This class serves as a serializable ActiveForceLengthCurve, commonly used to model the active element in muscle models. More...

Inheritance diagram for OpenSim::ActiveForceLengthCurve:

OpenSim Properties, Sockets, Outputs, Inputs
Properties (single-value)
double	min_norm_active_fiber_length
	"Normalized fiber length where the steep ascending limb starts" More...

double	transition_norm_fiber_length
	"Normalized fiber length where the steep ascending limb transitions to the shallow ascending limb" More...

double	max_norm_active_fiber_length
	"Normalized fiber length where the descending limb ends" More...

double	shallow_ascending_slope
	"Slope of the shallow ascending limb" More...

double	minimum_value
	"Minimum value of the active-force-length curve" More...

Public Member Functions
	ActiveForceLengthCurve ()
	The default constructor creates an active-force-length curve using the default property values and assigns a default name. More...

	ActiveForceLengthCurve (double minActiveNormFiberLength, double transitionNormFiberLength, double maxActiveNormFiberLength, double shallowAscendingSlope, double minimumValue)
	Constructs an active-force-length curve using the provided parameters and assigns a default name. More...

double	getMinActiveFiberLength () const

double	getTransitionFiberLength () const

double	getMaxActiveFiberLength () const

double	getShallowAscendingSlope () const

double	getMinValue () const

void	setActiveFiberLengths (double minActiveNormFiberLength, double transitionNormFiberLength, double maxActiveNormFiberLength, double shallowAscendingSlope)
	More...

void	setMinValue (double minimumValue)
	More...

double	calcValue (const SimTK::Vector &x) const override
	Implement the generic OpenSim::Function interface. More...

double	calcValue (double normFiberLength) const
	Evaluates the active-force-length curve at a normalized fiber length of 'normFiberLength'. More...

double	calcDerivative (double normFiberLength, int order) const
	Calculates the derivative of the active-force-length multiplier with respect to the normalized fiber length. More...

double	calcDerivative (const std::vector< int > &derivComponents, const SimTK::Vector &x) const override
	If possible, use the simpler overload above. More...

SimTK::Vec2	getCurveDomain () const
	Returns a SimTK::Vec2 containing the lower (0th element) and upper (1st element) bounds on the domain of the curve. More...

void	printMuscleCurveToCSVFile (const std::string &path)
	Generates a .csv file with a name that matches the curve name (e.g., "bicepsfemoris_ActiveForceLengthCurve.csv"). More...

void	ensureCurveUpToDate ()

Property-related functions
const double &	get_min_norm_active_fiber_length () const
	Get the value of the min_norm_active_fiber_length property. More...

double &	upd_min_norm_active_fiber_length ()
	Get a writable reference to the min_norm_active_fiber_length property. More...

void	set_min_norm_active_fiber_length (const double &value)
	Set the value of the min_norm_active_fiber_length property. More...

const double &	get_transition_norm_fiber_length () const
	Get the value of the transition_norm_fiber_length property. More...

double &	upd_transition_norm_fiber_length ()
	Get a writable reference to the transition_norm_fiber_length property. More...

void	set_transition_norm_fiber_length (const double &value)
	Set the value of the transition_norm_fiber_length property. More...

const double &	get_max_norm_active_fiber_length () const
	Get the value of the max_norm_active_fiber_length property. More...

double &	upd_max_norm_active_fiber_length ()
	Get a writable reference to the max_norm_active_fiber_length property. More...

void	set_max_norm_active_fiber_length (const double &value)
	Set the value of the max_norm_active_fiber_length property. More...

const double &	get_shallow_ascending_slope () const
	Get the value of the shallow_ascending_slope property. More...

double &	upd_shallow_ascending_slope ()
	Get a writable reference to the shallow_ascending_slope property. More...

void	set_shallow_ascending_slope (const double &value)
	Set the value of the shallow_ascending_slope property. More...

const double &	get_minimum_value () const
	Get the value of the minimum_value property. More...

double &	upd_minimum_value ()
	Get a writable reference to the minimum_value property. More...

void	set_minimum_value (const double &value)
	Set the value of the minimum_value property. More...

Public Member Functions inherited from OpenSim::Function
	Function ()

	Function (const Function &aFunction)

virtual	~Function ()

virtual void	init (Function *aFunction)

Function &	operator= (const Function &aFunction)

virtual int	getArgumentSize () const
	Get the number of components expected in the input vector. More...

virtual int	getMaxDerivativeOrder () const
	Get the maximum derivative order this Function object can calculate. More...

Public Member Functions inherited from OpenSim::Object
virtual	~Object ()
	Virtual destructor for cleanup. More...

bool	isEqualTo (const Object &aObject) const
	Equality operator wrapper for use from languages not supporting operator overloading. More...

Object &	operator= (const Object &aObject)
	Copy assignment copies he base class fields, including the properties. More...

virtual bool	operator== (const Object &aObject) const
	Determine if two objects are equal. More...

virtual bool	operator< (const Object &aObject) const
	Provide an ordering for objects so they can be put in sorted containers. More...

void	setName (const std::string &name)
	Set the name of the Object. More...

const std::string &	getName () const
	Get the name of this Object. More...

void	setDescription (const std::string &description)
	Set description, a one-liner summary. More...

const std::string &	getDescription () const
	Get description, a one-liner summary. More...

const std::string &	getAuthors () const
	Get Authors of this Object. More...

void	setAuthors (const std::string &authors)
	Set Authors of this object. More...

const std::string &	getReferences () const
	Get references or publications to cite if using this object. More...

void	setReferences (const std::string &references)
	Set references or publications to cite if using this object. More...

int	getNumProperties () const
	Determine how many properties are stored with this Object. More...

const AbstractProperty &	getPropertyByIndex (int propertyIndex) const
	Get a const reference to a property by its index number, returned as an AbstractProperty. More...

AbstractProperty &	updPropertyByIndex (int propertyIndex)
	Get a writable reference to a property by its index number, returned as an AbstractProperty. More...

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. More...

const AbstractProperty &	getPropertyByName (const std::string &name) const
	Get a const reference to a property by its name, returned as an AbstractProperty. More...

AbstractProperty &	updPropertyByName (const std::string &name)
	Get a writable reference to a property by its name, returned as an AbstractProperty. More...

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. More...

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. More...

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. More...

bool	isObjectUpToDateWithProperties () const
	Returns `true` if no property's value has changed since the last time setObjectIsUpToDateWithProperties() was called. More...

void	readObjectFromXMLNodeOrFile (SimTK::Xml::Element &objectElement, int versionNumber)
	We're given an XML element from which we are to populate this Object. More...

virtual void	updateFromXMLNode (SimTK::Xml::Element &objectElement, int versionNumber)
	Use this method to deserialize an object from a SimTK::Xml::Element. More...

void	updateXMLNode (SimTK::Xml::Element &parent, const AbstractProperty *prop=nullptr) const
	Serialize this object into the XML node that represents it. More...

bool	getInlined () const
	Inlined means an in-memory Object that is not associated with an XMLDocument. More...

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. More...

std::string	getDocumentFileName () const
	If there is a document associated with this object then return the file name maintained by the document. More...

int	getDocumentFileVersion () const
	If there is a document associated with this object then return its version number. More...

void	setAllPropertiesUseDefault (bool aUseDefault)

bool	print (const std::string &fileName) const
	Write this Object into an XML file of the given name; conventionally the suffix to use is ".osim". More...

std::string	dump () const
	dump the XML representation of this Object into an std::string and return it. More...

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. More...

const std::string &	toString () const
	Wrapper to be used on Java side to display objects in tree; this returns just the object's name. More...

PropertySet &	getPropertySet ()
	OBSOLETE: Get a reference to the PropertySet maintained by the Object. More...

const PropertySet &	getPropertySet () const

Auto-generated functions
static ActiveForceLengthCurve *	safeDownCast (OpenSim::Object *obj)
	For use in MATLAB and Python to access the concrete class. More...

static const std::string &	getClassName ()
	This returns "ActiveForceLengthCurve". More...

ActiveForceLengthCurve *	clone () const override
	Create a new heap-allocated copy of the concrete object to which this Object refers. More...

const std::string &	getConcreteClassName () const override
	Returns the class name of the concrete Object-derived class of the actual object referenced by this Object, as a string. More...

Additional Inherited Members
Static Public Member Functions inherited from OpenSim::Function
static Function *	makeFunctionOfType (Function *aFunction, const std::string &aNewTypeName)

static Function *	safeDownCast (OpenSim::Object *obj)
	For use in MATLAB and Python to access the concrete class. More...

static const std::string &	getClassName ()
	This returns "Function". More...

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. More...

static void	renameType (const std::string &oldTypeName, const std::string &newTypeName)
	Support versioning by associating the current Object type with an old name. More...

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. More...

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*. More...

static Object *	newInstanceOfType (const std::string &concreteClassName)
	Create a new instance of the concrete Object type whose class name is given as concreteClassName. More...

static void	getRegisteredTypenames (Array< std::string > &typeNames)
	Retrieve all the typenames registered so far. More...

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. More...

static bool	PrintPropertyInfo (std::ostream &os, const std::string &classNameDotPropertyName, bool printFlagInfo=true)
	Dump formatted property information to a given output stream, useful for creating a "help" facility for registered objects. More...

static bool	PrintPropertyInfo (std::ostream &os, const std::string &className, const std::string &propertyName, bool printFlagInfo=true)
	Same as the other signature but the class name and property name are provided as two separate strings. More...

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. More...

static const std::string &	getClassName ()
	Return the name of this class as a string; i.e., "Object". More...

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. More...

static bool	getSerializeAllDefaults ()
	Report the value of the "serialize all defaults" flag. More...

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. More...

static void	setDebugLevel (int newLevel)
	Set the amount of logging output. More...

static int	getDebugLevel ()
	Get the current setting of debug level. More...

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. More...

static void	RegisterType (const Object &defaultObject)
	OBSOLETE alternate name for registerType(). More...

static void	RenameType (const std::string &oldName, const std::string &newName)
	OBSOLETE alternate name for renameType(). More...

Detailed Description

This class serves as a serializable ActiveForceLengthCurve, commonly used to model the active element in muscle models.

The active-force-length curve is dimensionless: force is normalized to maximum isometric force and length is normalized to resting fiber length. Five properties are used to construct a curve:

Parameters

minActiveNormFiberLength	The normalized fiber length where the steep ascending limb of the active-force-length curve transitions to the minimum value and has first and second derivatives of 0.
transitionNormFiberLength	The normalized fiber length where the steep ascending limb transitions to the shallow ascending limb.
maxActiveNormFiberLength	The normalized fiber length where the descending limb transitions to the minimum value and has first and second derivatives of 0.
shallowAscendingSlope	The slope of the shallow ascending limb.
minimumValue	The minimum value of the active-force-length curve. If you are using an equilibrium model, this value must be greater than 0, as a value of 0 will cause a singularity in the muscle dynamic equations.

Conditions

0 < minActiveNormFiberLength < transitionNormFiberLength < 1 < maxActiveNormFiberLength
0 <= shallowAscendingSlope < 1/(1-transitionNormFiberLength)
0 <= minimumValue

Default Parameter Values The default parameters have been chosen so that the resulting curve closely matches the active-force-length curve for human sarcomeres, as documented by Nigg and Herzog (1994). The descending limb has been adjusted to match the in-vitro human fiber data reported by Gollapudi and Lin (2009). The default shoulder value is set to 0.1. This relatively large value is used to ensure that muscle model dynamic equations with an active-force-length singularity do not take an unreasonable amount of time to simulate (simulation time grows as the value of the active-force-length curve approaches 0). Muscle model formulations that do not have this singularity (e.g., the Millard2012AccelerationMuscle model) can use a minimumValue of 0.

minActiveNormFiberLength ..... 0.4441
transitionNormFiberLength .... 0.73
maxActiveNormFiberLength ..... 1.8123
shallowAscendingSlope ........ 0.8616
minimumValue ................. 0.1

Example

ActiveForceLengthCurve falCurve1(0.44, 0.73, 1.8, 0.86, 0.1);
double falVal  = falCurve1.calcValue(1.0);
double dfalVal = falCurve1.calcDerivative(1.0, 1);

Note that this object should be updated through the set methods provided. These set methods will take care of rebuilding the curve correctly. If you modify the properties directly, the curve will not be rebuilt, and upon calling a function like calcValue, calcDerivative, or printCurveToCSVFile, an exception will be thrown because the curve is out-of-date with its properties.

References

Gollapudi, S.K., Lin, D.C. (2009) Experimental determination of sarcomere force-length relationship in type-I human skeletal muscle fibers. Journal of Biomechanics 42(13), 2011–2016.
Nigg, B.M., Herzog, W. Biomechanics of the Musculo-skeletal System. Wiley, 1994.

Author: Matt Millard

Constructor & Destructor Documentation

◆ ActiveForceLengthCurve() [1/2]

OpenSim::ActiveForceLengthCurve::ActiveForceLengthCurve ( )

The default constructor creates an active-force-length curve using the default property values and assigns a default name.

◆ ActiveForceLengthCurve() [2/2]

OpenSim::ActiveForceLengthCurve::ActiveForceLengthCurve	(	double	minActiveNormFiberLength,
		double	transitionNormFiberLength,
		double	maxActiveNormFiberLength,
		double	shallowAscendingSlope,
		double	minimumValue
	)

Constructs an active-force-length curve using the provided parameters and assigns a default name.

Member Function Documentation

◆ calcDerivative() [1/2]

double OpenSim::ActiveForceLengthCurve::calcDerivative	(	double	normFiberLength,
		int	order
	)		const

Calculates the derivative of the active-force-length multiplier with respect to the normalized fiber length.

Parameters

normFiberLength	The normalized length of the muscle fiber.
order	The order of the derivative. Only values of 0, 1, and 2 are acceptable.

Returns: The derivative of the active-force-length curve with respect to the normalized fiber length.

◆ calcDerivative() [2/2]

double OpenSim::ActiveForceLengthCurve::calcDerivative	(	const std::vector< int > &	derivComponents,
		const SimTK::Vector &	x
	)		const

overridevirtual

If possible, use the simpler overload above.

Reimplemented from OpenSim::Function.

◆ calcValue() [1/2]

double OpenSim::ActiveForceLengthCurve::calcValue ( const SimTK::Vector & x ) const

inlineoverridevirtual

Implement the generic OpenSim::Function interface.

Reimplemented from OpenSim::Function.

◆ calcValue() [2/2]

double OpenSim::ActiveForceLengthCurve::calcValue ( double normFiberLength ) const

Evaluates the active-force-length curve at a normalized fiber length of 'normFiberLength'.

◆ clone()

ActiveForceLengthCurve* OpenSim::ActiveForceLengthCurve::clone ( ) const

inlineoverridevirtual

Create a new heap-allocated copy of the concrete object to which this Object refers.

It is up to the caller to delete the returned object when no longer needed. Every concrete object deriving from Object implements this pure virtual method automatically, via the declaration macro it invokes (e.g., OpenSim_DECLARE_CONCRETE_OBJECT()). Note that the concrete class overrides modify the return type to be a pointer to the concrete object; that still overrides the base class method because the return type is covariant with (that is, derives from) Object.

Implements OpenSim::Function.

◆ ensureCurveUpToDate()

void OpenSim::ActiveForceLengthCurve::ensureCurveUpToDate ( )

◆ get_max_norm_active_fiber_length()

const double& OpenSim::ActiveForceLengthCurve::get_max_norm_active_fiber_length ( ) const

inline

Get the value of the max_norm_active_fiber_length property.

◆ get_min_norm_active_fiber_length()

const double& OpenSim::ActiveForceLengthCurve::get_min_norm_active_fiber_length ( ) const

inline

Get the value of the min_norm_active_fiber_length property.

◆ get_minimum_value()

const double& OpenSim::ActiveForceLengthCurve::get_minimum_value ( ) const

inline

Get the value of the minimum_value property.

◆ get_shallow_ascending_slope()

const double& OpenSim::ActiveForceLengthCurve::get_shallow_ascending_slope ( ) const

inline

Get the value of the shallow_ascending_slope property.

◆ get_transition_norm_fiber_length()

const double& OpenSim::ActiveForceLengthCurve::get_transition_norm_fiber_length ( ) const

inline

Get the value of the transition_norm_fiber_length property.

◆ getClassName()

static const std::string& OpenSim::ActiveForceLengthCurve::getClassName ( )

inlinestatic

This returns "ActiveForceLengthCurve".

See getConcreteClassName() if you want the class name of the underlying concrete object instead.

◆ getConcreteClassName()

const std::string& OpenSim::ActiveForceLengthCurve::getConcreteClassName ( ) const

inlineoverridevirtual

Returns the class name of the concrete Object-derived class of the actual object referenced by this Object, as a string.

This is the string that is used as the tag for this concrete object in an XML file. Every concrete class derived from Object automatically overrides this method via the declaration macro it uses. See getClassName() to get the class name of the referencing (possibly abstract) class rather than the concrete object.

See also: getClassName()

Implements OpenSim::Function.

◆ getCurveDomain()

SimTK::Vec2 OpenSim::ActiveForceLengthCurve::getCurveDomain ( ) const

Returns a SimTK::Vec2 containing the lower (0th element) and upper (1st element) bounds on the domain of the curve.

Outside this domain, the curve is approximated using linear extrapolation.

Returns: The minimum and maximum value of the domain, x, of the curve y(x). Within this range, y(x) is a curve; outside this range, the function y(x) is a C2-continuous linear extrapolation.

◆ getMaxActiveFiberLength()

double OpenSim::ActiveForceLengthCurve::getMaxActiveFiberLength ( ) const

Returns: The normalized fiber length where the descending limb of the active-force-length curve transitions to the minimum activation value and simultaneously achieves first and second derivatives of 0.

◆ getMinActiveFiberLength()

double OpenSim::ActiveForceLengthCurve::getMinActiveFiberLength ( ) const

Returns: The normalized fiber length where the steep ascending limb of the active-force-length curve transitions to the minimum activation value and simultaneously achieves a first and second derivative of 0.

◆ getMinValue()

double OpenSim::ActiveForceLengthCurve::getMinValue ( ) const

Returns: The minimum active-force-length value permitted in the simulation. This value must be non-zero for an equilibrium model.

◆ getShallowAscendingSlope()

double OpenSim::ActiveForceLengthCurve::getShallowAscendingSlope ( ) const

Returns: The slope of the shallow ascending limb (d active_force_length / d normalized_fiber_length).

◆ getTransitionFiberLength()

double OpenSim::ActiveForceLengthCurve::getTransitionFiberLength ( ) const

Returns: The normalized fiber length where the steep ascending limb of the active-force-length curve transitions to the shallow ascending limb.

◆ printMuscleCurveToCSVFile()

void OpenSim::ActiveForceLengthCurve::printMuscleCurveToCSVFile ( const std::string & path )

Generates a .csv file with a name that matches the curve name (e.g., "bicepsfemoris_ActiveForceLengthCurve.csv").

This function is not const to permit the curve to be rebuilt if it is out-of-date with its properties.

Parameters

path	The full destination path. Note that forward slashes ('/') must be used and there should not be a slash after the last folder.

The file will contain the following data:

column: 1 | 2 |     3 |       4
  data: x | y | dy/dx | d2y/dx2

Samples will be taken from the linear extrapolation region (the region less than minActiveNormFiberLength), through the curve, out to the other linear extrapolation region (the region greater than maxActiveNormFiberLength). The width of each linear extrapolation region is 10% of the curve domain, or 0.1*(maxActiveNormFiberLength-minActiveNormFiberLength). The curve is sampled quite densely: the active-force-length .csv file will have 500+20 rows.

Example To read the .csv file into Matlab, you need to set csvread to ignore the header row. Since csvread is 0-indexed, the following example will begin reading the .csv file from the first column of the second row:

data = csvread('bicepsfemoris_ActiveForceLengthCurve.csv', 1, 0);

◆ safeDownCast()

static ActiveForceLengthCurve* OpenSim::ActiveForceLengthCurve::safeDownCast ( OpenSim::Object * obj )

inlinestatic

For use in MATLAB and Python to access the concrete class.

Example: cObj = ActiveForceLengthCurve.safeDownCast(obj). This is equivalent to dynamic_cast<ActiveForceLengthCurve*>(obj) in C++.

◆ set_max_norm_active_fiber_length()

void OpenSim::ActiveForceLengthCurve::set_max_norm_active_fiber_length ( const double & value )

inline

Set the value of the max_norm_active_fiber_length property.

◆ set_min_norm_active_fiber_length()

void OpenSim::ActiveForceLengthCurve::set_min_norm_active_fiber_length ( const double & value )

inline

Set the value of the min_norm_active_fiber_length property.

◆ set_minimum_value()

void OpenSim::ActiveForceLengthCurve::set_minimum_value ( const double & value )

inline

Set the value of the minimum_value property.

◆ set_shallow_ascending_slope()

void OpenSim::ActiveForceLengthCurve::set_shallow_ascending_slope ( const double & value )

inline

Set the value of the shallow_ascending_slope property.

◆ set_transition_norm_fiber_length()

void OpenSim::ActiveForceLengthCurve::set_transition_norm_fiber_length ( const double & value )

inline

Set the value of the transition_norm_fiber_length property.

◆ setActiveFiberLengths()

void OpenSim::ActiveForceLengthCurve::setActiveFiberLengths	(	double	minActiveNormFiberLength,
		double	transitionNormFiberLength,
		double	maxActiveNormFiberLength,
		double	shallowAscendingSlope
	)

Parameters

minActiveNormFiberLength	The normalized fiber length where the steep ascending limb of the active-force-length curve transitions to the minimum value and has first and second derivatives of 0.
transitionNormFiberLength	The normalized fiber length where the steep ascending limb transitions to the shallow ascending limb.
maxActiveNormFiberLength	The normalized fiber length where the descending limb transitions to the minimum value and has first and second derivatives of 0.
shallowAscendingSlope	The slope of the shallow ascending limb.

Conditions

0 < minActiveNormFiberLength < transitionNormFiberLength < 1 < maxActiveNormFiberLength
0 <= shallowAscendingSlope < 1/(1-transitionNormFiberLength)

◆ setMinValue()

void OpenSim::ActiveForceLengthCurve::setMinValue ( double minimumValue )

Parameters

minimumValue The minimum value of the active-force-length curve. If you are using an equilibrium model, this value must be greater than 0, as a value of 0 will cause a singularity in the muscle dynamic equations.

◆ upd_max_norm_active_fiber_length()

double& OpenSim::ActiveForceLengthCurve::upd_max_norm_active_fiber_length ( )

inline

Get a writable reference to the max_norm_active_fiber_length property.

◆ upd_min_norm_active_fiber_length()

double& OpenSim::ActiveForceLengthCurve::upd_min_norm_active_fiber_length ( )

inline

Get a writable reference to the min_norm_active_fiber_length property.

◆ upd_minimum_value()

double& OpenSim::ActiveForceLengthCurve::upd_minimum_value ( )

inline

Get a writable reference to the minimum_value property.

◆ upd_shallow_ascending_slope()

double& OpenSim::ActiveForceLengthCurve::upd_shallow_ascending_slope ( )

inline

Get a writable reference to the shallow_ascending_slope property.

◆ upd_transition_norm_fiber_length()

double& OpenSim::ActiveForceLengthCurve::upd_transition_norm_fiber_length ( )

inline

Get a writable reference to the transition_norm_fiber_length property.

OpenSim Property, Socket, Output, Input Documentation

◆ max_norm_active_fiber_length

double OpenSim::ActiveForceLengthCurve::max_norm_active_fiber_length

"Normalized fiber length where the descending limb ends"

This property appears in XML files under the tag <max_norm_active_fiber_length>. This property was generated with the OpenSim_DECLARE_PROPERTY macro; see Property to learn about the property system.

See also: get_max_norm_active_fiber_length(), upd_max_norm_active_fiber_length(), set_max_norm_active_fiber_length()

◆ min_norm_active_fiber_length

double OpenSim::ActiveForceLengthCurve::min_norm_active_fiber_length

"Normalized fiber length where the steep ascending limb starts"

This property appears in XML files under the tag <min_norm_active_fiber_length>. This property was generated with the OpenSim_DECLARE_PROPERTY macro; see Property to learn about the property system.

See also: get_min_norm_active_fiber_length(), upd_min_norm_active_fiber_length(), set_min_norm_active_fiber_length()

◆ minimum_value

double OpenSim::ActiveForceLengthCurve::minimum_value

"Minimum value of the active-force-length curve"

This property appears in XML files under the tag <minimum_value>. This property was generated with the OpenSim_DECLARE_PROPERTY macro; see Property to learn about the property system.

See also: get_minimum_value(), upd_minimum_value(), set_minimum_value()

◆ shallow_ascending_slope

double OpenSim::ActiveForceLengthCurve::shallow_ascending_slope

"Slope of the shallow ascending limb"

This property appears in XML files under the tag <shallow_ascending_slope>. This property was generated with the OpenSim_DECLARE_PROPERTY macro; see Property to learn about the property system.

See also: get_shallow_ascending_slope(), upd_shallow_ascending_slope(), set_shallow_ascending_slope()

◆ transition_norm_fiber_length

double OpenSim::ActiveForceLengthCurve::transition_norm_fiber_length

"Normalized fiber length where the steep ascending limb transitions to the shallow ascending limb"

This property appears in XML files under the tag <transition_norm_fiber_length>. This property was generated with the OpenSim_DECLARE_PROPERTY macro; see Property to learn about the property system.

See also: get_transition_norm_fiber_length(), upd_transition_norm_fiber_length(), set_transition_norm_fiber_length()

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

OpenSim/Actuators/ActiveForceLengthCurve.h

OpenSim Properties, Sockets, Outputs, Inputs

Public Member Functions

Auto-generated functions

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ ActiveForceLengthCurve() [1/2]

◆ ActiveForceLengthCurve() [2/2]

Member Function Documentation

◆ calcDerivative() [1/2]

◆ calcDerivative() [2/2]

◆ calcValue() [1/2]

◆ calcValue() [2/2]

◆ clone()

◆ ensureCurveUpToDate()

◆ get_max_norm_active_fiber_length()

◆ get_min_norm_active_fiber_length()

◆ get_minimum_value()

◆ get_shallow_ascending_slope()

◆ get_transition_norm_fiber_length()

◆ getClassName()

◆ getConcreteClassName()

◆ getCurveDomain()

◆ getMaxActiveFiberLength()

◆ getMinActiveFiberLength()

◆ getMinValue()

◆ getShallowAscendingSlope()

◆ getTransitionFiberLength()

◆ printMuscleCurveToCSVFile()

◆ safeDownCast()

◆ set_max_norm_active_fiber_length()

◆ set_min_norm_active_fiber_length()

◆ set_minimum_value()

◆ set_shallow_ascending_slope()

◆ set_transition_norm_fiber_length()

◆ setActiveFiberLengths()

◆ setMinValue()

◆ upd_max_norm_active_fiber_length()

◆ upd_min_norm_active_fiber_length()

◆ upd_minimum_value()

◆ upd_shallow_ascending_slope()

◆ upd_transition_norm_fiber_length()

OpenSim Property, Socket, Output, Input Documentation

◆ max_norm_active_fiber_length

◆ min_norm_active_fiber_length

◆ minimum_value

◆ shallow_ascending_slope

◆ transition_norm_fiber_length