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Diffstat (limited to 'source/gameengine/PyDoc/KX_ObjectActuator.py')
-rw-r--r-- | source/gameengine/PyDoc/KX_ObjectActuator.py | 250 |
1 files changed, 0 insertions, 250 deletions
diff --git a/source/gameengine/PyDoc/KX_ObjectActuator.py b/source/gameengine/PyDoc/KX_ObjectActuator.py deleted file mode 100644 index b7b76473292..00000000000 --- a/source/gameengine/PyDoc/KX_ObjectActuator.py +++ /dev/null @@ -1,250 +0,0 @@ -# $Id$ -# Documentation for KX_ObjectActuator -from SCA_IActuator import * - -class KX_ObjectActuator(SCA_IActuator): - """ - The object actuator ("Motion Actuator") applies force, torque, displacement, angular displacement, - velocity, or angular velocity to an object. - Servo control allows to regulate force to achieve a certain speed target. - """ - def getForce(): - """ - Returns the force applied by the actuator. - - @rtype: list [fx, fy, fz, local] - @return: A four item list, containing the vector force, and a flag specifying whether the force is local. - """ - def setForce(fx, fy, fz, local): - """ - Sets the force applied by the actuator. - - @type fx: float - @param fx: the x component of the force. - @type fy: float - @param fy: the z component of the force. - @type fz: float - @param fz: the z component of the force. - @type local: boolean - @param local: - False: the force is applied in world coordinates. - - True: the force is applied in local coordinates. - """ - def getTorque(): - """ - Returns the torque applied by the actuator. - - @rtype: list [S{Tau}x, S{Tau}y, S{Tau}z, local] - @return: A four item list, containing the vector torque, and a flag specifying whether - the torque is applied in local coordinates (True) or world coordinates (False) - """ - def setTorque(tx, ty, tz, local): - """ - Sets the torque applied by the actuator. - - @type tx: float - @param tx: the x component of the torque. - @type ty: float - @param ty: the z component of the torque. - @type tz: float - @param tz: the z component of the torque. - @type local: boolean - @param local: - False: the torque is applied in world coordinates. - - True: the torque is applied in local coordinates. - """ - def getDLoc(): - """ - Returns the displacement vector applied by the actuator. - - @rtype: list [dx, dy, dz, local] - @return: A four item list, containing the vector displacement, and whether - the displacement is applied in local coordinates (True) or world - coordinates (False) - """ - def setDLoc(dx, dy, dz, local): - """ - Sets the displacement vector applied by the actuator. - - Since the displacement is applied every frame, you must adjust the displacement - based on the frame rate, or you game experience will depend on the player's computer - speed. - - @type dx: float - @param dx: the x component of the displacement vector. - @type dy: float - @param dy: the z component of the displacement vector. - @type dz: float - @param dz: the z component of the displacement vector. - @type local: boolean - @param local: - False: the displacement vector is applied in world coordinates. - - True: the displacement vector is applied in local coordinates. - """ - def getDRot(): - """ - Returns the angular displacement vector applied by the actuator. - - @rtype: list [dx, dy, dz, local] - @return: A four item list, containing the angular displacement vector, and whether - the displacement is applied in local coordinates (True) or world - coordinates (False) - """ - def setDRot(dx, dy, dz, local): - """ - Sets the angular displacement vector applied by the actuator. - - Since the displacement is applied every frame, you must adjust the displacement - based on the frame rate, or you game experience will depend on the player's computer - speed. - - @type dx: float - @param dx: the x component of the angular displacement vector. - @type dy: float - @param dy: the z component of the angular displacement vector. - @type dz: float - @param dz: the z component of the angular displacement vector. - @type local: boolean - @param local: - False: the angular displacement vector is applied in world coordinates. - - True: the angular displacement vector is applied in local coordinates. - """ - def getLinearVelocity(): - """ - Returns the linear velocity applied by the actuator. - For the servo control actuator, this is the target speed. - - @rtype: list [vx, vy, vz, local] - @return: A four item list, containing the vector velocity, and whether the velocity is applied in local coordinates (True) or world coordinates (False) - """ - def setLinearVelocity(vx, vy, vz, local): - """ - Sets the linear velocity applied by the actuator. - For the servo control actuator, sets the target speed. - - @type vx: float - @param vx: the x component of the velocity vector. - @type vy: float - @param vy: the z component of the velocity vector. - @type vz: float - @param vz: the z component of the velocity vector. - @type local: boolean - @param local: - False: the velocity vector is in world coordinates. - - True: the velocity vector is in local coordinates. - """ - def getAngularVelocity(): - """ - Returns the angular velocity applied by the actuator. - - @rtype: list [S{omega}x, S{omega}y, S{omega}z, local] - @return: A four item list, containing the vector velocity, and whether - the velocity is applied in local coordinates (True) or world - coordinates (False) - """ - def setAngularVelocity(wx, wy, wz, local): - """ - Sets the angular velocity applied by the actuator. - - @type wx: float - @param wx: the x component of the velocity vector. - @type wy: float - @param wy: the z component of the velocity vector. - @type wz: float - @param wz: the z component of the velocity vector. - @type local: boolean - @param local: - False: the velocity vector is applied in world coordinates. - - True: the velocity vector is applied in local coordinates. - """ - def getDamping(): - """ - Returns the damping parameter of the servo controller. - - @rtype: integer - @return: the time constant of the servo controller in frame unit. - """ - def setDamping(damp): - """ - Sets the damping parameter of the servo controller. - - @type damp: integer - @param damp: the damping parameter in frame unit. - """ - def getForceLimitX(): - """ - Returns the min/max force limit along the X axis used by the servo controller. - - @rtype: list [min, max, enabled] - @return: A three item list, containing the min and max limits of the force as float - and whether the limits are active(true) or inactive(true) - """ - def setForceLimitX(min, max, enable): - """ - Sets the min/max force limit along the X axis and activates or deactivates the limits in the servo controller. - - @type min: float - @param min: the minimum value of the force along the X axis. - @type max: float - @param max: the maximum value of the force along the X axis. - @type enable: boolean - @param enable: - True: the force will be limited to the min/max - - False: the force will not be limited - """ - def getForceLimitY(): - """ - Returns the min/max force limit along the Y axis used by the servo controller. - - @rtype: list [min, max, enabled] - @return: A three item list, containing the min and max limits of the force as float - and whether the limits are active(true) or inactive(true) - """ - def setForceLimitY(min, max, enable): - """ - Sets the min/max force limit along the Y axis and activates or deactivates the limits in the servo controller. - - @type min: float - @param min: the minimum value of the force along the Y axis. - @type max: float - @param max: the maximum value of the force along the Y axis. - @type enable: boolean - @param enable: - True: the force will be limited to the min/max - - False: the force will not be limited - """ - def getForceLimitZ(): - """ - Returns the min/max force limit along the Z axis used by the servo controller. - - @rtype: list [min, max, enabled] - @return: A three item list, containing the min and max limits of the force as float - and whether the limits are active(true) or inactive(true) - """ - def setForceLimitZ(min, max, enable): - """ - Sets the min/max force limit along the Z axis and activates or deactivates the limits in the servo controller. - - @type min: float - @param min: the minimum value of the force along the Z axis. - @type max: float - @param max: the maximum value of the force along the Z axis. - @type enable: boolean - @param enable: - True: the force will be limited to the min/max - - False: the force will not be limited - """ - def getPID(): - """ - Returns the PID coefficient of the servo controller. - - @rtype: list [P, I, D] - @return: A three item list, containing the PID coefficient as floats: - P : proportional coefficient - I : Integral coefficient - D : Derivate coefficient - """ - def setPID(P, I, D): - """ - Sets the PID coefficients of the servo controller. - - @type P: flat - @param P: proportional coefficient - @type I: float - @param I: Integral coefficient - @type D: float - @param D: Derivate coefficient - """ - - |