Пример #1
0
    def test22(self):
        particles = datamodel.Particles(2)
        particles.x = [0.0,10.0] | nbody_system.length
        particles.y = 0.0 | nbody_system.length
        particles.z = 0.0 | nbody_system.length
        particles.vx =  0.0 | nbody_system.speed
        particles.vy =  0.0 | nbody_system.speed
        particles.vz =  0.0 | nbody_system.speed
        particles.mass = 1.0 | nbody_system.mass

        instance = FDPS()
        instance.particles.add_particles(particles) 
        instance.commit_particles()
        self.assertEquals(instance.particles[0].radius, 0.0 | nbody_system.length)
        p = datamodel.Particle(
            x = 1.0  | nbody_system.length,
            y = 2.0 | nbody_system.length,
            z = 3.0 | nbody_system.length,
            vx = 1.0  | nbody_system.speed,
            vy = 2.0 | nbody_system.speed,
            vz = 3.0 | nbody_system.speed,
            mass = 1.0 | nbody_system.mass,
            radius = 4.0 | nbody_system.length,
        )
        instance.particles.add_particle(p) 
        self.assertEquals(instance.particles[0].radius, 0.0 | nbody_system.length)
        self.assertEquals(instance.particles[1].radius, 0.0 | nbody_system.length)
        self.assertEquals(instance.particles[2].radius, 4.0 | nbody_system.length)
        
        instance.stop()
Пример #2
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    def test11(self):
       
        convert_nbody = nbody_system.nbody_to_si(5.0 | units.kg, 10.0 | units.m)

        instance = FDPS(convert_nbody)
        
        particles = datamodel.Particles(2)
        self.assertEquals(len(instance.particles), 0)
        
        particles.mass = [15.0, 30.0] | units.kg
        particles.radius =  [10.0, 20.0] | units.m
        particles.position = [[10.0, 20.0, 30.0], [20.0, 40.0, 60.0]] | units.m
        particles.velocity = [[0.0, 0.0, 0.0], [0.0, 0.0, 0.0]] | units.m / units.s

        
        instance.particles.add_particles(particles)
        
        copyof =  instance.particles.copy()
        
        self.assertAlmostEqual(30 | units.kg, copyof[1].mass, 6)
        
        copyof[1].mass = 35 | units.kg
        
        copyof.copy_values_of_all_attributes_to(instance.particles)
        
        self.assertAlmostEqual(35 | units.kg, instance.particles[1].mass, 6)
        instance.stop()
Пример #3
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    def test23(self):
        particles = datamodel.Particles(2)
        particles.x = [0.0,10.0] | nbody_system.length
        particles.y = 0.0 | nbody_system.length
        particles.z = 0.0 | nbody_system.length
        particles.vx =  1.0 | nbody_system.speed
        particles.vy =  0.0 | nbody_system.speed
        particles.vz =  0.0 | nbody_system.speed
        particles.mass = 0.1 | nbody_system.mass

        instance = FDPS(redirection="none")
        instance.particles.add_particles(particles) 
        instance.parameters.timestep = 0.001 | nbody_system.time
        instance.commit_particles()
        instance.evolve_model(0.1 | nbody_system.time)
        self.assertFalse(instance.particles[0].vy > 0| nbody_system.speed)
        self.assertAlmostRelativeEquals(instance.particles[0].x , 0.1 | nbody_system.length, 4)
        instance.particles.new_channel_to(particles).copy()
        particles.vy = 1| nbody_system.speed
        particles.new_channel_to(instance.particles).copy()
        
        instance.evolve_model(0.2 | nbody_system.time)
        self.assertTrue(instance.particles[0].vy > 0| nbody_system.speed)
        self.assertAlmostRelativeEquals(instance.particles[0].y , 0.1 | nbody_system.length, 4)
        instance.stop()
Пример #4
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    def test8(self):
        convert_nbody = nbody_system.nbody_to_si(5.0 | units.kg, 10.0 | units.m)

        instance = FDPS(convert_nbody)
        instance.commit_parameters()
        
        particles = datamodel.Particles(2)
        self.assertEquals(len(instance.particles), 0)
        
        particles.mass = [15.0, 30.0] | units.kg
        particles.radius =  [10.0, 20.0] | units.m
        particles.position = [[10.0, 20.0, 30.0], [20.0, 40.0, 60.0]] | units.m
        particles.velocity = [[0.0, 0.0, 0.0], [0.0, 0.0, 0.0]] | units.m / units.s

        
        instance.particles.add_particles(particles)
        instance.commit_particles()
        
        instance.particles.mass =  [17.0, 33.0] | units.kg
        
        
        self.assertEquals(instance.get_mass(0), 17.0| units.kg) 
        instance.cleanup_code()
        instance.stop()
Пример #5
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    def test15(self):
        print "Test15: Testing effect of FDPS parameter epsilon_squared"
        convert_nbody = nbody_system.nbody_to_si(1.0 | units.MSun, 1.0 | units.AU)
        
        particles = datamodel.Particles(2)
        sun = particles[0]
        sun.mass = 1.0 | units.MSun
        sun.position = [0.0, 0.0, 0.0] | units.AU
        sun.velocity = [0.0, 0.0, 0.0] | units.AU / units.yr
        sun.radius = 1.0 | units.RSun

        earth = particles[1]
        earth.mass = 5.9736e24 | units.kg
        earth.radius = 6371.0 | units.km
        earth.position = [0.0, 1.0, 0.0] | units.AU
        earth.velocity = [2.0*numpy.pi, -0.0001, 0.0] | units.AU / units.yr
        
        initial_direction = math.atan((earth.velocity[0]/earth.velocity[1]))
        final_direction = []
        for log_eps2 in range(-9,10,2):
            instance = FDPS(convert_nbody)
            instance.initialize_code()
            instance.parameters.epsilon_squared = 10.0**log_eps2 | units.AU ** 2
            instance.parameters.timestep = 0.005 | units.yr
            instance.particles.add_particles(particles)
            instance.commit_particles()
            instance.evolve_model(0.25 | units.yr)
            final_direction.append(math.atan((instance.particles[1].velocity[0]/
                instance.particles[1].velocity[1])))
            instance.stop()
        # Small values of epsilon_squared should result in normal earth-sun dynamics: rotation of 90 degrees
        self.assertAlmostEquals(abs(final_direction[0]), abs(initial_direction+math.pi/2.0), 2)
        # Large values of epsilon_squared should result in ~ no interaction
        self.assertAlmostEquals(final_direction[-1], initial_direction, 2)
        # Outcome is most sensitive to epsilon_squared when epsilon_squared = d(earth, sun)^2
        delta = [abs(final_direction[i+1]-final_direction[i]) for i in range(len(final_direction)-1)]
        self.assertEquals(delta[len(final_direction)//2 -1], max(delta))
Пример #6
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 def test16(self):
     numpy.random.seed(0)
     number_of_stars = 2
     stars = plummer.new_plummer_model(number_of_stars)
     stars.radius = 0.00001 | nbody_system.length
     stars.scale_to_standard()
     
     instance = FDPS()
     instance.initialize_code()
     instance.parameters.epsilon_squared = (1.0 / 20.0 / (number_of_stars**0.33333) | nbody_system.length)**2
     instance.parameters.timestep = 0.004 | nbody_system.time
     instance.parameters.timestep = 0.00001 | nbody_system.time
     instance.commit_parameters()
     print instance.parameters.timestep
     instance.particles.add_particles(stars)
     instance.commit_particles()
     energy_total_t0 = instance.potential_energy + instance.kinetic_energy
     request = instance.evolve_model.async(1.0 | nbody_system.time)
     request.result()
     energy_total_t1 = instance.potential_energy + instance.kinetic_energy
     
     self.assertAlmostRelativeEqual(energy_total_t0, energy_total_t1, 3)
     instance.stop()
     numpy.random.seed()
Пример #7
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    def test21(self):
        particles = datamodel.Particles(2)
        particles.x = [0.0,10.0] | nbody_system.length
        particles.y = 0.0 | nbody_system.length
        particles.z = 0.0 | nbody_system.length
        particles.radius = 0.005 | nbody_system.length
        particles.vx =  0.0 | nbody_system.speed
        particles.vy =  0.0 | nbody_system.speed
        particles.vz =  0.0 | nbody_system.speed
        particles.mass = 1.0 | nbody_system.mass

        very_short_time_to_evolve = 1 | units.s
        very_long_time_to_evolve = 1e9 | nbody_system.time
       
        instance = FDPS()
        instance.initialize_code()
        instance.parameters.epsilon_squared = (1e-5 | nbody_system.length)**2
        instance.particles.add_particles(particles)     
        instance.commit_particles()
        self.assertAlmostRelativeEquals(instance.potential_energy, -0.1 | nbody_system.energy, 5)
        instance.stop()
Пример #8
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 def test13(self):
    
     convert_nbody = nbody_system.nbody_to_si(1.0 | units.kg, 1.0 | units.m)
     
     instance = FDPS(convert_nbody)
     instance.commit_parameters()
     
     particles = datamodel.Particles(2)
     self.assertEquals(len(instance.particles), 0)
     
     particles.mass = [30.0, 30.0] | units.kg
     particles.radius =  [1.0, 1.0] | units.m
     particles.position = [[-10.0, 0.0, 0.0], [10.0, 0.0, 0.0]] | units.m
     particles.velocity = [[0.0, 0.0, 0.0], [0.0, 0.0, 0.0]] | units.m / units.s
     
     instance.particles.add_particles(particles)
     instance.commit_particles()
     
     copyof =  instance.particles.copy()
     
     com = instance.center_of_mass_position
     self.assertAlmostEqual(com[0], quantities.new_quantity(0.0, units.m), constants.precision)
     instance.stop()
Пример #9
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    def test12(self):
       
        convert_nbody = nbody_system.nbody_to_si(5.0 | units.kg, 10.0 | units.m)

        instance = FDPS(convert_nbody)
        instance.commit_parameters()
        
        particles = datamodel.Particles(2)
        self.assertEquals(len(instance.particles), 0)
        
        particles.mass = [15.0, 30.0] | units.kg
        particles.radius =  [10.0, 20.0] | units.m
        particles.position = [[10.0, 20.0, 30.0], [20.0, 40.0, 60.0]] | units.m
        particles.velocity = [[0.0, 0.0, 0.0], [0.0, 0.0, 0.0]] | units.m / units.s

        
        instance.particles.add_particles(particles)
        instance.commit_particles()
        
        copyof =  instance.particles.copy()
        
        instance.set_state(1, 16|units.kg, 20.0|units.m, 40.0|units.m, 60.0|units.m, 
                                 1.0|units.ms, 1.0|units.ms, 1.0|units.ms)
        
        curr_state =  instance.get_state(1)
        for expected, actual in zip((16|units.kg, 20.0|units.m, 40.0|units.m, 60.0|units.m, 
                                 1.0|units.ms, 1.0|units.ms, 1.0|units.ms, 0 | units.m), curr_state):
            self.assertAlmostRelativeEquals(actual,expected)
        
        instance.set_state(1, 16|units.kg, 20.0|units.m, 40.0|units.m, 60.0|units.m, 
                                 1.0|units.ms, 1.0|units.ms, 1.0|units.ms , 20.0|units.m)
        
        curr_state =  instance.get_state(1)
        for expected, actual in zip((16|units.kg, 20.0|units.m, 40.0|units.m, 60.0|units.m, 
                                 1.0|units.ms, 1.0|units.ms, 1.0|units.ms, 20 | units.m), curr_state):
            self.assertAlmostRelativeEquals(actual,expected)
        
        instance.stop()
Пример #10
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 def test6(self):
     convert_nbody = nbody_system.nbody_to_si(5.0 | units.kg, 10.0 | units.m)
     instance = FDPS(convert_nbody)
     instance.commit_parameters()
     
     indices = instance.new_particle(
         [15.0, 30.0] | units.kg,
         [10.0, 20.0] | units.m, [20.0, 40.0] | units.m, [30.0, 50.0] | units.m,
         #1.0 | units.m/units.s, 1.0 | units.m/units.s, 3.0 | units.m/units.s
         [0.0, 0.01] | units.m/units.s, [0.0, 0.01] | units.m/units.s, [0.0, 0.01] | units.m/units.s,
         [10.0, 20.0] | units.m
     )
     instance.commit_particles()
     
     self.assertEquals(instance.get_mass(indices[0]), 15.0| units.kg)
     self.assertEquals(instance.get_mass(indices)[0], 15.0| units.kg)
     
     self.assertRaises(AmuseException, instance.get_mass, [4,5], 
         expected_message = "Error when calling 'get_mass' of a 'FDPS', errorcode is -1")
     
     instance.cleanup_code()
     instance.stop()
Пример #11
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    def test5(self):

        instance = FDPS()
        instance.commit_parameters()
        
        index = instance.new_particle(
            15.0 | nbody_system.mass,
            10.0 | nbody_system.length, 20.0 | nbody_system.length, 30.0 | nbody_system.length,
            1.0 | nbody_system.speed, 1.0 | nbody_system.speed, 3.0 | nbody_system.speed,
            10.0 | nbody_system.length
        )
        instance.commit_particles()
        self.assertEquals(instance.get_mass(index), 15.0| nbody_system.mass)
        self.assertEquals(instance.get_radius(index), 10.0| nbody_system.length)
        
        instance.cleanup_code()
        instance.stop()
Пример #12
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    def test4(self):
        convert_nbody = nbody_system.nbody_to_si(5.0 | units.kg, 10.0 | units.m)

        instance = FDPS(convert_nbody)
        instance.commit_parameters()
        
        index = instance.new_particle(
            15.0 | units.kg,
            10.0 | units.m, 20.0 | units.m, 30.0 | units.m,
            #1.0 | units.m/units.s, 1.0 | units.m/units.s, 3.0 | units.m/units.s
            0.0 | units.m/units.s, 0.0 | units.m/units.s, 0.0 | units.m/units.s,
            10.0 | units.m
        )
        instance.commit_particles()
        self.assertEquals(instance.get_mass(index), 15.0| units.kg)
        self.assertEquals(instance.get_radius(index), 10.0| units.m)
        instance.cleanup_code()
        instance.stop()
Пример #13
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    def test3(self):
        convert_nbody = nbody_system.nbody_to_si(1.0 | units.MSun, 149.5e6 | units.km)

        instance = FDPS(convert_nbody)
        #instance.dt_dia = 1
        instance.parameters.epsilon_squared = 0.001 | units.AU**2
        #instance.timestep = 0.0001
        #instance.use_self_gravity = 0
        instance.commit_parameters()
        
        
        stars = datamodel.Stars(2)
        star1 = stars[0]
        star2 = stars[1]

        star1.mass = units.MSun(1.0)
        star1.position = units.AU(numpy.array((-.10,0.0,0.0)))
        star1.velocity = units.AUd(numpy.array((0.0,0.0,0.0)))
        star1.radius = units.RSun(1.0)

        star2.mass = units.MSun(1.0)
        star2.position = units.AU(numpy.array((.10,0.0,0.0)))
        star2.velocity = units.AUd(numpy.array((0.0,0.0,0.0)))
        star2.radius = units.RSun(100.0)
        
        instance.particles.add_particles(stars)
        instance.commit_particles()
    
        for x in range(1,200,1):
            instance.evolve_model(x | units.day)
            instance.particles.copy_values_of_all_attributes_to(stars)
            #instance.get_indices_of_colliding_particles()
            #print stars[0].position-stars[1].position
            stars.savepoint()
            
        instance.cleanup_code()
        instance.stop()
Пример #14
0
    def test2(self):
        #not completed 
        convert_nbody = nbody_system.nbody_to_si(1.0 | units.MSun, 149.5e6 | units.km)

        instance = FDPS(convert_nbody)
        #instance.dt_dia = 1
        instance.parameters.epsilon_squared = 0.001 | units.AU**2
        #instance.timestep = 0.0001
        #instance.use_self_gravity = 0
        instance.commit_parameters()
        
        stars = datamodel.Stars(2)
        sun = stars[0]
        sun.mass = units.MSun(1.0)
        sun.position = units.m(numpy.array((0.0,0.0,0.0)))
        sun.velocity = units.ms(numpy.array((0.0,0.0,0.0)))
        sun.radius = units.RSun(1.0)

        earth = stars[1]
        earth.mass = units.kg(5.9736e24)
        earth.radius = units.km(6371) 
        earth.position = units.km(numpy.array((149.5e6,0.0,0.0)))
        earth.velocity = units.ms(numpy.array((0.0,29800,0.0)))

        instance.particles.add_particles(stars)
        instance.commit_particles()
        self.assertAlmostRelativeEquals(sun.radius, instance.particles[0].radius)
    
        for x in range(1,2000,10):
            instance.evolve_model(x | units.day)
            instance.particles.copy_values_of_all_attributes_to(stars)
            stars.savepoint()
            
        if HAS_MATPLOTLIB:
            figure = pyplot.figure()
            plot = figure.add_subplot(1,1,1)
            
            x_points = earth.get_timeline_of_attribute("x")
            y_points = earth.get_timeline_of_attribute("y")
            
            x_points_in_AU = map(lambda (t,x) : x.value_in(units.AU), x_points)
            y_points_in_AU = map(lambda (t,x) : x.value_in(units.AU), y_points)
            
            plot.scatter(x_points_in_AU,y_points_in_AU, color = "b", marker = 'o')
            
            plot.set_xlim(-1.5, 1.5)
            plot.set_ylim(-1.5, 1.5)
               
            
            test_results_path = self.get_path_to_results()
            output_file = os.path.join(test_results_path, "fdps-earth-sun.svg")
            figure.savefig(output_file)    
        
        instance.cleanup_code()
        instance.stop()
Пример #15
0
    def test1(self):
        convert_nbody = nbody_system.nbody_to_si(1.0 | units.MSun, 149.5e6 | units.km)

        instance = FDPS(convert_nbody)
        instance.parameters.epsilon_squared = 0.001 | units.AU**2
        
        stars = datamodel.Stars(2)
        
        sun = stars[0]
        sun.mass = units.MSun(1.0)
        sun.position = [0.0,0.0,0.0] | units.m
        sun.velocity = [0.0,0.0,0.0] | units.ms
        sun.radius = units.RSun(1.0)

        earth = stars[1]
        earth.mass = units.kg(5.9736e24)
        earth.radius = units.km(6371) 
        earth.position = [149.5e6, 0.0, 0.0] | units.km
        earth.velocity = [0.0, 29800, 0.0] | units.ms

        #instance.particles.add_particles(stars)
        instance.particles.add_particles(stars)
        
        postion_at_start = earth.position.value_in(units.AU)[0]
        
        instance.evolve_model(365.0 | units.day)
        instance.particles.copy_values_of_all_attributes_to(stars)
        
        postion_after_full_rotation = earth.position.value_in(units.AU)[0]
       
        self.assertAlmostEqual(postion_at_start, postion_after_full_rotation, 3)
        
        instance.evolve_model(365.0 + (365.0 / 2) | units.day)
        
        instance.particles.copy_values_of_all_attributes_to(stars)
        
        postion_after_half_a_rotation = earth.position.value_in(units.AU)[0]
        self.assertAlmostEqual(-postion_at_start, postion_after_half_a_rotation, 2)
        
        
        instance.evolve_model(365.0 + (365.0 / 2) + (365.0 / 4)  | units.day)
         
        instance.particles.copy_values_of_all_attributes_to(stars)
        
        postion_after_half_a_rotation = earth.position.value_in(units.AU)[1]
        
        self.assertAlmostEqual(-postion_at_start, postion_after_half_a_rotation, 1)
        instance.cleanup_code()
        instance.stop()