Partitioned Data Storage

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Class in Zendir.Classes | Inherits from PhysicalObject

Declaration

class PartitionedDataStorage;

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Description

The partitioned data storage unit acts as a hard-drive for storing data on an object. The unit is able to have clusters of data units, with a maximum amount of storage available within each unit. The storage system can partition the data units into groups for easier access management and storage.

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Properties

Declared	Description
Allocated	The allocated memory is the total amount of memory that has beenused by all data storage units.
Capacity	The capacity of the data storage unit will be the maximum amount ofdata that can be stored on the unit as a total of all clusters that arecreated.
NumUnits	The total number of units that exist on the storage system
Out_DataStorageMsg	The output message for the data storage system that contains informationabout the current state of the storage units and systems.

Inherited	Description
Behaviours	A collection of behaviours attached to this object.
CenterOfMassB_B	The center of mass of the component in respect to the body frame (B) of the component. This is isolated from anychildren and exists in isolation.
CenterOfMassDot_LB_B	The center of mass time-derivative of the component within its own local coordinates. This does not include anyof the sub-components and exists in isolation.
CenterOfMassDotB_B	The center of mass time-derivative of the component relative to the body frame (B). This does not include any ofthe sub-components and exists in isolation.
CenterOfMassL_L	The center of mass of the component within its own local coordinates. This does not include any of thesub-components and exists in isolation.
CenterOfMassPrime_LB_B	The center of mass general-derivative of the component within its own local coordinates. This does not includeany of the sub-components and exists in isolation.
CenterOfMassPrimeB_B	[m/s] The center of mass general-derivative of the component relative to the body frame (B). This does notinclude any of the sub-components and exists in isolation.
Children	A collection of children attached to this object.
DCM_BN	The rotational DCM matrix between the body frame (B) at the top of this component chain and the inertial frame (N).
DCM_LB	The rotational DCM matrix between the component frame of this object (L) relative to the body frame (B).
DCM_LN	The DCM rotational matrix of the component relative to the inertial origin (N) of the world.
DCM_LP	The DCM matrix of the component in the parent’s frame (P), taken from the Component Transform (PL).
IsEnabled	Is true if the object is currently enabled.
LocalForward	The direction of the transform frame’s forward vector, which is along the Y axis.
LocalRight	The direction of the transform frame’s right vector, which is along the X axis.
LocalUp	The direction of the transform frame’s up vector, which is along the Z axis.
Mass	The component mass defined in the object. This is independent of any parent or children objects and exists inisolation.
MassDot	The component mass time-derivative defined in the object. This is independent of any parent or children objectsand exists in isolation.
Models	A collection of models attached to this object.
MomentOfInertia_LB	The moment of inertia of the component, measured at the local center of mass, represented with its own localcoordinates. This does not include any of the sub-components and exists in isolation.
MomentOfInertiaB_B	The moment of inertia of this component, measured in the body frame relative to the parented body. This isindependent of any children and exists in isolation.
MomentOfInertiaPrime_LB	The derivative of the moment of inertia of the component, measured at the local center of mass, represented withits own local coordinates. This does not include any of the sub-components and exists in isolation.
MomentOfInertiaPrimeB_B	The derivative of the moment of inertia of the component, represented in the body frame (B). This is independentand exists in isolation.
Name	The display name or tag of this object.
Out_ComponentMassMsg	The component mass message defines the set of mass properties and states of the system within this componentlocally. This is independent of any parent or children properties or objects.
Out_TransformMsg	This defines the base transform message that stores the state of the transform of this object.
Parent	The currently attached parent object (if any).
Position	[m] The position of the object relative to the parent or to world origin, if no parent exists.
Position_BN_N	The position of the body (the root parent B) in the inertial frame relative to the inertial point (N).
Position_LB_B	The position of the component relative to the root object of this hierarchy. This is in the inertial frame and ifthe component is the root object, then there will be no position.
Position_LN_N	The position of the inertial world space. This position is derived from the world’s transform (N).
Position_LP_P	The position of the object relative to the parented object (P). If there is no parent object, then this will bein the inertial frame.
Root	The root object in the parent chain.
Rotation	[-] The rotation of the object relative to the parent or to the world origin, if no parent exists.
Thermal	[TEMPORARY] A reference to the thermal model that is attached to this object. This will allow the object to havethermal properties and be able to be used in thermal simulations.

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Methods

Declared	Description
DeleteAll	Deletes all units and data from the storage system. This will removeall the data stored within the system and will reset the system.
DeletePartition	Deletes a particular partition from the storage system. This will deletethe entire partition and all the data stored within it.

Inherited	Description
AddObject	Returns a new simulation object with the specified type.
Attach	Attempts to attach this object to a new parent. This will only work if the current object is no parented to anyother object.
ContainsModelWithID	Returns true if an attached model satisfies the specified ID.
ContainsModelWithType	Returns true if an attached model satisfies the specified type.
Detach	This is an action to detach the current object from its parent, if it exists and move it to another object or tojust exist within the simulation.
FindBehavioursWithType	Returns all attached behaviours that satisfies the specified type.
FindBehaviourWithID	Returns an attached behaviour that satisfies the specified ID.
FindBehaviourWithType	Returns an attached behaviour that satisfies the specified type.
FindChildrenWithType	Returns all attached children that satisfies the specified type.
FindChildWithID	Returns an attached child that satisfies the specified ID.
FindChildWithType	Returns an attached child that satisfies the specified type.
FindModelsWithType	Returns all attached models that satisfies the specified type.
FindModelWithID	Returns an attached model that satisfies the specified ID.
FindModelWithType	Returns an attached model that satisfies the specified type.
FindParentWithID	Returns an attached parent that satisfies the specified ID.
FindParentWithType	Returns an attached parent that satisfies the specified type.
FindRootWithID	Returns a root object that satisfies the specified ID.
FindRootWithType	Returns a root object that satisfies the specified type.
GetModel	Returns a valid assigned model with the specified type.
GetWorldForward	[DEPRECATED] THIS FUNCTION WILL BE REMOVED AND SHOULD NOT BE USED.
GetWorldRight	[DEPRECATED] THIS FUNCTION WILL BE REMOVED AND SHOULD NOT BE USED.
GetWorldTransform	Returns the world transform of the object which is relative to the parent. If no parent exists, this will be thetransform of the object in world space.
GetWorldUp	[DEPRECATED] THIS FUNCTION WILL BE REMOVED AND SHOULD NOT BE USED.
ReadBodyTransform	This method will reset the dirty flag on the mass so that it has been read successfully and is valid.
SetWorldTransform	[DEPRECATED] THIS FUNCTION WILL BE REMOVED AND SHOULD NOT BE USED.
UpdateMassProperties	Updates the mass properties of the current physical object at a particular time.