Projekt_Grafika/dependencies/physx-4.1/include/PxMaterial.h

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//
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// Copyright (c) 2008-2019 NVIDIA Corporation. All rights reserved.
// Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved.
// Copyright (c) 2001-2004 NovodeX AG. All rights reserved.
#ifndef PX_PHYSICS_NXMATERIAL
#define PX_PHYSICS_NXMATERIAL
/** \addtogroup physics
@{
*/
#include "PxPhysXConfig.h"
#include "common/PxBase.h"
#if !PX_DOXYGEN
namespace physx
{
#endif
class PxScene;
/**
\brief Flags which control the behavior of a material.
@see PxMaterial
*/
struct PxMaterialFlag
{
enum Enum
{
/**
If this flag is set, friction computations are always skipped between shapes with this material and any other shape.
*/
eDISABLE_FRICTION = 1 << 0,
/**
The difference between "normal" and "strong" friction is that the strong friction feature
remembers the "friction error" between simulation steps. The friction is a force trying to
hold objects in place (or slow them down) and this is handled in the solver. But since the
solver is only an approximation, the result of the friction calculation can include a small
"error" - e.g. a box resting on a slope should not move at all if the static friction is in
action, but could slowly glide down the slope because of a small friction error in each
simulation step. The strong friction counter-acts this by remembering the small error and
taking it to account during the next simulation step.
However, in some cases the strong friction could cause problems, and this is why it is
possible to disable the strong friction feature by setting this flag. One example is
raycast vehicles, that are sliding fast across the surface, but still need a precise
steering behavior. It may be a good idea to reenable the strong friction when objects
are coming to a rest, to prevent them from slowly creeping down inclines.
Note: This flag only has an effect if the PxMaterialFlag::eDISABLE_FRICTION bit is 0.
*/
eDISABLE_STRONG_FRICTION = 1 << 1,
/**
This flag only has an effect if PxFrictionType::ePATCH friction model is used.
When using the patch friction model, up to 2 friction anchors are generated per patch. As the number of friction anchors
can be smaller than the number of contacts, the normal force is accumulated over all contacts and used to compute friction
for all anchors. Where there are more than 2 anchors, this can produce frictional behavior that is too strong (approximately 2x as strong
as analytical models suggest).
This flag causes the normal force to be distributed between the friction anchors such that the total amount of friction applied does not
exceed the analyical results.
*/
eIMPROVED_PATCH_FRICTION = 1 << 2
};
};
/**
\brief collection of set bits defined in PxMaterialFlag.
@see PxMaterialFlag
*/
typedef PxFlags<PxMaterialFlag::Enum,PxU16> PxMaterialFlags;
PX_FLAGS_OPERATORS(PxMaterialFlag::Enum,PxU16)
/**
\brief enumeration that determines the way in which two material properties will be combined to yield a friction or restitution coefficient for a collision.
When two actors come in contact with each other, they each have materials with various coefficients, but we only need a single set of coefficients for the pair.
Physics doesn't have any inherent combinations because the coefficients are determined empirically on a case by case
basis. However, simulating this with a pairwise lookup table is often impractical.
For this reason the following combine behaviors are available:
eAVERAGE
eMIN
eMULTIPLY
eMAX
The effective combine mode for the pair is maximum(material0.combineMode, material1.combineMode).
@see PxMaterial.setFrictionCombineMode() PxMaterial.getFrictionCombineMode() PxMaterial.setRestitutionCombineMode() PxMaterial.getFrictionCombineMode()
*/
struct PxCombineMode
{
enum Enum
{
eAVERAGE = 0, //!< Average: (a + b)/2
eMIN = 1, //!< Minimum: minimum(a,b)
eMULTIPLY = 2, //!< Multiply: a*b
eMAX = 3, //!< Maximum: maximum(a,b)
eN_VALUES = 4, //!< This is not a valid combine mode, it is a sentinel to denote the number of possible values. We assert that the variable's value is smaller than this.
ePAD_32 = 0x7fffffff //!< This is not a valid combine mode, it is to assure that the size of the enum type is big enough.
};
};
/**
\brief Material class to represent a set of surface properties.
@see PxPhysics.createMaterial
*/
class PxMaterial : public PxBase
{
public:
/**
\brief Decrements the reference count of a material and releases it if the new reference count is zero.
@see PxPhysics.createMaterial()
*/
virtual void release() = 0;
/**
\brief Returns the reference count of the material.
At creation, the reference count of the material is 1. Every shape referencing this material increments the
count by 1. When the reference count reaches 0, and only then, the material gets destroyed automatically.
\return the current reference count.
*/
virtual PxU32 getReferenceCount() const = 0;
/**
\brief Acquires a counted reference to a material.
This method increases the reference count of the material by 1. Decrement the reference count by calling release()
*/
virtual void acquireReference() = 0;
/**
\brief Sets the coefficient of dynamic friction.
The coefficient of dynamic friction should be in [0, PX_MAX_F32). If set to greater than staticFriction, the effective value of staticFriction will be increased to match.
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
\param[in] coef Coefficient of dynamic friction. <b>Range:</b> [0, PX_MAX_F32)
@see getDynamicFriction()
*/
virtual void setDynamicFriction(PxReal coef) = 0;
/**
\brief Retrieves the DynamicFriction value.
\return The coefficient of dynamic friction.
@see setDynamicFriction
*/
virtual PxReal getDynamicFriction() const = 0;
/**
\brief Sets the coefficient of static friction
The coefficient of static friction should be in the range [0, PX_MAX_F32)
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
\param[in] coef Coefficient of static friction. <b>Range:</b> [0, PX_MAX_F32)
@see getStaticFriction()
*/
virtual void setStaticFriction(PxReal coef) = 0;
/**
\brief Retrieves the coefficient of static friction.
\return The coefficient of static friction.
@see setStaticFriction
*/
virtual PxReal getStaticFriction() const = 0;
/**
\brief Sets the coefficient of restitution
A coefficient of 0 makes the object bounce as little as possible, higher values up to 1.0 result in more bounce.
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
\param[in] rest Coefficient of restitution. <b>Range:</b> [0,1]
@see getRestitution()
*/
virtual void setRestitution(PxReal rest) = 0;
/**
\brief Retrieves the coefficient of restitution.
See #setRestitution.
\return The coefficient of restitution.
@see setRestitution()
*/
virtual PxReal getRestitution() const = 0;
/**
\brief Raises or clears a particular material flag.
See the list of flags #PxMaterialFlag
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
\param[in] flag The PxMaterial flag to raise(set) or clear.
@see getFlags() PxMaterialFlag
*/
virtual void setFlag(PxMaterialFlag::Enum flag, bool) = 0;
/**
\brief sets all the material flags.
See the list of flags #PxMaterialFlag
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
*/
virtual void setFlags( PxMaterialFlags inFlags ) = 0;
/**
\brief Retrieves the flags. See #PxMaterialFlag.
\return The material flags.
@see PxMaterialFlag setFlags()
*/
virtual PxMaterialFlags getFlags() const = 0;
/**
\brief Sets the friction combine mode.
See the enum ::PxCombineMode .
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
\param[in] combMode Friction combine mode to set for this material. See #PxCombineMode.
@see PxCombineMode getFrictionCombineMode setStaticFriction() setDynamicFriction()
*/
virtual void setFrictionCombineMode(PxCombineMode::Enum combMode) = 0;
/**
\brief Retrieves the friction combine mode.
See #setFrictionCombineMode.
\return The friction combine mode for this material.
@see PxCombineMode setFrictionCombineMode()
*/
virtual PxCombineMode::Enum getFrictionCombineMode() const = 0;
/**
\brief Sets the restitution combine mode.
See the enum ::PxCombineMode .
<b>Sleeping:</b> Does <b>NOT</b> wake any actors which may be affected.
\param[in] combMode Restitution combine mode for this material. See #PxCombineMode.
@see PxCombineMode getRestitutionCombineMode() setRestitution()
*/
virtual void setRestitutionCombineMode(PxCombineMode::Enum combMode) = 0;
/**
\brief Retrieves the restitution combine mode.
See #setRestitutionCombineMode.
\return The coefficient of restitution combine mode for this material.
@see PxCombineMode setRestitutionCombineMode getRestitution()
*/
virtual PxCombineMode::Enum getRestitutionCombineMode() const = 0;
//public variables:
void* userData; //!< user can assign this to whatever, usually to create a 1:1 relationship with a user object.
virtual const char* getConcreteTypeName() const { return "PxMaterial"; }
protected:
PX_INLINE PxMaterial(PxType concreteType, PxBaseFlags baseFlags) : PxBase(concreteType, baseFlags), userData(NULL) {}
PX_INLINE PxMaterial(PxBaseFlags baseFlags) : PxBase(baseFlags) {}
virtual ~PxMaterial() {}
virtual bool isKindOf(const char* name) const { return !::strcmp("PxMaterial", name) || PxBase::isKindOf(name); }
};
#if !PX_DOXYGEN
} // namespace physx
#endif
/** @} */
#endif