import GCode_Interpreterdc class Controller: def __init__(self): pass def __call__(self, gtm, *args, **kwargs): return None # We control position, but the output of the controller is a set speed. # Therefore, we have proportional, differential and second differential terms. class PIDController(Controller): def __init__(self, p, i, d): super().__init__() self.err_x, self.err_y, self.err_z = 0., 0., 0. self.derr_x, self.derr_y, self.derr_z = 0., 0., 0. self.d2err_x, self.d2err_y, self.d2err_z = 0., 0., 0. self.p, self.i, self.d = p,i,d def __call__(self, gtm, *args, **kwargs): err_x_new, err_y_new, err_z_new = gtm.delta_steps derr_x_new, derr_y_new, derr_z_new = err_x_new - self.err_x, err_y_new - self.err_y, err_z_new - self.err_z d2err_x_new, d2err_y_new, d2err_z_new = derr_x_new - self.derr_x, derr_y_new - self.derr_y, derr_z_new - self.derr_z self.err_x, self.err_y, self.err_z = err_x_new, err_y_new, err_z_new self.derr_x, self.derr_y, self.derr_z = derr_x_new, derr_y_new, derr_z_new self.d2err_x, self.d2err_y, self.d2err_z = d2err_x_new,d2err_y_new,d2err_z_new speed_cmd_x = self.p * self.derr_x + self.i * self.err_x + self.d * self.d2err_x speed_cmd_y = self.p * self.derr_y + self.i * self.err_y + self.d * self.d2err_y speed_cmd_z = self.p * self.derr_z + self.i * self.err_z + self.d * self.d2err_z # It is the responsability of the coefficients to make sure this results in the desired feedrate gtm.x_throttle = gtm.target_feedrate/abs(speed_cmd_x) gtm.x_direction = 1 if (speed_cmd_x > 0) else 0 gtm.y_throttle = gtm.target_feedrate/abs(speed_cmd_y) gtm.y_direction = 1 if (speed_cmd_y > 0) else 0 gtm.z_throttle = gtm.target_feedrate/abs(speed_cmd_z) gtm.z_direction = 1 if (speed_cmd_z > 0) else 0 if gtm.x_throttle > 65536: gtm.x_throttle = 0 if gtm.y_throttle > 65536: gtm.y_throttle = 0 if gtm.z_throttle > 65536: gtm.z_throttle = 0