예제 #1
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파일: joint.py 프로젝트: ci-group/revolve
    def __init__(self,
                 _id: str,
                 name: str,
                 parent_link: SDF.Link,
                 child_link: SDF.Link,
                 axis: SDF.math.Vector3,
                 coordinates=None,
                 motorized=False,
                 position=None,
                 rotation=None
                 ):
        super().__init__(
            'joint',
            {
                'id': _id,
                'name': name,
                'type': 'revolute'
            },
            position=position,
            rotation=rotation,
        )
        self._id = _id
        self._name = name
        self._motorized = motorized
        self._coordinates = coordinates

        SDF.sub_element_text(self, 'parent', parent_link.name)
        SDF.sub_element_text(self, 'child', child_link.name)
        self.axis = JointAxis(axis)
        self.append(self.axis)
예제 #2
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파일: joint.py 프로젝트: ci-group/revolve
    def to_robot_config_sdf(self):
        assert (self.is_motorized())

        servomotor = xml.etree.ElementTree.Element('rv:servomotor', {
            'type': 'position',
            'id': "{}__rotate".format(self._id),
            'part_id': self._id,
            'part_name': self._name,
            # 'x': self.x,
            # 'y': self.y,
            'joint': self._name,
            # noise: 0.1,
        })

        if self._coordinates is not None:
            servomotor.attrib['coordinates'] = ';'.join(str(i) for i in self._coordinates)

        pid = xml.etree.ElementTree.SubElement(servomotor, 'rv:pid')
        SDF.sub_element_text(pid, 'rv:p', 0.9)
        SDF.sub_element_text(pid, 'rv:i', 0.0)
        SDF.sub_element_text(pid, 'rv:d', 0.0)
        SDF.sub_element_text(pid, 'rv:i_max', 0.0)
        SDF.sub_element_text(pid, 'rv:i_min', 0.0)
        # SDF.sub_element_text(pid, 'rv:cmd_max', 0.0)
        # SDF.sub_element_text(pid, 'rv:cmd_min', 0.0)

        return servomotor
예제 #3
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    def to_robot_config_sdf(self):
        assert (self.is_motorized())

        servomotor = xml.etree.ElementTree.Element(
            'rv:servomotor',
            {
                'type': 'position',
                'id': "{}__rotate".format(self._id),
                'part_id': self._id,
                'part_name': self._name,
                # 'x': self.x,
                # 'y': self.y,
                'joint': self._name,
                # noise: 0.1,
            })

        if self._coordinates is not None:
            servomotor.attrib['coordinates'] = ';'.join(
                str(i) for i in self._coordinates)

        pid = xml.etree.ElementTree.SubElement(servomotor, 'rv:pid')
        SDF.sub_element_text(pid, 'rv:p', 0.9)
        SDF.sub_element_text(pid, 'rv:i', 0.0)
        SDF.sub_element_text(pid, 'rv:d', 0.0)
        SDF.sub_element_text(pid, 'rv:i_max', 0.0)
        SDF.sub_element_text(pid, 'rv:i_min', 0.0)
        # SDF.sub_element_text(pid, 'rv:cmd_max', 0.0)
        # SDF.sub_element_text(pid, 'rv:cmd_min', 0.0)

        return servomotor
예제 #4
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    def __init__(self,
                 _id: str,
                 name: str,
                 parent_link: SDF.Link,
                 child_link: SDF.Link,
                 axis: SDF.math.Vector3,
                 coordinates=None,
                 motorized=False,
                 position=None,
                 rotation=None):
        super().__init__(
            'joint',
            {
                'id': _id,
                'name': name,
                'type': 'revolute'
            },
            position=position,
            rotation=rotation,
        )
        self._id = _id
        self._name = name
        self._motorized = motorized
        self._coordinates = coordinates

        SDF.sub_element_text(self, 'parent', parent_link.name)
        SDF.sub_element_text(self, 'child', child_link.name)
        self.axis = JointAxis(axis)
        self.append(self.axis)
예제 #5
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 def __init__(self, box_size):
     """
     :param box_size: list or tuple of 3 elements with the 3 sizes (x,y,z).
     """
     super().__init__('geometry')
     self._box = (box_size[0], box_size[1], box_size[2])
     mesh = xml.etree.ElementTree.SubElement(self, 'box')
     SDF.sub_element_text(mesh, 'size',
                          '{:e} {:e} {:e}'.format(box_size[0], box_size[1], box_size[2]))
예제 #6
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파일: sensor.py 프로젝트: ci-group/revolve
 def __init__(self, name: str, collision_element, link, module):
     """
     Constructor
     :param name: name of the sensor
     :param collision_element: name or reference of the collision element
     :type collision_element: str|SDF.Collision
     """
     super().__init__(name, link, module)
     collision_element = collision_element if type(collision_element) is str else collision_element.name
     contact = xml.etree.ElementTree.SubElement(self, 'contact')
     SDF.sub_element_text(contact, 'collision', collision_element)
     # SDF.sub_element_text(contact, 'topic', 'topic_{}'.format(collision_element))
     # SDF.sub_element_text(self, 'update_rate', 8.0)
     SDF.sub_element_text(self, 'always_on', True)
예제 #7
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파일: link.py 프로젝트: wakeupppp/revolve
    def __init__(self, name: str, self_collide=True, position=None, rotation=None):
        super().__init__(
            tag='link',
            attrib={'name': name},
            position=position,
            rotation=rotation,
        )

        self.name = name
        self.size = (0, 0, 0, 0, 0, 0)
        self.inertial = None
        self.collisions = []
        self.joints = []

        SDF.sub_element_text(self, 'self_collide', self_collide)
예제 #8
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파일: sensor.py 프로젝트: wakeupppp/revolve
 def __init__(self, name: str, collision_element, link, module):
     """
     Constructor
     :param name: name of the sensor
     :param collision_element: name or reference of the collision element
     :type collision_element: str|SDF.Collision
     """
     super().__init__(name, link, module)
     collision_element = collision_element if type(
         collision_element) is str else collision_element.name
     contact = xml.etree.ElementTree.SubElement(self, 'contact')
     SDF.sub_element_text(contact, 'collision', collision_element)
     # SDF.sub_element_text(contact, 'topic', 'topic_{}'.format(collision_element))
     # SDF.sub_element_text(self, 'update_rate', 8.0)
     SDF.sub_element_text(self, 'always_on', True)
예제 #9
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 def to_sdf(self, pose=SDF.math.Vector3(0, 0, 0.25), nice_format=None):
     if type(nice_format) is bool:
         nice_format = '\t' if nice_format else None
     return SDF.revolve_bot_to_sdf(self,
                                   pose,
                                   nice_format,
                                   self_collide=self.self_collide)
예제 #10
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    def to_sdf(self, tree_depth='', parent_link=None, child_link=None):
        assert (parent_link is not None)
        name = 'component_{}_{}'.format(tree_depth, self.TYPE)
        name_sensor = 'sensor_{}_{}'.format(tree_depth, self.TYPE)

        visual = SDF.Visual(name, self.rgb)
        geometry = SDF.MeshGeometry(self.VISUAL_MESH)
        visual.append(geometry)

        collision = SDF.Collision(name, self.MASS)
        geometry = SDF.BoxGeometry(self.COLLISION_BOX)
        # collision.translate(SDF.math.Vector3(0.01175, 0.001, 0))
        collision.append(geometry)

        sensor = SDF.TouchSensor(name_sensor, collision, parent_link, self)
        parent_link.append(sensor)

        return visual, collision, sensor
예제 #11
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 def get_inertial(self):
     """
     Return solid box inertial
     """
     r = self.mass / 12.0
     x, y, z = self._box_geometry
     ixx = r * (y ** 2 + z ** 2)
     iyy = r * (x ** 2 + z ** 2)
     izz = r * (x ** 2 + y ** 2)
     return SDF.Inertial(mass=self.mass, inertia_xx=ixx, inertia_yy=iyy, inertia_zz=izz)
예제 #12
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    def to_sdf(self, tree_depth='', parent_link=None, child_link=None):
        """
        Transform the module in sdf elements.

        IMPORTANT: It does not append VISUAL and COLLISION elements to the parent link
        automatically. It does append automatically the SENSOR element.
        TODO: make the append automatic for VISUAL AND COLLISION AS WELL.

        :param tree_depth: current tree depth as string (for naming)
        :param parent_link: link of the parent (may be needed for certain modules)
        :param child_link: link of the child (may be needed for certain modules, like hinges)
        :return: visual SDF element, collision SDF element, sensor SDF element.
        Sensor SDF element may be None.
        """
        name = 'component_{}_{}__box'.format(tree_depth, self.TYPE)
        visual = SDF.Visual(name, self.rgb)
        geometry = SDF.MeshGeometry(self.VISUAL_MESH)
        visual.append(geometry)

        collision = SDF.Collision(name, self.MASS)
        geometry = SDF.BoxGeometry(self.COLLISION_BOX)
        collision.append(geometry)

        return visual, collision, None
예제 #13
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 def __init__(self,
              ambient=(0, 0, 0, 1),
              diffuse=(0, 0, 0, 1),
              specular=(0, 0, 0, 1)):
     super().__init__('material')
     SDF.sub_element_text(self, 'ambient',
                          '{} {} {} {}'.format(ambient[0], ambient[1], ambient[2], ambient[3]))
     SDF.sub_element_text(self, 'diffuse',
                          '{} {} {} {}'.format(diffuse[0], diffuse[1], diffuse[2], diffuse[3]))
     SDF.sub_element_text(self, 'specular',
                          '{} {} {} {}'.format(specular[0], specular[1], specular[2], specular[3]))
예제 #14
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파일: sensor.py 프로젝트: wakeupppp/revolve
    def __init__(self,
                 name: str,
                 width: int = 320,
                 height: int = 240,
                 horizontal_fov: float = 1.047,
                 clip_near: float = 0.1,
                 clip_far: float = 100.0,
                 position=None,
                 rotation=None):
        """
        Constructor
        :param name: name of the sensor
        :param width: pixel width size of the camera
        :param height: pixel height size of the camera
        :param horizontal_fov: FOV on the horizontal axis (the vertical one is calculated from this and the canvas proportions)
        :param clip_near: Clipping near of the camera frustum
        :param clip_far: Clipping far of the camera frustum
        :param position: Position of the camera
        :param rotation: Rotation (orientation) of the camera
        """
        super().__init__(name, 'camera', position, rotation)
        camera = xml.etree.ElementTree.SubElement(self, 'camera')
        SDF.sub_element_text(camera, 'horizontal_fov', horizontal_fov)
        image = xml.etree.ElementTree.SubElement(camera, 'image')
        clip = xml.etree.ElementTree.SubElement(camera, 'clip')

        SDF.sub_element_text(image, 'width', width)
        SDF.sub_element_text(image, 'width', height)
        SDF.sub_element_text(clip, 'near', clip_near)
        SDF.sub_element_text(clip, 'far', clip_far)

        SDF.sub_element_text(self, 'always_on', True)
예제 #15
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    def to_sdf(self, tree_depth='', parent_link=None, child_link=None):
        assert (parent_link is not None)
        assert (child_link is not None)
        name_frame = 'component_{}_{}__frame'.format(tree_depth, self.TYPE)
        name_joint = 'component_{}_{}__joint'.format(tree_depth, self.TYPE)
        name_servo = 'component_{}_{}__servo'.format(tree_depth, self.TYPE)
        name_servo2 = 'component_{}_{}__servo2'.format(tree_depth, self.TYPE)

        visual_frame = SDF.Visual(name_frame, self.rgb)
        geometry = SDF.MeshGeometry(self.VISUAL_MESH_FRAME)
        visual_frame.append(geometry)

        collision_frame = SDF.Collision(name_frame, self.MASS_FRAME)
        geometry = SDF.BoxGeometry(self.COLLISION_BOX_FRAME)
        collision_frame.append(geometry)

        visual_servo = SDF.Visual(name_servo, self.rgb)
        geometry = SDF.MeshGeometry(self.VISUAL_MESH_SERVO)
        visual_servo.append(geometry)

        collision_servo = SDF.Collision(name_servo, self.MASS_SERVO)
        collision_servo.translate(SDF.math.Vector3(0.002375, 0, 0))
        geometry = SDF.BoxGeometry(self.COLLISION_BOX_SERVO)
        collision_servo.append(geometry)

        collision_servo_2 = SDF.Collision(name_servo2, 0)
        collision_servo_2.translate(SDF.math.Vector3(0.01175, 0.001, 0))
        geometry = SDF.BoxGeometry(self.COLLISION_BOX_SERVO_2)
        collision_servo_2.append(geometry)

        joint = SDF.Joint(self.id,
                          name_joint,
                          parent_link,
                          child_link,
                          axis=SDF.math.Vector3(0, 1, 0),
                          coordinates=self.substrate_coordinates,
                          motorized=True)

        joint.set_position(SDF.math.Vector3(-0.0085, 0, 0))

        return visual_frame, \
               [collision_frame], \
               visual_servo, \
               [collision_servo, collision_servo_2], \
               joint
예제 #16
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    def __init__(self, mass, position=None, rotation=None,
                 inertia_xx=1.0, inertia_xy=0.0, inertia_xz=0.0,
                 inertia_yy=1.0, inertia_yz=0.0,
                 inertia_zz=1.0):
        super().__init__('inertial', position=position, rotation=rotation)
        self.ixx, self.ixy, self.ixz = (inertia_xx, inertia_xy, inertia_xz)
        self.iyy, self.iyz = (inertia_yy, inertia_yz)
        self.izz = inertia_zz
        self.mass = mass

        SDF.sub_element_text(self, 'mass', mass)

        inertia = xml.etree.ElementTree.SubElement(self, 'inertia')
        SDF.sub_element_text(inertia, 'ixx', inertia_xx)
        SDF.sub_element_text(inertia, 'ixy', inertia_xy)
        SDF.sub_element_text(inertia, 'ixz', inertia_xz)
        SDF.sub_element_text(inertia, 'iyy', inertia_yy)
        SDF.sub_element_text(inertia, 'iyz', inertia_yz)
        SDF.sub_element_text(inertia, 'izz', inertia_zz)
예제 #17
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def _module_to_sdf(module, parent_link, parent_slot: BoxSlot, parent_collision, slot_chain, self_collide):
    """
    Recursive function that takes a module and returns a list of SDF links and joints that
    that module and his children have generated.
    :param module: Module to parse
    :type module: RevolveModule
    :param parent_link: SDF `Link` of the parent
    :param parent_slot: Slot of the parent which this module should attach to
    :param parent_collision: Parent collision box, needed for the alignment.
    :param slot_chain: Text that names the joints, it encodes the path that was made to arrive to that element.
    :return:
    """
    links = []
    joints = []
    sensors = []
    collisions = []

    my_link = parent_link
    my_collision = None

    # ACTIVE HINGE
    if type(module) is ActiveHingeModule:
        child_link = SDF.Link('{}_Leg'.format(slot_chain), self_collide=self_collide)

        visual_frame, collisions_frame, \
        visual_servo, collisions_servo, \
        joint = module.to_sdf('{}'.format(slot_chain), parent_link, child_link)

        # parent_slot = parent_module.boxslot(parent_slot)
        module_slot = module.boxslot_frame(Orientation.SOUTH)
        _sdf_attach_module(module_slot, module.orientation,
                           visual_frame, collisions_frame[0],
                           parent_slot, parent_collision)

        parent_slot = module.boxslot_frame(Orientation.NORTH)
        module_slot = module.boxslot_servo(Orientation.SOUTH)
        _sdf_attach_module(module_slot, None,
                           visual_servo, collisions_servo[0],
                           parent_slot, collisions_frame[0])

        joint.set_rotation(visual_servo.get_rotation())
        old_position = joint.get_position()
        joint.set_position(visual_servo.get_position())
        joint.translate(joint.to_parent_direction(old_position))

        # Add visuals and collisions for Servo Frame block
        parent_link.append(visual_frame)
        for i, collision_frame in enumerate(collisions_frame):
            parent_link.append(collision_frame)
            collisions.append(collision_frame)
            if i != 0:
                old_pos = collision_frame.get_position()
                collision_frame.set_rotation(visual_frame.get_rotation())
                collision_frame.set_position(visual_frame.get_position())
                collision_frame.translate(collision_frame.to_parent_direction(old_pos))

        # Add visuals and collisions for Servo block
        child_link.append(visual_servo)
        for i, collision_servo in enumerate(collisions_servo):
            child_link.append(collision_servo)
            collisions.append(collision_servo)
            if i != 0:
                old_pos = collision_servo.get_position()
                collision_servo.set_position(collisions_servo[0].get_position())
                collision_servo.set_rotation(collisions_servo[0].get_rotation())
                collision_servo.translate(collision_servo.to_parent_direction(old_pos))

        # Add joint
        child_link.add_joint(joint)
        links.append(child_link)
        joints.append(joint)

        # update my_link and my_collision
        my_link = child_link
        my_collision = collisions_servo[0]

    # OTHERS
    else:
        visual, collision, sensor = module.to_sdf(slot_chain, my_link)

        module_slot = module.boxslot(Orientation.SOUTH)
        _sdf_attach_module(module_slot, module.orientation,
                           visual, collision,
                           parent_slot, parent_collision)

        parent_link.append(visual)
        parent_link.append(collision)
        collisions.append(collision)

        my_collision = collision

        if sensor is not None:
            sensors.append(sensor)

    # RECURSION ON CHILDREN
    for my_slot, child_module in module.iter_children():
        if child_module is None:
            continue

        my_slot = module.boxslot(Orientation(my_slot))
        child_slot_chain = '{}{}'.format(slot_chain, my_slot.orientation.short_repr())

        children_links, \
        children_joints, \
        children_sensors, \
        children_collisions = _module_to_sdf(child_module,
                                             my_link,
                                             my_slot,
                                             my_collision,
                                             child_slot_chain, self_collide)
        links.extend(children_links)
        joints.extend(children_joints)
        sensors.extend(children_sensors)
        collisions.extend(children_collisions)

    return links, joints, sensors, collisions
예제 #18
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파일: joint.py 프로젝트: ci-group/revolve
    def __init__(self, axis: SDF.math.Vector3):
        super().__init__('axis')
        self.xyz = SDF.sub_element_text(self, 'xyz',
                                        '{:e} {:e} {:e}'.format(axis[0], axis[1], axis[2]))
        SDF.sub_element_text(self, 'use_parent_model_frame', '0')
        limit = xml.etree.ElementTree.SubElement(self, 'limit')

        # TODO calibrate this (load from configuration?)
        SDF.sub_element_text(limit, 'lower', -7.853982e-01)
        SDF.sub_element_text(limit, 'upper', 7.853982e-01)
        SDF.sub_element_text(limit, 'effort', 1.765800e-01)
        SDF.sub_element_text(limit, 'velocity', 5.235988e+00)
예제 #19
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def _sdf_brain_plugin_conf(
        robot_brain,
        sensors,
        actuators,
        robot_genome=None,
        update_rate: float = 8.0,
        controller_plugin: str = 'libRobotControlPlugin.so',
):
    """
    Creates the plugin node with the brain configuration inside

    :param robot_brain: Brain of the robot to send to the simulator
    :param battery_level:
    :param update_rate: Update rate as used by the default controller
    :param controller_plugin: Name of the shared library of the model plugin
    :return: The sdf plugin element
    :rtype: xml.etree.ElementTree.Element
    """
    plugin = xml.etree.ElementTree.Element(
        'plugin',
        attrib={
            'name': 'robot_controller',
            'filename': controller_plugin,
            'xmlns:rv': 'https://github.com/ci-group/revolve',
        })

    config = xml.etree.ElementTree.SubElement(plugin, 'rv:robot_config')

    # update rate
    SDF.sub_element_text(config, 'rv:update_rate', update_rate)

    # battery
    # if battery_level is not None:
    #     battery = xml.etree.ElementTree.SubElement(config, 'rv:battery')
    #     SDF.sub_element_text(battery, 'rv:level', battery_level)

    # brain
    robot_brain_sdf = xml.etree.ElementTree.SubElement(config, 'rv:brain')

    robot_learner = robot_brain.learner_sdf()
    if robot_learner is None:
        xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:learner', {'type': 'None'})
    else:
        robot_brain_sdf.append(robot_learner)

    robot_controller = robot_brain.controller_sdf()
    if robot_controller is None:
        xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:controller', {'type': 'None'})
    else:
        robot_brain_sdf.append(robot_controller)

    # sensors
    sensors_elem = xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:sensors')
    for sensor in sensors:
        sensors_elem.append(sensor.to_robot_config_sdf())

    # actuators
    actuators_elem = xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:actuators')
    for actuator in actuators:
        actuators_elem.append(actuator.to_robot_config_sdf())

    # robot genome
    if robot_genome is not None:
        SDF.sub_element_text(config, 'rv:genome', str(robot_genome))

    return plugin
예제 #20
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def _sdf_brain_plugin_conf(
        robot_brain,
        sensors,
        actuators,
        robot_genome=None,
        update_rate: float = 8.0,
        controller_plugin: str = 'libRobotControlPlugin.so',
):
    """
    Creates the plugin node with the brain configuration inside

    :param robot_brain: Brain of the robot to send to the simulator
    :param battery_level:
    :param update_rate: Update rate as used by the default controller
    :param controller_plugin: Name of the shared library of the model plugin
    :return: The sdf plugin element
    :rtype: xml.etree.ElementTree.Element
    """
    plugin = xml.etree.ElementTree.Element(
        'plugin',
        attrib={
            'name': 'robot_controller',
            'filename': controller_plugin,
        })

    config = xml.etree.ElementTree.SubElement(plugin, 'rv:robot_config', {
        'xmlns:rv': 'https://github.com/ci-group/revolve',
    })

    # update rate
    SDF.sub_element_text(config, 'rv:update_rate', update_rate)

    # battery
    # if battery_level is not None:
    #     battery = xml.etree.ElementTree.SubElement(config, 'rv:battery')
    #     SDF.sub_element_text(battery, 'rv:level', battery_level)

    # brain
    robot_brain_sdf = xml.etree.ElementTree.SubElement(config, 'rv:brain')

    robot_learner = robot_brain.learner_sdf()
    if robot_learner is None:
        xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:learner', {'type': 'None'})
    else:
        robot_brain_sdf.append(robot_learner)

    robot_controller = robot_brain.controller_sdf()
    if robot_controller is None:
        xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:controller', {'type': 'None'})
    else:
        robot_brain_sdf.append(robot_controller)

    # sensors
    sensors_elem = xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:sensors')
    for sensor in sensors:
        sensors_elem.append(sensor.to_robot_config_sdf())

    # actuators
    actuators_elem = xml.etree.ElementTree.SubElement(robot_brain_sdf, 'rv:actuators')
    for actuator in actuators:
        actuators_elem.append(actuator.to_robot_config_sdf())

    # robot genome
    if robot_genome is not None:
        SDF.sub_element_text(config, 'rv:genome', str(robot_genome))

    return plugin
예제 #21
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 def __init__(self, mesh_uri):
     super().__init__('geometry')
     mesh = xml.etree.ElementTree.SubElement(self, 'mesh')
     SDF.sub_element_text(mesh, 'uri', mesh_uri)
예제 #22
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    def __init__(self):
        super().__init__('surface')
        contact_tag = xml.etree.ElementTree.SubElement(self, 'contact')
        friction_tag = xml.etree.ElementTree.SubElement(self, 'friction')

        contact_ode_tag = xml.etree.ElementTree.SubElement(contact_tag, 'ode')
        SDF.sub_element_text(contact_ode_tag, 'kd', 10000000.0 / 3)
        SDF.sub_element_text(contact_ode_tag, 'kp', 90000)

        friction_ode_tag = xml.etree.ElementTree.SubElement(friction_tag, 'ode')
        SDF.sub_element_text(friction_ode_tag, 'mu', 1.0)
        SDF.sub_element_text(friction_ode_tag, 'mu2', 1.0)
        SDF.sub_element_text(friction_ode_tag, 'slip1', 0.01)
        SDF.sub_element_text(friction_ode_tag, 'slip2', 0.01)

        friction_bullet_tag = xml.etree.ElementTree.SubElement(friction_tag, 'bullet')
        SDF.sub_element_text(friction_bullet_tag, 'friction', 1.0)
        SDF.sub_element_text(friction_bullet_tag, 'friction2', 1.0)
예제 #23
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 def to_sdf(self, tree_depth='', parent_link=None, child_link=None):
     imu_sensor = SDF.IMUSensor('core-imu_sensor', parent_link, self)
     visual, collision, _ = super().to_sdf(tree_depth, parent_link,
                                           child_link)
     parent_link.append(imu_sensor)
     return visual, collision, imu_sensor
예제 #24
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def revolve_bot_to_sdf(robot, robot_pose, nice_format, self_collide=True):
    from xml.etree import ElementTree
    from pyrevolve import SDF

    sdf_root = ElementTree.Element('sdf', {'version': '1.6'})

    assert (robot.id is not None)
    model = ElementTree.SubElement(sdf_root, 'model', {
        'name': str(robot.id)
    })

    pose_elem = SDF.Pose(robot_pose)
    model.append(pose_elem)

    core_link = SDF.Link('Core', self_collide=self_collide)
    core_visual, core_collision, imu_core_sensor = robot._body.to_sdf('', core_link)

    links = [core_link]
    joints = []
    actuators = []
    sensors = [imu_core_sensor]
    collisions = [core_collision]

    core_link.append(core_visual)
    core_link.append(core_collision)

    for core_slot, child_module in robot._body.iter_children():
        if child_module is None:
            continue
        core_slot = robot._body.boxslot(Orientation(core_slot))
        slot_chain = core_slot.orientation.short_repr()

        children_links, \
        children_joints, \
        children_sensors, \
        children_collisions = _module_to_sdf(child_module,
                                             core_link,
                                             core_slot,
                                             core_collision,
                                             slot_chain,
                                             self_collide)

        links.extend(children_links)
        joints.extend(children_joints)
        sensors.extend(children_sensors)
        collisions.extend(children_collisions)

    for joint in joints:
        model.append(joint)
        if joint.is_motorized():
            actuators.append(joint)

    for link in links:
        link.align_center_of_mass()
        link.calculate_inertial()
        model.append(link)

    # ADD BRAIN
    plugin_elem = _sdf_brain_plugin_conf(robot._brain, sensors, actuators, robot_genome=None)
    model.append(plugin_elem)

    # XML RENDER PHASE #
    def prettify(rough_string, indent='\t'):
        """Return a pretty-printed XML string for the Element.
        """
        import xml.dom.minidom
        reparsed = xml.dom.minidom.parseString(rough_string)
        return reparsed.toprettyxml(indent=indent)

    res = xml.etree.ElementTree.tostring(sdf_root, encoding='utf8', method='xml')

    if nice_format is not None:
        res = prettify(res, nice_format)
    else:
        res = res.decode()

    return res
예제 #25
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파일: sensor.py 프로젝트: wakeupppp/revolve
 def __init__(self, name: str, link, module):
     super().__init__(name, link, module)
     SDF.sub_element_text(self, 'always_on', True)
예제 #26
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파일: sensor.py 프로젝트: ci-group/revolve
    def __init__(self,
                 name: str,
                 width: int = 320,
                 height: int = 240,
                 horizontal_fov: float = 1.047,
                 clip_near: float = 0.1,
                 clip_far: float = 100.0,
                 position=None,
                 rotation=None):
        """
        Constructor
        :param name: name of the sensor
        :param width: pixel width size of the camera
        :param height: pixel height size of the camera
        :param horizontal_fov: FOV on the horizontal axis (the vertical one is calculated from this and the canvas proportions)
        :param clip_near: Clipping near of the camera frustum
        :param clip_far: Clipping far of the camera frustum
        :param position: Position of the camera
        :param rotation: Rotation (orientation) of the camera
        """
        super().__init__(
            name, 'camera', position, rotation
        )
        camera = xml.etree.ElementTree.SubElement(self, 'camera')
        SDF.sub_element_text(camera, 'horizontal_fov', horizontal_fov)
        image = xml.etree.ElementTree.SubElement(camera, 'image')
        clip = xml.etree.ElementTree.SubElement(camera, 'clip')

        SDF.sub_element_text(image, 'width', width)
        SDF.sub_element_text(image, 'width', height)
        SDF.sub_element_text(clip, 'near', clip_near)
        SDF.sub_element_text(clip, 'far', clip_far)

        SDF.sub_element_text(self, 'always_on', True)
예제 #27
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    def __init__(self, axis: SDF.math.Vector3):
        super().__init__('axis')
        self.xyz = SDF.sub_element_text(
            self, 'xyz', '{:e} {:e} {:e}'.format(axis[0], axis[1], axis[2]))
        SDF.sub_element_text(self, 'use_parent_model_frame', '0')
        limit = xml.etree.ElementTree.SubElement(self, 'limit')

        # TODO calibrate this (load from configuration?)
        SDF.sub_element_text(limit, 'lower', -7.853982e-01)
        SDF.sub_element_text(limit, 'upper', 7.853982e-01)
        SDF.sub_element_text(limit, 'effort', 1.765800e-01)
        SDF.sub_element_text(limit, 'velocity', 5.235988e+00)
예제 #28
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    def __init__(self,
                 mass,
                 position=None,
                 rotation=None,
                 inertia_xx=1.0,
                 inertia_xy=0.0,
                 inertia_xz=0.0,
                 inertia_yy=1.0,
                 inertia_yz=0.0,
                 inertia_zz=1.0):
        super().__init__('inertial', position=position, rotation=rotation)
        self.ixx, self.ixy, self.ixz = (inertia_xx, inertia_xy, inertia_xz)
        self.iyy, self.iyz = (inertia_yy, inertia_yz)
        self.izz = inertia_zz
        self.mass = mass

        SDF.sub_element_text(self, 'mass', mass)

        inertia = xml.etree.ElementTree.SubElement(self, 'inertia')
        SDF.sub_element_text(inertia, 'ixx', inertia_xx)
        SDF.sub_element_text(inertia, 'ixy', inertia_xy)
        SDF.sub_element_text(inertia, 'ixz', inertia_xz)
        SDF.sub_element_text(inertia, 'iyy', inertia_yy)
        SDF.sub_element_text(inertia, 'iyz', inertia_yz)
        SDF.sub_element_text(inertia, 'izz', inertia_zz)
예제 #29
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파일: sensor.py 프로젝트: ci-group/revolve
 def __init__(self, name: str, link, module):
     super().__init__(name, link, module)
     SDF.sub_element_text(self, 'always_on', True)