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test_forces.py 2.39 KB
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rewrite unittests to completely remove dependency on NeuroChem (#2)  
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import torch
import torchani
import unittest
import os
import pickle

path = os.path.dirname(os.path.realpath(__file__))
N = 97
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class TestForce(torchani.testing.TestCase):
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rewrite unittests to completely remove dependency on NeuroChem (#2)  
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    def setUp(self):
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Allow easily loading individual models (#476)  
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        model = torchani.models.ANI1x(model_index=0)
        self.aev_computer = model.aev_computer
        self.nnp = model.neural_networks
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Use a modified Sequential class with type annotation (#308)  
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        self.model = torchani.nn.Sequential(self.aev_computer, self.nnp)
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Fix autograd for ASE calculator (#123)  
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Support batching non isomers in models and aev computer (#62)  
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    def testIsomers(self):
        for i in range(N):
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            datafile = os.path.join(path, 'test_data/ANI1_subset/{}'.format(i))
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            with open(datafile, 'rb') as f:
                coordinates, species, _, _, _, forces = pickle.load(f)
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                coordinates = torch.from_numpy(coordinates)
                species = torch.from_numpy(species)
                forces = torch.from_numpy(forces)
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Misc improvements (#117)  
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                coordinates.requires_grad_(True)
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                _, energies = self.model((species, coordinates))
                derivative = torch.autograd.grad(energies.sum(),
                                                 coordinates)[0]
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                self.assertEqual(forces, -derivative)
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    def testPadding(self):
        species_coordinates = []
        coordinates_forces = []
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        for i in range(N):
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            datafile = os.path.join(path, 'test_data/ANI1_subset/{}'.format(i))
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            with open(datafile, 'rb') as f:
                coordinates, species, _, _, _, forces = pickle.load(f)
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                coordinates = torch.from_numpy(coordinates)
                species = torch.from_numpy(species)
                forces = torch.from_numpy(forces)
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Misc improvements (#117)  
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                coordinates.requires_grad_(True)
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Remove everything about chunking (#432)  
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                species_coordinates.append(torchani.utils.broadcast_first_dim(
                    {'species': species, 'coordinates': coordinates}))
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        species_coordinates = torchani.utils.pad_atomic_properties(
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            species_coordinates)
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        _, energies = self.model((species_coordinates['species'], species_coordinates['coordinates']))
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        energies = energies.sum()
        for coordinates, forces in coordinates_forces:
            derivative = torch.autograd.grad(energies, coordinates,
                                             retain_graph=True)[0]
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            self.assertEqual(forces, -derivative)
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Add force to unittest of JIT (#326)  
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class TestForceJIT(TestForce):

    def setUp(self):
        super().setUp()
        self.model = torch.jit.script(self.model)
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if __name__ == '__main__':
    unittest.main()