Example #1
0
    def __init__(self):
        pygame.init()
        self.clock = pygame.time.Clock()

        self.screen = pygame.display.set_mode([600, 600])
        self.view = View(self.screen)
        self.font = pygame.font.Font(None, 30)

        self.engine = PhysicsEngine()
        self.engine.contactGenerators.append(ContactGenerator(self.engine))
        self.engine.gravity = Vec(0, 0)

        self.rb = Rigidbody()
        self.rb.engine = self.engine
        self.rb.p = Vec(random.uniform(20, 580), random.uniform(20, 580))
        self.rb.v = Vec(0, 0)
        self.rb.w = 0
        self.rb.invmass = 1
        self.rb.invmoi = 0.001
        self.rb.collider = Narc(self.rb, 4)
        self.rb.mat.setRotation(random.uniform(0, 2 * math.pi))
        self.rb.collider.restitution = 1.0
        color = pygame.Color(random.randint(0, 200), random.randint(0, 200), random.randint(0, 200))
        self.view.objects.append(NarcObject(self.rb, color))

        arena = Particle()
        arena.engine = self.engine
        arena.p = Vec(0, 0)
        arena.collider = Arena(arena, 600, 600)
        arena.collider.restitution = 1.0
        self.engine.static.append(arena)
        arena.invmass = 0
Example #2
0
 def createArena(self, width, height):
     arena = Particle()
     arena.engine = self.engine
     arena.p = Vec(0,0)
     arena.collider = Arena(arena,width,height)
     arena.collider.restitution = 1.0
     self.engine.static.append(arena)
     arena.invmass = 0
Example #3
0
    def __init__(self):
        pygame.init()
        self.clock = pygame.time.Clock()
        
        self.screen = pygame.display.set_mode([600, 600])
        self.view = View(self.screen)
        self.font = pygame.font.Font(None,30)
        
        self.engine = PhysicsEngine()
        self.engine.contactGenerators.append(ContactGenerator(self.engine))
        self.engine.gravity = Vec(0,0)
        
        '''for i in range(10):
            rb = Rigidbody()
            rb.engine = self.engine
            rb.p = Vec(random.uniform(20,580),random.uniform(20,580))
            rb.v = Vec(random.uniform(-50,50),random.uniform(-50,50))
            rb.w = random.uniform(-0.25,0.25)
            rb.invmass = 1
            rb.invmoi = 0.001
            rb.collider = Polygon(rb,[Vec(random.uniform(-30,-10),random.uniform(10,30)),
									Vec(random.uniform(-30,-10),random.uniform(-30,-10)),
									Vec(random.uniform(10,30),random.uniform(-30,-10)), 
									Vec(random.uniform(10,30),random.uniform(10,30))])
            rb.collider.restitution = 1.0
            
            self.engine.moving.append(rb)
            color = pygame.Color(random.randint(0,200),random.randint(0,200),random.randint(0,200))
            self.view.objects.append(PolyObject(rb,color))'''

        for i in range(10):
            rb = Rigidbody()
            rb.engine = self.engine
            rb.p = Vec(random.uniform(20,580),random.uniform(20,580))
            rb.v = Vec(random.uniform(-50,50),random.uniform(-50,50))
            rb.w = random.uniform(-0.5,0.5)
            rb.invmass = 1
            rb.invmoi = 0.001
            rb.collider = Narc(rb, 6)
            rb.mat.setRotation(random.uniform(0,2*math.pi))
            rb.collider.restitution = 1.0
            
            self.engine.moving.append(rb)
            color = pygame.Color(random.randint(0,200),random.randint(0,200),random.randint(0,200))
            self.view.objects.append(NarcObject(rb,color))

        arena = Particle()
        arena.engine = self.engine
        arena.p = Vec(0,0)
        arena.collider = Arena(arena,600,600)
        arena.collider.restitution = 1.0
        self.engine.static.append(arena)
        arena.invmass = 0
Example #4
0
    def getReadOnlyParticle(self, i):
        '''
        Get a single particle (a view in the numpy array structures).
        The particle is READ ONLY, that is, it is not expected to be changed.

        :param int i:
            The particle index in the array.
        '''
        p = Particle()
        p.mass = self.mass
        p.velocity = self.velocity[i]
        p.position = self.position[i]
        p.geometry._position = p.position
        return p
Example #5
0
# As in reality, infinite equals one million :)
INFINITE = 1000000.0

if __name__ == '__main__':
    main_window = MainWindow("Equivalent Springs Example", 400, 400)
    main_window.setInputListener(GameLikeInputListener(main_window))

    simulator = PhysicsSimulator()

    #===========================================================================

    k0 = 3.5
    k1 = 0.5

    particle1 = Particle(mass=1.0)
    particle2 = Particle(mass=INFINITE)
    simulator.addBody(particle1)
    simulator.addBody(particle2)
    particle1_painter = PaintablePolyhedron(particle1.geometry)
    particle2_painter = PaintablePolyhedron(particle2.geometry)
    connector1_2_painter = PaintableConnector(particle1, particle2)
    main_window.addObject(particle1_painter)
    main_window.addObject(particle2_painter)
    main_window.addObject(connector1_2_painter)
    particle1.setPosition(np.array([-1.0, 0.0, 5.0]))
    particle2.setPosition(np.array([-1.0, -1.0, 5.0]))
    simulator.addForceGenerator(SpringForceGenerator(particle1, particle2, 0.6, k0))
    simulator.addForceGenerator(SpringForceGenerator(particle1, particle2, 0.6, k1))

    equivalent_k = k0 + k1
 def update(self, delta_t):
     self._lifetime -= delta_t
     if self._lifetime < 0.0:
         self.reset()
     Particle.update(self, delta_t)
 def __init__(self):
     Particle.__init__(self, mass=0.001)
     self.geometry.setColor(np.array([0.1, 0.1, 0.6]))
     self.reset()
Example #8
0
    def __init__(self):
        pygame.init()
        self.clock = pygame.time.Clock()
        
        self.screen = pygame.display.set_mode([600, 600])
        self.view = View(self.screen)
        self.font = pygame.font.Font(None,30)
        
        self.engine = PhysicsEngine()
        self.engine.contactGenerators.append(ContactGenerator(self.engine))
        self.engine.gravity = Vec(0,0)


#for i in range(5):
#    c = Particle()
#    c.engine = engine
#    c.p = Vec(random.uniform(20,580),random.uniform(20,580))
#    c.v = Vec(random.uniform(-150,150),random.uniform(-150,150))
#    c.m = random.uniform(40,1000)
#    c.collider = Circle(c,Vec(0,0),math.sqrt(c.m))
#    c.collider.restitution = 0.75
#    
#    engine.moving.append(c)
#    color = pygame.Color(random.randint(0,200),random.randint(0,200),random.randint(0,200))
#    view.objects.append(CircleObject(c,color))
#    
#u = Particle()
#u.engine = engine
#u.p = Vec(100,100)
#u.v = Vec(0,0)
#u.m = 100.0
#u.collider = Union(u)
#u.collider.colliders.append(Circle(u,Vec(0,-10),20))
#u.collider.colliders.append(Circle(u,Vec(0,10),20))
#u.collider.restitution = 0.75

#for i in range(25):
#    p = Particle();
#    p.engine = engine
#    p.p = Vec(random.uniform(20,580),random.uniform(20,580))
#    p.v = Vec(random.uniform(-50,50),random.uniform(-50,50))
#    p.collider = Polygon(p,[Vec(random.uniform(-30,-10),random.uniform(10,30)), 
#                            Vec(random.uniform(-30,-10),random.uniform(-30,-10)),
#                            Vec(random.uniform(10,30),random.uniform(-30,-10)), 
#                            Vec(random.uniform(10,30),random.uniform(10,30))])
#    p.collider.restitution = 1.0
#
#    engine.moving.append(p)
#    color = pygame.Color(random.randint(0,200),random.randint(0,200),random.randint(0,200))
#    view.objects.append(PolyObject(p,color))


            
        '''for i in range(15):
            rb = Rigidbody()
            rb.engine = self.engine
            rb.p = Vec(random.uniform(20,580),random.uniform(20,580))
            rb.v = Vec(random.uniform(-250,250),random.uniform(-250,250))
            rb.w = random.uniform(-0.5,0.5)
            rb.invmass = 1
            rb.invmoi = 0.001
            rb.collider = Narc(rb)
            rb.mat.setRotation(random.uniform(0,2*math.pi))             
            rb.collider.restitution = 1.0
            
            self.engine.moving.append(rb)
            color = pygame.Color(random.randint(0,200),random.randint(0,200),random.randint(0,200))
            self.view.objects.append(NarcObject(rb,color))'''

        arena = Particle()
        arena.engine = self.engine
        arena.p = Vec(0,0)
        arena.collider = Arena(arena,600,600)
        arena.collider.restitution = 1.0
        self.engine.static.append(arena)
        arena.invmass = 0
Example #9
0
    def Run(self):
        avefps = 0
        numFrames = 1
        dt = 0
        fps = 0
        physicsdt = 0.025
        elapsed = 0
        totElapsed = 0
        running = True
        while running:
            event = pygame.event.poll()

            if totElapsed % 2 == 0:
                newrb = Rigidbody()
                newrb.engine = self.engine
                newrb.p = Vec(random.uniform(20, 580), random.uniform(20, 580))
                newrb.v = Vec(0, 0)
                newrb.w = 0
                newrb.invmass = 1
                newrb.invmoi = 0.001
                newrb.collider = Narc(self.rb, 4)
                newrb.collider.altered(self.rb.collider)
                newrb.mat.setRotation(random.uniform(0, 2 * math.pi))
                newrb.collider.restitution = 1.0
                color = pygame.Color(random.randint(0, 200), random.randint(0, 200), random.randint(0, 200))
                self.view.objects.append(NarcObject(newrb, color))
                self.rb = newrb

                arena = Particle()
                arena.engine = self.engine
                arena.p = Vec(0, 0)
                arena.collider = Arena(arena, 600, 600)
                arena.collider.restitution = 1.0
                self.engine.static.append(arena)
                arena.invmass = 0

            if event.type == pygame.QUIT or totElapsed >= 20:
                running = False

            self.screen.fill([245, 240, 230])  # blank the screen.

            # Save time by only calling this once
            dt = self.clock.tick() * 0.001
            elapsed += dt
            while elapsed > 0:
                elapsed -= physicsdt

            self.engine.step(physicsdt)

            self.view.update()

            totElapsed += dt

            newfps = 1.0 / dt

            avefps *= numFrames
            avefps += newfps

            numFrames += 1

            avefps /= numFrames

            fpstext = "Current: %.1f | Average: %.1f | Frames: %d" % (newfps, avefps, numFrames)
            fpsSurface = self.font.render(fpstext, False, Color(0, 0, 0))
            self.screen.blit(fpsSurface, (0, 0))

            pygame.display.update()
Example #10
0
def createParticle(mass, color):
    particle = Particle(mass)
    particle.setGeometry(readPly('../objects/sphere.ply'))
    particle.geometry.scale(np.repeat(mass / 2.0, 3))
    particle.geometry.setColor(color)
    return particle