TestGayBerneForce.h

/* -------------------------------------------------------------------------- *
 *                                   OpenMM                                   *
 * -------------------------------------------------------------------------- *
 * This is part of the OpenMM molecular simulation toolkit originating from   *
 * Simbios, the NIH National Center for Physics-Based Simulation of           *
 * Biological Structures at Stanford, funded under the NIH Roadmap for        *
 * Medical Research, grant U54 GM072970. See https://simtk.org.               *
 *                                                                            *
 * Portions copyright (c) 2016 Stanford University and the Authors.           *
 * Authors: Peter Eastman                                                     *
 * Contributors:                                                              *
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#ifdef WIN32
  #define _USE_MATH_DEFINES // Needed to get M_PI
#endif
#include "openmm/internal/AssertionUtilities.h"
#include "openmm/Context.h"
#include "openmm/GayBerneForce.h"
#include "openmm/NonbondedForce.h"
#include "openmm/System.h"
#include "openmm/VerletIntegrator.h"
#include "sfmt/SFMT.h"
#include <iostream>
#include <vector>

using namespace OpenMM;
using namespace std;

const double TOL = 1e-5;

void testPointParticles() {
    // For point particles, it should be identical to a standard Lennard-Jones force.

    const int numParticles = 10;
    const double sigma = 0.5;
    const double epsilon = 1.5;
    System system;
    GayBerneForce* gb = new GayBerneForce();
    NonbondedForce* nb = new NonbondedForce();
    system.addForce(gb);
    system.addForce(nb);
    gb->setForceGroup(1);
    vector<Vec3> positions;
    OpenMM_SFMT::SFMT sfmt;
    init_gen_rand(0, sfmt);
    for (int i = 0; i < numParticles; i++) {
        system.addParticle(1.0);
        gb->addParticle(sigma, epsilon, -1, -1, sigma/2, sigma/2, sigma/2, 1, 1, 1);
        nb->addParticle(0, sigma, epsilon);
        positions.push_back(Vec3(2.0*genrand_real2(sfmt), 2.0*genrand_real2(sfmt), 2.0*genrand_real2(sfmt)));
    }
    VerletIntegrator integ(0.001);

    // Compute forces and energy with each one and compare them.

    Context context(system, integ, platform);
    context.setPositions(positions);
    State state1 = context.getState(State::Forces | State::Energy, false, 1);
    State state2 = context.getState(State::Forces | State::Energy, false, 2);
    ASSERT_EQUAL_TOL(state1.getPotentialEnergy(), state2.getPotentialEnergy(), 1e-5);
}

void runPlatformTests();

int main(int argc, char* argv[]) {
    try {
        initializeTests(argc, argv);
        testPointParticles();
        runPlatformTests();
    }
    catch(const exception& e) {
        cout << "exception: " << e.what() << endl;
        return 1;
    }
    cout << "Done" << endl;
    return 0;
}