import torch import torchani import unittest import os import pickle from torchani.testing import TestCase path = os.path.dirname(os.path.realpath(__file__)) N = 97 class TestForce(TestCase): def setUp(self): model = torchani.models.ANI1x(model_index=0) self.aev_computer = model.aev_computer self.nnp = model.neural_networks self.model = torchani.nn.Sequential(self.aev_computer, self.nnp) def testIsomers(self): for i in range(N): datafile = os.path.join(path, 'test_data/ANI1_subset/{}'.format(i)) with open(datafile, 'rb') as f: coordinates, species, _, _, _, forces = pickle.load(f) coordinates = torch.from_numpy(coordinates) species = torch.from_numpy(species) forces = torch.from_numpy(forces) coordinates.requires_grad_(True) _, energies = self.model((species, coordinates)) derivative = torch.autograd.grad(energies.sum(), coordinates)[0] self.assertEqual(forces, -derivative) def testPadding(self): species_coordinates = [] coordinates_forces = [] for i in range(N): datafile = os.path.join(path, 'test_data/ANI1_subset/{}'.format(i)) with open(datafile, 'rb') as f: coordinates, species, _, _, _, forces = pickle.load(f) coordinates = torch.from_numpy(coordinates) species = torch.from_numpy(species) forces = torch.from_numpy(forces) coordinates.requires_grad_(True) species_coordinates.append(torchani.utils.broadcast_first_dim( {'species': species, 'coordinates': coordinates})) species_coordinates = torchani.utils.pad_atomic_properties( species_coordinates) _, energies = self.model((species_coordinates['species'], species_coordinates['coordinates'])) energies = energies.sum() for coordinates, forces in coordinates_forces: derivative = torch.autograd.grad(energies, coordinates, retain_graph=True)[0] self.assertEqual(forces, -derivative) class TestForceJIT(TestForce): def setUp(self): super().setUp() self.model = torch.jit.script(self.model) if __name__ == '__main__': unittest.main()