PxFEMClothMaterial

Defined in include/PxFEMClothMaterial.h

Inheritance Relationships

Base Type

public PxFEMMaterial (PxFEMMaterial)

class PxFEMClothMaterial : public PxFEMMaterial 

Material class to represent a set of FEM material properties.

See also

PxPhysics.createFEMClothMaterial

Public Functions

virtual void setThickness(PxReal thickness) = 0

Sets material thickness.

See also

getThickness

Parameters: thickness – [in] Material thickness.

virtual PxReal getThickness() const = 0

Retrieves the material thickness.

See also

setDamping()

Returns: thickness.

virtual void setElasticityDamping(PxReal damping) = 0

Sets the elasticity damping for the internal cloth solver.

See also

getElasticityDamping()

Parameters: damping – [in] The elasticity damping term. Range: [0.0, Inf)

virtual PxReal getElasticityDamping() const = 0

Retrieves the elasticity damping term.

See also

setElasticityDamping()

Returns: The elasticity damping term.

virtual void setBendingDamping(PxReal damping) = 0

Sets the bending coefficient for bending constraints.

See also

getBendingDamping()

Parameters: damping – [in] The bending coefficient. Range: [0.0, Inf)

virtual PxReal getBendingDamping() const = 0

Retrieves the bending coefficient for bending constraints.

See also

setBendingDamping()

Returns: The bending coefficient.

inline virtual const char *getConcreteTypeName() const

Returns string name of dynamic type.

Returns: Class name of most derived type of this object.

virtual void setYoungsModulus(PxReal young) = 0

Sets young’s modulus which defines the body’s stiffness.

See also

getYoungsModulus()

Parameters: young – [in] Young’s modulus. Range: [0, PX_MAX_F32)

virtual PxReal getYoungsModulus() const = 0

Retrieves the young’s modulus value.

See also

setYoungsModulus()

Returns: The young’s modulus value.

virtual void setPoissons(PxReal poisson) = 0

Sets the Poisson’s ratio which defines the body’s volume preservation.

Completely incompressible materials have a poisson ratio of 0.5. Its value should not be set to exactly 0.5 because this leads to numerical problems.

See also

getPoissons()

Parameters: poisson – [in] Poisson’s ratio. Range: [0, 0.5)

virtual PxReal getPoissons() const = 0

Retrieves the Poisson’s ratio.

See also

setPoissons()

Returns: The Poisson’s ratio.

virtual void setDynamicFriction(PxReal dynamicFriction) = 0

Sets the dynamic friction value which defines the strength of resistance when two objects slide relative to each other while in contact.

See also

getDynamicFriction()

Parameters: dynamicFriction – [in] The dynamic friction value. Range: [0, PX_MAX_F32)

virtual PxReal getDynamicFriction() const = 0

Retrieves the dynamic friction value.

See also

setDynamicFriction()

Returns: The dynamic friction value

virtual void release() = 0: Decrements the reference count of the object and releases it if the new reference count is zero.

virtual PxU32 getReferenceCount() const = 0

Returns the reference count of the object.

At creation, the reference count of the object is 1. Every other object referencing this object increments the count by 1. When the reference count reaches 0, and only then, the object gets destroyed automatically.

Returns: the current reference count.

virtual void acquireReference() = 0

Acquires a counted reference to this object.

This method increases the reference count of the object by 1. Decrement the reference count by calling release()

template<class T> inline T *is()

template<class T> inline const T *is() const

inline PxType getConcreteType() const

Returns concrete type of object.

See also

PxConcreteType

Returns: PxConcreteType::Enum of serialized object

inline void setBaseFlag(PxBaseFlag::Enum flag, bool value)

Set PxBaseFlag

Parameters

flag – [in] The flag to be set
value – [in] The flags new value

inline void setBaseFlags(PxBaseFlags inFlags)

Set PxBaseFlags

See also

PxBaseFlags

Parameters: inFlags – [in] The flags to be set

inline PxBaseFlags getBaseFlags() const

Returns PxBaseFlags.

See also

PxBaseFlags

Returns: PxBaseFlags

inline virtual bool isReleasable() const

Whether the object is subordinate.

A class is subordinate, if it can only be instantiated in the context of another class.

See also

PxSerialization::isSerializable

Returns: Whether the class is subordinate

Public Members

void *userData: user can assign this to whatever, usually to create a 1:1 relationship with a user object.

Protected Functions

inline PxFEMClothMaterial(PxType concreteType, PxBaseFlags baseFlags)

inline PxFEMClothMaterial(PxBaseFlags baseFlags)

inline virtual ~PxFEMClothMaterial()

inline virtual bool isKindOf(const char *name) const: Returns whether a given type name matches with the type of this instance.

inline virtual void onRefCountZero()

template<class T> inline bool typeMatch() const

Protected Attributes

PxType mConcreteType

PxBaseFlags mBaseFlags

PxU32 mBuiltInRefCount