import unittest from validateConstraints import * from simtk.openmm.app import * from simtk.openmm import * from simtk.unit import * class TestForceField(unittest.TestCase): """Test the ForceField.createSystem() method.""" def setUp(self): """Set up the tests by loading the input pdb files and force field xml files. """ # alanine dipeptide with explicit water self.pdb1 = PDBFile('systems/alanine-dipeptide-explicit.pdb') self.forcefield1 = ForceField('amber99sb.xml', 'tip3p.xml') self.topology1 = self.pdb1.topology self.topology1.setUnitCellDimensions(Vec3(2, 2, 2)) self.pdb2 = PDBFile('systems/alanine-dipeptide-implicit.pdb') self.forcefield2 = ForceField('amber99sb.xml', 'amber99_obc.xml') def test_NonbondedMethod(self): """Test all five options for the nonbondedMethod parameter.""" methodMap = {NoCutoff:NonbondedForce.NoCutoff, CutoffNonPeriodic:NonbondedForce.CutoffNonPeriodic, CutoffPeriodic:NonbondedForce.CutoffPeriodic, Ewald:NonbondedForce.Ewald, PME: NonbondedForce.PME} for method in methodMap: system = self.forcefield1.createSystem(self.pdb1.topology, nonbondedMethod=method) forces = system.getForces() self.assertTrue(any(isinstance(f, NonbondedForce) and f.getNonbondedMethod()==methodMap[method] for f in forces)) def test_Cutoff(self): """Test to make sure the nonbondedCutoff parameter is passed correctly.""" for method in [CutoffNonPeriodic, CutoffPeriodic, Ewald, PME]: system = self.forcefield1.createSystem(self.pdb1.topology, nonbondedMethod=method, nonbondedCutoff=2*nanometer, constraints=HBonds) cutoff_distance = 0.0*nanometer cutoff_check = 2.0*nanometer for force in system.getForces(): if isinstance(force, NonbondedForce): cutoff_distance = force.getCutoffDistance() self.assertEqual(cutoff_distance, cutoff_check) def test_RemoveCMMotion(self): """Test both options (True and False) for the removeCMMotion parameter.""" for b in [True, False]: system = self.forcefield1.createSystem(self.pdb1.topology,removeCMMotion=b) forces = system.getForces() self.assertEqual(any(isinstance(f, CMMotionRemover) for f in forces), b) def test_RigidWaterAndConstraints(self): """Test all eight options for the constraints and rigidWater parameters.""" topology = self.pdb1.topology for constraints_value in [None, HBonds, AllBonds, HAngles]: for rigidWater_value in [True, False]: system = self.forcefield1.createSystem(topology, constraints=constraints_value, rigidWater=rigidWater_value) validateConstraints(self, topology, system, constraints_value, rigidWater_value) def test_ImplicitSolvent(self): """Test the four types of implicit solvents using the implicitSolvent parameter. """ topology = self.pdb2.topology system = self.forcefield2.createSystem(topology) forces = system.getForces() self.assertTrue(any(isinstance(f, GBSAOBCForce) for f in forces)) def test_ImplicitSolventParameters(self): """Test that solventDielectric and soluteDielectric are passed correctly for the different types of implicit solvent. """ topology = self.pdb2.topology system = self.forcefield2.createSystem(topology, solventDielectric=50.0, soluteDielectric=0.9) found_matching_solvent_dielectric=False found_matching_solute_dielectric=False for force in system.getForces(): if isinstance(force, GBSAOBCForce): if force.getSolventDielectric() == 50.0: found_matching_solvent_dielectric = True if force.getSoluteDielectric() == 0.9: found_matching_solute_dielectric = True if isinstance(force, NonbondedForce): self.assertEqual(force.getReactionFieldDielectric(), 1.0) self.assertTrue(found_matching_solvent_dielectric and found_matching_solute_dielectric) if __name__ == '__main__': unittest.main()