Panda3D
Public Member Functions | Static Public Member Functions | List of all members
PhysxMaterial Class Reference

A class for describing a shape's surface properties. More...

#include "physxMaterial.h"

Inheritance diagram for PhysxMaterial:
PhysxObject PhysxEnums TypedReferenceCount TypedObject ReferenceCount MemoryBase MemoryBase

Public Member Functions

virtual TypeHandle force_init_type ()
 
LVector3f get_dir_of_anisotropy () const
 Returns the direction of anisotropy value. More...
 
float get_dynamic_friction () const
 Returns the DynamicFriction value. More...
 
float get_dynamic_friction_v () const
 Returns the dynamic friction coefficient for the V direction. More...
 
bool get_flag (PhysxMaterialFlag flag) const
 Returns the value of a single flag. More...
 
PhysxCombineMode get_friction_combine_mode () const
 Returns the friction combine mode. More...
 
unsigned short get_material_index () const
 Returns the material index for this material. More...
 
float get_restitution () const
 Returns the coefficient of restitution. More...
 
PhysxCombineMode get_restitution_combine_mode () const
 Returns the restitution combine mode. More...
 
PhysxSceneget_scene () const
 Returns the scene that owns this material. More...
 
float get_static_friction () const
 Returns the coefficient of static friction. More...
 
float get_static_friction_v () const
 Returns the static friction coefficient for the V direction. More...
 
virtual TypeHandle get_type () const
 
void link (NxMaterial *ptr)
 
void load_from_desc (const PhysxMaterialDesc &materialDesc)
 Loads the entire state of the material from a descriptor with a single call. More...
 
void ls () const
 
void ls (std::ostream &out, int indent_level=0) const
 
NxMaterial * ptr () const
 
void release ()
 
void save_to_desc (PhysxMaterialDesc &materialDesc) const
 Saves the state of the material object to a descriptor. More...
 
void set_dir_of_anisotropy (const LVector3f dir)
 Sets the shape space direction (unit vector) of anisotropy. More...
 
void set_dynamic_friction (float coef)
 Sets the coefficient of dynamic friction. More...
 
void set_dynamic_friction_v (float coef)
 Sets the dynamic friction coefficient along the secondary (V) axis. More...
 
void set_flag (PhysxMaterialFlag flag, bool value)
 Sets the value of a single flag. More...
 
void set_friction_combine_mode (PhysxCombineMode mode)
 Sets the friction combine mode. More...
 
void set_restitution (float rest)
 Sets the coefficient of restitution. More...
 
void set_restitution_combine_mode (PhysxCombineMode mode)
 Sets the restitution combine mode. More...
 
void set_static_friction (float coef)
 Sets the coefficient of static friction. More...
 
void set_static_friction_v (float coef)
 Sets the static friction coefficient along the secondary (V) axis. More...
 
void unlink ()
 
- Public Member Functions inherited from TypedReferenceCount
 TypedReferenceCount (const TypedReferenceCount &copy)
 
void operator= (const TypedReferenceCount &copy)
 
- Public Member Functions inherited from TypedObject
 TypedObject (const TypedObject &copy)=default
 
TypedObjectas_typed_object ()
 Returns the object, upcast (if necessary) to a TypedObject pointer. More...
 
const TypedObjectas_typed_object () const
 Returns the object, upcast (if necessary) to a TypedObject pointer. More...
 
int get_best_parent_from_Set (const std::set< int > &) const
 
int get_type_index () const
 Returns the internal index number associated with this object's TypeHandle, a unique number for each different type. More...
 
bool is_exact_type (TypeHandle handle) const
 Returns true if the current object is the indicated type exactly. More...
 
bool is_of_type (TypeHandle handle) const
 Returns true if the current object is or derives from the indicated type. More...
 
TypedObjectoperator= (const TypedObject &copy)=default
 
- Public Member Functions inherited from ReferenceCount
int get_ref_count () const
 
WeakReferenceListget_weak_list () const
 Returns the WeakReferenceList associated with this ReferenceCount object. More...
 
bool has_weak_list () const
 Returns true if this particular ReferenceCount object has a WeakReferenceList created, false otherwise. More...
 
void local_object ()
 This function should be called, once, immediately after creating a new instance of some ReferenceCount-derived object on the stack. More...
 
void ref () const
 Explicitly increments the reference count. More...
 
bool ref_if_nonzero () const
 Atomically increases the reference count of this object if it is not zero. More...
 
bool test_ref_count_integrity () const
 Does some easy checks to make sure that the reference count isn't completely bogus. More...
 
bool test_ref_count_nonzero () const
 Does some easy checks to make sure that the reference count isn't zero, or completely bogus. More...
 
virtual bool unref () const
 Explicitly decrements the reference count. More...
 
WeakReferenceListweak_ref ()
 Adds the indicated PointerToVoid as a weak reference to this object. More...
 
void weak_unref ()
 Removes the indicated PointerToVoid as a weak reference to this object. More...
 

Static Public Member Functions

static TypeHandle get_class_type ()
 
static void init_type ()
 
- Static Public Member Functions inherited from PhysxObject
static TypeHandle get_class_type ()
 
static void init_type ()
 
- Static Public Member Functions inherited from TypedReferenceCount
static TypeHandle get_class_type ()
 
static void init_type ()
 
- Static Public Member Functions inherited from TypedObject
static TypeHandle get_class_type ()
 
static void init_type ()
 This function is declared non-inline to work around a compiler bug in g++ 2.96. More...
 
- Static Public Member Functions inherited from ReferenceCount
static TypeHandle get_class_type ()
 
static void init_type ()
 

Additional Inherited Members

- Public Types inherited from PhysxEnums
enum  PhysxActorFlag {
  AF_disable_collision = NX_AF_DISABLE_COLLISION, AF_disable_response = NX_AF_DISABLE_RESPONSE, AF_lock_com = NX_AF_LOCK_COM, AF_fluid_disable_collision = NX_AF_FLUID_DISABLE_COLLISION,
  AF_contact_modification = NX_AF_CONTACT_MODIFICATION, AF_force_cone_friction = NX_AF_FORCE_CONE_FRICTION, AF_user_actor_pair_filtering = NX_AF_USER_ACTOR_PAIR_FILTERING
}
 
enum  PhysxBodyFlag {
  BF_disable_gravity = NX_BF_DISABLE_GRAVITY, Bf_frozen_pos_x = NX_BF_FROZEN_POS_X, BF_frozen_pos_y = NX_BF_FROZEN_POS_Y, BF_frozen_pos_z = NX_BF_FROZEN_POS_Z,
  BF_frozen_rot_x = NX_BF_FROZEN_ROT_X, BF_frozen_rot_y = NX_BF_FROZEN_ROT_Y, BF_frozen_rot_z = NX_BF_FROZEN_ROT_Z, BF_frozen_pos = NX_BF_FROZEN_POS,
  BF_frozen_rot = NX_BF_FROZEN_ROT, BF_frozen = NX_BF_FROZEN, BF_kinematic = NX_BF_KINEMATIC, BF_visualization = NX_BF_VISUALIZATION,
  BF_filter_sleep_vel = NX_BF_FILTER_SLEEP_VEL, BF_energy_sleep_test = NX_BF_ENERGY_SLEEP_TEST
}
 
enum  PhysxBroadPhaseType { BPT_sap_single = NX_BP_TYPE_SAP_SINGLE, BPT_sap_multi = NX_BP_TYPE_SAP_MULTI }
 
enum  PhysxClothFlag {
  CLF_pressure = NX_CLF_PRESSURE, CLF_static = NX_CLF_STATIC, CLF_disable_collision = NX_CLF_DISABLE_COLLISION, CLF_selfcollision = NX_CLF_SELFCOLLISION,
  CLF_visualization = NX_CLF_VISUALIZATION, CLF_gravity = NX_CLF_GRAVITY, CLF_bending = NX_CLF_BENDING, CLF_bending_ortho = NX_CLF_BENDING_ORTHO,
  CLF_damping = NX_CLF_DAMPING, CLF_collision_twoway = NX_CLF_COLLISION_TWOWAY, CLF_triangle_collision = NX_CLF_TRIANGLE_COLLISION, CLF_tearable = NX_CLF_TEARABLE,
  CLF_hardware = NX_CLF_HARDWARE, CLF_comdamping = NX_CLF_COMDAMPING, CLF_validbounds = NX_CLF_VALIDBOUNDS, CLF_fluid_collision = NX_CLF_FLUID_COLLISION,
  CLF_disable_dynamic_ccd = NX_CLF_DISABLE_DYNAMIC_CCD, CLF_adhere = NX_CLF_ADHERE
}
 
enum  PhysxCombineMode { CM_average = NX_CM_AVERAGE, CM_min = NX_CM_MIN, CM_multiply = NX_CM_MULTIPLY, CM_max = NX_CM_MAX }
 
enum  PhysxContactPairFlag {
  CPF_ignore_pair = NX_IGNORE_PAIR, CPF_notify_on_start_touch = NX_NOTIFY_ON_START_TOUCH, CPF_notify_on_end_touch = NX_NOTIFY_ON_END_TOUCH, CPF_notify_on_touch = NX_NOTIFY_ON_TOUCH,
  CPF_notify_on_impact = NX_NOTIFY_ON_IMPACT, CPF_notify_on_roll = NX_NOTIFY_ON_ROLL, CPF_notify_on_slide = NX_NOTIFY_ON_SLIDE, CPF_notify_forces = NX_NOTIFY_FORCES,
  CPF_notify_on_start_touch_threshold = NX_NOTIFY_ON_START_TOUCH_FORCE_THRESHOLD, CPF_notify_on_end_touch_threshold = NX_NOTIFY_ON_END_TOUCH_FORCE_THRESHOLD, CPF_notify_on_touch_threshold = NX_NOTIFY_ON_TOUCH_FORCE_THRESHOLD, CPF_notify_contact_modifications = NX_NOTIFY_CONTACT_MODIFICATION
}
 
enum  PhysxD6JointDriveType { D6_joint_drive_position = NX_D6JOINT_DRIVE_POSITION, D6_joint_drive_velocity = NX_D6JOINT_DRIVE_VELOCITY }
 
enum  PhysxD6JointFlag { D6_joint_slerp_drive = NX_D6JOINT_SLERP_DRIVE, D6_joint_gear_disabled = NX_D6JOINT_GEAR_ENABLED }
 
enum  PhysxD6JointMotion { D6_joint_motion_locked = NX_D6JOINT_MOTION_LOCKED, D6_joint_motion_limited = NX_D6JOINT_MOTION_LIMITED, D6_joint_motion_free = NX_D6JOINT_MOTION_FREE }
 
enum  PhysxDistanceJointFlag { DJF_max_distance_enabled = NX_DJF_MAX_DISTANCE_ENABLED, DJF_mix_distance_enabled = NX_DJF_MIN_DISTANCE_ENABLED, DJF_spring_enabled = NX_DJF_SPRING_ENABLED }
 
enum  PhysxFilterOp {
  FO_and = NX_FILTEROP_AND, FO_or = NX_FILTEROP_OR, FO_xor = NX_FILTEROP_XOR, FO_nand = NX_FILTEROP_NAND,
  FO_nor = NX_FILTEROP_NOR, FO_nxor = NX_FILTEROP_NXOR, FO_swap_and = NX_FILTEROP_SWAP_AND
}
 
enum  PhysxForceFieldCoordinates { FFC_cartesian, FFC_spherical, FFC_cylindrical, FFC_toroidal }
 
enum  PhysxForceFieldShapeGroupFlag { FFSG_exclude_group = NX_FFSG_EXCLUDE_GROUP }
 
enum  PhysxForceMode {
  FM_force = NX_FORCE, FM_impulse = NX_IMPULSE, FM_velocity_change = NX_VELOCITY_CHANGE, FM_smooth_impulse = NX_SMOOTH_IMPULSE,
  FM_smooth_velocity_change = NX_SMOOTH_VELOCITY_CHANGE, FM_acceleration = NX_ACCELERATION
}
 
enum  PhysxJointFlag { JF_collision_enabled = NX_JF_COLLISION_ENABLED, JF_visualization = NX_JF_VISUALIZATION }
 
enum  PhysxMaterialFlag { MF_anisotropic = NX_MF_ANISOTROPIC, MF_disable_friction = NX_MF_DISABLE_FRICTION, MF_disable_strong_friction = NX_MF_DISABLE_STRONG_FRICTION }
 
enum  PhysxParameter {
  P_penalty_force = NX_PENALTY_FORCE, P_skin_width = NX_SKIN_WIDTH, P_default_sleep_lin_vel_squared = NX_DEFAULT_SLEEP_LIN_VEL_SQUARED, P_default_sleep_ang_vel_squared = NX_DEFAULT_SLEEP_ANG_VEL_SQUARED,
  P_bounce_threshold = NX_BOUNCE_THRESHOLD, P_dyn_frict_scaling = NX_DYN_FRICT_SCALING, P_sta_frict_scaling = NX_STA_FRICT_SCALING, P_max_angular_velocity = NX_MAX_ANGULAR_VELOCITY,
  P_continuous_cd = NX_CONTINUOUS_CD, P_visualization_scale = NX_VISUALIZATION_SCALE, P_adaptive_force = NX_ADAPTIVE_FORCE, P_coll_veta_jointed = NX_COLL_VETO_JOINTED,
  P_trigger_trigger_callback = NX_TRIGGER_TRIGGER_CALLBACK, P_select_hw_algo = NX_SELECT_HW_ALGO, P_ccd_epsilon = NX_CCD_EPSILON, P_solver_convergence_threshold = NX_SOLVER_CONVERGENCE_THRESHOLD,
  P_bbox_noise_level = NX_BBOX_NOISE_LEVEL, P_implicit_sweep_cache_size = NX_IMPLICIT_SWEEP_CACHE_SIZE, P_default_sleep_energy = NX_DEFAULT_SLEEP_ENERGY, P_constant_fluid_max_packets = NX_CONSTANT_FLUID_MAX_PACKETS,
  P_constant_fluid_max_particles_per_step = NX_CONSTANT_FLUID_MAX_PARTICLES_PER_STEP, P_asynchronous_mesh_creation = NX_ASYNCHRONOUS_MESH_CREATION, P_force_field_custom_kernel_epsilon = NX_FORCE_FIELD_CUSTOM_KERNEL_EPSILON, P_improved_spring_solver = NX_IMPROVED_SPRING_SOLVER,
  P_visualize_world_axes = NX_VISUALIZE_WORLD_AXES, P_visualize_body_axes = NX_VISUALIZE_BODY_AXES, P_visualize_body_mass_axes = NX_VISUALIZE_BODY_MASS_AXES, P_visualize_body_lin_velocity = NX_VISUALIZE_BODY_LIN_VELOCITY,
  P_visualize_body_ang_velocity = NX_VISUALIZE_BODY_ANG_VELOCITY, P_visualize_body_joint_groups = NX_VISUALIZE_BODY_JOINT_GROUPS, P_visualize_joint_local_axes = NX_VISUALIZE_JOINT_LOCAL_AXES, P_visualize_joint_world_axes = NX_VISUALIZE_JOINT_WORLD_AXES,
  P_visualize_joint_limits = NX_VISUALIZE_JOINT_LIMITS, P_visualize_contact_point = NX_VISUALIZE_CONTACT_POINT, P_visualize_contact_normal = NX_VISUALIZE_CONTACT_NORMAL, P_visualize_contact_error = NX_VISUALIZE_CONTACT_ERROR,
  P_visualize_contact_force = NX_VISUALIZE_CONTACT_FORCE, P_visualize_actor_axes = NX_VISUALIZE_ACTOR_AXES, P_visualize_collision_aabbs = NX_VISUALIZE_COLLISION_AABBS, P_visualize_collision_shapes = NX_VISUALIZE_COLLISION_SHAPES,
  P_visualize_collision_axes = NX_VISUALIZE_COLLISION_AXES, P_visualize_collision_compounds = NX_VISUALIZE_COLLISION_COMPOUNDS, P_visualize_collision_vnormals = NX_VISUALIZE_COLLISION_VNORMALS, P_visualize_collision_fnormals = NX_VISUALIZE_COLLISION_FNORMALS,
  P_visualize_collision_edges = NX_VISUALIZE_COLLISION_EDGES, P_visualize_collision_spheres = NX_VISUALIZE_COLLISION_SPHERES, P_visualize_collision_static = NX_VISUALIZE_COLLISION_STATIC, P_visualize_collision_dynamic = NX_VISUALIZE_COLLISION_DYNAMIC,
  P_visualize_collision_free = NX_VISUALIZE_COLLISION_FREE, P_visualize_collision_ccd = NX_VISUALIZE_COLLISION_CCD, P_visualize_collision_skeletons = NX_VISUALIZE_COLLISION_SKELETONS, P_visualize_fluid_emitters = NX_VISUALIZE_FLUID_EMITTERS,
  P_visualize_fluid_position = NX_VISUALIZE_FLUID_POSITION, P_visualize_fluid_velocity = NX_VISUALIZE_FLUID_VELOCITY, P_visualize_fluid_kernel_radius = NX_VISUALIZE_FLUID_KERNEL_RADIUS, P_visualize_fluid_bounds = NX_VISUALIZE_FLUID_BOUNDS,
  P_visualize_fluid_packets = NX_VISUALIZE_FLUID_PACKETS, P_visualize_fluid_motion_limit = NX_VISUALIZE_FLUID_MOTION_LIMIT, P_visualize_fluid_dyn_collision = NX_VISUALIZE_FLUID_DYN_COLLISION, P_visualize_fluid_stc_collision = NX_VISUALIZE_FLUID_STC_COLLISION,
  P_visualize_fluid_mesh_packets = NX_VISUALIZE_FLUID_MESH_PACKETS, P_visualize_fluid_drains = NX_VISUALIZE_FLUID_DRAINS, P_visualize_fluid_packet_data = NX_VISUALIZE_FLUID_PACKET_DATA, P_visualize_cloth_mesh = NX_VISUALIZE_CLOTH_MESH,
  P_visualize_cloth_collisions = NX_VISUALIZE_CLOTH_COLLISIONS, P_visualize_cloth_selfcollisions = NX_VISUALIZE_CLOTH_SELFCOLLISIONS, P_visualize_cloth_workpackets = NX_VISUALIZE_CLOTH_WORKPACKETS, P_visualize_cloth_sleep = NX_VISUALIZE_CLOTH_SLEEP,
  P_visualize_cloth_sleep_vertex = NX_VISUALIZE_CLOTH_SLEEP_VERTEX, P_visualize_cloth_tearable_vertices = NX_VISUALIZE_CLOTH_TEARABLE_VERTICES, P_visualize_cloth_tearing = NX_VISUALIZE_CLOTH_TEARING, P_visualize_cloth_attachment = NX_VISUALIZE_CLOTH_ATTACHMENT,
  P_visualize_cloth_validbounds = NX_VISUALIZE_CLOTH_VALIDBOUNDS, P_visualize_softbody_mesh = NX_VISUALIZE_SOFTBODY_MESH, P_visualize_softbody_collisions = NX_VISUALIZE_SOFTBODY_COLLISIONS, P_visualize_softbody_workpackets = NX_VISUALIZE_SOFTBODY_WORKPACKETS,
  P_visualize_softbody_sleep = NX_VISUALIZE_SOFTBODY_SLEEP, P_visualize_softbody_sleep_vertex = NX_VISUALIZE_SOFTBODY_SLEEP_VERTEX, P_visualize_softbody_tearable_vertices = NX_VISUALIZE_SOFTBODY_TEARABLE_VERTICES, P_visualize_softbody_tearing = NX_VISUALIZE_SOFTBODY_TEARING,
  P_visualize_softbody_attachment = NX_VISUALIZE_SOFTBODY_ATTACHMENT, P_visualize_softbody_validbounds = NX_VISUALIZE_SOFTBODY_VALIDBOUNDS, P_visualize_active_vertices = NX_VISUALIZE_ACTIVE_VERTICES, P_visualize_force_fields = NX_VISUALIZE_FORCE_FIELDS
}
 
enum  PhysxProjectionMode { PM_none = NX_JPM_NONE, PM_point_mindist = NX_JPM_POINT_MINDIST, PM_linear_mindist = NX_JPM_LINEAR_MINDIST }
 
enum  PhysxPruningStructure {
  PS_none = NX_PRUNING_NONE, PS_octree = NX_PRUNING_OCTREE, PS_quadtree = NX_PRUNING_QUADTREE, PS_dynamic_aabb_tree = NX_PRUNING_DYNAMIC_AABB_TREE,
  PS_static_aabb_tree = NX_PRUNING_STATIC_AABB_TREE
}
 
enum  PhysxPulleyJointFlag { PJF_is_rigid = NX_PJF_IS_RIGID, PJF_motor_enabled = NX_PJF_MOTOR_ENABLED }
 
enum  PhysxRevoluteJointFlag { RJF_limit_enabled = NX_RJF_LIMIT_ENABLED, RJF_motor_enabled = NX_RJF_MOTOR_ENABLED, RJF_spring_enabled = NX_RJF_SPRING_ENABLED }
 
enum  PhysxSceneFlag {
  SF_disable_sse = NX_SF_DISABLE_SSE, SF_disable_collisions = NX_SF_DISABLE_COLLISIONS, SF_restricted_scene = NX_SF_RESTRICTED_SCENE, SF_disable_scene_mutex = NX_SF_DISABLE_SCENE_MUTEX,
  SF_force_cone_friction = NX_SF_FORCE_CONE_FRICTION, SF_sequential_primary = NX_SF_SEQUENTIAL_PRIMARY, SF_fluid_performance_hint = NX_SF_FLUID_PERFORMANCE_HINT
}
 
enum  PhysxShapeFlag {
  SF_trigger_on_enter = NX_TRIGGER_ON_ENTER, SF_trigger_on_leave = NX_TRIGGER_ON_LEAVE, SF_trigger_on_stay = NX_TRIGGER_ON_STAY, SF_trigger_enable = NX_TRIGGER_ENABLE,
  SF_visualization = NX_SF_VISUALIZATION, SF_disable_collision = NX_SF_DISABLE_COLLISION, SF_disable_raycasting = NX_SF_DISABLE_RAYCASTING, SF_disable_response = NX_SF_DISABLE_RESPONSE,
  SF_disable_scene_queries = NX_SF_DISABLE_SCENE_QUERIES, SF_point_contact_force = NX_SF_POINT_CONTACT_FORCE, SF_feature_indices = NX_SF_FEATURE_INDICES, SF_dynamic_dynamic_ccd = NX_SF_DYNAMIC_DYNAMIC_CCD,
  SF_fluid_drain = NX_SF_FLUID_DRAIN, SF_fluid_disable_collision = NX_SF_FLUID_DISABLE_COLLISION, SF_fluid_twoway = NX_SF_FLUID_TWOWAY, SF_cloth_drain = NX_SF_CLOTH_DRAIN,
  SF_cloth_disable_collision = NX_SF_CLOTH_DISABLE_COLLISION, SF_cloth_twoway = NX_SF_CLOTH_TWOWAY, SF_softbody_drain = NX_SF_SOFTBODY_DRAIN, SF_softbody_disable_collision = NX_SF_SOFTBODY_DISABLE_COLLISION,
  SF_softbody_twoway = NX_SF_SOFTBODY_TWOWAY
}
 
enum  PhysxShapesType { ST_static = NX_STATIC_SHAPES, ST_dynamic = NX_DYNAMIC_SHAPES, ST_all = NX_ALL_SHAPES }
 
enum  PhysxSoftBodyFlag {
  SBF_static = NX_SBF_STATIC, SBF_disable_collision = NX_SBF_DISABLE_COLLISION, SBF_selfcollision = NX_SBF_SELFCOLLISION, SBF_visualization = NX_SBF_VISUALIZATION,
  SBF_gravity = NX_SBF_GRAVITY, SBF_volume_conservtion = NX_SBF_VOLUME_CONSERVATION, SBF_damping = NX_SBF_DAMPING, SBF_collision_twoway = NX_SBF_COLLISION_TWOWAY,
  SBF_tearable = NX_SBF_TEARABLE, SBF_hardware = NX_SBF_HARDWARE, SBF_comdamping = NX_SBF_COMDAMPING, SBF_validbounds = NX_SBF_VALIDBOUNDS,
  SBF_fluid_collision = NX_SBF_FLUID_COLLISION, SBF_disable_dynamic_ccd = NX_SBF_DISABLE_DYNAMIC_CCD, SBF_adhere = NX_SBF_ADHERE
}
 
enum  PhysxSphericalJointFlag {
  SJF_twist_limit_enabled = NX_SJF_TWIST_LIMIT_ENABLED, SJF_swing_limit_enabled = NX_SJF_SWING_LIMIT_ENABLED, SJF_twist_spring_enabled = NX_SJF_TWIST_SPRING_ENABLED, SJF_swing_spring_enabled = NX_SJF_SWING_SPRING_ENABLED,
  SJF_joint_spring_enabled = NX_SJF_JOINT_SPRING_ENABLED, SJF_perpendicular_dir_constraints = NX_SJF_PERPENDICULAR_DIR_CONSTRAINTS
}
 
enum  PhysxUpAxis { X_up = NX_X, Y_up = NX_Y, Z_up = NX_Z }
 
enum  PhysxVertexAttachmentStatus { VAS_none = NX_CLOTH_VERTEX_ATTACHMENT_NONE, VAS_global = NX_CLOTH_VERTEX_ATTACHMENT_GLOBAL, VAS_shape = NX_CLOTH_VERTEX_ATTACHMENT_SHAPE }
 
enum  PhysxWheelFlag { WF_steerable_input = 1<<0, WF_steerable_auto = 1<<1, WF_affected_by_handbrake = 1<<2, WF_accelerated = 1<<3 }
 
enum  PhysxWheelShapeFlag {
  WSF_wheel_axis_contact_normal = NX_WF_WHEEL_AXIS_CONTACT_NORMAL, WSF_input_lat_slipvelocity = NX_WF_INPUT_LAT_SLIPVELOCITY, WSF_input_lng_slipvelocity = NX_WF_INPUT_LNG_SLIPVELOCITY, WSF_unscaled_spring_behavior = NX_WF_UNSCALED_SPRING_BEHAVIOR,
  WSF_axle_speed_override = NX_WF_AXLE_SPEED_OVERRIDE, WSF_emulate_legacy_wheel = NX_WF_EMULATE_LEGACY_WHEEL, WSF_clamped_friction = NX_WF_CLAMPED_FRICTION
}
 
- Public Attributes inherited from TypedObject
 get_type
 
- Public Attributes inherited from ReferenceCount
 get_ref_count
 Returns the current reference count. More...
 

Detailed Description

A class for describing a shape's surface properties.

You can create a material which has different friction coefficients depending on the direction that a body in contact is trying to move in. This is called anisotropic friction.

Anisotropic friction is useful for modeling things like sledges, skis etc

When you create an anisotropic material you specify the default friction parameters and also friction parameters for the V axis. The friction parameters for the V axis are applied to motion along the direction of anisotropy (dirOfAnisotropy).

Default material: You can change the properties of the default material by querying for material index 0.

Definition at line 44 of file physxMaterial.h.

Member Function Documentation

◆ get_dir_of_anisotropy()

LVector3f PhysxMaterial::get_dir_of_anisotropy ( ) const

Returns the direction of anisotropy value.

Definition at line 267 of file physxMaterial.cxx.

◆ get_dynamic_friction()

float PhysxMaterial::get_dynamic_friction ( ) const

Returns the DynamicFriction value.

Definition at line 173 of file physxMaterial.cxx.

◆ get_dynamic_friction_v()

float PhysxMaterial::get_dynamic_friction_v ( ) const

Returns the dynamic friction coefficient for the V direction.

Definition at line 217 of file physxMaterial.cxx.

◆ get_flag()

bool PhysxMaterial::get_flag ( PhysxMaterialFlag  flag) const

Returns the value of a single flag.

Definition at line 246 of file physxMaterial.cxx.

◆ get_friction_combine_mode()

PhysxEnums::PhysxCombineMode PhysxMaterial::get_friction_combine_mode ( ) const

Returns the friction combine mode.

Definition at line 289 of file physxMaterial.cxx.

◆ get_material_index()

unsigned short PhysxMaterial::get_material_index ( ) const

Returns the material index for this material.

Materials are associated with mesh faces and shapes using material index identifiers.

If you release a material while its material index is still in use by shapes or meshes, the material usage of these objects becomes undefined as the material index gets recycled.

Definition at line 83 of file physxMaterial.cxx.

◆ get_restitution()

float PhysxMaterial::get_restitution ( ) const

Returns the coefficient of restitution.

Definition at line 126 of file physxMaterial.cxx.

◆ get_restitution_combine_mode()

PhysxEnums::PhysxCombineMode PhysxMaterial::get_restitution_combine_mode ( ) const

Returns the restitution combine mode.

Definition at line 311 of file physxMaterial.cxx.

◆ get_scene()

PhysxScene * PhysxMaterial::get_scene ( ) const

Returns the scene that owns this material.

Definition at line 66 of file physxMaterial.cxx.

◆ get_static_friction()

float PhysxMaterial::get_static_friction ( ) const

Returns the coefficient of static friction.

Definition at line 149 of file physxMaterial.cxx.

◆ get_static_friction_v()

float PhysxMaterial::get_static_friction_v ( ) const

Returns the static friction coefficient for the V direction.

Definition at line 195 of file physxMaterial.cxx.

◆ load_from_desc()

void PhysxMaterial::load_from_desc ( const PhysxMaterialDesc materialDesc)

Loads the entire state of the material from a descriptor with a single call.

Definition at line 94 of file physxMaterial.cxx.

◆ save_to_desc()

void PhysxMaterial::save_to_desc ( PhysxMaterialDesc materialDesc) const

Saves the state of the material object to a descriptor.

Definition at line 104 of file physxMaterial.cxx.

◆ set_dir_of_anisotropy()

void PhysxMaterial::set_dir_of_anisotropy ( const LVector3f  dir)

Sets the shape space direction (unit vector) of anisotropy.

This is only used if the flag MF_anisotropic is set.

Definition at line 257 of file physxMaterial.cxx.

◆ set_dynamic_friction()

void PhysxMaterial::set_dynamic_friction ( float  coef)

Sets the coefficient of dynamic friction.

The coefficient of dynamic friction should be in [0, +inf]. If set to greater than staticFriction, the effective value of staticFriction will be increased to match. If the flag MF_anisotropic is set, then this value is used for the primary direction of anisotropy (U axis).

Definition at line 163 of file physxMaterial.cxx.

◆ set_dynamic_friction_v()

void PhysxMaterial::set_dynamic_friction_v ( float  coef)

Sets the dynamic friction coefficient along the secondary (V) axis.

This is used when anisotropic friction is being applied. I.e. the flag MF_anisotropic is set.

Definition at line 207 of file physxMaterial.cxx.

◆ set_flag()

void PhysxMaterial::set_flag ( PhysxMaterialFlag  flag,
bool  value 
)

Sets the value of a single flag.

Definition at line 227 of file physxMaterial.cxx.

◆ set_friction_combine_mode()

void PhysxMaterial::set_friction_combine_mode ( PhysxCombineMode  mode)

Sets the friction combine mode.

  • CM_average : Average: (a + b)/2. - CM_min : Minimum: min(a,b). - CM_multiply : Multiply: a*b. - CM_max : Maximum: max(a,b).

Definition at line 279 of file physxMaterial.cxx.

◆ set_restitution()

void PhysxMaterial::set_restitution ( float  restitution)

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.

Definition at line 116 of file physxMaterial.cxx.

◆ set_restitution_combine_mode()

void PhysxMaterial::set_restitution_combine_mode ( PhysxCombineMode  mode)

Sets the restitution combine mode.

  • CM_average : Average: (a + b)/2. - CM_min : Minimum: min(a,b). - CM_multiply : Multiply: a*b. - CM_max : Maximum: max(a,b).

Definition at line 301 of file physxMaterial.cxx.

◆ set_static_friction()

void PhysxMaterial::set_static_friction ( float  coef)

Sets the coefficient of static friction.

The coefficient of static friction should be in the range [0, +inf]. If the flag MF_anisotropic is set, then this value is used for the primary direction of anisotropy (U axis).

Definition at line 139 of file physxMaterial.cxx.

◆ set_static_friction_v()

void PhysxMaterial::set_static_friction_v ( float  coef)

Sets the static friction coefficient along the secondary (V) axis.

This is used when anisotropic friction is being applied. I.e. the flag MF_anisotropic is set.

Definition at line 185 of file physxMaterial.cxx.


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