OpenSim::Probe Class Reference

This class represents a Probe which is designed to query a Vector of model values given system state. More...

#include <Probe.h>

Inheritance diagram for OpenSim::Probe:

Public Member Functions
	Probe ()
void	reset (SimTK::State &s)
	Reset (initialize) the underlying Probe SimTK::Measure.
int	getNumInternalMeasureStates () const
	Get the number of states in the underlying SimTK::Measure.
bool	isDisabled () const
	Returns true if the Probe is disabled or false if the probe is enabled.
void	setDisabled (bool isDisabled)
	Set the Probe as disabled (true) or enabled (false).
std::string	getOperation () const
	Return the operation being performed on the probe value.
void	setOperation (std::string probe_operation)
	Set the operation being performed on the probe value.
SimTK::Vector	getInitialConditions () const
	Return the initial conditions (when the probe_operation is set to 'integrate').
void	setInitialConditions (SimTK::Vector initial_conditions_for_integration)
	Set the initial conditions (when the probe_operation is set to 'integrate').
double	getGain () const
	Return the gain to apply to the probe output.
void	setGain (double gain)
	Set the gain to apply to the probe output.
virtual OpenSim::Array < std::string >	getProbeOutputLabels () const =0
	Returns the column labels of the Probe values for reporting.
virtual SimTK::Vector	computeProbeInputs (const SimTK::State &state) const =0
	Computes the values of the probe inputs prior to any operation being performed.
virtual int	getNumProbeInputs () const =0
	Returns the number of probe inputs in the vector returned by computeProbeInputs().
SimTK::Vector	getProbeOutputs (const SimTK::State &state) const
	Returns the values of the probe after the operation has been performed.
Property declarations
These are the serializable properties associated with this class.
	OpenSim_DECLARE_PROPERTY (isDisabled, bool,"Flag indicating whether the Probe is disabled or not.")
	Enabled by default.
	OpenSim_DECLARE_PROPERTY (probe_operation, std::string,"The operation to perform on the probe input value: ""'value'(no operation, just return the probe value), 'integrate', ""'differentiate', 'minimum', 'minabs', 'maximum', 'maxabs'.")
	OpenSim_DECLARE_LIST_PROPERTY (initial_conditions_for_integration, double,"Array of initial conditions to be specified if the 'integrate' operation is ""selected. Note that the size of initial conditions must be the same size as ""the data being integrated, otherwise an exception will be thrown.")
	OpenSim_DECLARE_PROPERTY (gain, double,"Constant gain to scale the probe output by.")
Public Member Functions inherited from OpenSim::ModelComponent
	ModelComponent ()
	Default constructor.
	ModelComponent (const std::string &aFileName, bool aUpdateFromXMLNode=true) SWIG_DECLARE_EXCEPTION
	Construct ModelComponent from an XML file.
	ModelComponent (SimTK::Xml::Element &aNode)
	Construct ModelComponent from a specific node in an XML document.
	ModelComponent (const ModelComponent &source)
	Construct ModelComponent with its contents copied from another ModelComponent; this is a deep copy so nothing is shared with the source after the copy.
virtual	~ModelComponent ()
	Destructor is virtual to allow concrete model component cleanup.
ModelComponent &	operator= (const ModelComponent &aModelComponent)
	Assignment operator to copy contents of an existing component.
const Model &	getModel () const
	Get a const reference to the Model this component is part of.
Model &	updModel ()
	Get a modifiable reference to the Model this component is part of.
virtual void	updateDisplayer (const SimTK::State &s) const
	In case the ModelComponent has a visual representation (VisualObject), override this method to update it.
virtual int	getNumStateVariables () const
	Get the number of "Continuous" state variables maintained by the ModelComponent and its specified subcomponents.
virtual Array< std::string >	getStateVariableNames () const
	Get the names of "continuous" state variables maintained by the ModelComponent and its subcomponents.
virtual SimTK::SystemYIndex	getStateVariableSystemIndex (const std::string &stateVariableName) const
	Get the System Index of a state variable allocated by this ModelComponent.
int	getModelingOption (const SimTK::State &state, const std::string &name) const
	Get a ModelingOption flag for this ModelComponent by name.
void	setModelingOption (SimTK::State &state, const std::string &name, int flag) const
	Set the value of a ModelingOption flag for this ModelComponent.
double	getStateVariable (const SimTK::State &state, const std::string &name) const
	Get the value of a state variable allocated by this ModelComponent.
void	setStateVariable (SimTK::State &state, const std::string &name, double value) const
	Set the value of a state variable allocated by this ModelComponent by name.
double	getDiscreteVariable (const SimTK::State &state, const std::string &name) const
	Get the value of a discrete variable allocated by this ModelComponent by name.
void	setDiscreteVariable (SimTK::State &state, const std::string &name, double value) const
	Set the value of a discrete variable allocated by this ModelComponent by name.
template<typename T >
const T &	getCacheVariable (const SimTK::State &state, const std::string &name) const
	Get the value of a cache variable allocated by this ModelComponent by name.
template<typename T >
T &	updCacheVariable (const SimTK::State &state, const std::string &name) const
	Obtain a writable cache variable value allocated by this ModelComponent by name.
void	markCacheVariableValid (const SimTK::State &state, const std::string &name) const
	After updating a cache variable value allocated by this ModelComponent, you can mark its value as valid, which will not change until the realization stage falls below the minimum set at the time the cache variable was created.
void	markCacheVariableInvalid (const SimTK::State &state, const std::string &name) const
	Mark a cache variable value allocated by this ModelComponent as invalid.
bool	isCacheVariableValid (const SimTK::State &state, const std::string &name) const
	Enables the to monitor the validity of the cache variable value using the returned flag.
template<typename T >
void	setCacheVariable (const SimTK::State &state, const std::string &name, const T &value) const
	Set cache variable value allocated by this ModelComponent by name.
Public Member Functions inherited from OpenSim::Object
virtual	~Object ()
	Virtual destructor for cleanup.
virtual Object *	clone () const =0
	Create a new heap-allocated copy of the concrete object to which this Object refers.
virtual const std::string &	getConcreteClassName () const =0
	Returns the class name of the concrete Object-derived class of the actual object referenced by this Object, as a string.
virtual const VisibleObject *	getDisplayer () const
	Methods to support making the object displayable in the GUI or Visualizer Implemented only in few objects.
virtual VisibleObject *	updDisplayer ()
	get Non const pointer to VisibleObject
bool	isEqualTo (const Object &aObject) const
	Equality operator wrapper for use from languages not supporting operator overloading.
Object &	operator= (const Object &aObject)
	Copy assignment copies he base class fields, including the properties.
virtual bool	operator== (const Object &aObject) const
	Determine if two objects are equal.
virtual bool	operator< (const Object &aObject) const
	Provide an ordering for objects so they can be put in sorted containers.
void	setName (const std::string &name)
	Set the name of the Object.
const std::string &	getName () const
	Get the name of this Object.
void	setDescription (const std::string &description)
	Set description, a one-liner summary.
const std::string &	getDescription () const
	Get description, a one-liner summary.
const std::string &	getAuthors () const
	Get Authors of this Object.
void	setAuthors (const std::string &authors)
	Set Authors of this object, call this method in your constructor if needed.
const std::string &	getReferences () const
	Get references or publications to cite if using this object.
void	setReferences (const std::string &references)
	Set references or publications to cite if using this object.
int	getNumProperties () const
	Determine how many properties are stored with this Object.
const AbstractProperty &	getPropertyByIndex (int propertyIndex) const
	Get a const reference to a property by its index number, returned as an AbstractProperty.
AbstractProperty &	updPropertyByIndex (int propertyIndex)
	Get a writable reference to a property by its index number, returned as an AbstractProperty.
bool	hasProperty (const std::string &name) const
	Return true if this Object has a property of any type with the given name, which must not be empty.
const AbstractProperty &	getPropertyByName (const std::string &name) const
	Get a const reference to a property by its name, returned as an AbstractProperty.
AbstractProperty &	updPropertyByName (const std::string &name)
	Get a writable reference to a property by its name, returned as an AbstractProperty.
template<class T >
bool	hasProperty () const
	Return true if this Object contains an unnamed, one-object property that contains objects of the given template type T.
template<class T >
const Property< T > &	getProperty (const PropertyIndex &index) const
	Get property of known type Property<T> as a const reference; the property must be present and have the right type.
template<class T >
Property< T > &	updProperty (const PropertyIndex &index)
	Get property of known type Property<T> as a writable reference; the property must be present and have the right type.
void	setObjectIsUpToDateWithProperties ()
	When an object is initialized using the current values of its properties, it can set a flag indicating that it is up to date.
bool	isObjectUpToDateWithProperties () const
	Returns true if no property's value has changed since the last time setObjectIsUpToDateWithProperties() was called.
void	readObjectFromXMLNodeOrFile (SimTK::Xml::Element &objectElement, int versionNumber)
	We're given an XML element from which we are to populate this Object.
virtual void	updateFromXMLNode (SimTK::Xml::Element &objectElement, int versionNumber)
	Use this method to deserialize an object from a SimTK::Xml::Element.
virtual void	updateXMLNode (SimTK::Xml::Element &parent)
	Serialize this object into the XML node that represents it.
bool	getInlined () const
	Inlined means an in-memory Object that is not associated with an XMLDocument.
void	setInlined (bool aInlined, const std::string &aFileName="")
	Mark this as inlined or not and optionally provide a file name to associate with the new XMLDocument for the non-inline case.
std::string	getDocumentFileName () const
	If there is a document associated with this object then return the file name maintained by the document.
void	setAllPropertiesUseDefault (bool aUseDefault)
bool	print (const std::string &fileName)
	Write this Object into an XML file of the given name; conventionally the suffix to use is ".osim".
std::string	dump (bool dumpName=false)
	dump the XML representation of this Object into an std::string and return it.
void	clearObjectIsUpToDateWithProperties ()
	For testing or debugging purposes, manually clear the "object is up to date with respect to properties" flag.
virtual bool	isA (const char *type) const
	The default implementation returns true only if the supplied string is "Object"; each Object-derived class overrides this to match its own class name.
const std::string &	toString () const
	Wrapper to be used on Java side to display objects in tree; this returns just the object's name.
PropertySet &	getPropertySet ()
	OBSOLETE: Get a reference to the PropertySet maintained by the Object.
const PropertySet &	getPropertySet () const

Protected Member Functions
void	connectToModel (Model &model) override
	Concrete probes may override; be sure to invoke Super::connectToModel() at the beginning of the overriding method.
void	addToSystem (SimTK::MultibodySystem &system) const override
	Concrete probes may override; be sure to invoke Super::addToSystem() at the beginning of the overriding method.
Protected Member Functions inherited from OpenSim::ModelComponent
virtual void	initStateFromProperties (SimTK::State &state) const
	Transfer property values or other state-independent initial values into this component's state variables in the passed-in state argument.
virtual void	setPropertiesFromState (const SimTK::State &state)
	Update this component's property values to match the specified State, if the component has created any state variable that is intended to correspond to a property.
virtual SimTK::Vector	computeStateVariableDerivatives (const SimTK::State &s) const
	If a model component has allocated any continuous state variables using the addStateVariable() method, then computeStateVariableDerivatives() must be implemented to provide time derivatives for those states.
virtual void	generateDecorations (bool fixed, const ModelDisplayHints &hints, const SimTK::State &state, SimTK::Array_< SimTK::DecorativeGeometry > &appendToThis) const
	Optional method for generating arbitrary display geometry that reflects this ModelComponent at the specified state.
virtual void	realizeTopology (SimTK::State &state) const
	Obtain state resources that are needed unconditionally, and perform computations that depend only on the system topology.
virtual void	realizeModel (SimTK::State &state) const
	Obtain state resources that may be needed, depending on modeling options, and perform computations that depend only on topology and selected modeling options.
virtual void	realizeInstance (const SimTK::State &state) const
	Perform computations that depend only on instance variables, like lengths and masses.
virtual void	realizeTime (const SimTK::State &state) const
	Perform computations that depend only on time and earlier stages.
virtual void	realizePosition (const SimTK::State &state) const
	Perform computations that depend only on position-level state variables and computations performed in earlier stages (including time).
virtual void	realizeVelocity (const SimTK::State &state) const
	Perform computations that depend only on velocity-level state variables and computations performed in earlier stages (including position, and time).
virtual void	realizeDynamics (const SimTK::State &state) const
	Perform computations (typically forces) that may depend on dynamics-stage state variables, and on computations performed in earlier stages (including velocity, position, and time), but not on other forces, accelerations, constraint multipliers, or reaction forces.
virtual void	realizeAcceleration (const SimTK::State &state) const
	Perform computations that may depend on applied forces.
virtual void	realizeReport (const SimTK::State &state) const
	Perform computations that may depend on anything but are only used for reporting and cannot affect subsequent simulation behavior.
void	includeAsSubComponent (ModelComponent *aComponent)
	Include another ModelComponent as a Subcomponent of this ModelComponent.
void	addModelingOption (const std::string &optionName, int maxFlagValue) const
	Add a modeling option (integer flag stored in the State) for use by this ModelComponent.
void	addStateVariable (const std::string &stateVariableName, SimTK::Stage invalidatesStage=SimTK::Stage::Dynamics) const
	Add a continuous system state variable belonging to this ModelComponent, and assign a name by which to refer to it.
void	addDiscreteVariable (const std::string &discreteVariableName, SimTK::Stage invalidatesStage) const
	Add a system discrete variable belonging to this ModelComponent, give it a name by which it can be referenced, and declare the lowest Stage that should be invalidated if this variable's value is changed.
template<class T >
void	addCacheVariable (const std::string &cacheVariableName, const T &variablePrototype, SimTK::Stage dependsOnStage) const
	Add a state cache entry belonging to this ModelComponent to hold calculated values that must be automatically invalidated when certain state values change.
const int	getStateIndex (const std::string &name) const
	Get the index of a ModelComponent's continuous state variable in the Subsystem for allocations.
const SimTK::DiscreteVariableIndex	getDiscreteVariableIndex (const std::string &name) const
	Get the index of a ModelComponent's discrete variable in the Subsystem for allocations.
const SimTK::CacheEntryIndex	getCacheVariableIndex (const std::string &name) const
	Get the index of a ModelComponent's cache variable in the Subsystem for allocations.
Protected Member Functions inherited from OpenSim::Object
	Object ()
	The default constructor is only for use by constructors of derived types.
	Object (const std::string &fileName, bool aUpdateFromXMLNode=true) SWIG_DECLARE_EXCEPTION
	Constructor from a file, to be called from other constructors that take a file as input.
	Object (const Object &source)
	Copy constructor is invoked automatically by derived classes with default copy constructors; otherwise it must be invoked explicitly.
	Object (SimTK::Xml::Element &aElement)
	Construct the base class portion of an Object from a given Xml element that describes this Object.
template<class T >
PropertyIndex	addProperty (const std::string &name, const std::string &comment, const T &value)
	Define a new single-value property of known type T, with the given name, associated comment, and initial value.
template<class T >
PropertyIndex	addOptionalProperty (const std::string &name, const std::string &comment)
	Add an optional property, meaning it can contain either no value or a single value.
template<class T >
PropertyIndex	addOptionalProperty (const std::string &name, const std::string &comment, const T &value)
	Add an optional property, meaning it can contain either no value or a single value.
template<class T >
PropertyIndex	addListProperty (const std::string &name, const std::string &comment, int minSize, int maxSize)
	Define a new list-valued property of known type T, with the given name, associated comment, minimum (==0) and maximum (>0) allowable list lengths, and a zero-length initial value.
template<class T , template< class > class Container>
PropertyIndex	addListProperty (const std::string &name, const std::string &comment, int minSize, int maxSize, const Container< T > &valueList)
	Define a new list-valued property as above, but assigning an initial value via some templatized container class that supports size() and indexing.
PropertyIndex	getPropertyIndex (const std::string &name) const
	Look up a property by name and return its PropertyIndex if it is found.
template<class T >
PropertyIndex	getPropertyIndex () const
	Look up an unnamed property by the type of object it contains, and return its PropertyIndex if it is found.
void	updateFromXMLDocument ()
	Use this method only if you're deserializing from a file and the object is at the top level; that is, primarily in constructors that take a file name as input.
void	setDocument (XMLDocument *doc)
	Unconditionally set the XMLDocument associated with this object.
const XMLDocument *	getDocument () const
	Get a const pointer to the document (if any) associated with this object.
XMLDocument *	updDocument ()
	Get a writable pointer to the document (if any) associated with this object.

Additional Inherited Members
Static Public Member Functions inherited from OpenSim::Object
static void	registerType (const Object &defaultObject)
	Register an instance of a class; if the class is already registered it will be replaced.
static void	renameType (const std::string &oldTypeName, const std::string &newTypeName)
	Support versioning by associating the current Object type with an old name.
static const Object *	getDefaultInstanceOfType (const std::string &concreteClassName)
	Return a pointer to the default instance of the registered (concrete) Object whose class name is given, or NULL if the type is not registered.
template<class T >
static bool	isObjectTypeDerivedFrom (const std::string &concreteClassName)
	Return true if the given concrete object type represents a subclass of the template object type T, and thus could be referenced with a T*.
static Object *	newInstanceOfType (const std::string &concreteClassName)
	Create a new instance of the concrete Object type whose class name is given as concreteClassName.
static void	getRegisteredTypenames (Array< std::string > &typeNames)
	Retrieve all the typenames registered so far.
template<class T >
static void	getRegisteredObjectsOfGivenType (ArrayPtrs< T > &rArray)
	Return an array of pointers to the default instances of all registered (concrete) Object types that derive from a given Object-derived type that does not have to be concrete.
static void	PrintPropertyInfo (std::ostream &os, const std::string &classNameDotPropertyName)
	Dump formatted property information to a given output stream, useful for creating a "help" facility for registered objects.
static void	PrintPropertyInfo (std::ostream &os, const std::string &className, const std::string &propertyName)
	Same as the other signature but the class name and property name are provided as two separate strings.
static Object *	makeObjectFromFile (const std::string &fileName)
	Create an OpenSim object whose type is based on the tag at the root node of the XML file passed in.
static const std::string &	getClassName ()
	Return the name of this class as a string; i.e., "Object".
static void	setSerializeAllDefaults (bool shouldSerializeDefaults)
	Static function to control whether all registered objects and their properties are written to the defaults section of output files rather than only those values for which the default was explicitly overwritten when read in from an input file or set programmatically.
static bool	getSerializeAllDefaults ()
	Report the value of the "serialize all defaults" flag.
static bool	isKindOf (const char *type)
	Returns true if the passed-in string is "Object"; each Object-derived class defines a method of this name for its own class name.
static void	setDebugLevel (int newLevel)
	Set the debug level to get verbose output.
static int	getDebugLevel ()
	Get current setting of debug level.
static Object *	SafeCopy (const Object *aObject)
	Use the clone() method to duplicate the given object unless the pointer is null in which case null is returned.
static void	RegisterType (const Object &defaultObject)
	OBSOLETE alternate name for registerType().
static void	RenameType (const std::string &oldName, const std::string &newName)
	OBSOLETE alternate name for renameType().
Static Public Attributes inherited from OpenSim::Object
static const std::string	DEFAULT_NAME
	Name used for default objects when they are serialized.
Protected Attributes inherited from OpenSim::ModelComponent
Model *	_model
	The model this component belongs to.
Related Functions inherited from OpenSim::Object
#define	OpenSim_DECLARE_CONCRETE_OBJECT(ConcreteClass, SuperClass)
	Macro to be included as the first line of the class declaration for any non-templatized, concrete class that derives from OpenSim::Object.
#define	OpenSim_DECLARE_ABSTRACT_OBJECT(ConcreteClass, SuperClass)
	Macro to be included as the first line of the class declaration for any still-abstract class that derives from OpenSim::Object.
#define	OpenSim_DECLARE_CONCRETE_OBJECT_T(ConcreteClass, TArg, SuperClass)
	Macro to be included as the first line of the class declaration for any templatized, concrete class that derives from OpenSim::Object, like Set<T>.
#define	OpenSim_DECLARE_ABSTRACT_OBJECT_T(ConcreteClass, TArg, SuperClass)
	Macro to be included as the first line of the class declaration for any templatized, still-abstract class that derives from OpenSim::Object.

Detailed Description

This class represents a Probe which is designed to query a Vector of model values given system state.

This model quantity is specified as a SimTK::Vector by the pure virtual method computeProbeInputs(), which must be specified for each child Probe. In addition, the Probe model component interface allows operations to be performed on this value (specified by the property: probe_operation), and then have this result scaled (by the scalar property: 'scale_factor').

The data flow of the Probe is shown below:

===========================
|  SimTK::Vector          |       DEVELOPER NEEDS TO IMPLEMENT THIS
|  computeProbeInputs(s)  |
===========================
             |
             |
             |                    THIS FUNCTIONALITY BELOW IS
             |                    PROVIDED BY THE PROBE INTERFACE
|------------|---------------------------------------------------------|
|            V                                                         |
|   =========================         ======================           |
|   |  Apply the operation  |  ---->  |  Scale the output  |           |
|   |   'probe_operation'   |         |      'gain'        |           |
|   =========================         ======================           |
|                                               |                      |
|                                               V                      |
|                                     ========================         |  
|                                     |  SimTK::Vector       |         |
|                                     |  getProbeOutputs(s)  |---------------->
|                                     ========================         |
|                                    This method is called by the      |
|                                   ProbeReporter, or alternatively    |
|                                        by the API developer          |
|----------------------------------------------------------------------|

The model query is performed at Stage::Report, so that model values are up to date and is based on the specific Probe's overridden method computeProbeInputs(s). The final output of the probe is available by accessing getProbeOutputs(s). Note that all queries, operations, and scaling are performed by SimTK::Measures. Note also that to define a new child Probe class, three methods which are declared as pure virtual in this Probe abstract class need to be overridden:

• computeProbeInputs() — returns the input probe values (i.e., model queries).
• getNumProbeInputs() — returns the size of the vector of input probe values (i.e., model queries).
• getProbeOutputLabels() — returns the labels that correspond to each probe value.

Available probe operations:

• 'value' (default): returns the probe input value.
• 'integrate' : returns the integral of the probe input value.
• 'differentiate' : returns the derivative of the probe input value.
• 'minimum' : returns the minimum of the probe input value.
• 'minabs' : returns the absolute minimum of the probe input value (always positive).
• 'maximum' : returns the maximum of the probe input value.
• 'maxabs' : returns the absolute maximum of the probe input value (always positive).

The Probe interface differs from the Analysis interface in two fundamental ways:

• (1) Operations can be performed on probes (i.e., in addition to simply reporting a model value, model values (probe input values) may have operations performed on them such as integration and differentiation).

• (2) Analyses are not formally part of the model structure (i.e. they are not ModelComponents), and because of this, analysis results can not be accessed with the model and state value – they can only be accessed by file at the end of a simulation. Probes, on the other hand, are ModelComponents and therefore can be accessed at any time during a simulation from the API, and can also be used to compute model values that are fed back into ths system through via custom designed Controllers. Note that Probe values can also be reported to file at the end of a simulation by attaching a ProbeReporter analysis to the simulation.

Author

Tim Dorn

Constructor & Destructor Documentation

OpenSim::Probe::Probe

(

)

Member Function Documentation

void OpenSim::Probe::addToSystem ( SimTK::MultibodySystem &  system ) const

overrideprotectedvirtual

Concrete probes may override; be sure to invoke Super::addToSystem() at the beginning of the overriding method.

Reimplemented from OpenSim::ModelComponent.

virtual SimTK::Vector OpenSim::Probe::computeProbeInputs ( const SimTK::State &  state ) const

pure virtual

Computes the values of the probe inputs prior to any operation being performed.

This method must be overridden for each subclass Probe.

Parameters

state

System state from which value is computed.

Returns

The SimTK::Vector of Probe input values.

Implemented in OpenSim::Bhargava2004MuscleMetabolicsProbe, OpenSim::Umberger2010MuscleMetabolicsProbe, OpenSim::JointInternalPowerProbe, OpenSim::ActuatorPowerProbe, OpenSim::ActuatorForceProbe, OpenSim::SystemEnergyProbe, and OpenSim::MuscleActiveFiberPowerProbe.

void OpenSim::Probe::connectToModel ( Model &  model )

overrideprotectedvirtual

Concrete probes may override; be sure to invoke Super::connectToModel() at the beginning of the overriding method.

Reimplemented from OpenSim::ModelComponent.

Reimplemented in OpenSim::ActuatorPowerProbe, and OpenSim::ActuatorForceProbe.

double OpenSim::Probe::getGain

(

)

const

Return the gain to apply to the probe output.

SimTK::Vector OpenSim::Probe::getInitialConditions

(

)

const

Return the initial conditions (when the probe_operation is set to 'integrate').

int OpenSim::Probe::getNumInternalMeasureStates

(

)

const

Get the number of states in the underlying SimTK::Measure.

virtual int OpenSim::Probe::getNumProbeInputs ( ) const

pure virtual

Returns the number of probe inputs in the vector returned by computeProbeInputs().

This method must be overridden for each subclass Probe.

Returns

The SimTK::Vector of Probe input values.

Implemented in OpenSim::Bhargava2004MuscleMetabolicsProbe, OpenSim::Umberger2010MuscleMetabolicsProbe, OpenSim::JointInternalPowerProbe, OpenSim::ActuatorPowerProbe, OpenSim::ActuatorForceProbe, OpenSim::SystemEnergyProbe, and OpenSim::MuscleActiveFiberPowerProbe.

std::string OpenSim::Probe::getOperation

(

)

const

Return the operation being performed on the probe value.

virtual OpenSim::Array<std::string> OpenSim::Probe::getProbeOutputLabels ( ) const

pure virtual

Returns the column labels of the Probe values for reporting.

This method must be overridden for each subclass Probe to provide meaningful names to the probe outputs.

Returns

The Array<std::string> of Probe labels.

Implemented in OpenSim::Bhargava2004MuscleMetabolicsProbe, OpenSim::Umberger2010MuscleMetabolicsProbe, OpenSim::JointInternalPowerProbe, OpenSim::ActuatorPowerProbe, OpenSim::ActuatorForceProbe, OpenSim::SystemEnergyProbe, and OpenSim::MuscleActiveFiberPowerProbe.

SimTK::Vector OpenSim::Probe::getProbeOutputs

(

const SimTK::State &

state

)

const

Returns the values of the probe after the operation has been performed.

Parameters

state

System state from which value is computed.

Returns

The SimTK::Vector of probe output values.

bool OpenSim::Probe::isDisabled

(

)

const

Returns true if the Probe is disabled or false if the probe is enabled.

OpenSim::Probe::OpenSim_DECLARE_LIST_PROPERTY	(	initial_conditions_for_integration	,
		double	,
		"Array of initial conditions to be specified if the 'integrate' operation is ""selected. Note that the size of initial conditions must be the same size as ""the data being	integrated,
		otherwise an exception will be thrown."
	)

OpenSim::Probe::OpenSim_DECLARE_PROPERTY	(	isDisabled	,
		bool	,
		"Flag indicating whether the Probe is disabled or not."
	)

Enabled by default.

OpenSim::Probe::OpenSim_DECLARE_PROPERTY	(	probe_operation	,
		std::string	,
		"The operation to perform on the probe input value: ""'value'	no operation, just return the probe value,
		'integrate'	,
		""'differentiate'	,
		'minimum'	,
		'minabs'	,
		'maximum'	,
		'maxabs'."
	)

OpenSim::Probe::OpenSim_DECLARE_PROPERTY	(	gain	,
		double	,
		"Constant gain to scale the probe output by."
	)

void OpenSim::Probe::reset

(

SimTK::State &

s

)

Reset (initialize) the underlying Probe SimTK::Measure.

void OpenSim::Probe::setDisabled

(

bool

isDisabled

)

Set the Probe as disabled (true) or enabled (false).

void OpenSim::Probe::setGain

(

double

gain

)

Set the gain to apply to the probe output.

void OpenSim::Probe::setInitialConditions

(

SimTK::Vector

initial_conditions_for_integration

)

Set the initial conditions (when the probe_operation is set to 'integrate').

void OpenSim::Probe::setOperation

(

std::string

probe_operation

)

Set the operation being performed on the probe value.

---

The documentation for this class was generated from the following file:

• E:/Projects/OpenSimTrunk/OpenSim/Simulation/Model/Probe.h