initial

2024-05-02 07:16:51 +02:00
commit fc677d3804
12 changed files with 782 additions and 0 deletions
--- a/42100/42100_bot.py
+++ b/42100/42100_bot.py
@@ -0,0 +1,62 @@
 """ LEGO Liebherr LR 13000 / Xbox Controller / Pybricks
    Top hub connects to Xbox controller.
 	Bottom hub receives the control data from the top one.
    Controls:
    Undercarriage
 	    Left track forward ... Left trigger
 	    Left track backward ... Left trigger + Button X pushed
 	    Right track forward ... Right trigger
 	    Right track backward ... Right trigger + Button A pushed
 		The superstructure turning ... Right joystick left / right
 	Crane
 		The boom raising / lowering ... Left joystick up / down
 		The jib raising / lowering ... Left joystick left / right
 		The hook raising / lowering ... Right joystick up / down		
 		The lights on / off ... Button Y
 """
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor, Light
 from pybricks.parameters import Button, Color, Direction, Port
 from pybricks.tools import wait
 from pybricks.iodevices import XboxController
 hub = TechnicHub(observe_channels=[1])
 superstr_motor = Motor(Port.D, positive_direction=Direction.COUNTERCLOCKWISE)
 left_motor = Motor(Port.A, positive_direction=Direction.CLOCKWISE)
 right_motor = Motor(Port.B, positive_direction=Direction.COUNTERCLOCKWISE)
 # motors settings
 LEFT_TRACK_SPEED = 800
 RIGHT_TRACK_SPEED = 800
 ROTATESPEED = 240          # motor speed to turn the crane superstructure
 while True:
    # Receive broadcast from the other hub.
    data = hub.ble.observe(1)
    if data is None:
        # No data has been received in the last 1 second.
        hub.light.on(Color.RED)
    else:
        # Data was received and is less that one second old.
        hub.light.on(Color.GREEN)
        # *data* contains the same values in the same order
        # that were passed to hub.ble.broadcast() on the
        # other hub.
        rot_speed, left_tr_speed, right_tr_speed = data
        # control of the superstructure turning
        superstr_motor.run(rot_speed * ROTATESPEED / 80)
        # left track control
        left_motor.run(left_tr_speed * LEFT_TRACK_SPEED / 100)
        # right track control
        right_motor.run(right_tr_speed * RIGHT_TRACK_SPEED / 100)
--- a/42100/42100_top.py
+++ b/42100/42100_top.py
@@ -0,0 +1,121 @@
 """ LEGO Liebherr LR 13000 / Xbox Controller / Pybricks
    Top hub connects to Xbox controller.
 	Bottom hub receives the control data from the top one.
    Controls:
    Undercarriage
 	    Left track forward ... Left trigger
 	    Left track backward ... Left trigger + Button X pushed
 	    Right track forward ... Right trigger
 	    Right track backward ... Right trigger + Button A pushed
 		The superstructure turning ... Right joystick left / right
 	Crane
 		The boom raising / lowering ... Left joystick up / down
 		The jib raising / lowering ... Left joystick left / right
 		The hook raising / lowering ... Right joystick up / down		
 		The lights on / off ... Button Y		
 """
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor, Light
 from pybricks.parameters import Button, Color, Direction, Port
 from pybricks.tools import wait
 from pybricks.iodevices import XboxController
 hub = TechnicHub(broadcast_channel=1)
 controller = XboxController()
 boom_motor = Motor(Port.A, positive_direction=Direction.COUNTERCLOCKWISE)
 arm_motor = Motor(Port.B, positive_direction=Direction.COUNTERCLOCKWISE)
 bucket_motor = Motor(Port.C, positive_direction=Direction.CLOCKWISE)
 scoop_motor = Motor(Port.D, positive_direction=Direction.CLOCKWISE)
 # motors settings
 BOOMSPEED = 1000
 BUCKETSPEED = 100
 ARMSPEED = 1000
 SCOOPSPEED = 1000
 hub.light.on(Color.GREEN)
 while True:
    # control of the boom raising and lowering
    boom_speed = 0
    horizontal, vertical = controller.joystick_left()
    if vertical < -20:
        boom_speed = vertical + 20
    elif vertical > 20:
        boom_speed = vertical - 20
    boom_motor.run(boom_speed * BOOMSPEED / 80)
        # control of the jib raising and lowering
    bucket_speed = 0
    horizontal, vertical = controller.joystick_left()
    if horizontal < -20:
        bucket_speed = horizontal + 20
    elif horizontal > 20:
        bucket_speed = horizontal - 20
    bucket_motor.run(bucket_speed * BUCKETSPEED / 80)
    # control of arm
    arm_speed = 0
    horizontal, vertical = controller.joystick_right()
    if vertical < -20:
        arm_speed = vertical + 20
    elif vertical > 20:
        arm_speed = vertical - 20
    arm_motor.run(arm_speed * ARMSPEED / 80)
    # control of scoop
    scoop_speed = 0
    horizontal, vertical = controller.joystick_right()
    if horizontal < -20:
        scoop_speed = vertical + 20
    elif horizontal > 20:
        scoop_speed = vertical - 20
    scoop_motor_motor.run(scoop_speed * SCOOPSPEED / 80)
    # control of the superstructure turning
    rot_speed = 0
    now_pressed = controller.buttons.pressed()
    if controller.button.RIGHT:
        rot_speed = ROTATESPEED
    elif controller.button.LEFT:
        rot_speed = -ROTATESPEED
    # left track control
    left_tr_speed = 0
    now_pressed = controller.buttons.pressed()
    if "X" in now_pressed:
        brake, acceleration = controller.triggers()
        if brake > 10:
            left_tr_speed -= brake
    else:
        brake, acceleration = controller.triggers()
        if brake > 10:
            left_tr_speed += brake
    # right track control
    right_tr_speed = 0
    now_pressed = controller.buttons.pressed()
    if "A" in now_pressed:
        brake, acceleration = controller.triggers()
        if acceleration > 10:
            right_tr_speed -= acceleration
    else:
        brake, acceleration = controller.triggers()
        if acceleration > 10:
            right_tr_speed += acceleration
    # Set the broadcast data and start broadcasting if not already doing so.
    data = (rot_speed, left_tr_speed, right_tr_speed)
    hub.ble.broadcast(data)
--- a/42100/LR13000-XboxController.zip
+++ b/42100/LR13000-XboxController.zip
--- a/42100/LR13000-XboxController/LR13000_bottom_hub_04.py
+++ b/42100/LR13000-XboxController/LR13000_bottom_hub_04.py
@@ -0,0 +1,62 @@
 """ LEGO Liebherr LR 13000 / Xbox Controller / Pybricks
    Top hub connects to Xbox controller.
 	Bottom hub receives the control data from the top one.
    Controls:
    Undercarriage
 	    Left track forward ... Left trigger
 	    Left track backward ... Left trigger + Button X pushed
 	    Right track forward ... Right trigger
 	    Right track backward ... Right trigger + Button A pushed
 		The superstructure turning ... Right joystick left / right
 	Crane
 		The boom raising / lowering ... Left joystick up / down
 		The jib raising / lowering ... Left joystick left / right
 		The hook raising / lowering ... Right joystick up / down		
 		The lights on / off ... Button Y
 """
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor, Light
 from pybricks.parameters import Button, Color, Direction, Port
 from pybricks.tools import wait
 from pybricks.iodevices import XboxController
 hub = TechnicHub(observe_channels=[1])
 superstr_motor = Motor(Port.B, positive_direction=Direction.COUNTERCLOCKWISE)
 left_motor = Motor(Port.C, positive_direction=Direction.CLOCKWISE)
 right_motor = Motor(Port.D, positive_direction=Direction.COUNTERCLOCKWISE)
 # motors settings
 LEFT_TRACK_SPEED = 800
 RIGHT_TRACK_SPEED = 800
 ROTATESPEED = 240          # motor speed to turn the crane superstructure
 while True:
    # Receive broadcast from the other hub.
    data = hub.ble.observe(1)
    if data is None:
        # No data has been received in the last 1 second.
        hub.light.on(Color.RED)
    else:
        # Data was received and is less that one second old.
        hub.light.on(Color.GREEN)
        # *data* contains the same values in the same order
        # that were passed to hub.ble.broadcast() on the
        # other hub.
        rot_speed, left_tr_speed, right_tr_speed = data
        # control of the superstructure turning
        superstr_motor.run(rot_speed * ROTATESPEED / 80)
        # left track control
        left_motor.run(left_tr_speed * LEFT_TRACK_SPEED / 100)
        # right track control
        right_motor.run(right_tr_speed * RIGHT_TRACK_SPEED / 100)
--- a/42100/LR13000-XboxController/LR13000_top_hub_04.py
+++ b/42100/LR13000-XboxController/LR13000_top_hub_04.py
@@ -0,0 +1,124 @@
 """ LEGO Liebherr LR 13000 / Xbox Controller / Pybricks
    Top hub connects to Xbox controller.
 	Bottom hub receives the control data from the top one.
    Controls:
    Undercarriage
 	    Left track forward ... Left trigger
 	    Left track backward ... Left trigger + Button X pushed
 	    Right track forward ... Right trigger
 	    Right track backward ... Right trigger + Button A pushed
 		The superstructure turning ... Right joystick left / right
 	Crane
 		The boom raising / lowering ... Left joystick up / down
 		The jib raising / lowering ... Left joystick left / right
 		The hook raising / lowering ... Right joystick up / down		
 		The lights on / off ... Button Y		
 """
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor, Light
 from pybricks.parameters import Button, Color, Direction, Port
 from pybricks.tools import wait
 from pybricks.iodevices import XboxController
 hub = TechnicHub(broadcast_channel=1)
 controller = XboxController()
 boom_motor = Motor(Port.A, positive_direction=Direction.COUNTERCLOCKWISE)
 hook_motor = Motor(Port.B, positive_direction=Direction.COUNTERCLOCKWISE)
 jib_motor = Motor(Port.D, positive_direction=Direction.CLOCKWISE)
 light = Light(Port.C)
 # motors settings
 BOOMSPEED = 700
 JIBSPEED = 700
 HOOKSPEED = 800
 light.off()
 light_on = False
 hub.light.on(Color.GREEN)
 while True:
    # Lights on/off
    now_pressed = controller.buttons.pressed()
    if "Y" in now_pressed:
        if light_on:
            light.off()
            light_on = False
            wait(10)
        else:
            light.on(100)
            light_on = True
            wait(10)
        while "Y" in controller.buttons.pressed():  # wait until released
            wait(10)
    # control of the boom raising and lowering
    boom_speed = 0
    horizontal, vertical = controller.joystick_left()
    if vertical < -20:
        boom_speed = vertical + 20
    elif vertical > 20:
        boom_speed = vertical - 20
    boom_motor.run(boom_speed * BOOMSPEED / 80)
        # control of the jib raising and lowering
    jib_speed = 0
    horizontal, vertical = controller.joystick_left()
    if horizontal < -20:
        jib_speed = horizontal + 20
    elif horizontal > 20:
        jib_speed = horizontal - 20
    jib_motor.run(jib_speed * JIBSPEED / 80)
    # control of the hook raising and lowering
    hook_speed = 0
    horizontal, vertical = controller.joystick_right()
    if vertical < -20:
        hook_speed = vertical + 20
    elif vertical > 20:
        hook_speed = vertical - 20
    hook_motor.run(hook_speed * HOOKSPEED / 80)
    # control of the superstructure turning
    rot_speed = 0
    horizontal, vertical = controller.joystick_right()
    if horizontal < -20:
        rot_speed = horizontal + 20
    elif horizontal > 20:
        rot_speed = horizontal - 20
    # left track control
    left_tr_speed = 0
    now_pressed = controller.buttons.pressed()
    if "X" in now_pressed:
        brake, acceleration = controller.triggers()
        if brake > 10:
            left_tr_speed -= brake
    else:
        brake, acceleration = controller.triggers()
        if brake > 10:
            left_tr_speed += brake
    # right track control
    right_tr_speed = 0
    now_pressed = controller.buttons.pressed()
    if "A" in now_pressed:
        brake, acceleration = controller.triggers()
        if acceleration > 10:
            right_tr_speed -= acceleration
    else:
        brake, acceleration = controller.triggers()
        if acceleration > 10:
            right_tr_speed += acceleration
    # Set the broadcast data and start broadcasting if not already doing so.
    data = (rot_speed, left_tr_speed, right_tr_speed)
    hub.ble.broadcast(data)
--- a/42100/Leibherr.zip
+++ b/42100/Leibherr.zip
--- a/42100/Leibherr/Lower
+++ b/42100/Leibherr/Lower
@@ -0,0 +1,118 @@
 #LOWER HUB
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor 
 from pybricks.parameters import Port, Stop, Color
 from pybricks.tools import wait
 from usys import stdin
 from uselect import poll
 hub = TechnicHub()
 keyboard = poll()
 keyboard.register(stdin)
 left_track = Motor(Port.A)
 right_track = Motor(Port.B)
 turret = Motor(Port.D)
 lSpeed = 0
 rSpeed = 0
 def trackMove(lSpeed, rSpeed):
    left_track.run(speed = lSpeed)
    right_track.run(speed = rSpeed)
 while True:
    if keyboard.poll(0):
        key = stdin.read(1)
        print("Key pressed", key)
        if key in('4'):
            key1 = 1000
        elif key in('6'):
            key1 = -1000
        else:
            key1 = 0        
        turret.run(key1 * 1000)
        if key in('w'):
            lSpeed = 1000
            rSpeed = -1000
        elif key in('s'):
            lSpeed = -1000
            rSpeed = 1000
        elif key in('a'):
            lSpeed = -1000
            rSpeed = -1000
        elif key in('d'):
            lSpeed = 1000
            rSpeed = 1000
        elif key in('4'):
            key1 = 1
        elif key in('6'):
            key1 = -1    
        else:
            lSpeed = 0
            rSpeed = 0
        trackMove(lSpeed,rSpeed)
--- a/42100/Leibherr/excavator_upper_hub.py
+++ b/42100/Leibherr/excavator_upper_hub.py
@@ -0,0 +1,109 @@
 #FOR UPPER HUB
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor 
 from pybricks.parameters import Port, Stop, Color
 from pybricks.tools import wait
 from usys import stdin
 from uselect import poll
 hub = TechnicHub()
 keyboard = poll()
 keyboard.register(stdin)
 boom_motor = Motor(Port.A)
 arm_motor = Motor(Port.B)
 bucket_motor = Motor(Port.C)
 scoop_motor = Motor(Port.D)
 while True:
    if keyboard.poll(0):
        key = stdin.read(1)
        print("Key pressed", key)
        if key in ('w'):
            key1 = 1
        elif key in('s'):
            key1 = -1
        else:
            key1 = 0
        boom_motor.run(key1 * 1000)
        if key in('a'):
            key2 = 1
        elif key in('d'):
            key2 = -1
        else:
            key2 = 0        
        arm_motor.run(key2 * 1000)
        if key in('8'):
            key3 = 1
        elif key in('2'):
            key3 = -1
        else:
            key3 = 0        
        bucket_motor.run(key3 * 1000)
        if key in('4'):
            key4 = 1
        elif key in('6'):
            key4 = -1
        else:
            key4 = 0        
        scoop_motor.run(key4 * 1000)
--- a/42100/pybricks-backup-2024-05-01_18-22-08.zip
+++ b/42100/pybricks-backup-2024-05-01_18-22-08.zip
--- a/42100/pybricks-backup-2024-05-01_18-22-08/LR13000_bottom_hub_04.py
+++ b/42100/pybricks-backup-2024-05-01_18-22-08/LR13000_bottom_hub_04.py
@@ -0,0 +1,62 @@
 """ LEGO Liebherr LR 13000 / Xbox Controller / Pybricks
    Top hub connects to Xbox controller.
 	Bottom hub receives the control data from the top one.
    Controls:
    Undercarriage
 	    Left track forward ... Left trigger
 	    Left track backward ... Left trigger + Button X pushed
 	    Right track forward ... Right trigger
 	    Right track backward ... Right trigger + Button A pushed
 		The superstructure turning ... Right joystick left / right
 	Crane
 		The boom raising / lowering ... Left joystick up / down
 		The jib raising / lowering ... Left joystick left / right
 		The hook raising / lowering ... Right joystick up / down		
 		The lights on / off ... Button Y
 """
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor, Light
 from pybricks.parameters import Button, Color, Direction, Port
 from pybricks.tools import wait
 from pybricks.iodevices import XboxController
 hub = TechnicHub(observe_channels=[1])
 superstr_motor = Motor(Port.D, positive_direction=Direction.COUNTERCLOCKWISE)
 left_motor = Motor(Port.A, positive_direction=Direction.CLOCKWISE)
 right_motor = Motor(Port.B, positive_direction=Direction.COUNTERCLOCKWISE)
 # motors settings
 LEFT_TRACK_SPEED = 800
 RIGHT_TRACK_SPEED = 800
 ROTATESPEED = 240          # motor speed to turn the crane superstructure
 while True:
    # Receive broadcast from the other hub.
    data = hub.ble.observe(1)
    if data is None:
        # No data has been received in the last 1 second.
        hub.light.on(Color.RED)
    else:
        # Data was received and is less that one second old.
        hub.light.on(Color.GREEN)
        # *data* contains the same values in the same order
        # that were passed to hub.ble.broadcast() on the
        # other hub.
        rot_speed, left_tr_speed, right_tr_speed = data
        # control of the superstructure turning
        superstr_motor.run(rot_speed * ROTATESPEED / 80)
        # left track control
        left_motor.run(left_tr_speed * LEFT_TRACK_SPEED / 100)
        # right track control
        right_motor.run(right_tr_speed * RIGHT_TRACK_SPEED / 100)
--- a/42100/pybricks-backup-2024-05-01_18-22-08/LR13000_top_hub_04.py
+++ b/42100/pybricks-backup-2024-05-01_18-22-08/LR13000_top_hub_04.py
@@ -0,0 +1,121 @@
 """ LEGO Liebherr LR 13000 / Xbox Controller / Pybricks
    Top hub connects to Xbox controller.
 	Bottom hub receives the control data from the top one.
    Controls:
    Undercarriage
 	    Left track forward ... Left trigger
 	    Left track backward ... Left trigger + Button X pushed
 	    Right track forward ... Right trigger
 	    Right track backward ... Right trigger + Button A pushed
 		The superstructure turning ... Right joystick left / right
 	Crane
 		The boom raising / lowering ... Left joystick up / down
 		The jib raising / lowering ... Left joystick left / right
 		The hook raising / lowering ... Right joystick up / down		
 		The lights on / off ... Button Y		
 """
 from pybricks.hubs import TechnicHub
 from pybricks.pupdevices import Motor, Light
 from pybricks.parameters import Button, Color, Direction, Port
 from pybricks.tools import wait
 from pybricks.iodevices import XboxController
 hub = TechnicHub(broadcast_channel=1)
 controller = XboxController()
 boom_motor = Motor(Port.A, positive_direction=Direction.COUNTERCLOCKWISE)
 arm_motor = Motor(Port.B, positive_direction=Direction.COUNTERCLOCKWISE)
 bucket_motor = Motor(Port.C, positive_direction=Direction.CLOCKWISE)
 scoop_motor = Motor(Port.D, positive_direction=Direction.CLOCKWISE)
 # motors settings
 BOOMSPEED = 1000
 BUCKETSPEED = 100
 ARMSPEED = 1000
 SCOOPSPEED = 1000
 hub.light.on(Color.GREEN)
 while True:
    # # control of the boom raising and lowering
    # boom_speed = 0
    # horizontal, vertical = controller.joystick_left()
    # if vertical < -20:
    #     boom_speed = vertical + 20
    # elif vertical > 20:
    #     boom_speed = vertical - 20
    # boom_motor.run(boom_speed * BOOMSPEED / 80)
    #     # control of the jib raising and lowering
    # bucket_speed = 0
    # horizontal, vertical = controller.joystick_left()
    # if horizontal < -20:
    #     bucket_speed = horizontal + 20
    # elif horizontal > 20:
    #     bucket_speed = horizontal - 20
    # bucket_motor.run(bucket_speed * BUCKETSPEED / 80)
    # # control of arm
    # arm_speed = 0
    # horizontal, vertical = controller.joystick_right()
    # if vertical < -20:
    #     arm_speed = vertical + 20
    # elif vertical > 20:
    #     arm_speed = vertical - 20
    # arm_motor.run(arm_speed * ARMSPEED / 80)
    # # control of scoop
    # scoop_speed = 0
    # horizontal, vertical = controller.joystick_right()
    # if horizontal < -20:
    #     scoop_speed = vertical + 20
    # elif horizontal > 20:
    #     scoop_speed = vertical - 20
    # scoop_motor_motor.run(scoop_speed * SCOOPSPEED / 80)
    # control of the superstructure turning
    rot_speed = 0
    now_pressed = controller.buttons.pressed()
    if controller.button.RIGHT:
        rot_speed = ROTATESPEED
    elif controller.button.LEFT:
        rot_speed = ROTATESPEED * -1
    # left track control
    left_tr_speed = 0
    now_pressed = controller.buttons.pressed()
    if "X" in now_pressed:
        brake, acceleration = controller.triggers()
        if brake > 10:
            left_tr_speed -= brake
    else:
        brake, acceleration = controller.triggers()
        if brake > 10:
            left_tr_speed += brake
    # right track control
    right_tr_speed = 0
    now_pressed = controller.buttons.pressed()
    if "A" in now_pressed:
        brake, acceleration = controller.triggers()
        if acceleration > 10:
            right_tr_speed -= acceleration
    else:
        brake, acceleration = controller.triggers()
        if acceleration > 10:
            right_tr_speed += acceleration
    # Set the broadcast data and start broadcasting if not already doing so.
    data = (rot_speed, left_tr_speed, right_tr_speed)
    hub.ble.broadcast(data)
--- a/42100/pybricks-backup-2024-05-01_18-22-08/lego4200_top_blocks.py
+++ b/42100/pybricks-backup-2024-05-01_18-22-08/lego4200_top_blocks.py
@@ -0,0 +1,3 @@
 # pybricks blocks file:{"blocks":{"languageVersion":0,"blocks":[{"type":"blockGlobalSetup","id":"bjK,wS1MYO7aiYkFSwd{","x":150,"y":100,"deletable":false},{"type":"blockGlobalStart","id":"3tJe|AWl0baN(wH9a$@.","x":150,"y":300,"deletable":false,"next":{"block":{"type":"blockPrint","id":"j,,T}?rBkaW$1v?olp4p","extraState":{"optionLevel":0},"inputs":{"TEXT0":{"shadow":{"type":"text","id":"!x5.0YiWya^`(y)yO5B8","fields":{"TEXT":"Hello, Pybricks!"}}}}}}}]},"variables":[{"name":"red","id":"b(K72kbjLK3eaWY0rZ|H","type":"ColorDef"},{"name":"orange","id":"c5QKn-VxQXjXw0PEXW{$","type":"ColorDef"},{"name":"yellow","id":"J2n}pzD-+3vRNACoH}A|","type":"ColorDef"},{"name":"green","id":"0(NPnGB8B#2Qj*3dMqMj","type":"ColorDef"},{"name":"cyan","id":"`cTjOq2c5Qt!:AB0MNE~","type":"ColorDef"},{"name":"blue","id":")~d23yr%3gimljv:M!%H","type":"ColorDef"},{"name":"violet","id":".;6s97*6~~o){?kf32Vu","type":"ColorDef"},{"name":"magenta","id":"hnOw;Pff:#:!OejeEBQ8","type":"ColorDef"},{"name":"white","id":"|u=R}I%9QzW(~|dUY+U}","type":"ColorDef"},{"name":"none","id":"*c=-CgnIE*K6T9Gxk[8}","type":"ColorDef"}],"info":{"type":"pybricks","version":"1.2.2"}}
 # The main program starts here.
 print('Hello, Pybricks!')