Exemple #1
0
def main():

    mujoco = e.Mujoco(model="humanoidstandup", )
    compiler = e.Compiler(
        angle="degree",
        inertiafromgeom="true",
    )
    default = e.Default()
    option = e.Option(
        integrator="RK4",
        iterations="50",
        solver="PGS",
        timestep="0.003",
    )
    size = e.Size(
        nkey="5",
        nuser_geom="1",
    )
    visual = e.Visual()
    asset = e.Asset()
    worldbody = e.Worldbody()
    tendon = e.Tendon()
    actuator = e.Actuator()
    mujoco.add_children([
        compiler,
        default,
        option,
        size,
        visual,
        asset,
        worldbody,
        tendon,
        actuator,
    ])
    joint = e.Joint(
        armature="1",
        damping="1",
        limited="true",
    )
    geom = e.Geom(
        conaffinity="1",
        condim="1",
        contype="1",
        margin="0.001",
        material="geom",
        rgba="0.8 0.6 .4 1",
    )
    motor = e.Motor(
        ctrllimited="true",
        ctrlrange="-.4 .4",
    )
    default.add_children([
        joint,
        geom,
        motor,
    ])
    map = e.Map(
        fogend="5",
        fogstart="3",
    )
    visual.add_children([
        map,
    ])
    texture = e.Texture(
        builtin="gradient",
        height="100",
        rgb1=".4 .5 .6",
        rgb2="0 0 0",
        type="skybox",
        width="100",
    )
    texgeom = e.Texture(
        builtin="flat",
        height="1278",
        mark="cross",
        markrgb="1 1 1",
        name="texgeom",
        random="0.01",
        rgb1="0.8 0.6 0.4",
        rgb2="0.8 0.6 0.4",
        type="cube",
        width="127",
    )
    texplane = e.Texture(
        builtin="checker",
        height="100",
        name="texplane",
        rgb1="0 0 0",
        rgb2="0.8 0.8 0.8",
        type="2d",
        width="100",
    )
    MatPlane = e.Material(
        name="MatPlane",
        reflectance="0.5",
        shininess="1",
        specular="1",
        texrepeat="60 60",
        texture="texplane",
    )
    geom_1 = e.Material(
        name="geom",
        texture="texgeom",
        texuniform="true",
    )
    asset.add_children([
        texture,
        texgeom,
        texplane,
        MatPlane,
        geom_1,
    ])
    light = e.Light(
        cutoff="100",
        diffuse="1 1 1",
        dir="-0 0 -1.3",
        directional="true",
        exponent="1",
        pos="0 0 1.3",
        specular=".1 .1 .1",
    )
    floor = e.Geom(
        condim="3",
        friction="1 .1 .1",
        material="MatPlane",
        name="floor",
        pos="0 0 0",
        rgba="0.8 0.9 0.8 1",
        size="20 20 0.125",
        type="plane",
    )
    torso = e.Body(
        name="torso",
        pos="0 0 .105",
    )
    worldbody.add_children([
        light,
        floor,
        torso,
    ])
    left_hipknee = e.Fixed(name="left_hipknee", )
    right_hipknee = e.Fixed(name="right_hipknee", )
    tendon.add_children([
        left_hipknee,
        right_hipknee,
    ])
    abdomen_y = e.Motor(
        gear="100",
        joint="abdomen_y",
        name="abdomen_y",
    )
    abdomen_z = e.Motor(
        gear="100",
        joint="abdomen_z",
        name="abdomen_z",
    )
    abdomen_x = e.Motor(
        gear="100",
        joint="abdomen_x",
        name="abdomen_x",
    )
    right_hip_x = e.Motor(
        gear="100",
        joint="right_hip_x",
        name="right_hip_x",
    )
    right_hip_z = e.Motor(
        gear="100",
        joint="right_hip_z",
        name="right_hip_z",
    )
    right_hip_y = e.Motor(
        gear="300",
        joint="right_hip_y",
        name="right_hip_y",
    )
    right_knee = e.Motor(
        gear="200",
        joint="right_knee",
        name="right_knee",
    )
    left_hip_x = e.Motor(
        gear="100",
        joint="left_hip_x",
        name="left_hip_x",
    )
    left_hip_z = e.Motor(
        gear="100",
        joint="left_hip_z",
        name="left_hip_z",
    )
    left_hip_y = e.Motor(
        gear="300",
        joint="left_hip_y",
        name="left_hip_y",
    )
    left_knee = e.Motor(
        gear="200",
        joint="left_knee",
        name="left_knee",
    )
    right_shoulder1 = e.Motor(
        gear="25",
        joint="right_shoulder1",
        name="right_shoulder1",
    )
    right_shoulder2 = e.Motor(
        gear="25",
        joint="right_shoulder2",
        name="right_shoulder2",
    )
    right_elbow = e.Motor(
        gear="25",
        joint="right_elbow",
        name="right_elbow",
    )
    left_shoulder1 = e.Motor(
        gear="25",
        joint="left_shoulder1",
        name="left_shoulder1",
    )
    left_shoulder2 = e.Motor(
        gear="25",
        joint="left_shoulder2",
        name="left_shoulder2",
    )
    left_elbow = e.Motor(
        gear="25",
        joint="left_elbow",
        name="left_elbow",
    )
    actuator.add_children([
        abdomen_y,
        abdomen_z,
        abdomen_x,
        right_hip_x,
        right_hip_z,
        right_hip_y,
        right_knee,
        left_hip_x,
        left_hip_z,
        left_hip_y,
        left_knee,
        right_shoulder1,
        right_shoulder2,
        right_elbow,
        left_shoulder1,
        left_shoulder2,
        left_elbow,
    ])
    track = e.Camera(
        name="track",
        mode="trackcom",
        pos="0 -3 .5",
        xyaxes="1 0 0 0 0 1",
    )
    root = e.Joint(
        armature="0",
        damping="0",
        limited="false",
        name="root",
        pos="0 0 0",
        stiffness="0",
        type="free",
    )
    torso1 = e.Geom(
        fromto="0 -.07 0 0 .07 0",
        name="torso1",
        size="0.07",
        type="capsule",
    )
    head = e.Geom(
        name="head",
        pos="-.15 0 0",
        size=".09",
        type="sphere",
        user="******",
    )
    uwaist = e.Geom(
        fromto=".11 -.06 0 .11 .06 0",
        name="uwaist",
        size="0.06",
        type="capsule",
    )
    lwaist = e.Body(
        name="lwaist",
        pos=".21 0 0",
        quat="1.000 0 -0.002 0",
    )
    right_upper_arm = e.Body(
        name="right_upper_arm",
        pos="0 -0.17 0.06",
    )
    left_upper_arm = e.Body(
        name="left_upper_arm",
        pos="0 0.17 0.06",
    )
    torso.add_children([
        track,
        root,
        torso1,
        head,
        uwaist,
        lwaist,
        right_upper_arm,
        left_upper_arm,
    ])
    joint_1 = e.Joint(
        coef="-1",
        joint="left_hip_y",
    )
    joint_2 = e.Joint(
        coef="1",
        joint="left_knee",
    )
    left_hipknee.add_children([
        joint_1,
        joint_2,
    ])
    joint_3 = e.Joint(
        coef="-1",
        joint="right_hip_y",
    )
    joint_4 = e.Joint(
        coef="1",
        joint="right_knee",
    )
    right_hipknee.add_children([
        joint_3,
        joint_4,
    ])
    lwaist_1 = e.Geom(
        fromto="0 -.06 0 0 .06 0",
        name="lwaist",
        size="0.06",
        type="capsule",
    )
    abdomen_z_1 = e.Joint(
        armature="0.02",
        axis="0 0 1",
        damping="5",
        name="abdomen_z",
        pos="0 0 0.065",
        range="-45 45",
        stiffness="20",
        type="hinge",
    )
    abdomen_y_1 = e.Joint(
        armature="0.02",
        axis="0 1 0",
        damping="5",
        name="abdomen_y",
        pos="0 0 0.065",
        range="-75 30",
        stiffness="10",
        type="hinge",
    )
    pelvis = e.Body(
        name="pelvis",
        pos="0.165 0 0",
        quat="1.000 0 -0.002 0",
    )
    lwaist.add_children([
        lwaist_1,
        abdomen_z_1,
        abdomen_y_1,
        pelvis,
    ])
    right_shoulder1_1 = e.Joint(
        armature="0.0068",
        axis="2 1 1",
        name="right_shoulder1",
        pos="0 0 0",
        range="-85 60",
        stiffness="1",
        type="hinge",
    )
    right_shoulder2_1 = e.Joint(
        armature="0.0051",
        axis="0 -1 1",
        name="right_shoulder2",
        pos="0 0 0",
        range="-85 60",
        stiffness="1",
        type="hinge",
    )
    right_uarm1 = e.Geom(
        fromto="0 0 0 .16 -.16 -.16",
        name="right_uarm1",
        size="0.04 0.16",
        type="capsule",
    )
    right_lower_arm = e.Body(
        name="right_lower_arm",
        pos=".18 -.18 -.18",
    )
    right_upper_arm.add_children([
        right_shoulder1_1,
        right_shoulder2_1,
        right_uarm1,
        right_lower_arm,
    ])
    left_shoulder1_1 = e.Joint(
        armature="0.0068",
        axis="2 -1 1",
        name="left_shoulder1",
        pos="0 0 0",
        range="-60 85",
        stiffness="1",
        type="hinge",
    )
    left_shoulder2_1 = e.Joint(
        armature="0.0051",
        axis="0 1 1",
        name="left_shoulder2",
        pos="0 0 0",
        range="-60 85",
        stiffness="1",
        type="hinge",
    )
    left_uarm1 = e.Geom(
        fromto="0 0 0 .16 .16 -.16",
        name="left_uarm1",
        size="0.04 0.16",
        type="capsule",
    )
    left_lower_arm = e.Body(
        name="left_lower_arm",
        pos=".18 .18 -.18",
    )
    left_upper_arm.add_children([
        left_shoulder1_1,
        left_shoulder2_1,
        left_uarm1,
        left_lower_arm,
    ])
    abdomen_x_1 = e.Joint(
        armature="0.02",
        axis="1 0 0",
        damping="5",
        name="abdomen_x",
        pos="0 0 0.1",
        range="-35 35",
        stiffness="10",
        type="hinge",
    )
    butt = e.Geom(
        fromto="-.02 -.07 0 -.02 .07 0",
        name="butt",
        size="0.09",
        type="capsule",
    )
    right_thigh = e.Body(
        name="right_thigh",
        pos="0 -0.1 0",
    )
    left_thigh = e.Body(
        name="left_thigh",
        pos="0 0.1 0",
    )
    pelvis.add_children([
        abdomen_x_1,
        butt,
        right_thigh,
        left_thigh,
    ])
    right_elbow_1 = e.Joint(
        armature="0.0028",
        axis="0 -1 1",
        name="right_elbow",
        pos="0 0 0",
        range="-90 50",
        stiffness="0",
        type="hinge",
    )
    right_larm = e.Geom(
        fromto="0.01 0.01 0.01 .17 .17 .17",
        name="right_larm",
        size="0.031",
        type="capsule",
    )
    right_hand = e.Geom(
        name="right_hand",
        pos=".18 .18 .18",
        size="0.04",
        type="sphere",
    )
    camera = e.Camera(pos="0 0 0", )
    right_lower_arm.add_children([
        right_elbow_1,
        right_larm,
        right_hand,
        camera,
    ])
    left_elbow_1 = e.Joint(
        armature="0.0028",
        axis="0 -1 -1",
        name="left_elbow",
        pos="0 0 0",
        range="-90 50",
        stiffness="0",
        type="hinge",
    )
    left_larm = e.Geom(
        fromto="0.01 -0.01 0.01 .17 -.17 .17",
        name="left_larm",
        size="0.031",
        type="capsule",
    )
    left_hand = e.Geom(
        name="left_hand",
        pos=".18 -.18 .18",
        size="0.04",
        type="sphere",
    )
    left_lower_arm.add_children([
        left_elbow_1,
        left_larm,
        left_hand,
    ])
    right_hip_x_1 = e.Joint(
        armature="0.01",
        axis="1 0 0",
        damping="5",
        name="right_hip_x",
        pos="0 0 0",
        range="-25 5",
        stiffness="10",
        type="hinge",
    )
    right_hip_z_1 = e.Joint(
        armature="0.01",
        axis="0 0 1",
        damping="5",
        name="right_hip_z",
        pos="0 0 0",
        range="-60 35",
        stiffness="10",
        type="hinge",
    )
    right_hip_y_1 = e.Joint(
        armature="0.0080",
        axis="0 1 0",
        damping="5",
        name="right_hip_y",
        pos="0 0 0",
        range="-110 20",
        stiffness="20",
        type="hinge",
    )
    right_thigh1 = e.Geom(
        fromto="0 0 0 0.34 0.01 0",
        name="right_thigh1",
        size="0.06",
        type="capsule",
    )
    right_shin = e.Body(
        name="right_shin",
        pos="0.403 0.01 0",
    )
    right_thigh.add_children([
        right_hip_x_1,
        right_hip_z_1,
        right_hip_y_1,
        right_thigh1,
        right_shin,
    ])
    left_hip_x_1 = e.Joint(
        armature="0.01",
        axis="-1 0 0",
        damping="5",
        name="left_hip_x",
        pos="0 0 0",
        range="-25 5",
        stiffness="10",
        type="hinge",
    )
    left_hip_z_1 = e.Joint(
        armature="0.01",
        axis="0 0 -1",
        damping="5",
        name="left_hip_z",
        pos="0 0 0",
        range="-60 35",
        stiffness="10",
        type="hinge",
    )
    left_hip_y_1 = e.Joint(
        armature="0.01",
        axis="0 1 0",
        damping="5",
        name="left_hip_y",
        pos="0 0 0",
        range="-120 20",
        stiffness="20",
        type="hinge",
    )
    left_thigh1 = e.Geom(
        fromto="0 0 0 0.34 -0.01 0",
        name="left_thigh1",
        size="0.06",
        type="capsule",
    )
    left_shin = e.Body(
        name="left_shin",
        pos="0.403 -0.01 0",
    )
    left_thigh.add_children([
        left_hip_x_1,
        left_hip_z_1,
        left_hip_y_1,
        left_thigh1,
        left_shin,
    ])
    right_knee_1 = e.Joint(
        armature="0.0060",
        axis="0 -1 0",
        name="right_knee",
        pos="0 0 .02",
        range="-160 -2",
        type="hinge",
    )
    right_shin1 = e.Geom(
        fromto="0 0 0 0.3 0 0",
        name="right_shin1",
        size="0.049",
        type="capsule",
    )
    right_foot = e.Body(
        name="right_foot",
        pos="0.35 0 -.10",
    )
    right_shin.add_children([
        right_knee_1,
        right_shin1,
        right_foot,
    ])
    left_knee_1 = e.Joint(
        armature="0.0060",
        axis="0 -1 0",
        name="left_knee",
        pos="0 0 .02",
        range="-160 -2",
        stiffness="1",
        type="hinge",
    )
    left_shin1 = e.Geom(
        fromto="0 0 0 0.3 0 0",
        name="left_shin1",
        size="0.049",
        type="capsule",
    )
    left_foot = e.Body(
        name="left_foot",
        pos="0.35 0 -.1",
    )
    left_shin.add_children([
        left_knee_1,
        left_shin1,
        left_foot,
    ])
    right_foot_1 = e.Geom(
        name="right_foot",
        pos="0 0 0.1",
        size="0.075",
        type="sphere",
        user="******",
    )
    right_foot.add_children([
        right_foot_1,
    ])
    left_foot_1 = e.Geom(
        name="left_foot",
        type="sphere",
        size="0.075",
        pos="0 0 0.1",
        user="******",
    )
    left_foot.add_children([
        left_foot_1,
    ])

    model_xml = mujoco.xml()

    # Output
    with open('humanoidstandup_gen.xml', 'w') as fh:
        fh.write(model_xml)
Exemple #2
0
def main(dataset_file):
    #Path maker
    handle_folder = os.path.join(args.input_dirname.format(knob_type), dataset_file)
    stl_path = os.path.join('door/{}knobs'.format(knob_type), dataset_file)
    with open(os.path.join(handle_folder, 'info.json'), 'r') as f:
        params_dict = json.load(f)

    #geom parts number
    door_parts_n = 1
    frame_parts_n = 6
    wall_parts_n = 3
    knob_parts_n = params_dict['model_count']

    if args.robot_type == "gripper":
        robot_type = "blue_gripper"
    elif args.robot_type == "hook":
        robot_type = "blue_hook"
    elif args.robot_type == "floatinggripper":
        robot_type = "blue_floatinggripper"
    elif args.robot_type == "floatinghook":
        robot_type = "blue_floatinghook"
    elif args.robot_type == "mobilegripper":
        robot_type = "blue_mobile_gripper"
    elif args.robot_type == "mobilehook":
        robot_type = "blue_mobile_hook"
    elif args.robot_type == "baxter-leftarm":
        robot_type = "baxter_leftarm"
    elif args.robot_type == "baxter-rightarm":
        robot_type = "baxter_rightarm"
    elif args.robot_type == "baxter-botharm":
        robot_type = "baxter_botharm"
    else:
        raise Exception("robot type not recognized")
    
    ###################### Randomize Parameters ######################
    # Lighting property
    light_n=randrange(2,6)
    light_property_list = []
    for i in range(light_n):
        light_property = dict(
            light_diffuse=[randrange(9,11)/10, randrange(9,11)/10, randrange(9,11)/10],
            light_pos=[randrange(0,500)/100.0, randrange(-500,500)/100.0, randrange(300,700)/100.0],
            light_dir=[randrange(-50,50)/100.0, randrange(-50,50)/100.0, randrange(-50,-25)/100.0]
        )
        light_property_list.append(light_property)

    # Camera property
    camera1_pos = [0.99, -0.5, 1.0] #1m x 1m
    camera1_ori = [0.0, 1.57, 1.57]
    camera2_pos = [0.5, 0.0, 1.99]  #1m x 1m
    camera2_ori = [0, 0, 0]
    camera_fieldview = 60
    camera_randomization = False
    if camera_randomization:
        for i in range(len(camera1_pos)):
            camera1_pos[i] += randrange(-15,15)/1000
            camera2_pos[i] += randrange(-15,15)/1000
        for i in range(len(camera1_ori)):
            camera1_ori[i] += randrange(-17,17)/1000
            camera2_ori[i] += randrange(-17,17)/1000
        camera_fieldview_noise = [randrange(-100,100)/100, randrange(-100,100)/100]
    camera_poses = [camera1_pos, camera2_pos]
    camera_ories = [camera1_ori, camera2_ori]
    camera_fieldview_noise = [0, 0]

    #Material list
    material_name_list = ['Paint','Wood','Carpet','Metal']
    paint_shininess = randrange(1,50)/100.0
    paint_specular = randrange(1,50)/100.0
    wood_shininess = randrange(1,20)/100.0
    wood_specular = randrange(1,20)/100.0
    carpet_shininess = randrange(1,5)/100.0
    carpet_specular = randrange(1,5)/100.0
    metal_shininess = randrange(80,100)/100.0
    metal_specular = randrange(80,100)/100.0

    #Floor color
    floor_rgb1 = [randrange(0,50)/100.0, randrange(0,50)/100.0, randrange(0,50)/100.0]
    floor_rgb2 = [randrange(0,50)/100.0, randrange(0,50)/100.0, randrange(0,50)/100.0]

    # Wall property
    wall_rgba = [randrange(1,85)/100.0, randrange(1,85)/100.0, randrange(1,85)/100.0, 1.0]
    wall_location = [0.0, randrange(-100,100)/1000.0, 0.0]
    wall_material = material_name_list[randrange(0,3)]

    # Frame property
    frame_rgba = [randrange(70,85)/100.0, randrange(70,85)/100.0, randrange(70,85)/100.0, 1.0]
    frame_material = material_name_list[randrange(0,3)]

    # Door Frame Joint Property  
    door_frame_damper = randrange(10, 20)/10.0
    door_frame_spring = randrange(10, 20)/100.0
    door_frame_frictionloss = randrange(0,1)

    # Door hinge direction
    if args.righthinge_ratio > randrange(0,100)/100.0:
        hinge_loc = "righthinge"
    else:
        hinge_loc = "lefthinge"

    # Swtich Camera1 position depending on the hinge location
    if hinge_loc == "lefthinge":
         camera_poses[0] = [0.99, 0.5, 1.0] #1m x 1m
    
    # Opening direction
    if args.pulldoor_ratio > randrange(0,100)/100.0:
        opendir = "pull"
    else:
        opendir = "push"

    # Door property
    door_height = randrange(2000, 2500)/1000.0
    door_width = randrange(750, 1200)/1000.0
    door_thickness = randrange(20, 30)/1000.0
    knob_height = randrange(900, 1100)/1000.0 # legal height of the door knob is 864mm to 1219mm
    knob_horizontal_location_ratio = randrange(10,20)/100.0 #height-ratio and from-side-ratio of knob
    door_mass = door_height*door_width*door_thickness*randrange(200,300) # Density of MDF is in range of 500-1000kg/m^3 
    door_rgba = [randrange(1,100)/100.0, randrange(1,100)/100.0, randrange(1,100)/100.0, 1.0]
    door_material = material_name_list[randrange(0,3)]

    # Knob Door Joint Property
    knob_door_damper = randrange(10, 20)/100.0
    knob_door_spring = randrange(10, 15)/100.0
    knob_door_frictionloss = randrange(0, 1)
    knob_rot_range = randrange(75, 80)*3.14/180

    # Knob property
    if hinge_loc == "righthinge":
        doorknob_pos = [0,0,0]
        knob_euler = [-1.57,1.57,0]
    elif hinge_loc == "lefthinge":
        doorknob_pos = [0, (0.5-knob_horizontal_location_ratio)*door_width*2, 0]
        knob_euler = [1.57,1.57,0]
    else:
        raise Exception("door direction undefinded")

    knob_mass = randrange(1,2)
    knob_rgba = [randrange(1,100)/100.0, randrange(1,100)/100.0, randrange(1,100)/100.0, 1.0]
    knob_surface_friction = [randrange(50,100)/100.0, randrange(1,5)/1000.0, randrange(1,5)/1000.0]
    doorknob_material = material_name_list[randrange(0,3)]


    high_variance = False
    if high_variance:
        door_frame_damper = randrange(20, 60)/100.0
        door_frame_spring = randrange(20, 60)/100.0
        door_mass = door_height*door_width*door_thickness*randrange(200,600) # (700,850) Density of MDF
        knob_surface_friction = [randrange(0,100)/100.0, randrange(1,10)/1000.0, randrange(1,10)/1000.0]

    knob_color_overfit = False
    if knob_color_overfit:
        material_name_list = ['Paint','Wood','Carpet','Metal']
        wall_rgba = [randrange(90,95)/100.0, randrange(90,95)/100.0, randrange(90,95)/100.0, 1.0]
        wall_material = material_name_list[randrange(0,2)]
        frame_rgba = [randrange(90,100)/100.0, randrange(80,100)/100.0, randrange(80,100)/100.0, 1.0]
        frame_material = material_name_list[randrange(0,2)]
        door_rgba = [randrange(90,95)/100.0, randrange(90,95)/100.0, randrange(90,95)/100.0, 1.0]
        door_material = material_name_list[randrange(0,2)]
        knob_color = randrange(0,100)
        if knob_color < 34:
            # Brass
            knob_rgba = [randrange(71,72)/100.0, randrange(66,67)/100.0, randrange(25,26)/100.0, 1.0]
        elif 34 <= knob_color < 67:
            # Silver
            knob_rgba = [randrange(95,100)/100.0, randrange(95,100)/100.0, randrange(95,100)/100.0, 1.0]
        else:
            # Black
            knob_rgba = [randrange(1,10)/100.0, randrange(1,10)/100.0, randrange(1,10)/100.0, 1.0]
        doorknob_material = material_name_list[3]

        light_n=randrange(6,8)
        light_property_list = []
        for i in range(light_n):
            light_property = dict(
                light_diffuse=[randrange(9,11)/10, randrange(9,11)/10, randrange(9,11)/10],
                light_pos=[randrange(0,500)/100.0, randrange(-500,500)/100.0, randrange(300,700)/100.0],
                light_dir=[randrange(-50,50)/100.0, randrange(-50,50)/100.0, randrange(-100,-80)/100.0]
            )
            light_property_list.append(light_property)

    # Robot property
    robot_damping = randrange(9, 11)/100
    # robot_damping = randrange(5, 10)/10

    ###################### Constant Parameters ######################
    # gravity
    if args.robot_type.find("floating")>-1 or args.robot_type.find("baxter")>-1:
        gravity_vector = [0,0,0]
    else:
        gravity_vector = [0,0,-9.81]

    # Stationaly Camera
    camera_n = 2

    # World Wall Joint Property
    wall_world_armature = 0.0001
    wall_world_damper = 100000000
    wall_world_spring = 1000
    wall_world_frictionloss = 0
    wall_world_joint_pos = [0,0,0]


    # wall Frame Joint Property
    frame_wall_armature = 0.0001
    frame_wall_damper = 100000000
    frame_wall_spring = 1000
    frame_wall_frictionloss = 0
    frame_wall_joint_pos = [0,0,0]

    # Door stopper property
    doorstopper_size = [door_thickness, 0.10, 0.025]
    if opendir == "push":
        if hinge_loc == "righthinge":
            doorstopper_pos = [door_thickness*2.3, -door_width*knob_horizontal_location_ratio+0.15, door_height-knob_height-0.05]
        else:
            doorstopper_pos = [door_thickness*2.3, door_width-door_width*knob_horizontal_location_ratio-0.15, door_height-knob_height-0.05]
    else:
        if hinge_loc == "righthinge":
            doorstopper_pos = [0-door_thickness*1.8, -door_width*knob_horizontal_location_ratio+0.15, door_height-knob_height-0.05]
        else:
            doorstopper_pos = [0-door_thickness*1.8, door_width-door_width*knob_horizontal_location_ratio-0.15, door_height-knob_height-0.05]

    # Door Frame Joint Property
    door_frame_armature = 0.0001
    door_frame_limited = True
    if hinge_loc == "lefthinge":
        if opendir == "push":
            door_frame_range = [-0.00, 1.57]
        else:
            door_frame_range = [-1.57, 0.00]
    else:
        if opendir == "push":
            door_frame_range = [-1.57, 0.00]
        else:
            door_frame_range = [-0.00, 1.57]

    if hinge_loc == "righthinge":
        door_frame_joint_pos = [0,door_width-door_width*knob_horizontal_location_ratio,0]
    else:
        door_frame_joint_pos = [0,-door_width*knob_horizontal_location_ratio,0]
    
    # Door property
    door_diaginertia = [door_mass/12.0*(door_height**2+door_width**2),
                        door_mass/12.0*(door_height**2+door_thickness**2),
                        door_mass/12.0*(door_width**2+door_thickness**2)]
    door_euler = [0,0,0]
    door_pos = [door_thickness*1.1,0,0]

    # Frame property
    frame_width = 100/1000.0
    overlap_door_frame = 10/1000.0
    frame_world_pos = [0, -(0.5-knob_horizontal_location_ratio)*door_width, knob_height]
    frame_euler = [0,0,0]
    frame_mass = 500
    frame_diaginertia = [0.0001, 0.0001, 0.0001]

    # Knob Door Joint Property
    knob_door_joint_pos = [0,0,0]
    knob_door_armature = 0.0001
    knob_door_limited = True
    knob_door_range = [-knob_rot_range, knob_rot_range]
    latch_thickness = 0.015
    latch_height = 0.05
    latch_width = door_width * knob_horizontal_location_ratio + frame_width/3.0
    latch_gap = latch_thickness*1.3
    
    # Knob property
    if knob_type == "pull":
        knob_pos = [door_thickness/2-0.006,0,0]
        # knob_pos = [door_thickness/2,0,0]
    else:
        knob_pos = [door_thickness/2,0,0]
    knob_diaginertia = [knob_mass/12.0*(latch_height**2+latch_width**2),
                        knob_mass/12.0*(latch_height**2+latch_thickness**2),
                        knob_mass/12.0*(latch_width**2+latch_thickness**2)]

    # Frame position
    frame_pos_list = [
        [0, -door_width*knob_horizontal_location_ratio-frame_width/2.0-overlap_door_frame, (door_height+frame_width)/2.0-knob_height],
        [0, door_width-door_width*knob_horizontal_location_ratio+frame_width/2.0+overlap_door_frame, (door_height+frame_width)/2.0-knob_height],
        [0, door_width/2-door_width*knob_horizontal_location_ratio, door_height-knob_height+frame_width/2],
        [-(door_thickness+latch_gap), -door_width*knob_horizontal_location_ratio-frame_width/2.0-overlap_door_frame, (door_height+frame_width)/2.0-knob_height],
        [-(door_thickness+latch_gap), door_width-door_width*knob_horizontal_location_ratio+frame_width/2.0+overlap_door_frame, (door_height+frame_width)/2.0-knob_height],
        [-(door_thickness+latch_gap), door_width/2-door_width*knob_horizontal_location_ratio, door_height-knob_height+frame_width/2]]
    frame_size_list = [
        [door_thickness/2.0, frame_width/2.0, (door_height+frame_width)/2.0],
        [door_thickness/2.0, frame_width/2.0, (door_height+frame_width)/2.0],
        [door_thickness/2.0, door_width/2.0+frame_width, frame_width/2.0],
        [door_thickness/2.0, frame_width/2.0, (door_height+frame_width)/2.0],
        [door_thickness/2.0, frame_width/2.0, (door_height+frame_width)/2.0],
        [door_thickness/2.0, door_width/2.0+frame_width, frame_width/2.0]]

    # Wall property
    sidewall_len = 2000/1000.0
    topwall_width = 1000/1000.0
    wall_thickness = 300/1000.0
    wall_euler = [0,0,0]
    wall_mass = 100
    wall_diaginertia = [0.0001, 0.0001, 0.0001]
    wall_pos_list = [
        [0, -door_width/2.0-frame_width-sidewall_len/2.0+0.03, (door_height+frame_width)/2.0],
        [0, door_width/2.0+frame_width+sidewall_len/2.0, (door_height+frame_width)/2.0],
        [0, 0, door_height+frame_width+topwall_width/2.0]
        ]
    wall_size_list = [
        [wall_thickness/2.0, sidewall_len/2.0, (door_height+frame_width)/2.0],
        [wall_thickness/2.0, sidewall_len/2.0, (door_height+frame_width)/2.0],
        [wall_thickness/2.0, door_width/2.0+frame_width+sidewall_len, topwall_width/2.0]
        ]

    ###################### XML Generator ######################
    # Level 1
    mujoco = e.Mujoco(model="door_knob")

    #########################
    # Level 2
    compiler = e.Compiler(angle="radian")
    include = e.Include(file="../../robot/{}.xml".format(robot_type))
    option = e.Option(gravity=gravity_vector, timestep=0.001)
    visual = e.Visual()
    asset = e.Asset()
    contact = e.Contact()
    default = e.Default()
    worldbody = e.Worldbody()

    mujoco.add_children([
        compiler,
        include,
        option,
        visual,
        asset,
        contact,
        default,
        worldbody
    ])

    ######################
    # Level 3

    # Visual
    visual_list = []
    v_map = e.visual.Map(
        fogstart=3,
        fogend=5,
        force=0.1,
        znear=0.01,
        zfar=10
    )
    v_quality = v.Quality(
        shadowsize=2048
    )
    v_global = v.Global(
        offwidth=256,
        offheight=256
    )  
    visual_list.append(v_map)
    visual_list.append(v_quality)
    visual_list.append(v_global)
    visual.add_children(visual_list)

    # Asset
    if knob_type == "lever":
        knob_scale = [0.0015, 0.0015, 0.0015]
    else:
        knob_scale = [0.001, 0.001, 0.001]
    mesh_knob = []
    fname = '../../{0}/body_{1}.stl'
    name = 'door_knob_{}'
    for i in range(1,knob_parts_n+1):
        mesh_knob.append(e.Mesh(
            file=fname.format(stl_path,i),
            name=name.format(i),
            scale=knob_scale))

    texture_list = []
    texture_name_list = ['wall_geom','frame_geom','door_geom','knob_geom']
    texture_type_list = ['2d', '2d','2d','2d']
    for i in range(len(texture_name_list)):
        texture_list.append(e.Texture(
            builtin="flat",
            name=texture_name_list[i],
            height=32,
            width=32,
            type=texture_type_list[i]
        ))

    #Sky color
    texture_list.append(e.Texture(
        type="skybox",
        builtin="gradient",
        width=128,
        height=128,
        rgb1=[.4,.6,.8],
        rgb2=[0,0,0]
    ))

    #Floor color
    texture_list.append(e.Texture(
        name='texplane',
        type='2d',
        builtin='gradient',
        rgb1=floor_rgb1,
        rgb2=floor_rgb2,
        width=512,
        height=512
    ))

    material_list = []
    material_shininess_list = [paint_shininess, wood_shininess, carpet_shininess, metal_shininess]
    material_specular_list = [paint_specular, wood_specular, carpet_specular, metal_specular]
    for i in range(len(material_name_list)):
        material_list.append(e.Material(
            name=material_name_list[i],
            texture=texture_name_list[i],
            shininess=material_shininess_list[i],
            specular=material_specular_list[i]
        ))

    material_list.append(e.Material(
            name="Floor",
            texture="texplane"
        ))

    asset_list = mesh_knob
    asset_list.extend(texture_list)
    asset_list.extend(material_list)
    asset.add_children(asset_list)


    #Contact
    doorstopper_contact = e.Pair(
        geom1="doorstopper",
        geom2="door0",
        # solref="0.01 1"
    )

    latch_contacts = []
    for i in range(4):
        latch_contacts.append(e.Pair(
            geom1="knob_latch",
            geom2="door_frame_{}".format(i),
            solref="0.01 1"
        ))

    contact_list = []
    # contact_list = [doorstopper_contact]
    if knob_type != "pull":
        contact_list.extend(latch_contacts)
    contact.add_children(contact_list)

    joint_default = e.Joint(
        armature=1,
        damping=1,
        limited="true")

    wall_default = e.Default(class_='wall')
    wall_geom = e.Geom(type='mesh', rgba=wall_rgba)
    wall_default.add_child(wall_geom)

    frame_default = e.Default(class_='frame')
    frame_geom = e.Geom(type='mesh', rgba=frame_rgba)
    frame_default.add_child(frame_geom)

    door_default = e.Default(class_='door')
    door_geom = e.Geom(type='mesh', rgba=door_rgba)
    door_default.add_child(door_geom)

    knob_default = e.Default(class_='door_knob')
    knob_geom = e.Geom(condim=4, type="mesh", rgba=knob_rgba)
    knob_default.add_child(knob_geom)

    robot_default = e.Default(class_='robot')
    robot_joint = e.Joint(damping=robot_damping)
    robot_default.add_children([robot_joint])

    default.add_children([joint_default, wall_default, frame_default, door_default, knob_default, robot_default])

    # Worldbody
    light_condition_list = []
    for i in range(light_n):
        light_condition_list.append(e.Light(
            directional = True,
            diffuse=light_property_list[i]['light_diffuse'],
            pos=light_property_list[i]['light_pos'],
            dir=light_property_list[i]['light_dir']))

    floor_geom = e.Geom(
        name='floor',
        material="Floor",
        pos=[0,0,-0.05],
        size=[15.0,15.0,0.05],
        type='plane')

    #Camera
    camera_list = []
    camera_names = ["camera1", "camera2"]
    for i in range(camera_n):
        camera_list.append(e.Camera(
            name=camera_names[i],
            mode="fixed",
            fovy=camera_fieldview + camera_fieldview_noise[i],
            pos=camera_poses[i],
            euler=camera_ories[i]))
    
    ####### All body obj #######
    body0 = e.Body(
        name='wall_link',
        pos=wall_location,
        childclass='wall')

    body1 = e.Body(
        name='frame_link',
        pos=frame_world_pos,
        childclass='frame')

    body2 = e.Body(
        name='door_link',
        pos=door_pos,
        childclass='door')

    body3 = e.Body(
        name='knob_link'.format(knob_type),
        pos=doorknob_pos,
        childclass='door_knob')

    body4 = e.Body(
        name='{}knob_link'.format(knob_type),
        pos=knob_pos,
        childclass='door_knob')

    worldbody.add_children(light_condition_list)
    worldbody.add_child(floor_geom)
    worldbody.add_children(camera_list)
    worldbody.add_children([body0])

    # ######## Level0 body (origin) ########
    body0_inertial = e.Inertial(
        pos=[0,0,0],
        mass=wall_mass,
        diaginertia=wall_diaginertia)

    body0_geoms = []
    name = 'wall_{}'  
    for i in range(wall_parts_n):
        body0_geoms.append(e.Geom(
            name=name.format(i),
            material=wall_material,
            pos=wall_pos_list[i],
            size=wall_size_list[i],
            type='box',
            euler=frame_euler))

    body0_children_list = [body0_inertial]
    body0_children_list.extend(body0_geoms)
    body0.add_children(body0_children_list)
    body0.add_children([body1])

    ######## Level1 body (Frame) ########
    body1_inertial = e.Inertial(
        pos=[0,0,0],
        mass=frame_mass,
        diaginertia=frame_diaginertia
    )

    body1_geoms = []
    # # door stopper to define the pull/push opening direction
    # body1_geoms.append(e.Geom(
    #     name='doorstopper',
    #     material='Metal',
    #     pos=doorstopper_pos,
    #     size=doorstopper_size,
    #     type='box',
    #     euler=frame_euler))

    # Actual frame
    name = 'door_frame_{}'
    for i in range(frame_parts_n):
        body1_geoms.append(e.Geom(
            name=name.format(i),
            material=frame_material,
            pos=frame_pos_list[i],
            size=frame_size_list[i],
            type='box',
            euler=frame_euler))

    body1_children_list = [body1_inertial]
    body1_children_list.extend(body1_geoms)
    body1.add_children(body1_children_list)
    body1.add_children([body2])

    ######## Level2 body (Door) ########
    body2_joints = e.Joint(
        name='hinge0',
        type='hinge',
        axis=[0, 0, 1],
        armature=door_frame_armature,
        stiffness=door_frame_spring,
        damping=door_frame_damper,
        frictionloss=door_frame_frictionloss,
        limited=door_frame_limited,
        range=door_frame_range,
        pos=door_frame_joint_pos
    )

    body2_inertial = e.Inertial(
        pos=[0, door_width/2.0-door_width*knob_horizontal_location_ratio, door_height/2.0-knob_height],
        mass=door_mass,
        diaginertia=door_diaginertia
    )
    body2_geoms = [
        e.Geom(
        name='door0',
        material=door_material,
        pos=[0, door_width/2.0-door_width*knob_horizontal_location_ratio, door_height/2.0-knob_height],
        size=[door_thickness/2.0, door_width/2.0, door_height/2.0*0.99],
        type="box",
        euler=door_euler
        )]
    
    body2_children_list = [body2_joints]
    body2_children_list.extend(body2_geoms)
    body2_children_list.extend([body2_inertial])
    body2.add_children(body2_children_list)
    body2.add_children([body3])

    ######## Level3 body (Knob Wrapper) ########
    body3_joints = []

    axes = [[0,1,0],[0,0,1]]
    ranges = [[-0.2, 0.3], [-0.5,0.5]]
    for i in range(2):
        body3_joints.append(
        e.Joint(
            name='target{}'.format(i),
            type='slide',
            axis=axes[i],
            armature=0,
            stiffness=0,
            damping=30000,
            frictionloss=0,
            limited="true",
            range=ranges[i]))

    if knob_type != "pull":
        body3_joints.append(e.Joint(
            name='hinge1',
            type='hinge',
            axis=[1, 0, 0],
            armature=knob_door_armature,
            stiffness=knob_door_spring,
            damping=knob_door_damper,
            frictionloss=knob_door_frictionloss,
            limited=knob_door_limited,
            range=knob_door_range,
            pos=knob_door_joint_pos))

    body3_inertial = e.Inertial(
        pos=[0, 0, 0],
        mass=1,
        diaginertia=[0.001,0.001,0.001])

    body3.add_child(body3_inertial)
    body3.add_children(body3_joints)
    body3.add_children([body4])

    ######## Level4 body (Knob Link) ########
    body4_geoms = []
    name = 'door_knob_{}'
    mesh = 'door_knob_{}'
    knobparts_start_idx = 1
    for i in range(knobparts_start_idx ,knob_parts_n+1):
        body4_geoms.append(e.Geom(
            name=name.format(i),
            material=doorknob_material,
            mesh=mesh.format(i),
            euler=knob_euler,
            friction=knob_surface_friction))    
    if knob_type != "pull":
        body4_geoms.append(
            e.Geom(
            name='knob_latch',
            material=material_name_list[randrange(0,3)],
            pos=[-(latch_gap/2.0+door_thickness*2.1), 0, 0],
            size=[latch_thickness/2.0, latch_width, latch_height],
            type="box",
            euler=[0,0,0]))
    body4_inertial = e.Inertial(
        pos=[-(latch_gap/2.0+door_thickness*2.1), 0, 0],
        mass=knob_mass,
        diaginertia=knob_diaginertia)

    body4_children_list = body4_geoms 
    if knob_type != "pull":
        body4_children_list.extend([body4_inertial])
    body4.add_children(body4_children_list)
    
    ######## Write file to Output folder ########
    model_xml = mujoco.xml()
    name = '{0}_{1}_{2}.xml'
    output_path = os.path.join(args.output_dirname, '{0}_{1}{2}'.format(knob_type, robot_type, args.output_name_extention))
    try:
        os.makedirs(output_path)
    except OSError:
        pass
    output_filename = os.path.join(output_path, name.format(dataset_file, knob_type, robot_type))
    if knob_type== "lever" and knob_parts_n < 4:
        # print("parts are too less!!", dataset_file)
        pass
    else:
        with open(output_filename, 'w') as fh:
            fh.write(model_xml)
Exemple #3
0
def main():

    mujoco = e.Mujoco(model="hopper", )
    compiler = e.Compiler(
        angle="degree",
        coordinate="global",
        inertiafromgeom="true",
    )
    default = e.Default()
    option = e.Option(
        integrator="RK4",
        timestep="0.002",
    )
    visual = e.Visual()
    worldbody = e.Worldbody()
    actuator = e.Actuator()
    asset = e.Asset()
    mujoco.add_children([
        compiler,
        default,
        option,
        visual,
        worldbody,
        actuator,
        asset,
    ])
    joint = e.Joint(
        armature="1",
        damping="1",
        limited="true",
    )
    geom = e.Geom(
        conaffinity="1",
        condim="1",
        contype="1",
        margin="0.001",
        material="geom",
        rgba="0.8 0.6 .4 1",
        solimp=".8 .8 .01",
        solref=".02 1",
    )
    motor = e.Motor(
        ctrllimited="true",
        ctrlrange="-.4 .4",
    )
    default.add_children([
        joint,
        geom,
        motor,
    ])
    map = e.Map(znear="0.02", )
    visual.add_children([
        map,
    ])
    light = e.Light(
        cutoff="100",
        diffuse="1 1 1",
        dir="-0 0 -1.3",
        directional="true",
        exponent="1",
        pos="0 0 1.3",
        specular=".1 .1 .1",
    )
    floor = e.Geom(
        conaffinity="1",
        condim="3",
        name="floor",
        pos="0 0 0",
        rgba="0.8 0.9 0.8 1",
        size="20 20 .125",
        type="plane",
        material="MatPlane",
    )
    torso = e.Body(
        name="torso",
        pos="0 0 1.25",
    )
    worldbody.add_children([
        light,
        floor,
        torso,
    ])
    motor_1 = e.Motor(
        ctrllimited="true",
        ctrlrange="-1.0 1.0",
        gear="200.0",
        joint="thigh_joint",
    )
    motor_2 = e.Motor(
        ctrllimited="true",
        ctrlrange="-1.0 1.0",
        gear="200.0",
        joint="leg_joint",
    )
    motor_3 = e.Motor(
        ctrllimited="true",
        ctrlrange="-1.0 1.0",
        gear="200.0",
        joint="foot_joint",
    )
    actuator.add_children([
        motor_1,
        motor_2,
        motor_3,
    ])
    texture = e.Texture(
        type="skybox",
        builtin="gradient",
        rgb1=".4 .5 .6",
        rgb2="0 0 0",
        width="100",
        height="100",
    )
    texgeom = e.Texture(
        builtin="flat",
        height="1278",
        mark="cross",
        markrgb="1 1 1",
        name="texgeom",
        random="0.01",
        rgb1="0.8 0.6 0.4",
        rgb2="0.8 0.6 0.4",
        type="cube",
        width="127",
    )
    texplane = e.Texture(
        builtin="checker",
        height="100",
        name="texplane",
        rgb1="0 0 0",
        rgb2="0.8 0.8 0.8",
        type="2d",
        width="100",
    )
    MatPlane = e.Material(
        name="MatPlane",
        reflectance="0.5",
        shininess="1",
        specular="1",
        texrepeat="60 60",
        texture="texplane",
    )
    geom_1 = e.Material(
        name="geom",
        texture="texgeom",
        texuniform="true",
    )
    asset.add_children([
        texture,
        texgeom,
        texplane,
        MatPlane,
        geom_1,
    ])
    track = e.Camera(
        name="track",
        mode="trackcom",
        pos="0 -3 1",
        xyaxes="1 0 0 0 0 1",
    )
    rootx = e.Joint(
        armature="0",
        axis="1 0 0",
        damping="0",
        limited="false",
        name="rootx",
        pos="0 0 0",
        stiffness="0",
        type="slide",
    )
    rootz = e.Joint(
        armature="0",
        axis="0 0 1",
        damping="0",
        limited="false",
        name="rootz",
        pos="0 0 0",
        ref="1.25",
        stiffness="0",
        type="slide",
    )
    rooty = e.Joint(
        armature="0",
        axis="0 1 0",
        damping="0",
        limited="false",
        name="rooty",
        pos="0 0 1.25",
        stiffness="0",
        type="hinge",
    )
    torso_geom = e.Geom(
        friction="0.9",
        fromto="0 0 1.45 0 0 1.05",
        name="torso_geom",
        size="0.05",
        type="capsule",
    )
    thigh = e.Body(
        name="thigh",
        pos="0 0 1.05",
    )
    torso.add_children([
        track,
        rootx,
        rootz,
        rooty,
        torso_geom,
        thigh,
    ])
    thigh_joint = e.Joint(
        axis="0 -1 0",
        name="thigh_joint",
        pos="0 0 1.05",
        range="-150 0",
        type="hinge",
    )
    thigh_geom = e.Geom(
        friction="0.9",
        fromto="0 0 1.05 0 0 0.6",
        name="thigh_geom",
        size="0.05",
        type="capsule",
    )
    leg = e.Body(
        name="leg",
        pos="0 0 0.35",
    )
    thigh.add_children([
        thigh_joint,
        thigh_geom,
        leg,
    ])
    leg_joint = e.Joint(
        axis="0 -1 0",
        name="leg_joint",
        pos="0 0 0.6",
        range="-150 0",
        type="hinge",
    )
    leg_geom = e.Geom(
        friction="0.9",
        fromto="0 0 0.6 0 0 0.1",
        name="leg_geom",
        size="0.04",
        type="capsule",
    )
    foot = e.Body(
        name="foot",
        pos="0.13/2 0 0.1",
    )
    leg.add_children([
        leg_joint,
        leg_geom,
        foot,
    ])
    foot_joint = e.Joint(
        axis="0 -1 0",
        name="foot_joint",
        pos="0 0 0.1",
        range="-45 45",
        type="hinge",
    )
    foot_geom = e.Geom(
        friction="2.0",
        fromto="-0.13 0 0.1 0.26 0 0.1",
        name="foot_geom",
        size="0.06",
        type="capsule",
    )
    foot.add_children([
        foot_joint,
        foot_geom,
    ])

    model_xml = mujoco.xml()

    # Output
    with open('hopper_gen.xml', 'w') as fh:
        fh.write(model_xml)
Exemple #4
0
def main():

    mujoco = e.Mujoco(model="arm", )
    compiler = e.Compiler(
        angle="degree",
        coordinate="local",
        inertiafromgeom="true",
    )
    default = e.Default()
    option = e.Option(
        integrator="RK4",
        timestep="0.002",
    )
    visual = e.Visual()
    worldbody = e.Worldbody()
    tendon = e.Tendon()
    sensor = e.Sensor()
    actuator = e.Actuator()
    asset = e.Asset()
    mujoco.add_children([
        compiler,
        default,
        option,
        visual,
        worldbody,
        tendon,
        sensor,
        actuator,
        asset,
    ])

    # Standard assets
    utils.populated_ma_asset(asset)

    # Standard floor and lighting
    utils.populate_ma_worldbody(worldbody)

    geom = e.Geom(
        conaffinity="1",
        condim="1",
        contype="1",
        margin="0.001",
        material="geom",
        rgba="0.8 0.6 .4 1",
        solimp=".8 .8 .01",
        solref=".02 1",
    )
    motor = e.Motor(
        ctrllimited="true",
        ctrlrange="-.4 .4",
    )
    default.add_children([
        geom,
        motor,
    ])
    map = e.visual.Map(znear="0.02", )
    visual.add_children([
        map,
    ])
    # light = e.Light(
    #     cutoff="100",
    #     diffuse="1 1 1",
    #     dir="-0 0 -1.3",
    #     directional="true",
    #     exponent="1",
    #     pos="0 0 1.3",
    #     specular=".1 .1 .1",
    # )
    # floor = e.Geom(
    #     conaffinity="1",
    #     condim="3",
    #     material="MatPlane",
    #     name="floor",
    #     pos="0 0 0",
    #     rgba="0.8 0.9 0.8 1",
    #     size="20 20 .125",
    #     type="plane",
    # )
    block_body = e.Body(
        name="block_body",
        pos="0.0 0.0 3.0",
    )
    worldbody.add_children([
        # light,
        # floor,
        block_body,
    ])
    string = e.Spatial(
        name="string",
        width="0.02",
        rgba=".95 .3 .3 1",
        limited="false",
        range="0.5 2",
        stiffness="3700.0",
        damping="100.0",
    )
    tendon.add_children([
        string,
    ])
    ball_sensor = e.sensor.Force(
        name="ball_sensor",
        site="ball_site",
    )
    sensor.add_children([
        ball_sensor,
    ])
    string_actuator = e.General(
        name="string_actuator",
        tendon="string",
        ctrllimited="true",
        gainprm="2000",
        ctrlrange="-2 0",
    )
    actuator.add_children([
        string_actuator,
    ])
    # texture = e.Texture(
    #     builtin="gradient",
    #     height="100",
    #     rgb1=".4 .5 .6",
    #     rgb2="0 0 0",
    #     type="skybox",
    #     width="100",
    # )
    # texgeom = e.Texture(
    #     builtin="flat",
    #     height="1278",
    #     mark="cross",
    #     markrgb="1 1 1",
    #     name="texgeom",
    #     random="0.01",
    #     rgb1="0.8 0.6 0.4",
    #     rgb2="0.8 0.6 0.4",
    #     type="cube",
    #     width="127",
    # )
    # texplane = e.Texture(
    #     builtin="checker",
    #     height="100",
    #     name="texplane",
    #     rgb1="0 0 0",
    #     rgb2="0.8 0.8 0.8",
    #     type="2d",
    #     width="100",
    # )
    # MatPlane = e.Material(
    #     name="MatPlane",
    #     reflectance="0.5",
    #     shininess="1",
    #     specular="1",
    #     texrepeat="60 60",
    #     texture="texplane",
    # )
    # geom_1 = e.Material(
    #     name="geom",
    #     texture="texgeom",
    #     texuniform="true",
    # )
    # asset.add_children([
    #     texture,
    #     texgeom,
    #     texplane,
    #     MatPlane,
    #     geom_1,
    # ])
    block_geom = e.Geom(
        name="block_geom",
        size="0.2 0.2 0.2",
        type="box",
    )
    box_site = e.Site(
        name="box_site",
        pos="0.0 0.0 -0.2",
        size="0.05",
    )
    ball = e.Body(
        name="ball",
        pos="0.0 0.0 -1.0",
    )
    block_body.add_children([
        block_geom,
        box_site,
        ball,
    ])
    site = e.spatial.Site(site="box_site", )
    site_1 = e.spatial.Site(site="ball_site", )
    string.add_children([
        site,
        site_1,
    ])
    ball_joint = e.Joint(
        name="ball_joint",
        pos="0.0 0.0 -0.2",
        type="ball",
        damping="2.0",
    )
    joint = e.Joint(
        type="slide",
        axis="0 0 1",
        damping="2.0",
    )
    joint_1 = e.Joint(
        type="slide",
        axis="0 1 0",
        damping="2.0",
    )
    joint_2 = e.Joint(
        type="slide",
        axis="1 0 0",
        damping="2.0",
    )
    geom_2 = e.Geom(
        pos="0.0 0.0 0.0",
        size="0.2",
        type="sphere",
    )
    ball_site = e.Site(
        name="ball_site",
        pos="0.0 0.0 0.2",
        size="0.05",
    )
    ball.add_children([
        ball_joint,
        joint,
        joint_1,
        joint_2,
        geom_2,
        ball_site,
    ])

    model_xml = mujoco.xml()

    # Output
    out_path = os.path.join("..", "muscledagents", "envs", "mujoco", "assets",
                            "ballonstring.xml")
    with open(out_path, 'w') as fh:
        fh.write(model_xml)
Exemple #5
0
def main():
    #########################
    # Level 1
    mujoco = e.Mujoco(model="tendon")

    #########################
    # Level 2
    compiler = e.Compiler(coordinate="global", )
    default = e.Default()
    visual = e.Visual()
    worldbody = e.Worldbody()
    tendon = e.Tendon()

    mujoco.add_children([compiler, default, visual, worldbody, tendon])

    ######################
    # Level 3

    # Default
    d_geom = e.Geom(rgba=[0.9, 0.7, 0.1, 1], size=0.01)
    d_site = e.Site(type="sphere", rgba=[0.9, 0.9, 0.9, 1], size=0.005)
    d_joint = e.Joint(type="hinge",
                      axis=[0, 1, 0],
                      limited=True,
                      range=[0, 60],
                      solimplimit=[0.95, 0.95, 0.1])

    default.add_children([d_geom, d_site, d_joint])

    # Visual
    headlight = e.visual.Headlight(diffuse=[0.7, 0.7, 0.7])
    visual.add_child(headlight)

    # Worldbody
    b1 = e.Body()
    s2 = e.Site(name="s2", pos=[-0.03, 0, 0.32])
    b2 = e.Body()
    worldbody.add_children([b1, s2, b2])

    # Tendon
    spatial_tendon = e.Spatial(width=0.002,
                               rgba=[.95, .3, .3, 1],
                               limited=True,
                               range=[0, 0.33])
    tendon.add_child(spatial_tendon)

    ######################
    # Level 4

    # b1
    b1_geom = e.Geom(type="cylinder",
                     fromto=[-0.03, 0, 0.2, -0.03, 0, 0.15],
                     size=0.03,
                     rgba=[.2, .2, .5, 1],
                     density=5000)
    b1_joint = e.Joint(
        type="slide",
        pos=[-0.03, 0, 0.2],
        axis=[0, 0, 1],
        limited=False,
    )
    s1 = e.Site(name="s1", pos=[-0.03, 0, 0.2])
    b1.add_children([b1_geom, b1_joint, s1])

    # b2

    b2_geom_1 = e.Geom(type="capsule", fromto=[0, 0, 0.3, 0.1, 0, 0.3])
    g1 = e.Geom(name="g1",
                type="cylinder",
                fromto=[0.0, 0.015, 0.3, 0.0, -0.015, 0.3],
                size=0.02,
                rgba=[.3, .9, .3, .4])
    b2_joint = e.Joint(pos=[0, 0, 0.3])
    s3 = e.Site(name="s3", pos=[0.02, 0, 0.32], size=None)
    b3 = e.Body()
    b2.add_children([b2_geom_1, g1, b2_joint, s3, b3])

    # spatial_tendon
    ss1 = e.spatial.Site(site="s1")
    ss2 = e.spatial.Site(site="s2")
    sg1 = e.spatial.Geom(geom="g1")
    ss3 = e.spatial.Site(site="s3")
    sp1 = e.spatial.Pulley(divisor=2)
    sg2 = e.spatial.Geom(geom="g2", sidesite="side2")
    ss4 = e.spatial.Site(site="s4")
    sp2 = e.spatial.Pulley(divisor=2)
    ss5 = e.spatial.Site(site="s5")
    sg3 = e.spatial.Geom(geom="g3", sidesite="side3")
    ss6 = e.spatial.Site(site="s6")

    spatial_tendon.add_children(
        [ss1, ss2, sg1, ss3, sp1, ss3, sg2, ss4, sp2, ss3, sg2, ss5, sg3, ss6])

    ######################
    # Level 5

    # b3

    b3_geom_1 = e.Geom(type="capsule", fromto=[0.1, 0, 0.3, 0.2, 0, 0.3])
    g2 = e.Geom(name="g2",
                type="cylinder",
                fromto=[0.1, 0.015, 0.3, 0.1, -0.015, 0.3],
                size=0.02,
                rgba=[.3, .9, .3, .4])
    b3_joint = e.Joint(pos=[0.1, 0, 0.3])
    s4 = e.Site(name="s4", pos=[0.13, 0, 0.31], size=None)
    s5 = e.Site(name="s5", pos=[0.15, 0, 0.32])
    side2 = e.Site(name="side2", pos=[0.1, 0, 0.33])
    b4 = e.Body()

    b3.add_children([b3_geom_1, g2, b3_joint, s4, s5, side2, b4])

    ######################
    # Level 6

    # b4

    b4_geom_1 = e.Geom(type="capsule", fromto=[0.2, 0, 0.3, 0.27, 0, 0.3])
    g3 = e.Geom(name="g3",
                type="cylinder",
                fromto=[0.2, 0.015, 0.3, 0.2, -0.015, 0.3],
                size=0.02,
                rgba=[.3, .9, .3, .4])
    b4_joint = e.Joint(pos=[0.2, 0, 0.3])
    s6 = e.Site(name="s6", pos=[0.23, 0, 0.31])
    side3 = e.Site(name="side3", pos=[0.2, 0, 0.33])

    b4.add_children([b4_geom_1, g3, b4_joint, s6, side3])
    model_xml = mujoco.xml()

    # Output
    with open('tendon-gen.xml', 'w') as fh:
        fh.write(model_xml)