void testSerialization() { // Create a Force. GBVIForce force; force.setNonbondedMethod(GBVIForce::CutoffPeriodic); force.setBornRadiusScalingMethod(GBVIForce::QuinticSpline); force.setQuinticLowerLimitFactor(0.123); force.setQuinticUpperBornRadiusLimit(5.123); force.setCutoffDistance(2.0); force.setSoluteDielectric(5.1); force.setSolventDielectric(50.0); force.addParticle(1, 0.1, 0.01); force.addParticle(0.5, 0.2, 0.02); force.addParticle(-0.5, 0.3, 0.03); force.addBond(0, 1, 2.0); force.addBond(3, 5, 1.2); // Serialize and then deserialize it. stringstream buffer; XmlSerializer::serialize<GBVIForce>(&force, "Force", buffer); GBVIForce* copy = XmlSerializer::deserialize<GBVIForce>(buffer); // Compare the two forces to see if they are identical. GBVIForce& force2 = *copy; ASSERT_EQUAL(force.getNonbondedMethod(), force2.getNonbondedMethod()); ASSERT_EQUAL(force.getCutoffDistance(), force2.getCutoffDistance()); ASSERT_EQUAL(force.getSoluteDielectric(), force2.getSoluteDielectric()); ASSERT_EQUAL(force.getSolventDielectric(), force2.getSolventDielectric()); ASSERT_EQUAL(force.getNumParticles(), force2.getNumParticles()); ASSERT_EQUAL(force.getQuinticUpperBornRadiusLimit(), force2.getQuinticUpperBornRadiusLimit()); ASSERT_EQUAL(force.getQuinticLowerLimitFactor(), force2.getQuinticLowerLimitFactor()); ASSERT_EQUAL(force.getBornRadiusScalingMethod(), force2.getBornRadiusScalingMethod()); for (int i = 0; i < force.getNumParticles(); i++) { double charge1, radius1, scale1; double charge2, radius2, scale2; force.getParticleParameters(i, charge1, radius1, scale1); force2.getParticleParameters(i, charge2, radius2, scale2); ASSERT_EQUAL(charge1, charge2); ASSERT_EQUAL(radius1, radius2); ASSERT_EQUAL(scale1, scale2); } ASSERT_EQUAL(force.getNumBonds(), force2.getNumBonds()); for (int i = 0; i < force.getNumBonds(); i++) { int a1, a2, b1, b2; double da, db; force.getBondParameters(i, a1, a2, da); force2.getBondParameters(i, b1, b2, db); ASSERT_EQUAL(a1, b1); ASSERT_EQUAL(a2, b2); ASSERT_EQUAL(da, db); } }