)

        self.assertEqual(dash.n_states, 2)
        self.assertEqual(dash.n_dihedrals, 12)

        self.assertEqual(dash.states[0].state_code, '111112111111')
        self.assertEqual(dash.states[1].state_code, '111111111112')

        self.assertEqual(dash.states[0].rep_frame, 1)
        self.assertEqual(dash.states[1].rep_frame, 5)
        self.assertEqual(dash.states[0].rep_frame_rmsd, 6.83)
        self.assertEqual(dash.states[1].rep_frame_rmsd, 7.77)

        self.assertEqual(dash.state_trajectory[0], dash.states[0])
        self.assertEqual(dash.state_trajectory[1], dash.states[0])
        self.assertEqual(dash.state_trajectory[2], dash.states[0])
        self.assertEqual(dash.state_trajectory[3], dash.states[1])
        self.assertEqual(dash.state_trajectory[4], dash.states[1])
        self.assertEqual(dash.state_trajectory[5], dash.states[0])

        self.assertEqual(
            "".join(["%8.2f" % ang for ang in dash.states[0].mean_angles]),
            " -159.54 -161.05 -161.17   56.74 -100.26  -86.42  123.95   69.04  169.30  171.69  110.46  -17.15"
        )
        self.assertEqual(
            "".join(["%8.2f" % ang for ang in dash.states[1].mean_angles]),
            " -164.29 -153.69 -148.00   65.16 -132.78 -144.98  131.95   62.21  155.42  165.33  132.84   65.27"
        )

        self.assertEqual(
            "".join(["%8.2f" % ang for ang in dash.states[0].stdev_angles]),
            "   12.10    6.88    8.04    5.54   12.80    9.08    6.96    9.40    4.90    2.89    4.94   11.07"
        )
        self.assertEqual(
            "".join(["%8.2f" % ang for ang in dash.states[1].stdev_angles]),
            "    7.26    0.68    7.34    2.95    0.22   17.79    0.28    6.63    9.12    4.17    4.76   11.51"
        )

        dihedral = dash.dihedrals[0]
        self.assertEqual(dihedral.get_state(index=1), dihedral.states[0])

        self.assertTupleEqual(
            tuple(dihedral.trajectory),
            (-168.895278931, -173.250335693, -152.416381836, -171.548736572, -157.039138794, -143.536956787)
        )

        for i, dihedral in enumerate(dash.dihedrals):
            self.assertEqual(
                dihedral.state_trajectory,
                [dihedral.get_state(index=int(state.state_code[i]))
                 for state in dash.state_trajectory])
示例#5
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"""This script demonstrates how to recreate some of the plots from the
original dash paper using pymdash.

David W. Salt, Brian D. Hudson, et. al., Journal of Medicinal Chemistry 2005 48 (9), 3214-3220 """

import matplotlib.pyplot as plt
import mdash

with open('data/tzd.out') as f, open('data/tzd.in') as f2:
    dash = mdash.DashOutput(f, f2)

# Figure 6
fig, ax = plt.subplots()
ax.plot([state.index for state in dash.state_trajectory], 'x')
ax.set_xlabel('Trajectory Frame')
ax.set_ylabel('Dash State Index')

# Figure 3
N = 5000
dihedral = dash.dihedrals[2]  # pick a nice example
fig, (ax1, ax2) = plt.subplots(1, 2, gridspec_kw={'width_ratios': [4, 1]})
ax1.plot(dihedral.trajectory[:N], 'o')
ax1.plot([state.maximum for state in dihedral.state_trajectory[:N]], 'k')
ax1.set_xlabel('Trajectory Frame')
ax1.set_ylabel('Dihedral 3 Value')

ax2.hist(dihedral.trajectory[:N], bins=50, orientation='horizontal')
ax2.invert_xaxis()
ax2.set_yticks([])

plt.show()