Exemple #1
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    def change_position_incregular(self, stop, direction, increase=2):
        """Method to changing position to the given direction as regularly and incremental when the stop flag is not triggered yet.

        Args:
                stop:                     The motion interrupt flag.
                direction:                The rotation way of servo motor. True is for clockwise, false is for can't clockwise.
                increase:       	     Increase amount of the collimator angle.
        """

        timeout = 0

        while not stop():
            if timeout >= 5:  # 5 * 0.2 millisecond is equal to 1 second.
                break
            elif timeout >= 1:
                time.sleep(0.2)

            if direction():  # true direction is the left way
                target_angle = round(self.current_angle + increase, 1)
            else:
                target_angle = round(self.current_angle - increase, 1)

            self.softly_goto_position(degree_to_radian(target_angle), 10)

            timeout += 1
Exemple #2
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    def __init__(self, joint, use_ext_driver=None):
        """Initialization method of :class:`t_system.motion.arm.Joint` class.

        Args:
                joint (dict):                   The requested_data that is contain joint's properties from the config file.
                use_ext_driver (bool):          The flag of external PWM driver activation.
        """
        self.number = joint['joint_number']
        self.is_reverse = joint['reverse']

        self.motor = None

        self.motor_thread_stop = None
        self.motor_thread_direction = None
        self.motor_thread = None

        self.structure = joint['structure']
        self.rotation_type = joint['rotation_type']

        if self.structure == 'revolute':
            self.max_q = joint['max_q']
            self.min_q = joint['min_q']

        elif self.structure == 'prismatic':
            self.max_d = joint['max_d']
            self.min_d = joint['min_d']

        self.d = joint['init_d']
        self.q = joint['init_q']
        self.a = joint['a']
        self.alpha = joint['alpha']

        self.use_ext_driver = use_ext_driver

        self.current_angle = degree_to_radian(self.q)
        if self.is_reverse:
            self.current_angle = pi - self.current_angle

        if self.structure != 'constant':
            if self.use_ext_driver:
                self.motor = ExtServoMotor(joint['channel'])
                self.motor.start(round(self.current_angle, 4))
            else:
                self.motor = ServoMotor(joint['motor_gpio_pin'])
                self.motor.start(round(self.current_angle, 4))

            self.motor_thread_stop = None
            self.motor_thread_direction = None
            self.motor_thread = threading.Thread(
                target=self.motor.change_position_incregular,
                args=(lambda: self.motor_thread_stop,
                      lambda: self.motor_thread_direction))

        logger.info(
            f'Joint{self.number} started successfully. As {self.structure}, in {self.rotation_type} rotation type, on {round(self.current_angle,4)} radian.'
        )
Exemple #3
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    def change_angle_by(self, delta_angle, direction):
        """The top-level method to provide servo motors moving.

        Args:
            delta_angle (float):            Angle to rotate. In degree.
            direction (bool):               Rotate direction. True means CW, otherwise CCW.
        """

        self.move_to_angle(
            self.calc_target_angle(degree_to_radian(delta_angle), direction))
Exemple #4
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    def move(self, angle, max_angle=180.0):
        """The top-level method to provide servo motors moving via given angles.

        Args:
            angle:       	         Servo motor's angle. Between 0 - 180 Degree.
            max_angle:       	     Servo motor's upper edge of the angle range.
        """

        if angle <= max_angle:
            angle = degree_to_radian(angle)
            self.motor.directly_goto_position(angle)
            self.current_angle = angle
Exemple #5
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    def change_angle_by(self, delta_angle, divide_count, delay, direction):
        """The top-level method to provide servo motors moving.

        Args:
                delta_angle (float):            Angle to rotate. In degree.
                divide_count (int):             The count that specify motor how many steps will use.
                delay (float):                  delay time between motor steps.
                direction (bool):               Rotate direction. True means CW, otherwise CCW.
        """

        target_angle = round(
            self.__calc_target_angle(degree_to_radian(delta_angle), direction),
            5)

        self.move_to_angle(target_angle, divide_count, delay)
        self.current_angle = target_angle
Exemple #6
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    def move(self, direction=True, delta_angle=2, divide_count=1):
        """The top-level method to provide servo motors moving by given angle difference.

        Args:
                direction:       	     Direction of the moving.
                delta_angle:       	     angular difference amount of the collimator.
                divide_count (int):       The count that specify motor how many steps will use.
        """

        target_angle = round(
            self.__calc_target_angle(degree_to_radian(delta_angle), direction),
            5)

        self.motor.softly_goto_position(target_angle, divide_count)

        self.current_angle = target_angle
Exemple #7
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    def __init__(self, joint):
        """Initialization method of :class:`t_system.motion.arm.Joint` class.

        Args:
            joint (dict):          The requested_data that is contain joint's properties from the config file.
        """
        self.number = joint['joint_number']
        self.is_reverse = joint['reverse']

        self.motor = None

        self.structure = joint['structure']
        self.rotation_type = joint['rotation_type']

        if self.structure == 'revolute':
            self.max_q = joint['max_q']
            self.min_q = joint['min_q']

        elif self.structure == 'prismatic':
            self.max_d = joint['max_d']
            self.min_d = joint['min_d']

        self.d = joint['init_d']
        self.q = joint['init_q']
        self.a = joint['a']
        self.alpha = joint['alpha']

        self.current_angle = degree_to_radian(self.q)
        if self.is_reverse:
            self.current_angle = pi - self.current_angle

        if self.structure != 'constant':
            self.motor = ServoMotor(joint['motor_gpio_pin'])
            self.motor.start(round(self.current_angle, 4))

        logger.info(
            f'Joint{self.number} started successfully. As {self.structure}, in {self.rotation_type} rotation type, on {round(self.current_angle,4)} radian.'
        )