Panda3D
Public Member Functions | Public Attributes | List of all members
PhysxMaterialDesc Class Reference

Descriptor class for materials. More...

#include "physxMaterialDesc.h"

Inheritance diagram for PhysxMaterialDesc:
PhysxEnums

Public Member Functions

LVector3f get_dir_of_anisotropy () const
 Returns the shape space direction (unit vector) of anisotropy. More...
 
float get_dynamic_friction () const
 Returns the coefficient of dynamic friction. More...
 
float get_dynamic_friction_v () const
 Returns the anisotropic dynamic friction coefficient for along the secondary (V) axis of anisotropy. More...
 
bool get_flag (PhysxMaterialFlag flag) const
 Returns flags which control the behavior of a material. More...
 
PhysxCombineMode get_friction_combine_mode () const
 Returns the friction combine mode. More...
 
float get_restitution () const
 Returns the coefficient of restitution. More...
 
PhysxCombineMode get_restitution_combine_mode () const
 Returns the restitution combine mode. More...
 
float get_static_friction () const
 Retruns the coefficient of static friction. More...
 
float get_static_friction_v () const
 Returns the anisotropic static friction coefficient for along the secondary (V) axis of anisotropy. More...
 
bool is_valid () const
 Returns true if the descriptor is valid. 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 – should be in [0, +inf]. More...
 
void set_dynamic_friction_v (float coef)
 Sets the anisotropic dynamic friction coefficient for along the secondary (V) axis of anisotropy. More...
 
void set_flag (PhysxMaterialFlag flag, bool value)
 Sets flags which control the behavior of a material. More...
 
void set_friction_combine_mode (PhysxCombineMode mode)
 Sets the friction combine mode. More...
 
void set_restitution (float rest)
 Sets the coefficient of restitution – 0 makes the object bounce as little as possible, higher values up to 1.0 result in more bounce. 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 – should be in [0, +inf]. More...
 
void set_static_friction_v (float coef)
 Sets the anisotropic static friction coefficient for along the secondary (V) axis of anisotropy. More...
 
void set_to_default ()
 (re)sets the structure to the default. More...
 

Public Attributes

NxMaterialDesc _desc
 

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
}
 

Detailed Description

Descriptor class for materials.

See PhysxMaterial.

Definition at line 25 of file physxMaterialDesc.h.

Member Function Documentation

◆ get_dir_of_anisotropy()

LVector3f PhysxMaterialDesc::get_dir_of_anisotropy ( ) const

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

Definition at line 180 of file physxMaterialDesc.cxx.

References PhysxManager::nxVec3_to_vec3().

◆ get_dynamic_friction()

float PhysxMaterialDesc::get_dynamic_friction ( ) const

Returns the coefficient of dynamic friction.

Definition at line 142 of file physxMaterialDesc.cxx.

◆ get_dynamic_friction_v()

float PhysxMaterialDesc::get_dynamic_friction_v ( ) const

Returns the anisotropic dynamic friction coefficient for along the secondary (V) axis of anisotropy.

Definition at line 162 of file physxMaterialDesc.cxx.

◆ get_flag()

bool PhysxMaterialDesc::get_flag ( PhysxMaterialFlag  flag) const

Returns flags which control the behavior of a material.

Definition at line 171 of file physxMaterialDesc.cxx.

◆ get_friction_combine_mode()

PhysxEnums::PhysxCombineMode PhysxMaterialDesc::get_friction_combine_mode ( ) const

Returns the friction combine mode.

Definition at line 189 of file physxMaterialDesc.cxx.

◆ get_restitution()

float PhysxMaterialDesc::get_restitution ( ) const

Returns the coefficient of restitution.

Definition at line 124 of file physxMaterialDesc.cxx.

◆ get_restitution_combine_mode()

PhysxEnums::PhysxCombineMode PhysxMaterialDesc::get_restitution_combine_mode ( ) const

Returns the restitution combine mode.

Definition at line 198 of file physxMaterialDesc.cxx.

◆ get_static_friction()

float PhysxMaterialDesc::get_static_friction ( ) const

Retruns the coefficient of static friction.

Definition at line 133 of file physxMaterialDesc.cxx.

◆ get_static_friction_v()

float PhysxMaterialDesc::get_static_friction_v ( ) const

Returns the anisotropic static friction coefficient for along the secondary (V) axis of anisotropy.

Definition at line 152 of file physxMaterialDesc.cxx.

◆ is_valid()

bool PhysxMaterialDesc::is_valid ( ) const
inline

Returns true if the descriptor is valid.

Definition at line 43 of file physxMaterialDesc.I.

◆ set_dir_of_anisotropy()

void PhysxMaterialDesc::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 93 of file physxMaterialDesc.cxx.

References PhysxManager::vec3_to_nxVec3().

◆ set_dynamic_friction()

void PhysxMaterialDesc::set_dynamic_friction ( float  coef)

Sets 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 47 of file physxMaterialDesc.cxx.

◆ set_dynamic_friction_v()

void PhysxMaterialDesc::set_dynamic_friction_v ( float  coef)

Sets the anisotropic dynamic friction coefficient for along the secondary (V) axis of anisotropy.

This is only used if the flag MF_anisotropic is set.

Definition at line 69 of file physxMaterialDesc.cxx.

◆ set_flag()

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

Sets flags which control the behavior of a material.

Definition at line 78 of file physxMaterialDesc.cxx.

◆ set_friction_combine_mode()

void PhysxMaterialDesc::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 104 of file physxMaterialDesc.cxx.

◆ set_restitution()

void PhysxMaterialDesc::set_restitution ( float  restitution)

Sets the coefficient of restitution – 0 makes the object bounce as little as possible, higher values up to 1.0 result in more bounce.

Note that values close to or above 1 may cause stability problems and/or increasing energy. Range: [0,1] Default: 0.0

Definition at line 24 of file physxMaterialDesc.cxx.

◆ set_restitution_combine_mode()

void PhysxMaterialDesc::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 115 of file physxMaterialDesc.cxx.

◆ set_static_friction()

void PhysxMaterialDesc::set_static_friction ( float  coef)

Sets the coefficient of static friction – should be in [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 35 of file physxMaterialDesc.cxx.

◆ set_static_friction_v()

void PhysxMaterialDesc::set_static_friction_v ( float  coef)

Sets the anisotropic static friction coefficient for along the secondary (V) axis of anisotropy.

This is only used if the flag MF_anisotropic is set.

Definition at line 58 of file physxMaterialDesc.cxx.

◆ set_to_default()

void PhysxMaterialDesc::set_to_default ( )
inline

(re)sets the structure to the default.

Definition at line 34 of file physxMaterialDesc.I.


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